Saving parameter file to chains_burnin/param_WMAPLFI_burnin.txt --------------------------------------------------------------------- | Commander3 | --------------------------------------------------------------------- | Regime: Data Processing | | Number of chains = 1 | | Number of processors in first chain = 128 | | | --------------------------------------------------------------------- | Reading data set 1 : 030 | Min/Max core weight = 0.804631059547236 1.00419235516316 | Myid = 0 -- nscan = 248, TOD IO time = 59.1 sec | Min/mean/max TOD-map f_sky = 6.946119 12.66586 17.09169 | Reading data set 2 : 044 | Min/Max core weight = 0.799601481879059 1.00470764178589 | Myid = 0 -- nscan = 278, TOD IO time = 66.9 sec | Min/mean/max TOD-map f_sky = 20.78638 33.42911 39.54973 | Reading data set 3 : 070 | Min/Max core weight = 0.670339955929769 1.04110527590303 | Myid = 0 -- nscan = 222, TOD IO time = 154.0 sec | Min/mean/max TOD-map f_sky = 8.174443 19.71888 28.43405 | Reading data set 4 : 857 | Warning: TOD analysis enabled for TOD type "none" | Reading data set 5 : 0.4-Haslam | Warning: TOD analysis enabled for TOD type "none" | Reading data set 6 : 353 | Warning: TOD analysis enabled for TOD type "none" | Reading data set 7 : 023-WMAP_K | Min/Max core weight = 0.985328084986616 1.06146136307042 | Myid = 0 -- nscan = 7, TOD IO time = 11.3 sec | Min/mean/max TOD-map f_sky = 81.46842 94.51096 100.0000 | Reading data set 8 : 030-WMAP_Ka | Min/Max core weight = 0.980485956252940 1.05202896711572 | Myid = 0 -- nscan = 7, TOD IO time = 11.6 sec | Min/mean/max TOD-map f_sky = 77.25903 94.75462 99.99988 | Reading data set 9 : 040-WMAP_Q1 | Min/Max core weight = 0.985895963526993 1.04571330674878 | Myid = 0 -- nscan = 9, TOD IO time = 14.8 sec | Min/mean/max TOD-map f_sky = 88.66586 97.01740 100.0000 | Reading data set 10 : 040-WMAP_Q2 | Min/Max core weight = 0.982048621054652 1.04813610854600 | Myid = 0 -- nscan = 9, TOD IO time = 12.5 sec | Min/mean/max TOD-map f_sky = 88.60791 96.63203 100.0000 | Reading data set 11 : 060-WMAP_V1 | Min/Max core weight = 0.938559959366478 1.04733260884662 | Myid = 0 -- nscan = 5, TOD IO time = 23.7 sec | Min/mean/max TOD-map f_sky = 71.33195 93.16026 100.0000 | Reading data set 12 : 060-WMAP_V2 | Min/Max core weight = 0.896409450548888 1.02300741180034 | Myid = 0 -- nscan = 5, TOD IO time = 10.4 sec | Min/mean/max TOD-map f_sky = 72.81406 92.61703 100.0000 | Reading data set 13 : 090-WMAP_W1 | Min/Max core weight = 0.981665169897737 1.04339505187218 | Myid = 0 -- nscan = 9, TOD IO time = 15.8 sec | Min/mean/max TOD-map f_sky = 92.61134 97.95747 100.0000 | Reading data set 14 : 090-WMAP_W2 | Min/Max core weight = 0.984507208560500 1.04640562588965 | Myid = 0 -- nscan = 9, TOD IO time = 14.1 sec | Min/mean/max TOD-map f_sky = 85.84191 97.46658 100.0000 | Reading data set 15 : 090-WMAP_W3 | Min/Max core weight = 0.984180487375579 1.04691231662579 | Myid = 0 -- nscan = 9, TOD IO time = 15.2 sec | Min/mean/max TOD-map f_sky = 85.54198 97.50031 100.0000 | Reading data set 16 : 090-WMAP_W4 | Min/Max core weight = 0.983413385021681 1.04584966651287 | Myid = 0 -- nscan = 9, TOD IO time = 14.9 sec | Min/mean/max TOD-map f_sky = 87.87098 97.36584 100.0000 | Initializing component 1 : cmb | Initializing component 2 : synch | Initializing component 3 : dust | Initializing component 4 : md | Initializing component 5 : radio | Initializing src no. 1000 of 12192 | Initializing src no. 2000 of 12192 | Initializing src no. 3000 of 12192 | Initializing src no. 4000 of 12192 | Initializing src no. 5000 of 12192 | Initializing src no. 6000 of 12192 | Initializing src no. 7000 of 12192 | Initializing src no. 8000 of 12192 | Initializing src no. 9000 of 12192 | Initializing src no. 10000 of 12192 | Initializing src no. 11000 of 12192 | Initializing src no. 12000 of 12192 | Initializing component 6 : ff | Initializing component 7 : ame | Initializing component 8 : relquad | Initializing from chain = cmb | Initializing from chain = synch | Initializing from chain = dust | Initializing from chain = 030 | Initializing from chain = 044 | Initializing from chain = 070 | Initializing from chain = 353 | Initializing from chain = 857 | Initializing from chain = 0.4-Haslam | Initializing from chain = 030-WMAP_Ka | Initializing from chain = 040-WMAP_Q1 | Initializing from chain = 040-WMAP_Q2 | Initializing from chain = 060-WMAP_V1 | Initializing from chain = 060-WMAP_V2 | Initializing from chain = 023-WMAP_K | Initializing from chain = 090-WMAP_W1 | Initializing from chain = 090-WMAP_W2 | Initializing from chain = 090-WMAP_W3 | Initializing from chain = 090-WMAP_W4 | Initializing from chain = radio | Initializing from chain = ff | Initializing from chain = ame | Initializing TOD par from chain = 030 | Initializing TOD par from chain = 044 | Initializing TOD par from chain = 070 | Initializing TOD par from chain = 023-WMAP_K | Initializing TOD par from chain = 030-WMAP_Ka | Initializing TOD par from chain = 040-WMAP_Q1 | Initializing TOD par from chain = 040-WMAP_Q2 | Initializing TOD par from chain = 060-WMAP_V1 | Initializing TOD par from chain = 060-WMAP_V2 | Initializing TOD par from chain = 090-WMAP_W1 | Initializing TOD par from chain = 090-WMAP_W2 | Initializing TOD par from chain = 090-WMAP_W3 | Initializing TOD par from chain = 090-WMAP_W4 --------------------------------------------------------------------- | Time to read data = 973.317 sec | Starting Gibbs sampling | Continuing chain 0001 on iteration 145 | Initializing from chain = cmb | Initializing from chain = synch | Initializing from chain = dust | Initializing from chain = 030 | Initializing from chain = 044 | Initializing from chain = 070 | Initializing from chain = 353 | Initializing from chain = 857 | Initializing from chain = 0.4-Haslam | Initializing from chain = 030-WMAP_Ka | Initializing from chain = 040-WMAP_Q1 | Initializing from chain = 040-WMAP_Q2 | Initializing from chain = 060-WMAP_V1 | Initializing from chain = 060-WMAP_V2 | Initializing from chain = 023-WMAP_K | Initializing from chain = 090-WMAP_W1 | Initializing from chain = 090-WMAP_W2 | Initializing from chain = 090-WMAP_W3 | Initializing from chain = 090-WMAP_W4 | Initializing from chain = radio | Initializing from chain = ff | Initializing from chain = ame | Initializing from chain = relquad | Initializing TOD par from chain = 030 | Initializing TOD par from chain = 044 | Initializing TOD par from chain = 070 | Initializing TOD par from chain = 023-WMAP_K | Initializing TOD par from chain = 030-WMAP_Ka | Initializing TOD par from chain = 040-WMAP_Q1 | Initializing TOD par from chain = 040-WMAP_Q2 | Initializing TOD par from chain = 060-WMAP_V1 | Initializing TOD par from chain = 060-WMAP_V2 | Initializing TOD par from chain = 090-WMAP_W1 | Initializing TOD par from chain = 090-WMAP_W2 | Initializing TOD par from chain = 090-WMAP_W3 | Initializing TOD par from chain = 090-WMAP_W4 Available RAM: MemAvailable: 1210042336 kB Available Swap: SwapFree: 2107331948 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 146 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | Reading L2 from data/precomp_L2_030.h5 | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446480 | --> Sampling calibration, mode = relcal | relcal = 1.3444119E-02 7.3346292E-04 -1.6101591E-03 -1.2567422E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1186771 0.1415475 9408298.53125317 | BP delta = 0.1186771 0.1352345 9408298.48711654 | BP chisq diff = -0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | Reading L2 from data/precomp_L2_044.h5 | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632182 | --> Sampling calibration, mode = relcal | relcal = -2.8204278E-03 -7.0333062E-04 1.6772533E-03 1.6136055E-03 -4.0701425E-04 6.3991389E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5862393 15217009.3421334 | BP delta = 0.0000000E+00 -0.5899579 15217008.0158449 | BP chisq diff = -1.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | Reading L2 from data/precomp_L2_070.h5 | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103507 | --> Sampling calibration, mode = relcal | relcal = 3.7081406E-02 1.3726861E-02 5.7519400E-03 -7.1651898E-03 8.2409056E-03 2.3963782E-03 -7.6022921E-03 -7.1817483E-03 -1.5305534E-02 -1.4799717E-02 -3.0511953E-03 -1.2091813E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.295810 132209749.533277 | BP delta = 0.0000000E+00 -1.293916 132209740.047114 | BP chisq diff = -9.5, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18025801946599 | --> Sampling calibration, mode = relcal | relcal = -7.3489793E-02 -5.7519600E-02 9.0369098E-02 4.0640295E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8131786E-04 2.6287585E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2557E-03 | 2: delta_r/delta_0: 2.5090E-05 | 3: delta_s/delta_0: 2.4345E-07 | 4: delta_r/delta_0: 3.6382E-08 | 5: delta_s/delta_0: 1.6658E-07 | 6: delta_r/delta_0: 3.0897E-08 | 7: delta_s/delta_0: 1.1390E-09 | 8: delta_r/delta_0: 3.8664E-10 | 9: delta_s/delta_0: 3.8585E-10 | 10: delta_r/delta_0: 2.5583E-10 | 11: delta_s/delta_0: 4.6376E-10 | 12: delta_r/delta_0: 1.9424E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.963536075743147E-003 2.743037016540988E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2559E-03 | 2: delta_r/delta_0: 2.5098E-05 | 3: delta_s/delta_0: 2.4341E-07 | 4: delta_r/delta_0: 3.6375E-08 | 5: delta_s/delta_0: 1.6634E-07 | 6: delta_r/delta_0: 3.0863E-08 | 7: delta_s/delta_0: 1.1390E-09 | 8: delta_r/delta_0: 3.8649E-10 | 9: delta_s/delta_0: 3.8569E-10 | 10: delta_r/delta_0: 2.5569E-10 | 11: delta_s/delta_0: 4.6383E-10 | 12: delta_r/delta_0: 1.9412E-11 | Reached bicg-stab tolerance | BP delta = 2.4860906E-03 1.6113650E-02 3740298.86389019 | BP delta = 2.4860906E-03 1.6381282E-02 3736467.70327737 | BP chisq diff = -3831.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02557960 | --> Sampling calibration, mode = relcal | relcal = -0.1066776 -9.5501482E-02 0.1448830 5.7296030E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7581563E-03 1.6483725E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8342E-05 | 2: delta_r/delta_0: 1.3137E-06 | 3: delta_s/delta_0: 2.4107E-07 | 4: delta_r/delta_0: 5.6403E-08 | 5: delta_s/delta_0: 1.7328E-08 | 6: delta_r/delta_0: 7.7882E-09 | 7: delta_s/delta_0: 1.0951E-08 | 8: delta_r/delta_0: 1.3515E-09 | 9: delta_s/delta_0: 1.1445E-09 | 10: delta_r/delta_0: 3.4269E-10 | 11: delta_s/delta_0: 2.1026E-09 | 12: delta_r/delta_0: 2.8906E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.823973130665683E-003 2.811974853368545E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.8343E-05 | 2: delta_r/delta_0: 1.3137E-06 | 3: delta_s/delta_0: 2.4108E-07 | 4: delta_r/delta_0: 5.6412E-08 | 5: delta_s/delta_0: 1.7326E-08 | 6: delta_r/delta_0: 7.7892E-09 | 7: delta_s/delta_0: 1.0955E-08 | 8: delta_r/delta_0: 1.3516E-09 | 9: delta_s/delta_0: 1.1445E-09 | 10: delta_r/delta_0: 3.4276E-10 | 11: delta_s/delta_0: 2.1025E-09 | 12: delta_r/delta_0: 2.8916E-11 | Reached bicg-stab tolerance | BP delta = -0.2700851 -0.2468365 2841464.91071136 | BP delta = -0.2700851 -0.2497129 2841468.54268949 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81188089 | --> Sampling calibration, mode = relcal | relcal = 0.2953093 0.2247173 -0.2836432 -0.2363833 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.6080194E-04 4.2077499E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9310E-04 | 2: delta_r/delta_0: 9.6323E-06 | 3: delta_s/delta_0: 2.4475E-05 | 4: delta_r/delta_0: 1.6884E-06 | 5: delta_s/delta_0: 2.4845E-07 | 6: delta_r/delta_0: 1.2188E-07 | 7: delta_s/delta_0: 2.8920E-07 | 8: delta_r/delta_0: 3.1952E-08 | 9: delta_s/delta_0: 1.4884E-07 | 10: delta_r/delta_0: 1.3034E-08 | 11: delta_s/delta_0: 1.5276E-09 | 12: delta_r/delta_0: 8.9331E-10 | 13: delta_s/delta_0: 1.8014E-09 | 14: delta_r/delta_0: 1.7049E-10 | 15: delta_s/delta_0: 6.5677E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.118016313394871E-002 4.023376355357026E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.9310E-04 | 2: delta_r/delta_0: 9.6324E-06 | 3: delta_s/delta_0: 2.4475E-05 | 4: delta_r/delta_0: 1.6884E-06 | 5: delta_s/delta_0: 2.4845E-07 | 6: delta_r/delta_0: 1.2188E-07 | 7: delta_s/delta_0: 2.8918E-07 | 8: delta_r/delta_0: 3.1952E-08 | 9: delta_s/delta_0: 1.4883E-07 | 10: delta_r/delta_0: 1.3032E-08 | 11: delta_s/delta_0: 1.5276E-09 | 12: delta_r/delta_0: 8.9331E-10 | 13: delta_s/delta_0: 1.8012E-09 | 14: delta_r/delta_0: 1.7050E-10 | 15: delta_s/delta_0: 6.5677E-11 | Reached bicg-stab tolerance | BP delta = -0.2090030 -0.2317342 2827419.65768149 | BP delta = -0.2090030 -0.2268784 2827420.17058139 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95861710 | --> Sampling calibration, mode = relcal | relcal = 0.1063297 0.1394618 -0.1101055 -0.1356861 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1057094E-03 1.2731398E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9636E-04 | 2: delta_r/delta_0: 7.4363E-06 | 3: delta_s/delta_0: 8.9051E-05 | 4: delta_r/delta_0: 3.9818E-06 | 5: delta_s/delta_0: 2.3019E-07 | 6: delta_r/delta_0: 1.0858E-07 | 7: delta_s/delta_0: 3.5134E-07 | 8: delta_r/delta_0: 3.2875E-08 | 9: delta_s/delta_0: 8.7462E-09 | 10: delta_r/delta_0: 5.7234E-09 | 11: delta_s/delta_0: 1.5536E-09 | 12: delta_r/delta_0: 1.1949E-09 | 13: delta_s/delta_0: 1.9802E-10 | 14: delta_r/delta_0: 1.5480E-10 | 15: delta_s/delta_0: 3.0376E-10 | 16: delta_r/delta_0: 2.7724E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.082594590359124E-002 3.699239483307748E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.9637E-04 | 2: delta_r/delta_0: 7.4364E-06 | 3: delta_s/delta_0: 8.9058E-05 | 4: delta_r/delta_0: 3.9822E-06 | 5: delta_s/delta_0: 2.3020E-07 | 6: delta_r/delta_0: 1.0858E-07 | 7: delta_s/delta_0: 3.5151E-07 | 8: delta_r/delta_0: 3.2875E-08 | 9: delta_s/delta_0: 8.7460E-09 | 10: delta_r/delta_0: 5.7239E-09 | 11: delta_s/delta_0: 1.5536E-09 | 12: delta_r/delta_0: 1.1949E-09 | 13: delta_s/delta_0: 1.9801E-10 | 14: delta_r/delta_0: 1.5482E-10 | 15: delta_s/delta_0: 3.0369E-10 | 16: delta_r/delta_0: 2.7737E-11 | Reached bicg-stab tolerance | BP delta = 7.6172635E-02 0.1822038 3003726.71294506 | BP delta = 7.6172635E-02 0.1780537 3003724.64325373 | BP chisq diff = -2.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52169387 | --> Sampling calibration, mode = relcal | relcal = -5.1107846E-02 -3.7222852E-03 2.7328832E-02 2.7501300E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.8926729E-04 1.7204380E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6746E-05 | 2: delta_r/delta_0: 4.5707E-06 | 3: delta_s/delta_0: 2.9977E-06 | 4: delta_r/delta_0: 1.7536E-07 | 5: delta_s/delta_0: 5.5333E-08 | 6: delta_r/delta_0: 2.8801E-08 | 7: delta_s/delta_0: 2.3973E-08 | 8: delta_r/delta_0: 9.3104E-09 | 9: delta_s/delta_0: 5.3694E-09 | 10: delta_r/delta_0: 1.1364E-09 | 11: delta_s/delta_0: 4.3837E-09 | 12: delta_r/delta_0: 2.3283E-09 | 13: delta_s/delta_0: 4.6175E-10 | 14: delta_r/delta_0: 2.1769E-10 | 15: delta_s/delta_0: 7.6663E-10 | 16: delta_r/delta_0: 8.1250E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.183525944072445E-002 5.482082517836184E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6746E-05 | 2: delta_r/delta_0: 4.5707E-06 | 3: delta_s/delta_0: 2.9977E-06 | 4: delta_r/delta_0: 1.7536E-07 | 5: delta_s/delta_0: 5.5333E-08 | 6: delta_r/delta_0: 2.8801E-08 | 7: delta_s/delta_0: 2.3974E-08 | 8: delta_r/delta_0: 9.3105E-09 | 9: delta_s/delta_0: 5.3693E-09 | 10: delta_r/delta_0: 1.1364E-09 | 11: delta_s/delta_0: 4.3931E-09 | 12: delta_r/delta_0: 2.3320E-09 | 13: delta_s/delta_0: 4.6197E-10 | 14: delta_r/delta_0: 2.1781E-10 | 15: delta_s/delta_0: 7.6644E-10 | 16: delta_r/delta_0: 8.1371E-11 | Reached bicg-stab tolerance | BP delta = 5.0515492E-02 0.1386393 2434666.77860406 | BP delta = 5.0515492E-02 0.1328495 2434666.95610215 | BP chisq diff = 0.2, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42166212 | --> Sampling calibration, mode = relcal | relcal = 4.5633469E-02 3.9684307E-02 -2.8356496E-02 -5.6961279E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9027059E-03 5.3308359E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0327E-05 | 2: delta_r/delta_0: 3.2713E-06 | 3: delta_s/delta_0: 1.8840E-06 | 4: delta_r/delta_0: 2.4017E-07 | 5: delta_s/delta_0: 6.5285E-08 | 6: delta_r/delta_0: 3.4486E-08 | 7: delta_s/delta_0: 3.9246E-07 | 8: delta_r/delta_0: 5.9057E-09 | 9: delta_s/delta_0: 2.7638E-09 | 10: delta_r/delta_0: 1.3303E-09 | 11: delta_s/delta_0: 6.0300E-09 | 12: delta_r/delta_0: 1.5898E-09 | 13: delta_s/delta_0: 2.7259E-10 | 14: delta_r/delta_0: 7.8007E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.415982354755397E-002 4.994800389112529E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.0326E-05 | 2: delta_r/delta_0: 3.2713E-06 | 3: delta_s/delta_0: 1.8840E-06 | 4: delta_r/delta_0: 2.4017E-07 | 5: delta_s/delta_0: 6.5287E-08 | 6: delta_r/delta_0: 3.4487E-08 | 7: delta_s/delta_0: 3.9261E-07 | 8: delta_r/delta_0: 5.9067E-09 | 9: delta_s/delta_0: 2.7641E-09 | 10: delta_r/delta_0: 1.3303E-09 | 11: delta_s/delta_0: 6.0204E-09 | 12: delta_r/delta_0: 1.5892E-09 | 13: delta_s/delta_0: 2.7236E-10 | 14: delta_r/delta_0: 7.7774E-11 | Reached bicg-stab tolerance | BP delta = -5.0548483E-02 -0.1615658 2322130.50778762 | BP delta = -5.0548483E-02 -0.1500673 2322127.86881608 | BP chisq diff = -2.6, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28182215 | --> Sampling calibration, mode = relcal | relcal = 2.4134006E-02 4.5132194E-02 -2.3344111E-02 -4.5922089E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4011980E-02 4.7231098E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0828E-04 | 2: delta_r/delta_0: 8.8354E-06 | 3: delta_s/delta_0: 1.4496E-06 | 4: delta_r/delta_0: 2.0187E-07 | 5: delta_s/delta_0: 7.4320E-08 | 6: delta_r/delta_0: 1.8006E-08 | 7: delta_s/delta_0: 8.5565E-09 | 8: delta_r/delta_0: 5.4333E-09 | 9: delta_s/delta_0: 3.9425E-08 | 10: delta_r/delta_0: 4.8149E-09 | 11: delta_s/delta_0: 1.0328E-09 | 12: delta_r/delta_0: 2.1250E-10 | 13: delta_s/delta_0: 3.4452E-10 | 14: delta_r/delta_0: 1.4066E-10 | 15: delta_s/delta_0: 7.0808E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.968615789850657E-003 7.837736053069048E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0828E-04 | 2: delta_r/delta_0: 8.8354E-06 | 3: delta_s/delta_0: 1.4496E-06 | 4: delta_r/delta_0: 2.0187E-07 | 5: delta_s/delta_0: 7.4316E-08 | 6: delta_r/delta_0: 1.8006E-08 | 7: delta_s/delta_0: 8.5565E-09 | 8: delta_r/delta_0: 5.4333E-09 | 9: delta_s/delta_0: 3.9426E-08 | 10: delta_r/delta_0: 4.8149E-09 | 11: delta_s/delta_0: 1.0329E-09 | 12: delta_r/delta_0: 2.1251E-10 | 13: delta_s/delta_0: 3.4452E-10 | 14: delta_r/delta_0: 1.4066E-10 | 15: delta_s/delta_0: 7.0807E-11 | Reached bicg-stab tolerance | BP delta = -0.1107306 -0.1942483 2490352.59114640 | BP delta = -0.1107306 -0.1915134 2490356.19413748 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29412655 | --> Sampling calibration, mode = relcal | relcal = 3.9121078E-04 1.0253988E-02 -3.8237886E-03 -6.8214103E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3171933E-02 1.6647436E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3040E-04 | 2: delta_r/delta_0: 1.1162E-05 | 3: delta_s/delta_0: 1.8834E-06 | 4: delta_r/delta_0: 2.6876E-07 | 5: delta_s/delta_0: 1.0646E-07 | 6: delta_r/delta_0: 2.2856E-08 | 7: delta_s/delta_0: 1.0000E-08 | 8: delta_r/delta_0: 6.7173E-09 | 9: delta_s/delta_0: 5.3466E-09 | 10: delta_r/delta_0: 3.8198E-09 | 11: delta_s/delta_0: 3.4309E-05 | 12: delta_r/delta_0: 4.2028E-08 | 13: delta_s/delta_0: 3.2136E-09 | 14: delta_r/delta_0: 7.8609E-10 | 15: delta_s/delta_0: 9.6430E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.033871727072526E-002 8.300838911741955E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3040E-04 | 2: delta_r/delta_0: 1.1162E-05 | 3: delta_s/delta_0: 1.8834E-06 | 4: delta_r/delta_0: 2.6876E-07 | 5: delta_s/delta_0: 1.0646E-07 | 6: delta_r/delta_0: 2.2857E-08 | 7: delta_s/delta_0: 1.0001E-08 | 8: delta_r/delta_0: 6.7174E-09 | 9: delta_s/delta_0: 5.3466E-09 | 10: delta_r/delta_0: 3.8197E-09 | 11: delta_s/delta_0: 3.4265E-05 | 12: delta_r/delta_0: 4.1946E-08 | 13: delta_s/delta_0: 3.2243E-09 | 14: delta_r/delta_0: 7.8940E-10 | 15: delta_s/delta_0: 9.6428E-11 | Reached bicg-stab tolerance | BP delta = -0.8372404 -0.7965845 2737877.95229214 | BP delta = -0.8372404 -0.8078365 2737874.64207769 | BP chisq diff = -3.3, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26524697 | --> Sampling calibration, mode = relcal | relcal = -5.6404774E-03 1.5143692E-02 -2.3525581E-03 -7.1506561E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -9.4777904E-04 4.2808563E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4251E-04 | 2: delta_r/delta_0: 1.2213E-05 | 3: delta_s/delta_0: 2.1512E-06 | 4: delta_r/delta_0: 2.6967E-07 | 5: delta_s/delta_0: 9.3720E-08 | 6: delta_r/delta_0: 2.1425E-08 | 7: delta_s/delta_0: 8.7441E-09 | 8: delta_r/delta_0: 5.4916E-09 | 9: delta_s/delta_0: 4.8041E-09 | 10: delta_r/delta_0: 3.3337E-09 | 11: delta_s/delta_0: 5.3937E-06 | 12: delta_r/delta_0: 1.5172E-08 | 13: delta_s/delta_0: 1.5026E-08 | 14: delta_r/delta_0: 1.0126E-08 | 15: delta_s/delta_0: 8.3760E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.552796457211496E-003 9.147690171703066E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4251E-04 | 2: delta_r/delta_0: 1.2213E-05 | 3: delta_s/delta_0: 2.1512E-06 | 4: delta_r/delta_0: 2.6967E-07 | 5: delta_s/delta_0: 9.3720E-08 | 6: delta_r/delta_0: 2.1425E-08 | 7: delta_s/delta_0: 8.7442E-09 | 8: delta_r/delta_0: 5.4916E-09 | 9: delta_s/delta_0: 4.8042E-09 | 10: delta_r/delta_0: 3.3338E-09 | 11: delta_s/delta_0: 5.3926E-06 | 12: delta_r/delta_0: 1.5169E-08 | 13: delta_s/delta_0: 1.5023E-08 | 14: delta_r/delta_0: 1.0124E-08 | 15: delta_s/delta_0: 8.3758E-11 | Reached bicg-stab tolerance | BP delta = 0.3290688 0.3629403 2516505.46790131 | BP delta = 0.3290688 0.3599852 2516505.60667210 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25686350 | --> Sampling calibration, mode = relcal | relcal = -3.1754073E-02 -2.5928326E-02 3.6938872E-02 2.0743528E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6921686E-02 1.7739994E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4500E-04 | 2: delta_r/delta_0: 1.1930E-05 | 3: delta_s/delta_0: 1.9145E-06 | 4: delta_r/delta_0: 4.6201E-07 | 5: delta_s/delta_0: 1.3803E-07 | 6: delta_r/delta_0: 3.1301E-08 | 7: delta_s/delta_0: 1.3926E-08 | 8: delta_r/delta_0: 7.5873E-09 | 9: delta_s/delta_0: 2.1039E-08 | 10: delta_r/delta_0: 4.6557E-09 | 11: delta_s/delta_0: 7.1450E-09 | 12: delta_r/delta_0: 2.2432E-09 | 13: delta_s/delta_0: 2.2367E-09 | 14: delta_r/delta_0: 1.4343E-09 | 15: delta_s/delta_0: 1.5402E-10 | 16: delta_r/delta_0: 1.3553E-10 | 17: delta_s/delta_0: 1.1532E-10 | 18: delta_r/delta_0: 1.0602E-10 | 19: delta_s/delta_0: 9.8214E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.100591408875159E-002 8.664509287478216E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4500E-04 | 2: delta_r/delta_0: 1.1930E-05 | 3: delta_s/delta_0: 1.9145E-06 | 4: delta_r/delta_0: 4.6201E-07 | 5: delta_s/delta_0: 1.3802E-07 | 6: delta_r/delta_0: 3.1302E-08 | 7: delta_s/delta_0: 1.3926E-08 | 8: delta_r/delta_0: 7.5875E-09 | 9: delta_s/delta_0: 2.1040E-08 | 10: delta_r/delta_0: 4.6558E-09 | 11: delta_s/delta_0: 7.1428E-09 | 12: delta_r/delta_0: 2.2419E-09 | 13: delta_s/delta_0: 2.2350E-09 | 14: delta_r/delta_0: 1.4328E-09 | 15: delta_s/delta_0: 1.5399E-10 | 16: delta_r/delta_0: 1.3552E-10 | 17: delta_s/delta_0: 1.1531E-10 | 18: delta_r/delta_0: 1.0601E-10 | 19: delta_s/delta_0: 9.8201E-11 | Reached bicg-stab tolerance | BP delta = -0.6551915 -0.7546945 2705091.33591165 | BP delta = -0.6551915 -0.7617792 2705097.21495451 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.192769 | New value = -3.239181 | poltype: 2 pol: 1 CPU time specind = 0.3681960 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.089702 | New value = -3.096766 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.041128 | New value = -3.210213 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.060117 | New value = -3.133996 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216180 | New value = -3.199124 | poltype: 2 pol: 2 CPU time specind = 3.8089752E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.13577E+08, tol = 0.80780E+01, time = 3.31 | CG iter. 2 -- res = 0.31466E+06, tol = 0.80780E+01, time = 3.19 | CG iter. 3 -- res = 0.49961E+05, tol = 0.80780E+01, time = 3.12 | CG iter. 4 -- res = 0.28377E+05, tol = 0.80780E+01, time = 3.32 | CG iter. 5 -- res = 0.18989E+05, tol = 0.80780E+01, time = 3.38 | CG iter. 6 -- res = 0.15531E+05, tol = 0.80780E+01, time = 3.31 | CG iter. 7 -- res = 0.15624E+05, tol = 0.80780E+01, time = 3.20 | CG iter. 8 -- res = 0.14800E+05, tol = 0.80780E+01, time = 3.21 | CG iter. 9 -- res = 0.15020E+05, tol = 0.80780E+01, time = 3.21 | CG iter. 10 -- res = 0.14767E+05, tol = 0.80780E+01, time = 3.35 | CG iter. 11 -- res = 0.10909E+05, tol = 0.80780E+01, time = 3.35 | CG iter. 12 -- res = 0.74499E+04, tol = 0.80780E+01, time = 3.23 | CG iter. 13 -- res = 0.55006E+04, tol = 0.80780E+01, time = 3.23 | CG iter. 14 -- res = 0.48408E+04, tol = 0.80780E+01, time = 3.29 | CG iter. 15 -- res = 0.42103E+04, tol = 0.80780E+01, time = 3.24 | CG iter. 16 -- res = 0.34857E+04, tol = 0.80780E+01, time = 3.33 | CG iter. 17 -- res = 0.26417E+04, tol = 0.80780E+01, time = 3.27 | CG iter. 18 -- res = 0.21043E+04, tol = 0.80780E+01, time = 3.20 | CG iter. 19 -- res = 0.18157E+04, tol = 0.80780E+01, time = 3.27 | CG iter. 20 -- res = 0.15014E+04, tol = 0.80780E+01, time = 3.29 | CG iter. 21 -- res = 0.11410E+04, tol = 0.80780E+01, time = 3.27 | CG iter. 22 -- res = 0.97855E+03, tol = 0.80780E+01, time = 3.22 | CG iter. 23 -- res = 0.93061E+03, tol = 0.80780E+01, time = 3.20 | CG iter. 24 -- res = 0.84951E+03, tol = 0.80780E+01, time = 10.06 | CG iter. 25 -- res = 0.69401E+03, tol = 0.80780E+01, time = 3.30 | CG iter. 26 -- res = 0.58150E+03, tol = 0.80780E+01, time = 3.24 | CG iter. 27 -- res = 0.52397E+03, tol = 0.80780E+01, time = 3.29 | CG iter. 28 -- res = 0.48448E+03, tol = 0.80780E+01, time = 3.28 | CG iter. 29 -- res = 0.41545E+03, tol = 0.80780E+01, time = 3.31 | CG iter. 30 -- res = 0.36203E+03, tol = 0.80780E+01, time = 3.27 | CG iter. 31 -- res = 0.33135E+03, tol = 0.80780E+01, time = 3.27 | CG iter. 32 -- res = 0.31775E+03, tol = 0.80780E+01, time = 3.30 | CG iter. 33 -- res = 0.27536E+03, tol = 0.80780E+01, time = 3.19 | CG iter. 34 -- res = 0.21574E+03, tol = 0.80780E+01, time = 3.32 | CG iter. 35 -- res = 0.18286E+03, tol = 0.80780E+01, time = 3.30 | CG iter. 36 -- res = 0.17040E+03, tol = 0.80780E+01, time = 3.23 | CG iter. 37 -- res = 0.15099E+03, tol = 0.80780E+01, time = 3.28 | CG iter. 38 -- res = 0.12243E+03, tol = 0.80780E+01, time = 3.26 | CG iter. 39 -- res = 0.97034E+02, tol = 0.80780E+01, time = 3.28 | CG iter. 40 -- res = 0.85129E+02, tol = 0.80780E+01, time = 3.34 | CG iter. 41 -- res = 0.72397E+02, tol = 0.80780E+01, time = 3.24 | CG iter. 42 -- res = 0.57012E+02, tol = 0.80780E+01, time = 3.29 | CG iter. 43 -- res = 0.45256E+02, tol = 0.80780E+01, time = 3.24 | CG iter. 44 -- res = 0.36722E+02, tol = 0.80780E+01, time = 3.35 | CG iter. 45 -- res = 0.32344E+02, tol = 0.80780E+01, time = 3.21 | CG iter. 46 -- res = 0.25711E+02, tol = 0.80780E+01, time = 3.30 | CG iter. 47 -- res = 0.20003E+02, tol = 0.80780E+01, time = 3.29 | CG iter. 48 -- res = 0.16360E+02, tol = 0.80780E+01, time = 3.25 | CG iter. 49 -- res = 0.13872E+02, tol = 0.80780E+01, time = 3.35 | CG iter. 50 -- res = 0.11372E+02, tol = 0.80780E+01, time = 4.77 | Final CG iter 51 -- res = 0.11372E+02, tol = 0.80780E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9663477.039 | Old band monopole 8481510.229 | Change to band monopole 1181966.810 | Change to component monopole -1181961.726 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.14369E+06, tol = 0.47627E+18, time = 1.10 | CG iter. 2 -- res = 0.68582E+02, tol = 0.47627E+18, time = 1.12 | CG iter. 3 -- res = 0.28374E+01, tol = 0.47627E+18, time = 1.20 | CG iter. 4 -- res = 0.39848E-02, tol = 0.47627E+18, time = 1.11 | Final CG iter 5 -- res = 0.47499E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9663435.475 | (Sampled value in CG: 9639601.268 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.497914 | New value = 1.499794 | poltype: 2 pol: 1 CPU time specind = 3.2410622E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.554791 | New value = 1.519309 | poltype: 2 pol: 2 CPU time specind = 2.1219254E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.26877E+08, tol = 0.47592E+04, time = 3.76 | CG iter. 2 -- res = 0.61492E+07, tol = 0.47592E+04, time = 3.75 | CG iter. 3 -- res = 0.94540E+06, tol = 0.47592E+04, time = 3.75 | CG iter. 4 -- res = 0.37347E+06, tol = 0.47592E+04, time = 4.57 | CG iter. 5 -- res = 0.16192E+06, tol = 0.47592E+04, time = 3.84 | CG iter. 6 -- res = 0.83642E+05, tol = 0.47592E+04, time = 3.81 | CG iter. 7 -- res = 0.45618E+05, tol = 0.47592E+04, time = 3.76 | CG iter. 8 -- res = 0.22605E+05, tol = 0.47592E+04, time = 3.87 | CG iter. 9 -- res = 0.98351E+04, tol = 0.47592E+04, time = 3.78 | CG iter. 10 -- res = 0.39855E+04, tol = 0.47592E+04, time = 3.89 | CG iter. 11 -- res = 0.17748E+04, tol = 0.47592E+04, time = 3.81 | CG iter. 12 -- res = 0.91611E+03, tol = 0.47592E+04, time = 3.79 | CG iter. 13 -- res = 0.51813E+03, tol = 0.47592E+04, time = 3.81 | CG iter. 14 -- res = 0.29288E+03, tol = 0.47592E+04, time = 3.88 | CG iter. 15 -- res = 0.15252E+03, tol = 0.47592E+04, time = 3.85 | CG iter. 16 -- res = 0.72341E+02, tol = 0.47592E+04, time = 3.88 | CG iter. 17 -- res = 0.33987E+02, tol = 0.47592E+04, time = 3.75 | CG iter. 18 -- res = 0.16765E+02, tol = 0.47592E+04, time = 3.81 | CG iter. 19 -- res = 0.89387E+01, tol = 0.47592E+04, time = 3.85 | CG iter. 20 -- res = 0.50680E+01, tol = 0.47592E+04, time = 3.81 | CG iter. 21 -- res = 0.27216E+01, tol = 0.47592E+04, time = 3.88 | CG iter. 22 -- res = 0.14284E+01, tol = 0.47592E+04, time = 3.76 | CG iter. 23 -- res = 0.73366E+00, tol = 0.47592E+04, time = 3.79 | CG iter. 24 -- res = 0.38319E+00, tol = 0.47592E+04, time = 3.85 | CG iter. 25 -- res = 0.21411E+00, tol = 0.47592E+04, time = 3.84 | CG iter. 26 -- res = 0.12275E+00, tol = 0.47592E+04, time = 3.83 | CG iter. 27 -- res = 0.69904E-01, tol = 0.47592E+04, time = 3.88 | CG iter. 28 -- res = 0.37989E-01, tol = 0.47592E+04, time = 3.86 | CG iter. 29 -- res = 0.20437E-01, tol = 0.47592E+04, time = 5.43 | CG iter. 30 -- res = 0.10784E-01, tol = 0.47592E+04, time = 9.01 | CG iter. 31 -- res = 0.58732E-02, tol = 0.47592E+04, time = 3.84 | CG iter. 32 -- res = 0.33245E-02, tol = 0.47592E+04, time = 3.80 | CG iter. 33 -- res = 0.18633E-02, tol = 0.47592E+04, time = 3.80 | CG iter. 34 -- res = 0.99725E-03, tol = 0.47592E+04, time = 3.77 | CG iter. 35 -- res = 0.52209E-03, tol = 0.47592E+04, time = 3.92 | Final CG iter 36 -- res = 0.52209E-03, tol = 0.47592E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.138 2.760 | New value 1.599 | Old value 2.138 | Difference -0.539 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.15586E+05, tol = 0.47627E+18, time = 1.13 | CG iter. 2 -- res = 0.20601E+02, tol = 0.47627E+18, time = 1.16 | CG iter. 3 -- res = 0.43081E+00, tol = 0.47627E+18, time = 1.14 | Final CG iter 4 -- res = 0.12834E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9663435.475 | (Sampled value in CG: 9640858.603 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.394214 | New value = -3.544617 | poltype: 1 pol: 1 CPU time specind = 3.4070015E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.27889E+07, tol = 0.27070E+01, time = 1.51 | CG iter. 2 -- res = 0.89163E+06, tol = 0.27070E+01, time = 1.48 | CG iter. 3 -- res = 0.19819E+06, tol = 0.27070E+01, time = 1.53 | CG iter. 4 -- res = 0.95194E+05, tol = 0.27070E+01, time = 1.43 | CG iter. 5 -- res = 0.56592E+05, tol = 0.27070E+01, time = 1.42 | CG iter. 6 -- res = 0.24241E+05, tol = 0.27070E+01, time = 1.39 | CG iter. 7 -- res = 0.89566E+04, tol = 0.27070E+01, time = 1.46 | CG iter. 8 -- res = 0.41430E+04, tol = 0.27070E+01, time = 1.43 | CG iter. 9 -- res = 0.19194E+04, tol = 0.27070E+01, time = 1.48 | CG iter. 10 -- res = 0.78593E+03, tol = 0.27070E+01, time = 1.56 | CG iter. 11 -- res = 0.30052E+03, tol = 0.27070E+01, time = 1.53 | CG iter. 12 -- res = 0.13952E+03, tol = 0.27070E+01, time = 1.47 | CG iter. 13 -- res = 0.73113E+02, tol = 0.27070E+01, time = 1.50 | CG iter. 14 -- res = 0.37317E+02, tol = 0.27070E+01, time = 1.49 | CG iter. 15 -- res = 0.18083E+02, tol = 0.27070E+01, time = 1.46 | CG iter. 16 -- res = 0.81515E+01, tol = 0.27070E+01, time = 1.45 | CG iter. 17 -- res = 0.33781E+01, tol = 0.27070E+01, time = 1.43 | CG iter. 18 -- res = 0.14791E+01, tol = 0.27070E+01, time = 1.42 | CG iter. 19 -- res = 0.71203E+00, tol = 0.27070E+01, time = 1.46 | CG iter. 20 -- res = 0.37505E+00, tol = 0.27070E+01, time = 1.54 | CG iter. 21 -- res = 0.18297E+00, tol = 0.27070E+01, time = 1.48 | CG iter. 22 -- res = 0.85316E-01, tol = 0.27070E+01, time = 1.47 | CG iter. 23 -- res = 0.39651E-01, tol = 0.27070E+01, time = 1.48 | CG iter. 24 -- res = 0.17830E-01, tol = 0.27070E+01, time = 1.57 | CG iter. 25 -- res = 0.84321E-02, tol = 0.27070E+01, time = 1.50 | CG iter. 26 -- res = 0.42611E-02, tol = 0.27070E+01, time = 1.48 | CG iter. 27 -- res = 0.22586E-02, tol = 0.27070E+01, time = 1.49 | CG iter. 28 -- res = 0.11112E-02, tol = 0.27070E+01, time = 1.44 | CG iter. 29 -- res = 0.51913E-03, tol = 0.27070E+01, time = 1.46 | CG iter. 30 -- res = 0.24535E-03, tol = 0.27070E+01, time = 1.48 | CG iter. 31 -- res = 0.11195E-03, tol = 0.27070E+01, time = 1.47 | CG iter. 32 -- res = 0.55495E-04, tol = 0.27070E+01, time = 1.45 | CG iter. 33 -- res = 0.28580E-04, tol = 0.27070E+01, time = 1.48 | CG iter. 34 -- res = 0.13805E-04, tol = 0.27070E+01, time = 1.51 | CG iter. 35 -- res = 0.69313E-05, tol = 0.27070E+01, time = 1.49 | CG iter. 36 -- res = 0.31736E-05, tol = 0.27070E+01, time = 1.46 | CG iter. 37 -- res = 0.14685E-05, tol = 0.27070E+01, time = 1.50 | CG iter. 38 -- res = 0.68882E-06, tol = 0.27070E+01, time = 1.48 | CG iter. 39 -- res = 0.33889E-06, tol = 0.27070E+01, time = 1.45 | CG iter. 40 -- res = 0.16847E-06, tol = 0.27070E+01, time = 1.49 | CG iter. 41 -- res = 0.84267E-07, tol = 0.27070E+01, time = 1.50 | CG iter. 42 -- res = 0.39292E-07, tol = 0.27070E+01, time = 1.51 | CG iter. 43 -- res = 0.17966E-07, tol = 0.27070E+01, time = 1.45 | CG iter. 44 -- res = 0.83422E-08, tol = 0.27070E+01, time = 1.46 | CG iter. 45 -- res = 0.40260E-08, tol = 0.27070E+01, time = 1.43 | CG iter. 46 -- res = 0.20290E-08, tol = 0.27070E+01, time = 1.45 | CG iter. 47 -- res = 0.10375E-08, tol = 0.27070E+01, time = 1.52 | CG iter. 48 -- res = 0.49391E-09, tol = 0.27070E+01, time = 1.42 | CG iter. 49 -- res = 0.21738E-09, tol = 0.27070E+01, time = 1.50 | CG iter. 50 -- res = 0.10132E-09, tol = 0.27070E+01, time = 1.51 | Final CG iter 51 -- res = 0.10132E-09, tol = 0.27070E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.444 6.897 | New value -7.314 | Old value 0.444 | Difference -7.758 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.59693E+05, tol = 0.47627E+18, time = 1.13 | CG iter. 2 -- res = 0.38759E+02, tol = 0.47627E+18, time = 1.19 | CG iter. 3 -- res = 0.18020E+01, tol = 0.47627E+18, time = 1.13 | CG iter. 4 -- res = 0.19046E-02, tol = 0.47627E+18, time = 1.13 | Final CG iter 5 -- res = 0.98069E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9663435.475 | (Sampled value in CG: 9646779.603 ) | CPU time specind = 728.9247 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.68781E+08, tol = 0.57654E+04, time = 6.80 | CG iter. 2 -- res = 0.60015E+08, tol = 0.57654E+04, time = 7.03 | CG iter. 3 -- res = 0.15386E+08, tol = 0.57654E+04, time = 7.05 | CG iter. 4 -- res = 0.65217E+07, tol = 0.57654E+04, time = 6.83 | CG iter. 5 -- res = 0.38368E+07, tol = 0.57654E+04, time = 7.06 | CG iter. 6 -- res = 0.21881E+07, tol = 0.57654E+04, time = 6.98 | CG iter. 7 -- res = 0.12853E+07, tol = 0.57654E+04, time = 6.93 | CG iter. 8 -- res = 0.84965E+06, tol = 0.57654E+04, time = 8.80 | CG iter. 9 -- res = 0.54120E+06, tol = 0.57654E+04, time = 7.59 | CG iter. 10 -- res = 0.31933E+06, tol = 0.57654E+04, time = 6.95 | CG iter. 11 -- res = 0.17266E+06, tol = 0.57654E+04, time = 7.04 | CG iter. 12 -- res = 0.93664E+05, tol = 0.57654E+04, time = 6.90 | CG iter. 13 -- res = 0.51548E+05, tol = 0.57654E+04, time = 7.02 | CG iter. 14 -- res = 0.31853E+05, tol = 0.57654E+04, time = 6.92 | CG iter. 15 -- res = 0.22071E+05, tol = 0.57654E+04, time = 6.89 | CG iter. 16 -- res = 0.17302E+05, tol = 0.57654E+04, time = 6.94 | CG iter. 17 -- res = 0.14022E+05, tol = 0.57654E+04, time = 6.87 | CG iter. 18 -- res = 0.11123E+05, tol = 0.57654E+04, time = 6.94 | CG iter. 19 -- res = 0.88051E+04, tol = 0.57654E+04, time = 6.92 | CG iter. 20 -- res = 0.72434E+04, tol = 0.57654E+04, time = 6.99 | CG iter. 21 -- res = 0.67597E+04, tol = 0.57654E+04, time = 6.89 | CG iter. 22 -- res = 0.69621E+04, tol = 0.57654E+04, time = 6.87 | CG iter. 23 -- res = 0.77855E+04, tol = 0.57654E+04, time = 7.56 | CG iter. 24 -- res = 0.87236E+04, tol = 0.57654E+04, time = 6.94 | CG iter. 25 -- res = 0.89057E+04, tol = 0.57654E+04, time = 6.99 | CG iter. 26 -- res = 0.80885E+04, tol = 0.57654E+04, time = 6.89 | CG iter. 27 -- res = 0.66106E+04, tol = 0.57654E+04, time = 6.94 | CG iter. 28 -- res = 0.50916E+04, tol = 0.57654E+04, time = 6.88 | CG iter. 29 -- res = 0.40547E+04, tol = 0.57654E+04, time = 6.87 | CG iter. 30 -- res = 0.33681E+04, tol = 0.57654E+04, time = 6.94 | CG iter. 31 -- res = 0.27946E+04, tol = 0.57654E+04, time = 7.01 | CG iter. 32 -- res = 0.23132E+04, tol = 0.57654E+04, time = 6.97 | CG iter. 33 -- res = 0.18927E+04, tol = 0.57654E+04, time = 6.92 | CG iter. 34 -- res = 0.15258E+04, tol = 0.57654E+04, time = 6.96 | CG iter. 35 -- res = 0.12729E+04, tol = 0.57654E+04, time = 6.87 | CG iter. 36 -- res = 0.11513E+04, tol = 0.57654E+04, time = 6.92 | CG iter. 37 -- res = 0.11482E+04, tol = 0.57654E+04, time = 13.12 | CG iter. 38 -- res = 0.11787E+04, tol = 0.57654E+04, time = 7.90 | CG iter. 39 -- res = 0.11445E+04, tol = 0.57654E+04, time = 6.83 | CG iter. 40 -- res = 0.10801E+04, tol = 0.57654E+04, time = 6.93 | CG iter. 41 -- res = 0.94418E+03, tol = 0.57654E+04, time = 7.02 | CG iter. 42 -- res = 0.78775E+03, tol = 0.57654E+04, time = 6.82 | CG iter. 43 -- res = 0.67801E+03, tol = 0.57654E+04, time = 7.03 | CG iter. 44 -- res = 0.61139E+03, tol = 0.57654E+04, time = 6.92 | CG iter. 45 -- res = 0.55219E+03, tol = 0.57654E+04, time = 6.83 | CG iter. 46 -- res = 0.49341E+03, tol = 0.57654E+04, time = 7.12 | CG iter. 47 -- res = 0.43066E+03, tol = 0.57654E+04, time = 6.85 | CG iter. 48 -- res = 0.36222E+03, tol = 0.57654E+04, time = 6.97 | CG iter. 49 -- res = 0.30590E+03, tol = 0.57654E+04, time = 6.87 | CG iter. 50 -- res = 0.27635E+03, tol = 0.57654E+04, time = 8.73 | CG iter. 51 -- res = 0.26857E+03, tol = 0.57654E+04, time = 7.49 | CG iter. 52 -- res = 0.26417E+03, tol = 0.57654E+04, time = 6.95 | CG iter. 53 -- res = 0.26084E+03, tol = 0.57654E+04, time = 6.94 | CG iter. 54 -- res = 0.25562E+03, tol = 0.57654E+04, time = 6.92 | CG iter. 55 -- res = 0.23423E+03, tol = 0.57654E+04, time = 7.08 | CG iter. 56 -- res = 0.20560E+03, tol = 0.57654E+04, time = 6.92 | CG iter. 57 -- res = 0.18473E+03, tol = 0.57654E+04, time = 6.94 | CG iter. 58 -- res = 0.17090E+03, tol = 0.57654E+04, time = 6.93 | CG iter. 59 -- res = 0.16226E+03, tol = 0.57654E+04, time = 6.90 | CG iter. 60 -- res = 0.15376E+03, tol = 0.57654E+04, time = 6.88 | Final CG iter 61 -- res = 0.15376E+03, tol = 0.57654E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.853 ( -229.881 -2230.152 2512.486 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9148359.153 | Old band monopole 9663477.039 | Change to band monopole -515117.886 | Change to component monopole 515115.671 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.566 2.730 | New value -0.509 | Old value 1.566 | Difference -2.075 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.457 ( 7.950 10.961 -9.739 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.777 5.857 | New value -0.973 | Old value 1.777 | Difference -2.750 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.46 | CG iter. 1 -- res = 0.23876E+06, tol = 0.47627E+18, time = 1.11 | CG iter. 2 -- res = 0.28397E+02, tol = 0.47627E+18, time = 1.16 | CG iter. 3 -- res = 0.93820E+00, tol = 0.47627E+18, time = 1.13 | CG iter. 4 -- res = 0.23244E-02, tol = 0.47627E+18, time = 1.11 | Final CG iter 5 -- res = 0.12444E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9148319.804 | (Sampled value in CG: 9123264.867 ) | Chain = 1 -- chisq = 0.81582383E+09 | Chain = 1 -- wall time = 17246.479 sec Available RAM: MemAvailable: 603629192 kB Available Swap: SwapFree: 1760411428 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 147 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443005 | --> Sampling calibration, mode = relcal | relcal = 1.3425834E-02 7.3665200E-04 -1.5879020E-03 -1.2574583E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1186771 0.1352345 97032283.8010451 | BP delta = 0.1223440 0.1389015 97032285.0737900 | BP chisq diff = 1.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632431 | --> Sampling calibration, mode = relcal | relcal = -2.8207416E-03 -7.0447498E-04 1.6798717E-03 1.6141945E-03 -4.0824455E-04 6.3939509E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5899579 15217685.1990741 | BP delta = 0.0000000E+00 -0.5993162 15217685.6431127 | BP chisq diff = 0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18370557957265 | --> Sampling calibration, mode = relcal | relcal = -7.5448692E-02 -5.8995046E-02 9.2493005E-02 4.1950732E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2188800E-05 5.4630889E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4603E-05 | 2: delta_r/delta_0: 1.1631E-06 | 3: delta_s/delta_0: 1.9731E-07 | 4: delta_r/delta_0: 3.1494E-08 | 5: delta_s/delta_0: 1.1133E-08 | 6: delta_r/delta_0: 2.7837E-09 | 7: delta_s/delta_0: 4.5114E-10 | 8: delta_r/delta_0: 1.8695E-10 | 9: delta_s/delta_0: 2.3518E-10 | 10: delta_r/delta_0: 9.3680E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.453737254350648E-003 2.734744465181027E-005 | BP delta = 2.4860906E-03 1.6381282E-02 50480680.8379473 | BP delta = -4.8604058E-04 1.3409151E-02 50480683.9275984 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02579521 | --> Sampling calibration, mode = relcal | relcal = -0.1066712 -9.5566198E-02 0.1449226 5.7314765E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4462444E-03 1.5604409E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9057E-05 | 2: delta_r/delta_0: 1.6552E-06 | 3: delta_s/delta_0: 2.4189E-07 | 4: delta_r/delta_0: 3.8650E-08 | 5: delta_s/delta_0: 2.9425E-08 | 6: delta_r/delta_0: 6.5474E-09 | 7: delta_s/delta_0: 4.6607E-09 | 8: delta_r/delta_0: 1.7761E-09 | 9: delta_s/delta_0: 8.1556E-10 | 10: delta_r/delta_0: 6.1313E-10 | 11: delta_s/delta_0: 1.0759E-09 | 12: delta_r/delta_0: 1.1291E-10 | 13: delta_s/delta_0: 8.7852E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.013698556431374E-002 2.811393845721634E-005 | BP delta = -0.2700851 -0.2468365 57392724.0932234 | BP delta = -0.2821065 -0.2588579 57392723.8450206 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215923 | --> Sampling calibration, mode = relcal | relcal = 0.2954336 0.2248709 -0.2837670 -0.2365374 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4191537E-04 5.4387832E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.4701E-02 | 2: delta_r/delta_0: 1.2873E-03 | 3: delta_s/delta_0: 2.1752E-06 | 4: delta_r/delta_0: 8.9605E-07 | 5: delta_s/delta_0: 7.0454E-07 | 6: delta_r/delta_0: 2.5227E-07 | 7: delta_s/delta_0: 4.0148E-05 | 8: delta_r/delta_0: 3.9055E-06 | 9: delta_s/delta_0: 2.5465E-08 | 10: delta_r/delta_0: 1.4221E-08 | 11: delta_s/delta_0: 5.2947E-09 | 12: delta_r/delta_0: 1.3907E-09 | 13: delta_s/delta_0: 2.6370E-08 | 14: delta_r/delta_0: 1.4610E-08 | 15: delta_s/delta_0: 1.3023E-10 | 16: delta_r/delta_0: 4.9849E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.458448035691922E-002 4.022154938148481E-005 | BP delta = -0.2090030 -0.2268784 72490336.0524919 | BP delta = -0.2694987 -0.2873741 72490337.9302466 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95915812 | --> Sampling calibration, mode = relcal | relcal = 0.1064812 0.1394603 -0.1102364 -0.1357052 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9027194E-03 1.4012631E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3065E-04 | 2: delta_r/delta_0: 5.8942E-06 | 3: delta_s/delta_0: 2.1315E-05 | 4: delta_r/delta_0: 1.8226E-06 | 5: delta_s/delta_0: 1.9419E-07 | 6: delta_r/delta_0: 1.1413E-07 | 7: delta_s/delta_0: 5.9748E-07 | 8: delta_r/delta_0: 2.7027E-08 | 9: delta_s/delta_0: 1.4546E-08 | 10: delta_r/delta_0: 1.7436E-09 | 11: delta_s/delta_0: 3.0261E-09 | 12: delta_r/delta_0: 1.1269E-09 | 13: delta_s/delta_0: 8.7415E-10 | 14: delta_r/delta_0: 4.5253E-10 | 15: delta_s/delta_0: 4.3668E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.996403215817872E-002 3.697152657314030E-005 | BP delta = 7.6172635E-02 0.1780537 72774356.2491754 | BP delta = 2.3893457E-02 0.1257745 72774356.9350426 | BP chisq diff = 0.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.239181 | New value = -3.184991 | poltype: 2 pol: 1 CPU time specind = 1.2107134E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.096766 | New value = -3.136206 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.210213 | New value = -3.208463 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133996 | New value = -3.114858 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199124 | New value = -3.124462 | poltype: 2 pol: 2 CPU time specind = 3.6759377E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.56 | CG iter. 1 -- res = 0.13572E+08, tol = 0.75901E+01, time = 3.57 | CG iter. 2 -- res = 0.34759E+06, tol = 0.75901E+01, time = 3.53 | CG iter. 3 -- res = 0.56768E+05, tol = 0.75901E+01, time = 3.90 | CG iter. 4 -- res = 0.34626E+05, tol = 0.75901E+01, time = 9.72 | CG iter. 5 -- res = 0.26374E+05, tol = 0.75901E+01, time = 3.47 | CG iter. 6 -- res = 0.23948E+05, tol = 0.75901E+01, time = 3.50 | CG iter. 7 -- res = 0.24264E+05, tol = 0.75901E+01, time = 3.66 | CG iter. 8 -- res = 0.22646E+05, tol = 0.75901E+01, time = 3.64 | CG iter. 9 -- res = 0.21350E+05, tol = 0.75901E+01, time = 3.53 | CG iter. 10 -- res = 0.18853E+05, tol = 0.75901E+01, time = 3.56 | CG iter. 11 -- res = 0.13710E+05, tol = 0.75901E+01, time = 3.56 | CG iter. 12 -- res = 0.90011E+04, tol = 0.75901E+01, time = 3.63 | CG iter. 13 -- res = 0.65903E+04, tol = 0.75901E+01, time = 3.55 | CG iter. 14 -- res = 0.58335E+04, tol = 0.75901E+01, time = 3.60 | CG iter. 15 -- res = 0.52760E+04, tol = 0.75901E+01, time = 3.41 | CG iter. 16 -- res = 0.40724E+04, tol = 0.75901E+01, time = 3.62 | CG iter. 17 -- res = 0.31013E+04, tol = 0.75901E+01, time = 3.65 | CG iter. 18 -- res = 0.24985E+04, tol = 0.75901E+01, time = 3.56 | CG iter. 19 -- res = 0.21809E+04, tol = 0.75901E+01, time = 3.56 | CG iter. 20 -- res = 0.17687E+04, tol = 0.75901E+01, time = 3.60 | CG iter. 21 -- res = 0.13181E+04, tol = 0.75901E+01, time = 3.63 | CG iter. 22 -- res = 0.11108E+04, tol = 0.75901E+01, time = 3.64 | CG iter. 23 -- res = 0.98244E+03, tol = 0.75901E+01, time = 3.48 | CG iter. 24 -- res = 0.84406E+03, tol = 0.75901E+01, time = 3.61 | CG iter. 25 -- res = 0.66616E+03, tol = 0.75901E+01, time = 3.59 | CG iter. 26 -- res = 0.52602E+03, tol = 0.75901E+01, time = 3.53 | CG iter. 27 -- res = 0.46806E+03, tol = 0.75901E+01, time = 4.27 | CG iter. 28 -- res = 0.42769E+03, tol = 0.75901E+01, time = 4.73 | CG iter. 29 -- res = 0.36230E+03, tol = 0.75901E+01, time = 4.91 | CG iter. 30 -- res = 0.29596E+03, tol = 0.75901E+01, time = 4.00 | CG iter. 31 -- res = 0.26368E+03, tol = 0.75901E+01, time = 3.47 | CG iter. 32 -- res = 0.23542E+03, tol = 0.75901E+01, time = 3.58 | CG iter. 33 -- res = 0.20055E+03, tol = 0.75901E+01, time = 3.58 | CG iter. 34 -- res = 0.15563E+03, tol = 0.75901E+01, time = 3.64 | CG iter. 35 -- res = 0.13464E+03, tol = 0.75901E+01, time = 3.58 | CG iter. 36 -- res = 0.11973E+03, tol = 0.75901E+01, time = 3.54 | CG iter. 37 -- res = 0.10403E+03, tol = 0.75901E+01, time = 3.64 | CG iter. 38 -- res = 0.80363E+02, tol = 0.75901E+01, time = 3.61 | CG iter. 39 -- res = 0.63267E+02, tol = 0.75901E+01, time = 3.50 | CG iter. 40 -- res = 0.56154E+02, tol = 0.75901E+01, time = 3.55 | CG iter. 41 -- res = 0.46606E+02, tol = 0.75901E+01, time = 3.55 | CG iter. 42 -- res = 0.35056E+02, tol = 0.75901E+01, time = 3.61 | CG iter. 43 -- res = 0.27973E+02, tol = 0.75901E+01, time = 3.54 | CG iter. 44 -- res = 0.23294E+02, tol = 0.75901E+01, time = 3.53 | CG iter. 45 -- res = 0.19343E+02, tol = 0.75901E+01, time = 3.57 | CG iter. 46 -- res = 0.15069E+02, tol = 0.75901E+01, time = 3.63 | CG iter. 47 -- res = 0.11677E+02, tol = 0.75901E+01, time = 3.56 | CG iter. 48 -- res = 0.94004E+01, tol = 0.75901E+01, time = 3.63 | CG iter. 49 -- res = 0.78482E+01, tol = 0.75901E+01, time = 3.53 | CG iter. 50 -- res = 0.64334E+01, tol = 0.75901E+01, time = 3.61 | Final CG iter 51 -- res = 0.64334E+01, tol = 0.75901E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9215272.604 | Old band monopole 9148359.153 | Change to band monopole 66913.451 | Change to component monopole -66913.163 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.59 | CG iter. 1 -- res = 0.86961E+05, tol = 0.47627E+18, time = 1.29 | CG iter. 2 -- res = 0.47851E+02, tol = 0.47627E+18, time = 1.28 | CG iter. 3 -- res = 0.20262E+01, tol = 0.47627E+18, time = 1.18 | CG iter. 4 -- res = 0.52105E-02, tol = 0.47627E+18, time = 1.27 | Final CG iter 5 -- res = 0.64840E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9215232.967 | (Sampled value in CG: 9248298.806 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499794 | New value = 1.604957 | poltype: 2 pol: 1 CPU time specind = 7.3609352E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519309 | New value = 1.466322 | poltype: 2 pol: 2 CPU time specind = 2.7999878E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.26514E+08, tol = 0.47776E+04, time = 4.03 | CG iter. 2 -- res = 0.52175E+07, tol = 0.47776E+04, time = 4.00 | CG iter. 3 -- res = 0.80679E+06, tol = 0.47776E+04, time = 4.00 | CG iter. 4 -- res = 0.33943E+06, tol = 0.47776E+04, time = 4.29 | CG iter. 5 -- res = 0.14753E+06, tol = 0.47776E+04, time = 4.18 | CG iter. 6 -- res = 0.80878E+05, tol = 0.47776E+04, time = 4.13 | CG iter. 7 -- res = 0.44410E+05, tol = 0.47776E+04, time = 6.36 | CG iter. 8 -- res = 0.20817E+05, tol = 0.47776E+04, time = 9.36 | CG iter. 9 -- res = 0.89824E+04, tol = 0.47776E+04, time = 4.15 | CG iter. 10 -- res = 0.36425E+04, tol = 0.47776E+04, time = 4.18 | CG iter. 11 -- res = 0.16921E+04, tol = 0.47776E+04, time = 4.10 | CG iter. 12 -- res = 0.88993E+03, tol = 0.47776E+04, time = 4.13 | CG iter. 13 -- res = 0.49733E+03, tol = 0.47776E+04, time = 4.17 | CG iter. 14 -- res = 0.27234E+03, tol = 0.47776E+04, time = 4.16 | CG iter. 15 -- res = 0.13990E+03, tol = 0.47776E+04, time = 4.17 | CG iter. 16 -- res = 0.66715E+02, tol = 0.47776E+04, time = 4.25 | CG iter. 17 -- res = 0.32012E+02, tol = 0.47776E+04, time = 4.18 | CG iter. 18 -- res = 0.16185E+02, tol = 0.47776E+04, time = 4.12 | CG iter. 19 -- res = 0.87603E+01, tol = 0.47776E+04, time = 4.08 | CG iter. 20 -- res = 0.50228E+01, tol = 0.47776E+04, time = 4.22 | CG iter. 21 -- res = 0.27356E+01, tol = 0.47776E+04, time = 4.08 | CG iter. 22 -- res = 0.14119E+01, tol = 0.47776E+04, time = 4.11 | CG iter. 23 -- res = 0.68864E+00, tol = 0.47776E+04, time = 4.04 | CG iter. 24 -- res = 0.35315E+00, tol = 0.47776E+04, time = 4.24 | CG iter. 25 -- res = 0.19575E+00, tol = 0.47776E+04, time = 4.19 | CG iter. 26 -- res = 0.11327E+00, tol = 0.47776E+04, time = 4.19 | CG iter. 27 -- res = 0.63816E-01, tol = 0.47776E+04, time = 4.34 | CG iter. 28 -- res = 0.33565E-01, tol = 0.47776E+04, time = 5.45 | CG iter. 29 -- res = 0.17488E-01, tol = 0.47776E+04, time = 4.46 | CG iter. 30 -- res = 0.93709E-02, tol = 0.47776E+04, time = 4.54 | CG iter. 31 -- res = 0.51993E-02, tol = 0.47776E+04, time = 4.19 | CG iter. 32 -- res = 0.29273E-02, tol = 0.47776E+04, time = 4.14 | CG iter. 33 -- res = 0.16013E-02, tol = 0.47776E+04, time = 4.18 | CG iter. 34 -- res = 0.85563E-03, tol = 0.47776E+04, time = 4.10 | CG iter. 35 -- res = 0.45757E-03, tol = 0.47776E+04, time = 4.16 | Final CG iter 36 -- res = 0.45757E-03, tol = 0.47776E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.462 2.750 | New value 3.604 | Old value -0.462 | Difference 4.066 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.87471E+06, tol = 0.47627E+18, time = 1.31 | CG iter. 2 -- res = 0.34893E+02, tol = 0.47627E+18, time = 1.22 | CG iter. 3 -- res = 0.11999E+01, tol = 0.47627E+18, time = 1.24 | CG iter. 4 -- res = 0.23992E-02, tol = 0.47627E+18, time = 1.27 | Final CG iter 5 -- res = 0.48251E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9215232.967 | (Sampled value in CG: 9247367.536 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.544617 | New value = -3.620442 | poltype: 1 pol: 1 CPU time specind = 3.1681061E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.52 | CG iter. 1 -- res = 0.21977E+07, tol = 0.24404E+01, time = 3.21 | CG iter. 2 -- res = 0.86304E+06, tol = 0.24404E+01, time = 7.13 | CG iter. 3 -- res = 0.16166E+06, tol = 0.24404E+01, time = 1.57 | CG iter. 4 -- res = 0.59049E+05, tol = 0.24404E+01, time = 1.69 | CG iter. 5 -- res = 0.34713E+05, tol = 0.24404E+01, time = 1.69 | CG iter. 6 -- res = 0.19052E+05, tol = 0.24404E+01, time = 1.79 | CG iter. 7 -- res = 0.78083E+04, tol = 0.24404E+01, time = 1.61 | CG iter. 8 -- res = 0.32280E+04, tol = 0.24404E+01, time = 1.61 | CG iter. 9 -- res = 0.13687E+04, tol = 0.24404E+01, time = 1.71 | CG iter. 10 -- res = 0.54930E+03, tol = 0.24404E+01, time = 1.60 | CG iter. 11 -- res = 0.23018E+03, tol = 0.24404E+01, time = 1.60 | CG iter. 12 -- res = 0.11264E+03, tol = 0.24404E+01, time = 1.57 | CG iter. 13 -- res = 0.58765E+02, tol = 0.24404E+01, time = 1.62 | CG iter. 14 -- res = 0.28842E+02, tol = 0.24404E+01, time = 1.66 | CG iter. 15 -- res = 0.13050E+02, tol = 0.24404E+01, time = 1.73 | CG iter. 16 -- res = 0.54753E+01, tol = 0.24404E+01, time = 1.74 | CG iter. 17 -- res = 0.22798E+01, tol = 0.24404E+01, time = 1.72 | CG iter. 18 -- res = 0.10602E+01, tol = 0.24404E+01, time = 1.66 | CG iter. 19 -- res = 0.52516E+00, tol = 0.24404E+01, time = 1.62 | CG iter. 20 -- res = 0.26812E+00, tol = 0.24404E+01, time = 1.65 | CG iter. 21 -- res = 0.13244E+00, tol = 0.24404E+01, time = 1.65 | CG iter. 22 -- res = 0.59804E-01, tol = 0.24404E+01, time = 1.60 | CG iter. 23 -- res = 0.25631E-01, tol = 0.24404E+01, time = 1.59 | CG iter. 24 -- res = 0.12082E-01, tol = 0.24404E+01, time = 1.66 | CG iter. 25 -- res = 0.61781E-02, tol = 0.24404E+01, time = 1.66 | CG iter. 26 -- res = 0.31862E-02, tol = 0.24404E+01, time = 1.67 | CG iter. 27 -- res = 0.15513E-02, tol = 0.24404E+01, time = 1.72 | CG iter. 28 -- res = 0.73221E-03, tol = 0.24404E+01, time = 1.57 | CG iter. 29 -- res = 0.32342E-03, tol = 0.24404E+01, time = 1.68 | CG iter. 30 -- res = 0.15515E-03, tol = 0.24404E+01, time = 1.59 | CG iter. 31 -- res = 0.75187E-04, tol = 0.24404E+01, time = 1.51 | CG iter. 32 -- res = 0.37601E-04, tol = 0.24404E+01, time = 1.58 | CG iter. 33 -- res = 0.18166E-04, tol = 0.24404E+01, time = 1.64 | CG iter. 34 -- res = 0.86456E-05, tol = 0.24404E+01, time = 1.67 | CG iter. 35 -- res = 0.39614E-05, tol = 0.24404E+01, time = 1.68 | CG iter. 36 -- res = 0.18202E-05, tol = 0.24404E+01, time = 1.54 | CG iter. 37 -- res = 0.86024E-06, tol = 0.24404E+01, time = 1.70 | CG iter. 38 -- res = 0.43108E-06, tol = 0.24404E+01, time = 1.73 | CG iter. 39 -- res = 0.21022E-06, tol = 0.24404E+01, time = 1.59 | CG iter. 40 -- res = 0.99102E-07, tol = 0.24404E+01, time = 1.61 | CG iter. 41 -- res = 0.46403E-07, tol = 0.24404E+01, time = 1.56 | CG iter. 42 -- res = 0.22410E-07, tol = 0.24404E+01, time = 1.66 | CG iter. 43 -- res = 0.10104E-07, tol = 0.24404E+01, time = 1.66 | CG iter. 44 -- res = 0.50404E-08, tol = 0.24404E+01, time = 1.58 | CG iter. 45 -- res = 0.25006E-08, tol = 0.24404E+01, time = 1.63 | CG iter. 46 -- res = 0.11970E-08, tol = 0.24404E+01, time = 1.72 | CG iter. 47 -- res = 0.56166E-09, tol = 0.24404E+01, time = 1.66 | CG iter. 48 -- res = 0.26904E-09, tol = 0.24404E+01, time = 1.65 | CG iter. 49 -- res = 0.12626E-09, tol = 0.24404E+01, time = 1.68 | CG iter. 50 -- res = 0.60555E-10, tol = 0.24404E+01, time = 1.61 | Final CG iter 51 -- res = 0.60555E-10, tol = 0.24404E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.098 5.366 | New value 1.903 | Old value 1.098 | Difference 0.805 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.14185E+04, tol = 0.47627E+18, time = 1.28 | CG iter. 2 -- res = 0.14714E+02, tol = 0.47627E+18, time = 1.24 | CG iter. 3 -- res = 0.32439E+00, tol = 0.47627E+18, time = 1.24 | CG iter. 4 -- res = 0.62849E-04, tol = 0.47627E+18, time = 1.20 | Final CG iter 5 -- res = 0.39707E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9215232.967 | (Sampled value in CG: 9242742.832 ) | CPU time specind = 787.8829 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.86 | CG iter. 1 -- res = 0.73951E+08, tol = 0.57925E+04, time = 7.14 | CG iter. 2 -- res = 0.60880E+08, tol = 0.57925E+04, time = 7.74 | CG iter. 3 -- res = 0.15839E+08, tol = 0.57925E+04, time = 7.39 | CG iter. 4 -- res = 0.72138E+07, tol = 0.57925E+04, time = 7.57 | CG iter. 5 -- res = 0.45148E+07, tol = 0.57925E+04, time = 7.70 | CG iter. 6 -- res = 0.26338E+07, tol = 0.57925E+04, time = 7.33 | CG iter. 7 -- res = 0.15307E+07, tol = 0.57925E+04, time = 7.62 | CG iter. 8 -- res = 0.97327E+06, tol = 0.57925E+04, time = 7.43 | CG iter. 9 -- res = 0.62146E+06, tol = 0.57925E+04, time = 7.55 | CG iter. 10 -- res = 0.38047E+06, tol = 0.57925E+04, time = 7.48 | CG iter. 11 -- res = 0.21289E+06, tol = 0.57925E+04, time = 7.43 | CG iter. 12 -- res = 0.11783E+06, tol = 0.57925E+04, time = 7.67 | CG iter. 13 -- res = 0.65845E+05, tol = 0.57925E+04, time = 7.48 | CG iter. 14 -- res = 0.41173E+05, tol = 0.57925E+04, time = 7.49 | CG iter. 15 -- res = 0.29574E+05, tol = 0.57925E+04, time = 7.62 | CG iter. 16 -- res = 0.24194E+05, tol = 0.57925E+04, time = 7.60 | CG iter. 17 -- res = 0.21328E+05, tol = 0.57925E+04, time = 7.50 | CG iter. 18 -- res = 0.18722E+05, tol = 0.57925E+04, time = 7.55 | CG iter. 19 -- res = 0.16065E+05, tol = 0.57925E+04, time = 14.23 | CG iter. 20 -- res = 0.14071E+05, tol = 0.57925E+04, time = 7.49 | CG iter. 21 -- res = 0.13414E+05, tol = 0.57925E+04, time = 7.43 | CG iter. 22 -- res = 0.13975E+05, tol = 0.57925E+04, time = 7.57 | CG iter. 23 -- res = 0.15197E+05, tol = 0.57925E+04, time = 7.41 | CG iter. 24 -- res = 0.16002E+05, tol = 0.57925E+04, time = 7.49 | CG iter. 25 -- res = 0.14815E+05, tol = 0.57925E+04, time = 7.54 | CG iter. 26 -- res = 0.12090E+05, tol = 0.57925E+04, time = 7.47 | CG iter. 27 -- res = 0.92083E+04, tol = 0.57925E+04, time = 7.56 | CG iter. 28 -- res = 0.68789E+04, tol = 0.57925E+04, time = 7.54 | CG iter. 29 -- res = 0.54257E+04, tol = 0.57925E+04, time = 7.61 | CG iter. 30 -- res = 0.46131E+04, tol = 0.57925E+04, time = 8.62 | CG iter. 31 -- res = 0.40563E+04, tol = 0.57925E+04, time = 8.51 | CG iter. 32 -- res = 0.34975E+04, tol = 0.57925E+04, time = 7.95 | CG iter. 33 -- res = 0.29235E+04, tol = 0.57925E+04, time = 7.55 | CG iter. 34 -- res = 0.23747E+04, tol = 0.57925E+04, time = 7.56 | CG iter. 35 -- res = 0.20064E+04, tol = 0.57925E+04, time = 7.55 | CG iter. 36 -- res = 0.18293E+04, tol = 0.57925E+04, time = 7.65 | CG iter. 37 -- res = 0.17916E+04, tol = 0.57925E+04, time = 7.43 | CG iter. 38 -- res = 0.17794E+04, tol = 0.57925E+04, time = 7.64 | CG iter. 39 -- res = 0.16226E+04, tol = 0.57925E+04, time = 7.49 | CG iter. 40 -- res = 0.13976E+04, tol = 0.57925E+04, time = 7.52 | CG iter. 41 -- res = 0.11506E+04, tol = 0.57925E+04, time = 7.68 | CG iter. 42 -- res = 0.92746E+03, tol = 0.57925E+04, time = 7.45 | CG iter. 43 -- res = 0.77158E+03, tol = 0.57925E+04, time = 7.64 | CG iter. 44 -- res = 0.66753E+03, tol = 0.57925E+04, time = 8.10 | CG iter. 45 -- res = 0.59967E+03, tol = 0.57925E+04, time = 7.60 | CG iter. 46 -- res = 0.53347E+03, tol = 0.57925E+04, time = 7.66 | CG iter. 47 -- res = 0.47265E+03, tol = 0.57925E+04, time = 7.48 | CG iter. 48 -- res = 0.40779E+03, tol = 0.57925E+04, time = 7.65 | CG iter. 49 -- res = 0.34292E+03, tol = 0.57925E+04, time = 7.58 | CG iter. 50 -- res = 0.30363E+03, tol = 0.57925E+04, time = 7.45 | CG iter. 51 -- res = 0.28747E+03, tol = 0.57925E+04, time = 7.70 | CG iter. 52 -- res = 0.27594E+03, tol = 0.57925E+04, time = 7.55 | CG iter. 53 -- res = 0.26119E+03, tol = 0.57925E+04, time = 7.51 | CG iter. 54 -- res = 0.23752E+03, tol = 0.57925E+04, time = 7.56 | CG iter. 55 -- res = 0.20539E+03, tol = 0.57925E+04, time = 7.54 | CG iter. 56 -- res = 0.17251E+03, tol = 0.57925E+04, time = 7.50 | CG iter. 57 -- res = 0.14772E+03, tol = 0.57925E+04, time = 8.97 | CG iter. 58 -- res = 0.13341E+03, tol = 0.57925E+04, time = 12.85 | CG iter. 59 -- res = 0.12345E+03, tol = 0.57925E+04, time = 7.67 | CG iter. 60 -- res = 0.11287E+03, tol = 0.57925E+04, time = 7.38 | Final CG iter 61 -- res = 0.11287E+03, tol = 0.57925E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.772 ( -229.955 -2228.050 2510.401 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9109377.839 | Old band monopole 9215272.604 | Change to band monopole -105894.765 | Change to component monopole 105894.310 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.647 2.765 | New value 2.437 | Old value 3.647 | Difference -1.210 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.691 ( 7.188 7.272 -6.382 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.756 6.303 | New value 0.938 | Old value 0.756 | Difference 0.181 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.80032E+05, tol = 0.47627E+18, time = 1.21 | CG iter. 2 -- res = 0.20487E+02, tol = 0.47627E+18, time = 1.20 | CG iter. 3 -- res = 0.21828E+00, tol = 0.47627E+18, time = 1.22 | CG iter. 4 -- res = 0.38612E-03, tol = 0.47627E+18, time = 1.22 | Final CG iter 5 -- res = 0.11479E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9109338.657 | (Sampled value in CG: 9098136.346 ) | Chain = 1 -- chisq = 0.81472814E+09 | Chain = 1 -- wall time = 5260.035 sec Available RAM: MemAvailable: 349002320 kB Available Swap: SwapFree: 1637595220 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 148 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444653 | --> Sampling calibration, mode = relcal | relcal = 1.3430943E-02 7.3230400E-04 -1.5909268E-03 -1.2572319E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1223440 0.1389015 9403155.75893825 | BP delta = 0.1223440 0.1340892 9403152.93063809 | BP chisq diff = -2.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632313 | --> Sampling calibration, mode = relcal | relcal = -2.8205335E-03 -7.0490350E-04 1.6776586E-03 1.6133297E-03 -4.0728829E-04 6.4173690E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5993162 15219963.5240567 | BP delta = 0.0000000E+00 -0.5892366 15219962.7812394 | BP chisq diff = -0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18139629232503 | --> Sampling calibration, mode = relcal | relcal = -7.4274249E-02 -5.8110401E-02 9.1184817E-02 4.1199829E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1599295E-06 4.0984913E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7023E-05 | 2: delta_r/delta_0: 1.4274E-06 | 3: delta_s/delta_0: 2.3113E-07 | 4: delta_r/delta_0: 1.5487E-08 | 5: delta_s/delta_0: 6.1851E-09 | 6: delta_r/delta_0: 1.6300E-09 | 7: delta_s/delta_0: 1.9091E-09 | 8: delta_r/delta_0: 8.9583E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.285567039383090E-003 2.740264039728714E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.7023E-05 | 2: delta_r/delta_0: 1.4274E-06 | 3: delta_s/delta_0: 2.3113E-07 | 4: delta_r/delta_0: 1.5487E-08 | 5: delta_s/delta_0: 6.1851E-09 | 6: delta_r/delta_0: 1.6300E-09 | 7: delta_s/delta_0: 1.9091E-09 | 8: delta_r/delta_0: 8.9583E-11 | Reached bicg-stab tolerance | BP delta = 2.4860906E-03 1.6381282E-02 3712693.01575775 | BP delta = 2.4860906E-03 1.6499419E-02 3712731.97352502 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02563175 | --> Sampling calibration, mode = relcal | relcal = -0.1065409 -9.5558338E-02 0.1448724 5.7226896E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4189140E-03 1.6333340E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5028E-05 | 2: delta_r/delta_0: 1.4178E-06 | 3: delta_s/delta_0: 2.4144E-07 | 4: delta_r/delta_0: 4.7604E-08 | 5: delta_s/delta_0: 2.3314E-08 | 6: delta_r/delta_0: 7.1211E-09 | 7: delta_s/delta_0: 7.1441E-09 | 8: delta_r/delta_0: 1.5583E-09 | 9: delta_s/delta_0: 7.3768E-10 | 10: delta_r/delta_0: 5.4474E-10 | 11: delta_s/delta_0: 3.8652E-10 | 12: delta_r/delta_0: 1.3725E-10 | 13: delta_s/delta_0: 1.0864E-10 | 14: delta_r/delta_0: 2.6056E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.956470033445340E-003 2.811829801455838E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.5028E-05 | 2: delta_r/delta_0: 1.4179E-06 | 3: delta_s/delta_0: 2.4144E-07 | 4: delta_r/delta_0: 4.7607E-08 | 5: delta_s/delta_0: 2.3312E-08 | 6: delta_r/delta_0: 7.1211E-09 | 7: delta_s/delta_0: 7.1438E-09 | 8: delta_r/delta_0: 1.5583E-09 | 9: delta_s/delta_0: 7.3769E-10 | 10: delta_r/delta_0: 5.4475E-10 | 11: delta_s/delta_0: 3.8653E-10 | 12: delta_r/delta_0: 1.3725E-10 | 13: delta_s/delta_0: 1.0865E-10 | 14: delta_r/delta_0: 2.6067E-11 | Reached bicg-stab tolerance | BP delta = -0.2821065 -0.2588579 2841710.39436068 | BP delta = -0.2821065 -0.2570865 2841709.95152499 | BP chisq diff = -0.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81209057 | --> Sampling calibration, mode = relcal | relcal = 0.2954766 0.2248345 -0.2836717 -0.2366394 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1546888E-05 5.2050506E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7448E-04 | 2: delta_r/delta_0: 4.6772E-06 | 3: delta_s/delta_0: 4.6242E-06 | 4: delta_r/delta_0: 7.9874E-07 | 5: delta_s/delta_0: 1.7747E-07 | 6: delta_r/delta_0: 1.1293E-07 | 7: delta_s/delta_0: 6.0619E-07 | 8: delta_r/delta_0: 2.3511E-08 | 9: delta_s/delta_0: 3.9423E-08 | 10: delta_r/delta_0: 2.4524E-08 | 11: delta_s/delta_0: 1.1504E-09 | 12: delta_r/delta_0: 7.8697E-10 | 13: delta_s/delta_0: 6.0967E-09 | 14: delta_r/delta_0: 4.4458E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.816660265390683E-002 4.022439370274159E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7450E-04 | 2: delta_r/delta_0: 4.6775E-06 | 3: delta_s/delta_0: 4.6245E-06 | 4: delta_r/delta_0: 7.9872E-07 | 5: delta_s/delta_0: 1.7743E-07 | 6: delta_r/delta_0: 1.1291E-07 | 7: delta_s/delta_0: 6.0602E-07 | 8: delta_r/delta_0: 2.3512E-08 | 9: delta_s/delta_0: 3.9515E-08 | 10: delta_r/delta_0: 2.4547E-08 | 11: delta_s/delta_0: 1.1507E-09 | 12: delta_r/delta_0: 7.8713E-10 | 13: delta_s/delta_0: 6.0048E-09 | 14: delta_r/delta_0: 4.3966E-11 | Reached bicg-stab tolerance | BP delta = -0.2090030 -0.2268784 2827199.87370855 | BP delta = -0.2090030 -0.2296128 2827254.18715425 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95886169 | --> Sampling calibration, mode = relcal | relcal = 0.1063528 0.1396016 -0.1101822 -0.1357723 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0031641E-02 1.3983385E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4351E-04 | 2: delta_r/delta_0: 4.0178E-06 | 3: delta_s/delta_0: 1.9958E-04 | 4: delta_r/delta_0: 1.5526E-05 | 5: delta_s/delta_0: 1.6380E-07 | 6: delta_r/delta_0: 9.6892E-08 | 7: delta_s/delta_0: 9.5831E-07 | 8: delta_r/delta_0: 2.0570E-08 | 9: delta_s/delta_0: 4.3912E-07 | 10: delta_r/delta_0: 1.1920E-07 | 11: delta_s/delta_0: 8.5770E-10 | 12: delta_r/delta_0: 6.5328E-10 | 13: delta_s/delta_0: 2.9413E-10 | 14: delta_r/delta_0: 2.3274E-10 | 15: delta_s/delta_0: 6.1584E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.831085609323777E-002 3.698335417029204E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4352E-04 | 2: delta_r/delta_0: 4.0178E-06 | 3: delta_s/delta_0: 1.9953E-04 | 4: delta_r/delta_0: 1.5515E-05 | 5: delta_s/delta_0: 1.6378E-07 | 6: delta_r/delta_0: 9.6828E-08 | 7: delta_s/delta_0: 9.5504E-07 | 8: delta_r/delta_0: 2.0578E-08 | 9: delta_s/delta_0: 4.5101E-07 | 10: delta_r/delta_0: 1.2175E-07 | 11: delta_s/delta_0: 8.5973E-10 | 12: delta_r/delta_0: 6.5435E-10 | 13: delta_s/delta_0: 2.9404E-10 | 14: delta_r/delta_0: 2.3323E-10 | 15: delta_s/delta_0: 6.1388E-11 | Reached bicg-stab tolerance | BP delta = 2.3893457E-02 0.1257745 3004000.77770888 | BP delta = 2.3893457E-02 0.1472519 3004116.25289086 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184991 | New value = -3.175782 | poltype: 2 pol: 1 CPU time specind = 1.7934084E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136206 | New value = -3.170057 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208463 | New value = -3.169513 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114858 | New value = -3.099059 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124462 | New value = -3.154706 | poltype: 2 pol: 2 CPU time specind = 3.4759045E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.13539E+08, tol = 0.77314E+01, time = 3.36 | CG iter. 2 -- res = 0.33281E+06, tol = 0.77314E+01, time = 3.51 | CG iter. 3 -- res = 0.46117E+05, tol = 0.77314E+01, time = 3.46 | CG iter. 4 -- res = 0.19221E+05, tol = 0.77314E+01, time = 3.73 | CG iter. 5 -- res = 0.83920E+04, tol = 0.77314E+01, time = 3.54 | CG iter. 6 -- res = 0.39185E+04, tol = 0.77314E+01, time = 3.46 | CG iter. 7 -- res = 0.22337E+04, tol = 0.77314E+01, time = 3.64 | CG iter. 8 -- res = 0.12554E+04, tol = 0.77314E+01, time = 3.41 | CG iter. 9 -- res = 0.84838E+03, tol = 0.77314E+01, time = 3.64 | CG iter. 10 -- res = 0.73279E+03, tol = 0.77314E+01, time = 3.51 | CG iter. 11 -- res = 0.70507E+03, tol = 0.77314E+01, time = 3.55 | CG iter. 12 -- res = 0.56923E+03, tol = 0.77314E+01, time = 3.46 | CG iter. 13 -- res = 0.41027E+03, tol = 0.77314E+01, time = 3.54 | CG iter. 14 -- res = 0.29952E+03, tol = 0.77314E+01, time = 3.58 | CG iter. 15 -- res = 0.24088E+03, tol = 0.77314E+01, time = 3.53 | CG iter. 16 -- res = 0.18899E+03, tol = 0.77314E+01, time = 4.99 | CG iter. 17 -- res = 0.14537E+03, tol = 0.77314E+01, time = 3.83 | CG iter. 18 -- res = 0.10863E+03, tol = 0.77314E+01, time = 3.88 | CG iter. 19 -- res = 0.90649E+02, tol = 0.77314E+01, time = 3.73 | CG iter. 20 -- res = 0.77570E+02, tol = 0.77314E+01, time = 3.60 | CG iter. 21 -- res = 0.58514E+02, tol = 0.77314E+01, time = 3.45 | CG iter. 22 -- res = 0.42057E+02, tol = 0.77314E+01, time = 3.60 | CG iter. 23 -- res = 0.32118E+02, tol = 0.77314E+01, time = 3.52 | CG iter. 24 -- res = 0.26546E+02, tol = 0.77314E+01, time = 3.52 | CG iter. 25 -- res = 0.21632E+02, tol = 0.77314E+01, time = 3.50 | CG iter. 26 -- res = 0.15788E+02, tol = 0.77314E+01, time = 3.53 | CG iter. 27 -- res = 0.11897E+02, tol = 0.77314E+01, time = 3.48 | CG iter. 28 -- res = 0.96517E+01, tol = 0.77314E+01, time = 3.55 | CG iter. 29 -- res = 0.76903E+01, tol = 0.77314E+01, time = 3.56 | CG iter. 30 -- res = 0.59198E+01, tol = 0.77314E+01, time = 3.41 | CG iter. 31 -- res = 0.43034E+01, tol = 0.77314E+01, time = 3.66 | CG iter. 32 -- res = 0.34258E+01, tol = 0.77314E+01, time = 3.58 | CG iter. 33 -- res = 0.28795E+01, tol = 0.77314E+01, time = 3.46 | CG iter. 34 -- res = 0.22793E+01, tol = 0.77314E+01, time = 3.58 | CG iter. 35 -- res = 0.16674E+01, tol = 0.77314E+01, time = 3.53 | CG iter. 36 -- res = 0.13195E+01, tol = 0.77314E+01, time = 3.66 | CG iter. 37 -- res = 0.11039E+01, tol = 0.77314E+01, time = 3.51 | CG iter. 38 -- res = 0.89904E+00, tol = 0.77314E+01, time = 3.46 | CG iter. 39 -- res = 0.69579E+00, tol = 0.77314E+01, time = 3.47 | CG iter. 40 -- res = 0.56878E+00, tol = 0.77314E+01, time = 3.53 | CG iter. 41 -- res = 0.47679E+00, tol = 0.77314E+01, time = 3.47 | CG iter. 42 -- res = 0.38725E+00, tol = 0.77314E+01, time = 3.60 | CG iter. 43 -- res = 0.29599E+00, tol = 0.77314E+01, time = 3.38 | CG iter. 44 -- res = 0.23028E+00, tol = 0.77314E+01, time = 3.47 | CG iter. 45 -- res = 0.18720E+00, tol = 0.77314E+01, time = 3.68 | CG iter. 46 -- res = 0.15676E+00, tol = 0.77314E+01, time = 3.69 | CG iter. 47 -- res = 0.12669E+00, tol = 0.77314E+01, time = 3.43 | CG iter. 48 -- res = 0.96578E-01, tol = 0.77314E+01, time = 3.42 | CG iter. 49 -- res = 0.77605E-01, tol = 0.77314E+01, time = 3.63 | CG iter. 50 -- res = 0.67295E-01, tol = 0.77314E+01, time = 3.55 | Final CG iter 51 -- res = 0.67295E-01, tol = 0.77314E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6704998.378 | Old band monopole 9109377.839 | Change to band monopole -2404379.461 | Change to component monopole 2404369.120 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.10577E+06, tol = 0.47627E+18, time = 1.19 | CG iter. 2 -- res = 0.46556E+02, tol = 0.47627E+18, time = 1.21 | CG iter. 3 -- res = 0.22420E+01, tol = 0.47627E+18, time = 1.22 | CG iter. 4 -- res = 0.20911E-03, tol = 0.47627E+18, time = 1.21 | Final CG iter 5 -- res = 0.14379E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6704969.538 | (Sampled value in CG: 6710028.274 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.604957 | New value = 1.525227 | poltype: 2 pol: 1 CPU time specind = 9.2699528E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.466322 | New value = 1.454542 | poltype: 2 pol: 2 CPU time specind = 2.7408600E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.25426E+08, tol = 0.47611E+04, time = 3.97 | CG iter. 2 -- res = 0.53345E+07, tol = 0.47611E+04, time = 4.03 | CG iter. 3 -- res = 0.81563E+06, tol = 0.47611E+04, time = 4.18 | CG iter. 4 -- res = 0.33635E+06, tol = 0.47611E+04, time = 4.15 | CG iter. 5 -- res = 0.14571E+06, tol = 0.47611E+04, time = 4.01 | CG iter. 6 -- res = 0.77632E+05, tol = 0.47611E+04, time = 4.08 | CG iter. 7 -- res = 0.42608E+05, tol = 0.47611E+04, time = 4.10 | CG iter. 8 -- res = 0.19756E+05, tol = 0.47611E+04, time = 4.27 | CG iter. 9 -- res = 0.86744E+04, tol = 0.47611E+04, time = 4.03 | CG iter. 10 -- res = 0.36087E+04, tol = 0.47611E+04, time = 4.06 | CG iter. 11 -- res = 0.16465E+04, tol = 0.47611E+04, time = 4.25 | CG iter. 12 -- res = 0.85592E+03, tol = 0.47611E+04, time = 4.16 | CG iter. 13 -- res = 0.48251E+03, tol = 0.47611E+04, time = 4.11 | CG iter. 14 -- res = 0.26976E+03, tol = 0.47611E+04, time = 4.08 | CG iter. 15 -- res = 0.13997E+03, tol = 0.47611E+04, time = 4.00 | CG iter. 16 -- res = 0.65773E+02, tol = 0.47611E+04, time = 4.18 | CG iter. 17 -- res = 0.30841E+02, tol = 0.47611E+04, time = 3.98 | CG iter. 18 -- res = 0.15321E+02, tol = 0.47611E+04, time = 4.11 | CG iter. 19 -- res = 0.81957E+01, tol = 0.47611E+04, time = 4.46 | CG iter. 20 -- res = 0.46677E+01, tol = 0.47611E+04, time = 5.58 | CG iter. 21 -- res = 0.26070E+01, tol = 0.47611E+04, time = 4.33 | CG iter. 22 -- res = 0.13047E+01, tol = 0.47611E+04, time = 4.60 | CG iter. 23 -- res = 0.64330E+00, tol = 0.47611E+04, time = 4.04 | CG iter. 24 -- res = 0.33192E+00, tol = 0.47611E+04, time = 4.19 | CG iter. 25 -- res = 0.18556E+00, tol = 0.47611E+04, time = 4.05 | CG iter. 26 -- res = 0.10617E+00, tol = 0.47611E+04, time = 4.14 | CG iter. 27 -- res = 0.58559E-01, tol = 0.47611E+04, time = 4.15 | CG iter. 28 -- res = 0.31296E-01, tol = 0.47611E+04, time = 4.13 | CG iter. 29 -- res = 0.16380E-01, tol = 0.47611E+04, time = 4.02 | CG iter. 30 -- res = 0.85497E-02, tol = 0.47611E+04, time = 4.21 | CG iter. 31 -- res = 0.46852E-02, tol = 0.47611E+04, time = 4.02 | CG iter. 32 -- res = 0.26550E-02, tol = 0.47611E+04, time = 4.16 | CG iter. 33 -- res = 0.14686E-02, tol = 0.47611E+04, time = 4.03 | CG iter. 34 -- res = 0.77526E-03, tol = 0.47611E+04, time = 4.15 | CG iter. 35 -- res = 0.40431E-03, tol = 0.47611E+04, time = 4.02 | Final CG iter 36 -- res = 0.40431E-03, tol = 0.47611E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.422 2.759 | New value 1.195 | Old value 2.422 | Difference -1.227 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.88000E+05, tol = 0.47627E+18, time = 1.29 | CG iter. 2 -- res = 0.19082E+02, tol = 0.47627E+18, time = 1.24 | CG iter. 3 -- res = 0.40928E+00, tol = 0.47627E+18, time = 1.22 | CG iter. 4 -- res = 0.89909E-04, tol = 0.47627E+18, time = 1.25 | Final CG iter 5 -- res = 0.41676E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6704969.538 | (Sampled value in CG: 6708657.659 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.620442 | New value = -3.671573 | poltype: 1 pol: 1 CPU time specind = 4.7459602E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.20931E+07, tol = 0.28180E+01, time = 1.53 | CG iter. 2 -- res = 0.64781E+06, tol = 0.28180E+01, time = 1.64 | CG iter. 3 -- res = 0.12012E+06, tol = 0.28180E+01, time = 1.57 | CG iter. 4 -- res = 0.48089E+05, tol = 0.28180E+01, time = 1.63 | CG iter. 5 -- res = 0.29699E+05, tol = 0.28180E+01, time = 1.62 | CG iter. 6 -- res = 0.15459E+05, tol = 0.28180E+01, time = 1.53 | CG iter. 7 -- res = 0.62113E+04, tol = 0.28180E+01, time = 1.58 | CG iter. 8 -- res = 0.26966E+04, tol = 0.28180E+01, time = 1.62 | CG iter. 9 -- res = 0.11182E+04, tol = 0.28180E+01, time = 1.64 | CG iter. 10 -- res = 0.44992E+03, tol = 0.28180E+01, time = 1.74 | CG iter. 11 -- res = 0.19903E+03, tol = 0.28180E+01, time = 1.59 | CG iter. 12 -- res = 0.95981E+02, tol = 0.28180E+01, time = 1.62 | CG iter. 13 -- res = 0.50687E+02, tol = 0.28180E+01, time = 1.70 | CG iter. 14 -- res = 0.24181E+02, tol = 0.28180E+01, time = 1.59 | CG iter. 15 -- res = 0.10285E+02, tol = 0.28180E+01, time = 1.61 | CG iter. 16 -- res = 0.44164E+01, tol = 0.28180E+01, time = 1.65 | CG iter. 17 -- res = 0.19714E+01, tol = 0.28180E+01, time = 1.55 | CG iter. 18 -- res = 0.96285E+00, tol = 0.28180E+01, time = 1.62 | CG iter. 19 -- res = 0.46357E+00, tol = 0.28180E+01, time = 1.68 | CG iter. 20 -- res = 0.23307E+00, tol = 0.28180E+01, time = 1.70 | CG iter. 21 -- res = 0.10774E+00, tol = 0.28180E+01, time = 1.59 | CG iter. 22 -- res = 0.48406E-01, tol = 0.28180E+01, time = 1.62 | CG iter. 23 -- res = 0.21897E-01, tol = 0.28180E+01, time = 1.62 | CG iter. 24 -- res = 0.10081E-01, tol = 0.28180E+01, time = 1.68 | CG iter. 25 -- res = 0.51139E-02, tol = 0.28180E+01, time = 1.61 | CG iter. 26 -- res = 0.26671E-02, tol = 0.28180E+01, time = 1.59 | CG iter. 27 -- res = 0.12475E-02, tol = 0.28180E+01, time = 1.61 | CG iter. 28 -- res = 0.58412E-03, tol = 0.28180E+01, time = 1.70 | CG iter. 29 -- res = 0.26163E-03, tol = 0.28180E+01, time = 1.63 | CG iter. 30 -- res = 0.12230E-03, tol = 0.28180E+01, time = 1.61 | CG iter. 31 -- res = 0.62655E-04, tol = 0.28180E+01, time = 1.67 | CG iter. 32 -- res = 0.31309E-04, tol = 0.28180E+01, time = 1.62 | CG iter. 33 -- res = 0.15100E-04, tol = 0.28180E+01, time = 1.71 | CG iter. 34 -- res = 0.69735E-05, tol = 0.28180E+01, time = 1.65 | CG iter. 35 -- res = 0.32227E-05, tol = 0.28180E+01, time = 2.42 | CG iter. 36 -- res = 0.15839E-05, tol = 0.28180E+01, time = 2.43 | CG iter. 37 -- res = 0.78604E-06, tol = 0.28180E+01, time = 1.88 | CG iter. 38 -- res = 0.39369E-06, tol = 0.28180E+01, time = 1.85 | CG iter. 39 -- res = 0.18956E-06, tol = 0.28180E+01, time = 1.71 | CG iter. 40 -- res = 0.85075E-07, tol = 0.28180E+01, time = 1.79 | CG iter. 41 -- res = 0.39921E-07, tol = 0.28180E+01, time = 2.02 | CG iter. 42 -- res = 0.18956E-07, tol = 0.28180E+01, time = 1.65 | CG iter. 43 -- res = 0.94221E-08, tol = 0.28180E+01, time = 1.61 | CG iter. 44 -- res = 0.44482E-08, tol = 0.28180E+01, time = 1.60 | CG iter. 45 -- res = 0.21518E-08, tol = 0.28180E+01, time = 1.59 | CG iter. 46 -- res = 0.97298E-09, tol = 0.28180E+01, time = 1.66 | CG iter. 47 -- res = 0.45915E-09, tol = 0.28180E+01, time = 1.63 | CG iter. 48 -- res = 0.21064E-09, tol = 0.28180E+01, time = 1.65 | CG iter. 49 -- res = 0.10565E-09, tol = 0.28180E+01, time = 1.71 | CG iter. 50 -- res = 0.51292E-10, tol = 0.28180E+01, time = 1.62 | Final CG iter 51 -- res = 0.51292E-10, tol = 0.28180E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.322 5.976 | New value 4.996 | Old value 2.322 | Difference 2.674 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.66562E+04, tol = 0.47627E+18, time = 1.21 | CG iter. 2 -- res = 0.19210E+02, tol = 0.47627E+18, time = 1.23 | CG iter. 3 -- res = 0.22649E+00, tol = 0.47627E+18, time = 1.23 | CG iter. 4 -- res = 0.26176E-03, tol = 0.47627E+18, time = 1.21 | Final CG iter 5 -- res = 0.18901E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6704969.538 | (Sampled value in CG: 6711655.483 ) | CPU time specind = 778.0125 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.71264E+08, tol = 0.57900E+04, time = 7.29 | CG iter. 2 -- res = 0.59685E+08, tol = 0.57900E+04, time = 7.67 | CG iter. 3 -- res = 0.15895E+08, tol = 0.57900E+04, time = 7.43 | CG iter. 4 -- res = 0.68745E+07, tol = 0.57900E+04, time = 7.56 | CG iter. 5 -- res = 0.42442E+07, tol = 0.57900E+04, time = 7.53 | CG iter. 6 -- res = 0.24873E+07, tol = 0.57900E+04, time = 7.40 | CG iter. 7 -- res = 0.14227E+07, tol = 0.57900E+04, time = 7.52 | CG iter. 8 -- res = 0.93350E+06, tol = 0.57900E+04, time = 7.37 | CG iter. 9 -- res = 0.58512E+06, tol = 0.57900E+04, time = 7.37 | CG iter. 10 -- res = 0.34631E+06, tol = 0.57900E+04, time = 7.62 | CG iter. 11 -- res = 0.19258E+06, tol = 0.57900E+04, time = 7.36 | CG iter. 12 -- res = 0.10388E+06, tol = 0.57900E+04, time = 7.51 | CG iter. 13 -- res = 0.54920E+05, tol = 0.57900E+04, time = 7.50 | CG iter. 14 -- res = 0.31113E+05, tol = 0.57900E+04, time = 7.47 | CG iter. 15 -- res = 0.19612E+05, tol = 0.57900E+04, time = 14.01 | CG iter. 16 -- res = 0.13359E+05, tol = 0.57900E+04, time = 7.49 | CG iter. 17 -- res = 0.94681E+04, tol = 0.57900E+04, time = 7.43 | CG iter. 18 -- res = 0.65707E+04, tol = 0.57900E+04, time = 7.52 | CG iter. 19 -- res = 0.44374E+04, tol = 0.57900E+04, time = 7.51 | CG iter. 20 -- res = 0.29678E+04, tol = 0.57900E+04, time = 7.35 | CG iter. 21 -- res = 0.20834E+04, tol = 0.57900E+04, time = 7.48 | CG iter. 22 -- res = 0.16877E+04, tol = 0.57900E+04, time = 7.34 | CG iter. 23 -- res = 0.15869E+04, tol = 0.57900E+04, time = 7.53 | CG iter. 24 -- res = 0.16718E+04, tol = 0.57900E+04, time = 7.55 | CG iter. 25 -- res = 0.17531E+04, tol = 0.57900E+04, time = 7.31 | CG iter. 26 -- res = 0.18049E+04, tol = 0.57900E+04, time = 9.10 | CG iter. 27 -- res = 0.17028E+04, tol = 0.57900E+04, time = 8.21 | CG iter. 28 -- res = 0.14950E+04, tol = 0.57900E+04, time = 7.84 | CG iter. 29 -- res = 0.13498E+04, tol = 0.57900E+04, time = 7.31 | CG iter. 30 -- res = 0.12852E+04, tol = 0.57900E+04, time = 7.46 | CG iter. 31 -- res = 0.12000E+04, tol = 0.57900E+04, time = 7.42 | CG iter. 32 -- res = 0.10492E+04, tol = 0.57900E+04, time = 7.39 | CG iter. 33 -- res = 0.86652E+03, tol = 0.57900E+04, time = 7.63 | CG iter. 34 -- res = 0.69678E+03, tol = 0.57900E+04, time = 7.60 | CG iter. 35 -- res = 0.53156E+03, tol = 0.57900E+04, time = 7.38 | CG iter. 36 -- res = 0.42077E+03, tol = 0.57900E+04, time = 7.50 | CG iter. 37 -- res = 0.36450E+03, tol = 0.57900E+04, time = 7.46 | CG iter. 38 -- res = 0.33825E+03, tol = 0.57900E+04, time = 7.43 | CG iter. 39 -- res = 0.32108E+03, tol = 0.57900E+04, time = 7.42 | CG iter. 40 -- res = 0.29576E+03, tol = 0.57900E+04, time = 7.44 | CG iter. 41 -- res = 0.26398E+03, tol = 0.57900E+04, time = 8.20 | CG iter. 42 -- res = 0.23304E+03, tol = 0.57900E+04, time = 7.51 | CG iter. 43 -- res = 0.20869E+03, tol = 0.57900E+04, time = 7.50 | CG iter. 44 -- res = 0.19132E+03, tol = 0.57900E+04, time = 7.55 | CG iter. 45 -- res = 0.18100E+03, tol = 0.57900E+04, time = 7.42 | CG iter. 46 -- res = 0.16868E+03, tol = 0.57900E+04, time = 7.47 | CG iter. 47 -- res = 0.14602E+03, tol = 0.57900E+04, time = 7.39 | CG iter. 48 -- res = 0.11848E+03, tol = 0.57900E+04, time = 7.53 | CG iter. 49 -- res = 0.95330E+02, tol = 0.57900E+04, time = 7.49 | CG iter. 50 -- res = 0.77599E+02, tol = 0.57900E+04, time = 7.51 | CG iter. 51 -- res = 0.68059E+02, tol = 0.57900E+04, time = 7.49 | CG iter. 52 -- res = 0.63719E+02, tol = 0.57900E+04, time = 7.46 | CG iter. 53 -- res = 0.60496E+02, tol = 0.57900E+04, time = 7.57 | CG iter. 54 -- res = 0.57170E+02, tol = 0.57900E+04, time = 14.10 | CG iter. 55 -- res = 0.54559E+02, tol = 0.57900E+04, time = 7.47 | CG iter. 56 -- res = 0.49888E+02, tol = 0.57900E+04, time = 7.42 | CG iter. 57 -- res = 0.45908E+02, tol = 0.57900E+04, time = 7.42 | CG iter. 58 -- res = 0.43127E+02, tol = 0.57900E+04, time = 7.65 | CG iter. 59 -- res = 0.41801E+02, tol = 0.57900E+04, time = 7.37 | CG iter. 60 -- res = 0.41598E+02, tol = 0.57900E+04, time = 7.46 | Final CG iter 61 -- res = 0.41598E+02, tol = 0.57900E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.762 ( -229.995 -2229.184 2511.525 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9730400.800 | Old band monopole 6704998.378 | Change to band monopole 3025402.423 | Change to component monopole -3025389.410 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.118 2.724 | New value -0.822 | Old value 1.118 | Difference -1.939 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.606 ( 7.710 8.987 -8.270 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.208 6.082 | New value -3.286 | Old value 13.208 | Difference -16.494 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.64106E+06, tol = 0.47627E+18, time = 1.29 | CG iter. 2 -- res = 0.14969E+03, tol = 0.47627E+18, time = 1.74 | CG iter. 3 -- res = 0.39183E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.65296E-02, tol = 0.47627E+18, time = 1.64 | Final CG iter 5 -- res = 0.79945E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9730358.948 | (Sampled value in CG: 9702547.118 ) | Chain = 1 -- chisq = 0.81507027E+09 | Chain = 1 -- wall time = 5429.370 sec Available RAM: MemAvailable: 365800508 kB Available Swap: SwapFree: 1639526584 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 149 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444082 | --> Sampling calibration, mode = relcal | relcal = 1.3434248E-02 7.5083377E-04 -1.6174831E-03 -1.2567598E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1223440 0.1340892 97040685.9147693 | BP delta = 0.1365826 0.1483277 97040694.4486135 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632391 | --> Sampling calibration, mode = relcal | relcal = -2.8209162E-03 -7.0416270E-04 1.6776129E-03 1.6142243E-03 -4.0682999E-04 6.4007175E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5892366 15217694.5465455 | BP delta = 0.0000000E+00 -0.5867176 15217692.4209296 | BP chisq diff = -2.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18250393621750 | --> Sampling calibration, mode = relcal | relcal = -7.5034708E-02 -5.8517873E-02 9.1927230E-02 4.1625351E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.8936748E-06 4.2735143E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0922E-05 | 2: delta_r/delta_0: 9.0829E-07 | 3: delta_s/delta_0: 2.1372E-07 | 4: delta_r/delta_0: 1.6790E-08 | 5: delta_s/delta_0: 4.8948E-09 | 6: delta_r/delta_0: 1.2094E-09 | 7: delta_s/delta_0: 2.6715E-10 | 8: delta_r/delta_0: 8.7927E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.056997695083503E-003 2.737583502007701E-005 | BP delta = 2.4860906E-03 1.6381282E-02 50482908.9861606 | BP delta = 2.8963406E-03 1.6791532E-02 50482908.6695179 | BP chisq diff = -0.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02575492 | --> Sampling calibration, mode = relcal | relcal = -0.1066560 -9.5518716E-02 0.1449481 5.7226650E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7273891E-03 1.3376588E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3987E-05 | 2: delta_r/delta_0: 1.2497E-06 | 3: delta_s/delta_0: 2.3620E-07 | 4: delta_r/delta_0: 4.9887E-08 | 5: delta_s/delta_0: 1.7188E-08 | 6: delta_r/delta_0: 6.5611E-09 | 7: delta_s/delta_0: 1.8233E-08 | 8: delta_r/delta_0: 1.0693E-09 | 9: delta_s/delta_0: 9.0635E-10 | 10: delta_r/delta_0: 2.7351E-10 | 11: delta_s/delta_0: 2.8043E-09 | 12: delta_r/delta_0: 2.6438E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.747330347989677E-003 2.811479494881410E-005 | BP delta = -0.2821065 -0.2570865 57390784.3654628 | BP delta = -0.2826099 -0.2575899 57390784.3462278 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81213413 | --> Sampling calibration, mode = relcal | relcal = 0.2953583 0.2248549 -0.2836932 -0.2365200 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0801746E-04 5.5026473E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9178E-04 | 2: delta_r/delta_0: 1.4325E-05 | 3: delta_s/delta_0: 3.8987E-05 | 4: delta_r/delta_0: 1.6569E-06 | 5: delta_s/delta_0: 3.1300E-07 | 6: delta_r/delta_0: 1.3257E-07 | 7: delta_s/delta_0: 5.4474E-07 | 8: delta_r/delta_0: 3.4294E-08 | 9: delta_s/delta_0: 2.5467E-08 | 10: delta_r/delta_0: 2.6632E-09 | 11: delta_s/delta_0: 2.0697E-09 | 12: delta_r/delta_0: 9.8058E-10 | 13: delta_s/delta_0: 1.9053E-10 | 14: delta_r/delta_0: 7.0345E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.214214103534188E-002 4.022103822980727E-005 | BP delta = -0.2090030 -0.2268784 72488308.1238477 | BP delta = -0.2107889 -0.2286642 72488308.1738839 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95903179 | --> Sampling calibration, mode = relcal | relcal = 0.1064850 0.1394227 -0.1101499 -0.1357578 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0261931E-02 1.2549548E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5856E-04 | 2: delta_r/delta_0: 4.3038E-06 | 3: delta_s/delta_0: 1.6012E-04 | 4: delta_r/delta_0: 1.1499E-05 | 5: delta_s/delta_0: 1.6550E-07 | 6: delta_r/delta_0: 9.4537E-08 | 7: delta_s/delta_0: 7.2012E-07 | 8: delta_r/delta_0: 2.1568E-08 | 9: delta_s/delta_0: 4.8749E-08 | 10: delta_r/delta_0: 2.0120E-09 | 11: delta_s/delta_0: 2.4115E-09 | 12: delta_r/delta_0: 4.2317E-10 | 13: delta_s/delta_0: 3.8013E-10 | 14: delta_r/delta_0: 1.7440E-10 | 15: delta_s/delta_0: 2.7001E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.859180392960961E-002 3.697636994622506E-005 | BP delta = 2.3893457E-02 0.1257745 72776298.4460919 | BP delta = 1.6858222E-02 0.1187392 72776299.0230767 | BP chisq diff = 0.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175782 | New value = -3.220962 | poltype: 2 pol: 1 CPU time specind = 8.0139637E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170057 | New value = -3.161710 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.169513 | New value = -3.149804 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.099059 | New value = -3.168602 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154706 | New value = -3.113064 | poltype: 2 pol: 2 CPU time specind = 2.0314932E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.13541E+08, tol = 0.72106E+01, time = 3.64 | CG iter. 2 -- res = 0.33387E+06, tol = 0.72106E+01, time = 3.39 | CG iter. 3 -- res = 0.47702E+05, tol = 0.72106E+01, time = 3.34 | CG iter. 4 -- res = 0.23352E+05, tol = 0.72106E+01, time = 3.56 | CG iter. 5 -- res = 0.12710E+05, tol = 0.72106E+01, time = 3.64 | CG iter. 6 -- res = 0.88794E+04, tol = 0.72106E+01, time = 3.60 | CG iter. 7 -- res = 0.74358E+04, tol = 0.72106E+01, time = 3.47 | CG iter. 8 -- res = 0.68373E+04, tol = 0.72106E+01, time = 3.49 | CG iter. 9 -- res = 0.68653E+04, tol = 0.72106E+01, time = 3.58 | CG iter. 10 -- res = 0.71074E+04, tol = 0.72106E+01, time = 3.50 | CG iter. 11 -- res = 0.57921E+04, tol = 0.72106E+01, time = 3.48 | CG iter. 12 -- res = 0.39866E+04, tol = 0.72106E+01, time = 3.60 | CG iter. 13 -- res = 0.28830E+04, tol = 0.72106E+01, time = 3.55 | CG iter. 14 -- res = 0.23021E+04, tol = 0.72106E+01, time = 3.50 | CG iter. 15 -- res = 0.21360E+04, tol = 0.72106E+01, time = 3.61 | CG iter. 16 -- res = 0.17683E+04, tol = 0.72106E+01, time = 3.53 | CG iter. 17 -- res = 0.12977E+04, tol = 0.72106E+01, time = 3.62 | CG iter. 18 -- res = 0.10435E+04, tol = 0.72106E+01, time = 3.56 | CG iter. 19 -- res = 0.85897E+03, tol = 0.72106E+01, time = 3.51 | CG iter. 20 -- res = 0.67474E+03, tol = 0.72106E+01, time = 3.61 | CG iter. 21 -- res = 0.50752E+03, tol = 0.72106E+01, time = 3.55 | CG iter. 22 -- res = 0.40683E+03, tol = 0.72106E+01, time = 3.59 | CG iter. 23 -- res = 0.36262E+03, tol = 0.72106E+01, time = 3.51 | CG iter. 24 -- res = 0.31885E+03, tol = 0.72106E+01, time = 3.46 | CG iter. 25 -- res = 0.25774E+03, tol = 0.72106E+01, time = 3.53 | CG iter. 26 -- res = 0.19404E+03, tol = 0.72106E+01, time = 3.56 | CG iter. 27 -- res = 0.15919E+03, tol = 0.72106E+01, time = 3.56 | CG iter. 28 -- res = 0.13807E+03, tol = 0.72106E+01, time = 3.58 | CG iter. 29 -- res = 0.11425E+03, tol = 0.72106E+01, time = 3.63 | CG iter. 30 -- res = 0.88480E+02, tol = 0.72106E+01, time = 3.51 | CG iter. 31 -- res = 0.76000E+02, tol = 0.72106E+01, time = 3.52 | CG iter. 32 -- res = 0.68716E+02, tol = 0.72106E+01, time = 3.64 | CG iter. 33 -- res = 0.58404E+02, tol = 0.72106E+01, time = 3.62 | CG iter. 34 -- res = 0.46047E+02, tol = 0.72106E+01, time = 3.49 | CG iter. 35 -- res = 0.38414E+02, tol = 0.72106E+01, time = 3.49 | CG iter. 36 -- res = 0.34592E+02, tol = 0.72106E+01, time = 3.49 | CG iter. 37 -- res = 0.30863E+02, tol = 0.72106E+01, time = 3.65 | CG iter. 38 -- res = 0.25098E+02, tol = 0.72106E+01, time = 3.53 | CG iter. 39 -- res = 0.20064E+02, tol = 0.72106E+01, time = 3.55 | CG iter. 40 -- res = 0.17468E+02, tol = 0.72106E+01, time = 3.55 | CG iter. 41 -- res = 0.15990E+02, tol = 0.72106E+01, time = 3.60 | CG iter. 42 -- res = 0.13151E+02, tol = 0.72106E+01, time = 3.52 | CG iter. 43 -- res = 0.11560E+02, tol = 0.72106E+01, time = 3.55 | CG iter. 44 -- res = 0.97763E+01, tol = 0.72106E+01, time = 3.56 | CG iter. 45 -- res = 0.87213E+01, tol = 0.72106E+01, time = 3.53 | CG iter. 46 -- res = 0.75161E+01, tol = 0.72106E+01, time = 3.58 | CG iter. 47 -- res = 0.62652E+01, tol = 0.72106E+01, time = 3.51 | CG iter. 48 -- res = 0.51339E+01, tol = 0.72106E+01, time = 3.58 | CG iter. 49 -- res = 0.44829E+01, tol = 0.72106E+01, time = 4.03 | CG iter. 50 -- res = 0.39996E+01, tol = 0.72106E+01, time = 9.67 | Final CG iter 51 -- res = 0.39996E+01, tol = 0.72106E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10023212.576 | Old band monopole 9730400.800 | Change to band monopole 292811.776 | Change to component monopole -292810.516 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.71 | CG iter. 1 -- res = 0.90480E+05, tol = 0.47627E+18, time = 1.26 | CG iter. 2 -- res = 0.43509E+02, tol = 0.47627E+18, time = 1.23 | CG iter. 3 -- res = 0.19060E+01, tol = 0.47627E+18, time = 1.26 | CG iter. 4 -- res = 0.37845E-02, tol = 0.47627E+18, time = 1.20 | Final CG iter 5 -- res = 0.10106E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10023169.464 | (Sampled value in CG: 9997672.033 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.525227 | New value = 1.551450 | poltype: 2 pol: 1 CPU time specind = 4.0309429E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.454542 | New value = 1.471734 | poltype: 2 pol: 2 CPU time specind = 3.2269955E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.59 | CG iter. 1 -- res = 0.24168E+08, tol = 0.47656E+04, time = 4.20 | CG iter. 2 -- res = 0.53232E+07, tol = 0.47656E+04, time = 3.89 | CG iter. 3 -- res = 0.82712E+06, tol = 0.47656E+04, time = 4.09 | CG iter. 4 -- res = 0.35342E+06, tol = 0.47656E+04, time = 4.30 | CG iter. 5 -- res = 0.15488E+06, tol = 0.47656E+04, time = 4.17 | CG iter. 6 -- res = 0.82503E+05, tol = 0.47656E+04, time = 3.93 | CG iter. 7 -- res = 0.45040E+05, tol = 0.47656E+04, time = 4.15 | CG iter. 8 -- res = 0.21340E+05, tol = 0.47656E+04, time = 4.30 | CG iter. 9 -- res = 0.90713E+04, tol = 0.47656E+04, time = 4.04 | CG iter. 10 -- res = 0.36970E+04, tol = 0.47656E+04, time = 3.98 | CG iter. 11 -- res = 0.16869E+04, tol = 0.47656E+04, time = 4.15 | CG iter. 12 -- res = 0.87181E+03, tol = 0.47656E+04, time = 4.16 | CG iter. 13 -- res = 0.50775E+03, tol = 0.47656E+04, time = 4.23 | CG iter. 14 -- res = 0.28490E+03, tol = 0.47656E+04, time = 4.06 | CG iter. 15 -- res = 0.14540E+03, tol = 0.47656E+04, time = 4.12 | CG iter. 16 -- res = 0.67645E+02, tol = 0.47656E+04, time = 4.04 | CG iter. 17 -- res = 0.32452E+02, tol = 0.47656E+04, time = 4.21 | CG iter. 18 -- res = 0.16533E+02, tol = 0.47656E+04, time = 4.09 | CG iter. 19 -- res = 0.90388E+01, tol = 0.47656E+04, time = 4.10 | CG iter. 20 -- res = 0.51295E+01, tol = 0.47656E+04, time = 4.14 | CG iter. 21 -- res = 0.27809E+01, tol = 0.47656E+04, time = 4.18 | CG iter. 22 -- res = 0.14079E+01, tol = 0.47656E+04, time = 4.13 | CG iter. 23 -- res = 0.70324E+00, tol = 0.47656E+04, time = 4.16 | CG iter. 24 -- res = 0.36115E+00, tol = 0.47656E+04, time = 4.82 | CG iter. 25 -- res = 0.20043E+00, tol = 0.47656E+04, time = 4.25 | CG iter. 26 -- res = 0.11526E+00, tol = 0.47656E+04, time = 4.03 | CG iter. 27 -- res = 0.64363E-01, tol = 0.47656E+04, time = 4.09 | CG iter. 28 -- res = 0.34332E-01, tol = 0.47656E+04, time = 4.13 | CG iter. 29 -- res = 0.18132E-01, tol = 0.47656E+04, time = 4.28 | CG iter. 30 -- res = 0.93625E-02, tol = 0.47656E+04, time = 4.03 | CG iter. 31 -- res = 0.51429E-02, tol = 0.47656E+04, time = 4.06 | CG iter. 32 -- res = 0.28973E-02, tol = 0.47656E+04, time = 4.10 | CG iter. 33 -- res = 0.16516E-02, tol = 0.47656E+04, time = 4.17 | CG iter. 34 -- res = 0.89060E-03, tol = 0.47656E+04, time = 4.05 | CG iter. 35 -- res = 0.46956E-03, tol = 0.47656E+04, time = 4.18 | Final CG iter 36 -- res = 0.46956E-03, tol = 0.47656E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.810 2.738 | New value 2.103 | Old value -0.810 | Difference 2.912 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.52 | CG iter. 1 -- res = 0.44097E+06, tol = 0.47627E+18, time = 1.27 | CG iter. 2 -- res = 0.19428E+02, tol = 0.47627E+18, time = 1.20 | CG iter. 3 -- res = 0.55808E+00, tol = 0.47627E+18, time = 1.20 | CG iter. 4 -- res = 0.87631E-04, tol = 0.47627E+18, time = 1.22 | Final CG iter 5 -- res = 0.12396E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10023169.464 | (Sampled value in CG: 9995838.913 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.671573 | New value = -3.522252 | poltype: 1 pol: 1 CPU time specind = 1.3370037E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.69 | CG iter. 1 -- res = 0.22409E+07, tol = 0.24350E+01, time = 1.68 | CG iter. 2 -- res = 0.98952E+06, tol = 0.24350E+01, time = 1.66 | CG iter. 3 -- res = 0.17692E+06, tol = 0.24350E+01, time = 1.59 | CG iter. 4 -- res = 0.67193E+05, tol = 0.24350E+01, time = 1.55 | CG iter. 5 -- res = 0.36753E+05, tol = 0.24350E+01, time = 1.50 | CG iter. 6 -- res = 0.19870E+05, tol = 0.24350E+01, time = 1.64 | CG iter. 7 -- res = 0.85712E+04, tol = 0.24350E+01, time = 1.56 | CG iter. 8 -- res = 0.39038E+04, tol = 0.24350E+01, time = 1.67 | CG iter. 9 -- res = 0.16764E+04, tol = 0.24350E+01, time = 1.71 | CG iter. 10 -- res = 0.64728E+03, tol = 0.24350E+01, time = 1.59 | CG iter. 11 -- res = 0.26850E+03, tol = 0.24350E+01, time = 1.71 | CG iter. 12 -- res = 0.12678E+03, tol = 0.24350E+01, time = 1.70 | CG iter. 13 -- res = 0.65384E+02, tol = 0.24350E+01, time = 1.60 | CG iter. 14 -- res = 0.34132E+02, tol = 0.24350E+01, time = 1.54 | CG iter. 15 -- res = 0.15442E+02, tol = 0.24350E+01, time = 1.56 | CG iter. 16 -- res = 0.70585E+01, tol = 0.24350E+01, time = 1.59 | CG iter. 17 -- res = 0.29643E+01, tol = 0.24350E+01, time = 1.56 | CG iter. 18 -- res = 0.13477E+01, tol = 0.24350E+01, time = 1.69 | CG iter. 19 -- res = 0.61662E+00, tol = 0.24350E+01, time = 1.65 | CG iter. 20 -- res = 0.32378E+00, tol = 0.24350E+01, time = 1.66 | CG iter. 21 -- res = 0.16909E+00, tol = 0.24350E+01, time = 1.80 | CG iter. 22 -- res = 0.81710E-01, tol = 0.24350E+01, time = 1.64 | CG iter. 23 -- res = 0.37430E-01, tol = 0.24350E+01, time = 1.54 | CG iter. 24 -- res = 0.16416E-01, tol = 0.24350E+01, time = 1.60 | CG iter. 25 -- res = 0.79110E-02, tol = 0.24350E+01, time = 1.63 | CG iter. 26 -- res = 0.39630E-02, tol = 0.24350E+01, time = 1.62 | CG iter. 27 -- res = 0.20096E-02, tol = 0.24350E+01, time = 1.64 | CG iter. 28 -- res = 0.10471E-02, tol = 0.24350E+01, time = 1.57 | CG iter. 29 -- res = 0.48704E-03, tol = 0.24350E+01, time = 1.63 | CG iter. 30 -- res = 0.21979E-03, tol = 0.24350E+01, time = 1.73 | CG iter. 31 -- res = 0.10583E-03, tol = 0.24350E+01, time = 1.72 | CG iter. 32 -- res = 0.51285E-04, tol = 0.24350E+01, time = 1.59 | CG iter. 33 -- res = 0.25736E-04, tol = 0.24350E+01, time = 1.57 | CG iter. 34 -- res = 0.12905E-04, tol = 0.24350E+01, time = 1.63 | CG iter. 35 -- res = 0.65681E-05, tol = 0.24350E+01, time = 1.57 | CG iter. 36 -- res = 0.31036E-05, tol = 0.24350E+01, time = 1.70 | CG iter. 37 -- res = 0.13839E-05, tol = 0.24350E+01, time = 1.55 | CG iter. 38 -- res = 0.67544E-06, tol = 0.24350E+01, time = 1.64 | CG iter. 39 -- res = 0.32325E-06, tol = 0.24350E+01, time = 1.64 | CG iter. 40 -- res = 0.16439E-06, tol = 0.24350E+01, time = 1.62 | CG iter. 41 -- res = 0.85143E-07, tol = 0.24350E+01, time = 1.67 | CG iter. 42 -- res = 0.40583E-07, tol = 0.24350E+01, time = 1.61 | CG iter. 43 -- res = 0.18347E-07, tol = 0.24350E+01, time = 1.62 | CG iter. 44 -- res = 0.85972E-08, tol = 0.24350E+01, time = 1.68 | CG iter. 45 -- res = 0.41464E-08, tol = 0.24350E+01, time = 1.67 | CG iter. 46 -- res = 0.20952E-08, tol = 0.24350E+01, time = 1.60 | CG iter. 47 -- res = 0.10609E-08, tol = 0.24350E+01, time = 1.58 | CG iter. 48 -- res = 0.50583E-09, tol = 0.24350E+01, time = 1.61 | CG iter. 49 -- res = 0.23715E-09, tol = 0.24350E+01, time = 1.72 | CG iter. 50 -- res = 0.10825E-09, tol = 0.24350E+01, time = 1.56 | Final CG iter 51 -- res = 0.10825E-09, tol = 0.24350E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.545 6.784 | New value 4.449 | Old value -6.545 | Difference 10.994 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.12227E+06, tol = 0.47627E+18, time = 1.28 | CG iter. 2 -- res = 0.50662E+02, tol = 0.47627E+18, time = 1.25 | CG iter. 3 -- res = 0.23076E+01, tol = 0.47627E+18, time = 1.17 | CG iter. 4 -- res = 0.23173E-02, tol = 0.47627E+18, time = 1.18 | Final CG iter 5 -- res = 0.34188E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10023169.464 | (Sampled value in CG: 10004449.684 ) | CPU time specind = 774.1932 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.77 | CG iter. 1 -- res = 0.68536E+08, tol = 0.57705E+04, time = 7.07 | CG iter. 2 -- res = 0.58115E+08, tol = 0.57705E+04, time = 7.74 | CG iter. 3 -- res = 0.14868E+08, tol = 0.57705E+04, time = 14.92 | CG iter. 4 -- res = 0.64845E+07, tol = 0.57705E+04, time = 7.67 | CG iter. 5 -- res = 0.38316E+07, tol = 0.57705E+04, time = 7.41 | CG iter. 6 -- res = 0.22197E+07, tol = 0.57705E+04, time = 7.64 | CG iter. 7 -- res = 0.13048E+07, tol = 0.57705E+04, time = 7.51 | CG iter. 8 -- res = 0.84320E+06, tol = 0.57705E+04, time = 7.48 | CG iter. 9 -- res = 0.52987E+06, tol = 0.57705E+04, time = 7.58 | CG iter. 10 -- res = 0.31152E+06, tol = 0.57705E+04, time = 7.43 | CG iter. 11 -- res = 0.16770E+06, tol = 0.57705E+04, time = 7.53 | CG iter. 12 -- res = 0.89271E+05, tol = 0.57705E+04, time = 7.43 | CG iter. 13 -- res = 0.48642E+05, tol = 0.57705E+04, time = 7.48 | CG iter. 14 -- res = 0.29319E+05, tol = 0.57705E+04, time = 9.21 | CG iter. 15 -- res = 0.19581E+05, tol = 0.57705E+04, time = 8.13 | CG iter. 16 -- res = 0.13897E+05, tol = 0.57705E+04, time = 7.75 | CG iter. 17 -- res = 0.10379E+05, tol = 0.57705E+04, time = 7.63 | CG iter. 18 -- res = 0.74252E+04, tol = 0.57705E+04, time = 7.45 | CG iter. 19 -- res = 0.52164E+04, tol = 0.57705E+04, time = 7.53 | CG iter. 20 -- res = 0.37209E+04, tol = 0.57705E+04, time = 7.59 | CG iter. 21 -- res = 0.29459E+04, tol = 0.57705E+04, time = 7.31 | CG iter. 22 -- res = 0.26714E+04, tol = 0.57705E+04, time = 7.38 | CG iter. 23 -- res = 0.27699E+04, tol = 0.57705E+04, time = 7.50 | CG iter. 24 -- res = 0.30954E+04, tol = 0.57705E+04, time = 7.55 | CG iter. 25 -- res = 0.33211E+04, tol = 0.57705E+04, time = 7.60 | CG iter. 26 -- res = 0.32771E+04, tol = 0.57705E+04, time = 7.40 | CG iter. 27 -- res = 0.29392E+04, tol = 0.57705E+04, time = 7.44 | CG iter. 28 -- res = 0.24583E+04, tol = 0.57705E+04, time = 8.21 | CG iter. 29 -- res = 0.20816E+04, tol = 0.57705E+04, time = 7.47 | CG iter. 30 -- res = 0.18361E+04, tol = 0.57705E+04, time = 7.58 | CG iter. 31 -- res = 0.16074E+04, tol = 0.57705E+04, time = 7.34 | CG iter. 32 -- res = 0.13507E+04, tol = 0.57705E+04, time = 7.50 | CG iter. 33 -- res = 0.10884E+04, tol = 0.57705E+04, time = 7.42 | CG iter. 34 -- res = 0.87161E+03, tol = 0.57705E+04, time = 7.51 | CG iter. 35 -- res = 0.71894E+03, tol = 0.57705E+04, time = 7.48 | CG iter. 36 -- res = 0.61280E+03, tol = 0.57705E+04, time = 7.53 | CG iter. 37 -- res = 0.55729E+03, tol = 0.57705E+04, time = 7.47 | CG iter. 38 -- res = 0.53888E+03, tol = 0.57705E+04, time = 7.48 | CG iter. 39 -- res = 0.52707E+03, tol = 0.57705E+04, time = 7.63 | CG iter. 40 -- res = 0.50361E+03, tol = 0.57705E+04, time = 7.51 | CG iter. 41 -- res = 0.45451E+03, tol = 0.57705E+04, time = 9.41 | CG iter. 42 -- res = 0.39635E+03, tol = 0.57705E+04, time = 12.32 | CG iter. 43 -- res = 0.34851E+03, tol = 0.57705E+04, time = 7.53 | CG iter. 44 -- res = 0.32374E+03, tol = 0.57705E+04, time = 7.60 | CG iter. 45 -- res = 0.30847E+03, tol = 0.57705E+04, time = 7.50 | CG iter. 46 -- res = 0.28799E+03, tol = 0.57705E+04, time = 7.45 | CG iter. 47 -- res = 0.25472E+03, tol = 0.57705E+04, time = 7.56 | CG iter. 48 -- res = 0.21420E+03, tol = 0.57705E+04, time = 7.33 | CG iter. 49 -- res = 0.18443E+03, tol = 0.57705E+04, time = 7.62 | CG iter. 50 -- res = 0.16010E+03, tol = 0.57705E+04, time = 7.47 | CG iter. 51 -- res = 0.14876E+03, tol = 0.57705E+04, time = 7.58 | CG iter. 52 -- res = 0.14564E+03, tol = 0.57705E+04, time = 7.50 | CG iter. 53 -- res = 0.14394E+03, tol = 0.57705E+04, time = 9.29 | CG iter. 54 -- res = 0.13788E+03, tol = 0.57705E+04, time = 8.20 | CG iter. 55 -- res = 0.13050E+03, tol = 0.57705E+04, time = 7.49 | CG iter. 56 -- res = 0.11895E+03, tol = 0.57705E+04, time = 7.55 | CG iter. 57 -- res = 0.10789E+03, tol = 0.57705E+04, time = 7.52 | CG iter. 58 -- res = 0.98500E+02, tol = 0.57705E+04, time = 7.31 | CG iter. 59 -- res = 0.91628E+02, tol = 0.57705E+04, time = 7.42 | CG iter. 60 -- res = 0.85331E+02, tol = 0.57705E+04, time = 7.46 | Final CG iter 61 -- res = 0.85331E+02, tol = 0.57705E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.866 ( -229.798 -2228.852 2511.191 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11299893.693 | Old band monopole 10023212.576 | Change to band monopole 1276681.116 | Change to component monopole -1276675.625 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.154 2.741 | New value -2.436 | Old value 2.154 | Difference -4.590 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.165 ( 7.258 8.966 -7.870 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.395 6.757 | New value -2.971 | Old value 6.395 | Difference -9.366 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.11820E+07, tol = 0.47627E+18, time = 1.23 | CG iter. 2 -- res = 0.49278E+02, tol = 0.47627E+18, time = 1.23 | CG iter. 3 -- res = 0.21844E+01, tol = 0.47627E+18, time = 1.27 | CG iter. 4 -- res = 0.25652E-02, tol = 0.47627E+18, time = 1.17 | Final CG iter 5 -- res = 0.30912E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11299845.090 | (Sampled value in CG: 11281096.069 ) | Chain = 1 -- chisq = 0.81523518E+09 | Chain = 1 -- wall time = 4892.950 sec Available RAM: MemAvailable: 363593964 kB Available Swap: SwapFree: 1639593656 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 150 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443794 | --> Sampling calibration, mode = relcal | relcal = 1.3428785E-02 7.5479131E-04 -1.6124060E-03 -1.2571170E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1223440 0.1340892 9407362.88867242 | BP delta = 0.1223440 0.1305561 9407380.48831969 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632337 | --> Sampling calibration, mode = relcal | relcal = -2.8197118E-03 -7.0553785E-04 1.6791099E-03 1.6131276E-03 -4.0772933E-04 6.4074155E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5867176 15215933.1618855 | BP delta = 0.0000000E+00 -0.5918209 15215934.3244950 | BP chisq diff = 1.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18142468629860 | --> Sampling calibration, mode = relcal | relcal = -7.4531667E-02 -5.8237720E-02 9.1489650E-02 4.1279737E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.0686451E-04 4.0506343E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8859E-05 | 2: delta_r/delta_0: 7.9324E-07 | 3: delta_s/delta_0: 2.5044E-07 | 4: delta_r/delta_0: 1.4675E-08 | 5: delta_s/delta_0: 3.6425E-09 | 6: delta_r/delta_0: 1.2014E-09 | 7: delta_s/delta_0: 1.4500E-08 | 8: delta_r/delta_0: 9.8119E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.117570825799266E-004 2.740154843083907E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8856E-05 | 2: delta_r/delta_0: 7.9318E-07 | 3: delta_s/delta_0: 2.5044E-07 | 4: delta_r/delta_0: 1.4678E-08 | 5: delta_s/delta_0: 3.6429E-09 | 6: delta_r/delta_0: 1.2012E-09 | 7: delta_s/delta_0: 1.4496E-08 | 8: delta_r/delta_0: 9.7957E-11 | Reached bicg-stab tolerance | BP delta = 2.8963406E-03 1.6791532E-02 3683172.35108047 | BP delta = 2.8963406E-03 1.6854379E-02 3677850.47067507 | BP chisq diff = -5321.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02570164 | --> Sampling calibration, mode = relcal | relcal = -0.1066256 -9.5520675E-02 0.1448879 5.7258379E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1531204E-03 1.4612026E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1345E-05 | 2: delta_r/delta_0: 1.3580E-06 | 3: delta_s/delta_0: 2.4207E-07 | 4: delta_r/delta_0: 4.8723E-08 | 5: delta_s/delta_0: 2.1170E-08 | 6: delta_r/delta_0: 6.9945E-09 | 7: delta_s/delta_0: 6.8408E-09 | 8: delta_r/delta_0: 1.5069E-09 | 9: delta_s/delta_0: 7.0657E-10 | 10: delta_r/delta_0: 5.0348E-10 | 11: delta_s/delta_0: 6.4185E-09 | 12: delta_r/delta_0: 6.3795E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.821295287444260E-003 2.811629055720523E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1346E-05 | 2: delta_r/delta_0: 1.3581E-06 | 3: delta_s/delta_0: 2.4209E-07 | 4: delta_r/delta_0: 4.8750E-08 | 5: delta_s/delta_0: 2.1158E-08 | 6: delta_r/delta_0: 6.9961E-09 | 7: delta_s/delta_0: 6.8406E-09 | 8: delta_r/delta_0: 1.5072E-09 | 9: delta_s/delta_0: 7.0672E-10 | 10: delta_r/delta_0: 5.0351E-10 | 11: delta_s/delta_0: 6.5394E-09 | 12: delta_r/delta_0: 6.6577E-11 | Reached bicg-stab tolerance | BP delta = -0.2826099 -0.2575899 2841711.37615748 | BP delta = -0.2826099 -0.2563536 2841714.27351564 | BP chisq diff = 2.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81209741 | --> Sampling calibration, mode = relcal | relcal = 0.2955109 0.2247032 -0.2836966 -0.2365175 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.7151938E-04 4.4994717E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2867E-03 | 2: delta_r/delta_0: 3.0748E-05 | 3: delta_s/delta_0: 3.4540E-06 | 4: delta_r/delta_0: 5.3723E-07 | 5: delta_s/delta_0: 5.4895E-07 | 6: delta_r/delta_0: 1.1584E-07 | 7: delta_s/delta_0: 1.0453E-07 | 8: delta_r/delta_0: 6.5985E-08 | 9: delta_s/delta_0: 4.3652E-08 | 10: delta_r/delta_0: 8.5880E-09 | 11: delta_s/delta_0: 2.7720E-09 | 12: delta_r/delta_0: 1.1288E-09 | 13: delta_s/delta_0: 2.9728E-10 | 14: delta_r/delta_0: 2.3483E-10 | 15: delta_s/delta_0: 6.6945E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.458645356794080E-002 4.022382661697382E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2879E-03 | 2: delta_r/delta_0: 3.0778E-05 | 3: delta_s/delta_0: 3.4538E-06 | 4: delta_r/delta_0: 5.3713E-07 | 5: delta_s/delta_0: 5.4713E-07 | 6: delta_r/delta_0: 1.1588E-07 | 7: delta_s/delta_0: 1.0455E-07 | 8: delta_r/delta_0: 6.6009E-08 | 9: delta_s/delta_0: 4.3674E-08 | 10: delta_r/delta_0: 8.5827E-09 | 11: delta_s/delta_0: 2.7645E-09 | 12: delta_r/delta_0: 1.1298E-09 | 13: delta_s/delta_0: 2.9735E-10 | 14: delta_r/delta_0: 2.3496E-10 | 15: delta_s/delta_0: 6.6921E-11 | Reached bicg-stab tolerance | BP delta = -0.2107889 -0.2286642 2827298.59171476 | BP delta = -0.2107889 -0.2096248 2827522.43338231 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95903960 | --> Sampling calibration, mode = relcal | relcal = 0.1064294 0.1395645 -0.1101758 -0.1358180 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.9650108E-03 1.3315963E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2894E-04 | 2: delta_r/delta_0: 3.7453E-06 | 3: delta_s/delta_0: 6.2315E-06 | 4: delta_r/delta_0: 1.0926E-06 | 5: delta_s/delta_0: 1.5435E-07 | 6: delta_r/delta_0: 1.0850E-07 | 7: delta_s/delta_0: 1.0440E-06 | 8: delta_r/delta_0: 1.9103E-08 | 9: delta_s/delta_0: 1.8370E-08 | 10: delta_r/delta_0: 1.2059E-08 | 11: delta_s/delta_0: 2.3397E-09 | 12: delta_r/delta_0: 7.2255E-10 | 13: delta_s/delta_0: 2.7555E-10 | 14: delta_r/delta_0: 1.6395E-10 | 15: delta_s/delta_0: 4.2451E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.802389034729368E-002 3.697639753031322E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2895E-04 | 2: delta_r/delta_0: 3.7452E-06 | 3: delta_s/delta_0: 6.2305E-06 | 4: delta_r/delta_0: 1.0922E-06 | 5: delta_s/delta_0: 1.5429E-07 | 6: delta_r/delta_0: 1.0846E-07 | 7: delta_s/delta_0: 1.0441E-06 | 8: delta_r/delta_0: 1.9094E-08 | 9: delta_s/delta_0: 1.8368E-08 | 10: delta_r/delta_0: 1.2059E-08 | 11: delta_s/delta_0: 2.3397E-09 | 12: delta_r/delta_0: 7.2538E-10 | 13: delta_s/delta_0: 2.7603E-10 | 14: delta_r/delta_0: 1.6373E-10 | 15: delta_s/delta_0: 4.2416E-11 | Reached bicg-stab tolerance | BP delta = 1.6858222E-02 0.1187392 3004097.21236056 | BP delta = 1.6858222E-02 0.1406896 3004309.59674324 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.220962 | New value = -3.078372 | poltype: 2 pol: 1 CPU time specind = 3.6439896E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161710 | New value = -3.215387 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149804 | New value = -3.126219 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168602 | New value = -3.141170 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.113064 | New value = -3.218500 | poltype: 2 pol: 2 CPU time specind = 4.4989586E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.64 | CG iter. 1 -- res = 0.13950E+08, tol = 0.63054E+01, time = 3.55 | CG iter. 2 -- res = 0.51495E+06, tol = 0.63054E+01, time = 3.45 | CG iter. 3 -- res = 0.29612E+06, tol = 0.63054E+01, time = 3.36 | CG iter. 4 -- res = 0.53797E+06, tol = 0.63054E+01, time = 3.71 | CG iter. 5 -- res = 0.49772E+06, tol = 0.63054E+01, time = 3.53 | CG iter. 6 -- res = 0.37032E+06, tol = 0.63054E+01, time = 3.51 | CG iter. 7 -- res = 0.22801E+06, tol = 0.63054E+01, time = 3.41 | CG iter. 8 -- res = 0.16797E+06, tol = 0.63054E+01, time = 3.37 | CG iter. 9 -- res = 0.15017E+06, tol = 0.63054E+01, time = 3.61 | CG iter. 10 -- res = 0.11869E+06, tol = 0.63054E+01, time = 4.27 | CG iter. 11 -- res = 0.84410E+05, tol = 0.63054E+01, time = 3.52 | CG iter. 12 -- res = 0.61707E+05, tol = 0.63054E+01, time = 3.55 | CG iter. 13 -- res = 0.49678E+05, tol = 0.63054E+01, time = 3.53 | CG iter. 14 -- res = 0.40681E+05, tol = 0.63054E+01, time = 3.55 | CG iter. 15 -- res = 0.29342E+05, tol = 0.63054E+01, time = 3.47 | CG iter. 16 -- res = 0.19833E+05, tol = 0.63054E+01, time = 3.48 | CG iter. 17 -- res = 0.14080E+05, tol = 0.63054E+01, time = 3.60 | CG iter. 18 -- res = 0.12491E+05, tol = 0.63054E+01, time = 3.52 | CG iter. 19 -- res = 0.10318E+05, tol = 0.63054E+01, time = 3.45 | CG iter. 20 -- res = 0.75672E+04, tol = 0.63054E+01, time = 3.53 | CG iter. 21 -- res = 0.52878E+04, tol = 0.63054E+01, time = 3.60 | CG iter. 22 -- res = 0.43854E+04, tol = 0.63054E+01, time = 3.50 | CG iter. 23 -- res = 0.37270E+04, tol = 0.63054E+01, time = 3.48 | CG iter. 24 -- res = 0.28877E+04, tol = 0.63054E+01, time = 3.59 | CG iter. 25 -- res = 0.20262E+04, tol = 0.63054E+01, time = 3.55 | CG iter. 26 -- res = 0.16826E+04, tol = 0.63054E+01, time = 3.50 | CG iter. 27 -- res = 0.14644E+04, tol = 0.63054E+01, time = 3.52 | CG iter. 28 -- res = 0.12009E+04, tol = 0.63054E+01, time = 3.52 | CG iter. 29 -- res = 0.86578E+03, tol = 0.63054E+01, time = 3.55 | CG iter. 30 -- res = 0.64221E+03, tol = 0.63054E+01, time = 3.46 | CG iter. 31 -- res = 0.56616E+03, tol = 0.63054E+01, time = 3.56 | CG iter. 32 -- res = 0.44728E+03, tol = 0.63054E+01, time = 3.45 | CG iter. 33 -- res = 0.32609E+03, tol = 0.63054E+01, time = 3.52 | CG iter. 34 -- res = 0.23825E+03, tol = 0.63054E+01, time = 3.53 | CG iter. 35 -- res = 0.19099E+03, tol = 0.63054E+01, time = 3.51 | CG iter. 36 -- res = 0.15906E+03, tol = 0.63054E+01, time = 3.47 | CG iter. 37 -- res = 0.12304E+03, tol = 0.63054E+01, time = 3.53 | CG iter. 38 -- res = 0.84675E+02, tol = 0.63054E+01, time = 3.49 | CG iter. 39 -- res = 0.64794E+02, tol = 0.63054E+01, time = 3.51 | CG iter. 40 -- res = 0.52412E+02, tol = 0.63054E+01, time = 3.56 | CG iter. 41 -- res = 0.41244E+02, tol = 0.63054E+01, time = 3.62 | CG iter. 42 -- res = 0.29769E+02, tol = 0.63054E+01, time = 3.54 | CG iter. 43 -- res = 0.22222E+02, tol = 0.63054E+01, time = 3.43 | CG iter. 44 -- res = 0.17653E+02, tol = 0.63054E+01, time = 3.57 | CG iter. 45 -- res = 0.14013E+02, tol = 0.63054E+01, time = 3.63 | CG iter. 46 -- res = 0.10142E+02, tol = 0.63054E+01, time = 3.42 | CG iter. 47 -- res = 0.72408E+01, tol = 0.63054E+01, time = 3.56 | CG iter. 48 -- res = 0.54811E+01, tol = 0.63054E+01, time = 3.46 | CG iter. 49 -- res = 0.42483E+01, tol = 0.63054E+01, time = 3.61 | CG iter. 50 -- res = 0.30538E+01, tol = 0.63054E+01, time = 3.42 | Final CG iter 51 -- res = 0.30538E+01, tol = 0.63054E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8760764.382 | Old band monopole 11299893.693 | Change to band monopole -2539129.311 | Change to component monopole 2539118.390 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.47 | CG iter. 1 -- res = 0.17542E+07, tol = 0.47627E+18, time = 1.27 | CG iter. 2 -- res = 0.73480E+03, tol = 0.47627E+18, time = 1.24 | CG iter. 3 -- res = 0.49425E+01, tol = 0.47627E+18, time = 1.22 | CG iter. 4 -- res = 0.11123E+00, tol = 0.47627E+18, time = 1.17 | Final CG iter 5 -- res = 0.31670E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8760726.700 | (Sampled value in CG: 8915344.779 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.551450 | New value = 1.507820 | poltype: 2 pol: 1 CPU time specind = 4.1000843E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.471734 | New value = 1.536405 | poltype: 2 pol: 2 CPU time specind = 2.7680397E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.24418E+08, tol = 0.47538E+04, time = 4.07 | CG iter. 2 -- res = 0.52019E+07, tol = 0.47538E+04, time = 3.98 | CG iter. 3 -- res = 0.80277E+06, tol = 0.47538E+04, time = 4.75 | CG iter. 4 -- res = 0.32539E+06, tol = 0.47538E+04, time = 5.45 | CG iter. 5 -- res = 0.14129E+06, tol = 0.47538E+04, time = 4.11 | CG iter. 6 -- res = 0.75892E+05, tol = 0.47538E+04, time = 4.32 | CG iter. 7 -- res = 0.41574E+05, tol = 0.47538E+04, time = 4.07 | CG iter. 8 -- res = 0.19958E+05, tol = 0.47538E+04, time = 4.34 | CG iter. 9 -- res = 0.87653E+04, tol = 0.47538E+04, time = 4.05 | CG iter. 10 -- res = 0.35957E+04, tol = 0.47538E+04, time = 3.94 | CG iter. 11 -- res = 0.16335E+04, tol = 0.47538E+04, time = 4.09 | CG iter. 12 -- res = 0.84856E+03, tol = 0.47538E+04, time = 4.27 | CG iter. 13 -- res = 0.48542E+03, tol = 0.47538E+04, time = 4.00 | CG iter. 14 -- res = 0.26863E+03, tol = 0.47538E+04, time = 4.03 | CG iter. 15 -- res = 0.13793E+03, tol = 0.47538E+04, time = 4.04 | CG iter. 16 -- res = 0.65550E+02, tol = 0.47538E+04, time = 4.24 | CG iter. 17 -- res = 0.30791E+02, tol = 0.47538E+04, time = 4.10 | CG iter. 18 -- res = 0.15275E+02, tol = 0.47538E+04, time = 3.96 | CG iter. 19 -- res = 0.84257E+01, tol = 0.47538E+04, time = 4.10 | CG iter. 20 -- res = 0.48869E+01, tol = 0.47538E+04, time = 4.14 | CG iter. 21 -- res = 0.26491E+01, tol = 0.47538E+04, time = 4.18 | CG iter. 22 -- res = 0.13786E+01, tol = 0.47538E+04, time = 4.03 | CG iter. 23 -- res = 0.68181E+00, tol = 0.47538E+04, time = 4.09 | CG iter. 24 -- res = 0.34875E+00, tol = 0.47538E+04, time = 4.11 | CG iter. 25 -- res = 0.18878E+00, tol = 0.47538E+04, time = 4.13 | CG iter. 26 -- res = 0.10816E+00, tol = 0.47538E+04, time = 4.10 | CG iter. 27 -- res = 0.60991E-01, tol = 0.47538E+04, time = 4.19 | CG iter. 28 -- res = 0.33286E-01, tol = 0.47538E+04, time = 4.12 | CG iter. 29 -- res = 0.17452E-01, tol = 0.47538E+04, time = 4.79 | CG iter. 30 -- res = 0.92054E-02, tol = 0.47538E+04, time = 4.17 | CG iter. 31 -- res = 0.50761E-02, tol = 0.47538E+04, time = 4.19 | CG iter. 32 -- res = 0.28332E-02, tol = 0.47538E+04, time = 4.11 | CG iter. 33 -- res = 0.15781E-02, tol = 0.47538E+04, time = 4.13 | CG iter. 34 -- res = 0.84077E-03, tol = 0.47538E+04, time = 4.03 | CG iter. 35 -- res = 0.43620E-03, tol = 0.47538E+04, time = 4.02 | Final CG iter 36 -- res = 0.43620E-03, tol = 0.47538E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.487 2.706 | New value -1.636 | Old value -2.487 | Difference 0.850 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.46 | CG iter. 1 -- res = 0.66965E+05, tol = 0.47627E+18, time = 1.23 | CG iter. 2 -- res = 0.16842E+03, tol = 0.47627E+18, time = 1.27 | CG iter. 3 -- res = 0.25380E+01, tol = 0.47627E+18, time = 1.22 | CG iter. 4 -- res = 0.10531E-02, tol = 0.47627E+18, time = 1.23 | Final CG iter 5 -- res = 0.16854E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8760726.700 | (Sampled value in CG: 8915035.871 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.522252 | New value = -3.626225 | poltype: 1 pol: 1 CPU time specind = 4.0259361E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.42 | CG iter. 1 -- res = 0.52309E+07, tol = 0.24643E+01, time = 1.88 | CG iter. 2 -- res = 0.23131E+07, tol = 0.24643E+01, time = 1.58 | CG iter. 3 -- res = 0.54862E+06, tol = 0.24643E+01, time = 1.59 | CG iter. 4 -- res = 0.26002E+06, tol = 0.24643E+01, time = 1.66 | CG iter. 5 -- res = 0.15073E+06, tol = 0.24643E+01, time = 1.56 | CG iter. 6 -- res = 0.61168E+05, tol = 0.24643E+01, time = 1.58 | CG iter. 7 -- res = 0.18481E+05, tol = 0.24643E+01, time = 1.59 | CG iter. 8 -- res = 0.78616E+04, tol = 0.24643E+01, time = 1.65 | CG iter. 9 -- res = 0.39585E+04, tol = 0.24643E+01, time = 1.73 | CG iter. 10 -- res = 0.15906E+04, tol = 0.24643E+01, time = 1.65 | CG iter. 11 -- res = 0.67121E+03, tol = 0.24643E+01, time = 1.60 | CG iter. 12 -- res = 0.32585E+03, tol = 0.24643E+01, time = 1.62 | CG iter. 13 -- res = 0.16261E+03, tol = 0.24643E+01, time = 1.56 | CG iter. 14 -- res = 0.76440E+02, tol = 0.24643E+01, time = 1.58 | CG iter. 15 -- res = 0.34855E+02, tol = 0.24643E+01, time = 1.50 | CG iter. 16 -- res = 0.14598E+02, tol = 0.24643E+01, time = 1.59 | CG iter. 17 -- res = 0.60476E+01, tol = 0.24643E+01, time = 1.56 | CG iter. 18 -- res = 0.28316E+01, tol = 0.24643E+01, time = 1.70 | CG iter. 19 -- res = 0.13944E+01, tol = 0.24643E+01, time = 1.68 | CG iter. 20 -- res = 0.70889E+00, tol = 0.24643E+01, time = 1.62 | CG iter. 21 -- res = 0.32925E+00, tol = 0.24643E+01, time = 1.55 | CG iter. 22 -- res = 0.14321E+00, tol = 0.24643E+01, time = 1.68 | CG iter. 23 -- res = 0.66158E-01, tol = 0.24643E+01, time = 1.58 | CG iter. 24 -- res = 0.31258E-01, tol = 0.24643E+01, time = 1.62 | CG iter. 25 -- res = 0.15858E-01, tol = 0.24643E+01, time = 1.56 | CG iter. 26 -- res = 0.75976E-02, tol = 0.24643E+01, time = 1.55 | CG iter. 27 -- res = 0.38320E-02, tol = 0.24643E+01, time = 1.60 | CG iter. 28 -- res = 0.18379E-02, tol = 0.24643E+01, time = 1.72 | CG iter. 29 -- res = 0.77505E-03, tol = 0.24643E+01, time = 1.65 | CG iter. 30 -- res = 0.38156E-03, tol = 0.24643E+01, time = 1.67 | CG iter. 31 -- res = 0.18019E-03, tol = 0.24643E+01, time = 1.58 | CG iter. 32 -- res = 0.92317E-04, tol = 0.24643E+01, time = 1.57 | CG iter. 33 -- res = 0.45258E-04, tol = 0.24643E+01, time = 1.64 | CG iter. 34 -- res = 0.21197E-04, tol = 0.24643E+01, time = 1.65 | CG iter. 35 -- res = 0.10574E-04, tol = 0.24643E+01, time = 1.55 | CG iter. 36 -- res = 0.47718E-05, tol = 0.24643E+01, time = 1.61 | CG iter. 37 -- res = 0.22478E-05, tol = 0.24643E+01, time = 1.59 | CG iter. 38 -- res = 0.11217E-05, tol = 0.24643E+01, time = 1.64 | CG iter. 39 -- res = 0.56148E-06, tol = 0.24643E+01, time = 1.63 | CG iter. 40 -- res = 0.27134E-06, tol = 0.24643E+01, time = 1.63 | CG iter. 41 -- res = 0.12491E-06, tol = 0.24643E+01, time = 1.58 | CG iter. 42 -- res = 0.56769E-07, tol = 0.24643E+01, time = 1.59 | CG iter. 43 -- res = 0.25921E-07, tol = 0.24643E+01, time = 1.70 | CG iter. 44 -- res = 0.13144E-07, tol = 0.24643E+01, time = 1.61 | CG iter. 45 -- res = 0.63696E-08, tol = 0.24643E+01, time = 1.59 | CG iter. 46 -- res = 0.30152E-08, tol = 0.24643E+01, time = 1.53 | CG iter. 47 -- res = 0.14671E-08, tol = 0.24643E+01, time = 1.69 | CG iter. 48 -- res = 0.67924E-09, tol = 0.24643E+01, time = 1.58 | CG iter. 49 -- res = 0.30087E-09, tol = 0.24643E+01, time = 1.62 | CG iter. 50 -- res = 0.14181E-09, tol = 0.24643E+01, time = 1.69 | Final CG iter 51 -- res = 0.14181E-09, tol = 0.24643E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.235 4.531 | New value -3.151 | Old value 8.235 | Difference -11.385 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.58 | CG iter. 1 -- res = 0.14976E+06, tol = 0.47627E+18, time = 1.15 | CG iter. 2 -- res = 0.18381E+03, tol = 0.47627E+18, time = 1.24 | CG iter. 3 -- res = 0.22380E+01, tol = 0.47627E+18, time = 1.23 | CG iter. 4 -- res = 0.20586E-01, tol = 0.47627E+18, time = 1.22 | Final CG iter 5 -- res = 0.76111E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8760726.700 | (Sampled value in CG: 8877930.498 ) | CPU time specind = 763.0313 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.70052E+08, tol = 0.57707E+04, time = 7.11 | CG iter. 2 -- res = 0.60226E+08, tol = 0.57707E+04, time = 7.63 | CG iter. 3 -- res = 0.15916E+08, tol = 0.57707E+04, time = 7.49 | CG iter. 4 -- res = 0.69164E+07, tol = 0.57707E+04, time = 7.56 | CG iter. 5 -- res = 0.42097E+07, tol = 0.57707E+04, time = 7.49 | CG iter. 6 -- res = 0.25240E+07, tol = 0.57707E+04, time = 12.23 | CG iter. 7 -- res = 0.15486E+07, tol = 0.57707E+04, time = 9.31 | CG iter. 8 -- res = 0.10606E+07, tol = 0.57707E+04, time = 7.45 | CG iter. 9 -- res = 0.72014E+06, tol = 0.57707E+04, time = 7.58 | CG iter. 10 -- res = 0.48067E+06, tol = 0.57707E+04, time = 7.41 | CG iter. 11 -- res = 0.30585E+06, tol = 0.57707E+04, time = 7.46 | CG iter. 12 -- res = 0.20345E+06, tol = 0.57707E+04, time = 7.54 | CG iter. 13 -- res = 0.15125E+06, tol = 0.57707E+04, time = 7.33 | CG iter. 14 -- res = 0.13189E+06, tol = 0.57707E+04, time = 7.42 | CG iter. 15 -- res = 0.13250E+06, tol = 0.57707E+04, time = 7.47 | CG iter. 16 -- res = 0.14046E+06, tol = 0.57707E+04, time = 7.46 | CG iter. 17 -- res = 0.14446E+06, tol = 0.57707E+04, time = 7.54 | CG iter. 18 -- res = 0.13465E+06, tol = 0.57707E+04, time = 9.31 | CG iter. 19 -- res = 0.11399E+06, tol = 0.57707E+04, time = 7.95 | CG iter. 20 -- res = 0.96048E+05, tol = 0.57707E+04, time = 7.44 | CG iter. 21 -- res = 0.82083E+05, tol = 0.57707E+04, time = 7.45 | CG iter. 22 -- res = 0.73056E+05, tol = 0.57707E+04, time = 7.42 | CG iter. 23 -- res = 0.64373E+05, tol = 0.57707E+04, time = 7.38 | CG iter. 24 -- res = 0.54034E+05, tol = 0.57707E+04, time = 7.50 | CG iter. 25 -- res = 0.42630E+05, tol = 0.57707E+04, time = 7.35 | CG iter. 26 -- res = 0.33048E+05, tol = 0.57707E+04, time = 7.45 | CG iter. 27 -- res = 0.26243E+05, tol = 0.57707E+04, time = 7.23 | CG iter. 28 -- res = 0.22014E+05, tol = 0.57707E+04, time = 7.46 | CG iter. 29 -- res = 0.20731E+05, tol = 0.57707E+04, time = 7.53 | CG iter. 30 -- res = 0.20422E+05, tol = 0.57707E+04, time = 7.48 | CG iter. 31 -- res = 0.19414E+05, tol = 0.57707E+04, time = 7.42 | CG iter. 32 -- res = 0.17525E+05, tol = 0.57707E+04, time = 8.01 | CG iter. 33 -- res = 0.14995E+05, tol = 0.57707E+04, time = 7.51 | CG iter. 34 -- res = 0.12765E+05, tol = 0.57707E+04, time = 7.58 | CG iter. 35 -- res = 0.10865E+05, tol = 0.57707E+04, time = 7.41 | CG iter. 36 -- res = 0.94151E+04, tol = 0.57707E+04, time = 7.48 | CG iter. 37 -- res = 0.86156E+04, tol = 0.57707E+04, time = 7.37 | CG iter. 38 -- res = 0.77200E+04, tol = 0.57707E+04, time = 7.45 | CG iter. 39 -- res = 0.65873E+04, tol = 0.57707E+04, time = 7.46 | CG iter. 40 -- res = 0.55499E+04, tol = 0.57707E+04, time = 7.34 | CG iter. 41 -- res = 0.46682E+04, tol = 0.57707E+04, time = 7.46 | CG iter. 42 -- res = 0.41331E+04, tol = 0.57707E+04, time = 7.44 | CG iter. 43 -- res = 0.38629E+04, tol = 0.57707E+04, time = 7.64 | CG iter. 44 -- res = 0.36447E+04, tol = 0.57707E+04, time = 7.36 | CG iter. 45 -- res = 0.34857E+04, tol = 0.57707E+04, time = 14.32 | CG iter. 46 -- res = 0.32755E+04, tol = 0.57707E+04, time = 7.45 | CG iter. 47 -- res = 0.29438E+04, tol = 0.57707E+04, time = 7.63 | CG iter. 48 -- res = 0.25578E+04, tol = 0.57707E+04, time = 7.56 | CG iter. 49 -- res = 0.22574E+04, tol = 0.57707E+04, time = 7.41 | CG iter. 50 -- res = 0.19994E+04, tol = 0.57707E+04, time = 7.38 | CG iter. 51 -- res = 0.18348E+04, tol = 0.57707E+04, time = 7.49 | CG iter. 52 -- res = 0.17336E+04, tol = 0.57707E+04, time = 7.37 | CG iter. 53 -- res = 0.16215E+04, tol = 0.57707E+04, time = 7.59 | CG iter. 54 -- res = 0.14642E+04, tol = 0.57707E+04, time = 7.31 | CG iter. 55 -- res = 0.13194E+04, tol = 0.57707E+04, time = 7.48 | CG iter. 56 -- res = 0.11838E+04, tol = 0.57707E+04, time = 7.40 | CG iter. 57 -- res = 0.10645E+04, tol = 0.57707E+04, time = 9.25 | CG iter. 58 -- res = 0.10150E+04, tol = 0.57707E+04, time = 7.84 | CG iter. 59 -- res = 0.10200E+04, tol = 0.57707E+04, time = 7.45 | CG iter. 60 -- res = 0.98599E+03, tol = 0.57707E+04, time = 7.59 | Final CG iter 61 -- res = 0.98599E+03, tol = 0.57707E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.727 ( -229.831 -2229.309 2511.646 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10817040.291 | Old band monopole 8760764.382 | Change to band monopole 2056275.909 | Change to component monopole -2056267.065 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.646 2.737 | New value 2.209 | Old value -1.646 | Difference 3.855 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.420 ( 6.379 8.888 -8.890 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.308 4.659 | New value 1.449 | Old value -1.308 | Difference 2.756 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.77871E+06, tol = 0.47627E+18, time = 1.25 | CG iter. 2 -- res = 0.25195E+02, tol = 0.47627E+18, time = 1.25 | CG iter. 3 -- res = 0.77121E+00, tol = 0.47627E+18, time = 1.24 | CG iter. 4 -- res = 0.15433E-02, tol = 0.47627E+18, time = 1.19 | Final CG iter 5 -- res = 0.45785E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10816993.764 | (Sampled value in CG: 10794808.939 ) | Chain = 1 -- chisq = 0.81507947E+09 | Chain = 1 -- wall time = 5370.102 sec Available RAM: MemAvailable: 367178560 kB Available Swap: SwapFree: 1639638440 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 151 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444186 | --> Sampling calibration, mode = relcal | relcal = 1.3439584E-02 7.4597599E-04 -1.6072722E-03 -1.2578287E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1223440 0.1340892 97043596.3302162 | BP delta = 0.1274890 0.1392341 97043600.9122764 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632334 | --> Sampling calibration, mode = relcal | relcal = -2.8207430E-03 -7.0374960E-04 1.6789749E-03 1.6144924E-03 -4.0938667E-04 6.4041204E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5918209 15214143.7581954 | BP delta = 0.0000000E+00 -0.5947127 15214148.3601890 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103471 | --> Sampling calibration, mode = relcal | relcal = 3.7083961E-02 1.3723576E-02 5.7556084E-03 -7.1669254E-03 8.2510840E-03 2.3969011E-03 -7.6075830E-03 -7.1835951E-03 -1.5304316E-02 -1.4799294E-02 -3.0540547E-03 -1.2095363E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.293916 132208538.627047 | BP delta = 0.0000000E+00 -1.267709 132208538.867746 | BP chisq diff = 0.2, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18245635922589 | --> Sampling calibration, mode = relcal | relcal = -7.5030632E-02 -5.8513775E-02 9.1902919E-02 4.1641492E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0213758E-04 4.6315463E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0914E-05 | 2: delta_r/delta_0: 9.0944E-07 | 3: delta_s/delta_0: 2.1274E-07 | 4: delta_r/delta_0: 2.0287E-08 | 5: delta_s/delta_0: 1.3878E-08 | 6: delta_r/delta_0: 1.1871E-09 | 7: delta_s/delta_0: 2.2780E-10 | 8: delta_r/delta_0: 1.1312E-10 | 9: delta_s/delta_0: 5.7083E-10 | 10: delta_r/delta_0: 2.2433E-10 | 11: delta_s/delta_0: 8.7247E-10 | 12: delta_r/delta_0: 7.3181E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.174199217268768E-003 2.737707745515861E-005 | BP delta = 2.8963406E-03 1.6854379E-02 50483284.9782922 | BP delta = 5.0183679E-03 1.8976407E-02 50483283.2899506 | BP chisq diff = -1.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02575128 | --> Sampling calibration, mode = relcal | relcal = -0.1066475 -9.5569551E-02 0.1448597 5.7357389E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9191514E-03 1.6289139E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6976E-05 | 2: delta_r/delta_0: 1.2957E-06 | 3: delta_s/delta_0: 2.4869E-07 | 4: delta_r/delta_0: 4.4059E-08 | 5: delta_s/delta_0: 2.2838E-08 | 6: delta_r/delta_0: 6.5357E-09 | 7: delta_s/delta_0: 1.7864E-08 | 8: delta_r/delta_0: 8.5714E-10 | 9: delta_s/delta_0: 9.0950E-10 | 10: delta_r/delta_0: 1.4695E-10 | 11: delta_s/delta_0: 1.1926E-09 | 12: delta_r/delta_0: 2.0572E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.784617185517014E-003 2.811485887045786E-005 | BP delta = -0.2826099 -0.2563536 57394474.7384379 | BP delta = -0.2870304 -0.2607742 57394474.9750551 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215230 | --> Sampling calibration, mode = relcal | relcal = 0.2955400 0.2248364 -0.2837835 -0.2365929 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8550989E-04 5.2263951E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8861E-03 | 2: delta_r/delta_0: 4.4869E-05 | 3: delta_s/delta_0: 2.4176E-06 | 4: delta_r/delta_0: 5.2592E-07 | 5: delta_s/delta_0: 3.1980E-07 | 6: delta_r/delta_0: 1.5788E-07 | 7: delta_s/delta_0: 3.5529E-06 | 8: delta_r/delta_0: 2.3578E-07 | 9: delta_s/delta_0: 1.9333E-08 | 10: delta_r/delta_0: 8.1414E-09 | 11: delta_s/delta_0: 4.2299E-09 | 12: delta_r/delta_0: 1.2052E-09 | 13: delta_s/delta_0: 3.5818E-10 | 14: delta_r/delta_0: 2.3996E-10 | 15: delta_s/delta_0: 5.5924E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.538407360025523E-002 4.022221014371869E-005 | BP delta = -0.2107889 -0.2286642 72487654.0297001 | BP delta = -0.1843641 -0.2022394 72487653.4706148 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95904690 | --> Sampling calibration, mode = relcal | relcal = 0.1064172 0.1394239 -0.1101702 -0.1356709 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2902901E-03 1.3682130E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6464E-04 | 2: delta_r/delta_0: 4.4428E-06 | 3: delta_s/delta_0: 6.5656E-04 | 4: delta_r/delta_0: 4.0893E-05 | 5: delta_s/delta_0: 1.7075E-07 | 6: delta_r/delta_0: 9.2774E-08 | 7: delta_s/delta_0: 5.4221E-07 | 8: delta_r/delta_0: 2.1765E-08 | 9: delta_s/delta_0: 1.1928E-04 | 10: delta_r/delta_0: 2.5021E-05 | 11: delta_s/delta_0: 7.6838E-10 | 12: delta_r/delta_0: 6.0772E-10 | 13: delta_s/delta_0: 3.8746E-10 | 14: delta_r/delta_0: 1.8157E-10 | 15: delta_s/delta_0: 5.5740E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.896627797884746E-002 3.697529146120252E-005 | BP delta = 1.6858222E-02 0.1187392 72773112.2624574 | BP delta = 1.6453285E-02 0.1183343 72773112.2915184 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52173854 | --> Sampling calibration, mode = relcal | relcal = -5.1124714E-02 -3.7281010E-03 2.7336996E-02 2.7515817E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.3772296E-04 3.1286154E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5375E-05 | 2: delta_r/delta_0: 4.4936E-06 | 3: delta_s/delta_0: 7.6832E-06 | 4: delta_r/delta_0: 1.1430E-06 | 5: delta_s/delta_0: 4.6110E-08 | 6: delta_r/delta_0: 2.9824E-08 | 7: delta_s/delta_0: 1.6762E-07 | 8: delta_r/delta_0: 6.1746E-09 | 9: delta_s/delta_0: 2.3025E-09 | 10: delta_r/delta_0: 1.3859E-09 | 11: delta_s/delta_0: 4.7191E-10 | 12: delta_r/delta_0: 3.3539E-10 | 13: delta_s/delta_0: 1.2571E-09 | 14: delta_r/delta_0: 6.8954E-10 | 15: delta_s/delta_0: 2.0797E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.138797940342350E-002 5.481566533547481E-005 | BP delta = 5.0515492E-02 0.1328495 91258403.2809910 | BP delta = 1.4171252E-02 9.6505299E-02 91258403.6877773 | BP chisq diff = 0.4, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42164252 | --> Sampling calibration, mode = relcal | relcal = 4.5588166E-02 3.9639104E-02 -2.8305946E-02 -5.6921326E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5653485E-03 5.1789135E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7660E-05 | 2: delta_r/delta_0: 3.5953E-06 | 3: delta_s/delta_0: 5.9126E-06 | 4: delta_r/delta_0: 3.5756E-07 | 5: delta_s/delta_0: 6.5596E-08 | 6: delta_r/delta_0: 3.9591E-08 | 7: delta_s/delta_0: 1.8283E-08 | 8: delta_r/delta_0: 1.3477E-08 | 9: delta_s/delta_0: 2.4620E-07 | 10: delta_r/delta_0: 9.4034E-10 | 11: delta_s/delta_0: 3.4736E-10 | 12: delta_r/delta_0: 2.6092E-10 | 13: delta_s/delta_0: 2.6573E-10 | 14: delta_r/delta_0: 1.9696E-10 | 15: delta_s/delta_0: 3.0888E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.494691375920985E-002 4.994990589283886E-005 | BP delta = -5.0548483E-02 -0.1500673 90176675.6274513 | BP delta = -5.2419882E-02 -0.1519387 90176675.6528685 | BP chisq diff = 0.0, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28178449 | --> Sampling calibration, mode = relcal | relcal = 2.4172623E-02 4.5168456E-02 -2.3392605E-02 -4.5948476E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1050338E-02 3.5159283E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0586E-04 | 2: delta_r/delta_0: 8.5558E-06 | 3: delta_s/delta_0: 1.4320E-06 | 4: delta_r/delta_0: 2.1420E-07 | 5: delta_s/delta_0: 7.7148E-08 | 6: delta_r/delta_0: 1.8159E-08 | 7: delta_s/delta_0: 8.9004E-09 | 8: delta_r/delta_0: 5.8323E-09 | 9: delta_s/delta_0: 1.2788E-07 | 10: delta_r/delta_0: 6.7833E-09 | 11: delta_s/delta_0: 5.5556E-09 | 12: delta_r/delta_0: 3.5195E-09 | 13: delta_s/delta_0: 1.5347E-10 | 14: delta_r/delta_0: 1.1228E-10 | 15: delta_s/delta_0: 6.2913E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.021635704032445E-002 7.838919116538445E-005 | BP delta = -0.1107306 -0.1942483 160954140.651879 | BP delta = -0.1109255 -0.1944431 160954140.649990 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29405980 | --> Sampling calibration, mode = relcal | relcal = 4.4641606E-04 1.0377955E-02 -3.8358779E-03 -6.9884928E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7072452E-02 1.5434077E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3162E-04 | 2: delta_r/delta_0: 1.1219E-05 | 3: delta_s/delta_0: 1.7716E-06 | 4: delta_r/delta_0: 2.8977E-07 | 5: delta_s/delta_0: 1.3205E-07 | 6: delta_r/delta_0: 2.6361E-08 | 7: delta_s/delta_0: 1.2891E-08 | 8: delta_r/delta_0: 8.8543E-09 | 9: delta_s/delta_0: 1.4257E-08 | 10: delta_r/delta_0: 6.2097E-09 | 11: delta_s/delta_0: 9.2081E-09 | 12: delta_r/delta_0: 4.1178E-10 | 13: delta_s/delta_0: 1.1099E-09 | 14: delta_r/delta_0: 3.3186E-10 | 15: delta_s/delta_0: 6.8640E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.143032720509293E-002 8.302956318342406E-005 | BP delta = -0.8372404 -0.8078365 157895235.394325 | BP delta = -0.8611194 -0.8317156 157895235.250578 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26521828 | --> Sampling calibration, mode = relcal | relcal = -5.6650154E-03 1.5007370E-02 -2.3187893E-03 -7.0235650E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3719831E-04 4.3226001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4216E-04 | 2: delta_r/delta_0: 1.1569E-05 | 3: delta_s/delta_0: 1.8734E-06 | 4: delta_r/delta_0: 2.7147E-07 | 5: delta_s/delta_0: 8.6948E-08 | 6: delta_r/delta_0: 2.0740E-08 | 7: delta_s/delta_0: 8.9014E-09 | 8: delta_r/delta_0: 5.4185E-09 | 9: delta_s/delta_0: 7.6440E-09 | 10: delta_r/delta_0: 4.8341E-09 | 11: delta_s/delta_0: 5.7738E-07 | 12: delta_r/delta_0: 1.5916E-07 | 13: delta_s/delta_0: 1.2516E-09 | 14: delta_r/delta_0: 5.5661E-10 | 15: delta_s/delta_0: 7.4432E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.848714181722313E-003 9.148149677680683E-005 | BP delta = 0.3290688 0.3599852 157016635.115975 | BP delta = 0.3257066 0.3566229 157016635.114740 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25670037 | --> Sampling calibration, mode = relcal | relcal = -3.1647909E-02 -2.5918188E-02 3.6888801E-02 2.0677293E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4548132E-02 1.7942443E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4550E-04 | 2: delta_r/delta_0: 1.2284E-05 | 3: delta_s/delta_0: 1.9471E-06 | 4: delta_r/delta_0: 3.6175E-07 | 5: delta_s/delta_0: 1.5558E-07 | 6: delta_r/delta_0: 2.9054E-08 | 7: delta_s/delta_0: 1.3699E-08 | 8: delta_r/delta_0: 8.1353E-09 | 9: delta_s/delta_0: 1.4064E-08 | 10: delta_r/delta_0: 4.7323E-09 | 11: delta_s/delta_0: 3.0410E-08 | 12: delta_r/delta_0: 6.4329E-09 | 13: delta_s/delta_0: 2.0654E-09 | 14: delta_r/delta_0: 1.1864E-09 | 15: delta_s/delta_0: 1.5736E-10 | 16: delta_r/delta_0: 8.3018E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.166312265912645E-002 8.669821435614182E-005 | BP delta = -0.6551915 -0.7546945 158554008.123068 | BP delta = -0.6572278 -0.7567308 158554008.122111 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.078372 | New value = -3.125854 | poltype: 2 pol: 1 CPU time specind = 1.4272213E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.215387 | New value = -3.124729 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126219 | New value = -3.160396 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141170 | New value = -3.096078 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218500 | New value = -3.256524 | poltype: 2 pol: 2 CPU time specind = 7.7130795E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.94 | CG iter. 1 -- res = 0.13576E+08, tol = 0.66865E+01, time = 3.71 | CG iter. 2 -- res = 0.34693E+06, tol = 0.66865E+01, time = 3.80 | CG iter. 3 -- res = 0.62662E+05, tol = 0.66865E+01, time = 3.56 | CG iter. 4 -- res = 0.48116E+05, tol = 0.66865E+01, time = 3.52 | CG iter. 5 -- res = 0.41595E+05, tol = 0.66865E+01, time = 3.72 | CG iter. 6 -- res = 0.41371E+05, tol = 0.66865E+01, time = 3.70 | CG iter. 7 -- res = 0.39638E+05, tol = 0.66865E+01, time = 3.74 | CG iter. 8 -- res = 0.30604E+05, tol = 0.66865E+01, time = 3.57 | CG iter. 9 -- res = 0.24402E+05, tol = 0.66865E+01, time = 3.71 | CG iter. 10 -- res = 0.19532E+05, tol = 0.66865E+01, time = 3.77 | CG iter. 11 -- res = 0.13773E+05, tol = 0.66865E+01, time = 7.93 | CG iter. 12 -- res = 0.90898E+04, tol = 0.66865E+01, time = 6.31 | CG iter. 13 -- res = 0.71493E+04, tol = 0.66865E+01, time = 3.67 | CG iter. 14 -- res = 0.64616E+04, tol = 0.66865E+01, time = 3.78 | CG iter. 15 -- res = 0.52309E+04, tol = 0.66865E+01, time = 3.73 | CG iter. 16 -- res = 0.37182E+04, tol = 0.66865E+01, time = 3.58 | CG iter. 17 -- res = 0.25039E+04, tol = 0.66865E+01, time = 3.58 | CG iter. 18 -- res = 0.19487E+04, tol = 0.66865E+01, time = 3.66 | CG iter. 19 -- res = 0.16599E+04, tol = 0.66865E+01, time = 3.81 | CG iter. 20 -- res = 0.13448E+04, tol = 0.66865E+01, time = 3.71 | CG iter. 21 -- res = 0.97086E+03, tol = 0.66865E+01, time = 3.63 | CG iter. 22 -- res = 0.74742E+03, tol = 0.66865E+01, time = 3.63 | CG iter. 23 -- res = 0.61867E+03, tol = 0.66865E+01, time = 3.70 | CG iter. 24 -- res = 0.49275E+03, tol = 0.66865E+01, time = 3.76 | CG iter. 25 -- res = 0.35958E+03, tol = 0.66865E+01, time = 3.75 | CG iter. 26 -- res = 0.26373E+03, tol = 0.66865E+01, time = 3.70 | CG iter. 27 -- res = 0.22685E+03, tol = 0.66865E+01, time = 3.75 | CG iter. 28 -- res = 0.19187E+03, tol = 0.66865E+01, time = 3.66 | CG iter. 29 -- res = 0.14704E+03, tol = 0.66865E+01, time = 3.77 | CG iter. 30 -- res = 0.11343E+03, tol = 0.66865E+01, time = 3.67 | CG iter. 31 -- res = 0.95678E+02, tol = 0.66865E+01, time = 3.67 | CG iter. 32 -- res = 0.80160E+02, tol = 0.66865E+01, time = 3.68 | CG iter. 33 -- res = 0.65681E+02, tol = 0.66865E+01, time = 3.72 | CG iter. 34 -- res = 0.49260E+02, tol = 0.66865E+01, time = 4.30 | CG iter. 35 -- res = 0.39822E+02, tol = 0.66865E+01, time = 4.64 | CG iter. 36 -- res = 0.34469E+02, tol = 0.66865E+01, time = 3.84 | CG iter. 37 -- res = 0.29155E+02, tol = 0.66865E+01, time = 4.15 | CG iter. 38 -- res = 0.22929E+02, tol = 0.66865E+01, time = 3.65 | CG iter. 39 -- res = 0.17562E+02, tol = 0.66865E+01, time = 3.66 | CG iter. 40 -- res = 0.15088E+02, tol = 0.66865E+01, time = 3.75 | CG iter. 41 -- res = 0.12812E+02, tol = 0.66865E+01, time = 3.72 | CG iter. 42 -- res = 0.10038E+02, tol = 0.66865E+01, time = 3.71 | CG iter. 43 -- res = 0.77979E+01, tol = 0.66865E+01, time = 3.68 | CG iter. 44 -- res = 0.64602E+01, tol = 0.66865E+01, time = 3.61 | CG iter. 45 -- res = 0.53362E+01, tol = 0.66865E+01, time = 3.65 | CG iter. 46 -- res = 0.40889E+01, tol = 0.66865E+01, time = 3.66 | CG iter. 47 -- res = 0.32446E+01, tol = 0.66865E+01, time = 3.84 | CG iter. 48 -- res = 0.26461E+01, tol = 0.66865E+01, time = 3.67 | CG iter. 49 -- res = 0.21488E+01, tol = 0.66865E+01, time = 3.65 | CG iter. 50 -- res = 0.18081E+01, tol = 0.66865E+01, time = 3.55 | Final CG iter 51 -- res = 0.18081E+01, tol = 0.66865E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8067815.275 | Old band monopole 10817040.291 | Change to band monopole -2749225.015 | Change to component monopole 2749213.190 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.67 | CG iter. 1 -- res = 0.35179E+04, tol = 0.47627E+18, time = 1.30 | CG iter. 2 -- res = 0.99057E+01, tol = 0.47627E+18, time = 1.31 | CG iter. 3 -- res = 0.21399E+00, tol = 0.47627E+18, time = 1.27 | Final CG iter 4 -- res = 0.29206E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8067780.574 | (Sampled value in CG: 8013004.114 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.507820 | New value = 1.508407 | poltype: 2 pol: 1 CPU time specind = 5.4218769E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.536405 | New value = 1.479484 | poltype: 2 pol: 2 CPU time specind = 3.9780140E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.73 | CG iter. 1 -- res = 0.24006E+08, tol = 0.47608E+04, time = 4.18 | CG iter. 2 -- res = 0.52619E+07, tol = 0.47608E+04, time = 4.13 | CG iter. 3 -- res = 0.83852E+06, tol = 0.47608E+04, time = 4.16 | CG iter. 4 -- res = 0.35771E+06, tol = 0.47608E+04, time = 4.39 | CG iter. 5 -- res = 0.15820E+06, tol = 0.47608E+04, time = 4.31 | CG iter. 6 -- res = 0.81911E+05, tol = 0.47608E+04, time = 4.23 | CG iter. 7 -- res = 0.44028E+05, tol = 0.47608E+04, time = 4.17 | CG iter. 8 -- res = 0.21488E+05, tol = 0.47608E+04, time = 4.16 | CG iter. 9 -- res = 0.92228E+04, tol = 0.47608E+04, time = 4.27 | CG iter. 10 -- res = 0.37150E+04, tol = 0.47608E+04, time = 4.40 | CG iter. 11 -- res = 0.16855E+04, tol = 0.47608E+04, time = 4.19 | CG iter. 12 -- res = 0.86410E+03, tol = 0.47608E+04, time = 4.83 | CG iter. 13 -- res = 0.49352E+03, tol = 0.47608E+04, time = 10.29 | CG iter. 14 -- res = 0.27885E+03, tol = 0.47608E+04, time = 4.31 | CG iter. 15 -- res = 0.14447E+03, tol = 0.47608E+04, time = 4.25 | CG iter. 16 -- res = 0.69165E+02, tol = 0.47608E+04, time = 4.29 | CG iter. 17 -- res = 0.31536E+02, tol = 0.47608E+04, time = 4.42 | CG iter. 18 -- res = 0.15988E+02, tol = 0.47608E+04, time = 4.28 | CG iter. 19 -- res = 0.87973E+01, tol = 0.47608E+04, time = 4.44 | CG iter. 20 -- res = 0.49597E+01, tol = 0.47608E+04, time = 4.15 | CG iter. 21 -- res = 0.27736E+01, tol = 0.47608E+04, time = 4.21 | CG iter. 22 -- res = 0.14301E+01, tol = 0.47608E+04, time = 4.23 | CG iter. 23 -- res = 0.69108E+00, tol = 0.47608E+04, time = 4.33 | CG iter. 24 -- res = 0.35120E+00, tol = 0.47608E+04, time = 4.21 | CG iter. 25 -- res = 0.19156E+00, tol = 0.47608E+04, time = 4.25 | CG iter. 26 -- res = 0.10916E+00, tol = 0.47608E+04, time = 4.15 | CG iter. 27 -- res = 0.60702E-01, tol = 0.47608E+04, time = 4.40 | CG iter. 28 -- res = 0.31887E-01, tol = 0.47608E+04, time = 4.09 | CG iter. 29 -- res = 0.16526E-01, tol = 0.47608E+04, time = 4.24 | CG iter. 30 -- res = 0.88863E-02, tol = 0.47608E+04, time = 4.22 | CG iter. 31 -- res = 0.49022E-02, tol = 0.47608E+04, time = 4.28 | CG iter. 32 -- res = 0.28354E-02, tol = 0.47608E+04, time = 4.71 | CG iter. 33 -- res = 0.16353E-02, tol = 0.47608E+04, time = 5.44 | CG iter. 34 -- res = 0.89673E-03, tol = 0.47608E+04, time = 4.49 | CG iter. 35 -- res = 0.46926E-03, tol = 0.47608E+04, time = 4.71 | Final CG iter 36 -- res = 0.46926E-03, tol = 0.47608E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.215 2.717 | New value -3.207 | Old value 2.215 | Difference -5.422 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.92 | CG iter. 1 -- res = 0.15256E+07, tol = 0.47627E+18, time = 1.25 | CG iter. 2 -- res = 0.49518E+02, tol = 0.47627E+18, time = 1.25 | CG iter. 3 -- res = 0.14626E+01, tol = 0.47627E+18, time = 1.30 | CG iter. 4 -- res = 0.32798E-03, tol = 0.47627E+18, time = 1.24 | Final CG iter 5 -- res = 0.47205E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8067780.574 | (Sampled value in CG: 8014644.387 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.626225 | New value = -3.538644 | poltype: 1 pol: 1 CPU time specind = 6.2050819E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.24519E+07, tol = 0.22700E+01, time = 1.69 | CG iter. 2 -- res = 0.10091E+07, tol = 0.22700E+01, time = 1.84 | CG iter. 3 -- res = 0.18412E+06, tol = 0.22700E+01, time = 1.60 | CG iter. 4 -- res = 0.77527E+05, tol = 0.22700E+01, time = 1.72 | CG iter. 5 -- res = 0.43852E+05, tol = 0.22700E+01, time = 1.66 | CG iter. 6 -- res = 0.22472E+05, tol = 0.22700E+01, time = 1.60 | CG iter. 7 -- res = 0.87928E+04, tol = 0.22700E+01, time = 1.55 | CG iter. 8 -- res = 0.37625E+04, tol = 0.22700E+01, time = 1.69 | CG iter. 9 -- res = 0.17114E+04, tol = 0.22700E+01, time = 1.71 | CG iter. 10 -- res = 0.67118E+03, tol = 0.22700E+01, time = 1.72 | CG iter. 11 -- res = 0.27227E+03, tol = 0.22700E+01, time = 2.67 | CG iter. 12 -- res = 0.13276E+03, tol = 0.22700E+01, time = 7.80 | CG iter. 13 -- res = 0.69217E+02, tol = 0.22700E+01, time = 1.68 | CG iter. 14 -- res = 0.35074E+02, tol = 0.22700E+01, time = 1.61 | CG iter. 15 -- res = 0.15757E+02, tol = 0.22700E+01, time = 1.59 | CG iter. 16 -- res = 0.69908E+01, tol = 0.22700E+01, time = 1.82 | CG iter. 17 -- res = 0.28718E+01, tol = 0.22700E+01, time = 1.72 | CG iter. 18 -- res = 0.13167E+01, tol = 0.22700E+01, time = 1.66 | CG iter. 19 -- res = 0.63168E+00, tol = 0.22700E+01, time = 1.69 | CG iter. 20 -- res = 0.34049E+00, tol = 0.22700E+01, time = 1.81 | CG iter. 21 -- res = 0.16803E+00, tol = 0.22700E+01, time = 1.58 | CG iter. 22 -- res = 0.81457E-01, tol = 0.22700E+01, time = 1.80 | CG iter. 23 -- res = 0.36975E-01, tol = 0.22700E+01, time = 1.67 | CG iter. 24 -- res = 0.16222E-01, tol = 0.22700E+01, time = 1.67 | CG iter. 25 -- res = 0.80932E-02, tol = 0.22700E+01, time = 1.74 | CG iter. 26 -- res = 0.42366E-02, tol = 0.22700E+01, time = 1.71 | CG iter. 27 -- res = 0.21767E-02, tol = 0.22700E+01, time = 1.64 | CG iter. 28 -- res = 0.10974E-02, tol = 0.22700E+01, time = 1.73 | CG iter. 29 -- res = 0.50879E-03, tol = 0.22700E+01, time = 1.68 | CG iter. 30 -- res = 0.23878E-03, tol = 0.22700E+01, time = 1.67 | CG iter. 31 -- res = 0.10957E-03, tol = 0.22700E+01, time = 1.80 | CG iter. 32 -- res = 0.53291E-04, tol = 0.22700E+01, time = 1.63 | CG iter. 33 -- res = 0.27239E-04, tol = 0.22700E+01, time = 1.69 | CG iter. 34 -- res = 0.12933E-04, tol = 0.22700E+01, time = 1.60 | CG iter. 35 -- res = 0.63891E-05, tol = 0.22700E+01, time = 1.76 | CG iter. 36 -- res = 0.30961E-05, tol = 0.22700E+01, time = 1.68 | CG iter. 37 -- res = 0.13352E-05, tol = 0.22700E+01, time = 1.80 | CG iter. 38 -- res = 0.65903E-06, tol = 0.22700E+01, time = 1.58 | CG iter. 39 -- res = 0.33116E-06, tol = 0.22700E+01, time = 1.63 | CG iter. 40 -- res = 0.16111E-06, tol = 0.22700E+01, time = 1.68 | CG iter. 41 -- res = 0.79164E-07, tol = 0.22700E+01, time = 1.69 | CG iter. 42 -- res = 0.37922E-07, tol = 0.22700E+01, time = 1.72 | CG iter. 43 -- res = 0.16826E-07, tol = 0.22700E+01, time = 1.71 | CG iter. 44 -- res = 0.75999E-08, tol = 0.22700E+01, time = 1.70 | CG iter. 45 -- res = 0.38718E-08, tol = 0.22700E+01, time = 1.72 | CG iter. 46 -- res = 0.19366E-08, tol = 0.22700E+01, time = 1.77 | CG iter. 47 -- res = 0.94808E-09, tol = 0.22700E+01, time = 1.59 | CG iter. 48 -- res = 0.44758E-09, tol = 0.22700E+01, time = 1.75 | CG iter. 49 -- res = 0.20606E-09, tol = 0.22700E+01, time = 1.66 | CG iter. 50 -- res = 0.91516E-10, tol = 0.22700E+01, time = 1.70 | Final CG iter 51 -- res = 0.91516E-10, tol = 0.22700E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.984 5.609 | New value -5.172 | Old value -2.984 | Difference -2.188 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.83 | CG iter. 1 -- res = 0.61720E+04, tol = 0.47627E+18, time = 1.37 | CG iter. 2 -- res = 0.25624E+02, tol = 0.47627E+18, time = 1.25 | CG iter. 3 -- res = 0.82768E+00, tol = 0.47627E+18, time = 1.20 | CG iter. 4 -- res = 0.87177E-03, tol = 0.47627E+18, time = 1.24 | Final CG iter 5 -- res = 0.22794E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8067780.574 | (Sampled value in CG: 8033105.897 ) | CPU time specind = 804.8033 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.55 | CG iter. 1 -- res = 0.68076E+08, tol = 0.57598E+04, time = 7.42 | CG iter. 2 -- res = 0.58481E+08, tol = 0.57598E+04, time = 7.73 | CG iter. 3 -- res = 0.15585E+08, tol = 0.57598E+04, time = 7.96 | CG iter. 4 -- res = 0.66835E+07, tol = 0.57598E+04, time = 7.68 | CG iter. 5 -- res = 0.40569E+07, tol = 0.57598E+04, time = 7.86 | CG iter. 6 -- res = 0.23465E+07, tol = 0.57598E+04, time = 7.72 | CG iter. 7 -- res = 0.13400E+07, tol = 0.57598E+04, time = 8.37 | CG iter. 8 -- res = 0.88624E+06, tol = 0.57598E+04, time = 7.69 | CG iter. 9 -- res = 0.58641E+06, tol = 0.57598E+04, time = 7.83 | CG iter. 10 -- res = 0.35213E+06, tol = 0.57598E+04, time = 7.75 | CG iter. 11 -- res = 0.19567E+06, tol = 0.57598E+04, time = 7.66 | CG iter. 12 -- res = 0.10821E+06, tol = 0.57598E+04, time = 7.75 | CG iter. 13 -- res = 0.61207E+05, tol = 0.57598E+04, time = 7.64 | CG iter. 14 -- res = 0.38305E+05, tol = 0.57598E+04, time = 7.75 | CG iter. 15 -- res = 0.27829E+05, tol = 0.57598E+04, time = 7.75 | CG iter. 16 -- res = 0.22471E+05, tol = 0.57598E+04, time = 7.72 | CG iter. 17 -- res = 0.19417E+05, tol = 0.57598E+04, time = 7.75 | CG iter. 18 -- res = 0.16551E+05, tol = 0.57598E+04, time = 7.70 | CG iter. 19 -- res = 0.14062E+05, tol = 0.57598E+04, time = 7.77 | CG iter. 20 -- res = 0.12546E+05, tol = 0.57598E+04, time = 14.60 | CG iter. 21 -- res = 0.11592E+05, tol = 0.57598E+04, time = 7.76 | CG iter. 22 -- res = 0.11700E+05, tol = 0.57598E+04, time = 7.73 | CG iter. 23 -- res = 0.12363E+05, tol = 0.57598E+04, time = 7.69 | CG iter. 24 -- res = 0.12532E+05, tol = 0.57598E+04, time = 7.84 | CG iter. 25 -- res = 0.11492E+05, tol = 0.57598E+04, time = 7.74 | CG iter. 26 -- res = 0.93469E+04, tol = 0.57598E+04, time = 7.72 | CG iter. 27 -- res = 0.73626E+04, tol = 0.57598E+04, time = 7.80 | CG iter. 28 -- res = 0.56501E+04, tol = 0.57598E+04, time = 7.69 | CG iter. 29 -- res = 0.44568E+04, tol = 0.57598E+04, time = 7.80 | CG iter. 30 -- res = 0.38520E+04, tol = 0.57598E+04, time = 7.65 | CG iter. 31 -- res = 0.33141E+04, tol = 0.57598E+04, time = 9.43 | CG iter. 32 -- res = 0.29005E+04, tol = 0.57598E+04, time = 9.61 | CG iter. 33 -- res = 0.24928E+04, tol = 0.57598E+04, time = 7.70 | CG iter. 34 -- res = 0.20178E+04, tol = 0.57598E+04, time = 7.78 | CG iter. 35 -- res = 0.16610E+04, tol = 0.57598E+04, time = 7.76 | CG iter. 36 -- res = 0.14844E+04, tol = 0.57598E+04, time = 7.63 | CG iter. 37 -- res = 0.14344E+04, tol = 0.57598E+04, time = 7.79 | CG iter. 38 -- res = 0.13940E+04, tol = 0.57598E+04, time = 7.80 | CG iter. 39 -- res = 0.13017E+04, tol = 0.57598E+04, time = 7.62 | CG iter. 40 -- res = 0.11009E+04, tol = 0.57598E+04, time = 7.71 | CG iter. 41 -- res = 0.87208E+03, tol = 0.57598E+04, time = 7.72 | CG iter. 42 -- res = 0.69953E+03, tol = 0.57598E+04, time = 7.76 | CG iter. 43 -- res = 0.58284E+03, tol = 0.57598E+04, time = 7.69 | CG iter. 44 -- res = 0.51012E+03, tol = 0.57598E+04, time = 7.64 | CG iter. 45 -- res = 0.47243E+03, tol = 0.57598E+04, time = 7.80 | CG iter. 46 -- res = 0.44308E+03, tol = 0.57598E+04, time = 7.61 | CG iter. 47 -- res = 0.39078E+03, tol = 0.57598E+04, time = 7.85 | CG iter. 48 -- res = 0.33159E+03, tol = 0.57598E+04, time = 7.62 | CG iter. 49 -- res = 0.28482E+03, tol = 0.57598E+04, time = 7.74 | CG iter. 50 -- res = 0.25553E+03, tol = 0.57598E+04, time = 7.74 | CG iter. 51 -- res = 0.23884E+03, tol = 0.57598E+04, time = 7.65 | CG iter. 52 -- res = 0.22764E+03, tol = 0.57598E+04, time = 7.76 | CG iter. 53 -- res = 0.21382E+03, tol = 0.57598E+04, time = 7.68 | CG iter. 54 -- res = 0.19515E+03, tol = 0.57598E+04, time = 7.66 | CG iter. 55 -- res = 0.17055E+03, tol = 0.57598E+04, time = 7.95 | CG iter. 56 -- res = 0.14536E+03, tol = 0.57598E+04, time = 7.62 | CG iter. 57 -- res = 0.12534E+03, tol = 0.57598E+04, time = 7.77 | CG iter. 58 -- res = 0.11252E+03, tol = 0.57598E+04, time = 14.89 | CG iter. 59 -- res = 0.10348E+03, tol = 0.57598E+04, time = 7.76 | CG iter. 60 -- res = 0.96921E+02, tol = 0.57598E+04, time = 7.65 | Final CG iter 61 -- res = 0.96921E+02, tol = 0.57598E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.890 ( -229.864 -2229.239 2511.596 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 5839375.796 | Old band monopole 8067815.275 | Change to band monopole -2228439.479 | Change to component monopole 2228429.894 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.221 2.735 | New value -0.636 | Old value -3.221 | Difference 2.585 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.381 ( 6.701 8.819 -8.449 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.454 5.197 | New value -3.967 | Old value 1.454 | Difference -5.421 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.80 | CG iter. 1 -- res = 0.43102E+06, tol = 0.47627E+18, time = 1.20 | CG iter. 2 -- res = 0.47977E+02, tol = 0.47627E+18, time = 1.34 | CG iter. 3 -- res = 0.20923E+01, tol = 0.47627E+18, time = 1.29 | CG iter. 4 -- res = 0.30963E-02, tol = 0.47627E+18, time = 1.29 | Final CG iter 5 -- res = 0.25328E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5839350.680 | (Sampled value in CG: 5817504.479 ) | Chain = 1 -- chisq = 0.81539603E+09 | Chain = 1 -- wall time = 15808.789 sec Available RAM: MemAvailable: 481470100 kB Available Swap: SwapFree: 1387565624 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 152 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444249 | --> Sampling calibration, mode = relcal | relcal = 1.3426346E-02 7.4517180E-04 -1.5908873E-03 -1.2580629E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1223440 0.1340892 9409363.60441495 | BP delta = 0.1223440 0.1379354 9409368.34890189 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632370 | --> Sampling calibration, mode = relcal | relcal = -2.8203733E-03 -7.0200808E-04 1.6783156E-03 1.6115839E-03 -4.0751637E-04 6.3999835E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5918209 15217862.9040714 | BP delta = 0.0000000E+00 -0.6043218 15217862.6561013 | BP chisq diff = -0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17822004608420 | --> Sampling calibration, mode = relcal | relcal = -7.3845699E-02 -5.7644591E-02 9.0584084E-02 4.0906202E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3570669E-04 2.9545047E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2932E-02 | 2: delta_r/delta_0: 7.2939E-04 | 3: delta_s/delta_0: 1.9224E-07 | 4: delta_r/delta_0: 2.3520E-08 | 5: delta_s/delta_0: 7.6641E-09 | 6: delta_r/delta_0: 9.9087E-10 | 7: delta_s/delta_0: 1.7446E-08 | 8: delta_r/delta_0: 2.2321E-10 | 9: delta_s/delta_0: 5.1388E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.051717640367630E-003 2.747701814582830E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2997E-02 | 2: delta_r/delta_0: 7.3096E-04 | 3: delta_s/delta_0: 1.9224E-07 | 4: delta_r/delta_0: 2.3521E-08 | 5: delta_s/delta_0: 7.6641E-09 | 6: delta_r/delta_0: 9.9097E-10 | 7: delta_s/delta_0: 1.7463E-08 | 8: delta_r/delta_0: 2.2326E-10 | 9: delta_s/delta_0: 5.1393E-11 | Reached bicg-stab tolerance | BP delta = 5.0183679E-03 1.8976407E-02 3716744.25688617 | BP delta = 5.0183679E-03 1.9329745E-02 3711913.69321357 | BP chisq diff = -4830.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02570759 | --> Sampling calibration, mode = relcal | relcal = -0.1066301 -9.5485657E-02 0.1449324 5.7183295E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1342153E-03 1.6545882E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9071E-05 | 2: delta_r/delta_0: 1.3257E-06 | 3: delta_s/delta_0: 2.4441E-07 | 4: delta_r/delta_0: 4.6026E-08 | 5: delta_s/delta_0: 2.1947E-08 | 6: delta_r/delta_0: 7.0029E-09 | 7: delta_s/delta_0: 8.0040E-09 | 8: delta_r/delta_0: 1.4412E-09 | 9: delta_s/delta_0: 6.5292E-10 | 10: delta_r/delta_0: 3.1124E-10 | 11: delta_s/delta_0: 2.0332E-10 | 12: delta_r/delta_0: 6.9056E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.950651965921372E-003 2.811609279148164E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.9071E-05 | 2: delta_r/delta_0: 1.3257E-06 | 3: delta_s/delta_0: 2.4441E-07 | 4: delta_r/delta_0: 4.6015E-08 | 5: delta_s/delta_0: 2.1952E-08 | 6: delta_r/delta_0: 7.0024E-09 | 7: delta_s/delta_0: 8.0048E-09 | 8: delta_r/delta_0: 1.4411E-09 | 9: delta_s/delta_0: 6.5280E-10 | 10: delta_r/delta_0: 3.1133E-10 | 11: delta_s/delta_0: 2.0328E-10 | 12: delta_r/delta_0: 6.8937E-11 | Reached bicg-stab tolerance | BP delta = -0.2826099 -0.2563536 2841690.11617877 | BP delta = -0.2826099 -0.2603233 2841694.72323157 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81214050 | --> Sampling calibration, mode = relcal | relcal = 0.2953760 0.2249639 -0.2838014 -0.2365385 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3365669E-03 4.9866308E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5283E-03 | 2: delta_r/delta_0: 3.6445E-05 | 3: delta_s/delta_0: 1.3330E-04 | 4: delta_r/delta_0: 4.7641E-06 | 5: delta_s/delta_0: 4.6022E-07 | 6: delta_r/delta_0: 1.7816E-07 | 7: delta_s/delta_0: 2.1369E-07 | 8: delta_r/delta_0: 4.7756E-08 | 9: delta_s/delta_0: 2.0015E-08 | 10: delta_r/delta_0: 3.6286E-09 | 11: delta_s/delta_0: 3.5050E-09 | 12: delta_r/delta_0: 1.9190E-09 | 13: delta_s/delta_0: 2.0321E-10 | 14: delta_r/delta_0: 1.2388E-10 | 15: delta_s/delta_0: 2.1124E-10 | 16: delta_r/delta_0: 1.4436E-10 | 17: delta_s/delta_0: 2.3523E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.542379091131291E-002 4.022278740936614E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5288E-03 | 2: delta_r/delta_0: 3.6456E-05 | 3: delta_s/delta_0: 1.3329E-04 | 4: delta_r/delta_0: 4.7628E-06 | 5: delta_s/delta_0: 4.6029E-07 | 6: delta_r/delta_0: 1.7819E-07 | 7: delta_s/delta_0: 2.1335E-07 | 8: delta_r/delta_0: 4.7759E-08 | 9: delta_s/delta_0: 2.0037E-08 | 10: delta_r/delta_0: 3.6296E-09 | 11: delta_s/delta_0: 3.5057E-09 | 12: delta_r/delta_0: 1.9192E-09 | 13: delta_s/delta_0: 2.0319E-10 | 14: delta_r/delta_0: 1.2388E-10 | 15: delta_s/delta_0: 2.1137E-10 | 16: delta_r/delta_0: 1.4443E-10 | 17: delta_s/delta_0: 2.3519E-11 | Reached bicg-stab tolerance | BP delta = -0.1843641 -0.2022394 2827687.98610222 | BP delta = -0.1843641 -0.2054220 2827700.23124577 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95899362 | --> Sampling calibration, mode = relcal | relcal = 0.1064417 0.1394618 -0.1101901 -0.1357135 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0181474E-02 1.4109356E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3912E-04 | 2: delta_r/delta_0: 3.9068E-06 | 3: delta_s/delta_0: 8.7416E-06 | 4: delta_r/delta_0: 1.2546E-06 | 5: delta_s/delta_0: 1.5095E-07 | 6: delta_r/delta_0: 9.7074E-08 | 7: delta_s/delta_0: 7.9059E-07 | 8: delta_r/delta_0: 2.1589E-08 | 9: delta_s/delta_0: 2.6201E-08 | 10: delta_r/delta_0: 1.3226E-08 | 11: delta_s/delta_0: 8.3066E-10 | 12: delta_r/delta_0: 5.0249E-10 | 13: delta_s/delta_0: 1.6081E-09 | 14: delta_r/delta_0: 9.1901E-10 | 15: delta_s/delta_0: 6.3862E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.817707543645223E-002 3.697725245497662E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3911E-04 | 2: delta_r/delta_0: 3.9069E-06 | 3: delta_s/delta_0: 8.7421E-06 | 4: delta_r/delta_0: 1.2546E-06 | 5: delta_s/delta_0: 1.5095E-07 | 6: delta_r/delta_0: 9.7044E-08 | 7: delta_s/delta_0: 7.8940E-07 | 8: delta_r/delta_0: 2.1593E-08 | 9: delta_s/delta_0: 2.6172E-08 | 10: delta_r/delta_0: 1.3215E-08 | 11: delta_s/delta_0: 8.2978E-10 | 12: delta_r/delta_0: 5.0188E-10 | 13: delta_s/delta_0: 1.5520E-09 | 14: delta_r/delta_0: 8.9612E-10 | 15: delta_s/delta_0: 6.3781E-11 | Reached bicg-stab tolerance | BP delta = 1.6453285E-02 0.1183343 3004162.92462159 | BP delta = 1.6453285E-02 0.1150001 3004349.98812704 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125854 | New value = -3.099065 | poltype: 2 pol: 1 CPU time specind = 8.8410378E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124729 | New value = -3.058536 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160396 | New value = -3.218499 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.096078 | New value = -3.136183 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.256524 | New value = -3.143977 | poltype: 2 pol: 2 CPU time specind = 4.0900707E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.70 | CG iter. 1 -- res = 0.13577E+08, tol = 0.10558E+02, time = 3.77 | CG iter. 2 -- res = 0.32992E+06, tol = 0.10558E+02, time = 3.73 | CG iter. 3 -- res = 0.53909E+05, tol = 0.10558E+02, time = 3.84 | CG iter. 4 -- res = 0.27779E+05, tol = 0.10558E+02, time = 3.80 | CG iter. 5 -- res = 0.16568E+05, tol = 0.10558E+02, time = 3.90 | CG iter. 6 -- res = 0.11609E+05, tol = 0.10558E+02, time = 3.76 | CG iter. 7 -- res = 0.10134E+05, tol = 0.10558E+02, time = 3.82 | CG iter. 8 -- res = 0.81778E+04, tol = 0.10558E+02, time = 3.89 | CG iter. 9 -- res = 0.71880E+04, tol = 0.10558E+02, time = 3.84 | CG iter. 10 -- res = 0.65354E+04, tol = 0.10558E+02, time = 4.09 | CG iter. 11 -- res = 0.47079E+04, tol = 0.10558E+02, time = 3.72 | CG iter. 12 -- res = 0.30417E+04, tol = 0.10558E+02, time = 3.92 | CG iter. 13 -- res = 0.19925E+04, tol = 0.10558E+02, time = 3.84 | CG iter. 14 -- res = 0.15732E+04, tol = 0.10558E+02, time = 4.55 | CG iter. 15 -- res = 0.13778E+04, tol = 0.10558E+02, time = 3.74 | CG iter. 16 -- res = 0.10907E+04, tol = 0.10558E+02, time = 3.86 | CG iter. 17 -- res = 0.75674E+03, tol = 0.10558E+02, time = 3.77 | CG iter. 18 -- res = 0.55022E+03, tol = 0.10558E+02, time = 3.87 | CG iter. 19 -- res = 0.44528E+03, tol = 0.10558E+02, time = 3.87 | CG iter. 20 -- res = 0.33148E+03, tol = 0.10558E+02, time = 3.90 | CG iter. 21 -- res = 0.22528E+03, tol = 0.10558E+02, time = 3.77 | CG iter. 22 -- res = 0.15798E+03, tol = 0.10558E+02, time = 3.84 | CG iter. 23 -- res = 0.12855E+03, tol = 0.10558E+02, time = 3.80 | CG iter. 24 -- res = 0.10271E+03, tol = 0.10558E+02, time = 4.02 | CG iter. 25 -- res = 0.72325E+02, tol = 0.10558E+02, time = 3.90 | CG iter. 26 -- res = 0.49582E+02, tol = 0.10558E+02, time = 3.93 | CG iter. 27 -- res = 0.36687E+02, tol = 0.10558E+02, time = 3.74 | CG iter. 28 -- res = 0.28739E+02, tol = 0.10558E+02, time = 3.98 | CG iter. 29 -- res = 0.21302E+02, tol = 0.10558E+02, time = 3.91 | CG iter. 30 -- res = 0.15662E+02, tol = 0.10558E+02, time = 3.87 | CG iter. 31 -- res = 0.11993E+02, tol = 0.10558E+02, time = 3.72 | CG iter. 32 -- res = 0.96247E+01, tol = 0.10558E+02, time = 3.76 | CG iter. 33 -- res = 0.76553E+01, tol = 0.10558E+02, time = 3.89 | CG iter. 34 -- res = 0.55307E+01, tol = 0.10558E+02, time = 3.89 | CG iter. 35 -- res = 0.39832E+01, tol = 0.10558E+02, time = 3.84 | CG iter. 36 -- res = 0.31947E+01, tol = 0.10558E+02, time = 3.80 | CG iter. 37 -- res = 0.25470E+01, tol = 0.10558E+02, time = 3.81 | CG iter. 38 -- res = 0.18131E+01, tol = 0.10558E+02, time = 3.80 | CG iter. 39 -- res = 0.13248E+01, tol = 0.10558E+02, time = 4.40 | CG iter. 40 -- res = 0.10458E+01, tol = 0.10558E+02, time = 9.87 | CG iter. 41 -- res = 0.82768E+00, tol = 0.10558E+02, time = 3.86 | CG iter. 42 -- res = 0.63142E+00, tol = 0.10558E+02, time = 3.82 | CG iter. 43 -- res = 0.48167E+00, tol = 0.10558E+02, time = 3.95 | CG iter. 44 -- res = 0.36115E+00, tol = 0.10558E+02, time = 3.85 | CG iter. 45 -- res = 0.29851E+00, tol = 0.10558E+02, time = 3.84 | CG iter. 46 -- res = 0.24419E+00, tol = 0.10558E+02, time = 3.79 | CG iter. 47 -- res = 0.19205E+00, tol = 0.10558E+02, time = 3.82 | CG iter. 48 -- res = 0.14760E+00, tol = 0.10558E+02, time = 3.82 | CG iter. 49 -- res = 0.12822E+00, tol = 0.10558E+02, time = 3.92 | CG iter. 50 -- res = 0.10770E+00, tol = 0.10558E+02, time = 3.84 | Final CG iter 51 -- res = 0.10770E+00, tol = 0.10558E+02 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9080970.354 | Old band monopole 5839375.796 | Change to band monopole 3241594.558 | Change to component monopole -3241580.615 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.52988E+05, tol = 0.47627E+18, time = 1.34 | CG iter. 2 -- res = 0.57454E+02, tol = 0.47627E+18, time = 1.32 | CG iter. 3 -- res = 0.23059E+01, tol = 0.47627E+18, time = 1.32 | CG iter. 4 -- res = 0.81013E-02, tol = 0.47627E+18, time = 1.35 | Final CG iter 5 -- res = 0.26986E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9080931.295 | (Sampled value in CG: 9123964.497 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.508407 | New value = 1.511954 | poltype: 2 pol: 1 CPU time specind = 4.2440891E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.479484 | New value = 1.514112 | poltype: 2 pol: 2 CPU time specind = 2.9940605E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.24028E+08, tol = 0.47581E+04, time = 4.30 | CG iter. 2 -- res = 0.53954E+07, tol = 0.47581E+04, time = 4.27 | CG iter. 3 -- res = 0.85659E+06, tol = 0.47581E+04, time = 4.31 | CG iter. 4 -- res = 0.36117E+06, tol = 0.47581E+04, time = 4.73 | CG iter. 5 -- res = 0.15356E+06, tol = 0.47581E+04, time = 4.38 | CG iter. 6 -- res = 0.80662E+05, tol = 0.47581E+04, time = 4.31 | CG iter. 7 -- res = 0.44299E+05, tol = 0.47581E+04, time = 4.40 | CG iter. 8 -- res = 0.21461E+05, tol = 0.47581E+04, time = 4.63 | CG iter. 9 -- res = 0.94012E+04, tol = 0.47581E+04, time = 4.47 | CG iter. 10 -- res = 0.37840E+04, tol = 0.47581E+04, time = 4.30 | CG iter. 11 -- res = 0.16847E+04, tol = 0.47581E+04, time = 4.52 | CG iter. 12 -- res = 0.84706E+03, tol = 0.47581E+04, time = 4.40 | CG iter. 13 -- res = 0.47775E+03, tol = 0.47581E+04, time = 4.44 | CG iter. 14 -- res = 0.26949E+03, tol = 0.47581E+04, time = 4.40 | CG iter. 15 -- res = 0.13951E+03, tol = 0.47581E+04, time = 4.32 | CG iter. 16 -- res = 0.67606E+02, tol = 0.47581E+04, time = 4.55 | CG iter. 17 -- res = 0.31270E+02, tol = 0.47581E+04, time = 4.49 | CG iter. 18 -- res = 0.15380E+02, tol = 0.47581E+04, time = 4.40 | CG iter. 19 -- res = 0.83008E+01, tol = 0.47581E+04, time = 4.44 | CG iter. 20 -- res = 0.45448E+01, tol = 0.47581E+04, time = 4.41 | CG iter. 21 -- res = 0.24482E+01, tol = 0.47581E+04, time = 4.48 | CG iter. 22 -- res = 0.12252E+01, tol = 0.47581E+04, time = 4.37 | CG iter. 23 -- res = 0.60304E+00, tol = 0.47581E+04, time = 4.35 | CG iter. 24 -- res = 0.30874E+00, tol = 0.47581E+04, time = 4.45 | CG iter. 25 -- res = 0.17415E+00, tol = 0.47581E+04, time = 4.41 | CG iter. 26 -- res = 0.10224E+00, tol = 0.47581E+04, time = 4.34 | CG iter. 27 -- res = 0.57032E-01, tol = 0.47581E+04, time = 4.42 | CG iter. 28 -- res = 0.30028E-01, tol = 0.47581E+04, time = 4.60 | CG iter. 29 -- res = 0.15740E-01, tol = 0.47581E+04, time = 4.39 | CG iter. 30 -- res = 0.84352E-02, tol = 0.47581E+04, time = 4.34 | CG iter. 31 -- res = 0.47254E-02, tol = 0.47581E+04, time = 4.42 | CG iter. 32 -- res = 0.26653E-02, tol = 0.47581E+04, time = 4.50 | CG iter. 33 -- res = 0.15273E-02, tol = 0.47581E+04, time = 4.37 | CG iter. 34 -- res = 0.84880E-03, tol = 0.47581E+04, time = 4.36 | CG iter. 35 -- res = 0.44448E-03, tol = 0.47581E+04, time = 8.65 | Final CG iter 36 -- res = 0.44448E-03, tol = 0.47581E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.621 2.750 | New value 2.593 | Old value -0.621 | Difference 3.214 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.55 | CG iter. 1 -- res = 0.53566E+06, tol = 0.47627E+18, time = 1.31 | CG iter. 2 -- res = 0.38671E+02, tol = 0.47627E+18, time = 1.30 | CG iter. 3 -- res = 0.11738E+01, tol = 0.47627E+18, time = 1.38 | CG iter. 4 -- res = 0.72148E-04, tol = 0.47627E+18, time = 1.28 | Final CG iter 5 -- res = 0.17164E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9080931.295 | (Sampled value in CG: 9123217.892 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.538644 | New value = -3.608673 | poltype: 1 pol: 1 CPU time specind = 4.7171116E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.45 | CG iter. 1 -- res = 0.21029E+07, tol = 0.22465E+01, time = 1.73 | CG iter. 2 -- res = 0.76822E+06, tol = 0.22465E+01, time = 1.88 | CG iter. 3 -- res = 0.13963E+06, tol = 0.22465E+01, time = 1.80 | CG iter. 4 -- res = 0.54062E+05, tol = 0.22465E+01, time = 1.72 | CG iter. 5 -- res = 0.29261E+05, tol = 0.22465E+01, time = 2.37 | CG iter. 6 -- res = 0.16268E+05, tol = 0.22465E+01, time = 1.67 | CG iter. 7 -- res = 0.68095E+04, tol = 0.22465E+01, time = 1.77 | CG iter. 8 -- res = 0.29448E+04, tol = 0.22465E+01, time = 1.90 | CG iter. 9 -- res = 0.12410E+04, tol = 0.22465E+01, time = 1.71 | CG iter. 10 -- res = 0.50182E+03, tol = 0.22465E+01, time = 1.80 | CG iter. 11 -- res = 0.21024E+03, tol = 0.22465E+01, time = 1.79 | CG iter. 12 -- res = 0.10355E+03, tol = 0.22465E+01, time = 1.86 | CG iter. 13 -- res = 0.54587E+02, tol = 0.22465E+01, time = 1.76 | CG iter. 14 -- res = 0.27151E+02, tol = 0.22465E+01, time = 1.67 | CG iter. 15 -- res = 0.11898E+02, tol = 0.22465E+01, time = 1.74 | CG iter. 16 -- res = 0.49951E+01, tol = 0.22465E+01, time = 1.69 | CG iter. 17 -- res = 0.21935E+01, tol = 0.22465E+01, time = 1.80 | CG iter. 18 -- res = 0.10165E+01, tol = 0.22465E+01, time = 1.73 | CG iter. 19 -- res = 0.48481E+00, tol = 0.22465E+01, time = 1.83 | CG iter. 20 -- res = 0.25108E+00, tol = 0.22465E+01, time = 1.76 | CG iter. 21 -- res = 0.12623E+00, tol = 0.22465E+01, time = 1.91 | CG iter. 22 -- res = 0.56690E-01, tol = 0.22465E+01, time = 1.73 | CG iter. 23 -- res = 0.25593E-01, tol = 0.22465E+01, time = 1.74 | CG iter. 24 -- res = 0.11674E-01, tol = 0.22465E+01, time = 1.74 | CG iter. 25 -- res = 0.56212E-02, tol = 0.22465E+01, time = 1.81 | CG iter. 26 -- res = 0.28988E-02, tol = 0.22465E+01, time = 1.75 | CG iter. 27 -- res = 0.14517E-02, tol = 0.22465E+01, time = 1.89 | CG iter. 28 -- res = 0.69131E-03, tol = 0.22465E+01, time = 1.77 | CG iter. 29 -- res = 0.31125E-03, tol = 0.22465E+01, time = 1.81 | CG iter. 30 -- res = 0.14552E-03, tol = 0.22465E+01, time = 1.83 | CG iter. 31 -- res = 0.69389E-04, tol = 0.22465E+01, time = 1.85 | CG iter. 32 -- res = 0.35704E-04, tol = 0.22465E+01, time = 1.65 | CG iter. 33 -- res = 0.17321E-04, tol = 0.22465E+01, time = 1.74 | CG iter. 34 -- res = 0.84233E-05, tol = 0.22465E+01, time = 1.84 | CG iter. 35 -- res = 0.39465E-05, tol = 0.22465E+01, time = 1.77 | CG iter. 36 -- res = 0.18717E-05, tol = 0.22465E+01, time = 1.77 | CG iter. 37 -- res = 0.86155E-06, tol = 0.22465E+01, time = 1.87 | CG iter. 38 -- res = 0.44507E-06, tol = 0.22465E+01, time = 1.79 | CG iter. 39 -- res = 0.21438E-06, tol = 0.22465E+01, time = 1.79 | CG iter. 40 -- res = 0.10665E-06, tol = 0.22465E+01, time = 1.76 | CG iter. 41 -- res = 0.50243E-07, tol = 0.22465E+01, time = 1.74 | CG iter. 42 -- res = 0.23496E-07, tol = 0.22465E+01, time = 1.86 | CG iter. 43 -- res = 0.10925E-07, tol = 0.22465E+01, time = 1.71 | CG iter. 44 -- res = 0.52173E-08, tol = 0.22465E+01, time = 1.82 | CG iter. 45 -- res = 0.25991E-08, tol = 0.22465E+01, time = 1.74 | CG iter. 46 -- res = 0.12477E-08, tol = 0.22465E+01, time = 1.73 | CG iter. 47 -- res = 0.57869E-09, tol = 0.22465E+01, time = 1.74 | CG iter. 48 -- res = 0.27563E-09, tol = 0.22465E+01, time = 1.81 | CG iter. 49 -- res = 0.12436E-09, tol = 0.22465E+01, time = 1.74 | CG iter. 50 -- res = 0.60128E-10, tol = 0.22465E+01, time = 1.85 | Final CG iter 51 -- res = 0.60128E-10, tol = 0.22465E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.918 4.356 | New value -3.950 | Old value -0.918 | Difference -3.032 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.58 | CG iter. 1 -- res = 0.10296E+05, tol = 0.47627E+18, time = 1.33 | CG iter. 2 -- res = 0.32958E+02, tol = 0.47627E+18, time = 1.36 | CG iter. 3 -- res = 0.11689E+01, tol = 0.47627E+18, time = 1.32 | CG iter. 4 -- res = 0.20956E-02, tol = 0.47627E+18, time = 1.30 | Final CG iter 5 -- res = 0.38527E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9080931.295 | (Sampled value in CG: 9117828.155 ) | CPU time specind = 826.5947 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.68204E+08, tol = 0.57724E+04, time = 7.75 | CG iter. 2 -- res = 0.58840E+08, tol = 0.57724E+04, time = 8.39 | CG iter. 3 -- res = 0.15546E+08, tol = 0.57724E+04, time = 7.91 | CG iter. 4 -- res = 0.65285E+07, tol = 0.57724E+04, time = 8.91 | CG iter. 5 -- res = 0.39128E+07, tol = 0.57724E+04, time = 9.90 | CG iter. 6 -- res = 0.22695E+07, tol = 0.57724E+04, time = 8.61 | CG iter. 7 -- res = 0.13073E+07, tol = 0.57724E+04, time = 8.01 | CG iter. 8 -- res = 0.85932E+06, tol = 0.57724E+04, time = 8.08 | CG iter. 9 -- res = 0.55609E+06, tol = 0.57724E+04, time = 8.19 | CG iter. 10 -- res = 0.33727E+06, tol = 0.57724E+04, time = 8.00 | CG iter. 11 -- res = 0.18332E+06, tol = 0.57724E+04, time = 8.16 | CG iter. 12 -- res = 0.97604E+05, tol = 0.57724E+04, time = 8.07 | CG iter. 13 -- res = 0.54555E+05, tol = 0.57724E+04, time = 7.95 | CG iter. 14 -- res = 0.32153E+05, tol = 0.57724E+04, time = 7.99 | CG iter. 15 -- res = 0.20649E+05, tol = 0.57724E+04, time = 8.03 | CG iter. 16 -- res = 0.14306E+05, tol = 0.57724E+04, time = 8.05 | CG iter. 17 -- res = 0.10578E+05, tol = 0.57724E+04, time = 8.09 | CG iter. 18 -- res = 0.77691E+04, tol = 0.57724E+04, time = 8.06 | CG iter. 19 -- res = 0.55457E+04, tol = 0.57724E+04, time = 8.04 | CG iter. 20 -- res = 0.40525E+04, tol = 0.57724E+04, time = 8.12 | CG iter. 21 -- res = 0.31245E+04, tol = 0.57724E+04, time = 8.00 | CG iter. 22 -- res = 0.27344E+04, tol = 0.57724E+04, time = 8.11 | CG iter. 23 -- res = 0.26923E+04, tol = 0.57724E+04, time = 8.01 | CG iter. 24 -- res = 0.28590E+04, tol = 0.57724E+04, time = 8.07 | CG iter. 25 -- res = 0.29612E+04, tol = 0.57724E+04, time = 8.04 | CG iter. 26 -- res = 0.28110E+04, tol = 0.57724E+04, time = 8.04 | CG iter. 27 -- res = 0.25335E+04, tol = 0.57724E+04, time = 8.05 | CG iter. 28 -- res = 0.21758E+04, tol = 0.57724E+04, time = 7.86 | CG iter. 29 -- res = 0.17756E+04, tol = 0.57724E+04, time = 8.31 | CG iter. 30 -- res = 0.15005E+04, tol = 0.57724E+04, time = 14.86 | CG iter. 31 -- res = 0.12941E+04, tol = 0.57724E+04, time = 8.20 | CG iter. 32 -- res = 0.10899E+04, tol = 0.57724E+04, time = 7.89 | CG iter. 33 -- res = 0.89129E+03, tol = 0.57724E+04, time = 8.11 | CG iter. 34 -- res = 0.72754E+03, tol = 0.57724E+04, time = 7.87 | CG iter. 35 -- res = 0.60553E+03, tol = 0.57724E+04, time = 8.07 | CG iter. 36 -- res = 0.50046E+03, tol = 0.57724E+04, time = 7.91 | CG iter. 37 -- res = 0.44200E+03, tol = 0.57724E+04, time = 8.00 | CG iter. 38 -- res = 0.42749E+03, tol = 0.57724E+04, time = 8.10 | CG iter. 39 -- res = 0.42262E+03, tol = 0.57724E+04, time = 8.05 | CG iter. 40 -- res = 0.39303E+03, tol = 0.57724E+04, time = 8.05 | CG iter. 41 -- res = 0.34546E+03, tol = 0.57724E+04, time = 9.80 | CG iter. 42 -- res = 0.28856E+03, tol = 0.57724E+04, time = 8.41 | CG iter. 43 -- res = 0.25029E+03, tol = 0.57724E+04, time = 8.14 | CG iter. 44 -- res = 0.22605E+03, tol = 0.57724E+04, time = 8.10 | CG iter. 45 -- res = 0.20337E+03, tol = 0.57724E+04, time = 8.03 | CG iter. 46 -- res = 0.18283E+03, tol = 0.57724E+04, time = 8.11 | CG iter. 47 -- res = 0.16098E+03, tol = 0.57724E+04, time = 7.98 | CG iter. 48 -- res = 0.13920E+03, tol = 0.57724E+04, time = 8.06 | CG iter. 49 -- res = 0.11791E+03, tol = 0.57724E+04, time = 8.05 | CG iter. 50 -- res = 0.10328E+03, tol = 0.57724E+04, time = 8.18 | CG iter. 51 -- res = 0.96170E+02, tol = 0.57724E+04, time = 7.94 | CG iter. 52 -- res = 0.91213E+02, tol = 0.57724E+04, time = 8.02 | CG iter. 53 -- res = 0.88784E+02, tol = 0.57724E+04, time = 8.28 | CG iter. 54 -- res = 0.86363E+02, tol = 0.57724E+04, time = 8.70 | CG iter. 55 -- res = 0.83470E+02, tol = 0.57724E+04, time = 8.17 | CG iter. 56 -- res = 0.74877E+02, tol = 0.57724E+04, time = 8.04 | CG iter. 57 -- res = 0.66053E+02, tol = 0.57724E+04, time = 7.91 | CG iter. 58 -- res = 0.58919E+02, tol = 0.57724E+04, time = 8.18 | CG iter. 59 -- res = 0.54424E+02, tol = 0.57724E+04, time = 7.94 | CG iter. 60 -- res = 0.51574E+02, tol = 0.57724E+04, time = 8.23 | Final CG iter 61 -- res = 0.51574E+02, tol = 0.57724E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.875 ( -229.987 -2230.591 2513.167 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7424972.622 | Old band monopole 9080970.354 | Change to band monopole -1655997.732 | Change to component monopole 1655990.609 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.589 2.721 | New value 2.561 | Old value 2.589 | Difference -0.028 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.383 ( 6.855 11.848 -12.152 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.612 3.901 | New value -3.631 | Old value 0.612 | Difference -4.243 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.76471E+05, tol = 0.47627E+18, time = 1.33 | CG iter. 2 -- res = 0.51411E+02, tol = 0.47627E+18, time = 1.30 | CG iter. 3 -- res = 0.23440E+01, tol = 0.47627E+18, time = 1.37 | CG iter. 4 -- res = 0.40416E-02, tol = 0.47627E+18, time = 1.32 | Final CG iter 5 -- res = 0.46659E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7424940.686 | (Sampled value in CG: 7401116.013 ) | Chain = 1 -- chisq = 0.81503928E+09 | Chain = 1 -- wall time = 5628.991 sec Available RAM: MemAvailable: 367706184 kB Available Swap: SwapFree: 1465209256 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 153 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442100 | --> Sampling calibration, mode = relcal | relcal = 1.3420622E-02 7.4227981E-04 -1.5846243E-03 -1.2578278E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1223440 0.1340892 97035316.4399478 | BP delta = 0.1309787 0.1427238 97035323.4296237 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632519 | --> Sampling calibration, mode = relcal | relcal = -2.8211016E-03 -7.0384750E-04 1.6794484E-03 1.6141116E-03 -4.0861708E-04 6.4000615E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.6043218 15218686.4601917 | BP delta = 0.0000000E+00 -0.6018711 15218686.4963307 | BP chisq diff = 0.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18312902813845 | --> Sampling calibration, mode = relcal | relcal = -7.6033711E-02 -5.9163615E-02 9.2968494E-02 4.2228833E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6717875E-04 5.6083854E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8566E-05 | 2: delta_r/delta_0: 1.4520E-06 | 3: delta_s/delta_0: 2.0206E-07 | 4: delta_r/delta_0: 2.5904E-08 | 5: delta_s/delta_0: 6.9926E-09 | 6: delta_r/delta_0: 2.5553E-09 | 7: delta_s/delta_0: 7.0506E-10 | 8: delta_r/delta_0: 2.0530E-10 | 9: delta_s/delta_0: 1.3410E-10 | 10: delta_r/delta_0: 6.1899E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.300086134889912E-003 2.736000119212809E-005 | BP delta = 5.0183679E-03 1.9329745E-02 50482529.8088430 | BP delta = 3.1981955E-03 1.7509572E-02 50482533.2209779 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02590194 | --> Sampling calibration, mode = relcal | relcal = -0.1066836 -9.5555656E-02 0.1449943 5.7245012E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4155283E-03 1.2787150E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3982E-05 | 2: delta_r/delta_0: 1.5648E-06 | 3: delta_s/delta_0: 2.5052E-07 | 4: delta_r/delta_0: 3.3679E-08 | 5: delta_s/delta_0: 2.7945E-08 | 6: delta_r/delta_0: 6.2902E-09 | 7: delta_s/delta_0: 4.0922E-09 | 8: delta_r/delta_0: 1.8628E-09 | 9: delta_s/delta_0: 8.3495E-10 | 10: delta_r/delta_0: 6.2640E-10 | 11: delta_s/delta_0: 1.2089E-09 | 12: delta_r/delta_0: 1.1796E-10 | 13: delta_s/delta_0: 1.0463E-10 | 14: delta_r/delta_0: 2.0683E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.016413121055249E-002 2.811105208492903E-005 | BP delta = -0.2826099 -0.2563536 57395996.7796831 | BP delta = -0.2820474 -0.2557912 57395996.7627335 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243304 | --> Sampling calibration, mode = relcal | relcal = 0.2954585 0.2249873 -0.2838576 -0.2365882 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.5138295E-04 5.5430741E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0151E-03 | 2: delta_r/delta_0: 9.5342E-05 | 3: delta_s/delta_0: 2.3087E-05 | 4: delta_r/delta_0: 1.0906E-06 | 5: delta_s/delta_0: 1.3388E-06 | 6: delta_r/delta_0: 4.8558E-07 | 7: delta_s/delta_0: 1.0346E-07 | 8: delta_r/delta_0: 7.2237E-08 | 9: delta_s/delta_0: 4.6509E-07 | 10: delta_r/delta_0: 7.0592E-09 | 11: delta_s/delta_0: 5.4084E-09 | 12: delta_r/delta_0: 2.0184E-09 | 13: delta_s/delta_0: 2.3388E-10 | 14: delta_r/delta_0: 1.6213E-10 | 15: delta_s/delta_0: 1.8359E-10 | 16: delta_r/delta_0: 1.3449E-10 | 17: delta_s/delta_0: 3.1045E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.931102504309230E-002 4.020669804467749E-005 | BP delta = -0.1843641 -0.2022394 72490650.9917383 | BP delta = -0.1477308 -0.1656062 72490650.7152991 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95929748 | --> Sampling calibration, mode = relcal | relcal = 0.1065154 0.1395615 -0.1102648 -0.1358121 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0987291E-03 1.3674300E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9394E-04 | 2: delta_r/delta_0: 7.3657E-06 | 3: delta_s/delta_0: 2.4919E-06 | 4: delta_r/delta_0: 4.1354E-07 | 5: delta_s/delta_0: 3.7241E-05 | 6: delta_r/delta_0: 4.5300E-06 | 7: delta_s/delta_0: 6.2288E-08 | 8: delta_r/delta_0: 2.8194E-08 | 9: delta_s/delta_0: 1.8173E-07 | 10: delta_r/delta_0: 2.5586E-08 | 11: delta_s/delta_0: 4.5611E-08 | 12: delta_r/delta_0: 1.4673E-09 | 13: delta_s/delta_0: 5.6695E-10 | 14: delta_r/delta_0: 1.2201E-10 | 15: delta_s/delta_0: 2.7075E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.052187563268540E-002 3.696658159874104E-005 | BP delta = 1.6453285E-02 0.1183343 72767779.5836116 | BP delta = -2.6584705E-02 7.5296320E-02 72767783.2583096 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.099065 | New value = -3.117121 | poltype: 2 pol: 1 CPU time specind = 4.2638779E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.058536 | New value = -3.173284 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218499 | New value = -3.226531 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136183 | New value = -3.138461 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143977 | New value = -3.091372 | poltype: 2 pol: 2 CPU time specind = 4.2390823E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.13560E+08, tol = 0.92051E+01, time = 3.80 | CG iter. 2 -- res = 0.34179E+06, tol = 0.92051E+01, time = 3.83 | CG iter. 3 -- res = 0.49311E+05, tol = 0.92051E+01, time = 4.25 | CG iter. 4 -- res = 0.22271E+05, tol = 0.92051E+01, time = 5.13 | CG iter. 5 -- res = 0.11884E+05, tol = 0.92051E+01, time = 4.05 | CG iter. 6 -- res = 0.69431E+04, tol = 0.92051E+01, time = 4.16 | CG iter. 7 -- res = 0.55868E+04, tol = 0.92051E+01, time = 3.85 | CG iter. 8 -- res = 0.42682E+04, tol = 0.92051E+01, time = 3.91 | CG iter. 9 -- res = 0.38192E+04, tol = 0.92051E+01, time = 3.74 | CG iter. 10 -- res = 0.37541E+04, tol = 0.92051E+01, time = 3.90 | CG iter. 11 -- res = 0.33350E+04, tol = 0.92051E+01, time = 3.81 | CG iter. 12 -- res = 0.22435E+04, tol = 0.92051E+01, time = 3.83 | CG iter. 13 -- res = 0.14830E+04, tol = 0.92051E+01, time = 3.86 | CG iter. 14 -- res = 0.10900E+04, tol = 0.92051E+01, time = 3.76 | CG iter. 15 -- res = 0.93586E+03, tol = 0.92051E+01, time = 3.83 | CG iter. 16 -- res = 0.78015E+03, tol = 0.92051E+01, time = 3.91 | CG iter. 17 -- res = 0.59346E+03, tol = 0.92051E+01, time = 3.89 | CG iter. 18 -- res = 0.43113E+03, tol = 0.92051E+01, time = 3.72 | CG iter. 19 -- res = 0.36502E+03, tol = 0.92051E+01, time = 3.90 | CG iter. 20 -- res = 0.29504E+03, tol = 0.92051E+01, time = 3.90 | CG iter. 21 -- res = 0.20055E+03, tol = 0.92051E+01, time = 3.86 | CG iter. 22 -- res = 0.13732E+03, tol = 0.92051E+01, time = 3.83 | CG iter. 23 -- res = 0.10743E+03, tol = 0.92051E+01, time = 3.89 | CG iter. 24 -- res = 0.92248E+02, tol = 0.92051E+01, time = 3.82 | CG iter. 25 -- res = 0.70075E+02, tol = 0.92051E+01, time = 3.85 | CG iter. 26 -- res = 0.47963E+02, tol = 0.92051E+01, time = 3.89 | CG iter. 27 -- res = 0.35849E+02, tol = 0.92051E+01, time = 3.92 | CG iter. 28 -- res = 0.29955E+02, tol = 0.92051E+01, time = 3.81 | CG iter. 29 -- res = 0.24520E+02, tol = 0.92051E+01, time = 3.79 | CG iter. 30 -- res = 0.18692E+02, tol = 0.92051E+01, time = 3.91 | CG iter. 31 -- res = 0.15536E+02, tol = 0.92051E+01, time = 3.76 | CG iter. 32 -- res = 0.13207E+02, tol = 0.92051E+01, time = 3.84 | CG iter. 33 -- res = 0.11503E+02, tol = 0.92051E+01, time = 3.85 | CG iter. 34 -- res = 0.92904E+01, tol = 0.92051E+01, time = 3.73 | CG iter. 35 -- res = 0.72168E+01, tol = 0.92051E+01, time = 3.99 | CG iter. 36 -- res = 0.63043E+01, tol = 0.92051E+01, time = 4.06 | CG iter. 37 -- res = 0.55018E+01, tol = 0.92051E+01, time = 3.81 | CG iter. 38 -- res = 0.44437E+01, tol = 0.92051E+01, time = 3.79 | CG iter. 39 -- res = 0.33993E+01, tol = 0.92051E+01, time = 3.86 | CG iter. 40 -- res = 0.27655E+01, tol = 0.92051E+01, time = 3.75 | CG iter. 41 -- res = 0.22868E+01, tol = 0.92051E+01, time = 3.95 | CG iter. 42 -- res = 0.18142E+01, tol = 0.92051E+01, time = 3.77 | CG iter. 43 -- res = 0.13726E+01, tol = 0.92051E+01, time = 3.88 | CG iter. 44 -- res = 0.10685E+01, tol = 0.92051E+01, time = 3.86 | CG iter. 45 -- res = 0.83573E+00, tol = 0.92051E+01, time = 3.82 | CG iter. 46 -- res = 0.68331E+00, tol = 0.92051E+01, time = 3.81 | CG iter. 47 -- res = 0.53577E+00, tol = 0.92051E+01, time = 3.92 | CG iter. 48 -- res = 0.41290E+00, tol = 0.92051E+01, time = 3.85 | CG iter. 49 -- res = 0.32623E+00, tol = 0.92051E+01, time = 3.94 | CG iter. 50 -- res = 0.27224E+00, tol = 0.92051E+01, time = 3.82 | Final CG iter 51 -- res = 0.27224E+00, tol = 0.92051E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8520739.312 | Old band monopole 7424972.622 | Change to band monopole 1095766.689 | Change to component monopole -1095761.976 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.12182E+06, tol = 0.47627E+18, time = 1.33 | CG iter. 2 -- res = 0.49217E+02, tol = 0.47627E+18, time = 1.36 | CG iter. 3 -- res = 0.20222E+01, tol = 0.47627E+18, time = 1.31 | CG iter. 4 -- res = 0.48812E-02, tol = 0.47627E+18, time = 1.23 | Final CG iter 5 -- res = 0.96406E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8520702.662 | (Sampled value in CG: 8491412.898 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.511954 | New value = 1.552108 | poltype: 2 pol: 1 CPU time specind = 8.1579685E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.514112 | New value = 1.515102 | poltype: 2 pol: 2 CPU time specind = 3.9110184E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.24361E+08, tol = 0.47699E+04, time = 4.36 | CG iter. 2 -- res = 0.53219E+07, tol = 0.47699E+04, time = 4.32 | CG iter. 3 -- res = 0.85682E+06, tol = 0.47699E+04, time = 4.54 | CG iter. 4 -- res = 0.35466E+06, tol = 0.47699E+04, time = 6.14 | CG iter. 5 -- res = 0.15439E+06, tol = 0.47699E+04, time = 4.73 | CG iter. 6 -- res = 0.82404E+05, tol = 0.47699E+04, time = 4.75 | CG iter. 7 -- res = 0.44242E+05, tol = 0.47699E+04, time = 4.44 | CG iter. 8 -- res = 0.21397E+05, tol = 0.47699E+04, time = 4.61 | CG iter. 9 -- res = 0.93959E+04, tol = 0.47699E+04, time = 4.37 | CG iter. 10 -- res = 0.38025E+04, tol = 0.47699E+04, time = 4.40 | CG iter. 11 -- res = 0.17401E+04, tol = 0.47699E+04, time = 4.56 | CG iter. 12 -- res = 0.90729E+03, tol = 0.47699E+04, time = 4.38 | CG iter. 13 -- res = 0.51636E+03, tol = 0.47699E+04, time = 4.40 | CG iter. 14 -- res = 0.28926E+03, tol = 0.47699E+04, time = 4.33 | CG iter. 15 -- res = 0.14545E+03, tol = 0.47699E+04, time = 4.54 | CG iter. 16 -- res = 0.69821E+02, tol = 0.47699E+04, time = 4.34 | CG iter. 17 -- res = 0.31993E+02, tol = 0.47699E+04, time = 4.40 | CG iter. 18 -- res = 0.15581E+02, tol = 0.47699E+04, time = 4.33 | CG iter. 19 -- res = 0.85313E+01, tol = 0.47699E+04, time = 4.49 | CG iter. 20 -- res = 0.47727E+01, tol = 0.47699E+04, time = 4.46 | CG iter. 21 -- res = 0.26412E+01, tol = 0.47699E+04, time = 4.42 | CG iter. 22 -- res = 0.13553E+01, tol = 0.47699E+04, time = 4.48 | CG iter. 23 -- res = 0.69061E+00, tol = 0.47699E+04, time = 4.50 | CG iter. 24 -- res = 0.35965E+00, tol = 0.47699E+04, time = 4.47 | CG iter. 25 -- res = 0.19641E+00, tol = 0.47699E+04, time = 4.37 | CG iter. 26 -- res = 0.10966E+00, tol = 0.47699E+04, time = 4.38 | CG iter. 27 -- res = 0.61617E-01, tol = 0.47699E+04, time = 4.33 | CG iter. 28 -- res = 0.32936E-01, tol = 0.47699E+04, time = 5.20 | CG iter. 29 -- res = 0.17102E-01, tol = 0.47699E+04, time = 4.48 | CG iter. 30 -- res = 0.90529E-02, tol = 0.47699E+04, time = 4.37 | CG iter. 31 -- res = 0.49312E-02, tol = 0.47699E+04, time = 4.36 | CG iter. 32 -- res = 0.28354E-02, tol = 0.47699E+04, time = 4.39 | CG iter. 33 -- res = 0.16181E-02, tol = 0.47699E+04, time = 4.59 | CG iter. 34 -- res = 0.87707E-03, tol = 0.47699E+04, time = 4.45 | CG iter. 35 -- res = 0.45664E-03, tol = 0.47699E+04, time = 4.47 | Final CG iter 36 -- res = 0.45664E-03, tol = 0.47699E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.599 2.756 | New value -3.598 | Old value 2.599 | Difference -6.197 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.19905E+07, tol = 0.47627E+18, time = 1.33 | CG iter. 2 -- res = 0.30232E+02, tol = 0.47627E+18, time = 1.37 | CG iter. 3 -- res = 0.94719E+00, tol = 0.47627E+18, time = 1.31 | CG iter. 4 -- res = 0.16455E-02, tol = 0.47627E+18, time = 1.37 | Final CG iter 5 -- res = 0.24189E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8520702.662 | (Sampled value in CG: 8492428.970 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.608673 | New value = -3.436243 | poltype: 1 pol: 1 CPU time specind = 1.4602900E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.21892E+07, tol = 0.24982E+01, time = 1.95 | CG iter. 2 -- res = 0.96725E+06, tol = 0.24982E+01, time = 1.68 | CG iter. 3 -- res = 0.18413E+06, tol = 0.24982E+01, time = 1.92 | CG iter. 4 -- res = 0.65818E+05, tol = 0.24982E+01, time = 1.80 | CG iter. 5 -- res = 0.33534E+05, tol = 0.24982E+01, time = 1.80 | CG iter. 6 -- res = 0.18064E+05, tol = 0.24982E+01, time = 1.63 | CG iter. 7 -- res = 0.79123E+04, tol = 0.24982E+01, time = 1.73 | CG iter. 8 -- res = 0.38647E+04, tol = 0.24982E+01, time = 1.81 | CG iter. 9 -- res = 0.18425E+04, tol = 0.24982E+01, time = 1.89 | CG iter. 10 -- res = 0.75938E+03, tol = 0.24982E+01, time = 1.76 | CG iter. 11 -- res = 0.30800E+03, tol = 0.24982E+01, time = 1.77 | CG iter. 12 -- res = 0.13754E+03, tol = 0.24982E+01, time = 1.76 | CG iter. 13 -- res = 0.62628E+02, tol = 0.24982E+01, time = 1.75 | CG iter. 14 -- res = 0.32377E+02, tol = 0.24982E+01, time = 1.81 | CG iter. 15 -- res = 0.16427E+02, tol = 0.24982E+01, time = 1.74 | CG iter. 16 -- res = 0.79061E+01, tol = 0.24982E+01, time = 1.71 | CG iter. 17 -- res = 0.32969E+01, tol = 0.24982E+01, time = 1.82 | CG iter. 18 -- res = 0.14224E+01, tol = 0.24982E+01, time = 1.83 | CG iter. 19 -- res = 0.64736E+00, tol = 0.24982E+01, time = 1.78 | CG iter. 20 -- res = 0.32816E+00, tol = 0.24982E+01, time = 1.86 | CG iter. 21 -- res = 0.17389E+00, tol = 0.24982E+01, time = 1.73 | CG iter. 22 -- res = 0.88544E-01, tol = 0.24982E+01, time = 1.69 | CG iter. 23 -- res = 0.42131E-01, tol = 0.24982E+01, time = 1.83 | CG iter. 24 -- res = 0.19306E-01, tol = 0.24982E+01, time = 1.76 | CG iter. 25 -- res = 0.90069E-02, tol = 0.24982E+01, time = 1.73 | CG iter. 26 -- res = 0.42434E-02, tol = 0.24982E+01, time = 1.86 | CG iter. 27 -- res = 0.20500E-02, tol = 0.24982E+01, time = 1.77 | CG iter. 28 -- res = 0.10953E-02, tol = 0.24982E+01, time = 1.77 | CG iter. 29 -- res = 0.55897E-03, tol = 0.24982E+01, time = 1.76 | CG iter. 30 -- res = 0.26627E-03, tol = 0.24982E+01, time = 1.85 | CG iter. 31 -- res = 0.12437E-03, tol = 0.24982E+01, time = 1.68 | CG iter. 32 -- res = 0.56562E-04, tol = 0.24982E+01, time = 1.81 | CG iter. 33 -- res = 0.26917E-04, tol = 0.24982E+01, time = 1.87 | CG iter. 34 -- res = 0.14110E-04, tol = 0.24982E+01, time = 1.77 | CG iter. 35 -- res = 0.69642E-05, tol = 0.24982E+01, time = 1.72 | CG iter. 36 -- res = 0.35306E-05, tol = 0.24982E+01, time = 1.69 | CG iter. 37 -- res = 0.16712E-05, tol = 0.24982E+01, time = 1.79 | CG iter. 38 -- res = 0.77259E-06, tol = 0.24982E+01, time = 1.87 | CG iter. 39 -- res = 0.35765E-06, tol = 0.24982E+01, time = 1.67 | CG iter. 40 -- res = 0.17091E-06, tol = 0.24982E+01, time = 1.97 | CG iter. 41 -- res = 0.88538E-07, tol = 0.24982E+01, time = 1.65 | CG iter. 42 -- res = 0.45008E-07, tol = 0.24982E+01, time = 2.10 | CG iter. 43 -- res = 0.21387E-07, tol = 0.24982E+01, time = 1.86 | CG iter. 44 -- res = 0.97459E-08, tol = 0.24982E+01, time = 1.81 | CG iter. 45 -- res = 0.46314E-08, tol = 0.24982E+01, time = 1.75 | CG iter. 46 -- res = 0.21446E-08, tol = 0.24982E+01, time = 1.76 | CG iter. 47 -- res = 0.10948E-08, tol = 0.24982E+01, time = 1.71 | CG iter. 48 -- res = 0.54825E-09, tol = 0.24982E+01, time = 1.87 | CG iter. 49 -- res = 0.26696E-09, tol = 0.24982E+01, time = 1.79 | CG iter. 50 -- res = 0.12463E-09, tol = 0.24982E+01, time = 1.77 | Final CG iter 51 -- res = 0.12463E-09, tol = 0.24982E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.658 4.331 | New value 4.286 | Old value -5.658 | Difference 9.944 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.10261E+06, tol = 0.47627E+18, time = 1.35 | CG iter. 2 -- res = 0.43426E+02, tol = 0.47627E+18, time = 1.32 | CG iter. 3 -- res = 0.19979E+01, tol = 0.47627E+18, time = 1.33 | CG iter. 4 -- res = 0.20134E-02, tol = 0.47627E+18, time = 1.40 | Final CG iter 5 -- res = 0.22101E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8520702.662 | (Sampled value in CG: 8503096.344 ) | CPU time specind = 827.4386 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.69084E+08, tol = 0.57609E+04, time = 7.77 | CG iter. 2 -- res = 0.58804E+08, tol = 0.57609E+04, time = 14.29 | CG iter. 3 -- res = 0.15420E+08, tol = 0.57609E+04, time = 8.06 | CG iter. 4 -- res = 0.65101E+07, tol = 0.57609E+04, time = 8.26 | CG iter. 5 -- res = 0.38696E+07, tol = 0.57609E+04, time = 7.97 | CG iter. 6 -- res = 0.22765E+07, tol = 0.57609E+04, time = 8.33 | CG iter. 7 -- res = 0.13459E+07, tol = 0.57609E+04, time = 8.07 | CG iter. 8 -- res = 0.88966E+06, tol = 0.57609E+04, time = 8.11 | CG iter. 9 -- res = 0.57092E+06, tol = 0.57609E+04, time = 8.10 | CG iter. 10 -- res = 0.33930E+06, tol = 0.57609E+04, time = 8.03 | CG iter. 11 -- res = 0.18632E+06, tol = 0.57609E+04, time = 8.05 | CG iter. 12 -- res = 0.99800E+05, tol = 0.57609E+04, time = 9.90 | CG iter. 13 -- res = 0.53241E+05, tol = 0.57609E+04, time = 8.74 | CG iter. 14 -- res = 0.30155E+05, tol = 0.57609E+04, time = 8.01 | CG iter. 15 -- res = 0.19466E+05, tol = 0.57609E+04, time = 8.11 | CG iter. 16 -- res = 0.13719E+05, tol = 0.57609E+04, time = 8.15 | CG iter. 17 -- res = 0.10164E+05, tol = 0.57609E+04, time = 7.80 | CG iter. 18 -- res = 0.75380E+04, tol = 0.57609E+04, time = 8.09 | CG iter. 19 -- res = 0.53911E+04, tol = 0.57609E+04, time = 8.09 | CG iter. 20 -- res = 0.38827E+04, tol = 0.57609E+04, time = 8.13 | CG iter. 21 -- res = 0.30267E+04, tol = 0.57609E+04, time = 8.00 | CG iter. 22 -- res = 0.27281E+04, tol = 0.57609E+04, time = 8.08 | CG iter. 23 -- res = 0.28160E+04, tol = 0.57609E+04, time = 8.00 | CG iter. 24 -- res = 0.31160E+04, tol = 0.57609E+04, time = 8.24 | CG iter. 25 -- res = 0.33712E+04, tol = 0.57609E+04, time = 8.78 | CG iter. 26 -- res = 0.33660E+04, tol = 0.57609E+04, time = 8.01 | CG iter. 27 -- res = 0.30732E+04, tol = 0.57609E+04, time = 8.27 | CG iter. 28 -- res = 0.26514E+04, tol = 0.57609E+04, time = 7.89 | CG iter. 29 -- res = 0.22623E+04, tol = 0.57609E+04, time = 8.20 | CG iter. 30 -- res = 0.19728E+04, tol = 0.57609E+04, time = 8.03 | CG iter. 31 -- res = 0.17777E+04, tol = 0.57609E+04, time = 8.02 | CG iter. 32 -- res = 0.15877E+04, tol = 0.57609E+04, time = 8.05 | CG iter. 33 -- res = 0.13109E+04, tol = 0.57609E+04, time = 7.90 | CG iter. 34 -- res = 0.10138E+04, tol = 0.57609E+04, time = 8.16 | CG iter. 35 -- res = 0.78643E+03, tol = 0.57609E+04, time = 7.87 | CG iter. 36 -- res = 0.64224E+03, tol = 0.57609E+04, time = 8.18 | CG iter. 37 -- res = 0.58345E+03, tol = 0.57609E+04, time = 8.07 | CG iter. 38 -- res = 0.57141E+03, tol = 0.57609E+04, time = 14.62 | CG iter. 39 -- res = 0.55440E+03, tol = 0.57609E+04, time = 7.93 | CG iter. 40 -- res = 0.51718E+03, tol = 0.57609E+04, time = 8.25 | CG iter. 41 -- res = 0.46637E+03, tol = 0.57609E+04, time = 7.93 | CG iter. 42 -- res = 0.39892E+03, tol = 0.57609E+04, time = 7.99 | CG iter. 43 -- res = 0.34352E+03, tol = 0.57609E+04, time = 8.16 | CG iter. 44 -- res = 0.30435E+03, tol = 0.57609E+04, time = 7.83 | CG iter. 45 -- res = 0.26957E+03, tol = 0.57609E+04, time = 8.42 | CG iter. 46 -- res = 0.23915E+03, tol = 0.57609E+04, time = 8.16 | CG iter. 47 -- res = 0.21263E+03, tol = 0.57609E+04, time = 8.36 | CG iter. 48 -- res = 0.17870E+03, tol = 0.57609E+04, time = 9.37 | CG iter. 49 -- res = 0.14454E+03, tol = 0.57609E+04, time = 9.99 | CG iter. 50 -- res = 0.12064E+03, tol = 0.57609E+04, time = 8.12 | CG iter. 51 -- res = 0.10636E+03, tol = 0.57609E+04, time = 8.10 | CG iter. 52 -- res = 0.99185E+02, tol = 0.57609E+04, time = 8.11 | CG iter. 53 -- res = 0.95991E+02, tol = 0.57609E+04, time = 7.94 | CG iter. 54 -- res = 0.93178E+02, tol = 0.57609E+04, time = 8.19 | CG iter. 55 -- res = 0.87668E+02, tol = 0.57609E+04, time = 8.00 | CG iter. 56 -- res = 0.80424E+02, tol = 0.57609E+04, time = 8.10 | CG iter. 57 -- res = 0.71538E+02, tol = 0.57609E+04, time = 8.04 | CG iter. 58 -- res = 0.65435E+02, tol = 0.57609E+04, time = 8.23 | CG iter. 59 -- res = 0.62572E+02, tol = 0.57609E+04, time = 7.94 | CG iter. 60 -- res = 0.60344E+02, tol = 0.57609E+04, time = 8.12 | Final CG iter 61 -- res = 0.60344E+02, tol = 0.57609E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.936 ( -229.714 -2228.679 2511.167 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9467228.158 | Old band monopole 8520739.312 | Change to band monopole 946488.846 | Change to component monopole -946484.775 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.626 2.753 | New value -3.502 | Old value -3.626 | Difference 0.123 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.133 ( 5.943 8.299 -8.336 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.259 5.930 | New value -2.387 | Old value 4.259 | Difference -6.646 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.58688E+05, tol = 0.47627E+18, time = 1.27 | CG iter. 2 -- res = 0.34055E+02, tol = 0.47627E+18, time = 1.38 | CG iter. 3 -- res = 0.14363E+01, tol = 0.47627E+18, time = 1.27 | CG iter. 4 -- res = 0.18703E-02, tol = 0.47627E+18, time = 1.34 | Final CG iter 5 -- res = 0.64295E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9467187.437 | (Sampled value in CG: 9449627.428 ) | Chain = 1 -- chisq = 0.81529772E+09 | Chain = 1 -- wall time = 5036.796 sec Available RAM: MemAvailable: 367989420 kB Available Swap: SwapFree: 1465144220 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 154 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444217 | --> Sampling calibration, mode = relcal | relcal = 1.3427631E-02 7.4425846E-04 -1.5935610E-03 -1.2578329E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1223440 0.1340892 9406537.27987726 | BP delta = 0.1223440 0.1298419 9406538.02754714 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632420 | --> Sampling calibration, mode = relcal | relcal = -2.8211046E-03 -7.0329983E-04 1.6787242E-03 1.6140273E-03 -4.0869281E-04 6.4034585E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.6018711 15219418.4689108 | BP delta = 0.0000000E+00 -0.6000569 15219425.3211665 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17857429612093 | --> Sampling calibration, mode = relcal | relcal = -7.3878393E-02 -5.7627019E-02 9.0666763E-02 4.0838651E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6066811E-04 3.2400412E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.2284E-01 | 2: delta_r/delta_0: 2.0768E-02 | 3: delta_s/delta_0: 1.9285E-07 | 4: delta_r/delta_0: 2.4149E-08 | 5: delta_s/delta_0: 8.4004E-09 | 6: delta_r/delta_0: 1.1032E-09 | 7: delta_s/delta_0: 7.7467E-09 | 8: delta_r/delta_0: 1.5044E-10 | 9: delta_s/delta_0: 5.6376E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.061961698475675E-003 2.746858655961364E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.1202E-01 | 2: delta_r/delta_0: 2.0527E-02 | 3: delta_s/delta_0: 1.9285E-07 | 4: delta_r/delta_0: 2.4150E-08 | 5: delta_s/delta_0: 8.4006E-09 | 6: delta_r/delta_0: 1.1032E-09 | 7: delta_s/delta_0: 7.7469E-09 | 8: delta_r/delta_0: 1.5042E-10 | 9: delta_s/delta_0: 5.6377E-11 | Reached bicg-stab tolerance | BP delta = 5.0183679E-03 1.9329745E-02 3715697.62811246 | BP delta = 5.0183679E-03 1.9637946E-02 3710989.42447289 | BP chisq diff = -4708.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02570246 | --> Sampling calibration, mode = relcal | relcal = -0.1066314 -9.5537387E-02 0.1448715 5.7297304E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3606752E-03 1.2651292E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7423E-05 | 2: delta_r/delta_0: 1.2987E-06 | 3: delta_s/delta_0: 2.4289E-07 | 4: delta_r/delta_0: 5.3133E-08 | 5: delta_s/delta_0: 2.0869E-08 | 6: delta_r/delta_0: 7.3916E-09 | 7: delta_s/delta_0: 1.2295E-08 | 8: delta_r/delta_0: 1.2163E-09 | 9: delta_s/delta_0: 1.0519E-09 | 10: delta_r/delta_0: 2.0403E-10 | 11: delta_s/delta_0: 2.1499E-09 | 12: delta_r/delta_0: 3.5314E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.764121723034114E-003 2.811639547965217E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.7424E-05 | 2: delta_r/delta_0: 1.2988E-06 | 3: delta_s/delta_0: 2.4291E-07 | 4: delta_r/delta_0: 5.3157E-08 | 5: delta_s/delta_0: 2.0860E-08 | 6: delta_r/delta_0: 7.3930E-09 | 7: delta_s/delta_0: 1.2294E-08 | 8: delta_r/delta_0: 1.2165E-09 | 9: delta_s/delta_0: 1.0521E-09 | 10: delta_r/delta_0: 2.0394E-10 | 11: delta_s/delta_0: 2.1505E-09 | 12: delta_r/delta_0: 3.5282E-11 | Reached bicg-stab tolerance | BP delta = -0.2820474 -0.2557912 2841193.35447892 | BP delta = -0.2820474 -0.2569710 2841225.70169226 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215444 | --> Sampling calibration, mode = relcal | relcal = 0.2954725 0.2248777 -0.2837519 -0.2365983 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.5835991E-04 4.9302308E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7174E-03 | 2: delta_r/delta_0: 6.4605E-05 | 3: delta_s/delta_0: 3.4753E-04 | 4: delta_r/delta_0: 1.4881E-05 | 5: delta_s/delta_0: 6.0863E-07 | 6: delta_r/delta_0: 2.1642E-07 | 7: delta_s/delta_0: 4.7968E-07 | 8: delta_r/delta_0: 5.0557E-08 | 9: delta_s/delta_0: 2.4234E-07 | 10: delta_r/delta_0: 4.9010E-08 | 11: delta_s/delta_0: 2.7646E-09 | 12: delta_r/delta_0: 1.1902E-09 | 13: delta_s/delta_0: 3.2389E-09 | 14: delta_r/delta_0: 2.5905E-10 | 15: delta_s/delta_0: 7.7192E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.815939305727996E-002 4.022185069544021E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7158E-03 | 2: delta_r/delta_0: 6.4568E-05 | 3: delta_s/delta_0: 3.4731E-04 | 4: delta_r/delta_0: 1.4872E-05 | 5: delta_s/delta_0: 6.0848E-07 | 6: delta_r/delta_0: 2.1642E-07 | 7: delta_s/delta_0: 4.8047E-07 | 8: delta_r/delta_0: 5.0552E-08 | 9: delta_s/delta_0: 2.4266E-07 | 10: delta_r/delta_0: 4.9152E-08 | 11: delta_s/delta_0: 2.7644E-09 | 12: delta_r/delta_0: 1.1899E-09 | 13: delta_s/delta_0: 3.2415E-09 | 14: delta_r/delta_0: 2.5919E-10 | 15: delta_s/delta_0: 7.7182E-11 | Reached bicg-stab tolerance | BP delta = -0.1477308 -0.1656062 2827297.02524692 | BP delta = -0.1477308 -0.1574989 2827296.94916968 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95898879 | --> Sampling calibration, mode = relcal | relcal = 0.1063678 0.1395608 -0.1100780 -0.1358506 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0251065E-02 1.2621330E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5680E-04 | 2: delta_r/delta_0: 4.2664E-06 | 3: delta_s/delta_0: 1.0832E-04 | 4: delta_r/delta_0: 8.0866E-06 | 5: delta_s/delta_0: 1.6676E-07 | 6: delta_r/delta_0: 9.3635E-08 | 7: delta_s/delta_0: 5.8742E-07 | 8: delta_r/delta_0: 2.2161E-08 | 9: delta_s/delta_0: 1.0872E-06 | 10: delta_r/delta_0: 1.6759E-07 | 11: delta_s/delta_0: 7.5231E-10 | 12: delta_r/delta_0: 5.8002E-10 | 13: delta_s/delta_0: 7.9093E-10 | 14: delta_r/delta_0: 1.3503E-10 | 15: delta_s/delta_0: 4.9268E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.875645267867475E-002 3.697804100560414E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5680E-04 | 2: delta_r/delta_0: 4.2664E-06 | 3: delta_s/delta_0: 1.0832E-04 | 4: delta_r/delta_0: 8.0865E-06 | 5: delta_s/delta_0: 1.6676E-07 | 6: delta_r/delta_0: 9.3645E-08 | 7: delta_s/delta_0: 5.8783E-07 | 8: delta_r/delta_0: 2.2161E-08 | 9: delta_s/delta_0: 1.0676E-06 | 10: delta_r/delta_0: 1.6411E-07 | 11: delta_s/delta_0: 7.5258E-10 | 12: delta_r/delta_0: 5.8032E-10 | 13: delta_s/delta_0: 7.8621E-10 | 14: delta_r/delta_0: 1.3551E-10 | 15: delta_s/delta_0: 4.9304E-11 | Reached bicg-stab tolerance | BP delta = 1.6453285E-02 0.1183343 3003818.80949045 | BP delta = 1.6453285E-02 0.1239597 3003820.15932247 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117121 | New value = -3.140209 | poltype: 2 pol: 1 CPU time specind = 8.3000660E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173284 | New value = -3.160885 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.226531 | New value = -3.178768 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138461 | New value = -3.089309 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091372 | New value = -3.199251 | poltype: 2 pol: 2 CPU time specind = 4.1539669E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.47 | CG iter. 1 -- res = 0.13559E+08, tol = 0.76047E+01, time = 3.62 | CG iter. 2 -- res = 0.33532E+06, tol = 0.76047E+01, time = 3.82 | CG iter. 3 -- res = 0.53000E+05, tol = 0.76047E+01, time = 3.71 | CG iter. 4 -- res = 0.30675E+05, tol = 0.76047E+01, time = 3.94 | CG iter. 5 -- res = 0.22436E+05, tol = 0.76047E+01, time = 3.71 | CG iter. 6 -- res = 0.19962E+05, tol = 0.76047E+01, time = 3.85 | CG iter. 7 -- res = 0.21197E+05, tol = 0.76047E+01, time = 3.73 | CG iter. 8 -- res = 0.18935E+05, tol = 0.76047E+01, time = 3.76 | CG iter. 9 -- res = 0.17136E+05, tol = 0.76047E+01, time = 3.87 | CG iter. 10 -- res = 0.16013E+05, tol = 0.76047E+01, time = 3.89 | CG iter. 11 -- res = 0.11537E+05, tol = 0.76047E+01, time = 3.66 | CG iter. 12 -- res = 0.70235E+04, tol = 0.76047E+01, time = 3.74 | CG iter. 13 -- res = 0.49325E+04, tol = 0.76047E+01, time = 3.85 | CG iter. 14 -- res = 0.41953E+04, tol = 0.76047E+01, time = 3.90 | CG iter. 15 -- res = 0.38434E+04, tol = 0.76047E+01, time = 3.81 | CG iter. 16 -- res = 0.31417E+04, tol = 0.76047E+01, time = 3.65 | CG iter. 17 -- res = 0.23363E+04, tol = 0.76047E+01, time = 3.77 | CG iter. 18 -- res = 0.18176E+04, tol = 0.76047E+01, time = 3.91 | CG iter. 19 -- res = 0.15292E+04, tol = 0.76047E+01, time = 3.82 | CG iter. 20 -- res = 0.12382E+04, tol = 0.76047E+01, time = 3.73 | CG iter. 21 -- res = 0.93412E+03, tol = 0.76047E+01, time = 3.79 | CG iter. 22 -- res = 0.73665E+03, tol = 0.76047E+01, time = 3.84 | CG iter. 23 -- res = 0.65738E+03, tol = 0.76047E+01, time = 3.85 | CG iter. 24 -- res = 0.57839E+03, tol = 0.76047E+01, time = 3.91 | CG iter. 25 -- res = 0.46226E+03, tol = 0.76047E+01, time = 3.81 | CG iter. 26 -- res = 0.36111E+03, tol = 0.76047E+01, time = 3.87 | CG iter. 27 -- res = 0.31399E+03, tol = 0.76047E+01, time = 3.73 | CG iter. 28 -- res = 0.29770E+03, tol = 0.76047E+01, time = 3.90 | CG iter. 29 -- res = 0.24409E+03, tol = 0.76047E+01, time = 3.65 | CG iter. 30 -- res = 0.19482E+03, tol = 0.76047E+01, time = 3.72 | CG iter. 31 -- res = 0.16325E+03, tol = 0.76047E+01, time = 3.79 | CG iter. 32 -- res = 0.14592E+03, tol = 0.76047E+01, time = 3.69 | CG iter. 33 -- res = 0.11835E+03, tol = 0.76047E+01, time = 3.86 | CG iter. 34 -- res = 0.88758E+02, tol = 0.76047E+01, time = 3.64 | CG iter. 35 -- res = 0.69898E+02, tol = 0.76047E+01, time = 10.47 | CG iter. 36 -- res = 0.59379E+02, tol = 0.76047E+01, time = 3.89 | CG iter. 37 -- res = 0.49751E+02, tol = 0.76047E+01, time = 3.90 | CG iter. 38 -- res = 0.37628E+02, tol = 0.76047E+01, time = 3.80 | CG iter. 39 -- res = 0.27228E+02, tol = 0.76047E+01, time = 3.74 | CG iter. 40 -- res = 0.21595E+02, tol = 0.76047E+01, time = 3.77 | CG iter. 41 -- res = 0.17282E+02, tol = 0.76047E+01, time = 3.89 | CG iter. 42 -- res = 0.12952E+02, tol = 0.76047E+01, time = 3.76 | CG iter. 43 -- res = 0.97196E+01, tol = 0.76047E+01, time = 3.75 | CG iter. 44 -- res = 0.77204E+01, tol = 0.76047E+01, time = 3.66 | CG iter. 45 -- res = 0.61889E+01, tol = 0.76047E+01, time = 3.88 | CG iter. 46 -- res = 0.49676E+01, tol = 0.76047E+01, time = 3.68 | CG iter. 47 -- res = 0.36870E+01, tol = 0.76047E+01, time = 3.88 | CG iter. 48 -- res = 0.27662E+01, tol = 0.76047E+01, time = 3.70 | CG iter. 49 -- res = 0.22059E+01, tol = 0.76047E+01, time = 3.75 | CG iter. 50 -- res = 0.17730E+01, tol = 0.76047E+01, time = 3.88 | Final CG iter 51 -- res = 0.17730E+01, tol = 0.76047E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8937854.944 | Old band monopole 9467228.158 | Change to band monopole -529373.214 | Change to component monopole 529370.937 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.14062E+05, tol = 0.47627E+18, time = 1.42 | CG iter. 2 -- res = 0.31607E+02, tol = 0.47627E+18, time = 1.53 | CG iter. 3 -- res = 0.97723E+00, tol = 0.47627E+18, time = 1.34 | CG iter. 4 -- res = 0.23474E-02, tol = 0.47627E+18, time = 1.41 | Final CG iter 5 -- res = 0.11087E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8937816.500 | (Sampled value in CG: 8912531.842 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.552108 | New value = 1.519212 | poltype: 2 pol: 1 CPU time specind = 6.1659813E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.515102 | New value = 1.483415 | poltype: 2 pol: 2 CPU time specind = 7.0350170E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.24234E+08, tol = 0.47547E+04, time = 4.27 | CG iter. 2 -- res = 0.53587E+07, tol = 0.47547E+04, time = 4.18 | CG iter. 3 -- res = 0.85456E+06, tol = 0.47547E+04, time = 4.54 | CG iter. 4 -- res = 0.36575E+06, tol = 0.47547E+04, time = 4.63 | CG iter. 5 -- res = 0.16098E+06, tol = 0.47547E+04, time = 4.35 | CG iter. 6 -- res = 0.82739E+05, tol = 0.47547E+04, time = 4.28 | CG iter. 7 -- res = 0.44864E+05, tol = 0.47547E+04, time = 4.42 | CG iter. 8 -- res = 0.22139E+05, tol = 0.47547E+04, time = 4.60 | CG iter. 9 -- res = 0.94738E+04, tol = 0.47547E+04, time = 6.71 | CG iter. 10 -- res = 0.38120E+04, tol = 0.47547E+04, time = 4.35 | CG iter. 11 -- res = 0.16982E+04, tol = 0.47547E+04, time = 4.55 | CG iter. 12 -- res = 0.88365E+03, tol = 0.47547E+04, time = 4.42 | CG iter. 13 -- res = 0.50968E+03, tol = 0.47547E+04, time = 4.34 | CG iter. 14 -- res = 0.28813E+03, tol = 0.47547E+04, time = 4.27 | CG iter. 15 -- res = 0.14776E+03, tol = 0.47547E+04, time = 4.44 | CG iter. 16 -- res = 0.68754E+02, tol = 0.47547E+04, time = 4.53 | CG iter. 17 -- res = 0.32012E+02, tol = 0.47547E+04, time = 4.37 | CG iter. 18 -- res = 0.16059E+02, tol = 0.47547E+04, time = 4.35 | CG iter. 19 -- res = 0.89042E+01, tol = 0.47547E+04, time = 4.47 | CG iter. 20 -- res = 0.50854E+01, tol = 0.47547E+04, time = 4.47 | CG iter. 21 -- res = 0.26949E+01, tol = 0.47547E+04, time = 4.40 | CG iter. 22 -- res = 0.13624E+01, tol = 0.47547E+04, time = 4.36 | CG iter. 23 -- res = 0.68356E+00, tol = 0.47547E+04, time = 4.44 | CG iter. 24 -- res = 0.34670E+00, tol = 0.47547E+04, time = 4.44 | CG iter. 25 -- res = 0.18623E+00, tol = 0.47547E+04, time = 4.53 | CG iter. 26 -- res = 0.10451E+00, tol = 0.47547E+04, time = 4.23 | CG iter. 27 -- res = 0.58427E-01, tol = 0.47547E+04, time = 4.42 | CG iter. 28 -- res = 0.31577E-01, tol = 0.47547E+04, time = 4.46 | CG iter. 29 -- res = 0.16389E-01, tol = 0.47547E+04, time = 4.34 | CG iter. 30 -- res = 0.84592E-02, tol = 0.47547E+04, time = 4.50 | CG iter. 31 -- res = 0.46170E-02, tol = 0.47547E+04, time = 10.96 | CG iter. 32 -- res = 0.25965E-02, tol = 0.47547E+04, time = 4.46 | CG iter. 33 -- res = 0.14693E-02, tol = 0.47547E+04, time = 4.50 | CG iter. 34 -- res = 0.79260E-03, tol = 0.47547E+04, time = 4.47 | CG iter. 35 -- res = 0.41313E-03, tol = 0.47547E+04, time = 4.40 | Final CG iter 36 -- res = 0.41313E-03, tol = 0.47547E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.503 2.738 | New value 1.254 | Old value -3.503 | Difference 4.757 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.11741E+07, tol = 0.47627E+18, time = 1.34 | CG iter. 2 -- res = 0.25931E+02, tol = 0.47627E+18, time = 1.29 | CG iter. 3 -- res = 0.76359E+00, tol = 0.47627E+18, time = 1.30 | CG iter. 4 -- res = 0.11175E-02, tol = 0.47627E+18, time = 1.32 | Final CG iter 5 -- res = 0.28982E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8937816.500 | (Sampled value in CG: 8911142.274 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.436243 | New value = -3.635772 | poltype: 1 pol: 1 CPU time specind = 4.5409203E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.24159E+07, tol = 0.29570E+01, time = 1.78 | CG iter. 2 -- res = 0.73218E+06, tol = 0.29570E+01, time = 1.79 | CG iter. 3 -- res = 0.14801E+06, tol = 0.29570E+01, time = 1.75 | CG iter. 4 -- res = 0.69936E+05, tol = 0.29570E+01, time = 1.70 | CG iter. 5 -- res = 0.40716E+05, tol = 0.29570E+01, time = 1.77 | CG iter. 6 -- res = 0.17756E+05, tol = 0.29570E+01, time = 1.61 | CG iter. 7 -- res = 0.63974E+04, tol = 0.29570E+01, time = 1.71 | CG iter. 8 -- res = 0.29496E+04, tol = 0.29570E+01, time = 1.83 | CG iter. 9 -- res = 0.13679E+04, tol = 0.29570E+01, time = 1.84 | CG iter. 10 -- res = 0.52202E+03, tol = 0.29570E+01, time = 1.73 | CG iter. 11 -- res = 0.22718E+03, tol = 0.29570E+01, time = 1.76 | CG iter. 12 -- res = 0.10847E+03, tol = 0.29570E+01, time = 1.78 | CG iter. 13 -- res = 0.56815E+02, tol = 0.29570E+01, time = 1.86 | CG iter. 14 -- res = 0.28938E+02, tol = 0.29570E+01, time = 1.66 | CG iter. 15 -- res = 0.12393E+02, tol = 0.29570E+01, time = 1.63 | CG iter. 16 -- res = 0.50896E+01, tol = 0.29570E+01, time = 1.66 | CG iter. 17 -- res = 0.20267E+01, tol = 0.29570E+01, time = 1.73 | CG iter. 18 -- res = 0.97426E+00, tol = 0.29570E+01, time = 1.80 | CG iter. 19 -- res = 0.48335E+00, tol = 0.29570E+01, time = 1.80 | CG iter. 20 -- res = 0.23883E+00, tol = 0.29570E+01, time = 1.77 | CG iter. 21 -- res = 0.11014E+00, tol = 0.29570E+01, time = 1.69 | CG iter. 22 -- res = 0.48747E-01, tol = 0.29570E+01, time = 1.89 | CG iter. 23 -- res = 0.21705E-01, tol = 0.29570E+01, time = 1.70 | CG iter. 24 -- res = 0.10240E-01, tol = 0.29570E+01, time = 1.72 | CG iter. 25 -- res = 0.51254E-02, tol = 0.29570E+01, time = 1.71 | CG iter. 26 -- res = 0.26251E-02, tol = 0.29570E+01, time = 1.75 | CG iter. 27 -- res = 0.13177E-02, tol = 0.29570E+01, time = 1.72 | CG iter. 28 -- res = 0.62913E-03, tol = 0.29570E+01, time = 1.82 | CG iter. 29 -- res = 0.29072E-03, tol = 0.29570E+01, time = 1.70 | CG iter. 30 -- res = 0.13475E-03, tol = 0.29570E+01, time = 1.72 | CG iter. 31 -- res = 0.67641E-04, tol = 0.29570E+01, time = 1.77 | CG iter. 32 -- res = 0.36894E-04, tol = 0.29570E+01, time = 1.72 | CG iter. 33 -- res = 0.18456E-04, tol = 0.29570E+01, time = 1.71 | CG iter. 34 -- res = 0.85814E-05, tol = 0.29570E+01, time = 1.73 | CG iter. 35 -- res = 0.39198E-05, tol = 0.29570E+01, time = 1.80 | CG iter. 36 -- res = 0.19306E-05, tol = 0.29570E+01, time = 1.84 | CG iter. 37 -- res = 0.91327E-06, tol = 0.29570E+01, time = 1.70 | CG iter. 38 -- res = 0.47092E-06, tol = 0.29570E+01, time = 1.66 | CG iter. 39 -- res = 0.23268E-06, tol = 0.29570E+01, time = 1.75 | CG iter. 40 -- res = 0.10825E-06, tol = 0.29570E+01, time = 1.71 | CG iter. 41 -- res = 0.49063E-07, tol = 0.29570E+01, time = 1.70 | CG iter. 42 -- res = 0.24399E-07, tol = 0.29570E+01, time = 1.81 | CG iter. 43 -- res = 0.11363E-07, tol = 0.29570E+01, time = 1.68 | CG iter. 44 -- res = 0.53249E-08, tol = 0.29570E+01, time = 1.83 | CG iter. 45 -- res = 0.26433E-08, tol = 0.29570E+01, time = 1.73 | CG iter. 46 -- res = 0.13014E-08, tol = 0.29570E+01, time = 1.75 | CG iter. 47 -- res = 0.60507E-09, tol = 0.29570E+01, time = 1.71 | CG iter. 48 -- res = 0.28444E-09, tol = 0.29570E+01, time = 1.84 | CG iter. 49 -- res = 0.13050E-09, tol = 0.29570E+01, time = 1.76 | CG iter. 50 -- res = 0.61189E-10, tol = 0.29570E+01, time = 1.77 | Final CG iter 51 -- res = 0.61189E-10, tol = 0.29570E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.592 6.207 | New value -2.735 | Old value -3.592 | Difference 0.857 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.58 | CG iter. 1 -- res = 0.19882E+04, tol = 0.47627E+18, time = 1.32 | CG iter. 2 -- res = 0.17955E+02, tol = 0.47627E+18, time = 1.36 | CG iter. 3 -- res = 0.31383E+00, tol = 0.47627E+18, time = 1.29 | CG iter. 4 -- res = 0.48932E-04, tol = 0.47627E+18, time = 1.27 | Final CG iter 5 -- res = 0.52293E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8937816.500 | (Sampled value in CG: 8920704.898 ) | CPU time specind = 826.1064 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.52 | CG iter. 1 -- res = 0.68828E+08, tol = 0.57774E+04, time = 7.65 | CG iter. 2 -- res = 0.58692E+08, tol = 0.57774E+04, time = 9.94 | CG iter. 3 -- res = 0.15713E+08, tol = 0.57774E+04, time = 8.44 | CG iter. 4 -- res = 0.66967E+07, tol = 0.57774E+04, time = 8.26 | CG iter. 5 -- res = 0.40776E+07, tol = 0.57774E+04, time = 7.87 | CG iter. 6 -- res = 0.23907E+07, tol = 0.57774E+04, time = 8.05 | CG iter. 7 -- res = 0.13793E+07, tol = 0.57774E+04, time = 8.06 | CG iter. 8 -- res = 0.88679E+06, tol = 0.57774E+04, time = 7.94 | CG iter. 9 -- res = 0.57074E+06, tol = 0.57774E+04, time = 8.10 | CG iter. 10 -- res = 0.34700E+06, tol = 0.57774E+04, time = 7.92 | CG iter. 11 -- res = 0.19303E+06, tol = 0.57774E+04, time = 7.98 | CG iter. 12 -- res = 0.10199E+06, tol = 0.57774E+04, time = 8.13 | CG iter. 13 -- res = 0.56394E+05, tol = 0.57774E+04, time = 7.96 | CG iter. 14 -- res = 0.34102E+05, tol = 0.57774E+04, time = 7.87 | CG iter. 15 -- res = 0.23793E+05, tol = 0.57774E+04, time = 8.75 | CG iter. 16 -- res = 0.18082E+05, tol = 0.57774E+04, time = 8.00 | CG iter. 17 -- res = 0.14554E+05, tol = 0.57774E+04, time = 8.02 | CG iter. 18 -- res = 0.11910E+05, tol = 0.57774E+04, time = 8.09 | CG iter. 19 -- res = 0.95032E+04, tol = 0.57774E+04, time = 7.99 | CG iter. 20 -- res = 0.79313E+04, tol = 0.57774E+04, time = 7.92 | CG iter. 21 -- res = 0.71158E+04, tol = 0.57774E+04, time = 8.07 | CG iter. 22 -- res = 0.73685E+04, tol = 0.57774E+04, time = 7.98 | CG iter. 23 -- res = 0.81922E+04, tol = 0.57774E+04, time = 8.01 | CG iter. 24 -- res = 0.89775E+04, tol = 0.57774E+04, time = 7.97 | CG iter. 25 -- res = 0.90618E+04, tol = 0.57774E+04, time = 7.98 | CG iter. 26 -- res = 0.81967E+04, tol = 0.57774E+04, time = 8.02 | CG iter. 27 -- res = 0.66035E+04, tol = 0.57774E+04, time = 8.03 | CG iter. 28 -- res = 0.50653E+04, tol = 0.57774E+04, time = 14.46 | CG iter. 29 -- res = 0.40293E+04, tol = 0.57774E+04, time = 8.04 | CG iter. 30 -- res = 0.33531E+04, tol = 0.57774E+04, time = 8.00 | CG iter. 31 -- res = 0.28439E+04, tol = 0.57774E+04, time = 8.08 | CG iter. 32 -- res = 0.23835E+04, tol = 0.57774E+04, time = 8.04 | CG iter. 33 -- res = 0.18733E+04, tol = 0.57774E+04, time = 8.10 | CG iter. 34 -- res = 0.14353E+04, tol = 0.57774E+04, time = 7.97 | CG iter. 35 -- res = 0.11780E+04, tol = 0.57774E+04, time = 7.95 | CG iter. 36 -- res = 0.10299E+04, tol = 0.57774E+04, time = 8.02 | CG iter. 37 -- res = 0.96781E+03, tol = 0.57774E+04, time = 7.84 | CG iter. 38 -- res = 0.96773E+03, tol = 0.57774E+04, time = 9.05 | CG iter. 39 -- res = 0.94667E+03, tol = 0.57774E+04, time = 8.90 | CG iter. 40 -- res = 0.85835E+03, tol = 0.57774E+04, time = 8.32 | CG iter. 41 -- res = 0.73664E+03, tol = 0.57774E+04, time = 7.94 | CG iter. 42 -- res = 0.60305E+03, tol = 0.57774E+04, time = 7.91 | CG iter. 43 -- res = 0.50447E+03, tol = 0.57774E+04, time = 7.97 | CG iter. 44 -- res = 0.44318E+03, tol = 0.57774E+04, time = 7.96 | CG iter. 45 -- res = 0.39128E+03, tol = 0.57774E+04, time = 8.13 | CG iter. 46 -- res = 0.34713E+03, tol = 0.57774E+04, time = 7.93 | CG iter. 47 -- res = 0.29927E+03, tol = 0.57774E+04, time = 8.13 | CG iter. 48 -- res = 0.24742E+03, tol = 0.57774E+04, time = 7.89 | CG iter. 49 -- res = 0.20349E+03, tol = 0.57774E+04, time = 8.01 | CG iter. 50 -- res = 0.17430E+03, tol = 0.57774E+04, time = 8.01 | CG iter. 51 -- res = 0.16042E+03, tol = 0.57774E+04, time = 7.93 | CG iter. 52 -- res = 0.15444E+03, tol = 0.57774E+04, time = 8.01 | CG iter. 53 -- res = 0.14446E+03, tol = 0.57774E+04, time = 7.91 | CG iter. 54 -- res = 0.13335E+03, tol = 0.57774E+04, time = 8.01 | CG iter. 55 -- res = 0.12106E+03, tol = 0.57774E+04, time = 7.96 | CG iter. 56 -- res = 0.10584E+03, tol = 0.57774E+04, time = 8.01 | CG iter. 57 -- res = 0.91489E+02, tol = 0.57774E+04, time = 8.10 | CG iter. 58 -- res = 0.81675E+02, tol = 0.57774E+04, time = 8.01 | CG iter. 59 -- res = 0.73327E+02, tol = 0.57774E+04, time = 8.02 | CG iter. 60 -- res = 0.65874E+02, tol = 0.57774E+04, time = 7.84 | Final CG iter 61 -- res = 0.65874E+02, tol = 0.57774E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.718 ( -230.048 -2230.441 2512.900 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10128178.788 | Old band monopole 8937854.944 | Change to band monopole 1190323.844 | Change to component monopole -1190318.724 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.261 2.749 | New value 0.361 | Old value 1.261 | Difference -0.900 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.559 ( 7.439 11.743 -11.396 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.807 5.242 | New value -2.712 | Old value 6.807 | Difference -9.519 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.43 | CG iter. 1 -- res = 0.11339E+06, tol = 0.47627E+18, time = 1.26 | CG iter. 2 -- res = 0.51099E+02, tol = 0.47627E+18, time = 1.30 | CG iter. 3 -- res = 0.22315E+01, tol = 0.47627E+18, time = 1.19 | CG iter. 4 -- res = 0.54045E-02, tol = 0.47627E+18, time = 1.30 | Final CG iter 5 -- res = 0.35021E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10128135.224 | (Sampled value in CG: 10100675.458 ) | Chain = 1 -- chisq = 0.81517806E+09 | Chain = 1 -- wall time = 5480.029 sec Available RAM: MemAvailable: 370234832 kB Available Swap: SwapFree: 1462933144 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 155 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441804 | --> Sampling calibration, mode = relcal | relcal = 1.3421837E-02 7.5499545E-04 -1.5945118E-03 -1.2582321E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1223440 0.1340892 97039943.4995291 | BP delta = 0.1245949 0.1363401 97039944.7378993 | BP chisq diff = 1.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632517 | --> Sampling calibration, mode = relcal | relcal = -2.8209339E-03 -7.0399861E-04 1.6794694E-03 1.6130945E-03 -4.0680094E-04 6.3916954E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.6018711 15217525.5438481 | BP delta = 0.0000000E+00 -0.6047569 15217545.1301670 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18289042330601 | --> Sampling calibration, mode = relcal | relcal = -7.5903781E-02 -5.9105840E-02 9.2801332E-02 4.2208288E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.9857152E-04 5.2950592E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7070E-05 | 2: delta_r/delta_0: 1.3376E-06 | 3: delta_s/delta_0: 1.9939E-07 | 4: delta_r/delta_0: 2.7394E-08 | 5: delta_s/delta_0: 8.3556E-09 | 6: delta_r/delta_0: 2.6255E-09 | 7: delta_s/delta_0: 6.1669E-10 | 8: delta_r/delta_0: 1.4101E-10 | 9: delta_s/delta_0: 2.6555E-10 | 10: delta_r/delta_0: 7.1011E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.297124389420054E-003 2.736587129648805E-005 | BP delta = 5.0183679E-03 1.9637946E-02 50483201.9423150 | BP delta = 1.3508207E-02 2.8127786E-02 50483188.0932416 | BP chisq diff = -13.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595195 | --> Sampling calibration, mode = relcal | relcal = -0.1066780 -9.5575340E-02 0.1449274 5.7325955E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9986631E-03 1.6789255E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7498E-05 | 2: delta_r/delta_0: 1.3049E-06 | 3: delta_s/delta_0: 2.4672E-07 | 4: delta_r/delta_0: 4.8467E-08 | 5: delta_s/delta_0: 2.2361E-08 | 6: delta_r/delta_0: 7.1317E-09 | 7: delta_s/delta_0: 1.5024E-08 | 8: delta_r/delta_0: 1.0596E-09 | 9: delta_s/delta_0: 9.9175E-10 | 10: delta_r/delta_0: 1.5147E-10 | 11: delta_s/delta_0: 2.8401E-09 | 12: delta_r/delta_0: 2.5922E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.951281561550255E-003 2.810949096321423E-005 | BP delta = -0.2820474 -0.2557912 57391782.1455282 | BP delta = -0.2747240 -0.2484678 57391782.3609562 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81239100 | --> Sampling calibration, mode = relcal | relcal = 0.2954616 0.2248879 -0.2837871 -0.2365624 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7499273E-04 5.6039034E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2976E+02 | 2: delta_r/delta_0: 5.4098E+00 | 3: delta_s/delta_0: 3.7703E-05 | 4: delta_r/delta_0: 3.1400E-06 | 5: delta_s/delta_0: 6.8033E-05 | 6: delta_r/delta_0: 1.6146E-05 | 7: delta_s/delta_0: 1.3175E-06 | 8: delta_r/delta_0: 1.6795E-07 | 9: delta_s/delta_0: 1.3751E-06 | 10: delta_r/delta_0: 1.1812E-08 | 11: delta_s/delta_0: 1.0878E-08 | 12: delta_r/delta_0: 6.1801E-09 | 13: delta_s/delta_0: 6.5441E-10 | 14: delta_r/delta_0: 4.9419E-10 | 15: delta_s/delta_0: 2.1220E-10 | 16: delta_r/delta_0: 9.7270E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.196699682702347E-002 4.020837859788722E-005 | BP delta = -0.1477308 -0.1574989 72490867.0564230 | BP delta = -5.7202190E-02 -6.6970207E-02 72490867.9671347 | BP chisq diff = 0.9, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95934570 | --> Sampling calibration, mode = relcal | relcal = 0.1064294 0.1397125 -0.1102333 -0.1359086 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0537763E-02 1.2868044E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8358E-04 | 2: delta_r/delta_0: 4.8404E-06 | 3: delta_s/delta_0: 1.3906E-04 | 4: delta_r/delta_0: 6.1017E-06 | 5: delta_s/delta_0: 1.8292E-07 | 6: delta_r/delta_0: 9.3120E-08 | 7: delta_s/delta_0: 2.8066E-07 | 8: delta_r/delta_0: 2.4177E-08 | 9: delta_s/delta_0: 9.6224E-09 | 10: delta_r/delta_0: 2.6817E-09 | 11: delta_s/delta_0: 9.5457E-10 | 12: delta_r/delta_0: 6.6902E-10 | 13: delta_s/delta_0: 1.4557E-09 | 14: delta_r/delta_0: 1.2030E-10 | 15: delta_s/delta_0: 5.4128E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.928237984645620E-002 3.696497669704172E-005 | BP delta = 1.6453285E-02 0.1183343 72775324.1831371 | BP delta = 2.5094235E-03 0.1043904 72775325.1346693 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140209 | New value = -3.315540 | poltype: 2 pol: 1 CPU time specind = 1.1237144E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160885 | New value = -3.110327 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178768 | New value = -3.098994 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.089309 | New value = -3.220788 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199251 | New value = -3.155455 | poltype: 2 pol: 2 CPU time specind = 5.6648254E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.13581E+08, tol = 0.68994E+01, time = 3.76 | CG iter. 2 -- res = 0.34305E+06, tol = 0.68994E+01, time = 3.72 | CG iter. 3 -- res = 0.63439E+05, tol = 0.68994E+01, time = 3.72 | CG iter. 4 -- res = 0.51986E+05, tol = 0.68994E+01, time = 3.70 | CG iter. 5 -- res = 0.50006E+05, tol = 0.68994E+01, time = 3.96 | CG iter. 6 -- res = 0.48032E+05, tol = 0.68994E+01, time = 3.71 | CG iter. 7 -- res = 0.48050E+05, tol = 0.68994E+01, time = 5.22 | CG iter. 8 -- res = 0.40854E+05, tol = 0.68994E+01, time = 4.08 | CG iter. 9 -- res = 0.37266E+05, tol = 0.68994E+01, time = 4.18 | CG iter. 10 -- res = 0.31737E+05, tol = 0.68994E+01, time = 3.95 | CG iter. 11 -- res = 0.22589E+05, tol = 0.68994E+01, time = 3.82 | CG iter. 12 -- res = 0.16474E+05, tol = 0.68994E+01, time = 3.90 | CG iter. 13 -- res = 0.14566E+05, tol = 0.68994E+01, time = 3.86 | CG iter. 14 -- res = 0.14288E+05, tol = 0.68994E+01, time = 3.86 | CG iter. 15 -- res = 0.12228E+05, tol = 0.68994E+01, time = 3.74 | CG iter. 16 -- res = 0.92327E+04, tol = 0.68994E+01, time = 3.73 | CG iter. 17 -- res = 0.70981E+04, tol = 0.68994E+01, time = 3.85 | CG iter. 18 -- res = 0.61067E+04, tol = 0.68994E+01, time = 3.78 | CG iter. 19 -- res = 0.54460E+04, tol = 0.68994E+01, time = 3.94 | CG iter. 20 -- res = 0.45530E+04, tol = 0.68994E+01, time = 3.76 | CG iter. 21 -- res = 0.37171E+04, tol = 0.68994E+01, time = 3.77 | CG iter. 22 -- res = 0.33064E+04, tol = 0.68994E+01, time = 3.81 | CG iter. 23 -- res = 0.30873E+04, tol = 0.68994E+01, time = 3.88 | CG iter. 24 -- res = 0.25454E+04, tol = 0.68994E+01, time = 3.80 | CG iter. 25 -- res = 0.19933E+04, tol = 0.68994E+01, time = 3.98 | CG iter. 26 -- res = 0.17111E+04, tol = 0.68994E+01, time = 3.81 | CG iter. 27 -- res = 0.15939E+04, tol = 0.68994E+01, time = 3.84 | CG iter. 28 -- res = 0.14114E+04, tol = 0.68994E+01, time = 4.03 | CG iter. 29 -- res = 0.11811E+04, tol = 0.68994E+01, time = 3.71 | CG iter. 30 -- res = 0.97858E+03, tol = 0.68994E+01, time = 3.81 | CG iter. 31 -- res = 0.88491E+03, tol = 0.68994E+01, time = 3.82 | CG iter. 32 -- res = 0.80700E+03, tol = 0.68994E+01, time = 3.77 | CG iter. 33 -- res = 0.66517E+03, tol = 0.68994E+01, time = 3.85 | CG iter. 34 -- res = 0.54694E+03, tol = 0.68994E+01, time = 3.75 | CG iter. 35 -- res = 0.49391E+03, tol = 0.68994E+01, time = 4.61 | CG iter. 36 -- res = 0.44273E+03, tol = 0.68994E+01, time = 3.78 | CG iter. 37 -- res = 0.38093E+03, tol = 0.68994E+01, time = 3.96 | CG iter. 38 -- res = 0.30509E+03, tol = 0.68994E+01, time = 3.74 | CG iter. 39 -- res = 0.26693E+03, tol = 0.68994E+01, time = 3.85 | CG iter. 40 -- res = 0.25425E+03, tol = 0.68994E+01, time = 3.79 | CG iter. 41 -- res = 0.22501E+03, tol = 0.68994E+01, time = 3.70 | CG iter. 42 -- res = 0.18828E+03, tol = 0.68994E+01, time = 3.83 | CG iter. 43 -- res = 0.16169E+03, tol = 0.68994E+01, time = 3.83 | CG iter. 44 -- res = 0.15013E+03, tol = 0.68994E+01, time = 3.80 | CG iter. 45 -- res = 0.13403E+03, tol = 0.68994E+01, time = 3.83 | CG iter. 46 -- res = 0.11353E+03, tol = 0.68994E+01, time = 3.89 | CG iter. 47 -- res = 0.95461E+02, tol = 0.68994E+01, time = 3.93 | CG iter. 48 -- res = 0.85338E+02, tol = 0.68994E+01, time = 3.83 | CG iter. 49 -- res = 0.77732E+02, tol = 0.68994E+01, time = 3.78 | CG iter. 50 -- res = 0.67592E+02, tol = 0.68994E+01, time = 3.77 | Final CG iter 51 -- res = 0.67592E+02, tol = 0.68994E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8305784.103 | Old band monopole 10128178.788 | Change to band monopole -1822394.685 | Change to component monopole 1822386.846 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.39 | CG iter. 1 -- res = 0.64762E+06, tol = 0.47627E+18, time = 1.27 | CG iter. 2 -- res = 0.19819E+03, tol = 0.47627E+18, time = 1.40 | CG iter. 3 -- res = 0.31347E+01, tol = 0.47627E+18, time = 1.31 | CG iter. 4 -- res = 0.22273E-01, tol = 0.47627E+18, time = 1.31 | Final CG iter 5 -- res = 0.61407E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8305748.378 | (Sampled value in CG: 8244027.388 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519212 | New value = 1.480210 | poltype: 2 pol: 1 CPU time specind = 9.7978115E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.483415 | New value = 1.477831 | poltype: 2 pol: 2 CPU time specind = 3.4890175E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.51 | CG iter. 1 -- res = 0.24327E+08, tol = 0.47529E+04, time = 4.37 | CG iter. 2 -- res = 0.52719E+07, tol = 0.47529E+04, time = 4.16 | CG iter. 3 -- res = 0.83598E+06, tol = 0.47529E+04, time = 4.59 | CG iter. 4 -- res = 0.34915E+06, tol = 0.47529E+04, time = 4.41 | CG iter. 5 -- res = 0.15067E+06, tol = 0.47529E+04, time = 4.46 | CG iter. 6 -- res = 0.80532E+05, tol = 0.47529E+04, time = 5.01 | CG iter. 7 -- res = 0.44042E+05, tol = 0.47529E+04, time = 5.46 | CG iter. 8 -- res = 0.20981E+05, tol = 0.47529E+04, time = 4.80 | CG iter. 9 -- res = 0.92439E+04, tol = 0.47529E+04, time = 4.68 | CG iter. 10 -- res = 0.37397E+04, tol = 0.47529E+04, time = 4.44 | CG iter. 11 -- res = 0.17170E+04, tol = 0.47529E+04, time = 4.38 | CG iter. 12 -- res = 0.88064E+03, tol = 0.47529E+04, time = 4.46 | CG iter. 13 -- res = 0.49947E+03, tol = 0.47529E+04, time = 4.47 | CG iter. 14 -- res = 0.28393E+03, tol = 0.47529E+04, time = 4.34 | CG iter. 15 -- res = 0.14854E+03, tol = 0.47529E+04, time = 4.40 | CG iter. 16 -- res = 0.69205E+02, tol = 0.47529E+04, time = 4.50 | CG iter. 17 -- res = 0.31471E+02, tol = 0.47529E+04, time = 4.46 | CG iter. 18 -- res = 0.15300E+02, tol = 0.47529E+04, time = 4.31 | CG iter. 19 -- res = 0.82199E+01, tol = 0.47529E+04, time = 4.42 | CG iter. 20 -- res = 0.46172E+01, tol = 0.47529E+04, time = 4.44 | CG iter. 21 -- res = 0.25355E+01, tol = 0.47529E+04, time = 4.50 | CG iter. 22 -- res = 0.13134E+01, tol = 0.47529E+04, time = 4.25 | CG iter. 23 -- res = 0.66738E+00, tol = 0.47529E+04, time = 4.56 | CG iter. 24 -- res = 0.34296E+00, tol = 0.47529E+04, time = 4.47 | CG iter. 25 -- res = 0.18996E+00, tol = 0.47529E+04, time = 4.29 | CG iter. 26 -- res = 0.10797E+00, tol = 0.47529E+04, time = 4.30 | CG iter. 27 -- res = 0.59288E-01, tol = 0.47529E+04, time = 4.43 | CG iter. 28 -- res = 0.31016E-01, tol = 0.47529E+04, time = 4.63 | CG iter. 29 -- res = 0.15854E-01, tol = 0.47529E+04, time = 4.50 | CG iter. 30 -- res = 0.82680E-02, tol = 0.47529E+04, time = 4.17 | CG iter. 31 -- res = 0.45991E-02, tol = 0.47529E+04, time = 4.49 | CG iter. 32 -- res = 0.26234E-02, tol = 0.47529E+04, time = 4.57 | CG iter. 33 -- res = 0.14732E-02, tol = 0.47529E+04, time = 4.36 | CG iter. 34 -- res = 0.80776E-03, tol = 0.47529E+04, time = 4.35 | CG iter. 35 -- res = 0.41957E-03, tol = 0.47529E+04, time = 4.52 | Final CG iter 36 -- res = 0.41957E-03, tol = 0.47529E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.351 2.737 | New value -4.219 | Old value 0.351 | Difference -4.570 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.47 | CG iter. 1 -- res = 0.10856E+07, tol = 0.47627E+18, time = 1.32 | CG iter. 2 -- res = 0.63422E+02, tol = 0.47627E+18, time = 1.33 | CG iter. 3 -- res = 0.18747E+01, tol = 0.47627E+18, time = 1.27 | CG iter. 4 -- res = 0.19566E-03, tol = 0.47627E+18, time = 1.31 | Final CG iter 5 -- res = 0.30109E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8305748.378 | (Sampled value in CG: 8245527.949 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.635772 | New value = -3.532321 | poltype: 1 pol: 1 CPU time specind = 6.4289570E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.39 | CG iter. 1 -- res = 0.45474E+07, tol = 0.27614E+01, time = 1.82 | CG iter. 2 -- res = 0.25491E+07, tol = 0.27614E+01, time = 1.76 | CG iter. 3 -- res = 0.55481E+06, tol = 0.27614E+01, time = 1.73 | CG iter. 4 -- res = 0.23094E+06, tol = 0.27614E+01, time = 1.82 | CG iter. 5 -- res = 0.13055E+06, tol = 0.27614E+01, time = 1.68 | CG iter. 6 -- res = 0.62709E+05, tol = 0.27614E+01, time = 1.65 | CG iter. 7 -- res = 0.19975E+05, tol = 0.27614E+01, time = 1.69 | CG iter. 8 -- res = 0.79534E+04, tol = 0.27614E+01, time = 1.77 | CG iter. 9 -- res = 0.38299E+04, tol = 0.27614E+01, time = 1.76 | CG iter. 10 -- res = 0.15859E+04, tol = 0.27614E+01, time = 1.88 | CG iter. 11 -- res = 0.62544E+03, tol = 0.27614E+01, time = 1.80 | CG iter. 12 -- res = 0.30926E+03, tol = 0.27614E+01, time = 1.72 | CG iter. 13 -- res = 0.15459E+03, tol = 0.27614E+01, time = 1.75 | CG iter. 14 -- res = 0.74871E+02, tol = 0.27614E+01, time = 1.83 | CG iter. 15 -- res = 0.35480E+02, tol = 0.27614E+01, time = 1.80 | CG iter. 16 -- res = 0.15798E+02, tol = 0.27614E+01, time = 1.69 | CG iter. 17 -- res = 0.64801E+01, tol = 0.27614E+01, time = 1.72 | CG iter. 18 -- res = 0.29829E+01, tol = 0.27614E+01, time = 1.67 | CG iter. 19 -- res = 0.14612E+01, tol = 0.27614E+01, time = 1.88 | CG iter. 20 -- res = 0.74237E+00, tol = 0.27614E+01, time = 1.74 | CG iter. 21 -- res = 0.36320E+00, tol = 0.27614E+01, time = 1.81 | CG iter. 22 -- res = 0.16357E+00, tol = 0.27614E+01, time = 1.84 | CG iter. 23 -- res = 0.74984E-01, tol = 0.27614E+01, time = 1.75 | CG iter. 24 -- res = 0.35047E-01, tol = 0.27614E+01, time = 1.93 | CG iter. 25 -- res = 0.16968E-01, tol = 0.27614E+01, time = 1.75 | CG iter. 26 -- res = 0.80645E-02, tol = 0.27614E+01, time = 1.81 | CG iter. 27 -- res = 0.41815E-02, tol = 0.27614E+01, time = 1.78 | CG iter. 28 -- res = 0.21478E-02, tol = 0.27614E+01, time = 1.72 | CG iter. 29 -- res = 0.10033E-02, tol = 0.27614E+01, time = 1.60 | CG iter. 30 -- res = 0.47020E-03, tol = 0.27614E+01, time = 1.80 | CG iter. 31 -- res = 0.21245E-03, tol = 0.27614E+01, time = 1.76 | CG iter. 32 -- res = 0.10261E-03, tol = 0.27614E+01, time = 1.85 | CG iter. 33 -- res = 0.52104E-04, tol = 0.27614E+01, time = 1.70 | CG iter. 34 -- res = 0.25359E-04, tol = 0.27614E+01, time = 1.75 | CG iter. 35 -- res = 0.12887E-04, tol = 0.27614E+01, time = 1.81 | CG iter. 36 -- res = 0.61924E-05, tol = 0.27614E+01, time = 1.80 | CG iter. 37 -- res = 0.27346E-05, tol = 0.27614E+01, time = 1.70 | CG iter. 38 -- res = 0.13433E-05, tol = 0.27614E+01, time = 1.74 | CG iter. 39 -- res = 0.65117E-06, tol = 0.27614E+01, time = 1.80 | CG iter. 40 -- res = 0.32929E-06, tol = 0.27614E+01, time = 1.67 | CG iter. 41 -- res = 0.16060E-06, tol = 0.27614E+01, time = 1.82 | CG iter. 42 -- res = 0.78703E-07, tol = 0.27614E+01, time = 1.79 | CG iter. 43 -- res = 0.34992E-07, tol = 0.27614E+01, time = 1.73 | CG iter. 44 -- res = 0.16335E-07, tol = 0.27614E+01, time = 1.89 | CG iter. 45 -- res = 0.78028E-08, tol = 0.27614E+01, time = 1.76 | CG iter. 46 -- res = 0.39220E-08, tol = 0.27614E+01, time = 1.79 | CG iter. 47 -- res = 0.19883E-08, tol = 0.27614E+01, time = 1.78 | CG iter. 48 -- res = 0.95994E-09, tol = 0.27614E+01, time = 1.72 | CG iter. 49 -- res = 0.44992E-09, tol = 0.27614E+01, time = 1.70 | CG iter. 50 -- res = 0.20317E-09, tol = 0.27614E+01, time = 2.42 | Final CG iter 51 -- res = 0.20317E-09, tol = 0.27614E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -13.124 7.412 | New value 6.652 | Old value -13.124 | Difference 19.775 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.59 | CG iter. 1 -- res = 0.39488E+06, tol = 0.47627E+18, time = 1.32 | CG iter. 2 -- res = 0.13071E+03, tol = 0.47627E+18, time = 1.38 | CG iter. 3 -- res = 0.41341E+01, tol = 0.47627E+18, time = 1.27 | CG iter. 4 -- res = 0.13477E-01, tol = 0.47627E+18, time = 1.25 | Final CG iter 5 -- res = 0.62411E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8305748.378 | (Sampled value in CG: 8257596.203 ) | CPU time specind = 824.8847 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.52 | CG iter. 1 -- res = 0.69086E+08, tol = 0.57598E+04, time = 7.78 | CG iter. 2 -- res = 0.58196E+08, tol = 0.57598E+04, time = 8.35 | CG iter. 3 -- res = 0.14968E+08, tol = 0.57598E+04, time = 12.36 | CG iter. 4 -- res = 0.63639E+07, tol = 0.57598E+04, time = 10.70 | CG iter. 5 -- res = 0.37696E+07, tol = 0.57598E+04, time = 7.89 | CG iter. 6 -- res = 0.22531E+07, tol = 0.57598E+04, time = 8.23 | CG iter. 7 -- res = 0.13634E+07, tol = 0.57598E+04, time = 7.90 | CG iter. 8 -- res = 0.89359E+06, tol = 0.57598E+04, time = 8.11 | CG iter. 9 -- res = 0.57534E+06, tol = 0.57598E+04, time = 8.18 | CG iter. 10 -- res = 0.34792E+06, tol = 0.57598E+04, time = 8.00 | CG iter. 11 -- res = 0.19359E+06, tol = 0.57598E+04, time = 8.05 | CG iter. 12 -- res = 0.11060E+06, tol = 0.57598E+04, time = 8.16 | CG iter. 13 -- res = 0.67888E+05, tol = 0.57598E+04, time = 7.96 | CG iter. 14 -- res = 0.46817E+05, tol = 0.57598E+04, time = 9.62 | CG iter. 15 -- res = 0.38266E+05, tol = 0.57598E+04, time = 8.77 | CG iter. 16 -- res = 0.35209E+05, tol = 0.57598E+04, time = 7.92 | CG iter. 17 -- res = 0.33496E+05, tol = 0.57598E+04, time = 7.99 | CG iter. 18 -- res = 0.31706E+05, tol = 0.57598E+04, time = 8.06 | CG iter. 19 -- res = 0.29520E+05, tol = 0.57598E+04, time = 8.14 | CG iter. 20 -- res = 0.27963E+05, tol = 0.57598E+04, time = 7.90 | CG iter. 21 -- res = 0.27374E+05, tol = 0.57598E+04, time = 8.15 | CG iter. 22 -- res = 0.28653E+05, tol = 0.57598E+04, time = 8.11 | CG iter. 23 -- res = 0.29431E+05, tol = 0.57598E+04, time = 7.93 | CG iter. 24 -- res = 0.27735E+05, tol = 0.57598E+04, time = 7.94 | CG iter. 25 -- res = 0.22988E+05, tol = 0.57598E+04, time = 7.98 | CG iter. 26 -- res = 0.17718E+05, tol = 0.57598E+04, time = 8.10 | CG iter. 27 -- res = 0.13193E+05, tol = 0.57598E+04, time = 7.92 | CG iter. 28 -- res = 0.10162E+05, tol = 0.57598E+04, time = 8.13 | CG iter. 29 -- res = 0.86162E+04, tol = 0.57598E+04, time = 7.86 | CG iter. 30 -- res = 0.77975E+04, tol = 0.57598E+04, time = 7.91 | CG iter. 31 -- res = 0.70984E+04, tol = 0.57598E+04, time = 8.00 | CG iter. 32 -- res = 0.64146E+04, tol = 0.57598E+04, time = 8.01 | CG iter. 33 -- res = 0.57844E+04, tol = 0.57598E+04, time = 8.04 | CG iter. 34 -- res = 0.52678E+04, tol = 0.57598E+04, time = 7.95 | CG iter. 35 -- res = 0.49350E+04, tol = 0.57598E+04, time = 7.95 | CG iter. 36 -- res = 0.46882E+04, tol = 0.57598E+04, time = 7.99 | CG iter. 37 -- res = 0.46304E+04, tol = 0.57598E+04, time = 8.02 | CG iter. 38 -- res = 0.44243E+04, tol = 0.57598E+04, time = 8.11 | CG iter. 39 -- res = 0.40018E+04, tol = 0.57598E+04, time = 8.19 | CG iter. 40 -- res = 0.33840E+04, tol = 0.57598E+04, time = 14.49 | CG iter. 41 -- res = 0.28157E+04, tol = 0.57598E+04, time = 7.92 | CG iter. 42 -- res = 0.23700E+04, tol = 0.57598E+04, time = 8.04 | CG iter. 43 -- res = 0.21250E+04, tol = 0.57598E+04, time = 8.01 | CG iter. 44 -- res = 0.20402E+04, tol = 0.57598E+04, time = 7.92 | CG iter. 45 -- res = 0.19789E+04, tol = 0.57598E+04, time = 8.03 | CG iter. 46 -- res = 0.18796E+04, tol = 0.57598E+04, time = 8.00 | CG iter. 47 -- res = 0.17318E+04, tol = 0.57598E+04, time = 7.96 | CG iter. 48 -- res = 0.15629E+04, tol = 0.57598E+04, time = 8.06 | CG iter. 49 -- res = 0.14577E+04, tol = 0.57598E+04, time = 8.09 | CG iter. 50 -- res = 0.13661E+04, tol = 0.57598E+04, time = 9.35 | CG iter. 51 -- res = 0.13428E+04, tol = 0.57598E+04, time = 9.03 | CG iter. 52 -- res = 0.13112E+04, tol = 0.57598E+04, time = 8.07 | CG iter. 53 -- res = 0.12006E+04, tol = 0.57598E+04, time = 7.95 | CG iter. 54 -- res = 0.10456E+04, tol = 0.57598E+04, time = 7.99 | CG iter. 55 -- res = 0.93417E+03, tol = 0.57598E+04, time = 7.91 | CG iter. 56 -- res = 0.82120E+03, tol = 0.57598E+04, time = 7.77 | CG iter. 57 -- res = 0.74906E+03, tol = 0.57598E+04, time = 8.14 | CG iter. 58 -- res = 0.70398E+03, tol = 0.57598E+04, time = 8.05 | CG iter. 59 -- res = 0.67605E+03, tol = 0.57598E+04, time = 7.82 | CG iter. 60 -- res = 0.64554E+03, tol = 0.57598E+04, time = 7.98 | Final CG iter 61 -- res = 0.64554E+03, tol = 0.57598E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.898 ( -229.900 -2229.030 2511.235 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11229255.164 | Old band monopole 8305784.103 | Change to band monopole 2923471.061 | Change to component monopole -2923458.486 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.248 2.719 | New value 0.428 | Old value -4.248 | Difference 4.676 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.736 ( 8.291 9.384 -7.624 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.712 7.791 | New value -6.651 | Old value 15.712 | Difference -22.363 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.41 | CG iter. 1 -- res = 0.15950E+07, tol = 0.47627E+18, time = 1.31 | CG iter. 2 -- res = 0.13632E+03, tol = 0.47627E+18, time = 1.36 | CG iter. 3 -- res = 0.40854E+01, tol = 0.47627E+18, time = 1.37 | CG iter. 4 -- res = 0.73581E-02, tol = 0.47627E+18, time = 1.37 | Final CG iter 5 -- res = 0.96145E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11229206.864 | (Sampled value in CG: 11198877.346 ) | Chain = 1 -- chisq = 0.81602072E+09 | Chain = 1 -- wall time = 5000.455 sec Available RAM: MemAvailable: 370567672 kB Available Swap: SwapFree: 1462751844 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 156 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444361 | --> Sampling calibration, mode = relcal | relcal = 1.3431189E-02 7.3928415E-04 -1.5927765E-03 -1.2577696E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1245949 0.1363401 9405114.85299464 | BP delta = 0.1245949 0.1321796 9405121.63234313 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632358 | --> Sampling calibration, mode = relcal | relcal = -2.8206147E-03 -7.0336391E-04 1.6788029E-03 1.6144780E-03 -4.0833559E-04 6.3903327E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.6018711 15219595.7901840 | BP delta = 0.0000000E+00 -0.5993219 15219595.1394813 | BP chisq diff = -0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103824 | --> Sampling calibration, mode = relcal | relcal = 3.7085120E-02 1.3725777E-02 5.7555716E-03 -7.1685147E-03 8.2372371E-03 2.3999447E-03 -7.6042390E-03 -7.1795098E-03 -1.5303673E-02 -1.4802804E-02 -3.0537075E-03 -1.2091201E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.267709 132215791.018006 | BP delta = 0.0000000E+00 -1.337345 132215791.503494 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18253411623033 | --> Sampling calibration, mode = relcal | relcal = -7.4838445E-02 -5.8491118E-02 9.1754422E-02 4.1575134E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5030384E-04 4.2841001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1049E-05 | 2: delta_r/delta_0: 8.2757E-07 | 3: delta_s/delta_0: 2.2712E-07 | 4: delta_r/delta_0: 1.2396E-08 | 5: delta_s/delta_0: 4.4412E-08 | 6: delta_r/delta_0: 2.4803E-09 | 7: delta_s/delta_0: 3.5463E-10 | 8: delta_r/delta_0: 8.9580E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.000539982466021E-003 2.737547406611873E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1049E-05 | 2: delta_r/delta_0: 8.2757E-07 | 3: delta_s/delta_0: 2.2712E-07 | 4: delta_r/delta_0: 1.2395E-08 | 5: delta_s/delta_0: 4.4411E-08 | 6: delta_r/delta_0: 2.4804E-09 | 7: delta_s/delta_0: 3.5462E-10 | 8: delta_r/delta_0: 8.9579E-11 | Reached bicg-stab tolerance | BP delta = 1.3508207E-02 2.8127786E-02 3623837.47647298 | BP delta = 1.3508207E-02 2.7930001E-02 3624105.08044473 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02570626 | --> Sampling calibration, mode = relcal | relcal = -0.1065893 -9.5520638E-02 0.1448165 5.7293523E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3865946E-03 1.4121672E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1235E-05 | 2: delta_r/delta_0: 1.2165E-06 | 3: delta_s/delta_0: 2.3971E-07 | 4: delta_r/delta_0: 5.0465E-08 | 5: delta_s/delta_0: 1.7149E-08 | 6: delta_r/delta_0: 6.7683E-09 | 7: delta_s/delta_0: 1.9082E-08 | 8: delta_r/delta_0: 1.0501E-09 | 9: delta_s/delta_0: 9.1703E-10 | 10: delta_r/delta_0: 2.7044E-10 | 11: delta_s/delta_0: 2.8819E-09 | 12: delta_r/delta_0: 2.6382E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.667997443195995E-003 2.811603236799826E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1235E-05 | 2: delta_r/delta_0: 1.2165E-06 | 3: delta_s/delta_0: 2.3974E-07 | 4: delta_r/delta_0: 5.0511E-08 | 5: delta_s/delta_0: 1.7136E-08 | 6: delta_r/delta_0: 6.7718E-09 | 7: delta_s/delta_0: 1.9111E-08 | 8: delta_r/delta_0: 1.0513E-09 | 9: delta_s/delta_0: 9.1723E-10 | 10: delta_r/delta_0: 2.7083E-10 | 11: delta_s/delta_0: 2.8866E-09 | 12: delta_r/delta_0: 2.6414E-11 | Reached bicg-stab tolerance | BP delta = -0.2747240 -0.2484678 2841920.27506090 | BP delta = -0.2747240 -0.2477985 2841952.79944516 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215941 | --> Sampling calibration, mode = relcal | relcal = 0.2953670 0.2248212 -0.2836568 -0.2365314 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.5343192E-04 5.8439448E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0779E-03 | 2: delta_r/delta_0: 2.4772E-05 | 3: delta_s/delta_0: 2.7720E-06 | 4: delta_r/delta_0: 5.0023E-07 | 5: delta_s/delta_0: 1.9869E-06 | 6: delta_r/delta_0: 2.4270E-07 | 7: delta_s/delta_0: 6.5569E-08 | 8: delta_r/delta_0: 4.4069E-08 | 9: delta_s/delta_0: 1.3651E-06 | 10: delta_r/delta_0: 6.6608E-09 | 11: delta_s/delta_0: 1.3230E-09 | 12: delta_r/delta_0: 7.7766E-10 | 13: delta_s/delta_0: 6.5472E-10 | 14: delta_r/delta_0: 1.4506E-10 | 15: delta_s/delta_0: 3.1814E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.156225116011816E-002 4.021894840196960E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0776E-03 | 2: delta_r/delta_0: 2.4765E-05 | 3: delta_s/delta_0: 2.7720E-06 | 4: delta_r/delta_0: 5.0016E-07 | 5: delta_s/delta_0: 1.9852E-06 | 6: delta_r/delta_0: 2.4268E-07 | 7: delta_s/delta_0: 6.5568E-08 | 8: delta_r/delta_0: 4.4065E-08 | 9: delta_s/delta_0: 1.3662E-06 | 10: delta_r/delta_0: 6.6614E-09 | 11: delta_s/delta_0: 1.3222E-09 | 12: delta_r/delta_0: 7.7780E-10 | 13: delta_s/delta_0: 6.5427E-10 | 14: delta_r/delta_0: 1.4507E-10 | 15: delta_s/delta_0: 3.1827E-11 | Reached bicg-stab tolerance | BP delta = -5.7202190E-02 -6.6970207E-02 2827565.13682458 | BP delta = -5.7202190E-02 -6.3387774E-02 2827571.71644019 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95905325 | --> Sampling calibration, mode = relcal | relcal = 0.1064297 0.1395697 -0.1102073 -0.1357921 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6892063E-03 1.2598362E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4063E-04 | 2: delta_r/delta_0: 3.9539E-06 | 3: delta_s/delta_0: 1.0702E-05 | 4: delta_r/delta_0: 1.4527E-06 | 5: delta_s/delta_0: 1.5660E-07 | 6: delta_r/delta_0: 1.0267E-07 | 7: delta_s/delta_0: 9.3098E-07 | 8: delta_r/delta_0: 2.1301E-08 | 9: delta_s/delta_0: 3.6339E-08 | 10: delta_r/delta_0: 1.7139E-08 | 11: delta_s/delta_0: 9.4116E-10 | 12: delta_r/delta_0: 6.2019E-10 | 13: delta_s/delta_0: 2.9251E-10 | 14: delta_r/delta_0: 1.7070E-10 | 15: delta_s/delta_0: 6.7200E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.844644851479269E-002 3.697608967392355E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4063E-04 | 2: delta_r/delta_0: 3.9539E-06 | 3: delta_s/delta_0: 1.0702E-05 | 4: delta_r/delta_0: 1.4527E-06 | 5: delta_s/delta_0: 1.5660E-07 | 6: delta_r/delta_0: 1.0267E-07 | 7: delta_s/delta_0: 9.3095E-07 | 8: delta_r/delta_0: 2.1301E-08 | 9: delta_s/delta_0: 3.6341E-08 | 10: delta_r/delta_0: 1.7139E-08 | 11: delta_s/delta_0: 9.4119E-10 | 12: delta_r/delta_0: 6.2019E-10 | 13: delta_s/delta_0: 2.9248E-10 | 14: delta_r/delta_0: 1.7073E-10 | 15: delta_s/delta_0: 6.7202E-11 | Reached bicg-stab tolerance | BP delta = 1.6453285E-02 0.1183343 3004393.98263142 | BP delta = 1.6453285E-02 0.1210672 3004392.12389631 | BP chisq diff = -1.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52171683 | --> Sampling calibration, mode = relcal | relcal = -5.1090512E-02 -3.7206179E-03 2.7276723E-02 2.7534408E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.9298649E-04 2.6241702E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0854E-05 | 2: delta_r/delta_0: 4.4696E-06 | 3: delta_s/delta_0: 5.6599E-07 | 4: delta_r/delta_0: 1.5387E-07 | 5: delta_s/delta_0: 5.6479E-05 | 6: delta_r/delta_0: 7.3524E-06 | 7: delta_s/delta_0: 2.3230E-08 | 8: delta_r/delta_0: 7.3499E-09 | 9: delta_s/delta_0: 4.2030E-08 | 10: delta_r/delta_0: 3.8285E-09 | 11: delta_s/delta_0: 1.3709E-09 | 12: delta_r/delta_0: 4.8805E-10 | 13: delta_s/delta_0: 1.2315E-09 | 14: delta_r/delta_0: 2.1944E-10 | 15: delta_s/delta_0: 1.9967E-10 | 16: delta_r/delta_0: 5.6688E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.216611899998589E-002 5.481816462037433E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.0854E-05 | 2: delta_r/delta_0: 4.4696E-06 | 3: delta_s/delta_0: 5.6598E-07 | 4: delta_r/delta_0: 1.5387E-07 | 5: delta_s/delta_0: 5.6398E-05 | 6: delta_r/delta_0: 7.3412E-06 | 7: delta_s/delta_0: 2.3230E-08 | 8: delta_r/delta_0: 7.3500E-09 | 9: delta_s/delta_0: 4.2026E-08 | 10: delta_r/delta_0: 3.8284E-09 | 11: delta_s/delta_0: 1.3711E-09 | 12: delta_r/delta_0: 4.8800E-10 | 13: delta_s/delta_0: 1.2309E-09 | 14: delta_r/delta_0: 2.1924E-10 | 15: delta_s/delta_0: 1.9942E-10 | 16: delta_r/delta_0: 5.6600E-11 | Reached bicg-stab tolerance | BP delta = 1.4171252E-02 9.6505299E-02 2435135.26964984 | BP delta = 1.4171252E-02 8.3234109E-02 2435136.46378481 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42171210 | --> Sampling calibration, mode = relcal | relcal = 4.5598067E-02 3.9698526E-02 -2.8357394E-02 -5.6939200E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1349028E-03 3.3948559E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2616E-05 | 2: delta_r/delta_0: 3.6282E-06 | 3: delta_s/delta_0: 2.2867E-06 | 4: delta_r/delta_0: 3.5732E-07 | 5: delta_s/delta_0: 6.2686E-08 | 6: delta_r/delta_0: 3.6218E-08 | 7: delta_s/delta_0: 7.5378E-08 | 8: delta_r/delta_0: 8.0228E-09 | 9: delta_s/delta_0: 2.3982E-09 | 10: delta_r/delta_0: 1.5029E-09 | 11: delta_s/delta_0: 1.8736E-09 | 12: delta_r/delta_0: 9.8213E-10 | 13: delta_s/delta_0: 1.1595E-09 | 14: delta_r/delta_0: 6.8800E-10 | 15: delta_s/delta_0: 2.1491E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.466376893170690E-002 4.994258283936097E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2616E-05 | 2: delta_r/delta_0: 3.6282E-06 | 3: delta_s/delta_0: 2.2866E-06 | 4: delta_r/delta_0: 3.5732E-07 | 5: delta_s/delta_0: 6.2686E-08 | 6: delta_r/delta_0: 3.6217E-08 | 7: delta_s/delta_0: 7.5370E-08 | 8: delta_r/delta_0: 8.0229E-09 | 9: delta_s/delta_0: 2.3983E-09 | 10: delta_r/delta_0: 1.5030E-09 | 11: delta_s/delta_0: 1.8738E-09 | 12: delta_r/delta_0: 9.8218E-10 | 13: delta_s/delta_0: 1.1595E-09 | 14: delta_r/delta_0: 6.8786E-10 | 15: delta_s/delta_0: 2.1492E-11 | Reached bicg-stab tolerance | BP delta = -5.2419882E-02 -0.1519387 2321923.05210893 | BP delta = -5.2419882E-02 -0.1431827 2321936.35825559 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28177692 | --> Sampling calibration, mode = relcal | relcal = 2.4257280E-02 4.5166511E-02 -2.3378665E-02 -4.6045125E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3532556E-02 3.7140562E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1089E-04 | 2: delta_r/delta_0: 8.8178E-06 | 3: delta_s/delta_0: 1.5068E-06 | 4: delta_r/delta_0: 2.1282E-07 | 5: delta_s/delta_0: 6.6133E-08 | 6: delta_r/delta_0: 1.8490E-08 | 7: delta_s/delta_0: 8.5897E-09 | 8: delta_r/delta_0: 5.6562E-09 | 9: delta_s/delta_0: 1.4403E-08 | 10: delta_r/delta_0: 4.3239E-09 | 11: delta_s/delta_0: 7.3226E-09 | 12: delta_r/delta_0: 1.3011E-09 | 13: delta_s/delta_0: 1.5961E-09 | 14: delta_r/delta_0: 7.9760E-10 | 15: delta_s/delta_0: 6.4751E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.771954242563245E-003 7.839544452907015E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1089E-04 | 2: delta_r/delta_0: 8.8178E-06 | 3: delta_s/delta_0: 1.5068E-06 | 4: delta_r/delta_0: 2.1283E-07 | 5: delta_s/delta_0: 6.6136E-08 | 6: delta_r/delta_0: 1.8490E-08 | 7: delta_s/delta_0: 8.5899E-09 | 8: delta_r/delta_0: 5.6563E-09 | 9: delta_s/delta_0: 1.4402E-08 | 10: delta_r/delta_0: 4.3241E-09 | 11: delta_s/delta_0: 7.3229E-09 | 12: delta_r/delta_0: 1.3010E-09 | 13: delta_s/delta_0: 1.5955E-09 | 14: delta_r/delta_0: 7.9709E-10 | 15: delta_s/delta_0: 6.4747E-11 | Reached bicg-stab tolerance | BP delta = -0.1109255 -0.1944431 2490675.89766003 | BP delta = -0.1109255 -0.1924209 2490668.73939166 | BP chisq diff = -7.2, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29412538 | --> Sampling calibration, mode = relcal | relcal = 6.4700592E-04 1.0231642E-02 -3.8169371E-03 -7.0617106E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5150809E-02 1.6273703E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3067E-04 | 2: delta_r/delta_0: 1.1204E-05 | 3: delta_s/delta_0: 1.8553E-06 | 4: delta_r/delta_0: 2.9261E-07 | 5: delta_s/delta_0: 1.1447E-07 | 6: delta_r/delta_0: 2.4907E-08 | 7: delta_s/delta_0: 1.1508E-08 | 8: delta_r/delta_0: 7.8192E-09 | 9: delta_s/delta_0: 8.0341E-09 | 10: delta_r/delta_0: 5.1969E-09 | 11: delta_s/delta_0: 4.8180E-05 | 12: delta_r/delta_0: 7.1271E-06 | 13: delta_s/delta_0: 5.2896E-10 | 14: delta_r/delta_0: 2.1569E-10 | 15: delta_s/delta_0: 7.9989E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.024159447629756E-002 8.301032740939619E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3067E-04 | 2: delta_r/delta_0: 1.1204E-05 | 3: delta_s/delta_0: 1.8553E-06 | 4: delta_r/delta_0: 2.9262E-07 | 5: delta_s/delta_0: 1.1446E-07 | 6: delta_r/delta_0: 2.4908E-08 | 7: delta_s/delta_0: 1.1508E-08 | 8: delta_r/delta_0: 7.8193E-09 | 9: delta_s/delta_0: 8.0342E-09 | 10: delta_r/delta_0: 5.1969E-09 | 11: delta_s/delta_0: 4.7553E-05 | 12: delta_r/delta_0: 7.0382E-06 | 13: delta_s/delta_0: 5.2904E-10 | 14: delta_r/delta_0: 2.1571E-10 | 15: delta_s/delta_0: 7.9989E-11 | Reached bicg-stab tolerance | BP delta = -0.8611194 -0.8317156 2738087.66323412 | BP delta = -0.8611194 -0.8492737 2738095.90290979 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26522212 | --> Sampling calibration, mode = relcal | relcal = -5.6620580E-03 1.5084788E-02 -2.3443117E-03 -7.0784185E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.2666384E-03 4.3934453E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4108E-04 | 2: delta_r/delta_0: 1.2138E-05 | 3: delta_s/delta_0: 2.1755E-06 | 4: delta_r/delta_0: 2.5004E-07 | 5: delta_s/delta_0: 8.7981E-08 | 6: delta_r/delta_0: 1.9106E-08 | 7: delta_s/delta_0: 8.1331E-09 | 8: delta_r/delta_0: 5.0532E-09 | 9: delta_s/delta_0: 5.4730E-09 | 10: delta_r/delta_0: 3.7080E-09 | 11: delta_s/delta_0: 4.8139E-06 | 12: delta_r/delta_0: 4.5801E-07 | 13: delta_s/delta_0: 1.4354E-09 | 14: delta_r/delta_0: 5.6559E-10 | 15: delta_s/delta_0: 6.6504E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.141594331413553E-003 9.148111062670444E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4108E-04 | 2: delta_r/delta_0: 1.2138E-05 | 3: delta_s/delta_0: 2.1755E-06 | 4: delta_r/delta_0: 2.5004E-07 | 5: delta_s/delta_0: 8.7981E-08 | 6: delta_r/delta_0: 1.9106E-08 | 7: delta_s/delta_0: 8.1331E-09 | 8: delta_r/delta_0: 5.0532E-09 | 9: delta_s/delta_0: 5.4730E-09 | 10: delta_r/delta_0: 3.7080E-09 | 11: delta_s/delta_0: 4.8140E-06 | 12: delta_r/delta_0: 4.5802E-07 | 13: delta_s/delta_0: 1.4354E-09 | 14: delta_r/delta_0: 5.6559E-10 | 15: delta_s/delta_0: 6.6504E-11 | Reached bicg-stab tolerance | BP delta = 0.3257066 0.3566229 2516530.13178574 | BP delta = 0.3257066 0.3582757 2516530.14208260 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25681578 | --> Sampling calibration, mode = relcal | relcal = -3.1716116E-02 -2.5995530E-02 3.6982406E-02 2.0729240E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2594532E-02 2.0480732E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4419E-04 | 2: delta_r/delta_0: 1.2186E-05 | 3: delta_s/delta_0: 2.0176E-06 | 4: delta_r/delta_0: 4.1091E-07 | 5: delta_s/delta_0: 1.4880E-07 | 6: delta_r/delta_0: 3.0544E-08 | 7: delta_s/delta_0: 1.4492E-08 | 8: delta_r/delta_0: 8.0731E-09 | 9: delta_s/delta_0: 2.1225E-08 | 10: delta_r/delta_0: 4.8380E-09 | 11: delta_s/delta_0: 2.1250E-08 | 12: delta_r/delta_0: 1.1164E-08 | 13: delta_s/delta_0: 3.2792E-10 | 14: delta_r/delta_0: 2.5122E-10 | 15: delta_s/delta_0: 1.3543E-10 | 16: delta_r/delta_0: 1.0543E-10 | 17: delta_s/delta_0: 8.8497E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.098698481564346E-002 8.666216270397759E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4419E-04 | 2: delta_r/delta_0: 1.2186E-05 | 3: delta_s/delta_0: 2.0176E-06 | 4: delta_r/delta_0: 4.1091E-07 | 5: delta_s/delta_0: 1.4880E-07 | 6: delta_r/delta_0: 3.0544E-08 | 7: delta_s/delta_0: 1.4492E-08 | 8: delta_r/delta_0: 8.0731E-09 | 9: delta_s/delta_0: 2.1228E-08 | 10: delta_r/delta_0: 4.8380E-09 | 11: delta_s/delta_0: 2.1230E-08 | 12: delta_r/delta_0: 1.1153E-08 | 13: delta_s/delta_0: 3.2788E-10 | 14: delta_r/delta_0: 2.5119E-10 | 15: delta_s/delta_0: 1.3544E-10 | 16: delta_r/delta_0: 1.0543E-10 | 17: delta_s/delta_0: 8.8455E-11 | Reached bicg-stab tolerance | BP delta = -0.6572278 -0.7567308 2705837.46167905 | BP delta = -0.6572278 -0.7418616 2705850.64956297 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.315540 | New value = -3.132895 | poltype: 2 pol: 1 CPU time specind = 3.2014847E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.110327 | New value = -3.250918 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.098994 | New value = -3.133308 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.220788 | New value = -3.245373 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155455 | New value = -3.108151 | poltype: 2 pol: 2 CPU time specind = 1.7230988E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.44 | CG iter. 1 -- res = 0.13800E+08, tol = 0.61681E+01, time = 4.11 | CG iter. 2 -- res = 0.43971E+06, tol = 0.61681E+01, time = 3.99 | CG iter. 3 -- res = 0.17814E+06, tol = 0.61681E+01, time = 3.88 | CG iter. 4 -- res = 0.31578E+06, tol = 0.61681E+01, time = 4.13 | CG iter. 5 -- res = 0.33047E+06, tol = 0.61681E+01, time = 4.05 | CG iter. 6 -- res = 0.27808E+06, tol = 0.61681E+01, time = 4.01 | CG iter. 7 -- res = 0.20738E+06, tol = 0.61681E+01, time = 3.84 | CG iter. 8 -- res = 0.14079E+06, tol = 0.61681E+01, time = 3.95 | CG iter. 9 -- res = 0.12108E+06, tol = 0.61681E+01, time = 4.23 | CG iter. 10 -- res = 0.10238E+06, tol = 0.61681E+01, time = 3.83 | CG iter. 11 -- res = 0.74210E+05, tol = 0.61681E+01, time = 3.99 | CG iter. 12 -- res = 0.56005E+05, tol = 0.61681E+01, time = 4.03 | CG iter. 13 -- res = 0.46842E+05, tol = 0.61681E+01, time = 4.14 | CG iter. 14 -- res = 0.39007E+05, tol = 0.61681E+01, time = 3.92 | CG iter. 15 -- res = 0.29889E+05, tol = 0.61681E+01, time = 4.05 | CG iter. 16 -- res = 0.21311E+05, tol = 0.61681E+01, time = 4.28 | CG iter. 17 -- res = 0.16146E+05, tol = 0.61681E+01, time = 4.17 | CG iter. 18 -- res = 0.14110E+05, tol = 0.61681E+01, time = 4.07 | CG iter. 19 -- res = 0.12140E+05, tol = 0.61681E+01, time = 3.99 | CG iter. 20 -- res = 0.94501E+04, tol = 0.61681E+01, time = 4.07 | CG iter. 21 -- res = 0.72174E+04, tol = 0.61681E+01, time = 3.98 | CG iter. 22 -- res = 0.61257E+04, tol = 0.61681E+01, time = 4.05 | CG iter. 23 -- res = 0.52945E+04, tol = 0.61681E+01, time = 4.70 | CG iter. 24 -- res = 0.42948E+04, tol = 0.61681E+01, time = 4.13 | CG iter. 25 -- res = 0.32872E+04, tol = 0.61681E+01, time = 4.27 | CG iter. 26 -- res = 0.27290E+04, tol = 0.61681E+01, time = 4.05 | CG iter. 27 -- res = 0.24832E+04, tol = 0.61681E+01, time = 4.04 | CG iter. 28 -- res = 0.21187E+04, tol = 0.61681E+01, time = 3.85 | CG iter. 29 -- res = 0.15833E+04, tol = 0.61681E+01, time = 4.06 | CG iter. 30 -- res = 0.12973E+04, tol = 0.61681E+01, time = 4.10 | CG iter. 31 -- res = 0.11278E+04, tol = 0.61681E+01, time = 4.19 | CG iter. 32 -- res = 0.97715E+03, tol = 0.61681E+01, time = 4.11 | CG iter. 33 -- res = 0.74192E+03, tol = 0.61681E+01, time = 3.94 | CG iter. 34 -- res = 0.56016E+03, tol = 0.61681E+01, time = 3.99 | CG iter. 35 -- res = 0.47235E+03, tol = 0.61681E+01, time = 4.23 | CG iter. 36 -- res = 0.41157E+03, tol = 0.61681E+01, time = 3.94 | CG iter. 37 -- res = 0.33036E+03, tol = 0.61681E+01, time = 3.93 | CG iter. 38 -- res = 0.24356E+03, tol = 0.61681E+01, time = 4.02 | CG iter. 39 -- res = 0.19454E+03, tol = 0.61681E+01, time = 4.14 | CG iter. 40 -- res = 0.16191E+03, tol = 0.61681E+01, time = 3.99 | CG iter. 41 -- res = 0.13015E+03, tol = 0.61681E+01, time = 4.03 | CG iter. 42 -- res = 0.97050E+02, tol = 0.61681E+01, time = 4.00 | CG iter. 43 -- res = 0.74932E+02, tol = 0.61681E+01, time = 4.04 | CG iter. 44 -- res = 0.61598E+02, tol = 0.61681E+01, time = 4.12 | CG iter. 45 -- res = 0.50203E+02, tol = 0.61681E+01, time = 4.01 | CG iter. 46 -- res = 0.37564E+02, tol = 0.61681E+01, time = 4.15 | CG iter. 47 -- res = 0.28050E+02, tol = 0.61681E+01, time = 7.82 | CG iter. 48 -- res = 0.22578E+02, tol = 0.61681E+01, time = 6.98 | CG iter. 49 -- res = 0.18162E+02, tol = 0.61681E+01, time = 4.09 | CG iter. 50 -- res = 0.14399E+02, tol = 0.61681E+01, time = 4.19 | Final CG iter 51 -- res = 0.14399E+02, tol = 0.61681E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10142362.023 | Old band monopole 11229255.164 | Change to band monopole -1086893.141 | Change to component monopole 1086888.466 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.10235E+07, tol = 0.47627E+18, time = 1.42 | CG iter. 2 -- res = 0.40811E+03, tol = 0.47627E+18, time = 1.34 | CG iter. 3 -- res = 0.36414E+01, tol = 0.47627E+18, time = 1.32 | CG iter. 4 -- res = 0.63848E-01, tol = 0.47627E+18, time = 1.46 | Final CG iter 5 -- res = 0.10537E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10142318.398 | (Sampled value in CG: 10261018.484 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.480210 | New value = 1.528234 | poltype: 2 pol: 1 CPU time specind = 6.4458847E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477831 | New value = 1.488121 | poltype: 2 pol: 2 CPU time specind = 2.2469997E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.24515E+08, tol = 0.47639E+04, time = 4.74 | CG iter. 2 -- res = 0.53684E+07, tol = 0.47639E+04, time = 4.66 | CG iter. 3 -- res = 0.84893E+06, tol = 0.47639E+04, time = 4.60 | CG iter. 4 -- res = 0.36213E+06, tol = 0.47639E+04, time = 4.81 | CG iter. 5 -- res = 0.15684E+06, tol = 0.47639E+04, time = 4.75 | CG iter. 6 -- res = 0.81746E+05, tol = 0.47639E+04, time = 4.46 | CG iter. 7 -- res = 0.44376E+05, tol = 0.47639E+04, time = 4.75 | CG iter. 8 -- res = 0.21163E+05, tol = 0.47639E+04, time = 4.77 | CG iter. 9 -- res = 0.90026E+04, tol = 0.47639E+04, time = 4.67 | CG iter. 10 -- res = 0.36551E+04, tol = 0.47639E+04, time = 4.63 | CG iter. 11 -- res = 0.16555E+04, tol = 0.47639E+04, time = 4.71 | CG iter. 12 -- res = 0.88015E+03, tol = 0.47639E+04, time = 4.80 | CG iter. 13 -- res = 0.50593E+03, tol = 0.47639E+04, time = 4.51 | CG iter. 14 -- res = 0.28138E+03, tol = 0.47639E+04, time = 4.66 | CG iter. 15 -- res = 0.14413E+03, tol = 0.47639E+04, time = 4.92 | CG iter. 16 -- res = 0.66321E+02, tol = 0.47639E+04, time = 4.88 | CG iter. 17 -- res = 0.31396E+02, tol = 0.47639E+04, time = 4.58 | CG iter. 18 -- res = 0.15913E+02, tol = 0.47639E+04, time = 4.73 | CG iter. 19 -- res = 0.86816E+01, tol = 0.47639E+04, time = 4.80 | CG iter. 20 -- res = 0.50300E+01, tol = 0.47639E+04, time = 4.64 | CG iter. 21 -- res = 0.27692E+01, tol = 0.47639E+04, time = 4.78 | CG iter. 22 -- res = 0.14088E+01, tol = 0.47639E+04, time = 4.60 | CG iter. 23 -- res = 0.69589E+00, tol = 0.47639E+04, time = 4.69 | CG iter. 24 -- res = 0.36337E+00, tol = 0.47639E+04, time = 4.60 | CG iter. 25 -- res = 0.19387E+00, tol = 0.47639E+04, time = 4.65 | CG iter. 26 -- res = 0.10937E+00, tol = 0.47639E+04, time = 4.69 | CG iter. 27 -- res = 0.61910E-01, tol = 0.47639E+04, time = 4.74 | CG iter. 28 -- res = 0.33687E-01, tol = 0.47639E+04, time = 4.62 | CG iter. 29 -- res = 0.17490E-01, tol = 0.47639E+04, time = 4.54 | CG iter. 30 -- res = 0.91118E-02, tol = 0.47639E+04, time = 4.75 | CG iter. 31 -- res = 0.50060E-02, tol = 0.47639E+04, time = 4.74 | CG iter. 32 -- res = 0.28362E-02, tol = 0.47639E+04, time = 4.70 | CG iter. 33 -- res = 0.15780E-02, tol = 0.47639E+04, time = 4.59 | CG iter. 34 -- res = 0.85496E-03, tol = 0.47639E+04, time = 4.80 | CG iter. 35 -- res = 0.44723E-03, tol = 0.47639E+04, time = 4.57 | Final CG iter 36 -- res = 0.44723E-03, tol = 0.47639E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.482 2.746 | New value 6.413 | Old value 0.482 | Difference 5.931 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.18426E+07, tol = 0.47627E+18, time = 1.35 | CG iter. 2 -- res = 0.18333E+03, tol = 0.47627E+18, time = 1.40 | CG iter. 3 -- res = 0.32362E+01, tol = 0.47627E+18, time = 1.47 | CG iter. 4 -- res = 0.35662E-03, tol = 0.47627E+18, time = 1.37 | Final CG iter 5 -- res = 0.74935E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10142318.398 | (Sampled value in CG: 10259233.717 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.532321 | New value = -3.609200 | poltype: 1 pol: 1 CPU time specind = 6.5908432E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.43330E+07, tol = 0.20155E+01, time = 1.67 | CG iter. 2 -- res = 0.21578E+07, tol = 0.20155E+01, time = 1.77 | CG iter. 3 -- res = 0.48199E+06, tol = 0.20155E+01, time = 2.01 | CG iter. 4 -- res = 0.21284E+06, tol = 0.20155E+01, time = 1.82 | CG iter. 5 -- res = 0.12556E+06, tol = 0.20155E+01, time = 1.82 | CG iter. 6 -- res = 0.56313E+05, tol = 0.20155E+01, time = 1.76 | CG iter. 7 -- res = 0.17936E+05, tol = 0.20155E+01, time = 1.90 | CG iter. 8 -- res = 0.69913E+04, tol = 0.20155E+01, time = 1.79 | CG iter. 9 -- res = 0.34130E+04, tol = 0.20155E+01, time = 1.83 | CG iter. 10 -- res = 0.14295E+04, tol = 0.20155E+01, time = 1.89 | CG iter. 11 -- res = 0.58493E+03, tol = 0.20155E+01, time = 2.03 | CG iter. 12 -- res = 0.28421E+03, tol = 0.20155E+01, time = 1.73 | CG iter. 13 -- res = 0.14313E+03, tol = 0.20155E+01, time = 1.72 | CG iter. 14 -- res = 0.69452E+02, tol = 0.20155E+01, time = 2.47 | CG iter. 15 -- res = 0.30711E+02, tol = 0.20155E+01, time = 1.79 | CG iter. 16 -- res = 0.13118E+02, tol = 0.20155E+01, time = 1.71 | CG iter. 17 -- res = 0.56099E+01, tol = 0.20155E+01, time = 1.94 | CG iter. 18 -- res = 0.26931E+01, tol = 0.20155E+01, time = 1.91 | CG iter. 19 -- res = 0.13341E+01, tol = 0.20155E+01, time = 1.83 | CG iter. 20 -- res = 0.64926E+00, tol = 0.20155E+01, time = 1.96 | CG iter. 21 -- res = 0.29953E+00, tol = 0.20155E+01, time = 1.84 | CG iter. 22 -- res = 0.12855E+00, tol = 0.20155E+01, time = 1.87 | CG iter. 23 -- res = 0.56574E-01, tol = 0.20155E+01, time = 1.80 | CG iter. 24 -- res = 0.26057E-01, tol = 0.20155E+01, time = 1.87 | CG iter. 25 -- res = 0.13142E-01, tol = 0.20155E+01, time = 1.89 | CG iter. 26 -- res = 0.66034E-02, tol = 0.20155E+01, time = 1.85 | CG iter. 27 -- res = 0.32262E-02, tol = 0.20155E+01, time = 1.77 | CG iter. 28 -- res = 0.15361E-02, tol = 0.20155E+01, time = 1.97 | CG iter. 29 -- res = 0.66826E-03, tol = 0.20155E+01, time = 2.02 | CG iter. 30 -- res = 0.31641E-03, tol = 0.20155E+01, time = 1.79 | CG iter. 31 -- res = 0.15160E-03, tol = 0.20155E+01, time = 1.85 | CG iter. 32 -- res = 0.78717E-04, tol = 0.20155E+01, time = 1.90 | CG iter. 33 -- res = 0.38594E-04, tol = 0.20155E+01, time = 1.92 | CG iter. 34 -- res = 0.18010E-04, tol = 0.20155E+01, time = 1.85 | CG iter. 35 -- res = 0.87887E-05, tol = 0.20155E+01, time = 1.80 | CG iter. 36 -- res = 0.41327E-05, tol = 0.20155E+01, time = 1.80 | CG iter. 37 -- res = 0.19595E-05, tol = 0.20155E+01, time = 1.89 | CG iter. 38 -- res = 0.98567E-06, tol = 0.20155E+01, time = 1.93 | CG iter. 39 -- res = 0.49330E-06, tol = 0.20155E+01, time = 1.95 | CG iter. 40 -- res = 0.23704E-06, tol = 0.20155E+01, time = 1.82 | CG iter. 41 -- res = 0.10960E-06, tol = 0.20155E+01, time = 1.76 | CG iter. 42 -- res = 0.51662E-07, tol = 0.20155E+01, time = 1.86 | CG iter. 43 -- res = 0.23437E-07, tol = 0.20155E+01, time = 1.84 | CG iter. 44 -- res = 0.11859E-07, tol = 0.20155E+01, time = 1.75 | CG iter. 45 -- res = 0.57345E-08, tol = 0.20155E+01, time = 1.84 | CG iter. 46 -- res = 0.27582E-08, tol = 0.20155E+01, time = 1.92 | CG iter. 47 -- res = 0.12932E-08, tol = 0.20155E+01, time = 1.91 | CG iter. 48 -- res = 0.60320E-09, tol = 0.20155E+01, time = 1.90 | CG iter. 49 -- res = 0.28511E-09, tol = 0.20155E+01, time = 1.83 | CG iter. 50 -- res = 0.13956E-09, tol = 0.20155E+01, time = 1.90 | Final CG iter 51 -- res = 0.13956E-09, tol = 0.20155E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.999 5.670 | New value -0.811 | Old value 2.999 | Difference -3.810 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.25305E+05, tol = 0.47627E+18, time = 6.08 | CG iter. 2 -- res = 0.73901E+02, tol = 0.47627E+18, time = 1.47 | CG iter. 3 -- res = 0.20520E+01, tol = 0.47627E+18, time = 1.37 | CG iter. 4 -- res = 0.23727E-02, tol = 0.47627E+18, time = 1.31 | Final CG iter 5 -- res = 0.50900E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10142318.398 | (Sampled value in CG: 10232901.812 ) | CPU time specind = 864.7732 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.69878E+08, tol = 0.57799E+04, time = 8.43 | CG iter. 2 -- res = 0.59417E+08, tol = 0.57799E+04, time = 8.59 | CG iter. 3 -- res = 0.15723E+08, tol = 0.57799E+04, time = 8.47 | CG iter. 4 -- res = 0.67521E+07, tol = 0.57799E+04, time = 8.66 | CG iter. 5 -- res = 0.40571E+07, tol = 0.57799E+04, time = 9.53 | CG iter. 6 -- res = 0.23879E+07, tol = 0.57799E+04, time = 9.48 | CG iter. 7 -- res = 0.14262E+07, tol = 0.57799E+04, time = 8.62 | CG iter. 8 -- res = 0.96088E+06, tol = 0.57799E+04, time = 8.63 | CG iter. 9 -- res = 0.63995E+06, tol = 0.57799E+04, time = 8.24 | CG iter. 10 -- res = 0.40671E+06, tol = 0.57799E+04, time = 8.65 | CG iter. 11 -- res = 0.24369E+06, tol = 0.57799E+04, time = 8.44 | CG iter. 12 -- res = 0.15614E+06, tol = 0.57799E+04, time = 8.58 | CG iter. 13 -- res = 0.11371E+06, tol = 0.57799E+04, time = 8.33 | CG iter. 14 -- res = 0.95068E+05, tol = 0.57799E+04, time = 8.55 | CG iter. 15 -- res = 0.94491E+05, tol = 0.57799E+04, time = 8.47 | CG iter. 16 -- res = 0.98995E+05, tol = 0.57799E+04, time = 8.49 | CG iter. 17 -- res = 0.10200E+06, tol = 0.57799E+04, time = 8.49 | CG iter. 18 -- res = 0.95853E+05, tol = 0.57799E+04, time = 8.49 | CG iter. 19 -- res = 0.85183E+05, tol = 0.57799E+04, time = 8.47 | CG iter. 20 -- res = 0.75730E+05, tol = 0.57799E+04, time = 8.29 | CG iter. 21 -- res = 0.66789E+05, tol = 0.57799E+04, time = 8.61 | CG iter. 22 -- res = 0.61453E+05, tol = 0.57799E+04, time = 8.52 | CG iter. 23 -- res = 0.56154E+05, tol = 0.57799E+04, time = 8.28 | CG iter. 24 -- res = 0.47852E+05, tol = 0.57799E+04, time = 8.63 | CG iter. 25 -- res = 0.37022E+05, tol = 0.57799E+04, time = 8.51 | CG iter. 26 -- res = 0.27561E+05, tol = 0.57799E+04, time = 8.57 | CG iter. 27 -- res = 0.20739E+05, tol = 0.57799E+04, time = 8.49 | CG iter. 28 -- res = 0.16772E+05, tol = 0.57799E+04, time = 8.79 | CG iter. 29 -- res = 0.15348E+05, tol = 0.57799E+04, time = 9.54 | CG iter. 30 -- res = 0.14954E+05, tol = 0.57799E+04, time = 14.15 | CG iter. 31 -- res = 0.14069E+05, tol = 0.57799E+04, time = 8.56 | CG iter. 32 -- res = 0.12735E+05, tol = 0.57799E+04, time = 8.59 | CG iter. 33 -- res = 0.11051E+05, tol = 0.57799E+04, time = 8.43 | CG iter. 34 -- res = 0.92396E+04, tol = 0.57799E+04, time = 8.57 | CG iter. 35 -- res = 0.79102E+04, tol = 0.57799E+04, time = 8.49 | CG iter. 36 -- res = 0.70334E+04, tol = 0.57799E+04, time = 8.62 | CG iter. 37 -- res = 0.63843E+04, tol = 0.57799E+04, time = 8.43 | CG iter. 38 -- res = 0.56835E+04, tol = 0.57799E+04, time = 8.39 | CG iter. 39 -- res = 0.48214E+04, tol = 0.57799E+04, time = 9.12 | CG iter. 40 -- res = 0.39912E+04, tol = 0.57799E+04, time = 10.05 | CG iter. 41 -- res = 0.33501E+04, tol = 0.57799E+04, time = 8.61 | CG iter. 42 -- res = 0.29130E+04, tol = 0.57799E+04, time = 8.57 | CG iter. 43 -- res = 0.27212E+04, tol = 0.57799E+04, time = 8.68 | CG iter. 44 -- res = 0.26199E+04, tol = 0.57799E+04, time = 8.47 | CG iter. 45 -- res = 0.24817E+04, tol = 0.57799E+04, time = 8.53 | CG iter. 46 -- res = 0.22681E+04, tol = 0.57799E+04, time = 8.37 | CG iter. 47 -- res = 0.20214E+04, tol = 0.57799E+04, time = 8.44 | CG iter. 48 -- res = 0.17839E+04, tol = 0.57799E+04, time = 8.65 | CG iter. 49 -- res = 0.16455E+04, tol = 0.57799E+04, time = 8.44 | CG iter. 50 -- res = 0.14995E+04, tol = 0.57799E+04, time = 8.61 | CG iter. 51 -- res = 0.13822E+04, tol = 0.57799E+04, time = 8.57 | CG iter. 52 -- res = 0.12784E+04, tol = 0.57799E+04, time = 9.11 | CG iter. 53 -- res = 0.11547E+04, tol = 0.57799E+04, time = 8.36 | CG iter. 54 -- res = 0.10199E+04, tol = 0.57799E+04, time = 8.63 | CG iter. 55 -- res = 0.90171E+03, tol = 0.57799E+04, time = 8.33 | CG iter. 56 -- res = 0.80440E+03, tol = 0.57799E+04, time = 8.48 | CG iter. 57 -- res = 0.74155E+03, tol = 0.57799E+04, time = 8.34 | CG iter. 58 -- res = 0.71317E+03, tol = 0.57799E+04, time = 8.64 | CG iter. 59 -- res = 0.69025E+03, tol = 0.57799E+04, time = 8.16 | CG iter. 60 -- res = 0.65709E+03, tol = 0.57799E+04, time = 8.73 | Final CG iter 61 -- res = 0.65709E+03, tol = 0.57799E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.790 ( -229.912 -2228.619 2510.915 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11581641.366 | Old band monopole 10142362.023 | Change to band monopole 1439279.344 | Change to component monopole -1439273.153 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 6.449 2.746 | New value 3.575 | Old value 6.449 | Difference -2.874 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.968 ( 6.919 8.135 -7.535 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.659 5.575 | New value -1.463 | Old value -2.659 | Difference 1.196 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.43353E+06, tol = 0.47627E+18, time = 1.39 | CG iter. 2 -- res = 0.24184E+02, tol = 0.47627E+18, time = 1.47 | CG iter. 3 -- res = 0.53653E+00, tol = 0.47627E+18, time = 1.35 | CG iter. 4 -- res = 0.83896E-03, tol = 0.47627E+18, time = 1.43 | Final CG iter 5 -- res = 0.16715E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11581591.551 | (Sampled value in CG: 11567297.071 ) | Chain = 1 -- chisq = 0.81528042E+09 | Chain = 1 -- wall time = 17503.314 sec Available RAM: MemAvailable: 510424424 kB Available Swap: SwapFree: 1088717128 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 157 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444227 | --> Sampling calibration, mode = relcal | relcal = 1.3430361E-02 7.4213283E-04 -1.5953566E-03 -1.2577137E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1245949 0.1363401 97046737.4259980 | BP delta = 0.1207769 0.1325220 97046737.2007385 | BP chisq diff = -0.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632416 | --> Sampling calibration, mode = relcal | relcal = -2.8209612E-03 -7.0350256E-04 1.6784335E-03 1.6135934E-03 -4.0800686E-04 6.4044376E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5993219 15219731.0079365 | BP delta = 0.0000000E+00 -0.5856771 15219735.1266117 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18078145993420 | --> Sampling calibration, mode = relcal | relcal = -7.4384950E-02 -5.8119554E-02 9.1250032E-02 4.1254472E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0432199E-04 3.8302569E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0306E-05 | 2: delta_r/delta_0: 1.2350E-06 | 3: delta_s/delta_0: 2.3317E-07 | 4: delta_r/delta_0: 1.3874E-08 | 5: delta_s/delta_0: 6.2630E-09 | 6: delta_r/delta_0: 1.6419E-09 | 7: delta_s/delta_0: 1.0768E-09 | 8: delta_r/delta_0: 8.9931E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.114102316474661E-003 2.741638026411811E-005 | BP delta = 1.3508207E-02 2.8127786E-02 50482501.2222820 | BP delta = 1.2301314E-02 2.6920892E-02 50482501.1371544 | BP chisq diff = -0.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02568016 | --> Sampling calibration, mode = relcal | relcal = -0.1066801 -9.5481940E-02 0.1449167 5.7245307E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9553135E-03 1.6212650E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5178E-05 | 2: delta_r/delta_0: 1.4191E-06 | 3: delta_s/delta_0: 2.4701E-07 | 4: delta_r/delta_0: 3.8382E-08 | 5: delta_s/delta_0: 2.4662E-08 | 6: delta_r/delta_0: 6.2678E-09 | 7: delta_s/delta_0: 4.7444E-09 | 8: delta_r/delta_0: 1.6372E-09 | 9: delta_s/delta_0: 7.8442E-10 | 10: delta_r/delta_0: 5.9411E-10 | 11: delta_s/delta_0: 2.0088E-09 | 12: delta_r/delta_0: 6.9074E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.938385191061234E-003 2.811705505933276E-005 | BP delta = -0.2747240 -0.2484678 57396911.3013209 | BP delta = -0.2878697 -0.2616134 57396911.4829170 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81207189 | --> Sampling calibration, mode = relcal | relcal = 0.2954425 0.2247130 -0.2836604 -0.2364951 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1387643E-03 5.9946901E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.3910E-04 | 2: delta_r/delta_0: 2.1460E-05 | 3: delta_s/delta_0: 2.6496E-05 | 4: delta_r/delta_0: 2.6448E-06 | 5: delta_s/delta_0: 5.4554E-07 | 6: delta_r/delta_0: 8.9604E-08 | 7: delta_s/delta_0: 6.1474E-08 | 8: delta_r/delta_0: 3.4432E-08 | 9: delta_s/delta_0: 2.7905E-07 | 10: delta_r/delta_0: 2.3058E-09 | 11: delta_s/delta_0: 9.3151E-10 | 12: delta_r/delta_0: 3.6486E-10 | 13: delta_s/delta_0: 1.8613E-09 | 14: delta_r/delta_0: 9.2670E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.866943404135177E-002 4.022403678339474E-005 | BP delta = -5.7202190E-02 -6.6970207E-02 72490869.3118939 | BP delta = -8.7934121E-02 -9.7702146E-02 72490868.6784173 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95901129 | --> Sampling calibration, mode = relcal | relcal = 0.1064281 0.1396040 -0.1103284 -0.1357037 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0275842E-02 1.3024061E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2193E-04 | 2: delta_r/delta_0: 3.6306E-06 | 3: delta_s/delta_0: 5.2725E-06 | 4: delta_r/delta_0: 9.9929E-07 | 5: delta_s/delta_0: 1.4873E-07 | 6: delta_r/delta_0: 1.0565E-07 | 7: delta_s/delta_0: 1.0577E-06 | 8: delta_r/delta_0: 1.8942E-08 | 9: delta_s/delta_0: 1.7274E-08 | 10: delta_r/delta_0: 1.1286E-08 | 11: delta_s/delta_0: 3.6903E-09 | 12: delta_r/delta_0: 1.1026E-09 | 13: delta_s/delta_0: 3.0386E-10 | 14: delta_r/delta_0: 1.4099E-10 | 15: delta_s/delta_0: 4.0604E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.792256461500863E-002 3.697740407556410E-005 | BP delta = 1.6453285E-02 0.1210672 72776125.9243348 | BP delta = 5.5642150E-02 0.1602561 72776123.1050851 | BP chisq diff = -2.8, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132895 | New value = -3.106286 | poltype: 2 pol: 1 CPU time specind = 1.1240005E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.250918 | New value = -3.174853 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133308 | New value = -3.111027 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.245373 | New value = -3.117647 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.108151 | New value = -3.113908 | poltype: 2 pol: 2 CPU time specind = 1.5309811E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.13566E+08, tol = 0.61551E+01, time = 4.44 | CG iter. 2 -- res = 0.34929E+06, tol = 0.61551E+01, time = 4.17 | CG iter. 3 -- res = 0.51904E+05, tol = 0.61551E+01, time = 4.18 | CG iter. 4 -- res = 0.26001E+05, tol = 0.61551E+01, time = 4.52 | CG iter. 5 -- res = 0.14856E+05, tol = 0.61551E+01, time = 4.18 | CG iter. 6 -- res = 0.10617E+05, tol = 0.61551E+01, time = 4.41 | CG iter. 7 -- res = 0.95911E+04, tol = 0.61551E+01, time = 4.38 | CG iter. 8 -- res = 0.77042E+04, tol = 0.61551E+01, time = 4.54 | CG iter. 9 -- res = 0.67968E+04, tol = 0.61551E+01, time = 4.37 | CG iter. 10 -- res = 0.63052E+04, tol = 0.61551E+01, time = 4.42 | CG iter. 11 -- res = 0.48494E+04, tol = 0.61551E+01, time = 5.27 | CG iter. 12 -- res = 0.32727E+04, tol = 0.61551E+01, time = 5.00 | CG iter. 13 -- res = 0.22630E+04, tol = 0.61551E+01, time = 4.53 | CG iter. 14 -- res = 0.18144E+04, tol = 0.61551E+01, time = 4.65 | CG iter. 15 -- res = 0.15799E+04, tol = 0.61551E+01, time = 4.18 | CG iter. 16 -- res = 0.12841E+04, tol = 0.61551E+01, time = 4.48 | CG iter. 17 -- res = 0.87446E+03, tol = 0.61551E+01, time = 4.48 | CG iter. 18 -- res = 0.61144E+03, tol = 0.61551E+01, time = 4.50 | CG iter. 19 -- res = 0.49117E+03, tol = 0.61551E+01, time = 4.24 | CG iter. 20 -- res = 0.39017E+03, tol = 0.61551E+01, time = 4.27 | CG iter. 21 -- res = 0.27853E+03, tol = 0.61551E+01, time = 4.48 | CG iter. 22 -- res = 0.21340E+03, tol = 0.61551E+01, time = 4.27 | CG iter. 23 -- res = 0.17684E+03, tol = 0.61551E+01, time = 4.32 | CG iter. 24 -- res = 0.16093E+03, tol = 0.61551E+01, time = 4.44 | CG iter. 25 -- res = 0.12899E+03, tol = 0.61551E+01, time = 4.49 | CG iter. 26 -- res = 0.96570E+02, tol = 0.61551E+01, time = 4.27 | CG iter. 27 -- res = 0.76901E+02, tol = 0.61551E+01, time = 4.36 | CG iter. 28 -- res = 0.65485E+02, tol = 0.61551E+01, time = 4.47 | CG iter. 29 -- res = 0.54979E+02, tol = 0.61551E+01, time = 4.38 | CG iter. 30 -- res = 0.42083E+02, tol = 0.61551E+01, time = 4.31 | CG iter. 31 -- res = 0.33784E+02, tol = 0.61551E+01, time = 4.58 | CG iter. 32 -- res = 0.29397E+02, tol = 0.61551E+01, time = 4.40 | CG iter. 33 -- res = 0.23782E+02, tol = 0.61551E+01, time = 4.37 | CG iter. 34 -- res = 0.18045E+02, tol = 0.61551E+01, time = 4.46 | CG iter. 35 -- res = 0.13335E+02, tol = 0.61551E+01, time = 4.38 | CG iter. 36 -- res = 0.10779E+02, tol = 0.61551E+01, time = 5.17 | CG iter. 37 -- res = 0.90949E+01, tol = 0.61551E+01, time = 4.40 | CG iter. 38 -- res = 0.71734E+01, tol = 0.61551E+01, time = 4.29 | CG iter. 39 -- res = 0.54781E+01, tol = 0.61551E+01, time = 4.39 | CG iter. 40 -- res = 0.43870E+01, tol = 0.61551E+01, time = 4.36 | CG iter. 41 -- res = 0.35830E+01, tol = 0.61551E+01, time = 4.36 | CG iter. 42 -- res = 0.27881E+01, tol = 0.61551E+01, time = 4.21 | CG iter. 43 -- res = 0.20926E+01, tol = 0.61551E+01, time = 4.52 | CG iter. 44 -- res = 0.16225E+01, tol = 0.61551E+01, time = 4.34 | CG iter. 45 -- res = 0.13032E+01, tol = 0.61551E+01, time = 4.33 | CG iter. 46 -- res = 0.10515E+01, tol = 0.61551E+01, time = 4.27 | CG iter. 47 -- res = 0.79546E+00, tol = 0.61551E+01, time = 4.30 | CG iter. 48 -- res = 0.58578E+00, tol = 0.61551E+01, time = 4.57 | CG iter. 49 -- res = 0.45109E+00, tol = 0.61551E+01, time = 4.41 | CG iter. 50 -- res = 0.37095E+00, tol = 0.61551E+01, time = 4.48 | Final CG iter 51 -- res = 0.37095E+00, tol = 0.61551E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9111701.872 | Old band monopole 11581641.366 | Change to band monopole -2469939.494 | Change to component monopole 2469928.871 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.30235E+06, tol = 0.47627E+18, time = 1.45 | CG iter. 2 -- res = 0.11466E+03, tol = 0.47627E+18, time = 3.06 | CG iter. 3 -- res = 0.35973E+01, tol = 0.47627E+18, time = 6.69 | CG iter. 4 -- res = 0.57221E-02, tol = 0.47627E+18, time = 1.44 | Final CG iter 5 -- res = 0.69690E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9111662.681 | (Sampled value in CG: 9139851.353 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.528234 | New value = 1.532086 | poltype: 2 pol: 1 CPU time specind = 1.3860941E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.488121 | New value = 1.470771 | poltype: 2 pol: 2 CPU time specind = 4.1399002E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.24007E+08, tol = 0.47664E+04, time = 5.10 | CG iter. 2 -- res = 0.52569E+07, tol = 0.47664E+04, time = 4.77 | CG iter. 3 -- res = 0.83616E+06, tol = 0.47664E+04, time = 5.01 | CG iter. 4 -- res = 0.35502E+06, tol = 0.47664E+04, time = 6.61 | CG iter. 5 -- res = 0.15511E+06, tol = 0.47664E+04, time = 5.25 | CG iter. 6 -- res = 0.80372E+05, tol = 0.47664E+04, time = 6.31 | CG iter. 7 -- res = 0.43248E+05, tol = 0.47664E+04, time = 5.11 | CG iter. 8 -- res = 0.20483E+05, tol = 0.47664E+04, time = 4.88 | CG iter. 9 -- res = 0.90238E+04, tol = 0.47664E+04, time = 5.16 | CG iter. 10 -- res = 0.37260E+04, tol = 0.47664E+04, time = 4.97 | CG iter. 11 -- res = 0.17176E+04, tol = 0.47664E+04, time = 4.96 | CG iter. 12 -- res = 0.88682E+03, tol = 0.47664E+04, time = 5.09 | CG iter. 13 -- res = 0.50302E+03, tol = 0.47664E+04, time = 5.07 | CG iter. 14 -- res = 0.27868E+03, tol = 0.47664E+04, time = 5.13 | CG iter. 15 -- res = 0.14444E+03, tol = 0.47664E+04, time = 5.09 | CG iter. 16 -- res = 0.66316E+02, tol = 0.47664E+04, time = 5.11 | CG iter. 17 -- res = 0.31234E+02, tol = 0.47664E+04, time = 4.95 | CG iter. 18 -- res = 0.16050E+02, tol = 0.47664E+04, time = 5.07 | CG iter. 19 -- res = 0.87158E+01, tol = 0.47664E+04, time = 5.09 | CG iter. 20 -- res = 0.50244E+01, tol = 0.47664E+04, time = 4.85 | CG iter. 21 -- res = 0.26983E+01, tol = 0.47664E+04, time = 5.31 | CG iter. 22 -- res = 0.13736E+01, tol = 0.47664E+04, time = 5.12 | CG iter. 23 -- res = 0.67532E+00, tol = 0.47664E+04, time = 5.13 | CG iter. 24 -- res = 0.34649E+00, tol = 0.47664E+04, time = 4.89 | CG iter. 25 -- res = 0.18859E+00, tol = 0.47664E+04, time = 5.12 | CG iter. 26 -- res = 0.10797E+00, tol = 0.47664E+04, time = 5.24 | CG iter. 27 -- res = 0.61150E-01, tol = 0.47664E+04, time = 4.97 | CG iter. 28 -- res = 0.32641E-01, tol = 0.47664E+04, time = 4.95 | CG iter. 29 -- res = 0.17182E-01, tol = 0.47664E+04, time = 5.03 | CG iter. 30 -- res = 0.88720E-02, tol = 0.47664E+04, time = 4.95 | CG iter. 31 -- res = 0.48206E-02, tol = 0.47664E+04, time = 4.86 | CG iter. 32 -- res = 0.27441E-02, tol = 0.47664E+04, time = 5.16 | CG iter. 33 -- res = 0.15595E-02, tol = 0.47664E+04, time = 4.99 | CG iter. 34 -- res = 0.83226E-03, tol = 0.47664E+04, time = 5.12 | CG iter. 35 -- res = 0.42456E-03, tol = 0.47664E+04, time = 5.07 | Final CG iter 36 -- res = 0.42456E-03, tol = 0.47664E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.570 2.760 | New value -1.864 | Old value 3.570 | Difference -5.434 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.15274E+07, tol = 0.47627E+18, time = 1.45 | CG iter. 2 -- res = 0.28840E+02, tol = 0.47627E+18, time = 1.43 | CG iter. 3 -- res = 0.70362E+00, tol = 0.47627E+18, time = 1.53 | CG iter. 4 -- res = 0.40214E-03, tol = 0.47627E+18, time = 1.49 | Final CG iter 5 -- res = 0.88626E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9111662.681 | (Sampled value in CG: 9139432.296 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.609200 | New value = -3.811403 | poltype: 1 pol: 1 CPU time specind = 1.6464949E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.20454E+07, tol = 0.21835E+01, time = 1.97 | CG iter. 2 -- res = 0.56085E+06, tol = 0.21835E+01, time = 2.04 | CG iter. 3 -- res = 0.10609E+06, tol = 0.21835E+01, time = 2.08 | CG iter. 4 -- res = 0.46929E+05, tol = 0.21835E+01, time = 2.01 | CG iter. 5 -- res = 0.29148E+05, tol = 0.21835E+01, time = 2.08 | CG iter. 6 -- res = 0.15089E+05, tol = 0.21835E+01, time = 1.83 | CG iter. 7 -- res = 0.54617E+04, tol = 0.21835E+01, time = 2.10 | CG iter. 8 -- res = 0.21527E+04, tol = 0.21835E+01, time = 1.89 | CG iter. 9 -- res = 0.91223E+03, tol = 0.21835E+01, time = 2.15 | CG iter. 10 -- res = 0.36386E+03, tol = 0.21835E+01, time = 1.86 | CG iter. 11 -- res = 0.17033E+03, tol = 0.21835E+01, time = 2.08 | CG iter. 12 -- res = 0.87815E+02, tol = 0.21835E+01, time = 2.10 | CG iter. 13 -- res = 0.41034E+02, tol = 0.21835E+01, time = 1.97 | CG iter. 14 -- res = 0.17850E+02, tol = 0.21835E+01, time = 2.75 | CG iter. 15 -- res = 0.73732E+01, tol = 0.21835E+01, time = 2.01 | CG iter. 16 -- res = 0.32366E+01, tol = 0.21835E+01, time = 2.09 | CG iter. 17 -- res = 0.15143E+01, tol = 0.21835E+01, time = 2.08 | CG iter. 18 -- res = 0.77599E+00, tol = 0.21835E+01, time = 2.02 | CG iter. 19 -- res = 0.38128E+00, tol = 0.21835E+01, time = 2.02 | CG iter. 20 -- res = 0.17407E+00, tol = 0.21835E+01, time = 2.13 | CG iter. 21 -- res = 0.74605E-01, tol = 0.21835E+01, time = 2.08 | CG iter. 22 -- res = 0.34101E-01, tol = 0.21835E+01, time = 1.94 | CG iter. 23 -- res = 0.16412E-01, tol = 0.21835E+01, time = 1.99 | CG iter. 24 -- res = 0.82515E-02, tol = 0.21835E+01, time = 1.84 | CG iter. 25 -- res = 0.40927E-02, tol = 0.21835E+01, time = 2.01 | CG iter. 26 -- res = 0.18787E-02, tol = 0.21835E+01, time = 1.99 | CG iter. 27 -- res = 0.84711E-03, tol = 0.21835E+01, time = 1.94 | CG iter. 28 -- res = 0.40057E-03, tol = 0.21835E+01, time = 2.26 | CG iter. 29 -- res = 0.20167E-03, tol = 0.21835E+01, time = 1.94 | CG iter. 30 -- res = 0.98428E-04, tol = 0.21835E+01, time = 1.97 | CG iter. 31 -- res = 0.50054E-04, tol = 0.21835E+01, time = 2.11 | CG iter. 32 -- res = 0.22999E-04, tol = 0.21835E+01, time = 2.02 | CG iter. 33 -- res = 0.10110E-04, tol = 0.21835E+01, time = 2.06 | CG iter. 34 -- res = 0.47209E-05, tol = 0.21835E+01, time = 2.17 | CG iter. 35 -- res = 0.24043E-05, tol = 0.21835E+01, time = 2.22 | CG iter. 36 -- res = 0.11869E-05, tol = 0.21835E+01, time = 1.96 | CG iter. 37 -- res = 0.56660E-06, tol = 0.21835E+01, time = 1.94 | CG iter. 38 -- res = 0.25775E-06, tol = 0.21835E+01, time = 1.99 | CG iter. 39 -- res = 0.11678E-06, tol = 0.21835E+01, time = 1.99 | CG iter. 40 -- res = 0.53220E-07, tol = 0.21835E+01, time = 2.05 | CG iter. 41 -- res = 0.26695E-07, tol = 0.21835E+01, time = 2.15 | CG iter. 42 -- res = 0.13380E-07, tol = 0.21835E+01, time = 1.95 | CG iter. 43 -- res = 0.63562E-08, tol = 0.21835E+01, time = 1.96 | CG iter. 44 -- res = 0.27684E-08, tol = 0.21835E+01, time = 1.92 | CG iter. 45 -- res = 0.12679E-08, tol = 0.21835E+01, time = 1.99 | CG iter. 46 -- res = 0.58654E-09, tol = 0.21835E+01, time = 2.05 | CG iter. 47 -- res = 0.29188E-09, tol = 0.21835E+01, time = 2.03 | CG iter. 48 -- res = 0.14222E-09, tol = 0.21835E+01, time = 2.14 | CG iter. 49 -- res = 0.67069E-10, tol = 0.21835E+01, time = 1.86 | CG iter. 50 -- res = 0.30579E-10, tol = 0.21835E+01, time = 1.88 | Final CG iter 51 -- res = 0.30579E-10, tol = 0.21835E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.164 5.108 | New value -2.508 | Old value 1.164 | Difference -3.671 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.14972E+05, tol = 0.47627E+18, time = 1.56 | CG iter. 2 -- res = 0.25935E+02, tol = 0.47627E+18, time = 1.47 | CG iter. 3 -- res = 0.88497E+00, tol = 0.47627E+18, time = 1.47 | CG iter. 4 -- res = 0.21566E-02, tol = 0.47627E+18, time = 1.45 | Final CG iter 5 -- res = 0.25474E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9111662.681 | (Sampled value in CG: 9137714.421 ) | CPU time specind = 932.2633 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.68342E+08, tol = 0.58121E+04, time = 9.07 | CG iter. 2 -- res = 0.58977E+08, tol = 0.58121E+04, time = 9.16 | CG iter. 3 -- res = 0.15927E+08, tol = 0.58121E+04, time = 9.08 | CG iter. 4 -- res = 0.66995E+07, tol = 0.58121E+04, time = 9.64 | CG iter. 5 -- res = 0.39699E+07, tol = 0.58121E+04, time = 10.46 | CG iter. 6 -- res = 0.23160E+07, tol = 0.58121E+04, time = 9.53 | CG iter. 7 -- res = 0.13351E+07, tol = 0.58121E+04, time = 9.10 | CG iter. 8 -- res = 0.87727E+06, tol = 0.58121E+04, time = 8.97 | CG iter. 9 -- res = 0.57401E+06, tol = 0.58121E+04, time = 9.13 | CG iter. 10 -- res = 0.34683E+06, tol = 0.58121E+04, time = 9.02 | CG iter. 11 -- res = 0.19044E+06, tol = 0.58121E+04, time = 9.20 | CG iter. 12 -- res = 0.10282E+06, tol = 0.58121E+04, time = 9.00 | CG iter. 13 -- res = 0.55752E+05, tol = 0.58121E+04, time = 9.35 | CG iter. 14 -- res = 0.32568E+05, tol = 0.58121E+04, time = 9.17 | CG iter. 15 -- res = 0.21138E+05, tol = 0.58121E+04, time = 9.06 | CG iter. 16 -- res = 0.15217E+05, tol = 0.58121E+04, time = 9.25 | CG iter. 17 -- res = 0.11394E+05, tol = 0.58121E+04, time = 9.18 | CG iter. 18 -- res = 0.83951E+04, tol = 0.58121E+04, time = 8.93 | CG iter. 19 -- res = 0.62065E+04, tol = 0.58121E+04, time = 9.12 | CG iter. 20 -- res = 0.47194E+04, tol = 0.58121E+04, time = 8.86 | CG iter. 21 -- res = 0.37803E+04, tol = 0.58121E+04, time = 9.15 | CG iter. 22 -- res = 0.34414E+04, tol = 0.58121E+04, time = 9.13 | CG iter. 23 -- res = 0.35216E+04, tol = 0.58121E+04, time = 9.34 | CG iter. 24 -- res = 0.39566E+04, tol = 0.58121E+04, time = 9.24 | CG iter. 25 -- res = 0.42455E+04, tol = 0.58121E+04, time = 9.19 | CG iter. 26 -- res = 0.41510E+04, tol = 0.58121E+04, time = 9.10 | CG iter. 27 -- res = 0.36628E+04, tol = 0.58121E+04, time = 15.78 | CG iter. 28 -- res = 0.29829E+04, tol = 0.58121E+04, time = 9.28 | CG iter. 29 -- res = 0.24929E+04, tol = 0.58121E+04, time = 9.16 | CG iter. 30 -- res = 0.21185E+04, tol = 0.58121E+04, time = 9.06 | CG iter. 31 -- res = 0.18164E+04, tol = 0.58121E+04, time = 9.13 | CG iter. 32 -- res = 0.15886E+04, tol = 0.58121E+04, time = 9.27 | CG iter. 33 -- res = 0.13749E+04, tol = 0.58121E+04, time = 9.07 | CG iter. 34 -- res = 0.11162E+04, tol = 0.58121E+04, time = 9.23 | CG iter. 35 -- res = 0.87704E+03, tol = 0.58121E+04, time = 9.36 | CG iter. 36 -- res = 0.74314E+03, tol = 0.58121E+04, time = 10.36 | CG iter. 37 -- res = 0.69413E+03, tol = 0.58121E+04, time = 10.51 | CG iter. 38 -- res = 0.69932E+03, tol = 0.58121E+04, time = 9.15 | CG iter. 39 -- res = 0.71852E+03, tol = 0.58121E+04, time = 9.04 | CG iter. 40 -- res = 0.69367E+03, tol = 0.58121E+04, time = 9.34 | CG iter. 41 -- res = 0.63261E+03, tol = 0.58121E+04, time = 9.21 | CG iter. 42 -- res = 0.56134E+03, tol = 0.58121E+04, time = 9.11 | CG iter. 43 -- res = 0.50543E+03, tol = 0.58121E+04, time = 9.09 | CG iter. 44 -- res = 0.45759E+03, tol = 0.58121E+04, time = 9.11 | CG iter. 45 -- res = 0.42416E+03, tol = 0.58121E+04, time = 9.12 | CG iter. 46 -- res = 0.39983E+03, tol = 0.58121E+04, time = 9.27 | CG iter. 47 -- res = 0.36565E+03, tol = 0.58121E+04, time = 8.85 | CG iter. 48 -- res = 0.31703E+03, tol = 0.58121E+04, time = 11.28 | CG iter. 49 -- res = 0.27452E+03, tol = 0.58121E+04, time = 9.34 | CG iter. 50 -- res = 0.24475E+03, tol = 0.58121E+04, time = 9.05 | CG iter. 51 -- res = 0.22601E+03, tol = 0.58121E+04, time = 9.13 | CG iter. 52 -- res = 0.21902E+03, tol = 0.58121E+04, time = 9.24 | CG iter. 53 -- res = 0.21583E+03, tol = 0.58121E+04, time = 9.06 | CG iter. 54 -- res = 0.21661E+03, tol = 0.58121E+04, time = 9.31 | CG iter. 55 -- res = 0.20323E+03, tol = 0.58121E+04, time = 9.22 | CG iter. 56 -- res = 0.18066E+03, tol = 0.58121E+04, time = 9.00 | CG iter. 57 -- res = 0.16269E+03, tol = 0.58121E+04, time = 9.00 | CG iter. 58 -- res = 0.15161E+03, tol = 0.58121E+04, time = 8.96 | CG iter. 59 -- res = 0.14315E+03, tol = 0.58121E+04, time = 15.14 | CG iter. 60 -- res = 0.13176E+03, tol = 0.58121E+04, time = 9.13 | Final CG iter 61 -- res = 0.13176E+03, tol = 0.58121E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.694 ( -230.198 -2229.070 2511.406 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6551558.700 | Old band monopole 9111701.872 | Change to band monopole -2560143.172 | Change to component monopole 2560132.160 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.925 2.729 | New value 1.438 | Old value -1.925 | Difference 3.363 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.140 ( 7.336 8.886 -8.550 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.641 4.822 | New value 1.213 | Old value 2.641 | Difference -1.428 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.80251E+06, tol = 0.47627E+18, time = 1.50 | CG iter. 2 -- res = 0.91574E+02, tol = 0.47627E+18, time = 1.39 | CG iter. 3 -- res = 0.35450E+01, tol = 0.47627E+18, time = 1.47 | CG iter. 4 -- res = 0.38341E-02, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.84281E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6551530.520 | (Sampled value in CG: 6532812.010 ) | Chain = 1 -- chisq = 0.81499578E+09 | Chain = 1 -- wall time = 5443.843 sec Available RAM: MemAvailable: 367169432 kB Available Swap: SwapFree: 1188069960 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 158 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443337 | --> Sampling calibration, mode = relcal | relcal = 1.3445393E-02 7.2800030E-04 -1.5979260E-03 -1.2575467E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1207769 0.1325220 9408585.09467488 | BP delta = 0.1207769 0.1264536 9408614.31812316 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632406 | --> Sampling calibration, mode = relcal | relcal = -2.8212939E-03 -7.0404646E-04 1.6785398E-03 1.6136486E-03 -4.0691163E-04 6.4006343E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5993219 15215107.3574471 | BP delta = 0.0000000E+00 -0.5878582 15215106.7470571 | BP chisq diff = -0.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18372970595647 | --> Sampling calibration, mode = relcal | relcal = -7.5494647E-02 -5.8943585E-02 9.2505649E-02 4.1932583E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8567450E-04 5.6271157E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4290E-05 | 2: delta_r/delta_0: 1.1445E-06 | 3: delta_s/delta_0: 1.9354E-07 | 4: delta_r/delta_0: 2.0172E-08 | 5: delta_s/delta_0: 4.5845E-09 | 6: delta_r/delta_0: 1.7667E-09 | 7: delta_s/delta_0: 6.5889E-10 | 8: delta_r/delta_0: 1.2234E-10 | 9: delta_s/delta_0: 1.4221E-10 | 10: delta_r/delta_0: 4.7244E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.149641967420607E-003 2.734718401396372E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4289E-05 | 2: delta_r/delta_0: 1.1444E-06 | 3: delta_s/delta_0: 1.9354E-07 | 4: delta_r/delta_0: 2.0172E-08 | 5: delta_s/delta_0: 4.5849E-09 | 6: delta_r/delta_0: 1.7669E-09 | 7: delta_s/delta_0: 6.5882E-10 | 8: delta_r/delta_0: 1.2236E-10 | 9: delta_s/delta_0: 1.4232E-10 | 10: delta_r/delta_0: 4.7278E-11 | Reached bicg-stab tolerance | BP delta = 1.2301314E-02 2.6920892E-02 3613931.22399884 | BP delta = 1.2301314E-02 2.7108714E-02 3609975.76761099 | BP chisq diff = -3955.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02584868 | --> Sampling calibration, mode = relcal | relcal = -0.1066771 -9.5574424E-02 0.1449259 5.7325620E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9894367E-03 1.2934116E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1423E-05 | 2: delta_r/delta_0: 1.2206E-06 | 3: delta_s/delta_0: 2.3971E-07 | 4: delta_r/delta_0: 5.0228E-08 | 5: delta_s/delta_0: 1.6931E-08 | 6: delta_r/delta_0: 6.7214E-09 | 7: delta_s/delta_0: 1.0362E-08 | 8: delta_r/delta_0: 1.0921E-09 | 9: delta_s/delta_0: 9.3861E-10 | 10: delta_r/delta_0: 1.8925E-10 | 11: delta_s/delta_0: 2.5414E-09 | 12: delta_r/delta_0: 2.1458E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.731471565918739E-003 2.811249984174737E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1423E-05 | 2: delta_r/delta_0: 1.2206E-06 | 3: delta_s/delta_0: 2.3972E-07 | 4: delta_r/delta_0: 5.0248E-08 | 5: delta_s/delta_0: 1.6926E-08 | 6: delta_r/delta_0: 6.7230E-09 | 7: delta_s/delta_0: 1.0367E-08 | 8: delta_r/delta_0: 1.0923E-09 | 9: delta_s/delta_0: 9.3875E-10 | 10: delta_r/delta_0: 1.8935E-10 | 11: delta_s/delta_0: 2.5428E-09 | 12: delta_r/delta_0: 2.1467E-11 | Reached bicg-stab tolerance | BP delta = -0.2878697 -0.2616134 2841812.78186171 | BP delta = -0.2878697 -0.2616007 2841859.47547342 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81216347 | --> Sampling calibration, mode = relcal | relcal = 0.2953576 0.2248444 -0.2837558 -0.2364461 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2304129E-04 4.9773194E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3110E-03 | 2: delta_r/delta_0: 5.3399E-05 | 3: delta_s/delta_0: 1.2815E-05 | 4: delta_r/delta_0: 1.2596E-06 | 5: delta_s/delta_0: 1.1308E-06 | 6: delta_r/delta_0: 6.7231E-08 | 7: delta_s/delta_0: 4.9309E-08 | 8: delta_r/delta_0: 2.3324E-08 | 9: delta_s/delta_0: 5.5400E-07 | 10: delta_r/delta_0: 1.6619E-08 | 11: delta_s/delta_0: 6.4286E-08 | 12: delta_r/delta_0: 1.7498E-08 | 13: delta_s/delta_0: 3.6619E-10 | 14: delta_r/delta_0: 1.1947E-10 | 15: delta_s/delta_0: 6.0148E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.668456818836884E-002 4.021939515926450E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3100E-03 | 2: delta_r/delta_0: 5.3374E-05 | 3: delta_s/delta_0: 1.2814E-05 | 4: delta_r/delta_0: 1.2597E-06 | 5: delta_s/delta_0: 1.1298E-06 | 6: delta_r/delta_0: 6.7205E-08 | 7: delta_s/delta_0: 4.9318E-08 | 8: delta_r/delta_0: 2.3333E-08 | 9: delta_s/delta_0: 5.5282E-07 | 10: delta_r/delta_0: 1.6572E-08 | 11: delta_s/delta_0: 6.4187E-08 | 12: delta_r/delta_0: 1.7474E-08 | 13: delta_s/delta_0: 3.6632E-10 | 14: delta_r/delta_0: 1.1954E-10 | 15: delta_s/delta_0: 6.0097E-11 | Reached bicg-stab tolerance | BP delta = -8.7934121E-02 -9.7702146E-02 2827377.46700847 | BP delta = -8.7934121E-02 -0.1049870 2827404.68783685 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95907171 | --> Sampling calibration, mode = relcal | relcal = 0.1065519 0.1395949 -0.1102681 -0.1358787 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0844121E-02 1.2695250E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0244E-04 | 2: delta_r/delta_0: 5.2565E-06 | 3: delta_s/delta_0: 8.1779E-05 | 4: delta_r/delta_0: 3.6988E-06 | 5: delta_s/delta_0: 1.8802E-07 | 6: delta_r/delta_0: 9.5681E-08 | 7: delta_s/delta_0: 5.2753E-07 | 8: delta_r/delta_0: 2.4141E-08 | 9: delta_s/delta_0: 8.9616E-09 | 10: delta_r/delta_0: 2.4540E-09 | 11: delta_s/delta_0: 1.0176E-09 | 12: delta_r/delta_0: 6.3470E-10 | 13: delta_s/delta_0: 7.3597E-09 | 14: delta_r/delta_0: 5.0503E-10 | 15: delta_s/delta_0: 4.9262E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.932482782961526E-002 3.697566685052957E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0245E-04 | 2: delta_r/delta_0: 5.2566E-06 | 3: delta_s/delta_0: 8.1777E-05 | 4: delta_r/delta_0: 3.6980E-06 | 5: delta_s/delta_0: 1.8802E-07 | 6: delta_r/delta_0: 9.5677E-08 | 7: delta_s/delta_0: 5.2705E-07 | 8: delta_r/delta_0: 2.4142E-08 | 9: delta_s/delta_0: 8.9559E-09 | 10: delta_r/delta_0: 2.4580E-09 | 11: delta_s/delta_0: 1.0179E-09 | 12: delta_r/delta_0: 6.3420E-10 | 13: delta_s/delta_0: 7.2945E-09 | 14: delta_r/delta_0: 5.0086E-10 | 15: delta_s/delta_0: 4.9233E-11 | Reached bicg-stab tolerance | BP delta = 5.5642150E-02 0.1602561 3003526.79407495 | BP delta = 5.5642150E-02 0.1656541 3003525.45375707 | BP chisq diff = -1.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106286 | New value = -3.143315 | poltype: 2 pol: 1 CPU time specind = 2.4101019E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174853 | New value = -3.072790 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111027 | New value = -3.239044 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117647 | New value = -3.182890 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.113908 | New value = -3.121282 | poltype: 2 pol: 2 CPU time specind = 2.8419495E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.13559E+08, tol = 0.98491E+01, time = 4.27 | CG iter. 2 -- res = 0.33304E+06, tol = 0.98491E+01, time = 4.11 | CG iter. 3 -- res = 0.50575E+05, tol = 0.98491E+01, time = 4.21 | CG iter. 4 -- res = 0.27729E+05, tol = 0.98491E+01, time = 4.29 | CG iter. 5 -- res = 0.18117E+05, tol = 0.98491E+01, time = 4.34 | CG iter. 6 -- res = 0.13651E+05, tol = 0.98491E+01, time = 4.19 | CG iter. 7 -- res = 0.12189E+05, tol = 0.98491E+01, time = 4.22 | CG iter. 8 -- res = 0.10072E+05, tol = 0.98491E+01, time = 4.30 | CG iter. 9 -- res = 0.88825E+04, tol = 0.98491E+01, time = 4.30 | CG iter. 10 -- res = 0.79576E+04, tol = 0.98491E+01, time = 4.23 | CG iter. 11 -- res = 0.57130E+04, tol = 0.98491E+01, time = 4.43 | CG iter. 12 -- res = 0.36251E+04, tol = 0.98491E+01, time = 4.28 | CG iter. 13 -- res = 0.27878E+04, tol = 0.98491E+01, time = 4.29 | CG iter. 14 -- res = 0.23990E+04, tol = 0.98491E+01, time = 4.33 | CG iter. 15 -- res = 0.20962E+04, tol = 0.98491E+01, time = 4.37 | CG iter. 16 -- res = 0.16719E+04, tol = 0.98491E+01, time = 4.28 | CG iter. 17 -- res = 0.11639E+04, tol = 0.98491E+01, time = 4.34 | CG iter. 18 -- res = 0.89666E+03, tol = 0.98491E+01, time = 4.30 | CG iter. 19 -- res = 0.74711E+03, tol = 0.98491E+01, time = 4.46 | CG iter. 20 -- res = 0.59851E+03, tol = 0.98491E+01, time = 4.18 | CG iter. 21 -- res = 0.42051E+03, tol = 0.98491E+01, time = 4.24 | CG iter. 22 -- res = 0.32991E+03, tol = 0.98491E+01, time = 4.20 | CG iter. 23 -- res = 0.28422E+03, tol = 0.98491E+01, time = 4.37 | CG iter. 24 -- res = 0.23838E+03, tol = 0.98491E+01, time = 4.24 | CG iter. 25 -- res = 0.18105E+03, tol = 0.98491E+01, time = 4.26 | CG iter. 26 -- res = 0.13247E+03, tol = 0.98491E+01, time = 4.27 | CG iter. 27 -- res = 0.11078E+03, tol = 0.98491E+01, time = 4.18 | CG iter. 28 -- res = 0.95575E+02, tol = 0.98491E+01, time = 4.36 | CG iter. 29 -- res = 0.74661E+02, tol = 0.98491E+01, time = 4.39 | CG iter. 30 -- res = 0.57572E+02, tol = 0.98491E+01, time = 4.19 | CG iter. 31 -- res = 0.47770E+02, tol = 0.98491E+01, time = 4.27 | CG iter. 32 -- res = 0.40257E+02, tol = 0.98491E+01, time = 4.16 | CG iter. 33 -- res = 0.33406E+02, tol = 0.98491E+01, time = 4.15 | CG iter. 34 -- res = 0.24988E+02, tol = 0.98491E+01, time = 4.37 | CG iter. 35 -- res = 0.20094E+02, tol = 0.98491E+01, time = 4.00 | CG iter. 36 -- res = 0.17765E+02, tol = 0.98491E+01, time = 4.27 | CG iter. 37 -- res = 0.15014E+02, tol = 0.98491E+01, time = 4.79 | CG iter. 38 -- res = 0.11865E+02, tol = 0.98491E+01, time = 10.17 | CG iter. 39 -- res = 0.93481E+01, tol = 0.98491E+01, time = 4.16 | CG iter. 40 -- res = 0.80713E+01, tol = 0.98491E+01, time = 4.25 | CG iter. 41 -- res = 0.68577E+01, tol = 0.98491E+01, time = 4.34 | CG iter. 42 -- res = 0.54694E+01, tol = 0.98491E+01, time = 4.27 | CG iter. 43 -- res = 0.44149E+01, tol = 0.98491E+01, time = 4.26 | CG iter. 44 -- res = 0.37052E+01, tol = 0.98491E+01, time = 4.17 | CG iter. 45 -- res = 0.32035E+01, tol = 0.98491E+01, time = 4.44 | CG iter. 46 -- res = 0.26194E+01, tol = 0.98491E+01, time = 4.23 | CG iter. 47 -- res = 0.20306E+01, tol = 0.98491E+01, time = 4.23 | CG iter. 48 -- res = 0.16046E+01, tol = 0.98491E+01, time = 4.15 | CG iter. 49 -- res = 0.13469E+01, tol = 0.98491E+01, time = 4.27 | CG iter. 50 -- res = 0.11193E+01, tol = 0.98491E+01, time = 4.42 | Final CG iter 51 -- res = 0.11193E+01, tol = 0.98491E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9059969.785 | Old band monopole 6551558.700 | Change to band monopole 2508411.085 | Change to component monopole -2508400.296 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.48133E+06, tol = 0.47627E+18, time = 2.28 | CG iter. 2 -- res = 0.14260E+03, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.33503E+01, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.13766E-01, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.32570E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9059930.816 | (Sampled value in CG: 9011550.782 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.532086 | New value = 1.517326 | poltype: 2 pol: 1 CPU time specind = 5.7158470E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.470771 | New value = 1.472321 | poltype: 2 pol: 2 CPU time specind = 3.1030178E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.49 | CG iter. 1 -- res = 0.24025E+08, tol = 0.47608E+04, time = 4.90 | CG iter. 2 -- res = 0.53123E+07, tol = 0.47608E+04, time = 4.86 | CG iter. 3 -- res = 0.83772E+06, tol = 0.47608E+04, time = 4.90 | CG iter. 4 -- res = 0.35491E+06, tol = 0.47608E+04, time = 5.09 | CG iter. 5 -- res = 0.15561E+06, tol = 0.47608E+04, time = 5.01 | CG iter. 6 -- res = 0.82449E+05, tol = 0.47608E+04, time = 4.84 | CG iter. 7 -- res = 0.45173E+05, tol = 0.47608E+04, time = 4.94 | CG iter. 8 -- res = 0.21482E+05, tol = 0.47608E+04, time = 5.61 | CG iter. 9 -- res = 0.91843E+04, tol = 0.47608E+04, time = 4.96 | CG iter. 10 -- res = 0.37466E+04, tol = 0.47608E+04, time = 4.94 | CG iter. 11 -- res = 0.17170E+04, tol = 0.47608E+04, time = 5.07 | CG iter. 12 -- res = 0.88899E+03, tol = 0.47608E+04, time = 5.03 | CG iter. 13 -- res = 0.49925E+03, tol = 0.47608E+04, time = 5.11 | CG iter. 14 -- res = 0.28299E+03, tol = 0.47608E+04, time = 4.81 | CG iter. 15 -- res = 0.14547E+03, tol = 0.47608E+04, time = 4.98 | CG iter. 16 -- res = 0.68012E+02, tol = 0.47608E+04, time = 4.92 | CG iter. 17 -- res = 0.32297E+02, tol = 0.47608E+04, time = 4.98 | CG iter. 18 -- res = 0.16322E+02, tol = 0.47608E+04, time = 4.93 | CG iter. 19 -- res = 0.88625E+01, tol = 0.47608E+04, time = 5.10 | CG iter. 20 -- res = 0.50664E+01, tol = 0.47608E+04, time = 4.86 | CG iter. 21 -- res = 0.27806E+01, tol = 0.47608E+04, time = 5.07 | CG iter. 22 -- res = 0.14393E+01, tol = 0.47608E+04, time = 5.01 | CG iter. 23 -- res = 0.71769E+00, tol = 0.47608E+04, time = 4.84 | CG iter. 24 -- res = 0.36876E+00, tol = 0.47608E+04, time = 5.07 | CG iter. 25 -- res = 0.20170E+00, tol = 0.47608E+04, time = 5.03 | CG iter. 26 -- res = 0.11499E+00, tol = 0.47608E+04, time = 4.93 | CG iter. 27 -- res = 0.64696E-01, tol = 0.47608E+04, time = 4.91 | CG iter. 28 -- res = 0.34712E-01, tol = 0.47608E+04, time = 11.56 | CG iter. 29 -- res = 0.18095E-01, tol = 0.47608E+04, time = 4.77 | CG iter. 30 -- res = 0.95149E-02, tol = 0.47608E+04, time = 5.18 | CG iter. 31 -- res = 0.52453E-02, tol = 0.47608E+04, time = 4.89 | CG iter. 32 -- res = 0.29894E-02, tol = 0.47608E+04, time = 4.87 | CG iter. 33 -- res = 0.16989E-02, tol = 0.47608E+04, time = 4.84 | CG iter. 34 -- res = 0.90890E-03, tol = 0.47608E+04, time = 5.06 | CG iter. 35 -- res = 0.46795E-03, tol = 0.47608E+04, time = 4.95 | Final CG iter 36 -- res = 0.46795E-03, tol = 0.47608E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.505 2.749 | New value -1.254 | Old value 1.505 | Difference -2.760 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.15 | CG iter. 1 -- res = 0.39789E+06, tol = 0.47627E+18, time = 1.40 | CG iter. 2 -- res = 0.38966E+02, tol = 0.47627E+18, time = 1.47 | CG iter. 3 -- res = 0.11662E+01, tol = 0.47627E+18, time = 1.51 | Final CG iter 4 -- res = 0.69177E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9059930.816 | (Sampled value in CG: 9013225.268 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.811403 | New value = -3.695382 | poltype: 1 pol: 1 CPU time specind = 5.7508945E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.21547E+07, tol = 0.20724E+01, time = 1.95 | CG iter. 2 -- res = 0.86371E+06, tol = 0.20724E+01, time = 1.98 | CG iter. 3 -- res = 0.15385E+06, tol = 0.20724E+01, time = 2.02 | CG iter. 4 -- res = 0.57056E+05, tol = 0.20724E+01, time = 2.02 | CG iter. 5 -- res = 0.33829E+05, tol = 0.20724E+01, time = 1.95 | CG iter. 6 -- res = 0.18545E+05, tol = 0.20724E+01, time = 1.90 | CG iter. 7 -- res = 0.72122E+04, tol = 0.20724E+01, time = 2.11 | CG iter. 8 -- res = 0.29247E+04, tol = 0.20724E+01, time = 1.91 | CG iter. 9 -- res = 0.11760E+04, tol = 0.20724E+01, time = 2.10 | CG iter. 10 -- res = 0.48145E+03, tol = 0.20724E+01, time = 2.05 | CG iter. 11 -- res = 0.21171E+03, tol = 0.20724E+01, time = 1.99 | CG iter. 12 -- res = 0.11114E+03, tol = 0.20724E+01, time = 1.95 | CG iter. 13 -- res = 0.55036E+02, tol = 0.20724E+01, time = 1.90 | CG iter. 14 -- res = 0.26994E+02, tol = 0.20724E+01, time = 1.94 | CG iter. 15 -- res = 0.11475E+02, tol = 0.20724E+01, time = 1.91 | CG iter. 16 -- res = 0.49147E+01, tol = 0.20724E+01, time = 2.04 | CG iter. 17 -- res = 0.20541E+01, tol = 0.20724E+01, time = 2.02 | CG iter. 18 -- res = 0.95873E+00, tol = 0.20724E+01, time = 2.19 | CG iter. 19 -- res = 0.50955E+00, tol = 0.20724E+01, time = 1.92 | CG iter. 20 -- res = 0.25331E+00, tol = 0.20724E+01, time = 2.02 | CG iter. 21 -- res = 0.11315E+00, tol = 0.20724E+01, time = 1.91 | CG iter. 22 -- res = 0.50277E-01, tol = 0.20724E+01, time = 1.98 | CG iter. 23 -- res = 0.23044E-01, tol = 0.20724E+01, time = 1.91 | CG iter. 24 -- res = 0.11388E-01, tol = 0.20724E+01, time = 1.97 | CG iter. 25 -- res = 0.60314E-02, tol = 0.20724E+01, time = 2.50 | CG iter. 26 -- res = 0.29892E-02, tol = 0.20724E+01, time = 8.38 | CG iter. 27 -- res = 0.14014E-02, tol = 0.20724E+01, time = 1.89 | CG iter. 28 -- res = 0.65698E-03, tol = 0.20724E+01, time = 2.14 | CG iter. 29 -- res = 0.29332E-03, tol = 0.20724E+01, time = 1.99 | CG iter. 30 -- res = 0.14362E-03, tol = 0.20724E+01, time = 1.98 | CG iter. 31 -- res = 0.71104E-04, tol = 0.20724E+01, time = 1.92 | CG iter. 32 -- res = 0.36662E-04, tol = 0.20724E+01, time = 1.88 | CG iter. 33 -- res = 0.16377E-04, tol = 0.20724E+01, time = 2.00 | CG iter. 34 -- res = 0.74155E-05, tol = 0.20724E+01, time = 1.95 | CG iter. 35 -- res = 0.35058E-05, tol = 0.20724E+01, time = 1.93 | CG iter. 36 -- res = 0.17271E-05, tol = 0.20724E+01, time = 2.03 | CG iter. 37 -- res = 0.82111E-06, tol = 0.20724E+01, time = 2.00 | CG iter. 38 -- res = 0.42052E-06, tol = 0.20724E+01, time = 2.03 | CG iter. 39 -- res = 0.19194E-06, tol = 0.20724E+01, time = 2.08 | CG iter. 40 -- res = 0.87308E-07, tol = 0.20724E+01, time = 2.02 | CG iter. 41 -- res = 0.40583E-07, tol = 0.20724E+01, time = 1.82 | CG iter. 42 -- res = 0.19146E-07, tol = 0.20724E+01, time = 1.89 | CG iter. 43 -- res = 0.93336E-08, tol = 0.20724E+01, time = 2.00 | CG iter. 44 -- res = 0.45274E-08, tol = 0.20724E+01, time = 2.03 | CG iter. 45 -- res = 0.21207E-08, tol = 0.20724E+01, time = 1.91 | CG iter. 46 -- res = 0.97890E-09, tol = 0.20724E+01, time = 2.10 | CG iter. 47 -- res = 0.46161E-09, tol = 0.20724E+01, time = 1.88 | CG iter. 48 -- res = 0.21734E-09, tol = 0.20724E+01, time = 1.98 | CG iter. 49 -- res = 0.10457E-09, tol = 0.20724E+01, time = 1.90 | CG iter. 50 -- res = 0.49800E-10, tol = 0.20724E+01, time = 2.10 | Final CG iter 51 -- res = 0.49800E-10, tol = 0.20724E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.861 5.650 | New value 4.548 | Old value -1.861 | Difference 6.409 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.39 | CG iter. 1 -- res = 0.42754E+05, tol = 0.47627E+18, time = 1.52 | CG iter. 2 -- res = 0.34555E+02, tol = 0.47627E+18, time = 1.46 | CG iter. 3 -- res = 0.13290E+01, tol = 0.47627E+18, time = 1.56 | CG iter. 4 -- res = 0.34817E-02, tol = 0.47627E+18, time = 2.25 | Final CG iter 5 -- res = 0.91123E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9059930.816 | (Sampled value in CG: 9027780.115 ) | CPU time specind = 908.6167 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.34 | CG iter. 1 -- res = 0.68242E+08, tol = 0.57870E+04, time = 8.85 | CG iter. 2 -- res = 0.58577E+08, tol = 0.57870E+04, time = 9.12 | CG iter. 3 -- res = 0.15208E+08, tol = 0.57870E+04, time = 8.92 | CG iter. 4 -- res = 0.65303E+07, tol = 0.57870E+04, time = 9.13 | CG iter. 5 -- res = 0.38217E+07, tol = 0.57870E+04, time = 9.08 | CG iter. 6 -- res = 0.21930E+07, tol = 0.57870E+04, time = 8.99 | CG iter. 7 -- res = 0.13137E+07, tol = 0.57870E+04, time = 9.11 | CG iter. 8 -- res = 0.87489E+06, tol = 0.57870E+04, time = 9.87 | CG iter. 9 -- res = 0.56412E+06, tol = 0.57870E+04, time = 8.86 | CG iter. 10 -- res = 0.33800E+06, tol = 0.57870E+04, time = 9.06 | CG iter. 11 -- res = 0.18677E+06, tol = 0.57870E+04, time = 8.91 | CG iter. 12 -- res = 0.99027E+05, tol = 0.57870E+04, time = 8.90 | CG iter. 13 -- res = 0.52101E+05, tol = 0.57870E+04, time = 9.08 | CG iter. 14 -- res = 0.30734E+05, tol = 0.57870E+04, time = 8.97 | CG iter. 15 -- res = 0.20339E+05, tol = 0.57870E+04, time = 8.79 | CG iter. 16 -- res = 0.14682E+05, tol = 0.57870E+04, time = 9.06 | CG iter. 17 -- res = 0.11256E+05, tol = 0.57870E+04, time = 8.96 | CG iter. 18 -- res = 0.85189E+04, tol = 0.57870E+04, time = 8.99 | CG iter. 19 -- res = 0.62760E+04, tol = 0.57870E+04, time = 15.73 | CG iter. 20 -- res = 0.47594E+04, tol = 0.57870E+04, time = 9.03 | CG iter. 21 -- res = 0.39170E+04, tol = 0.57870E+04, time = 9.02 | CG iter. 22 -- res = 0.37002E+04, tol = 0.57870E+04, time = 8.75 | CG iter. 23 -- res = 0.38268E+04, tol = 0.57870E+04, time = 9.05 | CG iter. 24 -- res = 0.41465E+04, tol = 0.57870E+04, time = 9.07 | CG iter. 25 -- res = 0.43549E+04, tol = 0.57870E+04, time = 8.76 | CG iter. 26 -- res = 0.40586E+04, tol = 0.57870E+04, time = 8.94 | CG iter. 27 -- res = 0.34468E+04, tol = 0.57870E+04, time = 9.07 | CG iter. 28 -- res = 0.27838E+04, tol = 0.57870E+04, time = 8.83 | CG iter. 29 -- res = 0.22630E+04, tol = 0.57870E+04, time = 10.64 | CG iter. 30 -- res = 0.19098E+04, tol = 0.57870E+04, time = 9.33 | CG iter. 31 -- res = 0.15879E+04, tol = 0.57870E+04, time = 8.81 | CG iter. 32 -- res = 0.13163E+04, tol = 0.57870E+04, time = 9.05 | CG iter. 33 -- res = 0.10525E+04, tol = 0.57870E+04, time = 8.86 | CG iter. 34 -- res = 0.84605E+03, tol = 0.57870E+04, time = 9.01 | CG iter. 35 -- res = 0.68016E+03, tol = 0.57870E+04, time = 8.90 | CG iter. 36 -- res = 0.58110E+03, tol = 0.57870E+04, time = 8.90 | CG iter. 37 -- res = 0.53290E+03, tol = 0.57870E+04, time = 8.96 | CG iter. 38 -- res = 0.52149E+03, tol = 0.57870E+04, time = 8.90 | CG iter. 39 -- res = 0.50599E+03, tol = 0.57870E+04, time = 9.04 | CG iter. 40 -- res = 0.47370E+03, tol = 0.57870E+04, time = 9.05 | CG iter. 41 -- res = 0.42328E+03, tol = 0.57870E+04, time = 8.89 | CG iter. 42 -- res = 0.36023E+03, tol = 0.57870E+04, time = 8.99 | CG iter. 43 -- res = 0.29821E+03, tol = 0.57870E+04, time = 9.14 | CG iter. 44 -- res = 0.26409E+03, tol = 0.57870E+04, time = 9.08 | CG iter. 45 -- res = 0.23766E+03, tol = 0.57870E+04, time = 9.18 | CG iter. 46 -- res = 0.21495E+03, tol = 0.57870E+04, time = 8.96 | CG iter. 47 -- res = 0.19439E+03, tol = 0.57870E+04, time = 8.91 | CG iter. 48 -- res = 0.16373E+03, tol = 0.57870E+04, time = 9.08 | CG iter. 49 -- res = 0.13820E+03, tol = 0.57870E+04, time = 8.93 | CG iter. 50 -- res = 0.12043E+03, tol = 0.57870E+04, time = 8.78 | CG iter. 51 -- res = 0.11062E+03, tol = 0.57870E+04, time = 9.51 | CG iter. 52 -- res = 0.10983E+03, tol = 0.57870E+04, time = 15.08 | CG iter. 53 -- res = 0.10889E+03, tol = 0.57870E+04, time = 8.85 | CG iter. 54 -- res = 0.10515E+03, tol = 0.57870E+04, time = 9.03 | CG iter. 55 -- res = 0.97021E+02, tol = 0.57870E+04, time = 8.94 | CG iter. 56 -- res = 0.86115E+02, tol = 0.57870E+04, time = 8.94 | CG iter. 57 -- res = 0.76946E+02, tol = 0.57870E+04, time = 8.89 | CG iter. 58 -- res = 0.72605E+02, tol = 0.57870E+04, time = 9.00 | CG iter. 59 -- res = 0.70730E+02, tol = 0.57870E+04, time = 8.86 | CG iter. 60 -- res = 0.67856E+02, tol = 0.57870E+04, time = 8.92 | Final CG iter 61 -- res = 0.67856E+02, tol = 0.57870E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.742 ( -229.875 -2228.276 2510.501 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8708082.303 | Old band monopole 9059969.785 | Change to band monopole -351887.482 | Change to component monopole 351885.969 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.326 2.716 | New value 1.945 | Old value -1.326 | Difference 3.271 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.197 ( 7.160 7.235 -6.439 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.312 5.682 | New value -5.053 | Old value 10.312 | Difference -15.365 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.64125E+06, tol = 0.47627E+18, time = 1.40 | CG iter. 2 -- res = 0.35624E+02, tol = 0.47627E+18, time = 1.47 | CG iter. 3 -- res = 0.15384E+01, tol = 0.47627E+18, time = 1.49 | CG iter. 4 -- res = 0.24040E-02, tol = 0.47627E+18, time = 1.45 | Final CG iter 5 -- res = 0.17025E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8708044.848 | (Sampled value in CG: 8688487.022 ) | Chain = 1 -- chisq = 0.81545322E+09 | Chain = 1 -- wall time = 5765.235 sec Available RAM: MemAvailable: 373501400 kB Available Swap: SwapFree: 1186843260 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 159 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445011 | --> Sampling calibration, mode = relcal | relcal = 1.3429704E-02 7.3988776E-04 -1.5893851E-03 -1.2580207E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1207769 0.1325220 97041557.6993546 | BP delta = 0.1149599 0.1267051 97041551.0259146 | BP chisq diff = -6.7, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632351 | --> Sampling calibration, mode = relcal | relcal = -2.8204231E-03 -7.0475193E-04 1.6772846E-03 1.6134762E-03 -4.0779691E-04 6.4221112E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5878582 15218442.3349668 | BP delta = 0.0000000E+00 -0.5967596 15218446.6431560 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18186658808648 | --> Sampling calibration, mode = relcal | relcal = -7.4447818E-02 -5.8284160E-02 9.1442019E-02 4.1289959E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3445657E-04 3.9918660E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3921E-05 | 2: delta_r/delta_0: 1.0735E-06 | 3: delta_s/delta_0: 2.3475E-07 | 4: delta_r/delta_0: 1.1752E-08 | 5: delta_s/delta_0: 3.2353E-09 | 6: delta_r/delta_0: 6.2483E-10 | 7: delta_s/delta_0: 4.4434E-07 | 8: delta_r/delta_0: 2.6423E-08 | 9: delta_s/delta_0: 3.8504E-09 | 10: delta_r/delta_0: 3.7211E-10 | 11: delta_s/delta_0: 1.1203E-08 | 12: delta_r/delta_0: 3.1238E-09 | 13: delta_s/delta_0: 1.7607E-10 | 14: delta_r/delta_0: 3.0642E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.440509713619290E-004 2.739163001783844E-005 | BP delta = 1.2301314E-02 2.7108714E-02 50483634.4052459 | BP delta = 1.2569558E-02 2.7376959E-02 50483634.4269306 | BP chisq diff = 0.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02570080 | --> Sampling calibration, mode = relcal | relcal = -0.1065965 -9.5548257E-02 0.1448907 5.7254113E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1501467E-03 1.4429770E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6979E-05 | 2: delta_r/delta_0: 1.1710E-06 | 3: delta_s/delta_0: 2.3908E-07 | 4: delta_r/delta_0: 5.5291E-08 | 5: delta_s/delta_0: 1.4982E-08 | 6: delta_r/delta_0: 7.2449E-09 | 7: delta_s/delta_0: 1.3217E-07 | 8: delta_r/delta_0: 6.1195E-09 | 9: delta_s/delta_0: 7.9670E-10 | 10: delta_r/delta_0: 5.7387E-10 | 11: delta_s/delta_0: 5.5960E-09 | 12: delta_r/delta_0: 6.4263E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.776811320161128E-003 2.811642059054492E-005 | BP delta = -0.2878697 -0.2616134 57395613.8085608 | BP delta = -0.2795346 -0.2532784 57395613.9134654 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81202002 | --> Sampling calibration, mode = relcal | relcal = 0.2954237 0.2247988 -0.2837261 -0.2364964 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.1369017E-04 4.3091956E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0041E-03 | 2: delta_r/delta_0: 6.9630E-05 | 3: delta_s/delta_0: 1.3909E-05 | 4: delta_r/delta_0: 1.2764E-06 | 5: delta_s/delta_0: 1.7711E-06 | 6: delta_r/delta_0: 1.0968E-07 | 7: delta_s/delta_0: 4.4746E-08 | 8: delta_r/delta_0: 1.8998E-08 | 9: delta_s/delta_0: 3.5476E-06 | 10: delta_r/delta_0: 1.0576E-07 | 11: delta_s/delta_0: 6.5613E-07 | 12: delta_r/delta_0: 1.8101E-07 | 13: delta_s/delta_0: 2.9291E-10 | 14: delta_r/delta_0: 8.3567E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.198934616977266E-002 4.022866111790671E-005 | BP delta = -8.7934121E-02 -9.7702146E-02 72487252.3251090 | BP delta = -0.1032099 -0.1129779 72487252.1288271 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95887934 | --> Sampling calibration, mode = relcal | relcal = 0.1064945 0.1394442 -0.1102541 -0.1356846 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0725776E-02 1.2585087E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4587E-04 | 2: delta_r/delta_0: 4.0567E-06 | 3: delta_s/delta_0: 7.3615E-06 | 4: delta_r/delta_0: 1.1229E-06 | 5: delta_s/delta_0: 1.5932E-07 | 6: delta_r/delta_0: 1.0769E-07 | 7: delta_s/delta_0: 9.1258E-07 | 8: delta_r/delta_0: 2.0910E-08 | 9: delta_s/delta_0: 2.8361E-08 | 10: delta_r/delta_0: 1.6696E-08 | 11: delta_s/delta_0: 1.1519E-09 | 12: delta_r/delta_0: 7.5429E-10 | 13: delta_s/delta_0: 3.1521E-10 | 14: delta_r/delta_0: 2.3085E-10 | 15: delta_s/delta_0: 6.7445E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.849807177306030E-002 3.698200886203667E-005 | BP delta = 5.5642150E-02 0.1656541 72773411.7674170 | BP delta = 8.0585949E-02 0.1905979 72773410.6465937 | BP chisq diff = -1.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143315 | New value = -3.216622 | poltype: 2 pol: 1 CPU time specind = 1.3029814E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.072790 | New value = -3.095073 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.239044 | New value = -3.093027 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182890 | New value = -3.146814 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121282 | New value = -3.081175 | poltype: 2 pol: 2 CPU time specind = 4.3401718E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.13560E+08, tol = 0.79659E+01, time = 4.15 | CG iter. 2 -- res = 0.36342E+06, tol = 0.79659E+01, time = 4.21 | CG iter. 3 -- res = 0.60310E+05, tol = 0.79659E+01, time = 4.12 | CG iter. 4 -- res = 0.38792E+05, tol = 0.79659E+01, time = 4.49 | CG iter. 5 -- res = 0.33714E+05, tol = 0.79659E+01, time = 4.29 | CG iter. 6 -- res = 0.31265E+05, tol = 0.79659E+01, time = 4.15 | CG iter. 7 -- res = 0.31858E+05, tol = 0.79659E+01, time = 4.17 | CG iter. 8 -- res = 0.28555E+05, tol = 0.79659E+01, time = 4.26 | CG iter. 9 -- res = 0.24345E+05, tol = 0.79659E+01, time = 4.21 | CG iter. 10 -- res = 0.21023E+05, tol = 0.79659E+01, time = 4.33 | CG iter. 11 -- res = 0.15101E+05, tol = 0.79659E+01, time = 4.50 | CG iter. 12 -- res = 0.10228E+05, tol = 0.79659E+01, time = 4.26 | CG iter. 13 -- res = 0.81347E+04, tol = 0.79659E+01, time = 4.34 | CG iter. 14 -- res = 0.74266E+04, tol = 0.79659E+01, time = 4.19 | CG iter. 15 -- res = 0.65588E+04, tol = 0.79659E+01, time = 5.37 | CG iter. 16 -- res = 0.50179E+04, tol = 0.79659E+01, time = 4.88 | CG iter. 17 -- res = 0.36108E+04, tol = 0.79659E+01, time = 5.97 | CG iter. 18 -- res = 0.29844E+04, tol = 0.79659E+01, time = 4.37 | CG iter. 19 -- res = 0.25704E+04, tol = 0.79659E+01, time = 4.21 | CG iter. 20 -- res = 0.20728E+04, tol = 0.79659E+01, time = 4.40 | CG iter. 21 -- res = 0.15969E+04, tol = 0.79659E+01, time = 4.43 | CG iter. 22 -- res = 0.13602E+04, tol = 0.79659E+01, time = 4.35 | CG iter. 23 -- res = 0.12313E+04, tol = 0.79659E+01, time = 4.35 | CG iter. 24 -- res = 0.10319E+04, tol = 0.79659E+01, time = 4.42 | CG iter. 25 -- res = 0.80215E+03, tol = 0.79659E+01, time = 4.17 | CG iter. 26 -- res = 0.63852E+03, tol = 0.79659E+01, time = 4.24 | CG iter. 27 -- res = 0.55755E+03, tol = 0.79659E+01, time = 4.48 | CG iter. 28 -- res = 0.51977E+03, tol = 0.79659E+01, time = 4.38 | CG iter. 29 -- res = 0.41967E+03, tol = 0.79659E+01, time = 4.34 | CG iter. 30 -- res = 0.34219E+03, tol = 0.79659E+01, time = 4.26 | CG iter. 31 -- res = 0.30509E+03, tol = 0.79659E+01, time = 4.21 | CG iter. 32 -- res = 0.27278E+03, tol = 0.79659E+01, time = 4.26 | CG iter. 33 -- res = 0.22580E+03, tol = 0.79659E+01, time = 4.27 | CG iter. 34 -- res = 0.18115E+03, tol = 0.79659E+01, time = 4.22 | CG iter. 35 -- res = 0.15764E+03, tol = 0.79659E+01, time = 4.31 | CG iter. 36 -- res = 0.14743E+03, tol = 0.79659E+01, time = 4.31 | CG iter. 37 -- res = 0.12698E+03, tol = 0.79659E+01, time = 4.16 | CG iter. 38 -- res = 0.10060E+03, tol = 0.79659E+01, time = 4.34 | CG iter. 39 -- res = 0.84091E+02, tol = 0.79659E+01, time = 4.22 | CG iter. 40 -- res = 0.75458E+02, tol = 0.79659E+01, time = 4.21 | CG iter. 41 -- res = 0.67858E+02, tol = 0.79659E+01, time = 4.25 | CG iter. 42 -- res = 0.54160E+02, tol = 0.79659E+01, time = 4.34 | CG iter. 43 -- res = 0.45504E+02, tol = 0.79659E+01, time = 4.31 | CG iter. 44 -- res = 0.38739E+02, tol = 0.79659E+01, time = 4.41 | CG iter. 45 -- res = 0.33826E+02, tol = 0.79659E+01, time = 4.38 | CG iter. 46 -- res = 0.28470E+02, tol = 0.79659E+01, time = 4.31 | CG iter. 47 -- res = 0.22124E+02, tol = 0.79659E+01, time = 4.34 | CG iter. 48 -- res = 0.18157E+02, tol = 0.79659E+01, time = 4.34 | CG iter. 49 -- res = 0.16069E+02, tol = 0.79659E+01, time = 4.33 | CG iter. 50 -- res = 0.13252E+02, tol = 0.79659E+01, time = 4.27 | Final CG iter 51 -- res = 0.13252E+02, tol = 0.79659E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8587510.280 | Old band monopole 8708082.303 | Change to band monopole -120572.023 | Change to component monopole 120571.504 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.21 | CG iter. 1 -- res = 0.24261E+06, tol = 0.47627E+18, time = 1.44 | CG iter. 2 -- res = 0.10568E+03, tol = 0.47627E+18, time = 1.50 | CG iter. 3 -- res = 0.32667E+01, tol = 0.47627E+18, time = 1.54 | CG iter. 4 -- res = 0.13226E-01, tol = 0.47627E+18, time = 1.45 | Final CG iter 5 -- res = 0.37733E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8587473.343 | (Sampled value in CG: 8538731.767 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.517326 | New value = 1.476729 | poltype: 2 pol: 1 CPU time specind = 1.2362957E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.472321 | New value = 1.522231 | poltype: 2 pol: 2 CPU time specind = 1.8362045E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.24357E+08, tol = 0.47539E+04, time = 5.00 | CG iter. 2 -- res = 0.53657E+07, tol = 0.47539E+04, time = 5.04 | CG iter. 3 -- res = 0.83296E+06, tol = 0.47539E+04, time = 4.98 | CG iter. 4 -- res = 0.34274E+06, tol = 0.47539E+04, time = 4.84 | CG iter. 5 -- res = 0.14479E+06, tol = 0.47539E+04, time = 5.09 | CG iter. 6 -- res = 0.78277E+05, tol = 0.47539E+04, time = 4.95 | CG iter. 7 -- res = 0.42890E+05, tol = 0.47539E+04, time = 4.85 | CG iter. 8 -- res = 0.20262E+05, tol = 0.47539E+04, time = 5.72 | CG iter. 9 -- res = 0.88199E+04, tol = 0.47539E+04, time = 6.05 | CG iter. 10 -- res = 0.36063E+04, tol = 0.47539E+04, time = 5.41 | CG iter. 11 -- res = 0.16645E+04, tol = 0.47539E+04, time = 5.03 | CG iter. 12 -- res = 0.85923E+03, tol = 0.47539E+04, time = 4.91 | CG iter. 13 -- res = 0.48026E+03, tol = 0.47539E+04, time = 4.87 | CG iter. 14 -- res = 0.27115E+03, tol = 0.47539E+04, time = 4.96 | CG iter. 15 -- res = 0.14224E+03, tol = 0.47539E+04, time = 4.89 | CG iter. 16 -- res = 0.67596E+02, tol = 0.47539E+04, time = 5.04 | CG iter. 17 -- res = 0.31935E+02, tol = 0.47539E+04, time = 5.09 | CG iter. 18 -- res = 0.15789E+02, tol = 0.47539E+04, time = 5.05 | CG iter. 19 -- res = 0.83442E+01, tol = 0.47539E+04, time = 4.81 | CG iter. 20 -- res = 0.46269E+01, tol = 0.47539E+04, time = 5.12 | CG iter. 21 -- res = 0.25263E+01, tol = 0.47539E+04, time = 4.91 | CG iter. 22 -- res = 0.13111E+01, tol = 0.47539E+04, time = 4.85 | CG iter. 23 -- res = 0.66980E+00, tol = 0.47539E+04, time = 5.17 | CG iter. 24 -- res = 0.35035E+00, tol = 0.47539E+04, time = 4.94 | CG iter. 25 -- res = 0.18852E+00, tol = 0.47539E+04, time = 4.82 | CG iter. 26 -- res = 0.10688E+00, tol = 0.47539E+04, time = 5.01 | CG iter. 27 -- res = 0.59861E-01, tol = 0.47539E+04, time = 4.97 | CG iter. 28 -- res = 0.32025E-01, tol = 0.47539E+04, time = 5.05 | CG iter. 29 -- res = 0.16518E-01, tol = 0.47539E+04, time = 5.05 | CG iter. 30 -- res = 0.84801E-02, tol = 0.47539E+04, time = 5.51 | CG iter. 31 -- res = 0.45906E-02, tol = 0.47539E+04, time = 5.26 | CG iter. 32 -- res = 0.26452E-02, tol = 0.47539E+04, time = 4.87 | CG iter. 33 -- res = 0.14995E-02, tol = 0.47539E+04, time = 4.78 | CG iter. 34 -- res = 0.83329E-03, tol = 0.47539E+04, time = 4.98 | CG iter. 35 -- res = 0.44036E-03, tol = 0.47539E+04, time = 4.99 | Final CG iter 36 -- res = 0.44036E-03, tol = 0.47539E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.996 2.763 | New value -3.363 | Old value 1.996 | Difference -5.358 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.51 | CG iter. 1 -- res = 0.14843E+07, tol = 0.47627E+18, time = 1.39 | CG iter. 2 -- res = 0.50088E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.15270E+01, tol = 0.47627E+18, time = 1.46 | CG iter. 4 -- res = 0.16052E-03, tol = 0.47627E+18, time = 1.51 | Final CG iter 5 -- res = 0.36167E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8587473.343 | (Sampled value in CG: 8538971.925 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.695382 | New value = -3.552784 | poltype: 1 pol: 1 CPU time specind = 5.3579807E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.25034E+07, tol = 0.21962E+01, time = 2.11 | CG iter. 2 -- res = 0.11978E+07, tol = 0.21962E+01, time = 1.90 | CG iter. 3 -- res = 0.23288E+06, tol = 0.21962E+01, time = 2.11 | CG iter. 4 -- res = 0.85316E+05, tol = 0.21962E+01, time = 1.97 | CG iter. 5 -- res = 0.48470E+05, tol = 0.21962E+01, time = 1.93 | CG iter. 6 -- res = 0.27320E+05, tol = 0.21962E+01, time = 1.82 | CG iter. 7 -- res = 0.10798E+05, tol = 0.21962E+01, time = 2.09 | CG iter. 8 -- res = 0.43856E+04, tol = 0.21962E+01, time = 2.02 | CG iter. 9 -- res = 0.18354E+04, tol = 0.21962E+01, time = 2.08 | CG iter. 10 -- res = 0.74350E+03, tol = 0.21962E+01, time = 2.07 | CG iter. 11 -- res = 0.29832E+03, tol = 0.21962E+01, time = 2.00 | CG iter. 12 -- res = 0.14438E+03, tol = 0.21962E+01, time = 1.86 | CG iter. 13 -- res = 0.73465E+02, tol = 0.21962E+01, time = 2.04 | CG iter. 14 -- res = 0.37690E+02, tol = 0.21962E+01, time = 2.04 | CG iter. 15 -- res = 0.17514E+02, tol = 0.21962E+01, time = 2.01 | CG iter. 16 -- res = 0.75988E+01, tol = 0.21962E+01, time = 2.02 | CG iter. 17 -- res = 0.31516E+01, tol = 0.21962E+01, time = 2.22 | CG iter. 18 -- res = 0.14222E+01, tol = 0.21962E+01, time = 2.00 | CG iter. 19 -- res = 0.71055E+00, tol = 0.21962E+01, time = 1.99 | CG iter. 20 -- res = 0.37397E+00, tol = 0.21962E+01, time = 1.81 | CG iter. 21 -- res = 0.18877E+00, tol = 0.21962E+01, time = 2.16 | CG iter. 22 -- res = 0.86943E-01, tol = 0.21962E+01, time = 1.91 | CG iter. 23 -- res = 0.39206E-01, tol = 0.21962E+01, time = 2.14 | CG iter. 24 -- res = 0.18103E-01, tol = 0.21962E+01, time = 1.98 | CG iter. 25 -- res = 0.91083E-02, tol = 0.21962E+01, time = 2.09 | CG iter. 26 -- res = 0.47028E-02, tol = 0.21962E+01, time = 2.00 | CG iter. 27 -- res = 0.23573E-02, tol = 0.21962E+01, time = 1.96 | CG iter. 28 -- res = 0.12095E-02, tol = 0.21962E+01, time = 2.04 | CG iter. 29 -- res = 0.54708E-03, tol = 0.21962E+01, time = 2.05 | CG iter. 30 -- res = 0.25653E-03, tol = 0.21962E+01, time = 2.05 | CG iter. 31 -- res = 0.12716E-03, tol = 0.21962E+01, time = 2.01 | CG iter. 32 -- res = 0.59358E-04, tol = 0.21962E+01, time = 1.95 | CG iter. 33 -- res = 0.29483E-04, tol = 0.21962E+01, time = 2.03 | CG iter. 34 -- res = 0.15177E-04, tol = 0.21962E+01, time = 2.00 | CG iter. 35 -- res = 0.74844E-05, tol = 0.21962E+01, time = 1.93 | CG iter. 36 -- res = 0.34872E-05, tol = 0.21962E+01, time = 1.99 | CG iter. 37 -- res = 0.15064E-05, tol = 0.21962E+01, time = 1.97 | CG iter. 38 -- res = 0.75520E-06, tol = 0.21962E+01, time = 1.95 | CG iter. 39 -- res = 0.38243E-06, tol = 0.21962E+01, time = 1.97 | CG iter. 40 -- res = 0.19479E-06, tol = 0.21962E+01, time = 2.10 | CG iter. 41 -- res = 0.93007E-07, tol = 0.21962E+01, time = 1.93 | CG iter. 42 -- res = 0.42869E-07, tol = 0.21962E+01, time = 1.94 | CG iter. 43 -- res = 0.19101E-07, tol = 0.21962E+01, time = 2.16 | CG iter. 44 -- res = 0.92932E-08, tol = 0.21962E+01, time = 2.08 | CG iter. 45 -- res = 0.46176E-08, tol = 0.21962E+01, time = 1.96 | CG iter. 46 -- res = 0.22594E-08, tol = 0.21962E+01, time = 2.20 | CG iter. 47 -- res = 0.11145E-08, tol = 0.21962E+01, time = 1.91 | CG iter. 48 -- res = 0.50393E-09, tol = 0.21962E+01, time = 1.97 | CG iter. 49 -- res = 0.23336E-09, tol = 0.21962E+01, time = 1.95 | CG iter. 50 -- res = 0.11254E-09, tol = 0.21962E+01, time = 1.99 | Final CG iter 51 -- res = 0.11254E-09, tol = 0.21962E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.333 6.471 | New value 2.886 | Old value -9.333 | Difference 12.219 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.15217E+06, tol = 0.47627E+18, time = 1.47 | CG iter. 2 -- res = 0.68690E+02, tol = 0.47627E+18, time = 1.48 | CG iter. 3 -- res = 0.25699E+01, tol = 0.47627E+18, time = 1.40 | CG iter. 4 -- res = 0.73133E-02, tol = 0.47627E+18, time = 1.41 | Final CG iter 5 -- res = 0.68128E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8587473.343 | (Sampled value in CG: 8551431.443 ) | CPU time specind = 908.5838 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.69253E+08, tol = 0.57586E+04, time = 8.85 | CG iter. 2 -- res = 0.58754E+08, tol = 0.57586E+04, time = 9.30 | CG iter. 3 -- res = 0.15212E+08, tol = 0.57586E+04, time = 8.80 | CG iter. 4 -- res = 0.64555E+07, tol = 0.57586E+04, time = 8.97 | CG iter. 5 -- res = 0.38788E+07, tol = 0.57586E+04, time = 8.85 | CG iter. 6 -- res = 0.22184E+07, tol = 0.57586E+04, time = 8.85 | CG iter. 7 -- res = 0.13248E+07, tol = 0.57586E+04, time = 9.13 | CG iter. 8 -- res = 0.88535E+06, tol = 0.57586E+04, time = 9.04 | CG iter. 9 -- res = 0.56733E+06, tol = 0.57586E+04, time = 10.66 | CG iter. 10 -- res = 0.34009E+06, tol = 0.57586E+04, time = 9.24 | CG iter. 11 -- res = 0.18701E+06, tol = 0.57586E+04, time = 9.05 | CG iter. 12 -- res = 0.10447E+06, tol = 0.57586E+04, time = 8.99 | CG iter. 13 -- res = 0.59966E+05, tol = 0.57586E+04, time = 9.28 | CG iter. 14 -- res = 0.37566E+05, tol = 0.57586E+04, time = 8.60 | CG iter. 15 -- res = 0.27698E+05, tol = 0.57586E+04, time = 9.08 | CG iter. 16 -- res = 0.22806E+05, tol = 0.57586E+04, time = 8.96 | CG iter. 17 -- res = 0.19730E+05, tol = 0.57586E+04, time = 9.06 | CG iter. 18 -- res = 0.17107E+05, tol = 0.57586E+04, time = 8.94 | CG iter. 19 -- res = 0.14500E+05, tol = 0.57586E+04, time = 8.97 | CG iter. 20 -- res = 0.13024E+05, tol = 0.57586E+04, time = 9.36 | CG iter. 21 -- res = 0.12477E+05, tol = 0.57586E+04, time = 8.81 | CG iter. 22 -- res = 0.13028E+05, tol = 0.57586E+04, time = 8.96 | CG iter. 23 -- res = 0.14037E+05, tol = 0.57586E+04, time = 9.20 | CG iter. 24 -- res = 0.14459E+05, tol = 0.57586E+04, time = 8.84 | CG iter. 25 -- res = 0.13201E+05, tol = 0.57586E+04, time = 8.95 | CG iter. 26 -- res = 0.10749E+05, tol = 0.57586E+04, time = 8.94 | CG iter. 27 -- res = 0.82255E+04, tol = 0.57586E+04, time = 8.99 | CG iter. 28 -- res = 0.61829E+04, tol = 0.57586E+04, time = 8.79 | CG iter. 29 -- res = 0.48912E+04, tol = 0.57586E+04, time = 8.90 | CG iter. 30 -- res = 0.41959E+04, tol = 0.57586E+04, time = 8.74 | CG iter. 31 -- res = 0.36540E+04, tol = 0.57586E+04, time = 15.49 | CG iter. 32 -- res = 0.31337E+04, tol = 0.57586E+04, time = 9.45 | CG iter. 33 -- res = 0.26287E+04, tol = 0.57586E+04, time = 8.99 | CG iter. 34 -- res = 0.22392E+04, tol = 0.57586E+04, time = 9.26 | CG iter. 35 -- res = 0.19637E+04, tol = 0.57586E+04, time = 8.87 | CG iter. 36 -- res = 0.18411E+04, tol = 0.57586E+04, time = 9.00 | CG iter. 37 -- res = 0.18332E+04, tol = 0.57586E+04, time = 8.71 | CG iter. 38 -- res = 0.18401E+04, tol = 0.57586E+04, time = 9.09 | CG iter. 39 -- res = 0.17045E+04, tol = 0.57586E+04, time = 9.28 | CG iter. 40 -- res = 0.14685E+04, tol = 0.57586E+04, time = 9.07 | CG iter. 41 -- res = 0.12022E+04, tol = 0.57586E+04, time = 10.45 | CG iter. 42 -- res = 0.97425E+03, tol = 0.57586E+04, time = 9.62 | CG iter. 43 -- res = 0.84316E+03, tol = 0.57586E+04, time = 9.25 | CG iter. 44 -- res = 0.78141E+03, tol = 0.57586E+04, time = 8.88 | CG iter. 45 -- res = 0.72838E+03, tol = 0.57586E+04, time = 9.15 | CG iter. 46 -- res = 0.65717E+03, tol = 0.57586E+04, time = 9.02 | CG iter. 47 -- res = 0.58997E+03, tol = 0.57586E+04, time = 9.00 | CG iter. 48 -- res = 0.51637E+03, tol = 0.57586E+04, time = 9.00 | CG iter. 49 -- res = 0.45073E+03, tol = 0.57586E+04, time = 8.91 | CG iter. 50 -- res = 0.42047E+03, tol = 0.57586E+04, time = 8.95 | CG iter. 51 -- res = 0.40932E+03, tol = 0.57586E+04, time = 9.03 | CG iter. 52 -- res = 0.41447E+03, tol = 0.57586E+04, time = 9.16 | CG iter. 53 -- res = 0.39846E+03, tol = 0.57586E+04, time = 8.93 | CG iter. 54 -- res = 0.36883E+03, tol = 0.57586E+04, time = 8.94 | CG iter. 55 -- res = 0.32997E+03, tol = 0.57586E+04, time = 9.01 | CG iter. 56 -- res = 0.28884E+03, tol = 0.57586E+04, time = 9.08 | CG iter. 57 -- res = 0.25086E+03, tol = 0.57586E+04, time = 9.03 | CG iter. 58 -- res = 0.23054E+03, tol = 0.57586E+04, time = 8.93 | CG iter. 59 -- res = 0.22124E+03, tol = 0.57586E+04, time = 9.00 | CG iter. 60 -- res = 0.21053E+03, tol = 0.57586E+04, time = 9.06 | Final CG iter 61 -- res = 0.21053E+03, tol = 0.57586E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.941 ( -229.864 -2229.265 2511.576 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9322411.049 | Old band monopole 8587510.280 | Change to band monopole 734900.769 | Change to component monopole -734897.608 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.410 2.721 | New value -0.402 | Old value -3.410 | Difference 3.008 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.690 ( 7.824 9.379 -8.280 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.317 5.544 | New value -1.033 | Old value 10.317 | Difference -11.350 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.52270E+06, tol = 0.47627E+18, time = 1.42 | CG iter. 2 -- res = 0.40471E+02, tol = 0.47627E+18, time = 1.50 | CG iter. 3 -- res = 0.16338E+01, tol = 0.47627E+18, time = 1.43 | CG iter. 4 -- res = 0.42171E-02, tol = 0.47627E+18, time = 1.51 | Final CG iter 5 -- res = 0.25649E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9322370.951 | (Sampled value in CG: 9293809.687 ) | Chain = 1 -- chisq = 0.81575475E+09 | Chain = 1 -- wall time = 5289.178 sec Available RAM: MemAvailable: 372579236 kB Available Swap: SwapFree: 1187135868 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 160 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444545 | --> Sampling calibration, mode = relcal | relcal = 1.3432166E-02 7.4199447E-04 -1.5946828E-03 -1.2579477E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1149599 0.1267051 9405828.28138257 | BP delta = 0.1149599 0.1293001 9405820.44897226 | BP chisq diff = -7.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632353 | --> Sampling calibration, mode = relcal | relcal = -2.8203356E-03 -7.0310157E-04 1.6776397E-03 1.6142834E-03 -4.0875547E-04 6.4026949E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5878582 15215469.3681112 | BP delta = 0.0000000E+00 -0.5966678 15215474.4435116 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18139071259061 | --> Sampling calibration, mode = relcal | relcal = -7.4631423E-02 -5.8314607E-02 9.1590151E-02 4.1355882E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.3444123E-05 4.1235290E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5899E-05 | 2: delta_r/delta_0: 7.5670E-07 | 3: delta_s/delta_0: 2.5323E-07 | 4: delta_r/delta_0: 1.0475E-08 | 5: delta_s/delta_0: 6.1716E-09 | 6: delta_r/delta_0: 1.6234E-09 | 7: delta_s/delta_0: 3.5051E-10 | 8: delta_r/delta_0: 1.5825E-10 | 9: delta_s/delta_0: 8.0097E-10 | 10: delta_r/delta_0: 3.4126E-10 | 11: delta_s/delta_0: 2.8095E-09 | 12: delta_r/delta_0: 5.1641E-10 | 13: delta_s/delta_0: 1.0765E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.000037439182244E-003 2.740224911334043E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5898E-05 | 2: delta_r/delta_0: 7.5668E-07 | 3: delta_s/delta_0: 2.5323E-07 | 4: delta_r/delta_0: 1.0476E-08 | 5: delta_s/delta_0: 6.1738E-09 | 6: delta_r/delta_0: 1.6242E-09 | 7: delta_s/delta_0: 3.5052E-10 | 8: delta_r/delta_0: 1.5827E-10 | 9: delta_s/delta_0: 8.0182E-10 | 10: delta_r/delta_0: 3.4156E-10 | 11: delta_s/delta_0: 2.8046E-09 | 12: delta_r/delta_0: 5.1569E-10 | 13: delta_s/delta_0: 1.0790E-11 | Reached bicg-stab tolerance | BP delta = 1.2569558E-02 2.7376959E-02 3641417.22353932 | BP delta = 1.2569558E-02 2.7408341E-02 3638866.43866621 | BP chisq diff = -2550.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02576077 | --> Sampling calibration, mode = relcal | relcal = -0.1066096 -9.5600158E-02 0.1449638 5.7245947E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0013148E-03 1.4541191E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1954E-05 | 2: delta_r/delta_0: 1.3703E-06 | 3: delta_s/delta_0: 2.4606E-07 | 4: delta_r/delta_0: 4.8459E-08 | 5: delta_s/delta_0: 2.4071E-08 | 6: delta_r/delta_0: 7.6281E-09 | 7: delta_s/delta_0: 8.3138E-09 | 8: delta_r/delta_0: 1.6623E-09 | 9: delta_s/delta_0: 7.6578E-10 | 10: delta_r/delta_0: 5.6007E-10 | 11: delta_s/delta_0: 1.7840E-09 | 12: delta_r/delta_0: 5.5458E-10 | 13: delta_s/delta_0: 1.2266E-10 | 14: delta_r/delta_0: 1.0290E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006302557780572E-002 2.811481269744061E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1954E-05 | 2: delta_r/delta_0: 1.3704E-06 | 3: delta_s/delta_0: 2.4607E-07 | 4: delta_r/delta_0: 4.8477E-08 | 5: delta_s/delta_0: 2.4064E-08 | 6: delta_r/delta_0: 7.6291E-09 | 7: delta_s/delta_0: 8.3125E-09 | 8: delta_r/delta_0: 1.6625E-09 | 9: delta_s/delta_0: 7.6590E-10 | 10: delta_r/delta_0: 5.6012E-10 | 11: delta_s/delta_0: 1.7762E-09 | 12: delta_r/delta_0: 5.5372E-10 | 13: delta_s/delta_0: 1.2271E-10 | 14: delta_r/delta_0: 1.0290E-11 | Reached bicg-stab tolerance | BP delta = -0.2795346 -0.2532784 2841767.56943017 | BP delta = -0.2795346 -0.2571335 2841779.73713765 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81217482 | --> Sampling calibration, mode = relcal | relcal = 0.2954856 0.2247498 -0.2837286 -0.2365069 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.2258565E-04 4.4311895E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7619E-03 | 2: delta_r/delta_0: 8.7512E-05 | 3: delta_s/delta_0: 7.3642E-06 | 4: delta_r/delta_0: 5.3954E-07 | 5: delta_s/delta_0: 2.8415E-03 | 6: delta_r/delta_0: 4.9019E-05 | 7: delta_s/delta_0: 5.2488E-08 | 8: delta_r/delta_0: 2.4379E-08 | 9: delta_s/delta_0: 6.3626E-08 | 10: delta_r/delta_0: 5.9761E-09 | 11: delta_s/delta_0: 1.8352E-09 | 12: delta_r/delta_0: 5.6404E-10 | 13: delta_s/delta_0: 3.0512E-10 | 14: delta_r/delta_0: 1.5843E-10 | 15: delta_s/delta_0: 3.1072E-10 | 16: delta_r/delta_0: 1.4513E-10 | 17: delta_s/delta_0: 1.3240E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.051350334780168E-002 4.021892886369835E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7616E-03 | 2: delta_r/delta_0: 8.7504E-05 | 3: delta_s/delta_0: 7.3631E-06 | 4: delta_r/delta_0: 5.3952E-07 | 5: delta_s/delta_0: 2.8375E-03 | 6: delta_r/delta_0: 4.8949E-05 | 7: delta_s/delta_0: 5.2480E-08 | 8: delta_r/delta_0: 2.4380E-08 | 9: delta_s/delta_0: 6.3654E-08 | 10: delta_r/delta_0: 5.9757E-09 | 11: delta_s/delta_0: 1.8350E-09 | 12: delta_r/delta_0: 5.6400E-10 | 13: delta_s/delta_0: 3.0513E-10 | 14: delta_r/delta_0: 1.5840E-10 | 15: delta_s/delta_0: 3.1055E-10 | 16: delta_r/delta_0: 1.4502E-10 | 17: delta_s/delta_0: 1.3240E-11 | Reached bicg-stab tolerance | BP delta = -0.1032099 -0.1129779 2827664.96790009 | BP delta = -0.1032099 -0.1200521 2827661.94342728 | BP chisq diff = -3.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95895836 | --> Sampling calibration, mode = relcal | relcal = 0.1063832 0.1395128 -0.1102573 -0.1356387 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0787674E-02 1.3485099E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5632E-04 | 2: delta_r/delta_0: 1.3654E-05 | 3: delta_s/delta_0: 7.1801E-06 | 4: delta_r/delta_0: 6.2536E-07 | 5: delta_s/delta_0: 4.8484E-07 | 6: delta_r/delta_0: 2.4107E-07 | 7: delta_s/delta_0: 6.6563E-08 | 8: delta_r/delta_0: 5.2556E-08 | 9: delta_s/delta_0: 1.2796E-07 | 10: delta_r/delta_0: 8.0622E-09 | 11: delta_s/delta_0: 2.4417E-09 | 12: delta_r/delta_0: 1.4700E-09 | 13: delta_s/delta_0: 2.5487E-10 | 14: delta_r/delta_0: 2.0872E-10 | 15: delta_s/delta_0: 9.3036E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.273854249541838E-002 3.697920697367913E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.5617E-04 | 2: delta_r/delta_0: 1.3651E-05 | 3: delta_s/delta_0: 7.1808E-06 | 4: delta_r/delta_0: 6.2570E-07 | 5: delta_s/delta_0: 4.8486E-07 | 6: delta_r/delta_0: 2.4110E-07 | 7: delta_s/delta_0: 6.6582E-08 | 8: delta_r/delta_0: 5.2559E-08 | 9: delta_s/delta_0: 1.2782E-07 | 10: delta_r/delta_0: 8.0633E-09 | 11: delta_s/delta_0: 2.4387E-09 | 12: delta_r/delta_0: 1.4698E-09 | 13: delta_s/delta_0: 2.5555E-10 | 14: delta_r/delta_0: 2.0922E-10 | 15: delta_s/delta_0: 9.2580E-11 | Reached bicg-stab tolerance | BP delta = 8.0585949E-02 0.1905979 3004320.09184488 | BP delta = 8.0585949E-02 0.1640107 3004526.98364169 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216622 | New value = -3.087309 | poltype: 2 pol: 1 CPU time specind = 8.6228848E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.095073 | New value = -3.066006 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.093027 | New value = -3.164493 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146814 | New value = -3.008110 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.081175 | New value = -3.208737 | poltype: 2 pol: 2 CPU time specind = 7.9011917E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.13889E+08, tol = 0.75848E+01, time = 4.17 | CG iter. 2 -- res = 0.45214E+06, tol = 0.75848E+01, time = 4.18 | CG iter. 3 -- res = 0.21967E+06, tol = 0.75848E+01, time = 4.34 | CG iter. 4 -- res = 0.38154E+06, tol = 0.75848E+01, time = 4.33 | CG iter. 5 -- res = 0.34860E+06, tol = 0.75848E+01, time = 4.25 | CG iter. 6 -- res = 0.27542E+06, tol = 0.75848E+01, time = 4.15 | CG iter. 7 -- res = 0.18473E+06, tol = 0.75848E+01, time = 4.24 | CG iter. 8 -- res = 0.12715E+06, tol = 0.75848E+01, time = 4.29 | CG iter. 9 -- res = 0.11534E+06, tol = 0.75848E+01, time = 4.16 | CG iter. 10 -- res = 0.90855E+05, tol = 0.75848E+01, time = 4.24 | CG iter. 11 -- res = 0.66259E+05, tol = 0.75848E+01, time = 4.17 | CG iter. 12 -- res = 0.48362E+05, tol = 0.75848E+01, time = 4.26 | CG iter. 13 -- res = 0.38127E+05, tol = 0.75848E+01, time = 4.06 | CG iter. 14 -- res = 0.31002E+05, tol = 0.75848E+01, time = 4.26 | CG iter. 15 -- res = 0.23145E+05, tol = 0.75848E+01, time = 4.28 | CG iter. 16 -- res = 0.15098E+05, tol = 0.75848E+01, time = 4.80 | CG iter. 17 -- res = 0.11503E+05, tol = 0.75848E+01, time = 4.32 | CG iter. 18 -- res = 0.10344E+05, tol = 0.75848E+01, time = 4.17 | CG iter. 19 -- res = 0.83310E+04, tol = 0.75848E+01, time = 4.18 | CG iter. 20 -- res = 0.60195E+04, tol = 0.75848E+01, time = 4.12 | CG iter. 21 -- res = 0.42807E+04, tol = 0.75848E+01, time = 4.23 | CG iter. 22 -- res = 0.36965E+04, tol = 0.75848E+01, time = 4.24 | CG iter. 23 -- res = 0.30704E+04, tol = 0.75848E+01, time = 4.14 | CG iter. 24 -- res = 0.23620E+04, tol = 0.75848E+01, time = 4.23 | CG iter. 25 -- res = 0.17151E+04, tol = 0.75848E+01, time = 4.17 | CG iter. 26 -- res = 0.14329E+04, tol = 0.75848E+01, time = 4.11 | CG iter. 27 -- res = 0.12516E+04, tol = 0.75848E+01, time = 4.29 | CG iter. 28 -- res = 0.96987E+03, tol = 0.75848E+01, time = 4.27 | CG iter. 29 -- res = 0.67091E+03, tol = 0.75848E+01, time = 4.32 | CG iter. 30 -- res = 0.55532E+03, tol = 0.75848E+01, time = 4.33 | CG iter. 31 -- res = 0.47502E+03, tol = 0.75848E+01, time = 4.30 | CG iter. 32 -- res = 0.37815E+03, tol = 0.75848E+01, time = 4.14 | CG iter. 33 -- res = 0.28164E+03, tol = 0.75848E+01, time = 4.23 | CG iter. 34 -- res = 0.21209E+03, tol = 0.75848E+01, time = 4.13 | CG iter. 35 -- res = 0.17453E+03, tol = 0.75848E+01, time = 4.19 | CG iter. 36 -- res = 0.13960E+03, tol = 0.75848E+01, time = 4.13 | CG iter. 37 -- res = 0.10390E+03, tol = 0.75848E+01, time = 4.34 | CG iter. 38 -- res = 0.75021E+02, tol = 0.75848E+01, time = 4.04 | CG iter. 39 -- res = 0.59206E+02, tol = 0.75848E+01, time = 4.12 | CG iter. 40 -- res = 0.48876E+02, tol = 0.75848E+01, time = 11.02 | CG iter. 41 -- res = 0.36301E+02, tol = 0.75848E+01, time = 4.24 | CG iter. 42 -- res = 0.25908E+02, tol = 0.75848E+01, time = 4.27 | CG iter. 43 -- res = 0.19779E+02, tol = 0.75848E+01, time = 4.35 | CG iter. 44 -- res = 0.16176E+02, tol = 0.75848E+01, time = 4.32 | CG iter. 45 -- res = 0.12557E+02, tol = 0.75848E+01, time = 4.27 | CG iter. 46 -- res = 0.91789E+01, tol = 0.75848E+01, time = 4.42 | CG iter. 47 -- res = 0.66887E+01, tol = 0.75848E+01, time = 4.05 | CG iter. 48 -- res = 0.52067E+01, tol = 0.75848E+01, time = 4.33 | CG iter. 49 -- res = 0.39360E+01, tol = 0.75848E+01, time = 4.21 | CG iter. 50 -- res = 0.28073E+01, tol = 0.75848E+01, time = 4.30 | Final CG iter 51 -- res = 0.28073E+01, tol = 0.75848E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9420604.849 | Old band monopole 9322411.049 | Change to band monopole 98193.800 | Change to component monopole -98193.377 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.84880E+06, tol = 0.47627E+18, time = 1.41 | CG iter. 2 -- res = 0.48217E+03, tol = 0.47627E+18, time = 1.56 | CG iter. 3 -- res = 0.43673E+01, tol = 0.47627E+18, time = 1.45 | CG iter. 4 -- res = 0.86065E-01, tol = 0.47627E+18, time = 1.47 | Final CG iter 5 -- res = 0.16688E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9420564.329 | (Sampled value in CG: 9574163.754 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.476729 | New value = 1.506200 | poltype: 2 pol: 1 CPU time specind = 5.3420067E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.522231 | New value = 1.446482 | poltype: 2 pol: 2 CPU time specind = 4.3768883E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.24166E+08, tol = 0.47583E+04, time = 4.91 | CG iter. 2 -- res = 0.52236E+07, tol = 0.47583E+04, time = 4.53 | CG iter. 3 -- res = 0.82977E+06, tol = 0.47583E+04, time = 4.97 | CG iter. 4 -- res = 0.34606E+06, tol = 0.47583E+04, time = 4.90 | CG iter. 5 -- res = 0.15109E+06, tol = 0.47583E+04, time = 4.76 | CG iter. 6 -- res = 0.78760E+05, tol = 0.47583E+04, time = 4.70 | CG iter. 7 -- res = 0.42579E+05, tol = 0.47583E+04, time = 4.96 | CG iter. 8 -- res = 0.20536E+05, tol = 0.47583E+04, time = 4.66 | CG iter. 9 -- res = 0.90996E+04, tol = 0.47583E+04, time = 4.86 | CG iter. 10 -- res = 0.37564E+04, tol = 0.47583E+04, time = 4.95 | CG iter. 11 -- res = 0.16626E+04, tol = 0.47583E+04, time = 4.83 | CG iter. 12 -- res = 0.86777E+03, tol = 0.47583E+04, time = 4.82 | CG iter. 13 -- res = 0.50295E+03, tol = 0.47583E+04, time = 4.91 | CG iter. 14 -- res = 0.27878E+03, tol = 0.47583E+04, time = 4.84 | CG iter. 15 -- res = 0.14220E+03, tol = 0.47583E+04, time = 4.93 | CG iter. 16 -- res = 0.67947E+02, tol = 0.47583E+04, time = 4.98 | CG iter. 17 -- res = 0.31076E+02, tol = 0.47583E+04, time = 4.72 | CG iter. 18 -- res = 0.15484E+02, tol = 0.47583E+04, time = 4.98 | CG iter. 19 -- res = 0.85079E+01, tol = 0.47583E+04, time = 4.87 | CG iter. 20 -- res = 0.49339E+01, tol = 0.47583E+04, time = 4.90 | CG iter. 21 -- res = 0.26784E+01, tol = 0.47583E+04, time = 4.85 | CG iter. 22 -- res = 0.13556E+01, tol = 0.47583E+04, time = 4.94 | CG iter. 23 -- res = 0.66571E+00, tol = 0.47583E+04, time = 4.90 | CG iter. 24 -- res = 0.33893E+00, tol = 0.47583E+04, time = 4.90 | CG iter. 25 -- res = 0.18913E+00, tol = 0.47583E+04, time = 4.86 | CG iter. 26 -- res = 0.10992E+00, tol = 0.47583E+04, time = 5.05 | CG iter. 27 -- res = 0.62475E-01, tol = 0.47583E+04, time = 5.10 | CG iter. 28 -- res = 0.33809E-01, tol = 0.47583E+04, time = 4.98 | CG iter. 29 -- res = 0.17527E-01, tol = 0.47583E+04, time = 4.84 | CG iter. 30 -- res = 0.90872E-02, tol = 0.47583E+04, time = 5.43 | CG iter. 31 -- res = 0.50048E-02, tol = 0.47583E+04, time = 10.90 | CG iter. 32 -- res = 0.28700E-02, tol = 0.47583E+04, time = 4.80 | CG iter. 33 -- res = 0.16272E-02, tol = 0.47583E+04, time = 4.94 | CG iter. 34 -- res = 0.86460E-03, tol = 0.47583E+04, time = 4.94 | CG iter. 35 -- res = 0.44682E-03, tol = 0.47583E+04, time = 4.88 | Final CG iter 36 -- res = 0.44682E-03, tol = 0.47583E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.376 2.725 | New value -1.093 | Old value -0.376 | Difference -0.718 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.54309E+05, tol = 0.47627E+18, time = 1.25 | CG iter. 2 -- res = 0.14491E+03, tol = 0.47627E+18, time = 1.40 | CG iter. 3 -- res = 0.27741E+01, tol = 0.47627E+18, time = 1.45 | CG iter. 4 -- res = 0.68202E-03, tol = 0.47627E+18, time = 1.38 | Final CG iter 5 -- res = 0.13560E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9420564.329 | (Sampled value in CG: 9574199.266 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.552784 | New value = -3.615980 | poltype: 1 pol: 1 CPU time specind = 5.6750774E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.39980E+07, tol = 0.19494E+01, time = 1.74 | CG iter. 2 -- res = 0.19921E+07, tol = 0.19494E+01, time = 2.13 | CG iter. 3 -- res = 0.42905E+06, tol = 0.19494E+01, time = 1.90 | CG iter. 4 -- res = 0.18551E+06, tol = 0.19494E+01, time = 1.97 | CG iter. 5 -- res = 0.10839E+06, tol = 0.19494E+01, time = 1.85 | CG iter. 6 -- res = 0.49665E+05, tol = 0.19494E+01, time = 1.83 | CG iter. 7 -- res = 0.15857E+05, tol = 0.19494E+01, time = 1.92 | CG iter. 8 -- res = 0.63506E+04, tol = 0.19494E+01, time = 2.00 | CG iter. 9 -- res = 0.30403E+04, tol = 0.19494E+01, time = 1.99 | CG iter. 10 -- res = 0.12574E+04, tol = 0.19494E+01, time = 1.88 | CG iter. 11 -- res = 0.49272E+03, tol = 0.19494E+01, time = 1.88 | CG iter. 12 -- res = 0.24278E+03, tol = 0.19494E+01, time = 1.98 | CG iter. 13 -- res = 0.12215E+03, tol = 0.19494E+01, time = 1.96 | CG iter. 14 -- res = 0.61146E+02, tol = 0.19494E+01, time = 2.06 | CG iter. 15 -- res = 0.26414E+02, tol = 0.19494E+01, time = 1.72 | CG iter. 16 -- res = 0.11588E+02, tol = 0.19494E+01, time = 1.93 | CG iter. 17 -- res = 0.48847E+01, tol = 0.19494E+01, time = 2.04 | CG iter. 18 -- res = 0.23426E+01, tol = 0.19494E+01, time = 1.90 | CG iter. 19 -- res = 0.11302E+01, tol = 0.19494E+01, time = 2.08 | CG iter. 20 -- res = 0.57557E+00, tol = 0.19494E+01, time = 1.92 | CG iter. 21 -- res = 0.26966E+00, tol = 0.19494E+01, time = 1.96 | CG iter. 22 -- res = 0.11864E+00, tol = 0.19494E+01, time = 1.78 | CG iter. 23 -- res = 0.53216E-01, tol = 0.19494E+01, time = 1.87 | CG iter. 24 -- res = 0.24731E-01, tol = 0.19494E+01, time = 1.96 | CG iter. 25 -- res = 0.12273E-01, tol = 0.19494E+01, time = 1.89 | CG iter. 26 -- res = 0.61082E-02, tol = 0.19494E+01, time = 2.01 | CG iter. 27 -- res = 0.30499E-02, tol = 0.19494E+01, time = 1.91 | CG iter. 28 -- res = 0.14549E-02, tol = 0.19494E+01, time = 1.97 | CG iter. 29 -- res = 0.63161E-03, tol = 0.19494E+01, time = 1.89 | CG iter. 30 -- res = 0.30401E-03, tol = 0.19494E+01, time = 1.92 | CG iter. 31 -- res = 0.14802E-03, tol = 0.19494E+01, time = 2.02 | CG iter. 32 -- res = 0.73187E-04, tol = 0.19494E+01, time = 1.95 | CG iter. 33 -- res = 0.35504E-04, tol = 0.19494E+01, time = 7.00 | CG iter. 34 -- res = 0.17626E-04, tol = 0.19494E+01, time = 3.58 | CG iter. 35 -- res = 0.87956E-05, tol = 0.19494E+01, time = 2.09 | CG iter. 36 -- res = 0.39594E-05, tol = 0.19494E+01, time = 1.99 | CG iter. 37 -- res = 0.17911E-05, tol = 0.19494E+01, time = 1.89 | CG iter. 38 -- res = 0.88359E-06, tol = 0.19494E+01, time = 1.92 | CG iter. 39 -- res = 0.44402E-06, tol = 0.19494E+01, time = 2.04 | CG iter. 40 -- res = 0.21099E-06, tol = 0.19494E+01, time = 2.20 | CG iter. 41 -- res = 0.99315E-07, tol = 0.19494E+01, time = 1.83 | CG iter. 42 -- res = 0.46226E-07, tol = 0.19494E+01, time = 1.97 | CG iter. 43 -- res = 0.20756E-07, tol = 0.19494E+01, time = 1.98 | CG iter. 44 -- res = 0.10322E-07, tol = 0.19494E+01, time = 1.92 | CG iter. 45 -- res = 0.51611E-08, tol = 0.19494E+01, time = 1.96 | CG iter. 46 -- res = 0.24694E-08, tol = 0.19494E+01, time = 1.95 | CG iter. 47 -- res = 0.11804E-08, tol = 0.19494E+01, time = 2.06 | CG iter. 48 -- res = 0.53570E-09, tol = 0.19494E+01, time = 1.80 | CG iter. 49 -- res = 0.25143E-09, tol = 0.19494E+01, time = 2.09 | CG iter. 50 -- res = 0.12176E-09, tol = 0.19494E+01, time = 1.94 | Final CG iter 51 -- res = 0.12176E-09, tol = 0.19494E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.315 3.561 | New value 2.361 | Old value 8.315 | Difference -5.953 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.52872E+05, tol = 0.47627E+18, time = 1.45 | CG iter. 2 -- res = 0.12788E+03, tol = 0.47627E+18, time = 1.46 | CG iter. 3 -- res = 0.20058E+01, tol = 0.47627E+18, time = 1.55 | CG iter. 4 -- res = 0.65160E-02, tol = 0.47627E+18, time = 1.43 | Final CG iter 5 -- res = 0.30969E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9420564.329 | (Sampled value in CG: 9536729.325 ) | CPU time specind = 902.0946 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.69077E+08, tol = 0.57688E+04, time = 8.43 | CG iter. 2 -- res = 0.60085E+08, tol = 0.57688E+04, time = 8.99 | CG iter. 3 -- res = 0.16104E+08, tol = 0.57688E+04, time = 8.73 | CG iter. 4 -- res = 0.69302E+07, tol = 0.57688E+04, time = 9.16 | CG iter. 5 -- res = 0.43070E+07, tol = 0.57688E+04, time = 8.92 | CG iter. 6 -- res = 0.25438E+07, tol = 0.57688E+04, time = 9.19 | CG iter. 7 -- res = 0.15267E+07, tol = 0.57688E+04, time = 9.05 | CG iter. 8 -- res = 0.10164E+07, tol = 0.57688E+04, time = 8.84 | CG iter. 9 -- res = 0.68102E+06, tol = 0.57688E+04, time = 8.91 | CG iter. 10 -- res = 0.44772E+06, tol = 0.57688E+04, time = 8.76 | CG iter. 11 -- res = 0.27534E+06, tol = 0.57688E+04, time = 8.91 | CG iter. 12 -- res = 0.17570E+06, tol = 0.57688E+04, time = 9.16 | CG iter. 13 -- res = 0.12314E+06, tol = 0.57688E+04, time = 8.80 | CG iter. 14 -- res = 0.10360E+06, tol = 0.57688E+04, time = 8.81 | CG iter. 15 -- res = 0.10183E+06, tol = 0.57688E+04, time = 8.91 | CG iter. 16 -- res = 0.10671E+06, tol = 0.57688E+04, time = 8.87 | CG iter. 17 -- res = 0.10687E+06, tol = 0.57688E+04, time = 8.94 | CG iter. 18 -- res = 0.10044E+06, tol = 0.57688E+04, time = 8.96 | CG iter. 19 -- res = 0.88537E+05, tol = 0.57688E+04, time = 9.09 | CG iter. 20 -- res = 0.77392E+05, tol = 0.57688E+04, time = 8.92 | CG iter. 21 -- res = 0.68411E+05, tol = 0.57688E+04, time = 15.58 | CG iter. 22 -- res = 0.61300E+05, tol = 0.57688E+04, time = 8.71 | CG iter. 23 -- res = 0.54686E+05, tol = 0.57688E+04, time = 9.07 | CG iter. 24 -- res = 0.47384E+05, tol = 0.57688E+04, time = 8.99 | CG iter. 25 -- res = 0.39071E+05, tol = 0.57688E+04, time = 8.86 | CG iter. 26 -- res = 0.29764E+05, tol = 0.57688E+04, time = 8.89 | CG iter. 27 -- res = 0.22190E+05, tol = 0.57688E+04, time = 8.83 | CG iter. 28 -- res = 0.17714E+05, tol = 0.57688E+04, time = 8.71 | CG iter. 29 -- res = 0.15908E+05, tol = 0.57688E+04, time = 9.06 | CG iter. 30 -- res = 0.15365E+05, tol = 0.57688E+04, time = 8.93 | CG iter. 31 -- res = 0.14442E+05, tol = 0.57688E+04, time = 10.48 | CG iter. 32 -- res = 0.13380E+05, tol = 0.57688E+04, time = 9.47 | CG iter. 33 -- res = 0.11703E+05, tol = 0.57688E+04, time = 8.80 | CG iter. 34 -- res = 0.98418E+04, tol = 0.57688E+04, time = 8.88 | CG iter. 35 -- res = 0.82348E+04, tol = 0.57688E+04, time = 8.82 | CG iter. 36 -- res = 0.72539E+04, tol = 0.57688E+04, time = 8.84 | CG iter. 37 -- res = 0.67403E+04, tol = 0.57688E+04, time = 8.81 | CG iter. 38 -- res = 0.61436E+04, tol = 0.57688E+04, time = 8.84 | CG iter. 39 -- res = 0.53622E+04, tol = 0.57688E+04, time = 8.98 | CG iter. 40 -- res = 0.45189E+04, tol = 0.57688E+04, time = 9.04 | CG iter. 41 -- res = 0.37414E+04, tol = 0.57688E+04, time = 8.89 | CG iter. 42 -- res = 0.31251E+04, tol = 0.57688E+04, time = 9.08 | CG iter. 43 -- res = 0.28595E+04, tol = 0.57688E+04, time = 9.40 | CG iter. 44 -- res = 0.27338E+04, tol = 0.57688E+04, time = 8.95 | CG iter. 45 -- res = 0.26811E+04, tol = 0.57688E+04, time = 8.74 | CG iter. 46 -- res = 0.25543E+04, tol = 0.57688E+04, time = 8.92 | CG iter. 47 -- res = 0.22891E+04, tol = 0.57688E+04, time = 8.89 | CG iter. 48 -- res = 0.19466E+04, tol = 0.57688E+04, time = 8.88 | CG iter. 49 -- res = 0.16717E+04, tol = 0.57688E+04, time = 8.77 | CG iter. 50 -- res = 0.14864E+04, tol = 0.57688E+04, time = 8.91 | CG iter. 51 -- res = 0.14227E+04, tol = 0.57688E+04, time = 8.79 | CG iter. 52 -- res = 0.13755E+04, tol = 0.57688E+04, time = 8.83 | CG iter. 53 -- res = 0.12824E+04, tol = 0.57688E+04, time = 8.83 | CG iter. 54 -- res = 0.11222E+04, tol = 0.57688E+04, time = 15.20 | CG iter. 55 -- res = 0.98546E+03, tol = 0.57688E+04, time = 8.85 | CG iter. 56 -- res = 0.87202E+03, tol = 0.57688E+04, time = 8.98 | CG iter. 57 -- res = 0.79554E+03, tol = 0.57688E+04, time = 8.67 | CG iter. 58 -- res = 0.76832E+03, tol = 0.57688E+04, time = 8.96 | CG iter. 59 -- res = 0.74264E+03, tol = 0.57688E+04, time = 8.86 | CG iter. 60 -- res = 0.69653E+03, tol = 0.57688E+04, time = 8.70 | Final CG iter 61 -- res = 0.69653E+03, tol = 0.57688E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.829 ( -229.946 -2229.191 2511.549 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8752736.930 | Old band monopole 9420604.849 | Change to band monopole -667867.919 | Change to component monopole 667865.046 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.097 2.734 | New value 2.550 | Old value -1.097 | Difference 3.646 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.132 ( 6.626 8.990 -8.971 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.827 4.684 | New value -4.283 | Old value 0.827 | Difference -5.110 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.69274E+06, tol = 0.47627E+18, time = 1.55 | CG iter. 2 -- res = 0.23099E+02, tol = 0.47627E+18, time = 2.73 | CG iter. 3 -- res = 0.47236E+00, tol = 0.47627E+18, time = 1.66 | CG iter. 4 -- res = 0.78624E-03, tol = 0.47627E+18, time = 1.46 | Final CG iter 5 -- res = 0.21722E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8752699.282 | (Sampled value in CG: 8734550.071 ) | Chain = 1 -- chisq = 0.81541441E+09 | Chain = 1 -- wall time = 5790.275 sec Available RAM: MemAvailable: 373209424 kB Available Swap: SwapFree: 1187440764 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 161 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443465 | --> Sampling calibration, mode = relcal | relcal = 1.3422016E-02 7.4570504E-04 -1.5922444E-03 -1.2575477E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1149599 0.1293001 97040379.5296243 | BP delta = 0.1041943 0.1185344 97040376.3700749 | BP chisq diff = -3.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632424 | --> Sampling calibration, mode = relcal | relcal = -2.8209616E-03 -7.0493680E-04 1.6801207E-03 1.6134384E-03 -4.0808454E-04 6.4042391E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5878582 15217486.0519379 | BP delta = 0.0000000E+00 -0.5917665 15217487.8603265 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103543 | --> Sampling calibration, mode = relcal | relcal = 3.7091240E-02 1.3718944E-02 5.7480824E-03 -7.1619232E-03 8.2509313E-03 2.3973160E-03 -7.6011429E-03 -7.1828593E-03 -1.5305671E-02 -1.4803559E-02 -3.0576859E-03 -1.2093673E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.267709 132206870.569178 | BP delta = 0.0000000E+00 -1.226077 132206867.364033 | BP chisq diff = -3.2, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18436567054534 | --> Sampling calibration, mode = relcal | relcal = -7.5434446E-02 -5.9008457E-02 9.2466109E-02 4.1976798E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4673579E-04 5.3888364E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5053E-05 | 2: delta_r/delta_0: 1.1713E-06 | 3: delta_s/delta_0: 1.9212E-07 | 4: delta_r/delta_0: 2.3337E-08 | 5: delta_s/delta_0: 6.2527E-09 | 6: delta_r/delta_0: 2.0768E-09 | 7: delta_s/delta_0: 4.6039E-10 | 8: delta_r/delta_0: 1.2532E-10 | 9: delta_s/delta_0: 2.0655E-10 | 10: delta_r/delta_0: 7.8346E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.234804300797264E-003 2.733219714412905E-005 | BP delta = 1.2569558E-02 2.7408341E-02 50481550.2324982 | BP delta = 1.7250720E-02 3.2089505E-02 50481544.8954104 | BP chisq diff = -5.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02579659 | --> Sampling calibration, mode = relcal | relcal = -0.1066381 -9.5542833E-02 0.1449215 5.7259437E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0750348E-03 1.7778687E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.4636E-05 | 2: delta_r/delta_0: 1.4129E-06 | 3: delta_s/delta_0: 2.4890E-07 | 4: delta_r/delta_0: 4.0898E-08 | 5: delta_s/delta_0: 2.5843E-08 | 6: delta_r/delta_0: 6.8295E-09 | 7: delta_s/delta_0: 6.7237E-09 | 8: delta_r/delta_0: 1.6165E-09 | 9: delta_s/delta_0: 8.0496E-10 | 10: delta_r/delta_0: 5.9866E-10 | 11: delta_s/delta_0: 2.7372E-09 | 12: delta_r/delta_0: 5.2184E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.009300457753811E-002 2.811381770982013E-005 | BP delta = -0.2795346 -0.2532784 57394708.7872287 | BP delta = -0.2927898 -0.2665336 57394709.1136777 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81218637 | --> Sampling calibration, mode = relcal | relcal = 0.2954660 0.2248893 -0.2838163 -0.2365389 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.5701408E-04 5.2292021E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5301E-03 | 2: delta_r/delta_0: 3.5185E-05 | 3: delta_s/delta_0: 9.9530E-06 | 4: delta_r/delta_0: 1.0512E-06 | 5: delta_s/delta_0: 5.3160E-07 | 6: delta_r/delta_0: 5.3195E-08 | 7: delta_s/delta_0: 4.5054E-08 | 8: delta_r/delta_0: 2.4992E-08 | 9: delta_s/delta_0: 4.0346E-07 | 10: delta_r/delta_0: 1.2894E-08 | 11: delta_s/delta_0: 9.7088E-10 | 12: delta_r/delta_0: 6.1227E-10 | 13: delta_s/delta_0: 2.8939E-10 | 14: delta_r/delta_0: 1.6456E-10 | 15: delta_s/delta_0: 3.0354E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.189211728134769E-002 4.022051368995910E-005 | BP delta = -0.1032099 -0.1200521 72486725.5042642 | BP delta = -0.1286916 -0.1455338 72486724.9292721 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95910003 | --> Sampling calibration, mode = relcal | relcal = 0.1065475 0.1395954 -0.1103312 -0.1358118 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4442405E-03 1.4739560E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3724E-04 | 2: delta_r/delta_0: 6.0454E-06 | 3: delta_s/delta_0: 4.0956E-05 | 4: delta_r/delta_0: 2.8786E-06 | 5: delta_s/delta_0: 1.9355E-07 | 6: delta_r/delta_0: 1.0305E-07 | 7: delta_s/delta_0: 3.7098E-07 | 8: delta_r/delta_0: 2.5948E-08 | 9: delta_s/delta_0: 7.6362E-08 | 10: delta_r/delta_0: 4.9481E-09 | 11: delta_s/delta_0: 1.1531E-09 | 12: delta_r/delta_0: 7.0405E-10 | 13: delta_s/delta_0: 1.2872E-09 | 14: delta_r/delta_0: 1.4026E-10 | 15: delta_s/delta_0: 5.0854E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.017171070928875E-002 3.697449389206808E-005 | BP delta = 8.0585949E-02 0.1905979 72776053.3990571 | BP delta = 3.0213803E-02 0.1402258 72776056.6204104 | BP chisq diff = 3.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52177304 | --> Sampling calibration, mode = relcal | relcal = -5.1034153E-02 -3.6459004E-03 2.7306063E-02 2.7373990E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1848439E-04 2.5289101E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6583E-05 | 2: delta_r/delta_0: 4.3337E-06 | 3: delta_s/delta_0: 3.1267E-06 | 4: delta_r/delta_0: 4.7661E-07 | 5: delta_s/delta_0: 5.8146E-08 | 6: delta_r/delta_0: 2.8603E-08 | 7: delta_s/delta_0: 1.6879E-06 | 8: delta_r/delta_0: 7.2397E-08 | 9: delta_s/delta_0: 3.6761E-09 | 10: delta_r/delta_0: 1.4214E-09 | 11: delta_s/delta_0: 4.4998E-08 | 12: delta_r/delta_0: 1.0197E-08 | 13: delta_s/delta_0: 5.1402E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.110324863142229E-002 5.481075000274201E-005 | BP delta = 1.4171252E-02 9.6505299E-02 91258285.3604426 | BP delta = 4.9067613E-02 0.1314017 91258285.0173548 | BP chisq diff = -0.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42171088 | --> Sampling calibration, mode = relcal | relcal = 4.5669362E-02 3.9601542E-02 -2.8254811E-02 -5.7016097E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4685757E-03 5.7455585E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4960E-05 | 2: delta_r/delta_0: 3.4333E-06 | 3: delta_s/delta_0: 2.0389E-06 | 4: delta_r/delta_0: 2.8152E-07 | 5: delta_s/delta_0: 6.5160E-08 | 6: delta_r/delta_0: 3.5269E-08 | 7: delta_s/delta_0: 1.2060E-07 | 8: delta_r/delta_0: 6.4400E-09 | 9: delta_s/delta_0: 2.0712E-09 | 10: delta_r/delta_0: 1.3777E-09 | 11: delta_s/delta_0: 1.2830E-09 | 12: delta_r/delta_0: 8.8520E-10 | 13: delta_s/delta_0: 6.2733E-06 | 14: delta_r/delta_0: 1.3875E-06 | 15: delta_s/delta_0: 2.0207E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.386681987254793E-002 4.994227806245190E-005 | BP delta = -5.2419882E-02 -0.1519387 90182328.0007727 | BP delta = -7.1958251E-02 -0.1714770 90182328.3219337 | BP chisq diff = 0.3, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28179140 | --> Sampling calibration, mode = relcal | relcal = 2.4254626E-02 4.5174077E-02 -2.3385992E-02 -4.6042711E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2451573E-02 4.7014439E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0529E-04 | 2: delta_r/delta_0: 8.6265E-06 | 3: delta_s/delta_0: 1.3532E-06 | 4: delta_r/delta_0: 1.9063E-07 | 5: delta_s/delta_0: 6.8859E-08 | 6: delta_r/delta_0: 1.4809E-08 | 7: delta_s/delta_0: 6.7369E-09 | 8: delta_r/delta_0: 4.3895E-09 | 9: delta_s/delta_0: 1.5805E-08 | 10: delta_r/delta_0: 3.5621E-09 | 11: delta_s/delta_0: 2.6623E-09 | 12: delta_r/delta_0: 7.0423E-10 | 13: delta_s/delta_0: 6.8753E-10 | 14: delta_r/delta_0: 3.4071E-10 | 15: delta_s/delta_0: 8.5772E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.449421109306827E-003 7.839214309379206E-005 | BP delta = -0.1109255 -0.1924209 160936005.361237 | BP delta = -0.1675795 -0.2490750 160936005.079519 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29409380 | --> Sampling calibration, mode = relcal | relcal = 4.6716031E-04 1.0325439E-02 -3.8071515E-03 -6.9854483E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5372004E-02 1.7757265E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3021E-04 | 2: delta_r/delta_0: 1.1054E-05 | 3: delta_s/delta_0: 1.7412E-06 | 4: delta_r/delta_0: 2.9121E-07 | 5: delta_s/delta_0: 9.5029E-08 | 6: delta_r/delta_0: 2.1629E-08 | 7: delta_s/delta_0: 9.8557E-09 | 8: delta_r/delta_0: 6.4623E-09 | 9: delta_s/delta_0: 6.3232E-09 | 10: delta_r/delta_0: 3.9326E-09 | 11: delta_s/delta_0: 2.5846E-07 | 12: delta_r/delta_0: 1.5253E-08 | 13: delta_s/delta_0: 2.8758E-09 | 14: delta_r/delta_0: 1.9712E-09 | 15: delta_s/delta_0: 7.0810E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.050819652284142E-002 8.301859005750595E-005 | BP delta = -0.8611194 -0.8317156 157907491.454071 | BP delta = -0.8697290 -0.8403252 157907491.387451 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26521627 | --> Sampling calibration, mode = relcal | relcal = -5.5544637E-03 1.4986144E-02 -2.4169490E-03 -7.0147319E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6026026E-04 2.7007132E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4030E-04 | 2: delta_r/delta_0: 1.1988E-05 | 3: delta_s/delta_0: 2.0491E-06 | 4: delta_r/delta_0: 2.0502E-07 | 5: delta_s/delta_0: 8.1733E-08 | 6: delta_r/delta_0: 1.6762E-08 | 7: delta_s/delta_0: 7.5243E-09 | 8: delta_r/delta_0: 4.9126E-09 | 9: delta_s/delta_0: 5.0713E-09 | 10: delta_r/delta_0: 3.5669E-09 | 11: delta_s/delta_0: 7.8463E-07 | 12: delta_r/delta_0: 2.1175E-08 | 13: delta_s/delta_0: 5.1695E-08 | 14: delta_r/delta_0: 3.2793E-08 | 15: delta_s/delta_0: 1.1055E-10 | 16: delta_r/delta_0: 8.5783E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.642243759944448E-003 9.148668594905182E-005 | BP delta = 0.3257066 0.3582757 157016935.423929 | BP delta = 0.3984477 0.4310168 157016935.539521 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25679413 | --> Sampling calibration, mode = relcal | relcal = -3.1745866E-02 -2.6006335E-02 3.7054159E-02 2.0698044E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6725924E-02 1.6049700E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4474E-04 | 2: delta_r/delta_0: 1.1866E-05 | 3: delta_s/delta_0: 1.8887E-06 | 4: delta_r/delta_0: 4.2996E-07 | 5: delta_s/delta_0: 1.4350E-07 | 6: delta_r/delta_0: 3.0345E-08 | 7: delta_s/delta_0: 1.3893E-08 | 8: delta_r/delta_0: 7.8976E-09 | 9: delta_s/delta_0: 8.0998E-08 | 10: delta_r/delta_0: 6.6268E-09 | 11: delta_s/delta_0: 2.7580E-09 | 12: delta_r/delta_0: 2.0122E-09 | 13: delta_s/delta_0: 5.8392E-10 | 14: delta_r/delta_0: 2.9841E-10 | 15: delta_s/delta_0: 1.4254E-10 | 16: delta_r/delta_0: 1.2900E-10 | 17: delta_s/delta_0: 1.1856E-10 | 18: delta_r/delta_0: 1.0810E-10 | 19: delta_s/delta_0: 1.2800E-10 | 20: delta_r/delta_0: 7.1867E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.127477757786469E-002 8.667116444978453E-005 | BP delta = -0.6572278 -0.7567308 158523149.077501 | BP delta = -0.5936052 -0.6931082 158523149.444965 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.087309 | New value = -3.123838 | poltype: 2 pol: 1 CPU time specind = 3.7142992E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.066006 | New value = -3.190300 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164493 | New value = -3.118397 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.008110 | New value = -3.080306 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208737 | New value = -3.178856 | poltype: 2 pol: 2 CPU time specind = 2.2838116E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.13569E+08, tol = 0.81370E+01, time = 4.16 | CG iter. 2 -- res = 0.35404E+06, tol = 0.81370E+01, time = 4.36 | CG iter. 3 -- res = 0.57763E+05, tol = 0.81370E+01, time = 4.13 | CG iter. 4 -- res = 0.31709E+05, tol = 0.81370E+01, time = 4.37 | CG iter. 5 -- res = 0.21860E+05, tol = 0.81370E+01, time = 4.25 | CG iter. 6 -- res = 0.17794E+05, tol = 0.81370E+01, time = 4.24 | CG iter. 7 -- res = 0.17005E+05, tol = 0.81370E+01, time = 4.26 | CG iter. 8 -- res = 0.13759E+05, tol = 0.81370E+01, time = 4.35 | CG iter. 9 -- res = 0.12124E+05, tol = 0.81370E+01, time = 4.22 | CG iter. 10 -- res = 0.10735E+05, tol = 0.81370E+01, time = 4.27 | CG iter. 11 -- res = 0.74086E+04, tol = 0.81370E+01, time = 4.17 | CG iter. 12 -- res = 0.49298E+04, tol = 0.81370E+01, time = 4.43 | CG iter. 13 -- res = 0.36482E+04, tol = 0.81370E+01, time = 4.18 | CG iter. 14 -- res = 0.30345E+04, tol = 0.81370E+01, time = 4.25 | CG iter. 15 -- res = 0.27474E+04, tol = 0.81370E+01, time = 4.17 | CG iter. 16 -- res = 0.21526E+04, tol = 0.81370E+01, time = 4.48 | CG iter. 17 -- res = 0.14737E+04, tol = 0.81370E+01, time = 4.32 | CG iter. 18 -- res = 0.11206E+04, tol = 0.81370E+01, time = 5.55 | CG iter. 19 -- res = 0.92569E+03, tol = 0.81370E+01, time = 4.59 | CG iter. 20 -- res = 0.75552E+03, tol = 0.81370E+01, time = 4.89 | CG iter. 21 -- res = 0.54725E+03, tol = 0.81370E+01, time = 4.13 | CG iter. 22 -- res = 0.40899E+03, tol = 0.81370E+01, time = 4.35 | CG iter. 23 -- res = 0.33397E+03, tol = 0.81370E+01, time = 4.35 | CG iter. 24 -- res = 0.27602E+03, tol = 0.81370E+01, time = 4.39 | CG iter. 25 -- res = 0.20676E+03, tol = 0.81370E+01, time = 4.20 | CG iter. 26 -- res = 0.15112E+03, tol = 0.81370E+01, time = 4.17 | CG iter. 27 -- res = 0.11609E+03, tol = 0.81370E+01, time = 4.20 | CG iter. 28 -- res = 0.10214E+03, tol = 0.81370E+01, time = 4.34 | CG iter. 29 -- res = 0.79713E+02, tol = 0.81370E+01, time = 4.18 | CG iter. 30 -- res = 0.61061E+02, tol = 0.81370E+01, time = 4.31 | CG iter. 31 -- res = 0.48757E+02, tol = 0.81370E+01, time = 4.26 | CG iter. 32 -- res = 0.40704E+02, tol = 0.81370E+01, time = 4.35 | CG iter. 33 -- res = 0.33365E+02, tol = 0.81370E+01, time = 4.26 | CG iter. 34 -- res = 0.25443E+02, tol = 0.81370E+01, time = 4.41 | CG iter. 35 -- res = 0.20314E+02, tol = 0.81370E+01, time = 4.43 | CG iter. 36 -- res = 0.17268E+02, tol = 0.81370E+01, time = 4.32 | CG iter. 37 -- res = 0.14939E+02, tol = 0.81370E+01, time = 4.32 | CG iter. 38 -- res = 0.11697E+02, tol = 0.81370E+01, time = 4.37 | CG iter. 39 -- res = 0.89200E+01, tol = 0.81370E+01, time = 4.28 | CG iter. 40 -- res = 0.75273E+01, tol = 0.81370E+01, time = 4.28 | CG iter. 41 -- res = 0.65217E+01, tol = 0.81370E+01, time = 4.40 | CG iter. 42 -- res = 0.54335E+01, tol = 0.81370E+01, time = 4.26 | CG iter. 43 -- res = 0.43212E+01, tol = 0.81370E+01, time = 4.92 | CG iter. 44 -- res = 0.33579E+01, tol = 0.81370E+01, time = 4.29 | CG iter. 45 -- res = 0.27765E+01, tol = 0.81370E+01, time = 4.10 | CG iter. 46 -- res = 0.22786E+01, tol = 0.81370E+01, time = 4.26 | CG iter. 47 -- res = 0.17996E+01, tol = 0.81370E+01, time = 4.23 | CG iter. 48 -- res = 0.14067E+01, tol = 0.81370E+01, time = 4.24 | CG iter. 49 -- res = 0.11878E+01, tol = 0.81370E+01, time = 4.34 | CG iter. 50 -- res = 0.97188E+00, tol = 0.81370E+01, time = 4.54 | Final CG iter 51 -- res = 0.97188E+00, tol = 0.81370E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8693257.913 | Old band monopole 8752736.930 | Change to band monopole -59479.017 | Change to component monopole 59478.761 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.12 | CG iter. 1 -- res = 0.11364E+06, tol = 0.47627E+18, time = 1.47 | CG iter. 2 -- res = 0.58260E+02, tol = 0.47627E+18, time = 1.50 | CG iter. 3 -- res = 0.19321E+01, tol = 0.47627E+18, time = 1.49 | CG iter. 4 -- res = 0.85995E-02, tol = 0.47627E+18, time = 1.48 | Final CG iter 5 -- res = 0.90663E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8693220.521 | (Sampled value in CG: 8644628.034 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.506200 | New value = 1.472666 | poltype: 2 pol: 1 CPU time specind = 2.4176121E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.446482 | New value = 1.432145 | poltype: 2 pol: 2 CPU time specind = 2.2489071E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 21.99 | CG iter. 1 -- res = 0.24213E+08, tol = 0.47540E+04, time = 4.95 | CG iter. 2 -- res = 0.52467E+07, tol = 0.47540E+04, time = 4.85 | CG iter. 3 -- res = 0.83557E+06, tol = 0.47540E+04, time = 4.99 | CG iter. 4 -- res = 0.34976E+06, tol = 0.47540E+04, time = 5.00 | CG iter. 5 -- res = 0.14978E+06, tol = 0.47540E+04, time = 4.93 | CG iter. 6 -- res = 0.78325E+05, tol = 0.47540E+04, time = 4.96 | CG iter. 7 -- res = 0.42954E+05, tol = 0.47540E+04, time = 5.18 | CG iter. 8 -- res = 0.20146E+05, tol = 0.47540E+04, time = 4.86 | CG iter. 9 -- res = 0.88439E+04, tol = 0.47540E+04, time = 4.80 | CG iter. 10 -- res = 0.36486E+04, tol = 0.47540E+04, time = 5.25 | CG iter. 11 -- res = 0.16576E+04, tol = 0.47540E+04, time = 6.09 | CG iter. 12 -- res = 0.86173E+03, tol = 0.47540E+04, time = 5.13 | CG iter. 13 -- res = 0.47536E+03, tol = 0.47540E+04, time = 5.20 | CG iter. 14 -- res = 0.26707E+03, tol = 0.47540E+04, time = 4.84 | CG iter. 15 -- res = 0.13947E+03, tol = 0.47540E+04, time = 5.18 | CG iter. 16 -- res = 0.66340E+02, tol = 0.47540E+04, time = 4.98 | CG iter. 17 -- res = 0.31481E+02, tol = 0.47540E+04, time = 5.02 | CG iter. 18 -- res = 0.15649E+02, tol = 0.47540E+04, time = 4.94 | CG iter. 19 -- res = 0.84491E+01, tol = 0.47540E+04, time = 5.07 | CG iter. 20 -- res = 0.47081E+01, tol = 0.47540E+04, time = 4.79 | CG iter. 21 -- res = 0.25325E+01, tol = 0.47540E+04, time = 5.02 | CG iter. 22 -- res = 0.12722E+01, tol = 0.47540E+04, time = 5.02 | CG iter. 23 -- res = 0.63081E+00, tol = 0.47540E+04, time = 5.00 | CG iter. 24 -- res = 0.33985E+00, tol = 0.47540E+04, time = 4.85 | CG iter. 25 -- res = 0.19348E+00, tol = 0.47540E+04, time = 5.11 | CG iter. 26 -- res = 0.10966E+00, tol = 0.47540E+04, time = 5.14 | CG iter. 27 -- res = 0.61248E-01, tol = 0.47540E+04, time = 4.90 | CG iter. 28 -- res = 0.32365E-01, tol = 0.47540E+04, time = 5.01 | CG iter. 29 -- res = 0.16749E-01, tol = 0.47540E+04, time = 5.08 | CG iter. 30 -- res = 0.88859E-02, tol = 0.47540E+04, time = 4.97 | CG iter. 31 -- res = 0.48790E-02, tol = 0.47540E+04, time = 4.96 | CG iter. 32 -- res = 0.27265E-02, tol = 0.47540E+04, time = 4.83 | CG iter. 33 -- res = 0.15519E-02, tol = 0.47540E+04, time = 5.02 | CG iter. 34 -- res = 0.83687E-03, tol = 0.47540E+04, time = 4.80 | CG iter. 35 -- res = 0.43196E-03, tol = 0.47540E+04, time = 4.92 | Final CG iter 36 -- res = 0.43196E-03, tol = 0.47540E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.540 2.740 | New value -4.055 | Old value 2.540 | Difference -6.595 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.91 | CG iter. 1 -- res = 0.22544E+07, tol = 0.47627E+18, time = 1.40 | CG iter. 2 -- res = 0.40524E+02, tol = 0.47627E+18, time = 1.44 | CG iter. 3 -- res = 0.11993E+01, tol = 0.47627E+18, time = 1.53 | Final CG iter 4 -- res = 0.21439E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8693220.521 | (Sampled value in CG: 8645275.712 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.615980 | New value = -3.577945 | poltype: 1 pol: 1 CPU time specind = 1.7989159E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.07 | CG iter. 1 -- res = 0.22008E+07, tol = 0.22063E+01, time = 1.74 | CG iter. 2 -- res = 0.95521E+06, tol = 0.22063E+01, time = 2.05 | CG iter. 3 -- res = 0.18180E+06, tol = 0.22063E+01, time = 1.95 | CG iter. 4 -- res = 0.63129E+05, tol = 0.22063E+01, time = 1.93 | CG iter. 5 -- res = 0.35060E+05, tol = 0.22063E+01, time = 1.85 | CG iter. 6 -- res = 0.19919E+05, tol = 0.22063E+01, time = 2.00 | CG iter. 7 -- res = 0.79805E+04, tol = 0.22063E+01, time = 1.88 | CG iter. 8 -- res = 0.35051E+04, tol = 0.22063E+01, time = 2.02 | CG iter. 9 -- res = 0.15069E+04, tol = 0.22063E+01, time = 1.83 | CG iter. 10 -- res = 0.60912E+03, tol = 0.22063E+01, time = 2.06 | CG iter. 11 -- res = 0.23913E+03, tol = 0.22063E+01, time = 1.98 | CG iter. 12 -- res = 0.12082E+03, tol = 0.22063E+01, time = 1.92 | CG iter. 13 -- res = 0.63500E+02, tol = 0.22063E+01, time = 1.99 | CG iter. 14 -- res = 0.32163E+02, tol = 0.22063E+01, time = 2.03 | CG iter. 15 -- res = 0.14936E+02, tol = 0.22063E+01, time = 1.98 | CG iter. 16 -- res = 0.65813E+01, tol = 0.22063E+01, time = 1.91 | CG iter. 17 -- res = 0.27421E+01, tol = 0.22063E+01, time = 1.98 | CG iter. 18 -- res = 0.12181E+01, tol = 0.22063E+01, time = 1.97 | CG iter. 19 -- res = 0.58170E+00, tol = 0.22063E+01, time = 2.05 | CG iter. 20 -- res = 0.29093E+00, tol = 0.22063E+01, time = 1.92 | CG iter. 21 -- res = 0.14524E+00, tol = 0.22063E+01, time = 2.00 | CG iter. 22 -- res = 0.72097E-01, tol = 0.22063E+01, time = 1.87 | CG iter. 23 -- res = 0.31491E-01, tol = 0.22063E+01, time = 1.99 | CG iter. 24 -- res = 0.14422E-01, tol = 0.22063E+01, time = 1.98 | CG iter. 25 -- res = 0.69480E-02, tol = 0.22063E+01, time = 1.99 | CG iter. 26 -- res = 0.34469E-02, tol = 0.22063E+01, time = 1.95 | CG iter. 27 -- res = 0.17858E-02, tol = 0.22063E+01, time = 2.05 | CG iter. 28 -- res = 0.87166E-03, tol = 0.22063E+01, time = 1.99 | CG iter. 29 -- res = 0.37812E-03, tol = 0.22063E+01, time = 1.97 | CG iter. 30 -- res = 0.17686E-03, tol = 0.22063E+01, time = 1.91 | CG iter. 31 -- res = 0.82582E-04, tol = 0.22063E+01, time = 2.07 | CG iter. 32 -- res = 0.42967E-04, tol = 0.22063E+01, time = 1.87 | CG iter. 33 -- res = 0.22173E-04, tol = 0.22063E+01, time = 1.99 | CG iter. 34 -- res = 0.10601E-04, tol = 0.22063E+01, time = 1.92 | CG iter. 35 -- res = 0.50951E-05, tol = 0.22063E+01, time = 1.88 | CG iter. 36 -- res = 0.22778E-05, tol = 0.22063E+01, time = 1.98 | CG iter. 37 -- res = 0.10736E-05, tol = 0.22063E+01, time = 2.89 | CG iter. 38 -- res = 0.51986E-06, tol = 0.22063E+01, time = 1.88 | CG iter. 39 -- res = 0.25704E-06, tol = 0.22063E+01, time = 1.92 | CG iter. 40 -- res = 0.12780E-06, tol = 0.22063E+01, time = 2.03 | CG iter. 41 -- res = 0.61140E-07, tol = 0.22063E+01, time = 2.16 | CG iter. 42 -- res = 0.28410E-07, tol = 0.22063E+01, time = 2.02 | CG iter. 43 -- res = 0.12823E-07, tol = 0.22063E+01, time = 1.89 | CG iter. 44 -- res = 0.62627E-08, tol = 0.22063E+01, time = 2.09 | CG iter. 45 -- res = 0.30921E-08, tol = 0.22063E+01, time = 1.92 | CG iter. 46 -- res = 0.14892E-08, tol = 0.22063E+01, time = 2.10 | CG iter. 47 -- res = 0.71867E-09, tol = 0.22063E+01, time = 1.91 | CG iter. 48 -- res = 0.34071E-09, tol = 0.22063E+01, time = 1.96 | CG iter. 49 -- res = 0.15857E-09, tol = 0.22063E+01, time = 1.97 | CG iter. 50 -- res = 0.71469E-10, tol = 0.22063E+01, time = 2.02 | Final CG iter 51 -- res = 0.71469E-10, tol = 0.22063E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.335 5.563 | New value 1.526 | Old value -7.335 | Difference 8.861 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.11 | CG iter. 1 -- res = 0.79374E+05, tol = 0.47627E+18, time = 1.46 | CG iter. 2 -- res = 0.37999E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.15418E+01, tol = 0.47627E+18, time = 1.58 | CG iter. 4 -- res = 0.41897E-02, tol = 0.47627E+18, time = 1.49 | Final CG iter 5 -- res = 0.16345E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8693220.521 | (Sampled value in CG: 8662216.096 ) | CPU time specind = 908.9164 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.37 | CG iter. 1 -- res = 0.68804E+08, tol = 0.57588E+04, time = 8.96 | CG iter. 2 -- res = 0.58941E+08, tol = 0.57588E+04, time = 8.96 | CG iter. 3 -- res = 0.16080E+08, tol = 0.57588E+04, time = 9.07 | CG iter. 4 -- res = 0.68946E+07, tol = 0.57588E+04, time = 9.14 | CG iter. 5 -- res = 0.40939E+07, tol = 0.57588E+04, time = 8.95 | CG iter. 6 -- res = 0.24256E+07, tol = 0.57588E+04, time = 8.97 | CG iter. 7 -- res = 0.14180E+07, tol = 0.57588E+04, time = 8.89 | CG iter. 8 -- res = 0.90708E+06, tol = 0.57588E+04, time = 9.09 | CG iter. 9 -- res = 0.57011E+06, tol = 0.57588E+04, time = 9.52 | CG iter. 10 -- res = 0.33992E+06, tol = 0.57588E+04, time = 10.42 | CG iter. 11 -- res = 0.18637E+06, tol = 0.57588E+04, time = 9.13 | CG iter. 12 -- res = 0.10191E+06, tol = 0.57588E+04, time = 9.04 | CG iter. 13 -- res = 0.55757E+05, tol = 0.57588E+04, time = 8.83 | CG iter. 14 -- res = 0.33384E+05, tol = 0.57588E+04, time = 8.81 | CG iter. 15 -- res = 0.22501E+05, tol = 0.57588E+04, time = 8.96 | CG iter. 16 -- res = 0.16802E+05, tol = 0.57588E+04, time = 9.11 | CG iter. 17 -- res = 0.12790E+05, tol = 0.57588E+04, time = 8.96 | CG iter. 18 -- res = 0.98281E+04, tol = 0.57588E+04, time = 9.00 | CG iter. 19 -- res = 0.75543E+04, tol = 0.57588E+04, time = 8.90 | CG iter. 20 -- res = 0.60403E+04, tol = 0.57588E+04, time = 9.19 | CG iter. 21 -- res = 0.52054E+04, tol = 0.57588E+04, time = 8.84 | CG iter. 22 -- res = 0.49963E+04, tol = 0.57588E+04, time = 9.04 | CG iter. 23 -- res = 0.52286E+04, tol = 0.57588E+04, time = 8.91 | CG iter. 24 -- res = 0.56217E+04, tol = 0.57588E+04, time = 9.01 | CG iter. 25 -- res = 0.56796E+04, tol = 0.57588E+04, time = 8.79 | CG iter. 26 -- res = 0.52706E+04, tol = 0.57588E+04, time = 9.28 | CG iter. 27 -- res = 0.44392E+04, tol = 0.57588E+04, time = 8.94 | CG iter. 28 -- res = 0.34695E+04, tol = 0.57588E+04, time = 8.69 | CG iter. 29 -- res = 0.27257E+04, tol = 0.57588E+04, time = 8.92 | CG iter. 30 -- res = 0.22400E+04, tol = 0.57588E+04, time = 8.99 | CG iter. 31 -- res = 0.18631E+04, tol = 0.57588E+04, time = 8.93 | CG iter. 32 -- res = 0.16103E+04, tol = 0.57588E+04, time = 10.43 | CG iter. 33 -- res = 0.13261E+04, tol = 0.57588E+04, time = 14.00 | CG iter. 34 -- res = 0.10224E+04, tol = 0.57588E+04, time = 9.08 | CG iter. 35 -- res = 0.79010E+03, tol = 0.57588E+04, time = 8.76 | CG iter. 36 -- res = 0.67094E+03, tol = 0.57588E+04, time = 8.83 | CG iter. 37 -- res = 0.62782E+03, tol = 0.57588E+04, time = 8.97 | CG iter. 38 -- res = 0.61020E+03, tol = 0.57588E+04, time = 9.09 | CG iter. 39 -- res = 0.59111E+03, tol = 0.57588E+04, time = 9.02 | CG iter. 40 -- res = 0.52671E+03, tol = 0.57588E+04, time = 9.03 | CG iter. 41 -- res = 0.44659E+03, tol = 0.57588E+04, time = 9.00 | CG iter. 42 -- res = 0.36193E+03, tol = 0.57588E+04, time = 10.84 | CG iter. 43 -- res = 0.30229E+03, tol = 0.57588E+04, time = 9.65 | CG iter. 44 -- res = 0.26694E+03, tol = 0.57588E+04, time = 8.71 | CG iter. 45 -- res = 0.24449E+03, tol = 0.57588E+04, time = 9.13 | CG iter. 46 -- res = 0.21517E+03, tol = 0.57588E+04, time = 8.67 | CG iter. 47 -- res = 0.18309E+03, tol = 0.57588E+04, time = 9.01 | CG iter. 48 -- res = 0.15512E+03, tol = 0.57588E+04, time = 8.79 | CG iter. 49 -- res = 0.13142E+03, tol = 0.57588E+04, time = 8.97 | CG iter. 50 -- res = 0.11476E+03, tol = 0.57588E+04, time = 8.70 | CG iter. 51 -- res = 0.10530E+03, tol = 0.57588E+04, time = 8.86 | CG iter. 52 -- res = 0.98088E+02, tol = 0.57588E+04, time = 8.76 | CG iter. 53 -- res = 0.94301E+02, tol = 0.57588E+04, time = 9.01 | CG iter. 54 -- res = 0.90711E+02, tol = 0.57588E+04, time = 9.62 | CG iter. 55 -- res = 0.83129E+02, tol = 0.57588E+04, time = 9.01 | CG iter. 56 -- res = 0.73211E+02, tol = 0.57588E+04, time = 8.95 | CG iter. 57 -- res = 0.64016E+02, tol = 0.57588E+04, time = 8.97 | CG iter. 58 -- res = 0.57296E+02, tol = 0.57588E+04, time = 8.97 | CG iter. 59 -- res = 0.53330E+02, tol = 0.57588E+04, time = 8.86 | CG iter. 60 -- res = 0.49740E+02, tol = 0.57588E+04, time = 8.99 | Final CG iter 61 -- res = 0.49740E+02, tol = 0.57588E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.842 ( -229.966 -2228.566 2510.672 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9266182.182 | Old band monopole 8693257.913 | Change to band monopole 572924.270 | Change to component monopole -572921.805 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.109 2.703 | New value 1.295 | Old value -4.109 | Difference 5.404 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.533 ( 6.967 7.156 -6.446 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.566 5.615 | New value 4.034 | Old value 7.566 | Difference -3.532 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.07 | CG iter. 1 -- res = 0.15091E+07, tol = 0.47627E+18, time = 1.43 | CG iter. 2 -- res = 0.24111E+02, tol = 0.47627E+18, time = 1.45 | CG iter. 3 -- res = 0.54817E+00, tol = 0.47627E+18, time = 1.39 | CG iter. 4 -- res = 0.35239E-03, tol = 0.47627E+18, time = 1.44 | Final CG iter 5 -- res = 0.57122E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9266142.327 | (Sampled value in CG: 9242211.984 ) | Chain = 1 -- chisq = 0.81584730E+09 | Chain = 1 -- wall time = 16096.534 sec Available RAM: MemAvailable: 473531552 kB Available Swap: SwapFree: 1054692600 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 162 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444932 | --> Sampling calibration, mode = relcal | relcal = 1.3436085E-02 7.4591977E-04 -1.6084666E-03 -1.2573537E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1041943 0.1185344 9404908.19175658 | BP delta = 0.1041943 0.1162070 9404981.45672032 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632275 | --> Sampling calibration, mode = relcal | relcal = -2.8206797E-03 -7.0327736E-04 1.6784981E-03 1.6135669E-03 -4.0795814E-04 6.3985022E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5878582 15216596.1632726 | BP delta = 0.0000000E+00 -0.5954199 15216598.4163377 | BP chisq diff = 2.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18146104784662 | --> Sampling calibration, mode = relcal | relcal = -7.4123137E-02 -5.8020014E-02 9.1074094E-02 4.1069061E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.6469959E-04 3.6408652E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0741E-04 | 2: delta_r/delta_0: 5.2137E-06 | 3: delta_s/delta_0: 2.0490E-07 | 4: delta_r/delta_0: 1.7878E-08 | 5: delta_s/delta_0: 5.2177E-09 | 6: delta_r/delta_0: 9.3124E-10 | 7: delta_s/delta_0: 1.3127E-08 | 8: delta_r/delta_0: 2.3878E-10 | 9: delta_s/delta_0: 1.0387E-10 | 10: delta_r/delta_0: 3.1957E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.874033494924929E-004 2.740133747962299E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0741E-04 | 2: delta_r/delta_0: 5.2137E-06 | 3: delta_s/delta_0: 2.0490E-07 | 4: delta_r/delta_0: 1.7878E-08 | 5: delta_s/delta_0: 5.2177E-09 | 6: delta_r/delta_0: 9.3123E-10 | 7: delta_s/delta_0: 1.3127E-08 | 8: delta_r/delta_0: 2.3878E-10 | 9: delta_s/delta_0: 1.0387E-10 | 10: delta_r/delta_0: 3.1957E-11 | Reached bicg-stab tolerance | BP delta = 1.7250720E-02 3.2089505E-02 3680849.59609340 | BP delta = 1.7250720E-02 3.1926751E-02 3680977.22660983 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02564926 | --> Sampling calibration, mode = relcal | relcal = -0.1065946 -9.5517807E-02 0.1448247 5.7287693E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1829907E-03 1.3766068E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5308E-05 | 2: delta_r/delta_0: 1.4245E-06 | 3: delta_s/delta_0: 2.4435E-07 | 4: delta_r/delta_0: 4.5206E-08 | 5: delta_s/delta_0: 2.5055E-08 | 6: delta_r/delta_0: 6.9736E-09 | 7: delta_s/delta_0: 7.9395E-09 | 8: delta_r/delta_0: 1.4454E-09 | 9: delta_s/delta_0: 6.7118E-10 | 10: delta_r/delta_0: 3.1623E-10 | 11: delta_s/delta_0: 2.8572E-10 | 12: delta_r/delta_0: 1.8560E-10 | 13: delta_s/delta_0: 4.2955E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.020506658556885E-002 2.811770066896402E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.5307E-05 | 2: delta_r/delta_0: 1.4244E-06 | 3: delta_s/delta_0: 2.4431E-07 | 4: delta_r/delta_0: 4.5120E-08 | 5: delta_s/delta_0: 2.5099E-08 | 6: delta_r/delta_0: 6.9683E-09 | 7: delta_s/delta_0: 7.9372E-09 | 8: delta_r/delta_0: 1.4445E-09 | 9: delta_s/delta_0: 6.7048E-10 | 10: delta_r/delta_0: 3.1693E-10 | 11: delta_s/delta_0: 2.8636E-10 | 12: delta_r/delta_0: 1.8837E-10 | 13: delta_s/delta_0: 4.4277E-11 | Reached bicg-stab tolerance | BP delta = -0.2795346 -0.2532784 2841445.29771942 | BP delta = -0.2795346 -0.2560771 2841597.90806412 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81207158 | --> Sampling calibration, mode = relcal | relcal = 0.2954946 0.2249039 -0.2837698 -0.2366287 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.5273699E-04 4.4760937E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6709E-01 | 2: delta_r/delta_0: 8.6583E-03 | 3: delta_s/delta_0: 1.4278E-03 | 4: delta_r/delta_0: 1.1290E-04 | 5: delta_s/delta_0: 2.8223E-05 | 6: delta_r/delta_0: 1.0594E-05 | 7: delta_s/delta_0: 1.1622E-04 | 8: delta_r/delta_0: 2.7081E-05 | 9: delta_s/delta_0: 2.1202E-05 | 10: delta_r/delta_0: 5.6525E-06 | 11: delta_s/delta_0: 1.3895E-06 | 12: delta_r/delta_0: 1.3433E-07 | 13: delta_s/delta_0: 6.8446E-07 | 14: delta_r/delta_0: 7.3246E-08 | 15: delta_s/delta_0: 6.1424E-09 | 16: delta_r/delta_0: 1.6096E-09 | 17: delta_s/delta_0: 1.8708E-09 | 18: delta_r/delta_0: 6.3437E-10 | 19: delta_s/delta_0: 4.1899E-08 | 20: delta_r/delta_0: 1.7615E-09 | 21: delta_s/delta_0: 1.7579E-10 | 22: delta_r/delta_0: 6.7666E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.290375534214021 4.022737358505222E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6618E-01 | 2: delta_r/delta_0: 8.6370E-03 | 3: delta_s/delta_0: 1.4251E-03 | 4: delta_r/delta_0: 1.1269E-04 | 5: delta_s/delta_0: 2.8112E-05 | 6: delta_r/delta_0: 1.0552E-05 | 7: delta_s/delta_0: 1.1594E-04 | 8: delta_r/delta_0: 2.7000E-05 | 9: delta_s/delta_0: 2.1204E-05 | 10: delta_r/delta_0: 5.6520E-06 | 11: delta_s/delta_0: 1.3933E-06 | 12: delta_r/delta_0: 1.3471E-07 | 13: delta_s/delta_0: 6.8586E-07 | 14: delta_r/delta_0: 7.3482E-08 | 15: delta_s/delta_0: 6.1633E-09 | 16: delta_r/delta_0: 1.6152E-09 | 17: delta_s/delta_0: 1.8801E-09 | 18: delta_r/delta_0: 6.3657E-10 | 19: delta_s/delta_0: 4.2258E-08 | 20: delta_r/delta_0: 1.7819E-09 | 21: delta_s/delta_0: 1.7650E-10 | 22: delta_r/delta_0: 6.7902E-11 | Reached bicg-stab tolerance | BP delta = -0.1286916 -0.1455338 2827633.26875001 | BP delta = -0.1286916 -0.1467407 2827616.07796702 | BP chisq diff = -17.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95880243 | --> Sampling calibration, mode = relcal | relcal = 0.1065024 0.1395009 -0.1102560 -0.1357473 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0198487E-02 1.2944579E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8803E-04 | 2: delta_r/delta_0: 4.9510E-06 | 3: delta_s/delta_0: 2.8887E-05 | 4: delta_r/delta_0: 2.5069E-06 | 5: delta_s/delta_0: 1.8024E-07 | 6: delta_r/delta_0: 1.0445E-07 | 7: delta_s/delta_0: 5.5842E-07 | 8: delta_r/delta_0: 2.5288E-08 | 9: delta_s/delta_0: 2.0276E-08 | 10: delta_r/delta_0: 1.4241E-09 | 11: delta_s/delta_0: 1.1497E-09 | 12: delta_r/delta_0: 6.9794E-10 | 13: delta_s/delta_0: 2.2591E-09 | 14: delta_r/delta_0: 2.8871E-10 | 15: delta_s/delta_0: 5.4854E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.939148617332057E-002 3.698557118069319E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8803E-04 | 2: delta_r/delta_0: 4.9510E-06 | 3: delta_s/delta_0: 2.8889E-05 | 4: delta_r/delta_0: 2.5073E-06 | 5: delta_s/delta_0: 1.8025E-07 | 6: delta_r/delta_0: 1.0444E-07 | 7: delta_s/delta_0: 5.5818E-07 | 8: delta_r/delta_0: 2.5286E-08 | 9: delta_s/delta_0: 2.0361E-08 | 10: delta_r/delta_0: 1.4222E-09 | 11: delta_s/delta_0: 1.1499E-09 | 12: delta_r/delta_0: 6.9725E-10 | 13: delta_s/delta_0: 2.2483E-09 | 14: delta_r/delta_0: 2.8618E-10 | 15: delta_s/delta_0: 5.4842E-11 | Reached bicg-stab tolerance | BP delta = 3.0213803E-02 0.1402258 3003795.07834537 | BP delta = 3.0213803E-02 0.1502258 3003868.56376112 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123838 | New value = -3.107865 | poltype: 2 pol: 1 CPU time specind = 4.9419403E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190300 | New value = -3.182462 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118397 | New value = -3.100210 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.080306 | New value = -3.168038 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178856 | New value = -3.195813 | poltype: 2 pol: 2 CPU time specind = 6.0582161E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.42 | CG iter. 1 -- res = 0.13567E+08, tol = 0.77193E+01, time = 4.41 | CG iter. 2 -- res = 0.35001E+06, tol = 0.77193E+01, time = 4.53 | CG iter. 3 -- res = 0.50993E+05, tol = 0.77193E+01, time = 4.16 | CG iter. 4 -- res = 0.21903E+05, tol = 0.77193E+01, time = 4.35 | CG iter. 5 -- res = 0.10337E+05, tol = 0.77193E+01, time = 4.30 | CG iter. 6 -- res = 0.58076E+04, tol = 0.77193E+01, time = 4.28 | CG iter. 7 -- res = 0.42640E+04, tol = 0.77193E+01, time = 4.33 | CG iter. 8 -- res = 0.31596E+04, tol = 0.77193E+01, time = 4.33 | CG iter. 9 -- res = 0.25634E+04, tol = 0.77193E+01, time = 4.53 | CG iter. 10 -- res = 0.24428E+04, tol = 0.77193E+01, time = 4.34 | CG iter. 11 -- res = 0.22151E+04, tol = 0.77193E+01, time = 4.24 | CG iter. 12 -- res = 0.15833E+04, tol = 0.77193E+01, time = 4.40 | CG iter. 13 -- res = 0.10240E+04, tol = 0.77193E+01, time = 4.46 | CG iter. 14 -- res = 0.72783E+03, tol = 0.77193E+01, time = 4.39 | CG iter. 15 -- res = 0.58061E+03, tol = 0.77193E+01, time = 4.69 | CG iter. 16 -- res = 0.48921E+03, tol = 0.77193E+01, time = 4.32 | CG iter. 17 -- res = 0.37081E+03, tol = 0.77193E+01, time = 4.53 | CG iter. 18 -- res = 0.27508E+03, tol = 0.77193E+01, time = 4.65 | CG iter. 19 -- res = 0.22037E+03, tol = 0.77193E+01, time = 4.45 | CG iter. 20 -- res = 0.17854E+03, tol = 0.77193E+01, time = 4.42 | CG iter. 21 -- res = 0.12621E+03, tol = 0.77193E+01, time = 5.16 | CG iter. 22 -- res = 0.87658E+02, tol = 0.77193E+01, time = 4.47 | CG iter. 23 -- res = 0.64915E+02, tol = 0.77193E+01, time = 4.60 | CG iter. 24 -- res = 0.52144E+02, tol = 0.77193E+01, time = 4.47 | CG iter. 25 -- res = 0.40811E+02, tol = 0.77193E+01, time = 4.63 | CG iter. 26 -- res = 0.29306E+02, tol = 0.77193E+01, time = 4.26 | CG iter. 27 -- res = 0.21679E+02, tol = 0.77193E+01, time = 4.41 | CG iter. 28 -- res = 0.17289E+02, tol = 0.77193E+01, time = 4.42 | CG iter. 29 -- res = 0.14301E+02, tol = 0.77193E+01, time = 4.50 | CG iter. 30 -- res = 0.10340E+02, tol = 0.77193E+01, time = 4.39 | CG iter. 31 -- res = 0.77613E+01, tol = 0.77193E+01, time = 4.45 | CG iter. 32 -- res = 0.63710E+01, tol = 0.77193E+01, time = 4.54 | CG iter. 33 -- res = 0.53568E+01, tol = 0.77193E+01, time = 4.41 | CG iter. 34 -- res = 0.43507E+01, tol = 0.77193E+01, time = 4.22 | CG iter. 35 -- res = 0.32435E+01, tol = 0.77193E+01, time = 4.37 | CG iter. 36 -- res = 0.24979E+01, tol = 0.77193E+01, time = 4.62 | CG iter. 37 -- res = 0.20923E+01, tol = 0.77193E+01, time = 4.72 | CG iter. 38 -- res = 0.16901E+01, tol = 0.77193E+01, time = 4.16 | CG iter. 39 -- res = 0.12915E+01, tol = 0.77193E+01, time = 4.31 | CG iter. 40 -- res = 0.10501E+01, tol = 0.77193E+01, time = 4.53 | CG iter. 41 -- res = 0.86469E+00, tol = 0.77193E+01, time = 4.41 | CG iter. 42 -- res = 0.72219E+00, tol = 0.77193E+01, time = 4.37 | CG iter. 43 -- res = 0.55618E+00, tol = 0.77193E+01, time = 11.02 | CG iter. 44 -- res = 0.43900E+00, tol = 0.77193E+01, time = 4.50 | CG iter. 45 -- res = 0.35865E+00, tol = 0.77193E+01, time = 4.36 | CG iter. 46 -- res = 0.30207E+00, tol = 0.77193E+01, time = 4.51 | CG iter. 47 -- res = 0.25184E+00, tol = 0.77193E+01, time = 4.36 | CG iter. 48 -- res = 0.19657E+00, tol = 0.77193E+01, time = 4.48 | CG iter. 49 -- res = 0.15820E+00, tol = 0.77193E+01, time = 4.31 | CG iter. 50 -- res = 0.13167E+00, tol = 0.77193E+01, time = 4.48 | Final CG iter 51 -- res = 0.13167E+00, tol = 0.77193E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10027894.651 | Old band monopole 9266182.182 | Change to band monopole 761712.468 | Change to component monopole -761709.192 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.31 | CG iter. 1 -- res = 0.72239E+03, tol = 0.47627E+18, time = 1.43 | CG iter. 2 -- res = 0.12254E+02, tol = 0.47627E+18, time = 1.53 | CG iter. 3 -- res = 0.15322E+00, tol = 0.47627E+18, time = 1.57 | CG iter. 4 -- res = 0.59397E-04, tol = 0.47627E+18, time = 1.53 | Final CG iter 5 -- res = 0.18811E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10027851.519 | (Sampled value in CG: 10046615.094 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.472666 | New value = 1.510613 | poltype: 2 pol: 1 CPU time specind = 1.1744976E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.432145 | New value = 1.517363 | poltype: 2 pol: 2 CPU time specind = 5.8760643E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.19 | CG iter. 1 -- res = 0.24345E+08, tol = 0.47613E+04, time = 5.07 | CG iter. 2 -- res = 0.54043E+07, tol = 0.47613E+04, time = 4.94 | CG iter. 3 -- res = 0.85177E+06, tol = 0.47613E+04, time = 5.43 | CG iter. 4 -- res = 0.35540E+06, tol = 0.47613E+04, time = 5.10 | CG iter. 5 -- res = 0.15539E+06, tol = 0.47613E+04, time = 4.93 | CG iter. 6 -- res = 0.79916E+05, tol = 0.47613E+04, time = 5.27 | CG iter. 7 -- res = 0.43561E+05, tol = 0.47613E+04, time = 5.13 | CG iter. 8 -- res = 0.21130E+05, tol = 0.47613E+04, time = 4.95 | CG iter. 9 -- res = 0.94246E+04, tol = 0.47613E+04, time = 5.16 | CG iter. 10 -- res = 0.38434E+04, tol = 0.47613E+04, time = 5.22 | CG iter. 11 -- res = 0.17303E+04, tol = 0.47613E+04, time = 5.08 | CG iter. 12 -- res = 0.89674E+03, tol = 0.47613E+04, time = 5.12 | CG iter. 13 -- res = 0.50780E+03, tol = 0.47613E+04, time = 5.05 | CG iter. 14 -- res = 0.28574E+03, tol = 0.47613E+04, time = 5.19 | CG iter. 15 -- res = 0.14676E+03, tol = 0.47613E+04, time = 5.05 | CG iter. 16 -- res = 0.68631E+02, tol = 0.47613E+04, time = 5.19 | CG iter. 17 -- res = 0.32408E+02, tol = 0.47613E+04, time = 5.10 | CG iter. 18 -- res = 0.16123E+02, tol = 0.47613E+04, time = 5.26 | CG iter. 19 -- res = 0.85660E+01, tol = 0.47613E+04, time = 5.06 | CG iter. 20 -- res = 0.48626E+01, tol = 0.47613E+04, time = 4.97 | CG iter. 21 -- res = 0.26629E+01, tol = 0.47613E+04, time = 5.06 | CG iter. 22 -- res = 0.13641E+01, tol = 0.47613E+04, time = 5.20 | CG iter. 23 -- res = 0.67012E+00, tol = 0.47613E+04, time = 5.08 | CG iter. 24 -- res = 0.34196E+00, tol = 0.47613E+04, time = 5.30 | CG iter. 25 -- res = 0.18856E+00, tol = 0.47613E+04, time = 5.20 | CG iter. 26 -- res = 0.10807E+00, tol = 0.47613E+04, time = 5.21 | CG iter. 27 -- res = 0.61076E-01, tol = 0.47613E+04, time = 4.96 | CG iter. 28 -- res = 0.32664E-01, tol = 0.47613E+04, time = 5.41 | CG iter. 29 -- res = 0.17104E-01, tol = 0.47613E+04, time = 5.08 | CG iter. 30 -- res = 0.90616E-02, tol = 0.47613E+04, time = 5.05 | CG iter. 31 -- res = 0.48574E-02, tol = 0.47613E+04, time = 11.67 | CG iter. 32 -- res = 0.27318E-02, tol = 0.47613E+04, time = 5.26 | CG iter. 33 -- res = 0.15346E-02, tol = 0.47613E+04, time = 5.17 | CG iter. 34 -- res = 0.83060E-03, tol = 0.47613E+04, time = 4.99 | CG iter. 35 -- res = 0.42394E-03, tol = 0.47613E+04, time = 5.12 | Final CG iter 36 -- res = 0.42394E-03, tol = 0.47613E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.331 2.725 | New value 0.314 | Old value 1.331 | Difference -1.017 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.57269E+05, tol = 0.47627E+18, time = 1.50 | CG iter. 2 -- res = 0.16616E+02, tol = 0.47627E+18, time = 1.61 | CG iter. 3 -- res = 0.45825E+00, tol = 0.47627E+18, time = 1.60 | CG iter. 4 -- res = 0.78714E-03, tol = 0.47627E+18, time = 1.52 | Final CG iter 5 -- res = 0.18724E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10027851.519 | (Sampled value in CG: 10046536.273 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.577945 | New value = -3.651251 | poltype: 1 pol: 1 CPU time specind = 6.0520172E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.42 | CG iter. 1 -- res = 0.20819E+07, tol = 0.19847E+01, time = 2.07 | CG iter. 2 -- res = 0.63674E+06, tol = 0.19847E+01, time = 2.15 | CG iter. 3 -- res = 0.12128E+06, tol = 0.19847E+01, time = 2.02 | CG iter. 4 -- res = 0.47642E+05, tol = 0.19847E+01, time = 2.11 | CG iter. 5 -- res = 0.27360E+05, tol = 0.19847E+01, time = 2.11 | CG iter. 6 -- res = 0.14312E+05, tol = 0.19847E+01, time = 1.89 | CG iter. 7 -- res = 0.61125E+04, tol = 0.19847E+01, time = 2.15 | CG iter. 8 -- res = 0.26719E+04, tol = 0.19847E+01, time = 1.96 | CG iter. 9 -- res = 0.11118E+04, tol = 0.19847E+01, time = 1.97 | CG iter. 10 -- res = 0.45126E+03, tol = 0.19847E+01, time = 2.20 | CG iter. 11 -- res = 0.18722E+03, tol = 0.19847E+01, time = 1.94 | CG iter. 12 -- res = 0.92675E+02, tol = 0.19847E+01, time = 1.97 | CG iter. 13 -- res = 0.48085E+02, tol = 0.19847E+01, time = 2.10 | CG iter. 14 -- res = 0.23818E+02, tol = 0.19847E+01, time = 2.00 | CG iter. 15 -- res = 0.10951E+02, tol = 0.19847E+01, time = 2.08 | CG iter. 16 -- res = 0.45050E+01, tol = 0.19847E+01, time = 1.99 | CG iter. 17 -- res = 0.18955E+01, tol = 0.19847E+01, time = 2.14 | CG iter. 18 -- res = 0.87840E+00, tol = 0.19847E+01, time = 1.96 | CG iter. 19 -- res = 0.43527E+00, tol = 0.19847E+01, time = 2.27 | CG iter. 20 -- res = 0.22054E+00, tol = 0.19847E+01, time = 2.01 | CG iter. 21 -- res = 0.10957E+00, tol = 0.19847E+01, time = 2.17 | CG iter. 22 -- res = 0.48930E-01, tol = 0.19847E+01, time = 2.01 | CG iter. 23 -- res = 0.21954E-01, tol = 0.19847E+01, time = 2.06 | CG iter. 24 -- res = 0.98300E-02, tol = 0.19847E+01, time = 1.99 | CG iter. 25 -- res = 0.50214E-02, tol = 0.19847E+01, time = 2.10 | CG iter. 26 -- res = 0.25830E-02, tol = 0.19847E+01, time = 7.09 | CG iter. 27 -- res = 0.12739E-02, tol = 0.19847E+01, time = 3.84 | CG iter. 28 -- res = 0.60267E-03, tol = 0.19847E+01, time = 2.06 | CG iter. 29 -- res = 0.26785E-03, tol = 0.19847E+01, time = 2.06 | CG iter. 30 -- res = 0.12792E-03, tol = 0.19847E+01, time = 2.18 | CG iter. 31 -- res = 0.62542E-04, tol = 0.19847E+01, time = 2.10 | CG iter. 32 -- res = 0.31242E-04, tol = 0.19847E+01, time = 2.10 | CG iter. 33 -- res = 0.15186E-04, tol = 0.19847E+01, time = 2.01 | CG iter. 34 -- res = 0.71354E-05, tol = 0.19847E+01, time = 2.02 | CG iter. 35 -- res = 0.33771E-05, tol = 0.19847E+01, time = 1.96 | CG iter. 36 -- res = 0.15442E-05, tol = 0.19847E+01, time = 1.94 | CG iter. 37 -- res = 0.73366E-06, tol = 0.19847E+01, time = 2.06 | CG iter. 38 -- res = 0.37419E-06, tol = 0.19847E+01, time = 2.25 | CG iter. 39 -- res = 0.18217E-06, tol = 0.19847E+01, time = 1.95 | CG iter. 40 -- res = 0.82543E-07, tol = 0.19847E+01, time = 2.12 | CG iter. 41 -- res = 0.38220E-07, tol = 0.19847E+01, time = 2.02 | CG iter. 42 -- res = 0.18021E-07, tol = 0.19847E+01, time = 1.82 | CG iter. 43 -- res = 0.89797E-08, tol = 0.19847E+01, time = 2.16 | CG iter. 44 -- res = 0.43674E-08, tol = 0.19847E+01, time = 2.08 | CG iter. 45 -- res = 0.21465E-08, tol = 0.19847E+01, time = 2.19 | CG iter. 46 -- res = 0.10038E-08, tol = 0.19847E+01, time = 1.94 | CG iter. 47 -- res = 0.47240E-09, tol = 0.19847E+01, time = 2.14 | CG iter. 48 -- res = 0.22960E-09, tol = 0.19847E+01, time = 2.12 | CG iter. 49 -- res = 0.11137E-09, tol = 0.19847E+01, time = 1.93 | CG iter. 50 -- res = 0.54078E-10, tol = 0.19847E+01, time = 2.02 | Final CG iter 51 -- res = 0.54078E-10, tol = 0.19847E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.226 5.175 | New value 2.223 | Old value 5.226 | Difference -3.003 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.26 | CG iter. 1 -- res = 0.96170E+04, tol = 0.47627E+18, time = 1.50 | CG iter. 2 -- res = 0.26884E+02, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.54340E+00, tol = 0.47627E+18, time = 2.49 | CG iter. 4 -- res = 0.10781E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.70925E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10027851.519 | (Sampled value in CG: 10045089.918 ) | CPU time specind = 940.9012 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.69293E+08, tol = 0.57762E+04, time = 9.49 | CG iter. 2 -- res = 0.59821E+08, tol = 0.57762E+04, time = 9.01 | CG iter. 3 -- res = 0.16130E+08, tol = 0.57762E+04, time = 9.41 | CG iter. 4 -- res = 0.69127E+07, tol = 0.57762E+04, time = 9.40 | CG iter. 5 -- res = 0.41329E+07, tol = 0.57762E+04, time = 9.35 | CG iter. 6 -- res = 0.24364E+07, tol = 0.57762E+04, time = 9.26 | CG iter. 7 -- res = 0.14166E+07, tol = 0.57762E+04, time = 9.28 | CG iter. 8 -- res = 0.91763E+06, tol = 0.57762E+04, time = 9.57 | CG iter. 9 -- res = 0.57890E+06, tol = 0.57762E+04, time = 9.53 | CG iter. 10 -- res = 0.34595E+06, tol = 0.57762E+04, time = 9.44 | CG iter. 11 -- res = 0.18836E+06, tol = 0.57762E+04, time = 9.38 | CG iter. 12 -- res = 0.99721E+05, tol = 0.57762E+04, time = 9.09 | CG iter. 13 -- res = 0.52435E+05, tol = 0.57762E+04, time = 9.48 | CG iter. 14 -- res = 0.29575E+05, tol = 0.57762E+04, time = 9.74 | CG iter. 15 -- res = 0.18486E+05, tol = 0.57762E+04, time = 9.50 | CG iter. 16 -- res = 0.12493E+05, tol = 0.57762E+04, time = 9.49 | CG iter. 17 -- res = 0.86747E+04, tol = 0.57762E+04, time = 9.20 | CG iter. 18 -- res = 0.59018E+04, tol = 0.57762E+04, time = 16.12 | CG iter. 19 -- res = 0.38631E+04, tol = 0.57762E+04, time = 9.37 | CG iter. 20 -- res = 0.25277E+04, tol = 0.57762E+04, time = 9.04 | CG iter. 21 -- res = 0.17409E+04, tol = 0.57762E+04, time = 9.31 | CG iter. 22 -- res = 0.13554E+04, tol = 0.57762E+04, time = 9.16 | CG iter. 23 -- res = 0.11813E+04, tol = 0.57762E+04, time = 9.56 | CG iter. 24 -- res = 0.11366E+04, tol = 0.57762E+04, time = 9.42 | CG iter. 25 -- res = 0.11633E+04, tol = 0.57762E+04, time = 9.49 | CG iter. 26 -- res = 0.11900E+04, tol = 0.57762E+04, time = 9.10 | CG iter. 27 -- res = 0.11047E+04, tol = 0.57762E+04, time = 11.40 | CG iter. 28 -- res = 0.96810E+03, tol = 0.57762E+04, time = 9.79 | CG iter. 29 -- res = 0.86649E+03, tol = 0.57762E+04, time = 9.21 | CG iter. 30 -- res = 0.80099E+03, tol = 0.57762E+04, time = 9.44 | CG iter. 31 -- res = 0.74027E+03, tol = 0.57762E+04, time = 9.33 | CG iter. 32 -- res = 0.67806E+03, tol = 0.57762E+04, time = 9.18 | CG iter. 33 -- res = 0.57576E+03, tol = 0.57762E+04, time = 9.30 | CG iter. 34 -- res = 0.45199E+03, tol = 0.57762E+04, time = 9.37 | CG iter. 35 -- res = 0.33871E+03, tol = 0.57762E+04, time = 9.43 | CG iter. 36 -- res = 0.25670E+03, tol = 0.57762E+04, time = 9.43 | CG iter. 37 -- res = 0.21276E+03, tol = 0.57762E+04, time = 9.35 | CG iter. 38 -- res = 0.19139E+03, tol = 0.57762E+04, time = 10.10 | CG iter. 39 -- res = 0.17861E+03, tol = 0.57762E+04, time = 9.47 | CG iter. 40 -- res = 0.16631E+03, tol = 0.57762E+04, time = 9.51 | CG iter. 41 -- res = 0.14729E+03, tol = 0.57762E+04, time = 9.29 | CG iter. 42 -- res = 0.12733E+03, tol = 0.57762E+04, time = 9.23 | CG iter. 43 -- res = 0.11293E+03, tol = 0.57762E+04, time = 9.27 | CG iter. 44 -- res = 0.10695E+03, tol = 0.57762E+04, time = 9.26 | CG iter. 45 -- res = 0.99543E+02, tol = 0.57762E+04, time = 8.89 | CG iter. 46 -- res = 0.91937E+02, tol = 0.57762E+04, time = 9.50 | CG iter. 47 -- res = 0.84595E+02, tol = 0.57762E+04, time = 9.32 | CG iter. 48 -- res = 0.72651E+02, tol = 0.57762E+04, time = 9.41 | CG iter. 49 -- res = 0.61430E+02, tol = 0.57762E+04, time = 15.66 | CG iter. 50 -- res = 0.53030E+02, tol = 0.57762E+04, time = 9.30 | CG iter. 51 -- res = 0.46653E+02, tol = 0.57762E+04, time = 9.33 | CG iter. 52 -- res = 0.41616E+02, tol = 0.57762E+04, time = 9.22 | CG iter. 53 -- res = 0.39342E+02, tol = 0.57762E+04, time = 9.33 | CG iter. 54 -- res = 0.37904E+02, tol = 0.57762E+04, time = 9.08 | CG iter. 55 -- res = 0.35744E+02, tol = 0.57762E+04, time = 9.15 | CG iter. 56 -- res = 0.33222E+02, tol = 0.57762E+04, time = 9.54 | CG iter. 57 -- res = 0.30648E+02, tol = 0.57762E+04, time = 8.86 | CG iter. 58 -- res = 0.29591E+02, tol = 0.57762E+04, time = 11.00 | CG iter. 59 -- res = 0.28978E+02, tol = 0.57762E+04, time = 10.06 | CG iter. 60 -- res = 0.28077E+02, tol = 0.57762E+04, time = 9.17 | Final CG iter 61 -- res = 0.28077E+02, tol = 0.57762E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.830 ( -230.073 -2229.505 2511.839 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7814828.007 | Old band monopole 10027894.651 | Change to band monopole -2213066.644 | Change to component monopole 2213057.125 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.349 2.751 | New value 4.515 | Old value 0.349 | Difference 4.166 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.153 ( 6.992 9.209 -8.917 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.348 4.902 | New value -0.522 | Old value 5.348 | Difference -5.870 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.96954E+06, tol = 0.47627E+18, time = 1.41 | CG iter. 2 -- res = 0.46210E+02, tol = 0.47627E+18, time = 1.47 | CG iter. 3 -- res = 0.20238E+01, tol = 0.47627E+18, time = 1.53 | CG iter. 4 -- res = 0.28388E-02, tol = 0.47627E+18, time = 1.48 | Final CG iter 5 -- res = 0.35686E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7814794.394 | (Sampled value in CG: 7795010.734 ) | Chain = 1 -- chisq = 0.81548362E+09 | Chain = 1 -- wall time = 6152.526 sec Available RAM: MemAvailable: 370982648 kB Available Swap: SwapFree: 1117753848 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 163 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444197 | --> Sampling calibration, mode = relcal | relcal = 1.3418319E-02 7.4683520E-04 -1.5936627E-03 -1.2571491E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1041943 0.1185344 97040364.2042943 | BP delta = 9.9841885E-02 0.1141820 97040367.2867451 | BP chisq diff = 3.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632366 | --> Sampling calibration, mode = relcal | relcal = -2.8203521E-03 -7.0426351E-04 1.6788810E-03 1.6137360E-03 -4.0759429E-04 6.3959282E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5954199 15219812.1608084 | BP delta = 0.0000000E+00 -0.5984921 15219817.8460217 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18170510225936 | --> Sampling calibration, mode = relcal | relcal = -7.4834011E-02 -5.8342963E-02 9.1672361E-02 4.1504614E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2429182E-04 4.3136361E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1748E-05 | 2: delta_r/delta_0: 7.9027E-07 | 3: delta_s/delta_0: 2.4426E-07 | 4: delta_r/delta_0: 1.4428E-08 | 5: delta_s/delta_0: 1.5861E-07 | 6: delta_r/delta_0: 4.0837E-09 | 7: delta_s/delta_0: 3.0283E-10 | 8: delta_r/delta_0: 7.6862E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.068150097250507E-003 2.739472623035035E-005 | BP delta = 1.7250720E-02 3.2089505E-02 50483787.4452123 | BP delta = 2.2548640E-02 3.7387423E-02 50483786.2955328 | BP chisq diff = -1.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02581705 | --> Sampling calibration, mode = relcal | relcal = -0.1067095 -9.5515758E-02 0.1448978 5.7327516E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1393880E-03 1.6712203E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1817E-05 | 2: delta_r/delta_0: 1.3638E-06 | 3: delta_s/delta_0: 2.3543E-07 | 4: delta_r/delta_0: 5.3602E-08 | 5: delta_s/delta_0: 1.8421E-08 | 6: delta_r/delta_0: 7.1512E-09 | 7: delta_s/delta_0: 1.2249E-08 | 8: delta_r/delta_0: 1.1248E-09 | 9: delta_s/delta_0: 9.9160E-10 | 10: delta_r/delta_0: 1.7597E-10 | 11: delta_s/delta_0: 1.4111E-09 | 12: delta_r/delta_0: 2.0565E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.825702318540842E-003 2.811326234879842E-005 | BP delta = -0.2795346 -0.2532784 57393005.9492317 | BP delta = -0.2647998 -0.2385435 57393007.5258868 | BP chisq diff = 1.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81222134 | --> Sampling calibration, mode = relcal | relcal = 0.2954319 0.2248651 -0.2838368 -0.2364601 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.1795349E-04 5.8310088E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1221E-01 | 2: delta_r/delta_0: 1.2076E-02 | 3: delta_s/delta_0: 2.4706E-03 | 4: delta_r/delta_0: 1.8942E-04 | 5: delta_s/delta_0: 1.1029E-04 | 6: delta_r/delta_0: 4.0800E-05 | 7: delta_s/delta_0: 1.8877E-04 | 8: delta_r/delta_0: 4.7256E-05 | 9: delta_s/delta_0: 1.8681E-05 | 10: delta_r/delta_0: 5.7031E-06 | 11: delta_s/delta_0: 9.7560E-07 | 12: delta_r/delta_0: 1.0794E-07 | 13: delta_s/delta_0: 9.4426E-07 | 14: delta_r/delta_0: 6.3950E-08 | 15: delta_s/delta_0: 3.3400E-09 | 16: delta_r/delta_0: 9.0198E-10 | 17: delta_s/delta_0: 7.6464E-10 | 18: delta_r/delta_0: 2.3176E-10 | 19: delta_s/delta_0: 5.7623E-10 | 20: delta_r/delta_0: 5.2922E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.208189075724142 4.021784903643747E-005 | BP delta = -0.1286916 -0.1467407 72487880.3207701 | BP delta = -0.1531425 -0.1711916 72487880.0275493 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95901741 | --> Sampling calibration, mode = relcal | relcal = 0.1065596 0.1394796 -0.1102487 -0.1357905 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0833461E-02 1.3339435E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4959E-04 | 2: delta_r/delta_0: 6.3431E-06 | 3: delta_s/delta_0: 1.3307E-05 | 4: delta_r/delta_0: 7.0597E-07 | 5: delta_s/delta_0: 2.2276E-07 | 6: delta_r/delta_0: 1.0931E-07 | 7: delta_s/delta_0: 2.1489E-07 | 8: delta_r/delta_0: 3.0385E-08 | 9: delta_s/delta_0: 8.3146E-09 | 10: delta_r/delta_0: 5.2993E-09 | 11: delta_s/delta_0: 1.4652E-09 | 12: delta_r/delta_0: 1.0999E-09 | 13: delta_s/delta_0: 2.0356E-10 | 14: delta_r/delta_0: 1.2886E-10 | 15: delta_s/delta_0: 1.5356E-10 | 16: delta_r/delta_0: 1.6598E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.019950943015512E-002 3.697766136304802E-005 | BP delta = 3.0213803E-02 0.1402258 72777048.1286453 | BP delta = 8.3906069E-02 0.1939180 72777045.6799039 | BP chisq diff = -2.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.107865 | New value = -3.174990 | poltype: 2 pol: 1 CPU time specind = 9.1941357E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182462 | New value = -3.165998 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.100210 | New value = -3.146405 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168038 | New value = -3.091788 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195813 | New value = -3.176914 | poltype: 2 pol: 2 CPU time specind = 6.5431595E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.14 | CG iter. 1 -- res = 0.13576E+08, tol = 0.87542E+01, time = 4.50 | CG iter. 2 -- res = 0.34180E+06, tol = 0.87542E+01, time = 4.30 | CG iter. 3 -- res = 0.64787E+05, tol = 0.87542E+01, time = 4.32 | CG iter. 4 -- res = 0.52549E+05, tol = 0.87542E+01, time = 4.73 | CG iter. 5 -- res = 0.49431E+05, tol = 0.87542E+01, time = 4.52 | CG iter. 6 -- res = 0.49430E+05, tol = 0.87542E+01, time = 4.33 | CG iter. 7 -- res = 0.47137E+05, tol = 0.87542E+01, time = 4.43 | CG iter. 8 -- res = 0.37726E+05, tol = 0.87542E+01, time = 4.51 | CG iter. 9 -- res = 0.32259E+05, tol = 0.87542E+01, time = 4.48 | CG iter. 10 -- res = 0.26873E+05, tol = 0.87542E+01, time = 6.61 | CG iter. 11 -- res = 0.18937E+05, tol = 0.87542E+01, time = 4.63 | CG iter. 12 -- res = 0.13587E+05, tol = 0.87542E+01, time = 4.42 | CG iter. 13 -- res = 0.11366E+05, tol = 0.87542E+01, time = 4.48 | CG iter. 14 -- res = 0.10011E+05, tol = 0.87542E+01, time = 4.42 | CG iter. 15 -- res = 0.84636E+04, tol = 0.87542E+01, time = 4.54 | CG iter. 16 -- res = 0.61896E+04, tol = 0.87542E+01, time = 5.96 | CG iter. 17 -- res = 0.43367E+04, tol = 0.87542E+01, time = 6.49 | CG iter. 18 -- res = 0.35405E+04, tol = 0.87542E+01, time = 6.26 | CG iter. 19 -- res = 0.31841E+04, tol = 0.87542E+01, time = 6.22 | CG iter. 20 -- res = 0.25851E+04, tol = 0.87542E+01, time = 6.03 | CG iter. 21 -- res = 0.19661E+04, tol = 0.87542E+01, time = 6.32 | CG iter. 22 -- res = 0.16372E+04, tol = 0.87542E+01, time = 6.35 | CG iter. 23 -- res = 0.14142E+04, tol = 0.87542E+01, time = 6.40 | CG iter. 24 -- res = 0.12188E+04, tol = 0.87542E+01, time = 6.18 | CG iter. 25 -- res = 0.92525E+03, tol = 0.87542E+01, time = 6.18 | CG iter. 26 -- res = 0.74597E+03, tol = 0.87542E+01, time = 6.18 | CG iter. 27 -- res = 0.65797E+03, tol = 0.87542E+01, time = 12.11 | CG iter. 28 -- res = 0.59425E+03, tol = 0.87542E+01, time = 6.50 | CG iter. 29 -- res = 0.49632E+03, tol = 0.87542E+01, time = 5.97 | CG iter. 30 -- res = 0.39528E+03, tol = 0.87542E+01, time = 6.12 | CG iter. 31 -- res = 0.33803E+03, tol = 0.87542E+01, time = 6.03 | CG iter. 32 -- res = 0.29905E+03, tol = 0.87542E+01, time = 6.08 | CG iter. 33 -- res = 0.25115E+03, tol = 0.87542E+01, time = 6.33 | CG iter. 34 -- res = 0.19348E+03, tol = 0.87542E+01, time = 6.37 | CG iter. 35 -- res = 0.16451E+03, tol = 0.87542E+01, time = 6.45 | CG iter. 36 -- res = 0.15187E+03, tol = 0.87542E+01, time = 6.27 | CG iter. 37 -- res = 0.12888E+03, tol = 0.87542E+01, time = 5.26 | CG iter. 38 -- res = 0.10147E+03, tol = 0.87542E+01, time = 4.42 | CG iter. 39 -- res = 0.79687E+02, tol = 0.87542E+01, time = 4.49 | CG iter. 40 -- res = 0.70646E+02, tol = 0.87542E+01, time = 4.41 | CG iter. 41 -- res = 0.60857E+02, tol = 0.87542E+01, time = 4.65 | CG iter. 42 -- res = 0.48027E+02, tol = 0.87542E+01, time = 5.23 | CG iter. 43 -- res = 0.38602E+02, tol = 0.87542E+01, time = 5.54 | CG iter. 44 -- res = 0.31720E+02, tol = 0.87542E+01, time = 4.51 | CG iter. 45 -- res = 0.26711E+02, tol = 0.87542E+01, time = 4.75 | CG iter. 46 -- res = 0.21154E+02, tol = 0.87542E+01, time = 4.49 | CG iter. 47 -- res = 0.16207E+02, tol = 0.87542E+01, time = 4.50 | CG iter. 48 -- res = 0.13220E+02, tol = 0.87542E+01, time = 4.56 | CG iter. 49 -- res = 0.10806E+02, tol = 0.87542E+01, time = 4.36 | CG iter. 50 -- res = 0.89357E+01, tol = 0.87542E+01, time = 4.50 | Final CG iter 51 -- res = 0.89357E+01, tol = 0.87542E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8115365.952 | Old band monopole 7814828.007 | Change to band monopole 300537.945 | Change to component monopole -300536.652 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.92 | CG iter. 1 -- res = 0.36872E+06, tol = 0.47627E+18, time = 1.42 | CG iter. 2 -- res = 0.15838E+03, tol = 0.47627E+18, time = 1.57 | CG iter. 3 -- res = 0.32004E+01, tol = 0.47627E+18, time = 1.43 | CG iter. 4 -- res = 0.23463E-01, tol = 0.47627E+18, time = 1.52 | Final CG iter 5 -- res = 0.64628E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8115331.046 | (Sampled value in CG: 8048187.841 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.510613 | New value = 1.526904 | poltype: 2 pol: 1 CPU time specind = 1.5308857E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.517363 | New value = 1.487973 | poltype: 2 pol: 2 CPU time specind = 1.4751196E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 21.87 | CG iter. 1 -- res = 0.24037E+08, tol = 0.47670E+04, time = 5.14 | CG iter. 2 -- res = 0.52781E+07, tol = 0.47670E+04, time = 5.15 | CG iter. 3 -- res = 0.82447E+06, tol = 0.47670E+04, time = 5.33 | CG iter. 4 -- res = 0.34640E+06, tol = 0.47670E+04, time = 5.29 | CG iter. 5 -- res = 0.15175E+06, tol = 0.47670E+04, time = 5.01 | CG iter. 6 -- res = 0.80064E+05, tol = 0.47670E+04, time = 5.18 | CG iter. 7 -- res = 0.43330E+05, tol = 0.47670E+04, time = 5.25 | CG iter. 8 -- res = 0.20930E+05, tol = 0.47670E+04, time = 4.89 | CG iter. 9 -- res = 0.91417E+04, tol = 0.47670E+04, time = 5.00 | CG iter. 10 -- res = 0.37173E+04, tol = 0.47670E+04, time = 5.10 | CG iter. 11 -- res = 0.16718E+04, tol = 0.47670E+04, time = 5.12 | CG iter. 12 -- res = 0.86623E+03, tol = 0.47670E+04, time = 5.09 | CG iter. 13 -- res = 0.50224E+03, tol = 0.47670E+04, time = 5.12 | CG iter. 14 -- res = 0.27992E+03, tol = 0.47670E+04, time = 11.63 | CG iter. 15 -- res = 0.14370E+03, tol = 0.47670E+04, time = 4.98 | CG iter. 16 -- res = 0.67359E+02, tol = 0.47670E+04, time = 5.44 | CG iter. 17 -- res = 0.31633E+02, tol = 0.47670E+04, time = 5.21 | CG iter. 18 -- res = 0.16135E+02, tol = 0.47670E+04, time = 5.03 | CG iter. 19 -- res = 0.88062E+01, tol = 0.47670E+04, time = 5.17 | CG iter. 20 -- res = 0.49997E+01, tol = 0.47670E+04, time = 5.10 | CG iter. 21 -- res = 0.27491E+01, tol = 0.47670E+04, time = 5.09 | CG iter. 22 -- res = 0.14022E+01, tol = 0.47670E+04, time = 5.26 | CG iter. 23 -- res = 0.68554E+00, tol = 0.47670E+04, time = 4.88 | CG iter. 24 -- res = 0.35172E+00, tol = 0.47670E+04, time = 5.04 | CG iter. 25 -- res = 0.19208E+00, tol = 0.47670E+04, time = 5.41 | CG iter. 26 -- res = 0.11057E+00, tol = 0.47670E+04, time = 5.13 | CG iter. 27 -- res = 0.62015E-01, tol = 0.47670E+04, time = 5.02 | CG iter. 28 -- res = 0.32996E-01, tol = 0.47670E+04, time = 5.23 | CG iter. 29 -- res = 0.17129E-01, tol = 0.47670E+04, time = 5.06 | CG iter. 30 -- res = 0.88714E-02, tol = 0.47670E+04, time = 5.43 | CG iter. 31 -- res = 0.47829E-02, tol = 0.47670E+04, time = 6.66 | CG iter. 32 -- res = 0.26927E-02, tol = 0.47670E+04, time = 5.44 | CG iter. 33 -- res = 0.15160E-02, tol = 0.47670E+04, time = 5.21 | CG iter. 34 -- res = 0.80839E-03, tol = 0.47670E+04, time = 5.19 | CG iter. 35 -- res = 0.41738E-03, tol = 0.47670E+04, time = 5.24 | Final CG iter 36 -- res = 0.41738E-03, tol = 0.47670E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.522 2.747 | New value 0.528 | Old value 4.522 | Difference -3.994 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.05 | CG iter. 1 -- res = 0.83410E+06, tol = 0.47627E+18, time = 1.47 | CG iter. 2 -- res = 0.74128E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.21287E+01, tol = 0.47627E+18, time = 1.52 | CG iter. 4 -- res = 0.68849E-03, tol = 0.47627E+18, time = 1.52 | Final CG iter 5 -- res = 0.90696E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8115331.046 | (Sampled value in CG: 8048864.125 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.651251 | New value = -3.409881 | poltype: 1 pol: 1 CPU time specind = 5.3029060E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.25 | CG iter. 1 -- res = 0.27902E+07, tol = 0.25342E+01, time = 2.06 | CG iter. 2 -- res = 0.16774E+07, tol = 0.25342E+01, time = 2.04 | CG iter. 3 -- res = 0.33413E+06, tol = 0.25342E+01, time = 2.08 | CG iter. 4 -- res = 0.11864E+06, tol = 0.25342E+01, time = 2.06 | CG iter. 5 -- res = 0.66544E+05, tol = 0.25342E+01, time = 2.04 | CG iter. 6 -- res = 0.36150E+05, tol = 0.25342E+01, time = 2.14 | CG iter. 7 -- res = 0.14127E+05, tol = 0.25342E+01, time = 1.98 | CG iter. 8 -- res = 0.62677E+04, tol = 0.25342E+01, time = 2.21 | CG iter. 9 -- res = 0.29422E+04, tol = 0.25342E+01, time = 2.17 | CG iter. 10 -- res = 0.12129E+04, tol = 0.25342E+01, time = 2.07 | CG iter. 11 -- res = 0.47125E+03, tol = 0.25342E+01, time = 1.96 | CG iter. 12 -- res = 0.21170E+03, tol = 0.25342E+01, time = 2.03 | CG iter. 13 -- res = 0.10184E+03, tol = 0.25342E+01, time = 2.02 | CG iter. 14 -- res = 0.53160E+02, tol = 0.25342E+01, time = 1.90 | CG iter. 15 -- res = 0.26687E+02, tol = 0.25342E+01, time = 2.15 | CG iter. 16 -- res = 0.13019E+02, tol = 0.25342E+01, time = 2.06 | CG iter. 17 -- res = 0.58259E+01, tol = 0.25342E+01, time = 2.08 | CG iter. 18 -- res = 0.25229E+01, tol = 0.25342E+01, time = 2.08 | CG iter. 19 -- res = 0.11554E+01, tol = 0.25342E+01, time = 1.94 | CG iter. 20 -- res = 0.55794E+00, tol = 0.25342E+01, time = 2.03 | CG iter. 21 -- res = 0.27572E+00, tol = 0.25342E+01, time = 2.23 | CG iter. 22 -- res = 0.13711E+00, tol = 0.25342E+01, time = 2.11 | CG iter. 23 -- res = 0.67740E-01, tol = 0.25342E+01, time = 2.00 | CG iter. 24 -- res = 0.32270E-01, tol = 0.25342E+01, time = 2.07 | CG iter. 25 -- res = 0.14405E-01, tol = 0.25342E+01, time = 2.83 | CG iter. 26 -- res = 0.68073E-02, tol = 0.25342E+01, time = 2.91 | CG iter. 27 -- res = 0.33748E-02, tol = 0.25342E+01, time = 2.38 | CG iter. 28 -- res = 0.17117E-02, tol = 0.25342E+01, time = 2.30 | CG iter. 29 -- res = 0.87186E-03, tol = 0.25342E+01, time = 2.30 | CG iter. 30 -- res = 0.45542E-03, tol = 0.25342E+01, time = 2.47 | CG iter. 31 -- res = 0.21847E-03, tol = 0.25342E+01, time = 2.02 | CG iter. 32 -- res = 0.99393E-04, tol = 0.25342E+01, time = 1.88 | CG iter. 33 -- res = 0.46477E-04, tol = 0.25342E+01, time = 2.10 | CG iter. 34 -- res = 0.23253E-04, tol = 0.25342E+01, time = 1.96 | CG iter. 35 -- res = 0.12345E-04, tol = 0.25342E+01, time = 2.23 | CG iter. 36 -- res = 0.65550E-05, tol = 0.25342E+01, time = 1.89 | CG iter. 37 -- res = 0.31599E-05, tol = 0.25342E+01, time = 2.16 | CG iter. 38 -- res = 0.15161E-05, tol = 0.25342E+01, time = 2.13 | CG iter. 39 -- res = 0.67977E-06, tol = 0.25342E+01, time = 2.19 | CG iter. 40 -- res = 0.32812E-06, tol = 0.25342E+01, time = 1.91 | CG iter. 41 -- res = 0.16650E-06, tol = 0.25342E+01, time = 2.02 | CG iter. 42 -- res = 0.85645E-07, tol = 0.25342E+01, time = 2.09 | CG iter. 43 -- res = 0.41983E-07, tol = 0.25342E+01, time = 2.12 | CG iter. 44 -- res = 0.20016E-07, tol = 0.25342E+01, time = 2.22 | CG iter. 45 -- res = 0.92252E-08, tol = 0.25342E+01, time = 1.99 | CG iter. 46 -- res = 0.42596E-08, tol = 0.25342E+01, time = 1.93 | CG iter. 47 -- res = 0.20741E-08, tol = 0.25342E+01, time = 1.96 | CG iter. 48 -- res = 0.10792E-08, tol = 0.25342E+01, time = 2.18 | CG iter. 49 -- res = 0.51089E-09, tol = 0.25342E+01, time = 2.18 | CG iter. 50 -- res = 0.24199E-09, tol = 0.25342E+01, time = 2.06 | Final CG iter 51 -- res = 0.24199E-09, tol = 0.25342E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.597 5.897 | New value 1.785 | Old value -5.597 | Difference 7.382 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.97 | CG iter. 1 -- res = 0.62017E+05, tol = 0.47627E+18, time = 1.46 | CG iter. 2 -- res = 0.59491E+02, tol = 0.47627E+18, time = 1.39 | CG iter. 3 -- res = 0.21164E+01, tol = 0.47627E+18, time = 1.61 | CG iter. 4 -- res = 0.78772E-02, tol = 0.47627E+18, time = 1.62 | Final CG iter 5 -- res = 0.50359E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8115331.046 | (Sampled value in CG: 8063536.547 ) | CPU time specind = 980.9836 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.68396E+08, tol = 0.57604E+04, time = 8.91 | CG iter. 2 -- res = 0.58280E+08, tol = 0.57604E+04, time = 9.68 | CG iter. 3 -- res = 0.15080E+08, tol = 0.57604E+04, time = 9.25 | CG iter. 4 -- res = 0.63408E+07, tol = 0.57604E+04, time = 9.36 | CG iter. 5 -- res = 0.37521E+07, tol = 0.57604E+04, time = 9.24 | CG iter. 6 -- res = 0.21632E+07, tol = 0.57604E+04, time = 9.54 | CG iter. 7 -- res = 0.13007E+07, tol = 0.57604E+04, time = 9.23 | CG iter. 8 -- res = 0.87518E+06, tol = 0.57604E+04, time = 9.22 | CG iter. 9 -- res = 0.56135E+06, tol = 0.57604E+04, time = 15.23 | CG iter. 10 -- res = 0.33226E+06, tol = 0.57604E+04, time = 14.27 | CG iter. 11 -- res = 0.18480E+06, tol = 0.57604E+04, time = 9.42 | CG iter. 12 -- res = 0.10396E+06, tol = 0.57604E+04, time = 9.24 | CG iter. 13 -- res = 0.60264E+05, tol = 0.57604E+04, time = 9.70 | CG iter. 14 -- res = 0.39729E+05, tol = 0.57604E+04, time = 9.01 | CG iter. 15 -- res = 0.30073E+05, tol = 0.57604E+04, time = 9.22 | CG iter. 16 -- res = 0.25307E+05, tol = 0.57604E+04, time = 9.38 | CG iter. 17 -- res = 0.22196E+05, tol = 0.57604E+04, time = 9.26 | CG iter. 18 -- res = 0.19114E+05, tol = 0.57604E+04, time = 10.90 | CG iter. 19 -- res = 0.16694E+05, tol = 0.57604E+04, time = 9.60 | CG iter. 20 -- res = 0.15074E+05, tol = 0.57604E+04, time = 9.31 | CG iter. 21 -- res = 0.14445E+05, tol = 0.57604E+04, time = 9.10 | CG iter. 22 -- res = 0.15130E+05, tol = 0.57604E+04, time = 9.41 | CG iter. 23 -- res = 0.15963E+05, tol = 0.57604E+04, time = 9.20 | CG iter. 24 -- res = 0.16047E+05, tol = 0.57604E+04, time = 9.26 | CG iter. 25 -- res = 0.14433E+05, tol = 0.57604E+04, time = 8.91 | CG iter. 26 -- res = 0.11471E+05, tol = 0.57604E+04, time = 9.29 | CG iter. 27 -- res = 0.85620E+04, tol = 0.57604E+04, time = 9.38 | CG iter. 28 -- res = 0.64209E+04, tol = 0.57604E+04, time = 9.26 | CG iter. 29 -- res = 0.51626E+04, tol = 0.57604E+04, time = 10.00 | CG iter. 30 -- res = 0.44047E+04, tol = 0.57604E+04, time = 9.18 | CG iter. 31 -- res = 0.38595E+04, tol = 0.57604E+04, time = 9.51 | CG iter. 32 -- res = 0.33702E+04, tol = 0.57604E+04, time = 9.23 | CG iter. 33 -- res = 0.29139E+04, tol = 0.57604E+04, time = 9.42 | CG iter. 34 -- res = 0.24985E+04, tol = 0.57604E+04, time = 9.18 | CG iter. 35 -- res = 0.21705E+04, tol = 0.57604E+04, time = 9.20 | CG iter. 36 -- res = 0.20276E+04, tol = 0.57604E+04, time = 9.38 | CG iter. 37 -- res = 0.20255E+04, tol = 0.57604E+04, time = 9.66 | CG iter. 38 -- res = 0.19546E+04, tol = 0.57604E+04, time = 9.14 | CG iter. 39 -- res = 0.17614E+04, tol = 0.57604E+04, time = 9.40 | CG iter. 40 -- res = 0.14928E+04, tol = 0.57604E+04, time = 16.20 | CG iter. 41 -- res = 0.12024E+04, tol = 0.57604E+04, time = 10.69 | CG iter. 42 -- res = 0.99284E+03, tol = 0.57604E+04, time = 9.16 | CG iter. 43 -- res = 0.84297E+03, tol = 0.57604E+04, time = 9.29 | CG iter. 44 -- res = 0.77870E+03, tol = 0.57604E+04, time = 9.31 | CG iter. 45 -- res = 0.73897E+03, tol = 0.57604E+04, time = 9.37 | CG iter. 46 -- res = 0.68332E+03, tol = 0.57604E+04, time = 9.33 | CG iter. 47 -- res = 0.61587E+03, tol = 0.57604E+04, time = 9.17 | CG iter. 48 -- res = 0.54734E+03, tol = 0.57604E+04, time = 9.43 | CG iter. 49 -- res = 0.47643E+03, tol = 0.57604E+04, time = 10.93 | CG iter. 50 -- res = 0.43966E+03, tol = 0.57604E+04, time = 9.62 | CG iter. 51 -- res = 0.43392E+03, tol = 0.57604E+04, time = 9.25 | CG iter. 52 -- res = 0.43344E+03, tol = 0.57604E+04, time = 9.19 | CG iter. 53 -- res = 0.41615E+03, tol = 0.57604E+04, time = 9.43 | CG iter. 54 -- res = 0.37159E+03, tol = 0.57604E+04, time = 9.62 | CG iter. 55 -- res = 0.32338E+03, tol = 0.57604E+04, time = 9.31 | CG iter. 56 -- res = 0.28524E+03, tol = 0.57604E+04, time = 9.40 | CG iter. 57 -- res = 0.25556E+03, tol = 0.57604E+04, time = 9.15 | CG iter. 58 -- res = 0.24226E+03, tol = 0.57604E+04, time = 9.06 | CG iter. 59 -- res = 0.22519E+03, tol = 0.57604E+04, time = 9.22 | CG iter. 60 -- res = 0.20965E+03, tol = 0.57604E+04, time = 9.30 | Final CG iter 61 -- res = 0.20965E+03, tol = 0.57604E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.937 ( -229.895 -2229.353 2511.939 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8370887.032 | Old band monopole 8115365.952 | Change to band monopole 255521.080 | Change to component monopole -255519.981 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.494 2.738 | New value 3.209 | Old value 0.494 | Difference 2.715 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.329 ( 6.808 9.770 -9.572 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.694 5.272 | New value 6.854 | Old value 6.694 | Difference 0.160 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.23 | CG iter. 1 -- res = 0.39449E+06, tol = 0.47627E+18, time = 1.53 | CG iter. 2 -- res = 0.21514E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.71896E+00, tol = 0.47627E+18, time = 1.51 | CG iter. 4 -- res = 0.16888E-02, tol = 0.47627E+18, time = 1.50 | Final CG iter 5 -- res = 0.79156E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8370851.027 | (Sampled value in CG: 8349856.656 ) | Chain = 1 -- chisq = 0.81566513E+09 | Chain = 1 -- wall time = 5488.902 sec Available RAM: MemAvailable: 370633084 kB Available Swap: SwapFree: 1118160120 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 164 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443339 | --> Sampling calibration, mode = relcal | relcal = 1.3414034E-02 7.5252127E-04 -1.5973201E-03 -1.2569235E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9841885E-02 0.1141820 9405083.23744835 | BP delta = 9.9841885E-02 0.1178693 9405077.40799812 | BP chisq diff = -5.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632369 | --> Sampling calibration, mode = relcal | relcal = -2.8205418E-03 -7.0388959E-04 1.6775244E-03 1.6139304E-03 -4.0789630E-04 6.4087287E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5954199 15218877.7024727 | BP delta = 0.0000000E+00 -0.5966342 15218881.7517420 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17500858956112 | --> Sampling calibration, mode = relcal | relcal = -7.3225193E-02 -5.7041164E-02 8.9857928E-02 4.0408429E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1228591E-04 1.6925990E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6336E-04 | 2: delta_r/delta_0: 2.3782E-06 | 3: delta_s/delta_0: 1.6692E-07 | 4: delta_r/delta_0: 2.9729E-08 | 5: delta_s/delta_0: 1.3084E-08 | 6: delta_r/delta_0: 2.4059E-09 | 7: delta_s/delta_0: 6.5522E-10 | 8: delta_r/delta_0: 1.3319E-10 | 9: delta_s/delta_0: 5.1460E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.153456314985138E-004 2.755288659129947E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6336E-04 | 2: delta_r/delta_0: 2.3782E-06 | 3: delta_s/delta_0: 1.6691E-07 | 4: delta_r/delta_0: 2.9729E-08 | 5: delta_s/delta_0: 1.3084E-08 | 6: delta_r/delta_0: 2.4058E-09 | 7: delta_s/delta_0: 6.5515E-10 | 8: delta_r/delta_0: 1.3319E-10 | 9: delta_s/delta_0: 5.1461E-11 | Reached bicg-stab tolerance | BP delta = 2.2548640E-02 3.7387423E-02 3754888.02084092 | BP delta = 2.2548640E-02 3.7510555E-02 3753827.07373687 | BP chisq diff = -1060.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02580678 | --> Sampling calibration, mode = relcal | relcal = -0.1065860 -9.5550179E-02 0.1448441 5.7292040E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0604550E-03 1.3093698E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.4191E-05 | 2: delta_r/delta_0: 1.9283E-06 | 3: delta_s/delta_0: 2.2388E-07 | 4: delta_r/delta_0: 5.4547E-08 | 5: delta_s/delta_0: 2.7658E-08 | 6: delta_r/delta_0: 8.3075E-09 | 7: delta_s/delta_0: 7.9671E-09 | 8: delta_r/delta_0: 1.8670E-09 | 9: delta_s/delta_0: 8.5146E-10 | 10: delta_r/delta_0: 6.3000E-10 | 11: delta_s/delta_0: 6.8244E-09 | 12: delta_r/delta_0: 9.4606E-10 | 13: delta_s/delta_0: 1.0588E-10 | 14: delta_r/delta_0: 9.7129E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.035351921237086E-002 2.811356471800253E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.4190E-05 | 2: delta_r/delta_0: 1.9282E-06 | 3: delta_s/delta_0: 2.2385E-07 | 4: delta_r/delta_0: 5.4506E-08 | 5: delta_s/delta_0: 2.7690E-08 | 6: delta_r/delta_0: 8.3054E-09 | 7: delta_s/delta_0: 7.9719E-09 | 8: delta_r/delta_0: 1.8664E-09 | 9: delta_s/delta_0: 8.5106E-10 | 10: delta_r/delta_0: 6.2977E-10 | 11: delta_s/delta_0: 6.9014E-09 | 12: delta_r/delta_0: 9.5075E-10 | 13: delta_s/delta_0: 1.0578E-10 | 14: delta_r/delta_0: 9.7139E-12 | Reached bicg-stab tolerance | BP delta = -0.2647998 -0.2385435 2841709.47644226 | BP delta = -0.2647998 -0.2399821 2841738.72527885 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224385 | --> Sampling calibration, mode = relcal | relcal = 0.2954688 0.2248168 -0.2838284 -0.2364571 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1450816E-04 5.4145986E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5644E-02 | 2: delta_r/delta_0: 1.0795E-03 | 3: delta_s/delta_0: 7.5130E-04 | 4: delta_r/delta_0: 5.1166E-05 | 5: delta_s/delta_0: 3.0709E-06 | 6: delta_r/delta_0: 8.8434E-07 | 7: delta_s/delta_0: 3.7248E-06 | 8: delta_r/delta_0: 5.5193E-07 | 9: delta_s/delta_0: 6.7643E-07 | 10: delta_r/delta_0: 2.0013E-07 | 11: delta_s/delta_0: 5.8650E-09 | 12: delta_r/delta_0: 3.0298E-09 | 13: delta_s/delta_0: 1.1437E-08 | 14: delta_r/delta_0: 5.0279E-09 | 15: delta_s/delta_0: 7.6716E-10 | 16: delta_r/delta_0: 1.0016E-10 | 17: delta_s/delta_0: 5.5810E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.183674928017932E-002 4.021583442204423E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5687E-02 | 2: delta_r/delta_0: 1.0805E-03 | 3: delta_s/delta_0: 7.5203E-04 | 4: delta_r/delta_0: 5.1218E-05 | 5: delta_s/delta_0: 3.0723E-06 | 6: delta_r/delta_0: 8.8468E-07 | 7: delta_s/delta_0: 3.7261E-06 | 8: delta_r/delta_0: 5.5245E-07 | 9: delta_s/delta_0: 6.7670E-07 | 10: delta_r/delta_0: 2.0017E-07 | 11: delta_s/delta_0: 5.8684E-09 | 12: delta_r/delta_0: 3.0301E-09 | 13: delta_s/delta_0: 1.1425E-08 | 14: delta_r/delta_0: 5.0281E-09 | 15: delta_s/delta_0: 7.6835E-10 | 16: delta_r/delta_0: 1.0013E-10 | 17: delta_s/delta_0: 5.5827E-11 | Reached bicg-stab tolerance | BP delta = -0.1531425 -0.1711916 2827732.19709211 | BP delta = -0.1531425 -0.1706582 2827737.67189311 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95913379 | --> Sampling calibration, mode = relcal | relcal = 0.1064685 0.1396061 -0.1102973 -0.1357772 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9355457E-03 1.2804829E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3292E-04 | 2: delta_r/delta_0: 5.9590E-06 | 3: delta_s/delta_0: 6.1045E-06 | 4: delta_r/delta_0: 8.4374E-07 | 5: delta_s/delta_0: 2.0882E-07 | 6: delta_r/delta_0: 1.2239E-07 | 7: delta_s/delta_0: 5.4073E-07 | 8: delta_r/delta_0: 2.6808E-08 | 9: delta_s/delta_0: 4.4266E-08 | 10: delta_r/delta_0: 2.9573E-08 | 11: delta_s/delta_0: 1.4268E-09 | 12: delta_r/delta_0: 9.4540E-10 | 13: delta_s/delta_0: 2.7164E-07 | 14: delta_r/delta_0: 1.5582E-08 | 15: delta_s/delta_0: 8.0118E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.018871723998756E-002 3.697278053866614E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3290E-04 | 2: delta_r/delta_0: 5.9587E-06 | 3: delta_s/delta_0: 6.1047E-06 | 4: delta_r/delta_0: 8.4387E-07 | 5: delta_s/delta_0: 2.0886E-07 | 6: delta_r/delta_0: 1.2242E-07 | 7: delta_s/delta_0: 5.4118E-07 | 8: delta_r/delta_0: 2.6807E-08 | 9: delta_s/delta_0: 4.4185E-08 | 10: delta_r/delta_0: 2.9547E-08 | 11: delta_s/delta_0: 1.4267E-09 | 12: delta_r/delta_0: 9.4555E-10 | 13: delta_s/delta_0: 2.5837E-07 | 14: delta_r/delta_0: 1.4962E-08 | 15: delta_s/delta_0: 8.0168E-11 | Reached bicg-stab tolerance | BP delta = 8.3906069E-02 0.1939180 3003869.00961950 | BP delta = 8.3906069E-02 0.1858524 3003849.81715240 | BP chisq diff = -19.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174990 | New value = -3.182103 | poltype: 2 pol: 1 CPU time specind = 1.2887001E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165998 | New value = -3.116384 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146405 | New value = -3.071851 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091788 | New value = -3.125506 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176914 | New value = -3.162915 | poltype: 2 pol: 2 CPU time specind = 4.6019554E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.49 | CG iter. 1 -- res = 0.13540E+08, tol = 0.82754E+01, time = 4.66 | CG iter. 2 -- res = 0.34448E+06, tol = 0.82754E+01, time = 4.28 | CG iter. 3 -- res = 0.51047E+05, tol = 0.82754E+01, time = 4.48 | CG iter. 4 -- res = 0.25091E+05, tol = 0.82754E+01, time = 4.55 | CG iter. 5 -- res = 0.16433E+05, tol = 0.82754E+01, time = 4.42 | CG iter. 6 -- res = 0.12274E+05, tol = 0.82754E+01, time = 4.18 | CG iter. 7 -- res = 0.11664E+05, tol = 0.82754E+01, time = 4.48 | CG iter. 8 -- res = 0.11328E+05, tol = 0.82754E+01, time = 4.45 | CG iter. 9 -- res = 0.11143E+05, tol = 0.82754E+01, time = 4.32 | CG iter. 10 -- res = 0.11183E+05, tol = 0.82754E+01, time = 4.43 | CG iter. 11 -- res = 0.85641E+04, tol = 0.82754E+01, time = 4.49 | CG iter. 12 -- res = 0.56740E+04, tol = 0.82754E+01, time = 4.22 | CG iter. 13 -- res = 0.36987E+04, tol = 0.82754E+01, time = 4.18 | CG iter. 14 -- res = 0.29152E+04, tol = 0.82754E+01, time = 4.27 | CG iter. 15 -- res = 0.26857E+04, tol = 0.82754E+01, time = 4.37 | CG iter. 16 -- res = 0.22628E+04, tol = 0.82754E+01, time = 4.43 | CG iter. 17 -- res = 0.17808E+04, tol = 0.82754E+01, time = 4.26 | CG iter. 18 -- res = 0.14621E+04, tol = 0.82754E+01, time = 4.35 | CG iter. 19 -- res = 0.12595E+04, tol = 0.82754E+01, time = 4.22 | CG iter. 20 -- res = 0.10150E+04, tol = 0.82754E+01, time = 4.37 | CG iter. 21 -- res = 0.74799E+03, tol = 0.82754E+01, time = 4.32 | CG iter. 22 -- res = 0.56292E+03, tol = 0.82754E+01, time = 10.78 | CG iter. 23 -- res = 0.51733E+03, tol = 0.82754E+01, time = 4.20 | CG iter. 24 -- res = 0.46901E+03, tol = 0.82754E+01, time = 4.32 | CG iter. 25 -- res = 0.38242E+03, tol = 0.82754E+01, time = 4.50 | CG iter. 26 -- res = 0.31263E+03, tol = 0.82754E+01, time = 4.30 | CG iter. 27 -- res = 0.27323E+03, tol = 0.82754E+01, time = 4.53 | CG iter. 28 -- res = 0.25482E+03, tol = 0.82754E+01, time = 4.48 | CG iter. 29 -- res = 0.22926E+03, tol = 0.82754E+01, time = 4.34 | CG iter. 30 -- res = 0.19191E+03, tol = 0.82754E+01, time = 4.27 | CG iter. 31 -- res = 0.17209E+03, tol = 0.82754E+01, time = 4.37 | CG iter. 32 -- res = 0.15944E+03, tol = 0.82754E+01, time = 4.36 | CG iter. 33 -- res = 0.13594E+03, tol = 0.82754E+01, time = 4.39 | CG iter. 34 -- res = 0.10561E+03, tol = 0.82754E+01, time = 4.35 | CG iter. 35 -- res = 0.85775E+02, tol = 0.82754E+01, time = 4.53 | CG iter. 36 -- res = 0.75127E+02, tol = 0.82754E+01, time = 4.22 | CG iter. 37 -- res = 0.64930E+02, tol = 0.82754E+01, time = 4.47 | CG iter. 38 -- res = 0.49518E+02, tol = 0.82754E+01, time = 4.39 | CG iter. 39 -- res = 0.37056E+02, tol = 0.82754E+01, time = 4.38 | CG iter. 40 -- res = 0.29874E+02, tol = 0.82754E+01, time = 4.55 | CG iter. 41 -- res = 0.24355E+02, tol = 0.82754E+01, time = 4.97 | CG iter. 42 -- res = 0.18076E+02, tol = 0.82754E+01, time = 5.46 | CG iter. 43 -- res = 0.13067E+02, tol = 0.82754E+01, time = 5.85 | CG iter. 44 -- res = 0.10116E+02, tol = 0.82754E+01, time = 4.39 | CG iter. 45 -- res = 0.84952E+01, tol = 0.82754E+01, time = 4.30 | CG iter. 46 -- res = 0.68442E+01, tol = 0.82754E+01, time = 4.54 | CG iter. 47 -- res = 0.52929E+01, tol = 0.82754E+01, time = 4.45 | CG iter. 48 -- res = 0.42734E+01, tol = 0.82754E+01, time = 4.44 | CG iter. 49 -- res = 0.36176E+01, tol = 0.82754E+01, time = 4.39 | CG iter. 50 -- res = 0.30384E+01, tol = 0.82754E+01, time = 4.37 | Final CG iter 51 -- res = 0.30384E+01, tol = 0.82754E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8887695.686 | Old band monopole 8370887.032 | Change to band monopole 516808.654 | Change to component monopole -516806.431 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.35 | CG iter. 1 -- res = 0.11002E+05, tol = 0.47627E+18, time = 1.49 | CG iter. 2 -- res = 0.19758E+02, tol = 0.47627E+18, time = 1.57 | CG iter. 3 -- res = 0.60822E+00, tol = 0.47627E+18, time = 1.51 | CG iter. 4 -- res = 0.23320E-03, tol = 0.47627E+18, time = 1.53 | Final CG iter 5 -- res = 0.18111E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8887657.458 | (Sampled value in CG: 8882775.367 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526904 | New value = 1.492824 | poltype: 2 pol: 1 CPU time specind = 9.6778870E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487973 | New value = 1.483768 | poltype: 2 pol: 2 CPU time specind = 2.6340485E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 21.96 | CG iter. 1 -- res = 0.24250E+08, tol = 0.47583E+04, time = 5.12 | CG iter. 2 -- res = 0.53462E+07, tol = 0.47583E+04, time = 5.29 | CG iter. 3 -- res = 0.84304E+06, tol = 0.47583E+04, time = 5.04 | CG iter. 4 -- res = 0.34991E+06, tol = 0.47583E+04, time = 5.10 | CG iter. 5 -- res = 0.15481E+06, tol = 0.47583E+04, time = 5.10 | CG iter. 6 -- res = 0.82716E+05, tol = 0.47583E+04, time = 4.88 | CG iter. 7 -- res = 0.44810E+05, tol = 0.47583E+04, time = 5.16 | CG iter. 8 -- res = 0.21056E+05, tol = 0.47583E+04, time = 5.03 | CG iter. 9 -- res = 0.91164E+04, tol = 0.47583E+04, time = 5.09 | CG iter. 10 -- res = 0.36927E+04, tol = 0.47583E+04, time = 4.92 | CG iter. 11 -- res = 0.16654E+04, tol = 0.47583E+04, time = 5.10 | CG iter. 12 -- res = 0.85618E+03, tol = 0.47583E+04, time = 5.32 | CG iter. 13 -- res = 0.48488E+03, tol = 0.47583E+04, time = 11.25 | CG iter. 14 -- res = 0.27367E+03, tol = 0.47583E+04, time = 6.17 | CG iter. 15 -- res = 0.14310E+03, tol = 0.47583E+04, time = 5.06 | CG iter. 16 -- res = 0.69442E+02, tol = 0.47583E+04, time = 4.98 | CG iter. 17 -- res = 0.32659E+02, tol = 0.47583E+04, time = 5.17 | CG iter. 18 -- res = 0.16157E+02, tol = 0.47583E+04, time = 4.95 | CG iter. 19 -- res = 0.86277E+01, tol = 0.47583E+04, time = 5.03 | CG iter. 20 -- res = 0.48128E+01, tol = 0.47583E+04, time = 5.02 | CG iter. 21 -- res = 0.26331E+01, tol = 0.47583E+04, time = 5.09 | CG iter. 22 -- res = 0.13667E+01, tol = 0.47583E+04, time = 5.10 | CG iter. 23 -- res = 0.67865E+00, tol = 0.47583E+04, time = 5.31 | CG iter. 24 -- res = 0.35548E+00, tol = 0.47583E+04, time = 5.14 | CG iter. 25 -- res = 0.19324E+00, tol = 0.47583E+04, time = 5.29 | CG iter. 26 -- res = 0.10979E+00, tol = 0.47583E+04, time = 5.21 | CG iter. 27 -- res = 0.61279E-01, tol = 0.47583E+04, time = 5.17 | CG iter. 28 -- res = 0.32404E-01, tol = 0.47583E+04, time = 5.07 | CG iter. 29 -- res = 0.16819E-01, tol = 0.47583E+04, time = 5.00 | CG iter. 30 -- res = 0.90284E-02, tol = 0.47583E+04, time = 6.56 | CG iter. 31 -- res = 0.49150E-02, tol = 0.47583E+04, time = 5.51 | CG iter. 32 -- res = 0.28073E-02, tol = 0.47583E+04, time = 5.38 | CG iter. 33 -- res = 0.16565E-02, tol = 0.47583E+04, time = 5.19 | CG iter. 34 -- res = 0.91253E-03, tol = 0.47583E+04, time = 5.28 | CG iter. 35 -- res = 0.46344E-03, tol = 0.47583E+04, time = 5.12 | Final CG iter 36 -- res = 0.46344E-03, tol = 0.47583E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.208 2.710 | New value -0.210 | Old value 3.208 | Difference -3.418 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.60437E+06, tol = 0.47627E+18, time = 1.46 | CG iter. 2 -- res = 0.13445E+02, tol = 0.47627E+18, time = 1.43 | CG iter. 3 -- res = 0.65645E-01, tol = 0.47627E+18, time = 1.45 | CG iter. 4 -- res = 0.10392E-03, tol = 0.47627E+18, time = 1.59 | Final CG iter 5 -- res = 0.32057E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8887657.458 | (Sampled value in CG: 8882438.117 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.409881 | New value = -3.574962 | poltype: 1 pol: 1 CPU time specind = 9.3164921E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.23382E+07, tol = 0.32135E+01, time = 2.04 | CG iter. 2 -- res = 0.75674E+06, tol = 0.32135E+01, time = 2.05 | CG iter. 3 -- res = 0.15183E+06, tol = 0.32135E+01, time = 1.93 | CG iter. 4 -- res = 0.65808E+05, tol = 0.32135E+01, time = 2.04 | CG iter. 5 -- res = 0.37553E+05, tol = 0.32135E+01, time = 1.95 | CG iter. 6 -- res = 0.17669E+05, tol = 0.32135E+01, time = 2.07 | CG iter. 7 -- res = 0.68882E+04, tol = 0.32135E+01, time = 1.97 | CG iter. 8 -- res = 0.33659E+04, tol = 0.32135E+01, time = 1.95 | CG iter. 9 -- res = 0.15038E+04, tol = 0.32135E+01, time = 2.28 | CG iter. 10 -- res = 0.58043E+03, tol = 0.32135E+01, time = 1.85 | CG iter. 11 -- res = 0.24255E+03, tol = 0.32135E+01, time = 2.25 | CG iter. 12 -- res = 0.11772E+03, tol = 0.32135E+01, time = 2.01 | CG iter. 13 -- res = 0.58233E+02, tol = 0.32135E+01, time = 2.05 | CG iter. 14 -- res = 0.31360E+02, tol = 0.32135E+01, time = 2.02 | CG iter. 15 -- res = 0.15077E+02, tol = 0.32135E+01, time = 2.07 | CG iter. 16 -- res = 0.65378E+01, tol = 0.32135E+01, time = 2.00 | CG iter. 17 -- res = 0.26983E+01, tol = 0.32135E+01, time = 2.01 | CG iter. 18 -- res = 0.12065E+01, tol = 0.32135E+01, time = 1.98 | CG iter. 19 -- res = 0.57858E+00, tol = 0.32135E+01, time = 2.09 | CG iter. 20 -- res = 0.30520E+00, tol = 0.32135E+01, time = 1.97 | CG iter. 21 -- res = 0.15784E+00, tol = 0.32135E+01, time = 1.96 | CG iter. 22 -- res = 0.74352E-01, tol = 0.32135E+01, time = 2.03 | CG iter. 23 -- res = 0.32836E-01, tol = 0.32135E+01, time = 2.03 | CG iter. 24 -- res = 0.14884E-01, tol = 0.32135E+01, time = 2.38 | CG iter. 25 -- res = 0.72833E-02, tol = 0.32135E+01, time = 3.31 | CG iter. 26 -- res = 0.37302E-02, tol = 0.32135E+01, time = 2.37 | CG iter. 27 -- res = 0.19982E-02, tol = 0.32135E+01, time = 2.43 | CG iter. 28 -- res = 0.97916E-03, tol = 0.32135E+01, time = 2.14 | CG iter. 29 -- res = 0.45272E-03, tol = 0.32135E+01, time = 2.49 | CG iter. 30 -- res = 0.20686E-03, tol = 0.32135E+01, time = 2.11 | CG iter. 31 -- res = 0.10493E-03, tol = 0.32135E+01, time = 1.94 | CG iter. 32 -- res = 0.52488E-04, tol = 0.32135E+01, time = 2.19 | CG iter. 33 -- res = 0.26359E-04, tol = 0.32135E+01, time = 2.08 | CG iter. 34 -- res = 0.13407E-04, tol = 0.32135E+01, time = 2.07 | CG iter. 35 -- res = 0.64364E-05, tol = 0.32135E+01, time = 2.04 | CG iter. 36 -- res = 0.29936E-05, tol = 0.32135E+01, time = 2.10 | CG iter. 37 -- res = 0.13591E-05, tol = 0.32135E+01, time = 2.05 | CG iter. 38 -- res = 0.68064E-06, tol = 0.32135E+01, time = 2.04 | CG iter. 39 -- res = 0.33817E-06, tol = 0.32135E+01, time = 1.99 | CG iter. 40 -- res = 0.17374E-06, tol = 0.32135E+01, time = 2.10 | CG iter. 41 -- res = 0.83540E-07, tol = 0.32135E+01, time = 2.32 | CG iter. 42 -- res = 0.37360E-07, tol = 0.32135E+01, time = 2.13 | CG iter. 43 -- res = 0.17610E-07, tol = 0.32135E+01, time = 1.94 | CG iter. 44 -- res = 0.82429E-08, tol = 0.32135E+01, time = 1.93 | CG iter. 45 -- res = 0.42231E-08, tol = 0.32135E+01, time = 2.11 | CG iter. 46 -- res = 0.20888E-08, tol = 0.32135E+01, time = 2.05 | CG iter. 47 -- res = 0.10139E-08, tol = 0.32135E+01, time = 1.89 | CG iter. 48 -- res = 0.48369E-09, tol = 0.32135E+01, time = 2.01 | CG iter. 49 -- res = 0.22300E-09, tol = 0.32135E+01, time = 2.06 | CG iter. 50 -- res = 0.10031E-09, tol = 0.32135E+01, time = 1.96 | Final CG iter 51 -- res = 0.10031E-09, tol = 0.32135E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.633 4.981 | New value 0.690 | Old value 7.633 | Difference -6.943 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.47345E+05, tol = 0.47627E+18, time = 1.44 | CG iter. 2 -- res = 0.36283E+02, tol = 0.47627E+18, time = 1.47 | CG iter. 3 -- res = 0.18045E+01, tol = 0.47627E+18, time = 1.54 | CG iter. 4 -- res = 0.19016E-03, tol = 0.47627E+18, time = 1.59 | Final CG iter 5 -- res = 0.40596E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8887657.458 | (Sampled value in CG: 8883821.748 ) | CPU time specind = 934.4041 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.49 | CG iter. 1 -- res = 0.68916E+08, tol = 0.57632E+04, time = 9.24 | CG iter. 2 -- res = 0.58673E+08, tol = 0.57632E+04, time = 9.43 | CG iter. 3 -- res = 0.15320E+08, tol = 0.57632E+04, time = 9.24 | CG iter. 4 -- res = 0.65993E+07, tol = 0.57632E+04, time = 9.19 | CG iter. 5 -- res = 0.39062E+07, tol = 0.57632E+04, time = 9.10 | CG iter. 6 -- res = 0.22575E+07, tol = 0.57632E+04, time = 9.31 | CG iter. 7 -- res = 0.13323E+07, tol = 0.57632E+04, time = 9.08 | CG iter. 8 -- res = 0.89252E+06, tol = 0.57632E+04, time = 9.24 | CG iter. 9 -- res = 0.57929E+06, tol = 0.57632E+04, time = 15.08 | CG iter. 10 -- res = 0.34246E+06, tol = 0.57632E+04, time = 9.26 | CG iter. 11 -- res = 0.18582E+06, tol = 0.57632E+04, time = 9.28 | CG iter. 12 -- res = 0.10050E+06, tol = 0.57632E+04, time = 9.23 | CG iter. 13 -- res = 0.55145E+05, tol = 0.57632E+04, time = 9.35 | CG iter. 14 -- res = 0.33829E+05, tol = 0.57632E+04, time = 9.21 | CG iter. 15 -- res = 0.23282E+05, tol = 0.57632E+04, time = 9.27 | CG iter. 16 -- res = 0.17846E+05, tol = 0.57632E+04, time = 9.01 | CG iter. 17 -- res = 0.14544E+05, tol = 0.57632E+04, time = 9.40 | CG iter. 18 -- res = 0.11907E+05, tol = 0.57632E+04, time = 10.69 | CG iter. 19 -- res = 0.96948E+04, tol = 0.57632E+04, time = 9.99 | CG iter. 20 -- res = 0.83398E+04, tol = 0.57632E+04, time = 9.19 | CG iter. 21 -- res = 0.77545E+04, tol = 0.57632E+04, time = 9.14 | CG iter. 22 -- res = 0.80736E+04, tol = 0.57632E+04, time = 9.42 | CG iter. 23 -- res = 0.89145E+04, tol = 0.57632E+04, time = 9.40 | CG iter. 24 -- res = 0.99080E+04, tol = 0.57632E+04, time = 9.31 | CG iter. 25 -- res = 0.10017E+05, tol = 0.57632E+04, time = 9.17 | CG iter. 26 -- res = 0.88742E+04, tol = 0.57632E+04, time = 9.39 | CG iter. 27 -- res = 0.70641E+04, tol = 0.57632E+04, time = 9.15 | CG iter. 28 -- res = 0.54300E+04, tol = 0.57632E+04, time = 9.46 | CG iter. 29 -- res = 0.43155E+04, tol = 0.57632E+04, time = 9.25 | CG iter. 30 -- res = 0.35399E+04, tol = 0.57632E+04, time = 10.18 | CG iter. 31 -- res = 0.29559E+04, tol = 0.57632E+04, time = 9.13 | CG iter. 32 -- res = 0.25149E+04, tol = 0.57632E+04, time = 9.33 | CG iter. 33 -- res = 0.20950E+04, tol = 0.57632E+04, time = 9.25 | CG iter. 34 -- res = 0.16699E+04, tol = 0.57632E+04, time = 9.29 | CG iter. 35 -- res = 0.13813E+04, tol = 0.57632E+04, time = 9.41 | CG iter. 36 -- res = 0.12582E+04, tol = 0.57632E+04, time = 8.89 | CG iter. 37 -- res = 0.12154E+04, tol = 0.57632E+04, time = 9.33 | CG iter. 38 -- res = 0.12010E+04, tol = 0.57632E+04, time = 9.03 | CG iter. 39 -- res = 0.11540E+04, tol = 0.57632E+04, time = 9.21 | CG iter. 40 -- res = 0.10450E+04, tol = 0.57632E+04, time = 15.84 | CG iter. 41 -- res = 0.88191E+03, tol = 0.57632E+04, time = 9.22 | CG iter. 42 -- res = 0.73578E+03, tol = 0.57632E+04, time = 9.32 | CG iter. 43 -- res = 0.61735E+03, tol = 0.57632E+04, time = 9.31 | CG iter. 44 -- res = 0.53771E+03, tol = 0.57632E+04, time = 9.26 | CG iter. 45 -- res = 0.46717E+03, tol = 0.57632E+04, time = 9.23 | CG iter. 46 -- res = 0.40091E+03, tol = 0.57632E+04, time = 9.14 | CG iter. 47 -- res = 0.33851E+03, tol = 0.57632E+04, time = 9.29 | CG iter. 48 -- res = 0.27912E+03, tol = 0.57632E+04, time = 9.18 | CG iter. 49 -- res = 0.22920E+03, tol = 0.57632E+04, time = 9.22 | CG iter. 50 -- res = 0.19921E+03, tol = 0.57632E+04, time = 10.89 | CG iter. 51 -- res = 0.18552E+03, tol = 0.57632E+04, time = 9.63 | CG iter. 52 -- res = 0.18043E+03, tol = 0.57632E+04, time = 9.15 | CG iter. 53 -- res = 0.17807E+03, tol = 0.57632E+04, time = 9.39 | CG iter. 54 -- res = 0.16931E+03, tol = 0.57632E+04, time = 9.19 | CG iter. 55 -- res = 0.15555E+03, tol = 0.57632E+04, time = 9.40 | CG iter. 56 -- res = 0.14291E+03, tol = 0.57632E+04, time = 9.02 | CG iter. 57 -- res = 0.13143E+03, tol = 0.57632E+04, time = 9.33 | CG iter. 58 -- res = 0.11924E+03, tol = 0.57632E+04, time = 9.18 | CG iter. 59 -- res = 0.10783E+03, tol = 0.57632E+04, time = 9.26 | CG iter. 60 -- res = 0.10058E+03, tol = 0.57632E+04, time = 9.32 | Final CG iter 61 -- res = 0.10058E+03, tol = 0.57632E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.858 ( -230.193 -2231.827 2514.381 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8720788.698 | Old band monopole 8887695.686 | Change to band monopole -166906.988 | Change to component monopole 166906.270 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.179 2.758 | New value 0.775 | Old value -0.179 | Difference 0.953 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.693 ( 8.113 15.204 -15.071 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.643 3.913 | New value 1.364 | Old value 11.643 | Difference -10.278 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.48 | CG iter. 1 -- res = 0.60587E+05, tol = 0.47627E+18, time = 1.50 | CG iter. 2 -- res = 0.25617E+02, tol = 0.47627E+18, time = 1.53 | CG iter. 3 -- res = 0.98001E+00, tol = 0.47627E+18, time = 1.55 | CG iter. 4 -- res = 0.40307E-02, tol = 0.47627E+18, time = 1.46 | Final CG iter 5 -- res = 0.17169E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8720751.188 | (Sampled value in CG: 8693057.794 ) | Chain = 1 -- chisq = 0.81554225E+09 | Chain = 1 -- wall time = 5990.309 sec Available RAM: MemAvailable: 370334480 kB Available Swap: SwapFree: 1118480376 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 165 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06438573 | --> Sampling calibration, mode = relcal | relcal = 1.3419148E-02 7.5432827E-04 -1.5984811E-03 -1.2574995E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9841885E-02 0.1178693 97036797.3618284 | BP delta = 0.1118725 0.1298999 97036808.8682265 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632792 | --> Sampling calibration, mode = relcal | relcal = -2.8214855E-03 -7.0488150E-04 1.6801301E-03 1.6149064E-03 -4.0785095E-04 6.3918141E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5954199 15215029.1639745 | BP delta = 0.0000000E+00 -0.5887795 15215027.6707785 | BP chisq diff = -1.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18453549840356 | --> Sampling calibration, mode = relcal | relcal = -7.7195063E-02 -5.9888512E-02 9.4099812E-02 4.2983763E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6816753E-04 7.3739691E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9725E-05 | 2: delta_r/delta_0: 2.4280E-06 | 3: delta_s/delta_0: 2.3414E-07 | 4: delta_r/delta_0: 4.4188E-08 | 5: delta_s/delta_0: 1.3617E-08 | 6: delta_r/delta_0: 4.7810E-09 | 7: delta_s/delta_0: 1.3058E-09 | 8: delta_r/delta_0: 3.2238E-10 | 9: delta_s/delta_0: 1.5668E-10 | 10: delta_r/delta_0: 7.5449E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.375851454187795E-003 2.732620579322988E-005 | BP delta = 2.2548640E-02 3.7510555E-02 50486788.8023347 | BP delta = 2.1124113E-02 3.6086027E-02 50486793.4787591 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02616935 | --> Sampling calibration, mode = relcal | relcal = -0.1067439 -9.5526829E-02 0.1449321 5.7338689E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0673069E-03 1.4596537E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.9653E-05 | 2: delta_r/delta_0: 2.0390E-06 | 3: delta_s/delta_0: 2.2515E-07 | 4: delta_r/delta_0: 5.5061E-08 | 5: delta_s/delta_0: 3.2325E-08 | 6: delta_r/delta_0: 8.8436E-09 | 7: delta_s/delta_0: 9.0219E-09 | 8: delta_r/delta_0: 1.9677E-09 | 9: delta_s/delta_0: 8.9124E-10 | 10: delta_r/delta_0: 6.5858E-10 | 11: delta_s/delta_0: 3.3373E-09 | 12: delta_r/delta_0: 7.0198E-10 | 13: delta_s/delta_0: 1.1648E-10 | 14: delta_r/delta_0: 8.1517E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.064949581269697E-002 2.810361079354025E-005 | BP delta = -0.2647998 -0.2385435 57393508.6136826 | BP delta = -0.2673835 -0.2411273 57393508.4508697 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81267345 | --> Sampling calibration, mode = relcal | relcal = 0.2956027 0.2248879 -0.2839202 -0.2365704 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.3959015E-04 4.7921729E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1427E-03 | 2: delta_r/delta_0: 2.6179E-05 | 3: delta_s/delta_0: 8.6978E-06 | 4: delta_r/delta_0: 9.8225E-07 | 5: delta_s/delta_0: 3.9358E-07 | 6: delta_r/delta_0: 5.3418E-08 | 7: delta_s/delta_0: 4.4403E-08 | 8: delta_r/delta_0: 2.8104E-08 | 9: delta_s/delta_0: 8.2554E-08 | 10: delta_r/delta_0: 2.0829E-09 | 11: delta_s/delta_0: 9.6468E-10 | 12: delta_r/delta_0: 5.2572E-10 | 13: delta_s/delta_0: 3.1152E-10 | 14: delta_r/delta_0: 2.1728E-10 | 15: delta_s/delta_0: 2.4373E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.511213641330932E-002 4.019363473136630E-005 | BP delta = -0.1531425 -0.1711916 72488822.3642837 | BP delta = -0.1521011 -0.1701503 72488822.3992485 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95976910 | --> Sampling calibration, mode = relcal | relcal = 0.1066691 0.1395441 -0.1104238 -0.1357894 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8123550E-03 1.2065659E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9600E-04 | 2: delta_r/delta_0: 1.2157E-05 | 3: delta_s/delta_0: 2.8437E-05 | 4: delta_r/delta_0: 1.8292E-06 | 5: delta_s/delta_0: 2.7659E-07 | 6: delta_r/delta_0: 1.3482E-07 | 7: delta_s/delta_0: 3.7952E-07 | 8: delta_r/delta_0: 3.5286E-08 | 9: delta_s/delta_0: 1.7959E-08 | 10: delta_r/delta_0: 2.3754E-09 | 11: delta_s/delta_0: 1.9516E-09 | 12: delta_r/delta_0: 8.8223E-10 | 13: delta_s/delta_0: 3.0653E-09 | 14: delta_r/delta_0: 3.8303E-10 | 15: delta_s/delta_0: 5.8613E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.234729644082063E-002 3.694832333348106E-005 | BP delta = 8.3906069E-02 0.1858524 72781245.9814951 | BP delta = 3.8709298E-02 0.1406557 72781246.4017109 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182103 | New value = -3.131639 | poltype: 2 pol: 1 CPU time specind = 1.3422966E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116384 | New value = -3.048561 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.071851 | New value = -3.208254 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125506 | New value = -3.202950 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162915 | New value = -3.120435 | poltype: 2 pol: 2 CPU time specind = 3.0910969E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.29 | CG iter. 1 -- res = 0.13648E+08, tol = 0.80296E+01, time = 5.06 | CG iter. 2 -- res = 0.36371E+06, tol = 0.80296E+01, time = 4.29 | CG iter. 3 -- res = 0.83871E+05, tol = 0.80296E+01, time = 4.32 | CG iter. 4 -- res = 0.87425E+05, tol = 0.80296E+01, time = 4.44 | CG iter. 5 -- res = 0.98197E+05, tol = 0.80296E+01, time = 4.32 | CG iter. 6 -- res = 0.10313E+06, tol = 0.80296E+01, time = 4.35 | CG iter. 7 -- res = 0.10018E+06, tol = 0.80296E+01, time = 4.48 | CG iter. 8 -- res = 0.72907E+05, tol = 0.80296E+01, time = 4.49 | CG iter. 9 -- res = 0.54265E+05, tol = 0.80296E+01, time = 4.37 | CG iter. 10 -- res = 0.42213E+05, tol = 0.80296E+01, time = 4.32 | CG iter. 11 -- res = 0.28212E+05, tol = 0.80296E+01, time = 4.53 | CG iter. 12 -- res = 0.20410E+05, tol = 0.80296E+01, time = 4.45 | CG iter. 13 -- res = 0.17650E+05, tol = 0.80296E+01, time = 4.41 | CG iter. 14 -- res = 0.15686E+05, tol = 0.80296E+01, time = 4.48 | CG iter. 15 -- res = 0.13065E+05, tol = 0.80296E+01, time = 4.46 | CG iter. 16 -- res = 0.90392E+04, tol = 0.80296E+01, time = 4.38 | CG iter. 17 -- res = 0.65255E+04, tol = 0.80296E+01, time = 4.43 | CG iter. 18 -- res = 0.55950E+04, tol = 0.80296E+01, time = 4.39 | CG iter. 19 -- res = 0.49288E+04, tol = 0.80296E+01, time = 4.38 | CG iter. 20 -- res = 0.36922E+04, tol = 0.80296E+01, time = 4.37 | CG iter. 21 -- res = 0.28727E+04, tol = 0.80296E+01, time = 4.43 | CG iter. 22 -- res = 0.24538E+04, tol = 0.80296E+01, time = 4.46 | CG iter. 23 -- res = 0.21497E+04, tol = 0.80296E+01, time = 6.10 | CG iter. 24 -- res = 0.17568E+04, tol = 0.80296E+01, time = 9.15 | CG iter. 25 -- res = 0.13595E+04, tol = 0.80296E+01, time = 4.45 | CG iter. 26 -- res = 0.11325E+04, tol = 0.80296E+01, time = 4.37 | CG iter. 27 -- res = 0.10467E+04, tol = 0.80296E+01, time = 4.42 | CG iter. 28 -- res = 0.92451E+03, tol = 0.80296E+01, time = 4.38 | CG iter. 29 -- res = 0.71525E+03, tol = 0.80296E+01, time = 4.40 | CG iter. 30 -- res = 0.57080E+03, tol = 0.80296E+01, time = 4.56 | CG iter. 31 -- res = 0.49355E+03, tol = 0.80296E+01, time = 4.37 | CG iter. 32 -- res = 0.41615E+03, tol = 0.80296E+01, time = 4.54 | CG iter. 33 -- res = 0.32114E+03, tol = 0.80296E+01, time = 4.23 | CG iter. 34 -- res = 0.23829E+03, tol = 0.80296E+01, time = 4.70 | CG iter. 35 -- res = 0.19979E+03, tol = 0.80296E+01, time = 4.38 | CG iter. 36 -- res = 0.16374E+03, tol = 0.80296E+01, time = 4.46 | CG iter. 37 -- res = 0.12609E+03, tol = 0.80296E+01, time = 4.54 | CG iter. 38 -- res = 0.88986E+02, tol = 0.80296E+01, time = 4.37 | CG iter. 39 -- res = 0.66855E+02, tol = 0.80296E+01, time = 4.52 | CG iter. 40 -- res = 0.55874E+02, tol = 0.80296E+01, time = 4.53 | CG iter. 41 -- res = 0.43167E+02, tol = 0.80296E+01, time = 4.54 | CG iter. 42 -- res = 0.31594E+02, tol = 0.80296E+01, time = 4.54 | CG iter. 43 -- res = 0.23996E+02, tol = 0.80296E+01, time = 5.84 | CG iter. 44 -- res = 0.19967E+02, tol = 0.80296E+01, time = 4.90 | CG iter. 45 -- res = 0.15931E+02, tol = 0.80296E+01, time = 4.54 | CG iter. 46 -- res = 0.12256E+02, tol = 0.80296E+01, time = 4.34 | CG iter. 47 -- res = 0.89208E+01, tol = 0.80296E+01, time = 4.45 | CG iter. 48 -- res = 0.70340E+01, tol = 0.80296E+01, time = 4.37 | CG iter. 49 -- res = 0.55651E+01, tol = 0.80296E+01, time = 4.11 | CG iter. 50 -- res = 0.41388E+01, tol = 0.80296E+01, time = 4.59 | Final CG iter 51 -- res = 0.41388E+01, tol = 0.80296E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8958318.143 | Old band monopole 8720788.698 | Change to band monopole 237529.445 | Change to component monopole -237528.423 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.92 | CG iter. 1 -- res = 0.10409E+06, tol = 0.47627E+18, time = 1.43 | CG iter. 2 -- res = 0.53610E+02, tol = 0.47627E+18, time = 1.42 | CG iter. 3 -- res = 0.18718E+01, tol = 0.47627E+18, time = 1.60 | CG iter. 4 -- res = 0.81443E-02, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.86013E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8958279.611 | (Sampled value in CG: 9006539.676 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492824 | New value = 1.513178 | poltype: 2 pol: 1 CPU time specind = 4.6150684E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.483768 | New value = 1.484337 | poltype: 2 pol: 2 CPU time specind = 9.9189281E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.16 | CG iter. 1 -- res = 0.24097E+08, tol = 0.47607E+04, time = 4.95 | CG iter. 2 -- res = 0.53421E+07, tol = 0.47607E+04, time = 5.22 | CG iter. 3 -- res = 0.84243E+06, tol = 0.47607E+04, time = 5.20 | CG iter. 4 -- res = 0.35282E+06, tol = 0.47607E+04, time = 4.94 | CG iter. 5 -- res = 0.15104E+06, tol = 0.47607E+04, time = 4.95 | CG iter. 6 -- res = 0.78514E+05, tol = 0.47607E+04, time = 5.06 | CG iter. 7 -- res = 0.43696E+05, tol = 0.47607E+04, time = 5.20 | CG iter. 8 -- res = 0.21207E+05, tol = 0.47607E+04, time = 4.91 | CG iter. 9 -- res = 0.92290E+04, tol = 0.47607E+04, time = 5.17 | CG iter. 10 -- res = 0.37621E+04, tol = 0.47607E+04, time = 4.97 | CG iter. 11 -- res = 0.16920E+04, tol = 0.47607E+04, time = 5.27 | CG iter. 12 -- res = 0.86518E+03, tol = 0.47607E+04, time = 5.20 | CG iter. 13 -- res = 0.49831E+03, tol = 0.47607E+04, time = 5.24 | CG iter. 14 -- res = 0.28297E+03, tol = 0.47607E+04, time = 8.91 | CG iter. 15 -- res = 0.14332E+03, tol = 0.47607E+04, time = 7.61 | CG iter. 16 -- res = 0.68220E+02, tol = 0.47607E+04, time = 5.09 | CG iter. 17 -- res = 0.32310E+02, tol = 0.47607E+04, time = 5.29 | CG iter. 18 -- res = 0.16240E+02, tol = 0.47607E+04, time = 5.05 | CG iter. 19 -- res = 0.88707E+01, tol = 0.47607E+04, time = 5.16 | CG iter. 20 -- res = 0.49804E+01, tol = 0.47607E+04, time = 5.10 | CG iter. 21 -- res = 0.27696E+01, tol = 0.47607E+04, time = 4.99 | CG iter. 22 -- res = 0.14523E+01, tol = 0.47607E+04, time = 5.05 | CG iter. 23 -- res = 0.71817E+00, tol = 0.47607E+04, time = 5.12 | CG iter. 24 -- res = 0.36337E+00, tol = 0.47607E+04, time = 5.08 | CG iter. 25 -- res = 0.19567E+00, tol = 0.47607E+04, time = 5.15 | CG iter. 26 -- res = 0.11059E+00, tol = 0.47607E+04, time = 5.32 | CG iter. 27 -- res = 0.62831E-01, tol = 0.47607E+04, time = 5.05 | CG iter. 28 -- res = 0.33809E-01, tol = 0.47607E+04, time = 5.22 | CG iter. 29 -- res = 0.17456E-01, tol = 0.47607E+04, time = 5.15 | CG iter. 30 -- res = 0.92329E-02, tol = 0.47607E+04, time = 4.94 | CG iter. 31 -- res = 0.50650E-02, tol = 0.47607E+04, time = 6.94 | CG iter. 32 -- res = 0.29159E-02, tol = 0.47607E+04, time = 5.45 | CG iter. 33 -- res = 0.16361E-02, tol = 0.47607E+04, time = 5.48 | CG iter. 34 -- res = 0.86690E-03, tol = 0.47607E+04, time = 5.05 | CG iter. 35 -- res = 0.44326E-03, tol = 0.47607E+04, time = 5.19 | Final CG iter 36 -- res = 0.44326E-03, tol = 0.47607E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.742 2.737 | New value -3.231 | Old value 0.742 | Difference -3.973 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.16 | CG iter. 1 -- res = 0.82060E+06, tol = 0.47627E+18, time = 1.43 | CG iter. 2 -- res = 0.43230E+02, tol = 0.47627E+18, time = 1.51 | CG iter. 3 -- res = 0.13354E+01, tol = 0.47627E+18, time = 1.60 | CG iter. 4 -- res = 0.81983E-03, tol = 0.47627E+18, time = 1.47 | Final CG iter 5 -- res = 0.91436E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8958279.611 | (Sampled value in CG: 9005674.817 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.574962 | New value = -3.527814 | poltype: 1 pol: 1 CPU time specind = 4.2989254E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.28897E+07, tol = 0.26138E+01, time = 2.03 | CG iter. 2 -- res = 0.10085E+07, tol = 0.26138E+01, time = 1.99 | CG iter. 3 -- res = 0.22798E+06, tol = 0.26138E+01, time = 2.10 | CG iter. 4 -- res = 0.10847E+06, tol = 0.26138E+01, time = 1.92 | CG iter. 5 -- res = 0.63074E+05, tol = 0.26138E+01, time = 2.03 | CG iter. 6 -- res = 0.28212E+05, tol = 0.26138E+01, time = 1.95 | CG iter. 7 -- res = 0.10177E+05, tol = 0.26138E+01, time = 2.07 | CG iter. 8 -- res = 0.48843E+04, tol = 0.26138E+01, time = 2.13 | CG iter. 9 -- res = 0.22072E+04, tol = 0.26138E+01, time = 2.03 | CG iter. 10 -- res = 0.88945E+03, tol = 0.26138E+01, time = 2.08 | CG iter. 11 -- res = 0.34817E+03, tol = 0.26138E+01, time = 2.11 | CG iter. 12 -- res = 0.16097E+03, tol = 0.26138E+01, time = 1.93 | CG iter. 13 -- res = 0.83569E+02, tol = 0.26138E+01, time = 2.05 | CG iter. 14 -- res = 0.45317E+02, tol = 0.26138E+01, time = 2.03 | CG iter. 15 -- res = 0.20669E+02, tol = 0.26138E+01, time = 2.05 | CG iter. 16 -- res = 0.87113E+01, tol = 0.26138E+01, time = 2.21 | CG iter. 17 -- res = 0.36119E+01, tol = 0.26138E+01, time = 2.26 | CG iter. 18 -- res = 0.16695E+01, tol = 0.26138E+01, time = 1.99 | CG iter. 19 -- res = 0.80877E+00, tol = 0.26138E+01, time = 2.17 | CG iter. 20 -- res = 0.42785E+00, tol = 0.26138E+01, time = 1.84 | CG iter. 21 -- res = 0.21173E+00, tol = 0.26138E+01, time = 2.00 | CG iter. 22 -- res = 0.10298E+00, tol = 0.26138E+01, time = 1.97 | CG iter. 23 -- res = 0.47240E-01, tol = 0.26138E+01, time = 2.00 | CG iter. 24 -- res = 0.20803E-01, tol = 0.26138E+01, time = 2.01 | CG iter. 25 -- res = 0.99989E-02, tol = 0.26138E+01, time = 2.02 | CG iter. 26 -- res = 0.48760E-02, tol = 0.26138E+01, time = 2.06 | CG iter. 27 -- res = 0.26124E-02, tol = 0.26138E+01, time = 2.23 | CG iter. 28 -- res = 0.13225E-02, tol = 0.26138E+01, time = 2.50 | CG iter. 29 -- res = 0.61175E-03, tol = 0.26138E+01, time = 3.23 | CG iter. 30 -- res = 0.28427E-03, tol = 0.26138E+01, time = 2.40 | CG iter. 31 -- res = 0.13296E-03, tol = 0.26138E+01, time = 2.43 | CG iter. 32 -- res = 0.65628E-04, tol = 0.26138E+01, time = 2.06 | CG iter. 33 -- res = 0.33180E-04, tol = 0.26138E+01, time = 2.47 | CG iter. 34 -- res = 0.16779E-04, tol = 0.26138E+01, time = 1.95 | CG iter. 35 -- res = 0.83853E-05, tol = 0.26138E+01, time = 2.11 | CG iter. 36 -- res = 0.39734E-05, tol = 0.26138E+01, time = 1.94 | CG iter. 37 -- res = 0.18540E-05, tol = 0.26138E+01, time = 2.17 | CG iter. 38 -- res = 0.89135E-06, tol = 0.26138E+01, time = 2.02 | CG iter. 39 -- res = 0.42839E-06, tol = 0.26138E+01, time = 2.03 | CG iter. 40 -- res = 0.21320E-06, tol = 0.26138E+01, time = 2.18 | CG iter. 41 -- res = 0.10693E-06, tol = 0.26138E+01, time = 1.96 | CG iter. 42 -- res = 0.51933E-07, tol = 0.26138E+01, time = 1.98 | CG iter. 43 -- res = 0.23619E-07, tol = 0.26138E+01, time = 2.13 | CG iter. 44 -- res = 0.10801E-07, tol = 0.26138E+01, time = 2.08 | CG iter. 45 -- res = 0.51338E-08, tol = 0.26138E+01, time = 2.00 | CG iter. 46 -- res = 0.25174E-08, tol = 0.26138E+01, time = 1.90 | CG iter. 47 -- res = 0.13164E-08, tol = 0.26138E+01, time = 2.12 | CG iter. 48 -- res = 0.63380E-09, tol = 0.26138E+01, time = 2.30 | CG iter. 49 -- res = 0.29363E-09, tol = 0.26138E+01, time = 2.02 | CG iter. 50 -- res = 0.13195E-09, tol = 0.26138E+01, time = 1.98 | Final CG iter 51 -- res = 0.13195E-09, tol = 0.26138E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.481 3.753 | New value 2.874 | Old value 3.481 | Difference -0.607 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.13 | CG iter. 1 -- res = 0.24702E+04, tol = 0.47627E+18, time = 1.43 | CG iter. 2 -- res = 0.12473E+02, tol = 0.47627E+18, time = 1.50 | CG iter. 3 -- res = 0.46558E+00, tol = 0.47627E+18, time = 1.51 | Final CG iter 4 -- res = 0.24794E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8958279.611 | (Sampled value in CG: 8998588.061 ) | CPU time specind = 933.1431 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.68679E+08, tol = 0.57589E+04, time = 8.85 | CG iter. 2 -- res = 0.58935E+08, tol = 0.57589E+04, time = 9.56 | CG iter. 3 -- res = 0.15644E+08, tol = 0.57589E+04, time = 8.91 | CG iter. 4 -- res = 0.67634E+07, tol = 0.57589E+04, time = 9.32 | CG iter. 5 -- res = 0.40159E+07, tol = 0.57589E+04, time = 9.37 | CG iter. 6 -- res = 0.22698E+07, tol = 0.57589E+04, time = 9.32 | CG iter. 7 -- res = 0.13336E+07, tol = 0.57589E+04, time = 9.32 | CG iter. 8 -- res = 0.89050E+06, tol = 0.57589E+04, time = 9.03 | CG iter. 9 -- res = 0.58723E+06, tol = 0.57589E+04, time = 9.56 | CG iter. 10 -- res = 0.35809E+06, tol = 0.57589E+04, time = 15.66 | CG iter. 11 -- res = 0.20065E+06, tol = 0.57589E+04, time = 9.09 | CG iter. 12 -- res = 0.11587E+06, tol = 0.57589E+04, time = 9.35 | CG iter. 13 -- res = 0.71785E+05, tol = 0.57589E+04, time = 9.38 | CG iter. 14 -- res = 0.50810E+05, tol = 0.57589E+04, time = 9.23 | CG iter. 15 -- res = 0.42944E+05, tol = 0.57589E+04, time = 9.20 | CG iter. 16 -- res = 0.41065E+05, tol = 0.57589E+04, time = 9.18 | CG iter. 17 -- res = 0.40813E+05, tol = 0.57589E+04, time = 9.41 | CG iter. 18 -- res = 0.39479E+05, tol = 0.57589E+04, time = 9.21 | CG iter. 19 -- res = 0.36472E+05, tol = 0.57589E+04, time = 10.63 | CG iter. 20 -- res = 0.34069E+05, tol = 0.57589E+04, time = 9.77 | CG iter. 21 -- res = 0.33708E+05, tol = 0.57589E+04, time = 9.33 | CG iter. 22 -- res = 0.34040E+05, tol = 0.57589E+04, time = 9.22 | CG iter. 23 -- res = 0.33792E+05, tol = 0.57589E+04, time = 9.27 | CG iter. 24 -- res = 0.31486E+05, tol = 0.57589E+04, time = 8.96 | CG iter. 25 -- res = 0.25927E+05, tol = 0.57589E+04, time = 9.24 | CG iter. 26 -- res = 0.19393E+05, tol = 0.57589E+04, time = 9.10 | CG iter. 27 -- res = 0.14008E+05, tol = 0.57589E+04, time = 9.30 | CG iter. 28 -- res = 0.10278E+05, tol = 0.57589E+04, time = 9.35 | CG iter. 29 -- res = 0.83723E+04, tol = 0.57589E+04, time = 9.26 | CG iter. 30 -- res = 0.73903E+04, tol = 0.57589E+04, time = 9.86 | CG iter. 31 -- res = 0.66649E+04, tol = 0.57589E+04, time = 9.32 | CG iter. 32 -- res = 0.60990E+04, tol = 0.57589E+04, time = 9.02 | CG iter. 33 -- res = 0.54912E+04, tol = 0.57589E+04, time = 9.33 | CG iter. 34 -- res = 0.46786E+04, tol = 0.57589E+04, time = 9.17 | CG iter. 35 -- res = 0.40763E+04, tol = 0.57589E+04, time = 9.19 | CG iter. 36 -- res = 0.38347E+04, tol = 0.57589E+04, time = 9.44 | CG iter. 37 -- res = 0.37565E+04, tol = 0.57589E+04, time = 9.02 | CG iter. 38 -- res = 0.35619E+04, tol = 0.57589E+04, time = 9.36 | CG iter. 39 -- res = 0.31600E+04, tol = 0.57589E+04, time = 9.10 | CG iter. 40 -- res = 0.25582E+04, tol = 0.57589E+04, time = 9.38 | CG iter. 41 -- res = 0.19900E+04, tol = 0.57589E+04, time = 15.99 | CG iter. 42 -- res = 0.15867E+04, tol = 0.57589E+04, time = 9.33 | CG iter. 43 -- res = 0.13323E+04, tol = 0.57589E+04, time = 9.40 | CG iter. 44 -- res = 0.11786E+04, tol = 0.57589E+04, time = 9.27 | CG iter. 45 -- res = 0.10661E+04, tol = 0.57589E+04, time = 9.15 | CG iter. 46 -- res = 0.96655E+03, tol = 0.57589E+04, time = 9.19 | CG iter. 47 -- res = 0.86269E+03, tol = 0.57589E+04, time = 9.00 | CG iter. 48 -- res = 0.73952E+03, tol = 0.57589E+04, time = 9.47 | CG iter. 49 -- res = 0.63526E+03, tol = 0.57589E+04, time = 8.84 | CG iter. 50 -- res = 0.57540E+03, tol = 0.57589E+04, time = 10.41 | CG iter. 51 -- res = 0.54246E+03, tol = 0.57589E+04, time = 10.42 | CG iter. 52 -- res = 0.52527E+03, tol = 0.57589E+04, time = 9.41 | CG iter. 53 -- res = 0.50303E+03, tol = 0.57589E+04, time = 9.20 | CG iter. 54 -- res = 0.44951E+03, tol = 0.57589E+04, time = 9.25 | CG iter. 55 -- res = 0.38100E+03, tol = 0.57589E+04, time = 9.43 | CG iter. 56 -- res = 0.31973E+03, tol = 0.57589E+04, time = 9.22 | CG iter. 57 -- res = 0.27701E+03, tol = 0.57589E+04, time = 8.86 | CG iter. 58 -- res = 0.25299E+03, tol = 0.57589E+04, time = 9.13 | CG iter. 59 -- res = 0.23843E+03, tol = 0.57589E+04, time = 9.19 | CG iter. 60 -- res = 0.22448E+03, tol = 0.57589E+04, time = 9.26 | Final CG iter 61 -- res = 0.22448E+03, tol = 0.57589E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.857 ( -229.975 -2227.922 2510.149 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8988469.764 | Old band monopole 8958318.143 | Change to band monopole 30151.621 | Change to component monopole -30151.492 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.249 2.732 | New value -4.734 | Old value -3.249 | Difference -1.485 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.227 ( 6.613 7.167 -6.604 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.342 5.918 | New value -6.729 | Old value 1.342 | Difference -8.070 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.15 | CG iter. 1 -- res = 0.13138E+06, tol = 0.47627E+18, time = 1.35 | CG iter. 2 -- res = 0.20858E+02, tol = 0.47627E+18, time = 1.45 | CG iter. 3 -- res = 0.69859E+00, tol = 0.47627E+18, time = 1.47 | CG iter. 4 -- res = 0.14587E-02, tol = 0.47627E+18, time = 1.52 | Final CG iter 5 -- res = 0.18947E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8988431.103 | (Sampled value in CG: 8967587.505 ) | Chain = 1 -- chisq = 0.81572367E+09 | Chain = 1 -- wall time = 5391.989 sec Available RAM: MemAvailable: 370211020 kB Available Swap: SwapFree: 1118936568 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 166 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444067 | --> Sampling calibration, mode = relcal | relcal = 1.3418406E-02 7.4286124E-04 -1.5825797E-03 -1.2578688E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9841885E-02 0.1178693 9407731.64230265 | BP delta = 9.9841885E-02 0.1141561 9407744.34865696 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632452 | --> Sampling calibration, mode = relcal | relcal = -2.8209430E-03 -7.0438400E-04 1.6789594E-03 1.6147797E-03 -4.0805273E-04 6.3964067E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5887795 15215764.3333144 | BP delta = 0.0000000E+00 -0.5884572 15215761.6831045 | BP chisq diff = -2.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03104329 | --> Sampling calibration, mode = relcal | relcal = 3.7089474E-02 1.3727260E-02 5.7557104E-03 -7.1657160E-03 8.2533509E-03 2.3951512E-03 -7.6011876E-03 -7.1845599E-03 -1.5308142E-02 -1.4806178E-02 -3.0539981E-03 -1.2101165E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.226077 132208337.406835 | BP delta = 0.0000000E+00 -1.213768 132208334.601647 | BP chisq diff = -2.8, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18140015624599 | --> Sampling calibration, mode = relcal | relcal = -7.4364580E-02 -5.8133807E-02 9.1244616E-02 4.1253772E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7666821E-04 3.7858293E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2658E-05 | 2: delta_r/delta_0: 1.9571E-06 | 3: delta_s/delta_0: 2.1826E-07 | 4: delta_r/delta_0: 1.4605E-08 | 5: delta_s/delta_0: 5.1781E-09 | 6: delta_r/delta_0: 1.1245E-09 | 7: delta_s/delta_0: 1.6282E-09 | 8: delta_r/delta_0: 8.7312E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.130862850609033E-004 2.740249452939637E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.2658E-05 | 2: delta_r/delta_0: 1.9571E-06 | 3: delta_s/delta_0: 2.1826E-07 | 4: delta_r/delta_0: 1.4605E-08 | 5: delta_s/delta_0: 5.1781E-09 | 6: delta_r/delta_0: 1.1245E-09 | 7: delta_s/delta_0: 1.6282E-09 | 8: delta_r/delta_0: 8.7312E-11 | Reached bicg-stab tolerance | BP delta = 2.2548640E-02 3.7510555E-02 3664481.65389602 | BP delta = 2.2548640E-02 3.7495129E-02 3664411.01406980 | BP chisq diff = -70.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02569650 | --> Sampling calibration, mode = relcal | relcal = -0.1066262 -9.5557854E-02 0.1449065 5.7277553E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8982665E-03 1.4414241E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2179E-05 | 2: delta_r/delta_0: 1.3736E-06 | 3: delta_s/delta_0: 2.7316E-07 | 4: delta_r/delta_0: 6.2817E-08 | 5: delta_s/delta_0: 1.7750E-08 | 6: delta_r/delta_0: 8.0639E-09 | 7: delta_s/delta_0: 1.3323E-07 | 8: delta_r/delta_0: 1.6921E-08 | 9: delta_s/delta_0: 9.0569E-10 | 10: delta_r/delta_0: 6.8075E-10 | 11: delta_s/delta_0: 3.1416E-09 | 12: delta_r/delta_0: 1.0313E-10 | 13: delta_s/delta_0: 9.7867E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.019295051424658E-002 2.811655260424839E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.2178E-05 | 2: delta_r/delta_0: 1.3735E-06 | 3: delta_s/delta_0: 2.7309E-07 | 4: delta_r/delta_0: 6.2793E-08 | 5: delta_s/delta_0: 1.7746E-08 | 6: delta_r/delta_0: 8.0658E-09 | 7: delta_s/delta_0: 1.3317E-07 | 8: delta_r/delta_0: 1.6932E-08 | 9: delta_s/delta_0: 9.0603E-10 | 10: delta_r/delta_0: 6.8096E-10 | 11: delta_s/delta_0: 3.1399E-09 | 12: delta_r/delta_0: 1.0319E-10 | 13: delta_s/delta_0: 9.7916E-11 | Reached bicg-stab tolerance | BP delta = -0.2673835 -0.2411273 2841589.19148509 | BP delta = -0.2673835 -0.2417139 2841584.49538511 | BP chisq diff = -4.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215646 | --> Sampling calibration, mode = relcal | relcal = 0.2954503 0.2248679 -0.2837836 -0.2365346 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2518519E-04 5.0993147E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3180E-03 | 2: delta_r/delta_0: 3.1584E-05 | 3: delta_s/delta_0: 1.6898E-05 | 4: delta_r/delta_0: 1.4102E-06 | 5: delta_s/delta_0: 7.1425E-07 | 6: delta_r/delta_0: 2.4469E-07 | 7: delta_s/delta_0: 5.7147E-07 | 8: delta_r/delta_0: 4.3521E-08 | 9: delta_s/delta_0: 1.0033E-07 | 10: delta_r/delta_0: 6.4875E-08 | 11: delta_s/delta_0: 2.3481E-09 | 12: delta_r/delta_0: 1.2551E-09 | 13: delta_s/delta_0: 1.7359E-08 | 14: delta_r/delta_0: 2.2748E-09 | 15: delta_s/delta_0: 9.1035E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.579106265973196E-002 4.022086151473687E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3194E-03 | 2: delta_r/delta_0: 3.1616E-05 | 3: delta_s/delta_0: 1.6915E-05 | 4: delta_r/delta_0: 1.4113E-06 | 5: delta_s/delta_0: 7.1441E-07 | 6: delta_r/delta_0: 2.4462E-07 | 7: delta_s/delta_0: 5.7086E-07 | 8: delta_r/delta_0: 4.3532E-08 | 9: delta_s/delta_0: 1.0054E-07 | 10: delta_r/delta_0: 6.4960E-08 | 11: delta_s/delta_0: 2.3525E-09 | 12: delta_r/delta_0: 1.2554E-09 | 13: delta_s/delta_0: 1.7447E-08 | 14: delta_r/delta_0: 2.2797E-09 | 15: delta_s/delta_0: 9.1011E-11 | Reached bicg-stab tolerance | BP delta = -0.1521011 -0.1701503 2827318.62894530 | BP delta = -0.1521011 -0.1654905 2827394.62838123 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95898235 | --> Sampling calibration, mode = relcal | relcal = 0.1065098 0.1395262 -0.1102985 -0.1357375 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0062465E-02 1.3291282E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6597E-04 | 2: delta_r/delta_0: 4.4777E-06 | 3: delta_s/delta_0: 8.0610E-06 | 4: delta_r/delta_0: 1.1332E-06 | 5: delta_s/delta_0: 1.7237E-07 | 6: delta_r/delta_0: 1.1140E-07 | 7: delta_s/delta_0: 7.2421E-07 | 8: delta_r/delta_0: 2.4177E-08 | 9: delta_s/delta_0: 1.6801E-07 | 10: delta_r/delta_0: 5.9940E-08 | 11: delta_s/delta_0: 1.2039E-09 | 12: delta_r/delta_0: 8.9052E-10 | 13: delta_s/delta_0: 4.2730E-10 | 14: delta_r/delta_0: 2.6064E-10 | 15: delta_s/delta_0: 7.3679E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.927786008346285E-002 3.697906258292938E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6597E-04 | 2: delta_r/delta_0: 4.4777E-06 | 3: delta_s/delta_0: 8.0609E-06 | 4: delta_r/delta_0: 1.1332E-06 | 5: delta_s/delta_0: 1.7237E-07 | 6: delta_r/delta_0: 1.1140E-07 | 7: delta_s/delta_0: 7.2418E-07 | 8: delta_r/delta_0: 2.4178E-08 | 9: delta_s/delta_0: 1.6810E-07 | 10: delta_r/delta_0: 5.9963E-08 | 11: delta_s/delta_0: 1.2040E-09 | 12: delta_r/delta_0: 8.9057E-10 | 13: delta_s/delta_0: 4.2724E-10 | 14: delta_r/delta_0: 2.6068E-10 | 15: delta_s/delta_0: 7.3679E-11 | Reached bicg-stab tolerance | BP delta = 3.8709298E-02 0.1406557 3004036.97585781 | BP delta = 3.8709298E-02 0.1426007 3004031.98720339 | BP chisq diff = -5.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52180555 | --> Sampling calibration, mode = relcal | relcal = -5.1137723E-02 -3.7885995E-03 2.7283985E-02 2.7642338E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9597419E-05 1.7594160E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9170E-05 | 2: delta_r/delta_0: 4.5065E-06 | 3: delta_s/delta_0: 5.7228E-07 | 4: delta_r/delta_0: 1.4641E-07 | 5: delta_s/delta_0: 3.9721E-07 | 6: delta_r/delta_0: 4.2606E-08 | 7: delta_s/delta_0: 2.3019E-08 | 8: delta_r/delta_0: 7.4256E-09 | 9: delta_s/delta_0: 2.5755E-08 | 10: delta_r/delta_0: 4.1189E-09 | 11: delta_s/delta_0: 4.3989E-09 | 12: delta_r/delta_0: 1.9853E-10 | 13: delta_s/delta_0: 7.7153E-09 | 14: delta_r/delta_0: 2.1275E-09 | 15: delta_s/delta_0: 1.2437E-10 | 16: delta_r/delta_0: 3.9706E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.182983713862046E-002 5.480902495715296E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9170E-05 | 2: delta_r/delta_0: 4.5065E-06 | 3: delta_s/delta_0: 5.7228E-07 | 4: delta_r/delta_0: 1.4642E-07 | 5: delta_s/delta_0: 3.9718E-07 | 6: delta_r/delta_0: 4.2603E-08 | 7: delta_s/delta_0: 2.3019E-08 | 8: delta_r/delta_0: 7.4256E-09 | 9: delta_s/delta_0: 2.5754E-08 | 10: delta_r/delta_0: 4.1188E-09 | 11: delta_s/delta_0: 4.3900E-09 | 12: delta_r/delta_0: 1.9826E-10 | 13: delta_s/delta_0: 7.8425E-09 | 14: delta_r/delta_0: 2.1516E-09 | 15: delta_s/delta_0: 1.2408E-10 | 16: delta_r/delta_0: 3.9514E-11 | Reached bicg-stab tolerance | BP delta = 4.9067613E-02 0.1314017 2435279.45461179 | BP delta = 4.9067613E-02 0.1465982 2435279.18629029 | BP chisq diff = -0.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42179640 | --> Sampling calibration, mode = relcal | relcal = 4.5658331E-02 3.9636225E-02 -2.8303400E-02 -5.6991152E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1621934E-03 4.9556303E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.7088E-05 | 2: delta_r/delta_0: 3.1188E-06 | 3: delta_s/delta_0: 1.6419E-06 | 4: delta_r/delta_0: 1.9983E-07 | 5: delta_s/delta_0: 7.2037E-08 | 6: delta_r/delta_0: 3.4869E-08 | 7: delta_s/delta_0: 3.7373E-07 | 8: delta_r/delta_0: 9.2016E-08 | 9: delta_s/delta_0: 2.6761E-09 | 10: delta_r/delta_0: 1.8777E-09 | 11: delta_s/delta_0: 2.1585E-09 | 12: delta_r/delta_0: 1.3403E-09 | 13: delta_s/delta_0: 4.2982E-10 | 14: delta_r/delta_0: 6.4973E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.451016350424710E-002 4.993128226236453E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.7088E-05 | 2: delta_r/delta_0: 3.1188E-06 | 3: delta_s/delta_0: 1.6418E-06 | 4: delta_r/delta_0: 1.9983E-07 | 5: delta_s/delta_0: 7.2037E-08 | 6: delta_r/delta_0: 3.4869E-08 | 7: delta_s/delta_0: 3.7373E-07 | 8: delta_r/delta_0: 9.2019E-08 | 9: delta_s/delta_0: 2.6761E-09 | 10: delta_r/delta_0: 1.8776E-09 | 11: delta_s/delta_0: 2.1585E-09 | 12: delta_r/delta_0: 1.3403E-09 | 13: delta_s/delta_0: 4.2982E-10 | 14: delta_r/delta_0: 6.4956E-11 | Reached bicg-stab tolerance | BP delta = -7.1958251E-02 -0.1714770 2322224.97007398 | BP delta = -7.1958251E-02 -0.1608609 2322221.36429743 | BP chisq diff = -3.6, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28193065 | --> Sampling calibration, mode = relcal | relcal = 2.4219090E-02 4.5167018E-02 -2.3406375E-02 -4.5979731E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3765796E-02 1.9203157E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0646E-04 | 2: delta_r/delta_0: 8.4673E-06 | 3: delta_s/delta_0: 1.3699E-06 | 4: delta_r/delta_0: 2.7244E-07 | 5: delta_s/delta_0: 7.1354E-08 | 6: delta_r/delta_0: 1.8926E-08 | 7: delta_s/delta_0: 8.6120E-09 | 8: delta_r/delta_0: 5.4453E-09 | 9: delta_s/delta_0: 3.3752E-06 | 10: delta_r/delta_0: 1.1626E-08 | 11: delta_s/delta_0: 3.2561E-08 | 12: delta_r/delta_0: 1.6113E-08 | 13: delta_s/delta_0: 1.1739E-10 | 14: delta_r/delta_0: 8.1182E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.792125250896391E-003 7.834860124988791E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0646E-04 | 2: delta_r/delta_0: 8.4673E-06 | 3: delta_s/delta_0: 1.3699E-06 | 4: delta_r/delta_0: 2.7244E-07 | 5: delta_s/delta_0: 7.1354E-08 | 6: delta_r/delta_0: 1.8926E-08 | 7: delta_s/delta_0: 8.6120E-09 | 8: delta_r/delta_0: 5.4454E-09 | 9: delta_s/delta_0: 3.3751E-06 | 10: delta_r/delta_0: 1.1626E-08 | 11: delta_s/delta_0: 3.2560E-08 | 12: delta_r/delta_0: 1.6113E-08 | 13: delta_s/delta_0: 1.1739E-10 | 14: delta_r/delta_0: 8.1182E-11 | Reached bicg-stab tolerance | BP delta = -0.1675795 -0.2490750 2490916.58188207 | BP delta = -0.1675795 -0.2509637 2490916.53803765 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29421442 | --> Sampling calibration, mode = relcal | relcal = 5.9921312E-04 1.0213762E-02 -3.8452346E-03 -6.9677397E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6272549E-02 1.6884821E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3084E-04 | 2: delta_r/delta_0: 1.1190E-05 | 3: delta_s/delta_0: 1.8055E-06 | 4: delta_r/delta_0: 2.7679E-07 | 5: delta_s/delta_0: 1.1196E-07 | 6: delta_r/delta_0: 2.4622E-08 | 7: delta_s/delta_0: 1.1773E-08 | 8: delta_r/delta_0: 8.2039E-09 | 9: delta_s/delta_0: 8.1025E-09 | 10: delta_r/delta_0: 5.4040E-09 | 11: delta_s/delta_0: 1.4446E-07 | 12: delta_r/delta_0: 2.0556E-09 | 13: delta_s/delta_0: 2.0559E-09 | 14: delta_r/delta_0: 9.9679E-10 | 15: delta_s/delta_0: 1.2703E-10 | 16: delta_r/delta_0: 1.1153E-10 | 17: delta_s/delta_0: 1.2906E-10 | 18: delta_r/delta_0: 9.1573E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.083366620593462E-002 8.298609061556257E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3084E-04 | 2: delta_r/delta_0: 1.1190E-05 | 3: delta_s/delta_0: 1.8055E-06 | 4: delta_r/delta_0: 2.7680E-07 | 5: delta_s/delta_0: 1.1196E-07 | 6: delta_r/delta_0: 2.4622E-08 | 7: delta_s/delta_0: 1.1773E-08 | 8: delta_r/delta_0: 8.2039E-09 | 9: delta_s/delta_0: 8.1025E-09 | 10: delta_r/delta_0: 5.4040E-09 | 11: delta_s/delta_0: 1.4445E-07 | 12: delta_r/delta_0: 2.0550E-09 | 13: delta_s/delta_0: 2.0555E-09 | 14: delta_r/delta_0: 9.9648E-10 | 15: delta_s/delta_0: 1.2703E-10 | 16: delta_r/delta_0: 1.1152E-10 | 17: delta_s/delta_0: 1.2906E-10 | 18: delta_r/delta_0: 9.1572E-11 | Reached bicg-stab tolerance | BP delta = -0.8697290 -0.8403252 2738490.51219614 | BP delta = -0.8697290 -0.8407067 2738489.67263006 | BP chisq diff = -0.8, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26531685 | --> Sampling calibration, mode = relcal | relcal = -5.6363042E-03 1.4953912E-02 -2.3312531E-03 -6.9863549E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4079593E-03 4.1373246E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4056E-04 | 2: delta_r/delta_0: 1.1960E-05 | 3: delta_s/delta_0: 2.1141E-06 | 4: delta_r/delta_0: 2.7764E-07 | 5: delta_s/delta_0: 1.2868E-07 | 6: delta_r/delta_0: 2.3614E-08 | 7: delta_s/delta_0: 9.5063E-09 | 8: delta_r/delta_0: 6.2473E-09 | 9: delta_s/delta_0: 7.2322E-09 | 10: delta_r/delta_0: 4.8400E-09 | 11: delta_s/delta_0: 5.3035E-08 | 12: delta_r/delta_0: 3.8218E-10 | 13: delta_s/delta_0: 3.7299E-09 | 14: delta_r/delta_0: 7.9729E-10 | 15: delta_s/delta_0: 6.7783E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.106588869364468E-003 9.144626269070540E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4056E-04 | 2: delta_r/delta_0: 1.1960E-05 | 3: delta_s/delta_0: 2.1141E-06 | 4: delta_r/delta_0: 2.7765E-07 | 5: delta_s/delta_0: 1.2868E-07 | 6: delta_r/delta_0: 2.3615E-08 | 7: delta_s/delta_0: 9.5064E-09 | 8: delta_r/delta_0: 6.2474E-09 | 9: delta_s/delta_0: 7.2323E-09 | 10: delta_r/delta_0: 4.8400E-09 | 11: delta_s/delta_0: 5.3030E-08 | 12: delta_r/delta_0: 3.8221E-10 | 13: delta_s/delta_0: 3.7299E-09 | 14: delta_r/delta_0: 7.9729E-10 | 15: delta_s/delta_0: 6.7784E-11 | Reached bicg-stab tolerance | BP delta = 0.3984477 0.4310168 2516455.77407092 | BP delta = 0.3984477 0.4224840 2516455.77990204 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25688504 | --> Sampling calibration, mode = relcal | relcal = -3.1799462E-02 -2.5963532E-02 3.6969196E-02 2.0793797E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0058557E-02 1.9659592E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4520E-04 | 2: delta_r/delta_0: 1.2172E-05 | 3: delta_s/delta_0: 1.8813E-06 | 4: delta_r/delta_0: 3.8927E-07 | 5: delta_s/delta_0: 1.3831E-07 | 6: delta_r/delta_0: 2.9597E-08 | 7: delta_s/delta_0: 1.4882E-08 | 8: delta_r/delta_0: 7.3653E-09 | 9: delta_s/delta_0: 3.7013E-08 | 10: delta_r/delta_0: 4.7431E-09 | 11: delta_s/delta_0: 2.1978E-08 | 12: delta_r/delta_0: 1.3374E-08 | 13: delta_s/delta_0: 3.5242E-10 | 14: delta_r/delta_0: 2.8156E-10 | 15: delta_s/delta_0: 1.6292E-10 | 16: delta_r/delta_0: 1.4258E-10 | 17: delta_s/delta_0: 1.2922E-10 | 18: delta_r/delta_0: 1.0899E-10 | 19: delta_s/delta_0: 9.7940E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.075587525769899E-002 8.663943387933149E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4520E-04 | 2: delta_r/delta_0: 1.2172E-05 | 3: delta_s/delta_0: 1.8813E-06 | 4: delta_r/delta_0: 3.8927E-07 | 5: delta_s/delta_0: 1.3831E-07 | 6: delta_r/delta_0: 2.9597E-08 | 7: delta_s/delta_0: 1.4882E-08 | 8: delta_r/delta_0: 7.3653E-09 | 9: delta_s/delta_0: 3.7017E-08 | 10: delta_r/delta_0: 4.7431E-09 | 11: delta_s/delta_0: 2.1967E-08 | 12: delta_r/delta_0: 1.3367E-08 | 13: delta_s/delta_0: 3.5241E-10 | 14: delta_r/delta_0: 2.8155E-10 | 15: delta_s/delta_0: 1.6292E-10 | 16: delta_r/delta_0: 1.4257E-10 | 17: delta_s/delta_0: 1.2921E-10 | 18: delta_r/delta_0: 1.0898E-10 | 19: delta_s/delta_0: 9.7936E-11 | Reached bicg-stab tolerance | BP delta = -0.6572278 -0.7567308 2705680.91031487 | BP delta = -0.6572278 -0.7753389 2705690.66447960 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131639 | New value = -3.140360 | poltype: 2 pol: 1 CPU time specind = 3.8115978E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.048561 | New value = -3.155386 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208254 | New value = -3.074942 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.202950 | New value = -3.145384 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120435 | New value = -3.067161 | poltype: 2 pol: 2 CPU time specind = 2.1741152E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.13548E+08, tol = 0.78972E+01, time = 4.19 | CG iter. 2 -- res = 0.33869E+06, tol = 0.78972E+01, time = 4.37 | CG iter. 3 -- res = 0.48125E+05, tol = 0.78972E+01, time = 4.23 | CG iter. 4 -- res = 0.21006E+05, tol = 0.78972E+01, time = 4.89 | CG iter. 5 -- res = 0.10438E+05, tol = 0.78972E+01, time = 5.55 | CG iter. 6 -- res = 0.59360E+04, tol = 0.78972E+01, time = 4.57 | CG iter. 7 -- res = 0.43402E+04, tol = 0.78972E+01, time = 4.60 | CG iter. 8 -- res = 0.34977E+04, tol = 0.78972E+01, time = 4.41 | CG iter. 9 -- res = 0.30512E+04, tol = 0.78972E+01, time = 4.42 | CG iter. 10 -- res = 0.33506E+04, tol = 0.78972E+01, time = 4.28 | CG iter. 11 -- res = 0.31983E+04, tol = 0.78972E+01, time = 4.23 | CG iter. 12 -- res = 0.23585E+04, tol = 0.78972E+01, time = 4.40 | CG iter. 13 -- res = 0.16370E+04, tol = 0.78972E+01, time = 4.30 | CG iter. 14 -- res = 0.11592E+04, tol = 0.78972E+01, time = 4.31 | CG iter. 15 -- res = 0.91342E+03, tol = 0.78972E+01, time = 4.25 | CG iter. 16 -- res = 0.73368E+03, tol = 0.78972E+01, time = 4.31 | CG iter. 17 -- res = 0.55011E+03, tol = 0.78972E+01, time = 4.27 | CG iter. 18 -- res = 0.41866E+03, tol = 0.78972E+01, time = 4.31 | CG iter. 19 -- res = 0.34914E+03, tol = 0.78972E+01, time = 4.36 | CG iter. 20 -- res = 0.29522E+03, tol = 0.78972E+01, time = 4.29 | CG iter. 21 -- res = 0.21436E+03, tol = 0.78972E+01, time = 4.43 | CG iter. 22 -- res = 0.15785E+03, tol = 0.78972E+01, time = 4.34 | CG iter. 23 -- res = 0.12764E+03, tol = 0.78972E+01, time = 4.34 | CG iter. 24 -- res = 0.11549E+03, tol = 0.78972E+01, time = 4.27 | CG iter. 25 -- res = 0.92341E+02, tol = 0.78972E+01, time = 4.45 | CG iter. 26 -- res = 0.69647E+02, tol = 0.78972E+01, time = 4.39 | CG iter. 27 -- res = 0.54913E+02, tol = 0.78972E+01, time = 4.10 | CG iter. 28 -- res = 0.48739E+02, tol = 0.78972E+01, time = 4.27 | CG iter. 29 -- res = 0.41085E+02, tol = 0.78972E+01, time = 5.14 | CG iter. 30 -- res = 0.33407E+02, tol = 0.78972E+01, time = 4.31 | CG iter. 31 -- res = 0.28152E+02, tol = 0.78972E+01, time = 4.18 | CG iter. 32 -- res = 0.25504E+02, tol = 0.78972E+01, time = 4.50 | CG iter. 33 -- res = 0.23031E+02, tol = 0.78972E+01, time = 4.41 | CG iter. 34 -- res = 0.18360E+02, tol = 0.78972E+01, time = 4.44 | CG iter. 35 -- res = 0.14495E+02, tol = 0.78972E+01, time = 4.14 | CG iter. 36 -- res = 0.12036E+02, tol = 0.78972E+01, time = 4.37 | CG iter. 37 -- res = 0.10553E+02, tol = 0.78972E+01, time = 4.40 | CG iter. 38 -- res = 0.84167E+01, tol = 0.78972E+01, time = 4.39 | CG iter. 39 -- res = 0.63245E+01, tol = 0.78972E+01, time = 4.21 | CG iter. 40 -- res = 0.50637E+01, tol = 0.78972E+01, time = 4.37 | CG iter. 41 -- res = 0.41508E+01, tol = 0.78972E+01, time = 4.39 | CG iter. 42 -- res = 0.33569E+01, tol = 0.78972E+01, time = 4.36 | CG iter. 43 -- res = 0.24965E+01, tol = 0.78972E+01, time = 4.33 | CG iter. 44 -- res = 0.19260E+01, tol = 0.78972E+01, time = 4.20 | CG iter. 45 -- res = 0.15131E+01, tol = 0.78972E+01, time = 4.38 | CG iter. 46 -- res = 0.12933E+01, tol = 0.78972E+01, time = 4.32 | CG iter. 47 -- res = 0.10429E+01, tol = 0.78972E+01, time = 4.32 | CG iter. 48 -- res = 0.76143E+00, tol = 0.78972E+01, time = 4.35 | CG iter. 49 -- res = 0.60571E+00, tol = 0.78972E+01, time = 4.33 | CG iter. 50 -- res = 0.50604E+00, tol = 0.78972E+01, time = 4.44 | Final CG iter 51 -- res = 0.50604E+00, tol = 0.78972E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8492054.178 | Old band monopole 8988469.764 | Change to band monopole -496415.586 | Change to component monopole 496413.451 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.41 | CG iter. 1 -- res = 0.31812E+03, tol = 0.47627E+18, time = 1.50 | CG iter. 2 -- res = 0.79869E+01, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.74293E-01, tol = 0.47627E+18, time = 1.50 | Final CG iter 4 -- res = 0.21469E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8492017.652 | (Sampled value in CG: 8480842.355 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.513178 | New value = 1.526219 | poltype: 2 pol: 1 CPU time specind = 2.6115894E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484337 | New value = 1.488770 | poltype: 2 pol: 2 CPU time specind = 2.2212982E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.23 | CG iter. 1 -- res = 0.24052E+08, tol = 0.47561E+04, time = 5.28 | CG iter. 2 -- res = 0.52258E+07, tol = 0.47561E+04, time = 5.26 | CG iter. 3 -- res = 0.82078E+06, tol = 0.47561E+04, time = 5.25 | CG iter. 4 -- res = 0.34552E+06, tol = 0.47561E+04, time = 4.87 | CG iter. 5 -- res = 0.15251E+06, tol = 0.47561E+04, time = 4.82 | CG iter. 6 -- res = 0.82327E+05, tol = 0.47561E+04, time = 5.21 | CG iter. 7 -- res = 0.44316E+05, tol = 0.47561E+04, time = 5.10 | CG iter. 8 -- res = 0.20912E+05, tol = 0.47561E+04, time = 5.00 | CG iter. 9 -- res = 0.90197E+04, tol = 0.47561E+04, time = 5.02 | CG iter. 10 -- res = 0.36810E+04, tol = 0.47561E+04, time = 4.93 | CG iter. 11 -- res = 0.16456E+04, tol = 0.47561E+04, time = 4.88 | CG iter. 12 -- res = 0.85374E+03, tol = 0.47561E+04, time = 5.01 | CG iter. 13 -- res = 0.48948E+03, tol = 0.47561E+04, time = 5.06 | CG iter. 14 -- res = 0.27838E+03, tol = 0.47561E+04, time = 5.10 | CG iter. 15 -- res = 0.14313E+03, tol = 0.47561E+04, time = 4.89 | CG iter. 16 -- res = 0.67862E+02, tol = 0.47561E+04, time = 5.33 | CG iter. 17 -- res = 0.32100E+02, tol = 0.47561E+04, time = 5.17 | CG iter. 18 -- res = 0.16067E+02, tol = 0.47561E+04, time = 4.84 | CG iter. 19 -- res = 0.86917E+01, tol = 0.47561E+04, time = 5.12 | CG iter. 20 -- res = 0.49350E+01, tol = 0.47561E+04, time = 5.11 | CG iter. 21 -- res = 0.27277E+01, tol = 0.47561E+04, time = 4.89 | CG iter. 22 -- res = 0.13823E+01, tol = 0.47561E+04, time = 4.88 | CG iter. 23 -- res = 0.67822E+00, tol = 0.47561E+04, time = 4.87 | CG iter. 24 -- res = 0.34027E+00, tol = 0.47561E+04, time = 5.04 | CG iter. 25 -- res = 0.18967E+00, tol = 0.47561E+04, time = 5.08 | CG iter. 26 -- res = 0.10786E+00, tol = 0.47561E+04, time = 4.85 | CG iter. 27 -- res = 0.60288E-01, tol = 0.47561E+04, time = 5.09 | CG iter. 28 -- res = 0.31725E-01, tol = 0.47561E+04, time = 5.03 | CG iter. 29 -- res = 0.16463E-01, tol = 0.47561E+04, time = 4.94 | CG iter. 30 -- res = 0.85475E-02, tol = 0.47561E+04, time = 4.75 | CG iter. 31 -- res = 0.47970E-02, tol = 0.47561E+04, time = 5.21 | CG iter. 32 -- res = 0.27727E-02, tol = 0.47561E+04, time = 5.14 | CG iter. 33 -- res = 0.15413E-02, tol = 0.47561E+04, time = 5.03 | CG iter. 34 -- res = 0.83080E-03, tol = 0.47561E+04, time = 4.94 | CG iter. 35 -- res = 0.42897E-03, tol = 0.47561E+04, time = 5.06 | Final CG iter 36 -- res = 0.42897E-03, tol = 0.47561E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.730 2.726 | New value -1.406 | Old value -4.730 | Difference 3.323 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.56858E+06, tol = 0.47627E+18, time = 1.46 | CG iter. 2 -- res = 0.20167E+02, tol = 0.47627E+18, time = 1.59 | CG iter. 3 -- res = 0.10663E+00, tol = 0.47627E+18, time = 1.47 | Final CG iter 4 -- res = 0.12534E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8492017.652 | (Sampled value in CG: 8481716.545 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.527814 | New value = -3.636084 | poltype: 1 pol: 1 CPU time specind = 1.6785145E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.13 | CG iter. 1 -- res = 0.21485E+07, tol = 0.24479E+01, time = 1.89 | CG iter. 2 -- res = 0.69564E+06, tol = 0.24479E+01, time = 2.15 | CG iter. 3 -- res = 0.12716E+06, tol = 0.24479E+01, time = 2.07 | CG iter. 4 -- res = 0.51471E+05, tol = 0.24479E+01, time = 2.05 | CG iter. 5 -- res = 0.30710E+05, tol = 0.24479E+01, time = 1.94 | CG iter. 6 -- res = 0.15615E+05, tol = 0.24479E+01, time = 2.07 | CG iter. 7 -- res = 0.61620E+04, tol = 0.24479E+01, time = 2.03 | CG iter. 8 -- res = 0.27648E+04, tol = 0.24479E+01, time = 2.67 | CG iter. 9 -- res = 0.12279E+04, tol = 0.24479E+01, time = 2.02 | CG iter. 10 -- res = 0.48376E+03, tol = 0.24479E+01, time = 2.05 | CG iter. 11 -- res = 0.20665E+03, tol = 0.24479E+01, time = 1.97 | CG iter. 12 -- res = 0.10207E+03, tol = 0.24479E+01, time = 1.92 | CG iter. 13 -- res = 0.50378E+02, tol = 0.24479E+01, time = 2.09 | CG iter. 14 -- res = 0.24946E+02, tol = 0.24479E+01, time = 2.08 | CG iter. 15 -- res = 0.11358E+02, tol = 0.24479E+01, time = 1.96 | CG iter. 16 -- res = 0.47546E+01, tol = 0.24479E+01, time = 2.01 | CG iter. 17 -- res = 0.20305E+01, tol = 0.24479E+01, time = 1.98 | CG iter. 18 -- res = 0.94008E+00, tol = 0.24479E+01, time = 1.85 | CG iter. 19 -- res = 0.44792E+00, tol = 0.24479E+01, time = 2.12 | CG iter. 20 -- res = 0.23147E+00, tol = 0.24479E+01, time = 2.10 | CG iter. 21 -- res = 0.11445E+00, tol = 0.24479E+01, time = 2.01 | CG iter. 22 -- res = 0.51195E-01, tol = 0.24479E+01, time = 1.98 | CG iter. 23 -- res = 0.22434E-01, tol = 0.24479E+01, time = 1.93 | CG iter. 24 -- res = 0.10596E-01, tol = 0.24479E+01, time = 1.94 | CG iter. 25 -- res = 0.55107E-02, tol = 0.24479E+01, time = 2.00 | CG iter. 26 -- res = 0.30346E-02, tol = 0.24479E+01, time = 2.00 | CG iter. 27 -- res = 0.15042E-02, tol = 0.24479E+01, time = 2.13 | CG iter. 28 -- res = 0.71532E-03, tol = 0.24479E+01, time = 1.84 | CG iter. 29 -- res = 0.31877E-03, tol = 0.24479E+01, time = 2.09 | CG iter. 30 -- res = 0.14931E-03, tol = 0.24479E+01, time = 2.03 | CG iter. 31 -- res = 0.75094E-04, tol = 0.24479E+01, time = 1.91 | CG iter. 32 -- res = 0.39985E-04, tol = 0.24479E+01, time = 2.01 | CG iter. 33 -- res = 0.19619E-04, tol = 0.24479E+01, time = 2.03 | CG iter. 34 -- res = 0.91203E-05, tol = 0.24479E+01, time = 1.97 | CG iter. 35 -- res = 0.41536E-05, tol = 0.24479E+01, time = 1.99 | CG iter. 36 -- res = 0.20214E-05, tol = 0.24479E+01, time = 2.11 | CG iter. 37 -- res = 0.96727E-06, tol = 0.24479E+01, time = 2.11 | CG iter. 38 -- res = 0.50618E-06, tol = 0.24479E+01, time = 1.95 | CG iter. 39 -- res = 0.24862E-06, tol = 0.24479E+01, time = 2.01 | CG iter. 40 -- res = 0.11617E-06, tol = 0.24479E+01, time = 1.96 | CG iter. 41 -- res = 0.55110E-07, tol = 0.24479E+01, time = 2.01 | CG iter. 42 -- res = 0.25970E-07, tol = 0.24479E+01, time = 1.99 | CG iter. 43 -- res = 0.12528E-07, tol = 0.24479E+01, time = 1.99 | CG iter. 44 -- res = 0.60326E-08, tol = 0.24479E+01, time = 1.97 | CG iter. 45 -- res = 0.29748E-08, tol = 0.24479E+01, time = 2.13 | CG iter. 46 -- res = 0.14076E-08, tol = 0.24479E+01, time = 1.98 | CG iter. 47 -- res = 0.65879E-09, tol = 0.24479E+01, time = 1.83 | CG iter. 48 -- res = 0.32162E-09, tol = 0.24479E+01, time = 1.89 | CG iter. 49 -- res = 0.14908E-09, tol = 0.24479E+01, time = 2.01 | CG iter. 50 -- res = 0.71785E-10, tol = 0.24479E+01, time = 2.00 | Final CG iter 51 -- res = 0.71785E-10, tol = 0.24479E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.140 5.743 | New value -13.831 | Old value -7.140 | Difference -6.691 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.10 | CG iter. 1 -- res = 0.43935E+05, tol = 0.47627E+18, time = 1.46 | CG iter. 2 -- res = 0.26274E+02, tol = 0.47627E+18, time = 1.51 | CG iter. 3 -- res = 0.11763E+01, tol = 0.47627E+18, time = 1.48 | CG iter. 4 -- res = 0.13054E-03, tol = 0.47627E+18, time = 1.59 | Final CG iter 5 -- res = 0.23142E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8492017.652 | (Sampled value in CG: 8487882.681 ) | CPU time specind = 909.4711 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.47 | CG iter. 1 -- res = 0.68282E+08, tol = 0.57759E+04, time = 9.28 | CG iter. 2 -- res = 0.58565E+08, tol = 0.57759E+04, time = 9.04 | CG iter. 3 -- res = 0.15464E+08, tol = 0.57759E+04, time = 8.85 | CG iter. 4 -- res = 0.65247E+07, tol = 0.57759E+04, time = 10.66 | CG iter. 5 -- res = 0.38404E+07, tol = 0.57759E+04, time = 9.58 | CG iter. 6 -- res = 0.21443E+07, tol = 0.57759E+04, time = 9.13 | CG iter. 7 -- res = 0.12613E+07, tol = 0.57759E+04, time = 9.15 | CG iter. 8 -- res = 0.84921E+06, tol = 0.57759E+04, time = 8.91 | CG iter. 9 -- res = 0.54740E+06, tol = 0.57759E+04, time = 9.12 | CG iter. 10 -- res = 0.32107E+06, tol = 0.57759E+04, time = 9.04 | CG iter. 11 -- res = 0.17338E+06, tol = 0.57759E+04, time = 9.07 | CG iter. 12 -- res = 0.93613E+05, tol = 0.57759E+04, time = 9.02 | CG iter. 13 -- res = 0.50080E+05, tol = 0.57759E+04, time = 8.95 | CG iter. 14 -- res = 0.28792E+05, tol = 0.57759E+04, time = 9.04 | CG iter. 15 -- res = 0.18392E+05, tol = 0.57759E+04, time = 9.20 | CG iter. 16 -- res = 0.12590E+05, tol = 0.57759E+04, time = 8.91 | CG iter. 17 -- res = 0.88630E+04, tol = 0.57759E+04, time = 9.26 | CG iter. 18 -- res = 0.60244E+04, tol = 0.57759E+04, time = 9.15 | CG iter. 19 -- res = 0.38976E+04, tol = 0.57759E+04, time = 8.84 | CG iter. 20 -- res = 0.25501E+04, tol = 0.57759E+04, time = 9.05 | CG iter. 21 -- res = 0.17765E+04, tol = 0.57759E+04, time = 8.92 | CG iter. 22 -- res = 0.13986E+04, tol = 0.57759E+04, time = 9.20 | CG iter. 23 -- res = 0.12458E+04, tol = 0.57759E+04, time = 8.85 | CG iter. 24 -- res = 0.12496E+04, tol = 0.57759E+04, time = 9.09 | CG iter. 25 -- res = 0.13039E+04, tol = 0.57759E+04, time = 9.07 | CG iter. 26 -- res = 0.13385E+04, tol = 0.57759E+04, time = 9.09 | CG iter. 27 -- res = 0.12959E+04, tol = 0.57759E+04, time = 15.21 | CG iter. 28 -- res = 0.11832E+04, tol = 0.57759E+04, time = 9.06 | CG iter. 29 -- res = 0.10787E+04, tol = 0.57759E+04, time = 9.20 | CG iter. 30 -- res = 0.99474E+03, tol = 0.57759E+04, time = 8.96 | CG iter. 31 -- res = 0.91746E+03, tol = 0.57759E+04, time = 9.02 | CG iter. 32 -- res = 0.83013E+03, tol = 0.57759E+04, time = 9.02 | CG iter. 33 -- res = 0.69505E+03, tol = 0.57759E+04, time = 9.15 | CG iter. 34 -- res = 0.51782E+03, tol = 0.57759E+04, time = 9.01 | CG iter. 35 -- res = 0.38032E+03, tol = 0.57759E+04, time = 8.99 | CG iter. 36 -- res = 0.29306E+03, tol = 0.57759E+04, time = 10.68 | CG iter. 37 -- res = 0.24512E+03, tol = 0.57759E+04, time = 9.74 | CG iter. 38 -- res = 0.21887E+03, tol = 0.57759E+04, time = 8.81 | CG iter. 39 -- res = 0.19555E+03, tol = 0.57759E+04, time = 8.83 | CG iter. 40 -- res = 0.17281E+03, tol = 0.57759E+04, time = 8.89 | CG iter. 41 -- res = 0.15127E+03, tol = 0.57759E+04, time = 8.96 | CG iter. 42 -- res = 0.12954E+03, tol = 0.57759E+04, time = 8.99 | CG iter. 43 -- res = 0.11295E+03, tol = 0.57759E+04, time = 8.87 | CG iter. 44 -- res = 0.10115E+03, tol = 0.57759E+04, time = 9.23 | CG iter. 45 -- res = 0.93142E+02, tol = 0.57759E+04, time = 8.98 | CG iter. 46 -- res = 0.87518E+02, tol = 0.57759E+04, time = 8.89 | CG iter. 47 -- res = 0.78856E+02, tol = 0.57759E+04, time = 9.16 | CG iter. 48 -- res = 0.65763E+02, tol = 0.57759E+04, time = 9.58 | CG iter. 49 -- res = 0.51720E+02, tol = 0.57759E+04, time = 9.15 | CG iter. 50 -- res = 0.40928E+02, tol = 0.57759E+04, time = 9.03 | CG iter. 51 -- res = 0.33964E+02, tol = 0.57759E+04, time = 9.18 | CG iter. 52 -- res = 0.29485E+02, tol = 0.57759E+04, time = 8.78 | CG iter. 53 -- res = 0.26890E+02, tol = 0.57759E+04, time = 9.20 | CG iter. 54 -- res = 0.25180E+02, tol = 0.57759E+04, time = 9.07 | CG iter. 55 -- res = 0.22955E+02, tol = 0.57759E+04, time = 9.29 | CG iter. 56 -- res = 0.19637E+02, tol = 0.57759E+04, time = 9.05 | CG iter. 57 -- res = 0.16717E+02, tol = 0.57759E+04, time = 9.06 | CG iter. 58 -- res = 0.14627E+02, tol = 0.57759E+04, time = 9.05 | CG iter. 59 -- res = 0.13835E+02, tol = 0.57759E+04, time = 15.09 | CG iter. 60 -- res = 0.13201E+02, tol = 0.57759E+04, time = 9.04 | Final CG iter 61 -- res = 0.13201E+02, tol = 0.57759E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.801 ( -230.023 -2228.602 2510.811 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8634898.322 | Old band monopole 8492054.178 | Change to band monopole 142844.144 | Change to component monopole -142843.530 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.373 2.749 | New value 5.234 | Old value -1.373 | Difference 6.606 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.304 ( 7.094 8.622 -7.990 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.708 5.461 | New value -4.243 | Old value -8.708 | Difference 4.465 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.33 | CG iter. 1 -- res = 0.23281E+07, tol = 0.47627E+18, time = 1.45 | CG iter. 2 -- res = 0.38754E+02, tol = 0.47627E+18, time = 1.55 | CG iter. 3 -- res = 0.16705E+01, tol = 0.47627E+18, time = 1.46 | CG iter. 4 -- res = 0.31409E-02, tol = 0.47627E+18, time = 1.51 | Final CG iter 5 -- res = 0.40324E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8634861.181 | (Sampled value in CG: 8614635.487 ) | Chain = 1 -- chisq = 0.81538507E+09 | Chain = 1 -- wall time = 17834.296 sec Available RAM: MemAvailable: 501355972 kB Available Swap: SwapFree: 1057407268 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 167 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443780 | --> Sampling calibration, mode = relcal | relcal = 1.3430736E-02 7.4332370E-04 -1.6018013E-03 -1.2572258E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9841885E-02 0.1178693 97045389.5278480 | BP delta = 8.9582920E-02 0.1076103 97045395.8907852 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632429 | --> Sampling calibration, mode = relcal | relcal = -2.8213987E-03 -7.0394139E-04 1.6791613E-03 1.6131664E-03 -4.0668270E-04 6.3969503E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5884572 15218114.7674035 | BP delta = 0.0000000E+00 -0.5938734 15218114.6427569 | BP chisq diff = -0.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18765472571047 | --> Sampling calibration, mode = relcal | relcal = -7.6206647E-02 -5.9630040E-02 9.3444176E-02 4.2392511E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3475212E-04 6.7570992E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3294E-05 | 2: delta_r/delta_0: 1.8315E-06 | 3: delta_s/delta_0: 2.1271E-07 | 4: delta_r/delta_0: 3.0021E-08 | 5: delta_s/delta_0: 8.7289E-09 | 6: delta_r/delta_0: 3.0736E-09 | 7: delta_s/delta_0: 7.6191E-10 | 8: delta_r/delta_0: 2.2644E-10 | 9: delta_s/delta_0: 1.1980E-10 | 10: delta_r/delta_0: 6.2521E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.463393621268049E-003 2.725603342480310E-005 | BP delta = 2.2548640E-02 3.7495129E-02 50485041.9935983 | BP delta = 2.4548020E-02 3.9494507E-02 50485037.7468742 | BP chisq diff = -4.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02575442 | --> Sampling calibration, mode = relcal | relcal = -0.1066274 -9.5575109E-02 0.1449631 5.7239350E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2729155E-03 1.2053180E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.4429E-05 | 2: delta_r/delta_0: 2.1208E-06 | 3: delta_s/delta_0: 2.1995E-07 | 4: delta_r/delta_0: 4.9439E-08 | 5: delta_s/delta_0: 3.4786E-08 | 6: delta_r/delta_0: 8.2546E-09 | 7: delta_s/delta_0: 7.7564E-09 | 8: delta_r/delta_0: 1.9364E-09 | 9: delta_s/delta_0: 8.9158E-10 | 10: delta_r/delta_0: 6.6949E-10 | 11: delta_s/delta_0: 3.4665E-09 | 12: delta_r/delta_0: 5.6638E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.048653258992710E-002 2.811498805397301E-005 | BP delta = -0.2673835 -0.2417139 57392525.7507623 | BP delta = -0.2770439 -0.2513743 57392524.5192123 | BP chisq diff = -1.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81220471 | --> Sampling calibration, mode = relcal | relcal = 0.2954329 0.2248901 -0.2837612 -0.2365618 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4724185E-04 4.6654167E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9254E-02 | 2: delta_r/delta_0: 1.3898E-03 | 3: delta_s/delta_0: 1.1527E-03 | 4: delta_r/delta_0: 6.3411E-05 | 5: delta_s/delta_0: 5.2567E-05 | 6: delta_r/delta_0: 2.3269E-05 | 7: delta_s/delta_0: 1.1814E-05 | 8: delta_r/delta_0: 3.8534E-06 | 9: delta_s/delta_0: 1.9549E-05 | 10: delta_r/delta_0: 3.9982E-07 | 11: delta_s/delta_0: 8.3085E-08 | 12: delta_r/delta_0: 8.6990E-09 | 13: delta_s/delta_0: 1.1683E-08 | 14: delta_r/delta_0: 2.8183E-09 | 15: delta_s/delta_0: 6.9094E-10 | 16: delta_r/delta_0: 2.2561E-10 | 17: delta_s/delta_0: 1.4969E-10 | 18: delta_r/delta_0: 9.5606E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.125159327602052 4.021830515444017E-005 | BP delta = -0.1521011 -0.1701503 72488212.8163118 | BP delta = -0.1420606 -0.1601098 72488212.9985750 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95911306 | --> Sampling calibration, mode = relcal | relcal = 0.1064062 0.1395469 -0.1101568 -0.1357963 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7424407E-03 1.2824193E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3491E-04 | 2: delta_r/delta_0: 6.0047E-06 | 3: delta_s/delta_0: 6.7787E-03 | 4: delta_r/delta_0: 3.1887E-04 | 5: delta_s/delta_0: 2.0222E-07 | 6: delta_r/delta_0: 1.0410E-07 | 7: delta_s/delta_0: 4.1373E-07 | 8: delta_r/delta_0: 2.7483E-08 | 9: delta_s/delta_0: 1.1288E-08 | 10: delta_r/delta_0: 1.9191E-09 | 11: delta_s/delta_0: 1.6972E-09 | 12: delta_r/delta_0: 1.1815E-09 | 13: delta_s/delta_0: 1.2018E-09 | 14: delta_r/delta_0: 2.5489E-10 | 15: delta_s/delta_0: 7.4835E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.021899878581082E-002 3.697317452049142E-005 | BP delta = 3.8709298E-02 0.1426007 72781652.3060697 | BP delta = 5.0351281E-02 0.1542426 72781651.6386581 | BP chisq diff = -0.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140360 | New value = -3.229259 | poltype: 2 pol: 1 CPU time specind = 7.2770119E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155386 | New value = -3.197875 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.074942 | New value = -3.223445 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145384 | New value = -3.184266 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.067161 | New value = -3.207138 | poltype: 2 pol: 2 CPU time specind = 9.5341206E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.43 | CG iter. 1 -- res = 0.13583E+08, tol = 0.80376E+01, time = 4.64 | CG iter. 2 -- res = 0.35165E+06, tol = 0.80376E+01, time = 4.56 | CG iter. 3 -- res = 0.56693E+05, tol = 0.80376E+01, time = 4.54 | CG iter. 4 -- res = 0.36582E+05, tol = 0.80376E+01, time = 4.70 | CG iter. 5 -- res = 0.29022E+05, tol = 0.80376E+01, time = 4.85 | CG iter. 6 -- res = 0.27217E+05, tol = 0.80376E+01, time = 4.57 | CG iter. 7 -- res = 0.26369E+05, tol = 0.80376E+01, time = 4.65 | CG iter. 8 -- res = 0.21878E+05, tol = 0.80376E+01, time = 4.72 | CG iter. 9 -- res = 0.18814E+05, tol = 0.80376E+01, time = 4.41 | CG iter. 10 -- res = 0.17360E+05, tol = 0.80376E+01, time = 4.80 | CG iter. 11 -- res = 0.12609E+05, tol = 0.80376E+01, time = 4.65 | CG iter. 12 -- res = 0.87209E+04, tol = 0.80376E+01, time = 4.53 | CG iter. 13 -- res = 0.68389E+04, tol = 0.80376E+01, time = 4.69 | CG iter. 14 -- res = 0.64196E+04, tol = 0.80376E+01, time = 5.26 | CG iter. 15 -- res = 0.58357E+04, tol = 0.80376E+01, time = 10.43 | CG iter. 16 -- res = 0.45334E+04, tol = 0.80376E+01, time = 4.62 | CG iter. 17 -- res = 0.32949E+04, tol = 0.80376E+01, time = 4.71 | CG iter. 18 -- res = 0.25466E+04, tol = 0.80376E+01, time = 4.64 | CG iter. 19 -- res = 0.22655E+04, tol = 0.80376E+01, time = 4.64 | CG iter. 20 -- res = 0.18190E+04, tol = 0.80376E+01, time = 4.81 | CG iter. 21 -- res = 0.13958E+04, tol = 0.80376E+01, time = 4.73 | CG iter. 22 -- res = 0.11684E+04, tol = 0.80376E+01, time = 4.65 | CG iter. 23 -- res = 0.10273E+04, tol = 0.80376E+01, time = 4.74 | CG iter. 24 -- res = 0.84694E+03, tol = 0.80376E+01, time = 4.57 | CG iter. 25 -- res = 0.64957E+03, tol = 0.80376E+01, time = 4.68 | CG iter. 26 -- res = 0.48039E+03, tol = 0.80376E+01, time = 4.61 | CG iter. 27 -- res = 0.40637E+03, tol = 0.80376E+01, time = 4.56 | CG iter. 28 -- res = 0.35760E+03, tol = 0.80376E+01, time = 4.68 | CG iter. 29 -- res = 0.28870E+03, tol = 0.80376E+01, time = 4.68 | CG iter. 30 -- res = 0.21604E+03, tol = 0.80376E+01, time = 4.58 | CG iter. 31 -- res = 0.17465E+03, tol = 0.80376E+01, time = 4.68 | CG iter. 32 -- res = 0.14579E+03, tol = 0.80376E+01, time = 4.75 | CG iter. 33 -- res = 0.11732E+03, tol = 0.80376E+01, time = 6.14 | CG iter. 34 -- res = 0.88455E+02, tol = 0.80376E+01, time = 5.13 | CG iter. 35 -- res = 0.70495E+02, tol = 0.80376E+01, time = 5.17 | CG iter. 36 -- res = 0.58779E+02, tol = 0.80376E+01, time = 4.55 | CG iter. 37 -- res = 0.50768E+02, tol = 0.80376E+01, time = 4.64 | CG iter. 38 -- res = 0.38721E+02, tol = 0.80376E+01, time = 4.80 | CG iter. 39 -- res = 0.30042E+02, tol = 0.80376E+01, time = 4.92 | CG iter. 40 -- res = 0.25043E+02, tol = 0.80376E+01, time = 4.70 | CG iter. 41 -- res = 0.21604E+02, tol = 0.80376E+01, time = 4.66 | CG iter. 42 -- res = 0.17631E+02, tol = 0.80376E+01, time = 4.71 | CG iter. 43 -- res = 0.14258E+02, tol = 0.80376E+01, time = 4.70 | CG iter. 44 -- res = 0.12162E+02, tol = 0.80376E+01, time = 4.66 | CG iter. 45 -- res = 0.10830E+02, tol = 0.80376E+01, time = 4.64 | CG iter. 46 -- res = 0.89482E+01, tol = 0.80376E+01, time = 4.65 | CG iter. 47 -- res = 0.71968E+01, tol = 0.80376E+01, time = 4.81 | CG iter. 48 -- res = 0.60487E+01, tol = 0.80376E+01, time = 4.63 | CG iter. 49 -- res = 0.52893E+01, tol = 0.80376E+01, time = 4.64 | CG iter. 50 -- res = 0.47663E+01, tol = 0.80376E+01, time = 4.80 | Final CG iter 51 -- res = 0.47663E+01, tol = 0.80376E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8923636.567 | Old band monopole 8634898.322 | Change to band monopole 288738.245 | Change to component monopole -288737.003 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.91 | CG iter. 1 -- res = 0.41313E+06, tol = 0.47627E+18, time = 1.51 | CG iter. 2 -- res = 0.10735E+03, tol = 0.47627E+18, time = 1.51 | CG iter. 3 -- res = 0.31182E+01, tol = 0.47627E+18, time = 1.49 | CG iter. 4 -- res = 0.14833E-01, tol = 0.47627E+18, time = 1.58 | Final CG iter 5 -- res = 0.13018E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8923598.184 | (Sampled value in CG: 8865244.886 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526219 | New value = 1.450682 | poltype: 2 pol: 1 CPU time specind = 1.4824152E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.488770 | New value = 1.493422 | poltype: 2 pol: 2 CPU time specind = 3.5078526E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.24 | CG iter. 1 -- res = 0.25183E+08, tol = 0.47524E+04, time = 5.32 | CG iter. 2 -- res = 0.53392E+07, tol = 0.47524E+04, time = 5.38 | CG iter. 3 -- res = 0.84092E+06, tol = 0.47524E+04, time = 5.50 | CG iter. 4 -- res = 0.35496E+06, tol = 0.47524E+04, time = 6.14 | CG iter. 5 -- res = 0.15607E+06, tol = 0.47524E+04, time = 10.95 | CG iter. 6 -- res = 0.82159E+05, tol = 0.47524E+04, time = 5.35 | CG iter. 7 -- res = 0.43890E+05, tol = 0.47524E+04, time = 5.39 | CG iter. 8 -- res = 0.21102E+05, tol = 0.47524E+04, time = 5.32 | CG iter. 9 -- res = 0.94806E+04, tol = 0.47524E+04, time = 5.34 | CG iter. 10 -- res = 0.38482E+04, tol = 0.47524E+04, time = 5.38 | CG iter. 11 -- res = 0.17319E+04, tol = 0.47524E+04, time = 6.15 | CG iter. 12 -- res = 0.89082E+03, tol = 0.47524E+04, time = 5.41 | CG iter. 13 -- res = 0.50951E+03, tol = 0.47524E+04, time = 5.34 | CG iter. 14 -- res = 0.28914E+03, tol = 0.47524E+04, time = 5.56 | CG iter. 15 -- res = 0.14997E+03, tol = 0.47524E+04, time = 5.30 | CG iter. 16 -- res = 0.69757E+02, tol = 0.47524E+04, time = 5.23 | CG iter. 17 -- res = 0.32938E+02, tol = 0.47524E+04, time = 5.22 | CG iter. 18 -- res = 0.16625E+02, tol = 0.47524E+04, time = 5.31 | CG iter. 19 -- res = 0.92041E+01, tol = 0.47524E+04, time = 5.51 | CG iter. 20 -- res = 0.52512E+01, tol = 0.47524E+04, time = 6.31 | CG iter. 21 -- res = 0.28428E+01, tol = 0.47524E+04, time = 6.21 | CG iter. 22 -- res = 0.14354E+01, tol = 0.47524E+04, time = 5.84 | CG iter. 23 -- res = 0.72610E+00, tol = 0.47524E+04, time = 5.15 | CG iter. 24 -- res = 0.37493E+00, tol = 0.47524E+04, time = 6.25 | CG iter. 25 -- res = 0.20755E+00, tol = 0.47524E+04, time = 5.61 | CG iter. 26 -- res = 0.11833E+00, tol = 0.47524E+04, time = 5.07 | CG iter. 27 -- res = 0.67185E-01, tol = 0.47524E+04, time = 5.32 | CG iter. 28 -- res = 0.36762E-01, tol = 0.47524E+04, time = 5.37 | CG iter. 29 -- res = 0.19186E-01, tol = 0.47524E+04, time = 5.32 | CG iter. 30 -- res = 0.10110E-01, tol = 0.47524E+04, time = 5.43 | CG iter. 31 -- res = 0.55031E-02, tol = 0.47524E+04, time = 5.36 | CG iter. 32 -- res = 0.30954E-02, tol = 0.47524E+04, time = 5.25 | CG iter. 33 -- res = 0.17587E-02, tol = 0.47524E+04, time = 5.27 | CG iter. 34 -- res = 0.94734E-03, tol = 0.47524E+04, time = 5.37 | CG iter. 35 -- res = 0.49462E-03, tol = 0.47524E+04, time = 5.28 | Final CG iter 36 -- res = 0.49462E-03, tol = 0.47524E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.235 2.739 | New value 0.651 | Old value 5.235 | Difference -4.584 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.38 | CG iter. 1 -- res = 0.11060E+07, tol = 0.47627E+18, time = 1.68 | CG iter. 2 -- res = 0.62034E+02, tol = 0.47627E+18, time = 1.49 | CG iter. 3 -- res = 0.18648E+01, tol = 0.47627E+18, time = 1.53 | CG iter. 4 -- res = 0.21146E-02, tol = 0.47627E+18, time = 1.65 | Final CG iter 5 -- res = 0.27456E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8923598.184 | (Sampled value in CG: 8865281.084 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.636084 | New value = -3.606256 | poltype: 1 pol: 1 CPU time specind = 5.2280426E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.27669E+07, tol = 0.25530E+01, time = 2.30 | CG iter. 2 -- res = 0.13660E+07, tol = 0.25530E+01, time = 2.30 | CG iter. 3 -- res = 0.27029E+06, tol = 0.25530E+01, time = 2.21 | CG iter. 4 -- res = 0.10107E+06, tol = 0.25530E+01, time = 2.03 | CG iter. 5 -- res = 0.57867E+05, tol = 0.25530E+01, time = 2.17 | CG iter. 6 -- res = 0.29408E+05, tol = 0.25530E+01, time = 2.14 | CG iter. 7 -- res = 0.10672E+05, tol = 0.25530E+01, time = 2.17 | CG iter. 8 -- res = 0.43753E+04, tol = 0.25530E+01, time = 2.44 | CG iter. 9 -- res = 0.20317E+04, tol = 0.25530E+01, time = 2.07 | CG iter. 10 -- res = 0.83142E+03, tol = 0.25530E+01, time = 2.41 | CG iter. 11 -- res = 0.32159E+03, tol = 0.25530E+01, time = 2.07 | CG iter. 12 -- res = 0.15696E+03, tol = 0.25530E+01, time = 2.21 | CG iter. 13 -- res = 0.80650E+02, tol = 0.25530E+01, time = 2.22 | CG iter. 14 -- res = 0.41495E+02, tol = 0.25530E+01, time = 1.93 | CG iter. 15 -- res = 0.19384E+02, tol = 0.25530E+01, time = 2.12 | CG iter. 16 -- res = 0.82080E+01, tol = 0.25530E+01, time = 2.19 | CG iter. 17 -- res = 0.34974E+01, tol = 0.25530E+01, time = 2.17 | CG iter. 18 -- res = 0.15544E+01, tol = 0.25530E+01, time = 2.07 | CG iter. 19 -- res = 0.74492E+00, tol = 0.25530E+01, time = 2.36 | CG iter. 20 -- res = 0.38723E+00, tol = 0.25530E+01, time = 1.92 | CG iter. 21 -- res = 0.19299E+00, tol = 0.25530E+01, time = 2.19 | CG iter. 22 -- res = 0.89265E-01, tol = 0.25530E+01, time = 2.34 | CG iter. 23 -- res = 0.39848E-01, tol = 0.25530E+01, time = 1.96 | CG iter. 24 -- res = 0.17512E-01, tol = 0.25530E+01, time = 2.14 | CG iter. 25 -- res = 0.87911E-02, tol = 0.25530E+01, time = 2.41 | CG iter. 26 -- res = 0.44488E-02, tol = 0.25530E+01, time = 2.16 | CG iter. 27 -- res = 0.22248E-02, tol = 0.25530E+01, time = 2.18 | CG iter. 28 -- res = 0.11290E-02, tol = 0.25530E+01, time = 2.04 | CG iter. 29 -- res = 0.50439E-03, tol = 0.25530E+01, time = 2.28 | CG iter. 30 -- res = 0.23297E-03, tol = 0.25530E+01, time = 2.17 | CG iter. 31 -- res = 0.10876E-03, tol = 0.25530E+01, time = 2.18 | CG iter. 32 -- res = 0.54029E-04, tol = 0.25530E+01, time = 2.10 | CG iter. 33 -- res = 0.27412E-04, tol = 0.25530E+01, time = 2.29 | CG iter. 34 -- res = 0.13616E-04, tol = 0.25530E+01, time = 2.15 | CG iter. 35 -- res = 0.65581E-05, tol = 0.25530E+01, time = 2.23 | CG iter. 36 -- res = 0.29682E-05, tol = 0.25530E+01, time = 2.08 | CG iter. 37 -- res = 0.13303E-05, tol = 0.25530E+01, time = 2.42 | CG iter. 38 -- res = 0.67276E-06, tol = 0.25530E+01, time = 2.36 | CG iter. 39 -- res = 0.33690E-06, tol = 0.25530E+01, time = 2.28 | CG iter. 40 -- res = 0.16336E-06, tol = 0.25530E+01, time = 2.29 | CG iter. 41 -- res = 0.76720E-07, tol = 0.25530E+01, time = 2.11 | CG iter. 42 -- res = 0.37483E-07, tol = 0.25530E+01, time = 2.37 | CG iter. 43 -- res = 0.16726E-07, tol = 0.25530E+01, time = 2.81 | CG iter. 44 -- res = 0.82808E-08, tol = 0.25530E+01, time = 2.37 | CG iter. 45 -- res = 0.40708E-08, tol = 0.25530E+01, time = 2.23 | CG iter. 46 -- res = 0.20021E-08, tol = 0.25530E+01, time = 2.17 | CG iter. 47 -- res = 0.10144E-08, tol = 0.25530E+01, time = 2.29 | CG iter. 48 -- res = 0.46973E-09, tol = 0.25530E+01, time = 2.16 | CG iter. 49 -- res = 0.21504E-09, tol = 0.25530E+01, time = 2.12 | CG iter. 50 -- res = 0.99918E-10, tol = 0.25530E+01, time = 2.19 | Final CG iter 51 -- res = 0.99918E-10, tol = 0.25530E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.617 7.406 | New value 10.997 | Old value -10.617 | Difference 21.614 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.46945E+06, tol = 0.47627E+18, time = 1.45 | CG iter. 2 -- res = 0.98458E+02, tol = 0.47627E+18, time = 1.65 | CG iter. 3 -- res = 0.33018E+01, tol = 0.47627E+18, time = 1.56 | CG iter. 4 -- res = 0.10034E-01, tol = 0.47627E+18, time = 1.52 | Final CG iter 5 -- res = 0.80562E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8923598.184 | (Sampled value in CG: 8878214.693 ) | CPU time specind = 978.5765 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.28 | CG iter. 1 -- res = 0.72166E+08, tol = 0.57715E+04, time = 16.37 | CG iter. 2 -- res = 0.59597E+08, tol = 0.57715E+04, time = 9.39 | CG iter. 3 -- res = 0.15498E+08, tol = 0.57715E+04, time = 9.44 | CG iter. 4 -- res = 0.68303E+07, tol = 0.57715E+04, time = 9.48 | CG iter. 5 -- res = 0.42075E+07, tol = 0.57715E+04, time = 9.75 | CG iter. 6 -- res = 0.25085E+07, tol = 0.57715E+04, time = 9.78 | CG iter. 7 -- res = 0.14829E+07, tol = 0.57715E+04, time = 9.71 | CG iter. 8 -- res = 0.93679E+06, tol = 0.57715E+04, time = 9.60 | CG iter. 9 -- res = 0.59237E+06, tol = 0.57715E+04, time = 9.72 | CG iter. 10 -- res = 0.35530E+06, tol = 0.57715E+04, time = 11.19 | CG iter. 11 -- res = 0.19573E+06, tol = 0.57715E+04, time = 10.30 | CG iter. 12 -- res = 0.10842E+06, tol = 0.57715E+04, time = 9.83 | CG iter. 13 -- res = 0.59640E+05, tol = 0.57715E+04, time = 9.55 | CG iter. 14 -- res = 0.36607E+05, tol = 0.57715E+04, time = 9.91 | CG iter. 15 -- res = 0.25682E+05, tol = 0.57715E+04, time = 9.84 | CG iter. 16 -- res = 0.20110E+05, tol = 0.57715E+04, time = 9.60 | CG iter. 17 -- res = 0.16918E+05, tol = 0.57715E+04, time = 9.65 | CG iter. 18 -- res = 0.14387E+05, tol = 0.57715E+04, time = 9.48 | CG iter. 19 -- res = 0.12218E+05, tol = 0.57715E+04, time = 9.72 | CG iter. 20 -- res = 0.10607E+05, tol = 0.57715E+04, time = 9.74 | CG iter. 21 -- res = 0.95835E+04, tol = 0.57715E+04, time = 9.89 | CG iter. 22 -- res = 0.96927E+04, tol = 0.57715E+04, time = 9.98 | CG iter. 23 -- res = 0.10668E+05, tol = 0.57715E+04, time = 9.60 | CG iter. 24 -- res = 0.11246E+05, tol = 0.57715E+04, time = 9.53 | CG iter. 25 -- res = 0.10655E+05, tol = 0.57715E+04, time = 9.67 | CG iter. 26 -- res = 0.89005E+04, tol = 0.57715E+04, time = 9.71 | CG iter. 27 -- res = 0.70130E+04, tol = 0.57715E+04, time = 9.59 | CG iter. 28 -- res = 0.54248E+04, tol = 0.57715E+04, time = 9.61 | CG iter. 29 -- res = 0.44295E+04, tol = 0.57715E+04, time = 9.69 | CG iter. 30 -- res = 0.37926E+04, tol = 0.57715E+04, time = 9.83 | CG iter. 31 -- res = 0.34066E+04, tol = 0.57715E+04, time = 16.35 | CG iter. 32 -- res = 0.30232E+04, tol = 0.57715E+04, time = 9.50 | CG iter. 33 -- res = 0.25372E+04, tol = 0.57715E+04, time = 9.86 | CG iter. 34 -- res = 0.20538E+04, tol = 0.57715E+04, time = 9.78 | CG iter. 35 -- res = 0.17462E+04, tol = 0.57715E+04, time = 9.60 | CG iter. 36 -- res = 0.16279E+04, tol = 0.57715E+04, time = 9.98 | CG iter. 37 -- res = 0.16461E+04, tol = 0.57715E+04, time = 9.82 | CG iter. 38 -- res = 0.16642E+04, tol = 0.57715E+04, time = 9.62 | CG iter. 39 -- res = 0.15732E+04, tol = 0.57715E+04, time = 9.62 | CG iter. 40 -- res = 0.13740E+04, tol = 0.57715E+04, time = 11.29 | CG iter. 41 -- res = 0.11668E+04, tol = 0.57715E+04, time = 10.36 | CG iter. 42 -- res = 0.98946E+03, tol = 0.57715E+04, time = 9.94 | CG iter. 43 -- res = 0.88317E+03, tol = 0.57715E+04, time = 9.51 | CG iter. 44 -- res = 0.82867E+03, tol = 0.57715E+04, time = 9.71 | CG iter. 45 -- res = 0.77631E+03, tol = 0.57715E+04, time = 9.83 | CG iter. 46 -- res = 0.72310E+03, tol = 0.57715E+04, time = 9.85 | CG iter. 47 -- res = 0.65936E+03, tol = 0.57715E+04, time = 9.58 | CG iter. 48 -- res = 0.59684E+03, tol = 0.57715E+04, time = 9.47 | CG iter. 49 -- res = 0.54437E+03, tol = 0.57715E+04, time = 9.59 | CG iter. 50 -- res = 0.51896E+03, tol = 0.57715E+04, time = 9.60 | CG iter. 51 -- res = 0.51938E+03, tol = 0.57715E+04, time = 10.25 | CG iter. 52 -- res = 0.52759E+03, tol = 0.57715E+04, time = 9.61 | CG iter. 53 -- res = 0.53149E+03, tol = 0.57715E+04, time = 9.66 | CG iter. 54 -- res = 0.48332E+03, tol = 0.57715E+04, time = 9.45 | CG iter. 55 -- res = 0.42761E+03, tol = 0.57715E+04, time = 9.51 | CG iter. 56 -- res = 0.37512E+03, tol = 0.57715E+04, time = 9.92 | CG iter. 57 -- res = 0.33300E+03, tol = 0.57715E+04, time = 9.86 | CG iter. 58 -- res = 0.31171E+03, tol = 0.57715E+04, time = 9.63 | CG iter. 59 -- res = 0.29742E+03, tol = 0.57715E+04, time = 9.45 | CG iter. 60 -- res = 0.28264E+03, tol = 0.57715E+04, time = 9.78 | Final CG iter 61 -- res = 0.28264E+03, tol = 0.57715E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.721 ( -229.625 -2226.705 2508.470 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9408348.446 | Old band monopole 8923636.567 | Change to band monopole 484711.879 | Change to component monopole -484709.794 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.585 2.725 | New value -0.985 | Old value 0.585 | Difference -1.570 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.624 ( 7.560 4.309 -2.074 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 19.463 7.813 | New value 4.536 | Old value 19.463 | Difference -14.927 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.26 | CG iter. 1 -- res = 0.23241E+06, tol = 0.47627E+18, time = 1.59 | CG iter. 2 -- res = 0.45017E+02, tol = 0.47627E+18, time = 1.57 | CG iter. 3 -- res = 0.18423E+01, tol = 0.47627E+18, time = 1.62 | CG iter. 4 -- res = 0.32578E-02, tol = 0.47627E+18, time = 1.52 | Final CG iter 5 -- res = 0.13701E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9408307.978 | (Sampled value in CG: 9381381.628 ) | Chain = 1 -- chisq = 0.81614158E+09 | Chain = 1 -- wall time = 5380.001 sec Available RAM: MemAvailable: 373870808 kB Available Swap: SwapFree: 1146161104 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 168 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446824 | --> Sampling calibration, mode = relcal | relcal = 1.3438586E-02 7.3563348E-04 -1.6024058E-03 -1.2571814E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9841885E-02 0.1178693 9405665.70637061 | BP delta = 9.9841885E-02 0.1192806 9405668.74306649 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632220 | --> Sampling calibration, mode = relcal | relcal = -2.8209810E-03 -7.0306851E-04 1.6780472E-03 1.6123602E-03 -4.0612358E-04 6.3976547E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5938734 15213942.7793704 | BP delta = 0.0000000E+00 -0.5923060 15213943.7941418 | BP chisq diff = 1.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18378015988827 | --> Sampling calibration, mode = relcal | relcal = -7.3813297E-02 -5.8003101E-02 9.0810381E-02 4.1006017E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.4364442E-04 3.5102319E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4119E-03 | 2: delta_r/delta_0: 3.2269E-05 | 3: delta_s/delta_0: 1.9504E-07 | 4: delta_r/delta_0: 2.0758E-08 | 5: delta_s/delta_0: 7.0091E-09 | 6: delta_r/delta_0: 1.2355E-09 | 7: delta_s/delta_0: 9.3706E-09 | 8: delta_r/delta_0: 1.5427E-10 | 9: delta_s/delta_0: 7.0888E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.907192747792603E-004 2.734863301860516E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4115E-03 | 2: delta_r/delta_0: 3.2262E-05 | 3: delta_s/delta_0: 1.9504E-07 | 4: delta_r/delta_0: 2.0759E-08 | 5: delta_s/delta_0: 7.0092E-09 | 6: delta_r/delta_0: 1.2356E-09 | 7: delta_s/delta_0: 9.3754E-09 | 8: delta_r/delta_0: 1.5427E-10 | 9: delta_s/delta_0: 7.0898E-11 | Reached bicg-stab tolerance | BP delta = 2.4548020E-02 3.9494507E-02 3694728.34301301 | BP delta = 2.4548020E-02 3.9865945E-02 3693018.46158522 | BP chisq diff = -1709.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02544243 | --> Sampling calibration, mode = relcal | relcal = -0.1065612 -9.5490649E-02 0.1448541 5.7197765E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2381304E-03 1.3566302E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6079E-05 | 2: delta_r/delta_0: 1.2820E-06 | 3: delta_s/delta_0: 2.4309E-07 | 4: delta_r/delta_0: 6.0624E-08 | 5: delta_s/delta_0: 1.6851E-08 | 6: delta_r/delta_0: 8.2633E-09 | 7: delta_s/delta_0: 1.0492E-07 | 8: delta_r/delta_0: 3.5566E-09 | 9: delta_s/delta_0: 1.0029E-09 | 10: delta_r/delta_0: 3.6266E-10 | 11: delta_s/delta_0: 3.5623E-09 | 12: delta_r/delta_0: 3.5664E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.815999862720715E-003 2.812323470062333E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.6079E-05 | 2: delta_r/delta_0: 1.2820E-06 | 3: delta_s/delta_0: 2.4309E-07 | 4: delta_r/delta_0: 6.0622E-08 | 5: delta_s/delta_0: 1.6851E-08 | 6: delta_r/delta_0: 8.2632E-09 | 7: delta_s/delta_0: 1.0491E-07 | 8: delta_r/delta_0: 3.5565E-09 | 9: delta_s/delta_0: 1.0029E-09 | 10: delta_r/delta_0: 3.6264E-10 | 11: delta_s/delta_0: 3.5620E-09 | 12: delta_r/delta_0: 3.5662E-11 | Reached bicg-stab tolerance | BP delta = -0.2770439 -0.2513743 2841854.20892040 | BP delta = -0.2770439 -0.2511616 2841856.85194895 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81178429 | --> Sampling calibration, mode = relcal | relcal = 0.2953955 0.2246583 -0.2836304 -0.2364234 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0427895E-03 5.5185091E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7731E-02 | 2: delta_r/delta_0: 1.1294E-03 | 3: delta_s/delta_0: 8.0305E-04 | 4: delta_r/delta_0: 5.3693E-05 | 5: delta_s/delta_0: 3.0238E-06 | 6: delta_r/delta_0: 8.7979E-07 | 7: delta_s/delta_0: 3.9231E-06 | 8: delta_r/delta_0: 5.2134E-07 | 9: delta_s/delta_0: 8.8766E-07 | 10: delta_r/delta_0: 2.8637E-07 | 11: delta_s/delta_0: 6.3400E-09 | 12: delta_r/delta_0: 3.2947E-09 | 13: delta_s/delta_0: 2.4668E-08 | 14: delta_r/delta_0: 7.3463E-09 | 15: delta_s/delta_0: 8.3737E-10 | 16: delta_r/delta_0: 9.7072E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.138844009594415E-002 4.023968666598033E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.7611E-02 | 2: delta_r/delta_0: 1.1265E-03 | 3: delta_s/delta_0: 8.0100E-04 | 4: delta_r/delta_0: 5.3551E-05 | 5: delta_s/delta_0: 3.0203E-06 | 6: delta_r/delta_0: 8.7897E-07 | 7: delta_s/delta_0: 3.9207E-06 | 8: delta_r/delta_0: 5.2015E-07 | 9: delta_s/delta_0: 8.8698E-07 | 10: delta_r/delta_0: 2.8619E-07 | 11: delta_s/delta_0: 6.3324E-09 | 12: delta_r/delta_0: 3.2935E-09 | 13: delta_s/delta_0: 2.4730E-08 | 14: delta_r/delta_0: 7.3398E-09 | 15: delta_s/delta_0: 8.3334E-10 | 16: delta_r/delta_0: 9.7101E-11 | Reached bicg-stab tolerance | BP delta = -0.1420606 -0.1601098 2827198.43926276 | BP delta = -0.1420606 -0.1513719 2827247.68534557 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95855725 | --> Sampling calibration, mode = relcal | relcal = 0.1064869 0.1392908 -0.1101323 -0.1356455 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3288338E-03 1.3283933E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7616E-04 | 2: delta_r/delta_0: 4.6947E-06 | 3: delta_s/delta_0: 7.7249E-06 | 4: delta_r/delta_0: 1.0675E-06 | 5: delta_s/delta_0: 1.7380E-07 | 6: delta_r/delta_0: 1.0918E-07 | 7: delta_s/delta_0: 7.2296E-07 | 8: delta_r/delta_0: 2.3225E-08 | 9: delta_s/delta_0: 2.9241E-08 | 10: delta_r/delta_0: 1.6698E-08 | 11: delta_s/delta_0: 9.6595E-10 | 12: delta_r/delta_0: 6.9742E-10 | 13: delta_s/delta_0: 2.1829E-08 | 14: delta_r/delta_0: 3.8563E-09 | 15: delta_s/delta_0: 7.3521E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.935815135773908E-002 3.699415442849842E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7617E-04 | 2: delta_r/delta_0: 4.6948E-06 | 3: delta_s/delta_0: 7.7243E-06 | 4: delta_r/delta_0: 1.0672E-06 | 5: delta_s/delta_0: 1.7378E-07 | 6: delta_r/delta_0: 1.0914E-07 | 7: delta_s/delta_0: 7.2164E-07 | 8: delta_r/delta_0: 2.3232E-08 | 9: delta_s/delta_0: 2.9285E-08 | 10: delta_r/delta_0: 1.6701E-08 | 11: delta_s/delta_0: 9.6567E-10 | 12: delta_r/delta_0: 6.9737E-10 | 13: delta_s/delta_0: 2.3158E-08 | 14: delta_r/delta_0: 4.0351E-09 | 15: delta_s/delta_0: 7.3513E-11 | Reached bicg-stab tolerance | BP delta = 5.0351281E-02 0.1542426 3004093.04118957 | BP delta = 5.0351281E-02 0.1620519 3004095.76401503 | BP chisq diff = 2.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.229259 | New value = -3.123373 | poltype: 2 pol: 1 CPU time specind = 4.9891472E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197875 | New value = -3.126505 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.223445 | New value = -3.223107 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184266 | New value = -3.111331 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.207138 | New value = -3.097543 | poltype: 2 pol: 2 CPU time specind = 5.4059029E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.05 | CG iter. 1 -- res = 0.13691E+08, tol = 0.74486E+01, time = 4.55 | CG iter. 2 -- res = 0.37892E+06, tol = 0.74486E+01, time = 4.45 | CG iter. 3 -- res = 0.10161E+06, tol = 0.74486E+01, time = 4.51 | CG iter. 4 -- res = 0.11978E+06, tol = 0.74486E+01, time = 4.60 | CG iter. 5 -- res = 0.12477E+06, tol = 0.74486E+01, time = 4.47 | CG iter. 6 -- res = 0.11565E+06, tol = 0.74486E+01, time = 4.34 | CG iter. 7 -- res = 0.97424E+05, tol = 0.74486E+01, time = 4.58 | CG iter. 8 -- res = 0.67628E+05, tol = 0.74486E+01, time = 4.62 | CG iter. 9 -- res = 0.51343E+05, tol = 0.74486E+01, time = 4.31 | CG iter. 10 -- res = 0.43042E+05, tol = 0.74486E+01, time = 4.44 | CG iter. 11 -- res = 0.31118E+05, tol = 0.74486E+01, time = 6.13 | CG iter. 12 -- res = 0.22117E+05, tol = 0.74486E+01, time = 4.85 | CG iter. 13 -- res = 0.18561E+05, tol = 0.74486E+01, time = 4.97 | CG iter. 14 -- res = 0.15786E+05, tol = 0.74486E+01, time = 4.75 | CG iter. 15 -- res = 0.12119E+05, tol = 0.74486E+01, time = 4.55 | CG iter. 16 -- res = 0.83571E+04, tol = 0.74486E+01, time = 4.54 | CG iter. 17 -- res = 0.59618E+04, tol = 0.74486E+01, time = 4.65 | CG iter. 18 -- res = 0.48922E+04, tol = 0.74486E+01, time = 4.58 | CG iter. 19 -- res = 0.42382E+04, tol = 0.74486E+01, time = 4.42 | CG iter. 20 -- res = 0.31819E+04, tol = 0.74486E+01, time = 4.70 | CG iter. 21 -- res = 0.22423E+04, tol = 0.74486E+01, time = 4.59 | CG iter. 22 -- res = 0.18145E+04, tol = 0.74486E+01, time = 4.62 | CG iter. 23 -- res = 0.15170E+04, tol = 0.74486E+01, time = 4.79 | CG iter. 24 -- res = 0.11978E+04, tol = 0.74486E+01, time = 4.48 | CG iter. 25 -- res = 0.85229E+03, tol = 0.74486E+01, time = 4.65 | CG iter. 26 -- res = 0.67591E+03, tol = 0.74486E+01, time = 4.49 | CG iter. 27 -- res = 0.58676E+03, tol = 0.74486E+01, time = 4.78 | CG iter. 28 -- res = 0.49005E+03, tol = 0.74486E+01, time = 4.54 | CG iter. 29 -- res = 0.36817E+03, tol = 0.74486E+01, time = 4.70 | CG iter. 30 -- res = 0.28122E+03, tol = 0.74486E+01, time = 4.66 | CG iter. 31 -- res = 0.24352E+03, tol = 0.74486E+01, time = 4.57 | CG iter. 32 -- res = 0.20719E+03, tol = 0.74486E+01, time = 4.71 | CG iter. 33 -- res = 0.16277E+03, tol = 0.74486E+01, time = 4.38 | CG iter. 34 -- res = 0.12372E+03, tol = 0.74486E+01, time = 4.79 | CG iter. 35 -- res = 0.10424E+03, tol = 0.74486E+01, time = 4.46 | CG iter. 36 -- res = 0.93109E+02, tol = 0.74486E+01, time = 4.37 | CG iter. 37 -- res = 0.75792E+02, tol = 0.74486E+01, time = 4.68 | CG iter. 38 -- res = 0.58725E+02, tol = 0.74486E+01, time = 4.89 | CG iter. 39 -- res = 0.47179E+02, tol = 0.74486E+01, time = 4.49 | CG iter. 40 -- res = 0.41235E+02, tol = 0.74486E+01, time = 4.63 | CG iter. 41 -- res = 0.33432E+02, tol = 0.74486E+01, time = 4.72 | CG iter. 42 -- res = 0.25773E+02, tol = 0.74486E+01, time = 4.81 | CG iter. 43 -- res = 0.20016E+02, tol = 0.74486E+01, time = 4.74 | CG iter. 44 -- res = 0.16312E+02, tol = 0.74486E+01, time = 4.39 | CG iter. 45 -- res = 0.13479E+02, tol = 0.74486E+01, time = 4.67 | CG iter. 46 -- res = 0.10330E+02, tol = 0.74486E+01, time = 4.61 | CG iter. 47 -- res = 0.81193E+01, tol = 0.74486E+01, time = 4.45 | CG iter. 48 -- res = 0.64573E+01, tol = 0.74486E+01, time = 4.54 | CG iter. 49 -- res = 0.54119E+01, tol = 0.74486E+01, time = 4.72 | CG iter. 50 -- res = 0.42897E+01, tol = 0.74486E+01, time = 4.57 | Final CG iter 51 -- res = 0.42897E+01, tol = 0.74486E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10566573.973 | Old band monopole 9408348.446 | Change to band monopole 1158225.528 | Change to component monopole -1158220.546 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.28280E+06, tol = 0.47627E+18, time = 1.53 | CG iter. 2 -- res = 0.17249E+03, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.31149E+01, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.28877E-01, tol = 0.47627E+18, time = 1.56 | Final CG iter 5 -- res = 0.24470E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10566528.524 | (Sampled value in CG: 10665565.979 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.450682 | New value = 1.432689 | poltype: 2 pol: 1 CPU time specind = 1.5038013E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493422 | New value = 1.546215 | poltype: 2 pol: 2 CPU time specind = 1.2573004E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 21.89 | CG iter. 1 -- res = 0.24081E+08, tol = 0.47442E+04, time = 5.28 | CG iter. 2 -- res = 0.53830E+07, tol = 0.47442E+04, time = 5.62 | CG iter. 3 -- res = 0.83630E+06, tol = 0.47442E+04, time = 6.48 | CG iter. 4 -- res = 0.34422E+06, tol = 0.47442E+04, time = 5.70 | CG iter. 5 -- res = 0.14543E+06, tol = 0.47442E+04, time = 5.34 | CG iter. 6 -- res = 0.76655E+05, tol = 0.47442E+04, time = 5.59 | CG iter. 7 -- res = 0.43160E+05, tol = 0.47442E+04, time = 5.36 | CG iter. 8 -- res = 0.20926E+05, tol = 0.47442E+04, time = 5.12 | CG iter. 9 -- res = 0.91175E+04, tol = 0.47442E+04, time = 5.16 | CG iter. 10 -- res = 0.37611E+04, tol = 0.47442E+04, time = 5.33 | CG iter. 11 -- res = 0.17052E+04, tol = 0.47442E+04, time = 5.32 | CG iter. 12 -- res = 0.86069E+03, tol = 0.47442E+04, time = 5.19 | CG iter. 13 -- res = 0.47822E+03, tol = 0.47442E+04, time = 5.47 | CG iter. 14 -- res = 0.27061E+03, tol = 0.47442E+04, time = 5.04 | CG iter. 15 -- res = 0.14229E+03, tol = 0.47442E+04, time = 5.36 | CG iter. 16 -- res = 0.68721E+02, tol = 0.47442E+04, time = 5.49 | CG iter. 17 -- res = 0.32593E+02, tol = 0.47442E+04, time = 5.25 | CG iter. 18 -- res = 0.16078E+02, tol = 0.47442E+04, time = 5.28 | CG iter. 19 -- res = 0.85792E+01, tol = 0.47442E+04, time = 5.27 | CG iter. 20 -- res = 0.48370E+01, tol = 0.47442E+04, time = 5.45 | CG iter. 21 -- res = 0.27082E+01, tol = 0.47442E+04, time = 5.29 | CG iter. 22 -- res = 0.13976E+01, tol = 0.47442E+04, time = 5.24 | CG iter. 23 -- res = 0.70023E+00, tol = 0.47442E+04, time = 5.79 | CG iter. 24 -- res = 0.35353E+00, tol = 0.47442E+04, time = 5.21 | CG iter. 25 -- res = 0.18948E+00, tol = 0.47442E+04, time = 5.35 | CG iter. 26 -- res = 0.10779E+00, tol = 0.47442E+04, time = 5.34 | CG iter. 27 -- res = 0.61100E-01, tol = 0.47442E+04, time = 5.45 | CG iter. 28 -- res = 0.33315E-01, tol = 0.47442E+04, time = 5.42 | CG iter. 29 -- res = 0.17137E-01, tol = 0.47442E+04, time = 5.21 | CG iter. 30 -- res = 0.89347E-02, tol = 0.47442E+04, time = 5.16 | CG iter. 31 -- res = 0.49535E-02, tol = 0.47442E+04, time = 5.45 | CG iter. 32 -- res = 0.28326E-02, tol = 0.47442E+04, time = 5.26 | CG iter. 33 -- res = 0.16069E-02, tol = 0.47442E+04, time = 5.30 | CG iter. 34 -- res = 0.86950E-03, tol = 0.47442E+04, time = 5.13 | CG iter. 35 -- res = 0.45558E-03, tol = 0.47442E+04, time = 5.40 | Final CG iter 36 -- res = 0.45558E-03, tol = 0.47442E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.937 2.740 | New value 0.860 | Old value -0.937 | Difference 1.796 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.20 | CG iter. 1 -- res = 0.17860E+06, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.12397E+03, tol = 0.47627E+18, time = 1.57 | CG iter. 3 -- res = 0.27218E+01, tol = 0.47627E+18, time = 1.55 | CG iter. 4 -- res = 0.66807E-03, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.91074E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10566528.524 | (Sampled value in CG: 10663311.562 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.606256 | New value = -3.684913 | poltype: 1 pol: 1 CPU time specind = 4.6930313E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.22 | CG iter. 1 -- res = 0.32746E+07, tol = 0.16090E+01, time = 2.08 | CG iter. 2 -- res = 0.13263E+07, tol = 0.16090E+01, time = 2.46 | CG iter. 3 -- res = 0.28563E+06, tol = 0.16090E+01, time = 2.22 | CG iter. 4 -- res = 0.13358E+06, tol = 0.16090E+01, time = 2.03 | CG iter. 5 -- res = 0.79428E+05, tol = 0.16090E+01, time = 2.27 | CG iter. 6 -- res = 0.34836E+05, tol = 0.16090E+01, time = 2.01 | CG iter. 7 -- res = 0.11413E+05, tol = 0.16090E+01, time = 2.08 | CG iter. 8 -- res = 0.45900E+04, tol = 0.16090E+01, time = 2.32 | CG iter. 9 -- res = 0.20769E+04, tol = 0.16090E+01, time = 2.11 | CG iter. 10 -- res = 0.83730E+03, tol = 0.16090E+01, time = 2.15 | CG iter. 11 -- res = 0.35762E+03, tol = 0.16090E+01, time = 2.02 | CG iter. 12 -- res = 0.19126E+03, tol = 0.16090E+01, time = 2.17 | CG iter. 13 -- res = 0.95667E+02, tol = 0.16090E+01, time = 2.13 | CG iter. 14 -- res = 0.43990E+02, tol = 0.16090E+01, time = 2.05 | CG iter. 15 -- res = 0.19606E+02, tol = 0.16090E+01, time = 2.49 | CG iter. 16 -- res = 0.82242E+01, tol = 0.16090E+01, time = 2.03 | CG iter. 17 -- res = 0.34260E+01, tol = 0.16090E+01, time = 2.08 | CG iter. 18 -- res = 0.17315E+01, tol = 0.16090E+01, time = 2.11 | CG iter. 19 -- res = 0.88586E+00, tol = 0.16090E+01, time = 2.26 | CG iter. 20 -- res = 0.44858E+00, tol = 0.16090E+01, time = 2.17 | CG iter. 21 -- res = 0.19733E+00, tol = 0.16090E+01, time = 2.04 | CG iter. 22 -- res = 0.86776E-01, tol = 0.16090E+01, time = 2.28 | CG iter. 23 -- res = 0.38423E-01, tol = 0.16090E+01, time = 2.23 | CG iter. 24 -- res = 0.18662E-01, tol = 0.16090E+01, time = 2.10 | CG iter. 25 -- res = 0.95619E-02, tol = 0.16090E+01, time = 2.03 | CG iter. 26 -- res = 0.47203E-02, tol = 0.16090E+01, time = 2.06 | CG iter. 27 -- res = 0.23124E-02, tol = 0.16090E+01, time = 2.12 | CG iter. 28 -- res = 0.10517E-02, tol = 0.16090E+01, time = 2.11 | CG iter. 29 -- res = 0.45966E-03, tol = 0.16090E+01, time = 2.14 | CG iter. 30 -- res = 0.22727E-03, tol = 0.16090E+01, time = 2.22 | CG iter. 31 -- res = 0.11415E-03, tol = 0.16090E+01, time = 2.24 | CG iter. 32 -- res = 0.59028E-04, tol = 0.16090E+01, time = 1.99 | CG iter. 33 -- res = 0.28392E-04, tol = 0.16090E+01, time = 2.16 | CG iter. 34 -- res = 0.12723E-04, tol = 0.16090E+01, time = 2.25 | CG iter. 35 -- res = 0.59903E-05, tol = 0.16090E+01, time = 2.14 | CG iter. 36 -- res = 0.28974E-05, tol = 0.16090E+01, time = 2.19 | CG iter. 37 -- res = 0.14016E-05, tol = 0.16090E+01, time = 2.01 | CG iter. 38 -- res = 0.70626E-06, tol = 0.16090E+01, time = 2.36 | CG iter. 39 -- res = 0.35105E-06, tol = 0.16090E+01, time = 2.11 | CG iter. 40 -- res = 0.16150E-06, tol = 0.16090E+01, time = 2.12 | CG iter. 41 -- res = 0.73175E-07, tol = 0.16090E+01, time = 2.09 | CG iter. 42 -- res = 0.33914E-07, tol = 0.16090E+01, time = 2.14 | CG iter. 43 -- res = 0.16426E-07, tol = 0.16090E+01, time = 2.22 | CG iter. 44 -- res = 0.82332E-08, tol = 0.16090E+01, time = 2.10 | CG iter. 45 -- res = 0.38394E-08, tol = 0.16090E+01, time = 2.07 | CG iter. 46 -- res = 0.17690E-08, tol = 0.16090E+01, time = 2.17 | CG iter. 47 -- res = 0.83328E-09, tol = 0.16090E+01, time = 2.00 | CG iter. 48 -- res = 0.40025E-09, tol = 0.16090E+01, time = 6.26 | CG iter. 49 -- res = 0.18623E-09, tol = 0.16090E+01, time = 4.69 | CG iter. 50 -- res = 0.90278E-10, tol = 0.16090E+01, time = 2.10 | Final CG iter 51 -- res = 0.90278E-10, tol = 0.16090E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.439 6.093 | New value 0.335 | Old value 12.439 | Difference -12.104 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.33 | CG iter. 1 -- res = 0.15144E+06, tol = 0.47627E+18, time = 1.53 | CG iter. 2 -- res = 0.10309E+03, tol = 0.47627E+18, time = 1.56 | CG iter. 3 -- res = 0.24545E+01, tol = 0.47627E+18, time = 1.69 | CG iter. 4 -- res = 0.14618E-01, tol = 0.47627E+18, time = 1.65 | Final CG iter 5 -- res = 0.32335E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10566528.524 | (Sampled value in CG: 10641523.979 ) | CPU time specind = 968.5166 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 21.99 | CG iter. 1 -- res = 0.68847E+08, tol = 0.57754E+04, time = 11.35 | CG iter. 2 -- res = 0.59363E+08, tol = 0.57754E+04, time = 10.01 | CG iter. 3 -- res = 0.16006E+08, tol = 0.57754E+04, time = 9.54 | CG iter. 4 -- res = 0.68693E+07, tol = 0.57754E+04, time = 9.77 | CG iter. 5 -- res = 0.41871E+07, tol = 0.57754E+04, time = 9.69 | CG iter. 6 -- res = 0.24143E+07, tol = 0.57754E+04, time = 9.56 | CG iter. 7 -- res = 0.13952E+07, tol = 0.57754E+04, time = 9.48 | CG iter. 8 -- res = 0.92662E+06, tol = 0.57754E+04, time = 9.52 | CG iter. 9 -- res = 0.61493E+06, tol = 0.57754E+04, time = 9.25 | CG iter. 10 -- res = 0.38926E+06, tol = 0.57754E+04, time = 9.62 | CG iter. 11 -- res = 0.22289E+06, tol = 0.57754E+04, time = 9.56 | CG iter. 12 -- res = 0.12750E+06, tol = 0.57754E+04, time = 10.07 | CG iter. 13 -- res = 0.76033E+05, tol = 0.57754E+04, time = 9.76 | CG iter. 14 -- res = 0.53445E+05, tol = 0.57754E+04, time = 9.40 | CG iter. 15 -- res = 0.44437E+05, tol = 0.57754E+04, time = 9.71 | CG iter. 16 -- res = 0.40689E+05, tol = 0.57754E+04, time = 9.37 | CG iter. 17 -- res = 0.38515E+05, tol = 0.57754E+04, time = 9.60 | CG iter. 18 -- res = 0.35628E+05, tol = 0.57754E+04, time = 9.43 | CG iter. 19 -- res = 0.31891E+05, tol = 0.57754E+04, time = 9.57 | CG iter. 20 -- res = 0.28630E+05, tol = 0.57754E+04, time = 9.50 | CG iter. 21 -- res = 0.27194E+05, tol = 0.57754E+04, time = 9.66 | CG iter. 22 -- res = 0.26741E+05, tol = 0.57754E+04, time = 16.09 | CG iter. 23 -- res = 0.26224E+05, tol = 0.57754E+04, time = 9.63 | CG iter. 24 -- res = 0.24474E+05, tol = 0.57754E+04, time = 9.62 | CG iter. 25 -- res = 0.20061E+05, tol = 0.57754E+04, time = 9.62 | CG iter. 26 -- res = 0.14994E+05, tol = 0.57754E+04, time = 9.56 | CG iter. 27 -- res = 0.11180E+05, tol = 0.57754E+04, time = 9.72 | CG iter. 28 -- res = 0.85856E+04, tol = 0.57754E+04, time = 9.49 | CG iter. 29 -- res = 0.72002E+04, tol = 0.57754E+04, time = 9.81 | CG iter. 30 -- res = 0.65020E+04, tol = 0.57754E+04, time = 9.44 | CG iter. 31 -- res = 0.61340E+04, tol = 0.57754E+04, time = 11.10 | CG iter. 32 -- res = 0.56104E+04, tol = 0.57754E+04, time = 10.54 | CG iter. 33 -- res = 0.47596E+04, tol = 0.57754E+04, time = 9.66 | CG iter. 34 -- res = 0.39989E+04, tol = 0.57754E+04, time = 9.65 | CG iter. 35 -- res = 0.34596E+04, tol = 0.57754E+04, time = 9.66 | CG iter. 36 -- res = 0.31852E+04, tol = 0.57754E+04, time = 9.48 | CG iter. 37 -- res = 0.29851E+04, tol = 0.57754E+04, time = 9.53 | CG iter. 38 -- res = 0.27972E+04, tol = 0.57754E+04, time = 9.47 | CG iter. 39 -- res = 0.24933E+04, tol = 0.57754E+04, time = 9.76 | CG iter. 40 -- res = 0.20472E+04, tol = 0.57754E+04, time = 9.73 | CG iter. 41 -- res = 0.16629E+04, tol = 0.57754E+04, time = 9.19 | CG iter. 42 -- res = 0.13625E+04, tol = 0.57754E+04, time = 9.57 | CG iter. 43 -- res = 0.11697E+04, tol = 0.57754E+04, time = 9.44 | CG iter. 44 -- res = 0.10940E+04, tol = 0.57754E+04, time = 9.75 | CG iter. 45 -- res = 0.10478E+04, tol = 0.57754E+04, time = 9.32 | CG iter. 46 -- res = 0.10120E+04, tol = 0.57754E+04, time = 9.40 | CG iter. 47 -- res = 0.92530E+03, tol = 0.57754E+04, time = 9.46 | CG iter. 48 -- res = 0.81837E+03, tol = 0.57754E+04, time = 9.59 | CG iter. 49 -- res = 0.71922E+03, tol = 0.57754E+04, time = 9.70 | CG iter. 50 -- res = 0.66033E+03, tol = 0.57754E+04, time = 9.76 | CG iter. 51 -- res = 0.61673E+03, tol = 0.57754E+04, time = 9.84 | CG iter. 52 -- res = 0.56984E+03, tol = 0.57754E+04, time = 9.48 | CG iter. 53 -- res = 0.52222E+03, tol = 0.57754E+04, time = 15.51 | CG iter. 54 -- res = 0.46929E+03, tol = 0.57754E+04, time = 9.75 | CG iter. 55 -- res = 0.41032E+03, tol = 0.57754E+04, time = 9.66 | CG iter. 56 -- res = 0.35447E+03, tol = 0.57754E+04, time = 9.63 | CG iter. 57 -- res = 0.32413E+03, tol = 0.57754E+04, time = 9.68 | CG iter. 58 -- res = 0.30318E+03, tol = 0.57754E+04, time = 9.30 | CG iter. 59 -- res = 0.28188E+03, tol = 0.57754E+04, time = 9.51 | CG iter. 60 -- res = 0.26516E+03, tol = 0.57754E+04, time = 9.53 | Final CG iter 61 -- res = 0.26516E+03, tol = 0.57754E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.778 ( -229.729 -2228.476 2510.487 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7266110.608 | Old band monopole 10566573.973 | Change to band monopole -3300463.365 | Change to component monopole 3300449.169 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.844 2.747 | New value -0.595 | Old value 0.844 | Difference -1.439 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.454 ( 7.344 6.898 -5.834 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.015 5.734 | New value -0.583 | Old value 3.015 | Difference -3.598 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.48 | CG iter. 1 -- res = 0.36971E+06, tol = 0.47627E+18, time = 1.43 | CG iter. 2 -- res = 0.89189E+02, tol = 0.47627E+18, time = 1.55 | CG iter. 3 -- res = 0.31851E+01, tol = 0.47627E+18, time = 1.56 | CG iter. 4 -- res = 0.34569E-02, tol = 0.47627E+18, time = 1.52 | Final CG iter 5 -- res = 0.20682E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7266079.355 | (Sampled value in CG: 7243508.455 ) | Chain = 1 -- chisq = 0.81583344E+09 | Chain = 1 -- wall time = 5779.488 sec Available RAM: MemAvailable: 374085592 kB Available Swap: SwapFree: 1146555104 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 169 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446103 | --> Sampling calibration, mode = relcal | relcal = 1.3437441E-02 7.4722129E-04 -1.6054587E-03 -1.2579204E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9841885E-02 0.1178693 97032096.9895416 | BP delta = 0.1008187 0.1188461 97032095.9383324 | BP chisq diff = -1.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632245 | --> Sampling calibration, mode = relcal | relcal = -2.8200320E-03 -7.0420856E-04 1.6774189E-03 1.6134722E-03 -4.0694312E-04 6.4029254E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5923060 15215659.8027252 | BP delta = 0.0000000E+00 -0.5838005 15215654.2814442 | BP chisq diff = -5.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18354251458944 | --> Sampling calibration, mode = relcal | relcal = -7.4367009E-02 -5.8367450E-02 9.1393672E-02 4.1340791E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.1637262E-04 4.3199472E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6122E-05 | 2: delta_r/delta_0: 7.5395E-07 | 3: delta_s/delta_0: 2.5049E-07 | 4: delta_r/delta_0: 1.0474E-08 | 5: delta_s/delta_0: 4.4210E-09 | 6: delta_r/delta_0: 1.0116E-09 | 7: delta_s/delta_0: 2.7098E-09 | 8: delta_r/delta_0: 9.7006E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.612919431194885E-004 2.735313650975632E-005 | BP delta = 2.4548020E-02 3.9865945E-02 50483702.5420498 | BP delta = 1.8849922E-02 3.4167849E-02 50483702.3989938 | BP chisq diff = -0.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02562141 | --> Sampling calibration, mode = relcal | relcal = -0.1066400 -9.5499054E-02 0.1448565 5.7282560E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2161074E-03 1.3545707E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3941E-05 | 2: delta_r/delta_0: 1.5748E-06 | 3: delta_s/delta_0: 2.4498E-07 | 4: delta_r/delta_0: 6.0041E-08 | 5: delta_s/delta_0: 3.1911E-08 | 6: delta_r/delta_0: 8.8408E-09 | 7: delta_s/delta_0: 5.8917E-09 | 8: delta_r/delta_0: 2.2815E-09 | 9: delta_s/delta_0: 1.0940E-09 | 10: delta_r/delta_0: 8.0951E-10 | 11: delta_s/delta_0: 2.3269E-07 | 12: delta_r/delta_0: 4.5980E-09 | 13: delta_s/delta_0: 1.5021E-10 | 14: delta_r/delta_0: 9.8331E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.020777052424223E-002 2.811856954875400E-005 | BP delta = -0.2770439 -0.2513743 57390879.4761874 | BP delta = -0.2838878 -0.2582181 57390879.2894841 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81197268 | --> Sampling calibration, mode = relcal | relcal = 0.2953526 0.2248005 -0.2837386 -0.2364145 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0295946E-03 6.2736687E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2957E-03 | 2: delta_r/delta_0: 7.6502E-05 | 3: delta_s/delta_0: 1.5795E-05 | 4: delta_r/delta_0: 1.4804E-06 | 5: delta_s/delta_0: 3.5357E-06 | 6: delta_r/delta_0: 2.6909E-07 | 7: delta_s/delta_0: 4.7253E-08 | 8: delta_r/delta_0: 2.0111E-08 | 9: delta_s/delta_0: 2.8408E-07 | 10: delta_r/delta_0: 7.1420E-09 | 11: delta_s/delta_0: 7.2369E-09 | 12: delta_r/delta_0: 4.7169E-10 | 13: delta_s/delta_0: 2.2563E-10 | 14: delta_r/delta_0: 9.2159E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.315933825085600E-002 4.023047075541910E-005 | BP delta = -0.1420606 -0.1601098 72486873.2883604 | BP delta = -0.1736932 -0.1917424 72486872.4244976 | BP chisq diff = -0.9, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95876002 | --> Sampling calibration, mode = relcal | relcal = 0.1064822 0.1394424 -0.1101564 -0.1357683 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0116145E-02 1.3189905E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3131E-04 | 2: delta_r/delta_0: 5.9605E-06 | 3: delta_s/delta_0: 1.2903E-05 | 4: delta_r/delta_0: 1.3921E-06 | 5: delta_s/delta_0: 2.0693E-07 | 6: delta_r/delta_0: 1.2882E-07 | 7: delta_s/delta_0: 7.3890E-07 | 8: delta_r/delta_0: 2.7948E-08 | 9: delta_s/delta_0: 2.1907E-06 | 10: delta_r/delta_0: 1.0178E-06 | 11: delta_s/delta_0: 1.7161E-09 | 12: delta_r/delta_0: 7.1149E-10 | 13: delta_s/delta_0: 3.0309E-09 | 14: delta_r/delta_0: 5.9537E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.016414592303905E-002 3.698656598699954E-005 | BP delta = 5.0351281E-02 0.1620519 72775251.4177919 | BP delta = 5.8238301E-02 0.1699389 72775251.2357080 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123373 | New value = -3.191967 | poltype: 2 pol: 1 CPU time specind = 4.0509701E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126505 | New value = -3.155701 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.223107 | New value = -3.094120 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111331 | New value = -3.194068 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.097543 | New value = -3.199739 | poltype: 2 pol: 2 CPU time specind = 4.4121742E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.13563E+08, tol = 0.90959E+01, time = 4.69 | CG iter. 2 -- res = 0.33874E+06, tol = 0.90959E+01, time = 4.37 | CG iter. 3 -- res = 0.59275E+05, tol = 0.90959E+01, time = 4.64 | CG iter. 4 -- res = 0.41922E+05, tol = 0.90959E+01, time = 5.22 | CG iter. 5 -- res = 0.35534E+05, tol = 0.90959E+01, time = 4.61 | CG iter. 6 -- res = 0.34531E+05, tol = 0.90959E+01, time = 4.77 | CG iter. 7 -- res = 0.34167E+05, tol = 0.90959E+01, time = 4.58 | CG iter. 8 -- res = 0.28376E+05, tol = 0.90959E+01, time = 4.53 | CG iter. 9 -- res = 0.24462E+05, tol = 0.90959E+01, time = 4.49 | CG iter. 10 -- res = 0.20357E+05, tol = 0.90959E+01, time = 4.62 | CG iter. 11 -- res = 0.14659E+05, tol = 0.90959E+01, time = 4.60 | CG iter. 12 -- res = 0.10156E+05, tol = 0.90959E+01, time = 4.63 | CG iter. 13 -- res = 0.79301E+04, tol = 0.90959E+01, time = 4.42 | CG iter. 14 -- res = 0.73233E+04, tol = 0.90959E+01, time = 4.54 | CG iter. 15 -- res = 0.63964E+04, tol = 0.90959E+01, time = 4.63 | CG iter. 16 -- res = 0.47802E+04, tol = 0.90959E+01, time = 4.61 | CG iter. 17 -- res = 0.33484E+04, tol = 0.90959E+01, time = 4.67 | CG iter. 18 -- res = 0.26877E+04, tol = 0.90959E+01, time = 4.51 | CG iter. 19 -- res = 0.23476E+04, tol = 0.90959E+01, time = 4.48 | CG iter. 20 -- res = 0.18864E+04, tol = 0.90959E+01, time = 4.52 | CG iter. 21 -- res = 0.14049E+04, tol = 0.90959E+01, time = 4.66 | CG iter. 22 -- res = 0.11645E+04, tol = 0.90959E+01, time = 4.58 | CG iter. 23 -- res = 0.10365E+04, tol = 0.90959E+01, time = 4.54 | CG iter. 24 -- res = 0.84513E+03, tol = 0.90959E+01, time = 4.62 | CG iter. 25 -- res = 0.62342E+03, tol = 0.90959E+01, time = 9.27 | CG iter. 26 -- res = 0.48225E+03, tol = 0.90959E+01, time = 6.39 | CG iter. 27 -- res = 0.41373E+03, tol = 0.90959E+01, time = 4.69 | CG iter. 28 -- res = 0.37570E+03, tol = 0.90959E+01, time = 4.50 | CG iter. 29 -- res = 0.30263E+03, tol = 0.90959E+01, time = 4.80 | CG iter. 30 -- res = 0.24022E+03, tol = 0.90959E+01, time = 4.50 | CG iter. 31 -- res = 0.20826E+03, tol = 0.90959E+01, time = 4.52 | CG iter. 32 -- res = 0.18118E+03, tol = 0.90959E+01, time = 4.45 | CG iter. 33 -- res = 0.15278E+03, tol = 0.90959E+01, time = 4.57 | CG iter. 34 -- res = 0.11713E+03, tol = 0.90959E+01, time = 4.60 | CG iter. 35 -- res = 0.98046E+02, tol = 0.90959E+01, time = 4.54 | CG iter. 36 -- res = 0.90397E+02, tol = 0.90959E+01, time = 4.55 | CG iter. 37 -- res = 0.79207E+02, tol = 0.90959E+01, time = 4.75 | CG iter. 38 -- res = 0.64152E+02, tol = 0.90959E+01, time = 4.53 | CG iter. 39 -- res = 0.52940E+02, tol = 0.90959E+01, time = 4.38 | CG iter. 40 -- res = 0.46623E+02, tol = 0.90959E+01, time = 4.80 | CG iter. 41 -- res = 0.41665E+02, tol = 0.90959E+01, time = 4.79 | CG iter. 42 -- res = 0.34548E+02, tol = 0.90959E+01, time = 4.50 | CG iter. 43 -- res = 0.28600E+02, tol = 0.90959E+01, time = 4.57 | CG iter. 44 -- res = 0.24247E+02, tol = 0.90959E+01, time = 6.38 | CG iter. 45 -- res = 0.21184E+02, tol = 0.90959E+01, time = 4.88 | CG iter. 46 -- res = 0.17365E+02, tol = 0.90959E+01, time = 4.71 | CG iter. 47 -- res = 0.13730E+02, tol = 0.90959E+01, time = 4.50 | CG iter. 48 -- res = 0.11267E+02, tol = 0.90959E+01, time = 4.55 | CG iter. 49 -- res = 0.96382E+01, tol = 0.90959E+01, time = 4.53 | CG iter. 50 -- res = 0.81970E+01, tol = 0.90959E+01, time = 4.62 | Final CG iter 51 -- res = 0.81970E+01, tol = 0.90959E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9448111.343 | Old band monopole 7266110.608 | Change to band monopole 2182000.734 | Change to component monopole -2181991.349 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.26 | CG iter. 1 -- res = 0.63315E+06, tol = 0.47627E+18, time = 1.54 | CG iter. 2 -- res = 0.20770E+03, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.47848E+01, tol = 0.47627E+18, time = 1.61 | CG iter. 4 -- res = 0.21391E-01, tol = 0.47627E+18, time = 1.68 | Final CG iter 5 -- res = 0.52029E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9448070.705 | (Sampled value in CG: 9386682.755 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.432689 | New value = 1.495552 | poltype: 2 pol: 1 CPU time specind = 4.5108795E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.546215 | New value = 1.495722 | poltype: 2 pol: 2 CPU time specind = 2.8088093E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.24795E+08, tol = 0.47574E+04, time = 5.41 | CG iter. 2 -- res = 0.53791E+07, tol = 0.47574E+04, time = 5.14 | CG iter. 3 -- res = 0.82553E+06, tol = 0.47574E+04, time = 5.32 | CG iter. 4 -- res = 0.33614E+06, tol = 0.47574E+04, time = 5.36 | CG iter. 5 -- res = 0.14366E+06, tol = 0.47574E+04, time = 5.19 | CG iter. 6 -- res = 0.77017E+05, tol = 0.47574E+04, time = 5.34 | CG iter. 7 -- res = 0.42577E+05, tol = 0.47574E+04, time = 5.36 | CG iter. 8 -- res = 0.20306E+05, tol = 0.47574E+04, time = 5.10 | CG iter. 9 -- res = 0.86596E+04, tol = 0.47574E+04, time = 5.41 | CG iter. 10 -- res = 0.35538E+04, tol = 0.47574E+04, time = 5.46 | CG iter. 11 -- res = 0.16685E+04, tol = 0.47574E+04, time = 5.31 | CG iter. 12 -- res = 0.84895E+03, tol = 0.47574E+04, time = 5.21 | CG iter. 13 -- res = 0.47370E+03, tol = 0.47574E+04, time = 5.36 | CG iter. 14 -- res = 0.26449E+03, tol = 0.47574E+04, time = 7.23 | CG iter. 15 -- res = 0.13658E+03, tol = 0.47574E+04, time = 10.57 | CG iter. 16 -- res = 0.65033E+02, tol = 0.47574E+04, time = 5.33 | CG iter. 17 -- res = 0.30329E+02, tol = 0.47574E+04, time = 5.38 | CG iter. 18 -- res = 0.14877E+02, tol = 0.47574E+04, time = 5.20 | CG iter. 19 -- res = 0.81814E+01, tol = 0.47574E+04, time = 5.21 | CG iter. 20 -- res = 0.47006E+01, tol = 0.47574E+04, time = 5.31 | CG iter. 21 -- res = 0.25942E+01, tol = 0.47574E+04, time = 5.28 | CG iter. 22 -- res = 0.13296E+01, tol = 0.47574E+04, time = 5.19 | CG iter. 23 -- res = 0.65446E+00, tol = 0.47574E+04, time = 5.39 | CG iter. 24 -- res = 0.33123E+00, tol = 0.47574E+04, time = 5.27 | CG iter. 25 -- res = 0.17904E+00, tol = 0.47574E+04, time = 5.13 | CG iter. 26 -- res = 0.10482E+00, tol = 0.47574E+04, time = 5.19 | CG iter. 27 -- res = 0.58394E-01, tol = 0.47574E+04, time = 5.33 | CG iter. 28 -- res = 0.30160E-01, tol = 0.47574E+04, time = 5.49 | CG iter. 29 -- res = 0.15380E-01, tol = 0.47574E+04, time = 5.24 | CG iter. 30 -- res = 0.81789E-02, tol = 0.47574E+04, time = 6.26 | CG iter. 31 -- res = 0.45685E-02, tol = 0.47574E+04, time = 5.98 | CG iter. 32 -- res = 0.25841E-02, tol = 0.47574E+04, time = 5.88 | CG iter. 33 -- res = 0.14533E-02, tol = 0.47574E+04, time = 5.23 | CG iter. 34 -- res = 0.78166E-03, tol = 0.47574E+04, time = 5.67 | CG iter. 35 -- res = 0.40760E-03, tol = 0.47574E+04, time = 5.42 | Final CG iter 36 -- res = 0.40760E-03, tol = 0.47574E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.610 2.709 | New value -3.523 | Old value -0.610 | Difference -2.914 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.45215E+06, tol = 0.47627E+18, time = 1.58 | CG iter. 2 -- res = 0.76815E+02, tol = 0.47627E+18, time = 1.60 | CG iter. 3 -- res = 0.24320E+01, tol = 0.47627E+18, time = 1.65 | CG iter. 4 -- res = 0.35766E-02, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.55758E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9448070.705 | (Sampled value in CG: 9385444.301 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.684913 | New value = -3.459824 | poltype: 1 pol: 1 CPU time specind = 4.3609142E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.34 | CG iter. 1 -- res = 0.31342E+07, tol = 0.18693E+01, time = 2.08 | CG iter. 2 -- res = 0.14736E+07, tol = 0.18693E+01, time = 2.12 | CG iter. 3 -- res = 0.31009E+06, tol = 0.18693E+01, time = 2.10 | CG iter. 4 -- res = 0.13471E+06, tol = 0.18693E+01, time = 1.99 | CG iter. 5 -- res = 0.77175E+05, tol = 0.18693E+01, time = 2.09 | CG iter. 6 -- res = 0.35799E+05, tol = 0.18693E+01, time = 2.00 | CG iter. 7 -- res = 0.13416E+05, tol = 0.18693E+01, time = 2.31 | CG iter. 8 -- res = 0.60972E+04, tol = 0.18693E+01, time = 2.03 | CG iter. 9 -- res = 0.28703E+04, tol = 0.18693E+01, time = 2.15 | CG iter. 10 -- res = 0.11800E+04, tol = 0.18693E+01, time = 2.11 | CG iter. 11 -- res = 0.48684E+03, tol = 0.18693E+01, time = 2.28 | CG iter. 12 -- res = 0.22225E+03, tol = 0.18693E+01, time = 2.15 | CG iter. 13 -- res = 0.11356E+03, tol = 0.18693E+01, time = 2.05 | CG iter. 14 -- res = 0.57968E+02, tol = 0.18693E+01, time = 2.06 | CG iter. 15 -- res = 0.27891E+02, tol = 0.18693E+01, time = 2.17 | CG iter. 16 -- res = 0.13386E+02, tol = 0.18693E+01, time = 2.16 | CG iter. 17 -- res = 0.56148E+01, tol = 0.18693E+01, time = 2.12 | CG iter. 18 -- res = 0.24612E+01, tol = 0.18693E+01, time = 2.22 | CG iter. 19 -- res = 0.11605E+01, tol = 0.18693E+01, time = 2.07 | CG iter. 20 -- res = 0.59627E+00, tol = 0.18693E+01, time = 2.45 | CG iter. 21 -- res = 0.29884E+00, tol = 0.18693E+01, time = 3.31 | CG iter. 22 -- res = 0.14476E+00, tol = 0.18693E+01, time = 2.43 | CG iter. 23 -- res = 0.68447E-01, tol = 0.18693E+01, time = 2.44 | CG iter. 24 -- res = 0.33409E-01, tol = 0.18693E+01, time = 2.66 | CG iter. 25 -- res = 0.15233E-01, tol = 0.18693E+01, time = 2.55 | CG iter. 26 -- res = 0.70817E-02, tol = 0.18693E+01, time = 2.06 | CG iter. 27 -- res = 0.35798E-02, tol = 0.18693E+01, time = 2.12 | CG iter. 28 -- res = 0.18949E-02, tol = 0.18693E+01, time = 2.12 | CG iter. 29 -- res = 0.95378E-03, tol = 0.18693E+01, time = 2.16 | CG iter. 30 -- res = 0.47037E-03, tol = 0.18693E+01, time = 2.18 | CG iter. 31 -- res = 0.21204E-03, tol = 0.18693E+01, time = 2.02 | CG iter. 32 -- res = 0.97338E-04, tol = 0.18693E+01, time = 2.25 | CG iter. 33 -- res = 0.46926E-04, tol = 0.18693E+01, time = 2.20 | CG iter. 34 -- res = 0.23338E-04, tol = 0.18693E+01, time = 1.99 | CG iter. 35 -- res = 0.12253E-04, tol = 0.18693E+01, time = 2.03 | CG iter. 36 -- res = 0.62265E-05, tol = 0.18693E+01, time = 2.15 | CG iter. 37 -- res = 0.28652E-05, tol = 0.18693E+01, time = 2.08 | CG iter. 38 -- res = 0.13527E-05, tol = 0.18693E+01, time = 2.23 | CG iter. 39 -- res = 0.65278E-06, tol = 0.18693E+01, time = 2.16 | CG iter. 40 -- res = 0.31368E-06, tol = 0.18693E+01, time = 2.10 | CG iter. 41 -- res = 0.15637E-06, tol = 0.18693E+01, time = 2.20 | CG iter. 42 -- res = 0.81929E-07, tol = 0.18693E+01, time = 2.16 | CG iter. 43 -- res = 0.38294E-07, tol = 0.18693E+01, time = 2.27 | CG iter. 44 -- res = 0.17999E-07, tol = 0.18693E+01, time = 2.35 | CG iter. 45 -- res = 0.83737E-08, tol = 0.18693E+01, time = 2.03 | CG iter. 46 -- res = 0.39633E-08, tol = 0.18693E+01, time = 2.22 | CG iter. 47 -- res = 0.19853E-08, tol = 0.18693E+01, time = 2.14 | CG iter. 48 -- res = 0.10394E-08, tol = 0.18693E+01, time = 2.13 | CG iter. 49 -- res = 0.49627E-09, tol = 0.18693E+01, time = 2.09 | CG iter. 50 -- res = 0.23364E-09, tol = 0.18693E+01, time = 2.13 | Final CG iter 51 -- res = 0.23364E-09, tol = 0.18693E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.893 6.497 | New value 9.972 | Old value -5.893 | Difference 15.865 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.26365E+06, tol = 0.47627E+18, time = 1.50 | CG iter. 2 -- res = 0.99735E+02, tol = 0.47627E+18, time = 1.55 | CG iter. 3 -- res = 0.32512E+01, tol = 0.47627E+18, time = 1.66 | CG iter. 4 -- res = 0.11118E-01, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.57688E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9448070.705 | (Sampled value in CG: 9402186.149 ) | CPU time specind = 966.8506 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.27 | CG iter. 1 -- res = 0.71479E+08, tol = 0.57524E+04, time = 9.62 | CG iter. 2 -- res = 0.59678E+08, tol = 0.57524E+04, time = 9.67 | CG iter. 3 -- res = 0.15461E+08, tol = 0.57524E+04, time = 9.64 | CG iter. 4 -- res = 0.68254E+07, tol = 0.57524E+04, time = 9.16 | CG iter. 5 -- res = 0.41475E+07, tol = 0.57524E+04, time = 9.66 | CG iter. 6 -- res = 0.23693E+07, tol = 0.57524E+04, time = 9.51 | CG iter. 7 -- res = 0.13744E+07, tol = 0.57524E+04, time = 16.29 | CG iter. 8 -- res = 0.90102E+06, tol = 0.57524E+04, time = 9.43 | CG iter. 9 -- res = 0.56677E+06, tol = 0.57524E+04, time = 9.73 | CG iter. 10 -- res = 0.33001E+06, tol = 0.57524E+04, time = 9.99 | CG iter. 11 -- res = 0.18117E+06, tol = 0.57524E+04, time = 9.29 | CG iter. 12 -- res = 0.10179E+06, tol = 0.57524E+04, time = 9.46 | CG iter. 13 -- res = 0.59184E+05, tol = 0.57524E+04, time = 9.61 | CG iter. 14 -- res = 0.37440E+05, tol = 0.57524E+04, time = 9.67 | CG iter. 15 -- res = 0.26701E+05, tol = 0.57524E+04, time = 9.66 | CG iter. 16 -- res = 0.21404E+05, tol = 0.57524E+04, time = 11.50 | CG iter. 17 -- res = 0.17754E+05, tol = 0.57524E+04, time = 9.98 | CG iter. 18 -- res = 0.14758E+05, tol = 0.57524E+04, time = 9.88 | CG iter. 19 -- res = 0.12458E+05, tol = 0.57524E+04, time = 9.33 | CG iter. 20 -- res = 0.10737E+05, tol = 0.57524E+04, time = 9.74 | CG iter. 21 -- res = 0.98462E+04, tol = 0.57524E+04, time = 9.65 | CG iter. 22 -- res = 0.10067E+05, tol = 0.57524E+04, time = 9.50 | CG iter. 23 -- res = 0.10687E+05, tol = 0.57524E+04, time = 9.65 | CG iter. 24 -- res = 0.11031E+05, tol = 0.57524E+04, time = 9.59 | CG iter. 25 -- res = 0.10320E+05, tol = 0.57524E+04, time = 9.51 | CG iter. 26 -- res = 0.84651E+04, tol = 0.57524E+04, time = 9.33 | CG iter. 27 -- res = 0.64763E+04, tol = 0.57524E+04, time = 10.33 | CG iter. 28 -- res = 0.50380E+04, tol = 0.57524E+04, time = 9.60 | CG iter. 29 -- res = 0.40752E+04, tol = 0.57524E+04, time = 9.57 | CG iter. 30 -- res = 0.34223E+04, tol = 0.57524E+04, time = 9.65 | CG iter. 31 -- res = 0.29427E+04, tol = 0.57524E+04, time = 9.51 | CG iter. 32 -- res = 0.24855E+04, tol = 0.57524E+04, time = 9.55 | CG iter. 33 -- res = 0.21022E+04, tol = 0.57524E+04, time = 9.75 | CG iter. 34 -- res = 0.17438E+04, tol = 0.57524E+04, time = 9.56 | CG iter. 35 -- res = 0.14832E+04, tol = 0.57524E+04, time = 9.53 | CG iter. 36 -- res = 0.13448E+04, tol = 0.57524E+04, time = 9.70 | CG iter. 37 -- res = 0.13159E+04, tol = 0.57524E+04, time = 10.93 | CG iter. 38 -- res = 0.13172E+04, tol = 0.57524E+04, time = 15.03 | CG iter. 39 -- res = 0.12369E+04, tol = 0.57524E+04, time = 9.36 | CG iter. 40 -- res = 0.10482E+04, tol = 0.57524E+04, time = 9.38 | CG iter. 41 -- res = 0.85216E+03, tol = 0.57524E+04, time = 9.70 | CG iter. 42 -- res = 0.70035E+03, tol = 0.57524E+04, time = 9.52 | CG iter. 43 -- res = 0.59568E+03, tol = 0.57524E+04, time = 9.44 | CG iter. 44 -- res = 0.53053E+03, tol = 0.57524E+04, time = 9.74 | CG iter. 45 -- res = 0.47845E+03, tol = 0.57524E+04, time = 9.62 | CG iter. 46 -- res = 0.42529E+03, tol = 0.57524E+04, time = 10.69 | CG iter. 47 -- res = 0.37478E+03, tol = 0.57524E+04, time = 10.72 | CG iter. 48 -- res = 0.32029E+03, tol = 0.57524E+04, time = 9.37 | CG iter. 49 -- res = 0.27722E+03, tol = 0.57524E+04, time = 9.72 | CG iter. 50 -- res = 0.25323E+03, tol = 0.57524E+04, time = 9.32 | CG iter. 51 -- res = 0.23831E+03, tol = 0.57524E+04, time = 9.79 | CG iter. 52 -- res = 0.23255E+03, tol = 0.57524E+04, time = 9.70 | CG iter. 53 -- res = 0.21886E+03, tol = 0.57524E+04, time = 9.70 | CG iter. 54 -- res = 0.19711E+03, tol = 0.57524E+04, time = 9.22 | CG iter. 55 -- res = 0.17560E+03, tol = 0.57524E+04, time = 9.94 | CG iter. 56 -- res = 0.15757E+03, tol = 0.57524E+04, time = 9.28 | CG iter. 57 -- res = 0.14038E+03, tol = 0.57524E+04, time = 9.60 | CG iter. 58 -- res = 0.12717E+03, tol = 0.57524E+04, time = 9.59 | CG iter. 59 -- res = 0.11685E+03, tol = 0.57524E+04, time = 9.71 | CG iter. 60 -- res = 0.10667E+03, tol = 0.57524E+04, time = 9.25 | Final CG iter 61 -- res = 0.10667E+03, tol = 0.57524E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.979 ( -229.780 -2228.176 2510.466 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7017210.388 | Old band monopole 9448111.343 | Change to band monopole -2430900.955 | Change to component monopole 2430890.499 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.536 2.718 | New value -1.787 | Old value -3.536 | Difference 1.749 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.110 ( 7.065 7.559 -6.536 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.086 5.409 | New value 3.390 | Old value 14.086 | Difference -10.696 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.48 | CG iter. 1 -- res = 0.15873E+06, tol = 0.47627E+18, time = 1.51 | CG iter. 2 -- res = 0.14373E+02, tol = 0.47627E+18, time = 1.55 | CG iter. 3 -- res = 0.30886E+00, tol = 0.47627E+18, time = 1.58 | CG iter. 4 -- res = 0.20088E-03, tol = 0.47627E+18, time = 1.51 | Final CG iter 5 -- res = 0.90530E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7017180.205 | (Sampled value in CG: 6999382.122 ) | Chain = 1 -- chisq = 0.81599808E+09 | Chain = 1 -- wall time = 5248.608 sec Available RAM: MemAvailable: 373406232 kB Available Swap: SwapFree: 1146877552 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 170 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445020 | --> Sampling calibration, mode = relcal | relcal = 1.3437140E-02 7.3688652E-04 -1.5962094E-03 -1.2577817E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1008187 0.1188461 9405241.66408679 | BP delta = 0.1008187 0.1219719 9405318.72392868 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632304 | --> Sampling calibration, mode = relcal | relcal = -2.8200834E-03 -7.0541771E-04 1.6786923E-03 1.6125215E-03 -4.0593755E-04 6.4022496E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5838005 15217928.6034200 | BP delta = 0.0000000E+00 -0.5836398 15217929.7844380 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18166175854941 | --> Sampling calibration, mode = relcal | relcal = -7.4163258E-02 -5.7998225E-02 9.1025345E-02 4.1136138E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.6965772E-05 3.8548445E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.6639E-05 | 2: delta_r/delta_0: 2.3451E-06 | 3: delta_s/delta_0: 2.1758E-07 | 4: delta_r/delta_0: 1.7719E-08 | 5: delta_s/delta_0: 1.0026E-08 | 6: delta_r/delta_0: 2.7560E-09 | 7: delta_s/delta_0: 2.0112E-09 | 8: delta_r/delta_0: 1.0602E-10 | 9: delta_s/delta_0: 3.2313E-10 | 10: delta_r/delta_0: 1.8349E-10 | 11: delta_s/delta_0: 3.5633E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.125684499132609E-003 2.739677407420848E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.6638E-05 | 2: delta_r/delta_0: 2.3451E-06 | 3: delta_s/delta_0: 2.1758E-07 | 4: delta_r/delta_0: 1.7719E-08 | 5: delta_s/delta_0: 1.0026E-08 | 6: delta_r/delta_0: 2.7560E-09 | 7: delta_s/delta_0: 2.0112E-09 | 8: delta_r/delta_0: 1.0602E-10 | 9: delta_s/delta_0: 3.2315E-10 | 10: delta_r/delta_0: 1.8350E-10 | 11: delta_s/delta_0: 3.5634E-11 | Reached bicg-stab tolerance | BP delta = 1.8849922E-02 3.4167849E-02 3679848.32089796 | BP delta = 1.8849922E-02 3.4259036E-02 3679646.36805889 | BP chisq diff = -202.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02568968 | --> Sampling calibration, mode = relcal | relcal = -0.1066485 -9.5474668E-02 0.1448525 5.7270635E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1902231E-03 1.4165177E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5961E-05 | 2: delta_r/delta_0: 1.2791E-06 | 3: delta_s/delta_0: 2.5918E-07 | 4: delta_r/delta_0: 6.0605E-08 | 5: delta_s/delta_0: 1.6663E-08 | 6: delta_r/delta_0: 7.9613E-09 | 7: delta_s/delta_0: 1.4632E-04 | 8: delta_r/delta_0: 9.1693E-06 | 9: delta_s/delta_0: 8.6064E-10 | 10: delta_r/delta_0: 6.2375E-10 | 11: delta_s/delta_0: 3.1130E-09 | 12: delta_r/delta_0: 9.2848E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.938724773156745E-003 2.811658378522192E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5961E-05 | 2: delta_r/delta_0: 1.2791E-06 | 3: delta_s/delta_0: 2.5918E-07 | 4: delta_r/delta_0: 6.0604E-08 | 5: delta_s/delta_0: 1.6663E-08 | 6: delta_r/delta_0: 7.9614E-09 | 7: delta_s/delta_0: 1.4629E-04 | 8: delta_r/delta_0: 9.1677E-06 | 9: delta_s/delta_0: 8.6066E-10 | 10: delta_r/delta_0: 6.2376E-10 | 11: delta_s/delta_0: 3.1131E-09 | 12: delta_r/delta_0: 9.2848E-11 | Reached bicg-stab tolerance | BP delta = -0.2838878 -0.2582181 2841703.87073779 | BP delta = -0.2838878 -0.2611714 2841706.92245083 | BP chisq diff = 3.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81209842 | --> Sampling calibration, mode = relcal | relcal = 0.2955215 0.2246818 -0.2837021 -0.2365012 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1323380E-04 5.3542862E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2389E-03 | 2: delta_r/delta_0: 5.3501E-05 | 3: delta_s/delta_0: 3.6269E-05 | 4: delta_r/delta_0: 2.4915E-06 | 5: delta_s/delta_0: 7.8798E-07 | 6: delta_r/delta_0: 2.8519E-07 | 7: delta_s/delta_0: 8.3123E-07 | 8: delta_r/delta_0: 5.1076E-08 | 9: delta_s/delta_0: 9.0397E-08 | 10: delta_r/delta_0: 5.7996E-08 | 11: delta_s/delta_0: 2.1981E-09 | 12: delta_r/delta_0: 1.3116E-09 | 13: delta_s/delta_0: 5.4250E-09 | 14: delta_r/delta_0: 1.6204E-09 | 15: delta_s/delta_0: 9.7580E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.834254685596233E-002 4.022345139345942E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2412E-03 | 2: delta_r/delta_0: 5.3554E-05 | 3: delta_s/delta_0: 3.6298E-05 | 4: delta_r/delta_0: 2.4933E-06 | 5: delta_s/delta_0: 7.8834E-07 | 6: delta_r/delta_0: 2.8523E-07 | 7: delta_s/delta_0: 8.3102E-07 | 8: delta_r/delta_0: 5.1094E-08 | 9: delta_s/delta_0: 9.0488E-08 | 10: delta_r/delta_0: 5.8036E-08 | 11: delta_s/delta_0: 2.2005E-09 | 12: delta_r/delta_0: 1.3120E-09 | 13: delta_s/delta_0: 5.4333E-09 | 14: delta_r/delta_0: 1.6207E-09 | 15: delta_s/delta_0: 9.7566E-11 | Reached bicg-stab tolerance | BP delta = -0.1736932 -0.1917424 2827339.76697035 | BP delta = -0.1736932 -0.1816447 2827410.86703324 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95879108 | --> Sampling calibration, mode = relcal | relcal = 0.1065011 0.1395233 -0.1102197 -0.1358047 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7614033E-03 1.4010178E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2316E-04 | 2: delta_r/delta_0: 1.2796E-05 | 3: delta_s/delta_0: 9.2708E-06 | 4: delta_r/delta_0: 6.2522E-07 | 5: delta_s/delta_0: 3.5772E-07 | 6: delta_r/delta_0: 1.8040E-07 | 7: delta_s/delta_0: 6.9143E-08 | 8: delta_r/delta_0: 4.5865E-08 | 9: delta_s/delta_0: 4.7326E-08 | 10: delta_r/delta_0: 6.9709E-09 | 11: delta_s/delta_0: 1.6278E-09 | 12: delta_r/delta_0: 1.1494E-09 | 13: delta_s/delta_0: 3.1700E-10 | 14: delta_r/delta_0: 2.3391E-10 | 15: delta_s/delta_0: 8.6043E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.223686313331287E-002 3.698616628670428E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.2315E-04 | 2: delta_r/delta_0: 1.2796E-05 | 3: delta_s/delta_0: 9.2706E-06 | 4: delta_r/delta_0: 6.2520E-07 | 5: delta_s/delta_0: 3.5771E-07 | 6: delta_r/delta_0: 1.8039E-07 | 7: delta_s/delta_0: 6.9130E-08 | 8: delta_r/delta_0: 4.5864E-08 | 9: delta_s/delta_0: 4.7350E-08 | 10: delta_r/delta_0: 6.9702E-09 | 11: delta_s/delta_0: 1.6272E-09 | 12: delta_r/delta_0: 1.1490E-09 | 13: delta_s/delta_0: 3.1703E-10 | 14: delta_r/delta_0: 2.3389E-10 | 15: delta_s/delta_0: 8.6054E-11 | Reached bicg-stab tolerance | BP delta = 5.8238301E-02 0.1699389 3004152.24132655 | BP delta = 5.8238301E-02 0.1764492 3004147.32306831 | BP chisq diff = -4.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191967 | New value = -3.121294 | poltype: 2 pol: 1 CPU time specind = 1.5522957E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155701 | New value = -3.121262 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094120 | New value = -3.218908 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194068 | New value = -3.179159 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199739 | New value = -3.236195 | poltype: 2 pol: 2 CPU time specind = 1.1826992E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.13628E+08, tol = 0.93921E+01, time = 4.56 | CG iter. 2 -- res = 0.33152E+06, tol = 0.93921E+01, time = 4.39 | CG iter. 3 -- res = 0.74614E+05, tol = 0.93921E+01, time = 4.38 | CG iter. 4 -- res = 0.67648E+05, tol = 0.93921E+01, time = 4.63 | CG iter. 5 -- res = 0.65250E+05, tol = 0.93921E+01, time = 4.54 | CG iter. 6 -- res = 0.63434E+05, tol = 0.93921E+01, time = 4.60 | CG iter. 7 -- res = 0.58083E+05, tol = 0.93921E+01, time = 11.04 | CG iter. 8 -- res = 0.41556E+05, tol = 0.93921E+01, time = 4.55 | CG iter. 9 -- res = 0.33389E+05, tol = 0.93921E+01, time = 4.32 | CG iter. 10 -- res = 0.28403E+05, tol = 0.93921E+01, time = 4.71 | CG iter. 11 -- res = 0.19128E+05, tol = 0.93921E+01, time = 4.36 | CG iter. 12 -- res = 0.13937E+05, tol = 0.93921E+01, time = 4.54 | CG iter. 13 -- res = 0.10891E+05, tol = 0.93921E+01, time = 4.51 | CG iter. 14 -- res = 0.92597E+04, tol = 0.93921E+01, time = 4.41 | CG iter. 15 -- res = 0.75542E+04, tol = 0.93921E+01, time = 4.47 | CG iter. 16 -- res = 0.54014E+04, tol = 0.93921E+01, time = 4.43 | CG iter. 17 -- res = 0.36848E+04, tol = 0.93921E+01, time = 4.55 | CG iter. 18 -- res = 0.30106E+04, tol = 0.93921E+01, time = 4.60 | CG iter. 19 -- res = 0.25349E+04, tol = 0.93921E+01, time = 4.50 | CG iter. 20 -- res = 0.19728E+04, tol = 0.93921E+01, time = 4.39 | CG iter. 21 -- res = 0.14152E+04, tol = 0.93921E+01, time = 4.51 | CG iter. 22 -- res = 0.11244E+04, tol = 0.93921E+01, time = 4.51 | CG iter. 23 -- res = 0.96480E+03, tol = 0.93921E+01, time = 4.34 | CG iter. 24 -- res = 0.77453E+03, tol = 0.93921E+01, time = 4.69 | CG iter. 25 -- res = 0.56325E+03, tol = 0.93921E+01, time = 4.71 | CG iter. 26 -- res = 0.43812E+03, tol = 0.93921E+01, time = 6.01 | CG iter. 27 -- res = 0.37834E+03, tol = 0.93921E+01, time = 4.66 | CG iter. 28 -- res = 0.33420E+03, tol = 0.93921E+01, time = 5.20 | CG iter. 29 -- res = 0.25572E+03, tol = 0.93921E+01, time = 4.68 | CG iter. 30 -- res = 0.19568E+03, tol = 0.93921E+01, time = 4.51 | CG iter. 31 -- res = 0.16961E+03, tol = 0.93921E+01, time = 4.46 | CG iter. 32 -- res = 0.14516E+03, tol = 0.93921E+01, time = 4.31 | CG iter. 33 -- res = 0.11436E+03, tol = 0.93921E+01, time = 4.46 | CG iter. 34 -- res = 0.86039E+02, tol = 0.93921E+01, time = 4.56 | CG iter. 35 -- res = 0.70738E+02, tol = 0.93921E+01, time = 4.36 | CG iter. 36 -- res = 0.60580E+02, tol = 0.93921E+01, time = 4.63 | CG iter. 37 -- res = 0.50962E+02, tol = 0.93921E+01, time = 4.70 | CG iter. 38 -- res = 0.39199E+02, tol = 0.93921E+01, time = 4.48 | CG iter. 39 -- res = 0.30085E+02, tol = 0.93921E+01, time = 4.48 | CG iter. 40 -- res = 0.25469E+02, tol = 0.93921E+01, time = 4.52 | CG iter. 41 -- res = 0.21162E+02, tol = 0.93921E+01, time = 4.50 | CG iter. 42 -- res = 0.16367E+02, tol = 0.93921E+01, time = 4.51 | CG iter. 43 -- res = 0.12480E+02, tol = 0.93921E+01, time = 4.61 | CG iter. 44 -- res = 0.10253E+02, tol = 0.93921E+01, time = 4.51 | CG iter. 45 -- res = 0.82213E+01, tol = 0.93921E+01, time = 4.50 | CG iter. 46 -- res = 0.64059E+01, tol = 0.93921E+01, time = 4.51 | CG iter. 47 -- res = 0.47421E+01, tol = 0.93921E+01, time = 4.58 | CG iter. 48 -- res = 0.38619E+01, tol = 0.93921E+01, time = 4.42 | CG iter. 49 -- res = 0.31640E+01, tol = 0.93921E+01, time = 5.37 | CG iter. 50 -- res = 0.24765E+01, tol = 0.93921E+01, time = 4.35 | Final CG iter 51 -- res = 0.24765E+01, tol = 0.93921E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9340594.166 | Old band monopole 7017210.388 | Change to band monopole 2323383.779 | Change to component monopole -2323373.785 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.18 | CG iter. 1 -- res = 0.66130E+05, tol = 0.47627E+18, time = 1.55 | CG iter. 2 -- res = 0.89954E+02, tol = 0.47627E+18, time = 1.47 | CG iter. 3 -- res = 0.22096E+01, tol = 0.47627E+18, time = 1.52 | CG iter. 4 -- res = 0.10767E-01, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.11977E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9340553.991 | (Sampled value in CG: 9422863.211 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495552 | New value = 1.452442 | poltype: 2 pol: 1 CPU time specind = 9.6960068E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495722 | New value = 1.577643 | poltype: 2 pol: 2 CPU time specind = 3.3209324E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.33 | CG iter. 1 -- res = 0.24387E+08, tol = 0.47453E+04, time = 5.17 | CG iter. 2 -- res = 0.53185E+07, tol = 0.47453E+04, time = 4.83 | CG iter. 3 -- res = 0.83958E+06, tol = 0.47453E+04, time = 5.40 | CG iter. 4 -- res = 0.35219E+06, tol = 0.47453E+04, time = 5.22 | CG iter. 5 -- res = 0.15237E+06, tol = 0.47453E+04, time = 5.04 | CG iter. 6 -- res = 0.77338E+05, tol = 0.47453E+04, time = 5.32 | CG iter. 7 -- res = 0.43468E+05, tol = 0.47453E+04, time = 5.01 | CG iter. 8 -- res = 0.21208E+05, tol = 0.47453E+04, time = 5.23 | CG iter. 9 -- res = 0.94908E+04, tol = 0.47453E+04, time = 4.93 | CG iter. 10 -- res = 0.38524E+04, tol = 0.47453E+04, time = 5.41 | CG iter. 11 -- res = 0.16854E+04, tol = 0.47453E+04, time = 5.30 | CG iter. 12 -- res = 0.86288E+03, tol = 0.47453E+04, time = 5.08 | CG iter. 13 -- res = 0.49298E+03, tol = 0.47453E+04, time = 5.06 | CG iter. 14 -- res = 0.27730E+03, tol = 0.47453E+04, time = 5.27 | CG iter. 15 -- res = 0.14493E+03, tol = 0.47453E+04, time = 5.00 | CG iter. 16 -- res = 0.70298E+02, tol = 0.47453E+04, time = 6.70 | CG iter. 17 -- res = 0.32777E+02, tol = 0.47453E+04, time = 5.67 | CG iter. 18 -- res = 0.16289E+02, tol = 0.47453E+04, time = 5.37 | CG iter. 19 -- res = 0.88600E+01, tol = 0.47453E+04, time = 5.07 | CG iter. 20 -- res = 0.50723E+01, tol = 0.47453E+04, time = 5.38 | CG iter. 21 -- res = 0.28062E+01, tol = 0.47453E+04, time = 5.25 | CG iter. 22 -- res = 0.14604E+01, tol = 0.47453E+04, time = 5.13 | CG iter. 23 -- res = 0.72505E+00, tol = 0.47453E+04, time = 5.26 | CG iter. 24 -- res = 0.36030E+00, tol = 0.47453E+04, time = 5.20 | CG iter. 25 -- res = 0.19855E+00, tol = 0.47453E+04, time = 5.19 | CG iter. 26 -- res = 0.11602E+00, tol = 0.47453E+04, time = 5.14 | CG iter. 27 -- res = 0.67017E-01, tol = 0.47453E+04, time = 5.17 | CG iter. 28 -- res = 0.36445E-01, tol = 0.47453E+04, time = 5.19 | CG iter. 29 -- res = 0.18905E-01, tol = 0.47453E+04, time = 5.42 | CG iter. 30 -- res = 0.98653E-02, tol = 0.47453E+04, time = 5.22 | CG iter. 31 -- res = 0.54265E-02, tol = 0.47453E+04, time = 5.25 | CG iter. 32 -- res = 0.31905E-02, tol = 0.47453E+04, time = 5.24 | CG iter. 33 -- res = 0.17808E-02, tol = 0.47453E+04, time = 5.37 | CG iter. 34 -- res = 0.95927E-03, tol = 0.47453E+04, time = 5.28 | CG iter. 35 -- res = 0.50226E-03, tol = 0.47453E+04, time = 5.04 | Final CG iter 36 -- res = 0.50226E-03, tol = 0.47453E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.737 2.759 | New value -5.238 | Old value -1.737 | Difference -3.501 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.43 | CG iter. 1 -- res = 0.64626E+06, tol = 0.47627E+18, time = 1.47 | CG iter. 2 -- res = 0.92175E+02, tol = 0.47627E+18, time = 1.45 | CG iter. 3 -- res = 0.18602E+01, tol = 0.47627E+18, time = 1.62 | CG iter. 4 -- res = 0.47646E-03, tol = 0.47627E+18, time = 1.62 | Final CG iter 5 -- res = 0.10873E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9340553.991 | (Sampled value in CG: 9422184.664 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.459824 | New value = -3.479461 | poltype: 1 pol: 1 CPU time specind = 4.9149990E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.22 | CG iter. 1 -- res = 0.30359E+07, tol = 0.24679E+01, time = 2.00 | CG iter. 2 -- res = 0.12750E+07, tol = 0.24679E+01, time = 2.19 | CG iter. 3 -- res = 0.27393E+06, tol = 0.24679E+01, time = 2.10 | CG iter. 4 -- res = 0.12349E+06, tol = 0.24679E+01, time = 1.96 | CG iter. 5 -- res = 0.70643E+05, tol = 0.24679E+01, time = 1.95 | CG iter. 6 -- res = 0.33360E+05, tol = 0.24679E+01, time = 2.05 | CG iter. 7 -- res = 0.12253E+05, tol = 0.24679E+01, time = 2.26 | CG iter. 8 -- res = 0.56001E+04, tol = 0.24679E+01, time = 2.15 | CG iter. 9 -- res = 0.27438E+04, tol = 0.24679E+01, time = 2.11 | CG iter. 10 -- res = 0.10672E+04, tol = 0.24679E+01, time = 2.06 | CG iter. 11 -- res = 0.41447E+03, tol = 0.24679E+01, time = 2.08 | CG iter. 12 -- res = 0.20008E+03, tol = 0.24679E+01, time = 2.17 | CG iter. 13 -- res = 0.10115E+03, tol = 0.24679E+01, time = 2.15 | CG iter. 14 -- res = 0.49481E+02, tol = 0.24679E+01, time = 2.15 | CG iter. 15 -- res = 0.25503E+02, tol = 0.24679E+01, time = 2.09 | CG iter. 16 -- res = 0.11925E+02, tol = 0.24679E+01, time = 2.12 | CG iter. 17 -- res = 0.50310E+01, tol = 0.24679E+01, time = 2.01 | CG iter. 18 -- res = 0.21783E+01, tol = 0.24679E+01, time = 2.20 | CG iter. 19 -- res = 0.10350E+01, tol = 0.24679E+01, time = 2.01 | CG iter. 20 -- res = 0.50578E+00, tol = 0.24679E+01, time = 2.10 | CG iter. 21 -- res = 0.25862E+00, tol = 0.24679E+01, time = 1.98 | CG iter. 22 -- res = 0.12819E+00, tol = 0.24679E+01, time = 2.09 | CG iter. 23 -- res = 0.58760E-01, tol = 0.24679E+01, time = 2.12 | CG iter. 24 -- res = 0.27733E-01, tol = 0.24679E+01, time = 1.96 | CG iter. 25 -- res = 0.12986E-01, tol = 0.24679E+01, time = 2.21 | CG iter. 26 -- res = 0.63038E-02, tol = 0.24679E+01, time = 2.00 | CG iter. 27 -- res = 0.32922E-02, tol = 0.24679E+01, time = 2.07 | CG iter. 28 -- res = 0.17208E-02, tol = 0.24679E+01, time = 2.07 | CG iter. 29 -- res = 0.81178E-03, tol = 0.24679E+01, time = 2.34 | CG iter. 30 -- res = 0.38356E-03, tol = 0.24679E+01, time = 1.96 | CG iter. 31 -- res = 0.18273E-03, tol = 0.24679E+01, time = 2.10 | CG iter. 32 -- res = 0.87370E-04, tol = 0.24679E+01, time = 2.03 | CG iter. 33 -- res = 0.44525E-04, tol = 0.24679E+01, time = 2.22 | CG iter. 34 -- res = 0.23092E-04, tol = 0.24679E+01, time = 2.05 | CG iter. 35 -- res = 0.11581E-04, tol = 0.24679E+01, time = 2.16 | CG iter. 36 -- res = 0.58868E-05, tol = 0.24679E+01, time = 2.08 | CG iter. 37 -- res = 0.26331E-05, tol = 0.24679E+01, time = 2.21 | CG iter. 38 -- res = 0.12118E-05, tol = 0.24679E+01, time = 2.83 | CG iter. 39 -- res = 0.59686E-06, tol = 0.24679E+01, time = 2.16 | CG iter. 40 -- res = 0.29026E-06, tol = 0.24679E+01, time = 2.15 | CG iter. 41 -- res = 0.14746E-06, tol = 0.24679E+01, time = 2.24 | CG iter. 42 -- res = 0.73562E-07, tol = 0.24679E+01, time = 2.02 | CG iter. 43 -- res = 0.33320E-07, tol = 0.24679E+01, time = 2.07 | CG iter. 44 -- res = 0.15256E-07, tol = 0.24679E+01, time = 2.18 | CG iter. 45 -- res = 0.69555E-08, tol = 0.24679E+01, time = 2.03 | CG iter. 46 -- res = 0.35091E-08, tol = 0.24679E+01, time = 2.18 | CG iter. 47 -- res = 0.18102E-08, tol = 0.24679E+01, time = 2.09 | CG iter. 48 -- res = 0.87815E-09, tol = 0.24679E+01, time = 2.01 | CG iter. 49 -- res = 0.41317E-09, tol = 0.24679E+01, time = 2.04 | CG iter. 50 -- res = 0.18996E-09, tol = 0.24679E+01, time = 2.18 | Final CG iter 51 -- res = 0.18996E-09, tol = 0.24679E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.450 4.010 | New value -1.278 | Old value 9.450 | Difference -10.728 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.38 | CG iter. 1 -- res = 0.12036E+06, tol = 0.47627E+18, time = 1.54 | CG iter. 2 -- res = 0.90561E+02, tol = 0.47627E+18, time = 1.69 | CG iter. 3 -- res = 0.25740E+01, tol = 0.47627E+18, time = 1.55 | CG iter. 4 -- res = 0.13315E-01, tol = 0.47627E+18, time = 1.45 | Final CG iter 5 -- res = 0.52750E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9340553.991 | (Sampled value in CG: 9405250.501 ) | CPU time specind = 951.9556 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.40 | CG iter. 1 -- res = 0.69897E+08, tol = 0.57459E+04, time = 9.47 | CG iter. 2 -- res = 0.59972E+08, tol = 0.57459E+04, time = 9.43 | CG iter. 3 -- res = 0.15835E+08, tol = 0.57459E+04, time = 9.47 | CG iter. 4 -- res = 0.67871E+07, tol = 0.57459E+04, time = 9.75 | CG iter. 5 -- res = 0.41672E+07, tol = 0.57459E+04, time = 9.34 | CG iter. 6 -- res = 0.24307E+07, tol = 0.57459E+04, time = 9.75 | CG iter. 7 -- res = 0.14019E+07, tol = 0.57459E+04, time = 9.58 | CG iter. 8 -- res = 0.91075E+06, tol = 0.57459E+04, time = 9.85 | CG iter. 9 -- res = 0.59938E+06, tol = 0.57459E+04, time = 11.00 | CG iter. 10 -- res = 0.37369E+06, tol = 0.57459E+04, time = 9.65 | CG iter. 11 -- res = 0.21129E+06, tol = 0.57459E+04, time = 9.57 | CG iter. 12 -- res = 0.11508E+06, tol = 0.57459E+04, time = 9.60 | CG iter. 13 -- res = 0.64963E+05, tol = 0.57459E+04, time = 9.63 | CG iter. 14 -- res = 0.41383E+05, tol = 0.57459E+04, time = 9.32 | CG iter. 15 -- res = 0.31245E+05, tol = 0.57459E+04, time = 9.37 | CG iter. 16 -- res = 0.26230E+05, tol = 0.57459E+04, time = 9.59 | CG iter. 17 -- res = 0.23329E+05, tol = 0.57459E+04, time = 9.38 | CG iter. 18 -- res = 0.20259E+05, tol = 0.57459E+04, time = 9.49 | CG iter. 19 -- res = 0.17337E+05, tol = 0.57459E+04, time = 9.56 | CG iter. 20 -- res = 0.15251E+05, tol = 0.57459E+04, time = 9.59 | CG iter. 21 -- res = 0.14359E+05, tol = 0.57459E+04, time = 9.45 | CG iter. 22 -- res = 0.14580E+05, tol = 0.57459E+04, time = 9.51 | CG iter. 23 -- res = 0.14945E+05, tol = 0.57459E+04, time = 9.35 | CG iter. 24 -- res = 0.14916E+05, tol = 0.57459E+04, time = 9.54 | CG iter. 25 -- res = 0.13301E+05, tol = 0.57459E+04, time = 9.36 | CG iter. 26 -- res = 0.10722E+05, tol = 0.57459E+04, time = 9.68 | CG iter. 27 -- res = 0.80233E+04, tol = 0.57459E+04, time = 9.56 | CG iter. 28 -- res = 0.59953E+04, tol = 0.57459E+04, time = 9.61 | CG iter. 29 -- res = 0.48509E+04, tol = 0.57459E+04, time = 9.44 | CG iter. 30 -- res = 0.41905E+04, tol = 0.57459E+04, time = 9.73 | CG iter. 31 -- res = 0.37781E+04, tol = 0.57459E+04, time = 15.23 | CG iter. 32 -- res = 0.33155E+04, tol = 0.57459E+04, time = 9.37 | CG iter. 33 -- res = 0.27985E+04, tol = 0.57459E+04, time = 9.76 | CG iter. 34 -- res = 0.22940E+04, tol = 0.57459E+04, time = 9.64 | CG iter. 35 -- res = 0.19645E+04, tol = 0.57459E+04, time = 9.51 | CG iter. 36 -- res = 0.17687E+04, tol = 0.57459E+04, time = 9.39 | CG iter. 37 -- res = 0.17195E+04, tol = 0.57459E+04, time = 9.31 | CG iter. 38 -- res = 0.16578E+04, tol = 0.57459E+04, time = 9.60 | CG iter. 39 -- res = 0.14988E+04, tol = 0.57459E+04, time = 9.42 | CG iter. 40 -- res = 0.12640E+04, tol = 0.57459E+04, time = 11.21 | CG iter. 41 -- res = 0.10128E+04, tol = 0.57459E+04, time = 9.75 | CG iter. 42 -- res = 0.82758E+03, tol = 0.57459E+04, time = 9.62 | CG iter. 43 -- res = 0.72388E+03, tol = 0.57459E+04, time = 9.59 | CG iter. 44 -- res = 0.65368E+03, tol = 0.57459E+04, time = 9.54 | CG iter. 45 -- res = 0.60326E+03, tol = 0.57459E+04, time = 9.55 | CG iter. 46 -- res = 0.55668E+03, tol = 0.57459E+04, time = 9.57 | CG iter. 47 -- res = 0.50991E+03, tol = 0.57459E+04, time = 9.65 | CG iter. 48 -- res = 0.45138E+03, tol = 0.57459E+04, time = 9.40 | CG iter. 49 -- res = 0.39929E+03, tol = 0.57459E+04, time = 9.41 | CG iter. 50 -- res = 0.37092E+03, tol = 0.57459E+04, time = 9.55 | CG iter. 51 -- res = 0.35014E+03, tol = 0.57459E+04, time = 10.06 | CG iter. 52 -- res = 0.32848E+03, tol = 0.57459E+04, time = 9.55 | CG iter. 53 -- res = 0.30921E+03, tol = 0.57459E+04, time = 9.44 | CG iter. 54 -- res = 0.28058E+03, tol = 0.57459E+04, time = 9.56 | CG iter. 55 -- res = 0.24822E+03, tol = 0.57459E+04, time = 9.53 | CG iter. 56 -- res = 0.21635E+03, tol = 0.57459E+04, time = 9.55 | CG iter. 57 -- res = 0.18713E+03, tol = 0.57459E+04, time = 9.64 | CG iter. 58 -- res = 0.17056E+03, tol = 0.57459E+04, time = 9.61 | CG iter. 59 -- res = 0.15919E+03, tol = 0.57459E+04, time = 9.30 | CG iter. 60 -- res = 0.15075E+03, tol = 0.57459E+04, time = 9.26 | Final CG iter 61 -- res = 0.15075E+03, tol = 0.57459E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.815 ( -229.817 -2228.943 2511.243 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7636564.336 | Old band monopole 9340594.166 | Change to band monopole -1704029.830 | Change to component monopole 1704022.501 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.281 2.733 | New value 5.727 | Old value -5.281 | Difference 11.008 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.739 ( 6.825 8.972 -8.505 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.939 4.409 | New value -0.137 | Old value 3.939 | Difference -4.076 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.63683E+07, tol = 0.47627E+18, time = 1.50 | CG iter. 2 -- res = 0.70878E+02, tol = 0.47627E+18, time = 1.59 | CG iter. 3 -- res = 0.28587E+01, tol = 0.47627E+18, time = 1.61 | CG iter. 4 -- res = 0.52452E-02, tol = 0.47627E+18, time = 1.47 | Final CG iter 5 -- res = 0.55410E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7636531.490 | (Sampled value in CG: 7608502.623 ) | Chain = 1 -- chisq = 0.81594648E+09 | Chain = 1 -- wall time = 5771.200 sec Available RAM: MemAvailable: 373838800 kB Available Swap: SwapFree: 1147401956 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 171 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444275 | --> Sampling calibration, mode = relcal | relcal = 1.3421203E-02 7.4002740E-04 -1.5857171E-03 -1.2575513E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1008187 0.1188461 97042300.5814941 | BP delta = 0.1009906 0.1190180 97042300.5291054 | BP chisq diff = -0.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632371 | --> Sampling calibration, mode = relcal | relcal = -2.8207514E-03 -7.0358894E-04 1.6787221E-03 1.6142362E-03 -4.0859121E-04 6.3997338E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5838005 15213519.0499387 | BP delta = 0.0000000E+00 -0.5919296 15213517.0190144 | BP chisq diff = -2.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03104213 | --> Sampling calibration, mode = relcal | relcal = 3.7098177E-02 1.3723901E-02 5.7637659E-03 -7.1700951E-03 8.2404213E-03 2.3914229E-03 -7.6041264E-03 -7.1817357E-03 -1.5306932E-02 -1.4805039E-02 -3.0512370E-03 -1.2098522E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.213768 132210554.669974 | BP delta = 0.0000000E+00 -1.215452 132210553.004383 | BP chisq diff = -1.7, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18404349956982 | --> Sampling calibration, mode = relcal | relcal = -7.5278975E-02 -5.8777198E-02 9.2209175E-02 4.1846998E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5106894E-04 4.9710893E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3300E-05 | 2: delta_r/delta_0: 1.0495E-06 | 3: delta_s/delta_0: 1.9042E-07 | 4: delta_r/delta_0: 2.2296E-08 | 5: delta_s/delta_0: 6.0528E-09 | 6: delta_r/delta_0: 1.8788E-09 | 7: delta_s/delta_0: 3.5692E-10 | 8: delta_r/delta_0: 1.1424E-10 | 9: delta_s/delta_0: 3.0959E-10 | 10: delta_r/delta_0: 1.1908E-10 | 11: delta_s/delta_0: 6.8361E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.184626039208449E-003 2.734032666569542E-005 | BP delta = 1.8849922E-02 3.4259036E-02 50482330.2327416 | BP delta = 2.8270490E-02 4.3679602E-02 50482326.9038825 | BP chisq diff = -3.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02570540 | --> Sampling calibration, mode = relcal | relcal = -0.1066454 -9.5531501E-02 0.1449030 5.7273898E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4445683E-03 1.5009551E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.1166E-05 | 2: delta_r/delta_0: 1.6967E-06 | 3: delta_s/delta_0: 2.4757E-07 | 4: delta_r/delta_0: 4.2670E-08 | 5: delta_s/delta_0: 3.2875E-08 | 6: delta_r/delta_0: 7.9186E-09 | 7: delta_s/delta_0: 6.2926E-09 | 8: delta_r/delta_0: 2.0795E-09 | 9: delta_s/delta_0: 9.1039E-10 | 10: delta_r/delta_0: 6.8342E-10 | 11: delta_s/delta_0: 6.7127E-09 | 12: delta_r/delta_0: 3.0862E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.025003917410713E-002 2.811628821745678E-005 | BP delta = -0.2838878 -0.2611714 57388541.7960744 | BP delta = -0.2749246 -0.2522082 57388541.9686296 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81220822 | --> Sampling calibration, mode = relcal | relcal = 0.2953561 0.2248961 -0.2837035 -0.2365487 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4503905E-05 5.0386107E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2068E-01 | 2: delta_r/delta_0: 1.7010E-02 | 3: delta_s/delta_0: 2.0961E-02 | 4: delta_r/delta_0: 1.2286E-03 | 5: delta_s/delta_0: 4.6298E-06 | 6: delta_r/delta_0: 1.6564E-06 | 7: delta_s/delta_0: 8.8002E-06 | 8: delta_r/delta_0: 1.2455E-06 | 9: delta_s/delta_0: 3.0994E-07 | 10: delta_r/delta_0: 5.5637E-08 | 11: delta_s/delta_0: 1.6609E-08 | 12: delta_r/delta_0: 4.3115E-09 | 13: delta_s/delta_0: 6.6450E-09 | 14: delta_r/delta_0: 3.3079E-09 | 15: delta_s/delta_0: 4.4622E-10 | 16: delta_r/delta_0: 7.2006E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.649632511587389E-002 4.021721713997962E-005 | BP delta = -0.1736932 -0.1917424 72484532.6501107 | BP delta = -0.1040233 -0.1220725 72484535.5114315 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95907122 | --> Sampling calibration, mode = relcal | relcal = 0.1064480 0.1395936 -0.1102805 -0.1357612 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0068184E-02 1.3972892E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9287E-04 | 2: delta_r/delta_0: 7.3709E-06 | 3: delta_s/delta_0: 1.7703E-05 | 4: delta_r/delta_0: 1.5443E-06 | 5: delta_s/delta_0: 2.2614E-07 | 6: delta_r/delta_0: 1.3195E-07 | 7: delta_s/delta_0: 6.1860E-07 | 8: delta_r/delta_0: 3.1313E-08 | 9: delta_s/delta_0: 1.0845E-08 | 10: delta_r/delta_0: 3.2554E-09 | 11: delta_s/delta_0: 1.9932E-09 | 12: delta_r/delta_0: 9.4434E-10 | 13: delta_s/delta_0: 1.8017E-09 | 14: delta_r/delta_0: 7.6509E-10 | 15: delta_s/delta_0: 6.9131E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.092793797022671E-002 3.697497828990135E-005 | BP delta = 5.8238301E-02 0.1764492 72773339.1259993 | BP delta = 2.1728659E-02 0.1399395 72773339.1931951 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52184070 | --> Sampling calibration, mode = relcal | relcal = -5.1110070E-02 -3.7062704E-03 2.7270453E-02 2.7545886E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.6268046E-04 1.6049261E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8187E-05 | 2: delta_r/delta_0: 4.2595E-06 | 3: delta_s/delta_0: 2.9414E-06 | 4: delta_r/delta_0: 4.3680E-07 | 5: delta_s/delta_0: 5.8436E-08 | 6: delta_r/delta_0: 2.8799E-08 | 7: delta_s/delta_0: 2.7609E-05 | 8: delta_r/delta_0: 1.8258E-06 | 9: delta_s/delta_0: 3.8371E-09 | 10: delta_r/delta_0: 1.5493E-09 | 11: delta_s/delta_0: 4.1758E-09 | 12: delta_r/delta_0: 1.5870E-10 | 13: delta_s/delta_0: 7.4279E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.164460936721682E-002 5.480405796145586E-005 | BP delta = 4.9067613E-02 0.1465982 91257640.2063687 | BP delta = 7.0468843E-02 0.1679995 91257640.0990628 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42170542 | --> Sampling calibration, mode = relcal | relcal = 4.5547631E-02 3.9664604E-02 -2.8288571E-02 -5.6923665E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2642659E-03 3.8500114E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3288E-05 | 2: delta_r/delta_0: 3.8444E-06 | 3: delta_s/delta_0: 3.0413E-05 | 4: delta_r/delta_0: 3.6937E-06 | 5: delta_s/delta_0: 5.8771E-08 | 6: delta_r/delta_0: 3.8656E-08 | 7: delta_s/delta_0: 5.2972E-08 | 8: delta_r/delta_0: 1.3363E-08 | 9: delta_s/delta_0: 3.2608E-09 | 10: delta_r/delta_0: 3.2658E-10 | 11: delta_s/delta_0: 7.2095E-10 | 12: delta_r/delta_0: 5.8258E-10 | 13: delta_s/delta_0: 2.5856E-10 | 14: delta_r/delta_0: 2.1123E-10 | 15: delta_s/delta_0: 2.6421E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.557063861519328E-002 4.994138458642316E-005 | BP delta = -7.1958251E-02 -0.1608609 90176497.1663494 | BP delta = -3.9799422E-02 -0.1287021 90176496.7464010 | BP chisq diff = -0.4, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28183848 | --> Sampling calibration, mode = relcal | relcal = 2.4176436E-02 4.5184188E-02 -2.3287809E-02 -4.6072815E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2158493E-02 5.7472894E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0720E-04 | 2: delta_r/delta_0: 8.8358E-06 | 3: delta_s/delta_0: 1.5843E-06 | 4: delta_r/delta_0: 2.1930E-07 | 5: delta_s/delta_0: 8.3938E-08 | 6: delta_r/delta_0: 2.0286E-08 | 7: delta_s/delta_0: 1.0251E-08 | 8: delta_r/delta_0: 6.6078E-09 | 9: delta_s/delta_0: 5.6678E-07 | 10: delta_r/delta_0: 1.0933E-08 | 11: delta_s/delta_0: 7.6775E-10 | 12: delta_r/delta_0: 2.9402E-10 | 13: delta_s/delta_0: 2.9644E-10 | 14: delta_r/delta_0: 1.4418E-10 | 15: delta_s/delta_0: 4.3133E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.879877719363788E-003 7.837497859940129E-005 | BP delta = -0.1675795 -0.2509637 160928912.662430 | BP delta = -0.1779296 -0.2613137 160928912.473588 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29410960 | --> Sampling calibration, mode = relcal | relcal = 5.1401253E-04 1.0267644E-02 -3.7816174E-03 -7.0000389E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5848884E-02 1.4056673E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3328E-04 | 2: delta_r/delta_0: 1.1379E-05 | 3: delta_s/delta_0: 2.0248E-06 | 4: delta_r/delta_0: 3.4655E-07 | 5: delta_s/delta_0: 1.2893E-07 | 6: delta_r/delta_0: 2.9792E-08 | 7: delta_s/delta_0: 1.3557E-08 | 8: delta_r/delta_0: 9.3210E-09 | 9: delta_s/delta_0: 7.8165E-09 | 10: delta_r/delta_0: 5.8234E-09 | 11: delta_s/delta_0: 5.8962E-06 | 12: delta_r/delta_0: 2.0624E-07 | 13: delta_s/delta_0: 4.7493E-10 | 14: delta_r/delta_0: 2.5461E-10 | 15: delta_s/delta_0: 1.3658E-10 | 16: delta_r/delta_0: 1.1744E-10 | 17: delta_s/delta_0: 1.9129E-10 | 18: delta_r/delta_0: 9.4303E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.011152523126430E-002 8.301362097192167E-005 | BP delta = -0.8697290 -0.8407067 157902289.153406 | BP delta = -0.8599339 -0.8309115 157902289.278675 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26520648 | --> Sampling calibration, mode = relcal | relcal = -5.5868095E-03 1.5050498E-02 -2.3912340E-03 -7.0724543E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1662730E-03 3.6185451E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4735E-04 | 2: delta_r/delta_0: 1.2299E-05 | 3: delta_s/delta_0: 2.2278E-06 | 4: delta_r/delta_0: 3.1720E-07 | 5: delta_s/delta_0: 9.7559E-08 | 6: delta_r/delta_0: 2.7251E-08 | 7: delta_s/delta_0: 1.2215E-08 | 8: delta_r/delta_0: 8.1432E-09 | 9: delta_s/delta_0: 8.9458E-09 | 10: delta_r/delta_0: 6.0035E-09 | 11: delta_s/delta_0: 4.0252E-07 | 12: delta_r/delta_0: 7.9760E-09 | 13: delta_s/delta_0: 8.8973E-09 | 14: delta_r/delta_0: 3.6403E-09 | 15: delta_s/delta_0: 8.8697E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.989861836478123E-003 9.148724759144228E-005 | BP delta = 0.3984477 0.4224840 157018768.334640 | BP delta = 0.3950718 0.4191081 157018768.304439 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25680404 | --> Sampling calibration, mode = relcal | relcal = -3.1815406E-02 -2.5970165E-02 3.7034214E-02 2.0751357E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0734347E-02 2.0460406E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4263E-04 | 2: delta_r/delta_0: 1.2066E-05 | 3: delta_s/delta_0: 2.0252E-06 | 4: delta_r/delta_0: 3.7318E-07 | 5: delta_s/delta_0: 1.2825E-07 | 6: delta_r/delta_0: 2.7046E-08 | 7: delta_s/delta_0: 1.1800E-08 | 8: delta_r/delta_0: 7.1330E-09 | 9: delta_s/delta_0: 2.0168E-08 | 10: delta_r/delta_0: 5.2815E-09 | 11: delta_s/delta_0: 1.0043E-08 | 12: delta_r/delta_0: 3.4584E-09 | 13: delta_s/delta_0: 4.0233E-09 | 14: delta_r/delta_0: 2.4219E-09 | 15: delta_s/delta_0: 1.4460E-10 | 16: delta_r/delta_0: 1.1801E-10 | 17: delta_s/delta_0: 9.3582E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.165861410130800E-003 8.666697327254592E-005 | BP delta = -0.6572278 -0.7567308 158518110.456627 | BP delta = -0.6838179 -0.7833208 158518110.141082 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121294 | New value = -3.185723 | poltype: 2 pol: 1 CPU time specind = 1.3021946E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121262 | New value = -3.083796 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218908 | New value = -3.208478 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179159 | New value = -3.121680 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.236195 | New value = -3.119265 | poltype: 2 pol: 2 CPU time specind = 1.4546156E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.13549E+08, tol = 0.88407E+01, time = 4.70 | CG iter. 2 -- res = 0.31984E+06, tol = 0.88407E+01, time = 4.37 | CG iter. 3 -- res = 0.56931E+05, tol = 0.88407E+01, time = 4.30 | CG iter. 4 -- res = 0.40458E+05, tol = 0.88407E+01, time = 4.72 | CG iter. 5 -- res = 0.35388E+05, tol = 0.88407E+01, time = 4.84 | CG iter. 6 -- res = 0.33660E+05, tol = 0.88407E+01, time = 4.35 | CG iter. 7 -- res = 0.32921E+05, tol = 0.88407E+01, time = 4.34 | CG iter. 8 -- res = 0.27242E+05, tol = 0.88407E+01, time = 4.67 | CG iter. 9 -- res = 0.23453E+05, tol = 0.88407E+01, time = 5.75 | CG iter. 10 -- res = 0.19403E+05, tol = 0.88407E+01, time = 5.22 | CG iter. 11 -- res = 0.13538E+05, tol = 0.88407E+01, time = 5.20 | CG iter. 12 -- res = 0.95452E+04, tol = 0.88407E+01, time = 4.67 | CG iter. 13 -- res = 0.78379E+04, tol = 0.88407E+01, time = 4.61 | CG iter. 14 -- res = 0.72082E+04, tol = 0.88407E+01, time = 4.57 | CG iter. 15 -- res = 0.62270E+04, tol = 0.88407E+01, time = 4.49 | CG iter. 16 -- res = 0.45555E+04, tol = 0.88407E+01, time = 4.69 | CG iter. 17 -- res = 0.33325E+04, tol = 0.88407E+01, time = 4.49 | CG iter. 18 -- res = 0.27327E+04, tol = 0.88407E+01, time = 4.48 | CG iter. 19 -- res = 0.23600E+04, tol = 0.88407E+01, time = 4.60 | CG iter. 20 -- res = 0.18614E+04, tol = 0.88407E+01, time = 4.40 | CG iter. 21 -- res = 0.14377E+04, tol = 0.88407E+01, time = 4.61 | CG iter. 22 -- res = 0.12138E+04, tol = 0.88407E+01, time = 4.37 | CG iter. 23 -- res = 0.10828E+04, tol = 0.88407E+01, time = 4.44 | CG iter. 24 -- res = 0.89089E+03, tol = 0.88407E+01, time = 4.77 | CG iter. 25 -- res = 0.67214E+03, tol = 0.88407E+01, time = 4.51 | CG iter. 26 -- res = 0.55592E+03, tol = 0.88407E+01, time = 4.45 | CG iter. 27 -- res = 0.50924E+03, tol = 0.88407E+01, time = 4.54 | CG iter. 28 -- res = 0.44965E+03, tol = 0.88407E+01, time = 4.62 | CG iter. 29 -- res = 0.36983E+03, tol = 0.88407E+01, time = 4.74 | CG iter. 30 -- res = 0.29426E+03, tol = 0.88407E+01, time = 4.50 | CG iter. 31 -- res = 0.25903E+03, tol = 0.88407E+01, time = 4.40 | CG iter. 32 -- res = 0.23261E+03, tol = 0.88407E+01, time = 4.55 | CG iter. 33 -- res = 0.18965E+03, tol = 0.88407E+01, time = 4.59 | CG iter. 34 -- res = 0.15462E+03, tol = 0.88407E+01, time = 4.61 | CG iter. 35 -- res = 0.13187E+03, tol = 0.88407E+01, time = 4.38 | CG iter. 36 -- res = 0.11706E+03, tol = 0.88407E+01, time = 4.45 | CG iter. 37 -- res = 0.10030E+03, tol = 0.88407E+01, time = 4.47 | CG iter. 38 -- res = 0.80898E+02, tol = 0.88407E+01, time = 4.69 | CG iter. 39 -- res = 0.67403E+02, tol = 0.88407E+01, time = 4.49 | CG iter. 40 -- res = 0.58375E+02, tol = 0.88407E+01, time = 4.62 | CG iter. 41 -- res = 0.49829E+02, tol = 0.88407E+01, time = 4.61 | CG iter. 42 -- res = 0.39591E+02, tol = 0.88407E+01, time = 4.57 | CG iter. 43 -- res = 0.32363E+02, tol = 0.88407E+01, time = 4.43 | CG iter. 44 -- res = 0.27847E+02, tol = 0.88407E+01, time = 4.51 | CG iter. 45 -- res = 0.22683E+02, tol = 0.88407E+01, time = 4.61 | CG iter. 46 -- res = 0.18077E+02, tol = 0.88407E+01, time = 5.78 | CG iter. 47 -- res = 0.14045E+02, tol = 0.88407E+01, time = 4.40 | CG iter. 48 -- res = 0.11571E+02, tol = 0.88407E+01, time = 4.55 | CG iter. 49 -- res = 0.97623E+01, tol = 0.88407E+01, time = 4.54 | CG iter. 50 -- res = 0.78363E+01, tol = 0.88407E+01, time = 4.74 | Final CG iter 51 -- res = 0.78363E+01, tol = 0.88407E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7873481.418 | Old band monopole 7636564.336 | Change to band monopole 236917.081 | Change to component monopole -236916.062 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.82 | CG iter. 1 -- res = 0.31720E+06, tol = 0.47627E+18, time = 1.49 | CG iter. 2 -- res = 0.11774E+03, tol = 0.47627E+18, time = 1.50 | CG iter. 3 -- res = 0.28246E+01, tol = 0.47627E+18, time = 1.50 | CG iter. 4 -- res = 0.17362E-01, tol = 0.47627E+18, time = 1.53 | Final CG iter 5 -- res = 0.25497E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7873447.552 | (Sampled value in CG: 7812605.045 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.452442 | New value = 1.538273 | poltype: 2 pol: 1 CPU time specind = 4.9319267E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.577643 | New value = 1.494350 | poltype: 2 pol: 2 CPU time specind = 6.1020851E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.24 | CG iter. 1 -- res = 0.25576E+08, tol = 0.47728E+04, time = 5.71 | CG iter. 2 -- res = 0.54778E+07, tol = 0.47728E+04, time = 6.14 | CG iter. 3 -- res = 0.85280E+06, tol = 0.47728E+04, time = 5.56 | CG iter. 4 -- res = 0.35870E+06, tol = 0.47728E+04, time = 5.40 | CG iter. 5 -- res = 0.15668E+06, tol = 0.47728E+04, time = 5.21 | CG iter. 6 -- res = 0.80254E+05, tol = 0.47728E+04, time = 5.33 | CG iter. 7 -- res = 0.43678E+05, tol = 0.47728E+04, time = 5.42 | CG iter. 8 -- res = 0.21205E+05, tol = 0.47728E+04, time = 5.17 | CG iter. 9 -- res = 0.92262E+04, tol = 0.47728E+04, time = 5.13 | CG iter. 10 -- res = 0.37530E+04, tol = 0.47728E+04, time = 5.32 | CG iter. 11 -- res = 0.16955E+04, tol = 0.47728E+04, time = 5.11 | CG iter. 12 -- res = 0.87203E+03, tol = 0.47728E+04, time = 5.08 | CG iter. 13 -- res = 0.49244E+03, tol = 0.47728E+04, time = 5.24 | CG iter. 14 -- res = 0.27847E+03, tol = 0.47728E+04, time = 5.23 | CG iter. 15 -- res = 0.14461E+03, tol = 0.47728E+04, time = 5.26 | CG iter. 16 -- res = 0.69355E+02, tol = 0.47728E+04, time = 5.36 | CG iter. 17 -- res = 0.31808E+02, tol = 0.47728E+04, time = 5.46 | CG iter. 18 -- res = 0.15837E+02, tol = 0.47728E+04, time = 4.99 | CG iter. 19 -- res = 0.84822E+01, tol = 0.47728E+04, time = 5.14 | CG iter. 20 -- res = 0.46949E+01, tol = 0.47728E+04, time = 5.34 | CG iter. 21 -- res = 0.25725E+01, tol = 0.47728E+04, time = 5.26 | CG iter. 22 -- res = 0.13463E+01, tol = 0.47728E+04, time = 5.73 | CG iter. 23 -- res = 0.67962E+00, tol = 0.47728E+04, time = 5.33 | CG iter. 24 -- res = 0.35346E+00, tol = 0.47728E+04, time = 5.06 | CG iter. 25 -- res = 0.19202E+00, tol = 0.47728E+04, time = 5.31 | CG iter. 26 -- res = 0.10829E+00, tol = 0.47728E+04, time = 5.29 | CG iter. 27 -- res = 0.60320E-01, tol = 0.47728E+04, time = 5.42 | CG iter. 28 -- res = 0.32395E-01, tol = 0.47728E+04, time = 5.30 | CG iter. 29 -- res = 0.17082E-01, tol = 0.47728E+04, time = 5.34 | CG iter. 30 -- res = 0.89398E-02, tol = 0.47728E+04, time = 5.29 | CG iter. 31 -- res = 0.48536E-02, tol = 0.47728E+04, time = 5.05 | CG iter. 32 -- res = 0.27117E-02, tol = 0.47728E+04, time = 7.01 | CG iter. 33 -- res = 0.15288E-02, tol = 0.47728E+04, time = 5.08 | CG iter. 34 -- res = 0.82605E-03, tol = 0.47728E+04, time = 5.21 | CG iter. 35 -- res = 0.43142E-03, tol = 0.47728E+04, time = 5.00 | Final CG iter 36 -- res = 0.43142E-03, tol = 0.47728E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.767 2.750 | New value -0.821 | Old value 5.767 | Difference -6.588 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.22685E+07, tol = 0.47627E+18, time = 1.41 | CG iter. 2 -- res = 0.72835E+02, tol = 0.47627E+18, time = 1.51 | CG iter. 3 -- res = 0.20953E+01, tol = 0.47627E+18, time = 1.58 | CG iter. 4 -- res = 0.65184E-02, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.10978E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7873447.552 | (Sampled value in CG: 7813027.420 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.479461 | New value = -3.574629 | poltype: 1 pol: 1 CPU time specind = 4.5070648E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.08 | CG iter. 1 -- res = 0.37351E+07, tol = 0.24055E+01, time = 2.14 | CG iter. 2 -- res = 0.12142E+07, tol = 0.24055E+01, time = 2.03 | CG iter. 3 -- res = 0.29645E+06, tol = 0.24055E+01, time = 2.14 | CG iter. 4 -- res = 0.16128E+06, tol = 0.24055E+01, time = 2.14 | CG iter. 5 -- res = 0.89278E+05, tol = 0.24055E+01, time = 2.16 | CG iter. 6 -- res = 0.34085E+05, tol = 0.24055E+01, time = 1.93 | CG iter. 7 -- res = 0.11810E+05, tol = 0.24055E+01, time = 2.07 | CG iter. 8 -- res = 0.56672E+04, tol = 0.24055E+01, time = 2.00 | CG iter. 9 -- res = 0.26234E+04, tol = 0.24055E+01, time = 2.27 | CG iter. 10 -- res = 0.10686E+04, tol = 0.24055E+01, time = 2.10 | CG iter. 11 -- res = 0.43608E+03, tol = 0.24055E+01, time = 2.10 | CG iter. 12 -- res = 0.21540E+03, tol = 0.24055E+01, time = 2.11 | CG iter. 13 -- res = 0.11042E+03, tol = 0.24055E+01, time = 2.27 | CG iter. 14 -- res = 0.56812E+02, tol = 0.24055E+01, time = 1.99 | CG iter. 15 -- res = 0.25912E+02, tol = 0.24055E+01, time = 1.92 | CG iter. 16 -- res = 0.11333E+02, tol = 0.24055E+01, time = 1.95 | CG iter. 17 -- res = 0.45836E+01, tol = 0.24055E+01, time = 2.13 | CG iter. 18 -- res = 0.21234E+01, tol = 0.24055E+01, time = 2.03 | CG iter. 19 -- res = 0.98928E+00, tol = 0.24055E+01, time = 2.18 | CG iter. 20 -- res = 0.49171E+00, tol = 0.24055E+01, time = 2.12 | CG iter. 21 -- res = 0.24574E+00, tol = 0.24055E+01, time = 2.27 | CG iter. 22 -- res = 0.11236E+00, tol = 0.24055E+01, time = 2.08 | CG iter. 23 -- res = 0.50678E-01, tol = 0.24055E+01, time = 2.00 | CG iter. 24 -- res = 0.22486E-01, tol = 0.24055E+01, time = 2.00 | CG iter. 25 -- res = 0.10855E-01, tol = 0.24055E+01, time = 2.22 | CG iter. 26 -- res = 0.55791E-02, tol = 0.24055E+01, time = 2.08 | CG iter. 27 -- res = 0.27701E-02, tol = 0.24055E+01, time = 2.22 | CG iter. 28 -- res = 0.13721E-02, tol = 0.24055E+01, time = 2.06 | CG iter. 29 -- res = 0.61425E-03, tol = 0.24055E+01, time = 2.33 | CG iter. 30 -- res = 0.28035E-03, tol = 0.24055E+01, time = 1.96 | CG iter. 31 -- res = 0.13546E-03, tol = 0.24055E+01, time = 2.19 | CG iter. 32 -- res = 0.71252E-04, tol = 0.24055E+01, time = 1.92 | CG iter. 33 -- res = 0.39141E-04, tol = 0.24055E+01, time = 2.01 | CG iter. 34 -- res = 0.19524E-04, tol = 0.24055E+01, time = 2.17 | CG iter. 35 -- res = 0.93483E-05, tol = 0.24055E+01, time = 2.12 | CG iter. 36 -- res = 0.45162E-05, tol = 0.24055E+01, time = 2.22 | CG iter. 37 -- res = 0.20765E-05, tol = 0.24055E+01, time = 2.10 | CG iter. 38 -- res = 0.10600E-05, tol = 0.24055E+01, time = 2.20 | CG iter. 39 -- res = 0.52422E-06, tol = 0.24055E+01, time = 2.06 | CG iter. 40 -- res = 0.25551E-06, tol = 0.24055E+01, time = 2.07 | CG iter. 41 -- res = 0.12612E-06, tol = 0.24055E+01, time = 2.16 | CG iter. 42 -- res = 0.59629E-07, tol = 0.24055E+01, time = 2.06 | CG iter. 43 -- res = 0.27049E-07, tol = 0.24055E+01, time = 2.13 | CG iter. 44 -- res = 0.12615E-07, tol = 0.24055E+01, time = 2.11 | CG iter. 45 -- res = 0.61058E-08, tol = 0.24055E+01, time = 2.23 | CG iter. 46 -- res = 0.30984E-08, tol = 0.24055E+01, time = 2.05 | CG iter. 47 -- res = 0.15517E-08, tol = 0.24055E+01, time = 2.10 | CG iter. 48 -- res = 0.74030E-09, tol = 0.24055E+01, time = 6.50 | CG iter. 49 -- res = 0.35498E-09, tol = 0.24055E+01, time = 4.12 | CG iter. 50 -- res = 0.16063E-09, tol = 0.24055E+01, time = 2.08 | Final CG iter 51 -- res = 0.16063E-09, tol = 0.24055E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.509 5.740 | New value 3.978 | Old value -6.509 | Difference 10.487 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.13 | CG iter. 1 -- res = 0.11185E+06, tol = 0.47627E+18, time = 1.42 | CG iter. 2 -- res = 0.57315E+02, tol = 0.47627E+18, time = 1.50 | CG iter. 3 -- res = 0.21658E+01, tol = 0.47627E+18, time = 1.54 | CG iter. 4 -- res = 0.69901E-02, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.15947E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7873447.552 | (Sampled value in CG: 7830719.341 ) | CPU time specind = 960.5840 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.49 | CG iter. 1 -- res = 0.73803E+08, tol = 0.57724E+04, time = 11.12 | CG iter. 2 -- res = 0.60890E+08, tol = 0.57724E+04, time = 10.17 | CG iter. 3 -- res = 0.16009E+08, tol = 0.57724E+04, time = 9.55 | CG iter. 4 -- res = 0.72768E+07, tol = 0.57724E+04, time = 9.28 | CG iter. 5 -- res = 0.46196E+07, tol = 0.57724E+04, time = 9.71 | CG iter. 6 -- res = 0.26925E+07, tol = 0.57724E+04, time = 9.54 | CG iter. 7 -- res = 0.15271E+07, tol = 0.57724E+04, time = 9.42 | CG iter. 8 -- res = 0.96619E+06, tol = 0.57724E+04, time = 9.27 | CG iter. 9 -- res = 0.62633E+06, tol = 0.57724E+04, time = 9.68 | CG iter. 10 -- res = 0.38345E+06, tol = 0.57724E+04, time = 9.49 | CG iter. 11 -- res = 0.20877E+06, tol = 0.57724E+04, time = 9.37 | CG iter. 12 -- res = 0.11608E+06, tol = 0.57724E+04, time = 10.09 | CG iter. 13 -- res = 0.64677E+05, tol = 0.57724E+04, time = 9.43 | CG iter. 14 -- res = 0.39360E+05, tol = 0.57724E+04, time = 9.37 | CG iter. 15 -- res = 0.27440E+05, tol = 0.57724E+04, time = 9.34 | CG iter. 16 -- res = 0.21570E+05, tol = 0.57724E+04, time = 9.68 | CG iter. 17 -- res = 0.18062E+05, tol = 0.57724E+04, time = 9.27 | CG iter. 18 -- res = 0.15137E+05, tol = 0.57724E+04, time = 9.38 | CG iter. 19 -- res = 0.12421E+05, tol = 0.57724E+04, time = 9.47 | CG iter. 20 -- res = 0.10426E+05, tol = 0.57724E+04, time = 9.45 | CG iter. 21 -- res = 0.94808E+04, tol = 0.57724E+04, time = 9.42 | CG iter. 22 -- res = 0.95980E+04, tol = 0.57724E+04, time = 9.14 | CG iter. 23 -- res = 0.10359E+05, tol = 0.57724E+04, time = 15.68 | CG iter. 24 -- res = 0.10940E+05, tol = 0.57724E+04, time = 9.44 | CG iter. 25 -- res = 0.10349E+05, tol = 0.57724E+04, time = 9.58 | CG iter. 26 -- res = 0.87419E+04, tol = 0.57724E+04, time = 9.32 | CG iter. 27 -- res = 0.66799E+04, tol = 0.57724E+04, time = 9.48 | CG iter. 28 -- res = 0.50023E+04, tol = 0.57724E+04, time = 9.71 | CG iter. 29 -- res = 0.39941E+04, tol = 0.57724E+04, time = 9.44 | CG iter. 30 -- res = 0.34923E+04, tol = 0.57724E+04, time = 9.45 | CG iter. 31 -- res = 0.31217E+04, tol = 0.57724E+04, time = 9.19 | CG iter. 32 -- res = 0.26427E+04, tol = 0.57724E+04, time = 11.42 | CG iter. 33 -- res = 0.21749E+04, tol = 0.57724E+04, time = 9.72 | CG iter. 34 -- res = 0.17405E+04, tol = 0.57724E+04, time = 9.62 | CG iter. 35 -- res = 0.14489E+04, tol = 0.57724E+04, time = 9.28 | CG iter. 36 -- res = 0.13051E+04, tol = 0.57724E+04, time = 9.41 | CG iter. 37 -- res = 0.12694E+04, tol = 0.57724E+04, time = 9.39 | CG iter. 38 -- res = 0.12736E+04, tol = 0.57724E+04, time = 9.47 | CG iter. 39 -- res = 0.11812E+04, tol = 0.57724E+04, time = 9.45 | CG iter. 40 -- res = 0.10140E+04, tol = 0.57724E+04, time = 9.28 | CG iter. 41 -- res = 0.82731E+03, tol = 0.57724E+04, time = 9.36 | CG iter. 42 -- res = 0.67407E+03, tol = 0.57724E+04, time = 9.27 | CG iter. 43 -- res = 0.56731E+03, tol = 0.57724E+04, time = 9.35 | CG iter. 44 -- res = 0.49585E+03, tol = 0.57724E+04, time = 9.73 | CG iter. 45 -- res = 0.44616E+03, tol = 0.57724E+04, time = 9.23 | CG iter. 46 -- res = 0.40872E+03, tol = 0.57724E+04, time = 9.47 | CG iter. 47 -- res = 0.37432E+03, tol = 0.57724E+04, time = 9.37 | CG iter. 48 -- res = 0.32817E+03, tol = 0.57724E+04, time = 9.53 | CG iter. 49 -- res = 0.27500E+03, tol = 0.57724E+04, time = 9.36 | CG iter. 50 -- res = 0.24376E+03, tol = 0.57724E+04, time = 9.38 | CG iter. 51 -- res = 0.22904E+03, tol = 0.57724E+04, time = 9.36 | CG iter. 52 -- res = 0.22409E+03, tol = 0.57724E+04, time = 9.49 | CG iter. 53 -- res = 0.22218E+03, tol = 0.57724E+04, time = 10.01 | CG iter. 54 -- res = 0.20012E+03, tol = 0.57724E+04, time = 14.91 | CG iter. 55 -- res = 0.17189E+03, tol = 0.57724E+04, time = 9.57 | CG iter. 56 -- res = 0.14936E+03, tol = 0.57724E+04, time = 9.22 | CG iter. 57 -- res = 0.12895E+03, tol = 0.57724E+04, time = 9.49 | CG iter. 58 -- res = 0.11604E+03, tol = 0.57724E+04, time = 9.38 | CG iter. 59 -- res = 0.10727E+03, tol = 0.57724E+04, time = 9.25 | CG iter. 60 -- res = 0.10014E+03, tol = 0.57724E+04, time = 9.60 | Final CG iter 61 -- res = 0.10014E+03, tol = 0.57724E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.869 ( -230.127 -2227.943 2510.091 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9890782.620 | Old band monopole 7873481.418 | Change to band monopole 2017301.202 | Change to component monopole -2017292.525 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.836 2.725 | New value 1.890 | Old value -0.836 | Difference 2.726 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.921 ( 7.516 7.245 -5.974 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.035 5.839 | New value -6.614 | Old value 7.035 | Difference -13.649 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.69692E+06, tol = 0.47627E+18, time = 1.65 | CG iter. 2 -- res = 0.96319E+02, tol = 0.47627E+18, time = 1.35 | CG iter. 3 -- res = 0.33996E+01, tol = 0.47627E+18, time = 1.56 | CG iter. 4 -- res = 0.23122E-02, tol = 0.47627E+18, time = 1.53 | Final CG iter 5 -- res = 0.31063E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9890740.077 | (Sampled value in CG: 9873538.420 ) | Chain = 1 -- chisq = 0.81509612E+09 | Chain = 1 -- wall time = 15971.224 sec Available RAM: MemAvailable: 479281896 kB Available Swap: SwapFree: 1053157672 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 172 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444282 | --> Sampling calibration, mode = relcal | relcal = 1.3433753E-02 7.3437672E-04 -1.5900107E-03 -1.2578119E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1009906 0.1190180 9403505.43509099 | BP delta = 0.1009906 0.1266049 9403499.85033423 | BP chisq diff = -5.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632404 | --> Sampling calibration, mode = relcal | relcal = -2.8207917E-03 -7.0236321E-04 1.6783157E-03 1.6136208E-03 -4.0895244E-04 6.4017082E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5919296 15217082.9759019 | BP delta = 0.0000000E+00 -0.5817066 15217081.1636974 | BP chisq diff = -1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18542655322440 | --> Sampling calibration, mode = relcal | relcal = -7.5029500E-02 -5.8822304E-02 9.2127576E-02 4.1724224E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8126189E-04 5.3818054E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2492E-05 | 2: delta_r/delta_0: 1.0157E-06 | 3: delta_s/delta_0: 1.9352E-07 | 4: delta_r/delta_0: 2.0495E-08 | 5: delta_s/delta_0: 6.3575E-09 | 6: delta_r/delta_0: 1.5108E-09 | 7: delta_s/delta_0: 3.0460E-10 | 8: delta_r/delta_0: 1.2769E-10 | 9: delta_s/delta_0: 3.8346E-10 | 10: delta_r/delta_0: 1.2930E-10 | 11: delta_s/delta_0: 1.0996E-10 | 12: delta_r/delta_0: 3.6371E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.316882211055867E-003 2.730849953471252E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2492E-05 | 2: delta_r/delta_0: 1.0157E-06 | 3: delta_s/delta_0: 1.9352E-07 | 4: delta_r/delta_0: 2.0495E-08 | 5: delta_s/delta_0: 6.3579E-09 | 6: delta_r/delta_0: 1.5109E-09 | 7: delta_s/delta_0: 3.0460E-10 | 8: delta_r/delta_0: 1.2769E-10 | 9: delta_s/delta_0: 3.8347E-10 | 10: delta_r/delta_0: 1.2931E-10 | 11: delta_s/delta_0: 1.0996E-10 | 12: delta_r/delta_0: 3.6367E-11 | Reached bicg-stab tolerance | BP delta = 2.8270490E-02 4.3679602E-02 3636907.48531313 | BP delta = 2.8270490E-02 4.4036165E-02 3636544.80221885 | BP chisq diff = -362.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02567006 | --> Sampling calibration, mode = relcal | relcal = -0.1065962 -9.5470995E-02 0.1448259 5.7241283E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1042590E-03 1.4712351E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7196E-05 | 2: delta_r/delta_0: 1.6211E-06 | 3: delta_s/delta_0: 2.3084E-07 | 4: delta_r/delta_0: 5.1816E-08 | 5: delta_s/delta_0: 2.3313E-08 | 6: delta_r/delta_0: 7.1955E-09 | 7: delta_s/delta_0: 1.0369E-08 | 8: delta_r/delta_0: 1.1749E-09 | 9: delta_s/delta_0: 1.0329E-09 | 10: delta_r/delta_0: 2.5304E-10 | 11: delta_s/delta_0: 2.9670E-09 | 12: delta_r/delta_0: 2.6310E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.036154100583020E-002 2.811722375420218E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7197E-05 | 2: delta_r/delta_0: 1.6211E-06 | 3: delta_s/delta_0: 2.3085E-07 | 4: delta_r/delta_0: 5.1830E-08 | 5: delta_s/delta_0: 2.3303E-08 | 6: delta_r/delta_0: 7.1968E-09 | 7: delta_s/delta_0: 1.0374E-08 | 8: delta_r/delta_0: 1.1751E-09 | 9: delta_s/delta_0: 1.0330E-09 | 10: delta_r/delta_0: 2.5313E-10 | 11: delta_s/delta_0: 2.9676E-09 | 12: delta_r/delta_0: 2.6318E-11 | Reached bicg-stab tolerance | BP delta = -0.2749246 -0.2522082 2841848.02179669 | BP delta = -0.2749246 -0.2494211 2841838.35132053 | BP chisq diff = -9.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81202684 | --> Sampling calibration, mode = relcal | relcal = 0.2954891 0.2247532 -0.2837541 -0.2364881 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7363567E-04 5.5584107E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6067E-02 | 2: delta_r/delta_0: 3.7980E-04 | 3: delta_s/delta_0: 2.4204E-05 | 4: delta_r/delta_0: 1.1901E-06 | 5: delta_s/delta_0: 2.8975E-06 | 6: delta_r/delta_0: 8.3886E-07 | 7: delta_s/delta_0: 2.1509E-07 | 8: delta_r/delta_0: 9.0319E-08 | 9: delta_s/delta_0: 9.0980E-07 | 10: delta_r/delta_0: 5.7440E-09 | 11: delta_s/delta_0: 5.3865E-09 | 12: delta_r/delta_0: 3.5232E-09 | 13: delta_s/delta_0: 3.5727E-10 | 14: delta_r/delta_0: 2.5510E-10 | 15: delta_s/delta_0: 1.6191E-10 | 16: delta_r/delta_0: 5.3949E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.525790737727559E-002 4.022804759809388E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6108E-02 | 2: delta_r/delta_0: 3.8076E-04 | 3: delta_s/delta_0: 2.4213E-05 | 4: delta_r/delta_0: 1.1900E-06 | 5: delta_s/delta_0: 2.8983E-06 | 6: delta_r/delta_0: 8.3943E-07 | 7: delta_s/delta_0: 2.1527E-07 | 8: delta_r/delta_0: 9.0314E-08 | 9: delta_s/delta_0: 9.0893E-07 | 10: delta_r/delta_0: 5.7491E-09 | 11: delta_s/delta_0: 5.3912E-09 | 12: delta_r/delta_0: 3.5289E-09 | 13: delta_s/delta_0: 3.5755E-10 | 14: delta_r/delta_0: 2.5541E-10 | 15: delta_s/delta_0: 1.6212E-10 | 16: delta_r/delta_0: 5.4002E-11 | Reached bicg-stab tolerance | BP delta = -0.1736932 -0.1917424 2827301.73815347 | BP delta = -0.1736932 -0.1781481 2827388.41643024 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95882297 | --> Sampling calibration, mode = relcal | relcal = 0.1064317 0.1396043 -0.1102312 -0.1358047 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7483341E-03 1.4268665E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5670E-04 | 2: delta_r/delta_0: 6.5044E-06 | 3: delta_s/delta_0: 5.3328E-06 | 4: delta_r/delta_0: 4.6643E-07 | 5: delta_s/delta_0: 2.7860E-07 | 6: delta_r/delta_0: 1.5509E-07 | 7: delta_s/delta_0: 7.0287E-08 | 8: delta_r/delta_0: 3.6095E-08 | 9: delta_s/delta_0: 1.6869E-08 | 10: delta_r/delta_0: 6.1720E-09 | 11: delta_s/delta_0: 1.3231E-09 | 12: delta_r/delta_0: 4.5979E-10 | 13: delta_s/delta_0: 4.4307E-10 | 14: delta_r/delta_0: 2.2869E-10 | 15: delta_s/delta_0: 4.0929E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.013787489616243E-002 3.698542102947878E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5672E-04 | 2: delta_r/delta_0: 6.5047E-06 | 3: delta_s/delta_0: 5.3327E-06 | 4: delta_r/delta_0: 4.6631E-07 | 5: delta_s/delta_0: 2.7858E-07 | 6: delta_r/delta_0: 1.5508E-07 | 7: delta_s/delta_0: 7.0260E-08 | 8: delta_r/delta_0: 3.6093E-08 | 9: delta_s/delta_0: 1.6875E-08 | 10: delta_r/delta_0: 6.1722E-09 | 11: delta_s/delta_0: 1.3214E-09 | 12: delta_r/delta_0: 4.6344E-10 | 13: delta_s/delta_0: 4.4540E-10 | 14: delta_r/delta_0: 2.3369E-10 | 15: delta_s/delta_0: 4.1444E-11 | Reached bicg-stab tolerance | BP delta = 2.1728659E-02 0.1399395 3003857.01277970 | BP delta = 2.1728659E-02 0.1325295 3003935.40941734 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185723 | New value = -3.050604 | poltype: 2 pol: 1 CPU time specind = 5.2568913E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.083796 | New value = -3.077156 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208478 | New value = -3.162399 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121680 | New value = -3.114676 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119265 | New value = -3.118362 | poltype: 2 pol: 2 CPU time specind = 5.0649643E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.14207E+08, tol = 0.73244E+01, time = 4.92 | CG iter. 2 -- res = 0.59557E+06, tol = 0.73244E+01, time = 4.73 | CG iter. 3 -- res = 0.48363E+06, tol = 0.73244E+01, time = 4.69 | CG iter. 4 -- res = 0.88691E+06, tol = 0.73244E+01, time = 4.57 | CG iter. 5 -- res = 0.70687E+06, tol = 0.73244E+01, time = 4.75 | CG iter. 6 -- res = 0.47179E+06, tol = 0.73244E+01, time = 4.60 | CG iter. 7 -- res = 0.28391E+06, tol = 0.73244E+01, time = 5.05 | CG iter. 8 -- res = 0.23250E+06, tol = 0.73244E+01, time = 4.73 | CG iter. 9 -- res = 0.20831E+06, tol = 0.73244E+01, time = 4.86 | CG iter. 10 -- res = 0.15157E+06, tol = 0.73244E+01, time = 4.89 | CG iter. 11 -- res = 0.10704E+06, tol = 0.73244E+01, time = 4.65 | CG iter. 12 -- res = 0.72385E+05, tol = 0.73244E+01, time = 4.68 | CG iter. 13 -- res = 0.56631E+05, tol = 0.73244E+01, time = 4.55 | CG iter. 14 -- res = 0.47885E+05, tol = 0.73244E+01, time = 4.79 | CG iter. 15 -- res = 0.31675E+05, tol = 0.73244E+01, time = 4.77 | CG iter. 16 -- res = 0.21137E+05, tol = 0.73244E+01, time = 4.65 | CG iter. 17 -- res = 0.16482E+05, tol = 0.73244E+01, time = 4.65 | CG iter. 18 -- res = 0.14370E+05, tol = 0.73244E+01, time = 5.56 | CG iter. 19 -- res = 0.11053E+05, tol = 0.73244E+01, time = 4.78 | CG iter. 20 -- res = 0.76828E+04, tol = 0.73244E+01, time = 4.65 | CG iter. 21 -- res = 0.58320E+04, tol = 0.73244E+01, time = 4.84 | CG iter. 22 -- res = 0.48390E+04, tol = 0.73244E+01, time = 5.28 | CG iter. 23 -- res = 0.39254E+04, tol = 0.73244E+01, time = 4.75 | CG iter. 24 -- res = 0.28461E+04, tol = 0.73244E+01, time = 4.80 | CG iter. 25 -- res = 0.20177E+04, tol = 0.73244E+01, time = 4.67 | CG iter. 26 -- res = 0.16472E+04, tol = 0.73244E+01, time = 4.87 | CG iter. 27 -- res = 0.13744E+04, tol = 0.73244E+01, time = 4.74 | CG iter. 28 -- res = 0.99331E+03, tol = 0.73244E+01, time = 4.57 | CG iter. 29 -- res = 0.68294E+03, tol = 0.73244E+01, time = 4.95 | CG iter. 30 -- res = 0.51350E+03, tol = 0.73244E+01, time = 4.91 | CG iter. 31 -- res = 0.43493E+03, tol = 0.73244E+01, time = 5.11 | CG iter. 32 -- res = 0.32574E+03, tol = 0.73244E+01, time = 4.66 | CG iter. 33 -- res = 0.22424E+03, tol = 0.73244E+01, time = 4.80 | CG iter. 34 -- res = 0.16548E+03, tol = 0.73244E+01, time = 4.77 | CG iter. 35 -- res = 0.13108E+03, tol = 0.73244E+01, time = 4.81 | CG iter. 36 -- res = 0.98857E+02, tol = 0.73244E+01, time = 4.72 | CG iter. 37 -- res = 0.68366E+02, tol = 0.73244E+01, time = 4.76 | CG iter. 38 -- res = 0.48923E+02, tol = 0.73244E+01, time = 5.02 | CG iter. 39 -- res = 0.37196E+02, tol = 0.73244E+01, time = 12.39 | CG iter. 40 -- res = 0.29235E+02, tol = 0.73244E+01, time = 4.82 | CG iter. 41 -- res = 0.21465E+02, tol = 0.73244E+01, time = 4.70 | CG iter. 42 -- res = 0.14894E+02, tol = 0.73244E+01, time = 5.96 | CG iter. 43 -- res = 0.11221E+02, tol = 0.73244E+01, time = 4.72 | CG iter. 44 -- res = 0.86345E+01, tol = 0.73244E+01, time = 4.84 | CG iter. 45 -- res = 0.63087E+01, tol = 0.73244E+01, time = 4.77 | CG iter. 46 -- res = 0.43860E+01, tol = 0.73244E+01, time = 4.72 | CG iter. 47 -- res = 0.30537E+01, tol = 0.73244E+01, time = 4.57 | CG iter. 48 -- res = 0.22283E+01, tol = 0.73244E+01, time = 4.68 | CG iter. 49 -- res = 0.16725E+01, tol = 0.73244E+01, time = 4.77 | CG iter. 50 -- res = 0.11189E+01, tol = 0.73244E+01, time = 4.88 | Final CG iter 51 -- res = 0.11189E+01, tol = 0.73244E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7590296.362 | Old band monopole 9890782.620 | Change to band monopole -2300486.257 | Change to component monopole 2300476.363 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.22658E+07, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.82891E+03, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.47432E+01, tol = 0.47627E+18, time = 1.70 | CG iter. 4 -- res = 0.13231E+00, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.29482E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7590263.715 | (Sampled value in CG: 7794841.249 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.538273 | New value = 1.540730 | poltype: 2 pol: 1 CPU time specind = 5.2800179E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.494350 | New value = 1.475519 | poltype: 2 pol: 2 CPU time specind = 3.4840107E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.23987E+08, tol = 0.47657E+04, time = 5.30 | CG iter. 2 -- res = 0.52036E+07, tol = 0.47657E+04, time = 5.45 | CG iter. 3 -- res = 0.84172E+06, tol = 0.47657E+04, time = 5.53 | CG iter. 4 -- res = 0.35538E+06, tol = 0.47657E+04, time = 5.65 | CG iter. 5 -- res = 0.15655E+06, tol = 0.47657E+04, time = 5.23 | CG iter. 6 -- res = 0.82783E+05, tol = 0.47657E+04, time = 5.54 | CG iter. 7 -- res = 0.43908E+05, tol = 0.47657E+04, time = 5.50 | CG iter. 8 -- res = 0.20801E+05, tol = 0.47657E+04, time = 5.46 | CG iter. 9 -- res = 0.91076E+04, tol = 0.47657E+04, time = 5.51 | CG iter. 10 -- res = 0.36794E+04, tol = 0.47657E+04, time = 5.46 | CG iter. 11 -- res = 0.16785E+04, tol = 0.47657E+04, time = 5.66 | CG iter. 12 -- res = 0.88625E+03, tol = 0.47657E+04, time = 5.27 | CG iter. 13 -- res = 0.50199E+03, tol = 0.47657E+04, time = 5.66 | CG iter. 14 -- res = 0.28269E+03, tol = 0.47657E+04, time = 5.35 | CG iter. 15 -- res = 0.14430E+03, tol = 0.47657E+04, time = 5.38 | CG iter. 16 -- res = 0.67767E+02, tol = 0.47657E+04, time = 5.56 | CG iter. 17 -- res = 0.31318E+02, tol = 0.47657E+04, time = 5.41 | CG iter. 18 -- res = 0.15849E+02, tol = 0.47657E+04, time = 5.39 | CG iter. 19 -- res = 0.88529E+01, tol = 0.47657E+04, time = 5.85 | CG iter. 20 -- res = 0.50868E+01, tol = 0.47657E+04, time = 5.42 | CG iter. 21 -- res = 0.27998E+01, tol = 0.47657E+04, time = 5.25 | CG iter. 22 -- res = 0.14008E+01, tol = 0.47657E+04, time = 5.45 | CG iter. 23 -- res = 0.68880E+00, tol = 0.47657E+04, time = 5.54 | CG iter. 24 -- res = 0.35660E+00, tol = 0.47657E+04, time = 10.88 | CG iter. 25 -- res = 0.19262E+00, tol = 0.47657E+04, time = 6.40 | CG iter. 26 -- res = 0.10844E+00, tol = 0.47657E+04, time = 5.53 | CG iter. 27 -- res = 0.60147E-01, tol = 0.47657E+04, time = 5.57 | CG iter. 28 -- res = 0.31281E-01, tol = 0.47657E+04, time = 5.41 | CG iter. 29 -- res = 0.16178E-01, tol = 0.47657E+04, time = 5.79 | CG iter. 30 -- res = 0.85263E-02, tol = 0.47657E+04, time = 5.72 | CG iter. 31 -- res = 0.47142E-02, tol = 0.47657E+04, time = 5.36 | CG iter. 32 -- res = 0.26699E-02, tol = 0.47657E+04, time = 5.62 | CG iter. 33 -- res = 0.15065E-02, tol = 0.47657E+04, time = 5.34 | CG iter. 34 -- res = 0.82705E-03, tol = 0.47657E+04, time = 5.31 | CG iter. 35 -- res = 0.42926E-03, tol = 0.47657E+04, time = 5.54 | Final CG iter 36 -- res = 0.42926E-03, tol = 0.47657E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.931 2.754 | New value -1.990 | Old value 1.931 | Difference -3.921 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.83899E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.46661E+03, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.23365E+01, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.19287E-03, tol = 0.47627E+18, time = 1.56 | Final CG iter 5 -- res = 0.17139E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7590263.715 | (Sampled value in CG: 7793072.980 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.574629 | New value = -3.662424 | poltype: 1 pol: 1 CPU time specind = 8.7370872E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.52309E+07, tol = 0.22891E+01, time = 2.39 | CG iter. 2 -- res = 0.26268E+07, tol = 0.22891E+01, time = 2.14 | CG iter. 3 -- res = 0.56590E+06, tol = 0.22891E+01, time = 2.46 | CG iter. 4 -- res = 0.25878E+06, tol = 0.22891E+01, time = 2.25 | CG iter. 5 -- res = 0.14839E+06, tol = 0.22891E+01, time = 2.06 | CG iter. 6 -- res = 0.62667E+05, tol = 0.22891E+01, time = 2.06 | CG iter. 7 -- res = 0.18787E+05, tol = 0.22891E+01, time = 2.17 | CG iter. 8 -- res = 0.73942E+04, tol = 0.22891E+01, time = 2.16 | CG iter. 9 -- res = 0.37644E+04, tol = 0.22891E+01, time = 2.16 | CG iter. 10 -- res = 0.15306E+04, tol = 0.22891E+01, time = 2.25 | CG iter. 11 -- res = 0.59458E+03, tol = 0.22891E+01, time = 2.30 | CG iter. 12 -- res = 0.29685E+03, tol = 0.22891E+01, time = 2.41 | CG iter. 13 -- res = 0.14850E+03, tol = 0.22891E+01, time = 2.26 | CG iter. 14 -- res = 0.73522E+02, tol = 0.22891E+01, time = 2.27 | CG iter. 15 -- res = 0.31727E+02, tol = 0.22891E+01, time = 2.14 | CG iter. 16 -- res = 0.13483E+02, tol = 0.22891E+01, time = 2.25 | CG iter. 17 -- res = 0.58193E+01, tol = 0.22891E+01, time = 2.23 | CG iter. 18 -- res = 0.28525E+01, tol = 0.22891E+01, time = 2.16 | CG iter. 19 -- res = 0.14279E+01, tol = 0.22891E+01, time = 2.38 | CG iter. 20 -- res = 0.69066E+00, tol = 0.22891E+01, time = 2.21 | CG iter. 21 -- res = 0.31332E+00, tol = 0.22891E+01, time = 2.41 | CG iter. 22 -- res = 0.13569E+00, tol = 0.22891E+01, time = 1.99 | CG iter. 23 -- res = 0.59811E-01, tol = 0.22891E+01, time = 2.15 | CG iter. 24 -- res = 0.28867E-01, tol = 0.22891E+01, time = 2.10 | CG iter. 25 -- res = 0.14259E-01, tol = 0.22891E+01, time = 2.18 | CG iter. 26 -- res = 0.70554E-02, tol = 0.22891E+01, time = 2.21 | CG iter. 27 -- res = 0.34721E-02, tol = 0.22891E+01, time = 2.23 | CG iter. 28 -- res = 0.16098E-02, tol = 0.22891E+01, time = 2.27 | CG iter. 29 -- res = 0.68471E-03, tol = 0.22891E+01, time = 2.21 | CG iter. 30 -- res = 0.33527E-03, tol = 0.22891E+01, time = 2.39 | CG iter. 31 -- res = 0.15780E-03, tol = 0.22891E+01, time = 2.11 | CG iter. 32 -- res = 0.82033E-04, tol = 0.22891E+01, time = 2.32 | CG iter. 33 -- res = 0.39825E-04, tol = 0.22891E+01, time = 2.44 | CG iter. 34 -- res = 0.17714E-04, tol = 0.22891E+01, time = 2.45 | CG iter. 35 -- res = 0.85534E-05, tol = 0.22891E+01, time = 2.20 | CG iter. 36 -- res = 0.40748E-05, tol = 0.22891E+01, time = 2.24 | CG iter. 37 -- res = 0.19297E-05, tol = 0.22891E+01, time = 3.35 | CG iter. 38 -- res = 0.10093E-05, tol = 0.22891E+01, time = 2.80 | CG iter. 39 -- res = 0.49283E-06, tol = 0.22891E+01, time = 2.53 | CG iter. 40 -- res = 0.22854E-06, tol = 0.22891E+01, time = 2.39 | CG iter. 41 -- res = 0.10511E-06, tol = 0.22891E+01, time = 2.57 | CG iter. 42 -- res = 0.49839E-07, tol = 0.22891E+01, time = 2.55 | CG iter. 43 -- res = 0.23682E-07, tol = 0.22891E+01, time = 2.23 | CG iter. 44 -- res = 0.11968E-07, tol = 0.22891E+01, time = 2.18 | CG iter. 45 -- res = 0.58110E-08, tol = 0.22891E+01, time = 2.07 | CG iter. 46 -- res = 0.27110E-08, tol = 0.22891E+01, time = 2.33 | CG iter. 47 -- res = 0.13075E-08, tol = 0.22891E+01, time = 2.30 | CG iter. 48 -- res = 0.62503E-09, tol = 0.22891E+01, time = 2.21 | CG iter. 49 -- res = 0.29284E-09, tol = 0.22891E+01, time = 2.36 | CG iter. 50 -- res = 0.14610E-09, tol = 0.22891E+01, time = 2.07 | Final CG iter 51 -- res = 0.14610E-09, tol = 0.22891E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.754 3.458 | New value -0.072 | Old value 4.754 | Difference -4.826 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.52517E+05, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.13705E+03, tol = 0.47627E+18, time = 1.69 | CG iter. 3 -- res = 0.24868E+01, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.27792E-02, tol = 0.47627E+18, time = 1.63 | Final CG iter 5 -- res = 0.25604E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7590263.715 | (Sampled value in CG: 7743283.649 ) | CPU time specind = 1004.400 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.68881E+08, tol = 0.57823E+04, time = 9.82 | CG iter. 2 -- res = 0.60181E+08, tol = 0.57823E+04, time = 9.78 | CG iter. 3 -- res = 0.16083E+08, tol = 0.57823E+04, time = 10.08 | CG iter. 4 -- res = 0.67235E+07, tol = 0.57823E+04, time = 9.93 | CG iter. 5 -- res = 0.40867E+07, tol = 0.57823E+04, time = 10.19 | CG iter. 6 -- res = 0.23920E+07, tol = 0.57823E+04, time = 9.84 | CG iter. 7 -- res = 0.15138E+07, tol = 0.57823E+04, time = 10.12 | CG iter. 8 -- res = 0.10905E+07, tol = 0.57823E+04, time = 9.99 | CG iter. 9 -- res = 0.77376E+06, tol = 0.57823E+04, time = 9.81 | CG iter. 10 -- res = 0.53687E+06, tol = 0.57823E+04, time = 16.70 | CG iter. 11 -- res = 0.35294E+06, tol = 0.57823E+04, time = 9.98 | CG iter. 12 -- res = 0.25327E+06, tol = 0.57823E+04, time = 9.95 | CG iter. 13 -- res = 0.20561E+06, tol = 0.57823E+04, time = 9.85 | CG iter. 14 -- res = 0.19199E+06, tol = 0.57823E+04, time = 9.78 | CG iter. 15 -- res = 0.20019E+06, tol = 0.57823E+04, time = 9.94 | CG iter. 16 -- res = 0.21177E+06, tol = 0.57823E+04, time = 9.87 | CG iter. 17 -- res = 0.21328E+06, tol = 0.57823E+04, time = 9.90 | CG iter. 18 -- res = 0.18760E+06, tol = 0.57823E+04, time = 9.78 | CG iter. 19 -- res = 0.15222E+06, tol = 0.57823E+04, time = 11.50 | CG iter. 20 -- res = 0.12500E+06, tol = 0.57823E+04, time = 10.30 | CG iter. 21 -- res = 0.10544E+06, tol = 0.57823E+04, time = 9.90 | CG iter. 22 -- res = 0.92514E+05, tol = 0.57823E+04, time = 9.95 | CG iter. 23 -- res = 0.81644E+05, tol = 0.57823E+04, time = 10.03 | CG iter. 24 -- res = 0.69356E+05, tol = 0.57823E+04, time = 10.19 | CG iter. 25 -- res = 0.54461E+05, tol = 0.57823E+04, time = 9.98 | CG iter. 26 -- res = 0.42227E+05, tol = 0.57823E+04, time = 9.99 | CG iter. 27 -- res = 0.34283E+05, tol = 0.57823E+04, time = 10.05 | CG iter. 28 -- res = 0.29785E+05, tol = 0.57823E+04, time = 9.87 | CG iter. 29 -- res = 0.28226E+05, tol = 0.57823E+04, time = 10.15 | CG iter. 30 -- res = 0.27383E+05, tol = 0.57823E+04, time = 10.35 | CG iter. 31 -- res = 0.25751E+05, tol = 0.57823E+04, time = 9.65 | CG iter. 32 -- res = 0.22845E+05, tol = 0.57823E+04, time = 9.84 | CG iter. 33 -- res = 0.19399E+05, tol = 0.57823E+04, time = 9.91 | CG iter. 34 -- res = 0.15754E+05, tol = 0.57823E+04, time = 10.13 | CG iter. 35 -- res = 0.12891E+05, tol = 0.57823E+04, time = 9.83 | CG iter. 36 -- res = 0.11098E+05, tol = 0.57823E+04, time = 10.01 | CG iter. 37 -- res = 0.99783E+04, tol = 0.57823E+04, time = 9.84 | CG iter. 38 -- res = 0.88721E+04, tol = 0.57823E+04, time = 10.17 | CG iter. 39 -- res = 0.77786E+04, tol = 0.57823E+04, time = 10.50 | CG iter. 40 -- res = 0.64521E+04, tol = 0.57823E+04, time = 15.38 | CG iter. 41 -- res = 0.54012E+04, tol = 0.57823E+04, time = 9.85 | CG iter. 42 -- res = 0.47456E+04, tol = 0.57823E+04, time = 10.04 | CG iter. 43 -- res = 0.43505E+04, tol = 0.57823E+04, time = 9.97 | CG iter. 44 -- res = 0.41060E+04, tol = 0.57823E+04, time = 9.99 | CG iter. 45 -- res = 0.39347E+04, tol = 0.57823E+04, time = 9.91 | CG iter. 46 -- res = 0.36219E+04, tol = 0.57823E+04, time = 9.99 | CG iter. 47 -- res = 0.31630E+04, tol = 0.57823E+04, time = 9.87 | CG iter. 48 -- res = 0.26238E+04, tol = 0.57823E+04, time = 11.52 | CG iter. 49 -- res = 0.21991E+04, tol = 0.57823E+04, time = 10.76 | CG iter. 50 -- res = 0.19623E+04, tol = 0.57823E+04, time = 9.67 | CG iter. 51 -- res = 0.18831E+04, tol = 0.57823E+04, time = 9.77 | CG iter. 52 -- res = 0.17603E+04, tol = 0.57823E+04, time = 10.16 | CG iter. 53 -- res = 0.15816E+04, tol = 0.57823E+04, time = 9.93 | CG iter. 54 -- res = 0.13768E+04, tol = 0.57823E+04, time = 10.00 | CG iter. 55 -- res = 0.11979E+04, tol = 0.57823E+04, time = 9.88 | CG iter. 56 -- res = 0.10714E+04, tol = 0.57823E+04, time = 9.96 | CG iter. 57 -- res = 0.97340E+03, tol = 0.57823E+04, time = 9.75 | CG iter. 58 -- res = 0.92920E+03, tol = 0.57823E+04, time = 10.15 | CG iter. 59 -- res = 0.89205E+03, tol = 0.57823E+04, time = 10.04 | CG iter. 60 -- res = 0.80780E+03, tol = 0.57823E+04, time = 10.04 | Final CG iter 61 -- res = 0.80780E+03, tol = 0.57823E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.828 ( -229.943 -2227.294 2509.624 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8977652.966 | Old band monopole 7590296.362 | Change to band monopole 1387356.604 | Change to component monopole -1387350.637 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.061 2.716 | New value -5.352 | Old value -2.061 | Difference -3.292 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.154 ( 5.723 4.869 -5.054 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.463 4.557 | New value 1.910 | Old value -2.463 | Difference 4.373 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.56545E+06, tol = 0.47627E+18, time = 1.55 | CG iter. 2 -- res = 0.23471E+02, tol = 0.47627E+18, time = 1.55 | CG iter. 3 -- res = 0.51217E+00, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.79635E-03, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.50894E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8977614.351 | (Sampled value in CG: 8958668.881 ) | Chain = 1 -- chisq = 0.81490778E+09 | Chain = 1 -- wall time = 5846.815 sec Available RAM: MemAvailable: 377124516 kB Available Swap: SwapFree: 1123213124 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 173 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446410 | --> Sampling calibration, mode = relcal | relcal = 1.3435554E-02 7.4136310E-04 -1.5980586E-03 -1.2578858E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1009906 0.1266049 97038992.9159242 | BP delta = 0.1051077 0.1307220 97038997.4251619 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632206 | --> Sampling calibration, mode = relcal | relcal = -2.8206776E-03 -7.0391246E-04 1.6777662E-03 1.6136484E-03 -4.0702516E-04 6.4020063E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5817066 15220976.5728520 | BP delta = 0.0000000E+00 -0.5806104 15220976.5076831 | BP chisq diff = -0.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18230321399571 | --> Sampling calibration, mode = relcal | relcal = -7.3843881E-02 -5.7925917E-02 9.0827681E-02 4.0942121E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3790727E-04 3.2841354E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3331E-04 | 2: delta_r/delta_0: 8.3882E-06 | 3: delta_s/delta_0: 2.0499E-07 | 4: delta_r/delta_0: 1.8613E-08 | 5: delta_s/delta_0: 8.1161E-09 | 6: delta_r/delta_0: 1.9572E-09 | 7: delta_s/delta_0: 9.6627E-10 | 8: delta_r/delta_0: 9.0313E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.385650461211392E-003 2.738242911555698E-005 | BP delta = 2.8270490E-02 4.4036165E-02 50483095.6655203 | BP delta = 2.9969206E-02 4.5734879E-02 50483096.0758997 | BP chisq diff = 0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02555878 | --> Sampling calibration, mode = relcal | relcal = -0.1066215 -9.5468841E-02 0.1448185 5.7271875E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2243857E-03 1.7605792E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0915E-05 | 2: delta_r/delta_0: 1.6853E-06 | 3: delta_s/delta_0: 2.2831E-07 | 4: delta_r/delta_0: 4.5960E-08 | 5: delta_s/delta_0: 2.7951E-08 | 6: delta_r/delta_0: 6.9385E-09 | 7: delta_s/delta_0: 7.7604E-09 | 8: delta_r/delta_0: 1.4124E-09 | 9: delta_s/delta_0: 1.5664E-09 | 10: delta_r/delta_0: 1.1167E-09 | 11: delta_s/delta_0: 3.7328E-10 | 12: delta_r/delta_0: 1.2876E-10 | 13: delta_s/delta_0: 8.8222E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.035794172332625E-002 2.812030316531943E-005 | BP delta = -0.2749246 -0.2494211 57388830.8079689 | BP delta = -0.2830529 -0.2575494 57388830.1418733 | BP chisq diff = -0.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81192529 | --> Sampling calibration, mode = relcal | relcal = 0.2952883 0.2247420 -0.2836553 -0.2363750 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3656834E-04 5.7480945E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9650E-04 | 2: delta_r/delta_0: 1.6780E-05 | 3: delta_s/delta_0: 1.9905E-05 | 4: delta_r/delta_0: 1.4067E-06 | 5: delta_s/delta_0: 3.4384E-07 | 6: delta_r/delta_0: 1.5484E-07 | 7: delta_s/delta_0: 4.4161E-07 | 8: delta_r/delta_0: 3.5788E-08 | 9: delta_s/delta_0: 2.8872E-07 | 10: delta_r/delta_0: 5.4676E-08 | 11: delta_s/delta_0: 2.0720E-09 | 12: delta_r/delta_0: 8.3944E-10 | 13: delta_s/delta_0: 2.3889E-09 | 14: delta_r/delta_0: 6.4004E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.286088035129897E-002 4.023099499887873E-005 | BP delta = -0.1736932 -0.1917424 72486829.6850732 | BP delta = -0.1709809 -0.1890301 72486829.6124783 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95872138 | --> Sampling calibration, mode = relcal | relcal = 0.1064072 0.1395866 -0.1103320 -0.1356618 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5222313E-03 1.4092367E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5676E-04 | 2: delta_r/delta_0: 4.2769E-06 | 3: delta_s/delta_0: 3.3704E-05 | 4: delta_r/delta_0: 3.2230E-06 | 5: delta_s/delta_0: 1.6617E-07 | 6: delta_r/delta_0: 1.0613E-07 | 7: delta_s/delta_0: 1.0350E-06 | 8: delta_r/delta_0: 2.0781E-08 | 9: delta_s/delta_0: 1.6141E-07 | 10: delta_r/delta_0: 1.6659E-08 | 11: delta_s/delta_0: 1.1187E-08 | 12: delta_r/delta_0: 6.5817E-09 | 13: delta_s/delta_0: 3.9501E-10 | 14: delta_r/delta_0: 1.5765E-10 | 15: delta_s/delta_0: 2.6641E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.862388219101414E-002 3.698951242826111E-005 | BP delta = 2.1728659E-02 0.1399395 72773970.1513179 | BP delta = 1.7511381E-02 0.1357223 72773970.4355378 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.050604 | New value = -3.218823 | poltype: 2 pol: 1 CPU time specind = 5.4349899E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.077156 | New value = -3.105095 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162399 | New value = -3.091674 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114676 | New value = -3.151277 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118362 | New value = -3.119813 | poltype: 2 pol: 2 CPU time specind = 6.0021877E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.13727E+08, tol = 0.78669E+01, time = 4.69 | CG iter. 2 -- res = 0.40692E+06, tol = 0.78669E+01, time = 4.37 | CG iter. 3 -- res = 0.16068E+06, tol = 0.78669E+01, time = 4.89 | CG iter. 4 -- res = 0.28415E+06, tol = 0.78669E+01, time = 4.81 | CG iter. 5 -- res = 0.28857E+06, tol = 0.78669E+01, time = 4.75 | CG iter. 6 -- res = 0.23909E+06, tol = 0.78669E+01, time = 4.65 | CG iter. 7 -- res = 0.18071E+06, tol = 0.78669E+01, time = 4.56 | CG iter. 8 -- res = 0.13195E+06, tol = 0.78669E+01, time = 4.66 | CG iter. 9 -- res = 0.11677E+06, tol = 0.78669E+01, time = 4.76 | CG iter. 10 -- res = 0.95826E+05, tol = 0.78669E+01, time = 5.31 | CG iter. 11 -- res = 0.68749E+05, tol = 0.78669E+01, time = 5.86 | CG iter. 12 -- res = 0.56046E+05, tol = 0.78669E+01, time = 4.93 | CG iter. 13 -- res = 0.51232E+05, tol = 0.78669E+01, time = 5.01 | CG iter. 14 -- res = 0.42955E+05, tol = 0.78669E+01, time = 4.72 | CG iter. 15 -- res = 0.32094E+05, tol = 0.78669E+01, time = 4.58 | CG iter. 16 -- res = 0.23087E+05, tol = 0.78669E+01, time = 4.68 | CG iter. 17 -- res = 0.19014E+05, tol = 0.78669E+01, time = 4.69 | CG iter. 18 -- res = 0.16393E+05, tol = 0.78669E+01, time = 4.67 | CG iter. 19 -- res = 0.13730E+05, tol = 0.78669E+01, time = 4.59 | CG iter. 20 -- res = 0.10411E+05, tol = 0.78669E+01, time = 4.89 | CG iter. 21 -- res = 0.82390E+04, tol = 0.78669E+01, time = 4.97 | CG iter. 22 -- res = 0.73236E+04, tol = 0.78669E+01, time = 4.65 | CG iter. 23 -- res = 0.61382E+04, tol = 0.78669E+01, time = 4.88 | CG iter. 24 -- res = 0.48226E+04, tol = 0.78669E+01, time = 4.84 | CG iter. 25 -- res = 0.37689E+04, tol = 0.78669E+01, time = 4.90 | CG iter. 26 -- res = 0.32890E+04, tol = 0.78669E+01, time = 5.11 | CG iter. 27 -- res = 0.29728E+04, tol = 0.78669E+01, time = 4.64 | CG iter. 28 -- res = 0.25177E+04, tol = 0.78669E+01, time = 4.67 | CG iter. 29 -- res = 0.19714E+04, tol = 0.78669E+01, time = 4.78 | CG iter. 30 -- res = 0.16247E+04, tol = 0.78669E+01, time = 4.78 | CG iter. 31 -- res = 0.15278E+04, tol = 0.78669E+01, time = 4.93 | CG iter. 32 -- res = 0.13166E+04, tol = 0.78669E+01, time = 4.63 | CG iter. 33 -- res = 0.10385E+04, tol = 0.78669E+01, time = 5.41 | CG iter. 34 -- res = 0.86404E+03, tol = 0.78669E+01, time = 4.84 | CG iter. 35 -- res = 0.79609E+03, tol = 0.78669E+01, time = 4.54 | CG iter. 36 -- res = 0.72745E+03, tol = 0.78669E+01, time = 4.90 | CG iter. 37 -- res = 0.60374E+03, tol = 0.78669E+01, time = 4.61 | CG iter. 38 -- res = 0.48539E+03, tol = 0.78669E+01, time = 4.85 | CG iter. 39 -- res = 0.41900E+03, tol = 0.78669E+01, time = 4.68 | CG iter. 40 -- res = 0.39285E+03, tol = 0.78669E+01, time = 4.74 | CG iter. 41 -- res = 0.32876E+03, tol = 0.78669E+01, time = 4.86 | CG iter. 42 -- res = 0.26656E+03, tol = 0.78669E+01, time = 4.86 | CG iter. 43 -- res = 0.23584E+03, tol = 0.78669E+01, time = 4.65 | CG iter. 44 -- res = 0.20768E+03, tol = 0.78669E+01, time = 4.47 | CG iter. 45 -- res = 0.17442E+03, tol = 0.78669E+01, time = 4.82 | CG iter. 46 -- res = 0.13953E+03, tol = 0.78669E+01, time = 4.67 | CG iter. 47 -- res = 0.11341E+03, tol = 0.78669E+01, time = 4.80 | CG iter. 48 -- res = 0.99888E+02, tol = 0.78669E+01, time = 4.66 | CG iter. 49 -- res = 0.85091E+02, tol = 0.78669E+01, time = 4.86 | CG iter. 50 -- res = 0.71038E+02, tol = 0.78669E+01, time = 4.82 | Final CG iter 51 -- res = 0.71038E+02, tol = 0.78669E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9230050.480 | Old band monopole 8977652.966 | Change to band monopole 252397.514 | Change to component monopole -252396.428 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.19774E+07, tol = 0.47627E+18, time = 1.55 | CG iter. 2 -- res = 0.72263E+03, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.59730E+01, tol = 0.47627E+18, time = 1.71 | CG iter. 4 -- res = 0.91766E-01, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.26141E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9230010.780 | (Sampled value in CG: 9097379.756 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.540730 | New value = 1.486307 | poltype: 2 pol: 1 CPU time specind = 5.3250790E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475519 | New value = 1.518984 | poltype: 2 pol: 2 CPU time specind = 3.1039715E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.24655E+08, tol = 0.47462E+04, time = 7.22 | CG iter. 2 -- res = 0.53486E+07, tol = 0.47462E+04, time = 5.70 | CG iter. 3 -- res = 0.83268E+06, tol = 0.47462E+04, time = 5.94 | CG iter. 4 -- res = 0.35115E+06, tol = 0.47462E+04, time = 5.53 | CG iter. 5 -- res = 0.15814E+06, tol = 0.47462E+04, time = 5.24 | CG iter. 6 -- res = 0.83142E+05, tol = 0.47462E+04, time = 5.72 | CG iter. 7 -- res = 0.43550E+05, tol = 0.47462E+04, time = 5.57 | CG iter. 8 -- res = 0.20871E+05, tol = 0.47462E+04, time = 5.17 | CG iter. 9 -- res = 0.91277E+04, tol = 0.47462E+04, time = 5.63 | CG iter. 10 -- res = 0.37138E+04, tol = 0.47462E+04, time = 5.27 | CG iter. 11 -- res = 0.16811E+04, tol = 0.47462E+04, time = 5.23 | CG iter. 12 -- res = 0.84660E+03, tol = 0.47462E+04, time = 5.41 | CG iter. 13 -- res = 0.48327E+03, tol = 0.47462E+04, time = 5.55 | CG iter. 14 -- res = 0.28242E+03, tol = 0.47462E+04, time = 5.33 | CG iter. 15 -- res = 0.14493E+03, tol = 0.47462E+04, time = 5.54 | CG iter. 16 -- res = 0.69486E+02, tol = 0.47462E+04, time = 5.77 | CG iter. 17 -- res = 0.32713E+02, tol = 0.47462E+04, time = 5.40 | CG iter. 18 -- res = 0.16234E+02, tol = 0.47462E+04, time = 5.67 | CG iter. 19 -- res = 0.88841E+01, tol = 0.47462E+04, time = 5.52 | CG iter. 20 -- res = 0.51090E+01, tol = 0.47462E+04, time = 5.36 | CG iter. 21 -- res = 0.27923E+01, tol = 0.47462E+04, time = 5.48 | CG iter. 22 -- res = 0.14158E+01, tol = 0.47462E+04, time = 5.50 | CG iter. 23 -- res = 0.70141E+00, tol = 0.47462E+04, time = 5.59 | CG iter. 24 -- res = 0.36308E+00, tol = 0.47462E+04, time = 5.39 | CG iter. 25 -- res = 0.20125E+00, tol = 0.47462E+04, time = 5.53 | CG iter. 26 -- res = 0.11449E+00, tol = 0.47462E+04, time = 5.30 | CG iter. 27 -- res = 0.63397E-01, tol = 0.47462E+04, time = 5.73 | CG iter. 28 -- res = 0.33975E-01, tol = 0.47462E+04, time = 5.50 | CG iter. 29 -- res = 0.17991E-01, tol = 0.47462E+04, time = 5.36 | CG iter. 30 -- res = 0.96276E-02, tol = 0.47462E+04, time = 5.50 | CG iter. 31 -- res = 0.53236E-02, tol = 0.47462E+04, time = 5.81 | CG iter. 32 -- res = 0.30315E-02, tol = 0.47462E+04, time = 5.27 | CG iter. 33 -- res = 0.17100E-02, tol = 0.47462E+04, time = 5.33 | CG iter. 34 -- res = 0.92578E-03, tol = 0.47462E+04, time = 5.61 | CG iter. 35 -- res = 0.48835E-03, tol = 0.47462E+04, time = 5.27 | Final CG iter 36 -- res = 0.48835E-03, tol = 0.47462E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.365 2.744 | New value 1.591 | Old value -5.365 | Difference 6.956 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.25201E+07, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.23062E+03, tol = 0.47627E+18, time = 1.64 | CG iter. 3 -- res = 0.30404E+01, tol = 0.47627E+18, time = 1.66 | CG iter. 4 -- res = 0.40390E-02, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.59168E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9230010.780 | (Sampled value in CG: 9097464.447 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.662424 | New value = -3.478809 | poltype: 1 pol: 1 CPU time specind = 5.1529408E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.71728E+07, tol = 0.27970E+01, time = 2.25 | CG iter. 2 -- res = 0.45701E+07, tol = 0.27970E+01, time = 2.30 | CG iter. 3 -- res = 0.99913E+06, tol = 0.27970E+01, time = 2.29 | CG iter. 4 -- res = 0.42495E+06, tol = 0.27970E+01, time = 2.11 | CG iter. 5 -- res = 0.25323E+06, tol = 0.27970E+01, time = 2.32 | CG iter. 6 -- res = 0.12049E+06, tol = 0.27970E+01, time = 2.24 | CG iter. 7 -- res = 0.38217E+05, tol = 0.27970E+01, time = 2.12 | CG iter. 8 -- res = 0.14715E+05, tol = 0.27970E+01, time = 2.17 | CG iter. 9 -- res = 0.73599E+04, tol = 0.27970E+01, time = 2.62 | CG iter. 10 -- res = 0.32700E+04, tol = 0.27970E+01, time = 2.24 | CG iter. 11 -- res = 0.12699E+04, tol = 0.27970E+01, time = 2.25 | CG iter. 12 -- res = 0.56497E+03, tol = 0.27970E+01, time = 2.27 | CG iter. 13 -- res = 0.27977E+03, tol = 0.27970E+01, time = 2.00 | CG iter. 14 -- res = 0.13993E+03, tol = 0.27970E+01, time = 2.37 | CG iter. 15 -- res = 0.67115E+02, tol = 0.27970E+01, time = 2.30 | CG iter. 16 -- res = 0.30638E+02, tol = 0.27970E+01, time = 2.05 | CG iter. 17 -- res = 0.12736E+02, tol = 0.27970E+01, time = 2.40 | CG iter. 18 -- res = 0.60532E+01, tol = 0.27970E+01, time = 2.36 | CG iter. 19 -- res = 0.27965E+01, tol = 0.27970E+01, time = 2.28 | CG iter. 20 -- res = 0.13755E+01, tol = 0.27970E+01, time = 2.19 | CG iter. 21 -- res = 0.66062E+00, tol = 0.27970E+01, time = 2.25 | CG iter. 22 -- res = 0.31098E+00, tol = 0.27970E+01, time = 2.30 | CG iter. 23 -- res = 0.13982E+00, tol = 0.27970E+01, time = 2.27 | CG iter. 24 -- res = 0.65465E-01, tol = 0.27970E+01, time = 2.28 | CG iter. 25 -- res = 0.30516E-01, tol = 0.27970E+01, time = 2.19 | CG iter. 26 -- res = 0.14545E-01, tol = 0.27970E+01, time = 2.32 | CG iter. 27 -- res = 0.71862E-02, tol = 0.27970E+01, time = 2.18 | CG iter. 28 -- res = 0.36895E-02, tol = 0.27970E+01, time = 2.41 | CG iter. 29 -- res = 0.17671E-02, tol = 0.27970E+01, time = 2.30 | CG iter. 30 -- res = 0.86819E-03, tol = 0.27970E+01, time = 2.19 | CG iter. 31 -- res = 0.42643E-03, tol = 0.27970E+01, time = 2.29 | CG iter. 32 -- res = 0.19485E-03, tol = 0.27970E+01, time = 2.28 | CG iter. 33 -- res = 0.95828E-04, tol = 0.27970E+01, time = 2.26 | CG iter. 34 -- res = 0.47076E-04, tol = 0.27970E+01, time = 2.38 | CG iter. 35 -- res = 0.25241E-04, tol = 0.27970E+01, time = 2.41 | CG iter. 36 -- res = 0.12686E-04, tol = 0.27970E+01, time = 3.77 | CG iter. 37 -- res = 0.58484E-05, tol = 0.27970E+01, time = 7.58 | CG iter. 38 -- res = 0.28045E-05, tol = 0.27970E+01, time = 2.27 | CG iter. 39 -- res = 0.13492E-05, tol = 0.27970E+01, time = 2.02 | CG iter. 40 -- res = 0.66166E-06, tol = 0.27970E+01, time = 2.49 | CG iter. 41 -- res = 0.33313E-06, tol = 0.27970E+01, time = 2.31 | CG iter. 42 -- res = 0.17269E-06, tol = 0.27970E+01, time = 2.22 | CG iter. 43 -- res = 0.78624E-07, tol = 0.27970E+01, time = 2.28 | CG iter. 44 -- res = 0.36965E-07, tol = 0.27970E+01, time = 2.24 | CG iter. 45 -- res = 0.17004E-07, tol = 0.27970E+01, time = 1.94 | CG iter. 46 -- res = 0.83483E-08, tol = 0.27970E+01, time = 2.17 | CG iter. 47 -- res = 0.41190E-08, tol = 0.27970E+01, time = 2.29 | CG iter. 48 -- res = 0.21432E-08, tol = 0.27970E+01, time = 2.26 | CG iter. 49 -- res = 0.10174E-08, tol = 0.27970E+01, time = 2.30 | CG iter. 50 -- res = 0.46979E-09, tol = 0.27970E+01, time = 2.32 | Final CG iter 51 -- res = 0.46979E-09, tol = 0.27970E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.957 7.238 | New value 7.275 | Old value -10.957 | Difference 18.232 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.35608E+06, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.19512E+03, tol = 0.47627E+18, time = 1.64 | CG iter. 3 -- res = 0.32693E+01, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.31701E-01, tol = 0.47627E+18, time = 1.50 | Final CG iter 5 -- res = 0.11600E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9230010.780 | (Sampled value in CG: 9136875.358 ) | CPU time specind = 996.7733 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.70060E+08, tol = 0.57581E+04, time = 9.64 | CG iter. 2 -- res = 0.58606E+08, tol = 0.57581E+04, time = 10.07 | CG iter. 3 -- res = 0.14999E+08, tol = 0.57581E+04, time = 10.14 | CG iter. 4 -- res = 0.64021E+07, tol = 0.57581E+04, time = 9.93 | CG iter. 5 -- res = 0.38842E+07, tol = 0.57581E+04, time = 10.23 | CG iter. 6 -- res = 0.23583E+07, tol = 0.57581E+04, time = 9.91 | CG iter. 7 -- res = 0.14665E+07, tol = 0.57581E+04, time = 9.95 | CG iter. 8 -- res = 0.99080E+06, tol = 0.57581E+04, time = 9.86 | CG iter. 9 -- res = 0.65949E+06, tol = 0.57581E+04, time = 10.27 | CG iter. 10 -- res = 0.42040E+06, tol = 0.57581E+04, time = 10.25 | CG iter. 11 -- res = 0.25541E+06, tol = 0.57581E+04, time = 9.93 | CG iter. 12 -- res = 0.17826E+06, tol = 0.57581E+04, time = 9.88 | CG iter. 13 -- res = 0.13883E+06, tol = 0.57581E+04, time = 9.80 | CG iter. 14 -- res = 0.12059E+06, tol = 0.57581E+04, time = 9.82 | CG iter. 15 -- res = 0.12416E+06, tol = 0.57581E+04, time = 9.59 | CG iter. 16 -- res = 0.13250E+06, tol = 0.57581E+04, time = 9.93 | CG iter. 17 -- res = 0.13815E+06, tol = 0.57581E+04, time = 9.77 | CG iter. 18 -- res = 0.12900E+06, tol = 0.57581E+04, time = 9.78 | CG iter. 19 -- res = 0.11201E+06, tol = 0.57581E+04, time = 16.31 | CG iter. 20 -- res = 0.98237E+05, tol = 0.57581E+04, time = 9.90 | CG iter. 21 -- res = 0.86360E+05, tol = 0.57581E+04, time = 10.23 | CG iter. 22 -- res = 0.76979E+05, tol = 0.57581E+04, time = 9.94 | CG iter. 23 -- res = 0.67659E+05, tol = 0.57581E+04, time = 9.86 | CG iter. 24 -- res = 0.55695E+05, tol = 0.57581E+04, time = 10.17 | CG iter. 25 -- res = 0.42425E+05, tol = 0.57581E+04, time = 10.15 | CG iter. 26 -- res = 0.31594E+05, tol = 0.57581E+04, time = 10.09 | CG iter. 27 -- res = 0.24974E+05, tol = 0.57581E+04, time = 10.18 | CG iter. 28 -- res = 0.21189E+05, tol = 0.57581E+04, time = 12.58 | CG iter. 29 -- res = 0.19904E+05, tol = 0.57581E+04, time = 10.08 | CG iter. 30 -- res = 0.19244E+05, tol = 0.57581E+04, time = 9.78 | CG iter. 31 -- res = 0.18010E+05, tol = 0.57581E+04, time = 9.97 | CG iter. 32 -- res = 0.15709E+05, tol = 0.57581E+04, time = 10.07 | CG iter. 33 -- res = 0.13176E+05, tol = 0.57581E+04, time = 9.96 | CG iter. 34 -- res = 0.11130E+05, tol = 0.57581E+04, time = 10.23 | CG iter. 35 -- res = 0.99210E+04, tol = 0.57581E+04, time = 9.90 | CG iter. 36 -- res = 0.90531E+04, tol = 0.57581E+04, time = 10.10 | CG iter. 37 -- res = 0.81704E+04, tol = 0.57581E+04, time = 10.14 | CG iter. 38 -- res = 0.70857E+04, tol = 0.57581E+04, time = 10.52 | CG iter. 39 -- res = 0.58776E+04, tol = 0.57581E+04, time = 9.97 | CG iter. 40 -- res = 0.47902E+04, tol = 0.57581E+04, time = 9.77 | CG iter. 41 -- res = 0.40406E+04, tol = 0.57581E+04, time = 9.86 | CG iter. 42 -- res = 0.35562E+04, tol = 0.57581E+04, time = 9.92 | CG iter. 43 -- res = 0.32524E+04, tol = 0.57581E+04, time = 10.02 | CG iter. 44 -- res = 0.31824E+04, tol = 0.57581E+04, time = 9.83 | CG iter. 45 -- res = 0.31273E+04, tol = 0.57581E+04, time = 9.75 | CG iter. 46 -- res = 0.28333E+04, tol = 0.57581E+04, time = 9.90 | CG iter. 47 -- res = 0.24522E+04, tol = 0.57581E+04, time = 9.80 | CG iter. 48 -- res = 0.20720E+04, tol = 0.57581E+04, time = 20.71 | CG iter. 49 -- res = 0.17995E+04, tol = 0.57581E+04, time = 9.95 | CG iter. 50 -- res = 0.16128E+04, tol = 0.57581E+04, time = 10.01 | CG iter. 51 -- res = 0.14825E+04, tol = 0.57581E+04, time = 9.81 | CG iter. 52 -- res = 0.13798E+04, tol = 0.57581E+04, time = 9.92 | CG iter. 53 -- res = 0.12502E+04, tol = 0.57581E+04, time = 9.82 | CG iter. 54 -- res = 0.10959E+04, tol = 0.57581E+04, time = 10.08 | CG iter. 55 -- res = 0.95184E+03, tol = 0.57581E+04, time = 9.76 | CG iter. 56 -- res = 0.84768E+03, tol = 0.57581E+04, time = 11.23 | CG iter. 57 -- res = 0.78750E+03, tol = 0.57581E+04, time = 10.90 | CG iter. 58 -- res = 0.77005E+03, tol = 0.57581E+04, time = 10.11 | CG iter. 59 -- res = 0.74110E+03, tol = 0.57581E+04, time = 9.79 | CG iter. 60 -- res = 0.69860E+03, tol = 0.57581E+04, time = 10.25 | Final CG iter 61 -- res = 0.69860E+03, tol = 0.57581E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.036 ( -229.855 -2229.101 2511.236 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9880159.515 | Old band monopole 9230050.480 | Change to band monopole 650109.035 | Change to component monopole -650106.239 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.642 2.740 | New value -2.821 | Old value 1.642 | Difference -4.463 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -2.032 ( 7.498 9.178 -7.745 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 20.046 5.724 | New value -6.365 | Old value 20.046 | Difference -26.411 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.14775E+07, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.15089E+03, tol = 0.47627E+18, time = 1.60 | CG iter. 3 -- res = 0.39049E+01, tol = 0.47627E+18, time = 1.57 | CG iter. 4 -- res = 0.93298E-02, tol = 0.47627E+18, time = 1.66 | Final CG iter 5 -- res = 0.13379E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9880117.018 | (Sampled value in CG: 9846016.914 ) | Chain = 1 -- chisq = 0.81571790E+09 | Chain = 1 -- wall time = 5318.678 sec Available RAM: MemAvailable: 377289552 kB Available Swap: SwapFree: 1123581764 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 174 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444887 | --> Sampling calibration, mode = relcal | relcal = 1.3444909E-02 7.3781679E-04 -1.6104032E-03 -1.2572322E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1009906 0.1266049 9407172.94327397 | BP delta = 0.1009906 0.1199244 9407168.74132246 | BP chisq diff = -4.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632383 | --> Sampling calibration, mode = relcal | relcal = -2.8209323E-03 -7.0326420E-04 1.6782292E-03 1.6129204E-03 -4.0763846E-04 6.4068532E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5806104 15217649.5844900 | BP delta = 0.0000000E+00 -0.5816280 15217649.3904064 | BP chisq diff = -0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17744376301719 | --> Sampling calibration, mode = relcal | relcal = -7.3471837E-02 -5.7369042E-02 9.0137154E-02 4.0703721E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0122496E-04 2.2900030E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5821E-04 | 2: delta_r/delta_0: 6.0698E-06 | 3: delta_s/delta_0: 1.6317E-07 | 4: delta_r/delta_0: 2.7476E-08 | 5: delta_s/delta_0: 8.3530E-09 | 6: delta_r/delta_0: 2.6054E-09 | 7: delta_s/delta_0: 2.6497E-10 | 8: delta_r/delta_0: 1.2278E-10 | 9: delta_s/delta_0: 5.5994E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.375521618733373E-004 2.749570816822505E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5822E-04 | 2: delta_r/delta_0: 6.0688E-06 | 3: delta_s/delta_0: 1.6318E-07 | 4: delta_r/delta_0: 2.7476E-08 | 5: delta_s/delta_0: 8.3536E-09 | 6: delta_r/delta_0: 2.6056E-09 | 7: delta_s/delta_0: 2.6513E-10 | 8: delta_r/delta_0: 1.2284E-10 | 9: delta_s/delta_0: 5.6015E-11 | Reached bicg-stab tolerance | BP delta = 2.9969206E-02 4.5734879E-02 3737865.92565044 | BP delta = 2.9969206E-02 4.5370631E-02 3742287.34384838 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02572477 | --> Sampling calibration, mode = relcal | relcal = -0.1065581 -9.5650390E-02 0.1449095 5.7298910E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4914322E-03 1.6406722E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0128E-05 | 2: delta_r/delta_0: 1.4993E-06 | 3: delta_s/delta_0: 2.3628E-07 | 4: delta_r/delta_0: 4.7415E-08 | 5: delta_s/delta_0: 2.6211E-08 | 6: delta_r/delta_0: 7.1837E-09 | 7: delta_s/delta_0: 1.5157E-08 | 8: delta_r/delta_0: 1.0773E-09 | 9: delta_s/delta_0: 1.0352E-09 | 10: delta_r/delta_0: 1.5400E-10 | 11: delta_s/delta_0: 1.4035E-09 | 12: delta_r/delta_0: 2.0950E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.001287975910600E-002 2.811554250872073E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0128E-05 | 2: delta_r/delta_0: 1.4993E-06 | 3: delta_s/delta_0: 2.3628E-07 | 4: delta_r/delta_0: 4.7413E-08 | 5: delta_s/delta_0: 2.6212E-08 | 6: delta_r/delta_0: 7.1835E-09 | 7: delta_s/delta_0: 1.5157E-08 | 8: delta_r/delta_0: 1.0772E-09 | 9: delta_s/delta_0: 1.0352E-09 | 10: delta_r/delta_0: 1.5400E-10 | 11: delta_s/delta_0: 1.4035E-09 | 12: delta_r/delta_0: 2.0950E-11 | Reached bicg-stab tolerance | BP delta = -0.2830529 -0.2575494 2841278.39933788 | BP delta = -0.2830529 -0.2579891 2841280.77994921 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81204577 | --> Sampling calibration, mode = relcal | relcal = 0.2953925 0.2246774 -0.2836204 -0.2364495 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2814773E-04 5.2878107E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5941E-03 | 2: delta_r/delta_0: 6.0118E-05 | 3: delta_s/delta_0: 1.2031E-05 | 4: delta_r/delta_0: 1.0784E-06 | 5: delta_s/delta_0: 1.2039E-06 | 6: delta_r/delta_0: 6.3345E-08 | 7: delta_s/delta_0: 3.4908E-08 | 8: delta_r/delta_0: 1.1417E-08 | 9: delta_s/delta_0: 9.9469E-08 | 10: delta_r/delta_0: 1.6687E-08 | 11: delta_s/delta_0: 2.5074E-09 | 12: delta_r/delta_0: 6.1694E-10 | 13: delta_s/delta_0: 4.5694E-10 | 14: delta_r/delta_0: 7.7699E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.837561366154734E-003 4.022508937849895E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5931E-03 | 2: delta_r/delta_0: 6.0092E-05 | 3: delta_s/delta_0: 1.2028E-05 | 4: delta_r/delta_0: 1.0781E-06 | 5: delta_s/delta_0: 1.2035E-06 | 6: delta_r/delta_0: 6.3339E-08 | 7: delta_s/delta_0: 3.4920E-08 | 8: delta_r/delta_0: 1.1432E-08 | 9: delta_s/delta_0: 9.9993E-08 | 10: delta_r/delta_0: 1.6753E-08 | 11: delta_s/delta_0: 2.5014E-09 | 12: delta_r/delta_0: 6.1714E-10 | 13: delta_s/delta_0: 4.5694E-10 | 14: delta_r/delta_0: 7.7754E-11 | Reached bicg-stab tolerance | BP delta = -0.1709809 -0.1890301 2827534.90224430 | BP delta = -0.1709809 -0.1955981 2827572.33402262 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95901016 | --> Sampling calibration, mode = relcal | relcal = 0.1064181 0.1394894 -0.1102685 -0.1356389 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0101699E-02 1.2335085E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8119E-04 | 2: delta_r/delta_0: 4.8044E-06 | 3: delta_s/delta_0: 9.4483E-06 | 4: delta_r/delta_0: 1.1939E-06 | 5: delta_s/delta_0: 1.7770E-07 | 6: delta_r/delta_0: 1.1436E-07 | 7: delta_s/delta_0: 8.3392E-07 | 8: delta_r/delta_0: 2.3594E-08 | 9: delta_s/delta_0: 3.4857E-08 | 10: delta_r/delta_0: 2.0648E-08 | 11: delta_s/delta_0: 1.0221E-09 | 12: delta_r/delta_0: 7.2902E-10 | 13: delta_s/delta_0: 4.2119E-09 | 14: delta_r/delta_0: 9.4140E-10 | 15: delta_s/delta_0: 7.4084E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.948289838697629E-002 3.697702446038780E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8118E-04 | 2: delta_r/delta_0: 4.8044E-06 | 3: delta_s/delta_0: 9.4491E-06 | 4: delta_r/delta_0: 1.1941E-06 | 5: delta_s/delta_0: 1.7773E-07 | 6: delta_r/delta_0: 1.1440E-07 | 7: delta_s/delta_0: 8.3478E-07 | 8: delta_r/delta_0: 2.3590E-08 | 9: delta_s/delta_0: 3.4807E-08 | 10: delta_r/delta_0: 2.0643E-08 | 11: delta_s/delta_0: 1.0225E-09 | 12: delta_r/delta_0: 7.2909E-10 | 13: delta_s/delta_0: 4.1902E-09 | 14: delta_r/delta_0: 9.3916E-10 | 15: delta_s/delta_0: 7.4090E-11 | Reached bicg-stab tolerance | BP delta = 1.7511381E-02 0.1357223 3004296.94390890 | BP delta = 1.7511381E-02 0.1322203 3004306.97987723 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218823 | New value = -3.123900 | poltype: 2 pol: 1 CPU time specind = 5.7351589E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105095 | New value = -3.174332 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091674 | New value = -3.149536 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.151277 | New value = -3.151196 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119813 | New value = -3.111823 | poltype: 2 pol: 2 CPU time specind = 5.5928230E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.13679E+08, tol = 0.71391E+01, time = 4.97 | CG iter. 2 -- res = 0.39143E+06, tol = 0.71391E+01, time = 4.42 | CG iter. 3 -- res = 0.88790E+05, tol = 0.71391E+01, time = 4.50 | CG iter. 4 -- res = 0.89876E+05, tol = 0.71391E+01, time = 5.06 | CG iter. 5 -- res = 0.90826E+05, tol = 0.71391E+01, time = 4.63 | CG iter. 6 -- res = 0.85979E+05, tol = 0.71391E+01, time = 4.62 | CG iter. 7 -- res = 0.72483E+05, tol = 0.71391E+01, time = 6.07 | CG iter. 8 -- res = 0.51541E+05, tol = 0.71391E+01, time = 4.97 | CG iter. 9 -- res = 0.40699E+05, tol = 0.71391E+01, time = 5.02 | CG iter. 10 -- res = 0.32996E+05, tol = 0.71391E+01, time = 4.69 | CG iter. 11 -- res = 0.23562E+05, tol = 0.71391E+01, time = 4.57 | CG iter. 12 -- res = 0.17596E+05, tol = 0.71391E+01, time = 4.67 | CG iter. 13 -- res = 0.14998E+05, tol = 0.71391E+01, time = 4.81 | CG iter. 14 -- res = 0.12664E+05, tol = 0.71391E+01, time = 4.87 | CG iter. 15 -- res = 0.10155E+05, tol = 0.71391E+01, time = 4.51 | CG iter. 16 -- res = 0.72687E+04, tol = 0.71391E+01, time = 4.89 | CG iter. 17 -- res = 0.50133E+04, tol = 0.71391E+01, time = 4.87 | CG iter. 18 -- res = 0.39657E+04, tol = 0.71391E+01, time = 4.65 | CG iter. 19 -- res = 0.34177E+04, tol = 0.71391E+01, time = 4.75 | CG iter. 20 -- res = 0.26705E+04, tol = 0.71391E+01, time = 4.92 | CG iter. 21 -- res = 0.19087E+04, tol = 0.71391E+01, time = 4.72 | CG iter. 22 -- res = 0.14874E+04, tol = 0.71391E+01, time = 4.47 | CG iter. 23 -- res = 0.12360E+04, tol = 0.71391E+01, time = 4.81 | CG iter. 24 -- res = 0.98765E+03, tol = 0.71391E+01, time = 4.69 | CG iter. 25 -- res = 0.73600E+03, tol = 0.71391E+01, time = 4.63 | CG iter. 26 -- res = 0.56149E+03, tol = 0.71391E+01, time = 4.74 | CG iter. 27 -- res = 0.47866E+03, tol = 0.71391E+01, time = 4.94 | CG iter. 28 -- res = 0.40355E+03, tol = 0.71391E+01, time = 4.33 | CG iter. 29 -- res = 0.31618E+03, tol = 0.71391E+01, time = 4.58 | CG iter. 30 -- res = 0.23320E+03, tol = 0.71391E+01, time = 4.76 | CG iter. 31 -- res = 0.19568E+03, tol = 0.71391E+01, time = 4.69 | CG iter. 32 -- res = 0.17656E+03, tol = 0.71391E+01, time = 4.56 | CG iter. 33 -- res = 0.13755E+03, tol = 0.71391E+01, time = 4.73 | CG iter. 34 -- res = 0.10658E+03, tol = 0.71391E+01, time = 4.74 | CG iter. 35 -- res = 0.86549E+02, tol = 0.71391E+01, time = 4.62 | CG iter. 36 -- res = 0.75425E+02, tol = 0.71391E+01, time = 4.77 | CG iter. 37 -- res = 0.63677E+02, tol = 0.71391E+01, time = 4.74 | CG iter. 38 -- res = 0.48985E+02, tol = 0.71391E+01, time = 4.75 | CG iter. 39 -- res = 0.38473E+02, tol = 0.71391E+01, time = 4.65 | CG iter. 40 -- res = 0.33281E+02, tol = 0.71391E+01, time = 4.67 | CG iter. 41 -- res = 0.28095E+02, tol = 0.71391E+01, time = 4.85 | CG iter. 42 -- res = 0.21512E+02, tol = 0.71391E+01, time = 4.67 | CG iter. 43 -- res = 0.16473E+02, tol = 0.71391E+01, time = 4.47 | CG iter. 44 -- res = 0.13620E+02, tol = 0.71391E+01, time = 4.70 | CG iter. 45 -- res = 0.11540E+02, tol = 0.71391E+01, time = 4.65 | CG iter. 46 -- res = 0.91421E+01, tol = 0.71391E+01, time = 4.63 | CG iter. 47 -- res = 0.70744E+01, tol = 0.71391E+01, time = 4.67 | CG iter. 48 -- res = 0.55434E+01, tol = 0.71391E+01, time = 4.73 | CG iter. 49 -- res = 0.45900E+01, tol = 0.71391E+01, time = 4.91 | CG iter. 50 -- res = 0.36205E+01, tol = 0.71391E+01, time = 4.74 | Final CG iter 51 -- res = 0.36205E+01, tol = 0.71391E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6528382.201 | Old band monopole 9880159.515 | Change to band monopole -3351777.314 | Change to component monopole 3351762.897 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.11495E+07, tol = 0.47627E+18, time = 1.55 | CG iter. 2 -- res = 0.54916E+03, tol = 0.47627E+18, time = 1.69 | CG iter. 3 -- res = 0.50889E+01, tol = 0.47627E+18, time = 1.60 | CG iter. 4 -- res = 0.51859E-01, tol = 0.47627E+18, time = 1.56 | Final CG iter 5 -- res = 0.10197E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6528354.121 | (Sampled value in CG: 6613141.929 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.486307 | New value = 1.535473 | poltype: 2 pol: 1 CPU time specind = 1.8136024E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518984 | New value = 1.496886 | poltype: 2 pol: 2 CPU time specind = 3.4260750E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.24538E+08, tol = 0.47612E+04, time = 5.23 | CG iter. 2 -- res = 0.54082E+07, tol = 0.47612E+04, time = 5.12 | CG iter. 3 -- res = 0.85609E+06, tol = 0.47612E+04, time = 5.61 | CG iter. 4 -- res = 0.35578E+06, tol = 0.47612E+04, time = 5.72 | CG iter. 5 -- res = 0.15457E+06, tol = 0.47612E+04, time = 5.38 | CG iter. 6 -- res = 0.81122E+05, tol = 0.47612E+04, time = 5.51 | CG iter. 7 -- res = 0.44972E+05, tol = 0.47612E+04, time = 5.38 | CG iter. 8 -- res = 0.21502E+05, tol = 0.47612E+04, time = 5.33 | CG iter. 9 -- res = 0.93779E+04, tol = 0.47612E+04, time = 5.48 | CG iter. 10 -- res = 0.37964E+04, tol = 0.47612E+04, time = 5.33 | CG iter. 11 -- res = 0.17007E+04, tol = 0.47612E+04, time = 5.34 | CG iter. 12 -- res = 0.86439E+03, tol = 0.47612E+04, time = 5.50 | CG iter. 13 -- res = 0.48843E+03, tol = 0.47612E+04, time = 5.43 | CG iter. 14 -- res = 0.27718E+03, tol = 0.47612E+04, time = 5.35 | CG iter. 15 -- res = 0.14657E+03, tol = 0.47612E+04, time = 5.73 | CG iter. 16 -- res = 0.69610E+02, tol = 0.47612E+04, time = 5.29 | CG iter. 17 -- res = 0.32895E+02, tol = 0.47612E+04, time = 5.25 | CG iter. 18 -- res = 0.16721E+02, tol = 0.47612E+04, time = 6.39 | CG iter. 19 -- res = 0.91225E+01, tol = 0.47612E+04, time = 5.46 | CG iter. 20 -- res = 0.51151E+01, tol = 0.47612E+04, time = 5.21 | CG iter. 21 -- res = 0.27627E+01, tol = 0.47612E+04, time = 5.64 | CG iter. 22 -- res = 0.14175E+01, tol = 0.47612E+04, time = 5.50 | CG iter. 23 -- res = 0.72076E+00, tol = 0.47612E+04, time = 5.51 | CG iter. 24 -- res = 0.36944E+00, tol = 0.47612E+04, time = 5.35 | CG iter. 25 -- res = 0.20183E+00, tol = 0.47612E+04, time = 5.39 | CG iter. 26 -- res = 0.11279E+00, tol = 0.47612E+04, time = 5.74 | CG iter. 27 -- res = 0.63370E-01, tol = 0.47612E+04, time = 5.28 | CG iter. 28 -- res = 0.33738E-01, tol = 0.47612E+04, time = 5.32 | CG iter. 29 -- res = 0.17674E-01, tol = 0.47612E+04, time = 5.39 | CG iter. 30 -- res = 0.95369E-02, tol = 0.47612E+04, time = 5.42 | CG iter. 31 -- res = 0.51728E-02, tol = 0.47612E+04, time = 5.18 | CG iter. 32 -- res = 0.29110E-02, tol = 0.47612E+04, time = 5.58 | CG iter. 33 -- res = 0.16293E-02, tol = 0.47612E+04, time = 5.55 | CG iter. 34 -- res = 0.87216E-03, tol = 0.47612E+04, time = 5.25 | CG iter. 35 -- res = 0.45356E-03, tol = 0.47612E+04, time = 5.58 | Final CG iter 36 -- res = 0.45356E-03, tol = 0.47612E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.846 2.742 | New value -0.157 | Old value -2.846 | Difference 2.689 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.38522E+06, tol = 0.47627E+18, time = 1.65 | CG iter. 2 -- res = 0.10649E+03, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.24998E+01, tol = 0.47627E+18, time = 1.62 | CG iter. 4 -- res = 0.84441E-03, tol = 0.47627E+18, time = 1.64 | Final CG iter 5 -- res = 0.29323E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6528354.121 | (Sampled value in CG: 6614468.363 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.478809 | New value = -3.686626 | poltype: 1 pol: 1 CPU time specind = 5.3930283E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.27014E+07, tol = 0.24184E+01, time = 2.11 | CG iter. 2 -- res = 0.13032E+07, tol = 0.24184E+01, time = 2.25 | CG iter. 3 -- res = 0.26141E+06, tol = 0.24184E+01, time = 2.47 | CG iter. 4 -- res = 0.10238E+06, tol = 0.24184E+01, time = 2.16 | CG iter. 5 -- res = 0.60981E+05, tol = 0.24184E+01, time = 2.09 | CG iter. 6 -- res = 0.32828E+05, tol = 0.24184E+01, time = 2.13 | CG iter. 7 -- res = 0.12033E+05, tol = 0.24184E+01, time = 2.08 | CG iter. 8 -- res = 0.44670E+04, tol = 0.24184E+01, time = 2.14 | CG iter. 9 -- res = 0.19379E+04, tol = 0.24184E+01, time = 2.46 | CG iter. 10 -- res = 0.81008E+03, tol = 0.24184E+01, time = 2.30 | CG iter. 11 -- res = 0.33349E+03, tol = 0.24184E+01, time = 2.29 | CG iter. 12 -- res = 0.17199E+03, tol = 0.24184E+01, time = 2.24 | CG iter. 13 -- res = 0.84065E+02, tol = 0.24184E+01, time = 2.13 | CG iter. 14 -- res = 0.40886E+02, tol = 0.24184E+01, time = 2.17 | CG iter. 15 -- res = 0.17764E+02, tol = 0.24184E+01, time = 2.08 | CG iter. 16 -- res = 0.74646E+01, tol = 0.24184E+01, time = 2.44 | CG iter. 17 -- res = 0.30410E+01, tol = 0.24184E+01, time = 2.23 | CG iter. 18 -- res = 0.13665E+01, tol = 0.24184E+01, time = 2.32 | CG iter. 19 -- res = 0.69247E+00, tol = 0.24184E+01, time = 2.26 | CG iter. 20 -- res = 0.36844E+00, tol = 0.24184E+01, time = 2.08 | CG iter. 21 -- res = 0.16795E+00, tol = 0.24184E+01, time = 1.96 | CG iter. 22 -- res = 0.73387E-01, tol = 0.24184E+01, time = 2.29 | CG iter. 23 -- res = 0.33342E-01, tol = 0.24184E+01, time = 2.31 | CG iter. 24 -- res = 0.16511E-01, tol = 0.24184E+01, time = 2.29 | CG iter. 25 -- res = 0.84282E-02, tol = 0.24184E+01, time = 2.15 | CG iter. 26 -- res = 0.41370E-02, tol = 0.24184E+01, time = 2.31 | CG iter. 27 -- res = 0.21065E-02, tol = 0.24184E+01, time = 2.14 | CG iter. 28 -- res = 0.10091E-02, tol = 0.24184E+01, time = 2.20 | CG iter. 29 -- res = 0.42878E-03, tol = 0.24184E+01, time = 9.05 | CG iter. 30 -- res = 0.20554E-03, tol = 0.24184E+01, time = 2.34 | CG iter. 31 -- res = 0.10408E-03, tol = 0.24184E+01, time = 2.23 | CG iter. 32 -- res = 0.53584E-04, tol = 0.24184E+01, time = 2.15 | CG iter. 33 -- res = 0.25980E-04, tol = 0.24184E+01, time = 1.92 | CG iter. 34 -- res = 0.11649E-04, tol = 0.24184E+01, time = 2.20 | CG iter. 35 -- res = 0.54439E-05, tol = 0.24184E+01, time = 2.41 | CG iter. 36 -- res = 0.25835E-05, tol = 0.24184E+01, time = 2.20 | CG iter. 37 -- res = 0.12586E-05, tol = 0.24184E+01, time = 2.15 | CG iter. 38 -- res = 0.62092E-06, tol = 0.24184E+01, time = 2.28 | CG iter. 39 -- res = 0.30418E-06, tol = 0.24184E+01, time = 2.06 | CG iter. 40 -- res = 0.13984E-06, tol = 0.24184E+01, time = 2.16 | CG iter. 41 -- res = 0.65994E-07, tol = 0.24184E+01, time = 2.23 | CG iter. 42 -- res = 0.30648E-07, tol = 0.24184E+01, time = 2.15 | CG iter. 43 -- res = 0.14285E-07, tol = 0.24184E+01, time = 2.35 | CG iter. 44 -- res = 0.73357E-08, tol = 0.24184E+01, time = 2.11 | CG iter. 45 -- res = 0.36180E-08, tol = 0.24184E+01, time = 2.24 | CG iter. 46 -- res = 0.16661E-08, tol = 0.24184E+01, time = 2.10 | CG iter. 47 -- res = 0.75160E-09, tol = 0.24184E+01, time = 2.17 | CG iter. 48 -- res = 0.36106E-09, tol = 0.24184E+01, time = 2.17 | CG iter. 49 -- res = 0.16884E-09, tol = 0.24184E+01, time = 2.32 | CG iter. 50 -- res = 0.80469E-10, tol = 0.24184E+01, time = 2.29 | Final CG iter 51 -- res = 0.80469E-10, tol = 0.24184E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.297 3.978 | New value -10.509 | Old value 0.297 | Difference -10.806 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.12215E+06, tol = 0.47627E+18, time = 1.59 | CG iter. 2 -- res = 0.10791E+03, tol = 0.47627E+18, time = 1.60 | CG iter. 3 -- res = 0.24517E+01, tol = 0.47627E+18, time = 1.61 | CG iter. 4 -- res = 0.18336E-01, tol = 0.47627E+18, time = 2.45 | Final CG iter 5 -- res = 0.57967E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6528354.121 | (Sampled value in CG: 6594599.982 ) | CPU time specind = 995.5336 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.69934E+08, tol = 0.57876E+04, time = 9.73 | CG iter. 2 -- res = 0.59707E+08, tol = 0.57876E+04, time = 9.95 | CG iter. 3 -- res = 0.15852E+08, tol = 0.57876E+04, time = 9.86 | CG iter. 4 -- res = 0.69297E+07, tol = 0.57876E+04, time = 10.01 | CG iter. 5 -- res = 0.42067E+07, tol = 0.57876E+04, time = 10.00 | CG iter. 6 -- res = 0.24872E+07, tol = 0.57876E+04, time = 9.83 | CG iter. 7 -- res = 0.14527E+07, tol = 0.57876E+04, time = 10.79 | CG iter. 8 -- res = 0.94554E+06, tol = 0.57876E+04, time = 9.85 | CG iter. 9 -- res = 0.61309E+06, tol = 0.57876E+04, time = 9.75 | CG iter. 10 -- res = 0.37708E+06, tol = 0.57876E+04, time = 10.01 | CG iter. 11 -- res = 0.21001E+06, tol = 0.57876E+04, time = 9.70 | CG iter. 12 -- res = 0.11764E+06, tol = 0.57876E+04, time = 9.83 | CG iter. 13 -- res = 0.68630E+05, tol = 0.57876E+04, time = 9.88 | CG iter. 14 -- res = 0.46073E+05, tol = 0.57876E+04, time = 9.90 | CG iter. 15 -- res = 0.35394E+05, tol = 0.57876E+04, time = 9.69 | CG iter. 16 -- res = 0.30633E+05, tol = 0.57876E+04, time = 9.33 | CG iter. 17 -- res = 0.28640E+05, tol = 0.57876E+04, time = 16.44 | CG iter. 18 -- res = 0.26138E+05, tol = 0.57876E+04, time = 9.94 | CG iter. 19 -- res = 0.22834E+05, tol = 0.57876E+04, time = 10.06 | CG iter. 20 -- res = 0.20487E+05, tol = 0.57876E+04, time = 9.96 | CG iter. 21 -- res = 0.19449E+05, tol = 0.57876E+04, time = 9.79 | CG iter. 22 -- res = 0.19387E+05, tol = 0.57876E+04, time = 10.08 | CG iter. 23 -- res = 0.19380E+05, tol = 0.57876E+04, time = 10.02 | CG iter. 24 -- res = 0.18165E+05, tol = 0.57876E+04, time = 9.71 | CG iter. 25 -- res = 0.15748E+05, tol = 0.57876E+04, time = 9.93 | CG iter. 26 -- res = 0.12182E+05, tol = 0.57876E+04, time = 11.47 | CG iter. 27 -- res = 0.89802E+04, tol = 0.57876E+04, time = 10.23 | CG iter. 28 -- res = 0.67897E+04, tol = 0.57876E+04, time = 9.61 | CG iter. 29 -- res = 0.54859E+04, tol = 0.57876E+04, time = 9.55 | CG iter. 30 -- res = 0.48003E+04, tol = 0.57876E+04, time = 9.63 | CG iter. 31 -- res = 0.44296E+04, tol = 0.57876E+04, time = 10.12 | CG iter. 32 -- res = 0.40668E+04, tol = 0.57876E+04, time = 9.86 | CG iter. 33 -- res = 0.33977E+04, tol = 0.57876E+04, time = 9.84 | CG iter. 34 -- res = 0.27914E+04, tol = 0.57876E+04, time = 10.17 | CG iter. 35 -- res = 0.23216E+04, tol = 0.57876E+04, time = 9.99 | CG iter. 36 -- res = 0.20826E+04, tol = 0.57876E+04, time = 9.42 | CG iter. 37 -- res = 0.19681E+04, tol = 0.57876E+04, time = 10.07 | CG iter. 38 -- res = 0.18466E+04, tol = 0.57876E+04, time = 9.69 | CG iter. 39 -- res = 0.16637E+04, tol = 0.57876E+04, time = 10.19 | CG iter. 40 -- res = 0.14168E+04, tol = 0.57876E+04, time = 9.88 | CG iter. 41 -- res = 0.11118E+04, tol = 0.57876E+04, time = 9.72 | CG iter. 42 -- res = 0.88585E+03, tol = 0.57876E+04, time = 9.88 | CG iter. 43 -- res = 0.74565E+03, tol = 0.57876E+04, time = 9.74 | CG iter. 44 -- res = 0.67225E+03, tol = 0.57876E+04, time = 9.64 | CG iter. 45 -- res = 0.62358E+03, tol = 0.57876E+04, time = 10.02 | CG iter. 46 -- res = 0.58143E+03, tol = 0.57876E+04, time = 9.83 | CG iter. 47 -- res = 0.53149E+03, tol = 0.57876E+04, time = 17.22 | CG iter. 48 -- res = 0.48405E+03, tol = 0.57876E+04, time = 10.13 | CG iter. 49 -- res = 0.43896E+03, tol = 0.57876E+04, time = 9.57 | CG iter. 50 -- res = 0.39210E+03, tol = 0.57876E+04, time = 9.99 | CG iter. 51 -- res = 0.36286E+03, tol = 0.57876E+04, time = 9.98 | CG iter. 52 -- res = 0.34533E+03, tol = 0.57876E+04, time = 9.99 | CG iter. 53 -- res = 0.32193E+03, tol = 0.57876E+04, time = 9.86 | CG iter. 54 -- res = 0.29435E+03, tol = 0.57876E+04, time = 9.95 | CG iter. 55 -- res = 0.25656E+03, tol = 0.57876E+04, time = 10.75 | CG iter. 56 -- res = 0.21759E+03, tol = 0.57876E+04, time = 11.33 | CG iter. 57 -- res = 0.19174E+03, tol = 0.57876E+04, time = 9.65 | CG iter. 58 -- res = 0.18199E+03, tol = 0.57876E+04, time = 9.92 | CG iter. 59 -- res = 0.17895E+03, tol = 0.57876E+04, time = 9.56 | CG iter. 60 -- res = 0.17374E+03, tol = 0.57876E+04, time = 9.71 | Final CG iter 61 -- res = 0.17374E+03, tol = 0.57876E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.801 ( -230.290 -2230.158 2512.714 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9507787.693 | Old band monopole 6528382.201 | Change to band monopole 2979405.491 | Change to component monopole -2979392.676 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.161 2.732 | New value 0.713 | Old value -0.161 | Difference 0.874 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.076 ( 7.542 11.852 -11.888 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.413 3.329 | New value -4.576 | Old value -6.413 | Difference 1.837 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.10916E+06, tol = 0.47627E+18, time = 1.52 | CG iter. 2 -- res = 0.43918E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.20268E+01, tol = 0.47627E+18, time = 1.66 | CG iter. 4 -- res = 0.26420E-02, tol = 0.47627E+18, time = 1.57 | Final CG iter 5 -- res = 0.39692E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9507746.798 | (Sampled value in CG: 9491050.265 ) | Chain = 1 -- chisq = 0.81500663E+09 | Chain = 1 -- wall time = 5708.641 sec Available RAM: MemAvailable: 376854072 kB Available Swap: SwapFree: 1123938884 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 175 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441100 | --> Sampling calibration, mode = relcal | relcal = 1.3428569E-02 7.4826437E-04 -1.5974828E-03 -1.2579351E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1009906 0.1199244 97041052.9417605 | BP delta = 9.5877558E-02 0.1148113 97041052.9894794 | BP chisq diff = 0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632670 | --> Sampling calibration, mode = relcal | relcal = -2.8224683E-03 -7.0325373E-04 1.6796790E-03 1.6132682E-03 -4.0756338E-04 6.4033834E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5816280 15222646.3921728 | BP delta = 0.0000000E+00 -0.5780078 15222662.9817577 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17985471486354 | --> Sampling calibration, mode = relcal | relcal = -7.5414687E-02 -5.8659792E-02 9.2223994E-02 4.1850489E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7829618E-04 4.6174559E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2114E-05 | 2: delta_r/delta_0: 9.9942E-07 | 3: delta_s/delta_0: 1.9592E-07 | 4: delta_r/delta_0: 2.4813E-08 | 5: delta_s/delta_0: 8.8635E-09 | 6: delta_r/delta_0: 1.9307E-09 | 7: delta_s/delta_0: 3.1906E-10 | 8: delta_r/delta_0: 1.4492E-10 | 9: delta_s/delta_0: 3.4961E-10 | 10: delta_r/delta_0: 1.1342E-10 | 11: delta_s/delta_0: 8.9376E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.193746587918944E-003 2.743647823633915E-005 | BP delta = 2.9969206E-02 4.5734879E-02 50481352.6663032 | BP delta = 3.1536836E-02 4.7302511E-02 50481351.2404864 | BP chisq diff = -1.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02597860 | --> Sampling calibration, mode = relcal | relcal = -0.1066727 -9.5573366E-02 0.1449718 5.7274252E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3395507E-03 1.5464890E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2567E-04 | 2: delta_r/delta_0: 2.7272E-06 | 3: delta_s/delta_0: 2.2647E-07 | 4: delta_r/delta_0: 4.0693E-08 | 5: delta_s/delta_0: 4.3435E-08 | 6: delta_r/delta_0: 8.3845E-09 | 7: delta_s/delta_0: 5.5567E-09 | 8: delta_r/delta_0: 2.3285E-09 | 9: delta_s/delta_0: 9.6450E-10 | 10: delta_r/delta_0: 6.9571E-10 | 11: delta_s/delta_0: 2.0331E-09 | 12: delta_r/delta_0: 9.0530E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.069370349667765E-002 2.810896899937199E-005 | BP delta = -0.2830529 -0.2575494 57385078.9079986 | BP delta = -0.2831798 -0.2576763 57385078.8957412 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81248341 | --> Sampling calibration, mode = relcal | relcal = 0.2955470 0.2248905 -0.2838426 -0.2365949 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.0709805E-04 5.3348346E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6590E-03 | 2: delta_r/delta_0: 8.4856E-05 | 3: delta_s/delta_0: 1.7007E-05 | 4: delta_r/delta_0: 1.5294E-06 | 5: delta_s/delta_0: 2.3084E-06 | 6: delta_r/delta_0: 1.1574E-07 | 7: delta_s/delta_0: 3.6894E-08 | 8: delta_r/delta_0: 5.2168E-09 | 9: delta_s/delta_0: 1.8226E-09 | 10: delta_r/delta_0: 6.4299E-10 | 11: delta_s/delta_0: 2.0817E-08 | 12: delta_r/delta_0: 8.2014E-09 | 13: delta_s/delta_0: 3.0977E-09 | 14: delta_r/delta_0: 2.7433E-10 | 15: delta_s/delta_0: 2.2802E-10 | 16: delta_r/delta_0: 7.6345E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.232586457094074E-003 4.020396696667993E-005 | BP delta = -0.1709809 -0.1890301 72484827.2762128 | BP delta = -0.1152945 -0.1333437 72484828.0205086 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95948168 | --> Sampling calibration, mode = relcal | relcal = 0.1066110 0.1396030 -0.1103088 -0.1359052 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1386671E-02 1.2796984E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0990E-04 | 2: delta_r/delta_0: 5.4564E-06 | 3: delta_s/delta_0: 8.1642E-05 | 4: delta_r/delta_0: 5.8375E-06 | 5: delta_s/delta_0: 1.9212E-07 | 6: delta_r/delta_0: 1.1442E-07 | 7: delta_s/delta_0: 8.6949E-07 | 8: delta_r/delta_0: 2.5127E-08 | 9: delta_s/delta_0: 3.7075E-08 | 10: delta_r/delta_0: 2.1864E-09 | 11: delta_s/delta_0: 1.3113E-09 | 12: delta_r/delta_0: 6.8039E-10 | 13: delta_s/delta_0: 9.6098E-10 | 14: delta_r/delta_0: 2.0664E-10 | 15: delta_s/delta_0: 4.8392E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.988103988399572E-002 3.695948446872743E-005 | BP delta = 1.7511381E-02 0.1357223 72780653.4076744 | BP delta = 4.7328766E-02 0.1655397 72780651.7971646 | BP chisq diff = -1.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123900 | New value = -3.245645 | poltype: 2 pol: 1 CPU time specind = 5.1960945E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174332 | New value = -3.201895 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149536 | New value = -3.086978 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.151196 | New value = -3.218218 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111823 | New value = -3.133060 | poltype: 2 pol: 2 CPU time specind = 4.6489239E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.13594E+08, tol = 0.73642E+01, time = 4.80 | CG iter. 2 -- res = 0.35532E+06, tol = 0.73642E+01, time = 4.66 | CG iter. 3 -- res = 0.68426E+05, tol = 0.73642E+01, time = 4.80 | CG iter. 4 -- res = 0.57953E+05, tol = 0.73642E+01, time = 4.81 | CG iter. 5 -- res = 0.56543E+05, tol = 0.73642E+01, time = 5.21 | CG iter. 6 -- res = 0.57258E+05, tol = 0.73642E+01, time = 10.22 | CG iter. 7 -- res = 0.52071E+05, tol = 0.73642E+01, time = 4.57 | CG iter. 8 -- res = 0.41970E+05, tol = 0.73642E+01, time = 4.68 | CG iter. 9 -- res = 0.37632E+05, tol = 0.73642E+01, time = 4.80 | CG iter. 10 -- res = 0.31205E+05, tol = 0.73642E+01, time = 4.95 | CG iter. 11 -- res = 0.22654E+05, tol = 0.73642E+01, time = 4.60 | CG iter. 12 -- res = 0.16356E+05, tol = 0.73642E+01, time = 4.67 | CG iter. 13 -- res = 0.13951E+05, tol = 0.73642E+01, time = 5.02 | CG iter. 14 -- res = 0.12892E+05, tol = 0.73642E+01, time = 4.62 | CG iter. 15 -- res = 0.10892E+05, tol = 0.73642E+01, time = 4.74 | CG iter. 16 -- res = 0.82777E+04, tol = 0.73642E+01, time = 4.52 | CG iter. 17 -- res = 0.60166E+04, tol = 0.73642E+01, time = 4.91 | CG iter. 18 -- res = 0.50415E+04, tol = 0.73642E+01, time = 4.77 | CG iter. 19 -- res = 0.44170E+04, tol = 0.73642E+01, time = 4.79 | CG iter. 20 -- res = 0.35440E+04, tol = 0.73642E+01, time = 4.76 | CG iter. 21 -- res = 0.28492E+04, tol = 0.73642E+01, time = 4.82 | CG iter. 22 -- res = 0.24606E+04, tol = 0.73642E+01, time = 4.79 | CG iter. 23 -- res = 0.21505E+04, tol = 0.73642E+01, time = 4.79 | CG iter. 24 -- res = 0.17474E+04, tol = 0.73642E+01, time = 6.20 | CG iter. 25 -- res = 0.13680E+04, tol = 0.73642E+01, time = 5.04 | CG iter. 26 -- res = 0.10628E+04, tol = 0.73642E+01, time = 5.07 | CG iter. 27 -- res = 0.97021E+03, tol = 0.73642E+01, time = 4.79 | CG iter. 28 -- res = 0.85448E+03, tol = 0.73642E+01, time = 4.52 | CG iter. 29 -- res = 0.69275E+03, tol = 0.73642E+01, time = 4.77 | CG iter. 30 -- res = 0.53963E+03, tol = 0.73642E+01, time = 4.82 | CG iter. 31 -- res = 0.47659E+03, tol = 0.73642E+01, time = 4.42 | CG iter. 32 -- res = 0.42940E+03, tol = 0.73642E+01, time = 4.76 | CG iter. 33 -- res = 0.36028E+03, tol = 0.73642E+01, time = 4.79 | CG iter. 34 -- res = 0.28028E+03, tol = 0.73642E+01, time = 4.50 | CG iter. 35 -- res = 0.23811E+03, tol = 0.73642E+01, time = 4.89 | CG iter. 36 -- res = 0.21460E+03, tol = 0.73642E+01, time = 4.77 | CG iter. 37 -- res = 0.18553E+03, tol = 0.73642E+01, time = 4.76 | CG iter. 38 -- res = 0.15123E+03, tol = 0.73642E+01, time = 4.68 | CG iter. 39 -- res = 0.12422E+03, tol = 0.73642E+01, time = 4.59 | CG iter. 40 -- res = 0.11136E+03, tol = 0.73642E+01, time = 4.86 | CG iter. 41 -- res = 0.10281E+03, tol = 0.73642E+01, time = 4.97 | CG iter. 42 -- res = 0.87989E+02, tol = 0.73642E+01, time = 4.62 | CG iter. 43 -- res = 0.72548E+02, tol = 0.73642E+01, time = 4.93 | CG iter. 44 -- res = 0.65809E+02, tol = 0.73642E+01, time = 4.81 | CG iter. 45 -- res = 0.59855E+02, tol = 0.73642E+01, time = 4.60 | CG iter. 46 -- res = 0.50510E+02, tol = 0.73642E+01, time = 4.84 | CG iter. 47 -- res = 0.41462E+02, tol = 0.73642E+01, time = 4.82 | CG iter. 48 -- res = 0.35229E+02, tol = 0.73642E+01, time = 4.74 | CG iter. 49 -- res = 0.32162E+02, tol = 0.73642E+01, time = 4.62 | CG iter. 50 -- res = 0.28676E+02, tol = 0.73642E+01, time = 4.85 | Final CG iter 51 -- res = 0.28676E+02, tol = 0.73642E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10015336.726 | Old band monopole 9507787.693 | Change to band monopole 507549.033 | Change to component monopole -507546.850 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.68077E+06, tol = 0.47627E+18, time = 1.53 | CG iter. 2 -- res = 0.26752E+03, tol = 0.47627E+18, time = 1.59 | CG iter. 3 -- res = 0.40155E+01, tol = 0.47627E+18, time = 1.61 | CG iter. 4 -- res = 0.29879E-01, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.26270E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10015293.648 | (Sampled value in CG: 9948075.376 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.535473 | New value = 1.473241 | poltype: 2 pol: 1 CPU time specind = 1.1550903E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496886 | New value = 1.504044 | poltype: 2 pol: 2 CPU time specind = 3.7851334E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.24844E+08, tol = 0.47513E+04, time = 5.43 | CG iter. 2 -- res = 0.53038E+07, tol = 0.47513E+04, time = 5.39 | CG iter. 3 -- res = 0.82651E+06, tol = 0.47513E+04, time = 5.52 | CG iter. 4 -- res = 0.34135E+06, tol = 0.47513E+04, time = 5.40 | CG iter. 5 -- res = 0.14850E+06, tol = 0.47513E+04, time = 5.26 | CG iter. 6 -- res = 0.77534E+05, tol = 0.47513E+04, time = 5.64 | CG iter. 7 -- res = 0.42580E+05, tol = 0.47513E+04, time = 5.62 | CG iter. 8 -- res = 0.20252E+05, tol = 0.47513E+04, time = 5.18 | CG iter. 9 -- res = 0.88645E+04, tol = 0.47513E+04, time = 5.71 | CG iter. 10 -- res = 0.36705E+04, tol = 0.47513E+04, time = 5.38 | CG iter. 11 -- res = 0.16663E+04, tol = 0.47513E+04, time = 5.39 | CG iter. 12 -- res = 0.84542E+03, tol = 0.47513E+04, time = 5.48 | CG iter. 13 -- res = 0.47336E+03, tol = 0.47513E+04, time = 6.65 | CG iter. 14 -- res = 0.26658E+03, tol = 0.47513E+04, time = 5.93 | CG iter. 15 -- res = 0.13855E+03, tol = 0.47513E+04, time = 5.91 | CG iter. 16 -- res = 0.66501E+02, tol = 0.47513E+04, time = 5.37 | CG iter. 17 -- res = 0.30849E+02, tol = 0.47513E+04, time = 5.14 | CG iter. 18 -- res = 0.15208E+02, tol = 0.47513E+04, time = 5.64 | CG iter. 19 -- res = 0.81330E+01, tol = 0.47513E+04, time = 5.51 | CG iter. 20 -- res = 0.45155E+01, tol = 0.47513E+04, time = 5.39 | CG iter. 21 -- res = 0.24339E+01, tol = 0.47513E+04, time = 5.52 | CG iter. 22 -- res = 0.12610E+01, tol = 0.47513E+04, time = 5.33 | CG iter. 23 -- res = 0.65203E+00, tol = 0.47513E+04, time = 5.39 | CG iter. 24 -- res = 0.34159E+00, tol = 0.47513E+04, time = 5.36 | CG iter. 25 -- res = 0.18847E+00, tol = 0.47513E+04, time = 5.45 | CG iter. 26 -- res = 0.10910E+00, tol = 0.47513E+04, time = 5.41 | CG iter. 27 -- res = 0.60629E-01, tol = 0.47513E+04, time = 5.26 | CG iter. 28 -- res = 0.32394E-01, tol = 0.47513E+04, time = 5.48 | CG iter. 29 -- res = 0.16964E-01, tol = 0.47513E+04, time = 5.64 | CG iter. 30 -- res = 0.89674E-02, tol = 0.47513E+04, time = 5.45 | CG iter. 31 -- res = 0.49827E-02, tol = 0.47513E+04, time = 5.44 | CG iter. 32 -- res = 0.28710E-02, tol = 0.47513E+04, time = 5.12 | CG iter. 33 -- res = 0.16020E-02, tol = 0.47513E+04, time = 6.05 | CG iter. 34 -- res = 0.86998E-03, tol = 0.47513E+04, time = 5.26 | CG iter. 35 -- res = 0.45056E-03, tol = 0.47513E+04, time = 5.53 | Final CG iter 36 -- res = 0.45056E-03, tol = 0.47513E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.694 2.739 | New value -2.246 | Old value 0.694 | Difference -2.940 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.46159E+06, tol = 0.47627E+18, time = 1.61 | CG iter. 2 -- res = 0.67010E+02, tol = 0.47627E+18, time = 1.69 | CG iter. 3 -- res = 0.16723E+01, tol = 0.47627E+18, time = 1.59 | CG iter. 4 -- res = 0.14866E-02, tol = 0.47627E+18, time = 1.52 | Final CG iter 5 -- res = 0.33915E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10015293.648 | (Sampled value in CG: 9949107.335 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.686626 | New value = -3.693080 | poltype: 1 pol: 1 CPU time specind = 6.6850185E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.35050E+07, tol = 0.28451E+01, time = 2.09 | CG iter. 2 -- res = 0.15066E+07, tol = 0.28451E+01, time = 2.25 | CG iter. 3 -- res = 0.33319E+06, tol = 0.28451E+01, time = 2.26 | CG iter. 4 -- res = 0.15046E+06, tol = 0.28451E+01, time = 2.38 | CG iter. 5 -- res = 0.91459E+05, tol = 0.28451E+01, time = 2.05 | CG iter. 6 -- res = 0.41387E+05, tol = 0.28451E+01, time = 2.46 | CG iter. 7 -- res = 0.13015E+05, tol = 0.28451E+01, time = 2.27 | CG iter. 8 -- res = 0.49520E+04, tol = 0.28451E+01, time = 1.97 | CG iter. 9 -- res = 0.22116E+04, tol = 0.28451E+01, time = 2.38 | CG iter. 10 -- res = 0.91324E+03, tol = 0.28451E+01, time = 2.14 | CG iter. 11 -- res = 0.39318E+03, tol = 0.28451E+01, time = 2.46 | CG iter. 12 -- res = 0.20092E+03, tol = 0.28451E+01, time = 2.16 | CG iter. 13 -- res = 0.10036E+03, tol = 0.28451E+01, time = 2.18 | CG iter. 14 -- res = 0.48035E+02, tol = 0.28451E+01, time = 2.40 | CG iter. 15 -- res = 0.20699E+02, tol = 0.28451E+01, time = 2.09 | CG iter. 16 -- res = 0.88304E+01, tol = 0.28451E+01, time = 2.17 | CG iter. 17 -- res = 0.37846E+01, tol = 0.28451E+01, time = 2.23 | CG iter. 18 -- res = 0.18685E+01, tol = 0.28451E+01, time = 2.30 | CG iter. 19 -- res = 0.92577E+00, tol = 0.28451E+01, time = 2.36 | CG iter. 20 -- res = 0.44972E+00, tol = 0.28451E+01, time = 2.10 | CG iter. 21 -- res = 0.20523E+00, tol = 0.28451E+01, time = 2.39 | CG iter. 22 -- res = 0.84623E-01, tol = 0.28451E+01, time = 2.21 | CG iter. 23 -- res = 0.38051E-01, tol = 0.28451E+01, time = 2.24 | CG iter. 24 -- res = 0.18475E-01, tol = 0.28451E+01, time = 2.38 | CG iter. 25 -- res = 0.94407E-02, tol = 0.28451E+01, time = 2.31 | CG iter. 26 -- res = 0.46385E-02, tol = 0.28451E+01, time = 2.06 | CG iter. 27 -- res = 0.22800E-02, tol = 0.28451E+01, time = 2.16 | CG iter. 28 -- res = 0.10273E-02, tol = 0.28451E+01, time = 2.20 | CG iter. 29 -- res = 0.45057E-03, tol = 0.28451E+01, time = 1.93 | CG iter. 30 -- res = 0.22170E-03, tol = 0.28451E+01, time = 2.35 | CG iter. 31 -- res = 0.10868E-03, tol = 0.28451E+01, time = 2.39 | CG iter. 32 -- res = 0.54154E-04, tol = 0.28451E+01, time = 2.35 | CG iter. 33 -- res = 0.26038E-04, tol = 0.28451E+01, time = 2.26 | CG iter. 34 -- res = 0.11569E-04, tol = 0.28451E+01, time = 2.35 | CG iter. 35 -- res = 0.52756E-05, tol = 0.28451E+01, time = 2.25 | CG iter. 36 -- res = 0.25881E-05, tol = 0.28451E+01, time = 2.20 | CG iter. 37 -- res = 0.13305E-05, tol = 0.28451E+01, time = 2.20 | CG iter. 38 -- res = 0.65645E-06, tol = 0.28451E+01, time = 2.13 | CG iter. 39 -- res = 0.31745E-06, tol = 0.28451E+01, time = 2.27 | CG iter. 40 -- res = 0.14644E-06, tol = 0.28451E+01, time = 2.37 | CG iter. 41 -- res = 0.65856E-07, tol = 0.28451E+01, time = 2.32 | CG iter. 42 -- res = 0.32616E-07, tol = 0.28451E+01, time = 2.11 | CG iter. 43 -- res = 0.15325E-07, tol = 0.28451E+01, time = 2.11 | CG iter. 44 -- res = 0.77095E-08, tol = 0.28451E+01, time = 2.18 | CG iter. 45 -- res = 0.37085E-08, tol = 0.28451E+01, time = 2.00 | CG iter. 46 -- res = 0.16848E-08, tol = 0.28451E+01, time = 2.31 | CG iter. 47 -- res = 0.82915E-09, tol = 0.28451E+01, time = 2.04 | CG iter. 48 -- res = 0.38237E-09, tol = 0.28451E+01, time = 2.43 | CG iter. 49 -- res = 0.17728E-09, tol = 0.28451E+01, time = 2.25 | CG iter. 50 -- res = 0.84498E-10, tol = 0.28451E+01, time = 2.16 | Final CG iter 51 -- res = 0.84498E-10, tol = 0.28451E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -12.574 5.095 | New value -2.022 | Old value -12.574 | Difference 10.552 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.11323E+06, tol = 0.47627E+18, time = 3.52 | CG iter. 2 -- res = 0.71589E+02, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.23543E+01, tol = 0.47627E+18, time = 1.56 | CG iter. 4 -- res = 0.10357E-01, tol = 0.47627E+18, time = 1.50 | Final CG iter 5 -- res = 0.14100E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10015293.648 | (Sampled value in CG: 9967291.654 ) | CPU time specind = 994.6213 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.70490E+08, tol = 0.57850E+04, time = 9.61 | CG iter. 2 -- res = 0.59058E+08, tol = 0.57850E+04, time = 10.41 | CG iter. 3 -- res = 0.15424E+08, tol = 0.57850E+04, time = 9.58 | CG iter. 4 -- res = 0.67125E+07, tol = 0.57850E+04, time = 10.90 | CG iter. 5 -- res = 0.39901E+07, tol = 0.57850E+04, time = 10.61 | CG iter. 6 -- res = 0.22954E+07, tol = 0.57850E+04, time = 10.12 | CG iter. 7 -- res = 0.13611E+07, tol = 0.57850E+04, time = 9.90 | CG iter. 8 -- res = 0.90056E+06, tol = 0.57850E+04, time = 10.00 | CG iter. 9 -- res = 0.58259E+06, tol = 0.57850E+04, time = 10.16 | CG iter. 10 -- res = 0.34506E+06, tol = 0.57850E+04, time = 9.60 | CG iter. 11 -- res = 0.18955E+06, tol = 0.57850E+04, time = 10.11 | CG iter. 12 -- res = 0.10979E+06, tol = 0.57850E+04, time = 9.88 | CG iter. 13 -- res = 0.68380E+05, tol = 0.57850E+04, time = 9.90 | CG iter. 14 -- res = 0.46581E+05, tol = 0.57850E+04, time = 9.87 | CG iter. 15 -- res = 0.36287E+05, tol = 0.57850E+04, time = 10.49 | CG iter. 16 -- res = 0.32165E+05, tol = 0.57850E+04, time = 10.03 | CG iter. 17 -- res = 0.29983E+05, tol = 0.57850E+04, time = 9.87 | CG iter. 18 -- res = 0.27744E+05, tol = 0.57850E+04, time = 9.73 | CG iter. 19 -- res = 0.25169E+05, tol = 0.57850E+04, time = 10.15 | CG iter. 20 -- res = 0.23279E+05, tol = 0.57850E+04, time = 9.88 | CG iter. 21 -- res = 0.22191E+05, tol = 0.57850E+04, time = 9.77 | CG iter. 22 -- res = 0.22664E+05, tol = 0.57850E+04, time = 9.57 | CG iter. 23 -- res = 0.23581E+05, tol = 0.57850E+04, time = 9.56 | CG iter. 24 -- res = 0.22641E+05, tol = 0.57850E+04, time = 9.78 | CG iter. 25 -- res = 0.19219E+05, tol = 0.57850E+04, time = 16.39 | CG iter. 26 -- res = 0.14444E+05, tol = 0.57850E+04, time = 9.64 | CG iter. 27 -- res = 0.10575E+05, tol = 0.57850E+04, time = 10.18 | CG iter. 28 -- res = 0.79626E+04, tol = 0.57850E+04, time = 9.69 | CG iter. 29 -- res = 0.64422E+04, tol = 0.57850E+04, time = 9.92 | CG iter. 30 -- res = 0.55836E+04, tol = 0.57850E+04, time = 9.54 | CG iter. 31 -- res = 0.49798E+04, tol = 0.57850E+04, time = 9.89 | CG iter. 32 -- res = 0.43487E+04, tol = 0.57850E+04, time = 9.95 | CG iter. 33 -- res = 0.37205E+04, tol = 0.57850E+04, time = 9.88 | CG iter. 34 -- res = 0.32407E+04, tol = 0.57850E+04, time = 11.57 | CG iter. 35 -- res = 0.30091E+04, tol = 0.57850E+04, time = 10.28 | CG iter. 36 -- res = 0.29509E+04, tol = 0.57850E+04, time = 9.96 | CG iter. 37 -- res = 0.28474E+04, tol = 0.57850E+04, time = 9.95 | CG iter. 38 -- res = 0.25675E+04, tol = 0.57850E+04, time = 9.86 | CG iter. 39 -- res = 0.22706E+04, tol = 0.57850E+04, time = 9.91 | CG iter. 40 -- res = 0.18987E+04, tol = 0.57850E+04, time = 10.09 | CG iter. 41 -- res = 0.15414E+04, tol = 0.57850E+04, time = 9.62 | CG iter. 42 -- res = 0.12971E+04, tol = 0.57850E+04, time = 9.77 | CG iter. 43 -- res = 0.11565E+04, tol = 0.57850E+04, time = 10.21 | CG iter. 44 -- res = 0.10821E+04, tol = 0.57850E+04, time = 9.60 | CG iter. 45 -- res = 0.10257E+04, tol = 0.57850E+04, time = 10.07 | CG iter. 46 -- res = 0.95943E+03, tol = 0.57850E+04, time = 9.58 | CG iter. 47 -- res = 0.86122E+03, tol = 0.57850E+04, time = 9.79 | CG iter. 48 -- res = 0.76035E+03, tol = 0.57850E+04, time = 9.47 | CG iter. 49 -- res = 0.69683E+03, tol = 0.57850E+04, time = 9.47 | CG iter. 50 -- res = 0.66048E+03, tol = 0.57850E+04, time = 10.02 | CG iter. 51 -- res = 0.64017E+03, tol = 0.57850E+04, time = 9.54 | CG iter. 52 -- res = 0.62369E+03, tol = 0.57850E+04, time = 10.36 | CG iter. 53 -- res = 0.58512E+03, tol = 0.57850E+04, time = 9.63 | CG iter. 54 -- res = 0.51737E+03, tol = 0.57850E+04, time = 9.89 | CG iter. 55 -- res = 0.44192E+03, tol = 0.57850E+04, time = 15.69 | CG iter. 56 -- res = 0.39436E+03, tol = 0.57850E+04, time = 10.05 | CG iter. 57 -- res = 0.36153E+03, tol = 0.57850E+04, time = 9.74 | CG iter. 58 -- res = 0.34824E+03, tol = 0.57850E+04, time = 9.87 | CG iter. 59 -- res = 0.33951E+03, tol = 0.57850E+04, time = 9.45 | CG iter. 60 -- res = 0.32306E+03, tol = 0.57850E+04, time = 10.19 | Final CG iter 61 -- res = 0.32306E+03, tol = 0.57850E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.811 ( -230.268 -2229.308 2511.393 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8131371.184 | Old band monopole 10015336.726 | Change to band monopole -1883965.542 | Change to component monopole 1883957.438 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.248 2.740 | New value 2.348 | Old value -2.248 | Difference 4.596 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.736 ( 8.869 10.890 -9.235 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.770 5.154 | New value 3.012 | Old value 8.770 | Difference -5.758 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.11295E+07, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.41097E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.16719E+01, tol = 0.47627E+18, time = 1.70 | CG iter. 4 -- res = 0.42156E-02, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.30334E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8131336.209 | (Sampled value in CG: 8103416.621 ) | Chain = 1 -- chisq = 0.81555390E+09 | Chain = 1 -- wall time = 5317.912 sec Available RAM: MemAvailable: 376421480 kB Available Swap: SwapFree: 1124305732 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 176 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442265 | --> Sampling calibration, mode = relcal | relcal = 1.3425207E-02 7.5004529E-04 -1.5946891E-03 -1.2580563E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.5877558E-02 0.1148113 9406588.74648368 | BP delta = 9.5877558E-02 0.1195714 9406626.44272173 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632584 | --> Sampling calibration, mode = relcal | relcal = -2.8216327E-03 -7.0281117E-04 1.6798055E-03 1.6142981E-03 -4.0860026E-04 6.3894055E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5816280 15220869.9337173 | BP delta = 0.0000000E+00 -0.5838799 15220868.1804857 | BP chisq diff = -1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03104311 | --> Sampling calibration, mode = relcal | relcal = 3.7102867E-02 1.3725072E-02 5.7546832E-03 -7.1721040E-03 8.2465727E-03 2.3974278E-03 -7.6041496E-03 -7.1840668E-03 -1.5305943E-02 -1.4808511E-02 -3.0535373E-03 -1.2098309E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.215452 132214366.080700 | BP delta = 0.0000000E+00 -1.231249 132214366.958869 | BP chisq diff = 0.9, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17495591518394 | --> Sampling calibration, mode = relcal | relcal = -7.4095517E-02 -5.7400618E-02 9.0631723E-02 4.0864412E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8212353E-04 2.3092884E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1115E-04 | 2: delta_r/delta_0: 7.0418E-06 | 3: delta_s/delta_0: 1.6548E-07 | 4: delta_r/delta_0: 2.7369E-08 | 5: delta_s/delta_0: 8.5956E-09 | 6: delta_r/delta_0: 2.7879E-09 | 7: delta_s/delta_0: 2.8140E-10 | 8: delta_r/delta_0: 1.2246E-10 | 9: delta_s/delta_0: 8.1223E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.438249104964089E-004 2.755262569386919E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1115E-04 | 2: delta_r/delta_0: 7.0411E-06 | 3: delta_s/delta_0: 1.6548E-07 | 4: delta_r/delta_0: 2.7369E-08 | 5: delta_s/delta_0: 8.5955E-09 | 6: delta_r/delta_0: 2.7879E-09 | 7: delta_s/delta_0: 2.8142E-10 | 8: delta_r/delta_0: 1.2247E-10 | 9: delta_s/delta_0: 8.1122E-11 | Reached bicg-stab tolerance | BP delta = 3.1536836E-02 4.7302511E-02 3694543.81851127 | BP delta = 3.1536836E-02 4.7359511E-02 3696907.18964884 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595732 | --> Sampling calibration, mode = relcal | relcal = -0.1066644 -9.5555700E-02 0.1448981 5.7321947E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9395735E-03 1.5240433E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8141E-05 | 2: delta_r/delta_0: 1.3141E-06 | 3: delta_s/delta_0: 2.4041E-07 | 4: delta_r/delta_0: 5.8935E-08 | 5: delta_s/delta_0: 1.7731E-08 | 6: delta_r/delta_0: 7.6929E-09 | 7: delta_s/delta_0: 4.3192E-07 | 8: delta_r/delta_0: 6.1540E-08 | 9: delta_s/delta_0: 9.7331E-10 | 10: delta_r/delta_0: 6.6114E-10 | 11: delta_s/delta_0: 5.1839E-09 | 12: delta_r/delta_0: 6.9492E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.004990375210710E-002 2.810937808587059E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.8141E-05 | 2: delta_r/delta_0: 1.3140E-06 | 3: delta_s/delta_0: 2.4032E-07 | 4: delta_r/delta_0: 5.8867E-08 | 5: delta_s/delta_0: 1.7752E-08 | 6: delta_r/delta_0: 7.6872E-09 | 7: delta_s/delta_0: 4.3039E-07 | 8: delta_r/delta_0: 6.1533E-08 | 9: delta_s/delta_0: 9.7338E-10 | 10: delta_r/delta_0: 6.6072E-10 | 11: delta_s/delta_0: 5.1837E-09 | 12: delta_r/delta_0: 6.9365E-11 | Reached bicg-stab tolerance | BP delta = -0.2831798 -0.2576763 2841634.01928585 | BP delta = -0.2831798 -0.2625962 2841932.48620552 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81244029 | --> Sampling calibration, mode = relcal | relcal = 0.2955156 0.2249643 -0.2838704 -0.2366094 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1577680E-03 5.1431432E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4101E-02 | 2: delta_r/delta_0: 3.3000E-04 | 3: delta_s/delta_0: 6.9116E-05 | 4: delta_r/delta_0: 7.1892E-06 | 5: delta_s/delta_0: 4.9890E-06 | 6: delta_r/delta_0: 3.2397E-07 | 7: delta_s/delta_0: 1.4795E-06 | 8: delta_r/delta_0: 4.5270E-07 | 9: delta_s/delta_0: 3.7944E-05 | 10: delta_r/delta_0: 5.1912E-07 | 11: delta_s/delta_0: 2.1172E-07 | 12: delta_r/delta_0: 1.8622E-08 | 13: delta_s/delta_0: 2.0872E-09 | 14: delta_r/delta_0: 1.1098E-09 | 15: delta_s/delta_0: 8.2795E-10 | 16: delta_r/delta_0: 2.2361E-10 | 17: delta_s/delta_0: 3.5046E-10 | 18: delta_r/delta_0: 5.2800E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.106570529073233 4.020685945671279E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4112E-02 | 2: delta_r/delta_0: 3.3026E-04 | 3: delta_s/delta_0: 6.9298E-05 | 4: delta_r/delta_0: 7.1988E-06 | 5: delta_s/delta_0: 4.9959E-06 | 6: delta_r/delta_0: 3.2469E-07 | 7: delta_s/delta_0: 1.4944E-06 | 8: delta_r/delta_0: 4.5562E-07 | 9: delta_s/delta_0: 3.7890E-05 | 10: delta_r/delta_0: 5.2296E-07 | 11: delta_s/delta_0: 2.1321E-07 | 12: delta_r/delta_0: 1.8718E-08 | 13: delta_s/delta_0: 2.0979E-09 | 14: delta_r/delta_0: 1.1148E-09 | 15: delta_s/delta_0: 8.3186E-10 | 16: delta_r/delta_0: 2.2503E-10 | 17: delta_s/delta_0: 3.4696E-10 | 18: delta_r/delta_0: 5.3080E-11 | Reached bicg-stab tolerance | BP delta = -0.1709809 -0.1890301 2827628.64334573 | BP delta = -0.1709809 -0.1978825 2827651.89282641 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95930878 | --> Sampling calibration, mode = relcal | relcal = 0.1064743 0.1394708 -0.1102689 -0.1356763 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9377139E-03 1.4526069E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5619E-04 | 2: delta_r/delta_0: 8.8317E-06 | 3: delta_s/delta_0: 2.4379E-03 | 4: delta_r/delta_0: 1.0928E-04 | 5: delta_s/delta_0: 2.3598E-07 | 6: delta_r/delta_0: 1.1418E-07 | 7: delta_s/delta_0: 3.5382E-07 | 8: delta_r/delta_0: 3.2974E-08 | 9: delta_s/delta_0: 9.1749E-09 | 10: delta_r/delta_0: 4.7038E-09 | 11: delta_s/delta_0: 1.6669E-09 | 12: delta_r/delta_0: 1.1279E-09 | 13: delta_s/delta_0: 4.1305E-10 | 14: delta_r/delta_0: 7.6818E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.122656454224809E-002 3.696482585798270E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5628E-04 | 2: delta_r/delta_0: 8.8337E-06 | 3: delta_s/delta_0: 2.4305E-03 | 4: delta_r/delta_0: 1.0894E-04 | 5: delta_s/delta_0: 2.3600E-07 | 6: delta_r/delta_0: 1.1420E-07 | 7: delta_s/delta_0: 3.5418E-07 | 8: delta_r/delta_0: 3.2978E-08 | 9: delta_s/delta_0: 9.1724E-09 | 10: delta_r/delta_0: 4.7097E-09 | 11: delta_s/delta_0: 1.6675E-09 | 12: delta_r/delta_0: 1.1275E-09 | 13: delta_s/delta_0: 4.1330E-10 | 14: delta_r/delta_0: 7.6782E-11 | Reached bicg-stab tolerance | BP delta = 4.7328766E-02 0.1655397 3003727.52869092 | BP delta = 4.7328766E-02 0.1706183 3004000.29285574 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52184614 | --> Sampling calibration, mode = relcal | relcal = -5.1113445E-02 -3.6549394E-03 2.7209967E-02 2.7558418E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.7136802E-04 2.0283074E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7358E-05 | 2: delta_r/delta_0: 4.5546E-06 | 3: delta_s/delta_0: 6.3309E-07 | 4: delta_r/delta_0: 1.3506E-07 | 5: delta_s/delta_0: 2.4174E-07 | 6: delta_r/delta_0: 3.1594E-08 | 7: delta_s/delta_0: 2.2055E-08 | 8: delta_r/delta_0: 7.4095E-09 | 9: delta_s/delta_0: 1.9844E-08 | 10: delta_r/delta_0: 3.9791E-09 | 11: delta_s/delta_0: 2.6688E-09 | 12: delta_r/delta_0: 2.5116E-10 | 13: delta_s/delta_0: 2.4986E-09 | 14: delta_r/delta_0: 2.0294E-10 | 15: delta_s/delta_0: 3.1684E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.179676314877545E-002 5.480384224713188E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7358E-05 | 2: delta_r/delta_0: 4.5546E-06 | 3: delta_s/delta_0: 6.3311E-07 | 4: delta_r/delta_0: 1.3506E-07 | 5: delta_s/delta_0: 2.4178E-07 | 6: delta_r/delta_0: 3.1596E-08 | 7: delta_s/delta_0: 2.2055E-08 | 8: delta_r/delta_0: 7.4094E-09 | 9: delta_s/delta_0: 1.9843E-08 | 10: delta_r/delta_0: 3.9792E-09 | 11: delta_s/delta_0: 2.6727E-09 | 12: delta_r/delta_0: 2.5081E-10 | 13: delta_s/delta_0: 2.4990E-09 | 14: delta_r/delta_0: 2.0294E-10 | 15: delta_s/delta_0: 3.1619E-11 | Reached bicg-stab tolerance | BP delta = 7.0468843E-02 0.1679995 2435503.48661490 | BP delta = 7.0468843E-02 0.1624502 2435508.25536410 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42176768 | --> Sampling calibration, mode = relcal | relcal = 4.5654520E-02 3.9693359E-02 -2.8307667E-02 -5.7040215E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4921477E-03 6.0288957E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1733E-05 | 2: delta_r/delta_0: 3.8622E-06 | 3: delta_s/delta_0: 4.2216E-06 | 4: delta_r/delta_0: 6.8809E-07 | 5: delta_s/delta_0: 6.1218E-08 | 6: delta_r/delta_0: 3.8195E-08 | 7: delta_s/delta_0: 6.1095E-08 | 8: delta_r/delta_0: 1.0291E-08 | 9: delta_s/delta_0: 1.5716E-09 | 10: delta_r/delta_0: 7.2950E-10 | 11: delta_s/delta_0: 8.7959E-10 | 12: delta_r/delta_0: 6.7886E-10 | 13: delta_s/delta_0: 2.4513E-09 | 14: delta_r/delta_0: 1.8608E-10 | 15: delta_s/delta_0: 2.9103E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.550967658568556E-002 4.993595072498554E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1733E-05 | 2: delta_r/delta_0: 3.8622E-06 | 3: delta_s/delta_0: 4.2216E-06 | 4: delta_r/delta_0: 6.8809E-07 | 5: delta_s/delta_0: 6.1219E-08 | 6: delta_r/delta_0: 3.8195E-08 | 7: delta_s/delta_0: 6.1102E-08 | 8: delta_r/delta_0: 1.0291E-08 | 9: delta_s/delta_0: 1.5716E-09 | 10: delta_r/delta_0: 7.2946E-10 | 11: delta_s/delta_0: 8.7959E-10 | 12: delta_r/delta_0: 6.7884E-10 | 13: delta_s/delta_0: 2.4446E-09 | 14: delta_r/delta_0: 1.8630E-10 | 15: delta_s/delta_0: 2.9103E-11 | Reached bicg-stab tolerance | BP delta = -3.9799422E-02 -0.1287021 2321806.66163158 | BP delta = -3.9799422E-02 -0.1220965 2321811.28289424 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28177938 | --> Sampling calibration, mode = relcal | relcal = 2.4300843E-02 4.5147665E-02 -2.3459876E-02 -4.5988634E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2549554E-02 3.7279755E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1332E-04 | 2: delta_r/delta_0: 8.7886E-06 | 3: delta_s/delta_0: 1.5233E-06 | 4: delta_r/delta_0: 2.2425E-07 | 5: delta_s/delta_0: 6.6074E-08 | 6: delta_r/delta_0: 2.0483E-08 | 7: delta_s/delta_0: 1.0100E-08 | 8: delta_r/delta_0: 6.0259E-09 | 9: delta_s/delta_0: 8.5717E-08 | 10: delta_r/delta_0: 5.1925E-09 | 11: delta_s/delta_0: 3.5774E-09 | 12: delta_r/delta_0: 2.2840E-09 | 13: delta_s/delta_0: 1.4125E-10 | 14: delta_r/delta_0: 1.0302E-10 | 15: delta_s/delta_0: 5.0280E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.032993094981539E-002 7.839506883045938E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1332E-04 | 2: delta_r/delta_0: 8.7886E-06 | 3: delta_s/delta_0: 1.5233E-06 | 4: delta_r/delta_0: 2.2425E-07 | 5: delta_s/delta_0: 6.6073E-08 | 6: delta_r/delta_0: 2.0483E-08 | 7: delta_s/delta_0: 1.0100E-08 | 8: delta_r/delta_0: 6.0259E-09 | 9: delta_s/delta_0: 8.5716E-08 | 10: delta_r/delta_0: 5.1925E-09 | 11: delta_s/delta_0: 3.5771E-09 | 12: delta_r/delta_0: 2.2838E-09 | 13: delta_s/delta_0: 1.4124E-10 | 14: delta_r/delta_0: 1.0301E-10 | 15: delta_s/delta_0: 5.0280E-11 | Reached bicg-stab tolerance | BP delta = -0.1779296 -0.2613137 2490084.04294707 | BP delta = -0.1779296 -0.2908358 2490077.89686863 | BP chisq diff = -6.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29411688 | --> Sampling calibration, mode = relcal | relcal = 4.8399853E-04 1.0265743E-02 -3.8222135E-03 -6.9275289E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5974686E-02 1.4547080E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3180E-04 | 2: delta_r/delta_0: 1.1248E-05 | 3: delta_s/delta_0: 1.8339E-06 | 4: delta_r/delta_0: 2.8862E-07 | 5: delta_s/delta_0: 1.1368E-07 | 6: delta_r/delta_0: 2.5168E-08 | 7: delta_s/delta_0: 1.1715E-08 | 8: delta_r/delta_0: 8.1714E-09 | 9: delta_s/delta_0: 5.5110E-09 | 10: delta_r/delta_0: 2.0401E-09 | 11: delta_s/delta_0: 8.1042E-05 | 12: delta_r/delta_0: 5.3369E-08 | 13: delta_s/delta_0: 1.2351E-09 | 14: delta_r/delta_0: 1.7151E-10 | 15: delta_s/delta_0: 1.1159E-10 | 16: delta_r/delta_0: 8.7747E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.036729127827577E-002 8.301217131597308E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3180E-04 | 2: delta_r/delta_0: 1.1248E-05 | 3: delta_s/delta_0: 1.8339E-06 | 4: delta_r/delta_0: 2.8862E-07 | 5: delta_s/delta_0: 1.1368E-07 | 6: delta_r/delta_0: 2.5168E-08 | 7: delta_s/delta_0: 1.1715E-08 | 8: delta_r/delta_0: 8.1714E-09 | 9: delta_s/delta_0: 5.5110E-09 | 10: delta_r/delta_0: 2.0403E-09 | 11: delta_s/delta_0: 8.1019E-05 | 12: delta_r/delta_0: 5.3355E-08 | 13: delta_s/delta_0: 1.2349E-09 | 14: delta_r/delta_0: 1.7151E-10 | 15: delta_s/delta_0: 1.1160E-10 | 16: delta_r/delta_0: 8.7749E-11 | Reached bicg-stab tolerance | BP delta = -0.8599339 -0.8309115 2737665.61059871 | BP delta = -0.8599339 -0.8268954 2737666.31049660 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26522076 | --> Sampling calibration, mode = relcal | relcal = -5.6329668E-03 1.5076287E-02 -2.3685433E-03 -7.0747775E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.9662955E-03 3.8548266E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4592E-04 | 2: delta_r/delta_0: 1.2225E-05 | 3: delta_s/delta_0: 2.1248E-06 | 4: delta_r/delta_0: 3.0196E-07 | 5: delta_s/delta_0: 1.0464E-07 | 6: delta_r/delta_0: 2.4882E-08 | 7: delta_s/delta_0: 9.6703E-09 | 8: delta_r/delta_0: 6.1218E-09 | 9: delta_s/delta_0: 5.2812E-09 | 10: delta_r/delta_0: 3.7289E-09 | 11: delta_s/delta_0: 1.5296E-06 | 12: delta_r/delta_0: 2.3628E-09 | 13: delta_s/delta_0: 7.7951E-09 | 14: delta_r/delta_0: 2.8172E-09 | 15: delta_s/delta_0: 5.6909E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.383727198353621E-003 9.148483381318269E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4592E-04 | 2: delta_r/delta_0: 1.2225E-05 | 3: delta_s/delta_0: 2.1248E-06 | 4: delta_r/delta_0: 3.0194E-07 | 5: delta_s/delta_0: 1.0464E-07 | 6: delta_r/delta_0: 2.4881E-08 | 7: delta_s/delta_0: 9.6700E-09 | 8: delta_r/delta_0: 6.1216E-09 | 9: delta_s/delta_0: 5.2810E-09 | 10: delta_r/delta_0: 3.7288E-09 | 11: delta_s/delta_0: 1.5304E-06 | 12: delta_r/delta_0: 2.3640E-09 | 13: delta_s/delta_0: 7.7956E-09 | 14: delta_r/delta_0: 2.8180E-09 | 15: delta_s/delta_0: 5.6912E-11 | Reached bicg-stab tolerance | BP delta = 0.3950718 0.4191081 2516531.21072682 | BP delta = 0.3950718 0.4470607 2516531.53387808 | BP chisq diff = 0.3, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25676276 | --> Sampling calibration, mode = relcal | relcal = -3.1749338E-02 -2.6014587E-02 3.7045594E-02 2.0718329E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8763440E-02 1.9694105E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4650E-04 | 2: delta_r/delta_0: 1.2357E-05 | 3: delta_s/delta_0: 1.9815E-06 | 4: delta_r/delta_0: 3.2641E-07 | 5: delta_s/delta_0: 1.1860E-07 | 6: delta_r/delta_0: 2.9105E-08 | 7: delta_s/delta_0: 1.4385E-08 | 8: delta_r/delta_0: 9.5314E-09 | 9: delta_s/delta_0: 1.8635E-08 | 10: delta_r/delta_0: 6.4012E-09 | 11: delta_s/delta_0: 4.9815E-08 | 12: delta_r/delta_0: 1.5165E-08 | 13: delta_s/delta_0: 4.1108E-10 | 14: delta_r/delta_0: 3.0392E-10 | 15: delta_s/delta_0: 4.7737E-10 | 16: delta_r/delta_0: 3.5040E-10 | 17: delta_s/delta_0: 1.8746E-10 | 18: delta_r/delta_0: 9.0017E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.098856196572570E-002 8.668422729506646E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4650E-04 | 2: delta_r/delta_0: 1.2357E-05 | 3: delta_s/delta_0: 1.9815E-06 | 4: delta_r/delta_0: 3.2640E-07 | 5: delta_s/delta_0: 1.1860E-07 | 6: delta_r/delta_0: 2.9104E-08 | 7: delta_s/delta_0: 1.4385E-08 | 8: delta_r/delta_0: 9.5312E-09 | 9: delta_s/delta_0: 1.8633E-08 | 10: delta_r/delta_0: 6.4009E-09 | 11: delta_s/delta_0: 4.9842E-08 | 12: delta_r/delta_0: 1.5176E-08 | 13: delta_s/delta_0: 4.1126E-10 | 14: delta_r/delta_0: 3.0411E-10 | 15: delta_s/delta_0: 4.8479E-10 | 16: delta_r/delta_0: 3.5403E-10 | 17: delta_s/delta_0: 1.8756E-10 | 18: delta_r/delta_0: 8.9493E-11 | Reached bicg-stab tolerance | BP delta = -0.6838179 -0.7833208 2706900.83659850 | BP delta = -0.6838179 -0.8067262 2706890.98550609 | BP chisq diff = -9.9, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.245645 | New value = -3.197666 | poltype: 2 pol: 1 CPU time specind = 1.6935110E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.201895 | New value = -3.074084 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.086978 | New value = -3.208527 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218218 | New value = -3.212803 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133060 | New value = -3.172551 | poltype: 2 pol: 2 CPU time specind = 1.1811972E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.13552E+08, tol = 0.82854E+01, time = 4.67 | CG iter. 2 -- res = 0.32141E+06, tol = 0.82854E+01, time = 4.47 | CG iter. 3 -- res = 0.46597E+05, tol = 0.82854E+01, time = 4.23 | CG iter. 4 -- res = 0.22755E+05, tol = 0.82854E+01, time = 4.36 | CG iter. 5 -- res = 0.13212E+05, tol = 0.82854E+01, time = 4.57 | CG iter. 6 -- res = 0.84388E+04, tol = 0.82854E+01, time = 4.57 | CG iter. 7 -- res = 0.69123E+04, tol = 0.82854E+01, time = 4.61 | CG iter. 8 -- res = 0.60938E+04, tol = 0.82854E+01, time = 4.69 | CG iter. 9 -- res = 0.59607E+04, tol = 0.82854E+01, time = 4.40 | CG iter. 10 -- res = 0.59338E+04, tol = 0.82854E+01, time = 4.47 | CG iter. 11 -- res = 0.47871E+04, tol = 0.82854E+01, time = 4.73 | CG iter. 12 -- res = 0.32015E+04, tol = 0.82854E+01, time = 4.70 | CG iter. 13 -- res = 0.23162E+04, tol = 0.82854E+01, time = 4.35 | CG iter. 14 -- res = 0.18873E+04, tol = 0.82854E+01, time = 4.44 | CG iter. 15 -- res = 0.16697E+04, tol = 0.82854E+01, time = 4.53 | CG iter. 16 -- res = 0.14001E+04, tol = 0.82854E+01, time = 4.76 | CG iter. 17 -- res = 0.11014E+04, tol = 0.82854E+01, time = 4.34 | CG iter. 18 -- res = 0.89417E+03, tol = 0.82854E+01, time = 4.48 | CG iter. 19 -- res = 0.77134E+03, tol = 0.82854E+01, time = 4.43 | CG iter. 20 -- res = 0.60362E+03, tol = 0.82854E+01, time = 4.74 | CG iter. 21 -- res = 0.43839E+03, tol = 0.82854E+01, time = 4.58 | CG iter. 22 -- res = 0.34585E+03, tol = 0.82854E+01, time = 4.48 | CG iter. 23 -- res = 0.29855E+03, tol = 0.82854E+01, time = 4.46 | CG iter. 24 -- res = 0.25133E+03, tol = 0.82854E+01, time = 4.53 | CG iter. 25 -- res = 0.18411E+03, tol = 0.82854E+01, time = 4.58 | CG iter. 26 -- res = 0.13234E+03, tol = 0.82854E+01, time = 4.62 | CG iter. 27 -- res = 0.10531E+03, tol = 0.82854E+01, time = 4.53 | CG iter. 28 -- res = 0.86697E+02, tol = 0.82854E+01, time = 4.76 | CG iter. 29 -- res = 0.65684E+02, tol = 0.82854E+01, time = 4.41 | CG iter. 30 -- res = 0.47774E+02, tol = 0.82854E+01, time = 4.52 | CG iter. 31 -- res = 0.38115E+02, tol = 0.82854E+01, time = 4.51 | CG iter. 32 -- res = 0.31455E+02, tol = 0.82854E+01, time = 4.59 | CG iter. 33 -- res = 0.25425E+02, tol = 0.82854E+01, time = 4.49 | CG iter. 34 -- res = 0.18301E+02, tol = 0.82854E+01, time = 4.57 | CG iter. 35 -- res = 0.13552E+02, tol = 0.82854E+01, time = 4.44 | CG iter. 36 -- res = 0.11765E+02, tol = 0.82854E+01, time = 4.60 | CG iter. 37 -- res = 0.95103E+01, tol = 0.82854E+01, time = 4.48 | CG iter. 38 -- res = 0.72085E+01, tol = 0.82854E+01, time = 4.34 | CG iter. 39 -- res = 0.56219E+01, tol = 0.82854E+01, time = 10.23 | CG iter. 40 -- res = 0.45528E+01, tol = 0.82854E+01, time = 6.47 | CG iter. 41 -- res = 0.38369E+01, tol = 0.82854E+01, time = 4.40 | CG iter. 42 -- res = 0.29485E+01, tol = 0.82854E+01, time = 4.39 | CG iter. 43 -- res = 0.22005E+01, tol = 0.82854E+01, time = 4.45 | CG iter. 44 -- res = 0.17198E+01, tol = 0.82854E+01, time = 4.62 | CG iter. 45 -- res = 0.13957E+01, tol = 0.82854E+01, time = 4.58 | CG iter. 46 -- res = 0.11220E+01, tol = 0.82854E+01, time = 4.37 | CG iter. 47 -- res = 0.84911E+00, tol = 0.82854E+01, time = 4.40 | CG iter. 48 -- res = 0.65732E+00, tol = 0.82854E+01, time = 4.56 | CG iter. 49 -- res = 0.54097E+00, tol = 0.82854E+01, time = 4.63 | CG iter. 50 -- res = 0.45764E+00, tol = 0.82854E+01, time = 4.64 | Final CG iter 51 -- res = 0.45764E+00, tol = 0.82854E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7185807.493 | Old band monopole 8131371.184 | Change to band monopole -945563.691 | Change to component monopole 945559.624 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.11 | CG iter. 1 -- res = 0.14230E+06, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.89811E+02, tol = 0.47627E+18, time = 2.30 | CG iter. 3 -- res = 0.31927E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.67852E-02, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.21683E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7185776.585 | (Sampled value in CG: 7213770.227 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473241 | New value = 1.491545 | poltype: 2 pol: 1 CPU time specind = 6.1581135E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504044 | New value = 1.517074 | poltype: 2 pol: 2 CPU time specind = 4.3399334E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.24076E+08, tol = 0.47590E+04, time = 5.04 | CG iter. 2 -- res = 0.53334E+07, tol = 0.47590E+04, time = 5.65 | CG iter. 3 -- res = 0.82781E+06, tol = 0.47590E+04, time = 6.14 | CG iter. 4 -- res = 0.34963E+06, tol = 0.47590E+04, time = 5.07 | CG iter. 5 -- res = 0.15295E+06, tol = 0.47590E+04, time = 5.14 | CG iter. 6 -- res = 0.78388E+05, tol = 0.47590E+04, time = 5.19 | CG iter. 7 -- res = 0.43124E+05, tol = 0.47590E+04, time = 5.31 | CG iter. 8 -- res = 0.21079E+05, tol = 0.47590E+04, time = 5.78 | CG iter. 9 -- res = 0.92279E+04, tol = 0.47590E+04, time = 5.41 | CG iter. 10 -- res = 0.37001E+04, tol = 0.47590E+04, time = 5.08 | CG iter. 11 -- res = 0.16922E+04, tol = 0.47590E+04, time = 5.10 | CG iter. 12 -- res = 0.87838E+03, tol = 0.47590E+04, time = 5.26 | CG iter. 13 -- res = 0.50153E+03, tol = 0.47590E+04, time = 5.14 | CG iter. 14 -- res = 0.28408E+03, tol = 0.47590E+04, time = 5.14 | CG iter. 15 -- res = 0.14708E+03, tol = 0.47590E+04, time = 5.15 | CG iter. 16 -- res = 0.68460E+02, tol = 0.47590E+04, time = 5.07 | CG iter. 17 -- res = 0.32242E+02, tol = 0.47590E+04, time = 5.29 | CG iter. 18 -- res = 0.16177E+02, tol = 0.47590E+04, time = 5.10 | CG iter. 19 -- res = 0.90224E+01, tol = 0.47590E+04, time = 5.21 | CG iter. 20 -- res = 0.51100E+01, tol = 0.47590E+04, time = 5.35 | CG iter. 21 -- res = 0.27867E+01, tol = 0.47590E+04, time = 5.16 | CG iter. 22 -- res = 0.14319E+01, tol = 0.47590E+04, time = 5.33 | CG iter. 23 -- res = 0.72097E+00, tol = 0.47590E+04, time = 5.22 | CG iter. 24 -- res = 0.37347E+00, tol = 0.47590E+04, time = 5.32 | CG iter. 25 -- res = 0.20400E+00, tol = 0.47590E+04, time = 5.05 | CG iter. 26 -- res = 0.11672E+00, tol = 0.47590E+04, time = 6.06 | CG iter. 27 -- res = 0.66421E-01, tol = 0.47590E+04, time = 10.86 | CG iter. 28 -- res = 0.36698E-01, tol = 0.47590E+04, time = 5.31 | CG iter. 29 -- res = 0.19277E-01, tol = 0.47590E+04, time = 5.28 | CG iter. 30 -- res = 0.98869E-02, tol = 0.47590E+04, time = 5.13 | CG iter. 31 -- res = 0.52783E-02, tol = 0.47590E+04, time = 5.22 | CG iter. 32 -- res = 0.29868E-02, tol = 0.47590E+04, time = 5.36 | CG iter. 33 -- res = 0.16789E-02, tol = 0.47590E+04, time = 5.03 | CG iter. 34 -- res = 0.88869E-03, tol = 0.47590E+04, time = 5.29 | CG iter. 35 -- res = 0.46487E-03, tol = 0.47590E+04, time = 5.29 | Final CG iter 36 -- res = 0.46487E-03, tol = 0.47590E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.380 2.759 | New value -4.819 | Old value 2.380 | Difference -7.199 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.28 | CG iter. 1 -- res = 0.26743E+07, tol = 0.47627E+18, time = 1.50 | CG iter. 2 -- res = 0.29519E+02, tol = 0.47627E+18, time = 1.57 | CG iter. 3 -- res = 0.81242E+00, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.12516E-02, tol = 0.47627E+18, time = 2.43 | Final CG iter 5 -- res = 0.68250E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7185776.585 | (Sampled value in CG: 7211711.043 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.693080 | New value = -3.569460 | poltype: 1 pol: 1 CPU time specind = 4.8918724E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.22628E+07, tol = 0.22124E+01, time = 1.90 | CG iter. 2 -- res = 0.82800E+06, tol = 0.22124E+01, time = 2.33 | CG iter. 3 -- res = 0.15689E+06, tol = 0.22124E+01, time = 2.13 | CG iter. 4 -- res = 0.62931E+05, tol = 0.22124E+01, time = 1.82 | CG iter. 5 -- res = 0.36523E+05, tol = 0.22124E+01, time = 2.18 | CG iter. 6 -- res = 0.19905E+05, tol = 0.22124E+01, time = 1.95 | CG iter. 7 -- res = 0.76145E+04, tol = 0.22124E+01, time = 2.13 | CG iter. 8 -- res = 0.34017E+04, tol = 0.22124E+01, time = 2.08 | CG iter. 9 -- res = 0.14936E+04, tol = 0.22124E+01, time = 1.99 | CG iter. 10 -- res = 0.59005E+03, tol = 0.22124E+01, time = 2.02 | CG iter. 11 -- res = 0.23968E+03, tol = 0.22124E+01, time = 2.10 | CG iter. 12 -- res = 0.11799E+03, tol = 0.22124E+01, time = 2.04 | CG iter. 13 -- res = 0.61184E+02, tol = 0.22124E+01, time = 3.68 | CG iter. 14 -- res = 0.31890E+02, tol = 0.22124E+01, time = 7.20 | CG iter. 15 -- res = 0.15264E+02, tol = 0.22124E+01, time = 2.10 | CG iter. 16 -- res = 0.66297E+01, tol = 0.22124E+01, time = 2.19 | CG iter. 17 -- res = 0.26397E+01, tol = 0.22124E+01, time = 1.96 | CG iter. 18 -- res = 0.12100E+01, tol = 0.22124E+01, time = 2.10 | CG iter. 19 -- res = 0.61058E+00, tol = 0.22124E+01, time = 2.22 | CG iter. 20 -- res = 0.29119E+00, tol = 0.22124E+01, time = 2.08 | CG iter. 21 -- res = 0.14773E+00, tol = 0.22124E+01, time = 2.05 | CG iter. 22 -- res = 0.72760E-01, tol = 0.22124E+01, time = 2.13 | CG iter. 23 -- res = 0.32275E-01, tol = 0.22124E+01, time = 2.13 | CG iter. 24 -- res = 0.14263E-01, tol = 0.22124E+01, time = 2.17 | CG iter. 25 -- res = 0.71084E-02, tol = 0.22124E+01, time = 1.94 | CG iter. 26 -- res = 0.37142E-02, tol = 0.22124E+01, time = 2.09 | CG iter. 27 -- res = 0.18922E-02, tol = 0.22124E+01, time = 2.13 | CG iter. 28 -- res = 0.93544E-03, tol = 0.22124E+01, time = 2.04 | CG iter. 29 -- res = 0.43213E-03, tol = 0.22124E+01, time = 2.16 | CG iter. 30 -- res = 0.20157E-03, tol = 0.22124E+01, time = 2.10 | CG iter. 31 -- res = 0.95253E-04, tol = 0.22124E+01, time = 2.13 | CG iter. 32 -- res = 0.49482E-04, tol = 0.22124E+01, time = 2.11 | CG iter. 33 -- res = 0.26084E-04, tol = 0.22124E+01, time = 2.04 | CG iter. 34 -- res = 0.12377E-04, tol = 0.22124E+01, time = 2.20 | CG iter. 35 -- res = 0.58707E-05, tol = 0.22124E+01, time = 2.11 | CG iter. 36 -- res = 0.27686E-05, tol = 0.22124E+01, time = 2.15 | CG iter. 37 -- res = 0.13281E-05, tol = 0.22124E+01, time = 2.09 | CG iter. 38 -- res = 0.65699E-06, tol = 0.22124E+01, time = 2.23 | CG iter. 39 -- res = 0.31864E-06, tol = 0.22124E+01, time = 2.00 | CG iter. 40 -- res = 0.16266E-06, tol = 0.22124E+01, time = 2.10 | CG iter. 41 -- res = 0.79122E-07, tol = 0.22124E+01, time = 2.06 | CG iter. 42 -- res = 0.36489E-07, tol = 0.22124E+01, time = 2.05 | CG iter. 43 -- res = 0.17104E-07, tol = 0.22124E+01, time = 1.96 | CG iter. 44 -- res = 0.84437E-08, tol = 0.22124E+01, time = 2.22 | CG iter. 45 -- res = 0.40685E-08, tol = 0.22124E+01, time = 2.13 | CG iter. 46 -- res = 0.20154E-08, tol = 0.22124E+01, time = 2.19 | CG iter. 47 -- res = 0.97065E-09, tol = 0.22124E+01, time = 1.99 | CG iter. 48 -- res = 0.46497E-09, tol = 0.22124E+01, time = 2.13 | CG iter. 49 -- res = 0.22764E-09, tol = 0.22124E+01, time = 2.14 | CG iter. 50 -- res = 0.10275E-09, tol = 0.22124E+01, time = 2.14 | Final CG iter 51 -- res = 0.10275E-09, tol = 0.22124E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.033 4.335 | New value 5.256 | Old value 6.033 | Difference -0.776 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.51 | CG iter. 1 -- res = 0.17745E+04, tol = 0.47627E+18, time = 1.44 | CG iter. 2 -- res = 0.20925E+02, tol = 0.47627E+18, time = 1.57 | CG iter. 3 -- res = 0.52613E+00, tol = 0.47627E+18, time = 1.54 | Final CG iter 4 -- res = 0.44030E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7185776.585 | (Sampled value in CG: 7209787.572 ) | CPU time specind = 955.9555 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.04 | CG iter. 1 -- res = 0.68620E+08, tol = 0.57587E+04, time = 9.42 | CG iter. 2 -- res = 0.58795E+08, tol = 0.57587E+04, time = 9.45 | CG iter. 3 -- res = 0.15546E+08, tol = 0.57587E+04, time = 9.40 | CG iter. 4 -- res = 0.65291E+07, tol = 0.57587E+04, time = 9.35 | CG iter. 5 -- res = 0.38047E+07, tol = 0.57587E+04, time = 10.55 | CG iter. 6 -- res = 0.21294E+07, tol = 0.57587E+04, time = 9.32 | CG iter. 7 -- res = 0.12752E+07, tol = 0.57587E+04, time = 9.53 | CG iter. 8 -- res = 0.85453E+06, tol = 0.57587E+04, time = 9.23 | CG iter. 9 -- res = 0.53652E+06, tol = 0.57587E+04, time = 9.35 | CG iter. 10 -- res = 0.30895E+06, tol = 0.57587E+04, time = 9.43 | CG iter. 11 -- res = 0.16647E+06, tol = 0.57587E+04, time = 9.52 | CG iter. 12 -- res = 0.90307E+05, tol = 0.57587E+04, time = 9.33 | CG iter. 13 -- res = 0.50294E+05, tol = 0.57587E+04, time = 9.58 | CG iter. 14 -- res = 0.29434E+05, tol = 0.57587E+04, time = 9.43 | CG iter. 15 -- res = 0.19101E+05, tol = 0.57587E+04, time = 14.20 | CG iter. 16 -- res = 0.13571E+05, tol = 0.57587E+04, time = 26.57 | CG iter. 17 -- res = 0.97036E+04, tol = 0.57587E+04, time = 8.95 | CG iter. 18 -- res = 0.68807E+04, tol = 0.57587E+04, time = 10.30 | CG iter. 19 -- res = 0.48269E+04, tol = 0.57587E+04, time = 23.53 | CG iter. 20 -- res = 0.35004E+04, tol = 0.57587E+04, time = 15.14 | CG iter. 21 -- res = 0.26796E+04, tol = 0.57587E+04, time = 11.29 | CG iter. 22 -- res = 0.23078E+04, tol = 0.57587E+04, time = 9.66 | CG iter. 23 -- res = 0.22972E+04, tol = 0.57587E+04, time = 9.40 | CG iter. 24 -- res = 0.24670E+04, tol = 0.57587E+04, time = 9.38 | CG iter. 25 -- res = 0.26329E+04, tol = 0.57587E+04, time = 9.28 | CG iter. 26 -- res = 0.26000E+04, tol = 0.57587E+04, time = 9.27 | CG iter. 27 -- res = 0.23949E+04, tol = 0.57587E+04, time = 9.33 | CG iter. 28 -- res = 0.20706E+04, tol = 0.57587E+04, time = 9.63 | CG iter. 29 -- res = 0.17518E+04, tol = 0.57587E+04, time = 9.21 | CG iter. 30 -- res = 0.15280E+04, tol = 0.57587E+04, time = 9.61 | CG iter. 31 -- res = 0.13344E+04, tol = 0.57587E+04, time = 9.33 | CG iter. 32 -- res = 0.11243E+04, tol = 0.57587E+04, time = 9.62 | CG iter. 33 -- res = 0.91486E+03, tol = 0.57587E+04, time = 9.24 | CG iter. 34 -- res = 0.70512E+03, tol = 0.57587E+04, time = 9.45 | CG iter. 35 -- res = 0.54728E+03, tol = 0.57587E+04, time = 9.47 | CG iter. 36 -- res = 0.45290E+03, tol = 0.57587E+04, time = 9.58 | CG iter. 37 -- res = 0.40079E+03, tol = 0.57587E+04, time = 9.73 | CG iter. 38 -- res = 0.38263E+03, tol = 0.57587E+04, time = 9.41 | CG iter. 39 -- res = 0.37046E+03, tol = 0.57587E+04, time = 9.43 | CG iter. 40 -- res = 0.34416E+03, tol = 0.57587E+04, time = 9.43 | CG iter. 41 -- res = 0.30950E+03, tol = 0.57587E+04, time = 9.49 | CG iter. 42 -- res = 0.27493E+03, tol = 0.57587E+04, time = 12.28 | CG iter. 43 -- res = 0.23683E+03, tol = 0.57587E+04, time = 14.28 | CG iter. 44 -- res = 0.20865E+03, tol = 0.57587E+04, time = 10.72 | CG iter. 45 -- res = 0.18903E+03, tol = 0.57587E+04, time = 9.59 | CG iter. 46 -- res = 0.17623E+03, tol = 0.57587E+04, time = 9.24 | CG iter. 47 -- res = 0.15588E+03, tol = 0.57587E+04, time = 9.18 | CG iter. 48 -- res = 0.12887E+03, tol = 0.57587E+04, time = 9.39 | CG iter. 49 -- res = 0.10586E+03, tol = 0.57587E+04, time = 9.55 | CG iter. 50 -- res = 0.89458E+02, tol = 0.57587E+04, time = 9.35 | CG iter. 51 -- res = 0.81756E+02, tol = 0.57587E+04, time = 11.03 | CG iter. 52 -- res = 0.78371E+02, tol = 0.57587E+04, time = 10.46 | CG iter. 53 -- res = 0.76906E+02, tol = 0.57587E+04, time = 9.60 | CG iter. 54 -- res = 0.73492E+02, tol = 0.57587E+04, time = 9.41 | CG iter. 55 -- res = 0.66770E+02, tol = 0.57587E+04, time = 9.41 | CG iter. 56 -- res = 0.61212E+02, tol = 0.57587E+04, time = 9.41 | CG iter. 57 -- res = 0.57738E+02, tol = 0.57587E+04, time = 9.44 | CG iter. 58 -- res = 0.54901E+02, tol = 0.57587E+04, time = 9.52 | CG iter. 59 -- res = 0.52052E+02, tol = 0.57587E+04, time = 9.40 | CG iter. 60 -- res = 0.48948E+02, tol = 0.57587E+04, time = 9.53 | Final CG iter 61 -- res = 0.48948E+02, tol = 0.57587E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.943 ( -230.318 -2231.287 2513.736 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8392880.967 | Old band monopole 7185807.493 | Change to band monopole 1207073.474 | Change to component monopole -1207068.282 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.865 2.745 | New value 0.361 | Old value -4.865 | Difference 5.226 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.256 ( 8.216 15.370 -14.657 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.605 4.037 | New value -2.143 | Old value 8.605 | Difference -10.748 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 21.96 | CG iter. 1 -- res = 0.15159E+07, tol = 0.47627E+18, time = 1.48 | CG iter. 2 -- res = 0.70390E+02, tol = 0.47627E+18, time = 1.63 | CG iter. 3 -- res = 0.29668E+01, tol = 0.47627E+18, time = 1.63 | CG iter. 4 -- res = 0.73898E-02, tol = 0.47627E+18, time = 1.40 | Final CG iter 5 -- res = 0.14497E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8392844.867 | (Sampled value in CG: 8371875.252 ) | Chain = 1 -- chisq = 0.81556701E+09 | Chain = 1 -- wall time = 17518.919 sec Available RAM: MemAvailable: 498648168 kB Available Swap: SwapFree: 1054566852 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 177 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06439221 | --> Sampling calibration, mode = relcal | relcal = 1.3428691E-02 7.5073697E-04 -1.6060254E-03 -1.2573402E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.5877558E-02 0.1148113 97042382.2718801 | BP delta = 0.1054834 0.1244172 97042377.8482118 | BP chisq diff = -4.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632860 | --> Sampling calibration, mode = relcal | relcal = -2.8236120E-03 -7.0406025E-04 1.6797871E-03 1.6150194E-03 -4.0656689E-04 6.3943263E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5838799 15217444.1721144 | BP delta = 0.0000000E+00 -0.5815119 15217441.8967845 | BP chisq diff = -2.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17923091215735 | --> Sampling calibration, mode = relcal | relcal = -7.6116711E-02 -5.8967315E-02 9.2792705E-02 4.2291325E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2574694E-06 5.5058044E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7540E-05 | 2: delta_r/delta_0: 1.2801E-06 | 3: delta_s/delta_0: 1.9187E-07 | 4: delta_r/delta_0: 2.6772E-08 | 5: delta_s/delta_0: 7.3770E-09 | 6: delta_r/delta_0: 2.6268E-09 | 7: delta_s/delta_0: 6.8311E-10 | 8: delta_r/delta_0: 1.4525E-10 | 9: delta_s/delta_0: 2.1504E-10 | 10: delta_r/delta_0: 6.2535E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.213293006721450E-003 2.745002245364461E-005 | BP delta = 3.1536836E-02 4.7302511E-02 50481574.2542487 | BP delta = 3.5967544E-02 5.1733214E-02 50481569.6560439 | BP chisq diff = -4.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02612938 | --> Sampling calibration, mode = relcal | relcal = -0.1067271 -9.5546603E-02 0.1449765 5.7297233E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0886815E-03 1.6814622E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.1235E-05 | 2: delta_r/delta_0: 1.8798E-06 | 3: delta_s/delta_0: 2.3637E-07 | 4: delta_r/delta_0: 4.0563E-08 | 5: delta_s/delta_0: 3.8175E-08 | 6: delta_r/delta_0: 7.0072E-09 | 7: delta_s/delta_0: 7.0956E-09 | 8: delta_r/delta_0: 1.6018E-09 | 9: delta_s/delta_0: 7.9646E-10 | 10: delta_r/delta_0: 5.9869E-10 | 11: delta_s/delta_0: 2.0788E-09 | 12: delta_r/delta_0: 5.1533E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.054811317173268E-002 2.810457909182334E-005 | BP delta = -0.2831798 -0.2576763 57388688.0322016 | BP delta = -0.3127115 -0.2872080 57388686.9897472 | BP chisq diff = -1.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81279626 | --> Sampling calibration, mode = relcal | relcal = 0.2956330 0.2250269 -0.2839875 -0.2366724 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.7659770E-04 5.0748824E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0109E-03 | 2: delta_r/delta_0: 2.3126E-05 | 3: delta_s/delta_0: 8.0169E-06 | 4: delta_r/delta_0: 9.2722E-07 | 5: delta_s/delta_0: 3.3995E-07 | 6: delta_r/delta_0: 5.2120E-08 | 7: delta_s/delta_0: 4.1946E-08 | 8: delta_r/delta_0: 2.7608E-08 | 9: delta_s/delta_0: 7.4096E-08 | 10: delta_r/delta_0: 2.1065E-09 | 11: delta_s/delta_0: 8.9257E-10 | 12: delta_r/delta_0: 4.3214E-10 | 13: delta_s/delta_0: 1.4569E-09 | 14: delta_r/delta_0: 9.2964E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.616864371683385E-002 4.018940578103942E-005 | BP delta = -0.1709809 -0.1890301 72488291.4775761 | BP delta = -0.2165098 -0.2345590 72488291.0390719 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95978114 | --> Sampling calibration, mode = relcal | relcal = 0.1064622 0.1397061 -0.1103069 -0.1358614 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0894857E-03 1.2885227E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5966E-03 | 2: delta_r/delta_0: 3.8465E-05 | 3: delta_s/delta_0: 3.3291E-06 | 4: delta_r/delta_0: 5.4439E-07 | 5: delta_s/delta_0: 5.8481E-07 | 6: delta_r/delta_0: 1.2823E-07 | 7: delta_s/delta_0: 1.1127E-07 | 8: delta_r/delta_0: 6.7745E-08 | 9: delta_s/delta_0: 4.4875E-08 | 10: delta_r/delta_0: 8.0892E-09 | 11: delta_s/delta_0: 2.4587E-09 | 12: delta_r/delta_0: 8.1397E-10 | 13: delta_s/delta_0: 3.7133E-10 | 14: delta_r/delta_0: 1.0513E-10 | 15: delta_s/delta_0: 1.0548E-10 | 16: delta_r/delta_0: 5.6039E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.595541587942521E-002 3.694800127959253E-005 | BP delta = 4.7328766E-02 0.1655397 72773685.7831718 | BP delta = 5.3152859E-02 0.1713637 72773685.7278564 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197666 | New value = -3.152884 | poltype: 2 pol: 1 CPU time specind = 7.1029663E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.074084 | New value = -3.232399 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208527 | New value = -3.153020 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.212803 | New value = -3.187457 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172551 | New value = -3.148245 | poltype: 2 pol: 2 CPU time specind = 5.3348541E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.21 | CG iter. 1 -- res = 0.13593E+08, tol = 0.82045E+01, time = 4.98 | CG iter. 2 -- res = 0.35319E+06, tol = 0.82045E+01, time = 4.70 | CG iter. 3 -- res = 0.58834E+05, tol = 0.82045E+01, time = 4.61 | CG iter. 4 -- res = 0.37242E+05, tol = 0.82045E+01, time = 4.99 | CG iter. 5 -- res = 0.29248E+05, tol = 0.82045E+01, time = 4.94 | CG iter. 6 -- res = 0.26955E+05, tol = 0.82045E+01, time = 6.23 | CG iter. 7 -- res = 0.28640E+05, tol = 0.82045E+01, time = 5.21 | CG iter. 8 -- res = 0.25982E+05, tol = 0.82045E+01, time = 5.39 | CG iter. 9 -- res = 0.21682E+05, tol = 0.82045E+01, time = 4.75 | CG iter. 10 -- res = 0.18590E+05, tol = 0.82045E+01, time = 4.91 | CG iter. 11 -- res = 0.13714E+05, tol = 0.82045E+01, time = 5.00 | CG iter. 12 -- res = 0.93308E+04, tol = 0.82045E+01, time = 4.76 | CG iter. 13 -- res = 0.69149E+04, tol = 0.82045E+01, time = 4.76 | CG iter. 14 -- res = 0.59354E+04, tol = 0.82045E+01, time = 4.89 | CG iter. 15 -- res = 0.53726E+04, tol = 0.82045E+01, time = 5.03 | CG iter. 16 -- res = 0.40968E+04, tol = 0.82045E+01, time = 4.52 | CG iter. 17 -- res = 0.29240E+04, tol = 0.82045E+01, time = 4.92 | CG iter. 18 -- res = 0.21885E+04, tol = 0.82045E+01, time = 4.68 | CG iter. 19 -- res = 0.18961E+04, tol = 0.82045E+01, time = 4.96 | CG iter. 20 -- res = 0.16507E+04, tol = 0.82045E+01, time = 4.71 | CG iter. 21 -- res = 0.12527E+04, tol = 0.82045E+01, time = 4.68 | CG iter. 22 -- res = 0.10297E+04, tol = 0.82045E+01, time = 4.98 | CG iter. 23 -- res = 0.89722E+03, tol = 0.82045E+01, time = 4.88 | CG iter. 24 -- res = 0.79145E+03, tol = 0.82045E+01, time = 4.66 | CG iter. 25 -- res = 0.61270E+03, tol = 0.82045E+01, time = 5.04 | CG iter. 26 -- res = 0.47125E+03, tol = 0.82045E+01, time = 4.87 | CG iter. 27 -- res = 0.40149E+03, tol = 0.82045E+01, time = 4.86 | CG iter. 28 -- res = 0.37198E+03, tol = 0.82045E+01, time = 4.75 | CG iter. 29 -- res = 0.32555E+03, tol = 0.82045E+01, time = 4.99 | CG iter. 30 -- res = 0.24737E+03, tol = 0.82045E+01, time = 4.70 | CG iter. 31 -- res = 0.21507E+03, tol = 0.82045E+01, time = 4.87 | CG iter. 32 -- res = 0.19535E+03, tol = 0.82045E+01, time = 4.79 | CG iter. 33 -- res = 0.16351E+03, tol = 0.82045E+01, time = 4.91 | CG iter. 34 -- res = 0.12519E+03, tol = 0.82045E+01, time = 4.67 | CG iter. 35 -- res = 0.98680E+02, tol = 0.82045E+01, time = 5.15 | CG iter. 36 -- res = 0.89439E+02, tol = 0.82045E+01, time = 4.79 | CG iter. 37 -- res = 0.76540E+02, tol = 0.82045E+01, time = 4.69 | CG iter. 38 -- res = 0.57788E+02, tol = 0.82045E+01, time = 4.87 | CG iter. 39 -- res = 0.43306E+02, tol = 0.82045E+01, time = 4.82 | CG iter. 40 -- res = 0.34374E+02, tol = 0.82045E+01, time = 4.77 | CG iter. 41 -- res = 0.28985E+02, tol = 0.82045E+01, time = 5.20 | CG iter. 42 -- res = 0.23085E+02, tol = 0.82045E+01, time = 4.77 | CG iter. 43 -- res = 0.17661E+02, tol = 0.82045E+01, time = 4.67 | CG iter. 44 -- res = 0.13767E+02, tol = 0.82045E+01, time = 5.06 | CG iter. 45 -- res = 0.11477E+02, tol = 0.82045E+01, time = 4.87 | CG iter. 46 -- res = 0.92378E+01, tol = 0.82045E+01, time = 5.02 | CG iter. 47 -- res = 0.69504E+01, tol = 0.82045E+01, time = 4.96 | CG iter. 48 -- res = 0.53347E+01, tol = 0.82045E+01, time = 9.90 | CG iter. 49 -- res = 0.43199E+01, tol = 0.82045E+01, time = 6.43 | CG iter. 50 -- res = 0.35059E+01, tol = 0.82045E+01, time = 5.03 | Final CG iter 51 -- res = 0.35059E+01, tol = 0.82045E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10218366.278 | Old band monopole 8392880.967 | Change to band monopole 1825485.311 | Change to component monopole -1825477.459 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.34 | CG iter. 1 -- res = 0.71833E+04, tol = 0.47627E+18, time = 1.53 | CG iter. 2 -- res = 0.30666E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.96913E+00, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.13865E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.49588E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10218322.326 | (Sampled value in CG: 10255212.947 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.491545 | New value = 1.520133 | poltype: 2 pol: 1 CPU time specind = 6.3669682E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.517074 | New value = 1.466355 | poltype: 2 pol: 2 CPU time specind = 3.9949417E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.24 | CG iter. 1 -- res = 0.24166E+08, tol = 0.47618E+04, time = 5.37 | CG iter. 2 -- res = 0.52461E+07, tol = 0.47618E+04, time = 5.47 | CG iter. 3 -- res = 0.83641E+06, tol = 0.47618E+04, time = 5.62 | CG iter. 4 -- res = 0.35580E+06, tol = 0.47618E+04, time = 5.66 | CG iter. 5 -- res = 0.15286E+06, tol = 0.47618E+04, time = 5.48 | CG iter. 6 -- res = 0.80230E+05, tol = 0.47618E+04, time = 5.47 | CG iter. 7 -- res = 0.43507E+05, tol = 0.47618E+04, time = 5.69 | CG iter. 8 -- res = 0.20960E+05, tol = 0.47618E+04, time = 5.32 | CG iter. 9 -- res = 0.90035E+04, tol = 0.47618E+04, time = 5.75 | CG iter. 10 -- res = 0.36856E+04, tol = 0.47618E+04, time = 5.74 | CG iter. 11 -- res = 0.16720E+04, tol = 0.47618E+04, time = 5.32 | CG iter. 12 -- res = 0.87771E+03, tol = 0.47618E+04, time = 5.85 | CG iter. 13 -- res = 0.50386E+03, tol = 0.47618E+04, time = 5.66 | CG iter. 14 -- res = 0.28381E+03, tol = 0.47618E+04, time = 5.44 | CG iter. 15 -- res = 0.14390E+03, tol = 0.47618E+04, time = 6.33 | CG iter. 16 -- res = 0.67602E+02, tol = 0.47618E+04, time = 5.83 | CG iter. 17 -- res = 0.31626E+02, tol = 0.47618E+04, time = 5.37 | CG iter. 18 -- res = 0.15748E+02, tol = 0.47618E+04, time = 5.77 | CG iter. 19 -- res = 0.86182E+01, tol = 0.47618E+04, time = 5.75 | CG iter. 20 -- res = 0.50002E+01, tol = 0.47618E+04, time = 5.39 | CG iter. 21 -- res = 0.27363E+01, tol = 0.47618E+04, time = 5.84 | CG iter. 22 -- res = 0.14054E+01, tol = 0.47618E+04, time = 5.51 | CG iter. 23 -- res = 0.69476E+00, tol = 0.47618E+04, time = 5.38 | CG iter. 24 -- res = 0.35015E+00, tol = 0.47618E+04, time = 5.29 | CG iter. 25 -- res = 0.19406E+00, tol = 0.47618E+04, time = 5.54 | CG iter. 26 -- res = 0.11195E+00, tol = 0.47618E+04, time = 5.58 | CG iter. 27 -- res = 0.64210E-01, tol = 0.47618E+04, time = 5.92 | CG iter. 28 -- res = 0.34296E-01, tol = 0.47618E+04, time = 5.58 | CG iter. 29 -- res = 0.17559E-01, tol = 0.47618E+04, time = 5.49 | CG iter. 30 -- res = 0.93600E-02, tol = 0.47618E+04, time = 5.72 | CG iter. 31 -- res = 0.50561E-02, tol = 0.47618E+04, time = 5.35 | CG iter. 32 -- res = 0.28761E-02, tol = 0.47618E+04, time = 11.78 | CG iter. 33 -- res = 0.16077E-02, tol = 0.47618E+04, time = 5.50 | CG iter. 34 -- res = 0.86618E-03, tol = 0.47618E+04, time = 5.51 | CG iter. 35 -- res = 0.44894E-03, tol = 0.47618E+04, time = 5.54 | Final CG iter 36 -- res = 0.44894E-03, tol = 0.47618E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.372 2.735 | New value -2.507 | Old value 0.372 | Difference -2.878 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.21 | CG iter. 1 -- res = 0.42920E+06, tol = 0.47627E+18, time = 1.48 | CG iter. 2 -- res = 0.37751E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.11366E+01, tol = 0.47627E+18, time = 1.64 | CG iter. 4 -- res = 0.95245E-03, tol = 0.47627E+18, time = 1.58 | Final CG iter 5 -- res = 0.27183E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10218322.326 | (Sampled value in CG: 10255435.125 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.569460 | New value = -3.415248 | poltype: 1 pol: 1 CPU time specind = 5.8088303E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.25908E+07, tol = 0.28891E+01, time = 2.32 | CG iter. 2 -- res = 0.10410E+07, tol = 0.28891E+01, time = 2.02 | CG iter. 3 -- res = 0.20602E+06, tol = 0.28891E+01, time = 2.28 | CG iter. 4 -- res = 0.90967E+05, tol = 0.28891E+01, time = 2.11 | CG iter. 5 -- res = 0.51929E+05, tol = 0.28891E+01, time = 2.28 | CG iter. 6 -- res = 0.24661E+05, tol = 0.28891E+01, time = 2.24 | CG iter. 7 -- res = 0.10117E+05, tol = 0.28891E+01, time = 1.92 | CG iter. 8 -- res = 0.46253E+04, tol = 0.28891E+01, time = 2.51 | CG iter. 9 -- res = 0.21240E+04, tol = 0.28891E+01, time = 2.28 | CG iter. 10 -- res = 0.84755E+03, tol = 0.28891E+01, time = 2.35 | CG iter. 11 -- res = 0.34436E+03, tol = 0.28891E+01, time = 2.28 | CG iter. 12 -- res = 0.15460E+03, tol = 0.28891E+01, time = 1.93 | CG iter. 13 -- res = 0.76606E+02, tol = 0.28891E+01, time = 2.53 | CG iter. 14 -- res = 0.39822E+02, tol = 0.28891E+01, time = 2.38 | CG iter. 15 -- res = 0.20192E+02, tol = 0.28891E+01, time = 2.10 | CG iter. 16 -- res = 0.10461E+02, tol = 0.28891E+01, time = 4.39 | CG iter. 17 -- res = 0.44355E+01, tol = 0.28891E+01, time = 6.85 | CG iter. 18 -- res = 0.18207E+01, tol = 0.28891E+01, time = 2.26 | CG iter. 19 -- res = 0.81941E+00, tol = 0.28891E+01, time = 2.39 | CG iter. 20 -- res = 0.40533E+00, tol = 0.28891E+01, time = 2.06 | CG iter. 21 -- res = 0.20041E+00, tol = 0.28891E+01, time = 2.41 | CG iter. 22 -- res = 0.10061E+00, tol = 0.28891E+01, time = 2.41 | CG iter. 23 -- res = 0.46708E-01, tol = 0.28891E+01, time = 2.26 | CG iter. 24 -- res = 0.21239E-01, tol = 0.28891E+01, time = 2.29 | CG iter. 25 -- res = 0.95955E-02, tol = 0.28891E+01, time = 2.20 | CG iter. 26 -- res = 0.48167E-02, tol = 0.28891E+01, time = 2.25 | CG iter. 27 -- res = 0.24027E-02, tol = 0.28891E+01, time = 2.38 | CG iter. 28 -- res = 0.12207E-02, tol = 0.28891E+01, time = 2.29 | CG iter. 29 -- res = 0.62487E-03, tol = 0.28891E+01, time = 2.31 | CG iter. 30 -- res = 0.30580E-03, tol = 0.28891E+01, time = 2.33 | CG iter. 31 -- res = 0.14736E-03, tol = 0.28891E+01, time = 2.19 | CG iter. 32 -- res = 0.68952E-04, tol = 0.28891E+01, time = 2.38 | CG iter. 33 -- res = 0.33088E-04, tol = 0.28891E+01, time = 2.11 | CG iter. 34 -- res = 0.16869E-04, tol = 0.28891E+01, time = 2.18 | CG iter. 35 -- res = 0.85725E-05, tol = 0.28891E+01, time = 2.12 | CG iter. 36 -- res = 0.44573E-05, tol = 0.28891E+01, time = 2.19 | CG iter. 37 -- res = 0.21513E-05, tol = 0.28891E+01, time = 2.22 | CG iter. 38 -- res = 0.99235E-06, tol = 0.28891E+01, time = 2.30 | CG iter. 39 -- res = 0.45802E-06, tol = 0.28891E+01, time = 2.27 | CG iter. 40 -- res = 0.21941E-06, tol = 0.28891E+01, time = 2.47 | CG iter. 41 -- res = 0.11572E-06, tol = 0.28891E+01, time = 2.12 | CG iter. 42 -- res = 0.58594E-07, tol = 0.28891E+01, time = 2.20 | CG iter. 43 -- res = 0.28773E-07, tol = 0.28891E+01, time = 2.18 | CG iter. 44 -- res = 0.13132E-07, tol = 0.28891E+01, time = 2.21 | CG iter. 45 -- res = 0.62819E-08, tol = 0.28891E+01, time = 2.20 | CG iter. 46 -- res = 0.29268E-08, tol = 0.28891E+01, time = 2.09 | CG iter. 47 -- res = 0.14451E-08, tol = 0.28891E+01, time = 2.38 | CG iter. 48 -- res = 0.75382E-09, tol = 0.28891E+01, time = 2.20 | CG iter. 49 -- res = 0.37507E-09, tol = 0.28891E+01, time = 2.43 | CG iter. 50 -- res = 0.17471E-09, tol = 0.28891E+01, time = 2.11 | Final CG iter 51 -- res = 0.17471E-09, tol = 0.28891E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.078 3.695 | New value 3.003 | Old value -0.078 | Difference 3.081 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.51 | CG iter. 1 -- res = 0.10960E+05, tol = 0.47627E+18, time = 1.68 | CG iter. 2 -- res = 0.28025E+02, tol = 0.47627E+18, time = 1.59 | CG iter. 3 -- res = 0.92073E+00, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.21672E-02, tol = 0.47627E+18, time = 1.67 | Final CG iter 5 -- res = 0.36280E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10218322.326 | (Sampled value in CG: 10249331.416 ) | CPU time specind = 1013.183 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.12 | CG iter. 1 -- res = 0.68615E+08, tol = 0.57526E+04, time = 9.65 | CG iter. 2 -- res = 0.58530E+08, tol = 0.57526E+04, time = 10.34 | CG iter. 3 -- res = 0.15251E+08, tol = 0.57526E+04, time = 10.30 | CG iter. 4 -- res = 0.64015E+07, tol = 0.57526E+04, time = 10.69 | CG iter. 5 -- res = 0.37814E+07, tol = 0.57526E+04, time = 10.23 | CG iter. 6 -- res = 0.21719E+07, tol = 0.57526E+04, time = 10.18 | CG iter. 7 -- res = 0.12878E+07, tol = 0.57526E+04, time = 10.16 | CG iter. 8 -- res = 0.85918E+06, tol = 0.57526E+04, time = 10.07 | CG iter. 9 -- res = 0.54806E+06, tol = 0.57526E+04, time = 10.03 | CG iter. 10 -- res = 0.32535E+06, tol = 0.57526E+04, time = 9.93 | CG iter. 11 -- res = 0.17688E+06, tol = 0.57526E+04, time = 10.10 | CG iter. 12 -- res = 0.95024E+05, tol = 0.57526E+04, time = 9.96 | CG iter. 13 -- res = 0.54416E+05, tol = 0.57526E+04, time = 10.30 | CG iter. 14 -- res = 0.34368E+05, tol = 0.57526E+04, time = 16.42 | CG iter. 15 -- res = 0.24649E+05, tol = 0.57526E+04, time = 9.82 | CG iter. 16 -- res = 0.19548E+05, tol = 0.57526E+04, time = 10.23 | CG iter. 17 -- res = 0.16682E+05, tol = 0.57526E+04, time = 9.95 | CG iter. 18 -- res = 0.14301E+05, tol = 0.57526E+04, time = 9.97 | CG iter. 19 -- res = 0.11840E+05, tol = 0.57526E+04, time = 10.09 | CG iter. 20 -- res = 0.10284E+05, tol = 0.57526E+04, time = 10.19 | CG iter. 21 -- res = 0.95840E+04, tol = 0.57526E+04, time = 9.93 | CG iter. 22 -- res = 0.99554E+04, tol = 0.57526E+04, time = 10.69 | CG iter. 23 -- res = 0.10761E+05, tol = 0.57526E+04, time = 11.50 | CG iter. 24 -- res = 0.11192E+05, tol = 0.57526E+04, time = 10.23 | CG iter. 25 -- res = 0.10541E+05, tol = 0.57526E+04, time = 10.25 | CG iter. 26 -- res = 0.88775E+04, tol = 0.57526E+04, time = 9.89 | CG iter. 27 -- res = 0.70311E+04, tol = 0.57526E+04, time = 10.14 | CG iter. 28 -- res = 0.53735E+04, tol = 0.57526E+04, time = 9.78 | CG iter. 29 -- res = 0.43015E+04, tol = 0.57526E+04, time = 10.19 | CG iter. 30 -- res = 0.35980E+04, tol = 0.57526E+04, time = 10.14 | CG iter. 31 -- res = 0.30043E+04, tol = 0.57526E+04, time = 10.06 | CG iter. 32 -- res = 0.24844E+04, tol = 0.57526E+04, time = 10.40 | CG iter. 33 -- res = 0.20388E+04, tol = 0.57526E+04, time = 9.85 | CG iter. 34 -- res = 0.16496E+04, tol = 0.57526E+04, time = 9.86 | CG iter. 35 -- res = 0.14311E+04, tol = 0.57526E+04, time = 10.02 | CG iter. 36 -- res = 0.13223E+04, tol = 0.57526E+04, time = 10.21 | CG iter. 37 -- res = 0.12476E+04, tol = 0.57526E+04, time = 10.36 | CG iter. 38 -- res = 0.12228E+04, tol = 0.57526E+04, time = 10.17 | CG iter. 39 -- res = 0.11818E+04, tol = 0.57526E+04, time = 10.37 | CG iter. 40 -- res = 0.10313E+04, tol = 0.57526E+04, time = 10.09 | CG iter. 41 -- res = 0.84229E+03, tol = 0.57526E+04, time = 10.09 | CG iter. 42 -- res = 0.68155E+03, tol = 0.57526E+04, time = 10.11 | CG iter. 43 -- res = 0.56181E+03, tol = 0.57526E+04, time = 16.30 | CG iter. 44 -- res = 0.49314E+03, tol = 0.57526E+04, time = 10.03 | CG iter. 45 -- res = 0.44467E+03, tol = 0.57526E+04, time = 10.12 | CG iter. 46 -- res = 0.39469E+03, tol = 0.57526E+04, time = 10.01 | CG iter. 47 -- res = 0.34477E+03, tol = 0.57526E+04, time = 10.20 | CG iter. 48 -- res = 0.29259E+03, tol = 0.57526E+04, time = 10.17 | CG iter. 49 -- res = 0.24950E+03, tol = 0.57526E+04, time = 9.89 | CG iter. 50 -- res = 0.21638E+03, tol = 0.57526E+04, time = 10.19 | CG iter. 51 -- res = 0.19808E+03, tol = 0.57526E+04, time = 9.86 | CG iter. 52 -- res = 0.19367E+03, tol = 0.57526E+04, time = 12.12 | CG iter. 53 -- res = 0.18750E+03, tol = 0.57526E+04, time = 10.19 | CG iter. 54 -- res = 0.16830E+03, tol = 0.57526E+04, time = 10.00 | CG iter. 55 -- res = 0.14571E+03, tol = 0.57526E+04, time = 10.27 | CG iter. 56 -- res = 0.12627E+03, tol = 0.57526E+04, time = 9.98 | CG iter. 57 -- res = 0.10885E+03, tol = 0.57526E+04, time = 10.05 | CG iter. 58 -- res = 0.96299E+02, tol = 0.57526E+04, time = 10.15 | CG iter. 59 -- res = 0.87921E+02, tol = 0.57526E+04, time = 9.94 | CG iter. 60 -- res = 0.82611E+02, tol = 0.57526E+04, time = 9.72 | Final CG iter 61 -- res = 0.82611E+02, tol = 0.57526E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.927 ( -229.858 -2229.514 2511.967 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10690027.278 | Old band monopole 10218366.278 | Change to band monopole 471661.001 | Change to component monopole -471658.972 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.502 2.747 | New value -0.590 | Old value -2.502 | Difference 1.912 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.173 ( 6.545 11.943 -11.831 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.864 5.543 | New value 11.542 | Old value 0.864 | Difference 10.678 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 21.92 | CG iter. 1 -- res = 0.34735E+06, tol = 0.47627E+18, time = 1.46 | CG iter. 2 -- res = 0.78836E+02, tol = 0.47627E+18, time = 1.71 | CG iter. 3 -- res = 0.36786E+01, tol = 0.47627E+18, time = 1.59 | CG iter. 4 -- res = 0.41025E-02, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.69205E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10689981.298 | (Sampled value in CG: 10670666.877 ) | Chain = 1 -- chisq = 0.81564659E+09 | Chain = 1 -- wall time = 5403.246 sec Available RAM: MemAvailable: 375661352 kB Available Swap: SwapFree: 1119181576 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 178 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06440180 | --> Sampling calibration, mode = relcal | relcal = 1.3419599E-02 7.3929038E-04 -1.5894002E-03 -1.2569490E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1054834 0.1244172 9404743.39876052 | BP delta = 0.1054834 0.1290180 9404769.60469691 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632817 | --> Sampling calibration, mode = relcal | relcal = -2.8223440E-03 -7.0312538E-04 1.6798166E-03 1.6140064E-03 -4.0742871E-04 6.3907495E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5815119 15217188.0556107 | BP delta = 0.0000000E+00 -0.5814868 15217193.4300207 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18025698006260 | --> Sampling calibration, mode = relcal | relcal = -7.5384863E-02 -5.8706656E-02 9.2234805E-02 4.1856714E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.3741923E-04 5.0436328E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2186E-05 | 2: delta_r/delta_0: 9.8810E-07 | 3: delta_s/delta_0: 1.9316E-07 | 4: delta_r/delta_0: 1.8574E-08 | 5: delta_s/delta_0: 3.7412E-09 | 6: delta_r/delta_0: 1.3744E-09 | 7: delta_s/delta_0: 2.9835E-10 | 8: delta_r/delta_0: 8.7854E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.002557780173280E-003 2.742711630673578E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2184E-05 | 2: delta_r/delta_0: 9.8807E-07 | 3: delta_s/delta_0: 1.9316E-07 | 4: delta_r/delta_0: 1.8571E-08 | 5: delta_s/delta_0: 3.7401E-09 | 6: delta_r/delta_0: 1.3739E-09 | 7: delta_s/delta_0: 2.9813E-10 | 8: delta_r/delta_0: 8.7841E-11 | Reached bicg-stab tolerance | BP delta = 3.5967544E-02 5.1733214E-02 3593371.71710898 | BP delta = 3.5967544E-02 5.2114610E-02 3587995.93356304 | BP chisq diff = -5375.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02585880 | --> Sampling calibration, mode = relcal | relcal = -0.1066712 -9.5519178E-02 0.1449437 5.7246700E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9468769E-03 1.5611273E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.4580E-05 | 2: delta_r/delta_0: 1.4128E-06 | 3: delta_s/delta_0: 2.5982E-07 | 4: delta_r/delta_0: 3.9939E-08 | 5: delta_s/delta_0: 2.7726E-08 | 6: delta_r/delta_0: 7.4016E-09 | 7: delta_s/delta_0: 6.3942E-09 | 8: delta_r/delta_0: 1.8974E-09 | 9: delta_s/delta_0: 8.6607E-10 | 10: delta_r/delta_0: 6.3966E-10 | 11: delta_s/delta_0: 1.0067E-09 | 12: delta_r/delta_0: 1.1300E-10 | 13: delta_s/delta_0: 6.7601E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.984138348871262E-003 2.811223155184833E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.4580E-05 | 2: delta_r/delta_0: 1.4128E-06 | 3: delta_s/delta_0: 2.5982E-07 | 4: delta_r/delta_0: 3.9939E-08 | 5: delta_s/delta_0: 2.7726E-08 | 6: delta_r/delta_0: 7.4016E-09 | 7: delta_s/delta_0: 6.3942E-09 | 8: delta_r/delta_0: 1.8974E-09 | 9: delta_s/delta_0: 8.6607E-10 | 10: delta_r/delta_0: 6.3966E-10 | 11: delta_s/delta_0: 1.0067E-09 | 12: delta_r/delta_0: 1.1300E-10 | 13: delta_s/delta_0: 6.7602E-11 | Reached bicg-stab tolerance | BP delta = -0.3127115 -0.2872080 2841228.24362536 | BP delta = -0.3127115 -0.2867184 2841227.14724952 | BP chisq diff = -1.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81269572 | --> Sampling calibration, mode = relcal | relcal = 0.2956036 0.2249385 -0.2839117 -0.2366304 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3503166E-04 5.6957705E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6162E-04 | 2: delta_r/delta_0: 1.5995E-05 | 3: delta_s/delta_0: 8.8084E-06 | 4: delta_r/delta_0: 8.9817E-07 | 5: delta_s/delta_0: 4.8214E-07 | 6: delta_r/delta_0: 1.8863E-07 | 7: delta_s/delta_0: 5.1372E-07 | 8: delta_r/delta_0: 3.3405E-08 | 9: delta_s/delta_0: 5.2033E-08 | 10: delta_r/delta_0: 3.9798E-08 | 11: delta_s/delta_0: 1.6215E-09 | 12: delta_r/delta_0: 1.0440E-09 | 13: delta_s/delta_0: 5.2429E-09 | 14: delta_r/delta_0: 1.3599E-09 | 15: delta_s/delta_0: 8.7276E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.300135678739982E-002 4.019308839531900E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6126E-04 | 2: delta_r/delta_0: 1.5987E-05 | 3: delta_s/delta_0: 8.8045E-06 | 4: delta_r/delta_0: 8.9797E-07 | 5: delta_s/delta_0: 4.8224E-07 | 6: delta_r/delta_0: 1.8871E-07 | 7: delta_s/delta_0: 5.1415E-07 | 8: delta_r/delta_0: 3.3400E-08 | 9: delta_s/delta_0: 5.1931E-08 | 10: delta_r/delta_0: 3.9749E-08 | 11: delta_s/delta_0: 1.6164E-09 | 12: delta_r/delta_0: 1.0426E-09 | 13: delta_s/delta_0: 5.1910E-09 | 14: delta_r/delta_0: 1.3563E-09 | 15: delta_s/delta_0: 8.7306E-11 | Reached bicg-stab tolerance | BP delta = -0.2165098 -0.2345590 2827339.70774917 | BP delta = -0.2165098 -0.2330439 2827477.17410908 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95957896 | --> Sampling calibration, mode = relcal | relcal = 0.1066113 0.1394541 -0.1103019 -0.1357635 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0676610E-02 1.3004707E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1998E-04 | 2: delta_r/delta_0: 7.9795E-06 | 3: delta_s/delta_0: 1.2051E-05 | 4: delta_r/delta_0: 1.1252E-06 | 5: delta_s/delta_0: 2.2937E-07 | 6: delta_r/delta_0: 1.2181E-07 | 7: delta_s/delta_0: 3.6286E-07 | 8: delta_r/delta_0: 3.1491E-08 | 9: delta_s/delta_0: 3.9608E-08 | 10: delta_r/delta_0: 2.8345E-09 | 11: delta_s/delta_0: 1.6178E-09 | 12: delta_r/delta_0: 7.8972E-10 | 13: delta_s/delta_0: 1.7344E-09 | 14: delta_r/delta_0: 2.0821E-10 | 15: delta_s/delta_0: 5.0155E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.086394030563186E-002 3.695512615975814E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.1998E-04 | 2: delta_r/delta_0: 7.9795E-06 | 3: delta_s/delta_0: 1.2052E-05 | 4: delta_r/delta_0: 1.1252E-06 | 5: delta_s/delta_0: 2.2937E-07 | 6: delta_r/delta_0: 1.2181E-07 | 7: delta_s/delta_0: 3.6284E-07 | 8: delta_r/delta_0: 3.1491E-08 | 9: delta_s/delta_0: 3.9603E-08 | 10: delta_r/delta_0: 2.8340E-09 | 11: delta_s/delta_0: 1.6178E-09 | 12: delta_r/delta_0: 7.8973E-10 | 13: delta_s/delta_0: 1.7344E-09 | 14: delta_r/delta_0: 2.0825E-10 | 15: delta_s/delta_0: 5.0155E-11 | Reached bicg-stab tolerance | BP delta = 5.3152859E-02 0.1713637 3004185.19454784 | BP delta = 5.3152859E-02 0.1521955 3004186.97505749 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152884 | New value = -3.188219 | poltype: 2 pol: 1 CPU time specind = 1.5339851E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.232399 | New value = -3.143780 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153020 | New value = -3.129295 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187457 | New value = -3.266250 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148245 | New value = -3.129055 | poltype: 2 pol: 2 CPU time specind = 5.5420399E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.21 | CG iter. 1 -- res = 0.13550E+08, tol = 0.66169E+01, time = 4.91 | CG iter. 2 -- res = 0.33713E+06, tol = 0.66169E+01, time = 4.66 | CG iter. 3 -- res = 0.47629E+05, tol = 0.66169E+01, time = 4.64 | CG iter. 4 -- res = 0.22406E+05, tol = 0.66169E+01, time = 4.94 | CG iter. 5 -- res = 0.12925E+05, tol = 0.66169E+01, time = 4.90 | CG iter. 6 -- res = 0.87588E+04, tol = 0.66169E+01, time = 4.40 | CG iter. 7 -- res = 0.72288E+04, tol = 0.66169E+01, time = 4.84 | CG iter. 8 -- res = 0.62348E+04, tol = 0.66169E+01, time = 4.81 | CG iter. 9 -- res = 0.60110E+04, tol = 0.66169E+01, time = 4.72 | CG iter. 10 -- res = 0.60967E+04, tol = 0.66169E+01, time = 4.63 | CG iter. 11 -- res = 0.50613E+04, tol = 0.66169E+01, time = 4.69 | CG iter. 12 -- res = 0.34395E+04, tol = 0.66169E+01, time = 4.69 | CG iter. 13 -- res = 0.23257E+04, tol = 0.66169E+01, time = 4.57 | CG iter. 14 -- res = 0.18544E+04, tol = 0.66169E+01, time = 4.88 | CG iter. 15 -- res = 0.15862E+04, tol = 0.66169E+01, time = 4.75 | CG iter. 16 -- res = 0.13462E+04, tol = 0.66169E+01, time = 4.79 | CG iter. 17 -- res = 0.10155E+04, tol = 0.66169E+01, time = 5.03 | CG iter. 18 -- res = 0.79807E+03, tol = 0.66169E+01, time = 5.41 | CG iter. 19 -- res = 0.68000E+03, tol = 0.66169E+01, time = 4.78 | CG iter. 20 -- res = 0.55992E+03, tol = 0.66169E+01, time = 4.56 | CG iter. 21 -- res = 0.41592E+03, tol = 0.66169E+01, time = 4.80 | CG iter. 22 -- res = 0.31465E+03, tol = 0.66169E+01, time = 4.97 | CG iter. 23 -- res = 0.27925E+03, tol = 0.66169E+01, time = 4.58 | CG iter. 24 -- res = 0.24109E+03, tol = 0.66169E+01, time = 4.74 | CG iter. 25 -- res = 0.19229E+03, tol = 0.66169E+01, time = 4.79 | CG iter. 26 -- res = 0.14586E+03, tol = 0.66169E+01, time = 4.87 | CG iter. 27 -- res = 0.11805E+03, tol = 0.66169E+01, time = 4.70 | CG iter. 28 -- res = 0.10009E+03, tol = 0.66169E+01, time = 4.83 | CG iter. 29 -- res = 0.82147E+02, tol = 0.66169E+01, time = 4.85 | CG iter. 30 -- res = 0.65334E+02, tol = 0.66169E+01, time = 4.81 | CG iter. 31 -- res = 0.53025E+02, tol = 0.66169E+01, time = 4.47 | CG iter. 32 -- res = 0.47148E+02, tol = 0.66169E+01, time = 4.49 | CG iter. 33 -- res = 0.40128E+02, tol = 0.66169E+01, time = 4.99 | CG iter. 34 -- res = 0.30917E+02, tol = 0.66169E+01, time = 4.97 | CG iter. 35 -- res = 0.24759E+02, tol = 0.66169E+01, time = 4.60 | CG iter. 36 -- res = 0.21376E+02, tol = 0.66169E+01, time = 4.67 | CG iter. 37 -- res = 0.19623E+02, tol = 0.66169E+01, time = 4.63 | CG iter. 38 -- res = 0.16299E+02, tol = 0.66169E+01, time = 4.78 | CG iter. 39 -- res = 0.13176E+02, tol = 0.66169E+01, time = 11.23 | CG iter. 40 -- res = 0.11394E+02, tol = 0.66169E+01, time = 5.01 | CG iter. 41 -- res = 0.10122E+02, tol = 0.66169E+01, time = 4.67 | CG iter. 42 -- res = 0.86997E+01, tol = 0.66169E+01, time = 4.63 | CG iter. 43 -- res = 0.71939E+01, tol = 0.66169E+01, time = 4.88 | CG iter. 44 -- res = 0.60272E+01, tol = 0.66169E+01, time = 4.83 | CG iter. 45 -- res = 0.53086E+01, tol = 0.66169E+01, time = 4.54 | CG iter. 46 -- res = 0.44956E+01, tol = 0.66169E+01, time = 4.89 | CG iter. 47 -- res = 0.37190E+01, tol = 0.66169E+01, time = 4.41 | CG iter. 48 -- res = 0.29185E+01, tol = 0.66169E+01, time = 4.95 | CG iter. 49 -- res = 0.24839E+01, tol = 0.66169E+01, time = 4.75 | CG iter. 50 -- res = 0.21820E+01, tol = 0.66169E+01, time = 4.80 | Final CG iter 51 -- res = 0.21820E+01, tol = 0.66169E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7389749.536 | Old band monopole 10690027.278 | Change to band monopole -3300277.742 | Change to component monopole 3300263.546 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.96 | CG iter. 1 -- res = 0.18049E+05, tol = 0.47627E+18, time = 2.50 | CG iter. 2 -- res = 0.24726E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.90829E+00, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.24226E-02, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.30125E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7389717.752 | (Sampled value in CG: 7364716.700 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.520133 | New value = 1.521477 | poltype: 2 pol: 1 CPU time specind = 5.9950352E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.466355 | New value = 1.439154 | poltype: 2 pol: 2 CPU time specind = 4.0662289E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.39 | CG iter. 1 -- res = 0.24006E+08, tol = 0.47599E+04, time = 5.65 | CG iter. 2 -- res = 0.52690E+07, tol = 0.47599E+04, time = 5.46 | CG iter. 3 -- res = 0.85499E+06, tol = 0.47599E+04, time = 5.44 | CG iter. 4 -- res = 0.35721E+06, tol = 0.47599E+04, time = 5.30 | CG iter. 5 -- res = 0.15670E+06, tol = 0.47599E+04, time = 5.22 | CG iter. 6 -- res = 0.82368E+05, tol = 0.47599E+04, time = 5.59 | CG iter. 7 -- res = 0.44778E+05, tol = 0.47599E+04, time = 5.48 | CG iter. 8 -- res = 0.21437E+05, tol = 0.47599E+04, time = 5.22 | CG iter. 9 -- res = 0.92016E+04, tol = 0.47599E+04, time = 5.57 | CG iter. 10 -- res = 0.36935E+04, tol = 0.47599E+04, time = 5.63 | CG iter. 11 -- res = 0.17034E+04, tol = 0.47599E+04, time = 5.44 | CG iter. 12 -- res = 0.88484E+03, tol = 0.47599E+04, time = 5.58 | CG iter. 13 -- res = 0.50017E+03, tol = 0.47599E+04, time = 5.32 | CG iter. 14 -- res = 0.28076E+03, tol = 0.47599E+04, time = 5.83 | CG iter. 15 -- res = 0.14267E+03, tol = 0.47599E+04, time = 5.29 | CG iter. 16 -- res = 0.67231E+02, tol = 0.47599E+04, time = 5.55 | CG iter. 17 -- res = 0.31381E+02, tol = 0.47599E+04, time = 5.85 | CG iter. 18 -- res = 0.15991E+02, tol = 0.47599E+04, time = 5.50 | CG iter. 19 -- res = 0.89489E+01, tol = 0.47599E+04, time = 5.60 | CG iter. 20 -- res = 0.50384E+01, tol = 0.47599E+04, time = 5.36 | CG iter. 21 -- res = 0.27422E+01, tol = 0.47599E+04, time = 5.23 | CG iter. 22 -- res = 0.13955E+01, tol = 0.47599E+04, time = 5.30 | CG iter. 23 -- res = 0.70234E+00, tol = 0.47599E+04, time = 5.53 | CG iter. 24 -- res = 0.36093E+00, tol = 0.47599E+04, time = 5.45 | CG iter. 25 -- res = 0.19501E+00, tol = 0.47599E+04, time = 11.87 | CG iter. 26 -- res = 0.10910E+00, tol = 0.47599E+04, time = 5.29 | CG iter. 27 -- res = 0.61949E-01, tol = 0.47599E+04, time = 5.32 | CG iter. 28 -- res = 0.33420E-01, tol = 0.47599E+04, time = 5.62 | CG iter. 29 -- res = 0.17263E-01, tol = 0.47599E+04, time = 5.62 | CG iter. 30 -- res = 0.89760E-02, tol = 0.47599E+04, time = 5.42 | CG iter. 31 -- res = 0.48132E-02, tol = 0.47599E+04, time = 5.44 | CG iter. 32 -- res = 0.27141E-02, tol = 0.47599E+04, time = 5.51 | CG iter. 33 -- res = 0.15511E-02, tol = 0.47599E+04, time = 5.46 | CG iter. 34 -- res = 0.83438E-03, tol = 0.47599E+04, time = 5.68 | CG iter. 35 -- res = 0.43538E-03, tol = 0.47599E+04, time = 5.71 | Final CG iter 36 -- res = 0.43538E-03, tol = 0.47599E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.568 2.735 | New value -4.523 | Old value -0.568 | Difference -3.955 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.41 | CG iter. 1 -- res = 0.80941E+06, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.22422E+02, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.46048E+00, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.19871E-03, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.52472E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7389717.752 | (Sampled value in CG: 7367577.791 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.415248 | New value = -3.681098 | poltype: 1 pol: 1 CPU time specind = 6.4568520E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.26598E+07, tol = 0.34820E+01, time = 3.83 | CG iter. 2 -- res = 0.77614E+06, tol = 0.34820E+01, time = 7.06 | CG iter. 3 -- res = 0.16427E+06, tol = 0.34820E+01, time = 2.00 | CG iter. 4 -- res = 0.81976E+05, tol = 0.34820E+01, time = 2.41 | CG iter. 5 -- res = 0.49480E+05, tol = 0.34820E+01, time = 2.26 | CG iter. 6 -- res = 0.20923E+05, tol = 0.34820E+01, time = 2.14 | CG iter. 7 -- res = 0.70101E+04, tol = 0.34820E+01, time = 2.37 | CG iter. 8 -- res = 0.33523E+04, tol = 0.34820E+01, time = 2.28 | CG iter. 9 -- res = 0.14998E+04, tol = 0.34820E+01, time = 2.21 | CG iter. 10 -- res = 0.59671E+03, tol = 0.34820E+01, time = 2.15 | CG iter. 11 -- res = 0.25032E+03, tol = 0.34820E+01, time = 2.38 | CG iter. 12 -- res = 0.12307E+03, tol = 0.34820E+01, time = 2.24 | CG iter. 13 -- res = 0.62466E+02, tol = 0.34820E+01, time = 2.32 | CG iter. 14 -- res = 0.30692E+02, tol = 0.34820E+01, time = 2.19 | CG iter. 15 -- res = 0.13200E+02, tol = 0.34820E+01, time = 2.40 | CG iter. 16 -- res = 0.54437E+01, tol = 0.34820E+01, time = 2.10 | CG iter. 17 -- res = 0.23348E+01, tol = 0.34820E+01, time = 2.19 | CG iter. 18 -- res = 0.11373E+01, tol = 0.34820E+01, time = 2.11 | CG iter. 19 -- res = 0.56488E+00, tol = 0.34820E+01, time = 2.21 | CG iter. 20 -- res = 0.28636E+00, tol = 0.34820E+01, time = 2.45 | CG iter. 21 -- res = 0.13169E+00, tol = 0.34820E+01, time = 2.43 | CG iter. 22 -- res = 0.57767E-01, tol = 0.34820E+01, time = 2.30 | CG iter. 23 -- res = 0.25304E-01, tol = 0.34820E+01, time = 2.33 | CG iter. 24 -- res = 0.12141E-01, tol = 0.34820E+01, time = 2.10 | CG iter. 25 -- res = 0.62855E-02, tol = 0.34820E+01, time = 1.94 | CG iter. 26 -- res = 0.30714E-02, tol = 0.34820E+01, time = 2.27 | CG iter. 27 -- res = 0.14337E-02, tol = 0.34820E+01, time = 2.23 | CG iter. 28 -- res = 0.67967E-03, tol = 0.34820E+01, time = 2.33 | CG iter. 29 -- res = 0.31134E-03, tol = 0.34820E+01, time = 2.33 | CG iter. 30 -- res = 0.14558E-03, tol = 0.34820E+01, time = 2.47 | CG iter. 31 -- res = 0.73629E-04, tol = 0.34820E+01, time = 2.05 | CG iter. 32 -- res = 0.39900E-04, tol = 0.34820E+01, time = 2.13 | CG iter. 33 -- res = 0.19376E-04, tol = 0.34820E+01, time = 2.07 | CG iter. 34 -- res = 0.86444E-05, tol = 0.34820E+01, time = 2.36 | CG iter. 35 -- res = 0.41324E-05, tol = 0.34820E+01, time = 2.00 | CG iter. 36 -- res = 0.20304E-05, tol = 0.34820E+01, time = 2.09 | CG iter. 37 -- res = 0.98404E-06, tol = 0.34820E+01, time = 2.45 | CG iter. 38 -- res = 0.48766E-06, tol = 0.34820E+01, time = 2.30 | CG iter. 39 -- res = 0.23856E-06, tol = 0.34820E+01, time = 2.87 | CG iter. 40 -- res = 0.10838E-06, tol = 0.34820E+01, time = 3.24 | CG iter. 41 -- res = 0.50452E-07, tol = 0.34820E+01, time = 2.54 | CG iter. 42 -- res = 0.25081E-07, tol = 0.34820E+01, time = 2.29 | CG iter. 43 -- res = 0.11872E-07, tol = 0.34820E+01, time = 2.38 | CG iter. 44 -- res = 0.57672E-08, tol = 0.34820E+01, time = 2.32 | CG iter. 45 -- res = 0.28567E-08, tol = 0.34820E+01, time = 2.19 | CG iter. 46 -- res = 0.13297E-08, tol = 0.34820E+01, time = 2.26 | CG iter. 47 -- res = 0.64459E-09, tol = 0.34820E+01, time = 2.35 | CG iter. 48 -- res = 0.30204E-09, tol = 0.34820E+01, time = 2.23 | CG iter. 49 -- res = 0.14353E-09, tol = 0.34820E+01, time = 2.23 | CG iter. 50 -- res = 0.69695E-10, tol = 0.34820E+01, time = 2.19 | Final CG iter 51 -- res = 0.69695E-10, tol = 0.34820E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.127 6.089 | New value -5.507 | Old value 9.127 | Difference -14.634 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.99 | CG iter. 1 -- res = 0.20978E+06, tol = 0.47627E+18, time = 1.61 | CG iter. 2 -- res = 0.78916E+02, tol = 0.47627E+18, time = 1.58 | CG iter. 3 -- res = 0.29138E+01, tol = 0.47627E+18, time = 1.49 | CG iter. 4 -- res = 0.23448E-02, tol = 0.47627E+18, time = 1.62 | Final CG iter 5 -- res = 0.31023E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7389717.752 | (Sampled value in CG: 7372430.508 ) | CPU time specind = 999.2702 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.37 | CG iter. 1 -- res = 0.68815E+08, tol = 0.57837E+04, time = 9.70 | CG iter. 2 -- res = 0.58321E+08, tol = 0.57837E+04, time = 9.65 | CG iter. 3 -- res = 0.15463E+08, tol = 0.57837E+04, time = 9.79 | CG iter. 4 -- res = 0.66326E+07, tol = 0.57837E+04, time = 9.73 | CG iter. 5 -- res = 0.39231E+07, tol = 0.57837E+04, time = 10.06 | CG iter. 6 -- res = 0.22428E+07, tol = 0.57837E+04, time = 9.69 | CG iter. 7 -- res = 0.13204E+07, tol = 0.57837E+04, time = 9.83 | CG iter. 8 -- res = 0.85311E+06, tol = 0.57837E+04, time = 9.80 | CG iter. 9 -- res = 0.54852E+06, tol = 0.57837E+04, time = 10.16 | CG iter. 10 -- res = 0.33506E+06, tol = 0.57837E+04, time = 10.18 | CG iter. 11 -- res = 0.18174E+06, tol = 0.57837E+04, time = 16.06 | CG iter. 12 -- res = 0.95558E+05, tol = 0.57837E+04, time = 10.11 | CG iter. 13 -- res = 0.51475E+05, tol = 0.57837E+04, time = 10.08 | CG iter. 14 -- res = 0.30606E+05, tol = 0.57837E+04, time = 9.85 | CG iter. 15 -- res = 0.19599E+05, tol = 0.57837E+04, time = 10.01 | CG iter. 16 -- res = 0.13619E+05, tol = 0.57837E+04, time = 9.81 | CG iter. 17 -- res = 0.97767E+04, tol = 0.57837E+04, time = 9.94 | CG iter. 18 -- res = 0.69079E+04, tol = 0.57837E+04, time = 9.59 | CG iter. 19 -- res = 0.47554E+04, tol = 0.57837E+04, time = 10.00 | CG iter. 20 -- res = 0.33124E+04, tol = 0.57837E+04, time = 11.50 | CG iter. 21 -- res = 0.24819E+04, tol = 0.57837E+04, time = 10.07 | CG iter. 22 -- res = 0.21587E+04, tol = 0.57837E+04, time = 10.08 | CG iter. 23 -- res = 0.21122E+04, tol = 0.57837E+04, time = 9.73 | CG iter. 24 -- res = 0.22307E+04, tol = 0.57837E+04, time = 9.66 | CG iter. 25 -- res = 0.23813E+04, tol = 0.57837E+04, time = 9.74 | CG iter. 26 -- res = 0.23476E+04, tol = 0.57837E+04, time = 9.61 | CG iter. 27 -- res = 0.21486E+04, tol = 0.57837E+04, time = 9.89 | CG iter. 28 -- res = 0.18526E+04, tol = 0.57837E+04, time = 10.05 | CG iter. 29 -- res = 0.15597E+04, tol = 0.57837E+04, time = 10.09 | CG iter. 30 -- res = 0.13640E+04, tol = 0.57837E+04, time = 10.22 | CG iter. 31 -- res = 0.11812E+04, tol = 0.57837E+04, time = 9.75 | CG iter. 32 -- res = 0.96829E+03, tol = 0.57837E+04, time = 10.09 | CG iter. 33 -- res = 0.77444E+03, tol = 0.57837E+04, time = 9.91 | CG iter. 34 -- res = 0.60337E+03, tol = 0.57837E+04, time = 9.67 | CG iter. 35 -- res = 0.45952E+03, tol = 0.57837E+04, time = 10.09 | CG iter. 36 -- res = 0.36062E+03, tol = 0.57837E+04, time = 9.78 | CG iter. 37 -- res = 0.31436E+03, tol = 0.57837E+04, time = 9.90 | CG iter. 38 -- res = 0.29266E+03, tol = 0.57837E+04, time = 10.05 | CG iter. 39 -- res = 0.27299E+03, tol = 0.57837E+04, time = 10.20 | CG iter. 40 -- res = 0.24780E+03, tol = 0.57837E+04, time = 16.53 | CG iter. 41 -- res = 0.21324E+03, tol = 0.57837E+04, time = 9.82 | CG iter. 42 -- res = 0.18368E+03, tol = 0.57837E+04, time = 10.14 | CG iter. 43 -- res = 0.16380E+03, tol = 0.57837E+04, time = 9.83 | CG iter. 44 -- res = 0.15145E+03, tol = 0.57837E+04, time = 11.81 | CG iter. 45 -- res = 0.13975E+03, tol = 0.57837E+04, time = 9.88 | CG iter. 46 -- res = 0.12709E+03, tol = 0.57837E+04, time = 9.89 | CG iter. 47 -- res = 0.11274E+03, tol = 0.57837E+04, time = 10.23 | CG iter. 48 -- res = 0.93336E+02, tol = 0.57837E+04, time = 9.59 | CG iter. 49 -- res = 0.77280E+02, tol = 0.57837E+04, time = 11.30 | CG iter. 50 -- res = 0.65447E+02, tol = 0.57837E+04, time = 10.29 | CG iter. 51 -- res = 0.58684E+02, tol = 0.57837E+04, time = 9.92 | CG iter. 52 -- res = 0.55958E+02, tol = 0.57837E+04, time = 10.34 | CG iter. 53 -- res = 0.53846E+02, tol = 0.57837E+04, time = 9.96 | CG iter. 54 -- res = 0.51165E+02, tol = 0.57837E+04, time = 10.25 | CG iter. 55 -- res = 0.47206E+02, tol = 0.57837E+04, time = 9.73 | CG iter. 56 -- res = 0.42152E+02, tol = 0.57837E+04, time = 9.99 | CG iter. 57 -- res = 0.36940E+02, tol = 0.57837E+04, time = 10.06 | CG iter. 58 -- res = 0.34329E+02, tol = 0.57837E+04, time = 10.02 | CG iter. 59 -- res = 0.33538E+02, tol = 0.57837E+04, time = 9.87 | CG iter. 60 -- res = 0.33026E+02, tol = 0.57837E+04, time = 10.14 | Final CG iter 61 -- res = 0.33026E+02, tol = 0.57837E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.804 ( -230.254 -2228.816 2510.939 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8717774.694 | Old band monopole 7389749.536 | Change to band monopole 1328025.157 | Change to component monopole -1328019.445 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.560 2.717 | New value 2.059 | Old value -4.560 | Difference 6.620 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.486 ( 7.933 10.027 -8.805 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.138 4.888 | New value -2.553 | Old value 3.138 | Difference -5.691 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.20 | CG iter. 1 -- res = 0.22848E+07, tol = 0.47627E+18, time = 1.51 | CG iter. 2 -- res = 0.33764E+02, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.10982E+01, tol = 0.47627E+18, time = 1.54 | CG iter. 4 -- res = 0.27753E-02, tol = 0.47627E+18, time = 1.64 | Final CG iter 5 -- res = 0.15184E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8717737.197 | (Sampled value in CG: 8692437.373 ) | Chain = 1 -- chisq = 0.81548942E+09 | Chain = 1 -- wall time = 5726.151 sec Available RAM: MemAvailable: 376180424 kB Available Swap: SwapFree: 1119699496 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 179 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441605 | --> Sampling calibration, mode = relcal | relcal = 1.3417256E-02 7.4155157E-04 -1.5865489E-03 -1.2572259E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1054834 0.1244172 97041569.6238486 | BP delta = 9.5361993E-02 0.1142958 97041569.7988233 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632647 | --> Sampling calibration, mode = relcal | relcal = -2.8218250E-03 -7.0297520E-04 1.6790747E-03 1.6130168E-03 -4.0799315E-04 6.4070197E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5815119 15219271.5221558 | BP delta = 0.0000000E+00 -0.5765765 15219279.2531816 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18455955265850 | --> Sampling calibration, mode = relcal | relcal = -7.6131955E-02 -5.9262745E-02 9.3068480E-02 4.2326219E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.9703498E-04 6.3001947E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0217E-05 | 2: delta_r/delta_0: 1.5270E-06 | 3: delta_s/delta_0: 2.0052E-07 | 4: delta_r/delta_0: 2.6626E-08 | 5: delta_s/delta_0: 7.5136E-09 | 6: delta_r/delta_0: 2.6262E-09 | 7: delta_s/delta_0: 6.5470E-10 | 8: delta_r/delta_0: 1.8269E-10 | 9: delta_s/delta_0: 1.4433E-10 | 10: delta_r/delta_0: 6.5630E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.358469042001616E-003 2.732698920701960E-005 | BP delta = 3.5967544E-02 5.2114610E-02 50481648.3382623 | BP delta = 3.4125134E-02 5.0272200E-02 50481651.7379097 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02582047 | --> Sampling calibration, mode = relcal | relcal = -0.1066375 -9.5556602E-02 0.1449007 5.7293367E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1459932E-03 1.7262561E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3811E-05 | 2: delta_r/delta_0: 1.3994E-06 | 3: delta_s/delta_0: 2.6043E-07 | 4: delta_r/delta_0: 3.4751E-08 | 5: delta_s/delta_0: 2.6312E-08 | 6: delta_r/delta_0: 6.4419E-09 | 7: delta_s/delta_0: 5.0653E-09 | 8: delta_r/delta_0: 1.7123E-09 | 9: delta_s/delta_0: 7.9046E-10 | 10: delta_r/delta_0: 5.9627E-10 | 11: delta_s/delta_0: 2.4854E-09 | 12: delta_r/delta_0: 6.1428E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.915789999150713E-003 2.811319649456101E-005 | BP delta = -0.3127115 -0.2867184 57387882.7252673 | BP delta = -0.3267901 -0.3007971 57387883.2316219 | BP chisq diff = 0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81244231 | --> Sampling calibration, mode = relcal | relcal = 0.2955497 0.2248941 -0.2839190 -0.2365248 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5220596E-03 4.7483668E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4015E-03 | 2: delta_r/delta_0: 3.3500E-05 | 3: delta_s/delta_0: 3.4944E-03 | 4: delta_r/delta_0: 1.2345E-04 | 5: delta_s/delta_0: 4.3902E-07 | 6: delta_r/delta_0: 1.6238E-07 | 7: delta_s/delta_0: 4.6077E-07 | 8: delta_r/delta_0: 4.2083E-08 | 9: delta_s/delta_0: 1.8561E-08 | 10: delta_r/delta_0: 3.1237E-09 | 11: delta_s/delta_0: 2.7302E-09 | 12: delta_r/delta_0: 1.5826E-09 | 13: delta_s/delta_0: 1.4444E-09 | 14: delta_r/delta_0: 2.1998E-10 | 15: delta_s/delta_0: 8.7862E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.519204410444340E-002 4.020662933056089E-005 | BP delta = -0.2165098 -0.2345590 72484050.8095959 | BP delta = -0.1800262 -0.1980754 72484051.0359202 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95929170 | --> Sampling calibration, mode = relcal | relcal = 0.1064559 0.1395681 -0.1102108 -0.1358133 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0534991E-02 1.2269035E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7927E-04 | 2: delta_r/delta_0: 9.3759E-06 | 3: delta_s/delta_0: 8.5374E-05 | 4: delta_r/delta_0: 3.5302E-06 | 5: delta_s/delta_0: 2.4752E-07 | 6: delta_r/delta_0: 1.1325E-07 | 7: delta_s/delta_0: 4.2125E-07 | 8: delta_r/delta_0: 3.2115E-08 | 9: delta_s/delta_0: 8.3895E-09 | 10: delta_r/delta_0: 3.8414E-09 | 11: delta_s/delta_0: 1.3569E-09 | 12: delta_r/delta_0: 1.0312E-09 | 13: delta_s/delta_0: 1.5965E-10 | 14: delta_r/delta_0: 9.0305E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.134707713549787E-002 3.696624519148972E-005 | BP delta = 5.3152859E-02 0.1713637 72776677.7880469 | BP delta = 7.3478274E-02 0.1916892 72776676.8396476 | BP chisq diff = -0.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188219 | New value = -3.097483 | poltype: 2 pol: 1 CPU time specind = 8.5899830E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143780 | New value = -3.136620 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129295 | New value = -3.194279 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.266250 | New value = -3.151623 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129055 | New value = -3.187806 | poltype: 2 pol: 2 CPU time specind = 2.4560928E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.10 | CG iter. 1 -- res = 0.13750E+08, tol = 0.80518E+01, time = 4.52 | CG iter. 2 -- res = 0.40719E+06, tol = 0.80518E+01, time = 4.67 | CG iter. 3 -- res = 0.15172E+06, tol = 0.80518E+01, time = 4.74 | CG iter. 4 -- res = 0.22887E+06, tol = 0.80518E+01, time = 4.78 | CG iter. 5 -- res = 0.24343E+06, tol = 0.80518E+01, time = 4.79 | CG iter. 6 -- res = 0.22103E+06, tol = 0.80518E+01, time = 4.94 | CG iter. 7 -- res = 0.15891E+06, tol = 0.80518E+01, time = 4.83 | CG iter. 8 -- res = 0.10937E+06, tol = 0.80518E+01, time = 4.57 | CG iter. 9 -- res = 0.89880E+05, tol = 0.80518E+01, time = 5.51 | CG iter. 10 -- res = 0.72587E+05, tol = 0.80518E+01, time = 5.85 | CG iter. 11 -- res = 0.52510E+05, tol = 0.80518E+01, time = 5.04 | CG iter. 12 -- res = 0.37951E+05, tol = 0.80518E+01, time = 4.97 | CG iter. 13 -- res = 0.30860E+05, tol = 0.80518E+01, time = 4.76 | CG iter. 14 -- res = 0.25504E+05, tol = 0.80518E+01, time = 4.70 | CG iter. 15 -- res = 0.19633E+05, tol = 0.80518E+01, time = 4.74 | CG iter. 16 -- res = 0.13256E+05, tol = 0.80518E+01, time = 4.87 | CG iter. 17 -- res = 0.97784E+04, tol = 0.80518E+01, time = 4.94 | CG iter. 18 -- res = 0.83486E+04, tol = 0.80518E+01, time = 4.50 | CG iter. 19 -- res = 0.71093E+04, tol = 0.80518E+01, time = 4.71 | CG iter. 20 -- res = 0.53960E+04, tol = 0.80518E+01, time = 4.79 | CG iter. 21 -- res = 0.38825E+04, tol = 0.80518E+01, time = 4.82 | CG iter. 22 -- res = 0.32855E+04, tol = 0.80518E+01, time = 4.49 | CG iter. 23 -- res = 0.28431E+04, tol = 0.80518E+01, time = 4.89 | CG iter. 24 -- res = 0.22882E+04, tol = 0.80518E+01, time = 4.77 | CG iter. 25 -- res = 0.16813E+04, tol = 0.80518E+01, time = 4.87 | CG iter. 26 -- res = 0.13900E+04, tol = 0.80518E+01, time = 4.91 | CG iter. 27 -- res = 0.12393E+04, tol = 0.80518E+01, time = 4.80 | CG iter. 28 -- res = 0.10169E+04, tol = 0.80518E+01, time = 4.97 | CG iter. 29 -- res = 0.76432E+03, tol = 0.80518E+01, time = 4.79 | CG iter. 30 -- res = 0.57958E+03, tol = 0.80518E+01, time = 4.56 | CG iter. 31 -- res = 0.49810E+03, tol = 0.80518E+01, time = 4.92 | CG iter. 32 -- res = 0.40469E+03, tol = 0.80518E+01, time = 5.76 | CG iter. 33 -- res = 0.30542E+03, tol = 0.80518E+01, time = 4.69 | CG iter. 34 -- res = 0.22566E+03, tol = 0.80518E+01, time = 4.89 | CG iter. 35 -- res = 0.18101E+03, tol = 0.80518E+01, time = 4.76 | CG iter. 36 -- res = 0.15003E+03, tol = 0.80518E+01, time = 5.05 | CG iter. 37 -- res = 0.11576E+03, tol = 0.80518E+01, time = 4.75 | CG iter. 38 -- res = 0.81192E+02, tol = 0.80518E+01, time = 4.91 | CG iter. 39 -- res = 0.61338E+02, tol = 0.80518E+01, time = 4.78 | CG iter. 40 -- res = 0.50364E+02, tol = 0.80518E+01, time = 5.06 | CG iter. 41 -- res = 0.39051E+02, tol = 0.80518E+01, time = 4.63 | CG iter. 42 -- res = 0.28724E+02, tol = 0.80518E+01, time = 4.75 | CG iter. 43 -- res = 0.21784E+02, tol = 0.80518E+01, time = 4.74 | CG iter. 44 -- res = 0.17107E+02, tol = 0.80518E+01, time = 4.86 | CG iter. 45 -- res = 0.13471E+02, tol = 0.80518E+01, time = 4.51 | CG iter. 46 -- res = 0.98271E+01, tol = 0.80518E+01, time = 4.58 | CG iter. 47 -- res = 0.72313E+01, tol = 0.80518E+01, time = 5.06 | CG iter. 48 -- res = 0.55828E+01, tol = 0.80518E+01, time = 4.84 | CG iter. 49 -- res = 0.43186E+01, tol = 0.80518E+01, time = 4.58 | CG iter. 50 -- res = 0.31774E+01, tol = 0.80518E+01, time = 4.63 | Final CG iter 51 -- res = 0.31774E+01, tol = 0.80518E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9646464.337 | Old band monopole 8717774.694 | Change to band monopole 928689.644 | Change to component monopole -928685.649 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.03 | CG iter. 1 -- res = 0.30996E+06, tol = 0.47627E+18, time = 1.55 | CG iter. 2 -- res = 0.18975E+03, tol = 0.47627E+18, time = 1.61 | CG iter. 3 -- res = 0.35989E+01, tol = 0.47627E+18, time = 1.61 | CG iter. 4 -- res = 0.30493E-01, tol = 0.47627E+18, time = 1.71 | Final CG iter 5 -- res = 0.27930E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9646422.846 | (Sampled value in CG: 9756715.435 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.521477 | New value = 1.545369 | poltype: 2 pol: 1 CPU time specind = 6.3090324E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.439154 | New value = 1.522176 | poltype: 2 pol: 2 CPU time specind = 5.4159164E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.23 | CG iter. 1 -- res = 0.24166E+08, tol = 0.47677E+04, time = 5.96 | CG iter. 2 -- res = 0.52915E+07, tol = 0.47677E+04, time = 5.83 | CG iter. 3 -- res = 0.82739E+06, tol = 0.47677E+04, time = 5.60 | CG iter. 4 -- res = 0.34689E+06, tol = 0.47677E+04, time = 5.54 | CG iter. 5 -- res = 0.15409E+06, tol = 0.47677E+04, time = 5.37 | CG iter. 6 -- res = 0.82429E+05, tol = 0.47677E+04, time = 5.50 | CG iter. 7 -- res = 0.44649E+05, tol = 0.47677E+04, time = 5.61 | CG iter. 8 -- res = 0.21139E+05, tol = 0.47677E+04, time = 5.26 | CG iter. 9 -- res = 0.92025E+04, tol = 0.47677E+04, time = 5.76 | CG iter. 10 -- res = 0.37329E+04, tol = 0.47677E+04, time = 5.27 | CG iter. 11 -- res = 0.17105E+04, tol = 0.47677E+04, time = 5.52 | CG iter. 12 -- res = 0.87586E+03, tol = 0.47677E+04, time = 5.65 | CG iter. 13 -- res = 0.48412E+03, tol = 0.47677E+04, time = 5.31 | CG iter. 14 -- res = 0.26933E+03, tol = 0.47677E+04, time = 5.49 | CG iter. 15 -- res = 0.14134E+03, tol = 0.47677E+04, time = 5.71 | CG iter. 16 -- res = 0.67421E+02, tol = 0.47677E+04, time = 5.58 | CG iter. 17 -- res = 0.30990E+02, tol = 0.47677E+04, time = 5.37 | CG iter. 18 -- res = 0.15359E+02, tol = 0.47677E+04, time = 5.35 | CG iter. 19 -- res = 0.82357E+01, tol = 0.47677E+04, time = 5.63 | CG iter. 20 -- res = 0.45714E+01, tol = 0.47677E+04, time = 5.33 | CG iter. 21 -- res = 0.25133E+01, tol = 0.47677E+04, time = 5.56 | CG iter. 22 -- res = 0.13028E+01, tol = 0.47677E+04, time = 5.70 | CG iter. 23 -- res = 0.65407E+00, tol = 0.47677E+04, time = 5.48 | CG iter. 24 -- res = 0.33636E+00, tol = 0.47677E+04, time = 5.62 | CG iter. 25 -- res = 0.18362E+00, tol = 0.47677E+04, time = 5.68 | CG iter. 26 -- res = 0.10554E+00, tol = 0.47677E+04, time = 5.26 | CG iter. 27 -- res = 0.58588E-01, tol = 0.47677E+04, time = 5.45 | CG iter. 28 -- res = 0.30549E-01, tol = 0.47677E+04, time = 5.58 | CG iter. 29 -- res = 0.15764E-01, tol = 0.47677E+04, time = 5.30 | CG iter. 30 -- res = 0.82692E-02, tol = 0.47677E+04, time = 5.53 | CG iter. 31 -- res = 0.45396E-02, tol = 0.47677E+04, time = 5.63 | CG iter. 32 -- res = 0.26087E-02, tol = 0.47677E+04, time = 5.68 | CG iter. 33 -- res = 0.14895E-02, tol = 0.47677E+04, time = 5.27 | CG iter. 34 -- res = 0.81034E-03, tol = 0.47677E+04, time = 5.52 | CG iter. 35 -- res = 0.42012E-03, tol = 0.47677E+04, time = 5.91 | Final CG iter 36 -- res = 0.42012E-03, tol = 0.47677E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.108 2.741 | New value -3.944 | Old value 2.108 | Difference -6.052 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.19056E+07, tol = 0.47627E+18, time = 1.49 | CG iter. 2 -- res = 0.15628E+03, tol = 0.47627E+18, time = 1.60 | CG iter. 3 -- res = 0.22236E+01, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.14074E-02, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.16579E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9646422.846 | (Sampled value in CG: 9755638.229 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.681098 | New value = -3.464514 | poltype: 1 pol: 1 CPU time specind = 9.7398758E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.26 | CG iter. 1 -- res = 0.43431E+07, tol = 0.24344E+01, time = 2.28 | CG iter. 2 -- res = 0.17769E+07, tol = 0.24344E+01, time = 2.30 | CG iter. 3 -- res = 0.41301E+06, tol = 0.24344E+01, time = 2.14 | CG iter. 4 -- res = 0.21320E+06, tol = 0.24344E+01, time = 2.14 | CG iter. 5 -- res = 0.12413E+06, tol = 0.24344E+01, time = 2.10 | CG iter. 6 -- res = 0.50036E+05, tol = 0.24344E+01, time = 2.02 | CG iter. 7 -- res = 0.16087E+05, tol = 0.24344E+01, time = 2.40 | CG iter. 8 -- res = 0.76266E+04, tol = 0.24344E+01, time = 2.16 | CG iter. 9 -- res = 0.37253E+04, tol = 0.24344E+01, time = 2.34 | CG iter. 10 -- res = 0.14456E+04, tol = 0.24344E+01, time = 2.37 | CG iter. 11 -- res = 0.56455E+03, tol = 0.24344E+01, time = 2.05 | CG iter. 12 -- res = 0.25756E+03, tol = 0.24344E+01, time = 2.04 | CG iter. 13 -- res = 0.12381E+03, tol = 0.24344E+01, time = 2.25 | CG iter. 14 -- res = 0.64812E+02, tol = 0.24344E+01, time = 2.27 | CG iter. 15 -- res = 0.32274E+02, tol = 0.24344E+01, time = 2.38 | CG iter. 16 -- res = 0.14973E+02, tol = 0.24344E+01, time = 2.05 | CG iter. 17 -- res = 0.62932E+01, tol = 0.24344E+01, time = 2.31 | CG iter. 18 -- res = 0.29496E+01, tol = 0.24344E+01, time = 2.49 | CG iter. 19 -- res = 0.13844E+01, tol = 0.24344E+01, time = 2.31 | CG iter. 20 -- res = 0.68007E+00, tol = 0.24344E+01, time = 2.34 | CG iter. 21 -- res = 0.33168E+00, tol = 0.24344E+01, time = 2.05 | CG iter. 22 -- res = 0.15929E+00, tol = 0.24344E+01, time = 2.29 | CG iter. 23 -- res = 0.75284E-01, tol = 0.24344E+01, time = 2.20 | CG iter. 24 -- res = 0.33433E-01, tol = 0.24344E+01, time = 2.16 | CG iter. 25 -- res = 0.15132E-01, tol = 0.24344E+01, time = 2.27 | CG iter. 26 -- res = 0.71260E-02, tol = 0.24344E+01, time = 2.27 | CG iter. 27 -- res = 0.36041E-02, tol = 0.24344E+01, time = 2.31 | CG iter. 28 -- res = 0.18948E-02, tol = 0.24344E+01, time = 2.10 | CG iter. 29 -- res = 0.90438E-03, tol = 0.24344E+01, time = 2.32 | CG iter. 30 -- res = 0.45211E-03, tol = 0.24344E+01, time = 2.22 | CG iter. 31 -- res = 0.21247E-03, tol = 0.24344E+01, time = 2.15 | CG iter. 32 -- res = 0.99169E-04, tol = 0.24344E+01, time = 2.74 | CG iter. 33 -- res = 0.46839E-04, tol = 0.24344E+01, time = 8.39 | CG iter. 34 -- res = 0.23074E-04, tol = 0.24344E+01, time = 2.18 | CG iter. 35 -- res = 0.12158E-04, tol = 0.24344E+01, time = 2.25 | CG iter. 36 -- res = 0.61957E-05, tol = 0.24344E+01, time = 2.31 | CG iter. 37 -- res = 0.28624E-05, tol = 0.24344E+01, time = 2.23 | CG iter. 38 -- res = 0.13281E-05, tol = 0.24344E+01, time = 2.21 | CG iter. 39 -- res = 0.64683E-06, tol = 0.24344E+01, time = 2.23 | CG iter. 40 -- res = 0.31074E-06, tol = 0.24344E+01, time = 2.24 | CG iter. 41 -- res = 0.15774E-06, tol = 0.24344E+01, time = 2.32 | CG iter. 42 -- res = 0.79685E-07, tol = 0.24344E+01, time = 2.31 | CG iter. 43 -- res = 0.36950E-07, tol = 0.24344E+01, time = 2.19 | CG iter. 44 -- res = 0.17204E-07, tol = 0.24344E+01, time = 2.27 | CG iter. 45 -- res = 0.78751E-08, tol = 0.24344E+01, time = 2.37 | CG iter. 46 -- res = 0.37379E-08, tol = 0.24344E+01, time = 2.20 | CG iter. 47 -- res = 0.18887E-08, tol = 0.24344E+01, time = 2.30 | CG iter. 48 -- res = 0.99288E-09, tol = 0.24344E+01, time = 2.35 | CG iter. 49 -- res = 0.49386E-09, tol = 0.24344E+01, time = 2.14 | CG iter. 50 -- res = 0.22523E-09, tol = 0.24344E+01, time = 2.18 | Final CG iter 51 -- res = 0.22523E-09, tol = 0.24344E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.522 3.793 | New value 5.517 | Old value 3.522 | Difference 1.995 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.02 | CG iter. 1 -- res = 0.12971E+05, tol = 0.47627E+18, time = 1.48 | CG iter. 2 -- res = 0.31071E+02, tol = 0.47627E+18, time = 1.60 | CG iter. 3 -- res = 0.12484E+01, tol = 0.47627E+18, time = 1.73 | CG iter. 4 -- res = 0.64358E-03, tol = 0.47627E+18, time = 1.59 | Final CG iter 5 -- res = 0.41429E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9646422.846 | (Sampled value in CG: 9732677.266 ) | CPU time specind = 998.2970 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.68786E+08, tol = 0.57593E+04, time = 9.72 | CG iter. 2 -- res = 0.59144E+08, tol = 0.57593E+04, time = 10.07 | CG iter. 3 -- res = 0.15682E+08, tol = 0.57593E+04, time = 9.72 | CG iter. 4 -- res = 0.67039E+07, tol = 0.57593E+04, time = 10.02 | CG iter. 5 -- res = 0.40240E+07, tol = 0.57593E+04, time = 9.87 | CG iter. 6 -- res = 0.23348E+07, tol = 0.57593E+04, time = 10.00 | CG iter. 7 -- res = 0.13924E+07, tol = 0.57593E+04, time = 9.91 | CG iter. 8 -- res = 0.96080E+06, tol = 0.57593E+04, time = 10.04 | CG iter. 9 -- res = 0.64914E+06, tol = 0.57593E+04, time = 9.92 | CG iter. 10 -- res = 0.41692E+06, tol = 0.57593E+04, time = 9.88 | CG iter. 11 -- res = 0.24825E+06, tol = 0.57593E+04, time = 9.62 | CG iter. 12 -- res = 0.14990E+06, tol = 0.57593E+04, time = 10.11 | CG iter. 13 -- res = 0.99396E+05, tol = 0.57593E+04, time = 9.99 | CG iter. 14 -- res = 0.78646E+05, tol = 0.57593E+04, time = 10.16 | CG iter. 15 -- res = 0.75097E+05, tol = 0.57593E+04, time = 9.94 | CG iter. 16 -- res = 0.76961E+05, tol = 0.57593E+04, time = 10.21 | CG iter. 17 -- res = 0.78260E+05, tol = 0.57593E+04, time = 9.72 | CG iter. 18 -- res = 0.74430E+05, tol = 0.57593E+04, time = 16.49 | CG iter. 19 -- res = 0.67879E+05, tol = 0.57593E+04, time = 10.14 | CG iter. 20 -- res = 0.60772E+05, tol = 0.57593E+04, time = 9.72 | CG iter. 21 -- res = 0.55470E+05, tol = 0.57593E+04, time = 9.92 | CG iter. 22 -- res = 0.52047E+05, tol = 0.57593E+04, time = 9.92 | CG iter. 23 -- res = 0.47604E+05, tol = 0.57593E+04, time = 9.89 | CG iter. 24 -- res = 0.40773E+05, tol = 0.57593E+04, time = 10.32 | CG iter. 25 -- res = 0.32282E+05, tol = 0.57593E+04, time = 10.22 | CG iter. 26 -- res = 0.23835E+05, tol = 0.57593E+04, time = 10.07 | CG iter. 27 -- res = 0.17900E+05, tol = 0.57593E+04, time = 11.67 | CG iter. 28 -- res = 0.14054E+05, tol = 0.57593E+04, time = 10.35 | CG iter. 29 -- res = 0.12120E+05, tol = 0.57593E+04, time = 9.72 | CG iter. 30 -- res = 0.11672E+05, tol = 0.57593E+04, time = 9.91 | CG iter. 31 -- res = 0.11352E+05, tol = 0.57593E+04, time = 10.11 | CG iter. 32 -- res = 0.10563E+05, tol = 0.57593E+04, time = 9.84 | CG iter. 33 -- res = 0.90382E+04, tol = 0.57593E+04, time = 9.98 | CG iter. 34 -- res = 0.74909E+04, tol = 0.57593E+04, time = 10.00 | CG iter. 35 -- res = 0.62545E+04, tol = 0.57593E+04, time = 10.30 | CG iter. 36 -- res = 0.56200E+04, tol = 0.57593E+04, time = 10.01 | CG iter. 37 -- res = 0.52700E+04, tol = 0.57593E+04, time = 10.57 | CG iter. 38 -- res = 0.47138E+04, tol = 0.57593E+04, time = 10.27 | CG iter. 39 -- res = 0.39539E+04, tol = 0.57593E+04, time = 9.87 | CG iter. 40 -- res = 0.31789E+04, tol = 0.57593E+04, time = 10.04 | CG iter. 41 -- res = 0.25376E+04, tol = 0.57593E+04, time = 10.01 | CG iter. 42 -- res = 0.21083E+04, tol = 0.57593E+04, time = 10.07 | CG iter. 43 -- res = 0.18904E+04, tol = 0.57593E+04, time = 9.93 | CG iter. 44 -- res = 0.17909E+04, tol = 0.57593E+04, time = 9.97 | CG iter. 45 -- res = 0.16800E+04, tol = 0.57593E+04, time = 9.79 | CG iter. 46 -- res = 0.15584E+04, tol = 0.57593E+04, time = 9.69 | CG iter. 47 -- res = 0.13910E+04, tol = 0.57593E+04, time = 16.69 | CG iter. 48 -- res = 0.11881E+04, tol = 0.57593E+04, time = 9.99 | CG iter. 49 -- res = 0.10194E+04, tol = 0.57593E+04, time = 10.21 | CG iter. 50 -- res = 0.91319E+03, tol = 0.57593E+04, time = 10.22 | CG iter. 51 -- res = 0.84743E+03, tol = 0.57593E+04, time = 9.88 | CG iter. 52 -- res = 0.77525E+03, tol = 0.57593E+04, time = 10.20 | CG iter. 53 -- res = 0.68782E+03, tol = 0.57593E+04, time = 9.70 | CG iter. 54 -- res = 0.60857E+03, tol = 0.57593E+04, time = 9.96 | CG iter. 55 -- res = 0.52360E+03, tol = 0.57593E+04, time = 9.80 | CG iter. 56 -- res = 0.44515E+03, tol = 0.57593E+04, time = 11.23 | CG iter. 57 -- res = 0.39584E+03, tol = 0.57593E+04, time = 10.33 | CG iter. 58 -- res = 0.36614E+03, tol = 0.57593E+04, time = 10.12 | CG iter. 59 -- res = 0.33710E+03, tol = 0.57593E+04, time = 10.14 | CG iter. 60 -- res = 0.31381E+03, tol = 0.57593E+04, time = 9.71 | Final CG iter 61 -- res = 0.31381E+03, tol = 0.57593E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.946 ( -229.762 -2227.468 2509.804 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10471602.932 | Old band monopole 9646464.337 | Change to band monopole 825138.595 | Change to component monopole -825135.046 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.000 2.728 | New value -0.770 | Old value -4.000 | Difference 3.229 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.123 ( 5.562 6.310 -6.137 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.272 5.746 | New value -0.122 | Old value 2.272 | Difference -2.395 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.15 | CG iter. 1 -- res = 0.55076E+06, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.22335E+02, tol = 0.47627E+18, time = 1.64 | CG iter. 3 -- res = 0.59246E+00, tol = 0.47627E+18, time = 1.62 | CG iter. 4 -- res = 0.10563E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.12789E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10471557.891 | (Sampled value in CG: 10453526.712 ) | Chain = 1 -- chisq = 0.81525041E+09 | Chain = 1 -- wall time = 5330.542 sec Available RAM: MemAvailable: 375676424 kB Available Swap: SwapFree: 1120065832 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 180 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445114 | --> Sampling calibration, mode = relcal | relcal = 1.3440534E-02 7.3696987E-04 -1.5974619E-03 -1.2580043E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1054834 0.1244172 9405074.71440962 | BP delta = 0.1054834 0.1271942 9405071.50906839 | BP chisq diff = -3.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632401 | --> Sampling calibration, mode = relcal | relcal = -2.8208687E-03 -7.0369901E-04 1.6786552E-03 1.6133377E-03 -4.0806309E-04 6.4063806E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5815119 15215974.3141790 | BP delta = 0.0000000E+00 -0.5838467 15215978.4330806 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18416867911980 | --> Sampling calibration, mode = relcal | relcal = -7.4711464E-02 -5.8589257E-02 9.1781333E-02 4.1519385E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0642160E-04 4.8192656E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0864E-05 | 2: delta_r/delta_0: 8.5514E-07 | 3: delta_s/delta_0: 2.1511E-07 | 4: delta_r/delta_0: 1.3109E-08 | 5: delta_s/delta_0: 3.9218E-08 | 6: delta_r/delta_0: 1.7671E-09 | 7: delta_s/delta_0: 3.7988E-10 | 8: delta_r/delta_0: 1.0405E-10 | 9: delta_s/delta_0: 1.1056E-09 | 10: delta_r/delta_0: 4.6592E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.113230225243699E-003 2.733790371359204E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0863E-05 | 2: delta_r/delta_0: 8.5514E-07 | 3: delta_s/delta_0: 2.1511E-07 | 4: delta_r/delta_0: 1.3109E-08 | 5: delta_s/delta_0: 3.9218E-08 | 6: delta_r/delta_0: 1.7671E-09 | 7: delta_s/delta_0: 3.7989E-10 | 8: delta_r/delta_0: 1.0405E-10 | 9: delta_s/delta_0: 1.1056E-09 | 10: delta_r/delta_0: 4.6593E-11 | Reached bicg-stab tolerance | BP delta = 3.5967544E-02 5.2114610E-02 3644566.57215722 | BP delta = 3.5967544E-02 5.2136216E-02 3644206.26292137 | BP chisq diff = -360.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02562570 | --> Sampling calibration, mode = relcal | relcal = -0.1065935 -9.5517538E-02 0.1448933 5.7217713E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0666892E-03 1.3074088E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6994E-05 | 2: delta_r/delta_0: 1.1671E-06 | 3: delta_s/delta_0: 2.3916E-07 | 4: delta_r/delta_0: 4.8273E-08 | 5: delta_s/delta_0: 1.6518E-08 | 6: delta_r/delta_0: 6.3787E-09 | 7: delta_s/delta_0: 2.7620E-08 | 8: delta_r/delta_0: 1.1590E-09 | 9: delta_s/delta_0: 8.5572E-10 | 10: delta_r/delta_0: 2.2597E-10 | 11: delta_s/delta_0: 2.2458E-09 | 12: delta_r/delta_0: 2.2910E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.490751066199975E-003 2.811840014697513E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6994E-05 | 2: delta_r/delta_0: 1.1671E-06 | 3: delta_s/delta_0: 2.3915E-07 | 4: delta_r/delta_0: 4.8263E-08 | 5: delta_s/delta_0: 1.6521E-08 | 6: delta_r/delta_0: 6.3779E-09 | 7: delta_s/delta_0: 2.7610E-08 | 8: delta_r/delta_0: 1.1585E-09 | 9: delta_s/delta_0: 8.5567E-10 | 10: delta_r/delta_0: 2.2586E-10 | 11: delta_s/delta_0: 2.2441E-09 | 12: delta_r/delta_0: 2.2902E-11 | Reached bicg-stab tolerance | BP delta = -0.3267901 -0.3007971 2841756.65164667 | BP delta = -0.3267901 -0.3012556 2841784.67928414 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81208747 | --> Sampling calibration, mode = relcal | relcal = 0.2953134 0.2249165 -0.2837375 -0.2364924 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7267003E-04 5.3114793E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0183E-03 | 2: delta_r/delta_0: 2.4452E-05 | 3: delta_s/delta_0: 1.3548E-05 | 4: delta_r/delta_0: 1.1873E-06 | 5: delta_s/delta_0: 5.7621E-07 | 6: delta_r/delta_0: 2.1291E-07 | 7: delta_s/delta_0: 4.6159E-07 | 8: delta_r/delta_0: 4.1510E-08 | 9: delta_s/delta_0: 8.4846E-06 | 10: delta_r/delta_0: 3.6932E-06 | 11: delta_s/delta_0: 2.9658E-09 | 12: delta_r/delta_0: 1.0615E-09 | 13: delta_s/delta_0: 2.4895E-08 | 14: delta_r/delta_0: 4.2068E-10 | 15: delta_s/delta_0: 8.7682E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.483077817148474E-002 4.022363494685440E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0185E-03 | 2: delta_r/delta_0: 2.4457E-05 | 3: delta_s/delta_0: 1.3550E-05 | 4: delta_r/delta_0: 1.1875E-06 | 5: delta_s/delta_0: 5.7624E-07 | 6: delta_r/delta_0: 2.1289E-07 | 7: delta_s/delta_0: 4.6138E-07 | 8: delta_r/delta_0: 4.1512E-08 | 9: delta_s/delta_0: 8.5933E-06 | 10: delta_r/delta_0: 3.7371E-06 | 11: delta_s/delta_0: 2.9659E-09 | 12: delta_r/delta_0: 1.0615E-09 | 13: delta_s/delta_0: 2.4801E-08 | 14: delta_r/delta_0: 4.1772E-10 | 15: delta_s/delta_0: 8.7678E-11 | Reached bicg-stab tolerance | BP delta = -0.1800262 -0.1980754 2827419.72906101 | BP delta = -0.1800262 -0.1979687 2827424.50710254 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95887348 | --> Sampling calibration, mode = relcal | relcal = 0.1065556 0.1395518 -0.1103405 -0.1357669 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0609457E-02 1.3491748E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3001E-04 | 2: delta_r/delta_0: 8.2458E-06 | 3: delta_s/delta_0: 3.8181E-05 | 4: delta_r/delta_0: 2.6433E-06 | 5: delta_s/delta_0: 2.3774E-07 | 6: delta_r/delta_0: 1.3462E-07 | 7: delta_s/delta_0: 6.7240E-07 | 8: delta_r/delta_0: 3.2547E-08 | 9: delta_s/delta_0: 8.7941E-09 | 10: delta_r/delta_0: 5.0891E-09 | 11: delta_s/delta_0: 1.8123E-09 | 12: delta_r/delta_0: 7.3360E-10 | 13: delta_s/delta_0: 1.5360E-07 | 14: delta_r/delta_0: 1.4529E-08 | 15: delta_s/delta_0: 4.8043E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.118646866271206E-002 3.698338539023015E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3003E-04 | 2: delta_r/delta_0: 8.2463E-06 | 3: delta_s/delta_0: 3.8178E-05 | 4: delta_r/delta_0: 2.6429E-06 | 5: delta_s/delta_0: 2.3775E-07 | 6: delta_r/delta_0: 1.3463E-07 | 7: delta_s/delta_0: 6.7232E-07 | 8: delta_r/delta_0: 3.2549E-08 | 9: delta_s/delta_0: 8.7935E-09 | 10: delta_r/delta_0: 5.0928E-09 | 11: delta_s/delta_0: 1.8119E-09 | 12: delta_r/delta_0: 7.3358E-10 | 13: delta_s/delta_0: 1.5505E-07 | 14: delta_r/delta_0: 1.4627E-08 | 15: delta_s/delta_0: 4.8031E-11 | Reached bicg-stab tolerance | BP delta = 7.3478274E-02 0.1916892 3003843.02143088 | BP delta = 7.3478274E-02 0.1975586 3003896.30795735 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.097483 | New value = -3.124337 | poltype: 2 pol: 1 CPU time specind = 6.9761276E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136620 | New value = -3.109138 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194279 | New value = -3.152183 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.151623 | New value = -3.134495 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187806 | New value = -3.163211 | poltype: 2 pol: 2 CPU time specind = 7.1980953E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.21 | CG iter. 1 -- res = 0.13551E+08, tol = 0.69170E+01, time = 4.81 | CG iter. 2 -- res = 0.33001E+06, tol = 0.69170E+01, time = 5.38 | CG iter. 3 -- res = 0.52010E+05, tol = 0.69170E+01, time = 5.56 | CG iter. 4 -- res = 0.26964E+05, tol = 0.69170E+01, time = 5.27 | CG iter. 5 -- res = 0.16759E+05, tol = 0.69170E+01, time = 4.74 | CG iter. 6 -- res = 0.12257E+05, tol = 0.69170E+01, time = 4.64 | CG iter. 7 -- res = 0.11732E+05, tol = 0.69170E+01, time = 4.58 | CG iter. 8 -- res = 0.10182E+05, tol = 0.69170E+01, time = 4.75 | CG iter. 9 -- res = 0.95131E+04, tol = 0.69170E+01, time = 4.69 | CG iter. 10 -- res = 0.89046E+04, tol = 0.69170E+01, time = 4.66 | CG iter. 11 -- res = 0.65744E+04, tol = 0.69170E+01, time = 4.82 | CG iter. 12 -- res = 0.43116E+04, tol = 0.69170E+01, time = 4.60 | CG iter. 13 -- res = 0.29392E+04, tol = 0.69170E+01, time = 4.87 | CG iter. 14 -- res = 0.23541E+04, tol = 0.69170E+01, time = 4.85 | CG iter. 15 -- res = 0.20499E+04, tol = 0.69170E+01, time = 4.48 | CG iter. 16 -- res = 0.16061E+04, tol = 0.69170E+01, time = 4.63 | CG iter. 17 -- res = 0.11722E+04, tol = 0.69170E+01, time = 4.68 | CG iter. 18 -- res = 0.88393E+03, tol = 0.69170E+01, time = 4.80 | CG iter. 19 -- res = 0.74015E+03, tol = 0.69170E+01, time = 4.54 | CG iter. 20 -- res = 0.58480E+03, tol = 0.69170E+01, time = 4.71 | CG iter. 21 -- res = 0.42346E+03, tol = 0.69170E+01, time = 5.06 | CG iter. 22 -- res = 0.32632E+03, tol = 0.69170E+01, time = 4.46 | CG iter. 23 -- res = 0.28702E+03, tol = 0.69170E+01, time = 4.78 | CG iter. 24 -- res = 0.24607E+03, tol = 0.69170E+01, time = 4.62 | CG iter. 25 -- res = 0.18236E+03, tol = 0.69170E+01, time = 4.69 | CG iter. 26 -- res = 0.13330E+03, tol = 0.69170E+01, time = 4.69 | CG iter. 27 -- res = 0.11136E+03, tol = 0.69170E+01, time = 5.06 | CG iter. 28 -- res = 0.95245E+02, tol = 0.69170E+01, time = 4.84 | CG iter. 29 -- res = 0.79404E+02, tol = 0.69170E+01, time = 4.52 | CG iter. 30 -- res = 0.63834E+02, tol = 0.69170E+01, time = 4.86 | CG iter. 31 -- res = 0.52954E+02, tol = 0.69170E+01, time = 4.64 | CG iter. 32 -- res = 0.46089E+02, tol = 0.69170E+01, time = 4.84 | CG iter. 33 -- res = 0.38588E+02, tol = 0.69170E+01, time = 4.89 | CG iter. 34 -- res = 0.29055E+02, tol = 0.69170E+01, time = 4.77 | CG iter. 35 -- res = 0.22661E+02, tol = 0.69170E+01, time = 4.52 | CG iter. 36 -- res = 0.19774E+02, tol = 0.69170E+01, time = 4.65 | CG iter. 37 -- res = 0.16577E+02, tol = 0.69170E+01, time = 4.81 | CG iter. 38 -- res = 0.12642E+02, tol = 0.69170E+01, time = 4.55 | CG iter. 39 -- res = 0.98249E+01, tol = 0.69170E+01, time = 4.55 | CG iter. 40 -- res = 0.81390E+01, tol = 0.69170E+01, time = 4.58 | CG iter. 41 -- res = 0.67643E+01, tol = 0.69170E+01, time = 5.07 | CG iter. 42 -- res = 0.51510E+01, tol = 0.69170E+01, time = 4.52 | CG iter. 43 -- res = 0.38656E+01, tol = 0.69170E+01, time = 4.68 | CG iter. 44 -- res = 0.30601E+01, tol = 0.69170E+01, time = 4.85 | CG iter. 45 -- res = 0.24946E+01, tol = 0.69170E+01, time = 4.60 | CG iter. 46 -- res = 0.19716E+01, tol = 0.69170E+01, time = 9.53 | CG iter. 47 -- res = 0.15046E+01, tol = 0.69170E+01, time = 6.12 | CG iter. 48 -- res = 0.11374E+01, tol = 0.69170E+01, time = 5.05 | CG iter. 49 -- res = 0.93147E+00, tol = 0.69170E+01, time = 4.89 | CG iter. 50 -- res = 0.76140E+00, tol = 0.69170E+01, time = 4.66 | Final CG iter 51 -- res = 0.76140E+00, tol = 0.69170E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8105868.521 | Old band monopole 10471602.932 | Change to band monopole -2365734.410 | Change to component monopole 2365724.235 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.04 | CG iter. 1 -- res = 0.13686E+05, tol = 0.47627E+18, time = 1.57 | CG iter. 2 -- res = 0.22557E+02, tol = 0.47627E+18, time = 1.56 | CG iter. 3 -- res = 0.79627E+00, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.17720E-02, tol = 0.47627E+18, time = 1.62 | Final CG iter 5 -- res = 0.48078E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8105833.656 | (Sampled value in CG: 8074084.723 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.545369 | New value = 1.500134 | poltype: 2 pol: 1 CPU time specind = 1.5802145E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.522176 | New value = 1.489506 | poltype: 2 pol: 2 CPU time specind = 4.4271946E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.09 | CG iter. 1 -- res = 0.24433E+08, tol = 0.47543E+04, time = 5.55 | CG iter. 2 -- res = 0.52573E+07, tol = 0.47543E+04, time = 5.29 | CG iter. 3 -- res = 0.84659E+06, tol = 0.47543E+04, time = 5.32 | CG iter. 4 -- res = 0.34530E+06, tol = 0.47543E+04, time = 5.41 | CG iter. 5 -- res = 0.14614E+06, tol = 0.47543E+04, time = 5.61 | CG iter. 6 -- res = 0.78361E+05, tol = 0.47543E+04, time = 5.53 | CG iter. 7 -- res = 0.42443E+05, tol = 0.47543E+04, time = 5.53 | CG iter. 8 -- res = 0.20278E+05, tol = 0.47543E+04, time = 5.36 | CG iter. 9 -- res = 0.90777E+04, tol = 0.47543E+04, time = 5.39 | CG iter. 10 -- res = 0.36937E+04, tol = 0.47543E+04, time = 5.60 | CG iter. 11 -- res = 0.16856E+04, tol = 0.47543E+04, time = 5.37 | CG iter. 12 -- res = 0.86884E+03, tol = 0.47543E+04, time = 5.50 | CG iter. 13 -- res = 0.48851E+03, tol = 0.47543E+04, time = 8.16 | CG iter. 14 -- res = 0.27669E+03, tol = 0.47543E+04, time = 5.43 | CG iter. 15 -- res = 0.14346E+03, tol = 0.47543E+04, time = 5.46 | CG iter. 16 -- res = 0.68802E+02, tol = 0.47543E+04, time = 5.57 | CG iter. 17 -- res = 0.31363E+02, tol = 0.47543E+04, time = 5.15 | CG iter. 18 -- res = 0.15681E+02, tol = 0.47543E+04, time = 5.15 | CG iter. 19 -- res = 0.84648E+01, tol = 0.47543E+04, time = 5.66 | CG iter. 20 -- res = 0.47867E+01, tol = 0.47543E+04, time = 5.63 | CG iter. 21 -- res = 0.26249E+01, tol = 0.47543E+04, time = 5.25 | CG iter. 22 -- res = 0.13695E+01, tol = 0.47543E+04, time = 5.37 | CG iter. 23 -- res = 0.68507E+00, tol = 0.47543E+04, time = 5.56 | CG iter. 24 -- res = 0.35461E+00, tol = 0.47543E+04, time = 5.39 | CG iter. 25 -- res = 0.19241E+00, tol = 0.47543E+04, time = 5.27 | CG iter. 26 -- res = 0.11043E+00, tol = 0.47543E+04, time = 5.59 | CG iter. 27 -- res = 0.61771E-01, tol = 0.47543E+04, time = 5.17 | CG iter. 28 -- res = 0.32648E-01, tol = 0.47543E+04, time = 5.47 | CG iter. 29 -- res = 0.17538E-01, tol = 0.47543E+04, time = 5.59 | CG iter. 30 -- res = 0.92687E-02, tol = 0.47543E+04, time = 5.46 | CG iter. 31 -- res = 0.51156E-02, tol = 0.47543E+04, time = 11.90 | CG iter. 32 -- res = 0.28925E-02, tol = 0.47543E+04, time = 5.50 | CG iter. 33 -- res = 0.16228E-02, tol = 0.47543E+04, time = 5.76 | CG iter. 34 -- res = 0.86798E-03, tol = 0.47543E+04, time = 5.41 | CG iter. 35 -- res = 0.44685E-03, tol = 0.47543E+04, time = 5.53 | Final CG iter 36 -- res = 0.44685E-03, tol = 0.47543E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.754 2.718 | New value -1.983 | Old value -0.754 | Difference -1.228 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.76 | CG iter. 1 -- res = 0.83231E+05, tol = 0.47627E+18, time = 1.51 | CG iter. 2 -- res = 0.25917E+02, tol = 0.47627E+18, time = 1.69 | CG iter. 3 -- res = 0.81951E+00, tol = 0.47627E+18, time = 1.69 | CG iter. 4 -- res = 0.74949E-03, tol = 0.47627E+18, time = 1.54 | Final CG iter 5 -- res = 0.10212E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8105833.656 | (Sampled value in CG: 8072882.448 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.464514 | New value = -3.706221 | poltype: 1 pol: 1 CPU time specind = 6.4060688E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.29 | CG iter. 1 -- res = 0.23368E+07, tol = 0.29830E+01, time = 2.22 | CG iter. 2 -- res = 0.74282E+06, tol = 0.29830E+01, time = 2.32 | CG iter. 3 -- res = 0.14278E+06, tol = 0.29830E+01, time = 2.27 | CG iter. 4 -- res = 0.63049E+05, tol = 0.29830E+01, time = 2.08 | CG iter. 5 -- res = 0.40315E+05, tol = 0.29830E+01, time = 2.20 | CG iter. 6 -- res = 0.18628E+05, tol = 0.29830E+01, time = 2.16 | CG iter. 7 -- res = 0.67413E+04, tol = 0.29830E+01, time = 2.33 | CG iter. 8 -- res = 0.29896E+04, tol = 0.29830E+01, time = 2.13 | CG iter. 9 -- res = 0.12840E+04, tol = 0.29830E+01, time = 2.27 | CG iter. 10 -- res = 0.49467E+03, tol = 0.29830E+01, time = 2.08 | CG iter. 11 -- res = 0.22019E+03, tol = 0.29830E+01, time = 2.28 | CG iter. 12 -- res = 0.11226E+03, tol = 0.29830E+01, time = 2.10 | CG iter. 13 -- res = 0.57771E+02, tol = 0.29830E+01, time = 2.34 | CG iter. 14 -- res = 0.28200E+02, tol = 0.29830E+01, time = 2.27 | CG iter. 15 -- res = 0.12581E+02, tol = 0.29830E+01, time = 2.14 | CG iter. 16 -- res = 0.52264E+01, tol = 0.29830E+01, time = 6.80 | CG iter. 17 -- res = 0.22022E+01, tol = 0.29830E+01, time = 4.18 | CG iter. 18 -- res = 0.10376E+01, tol = 0.29830E+01, time = 2.31 | CG iter. 19 -- res = 0.50538E+00, tol = 0.29830E+01, time = 2.45 | CG iter. 20 -- res = 0.25665E+00, tol = 0.29830E+01, time = 2.06 | CG iter. 21 -- res = 0.12221E+00, tol = 0.29830E+01, time = 2.23 | CG iter. 22 -- res = 0.51583E-01, tol = 0.29830E+01, time = 2.26 | CG iter. 23 -- res = 0.22962E-01, tol = 0.29830E+01, time = 3.57 | CG iter. 24 -- res = 0.11344E-01, tol = 0.29830E+01, time = 2.13 | CG iter. 25 -- res = 0.59120E-02, tol = 0.29830E+01, time = 2.05 | CG iter. 26 -- res = 0.28342E-02, tol = 0.29830E+01, time = 2.19 | CG iter. 27 -- res = 0.13670E-02, tol = 0.29830E+01, time = 2.01 | CG iter. 28 -- res = 0.61611E-03, tol = 0.29830E+01, time = 2.24 | CG iter. 29 -- res = 0.27500E-03, tol = 0.29830E+01, time = 2.25 | CG iter. 30 -- res = 0.13987E-03, tol = 0.29830E+01, time = 2.20 | CG iter. 31 -- res = 0.72284E-04, tol = 0.29830E+01, time = 2.21 | CG iter. 32 -- res = 0.35812E-04, tol = 0.29830E+01, time = 1.96 | CG iter. 33 -- res = 0.16741E-04, tol = 0.29830E+01, time = 2.21 | CG iter. 34 -- res = 0.75864E-05, tol = 0.29830E+01, time = 2.25 | CG iter. 35 -- res = 0.35124E-05, tol = 0.29830E+01, time = 2.17 | CG iter. 36 -- res = 0.17214E-05, tol = 0.29830E+01, time = 2.10 | CG iter. 37 -- res = 0.88753E-06, tol = 0.29830E+01, time = 2.47 | CG iter. 38 -- res = 0.43933E-06, tol = 0.29830E+01, time = 2.13 | CG iter. 39 -- res = 0.20013E-06, tol = 0.29830E+01, time = 2.42 | CG iter. 40 -- res = 0.89841E-07, tol = 0.29830E+01, time = 1.98 | CG iter. 41 -- res = 0.43202E-07, tol = 0.29830E+01, time = 2.18 | CG iter. 42 -- res = 0.21375E-07, tol = 0.29830E+01, time = 2.07 | CG iter. 43 -- res = 0.10003E-07, tol = 0.29830E+01, time = 2.15 | CG iter. 44 -- res = 0.50448E-08, tol = 0.29830E+01, time = 2.52 | CG iter. 45 -- res = 0.23480E-08, tol = 0.29830E+01, time = 2.10 | CG iter. 46 -- res = 0.10955E-08, tol = 0.29830E+01, time = 2.31 | CG iter. 47 -- res = 0.50323E-09, tol = 0.29830E+01, time = 2.07 | CG iter. 48 -- res = 0.24646E-09, tol = 0.29830E+01, time = 2.15 | CG iter. 49 -- res = 0.11569E-09, tol = 0.29830E+01, time = 2.03 | CG iter. 50 -- res = 0.54149E-10, tol = 0.29830E+01, time = 2.14 | Final CG iter 51 -- res = 0.54149E-10, tol = 0.29830E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.064 6.494 | New value -0.805 | Old value -2.064 | Difference 1.260 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.27 | CG iter. 1 -- res = 0.33239E+04, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.18298E+02, tol = 0.47627E+18, time = 1.68 | CG iter. 3 -- res = 0.33272E+00, tol = 0.47627E+18, time = 1.72 | Final CG iter 4 -- res = 0.35330E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8105833.656 | (Sampled value in CG: 8086851.405 ) | CPU time specind = 994.8021 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 21.89 | CG iter. 1 -- res = 0.69604E+08, tol = 0.57864E+04, time = 9.57 | CG iter. 2 -- res = 0.58998E+08, tol = 0.57864E+04, time = 9.99 | CG iter. 3 -- res = 0.15263E+08, tol = 0.57864E+04, time = 10.07 | CG iter. 4 -- res = 0.65478E+07, tol = 0.57864E+04, time = 9.95 | CG iter. 5 -- res = 0.39671E+07, tol = 0.57864E+04, time = 10.75 | CG iter. 6 -- res = 0.22849E+07, tol = 0.57864E+04, time = 9.94 | CG iter. 7 -- res = 0.13429E+07, tol = 0.57864E+04, time = 9.91 | CG iter. 8 -- res = 0.87870E+06, tol = 0.57864E+04, time = 9.67 | CG iter. 9 -- res = 0.56404E+06, tol = 0.57864E+04, time = 9.72 | CG iter. 10 -- res = 0.34680E+06, tol = 0.57864E+04, time = 9.77 | CG iter. 11 -- res = 0.19126E+06, tol = 0.57864E+04, time = 9.55 | CG iter. 12 -- res = 0.10195E+06, tol = 0.57864E+04, time = 9.88 | CG iter. 13 -- res = 0.54698E+05, tol = 0.57864E+04, time = 9.46 | CG iter. 14 -- res = 0.31777E+05, tol = 0.57864E+04, time = 9.97 | CG iter. 15 -- res = 0.21125E+05, tol = 0.57864E+04, time = 16.17 | CG iter. 16 -- res = 0.15274E+05, tol = 0.57864E+04, time = 9.86 | CG iter. 17 -- res = 0.11593E+05, tol = 0.57864E+04, time = 10.26 | CG iter. 18 -- res = 0.87724E+04, tol = 0.57864E+04, time = 9.74 | CG iter. 19 -- res = 0.65942E+04, tol = 0.57864E+04, time = 9.94 | CG iter. 20 -- res = 0.52750E+04, tol = 0.57864E+04, time = 9.45 | CG iter. 21 -- res = 0.43292E+04, tol = 0.57864E+04, time = 9.89 | CG iter. 22 -- res = 0.40323E+04, tol = 0.57864E+04, time = 9.97 | CG iter. 23 -- res = 0.42285E+04, tol = 0.57864E+04, time = 11.14 | CG iter. 24 -- res = 0.46572E+04, tol = 0.57864E+04, time = 10.74 | CG iter. 25 -- res = 0.49546E+04, tol = 0.57864E+04, time = 9.98 | CG iter. 26 -- res = 0.46264E+04, tol = 0.57864E+04, time = 9.44 | CG iter. 27 -- res = 0.38415E+04, tol = 0.57864E+04, time = 10.09 | CG iter. 28 -- res = 0.30707E+04, tol = 0.57864E+04, time = 9.92 | CG iter. 29 -- res = 0.25407E+04, tol = 0.57864E+04, time = 9.67 | CG iter. 30 -- res = 0.21852E+04, tol = 0.57864E+04, time = 9.90 | CG iter. 31 -- res = 0.18310E+04, tol = 0.57864E+04, time = 9.95 | CG iter. 32 -- res = 0.15190E+04, tol = 0.57864E+04, time = 9.77 | CG iter. 33 -- res = 0.12443E+04, tol = 0.57864E+04, time = 10.09 | CG iter. 34 -- res = 0.95249E+03, tol = 0.57864E+04, time = 9.85 | CG iter. 35 -- res = 0.71868E+03, tol = 0.57864E+04, time = 9.85 | CG iter. 36 -- res = 0.60413E+03, tol = 0.57864E+04, time = 9.77 | CG iter. 37 -- res = 0.56295E+03, tol = 0.57864E+04, time = 9.94 | CG iter. 38 -- res = 0.52884E+03, tol = 0.57864E+04, time = 9.84 | CG iter. 39 -- res = 0.49840E+03, tol = 0.57864E+04, time = 10.03 | CG iter. 40 -- res = 0.46100E+03, tol = 0.57864E+04, time = 10.03 | CG iter. 41 -- res = 0.40553E+03, tol = 0.57864E+04, time = 9.78 | CG iter. 42 -- res = 0.33868E+03, tol = 0.57864E+04, time = 9.65 | CG iter. 43 -- res = 0.28402E+03, tol = 0.57864E+04, time = 9.83 | CG iter. 44 -- res = 0.25068E+03, tol = 0.57864E+04, time = 16.29 | CG iter. 45 -- res = 0.22599E+03, tol = 0.57864E+04, time = 9.79 | CG iter. 46 -- res = 0.20545E+03, tol = 0.57864E+04, time = 10.02 | CG iter. 47 -- res = 0.18228E+03, tol = 0.57864E+04, time = 9.88 | CG iter. 48 -- res = 0.15163E+03, tol = 0.57864E+04, time = 9.74 | CG iter. 49 -- res = 0.12571E+03, tol = 0.57864E+04, time = 10.41 | CG iter. 50 -- res = 0.10784E+03, tol = 0.57864E+04, time = 9.58 | CG iter. 51 -- res = 0.97665E+02, tol = 0.57864E+04, time = 9.91 | CG iter. 52 -- res = 0.90139E+02, tol = 0.57864E+04, time = 9.75 | CG iter. 53 -- res = 0.86767E+02, tol = 0.57864E+04, time = 11.82 | CG iter. 54 -- res = 0.83877E+02, tol = 0.57864E+04, time = 10.40 | CG iter. 55 -- res = 0.78945E+02, tol = 0.57864E+04, time = 9.62 | CG iter. 56 -- res = 0.72031E+02, tol = 0.57864E+04, time = 10.06 | CG iter. 57 -- res = 0.65209E+02, tol = 0.57864E+04, time = 9.93 | CG iter. 58 -- res = 0.59529E+02, tol = 0.57864E+04, time = 9.72 | CG iter. 59 -- res = 0.54706E+02, tol = 0.57864E+04, time = 10.22 | CG iter. 60 -- res = 0.51153E+02, tol = 0.57864E+04, time = 10.11 | Final CG iter 61 -- res = 0.51153E+02, tol = 0.57864E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.749 ( -230.039 -2228.095 2510.154 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7841445.919 | Old band monopole 8105868.521 | Change to band monopole -264422.603 | Change to component monopole 264421.465 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.967 2.739 | New value 0.510 | Old value -1.967 | Difference 2.478 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.618 ( 7.041 6.692 -5.654 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.412 5.636 | New value 5.145 | Old value 9.412 | Difference -4.267 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 21.95 | CG iter. 1 -- res = 0.32994E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.26011E+02, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.86526E+00, tol = 0.47627E+18, time = 1.60 | CG iter. 4 -- res = 0.16367E-02, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.17689E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7841412.191 | (Sampled value in CG: 7813954.520 ) | Chain = 1 -- chisq = 0.81544651E+09 | Chain = 1 -- wall time = 5728.109 sec Available RAM: MemAvailable: 375717704 kB Available Swap: SwapFree: 1120362024 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 181 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445672 | --> Sampling calibration, mode = relcal | relcal = 1.3442443E-02 7.3900039E-04 -1.6080973E-03 -1.2573346E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1054834 0.1271942 97045892.6827537 | BP delta = 9.6441753E-02 0.1181525 97045888.5652974 | BP chisq diff = -4.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632310 | --> Sampling calibration, mode = relcal | relcal = -2.8207842E-03 -7.0332404E-04 1.6782605E-03 1.6140676E-03 -4.0805421E-04 6.3983432E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5815119 15214215.4622098 | BP delta = 0.0000000E+00 -0.5908253 15214220.5703707 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03104482 | --> Sampling calibration, mode = relcal | relcal = 3.7105307E-02 1.3718251E-02 5.7541919E-03 -7.1672150E-03 8.2524484E-03 2.3992269E-03 -7.6026744E-03 -7.1838927E-03 -1.5308094E-02 -1.4807618E-02 -3.0570999E-03 -1.2102833E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.231249 132211974.328166 | BP delta = 0.0000000E+00 -1.242052 132211976.466331 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18207224349100 | --> Sampling calibration, mode = relcal | relcal = -7.4171595E-02 -5.7998333E-02 9.1097511E-02 4.1072421E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6628094E-04 3.8627810E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.1157E-05 | 2: delta_r/delta_0: 1.9691E-06 | 3: delta_s/delta_0: 2.2174E-07 | 4: delta_r/delta_0: 1.6919E-08 | 5: delta_s/delta_0: 9.8520E-09 | 6: delta_r/delta_0: 2.6922E-09 | 7: delta_s/delta_0: 1.2185E-09 | 8: delta_r/delta_0: 9.7936E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.294558462473171E-003 2.738704484353724E-005 | BP delta = 3.5967544E-02 5.2136216E-02 50480597.2658245 | BP delta = 3.4511782E-02 5.0680455E-02 50480597.0054540 | BP chisq diff = -0.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02562503 | --> Sampling calibration, mode = relcal | relcal = -0.1065522 -9.5531859E-02 0.1448376 5.7246514E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1079005E-03 1.1239672E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8249E-05 | 2: delta_r/delta_0: 1.1822E-06 | 3: delta_s/delta_0: 2.4552E-07 | 4: delta_r/delta_0: 4.1621E-08 | 5: delta_s/delta_0: 1.7427E-08 | 6: delta_r/delta_0: 5.8595E-09 | 7: delta_s/delta_0: 6.5805E-09 | 8: delta_r/delta_0: 1.0682E-09 | 9: delta_s/delta_0: 8.8795E-10 | 10: delta_r/delta_0: 2.3521E-10 | 11: delta_s/delta_0: 3.5444E-09 | 12: delta_r/delta_0: 2.2631E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.524676985918785E-003 2.811826833215014E-005 | BP delta = -0.3267901 -0.3007971 57387538.9788013 | BP delta = -0.3348010 -0.3088079 57387540.0231320 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81194648 | --> Sampling calibration, mode = relcal | relcal = 0.2953545 0.2247286 -0.2836693 -0.2364138 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.7739091E-04 5.1071434E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5546E-02 | 2: delta_r/delta_0: 8.3921E-04 | 3: delta_s/delta_0: 7.7507E-05 | 4: delta_r/delta_0: 2.4824E-06 | 5: delta_s/delta_0: 1.4862E-06 | 6: delta_r/delta_0: 6.0795E-07 | 7: delta_s/delta_0: 2.9982E-07 | 8: delta_r/delta_0: 1.3104E-07 | 9: delta_s/delta_0: 5.4822E-07 | 10: delta_r/delta_0: 1.9257E-08 | 11: delta_s/delta_0: 7.9296E-09 | 12: delta_r/delta_0: 2.6206E-09 | 13: delta_s/delta_0: 2.4599E-10 | 14: delta_r/delta_0: 1.8357E-10 | 15: delta_s/delta_0: 1.5895E-10 | 16: delta_r/delta_0: 1.3207E-10 | 17: delta_s/delta_0: 3.8694E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.920067871385340E-002 4.023010972619274E-005 | BP delta = -0.1800262 -0.1980754 72485501.0889380 | BP delta = -0.1632684 -0.1813176 72485501.1129978 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95882560 | --> Sampling calibration, mode = relcal | relcal = 0.1063921 0.1395175 -0.1101375 -0.1357721 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9437209E-03 1.2887119E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9614E-04 | 2: delta_r/delta_0: 7.4284E-06 | 3: delta_s/delta_0: 2.8842E-05 | 4: delta_r/delta_0: 2.1348E-06 | 5: delta_s/delta_0: 2.1748E-07 | 6: delta_r/delta_0: 1.2294E-07 | 7: delta_s/delta_0: 6.4865E-07 | 8: delta_r/delta_0: 2.8557E-08 | 9: delta_s/delta_0: 1.4205E-08 | 10: delta_r/delta_0: 1.8575E-09 | 11: delta_s/delta_0: 1.3859E-08 | 12: delta_r/delta_0: 3.1079E-09 | 13: delta_s/delta_0: 1.0175E-09 | 14: delta_r/delta_0: 4.2229E-10 | 15: delta_s/delta_0: 4.6278E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.067938616075148E-002 3.698463068927024E-005 | BP delta = 7.3478274E-02 0.1916892 72773010.1149264 | BP delta = 0.1017006 0.2199115 72773010.4704855 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52178063 | --> Sampling calibration, mode = relcal | relcal = -5.1132616E-02 -3.7473140E-03 2.7336303E-02 2.7543627E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7205699E-04 2.2398042E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7281E-05 | 2: delta_r/delta_0: 4.2660E-06 | 3: delta_s/delta_0: 2.8977E-06 | 4: delta_r/delta_0: 4.2355E-07 | 5: delta_s/delta_0: 5.4720E-08 | 6: delta_r/delta_0: 2.8003E-08 | 7: delta_s/delta_0: 6.9386E-04 | 8: delta_r/delta_0: 4.4788E-05 | 9: delta_s/delta_0: 3.6312E-09 | 10: delta_r/delta_0: 1.4476E-09 | 11: delta_s/delta_0: 5.0063E-09 | 12: delta_r/delta_0: 1.3107E-10 | 13: delta_s/delta_0: 6.6879E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.106359926296289E-002 5.481083135026312E-005 | BP delta = 7.0468843E-02 0.1679995 91259171.5594909 | BP delta = 4.0943425E-02 0.1384740 91259171.8833298 | BP chisq diff = 0.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42167080 | --> Sampling calibration, mode = relcal | relcal = 4.5631859E-02 3.9753594E-02 -2.8323540E-02 -5.7061911E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0562661E-03 4.8520109E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2146E-05 | 2: delta_r/delta_0: 3.8615E-06 | 3: delta_s/delta_0: 6.4349E-06 | 4: delta_r/delta_0: 9.5999E-07 | 5: delta_s/delta_0: 5.8641E-08 | 6: delta_r/delta_0: 3.8610E-08 | 7: delta_s/delta_0: 3.7474E-08 | 8: delta_r/delta_0: 1.4690E-08 | 9: delta_s/delta_0: 3.2039E-09 | 10: delta_r/delta_0: 4.4096E-10 | 11: delta_s/delta_0: 9.0041E-10 | 12: delta_r/delta_0: 7.1261E-10 | 13: delta_s/delta_0: 2.9305E-10 | 14: delta_r/delta_0: 2.3725E-10 | 15: delta_s/delta_0: 2.6209E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.515783715864780E-002 4.994798981141462E-005 | BP delta = -3.9799422E-02 -0.1287021 90170178.2161445 | BP delta = -2.7881730E-02 -0.1167844 90170178.0266400 | BP chisq diff = -0.2, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28190640 | --> Sampling calibration, mode = relcal | relcal = 2.4178391E-02 4.5236032E-02 -2.3342503E-02 -4.6071924E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0725169E-02 2.6947793E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0722E-04 | 2: delta_r/delta_0: 8.3883E-06 | 3: delta_s/delta_0: 1.3092E-06 | 4: delta_r/delta_0: 3.0479E-07 | 5: delta_s/delta_0: 7.1353E-08 | 6: delta_r/delta_0: 2.3366E-08 | 7: delta_s/delta_0: 1.0925E-08 | 8: delta_r/delta_0: 7.0603E-09 | 9: delta_s/delta_0: 3.8699E-08 | 10: delta_r/delta_0: 3.3812E-09 | 11: delta_s/delta_0: 3.4770E-09 | 12: delta_r/delta_0: 9.2404E-10 | 13: delta_s/delta_0: 1.9690E-09 | 14: delta_r/delta_0: 5.9209E-10 | 15: delta_s/delta_0: 5.6796E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.014274633577510E-002 7.835776613949390E-005 | BP delta = -0.1779296 -0.2908358 160940767.266040 | BP delta = -0.1756133 -0.2885195 160940767.287940 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29418647 | --> Sampling calibration, mode = relcal | relcal = 5.0890999E-04 1.0280863E-02 -3.8149196E-03 -6.9748540E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7536612E-02 1.6134558E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3073E-04 | 2: delta_r/delta_0: 1.1017E-05 | 3: delta_s/delta_0: 1.6912E-06 | 4: delta_r/delta_0: 3.9027E-07 | 5: delta_s/delta_0: 1.2815E-07 | 6: delta_r/delta_0: 2.9804E-08 | 7: delta_s/delta_0: 1.4093E-08 | 8: delta_r/delta_0: 8.7617E-09 | 9: delta_s/delta_0: 3.3106E-08 | 10: delta_r/delta_0: 6.2511E-09 | 11: delta_s/delta_0: 2.1007E-09 | 12: delta_r/delta_0: 3.0041E-10 | 13: delta_s/delta_0: 8.0552E-10 | 14: delta_r/delta_0: 2.5489E-10 | 15: delta_s/delta_0: 4.9443E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.067352771300145E-002 8.299205953715881E-005 | BP delta = -0.8599339 -0.8309115 157898196.371744 | BP delta = -0.8714843 -0.8424620 157898196.290960 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26530456 | --> Sampling calibration, mode = relcal | relcal = -5.6244717E-03 1.5091699E-02 -2.3606278E-03 -7.1065994E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.7665289E-04 4.4039092E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4018E-04 | 2: delta_r/delta_0: 1.1978E-05 | 3: delta_s/delta_0: 2.0698E-06 | 4: delta_r/delta_0: 2.3345E-07 | 5: delta_s/delta_0: 1.0091E-07 | 6: delta_r/delta_0: 2.0095E-08 | 7: delta_s/delta_0: 8.4602E-09 | 8: delta_r/delta_0: 5.3907E-09 | 9: delta_s/delta_0: 5.3788E-09 | 10: delta_r/delta_0: 3.8398E-09 | 11: delta_s/delta_0: 4.2663E-07 | 12: delta_r/delta_0: 2.2353E-09 | 13: delta_s/delta_0: 5.7183E-09 | 14: delta_r/delta_0: 2.0630E-09 | 15: delta_s/delta_0: 6.6627E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.356389839693406E-003 9.145535420102483E-005 | BP delta = 0.3950718 0.4470607 157019268.202214 | BP delta = 0.4450384 0.4970272 157019268.326426 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25683014 | --> Sampling calibration, mode = relcal | relcal = -3.1794328E-02 -2.6019884E-02 3.6978755E-02 2.0835456E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4719769E-02 1.7684877E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4436E-04 | 2: delta_r/delta_0: 1.2083E-05 | 3: delta_s/delta_0: 1.8784E-06 | 4: delta_r/delta_0: 3.9283E-07 | 5: delta_s/delta_0: 1.5334E-07 | 6: delta_r/delta_0: 3.0621E-08 | 7: delta_s/delta_0: 1.5201E-08 | 8: delta_r/delta_0: 8.4589E-09 | 9: delta_s/delta_0: 2.0103E-08 | 10: delta_r/delta_0: 4.8464E-09 | 11: delta_s/delta_0: 1.3527E-07 | 12: delta_r/delta_0: 8.7097E-08 | 13: delta_s/delta_0: 3.3372E-10 | 14: delta_r/delta_0: 2.5374E-10 | 15: delta_s/delta_0: 9.4648E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.180555042690492E-002 8.665737938050067E-005 | BP delta = -0.6838179 -0.8067262 158519433.068517 | BP delta = -0.7290829 -0.8519913 158519432.809870 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124337 | New value = -3.203807 | poltype: 2 pol: 1 CPU time specind = 8.1660986E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109138 | New value = -3.192440 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152183 | New value = -3.157086 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134495 | New value = -3.163747 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163211 | New value = -3.103561 | poltype: 2 pol: 2 CPU time specind = 0.1331410 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 25.50 | CG iter. 1 -- res = 0.13574E+08, tol = 0.86399E+01, time = 4.96 | CG iter. 2 -- res = 0.34184E+06, tol = 0.86399E+01, time = 4.56 | CG iter. 3 -- res = 0.63817E+05, tol = 0.86399E+01, time = 4.41 | CG iter. 4 -- res = 0.50556E+05, tol = 0.86399E+01, time = 5.01 | CG iter. 5 -- res = 0.47495E+05, tol = 0.86399E+01, time = 4.82 | CG iter. 6 -- res = 0.47417E+05, tol = 0.86399E+01, time = 4.57 | CG iter. 7 -- res = 0.47666E+05, tol = 0.86399E+01, time = 4.82 | CG iter. 8 -- res = 0.37998E+05, tol = 0.86399E+01, time = 4.86 | CG iter. 9 -- res = 0.32704E+05, tol = 0.86399E+01, time = 4.86 | CG iter. 10 -- res = 0.27100E+05, tol = 0.86399E+01, time = 6.03 | CG iter. 11 -- res = 0.19631E+05, tol = 0.86399E+01, time = 5.10 | CG iter. 12 -- res = 0.13740E+05, tol = 0.86399E+01, time = 5.19 | CG iter. 13 -- res = 0.11649E+05, tol = 0.86399E+01, time = 4.82 | CG iter. 14 -- res = 0.10681E+05, tol = 0.86399E+01, time = 4.78 | CG iter. 15 -- res = 0.89359E+04, tol = 0.86399E+01, time = 4.78 | CG iter. 16 -- res = 0.64991E+04, tol = 0.86399E+01, time = 4.74 | CG iter. 17 -- res = 0.46734E+04, tol = 0.86399E+01, time = 4.65 | CG iter. 18 -- res = 0.37462E+04, tol = 0.86399E+01, time = 4.82 | CG iter. 19 -- res = 0.32942E+04, tol = 0.86399E+01, time = 4.79 | CG iter. 20 -- res = 0.27261E+04, tol = 0.86399E+01, time = 4.83 | CG iter. 21 -- res = 0.21457E+04, tol = 0.86399E+01, time = 4.65 | CG iter. 22 -- res = 0.17588E+04, tol = 0.86399E+01, time = 4.93 | CG iter. 23 -- res = 0.15702E+04, tol = 0.86399E+01, time = 4.66 | CG iter. 24 -- res = 0.12928E+04, tol = 0.86399E+01, time = 4.60 | CG iter. 25 -- res = 0.98292E+03, tol = 0.86399E+01, time = 4.77 | CG iter. 26 -- res = 0.79525E+03, tol = 0.86399E+01, time = 4.93 | CG iter. 27 -- res = 0.70138E+03, tol = 0.86399E+01, time = 5.04 | CG iter. 28 -- res = 0.64858E+03, tol = 0.86399E+01, time = 4.66 | CG iter. 29 -- res = 0.53975E+03, tol = 0.86399E+01, time = 4.69 | CG iter. 30 -- res = 0.41766E+03, tol = 0.86399E+01, time = 4.88 | CG iter. 31 -- res = 0.37311E+03, tol = 0.86399E+01, time = 4.50 | CG iter. 32 -- res = 0.33912E+03, tol = 0.86399E+01, time = 4.80 | CG iter. 33 -- res = 0.28779E+03, tol = 0.86399E+01, time = 4.66 | CG iter. 34 -- res = 0.22142E+03, tol = 0.86399E+01, time = 4.81 | CG iter. 35 -- res = 0.18973E+03, tol = 0.86399E+01, time = 4.88 | CG iter. 36 -- res = 0.17784E+03, tol = 0.86399E+01, time = 4.85 | CG iter. 37 -- res = 0.15512E+03, tol = 0.86399E+01, time = 4.89 | CG iter. 38 -- res = 0.12715E+03, tol = 0.86399E+01, time = 4.64 | CG iter. 39 -- res = 0.10553E+03, tol = 0.86399E+01, time = 4.73 | CG iter. 40 -- res = 0.92094E+02, tol = 0.86399E+01, time = 4.80 | CG iter. 41 -- res = 0.82657E+02, tol = 0.86399E+01, time = 4.77 | CG iter. 42 -- res = 0.67028E+02, tol = 0.86399E+01, time = 4.65 | CG iter. 43 -- res = 0.54473E+02, tol = 0.86399E+01, time = 4.71 | CG iter. 44 -- res = 0.47969E+02, tol = 0.86399E+01, time = 5.24 | CG iter. 45 -- res = 0.41335E+02, tol = 0.86399E+01, time = 4.74 | CG iter. 46 -- res = 0.33006E+02, tol = 0.86399E+01, time = 4.58 | CG iter. 47 -- res = 0.26644E+02, tol = 0.86399E+01, time = 4.63 | CG iter. 48 -- res = 0.21892E+02, tol = 0.86399E+01, time = 4.82 | CG iter. 49 -- res = 0.18531E+02, tol = 0.86399E+01, time = 4.72 | CG iter. 50 -- res = 0.15798E+02, tol = 0.86399E+01, time = 4.64 | Final CG iter 51 -- res = 0.15798E+02, tol = 0.86399E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7464702.053 | Old band monopole 7841445.919 | Change to band monopole -376743.866 | Change to component monopole 376742.246 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.33288E+06, tol = 0.47627E+18, time = 1.49 | CG iter. 2 -- res = 0.14193E+03, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.29532E+01, tol = 0.47627E+18, time = 1.69 | CG iter. 4 -- res = 0.20601E-01, tol = 0.47627E+18, time = 1.63 | Final CG iter 5 -- res = 0.49838E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7464669.945 | (Sampled value in CG: 7401351.372 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.500134 | New value = 1.494551 | poltype: 2 pol: 1 CPU time specind = 2.3672104E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489506 | New value = 1.480332 | poltype: 2 pol: 2 CPU time specind = 2.1640062E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.24019E+08, tol = 0.47564E+04, time = 6.12 | CG iter. 2 -- res = 0.53177E+07, tol = 0.47564E+04, time = 5.68 | CG iter. 3 -- res = 0.83365E+06, tol = 0.47564E+04, time = 5.31 | CG iter. 4 -- res = 0.34976E+06, tol = 0.47564E+04, time = 5.47 | CG iter. 5 -- res = 0.15214E+06, tol = 0.47564E+04, time = 5.50 | CG iter. 6 -- res = 0.80014E+05, tol = 0.47564E+04, time = 5.43 | CG iter. 7 -- res = 0.43850E+05, tol = 0.47564E+04, time = 5.70 | CG iter. 8 -- res = 0.21034E+05, tol = 0.47564E+04, time = 5.30 | CG iter. 9 -- res = 0.91448E+04, tol = 0.47564E+04, time = 5.23 | CG iter. 10 -- res = 0.37407E+04, tol = 0.47564E+04, time = 5.59 | CG iter. 11 -- res = 0.17135E+04, tol = 0.47564E+04, time = 5.56 | CG iter. 12 -- res = 0.90208E+03, tol = 0.47564E+04, time = 5.55 | CG iter. 13 -- res = 0.50846E+03, tol = 0.47564E+04, time = 5.66 | CG iter. 14 -- res = 0.28524E+03, tol = 0.47564E+04, time = 5.62 | CG iter. 15 -- res = 0.14305E+03, tol = 0.47564E+04, time = 5.40 | CG iter. 16 -- res = 0.67180E+02, tol = 0.47564E+04, time = 5.74 | CG iter. 17 -- res = 0.31079E+02, tol = 0.47564E+04, time = 5.89 | CG iter. 18 -- res = 0.15869E+02, tol = 0.47564E+04, time = 5.23 | CG iter. 19 -- res = 0.86688E+01, tol = 0.47564E+04, time = 5.26 | CG iter. 20 -- res = 0.50155E+01, tol = 0.47564E+04, time = 6.90 | CG iter. 21 -- res = 0.27849E+01, tol = 0.47564E+04, time = 6.03 | CG iter. 22 -- res = 0.14197E+01, tol = 0.47564E+04, time = 5.43 | CG iter. 23 -- res = 0.71072E+00, tol = 0.47564E+04, time = 5.33 | CG iter. 24 -- res = 0.36221E+00, tol = 0.47564E+04, time = 5.54 | CG iter. 25 -- res = 0.19669E+00, tol = 0.47564E+04, time = 5.43 | CG iter. 26 -- res = 0.11201E+00, tol = 0.47564E+04, time = 5.42 | CG iter. 27 -- res = 0.63679E-01, tol = 0.47564E+04, time = 5.60 | CG iter. 28 -- res = 0.34212E-01, tol = 0.47564E+04, time = 5.63 | CG iter. 29 -- res = 0.17911E-01, tol = 0.47564E+04, time = 5.60 | CG iter. 30 -- res = 0.94374E-02, tol = 0.47564E+04, time = 5.43 | CG iter. 31 -- res = 0.51100E-02, tol = 0.47564E+04, time = 5.67 | CG iter. 32 -- res = 0.28886E-02, tol = 0.47564E+04, time = 5.72 | CG iter. 33 -- res = 0.16369E-02, tol = 0.47564E+04, time = 5.27 | CG iter. 34 -- res = 0.88832E-03, tol = 0.47564E+04, time = 5.49 | CG iter. 35 -- res = 0.46654E-03, tol = 0.47564E+04, time = 5.30 | Final CG iter 36 -- res = 0.46654E-03, tol = 0.47564E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.487 2.738 | New value -5.059 | Old value 0.487 | Difference -5.546 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.15981E+07, tol = 0.47627E+18, time = 1.65 | CG iter. 2 -- res = 0.60530E+02, tol = 0.47627E+18, time = 1.67 | CG iter. 3 -- res = 0.15930E+01, tol = 0.47627E+18, time = 1.63 | CG iter. 4 -- res = 0.25574E-03, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.31498E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7464669.945 | (Sampled value in CG: 7402377.481 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.706221 | New value = -3.549773 | poltype: 1 pol: 1 CPU time specind = 1.6572952E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.54 | CG iter. 1 -- res = 0.28385E+07, tol = 0.23643E+01, time = 2.09 | CG iter. 2 -- res = 0.13907E+07, tol = 0.23643E+01, time = 2.20 | CG iter. 3 -- res = 0.27801E+06, tol = 0.23643E+01, time = 2.36 | CG iter. 4 -- res = 0.11103E+06, tol = 0.23643E+01, time = 2.19 | CG iter. 5 -- res = 0.65445E+05, tol = 0.23643E+01, time = 2.23 | CG iter. 6 -- res = 0.33112E+05, tol = 0.23643E+01, time = 2.11 | CG iter. 7 -- res = 0.11521E+05, tol = 0.23643E+01, time = 2.36 | CG iter. 8 -- res = 0.48121E+04, tol = 0.23643E+01, time = 2.16 | CG iter. 9 -- res = 0.20262E+04, tol = 0.23643E+01, time = 2.14 | CG iter. 10 -- res = 0.79275E+03, tol = 0.23643E+01, time = 2.19 | CG iter. 11 -- res = 0.33061E+03, tol = 0.23643E+01, time = 2.29 | CG iter. 12 -- res = 0.16113E+03, tol = 0.23643E+01, time = 2.29 | CG iter. 13 -- res = 0.82075E+02, tol = 0.23643E+01, time = 1.97 | CG iter. 14 -- res = 0.41187E+02, tol = 0.23643E+01, time = 2.10 | CG iter. 15 -- res = 0.18106E+02, tol = 0.23643E+01, time = 2.06 | CG iter. 16 -- res = 0.76895E+01, tol = 0.23643E+01, time = 2.37 | CG iter. 17 -- res = 0.33926E+01, tol = 0.23643E+01, time = 2.11 | CG iter. 18 -- res = 0.15870E+01, tol = 0.23643E+01, time = 2.27 | CG iter. 19 -- res = 0.77935E+00, tol = 0.23643E+01, time = 2.18 | CG iter. 20 -- res = 0.41355E+00, tol = 0.23643E+01, time = 2.12 | CG iter. 21 -- res = 0.20582E+00, tol = 0.23643E+01, time = 2.18 | CG iter. 22 -- res = 0.98724E-01, tol = 0.23643E+01, time = 2.23 | CG iter. 23 -- res = 0.43054E-01, tol = 0.23643E+01, time = 2.23 | CG iter. 24 -- res = 0.19209E-01, tol = 0.23643E+01, time = 2.00 | CG iter. 25 -- res = 0.92144E-02, tol = 0.23643E+01, time = 2.19 | CG iter. 26 -- res = 0.48297E-02, tol = 0.23643E+01, time = 2.33 | CG iter. 27 -- res = 0.24493E-02, tol = 0.23643E+01, time = 2.24 | CG iter. 28 -- res = 0.12179E-02, tol = 0.23643E+01, time = 2.27 | CG iter. 29 -- res = 0.55756E-03, tol = 0.23643E+01, time = 2.18 | CG iter. 30 -- res = 0.24244E-03, tol = 0.23643E+01, time = 2.11 | CG iter. 31 -- res = 0.11362E-03, tol = 0.23643E+01, time = 2.29 | CG iter. 32 -- res = 0.60451E-04, tol = 0.23643E+01, time = 2.06 | CG iter. 33 -- res = 0.30663E-04, tol = 0.23643E+01, time = 2.34 | CG iter. 34 -- res = 0.15325E-04, tol = 0.23643E+01, time = 2.43 | CG iter. 35 -- res = 0.75618E-05, tol = 0.23643E+01, time = 2.25 | CG iter. 36 -- res = 0.35942E-05, tol = 0.23643E+01, time = 7.70 | CG iter. 37 -- res = 0.17168E-05, tol = 0.23643E+01, time = 3.22 | CG iter. 38 -- res = 0.84891E-06, tol = 0.23643E+01, time = 2.27 | CG iter. 39 -- res = 0.42058E-06, tol = 0.23643E+01, time = 2.19 | CG iter. 40 -- res = 0.20846E-06, tol = 0.23643E+01, time = 2.42 | CG iter. 41 -- res = 0.10277E-06, tol = 0.23643E+01, time = 2.35 | CG iter. 42 -- res = 0.49903E-07, tol = 0.23643E+01, time = 2.18 | CG iter. 43 -- res = 0.22125E-07, tol = 0.23643E+01, time = 2.20 | CG iter. 44 -- res = 0.10152E-07, tol = 0.23643E+01, time = 2.30 | CG iter. 45 -- res = 0.50750E-08, tol = 0.23643E+01, time = 2.08 | CG iter. 46 -- res = 0.24602E-08, tol = 0.23643E+01, time = 2.08 | CG iter. 47 -- res = 0.12184E-08, tol = 0.23643E+01, time = 2.34 | CG iter. 48 -- res = 0.59696E-09, tol = 0.23643E+01, time = 2.31 | CG iter. 49 -- res = 0.27918E-09, tol = 0.23643E+01, time = 2.31 | CG iter. 50 -- res = 0.12417E-09, tol = 0.23643E+01, time = 2.28 | Final CG iter 51 -- res = 0.12417E-09, tol = 0.23643E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.248 6.634 | New value -4.490 | Old value -0.248 | Difference -4.242 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.19802E+05, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.45645E+02, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.16258E+01, tol = 0.47627E+18, time = 1.71 | CG iter. 4 -- res = 0.27422E-02, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.14712E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7464669.945 | (Sampled value in CG: 7417053.409 ) | CPU time specind = 998.7896 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.68207E+08, tol = 0.57588E+04, time = 9.69 | CG iter. 2 -- res = 0.58121E+08, tol = 0.57588E+04, time = 9.79 | CG iter. 3 -- res = 0.14877E+08, tol = 0.57588E+04, time = 9.69 | CG iter. 4 -- res = 0.62629E+07, tol = 0.57588E+04, time = 9.90 | CG iter. 5 -- res = 0.36510E+07, tol = 0.57588E+04, time = 9.89 | CG iter. 6 -- res = 0.20894E+07, tol = 0.57588E+04, time = 9.54 | CG iter. 7 -- res = 0.12686E+07, tol = 0.57588E+04, time = 9.86 | CG iter. 8 -- res = 0.84373E+06, tol = 0.57588E+04, time = 9.82 | CG iter. 9 -- res = 0.54946E+06, tol = 0.57588E+04, time = 10.61 | CG iter. 10 -- res = 0.32287E+06, tol = 0.57588E+04, time = 9.63 | CG iter. 11 -- res = 0.17599E+06, tol = 0.57588E+04, time = 9.91 | CG iter. 12 -- res = 0.10073E+06, tol = 0.57588E+04, time = 9.74 | CG iter. 13 -- res = 0.60201E+05, tol = 0.57588E+04, time = 9.82 | CG iter. 14 -- res = 0.39242E+05, tol = 0.57588E+04, time = 9.71 | CG iter. 15 -- res = 0.30418E+05, tol = 0.57588E+04, time = 9.87 | CG iter. 16 -- res = 0.25690E+05, tol = 0.57588E+04, time = 10.01 | CG iter. 17 -- res = 0.22999E+05, tol = 0.57588E+04, time = 9.66 | CG iter. 18 -- res = 0.20393E+05, tol = 0.57588E+04, time = 10.08 | CG iter. 19 -- res = 0.17727E+05, tol = 0.57588E+04, time = 16.77 | CG iter. 20 -- res = 0.16222E+05, tol = 0.57588E+04, time = 9.67 | CG iter. 21 -- res = 0.15934E+05, tol = 0.57588E+04, time = 9.76 | CG iter. 22 -- res = 0.16376E+05, tol = 0.57588E+04, time = 10.09 | CG iter. 23 -- res = 0.17082E+05, tol = 0.57588E+04, time = 9.90 | CG iter. 24 -- res = 0.16840E+05, tol = 0.57588E+04, time = 10.14 | CG iter. 25 -- res = 0.14994E+05, tol = 0.57588E+04, time = 9.66 | CG iter. 26 -- res = 0.11917E+05, tol = 0.57588E+04, time = 9.61 | CG iter. 27 -- res = 0.89284E+04, tol = 0.57588E+04, time = 9.83 | CG iter. 28 -- res = 0.65748E+04, tol = 0.57588E+04, time = 11.63 | CG iter. 29 -- res = 0.52390E+04, tol = 0.57588E+04, time = 10.24 | CG iter. 30 -- res = 0.44562E+04, tol = 0.57588E+04, time = 9.87 | CG iter. 31 -- res = 0.39489E+04, tol = 0.57588E+04, time = 10.02 | CG iter. 32 -- res = 0.34281E+04, tol = 0.57588E+04, time = 9.74 | CG iter. 33 -- res = 0.29337E+04, tol = 0.57588E+04, time = 9.83 | CG iter. 34 -- res = 0.25550E+04, tol = 0.57588E+04, time = 9.75 | CG iter. 35 -- res = 0.22706E+04, tol = 0.57588E+04, time = 9.99 | CG iter. 36 -- res = 0.20685E+04, tol = 0.57588E+04, time = 9.62 | CG iter. 37 -- res = 0.20003E+04, tol = 0.57588E+04, time = 9.86 | CG iter. 38 -- res = 0.19699E+04, tol = 0.57588E+04, time = 9.89 | CG iter. 39 -- res = 0.18044E+04, tol = 0.57588E+04, time = 9.75 | CG iter. 40 -- res = 0.15322E+04, tol = 0.57588E+04, time = 9.89 | CG iter. 41 -- res = 0.12270E+04, tol = 0.57588E+04, time = 9.92 | CG iter. 42 -- res = 0.97874E+03, tol = 0.57588E+04, time = 9.62 | CG iter. 43 -- res = 0.82118E+03, tol = 0.57588E+04, time = 9.73 | CG iter. 44 -- res = 0.73780E+03, tol = 0.57588E+04, time = 9.56 | CG iter. 45 -- res = 0.67493E+03, tol = 0.57588E+04, time = 9.60 | CG iter. 46 -- res = 0.61630E+03, tol = 0.57588E+04, time = 9.60 | CG iter. 47 -- res = 0.55265E+03, tol = 0.57588E+04, time = 10.05 | CG iter. 48 -- res = 0.48414E+03, tol = 0.57588E+04, time = 9.86 | CG iter. 49 -- res = 0.42860E+03, tol = 0.57588E+04, time = 16.47 | CG iter. 50 -- res = 0.39690E+03, tol = 0.57588E+04, time = 9.66 | CG iter. 51 -- res = 0.38173E+03, tol = 0.57588E+04, time = 10.08 | CG iter. 52 -- res = 0.36815E+03, tol = 0.57588E+04, time = 9.54 | CG iter. 53 -- res = 0.33573E+03, tol = 0.57588E+04, time = 10.04 | CG iter. 54 -- res = 0.29756E+03, tol = 0.57588E+04, time = 10.85 | CG iter. 55 -- res = 0.25837E+03, tol = 0.57588E+04, time = 9.99 | CG iter. 56 -- res = 0.22254E+03, tol = 0.57588E+04, time = 9.80 | CG iter. 57 -- res = 0.19442E+03, tol = 0.57588E+04, time = 10.99 | CG iter. 58 -- res = 0.17909E+03, tol = 0.57588E+04, time = 11.09 | CG iter. 59 -- res = 0.17102E+03, tol = 0.57588E+04, time = 9.40 | CG iter. 60 -- res = 0.16485E+03, tol = 0.57588E+04, time = 10.16 | Final CG iter 61 -- res = 0.16485E+03, tol = 0.57588E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.927 ( -230.087 -2228.842 2511.075 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10051338.942 | Old band monopole 7464702.053 | Change to band monopole 2586636.889 | Change to component monopole -2586625.764 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.081 2.736 | New value -2.958 | Old value -5.081 | Difference 2.123 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.543 ( 7.553 8.985 -7.652 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.948 5.369 | New value 2.866 | Old value 1.948 | Difference 0.918 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.23700E+06, tol = 0.47627E+18, time = 1.65 | CG iter. 2 -- res = 0.25789E+02, tol = 0.47627E+18, time = 1.64 | CG iter. 3 -- res = 0.66392E+00, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.77447E-03, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.86394E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10051295.709 | (Sampled value in CG: 10026105.686 ) | Chain = 1 -- chisq = 0.81565275E+09 | Chain = 1 -- wall time = 16155.419 sec Available RAM: MemAvailable: 470722340 kB Available Swap: SwapFree: 1055523120 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 182 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443931 | --> Sampling calibration, mode = relcal | relcal = 1.3435916E-02 7.3649536E-04 -1.5969225E-03 -1.2575489E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.6441753E-02 0.1181525 9404843.39167633 | BP delta = 9.6441753E-02 0.1174341 9404852.88394913 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632369 | --> Sampling calibration, mode = relcal | relcal = -2.8206145E-03 -7.0453505E-04 1.6786320E-03 1.6130827E-03 -4.0655190E-04 6.3998665E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5815119 15213368.5655487 | BP delta = 0.0000000E+00 -0.5840702 15213366.8102004 | BP chisq diff = -1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18085062494013 | --> Sampling calibration, mode = relcal | relcal = -7.4462250E-02 -5.8056261E-02 9.1230161E-02 4.1288354E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6474753E-04 3.6952959E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7304E-05 | 2: delta_r/delta_0: 1.3783E-06 | 3: delta_s/delta_0: 2.2774E-07 | 4: delta_r/delta_0: 1.3979E-08 | 5: delta_s/delta_0: 9.2325E-09 | 6: delta_r/delta_0: 2.2998E-09 | 7: delta_s/delta_0: 3.2555E-10 | 8: delta_r/delta_0: 8.7751E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.141549619400230E-003 2.741508180492340E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.7309E-05 | 2: delta_r/delta_0: 1.3784E-06 | 3: delta_s/delta_0: 2.2774E-07 | 4: delta_r/delta_0: 1.3978E-08 | 5: delta_s/delta_0: 9.2314E-09 | 6: delta_r/delta_0: 2.2996E-09 | 7: delta_s/delta_0: 3.2564E-10 | 8: delta_r/delta_0: 8.7747E-11 | Reached bicg-stab tolerance | BP delta = 3.4511782E-02 5.0680455E-02 3666253.13264378 | BP delta = 3.4511782E-02 5.0684828E-02 3668136.92440964 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02570796 | --> Sampling calibration, mode = relcal | relcal = -0.1066909 -9.5458254E-02 0.1448859 5.7263248E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1704996E-03 1.3968935E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5330E-05 | 2: delta_r/delta_0: 1.2710E-06 | 3: delta_s/delta_0: 2.6065E-07 | 4: delta_r/delta_0: 3.6163E-08 | 5: delta_s/delta_0: 2.2052E-08 | 6: delta_r/delta_0: 6.0948E-09 | 7: delta_s/delta_0: 5.4815E-09 | 8: delta_r/delta_0: 1.4707E-09 | 9: delta_s/delta_0: 7.3452E-10 | 10: delta_r/delta_0: 5.4130E-10 | 11: delta_s/delta_0: 1.0230E-09 | 12: delta_r/delta_0: 7.2150E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.636230618172805E-003 2.811619136256977E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5330E-05 | 2: delta_r/delta_0: 1.2709E-06 | 3: delta_s/delta_0: 2.6063E-07 | 4: delta_r/delta_0: 3.6123E-08 | 5: delta_s/delta_0: 2.2068E-08 | 6: delta_r/delta_0: 6.0934E-09 | 7: delta_s/delta_0: 5.4834E-09 | 8: delta_r/delta_0: 1.4704E-09 | 9: delta_s/delta_0: 7.3430E-10 | 10: delta_r/delta_0: 5.4110E-10 | 11: delta_s/delta_0: 1.0226E-09 | 12: delta_r/delta_0: 7.2119E-11 | Reached bicg-stab tolerance | BP delta = -0.3267901 -0.3007971 2841603.03181860 | BP delta = -0.3267901 -0.3039824 2841690.07407274 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81209285 | --> Sampling calibration, mode = relcal | relcal = 0.2954468 0.2247593 -0.2836650 -0.2365411 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1958118E-03 5.4746829E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8017E-03 | 2: delta_r/delta_0: 4.1559E-05 | 3: delta_s/delta_0: 1.1110E-05 | 4: delta_r/delta_0: 1.1436E-06 | 5: delta_s/delta_0: 6.8975E-07 | 6: delta_r/delta_0: 5.3395E-08 | 7: delta_s/delta_0: 4.6541E-08 | 8: delta_r/delta_0: 2.4852E-08 | 9: delta_s/delta_0: 5.1912E-07 | 10: delta_r/delta_0: 9.8303E-09 | 11: delta_s/delta_0: 1.0536E-09 | 12: delta_r/delta_0: 4.8918E-10 | 13: delta_s/delta_0: 2.5157E-10 | 14: delta_r/delta_0: 1.7123E-10 | 15: delta_s/delta_0: 2.1582E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.029957298508484E-002 4.022350346531724E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8001E-03 | 2: delta_r/delta_0: 4.1523E-05 | 3: delta_s/delta_0: 1.1109E-05 | 4: delta_r/delta_0: 1.1438E-06 | 5: delta_s/delta_0: 6.8814E-07 | 6: delta_r/delta_0: 5.3308E-08 | 7: delta_s/delta_0: 4.6524E-08 | 8: delta_r/delta_0: 2.4848E-08 | 9: delta_s/delta_0: 5.1745E-07 | 10: delta_r/delta_0: 9.7424E-09 | 11: delta_s/delta_0: 1.0509E-09 | 12: delta_r/delta_0: 4.8855E-10 | 13: delta_s/delta_0: 2.5172E-10 | 14: delta_r/delta_0: 1.7106E-10 | 15: delta_s/delta_0: 2.1498E-11 | Reached bicg-stab tolerance | BP delta = -0.1632684 -0.1813176 2827336.57468722 | BP delta = -0.1632684 -0.1778397 2827439.85829191 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95903159 | --> Sampling calibration, mode = relcal | relcal = 0.1064650 0.1396259 -0.1102566 -0.1358342 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0034314E-02 1.2869275E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.0483E-04 | 2: delta_r/delta_0: 2.1951E-05 | 3: delta_s/delta_0: 5.2551E-05 | 4: delta_r/delta_0: 2.8632E-06 | 5: delta_s/delta_0: 3.7736E-07 | 6: delta_r/delta_0: 1.6622E-07 | 7: delta_s/delta_0: 4.7093E-07 | 8: delta_r/delta_0: 4.1113E-08 | 9: delta_s/delta_0: 6.5681E-08 | 10: delta_r/delta_0: 8.5496E-09 | 11: delta_s/delta_0: 2.3754E-09 | 12: delta_r/delta_0: 1.0060E-09 | 13: delta_s/delta_0: 3.1159E-09 | 14: delta_r/delta_0: 8.1192E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.474406983485247E-002 3.697727917328986E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.0446E-04 | 2: delta_r/delta_0: 2.1942E-05 | 3: delta_s/delta_0: 5.2553E-05 | 4: delta_r/delta_0: 2.8644E-06 | 5: delta_s/delta_0: 3.7735E-07 | 6: delta_r/delta_0: 1.6636E-07 | 7: delta_s/delta_0: 4.7356E-07 | 8: delta_r/delta_0: 4.1113E-08 | 9: delta_s/delta_0: 6.5958E-08 | 10: delta_r/delta_0: 8.6481E-09 | 11: delta_s/delta_0: 2.3775E-09 | 12: delta_r/delta_0: 1.0057E-09 | 13: delta_s/delta_0: 3.1256E-09 | 14: delta_r/delta_0: 8.1702E-11 | Reached bicg-stab tolerance | BP delta = 0.1017006 0.2199115 3004058.28594858 | BP delta = 0.1017006 0.2106046 3004024.01658614 | BP chisq diff = -34.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203807 | New value = -3.180505 | poltype: 2 pol: 1 CPU time specind = 4.3599606E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.192440 | New value = -3.134583 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157086 | New value = -3.208816 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163747 | New value = -3.200827 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.103561 | New value = -3.252057 | poltype: 2 pol: 2 CPU time specind = 1.9382000E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.13544E+08, tol = 0.69842E+01, time = 4.89 | CG iter. 2 -- res = 0.33882E+06, tol = 0.69842E+01, time = 4.97 | CG iter. 3 -- res = 0.45370E+05, tol = 0.69842E+01, time = 4.70 | CG iter. 4 -- res = 0.19522E+05, tol = 0.69842E+01, time = 4.95 | CG iter. 5 -- res = 0.93183E+04, tol = 0.69842E+01, time = 5.06 | CG iter. 6 -- res = 0.50783E+04, tol = 0.69842E+01, time = 4.83 | CG iter. 7 -- res = 0.34752E+04, tol = 0.69842E+01, time = 4.78 | CG iter. 8 -- res = 0.24907E+04, tol = 0.69842E+01, time = 4.77 | CG iter. 9 -- res = 0.20915E+04, tol = 0.69842E+01, time = 4.85 | CG iter. 10 -- res = 0.21347E+04, tol = 0.69842E+01, time = 5.60 | CG iter. 11 -- res = 0.20243E+04, tol = 0.69842E+01, time = 5.00 | CG iter. 12 -- res = 0.15544E+04, tol = 0.69842E+01, time = 4.95 | CG iter. 13 -- res = 0.10732E+04, tol = 0.69842E+01, time = 4.86 | CG iter. 14 -- res = 0.82742E+03, tol = 0.69842E+01, time = 5.06 | CG iter. 15 -- res = 0.70110E+03, tol = 0.69842E+01, time = 5.01 | CG iter. 16 -- res = 0.60007E+03, tol = 0.69842E+01, time = 4.97 | CG iter. 17 -- res = 0.44764E+03, tol = 0.69842E+01, time = 4.79 | CG iter. 18 -- res = 0.36099E+03, tol = 0.69842E+01, time = 4.82 | CG iter. 19 -- res = 0.30913E+03, tol = 0.69842E+01, time = 4.96 | CG iter. 20 -- res = 0.25908E+03, tol = 0.69842E+01, time = 5.03 | CG iter. 21 -- res = 0.19214E+03, tol = 0.69842E+01, time = 4.89 | CG iter. 22 -- res = 0.14128E+03, tol = 0.69842E+01, time = 4.91 | CG iter. 23 -- res = 0.11401E+03, tol = 0.69842E+01, time = 4.74 | CG iter. 24 -- res = 0.96487E+02, tol = 0.69842E+01, time = 4.87 | CG iter. 25 -- res = 0.74739E+02, tol = 0.69842E+01, time = 4.87 | CG iter. 26 -- res = 0.54184E+02, tol = 0.69842E+01, time = 4.66 | CG iter. 27 -- res = 0.41092E+02, tol = 0.69842E+01, time = 4.97 | CG iter. 28 -- res = 0.32858E+02, tol = 0.69842E+01, time = 4.79 | CG iter. 29 -- res = 0.25271E+02, tol = 0.69842E+01, time = 5.06 | CG iter. 30 -- res = 0.18497E+02, tol = 0.69842E+01, time = 8.95 | CG iter. 31 -- res = 0.13846E+02, tol = 0.69842E+01, time = 7.25 | CG iter. 32 -- res = 0.11321E+02, tol = 0.69842E+01, time = 4.84 | CG iter. 33 -- res = 0.91378E+01, tol = 0.69842E+01, time = 5.02 | CG iter. 34 -- res = 0.67733E+01, tol = 0.69842E+01, time = 4.92 | CG iter. 35 -- res = 0.47576E+01, tol = 0.69842E+01, time = 4.90 | CG iter. 36 -- res = 0.37681E+01, tol = 0.69842E+01, time = 5.24 | CG iter. 37 -- res = 0.31361E+01, tol = 0.69842E+01, time = 4.73 | CG iter. 38 -- res = 0.24112E+01, tol = 0.69842E+01, time = 4.93 | CG iter. 39 -- res = 0.17637E+01, tol = 0.69842E+01, time = 5.29 | CG iter. 40 -- res = 0.13815E+01, tol = 0.69842E+01, time = 4.76 | CG iter. 41 -- res = 0.11529E+01, tol = 0.69842E+01, time = 4.88 | CG iter. 42 -- res = 0.90905E+00, tol = 0.69842E+01, time = 4.81 | CG iter. 43 -- res = 0.68680E+00, tol = 0.69842E+01, time = 5.05 | CG iter. 44 -- res = 0.51502E+00, tol = 0.69842E+01, time = 4.80 | CG iter. 45 -- res = 0.41281E+00, tol = 0.69842E+01, time = 4.97 | CG iter. 46 -- res = 0.33118E+00, tol = 0.69842E+01, time = 5.08 | CG iter. 47 -- res = 0.25184E+00, tol = 0.69842E+01, time = 5.34 | CG iter. 48 -- res = 0.18499E+00, tol = 0.69842E+01, time = 5.70 | CG iter. 49 -- res = 0.14045E+00, tol = 0.69842E+01, time = 5.41 | CG iter. 50 -- res = 0.11570E+00, tol = 0.69842E+01, time = 5.00 | Final CG iter 51 -- res = 0.11570E+00, tol = 0.69842E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9052075.230 | Old band monopole 10051338.942 | Change to band monopole -999263.712 | Change to component monopole 999259.414 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.27 | CG iter. 1 -- res = 0.58426E+05, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.35721E+02, tol = 0.47627E+18, time = 1.63 | CG iter. 3 -- res = 0.16422E+01, tol = 0.47627E+18, time = 1.53 | CG iter. 4 -- res = 0.14408E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.12746E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9052036.295 | (Sampled value in CG: 9066352.873 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.494551 | New value = 1.448587 | poltype: 2 pol: 1 CPU time specind = 4.9490929E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.480332 | New value = 1.509390 | poltype: 2 pol: 2 CPU time specind = 2.3829937E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.24446E+08, tol = 0.47436E+04, time = 5.71 | CG iter. 2 -- res = 0.54516E+07, tol = 0.47436E+04, time = 5.23 | CG iter. 3 -- res = 0.85678E+06, tol = 0.47436E+04, time = 5.58 | CG iter. 4 -- res = 0.34376E+06, tol = 0.47436E+04, time = 5.63 | CG iter. 5 -- res = 0.14560E+06, tol = 0.47436E+04, time = 5.59 | CG iter. 6 -- res = 0.77667E+05, tol = 0.47436E+04, time = 5.56 | CG iter. 7 -- res = 0.42560E+05, tol = 0.47436E+04, time = 5.80 | CG iter. 8 -- res = 0.20264E+05, tol = 0.47436E+04, time = 5.88 | CG iter. 9 -- res = 0.90235E+04, tol = 0.47436E+04, time = 5.51 | CG iter. 10 -- res = 0.37298E+04, tol = 0.47436E+04, time = 5.79 | CG iter. 11 -- res = 0.16482E+04, tol = 0.47436E+04, time = 5.79 | CG iter. 12 -- res = 0.82859E+03, tol = 0.47436E+04, time = 5.44 | CG iter. 13 -- res = 0.46916E+03, tol = 0.47436E+04, time = 5.43 | CG iter. 14 -- res = 0.26748E+03, tol = 0.47436E+04, time = 6.10 | CG iter. 15 -- res = 0.13567E+03, tol = 0.47436E+04, time = 5.47 | CG iter. 16 -- res = 0.65751E+02, tol = 0.47436E+04, time = 12.01 | CG iter. 17 -- res = 0.31032E+02, tol = 0.47436E+04, time = 5.67 | CG iter. 18 -- res = 0.15417E+02, tol = 0.47436E+04, time = 5.59 | CG iter. 19 -- res = 0.82964E+01, tol = 0.47436E+04, time = 5.46 | CG iter. 20 -- res = 0.45334E+01, tol = 0.47436E+04, time = 5.86 | CG iter. 21 -- res = 0.24624E+01, tol = 0.47436E+04, time = 5.44 | CG iter. 22 -- res = 0.12885E+01, tol = 0.47436E+04, time = 5.29 | CG iter. 23 -- res = 0.65119E+00, tol = 0.47436E+04, time = 5.67 | CG iter. 24 -- res = 0.34200E+00, tol = 0.47436E+04, time = 5.66 | CG iter. 25 -- res = 0.18836E+00, tol = 0.47436E+04, time = 5.32 | CG iter. 26 -- res = 0.10790E+00, tol = 0.47436E+04, time = 5.88 | CG iter. 27 -- res = 0.60244E-01, tol = 0.47436E+04, time = 5.69 | CG iter. 28 -- res = 0.32497E-01, tol = 0.47436E+04, time = 5.64 | CG iter. 29 -- res = 0.16796E-01, tol = 0.47436E+04, time = 6.05 | CG iter. 30 -- res = 0.87080E-02, tol = 0.47436E+04, time = 5.72 | CG iter. 31 -- res = 0.47484E-02, tol = 0.47436E+04, time = 6.89 | CG iter. 32 -- res = 0.26944E-02, tol = 0.47436E+04, time = 6.01 | CG iter. 33 -- res = 0.15129E-02, tol = 0.47436E+04, time = 6.26 | CG iter. 34 -- res = 0.82583E-03, tol = 0.47436E+04, time = 5.83 | CG iter. 35 -- res = 0.43014E-03, tol = 0.47436E+04, time = 5.43 | Final CG iter 36 -- res = 0.43014E-03, tol = 0.47436E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.931 2.730 | New value 3.696 | Old value -2.931 | Difference 6.627 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.22675E+07, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.25932E+02, tol = 0.47627E+18, time = 1.63 | CG iter. 3 -- res = 0.84678E+00, tol = 0.47627E+18, time = 1.68 | CG iter. 4 -- res = 0.10188E-02, tol = 0.47627E+18, time = 1.65 | Final CG iter 5 -- res = 0.62113E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9052036.295 | (Sampled value in CG: 9066405.802 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.549773 | New value = -3.592046 | poltype: 1 pol: 1 CPU time specind = 4.9631596E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.42 | CG iter. 1 -- res = 0.21503E+07, tol = 0.25387E+01, time = 2.32 | CG iter. 2 -- res = 0.73280E+06, tol = 0.25387E+01, time = 2.52 | CG iter. 3 -- res = 0.13419E+06, tol = 0.25387E+01, time = 2.25 | CG iter. 4 -- res = 0.56214E+05, tol = 0.25387E+01, time = 2.15 | CG iter. 5 -- res = 0.33199E+05, tol = 0.25387E+01, time = 2.21 | CG iter. 6 -- res = 0.17122E+05, tol = 0.25387E+01, time = 2.29 | CG iter. 7 -- res = 0.71041E+04, tol = 0.25387E+01, time = 2.52 | CG iter. 8 -- res = 0.32701E+04, tol = 0.25387E+01, time = 2.26 | CG iter. 9 -- res = 0.13851E+04, tol = 0.25387E+01, time = 2.51 | CG iter. 10 -- res = 0.53449E+03, tol = 0.25387E+01, time = 2.23 | CG iter. 11 -- res = 0.22564E+03, tol = 0.25387E+01, time = 3.65 | CG iter. 12 -- res = 0.11141E+03, tol = 0.25387E+01, time = 2.94 | CG iter. 13 -- res = 0.58108E+02, tol = 0.25387E+01, time = 2.52 | CG iter. 14 -- res = 0.29600E+02, tol = 0.25387E+01, time = 2.72 | CG iter. 15 -- res = 0.13018E+02, tol = 0.25387E+01, time = 2.85 | CG iter. 16 -- res = 0.55096E+01, tol = 0.25387E+01, time = 2.24 | CG iter. 17 -- res = 0.24624E+01, tol = 0.25387E+01, time = 2.24 | CG iter. 18 -- res = 0.10888E+01, tol = 0.25387E+01, time = 2.46 | CG iter. 19 -- res = 0.53001E+00, tol = 0.25387E+01, time = 2.17 | CG iter. 20 -- res = 0.25963E+00, tol = 0.25387E+01, time = 2.31 | CG iter. 21 -- res = 0.13677E+00, tol = 0.25387E+01, time = 2.48 | CG iter. 22 -- res = 0.64721E-01, tol = 0.25387E+01, time = 2.28 | CG iter. 23 -- res = 0.27815E-01, tol = 0.25387E+01, time = 2.33 | CG iter. 24 -- res = 0.12496E-01, tol = 0.25387E+01, time = 2.27 | CG iter. 25 -- res = 0.60069E-02, tol = 0.25387E+01, time = 2.16 | CG iter. 26 -- res = 0.31236E-02, tol = 0.25387E+01, time = 2.32 | CG iter. 27 -- res = 0.15630E-02, tol = 0.25387E+01, time = 2.21 | CG iter. 28 -- res = 0.78410E-03, tol = 0.25387E+01, time = 2.24 | CG iter. 29 -- res = 0.34974E-03, tol = 0.25387E+01, time = 2.17 | CG iter. 30 -- res = 0.15680E-03, tol = 0.25387E+01, time = 2.33 | CG iter. 31 -- res = 0.74718E-04, tol = 0.25387E+01, time = 2.42 | CG iter. 32 -- res = 0.38903E-04, tol = 0.25387E+01, time = 2.28 | CG iter. 33 -- res = 0.19267E-04, tol = 0.25387E+01, time = 2.04 | CG iter. 34 -- res = 0.94808E-05, tol = 0.25387E+01, time = 2.17 | CG iter. 35 -- res = 0.44998E-05, tol = 0.25387E+01, time = 2.36 | CG iter. 36 -- res = 0.20497E-05, tol = 0.25387E+01, time = 2.34 | CG iter. 37 -- res = 0.96193E-06, tol = 0.25387E+01, time = 2.19 | CG iter. 38 -- res = 0.49539E-06, tol = 0.25387E+01, time = 2.21 | CG iter. 39 -- res = 0.24996E-06, tol = 0.25387E+01, time = 2.22 | CG iter. 40 -- res = 0.12069E-06, tol = 0.25387E+01, time = 2.40 | CG iter. 41 -- res = 0.57833E-07, tol = 0.25387E+01, time = 2.23 | CG iter. 42 -- res = 0.26927E-07, tol = 0.25387E+01, time = 2.56 | CG iter. 43 -- res = 0.12907E-07, tol = 0.25387E+01, time = 2.29 | CG iter. 44 -- res = 0.61386E-08, tol = 0.25387E+01, time = 2.22 | CG iter. 45 -- res = 0.31133E-08, tol = 0.25387E+01, time = 2.24 | CG iter. 46 -- res = 0.14912E-08, tol = 0.25387E+01, time = 2.33 | CG iter. 47 -- res = 0.73085E-09, tol = 0.25387E+01, time = 2.45 | CG iter. 48 -- res = 0.34383E-09, tol = 0.25387E+01, time = 2.31 | CG iter. 49 -- res = 0.15813E-09, tol = 0.25387E+01, time = 2.26 | CG iter. 50 -- res = 0.75290E-10, tol = 0.25387E+01, time = 2.19 | Final CG iter 51 -- res = 0.75290E-10, tol = 0.25387E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.763 5.013 | New value 0.524 | Old value 4.763 | Difference -4.239 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.18474E+05, tol = 0.47627E+18, time = 1.54 | CG iter. 2 -- res = 0.17616E+02, tol = 0.47627E+18, time = 1.56 | CG iter. 3 -- res = 0.65716E+00, tol = 0.47627E+18, time = 1.66 | CG iter. 4 -- res = 0.97888E-03, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.18513E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9052036.295 | (Sampled value in CG: 9064825.320 ) | CPU time specind = 1028.970 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.69830E+08, tol = 0.57670E+04, time = 9.72 | CG iter. 2 -- res = 0.59304E+08, tol = 0.57670E+04, time = 10.37 | CG iter. 3 -- res = 0.15544E+08, tol = 0.57670E+04, time = 10.16 | CG iter. 4 -- res = 0.65325E+07, tol = 0.57670E+04, time = 16.89 | CG iter. 5 -- res = 0.37914E+07, tol = 0.57670E+04, time = 10.42 | CG iter. 6 -- res = 0.22164E+07, tol = 0.57670E+04, time = 10.23 | CG iter. 7 -- res = 0.13275E+07, tol = 0.57670E+04, time = 10.07 | CG iter. 8 -- res = 0.87206E+06, tol = 0.57670E+04, time = 10.14 | CG iter. 9 -- res = 0.55853E+06, tol = 0.57670E+04, time = 10.39 | CG iter. 10 -- res = 0.32936E+06, tol = 0.57670E+04, time = 10.35 | CG iter. 11 -- res = 0.17888E+06, tol = 0.57670E+04, time = 10.23 | CG iter. 12 -- res = 0.96443E+05, tol = 0.57670E+04, time = 11.30 | CG iter. 13 -- res = 0.51376E+05, tol = 0.57670E+04, time = 11.23 | CG iter. 14 -- res = 0.28768E+05, tol = 0.57670E+04, time = 10.63 | CG iter. 15 -- res = 0.18104E+05, tol = 0.57670E+04, time = 10.14 | CG iter. 16 -- res = 0.12282E+05, tol = 0.57670E+04, time = 9.82 | CG iter. 17 -- res = 0.86980E+04, tol = 0.57670E+04, time = 10.45 | CG iter. 18 -- res = 0.60612E+04, tol = 0.57670E+04, time = 10.08 | CG iter. 19 -- res = 0.40496E+04, tol = 0.57670E+04, time = 10.56 | CG iter. 20 -- res = 0.26824E+04, tol = 0.57670E+04, time = 10.30 | CG iter. 21 -- res = 0.18932E+04, tol = 0.57670E+04, time = 9.95 | CG iter. 22 -- res = 0.15195E+04, tol = 0.57670E+04, time = 10.33 | CG iter. 23 -- res = 0.14150E+04, tol = 0.57670E+04, time = 11.02 | CG iter. 24 -- res = 0.14429E+04, tol = 0.57670E+04, time = 10.33 | CG iter. 25 -- res = 0.15175E+04, tol = 0.57670E+04, time = 10.13 | CG iter. 26 -- res = 0.14942E+04, tol = 0.57670E+04, time = 10.31 | CG iter. 27 -- res = 0.13736E+04, tol = 0.57670E+04, time = 10.06 | CG iter. 28 -- res = 0.12099E+04, tol = 0.57670E+04, time = 10.34 | CG iter. 29 -- res = 0.10740E+04, tol = 0.57670E+04, time = 10.33 | CG iter. 30 -- res = 0.98288E+03, tol = 0.57670E+04, time = 10.57 | CG iter. 31 -- res = 0.87900E+03, tol = 0.57670E+04, time = 10.05 | CG iter. 32 -- res = 0.77002E+03, tol = 0.57670E+04, time = 17.38 | CG iter. 33 -- res = 0.63697E+03, tol = 0.57670E+04, time = 10.15 | CG iter. 34 -- res = 0.48820E+03, tol = 0.57670E+04, time = 10.43 | CG iter. 35 -- res = 0.36423E+03, tol = 0.57670E+04, time = 10.21 | CG iter. 36 -- res = 0.28530E+03, tol = 0.57670E+04, time = 10.43 | CG iter. 37 -- res = 0.24623E+03, tol = 0.57670E+04, time = 10.29 | CG iter. 38 -- res = 0.22464E+03, tol = 0.57670E+04, time = 10.24 | CG iter. 39 -- res = 0.20931E+03, tol = 0.57670E+04, time = 10.20 | CG iter. 40 -- res = 0.19232E+03, tol = 0.57670E+04, time = 10.42 | CG iter. 41 -- res = 0.17047E+03, tol = 0.57670E+04, time = 12.03 | CG iter. 42 -- res = 0.14985E+03, tol = 0.57670E+04, time = 10.24 | CG iter. 43 -- res = 0.13521E+03, tol = 0.57670E+04, time = 10.07 | CG iter. 44 -- res = 0.12408E+03, tol = 0.57670E+04, time = 10.27 | CG iter. 45 -- res = 0.11339E+03, tol = 0.57670E+04, time = 10.23 | CG iter. 46 -- res = 0.10306E+03, tol = 0.57670E+04, time = 10.47 | CG iter. 47 -- res = 0.89630E+02, tol = 0.57670E+04, time = 10.13 | CG iter. 48 -- res = 0.74191E+02, tol = 0.57670E+04, time = 10.41 | CG iter. 49 -- res = 0.59256E+02, tol = 0.57670E+04, time = 10.09 | CG iter. 50 -- res = 0.48360E+02, tol = 0.57670E+04, time = 10.32 | CG iter. 51 -- res = 0.42174E+02, tol = 0.57670E+04, time = 10.21 | CG iter. 52 -- res = 0.38950E+02, tol = 0.57670E+04, time = 10.28 | CG iter. 53 -- res = 0.37255E+02, tol = 0.57670E+04, time = 10.02 | CG iter. 54 -- res = 0.34489E+02, tol = 0.57670E+04, time = 10.51 | CG iter. 55 -- res = 0.30645E+02, tol = 0.57670E+04, time = 10.09 | CG iter. 56 -- res = 0.26256E+02, tol = 0.57670E+04, time = 10.24 | CG iter. 57 -- res = 0.22894E+02, tol = 0.57670E+04, time = 10.15 | CG iter. 58 -- res = 0.20923E+02, tol = 0.57670E+04, time = 9.95 | CG iter. 59 -- res = 0.19642E+02, tol = 0.57670E+04, time = 10.38 | CG iter. 60 -- res = 0.18963E+02, tol = 0.57670E+04, time = 10.78 | Final CG iter 61 -- res = 0.18963E+02, tol = 0.57670E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.801 ( -229.944 -2229.271 2511.362 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8946561.121 | Old band monopole 9052075.230 | Change to band monopole -105514.109 | Change to component monopole 105513.655 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.722 2.753 | New value -0.766 | Old value 3.722 | Difference -4.488 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.611 ( 7.856 9.874 -8.597 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.177 5.647 | New value -1.812 | Old value 6.177 | Difference -7.989 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.43 | CG iter. 1 -- res = 0.10406E+07, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.26267E+02, tol = 0.47627E+18, time = 1.74 | CG iter. 3 -- res = 0.69745E+00, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.89049E-03, tol = 0.47627E+18, time = 1.59 | Final CG iter 5 -- res = 0.31083E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8946522.640 | (Sampled value in CG: 8919887.800 ) | Chain = 1 -- chisq = 0.81591261E+09 | Chain = 1 -- wall time = 5880.455 sec Available RAM: MemAvailable: 380464576 kB Available Swap: SwapFree: 1114120468 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 183 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442678 | --> Sampling calibration, mode = relcal | relcal = 1.3424835E-02 7.4945041E-04 -1.5975030E-03 -1.2576783E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.6441753E-02 0.1181525 97049128.6043159 | BP delta = 9.9116363E-02 0.1208271 97049127.6021235 | BP chisq diff = -1.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632451 | --> Sampling calibration, mode = relcal | relcal = -2.8209714E-03 -7.0368295E-04 1.6781780E-03 1.6137759E-03 -4.0851880E-04 6.4121932E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5840702 15215857.7662534 | BP delta = 0.0000000E+00 -0.5761791 15215857.9353922 | BP chisq diff = 0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18331611112719 | --> Sampling calibration, mode = relcal | relcal = -7.5312831E-02 -5.8867611E-02 9.2341296E-02 4.1839145E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7419207E-04 5.0676893E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4047E-05 | 2: delta_r/delta_0: 1.0826E-06 | 3: delta_s/delta_0: 1.9097E-07 | 4: delta_r/delta_0: 2.7993E-08 | 5: delta_s/delta_0: 8.6858E-09 | 6: delta_r/delta_0: 2.5802E-09 | 7: delta_s/delta_0: 5.8366E-10 | 8: delta_r/delta_0: 1.1462E-10 | 9: delta_s/delta_0: 4.7245E-10 | 10: delta_r/delta_0: 1.2826E-10 | 11: delta_s/delta_0: 4.7526E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.082771412686297E-003 2.735659469418621E-005 | BP delta = 3.4511782E-02 5.0680455E-02 50483293.5764002 | BP delta = 3.6758907E-02 5.2927580E-02 50483292.2286711 | BP chisq diff = -1.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02578786 | --> Sampling calibration, mode = relcal | relcal = -0.1066692 -9.5556945E-02 0.1449336 5.7292640E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2406258E-03 1.7489529E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0691E-05 | 2: delta_r/delta_0: 1.2126E-06 | 3: delta_s/delta_0: 2.6197E-07 | 4: delta_r/delta_0: 3.8882E-08 | 5: delta_s/delta_0: 2.0895E-08 | 6: delta_r/delta_0: 6.3077E-09 | 7: delta_s/delta_0: 7.2132E-09 | 8: delta_r/delta_0: 1.3552E-09 | 9: delta_s/delta_0: 6.6564E-10 | 10: delta_r/delta_0: 5.0221E-10 | 11: delta_s/delta_0: 1.7993E-09 | 12: delta_r/delta_0: 2.7220E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.428269748248530E-003 2.811403007444087E-005 | BP delta = -0.3267901 -0.3007971 57387023.0448255 | BP delta = -0.3191513 -0.2931582 57387022.2965861 | BP chisq diff = -0.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81227682 | --> Sampling calibration, mode = relcal | relcal = 0.2954836 0.2248719 -0.2837926 -0.2365629 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0475601E-03 5.2359109E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4146E-03 | 2: delta_r/delta_0: 5.5944E-05 | 3: delta_s/delta_0: 1.1901E-04 | 4: delta_r/delta_0: 8.5380E-06 | 5: delta_s/delta_0: 1.0967E-05 | 6: delta_r/delta_0: 1.9737E-06 | 7: delta_s/delta_0: 7.5404E-08 | 8: delta_r/delta_0: 3.4067E-08 | 9: delta_s/delta_0: 1.9925E-07 | 10: delta_r/delta_0: 5.0170E-09 | 11: delta_s/delta_0: 3.5395E-09 | 12: delta_r/delta_0: 5.1777E-10 | 13: delta_s/delta_0: 4.8120E-10 | 14: delta_r/delta_0: 1.1239E-10 | 15: delta_s/delta_0: 2.5064E-09 | 16: delta_r/delta_0: 1.2470E-09 | 17: delta_s/delta_0: 1.5208E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.145325142459982E-002 4.021436806846329E-005 | BP delta = -0.1632684 -0.1813176 72488632.7736233 | BP delta = -0.1337412 -0.1517904 72488633.8981605 | BP chisq diff = 1.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95916200 | --> Sampling calibration, mode = relcal | relcal = 0.1064814 0.1395281 -0.1102711 -0.1357384 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3176560E-03 1.3033771E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1161E-03 | 2: delta_r/delta_0: 5.1107E-05 | 3: delta_s/delta_0: 5.3510E-04 | 4: delta_r/delta_0: 2.4305E-05 | 5: delta_s/delta_0: 5.2671E-07 | 6: delta_r/delta_0: 2.0221E-07 | 7: delta_s/delta_0: 5.8416E-07 | 8: delta_r/delta_0: 5.2477E-08 | 9: delta_s/delta_0: 1.6012E-08 | 10: delta_r/delta_0: 6.4094E-09 | 11: delta_s/delta_0: 2.6690E-09 | 12: delta_r/delta_0: 1.4001E-09 | 13: delta_s/delta_0: 1.0476E-09 | 14: delta_r/delta_0: 1.0210E-10 | 15: delta_s/delta_0: 8.6658E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.794697902296845E-002 3.697141241935509E-005 | BP delta = 0.1017006 0.2106046 72776818.9371189 | BP delta = 8.1263773E-02 0.1901678 72776818.6887454 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.180505 | New value = -3.144059 | poltype: 2 pol: 1 CPU time specind = 1.0509968E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134583 | New value = -3.205582 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208816 | New value = -3.161036 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200827 | New value = -3.164300 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.252057 | New value = -3.185670 | poltype: 2 pol: 2 CPU time specind = 5.5201054E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.13579E+08, tol = 0.77967E+01, time = 4.92 | CG iter. 2 -- res = 0.33997E+06, tol = 0.77967E+01, time = 4.82 | CG iter. 3 -- res = 0.53267E+05, tol = 0.77967E+01, time = 4.90 | CG iter. 4 -- res = 0.30458E+05, tol = 0.77967E+01, time = 5.10 | CG iter. 5 -- res = 0.21442E+05, tol = 0.77967E+01, time = 4.81 | CG iter. 6 -- res = 0.18336E+05, tol = 0.77967E+01, time = 4.74 | CG iter. 7 -- res = 0.18521E+05, tol = 0.77967E+01, time = 4.94 | CG iter. 8 -- res = 0.16587E+05, tol = 0.77967E+01, time = 4.77 | CG iter. 9 -- res = 0.14782E+05, tol = 0.77967E+01, time = 5.31 | CG iter. 10 -- res = 0.13655E+05, tol = 0.77967E+01, time = 5.00 | CG iter. 11 -- res = 0.99242E+04, tol = 0.77967E+01, time = 4.86 | CG iter. 12 -- res = 0.65360E+04, tol = 0.77967E+01, time = 4.73 | CG iter. 13 -- res = 0.46565E+04, tol = 0.77967E+01, time = 4.98 | CG iter. 14 -- res = 0.39063E+04, tol = 0.77967E+01, time = 5.11 | CG iter. 15 -- res = 0.34534E+04, tol = 0.77967E+01, time = 5.05 | CG iter. 16 -- res = 0.27136E+04, tol = 0.77967E+01, time = 5.15 | CG iter. 17 -- res = 0.19293E+04, tol = 0.77967E+01, time = 4.81 | CG iter. 18 -- res = 0.15004E+04, tol = 0.77967E+01, time = 4.81 | CG iter. 19 -- res = 0.12551E+04, tol = 0.77967E+01, time = 4.95 | CG iter. 20 -- res = 0.10375E+04, tol = 0.77967E+01, time = 5.00 | CG iter. 21 -- res = 0.77095E+03, tol = 0.77967E+01, time = 4.79 | CG iter. 22 -- res = 0.60833E+03, tol = 0.77967E+01, time = 4.90 | CG iter. 23 -- res = 0.53684E+03, tol = 0.77967E+01, time = 5.04 | CG iter. 24 -- res = 0.46805E+03, tol = 0.77967E+01, time = 4.89 | CG iter. 25 -- res = 0.37233E+03, tol = 0.77967E+01, time = 4.73 | CG iter. 26 -- res = 0.27876E+03, tol = 0.77967E+01, time = 5.00 | CG iter. 27 -- res = 0.23808E+03, tol = 0.77967E+01, time = 5.17 | CG iter. 28 -- res = 0.21571E+03, tol = 0.77967E+01, time = 4.83 | CG iter. 29 -- res = 0.18352E+03, tol = 0.77967E+01, time = 11.42 | CG iter. 30 -- res = 0.14275E+03, tol = 0.77967E+01, time = 4.88 | CG iter. 31 -- res = 0.11910E+03, tol = 0.77967E+01, time = 4.95 | CG iter. 32 -- res = 0.10419E+03, tol = 0.77967E+01, time = 4.96 | CG iter. 33 -- res = 0.88828E+02, tol = 0.77967E+01, time = 4.56 | CG iter. 34 -- res = 0.69401E+02, tol = 0.77967E+01, time = 4.90 | CG iter. 35 -- res = 0.54863E+02, tol = 0.77967E+01, time = 5.09 | CG iter. 36 -- res = 0.47516E+02, tol = 0.77967E+01, time = 4.91 | CG iter. 37 -- res = 0.41898E+02, tol = 0.77967E+01, time = 4.86 | CG iter. 38 -- res = 0.32414E+02, tol = 0.77967E+01, time = 4.93 | CG iter. 39 -- res = 0.24933E+02, tol = 0.77967E+01, time = 4.92 | CG iter. 40 -- res = 0.20539E+02, tol = 0.77967E+01, time = 5.02 | CG iter. 41 -- res = 0.16845E+02, tol = 0.77967E+01, time = 4.92 | CG iter. 42 -- res = 0.13653E+02, tol = 0.77967E+01, time = 4.94 | CG iter. 43 -- res = 0.10423E+02, tol = 0.77967E+01, time = 5.14 | CG iter. 44 -- res = 0.79653E+01, tol = 0.77967E+01, time = 4.88 | CG iter. 45 -- res = 0.65036E+01, tol = 0.77967E+01, time = 4.84 | CG iter. 46 -- res = 0.52240E+01, tol = 0.77967E+01, time = 5.41 | CG iter. 47 -- res = 0.39390E+01, tol = 0.77967E+01, time = 6.18 | CG iter. 48 -- res = 0.30267E+01, tol = 0.77967E+01, time = 5.23 | CG iter. 49 -- res = 0.24733E+01, tol = 0.77967E+01, time = 5.15 | CG iter. 50 -- res = 0.20181E+01, tol = 0.77967E+01, time = 4.92 | Final CG iter 51 -- res = 0.20181E+01, tol = 0.77967E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9985071.783 | Old band monopole 8946561.121 | Change to band monopole 1038510.662 | Change to component monopole -1038506.195 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.14275E+05, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.32379E+02, tol = 0.47627E+18, time = 1.83 | CG iter. 3 -- res = 0.99312E+00, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.19644E-02, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.11161E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9985028.835 | (Sampled value in CG: 10018315.352 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.448587 | New value = 1.456766 | poltype: 2 pol: 1 CPU time specind = 1.9263983E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509390 | New value = 1.484648 | poltype: 2 pol: 2 CPU time specind = 2.6249886E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.46 | CG iter. 1 -- res = 0.24025E+08, tol = 0.47491E+04, time = 5.68 | CG iter. 2 -- res = 0.54120E+07, tol = 0.47491E+04, time = 5.65 | CG iter. 3 -- res = 0.86044E+06, tol = 0.47491E+04, time = 5.67 | CG iter. 4 -- res = 0.35631E+06, tol = 0.47491E+04, time = 5.66 | CG iter. 5 -- res = 0.15328E+06, tol = 0.47491E+04, time = 5.33 | CG iter. 6 -- res = 0.80925E+05, tol = 0.47491E+04, time = 5.80 | CG iter. 7 -- res = 0.44482E+05, tol = 0.47491E+04, time = 5.77 | CG iter. 8 -- res = 0.21332E+05, tol = 0.47491E+04, time = 5.67 | CG iter. 9 -- res = 0.92966E+04, tol = 0.47491E+04, time = 5.78 | CG iter. 10 -- res = 0.37739E+04, tol = 0.47491E+04, time = 5.71 | CG iter. 11 -- res = 0.16739E+04, tol = 0.47491E+04, time = 5.36 | CG iter. 12 -- res = 0.85607E+03, tol = 0.47491E+04, time = 5.83 | CG iter. 13 -- res = 0.49399E+03, tol = 0.47491E+04, time = 5.66 | CG iter. 14 -- res = 0.27697E+03, tol = 0.47491E+04, time = 5.74 | CG iter. 15 -- res = 0.14095E+03, tol = 0.47491E+04, time = 11.76 | CG iter. 16 -- res = 0.66430E+02, tol = 0.47491E+04, time = 5.73 | CG iter. 17 -- res = 0.30806E+02, tol = 0.47491E+04, time = 5.41 | CG iter. 18 -- res = 0.15557E+02, tol = 0.47491E+04, time = 5.81 | CG iter. 19 -- res = 0.84875E+01, tol = 0.47491E+04, time = 5.70 | CG iter. 20 -- res = 0.46741E+01, tol = 0.47491E+04, time = 5.57 | CG iter. 21 -- res = 0.25337E+01, tol = 0.47491E+04, time = 5.70 | CG iter. 22 -- res = 0.12976E+01, tol = 0.47491E+04, time = 5.46 | CG iter. 23 -- res = 0.64529E+00, tol = 0.47491E+04, time = 5.57 | CG iter. 24 -- res = 0.33734E+00, tol = 0.47491E+04, time = 5.54 | CG iter. 25 -- res = 0.18819E+00, tol = 0.47491E+04, time = 5.58 | CG iter. 26 -- res = 0.10786E+00, tol = 0.47491E+04, time = 5.50 | CG iter. 27 -- res = 0.60636E-01, tol = 0.47491E+04, time = 5.93 | CG iter. 28 -- res = 0.32781E-01, tol = 0.47491E+04, time = 5.54 | CG iter. 29 -- res = 0.17389E-01, tol = 0.47491E+04, time = 5.40 | CG iter. 30 -- res = 0.91595E-02, tol = 0.47491E+04, time = 7.19 | CG iter. 31 -- res = 0.48914E-02, tol = 0.47491E+04, time = 6.17 | CG iter. 32 -- res = 0.27529E-02, tol = 0.47491E+04, time = 6.13 | CG iter. 33 -- res = 0.15229E-02, tol = 0.47491E+04, time = 5.47 | CG iter. 34 -- res = 0.82872E-03, tol = 0.47491E+04, time = 5.64 | CG iter. 35 -- res = 0.43699E-03, tol = 0.47491E+04, time = 5.48 | Final CG iter 36 -- res = 0.43699E-03, tol = 0.47491E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.807 2.734 | New value 1.088 | Old value -0.807 | Difference 1.895 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.55 | CG iter. 1 -- res = 0.18652E+06, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.24080E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.71662E+00, tol = 0.47627E+18, time = 1.74 | Final CG iter 4 -- res = 0.53027E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9985028.835 | (Sampled value in CG: 10017337.672 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.592046 | New value = -3.635330 | poltype: 1 pol: 1 CPU time specind = 4.9448013E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.21423E+07, tol = 0.20403E+01, time = 2.25 | CG iter. 2 -- res = 0.70081E+06, tol = 0.20403E+01, time = 2.41 | CG iter. 3 -- res = 0.13183E+06, tol = 0.20403E+01, time = 2.54 | CG iter. 4 -- res = 0.53747E+05, tol = 0.20403E+01, time = 2.04 | CG iter. 5 -- res = 0.32773E+05, tol = 0.20403E+01, time = 2.23 | CG iter. 6 -- res = 0.17490E+05, tol = 0.20403E+01, time = 2.66 | CG iter. 7 -- res = 0.66960E+04, tol = 0.20403E+01, time = 2.23 | CG iter. 8 -- res = 0.28216E+04, tol = 0.20403E+01, time = 2.11 | CG iter. 9 -- res = 0.11843E+04, tol = 0.20403E+01, time = 2.44 | CG iter. 10 -- res = 0.46097E+03, tol = 0.20403E+01, time = 3.40 | CG iter. 11 -- res = 0.20553E+03, tol = 0.20403E+01, time = 2.95 | CG iter. 12 -- res = 0.10354E+03, tol = 0.20403E+01, time = 2.64 | CG iter. 13 -- res = 0.53397E+02, tol = 0.20403E+01, time = 2.33 | CG iter. 14 -- res = 0.27163E+02, tol = 0.20403E+01, time = 2.97 | CG iter. 15 -- res = 0.11781E+02, tol = 0.20403E+01, time = 2.26 | CG iter. 16 -- res = 0.50718E+01, tol = 0.20403E+01, time = 2.27 | CG iter. 17 -- res = 0.20882E+01, tol = 0.20403E+01, time = 2.08 | CG iter. 18 -- res = 0.10057E+01, tol = 0.20403E+01, time = 2.33 | CG iter. 19 -- res = 0.49403E+00, tol = 0.20403E+01, time = 2.30 | CG iter. 20 -- res = 0.24791E+00, tol = 0.20403E+01, time = 2.58 | CG iter. 21 -- res = 0.11551E+00, tol = 0.20403E+01, time = 2.35 | CG iter. 22 -- res = 0.51290E-01, tol = 0.20403E+01, time = 2.20 | CG iter. 23 -- res = 0.23727E-01, tol = 0.20403E+01, time = 2.19 | CG iter. 24 -- res = 0.11134E-01, tol = 0.20403E+01, time = 2.45 | CG iter. 25 -- res = 0.55341E-02, tol = 0.20403E+01, time = 2.34 | CG iter. 26 -- res = 0.27113E-02, tol = 0.20403E+01, time = 2.44 | CG iter. 27 -- res = 0.13250E-02, tol = 0.20403E+01, time = 2.29 | CG iter. 28 -- res = 0.63715E-03, tol = 0.20403E+01, time = 2.32 | CG iter. 29 -- res = 0.27839E-03, tol = 0.20403E+01, time = 2.63 | CG iter. 30 -- res = 0.12978E-03, tol = 0.20403E+01, time = 2.31 | CG iter. 31 -- res = 0.65798E-04, tol = 0.20403E+01, time = 2.38 | CG iter. 32 -- res = 0.34574E-04, tol = 0.20403E+01, time = 2.26 | CG iter. 33 -- res = 0.16452E-04, tol = 0.20403E+01, time = 2.24 | CG iter. 34 -- res = 0.76049E-05, tol = 0.20403E+01, time = 2.08 | CG iter. 35 -- res = 0.34000E-05, tol = 0.20403E+01, time = 2.49 | CG iter. 36 -- res = 0.16530E-05, tol = 0.20403E+01, time = 2.29 | CG iter. 37 -- res = 0.77403E-06, tol = 0.20403E+01, time = 2.43 | CG iter. 38 -- res = 0.39502E-06, tol = 0.20403E+01, time = 2.59 | CG iter. 39 -- res = 0.19353E-06, tol = 0.20403E+01, time = 2.20 | CG iter. 40 -- res = 0.91156E-07, tol = 0.20403E+01, time = 2.36 | CG iter. 41 -- res = 0.42096E-07, tol = 0.20403E+01, time = 2.40 | CG iter. 42 -- res = 0.19610E-07, tol = 0.20403E+01, time = 2.26 | CG iter. 43 -- res = 0.94893E-08, tol = 0.20403E+01, time = 2.27 | CG iter. 44 -- res = 0.47677E-08, tol = 0.20403E+01, time = 2.36 | CG iter. 45 -- res = 0.22645E-08, tol = 0.20403E+01, time = 2.27 | CG iter. 46 -- res = 0.10837E-08, tol = 0.20403E+01, time = 2.37 | CG iter. 47 -- res = 0.49733E-09, tol = 0.20403E+01, time = 2.24 | CG iter. 48 -- res = 0.24042E-09, tol = 0.20403E+01, time = 2.28 | CG iter. 49 -- res = 0.11285E-09, tol = 0.20403E+01, time = 2.48 | CG iter. 50 -- res = 0.55114E-10, tol = 0.20403E+01, time = 2.40 | Final CG iter 51 -- res = 0.55114E-10, tol = 0.20403E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.585 5.377 | New value -7.509 | Old value 0.585 | Difference -8.094 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.64971E+05, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.44934E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.17470E+01, tol = 0.47627E+18, time = 1.66 | CG iter. 4 -- res = 0.33181E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.68503E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9985028.835 | (Sampled value in CG: 10010896.801 ) | CPU time specind = 1027.581 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.68240E+08, tol = 0.57697E+04, time = 10.42 | CG iter. 2 -- res = 0.58976E+08, tol = 0.57697E+04, time = 10.49 | CG iter. 3 -- res = 0.15793E+08, tol = 0.57697E+04, time = 12.26 | CG iter. 4 -- res = 0.66467E+07, tol = 0.57697E+04, time = 16.15 | CG iter. 5 -- res = 0.39210E+07, tol = 0.57697E+04, time = 10.19 | CG iter. 6 -- res = 0.22777E+07, tol = 0.57697E+04, time = 10.28 | CG iter. 7 -- res = 0.13385E+07, tol = 0.57697E+04, time = 10.25 | CG iter. 8 -- res = 0.88912E+06, tol = 0.57697E+04, time = 10.11 | CG iter. 9 -- res = 0.58149E+06, tol = 0.57697E+04, time = 10.17 | CG iter. 10 -- res = 0.34750E+06, tol = 0.57697E+04, time = 10.28 | CG iter. 11 -- res = 0.18873E+06, tol = 0.57697E+04, time = 11.13 | CG iter. 12 -- res = 0.10084E+06, tol = 0.57697E+04, time = 11.94 | CG iter. 13 -- res = 0.55209E+05, tol = 0.57697E+04, time = 10.69 | CG iter. 14 -- res = 0.33037E+05, tol = 0.57697E+04, time = 10.39 | CG iter. 15 -- res = 0.22414E+05, tol = 0.57697E+04, time = 10.09 | CG iter. 16 -- res = 0.16653E+05, tol = 0.57697E+04, time = 10.43 | CG iter. 17 -- res = 0.13393E+05, tol = 0.57697E+04, time = 10.34 | CG iter. 18 -- res = 0.10535E+05, tol = 0.57697E+04, time = 10.32 | CG iter. 19 -- res = 0.82088E+04, tol = 0.57697E+04, time = 10.05 | CG iter. 20 -- res = 0.66280E+04, tol = 0.57697E+04, time = 10.19 | CG iter. 21 -- res = 0.58694E+04, tol = 0.57697E+04, time = 10.21 | CG iter. 22 -- res = 0.59232E+04, tol = 0.57697E+04, time = 11.03 | CG iter. 23 -- res = 0.64092E+04, tol = 0.57697E+04, time = 10.08 | CG iter. 24 -- res = 0.69528E+04, tol = 0.57697E+04, time = 10.11 | CG iter. 25 -- res = 0.71591E+04, tol = 0.57697E+04, time = 10.36 | CG iter. 26 -- res = 0.66350E+04, tol = 0.57697E+04, time = 10.00 | CG iter. 27 -- res = 0.55013E+04, tol = 0.57697E+04, time = 10.17 | CG iter. 28 -- res = 0.42657E+04, tol = 0.57697E+04, time = 10.13 | CG iter. 29 -- res = 0.33673E+04, tol = 0.57697E+04, time = 10.10 | CG iter. 30 -- res = 0.28027E+04, tol = 0.57697E+04, time = 10.35 | CG iter. 31 -- res = 0.23781E+04, tol = 0.57697E+04, time = 9.96 | CG iter. 32 -- res = 0.20584E+04, tol = 0.57697E+04, time = 16.37 | CG iter. 33 -- res = 0.16656E+04, tol = 0.57697E+04, time = 10.05 | CG iter. 34 -- res = 0.12871E+04, tol = 0.57697E+04, time = 10.49 | CG iter. 35 -- res = 0.10145E+04, tol = 0.57697E+04, time = 10.38 | CG iter. 36 -- res = 0.86219E+03, tol = 0.57697E+04, time = 10.20 | CG iter. 37 -- res = 0.81169E+03, tol = 0.57697E+04, time = 10.20 | CG iter. 38 -- res = 0.79659E+03, tol = 0.57697E+04, time = 10.04 | CG iter. 39 -- res = 0.75862E+03, tol = 0.57697E+04, time = 10.10 | CG iter. 40 -- res = 0.67827E+03, tol = 0.57697E+04, time = 11.83 | CG iter. 41 -- res = 0.57995E+03, tol = 0.57697E+04, time = 10.75 | CG iter. 42 -- res = 0.49520E+03, tol = 0.57697E+04, time = 10.29 | CG iter. 43 -- res = 0.42365E+03, tol = 0.57697E+04, time = 10.05 | CG iter. 44 -- res = 0.36923E+03, tol = 0.57697E+04, time = 10.27 | CG iter. 45 -- res = 0.32865E+03, tol = 0.57697E+04, time = 10.19 | CG iter. 46 -- res = 0.29133E+03, tol = 0.57697E+04, time = 10.52 | CG iter. 47 -- res = 0.24635E+03, tol = 0.57697E+04, time = 10.14 | CG iter. 48 -- res = 0.20251E+03, tol = 0.57697E+04, time = 10.50 | CG iter. 49 -- res = 0.16819E+03, tol = 0.57697E+04, time = 10.26 | CG iter. 50 -- res = 0.14459E+03, tol = 0.57697E+04, time = 10.39 | CG iter. 51 -- res = 0.13350E+03, tol = 0.57697E+04, time = 10.37 | CG iter. 52 -- res = 0.12972E+03, tol = 0.57697E+04, time = 10.30 | CG iter. 53 -- res = 0.12626E+03, tol = 0.57697E+04, time = 10.35 | CG iter. 54 -- res = 0.12022E+03, tol = 0.57697E+04, time = 9.95 | CG iter. 55 -- res = 0.10891E+03, tol = 0.57697E+04, time = 10.32 | CG iter. 56 -- res = 0.95001E+02, tol = 0.57697E+04, time = 10.62 | CG iter. 57 -- res = 0.83683E+02, tol = 0.57697E+04, time = 10.25 | CG iter. 58 -- res = 0.77068E+02, tol = 0.57697E+04, time = 10.28 | CG iter. 59 -- res = 0.70337E+02, tol = 0.57697E+04, time = 10.15 | CG iter. 60 -- res = 0.64431E+02, tol = 0.57697E+04, time = 16.58 | Final CG iter 61 -- res = 0.64431E+02, tol = 0.57697E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.774 ( -229.871 -2228.235 2510.122 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8086518.968 | Old band monopole 9985071.783 | Change to band monopole -1898552.814 | Change to component monopole 1898544.648 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.101 2.729 | New value 5.458 | Old value 1.101 | Difference 4.357 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.199 ( 7.381 7.384 -6.185 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.807 6.103 | New value -1.481 | Old value -4.807 | Difference 3.327 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.12132E+07, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.96508E+02, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.42943E+01, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.32841E-02, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.45328E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8086484.187 | (Sampled value in CG: 8066007.405 ) | Chain = 1 -- chisq = 0.81583453E+09 | Chain = 1 -- wall time = 5404.617 sec Available RAM: MemAvailable: 380384576 kB Available Swap: SwapFree: 1114380820 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 184 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444388 | --> Sampling calibration, mode = relcal | relcal = 1.3434156E-02 7.4567395E-04 -1.6031585E-03 -1.2576671E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9116363E-02 0.1208271 9410146.17763351 | BP delta = 9.9116363E-02 0.1199601 9410175.37607872 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632404 | --> Sampling calibration, mode = relcal | relcal = -2.8203288E-03 -7.0303935E-04 1.6786172E-03 1.6141012E-03 -4.0939581E-04 6.4004556E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5761791 15217878.3749108 | BP delta = 0.0000000E+00 -0.5646352 15217878.0121990 | BP chisq diff = -0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18084235560412 | --> Sampling calibration, mode = relcal | relcal = -7.4283846E-02 -5.8045898E-02 9.1117561E-02 4.1212179E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.8681524E-04 3.5218128E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5166E-04 | 2: delta_r/delta_0: 3.8128E-06 | 3: delta_s/delta_0: 2.0864E-07 | 4: delta_r/delta_0: 1.7230E-08 | 5: delta_s/delta_0: 5.1215E-09 | 6: delta_r/delta_0: 9.6052E-10 | 7: delta_s/delta_0: 8.0980E-09 | 8: delta_r/delta_0: 1.2391E-10 | 9: delta_s/delta_0: 1.2045E-10 | 10: delta_r/delta_0: 3.9516E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.003796292776146E-003 2.741545002125836E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5161E-04 | 2: delta_r/delta_0: 3.8118E-06 | 3: delta_s/delta_0: 2.0864E-07 | 4: delta_r/delta_0: 1.7228E-08 | 5: delta_s/delta_0: 5.1212E-09 | 6: delta_r/delta_0: 9.6054E-10 | 7: delta_s/delta_0: 8.0936E-09 | 8: delta_r/delta_0: 1.2388E-10 | 9: delta_s/delta_0: 1.2050E-10 | 10: delta_r/delta_0: 3.9531E-11 | Reached bicg-stab tolerance | BP delta = 3.6758907E-02 5.2927580E-02 3669121.68225845 | BP delta = 3.6758907E-02 5.3398285E-02 3665410.43215715 | BP chisq diff = -3711.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02564549 | --> Sampling calibration, mode = relcal | relcal = -0.1066748 -9.5526934E-02 0.1449879 5.7213850E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7359496E-03 1.4477744E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9582E-05 | 2: delta_r/delta_0: 1.1989E-06 | 3: delta_s/delta_0: 2.5370E-07 | 4: delta_r/delta_0: 4.0422E-08 | 5: delta_s/delta_0: 1.9518E-08 | 6: delta_r/delta_0: 6.0235E-09 | 7: delta_s/delta_0: 7.9129E-09 | 8: delta_r/delta_0: 1.0412E-09 | 9: delta_s/delta_0: 8.9421E-10 | 10: delta_r/delta_0: 1.6175E-10 | 11: delta_s/delta_0: 1.9867E-09 | 12: delta_r/delta_0: 1.5543E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.483715090635827E-003 2.811791194020786E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.9582E-05 | 2: delta_r/delta_0: 1.1988E-06 | 3: delta_s/delta_0: 2.5367E-07 | 4: delta_r/delta_0: 4.0352E-08 | 5: delta_s/delta_0: 1.9540E-08 | 6: delta_r/delta_0: 6.0194E-09 | 7: delta_s/delta_0: 7.9083E-09 | 8: delta_r/delta_0: 1.0407E-09 | 9: delta_s/delta_0: 8.9374E-10 | 10: delta_r/delta_0: 1.6189E-10 | 11: delta_s/delta_0: 1.9840E-09 | 12: delta_r/delta_0: 1.5549E-11 | Reached bicg-stab tolerance | BP delta = -0.3191513 -0.2931582 2841518.16054325 | BP delta = -0.3191513 -0.2974036 2841686.37700985 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81207899 | --> Sampling calibration, mode = relcal | relcal = 0.2954133 0.2248789 -0.2837296 -0.2365626 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.7086402E-04 5.1931390E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2193E-03 | 2: delta_r/delta_0: 2.8006E-05 | 3: delta_s/delta_0: 2.7658E-05 | 4: delta_r/delta_0: 2.7091E-06 | 5: delta_s/delta_0: 1.1861E-06 | 6: delta_r/delta_0: 1.7147E-07 | 7: delta_s/delta_0: 6.6655E-08 | 8: delta_r/delta_0: 3.7091E-08 | 9: delta_s/delta_0: 3.7325E-07 | 10: delta_r/delta_0: 3.2015E-09 | 11: delta_s/delta_0: 1.2835E-09 | 12: delta_r/delta_0: 4.0650E-10 | 13: delta_s/delta_0: 9.2219E-10 | 14: delta_r/delta_0: 6.6846E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.708951952566442E-002 4.022549075848336E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2192E-03 | 2: delta_r/delta_0: 2.8005E-05 | 3: delta_s/delta_0: 2.7659E-05 | 4: delta_r/delta_0: 2.7091E-06 | 5: delta_s/delta_0: 1.1859E-06 | 6: delta_r/delta_0: 1.7145E-07 | 7: delta_s/delta_0: 6.6653E-08 | 8: delta_r/delta_0: 3.7089E-08 | 9: delta_s/delta_0: 3.7325E-07 | 10: delta_r/delta_0: 3.2010E-09 | 11: delta_s/delta_0: 1.2832E-09 | 12: delta_r/delta_0: 4.0646E-10 | 13: delta_s/delta_0: 9.2283E-10 | 14: delta_r/delta_0: 6.6831E-11 | Reached bicg-stab tolerance | BP delta = -0.1337412 -0.1517904 2827209.69951036 | BP delta = -0.1337412 -0.1677204 2827205.87325127 | BP chisq diff = -3.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95893982 | --> Sampling calibration, mode = relcal | relcal = 0.1064341 0.1395855 -0.1102346 -0.1357849 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0073169E-02 1.3814973E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1480E-04 | 2: delta_r/delta_0: 1.2657E-05 | 3: delta_s/delta_0: 1.1180E-04 | 4: delta_r/delta_0: 6.0670E-06 | 5: delta_s/delta_0: 2.8295E-07 | 6: delta_r/delta_0: 1.4276E-07 | 7: delta_s/delta_0: 6.4890E-07 | 8: delta_r/delta_0: 3.6682E-08 | 9: delta_s/delta_0: 9.5941E-09 | 10: delta_r/delta_0: 5.7522E-09 | 11: delta_s/delta_0: 2.0014E-09 | 12: delta_r/delta_0: 8.9466E-10 | 13: delta_s/delta_0: 3.5265E-09 | 14: delta_r/delta_0: 1.2692E-10 | 15: delta_s/delta_0: 5.5958E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.245908762704246E-002 3.698050941366853E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1474E-04 | 2: delta_r/delta_0: 1.2656E-05 | 3: delta_s/delta_0: 1.1187E-04 | 4: delta_r/delta_0: 6.0742E-06 | 5: delta_s/delta_0: 2.8299E-07 | 6: delta_r/delta_0: 1.4283E-07 | 7: delta_s/delta_0: 6.5036E-07 | 8: delta_r/delta_0: 3.6684E-08 | 9: delta_s/delta_0: 9.5903E-09 | 10: delta_r/delta_0: 5.7441E-09 | 11: delta_s/delta_0: 2.0026E-09 | 12: delta_r/delta_0: 8.9536E-10 | 13: delta_s/delta_0: 3.5366E-09 | 14: delta_r/delta_0: 1.2736E-10 | 15: delta_s/delta_0: 5.6017E-11 | Reached bicg-stab tolerance | BP delta = 8.1263773E-02 0.1901678 3004248.42637158 | BP delta = 8.1263773E-02 0.1712908 3004757.94612831 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144059 | New value = -3.104663 | poltype: 2 pol: 1 CPU time specind = 1.7570972E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.205582 | New value = -3.157626 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161036 | New value = -3.148320 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164300 | New value = -3.137486 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185670 | New value = -3.109118 | poltype: 2 pol: 2 CPU time specind = 1.3705015E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.13587E+08, tol = 0.85640E+01, time = 9.67 | CG iter. 2 -- res = 0.36170E+06, tol = 0.85640E+01, time = 4.85 | CG iter. 3 -- res = 0.58791E+05, tol = 0.85640E+01, time = 4.98 | CG iter. 4 -- res = 0.35650E+05, tol = 0.85640E+01, time = 4.86 | CG iter. 5 -- res = 0.25506E+05, tol = 0.85640E+01, time = 4.61 | CG iter. 6 -- res = 0.21378E+05, tol = 0.85640E+01, time = 4.73 | CG iter. 7 -- res = 0.20547E+05, tol = 0.85640E+01, time = 4.86 | CG iter. 8 -- res = 0.17157E+05, tol = 0.85640E+01, time = 4.59 | CG iter. 9 -- res = 0.14266E+05, tol = 0.85640E+01, time = 4.97 | CG iter. 10 -- res = 0.11697E+05, tol = 0.85640E+01, time = 5.27 | CG iter. 11 -- res = 0.81869E+04, tol = 0.85640E+01, time = 4.66 | CG iter. 12 -- res = 0.53990E+04, tol = 0.85640E+01, time = 4.81 | CG iter. 13 -- res = 0.38954E+04, tol = 0.85640E+01, time = 4.71 | CG iter. 14 -- res = 0.32582E+04, tol = 0.85640E+01, time = 4.80 | CG iter. 15 -- res = 0.28294E+04, tol = 0.85640E+01, time = 4.71 | CG iter. 16 -- res = 0.21461E+04, tol = 0.85640E+01, time = 4.92 | CG iter. 17 -- res = 0.13936E+04, tol = 0.85640E+01, time = 4.90 | CG iter. 18 -- res = 0.10123E+04, tol = 0.85640E+01, time = 5.19 | CG iter. 19 -- res = 0.80985E+03, tol = 0.85640E+01, time = 5.88 | CG iter. 20 -- res = 0.62423E+03, tol = 0.85640E+01, time = 5.33 | CG iter. 21 -- res = 0.44069E+03, tol = 0.85640E+01, time = 5.11 | CG iter. 22 -- res = 0.34106E+03, tol = 0.85640E+01, time = 4.61 | CG iter. 23 -- res = 0.29043E+03, tol = 0.85640E+01, time = 5.40 | CG iter. 24 -- res = 0.23689E+03, tol = 0.85640E+01, time = 4.85 | CG iter. 25 -- res = 0.17796E+03, tol = 0.85640E+01, time = 4.87 | CG iter. 26 -- res = 0.12613E+03, tol = 0.85640E+01, time = 4.69 | CG iter. 27 -- res = 0.10224E+03, tol = 0.85640E+01, time = 5.05 | CG iter. 28 -- res = 0.89144E+02, tol = 0.85640E+01, time = 5.05 | CG iter. 29 -- res = 0.70422E+02, tol = 0.85640E+01, time = 4.95 | CG iter. 30 -- res = 0.51732E+02, tol = 0.85640E+01, time = 4.86 | CG iter. 31 -- res = 0.41882E+02, tol = 0.85640E+01, time = 4.72 | CG iter. 32 -- res = 0.35681E+02, tol = 0.85640E+01, time = 4.89 | CG iter. 33 -- res = 0.28668E+02, tol = 0.85640E+01, time = 4.92 | CG iter. 34 -- res = 0.21514E+02, tol = 0.85640E+01, time = 4.79 | CG iter. 35 -- res = 0.16339E+02, tol = 0.85640E+01, time = 4.75 | CG iter. 36 -- res = 0.14283E+02, tol = 0.85640E+01, time = 4.82 | CG iter. 37 -- res = 0.12035E+02, tol = 0.85640E+01, time = 4.81 | CG iter. 38 -- res = 0.92658E+01, tol = 0.85640E+01, time = 4.75 | CG iter. 39 -- res = 0.70756E+01, tol = 0.85640E+01, time = 4.81 | CG iter. 40 -- res = 0.59234E+01, tol = 0.85640E+01, time = 5.47 | CG iter. 41 -- res = 0.49564E+01, tol = 0.85640E+01, time = 4.89 | CG iter. 42 -- res = 0.40011E+01, tol = 0.85640E+01, time = 4.86 | CG iter. 43 -- res = 0.30240E+01, tol = 0.85640E+01, time = 5.28 | CG iter. 44 -- res = 0.23771E+01, tol = 0.85640E+01, time = 4.83 | CG iter. 45 -- res = 0.19279E+01, tol = 0.85640E+01, time = 4.82 | CG iter. 46 -- res = 0.16152E+01, tol = 0.85640E+01, time = 4.55 | CG iter. 47 -- res = 0.12183E+01, tol = 0.85640E+01, time = 4.91 | CG iter. 48 -- res = 0.92534E+00, tol = 0.85640E+01, time = 4.61 | CG iter. 49 -- res = 0.74548E+00, tol = 0.85640E+01, time = 4.65 | CG iter. 50 -- res = 0.61075E+00, tol = 0.85640E+01, time = 4.91 | Final CG iter 51 -- res = 0.61075E+00, tol = 0.85640E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9705087.376 | Old band monopole 8086518.968 | Change to band monopole 1618568.408 | Change to component monopole -1618561.446 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.12187E+05, tol = 0.47627E+18, time = 1.55 | CG iter. 2 -- res = 0.41728E+02, tol = 0.47627E+18, time = 1.61 | CG iter. 3 -- res = 0.15567E+01, tol = 0.47627E+18, time = 1.69 | CG iter. 4 -- res = 0.20171E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.34665E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9705045.632 | (Sampled value in CG: 9760379.924 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.456766 | New value = 1.468153 | poltype: 2 pol: 1 CPU time specind = 1.6962051E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484648 | New value = 1.522292 | poltype: 2 pol: 2 CPU time specind = 3.2820702E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.24038E+08, tol = 0.47584E+04, time = 5.86 | CG iter. 2 -- res = 0.54008E+07, tol = 0.47584E+04, time = 5.32 | CG iter. 3 -- res = 0.86365E+06, tol = 0.47584E+04, time = 5.52 | CG iter. 4 -- res = 0.35728E+06, tol = 0.47584E+04, time = 5.84 | CG iter. 5 -- res = 0.15328E+06, tol = 0.47584E+04, time = 5.61 | CG iter. 6 -- res = 0.81123E+05, tol = 0.47584E+04, time = 6.54 | CG iter. 7 -- res = 0.44155E+05, tol = 0.47584E+04, time = 6.58 | CG iter. 8 -- res = 0.21681E+05, tol = 0.47584E+04, time = 6.17 | CG iter. 9 -- res = 0.93348E+04, tol = 0.47584E+04, time = 5.20 | CG iter. 10 -- res = 0.37912E+04, tol = 0.47584E+04, time = 5.62 | CG iter. 11 -- res = 0.17005E+04, tol = 0.47584E+04, time = 5.45 | CG iter. 12 -- res = 0.86875E+03, tol = 0.47584E+04, time = 5.77 | CG iter. 13 -- res = 0.49042E+03, tol = 0.47584E+04, time = 5.65 | CG iter. 14 -- res = 0.27749E+03, tol = 0.47584E+04, time = 5.51 | CG iter. 15 -- res = 0.14453E+03, tol = 0.47584E+04, time = 5.47 | CG iter. 16 -- res = 0.69424E+02, tol = 0.47584E+04, time = 5.83 | CG iter. 17 -- res = 0.32483E+02, tol = 0.47584E+04, time = 5.41 | CG iter. 18 -- res = 0.16082E+02, tol = 0.47584E+04, time = 5.36 | CG iter. 19 -- res = 0.88196E+01, tol = 0.47584E+04, time = 5.76 | CG iter. 20 -- res = 0.50907E+01, tol = 0.47584E+04, time = 5.63 | CG iter. 21 -- res = 0.27613E+01, tol = 0.47584E+04, time = 5.72 | CG iter. 22 -- res = 0.14289E+01, tol = 0.47584E+04, time = 5.57 | CG iter. 23 -- res = 0.72084E+00, tol = 0.47584E+04, time = 5.79 | CG iter. 24 -- res = 0.37266E+00, tol = 0.47584E+04, time = 5.42 | CG iter. 25 -- res = 0.19709E+00, tol = 0.47584E+04, time = 5.61 | CG iter. 26 -- res = 0.11172E+00, tol = 0.47584E+04, time = 5.76 | CG iter. 27 -- res = 0.64532E-01, tol = 0.47584E+04, time = 5.54 | CG iter. 28 -- res = 0.35126E-01, tol = 0.47584E+04, time = 5.58 | CG iter. 29 -- res = 0.18118E-01, tol = 0.47584E+04, time = 5.63 | CG iter. 30 -- res = 0.93618E-02, tol = 0.47584E+04, time = 5.62 | CG iter. 31 -- res = 0.50689E-02, tol = 0.47584E+04, time = 5.34 | CG iter. 32 -- res = 0.28667E-02, tol = 0.47584E+04, time = 5.47 | CG iter. 33 -- res = 0.16154E-02, tol = 0.47584E+04, time = 5.50 | CG iter. 34 -- res = 0.87115E-03, tol = 0.47584E+04, time = 5.70 | CG iter. 35 -- res = 0.46139E-03, tol = 0.47584E+04, time = 5.48 | Final CG iter 36 -- res = 0.46139E-03, tol = 0.47584E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.482 2.759 | New value -0.177 | Old value 5.482 | Difference -5.659 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.16586E+07, tol = 0.47627E+18, time = 1.52 | CG iter. 2 -- res = 0.57291E+02, tol = 0.47627E+18, time = 1.61 | CG iter. 3 -- res = 0.17876E+01, tol = 0.47627E+18, time = 1.73 | CG iter. 4 -- res = 0.11223E-02, tol = 0.47627E+18, time = 1.63 | Final CG iter 5 -- res = 0.17969E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9705045.632 | (Sampled value in CG: 9758325.586 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.635330 | New value = -3.589363 | poltype: 1 pol: 1 CPU time specind = 5.1300526E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.22466E+07, tol = 0.18996E+01, time = 2.43 | CG iter. 2 -- res = 0.84222E+06, tol = 0.18996E+01, time = 2.23 | CG iter. 3 -- res = 0.16333E+06, tol = 0.18996E+01, time = 2.23 | CG iter. 4 -- res = 0.63827E+05, tol = 0.18996E+01, time = 2.47 | CG iter. 5 -- res = 0.36863E+05, tol = 0.18996E+01, time = 2.11 | CG iter. 6 -- res = 0.19282E+05, tol = 0.18996E+01, time = 2.48 | CG iter. 7 -- res = 0.73483E+04, tol = 0.18996E+01, time = 2.37 | CG iter. 8 -- res = 0.33062E+04, tol = 0.18996E+01, time = 2.11 | CG iter. 9 -- res = 0.13695E+04, tol = 0.18996E+01, time = 2.43 | CG iter. 10 -- res = 0.53230E+03, tol = 0.18996E+01, time = 2.25 | CG iter. 11 -- res = 0.22399E+03, tol = 0.18996E+01, time = 2.22 | CG iter. 12 -- res = 0.10741E+03, tol = 0.18996E+01, time = 2.26 | CG iter. 13 -- res = 0.58050E+02, tol = 0.18996E+01, time = 2.40 | CG iter. 14 -- res = 0.30031E+02, tol = 0.18996E+01, time = 2.21 | CG iter. 15 -- res = 0.13114E+02, tol = 0.18996E+01, time = 2.21 | CG iter. 16 -- res = 0.57672E+01, tol = 0.18996E+01, time = 2.48 | CG iter. 17 -- res = 0.25155E+01, tol = 0.18996E+01, time = 2.52 | CG iter. 18 -- res = 0.11520E+01, tol = 0.18996E+01, time = 2.28 | CG iter. 19 -- res = 0.54885E+00, tol = 0.18996E+01, time = 2.11 | CG iter. 20 -- res = 0.27991E+00, tol = 0.18996E+01, time = 2.31 | CG iter. 21 -- res = 0.14620E+00, tol = 0.18996E+01, time = 2.45 | CG iter. 22 -- res = 0.65066E-01, tol = 0.18996E+01, time = 2.31 | CG iter. 23 -- res = 0.28463E-01, tol = 0.18996E+01, time = 2.29 | CG iter. 24 -- res = 0.13694E-01, tol = 0.18996E+01, time = 2.23 | CG iter. 25 -- res = 0.65013E-02, tol = 0.18996E+01, time = 2.41 | CG iter. 26 -- res = 0.33248E-02, tol = 0.18996E+01, time = 2.18 | CG iter. 27 -- res = 0.17273E-02, tol = 0.18996E+01, time = 2.32 | CG iter. 28 -- res = 0.83705E-03, tol = 0.18996E+01, time = 2.23 | CG iter. 29 -- res = 0.36905E-03, tol = 0.18996E+01, time = 2.11 | CG iter. 30 -- res = 0.17214E-03, tol = 0.18996E+01, time = 2.25 | CG iter. 31 -- res = 0.83247E-04, tol = 0.18996E+01, time = 2.47 | CG iter. 32 -- res = 0.42108E-04, tol = 0.18996E+01, time = 2.12 | CG iter. 33 -- res = 0.21470E-04, tol = 0.18996E+01, time = 2.31 | CG iter. 34 -- res = 0.10394E-04, tol = 0.18996E+01, time = 2.21 | CG iter. 35 -- res = 0.50147E-05, tol = 0.18996E+01, time = 2.52 | CG iter. 36 -- res = 0.23194E-05, tol = 0.18996E+01, time = 2.13 | CG iter. 37 -- res = 0.10807E-05, tol = 0.18996E+01, time = 2.38 | CG iter. 38 -- res = 0.55183E-06, tol = 0.18996E+01, time = 2.13 | CG iter. 39 -- res = 0.27849E-06, tol = 0.18996E+01, time = 2.38 | CG iter. 40 -- res = 0.13122E-06, tol = 0.18996E+01, time = 2.31 | CG iter. 41 -- res = 0.63506E-07, tol = 0.18996E+01, time = 2.84 | CG iter. 42 -- res = 0.30496E-07, tol = 0.18996E+01, time = 8.48 | CG iter. 43 -- res = 0.14181E-07, tol = 0.18996E+01, time = 2.14 | CG iter. 44 -- res = 0.66668E-08, tol = 0.18996E+01, time = 2.13 | CG iter. 45 -- res = 0.32698E-08, tol = 0.18996E+01, time = 2.16 | CG iter. 46 -- res = 0.16152E-08, tol = 0.18996E+01, time = 2.28 | CG iter. 47 -- res = 0.78942E-09, tol = 0.18996E+01, time = 2.19 | CG iter. 48 -- res = 0.36914E-09, tol = 0.18996E+01, time = 2.33 | CG iter. 49 -- res = 0.16762E-09, tol = 0.18996E+01, time = 2.17 | CG iter. 50 -- res = 0.76843E-10, tol = 0.18996E+01, time = 2.30 | Final CG iter 51 -- res = 0.76843E-10, tol = 0.18996E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.018 5.215 | New value 5.101 | Old value 2.018 | Difference 3.083 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.11528E+05, tol = 0.47627E+18, time = 1.61 | CG iter. 2 -- res = 0.33022E+02, tol = 0.47627E+18, time = 1.56 | CG iter. 3 -- res = 0.12126E+01, tol = 0.47627E+18, time = 1.68 | CG iter. 4 -- res = 0.21133E-02, tol = 0.47627E+18, time = 1.55 | Final CG iter 5 -- res = 0.72411E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9705045.632 | (Sampled value in CG: 9750204.480 ) | CPU time specind = 1022.337 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.68345E+08, tol = 0.57617E+04, time = 9.85 | CG iter. 2 -- res = 0.59031E+08, tol = 0.57617E+04, time = 10.18 | CG iter. 3 -- res = 0.15489E+08, tol = 0.57617E+04, time = 10.05 | CG iter. 4 -- res = 0.65009E+07, tol = 0.57617E+04, time = 10.32 | CG iter. 5 -- res = 0.37909E+07, tol = 0.57617E+04, time = 10.15 | CG iter. 6 -- res = 0.21547E+07, tol = 0.57617E+04, time = 19.07 | CG iter. 7 -- res = 0.13082E+07, tol = 0.57617E+04, time = 12.11 | CG iter. 8 -- res = 0.88751E+06, tol = 0.57617E+04, time = 10.19 | CG iter. 9 -- res = 0.57392E+06, tol = 0.57617E+04, time = 9.95 | CG iter. 10 -- res = 0.34552E+06, tol = 0.57617E+04, time = 9.90 | CG iter. 11 -- res = 0.18763E+06, tol = 0.57617E+04, time = 10.07 | CG iter. 12 -- res = 0.99943E+05, tol = 0.57617E+04, time = 9.90 | CG iter. 13 -- res = 0.55990E+05, tol = 0.57617E+04, time = 10.26 | CG iter. 14 -- res = 0.34106E+05, tol = 0.57617E+04, time = 10.13 | CG iter. 15 -- res = 0.23234E+05, tol = 0.57617E+04, time = 10.07 | CG iter. 16 -- res = 0.17289E+05, tol = 0.57617E+04, time = 10.44 | CG iter. 17 -- res = 0.13941E+05, tol = 0.57617E+04, time = 10.02 | CG iter. 18 -- res = 0.11134E+05, tol = 0.57617E+04, time = 9.93 | CG iter. 19 -- res = 0.87446E+04, tol = 0.57617E+04, time = 16.45 | CG iter. 20 -- res = 0.72232E+04, tol = 0.57617E+04, time = 10.09 | CG iter. 21 -- res = 0.64287E+04, tol = 0.57617E+04, time = 9.99 | CG iter. 22 -- res = 0.65373E+04, tol = 0.57617E+04, time = 10.22 | CG iter. 23 -- res = 0.70049E+04, tol = 0.57617E+04, time = 10.08 | CG iter. 24 -- res = 0.73303E+04, tol = 0.57617E+04, time = 10.15 | CG iter. 25 -- res = 0.70449E+04, tol = 0.57617E+04, time = 9.95 | CG iter. 26 -- res = 0.62086E+04, tol = 0.57617E+04, time = 9.87 | CG iter. 27 -- res = 0.51454E+04, tol = 0.57617E+04, time = 11.66 | CG iter. 28 -- res = 0.40195E+04, tol = 0.57617E+04, time = 10.94 | CG iter. 29 -- res = 0.32243E+04, tol = 0.57617E+04, time = 10.13 | CG iter. 30 -- res = 0.26718E+04, tol = 0.57617E+04, time = 9.82 | CG iter. 31 -- res = 0.23043E+04, tol = 0.57617E+04, time = 10.32 | CG iter. 32 -- res = 0.20099E+04, tol = 0.57617E+04, time = 10.13 | CG iter. 33 -- res = 0.17115E+04, tol = 0.57617E+04, time = 10.06 | CG iter. 34 -- res = 0.13738E+04, tol = 0.57617E+04, time = 10.24 | CG iter. 35 -- res = 0.11256E+04, tol = 0.57617E+04, time = 10.04 | CG iter. 36 -- res = 0.98352E+03, tol = 0.57617E+04, time = 9.92 | CG iter. 37 -- res = 0.93305E+03, tol = 0.57617E+04, time = 10.31 | CG iter. 38 -- res = 0.92995E+03, tol = 0.57617E+04, time = 10.74 | CG iter. 39 -- res = 0.92648E+03, tol = 0.57617E+04, time = 10.14 | CG iter. 40 -- res = 0.86010E+03, tol = 0.57617E+04, time = 9.93 | CG iter. 41 -- res = 0.73563E+03, tol = 0.57617E+04, time = 10.42 | CG iter. 42 -- res = 0.62877E+03, tol = 0.57617E+04, time = 10.08 | CG iter. 43 -- res = 0.53060E+03, tol = 0.57617E+04, time = 9.94 | CG iter. 44 -- res = 0.46430E+03, tol = 0.57617E+04, time = 10.35 | CG iter. 45 -- res = 0.42735E+03, tol = 0.57617E+04, time = 10.03 | CG iter. 46 -- res = 0.40482E+03, tol = 0.57617E+04, time = 10.13 | CG iter. 47 -- res = 0.37770E+03, tol = 0.57617E+04, time = 11.53 | CG iter. 48 -- res = 0.33351E+03, tol = 0.57617E+04, time = 15.25 | CG iter. 49 -- res = 0.29282E+03, tol = 0.57617E+04, time = 9.95 | CG iter. 50 -- res = 0.26046E+03, tol = 0.57617E+04, time = 10.04 | CG iter. 51 -- res = 0.24547E+03, tol = 0.57617E+04, time = 9.90 | CG iter. 52 -- res = 0.23653E+03, tol = 0.57617E+04, time = 9.76 | CG iter. 53 -- res = 0.22960E+03, tol = 0.57617E+04, time = 10.14 | CG iter. 54 -- res = 0.22155E+03, tol = 0.57617E+04, time = 9.93 | CG iter. 55 -- res = 0.20247E+03, tol = 0.57617E+04, time = 10.08 | CG iter. 56 -- res = 0.17529E+03, tol = 0.57617E+04, time = 11.94 | CG iter. 57 -- res = 0.15194E+03, tol = 0.57617E+04, time = 10.72 | CG iter. 58 -- res = 0.14032E+03, tol = 0.57617E+04, time = 10.23 | CG iter. 59 -- res = 0.13410E+03, tol = 0.57617E+04, time = 9.77 | CG iter. 60 -- res = 0.12778E+03, tol = 0.57617E+04, time = 10.12 | Final CG iter 61 -- res = 0.12778E+03, tol = 0.57617E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.844 ( -229.884 -2229.255 2511.328 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9561899.779 | Old band monopole 9705087.376 | Change to band monopole -143187.597 | Change to component monopole 143186.981 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.198 2.736 | New value 1.191 | Old value -0.198 | Difference 1.388 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.303 ( 6.852 9.316 -8.713 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.187 5.298 | New value 8.160 | Old value 7.187 | Difference 0.973 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.13504E+06, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.25681E+02, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.10822E+01, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.26926E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.19101E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9561858.651 | (Sampled value in CG: 9540775.172 ) | Chain = 1 -- chisq = 0.81571608E+09 | Chain = 1 -- wall time = 5830.108 sec Available RAM: MemAvailable: 379905508 kB Available Swap: SwapFree: 1114790312 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 185 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443053 | --> Sampling calibration, mode = relcal | relcal = 1.3417150E-02 7.4645382E-04 -1.5869034E-03 -1.2576700E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9116363E-02 0.1208271 97046828.6412605 | BP delta = 9.3951009E-02 0.1156618 97046829.1511908 | BP chisq diff = 0.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632466 | --> Sampling calibration, mode = relcal | relcal = -2.8209381E-03 -7.0401066E-04 1.6789202E-03 1.6133146E-03 -4.0766934E-04 6.4038322E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5646352 15217274.7996795 | BP delta = 0.0000000E+00 -0.5731868 15217276.8563368 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18386304415212 | --> Sampling calibration, mode = relcal | relcal = -7.5462714E-02 -5.8880050E-02 9.2421733E-02 4.1921034E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5153146E-04 5.2136765E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5063E-05 | 2: delta_r/delta_0: 1.1509E-06 | 3: delta_s/delta_0: 1.9291E-07 | 4: delta_r/delta_0: 3.2966E-08 | 5: delta_s/delta_0: 1.0914E-08 | 6: delta_r/delta_0: 3.1209E-09 | 7: delta_s/delta_0: 6.4673E-10 | 8: delta_r/delta_0: 1.1681E-10 | 9: delta_s/delta_0: 7.0990E-10 | 10: delta_r/delta_0: 1.1302E-10 | 11: delta_s/delta_0: 3.1143E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.096428515621841E-003 2.734392221318621E-005 | BP delta = 3.6758907E-02 5.3398285E-02 50483730.0171165 | BP delta = 3.5359837E-02 5.1999215E-02 50483731.1888798 | BP chisq diff = 1.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02574501 | --> Sampling calibration, mode = relcal | relcal = -0.1065820 -9.5565520E-02 0.1449267 5.7220809E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0296843E-03 1.3737327E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8811E-05 | 2: delta_r/delta_0: 1.3283E-06 | 3: delta_s/delta_0: 2.6889E-07 | 4: delta_r/delta_0: 4.1064E-08 | 5: delta_s/delta_0: 2.6642E-08 | 6: delta_r/delta_0: 7.1363E-09 | 7: delta_s/delta_0: 6.3564E-09 | 8: delta_r/delta_0: 1.7413E-09 | 9: delta_s/delta_0: 8.0676E-10 | 10: delta_r/delta_0: 6.0416E-10 | 11: delta_s/delta_0: 7.9289E-09 | 12: delta_r/delta_0: 1.7681E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.719150124296590E-003 2.811521681514001E-005 | BP delta = -0.3191513 -0.2931582 57385233.7977327 | BP delta = -0.3142671 -0.2882741 57385233.2494861 | BP chisq diff = -0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81226055 | --> Sampling calibration, mode = relcal | relcal = 0.2954995 0.2247686 -0.2837710 -0.2364972 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.7526445E-04 4.8422720E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1203E-03 | 2: delta_r/delta_0: 2.5712E-05 | 3: delta_s/delta_0: 6.7347E-04 | 4: delta_r/delta_0: 2.7967E-05 | 5: delta_s/delta_0: 7.3545E-05 | 6: delta_r/delta_0: 1.0149E-05 | 7: delta_s/delta_0: 5.5580E-08 | 8: delta_r/delta_0: 3.7648E-08 | 9: delta_s/delta_0: 6.0672E-07 | 10: delta_r/delta_0: 3.6903E-09 | 11: delta_s/delta_0: 1.2194E-09 | 12: delta_r/delta_0: 6.1724E-10 | 13: delta_s/delta_0: 1.9849E-09 | 14: delta_r/delta_0: 7.2965E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.934287201925515E-002 4.021442342040604E-005 | BP delta = -0.1337412 -0.1677204 72489429.8249964 | BP delta = -0.1161695 -0.1501487 72489430.5376721 | BP chisq diff = 0.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95917084 | --> Sampling calibration, mode = relcal | relcal = 0.1065299 0.1395113 -0.1101693 -0.1358719 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0320293E-02 1.2195995E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7971E-04 | 2: delta_r/delta_0: 1.1743E-05 | 3: delta_s/delta_0: 1.9230E-05 | 4: delta_r/delta_0: 1.3876E-06 | 5: delta_s/delta_0: 2.7166E-07 | 6: delta_r/delta_0: 1.2751E-07 | 7: delta_s/delta_0: 2.5985E-07 | 8: delta_r/delta_0: 3.3965E-08 | 9: delta_s/delta_0: 5.5654E-08 | 10: delta_r/delta_0: 3.8761E-09 | 11: delta_s/delta_0: 1.8075E-09 | 12: delta_r/delta_0: 8.6089E-10 | 13: delta_s/delta_0: 1.3929E-09 | 14: delta_r/delta_0: 9.4209E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.227937730383317E-002 3.697140834104262E-005 | BP delta = 8.1263773E-02 0.1901678 72787593.6234180 | BP delta = 9.0247400E-02 0.1991514 72787593.7452047 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.104663 | New value = -3.165113 | poltype: 2 pol: 1 CPU time specind = 2.1410942E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157626 | New value = -3.114310 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148320 | New value = -3.157329 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137486 | New value = -3.115949 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109118 | New value = -3.194695 | poltype: 2 pol: 2 CPU time specind = 7.3969364E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.13580E+08, tol = 0.74301E+01, time = 4.98 | CG iter. 2 -- res = 0.33364E+06, tol = 0.74301E+01, time = 4.74 | CG iter. 3 -- res = 0.59133E+05, tol = 0.74301E+01, time = 4.50 | CG iter. 4 -- res = 0.40388E+05, tol = 0.74301E+01, time = 5.09 | CG iter. 5 -- res = 0.32358E+05, tol = 0.74301E+01, time = 4.81 | CG iter. 6 -- res = 0.30458E+05, tol = 0.74301E+01, time = 4.67 | CG iter. 7 -- res = 0.28963E+05, tol = 0.74301E+01, time = 7.40 | CG iter. 8 -- res = 0.23775E+05, tol = 0.74301E+01, time = 8.59 | CG iter. 9 -- res = 0.20598E+05, tol = 0.74301E+01, time = 4.91 | CG iter. 10 -- res = 0.17308E+05, tol = 0.74301E+01, time = 4.75 | CG iter. 11 -- res = 0.11964E+05, tol = 0.74301E+01, time = 4.63 | CG iter. 12 -- res = 0.79799E+04, tol = 0.74301E+01, time = 5.09 | CG iter. 13 -- res = 0.62512E+04, tol = 0.74301E+01, time = 5.13 | CG iter. 14 -- res = 0.57017E+04, tol = 0.74301E+01, time = 4.83 | CG iter. 15 -- res = 0.48572E+04, tol = 0.74301E+01, time = 4.92 | CG iter. 16 -- res = 0.36087E+04, tol = 0.74301E+01, time = 4.86 | CG iter. 17 -- res = 0.25795E+04, tol = 0.74301E+01, time = 4.78 | CG iter. 18 -- res = 0.20553E+04, tol = 0.74301E+01, time = 4.80 | CG iter. 19 -- res = 0.17291E+04, tol = 0.74301E+01, time = 4.77 | CG iter. 20 -- res = 0.13700E+04, tol = 0.74301E+01, time = 4.66 | CG iter. 21 -- res = 0.10093E+04, tol = 0.74301E+01, time = 4.62 | CG iter. 22 -- res = 0.83227E+03, tol = 0.74301E+01, time = 4.82 | CG iter. 23 -- res = 0.69801E+03, tol = 0.74301E+01, time = 5.00 | CG iter. 24 -- res = 0.58263E+03, tol = 0.74301E+01, time = 5.55 | CG iter. 25 -- res = 0.42993E+03, tol = 0.74301E+01, time = 5.97 | CG iter. 26 -- res = 0.31519E+03, tol = 0.74301E+01, time = 5.39 | CG iter. 27 -- res = 0.27030E+03, tol = 0.74301E+01, time = 5.04 | CG iter. 28 -- res = 0.23523E+03, tol = 0.74301E+01, time = 4.60 | CG iter. 29 -- res = 0.18170E+03, tol = 0.74301E+01, time = 4.93 | CG iter. 30 -- res = 0.14143E+03, tol = 0.74301E+01, time = 5.17 | CG iter. 31 -- res = 0.11721E+03, tol = 0.74301E+01, time = 4.67 | CG iter. 32 -- res = 0.10063E+03, tol = 0.74301E+01, time = 5.00 | CG iter. 33 -- res = 0.81480E+02, tol = 0.74301E+01, time = 5.03 | CG iter. 34 -- res = 0.63484E+02, tol = 0.74301E+01, time = 4.85 | CG iter. 35 -- res = 0.53835E+02, tol = 0.74301E+01, time = 4.89 | CG iter. 36 -- res = 0.47024E+02, tol = 0.74301E+01, time = 4.95 | CG iter. 37 -- res = 0.39531E+02, tol = 0.74301E+01, time = 4.76 | CG iter. 38 -- res = 0.31713E+02, tol = 0.74301E+01, time = 4.85 | CG iter. 39 -- res = 0.25356E+02, tol = 0.74301E+01, time = 5.20 | CG iter. 40 -- res = 0.22104E+02, tol = 0.74301E+01, time = 4.93 | CG iter. 41 -- res = 0.19888E+02, tol = 0.74301E+01, time = 4.69 | CG iter. 42 -- res = 0.16111E+02, tol = 0.74301E+01, time = 4.76 | CG iter. 43 -- res = 0.13249E+02, tol = 0.74301E+01, time = 4.88 | CG iter. 44 -- res = 0.11332E+02, tol = 0.74301E+01, time = 5.04 | CG iter. 45 -- res = 0.96222E+01, tol = 0.74301E+01, time = 4.87 | CG iter. 46 -- res = 0.79013E+01, tol = 0.74301E+01, time = 4.84 | CG iter. 47 -- res = 0.63553E+01, tol = 0.74301E+01, time = 5.51 | CG iter. 48 -- res = 0.50636E+01, tol = 0.74301E+01, time = 4.73 | CG iter. 49 -- res = 0.44228E+01, tol = 0.74301E+01, time = 4.88 | CG iter. 50 -- res = 0.37349E+01, tol = 0.74301E+01, time = 4.99 | Final CG iter 51 -- res = 0.37349E+01, tol = 0.74301E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7651805.692 | Old band monopole 9561899.779 | Change to band monopole -1910094.087 | Change to component monopole 1910085.871 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.64612E+05, tol = 0.47627E+18, time = 1.57 | CG iter. 2 -- res = 0.59507E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.19472E+01, tol = 0.47627E+18, time = 1.66 | CG iter. 4 -- res = 0.72942E-02, tol = 0.47627E+18, time = 1.68 | Final CG iter 5 -- res = 0.62746E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7651772.780 | (Sampled value in CG: 7593910.829 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.468153 | New value = 1.559591 | poltype: 2 pol: 1 CPU time specind = 1.1440992E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.522292 | New value = 1.514527 | poltype: 2 pol: 2 CPU time specind = 2.9630661E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.25825E+08, tol = 0.47713E+04, time = 5.63 | CG iter. 2 -- res = 0.53891E+07, tol = 0.47713E+04, time = 5.69 | CG iter. 3 -- res = 0.85382E+06, tol = 0.47713E+04, time = 5.71 | CG iter. 4 -- res = 0.36064E+06, tol = 0.47713E+04, time = 5.58 | CG iter. 5 -- res = 0.15913E+06, tol = 0.47713E+04, time = 5.65 | CG iter. 6 -- res = 0.82838E+05, tol = 0.47713E+04, time = 5.54 | CG iter. 7 -- res = 0.44506E+05, tol = 0.47713E+04, time = 5.50 | CG iter. 8 -- res = 0.21033E+05, tol = 0.47713E+04, time = 5.69 | CG iter. 9 -- res = 0.91927E+04, tol = 0.47713E+04, time = 5.41 | CG iter. 10 -- res = 0.38165E+04, tol = 0.47713E+04, time = 5.68 | CG iter. 11 -- res = 0.17472E+04, tol = 0.47713E+04, time = 5.55 | CG iter. 12 -- res = 0.90427E+03, tol = 0.47713E+04, time = 7.06 | CG iter. 13 -- res = 0.50511E+03, tol = 0.47713E+04, time = 5.86 | CG iter. 14 -- res = 0.28308E+03, tol = 0.47713E+04, time = 6.03 | CG iter. 15 -- res = 0.14641E+03, tol = 0.47713E+04, time = 5.59 | CG iter. 16 -- res = 0.69458E+02, tol = 0.47713E+04, time = 5.56 | CG iter. 17 -- res = 0.32562E+02, tol = 0.47713E+04, time = 5.74 | CG iter. 18 -- res = 0.16513E+02, tol = 0.47713E+04, time = 5.38 | CG iter. 19 -- res = 0.90602E+01, tol = 0.47713E+04, time = 5.63 | CG iter. 20 -- res = 0.50979E+01, tol = 0.47713E+04, time = 5.60 | CG iter. 21 -- res = 0.28090E+01, tol = 0.47713E+04, time = 5.14 | CG iter. 22 -- res = 0.14409E+01, tol = 0.47713E+04, time = 5.35 | CG iter. 23 -- res = 0.71167E+00, tol = 0.47713E+04, time = 5.56 | CG iter. 24 -- res = 0.36378E+00, tol = 0.47713E+04, time = 5.74 | CG iter. 25 -- res = 0.19777E+00, tol = 0.47713E+04, time = 5.23 | CG iter. 26 -- res = 0.11150E+00, tol = 0.47713E+04, time = 5.57 | CG iter. 27 -- res = 0.64377E-01, tol = 0.47713E+04, time = 5.71 | CG iter. 28 -- res = 0.34276E-01, tol = 0.47713E+04, time = 5.79 | CG iter. 29 -- res = 0.17705E-01, tol = 0.47713E+04, time = 5.83 | CG iter. 30 -- res = 0.92766E-02, tol = 0.47713E+04, time = 5.41 | CG iter. 31 -- res = 0.50766E-02, tol = 0.47713E+04, time = 5.79 | CG iter. 32 -- res = 0.28270E-02, tol = 0.47713E+04, time = 5.64 | CG iter. 33 -- res = 0.15669E-02, tol = 0.47713E+04, time = 5.62 | CG iter. 34 -- res = 0.83388E-03, tol = 0.47713E+04, time = 5.93 | CG iter. 35 -- res = 0.43631E-03, tol = 0.47713E+04, time = 5.66 | Final CG iter 36 -- res = 0.43631E-03, tol = 0.47713E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.215 2.747 | New value 1.754 | Old value 1.215 | Difference 0.539 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.36750E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.45928E+02, tol = 0.47627E+18, time = 1.59 | CG iter. 3 -- res = 0.14994E+01, tol = 0.47627E+18, time = 1.63 | CG iter. 4 -- res = 0.29997E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.64349E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7651772.780 | (Sampled value in CG: 7593540.410 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.589363 | New value = -3.501190 | poltype: 1 pol: 1 CPU time specind = 5.4101944E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.31749E+07, tol = 0.25653E+01, time = 2.26 | CG iter. 2 -- res = 0.13381E+07, tol = 0.25653E+01, time = 2.31 | CG iter. 3 -- res = 0.28288E+06, tol = 0.25653E+01, time = 2.18 | CG iter. 4 -- res = 0.12958E+06, tol = 0.25653E+01, time = 2.07 | CG iter. 5 -- res = 0.75473E+05, tol = 0.25653E+01, time = 2.26 | CG iter. 6 -- res = 0.36473E+05, tol = 0.25653E+01, time = 2.07 | CG iter. 7 -- res = 0.13434E+05, tol = 0.25653E+01, time = 2.36 | CG iter. 8 -- res = 0.59710E+04, tol = 0.25653E+01, time = 2.67 | CG iter. 9 -- res = 0.27929E+04, tol = 0.25653E+01, time = 2.38 | CG iter. 10 -- res = 0.11550E+04, tol = 0.25653E+01, time = 2.27 | CG iter. 11 -- res = 0.47168E+03, tol = 0.25653E+01, time = 2.18 | CG iter. 12 -- res = 0.21888E+03, tol = 0.25653E+01, time = 2.27 | CG iter. 13 -- res = 0.10295E+03, tol = 0.25653E+01, time = 2.28 | CG iter. 14 -- res = 0.51543E+02, tol = 0.25653E+01, time = 2.99 | CG iter. 15 -- res = 0.25491E+02, tol = 0.25653E+01, time = 2.34 | CG iter. 16 -- res = 0.11350E+02, tol = 0.25653E+01, time = 2.39 | CG iter. 17 -- res = 0.48667E+01, tol = 0.25653E+01, time = 2.24 | CG iter. 18 -- res = 0.21216E+01, tol = 0.25653E+01, time = 2.10 | CG iter. 19 -- res = 0.98619E+00, tol = 0.25653E+01, time = 2.25 | CG iter. 20 -- res = 0.50380E+00, tol = 0.25653E+01, time = 2.45 | CG iter. 21 -- res = 0.26382E+00, tol = 0.25653E+01, time = 2.33 | CG iter. 22 -- res = 0.12911E+00, tol = 0.25653E+01, time = 2.30 | CG iter. 23 -- res = 0.59485E-01, tol = 0.25653E+01, time = 2.37 | CG iter. 24 -- res = 0.27395E-01, tol = 0.25653E+01, time = 2.49 | CG iter. 25 -- res = 0.13131E-01, tol = 0.25653E+01, time = 2.28 | CG iter. 26 -- res = 0.63171E-02, tol = 0.25653E+01, time = 2.30 | CG iter. 27 -- res = 0.31463E-02, tol = 0.25653E+01, time = 2.35 | CG iter. 28 -- res = 0.16557E-02, tol = 0.25653E+01, time = 2.29 | CG iter. 29 -- res = 0.81504E-03, tol = 0.25653E+01, time = 2.10 | CG iter. 30 -- res = 0.39189E-03, tol = 0.25653E+01, time = 2.47 | CG iter. 31 -- res = 0.17415E-03, tol = 0.25653E+01, time = 2.39 | CG iter. 32 -- res = 0.80077E-04, tol = 0.25653E+01, time = 2.22 | CG iter. 33 -- res = 0.40949E-04, tol = 0.25653E+01, time = 2.46 | CG iter. 34 -- res = 0.20432E-04, tol = 0.25653E+01, time = 2.23 | CG iter. 35 -- res = 0.10301E-04, tol = 0.25653E+01, time = 2.39 | CG iter. 36 -- res = 0.50755E-05, tol = 0.25653E+01, time = 2.25 | CG iter. 37 -- res = 0.22788E-05, tol = 0.25653E+01, time = 2.33 | CG iter. 38 -- res = 0.11021E-05, tol = 0.25653E+01, time = 2.31 | CG iter. 39 -- res = 0.51489E-06, tol = 0.25653E+01, time = 2.38 | CG iter. 40 -- res = 0.26014E-06, tol = 0.25653E+01, time = 2.31 | CG iter. 41 -- res = 0.13028E-06, tol = 0.25653E+01, time = 2.13 | CG iter. 42 -- res = 0.65018E-07, tol = 0.25653E+01, time = 2.28 | CG iter. 43 -- res = 0.29814E-07, tol = 0.25653E+01, time = 2.30 | CG iter. 44 -- res = 0.13502E-07, tol = 0.25653E+01, time = 2.26 | CG iter. 45 -- res = 0.63976E-08, tol = 0.25653E+01, time = 2.27 | CG iter. 46 -- res = 0.31493E-08, tol = 0.25653E+01, time = 2.44 | CG iter. 47 -- res = 0.15821E-08, tol = 0.25653E+01, time = 2.27 | CG iter. 48 -- res = 0.79821E-09, tol = 0.25653E+01, time = 2.29 | CG iter. 49 -- res = 0.37625E-09, tol = 0.25653E+01, time = 2.35 | CG iter. 50 -- res = 0.16803E-09, tol = 0.25653E+01, time = 2.11 | Final CG iter 51 -- res = 0.16803E-09, tol = 0.25653E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.205 6.370 | New value -3.970 | Old value 2.205 | Difference -6.175 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.38811E+05, tol = 0.47627E+18, time = 1.59 | CG iter. 2 -- res = 0.40448E+02, tol = 0.47627E+18, time = 1.61 | CG iter. 3 -- res = 0.14831E+01, tol = 0.47627E+18, time = 1.68 | CG iter. 4 -- res = 0.41028E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.20930E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7651772.780 | (Sampled value in CG: 7609266.158 ) | CPU time specind = 1017.604 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.43 | CG iter. 1 -- res = 0.73701E+08, tol = 0.57698E+04, time = 9.96 | CG iter. 2 -- res = 0.60786E+08, tol = 0.57698E+04, time = 10.24 | CG iter. 3 -- res = 0.15822E+08, tol = 0.57698E+04, time = 11.58 | CG iter. 4 -- res = 0.70519E+07, tol = 0.57698E+04, time = 10.75 | CG iter. 5 -- res = 0.43456E+07, tol = 0.57698E+04, time = 10.04 | CG iter. 6 -- res = 0.25554E+07, tol = 0.57698E+04, time = 10.63 | CG iter. 7 -- res = 0.15014E+07, tol = 0.57698E+04, time = 10.15 | CG iter. 8 -- res = 0.95003E+06, tol = 0.57698E+04, time = 10.23 | CG iter. 9 -- res = 0.60735E+06, tol = 0.57698E+04, time = 9.83 | CG iter. 10 -- res = 0.37002E+06, tol = 0.57698E+04, time = 10.15 | CG iter. 11 -- res = 0.20896E+06, tol = 0.57698E+04, time = 10.07 | CG iter. 12 -- res = 0.11565E+06, tol = 0.57698E+04, time = 10.35 | CG iter. 13 -- res = 0.64906E+05, tol = 0.57698E+04, time = 10.41 | CG iter. 14 -- res = 0.39828E+05, tol = 0.57698E+04, time = 10.33 | CG iter. 15 -- res = 0.27803E+05, tol = 0.57698E+04, time = 10.22 | CG iter. 16 -- res = 0.22648E+05, tol = 0.57698E+04, time = 10.28 | CG iter. 17 -- res = 0.19555E+05, tol = 0.57698E+04, time = 10.04 | CG iter. 18 -- res = 0.17033E+05, tol = 0.57698E+04, time = 10.39 | CG iter. 19 -- res = 0.14409E+05, tol = 0.57698E+04, time = 10.49 | CG iter. 20 -- res = 0.12343E+05, tol = 0.57698E+04, time = 9.97 | CG iter. 21 -- res = 0.11318E+05, tol = 0.57698E+04, time = 10.27 | CG iter. 22 -- res = 0.11409E+05, tol = 0.57698E+04, time = 10.07 | CG iter. 23 -- res = 0.12167E+05, tol = 0.57698E+04, time = 16.59 | CG iter. 24 -- res = 0.12580E+05, tol = 0.57698E+04, time = 10.00 | CG iter. 25 -- res = 0.11571E+05, tol = 0.57698E+04, time = 10.15 | CG iter. 26 -- res = 0.95080E+04, tol = 0.57698E+04, time = 10.36 | CG iter. 27 -- res = 0.72813E+04, tol = 0.57698E+04, time = 9.80 | CG iter. 28 -- res = 0.54577E+04, tol = 0.57698E+04, time = 10.25 | CG iter. 29 -- res = 0.43030E+04, tol = 0.57698E+04, time = 10.13 | CG iter. 30 -- res = 0.37351E+04, tol = 0.57698E+04, time = 10.04 | CG iter. 31 -- res = 0.33223E+04, tol = 0.57698E+04, time = 11.27 | CG iter. 32 -- res = 0.28920E+04, tol = 0.57698E+04, time = 11.42 | CG iter. 33 -- res = 0.25119E+04, tol = 0.57698E+04, time = 10.52 | CG iter. 34 -- res = 0.21150E+04, tol = 0.57698E+04, time = 10.04 | CG iter. 35 -- res = 0.18118E+04, tol = 0.57698E+04, time = 10.29 | CG iter. 36 -- res = 0.16621E+04, tol = 0.57698E+04, time = 11.05 | CG iter. 37 -- res = 0.16176E+04, tol = 0.57698E+04, time = 10.12 | CG iter. 38 -- res = 0.15530E+04, tol = 0.57698E+04, time = 9.96 | CG iter. 39 -- res = 0.14316E+04, tol = 0.57698E+04, time = 10.36 | CG iter. 40 -- res = 0.12343E+04, tol = 0.57698E+04, time = 10.25 | CG iter. 41 -- res = 0.10080E+04, tol = 0.57698E+04, time = 9.96 | CG iter. 42 -- res = 0.83208E+03, tol = 0.57698E+04, time = 10.98 | CG iter. 43 -- res = 0.70970E+03, tol = 0.57698E+04, time = 10.32 | CG iter. 44 -- res = 0.63977E+03, tol = 0.57698E+04, time = 10.13 | CG iter. 45 -- res = 0.58621E+03, tol = 0.57698E+04, time = 10.51 | CG iter. 46 -- res = 0.53961E+03, tol = 0.57698E+04, time = 10.18 | CG iter. 47 -- res = 0.48146E+03, tol = 0.57698E+04, time = 10.43 | CG iter. 48 -- res = 0.42271E+03, tol = 0.57698E+04, time = 10.43 | CG iter. 49 -- res = 0.36807E+03, tol = 0.57698E+04, time = 10.10 | CG iter. 50 -- res = 0.33273E+03, tol = 0.57698E+04, time = 10.38 | CG iter. 51 -- res = 0.31713E+03, tol = 0.57698E+04, time = 10.37 | CG iter. 52 -- res = 0.30845E+03, tol = 0.57698E+04, time = 16.31 | CG iter. 53 -- res = 0.30053E+03, tol = 0.57698E+04, time = 10.15 | CG iter. 54 -- res = 0.28207E+03, tol = 0.57698E+04, time = 10.18 | CG iter. 55 -- res = 0.25044E+03, tol = 0.57698E+04, time = 9.96 | CG iter. 56 -- res = 0.21382E+03, tol = 0.57698E+04, time = 10.40 | CG iter. 57 -- res = 0.18260E+03, tol = 0.57698E+04, time = 10.02 | CG iter. 58 -- res = 0.16599E+03, tol = 0.57698E+04, time = 10.52 | CG iter. 59 -- res = 0.15905E+03, tol = 0.57698E+04, time = 9.94 | CG iter. 60 -- res = 0.15327E+03, tol = 0.57698E+04, time = 11.91 | Final CG iter 61 -- res = 0.15327E+03, tol = 0.57698E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.901 ( -230.006 -2227.718 2509.923 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7393869.632 | Old band monopole 7651805.692 | Change to band monopole -257936.060 | Change to component monopole 257934.951 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.735 2.727 | New value 1.922 | Old value 1.735 | Difference 0.187 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.883 ( 6.937 6.971 -6.181 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.198 6.879 | New value -8.553 | Old value -1.198 | Difference -7.354 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.18060E+05, tol = 0.47627E+18, time = 1.58 | CG iter. 2 -- res = 0.27478E+02, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.60059E+00, tol = 0.47627E+18, time = 1.59 | CG iter. 4 -- res = 0.10978E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.45285E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7393837.829 | (Sampled value in CG: 7378036.220 ) | Chain = 1 -- chisq = 0.81471495E+09 | Chain = 1 -- wall time = 5358.595 sec Available RAM: MemAvailable: 379892052 kB Available Swap: SwapFree: 1115120452 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 186 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444599 | --> Sampling calibration, mode = relcal | relcal = 1.3434598E-02 7.4189244E-04 -1.5986491E-03 -1.2577842E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.3951009E-02 0.1156618 9406686.87951447 | BP delta = 9.3951009E-02 0.1208218 9406700.04877317 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632350 | --> Sampling calibration, mode = relcal | relcal = -2.8213700E-03 -7.0466608E-04 1.6792457E-03 1.6150263E-03 -4.0772866E-04 6.3949288E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5646352 15219802.8849174 | BP delta = 0.0000000E+00 -0.5667195 15219803.6700000 | BP chisq diff = 0.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03104516 | --> Sampling calibration, mode = relcal | relcal = 3.7110504E-02 1.3727176E-02 5.7447329E-03 -7.1707182E-03 8.2613379E-03 2.3934382E-03 -7.6001477E-03 -7.1895453E-03 -1.5310041E-02 -1.4803578E-02 -3.0562193E-03 -1.2106940E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.231249 132211696.133810 | BP delta = 0.0000000E+00 -1.238266 132211700.591358 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18012350285957 | --> Sampling calibration, mode = relcal | relcal = -7.3883444E-02 -5.7838790E-02 9.0733275E-02 4.0988956E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.9710582E-04 3.1991459E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9816E-03 | 2: delta_r/delta_0: 1.5461E-04 | 3: delta_s/delta_0: 1.9412E-07 | 4: delta_r/delta_0: 2.1779E-08 | 5: delta_s/delta_0: 6.9116E-09 | 6: delta_r/delta_0: 1.1279E-09 | 7: delta_s/delta_0: 1.9022E-08 | 8: delta_r/delta_0: 1.7923E-10 | 9: delta_s/delta_0: 6.2043E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.109369835064213E-003 2.743245986768296E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9808E-03 | 2: delta_r/delta_0: 1.5459E-04 | 3: delta_s/delta_0: 1.9412E-07 | 4: delta_r/delta_0: 2.1779E-08 | 5: delta_s/delta_0: 6.9116E-09 | 6: delta_r/delta_0: 1.1279E-09 | 7: delta_s/delta_0: 1.9023E-08 | 8: delta_r/delta_0: 1.7923E-10 | 9: delta_s/delta_0: 6.2044E-11 | Reached bicg-stab tolerance | BP delta = 3.5359837E-02 5.1999215E-02 3702169.80075722 | BP delta = 3.5359837E-02 5.2137863E-02 3701754.15934677 | BP chisq diff = -415.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02564127 | --> Sampling calibration, mode = relcal | relcal = -0.1065878 -9.5481865E-02 0.1449192 5.7150520E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2757532E-03 1.3128431E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1463E-05 | 2: delta_r/delta_0: 1.3602E-06 | 3: delta_s/delta_0: 2.4865E-07 | 4: delta_r/delta_0: 4.1524E-08 | 5: delta_s/delta_0: 2.3953E-08 | 6: delta_r/delta_0: 6.8107E-09 | 7: delta_s/delta_0: 6.5785E-09 | 8: delta_r/delta_0: 1.5976E-09 | 9: delta_s/delta_0: 7.7559E-10 | 10: delta_r/delta_0: 5.8449E-10 | 11: delta_s/delta_0: 2.4130E-09 | 12: delta_r/delta_0: 4.9735E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.962120839660984E-003 2.811803848405242E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1464E-05 | 2: delta_r/delta_0: 1.3604E-06 | 3: delta_s/delta_0: 2.4870E-07 | 4: delta_r/delta_0: 4.1644E-08 | 5: delta_s/delta_0: 2.3905E-08 | 6: delta_r/delta_0: 6.8173E-09 | 7: delta_s/delta_0: 6.5762E-09 | 8: delta_r/delta_0: 1.5992E-09 | 9: delta_s/delta_0: 7.7653E-10 | 10: delta_r/delta_0: 5.8519E-10 | 11: delta_s/delta_0: 2.4231E-09 | 12: delta_r/delta_0: 4.9644E-11 | Reached bicg-stab tolerance | BP delta = -0.3142671 -0.2882741 2841831.60936568 | BP delta = -0.3142671 -0.2864545 2841840.10059580 | BP chisq diff = 8.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81206420 | --> Sampling calibration, mode = relcal | relcal = 0.2953415 0.2247665 -0.2836669 -0.2364411 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2023016E-03 4.8008058E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8347E-03 | 2: delta_r/delta_0: 4.2396E-05 | 3: delta_s/delta_0: 2.7741E-03 | 4: delta_r/delta_0: 1.4101E-04 | 5: delta_s/delta_0: 5.1031E-05 | 6: delta_r/delta_0: 7.9515E-06 | 7: delta_s/delta_0: 5.8334E-08 | 8: delta_r/delta_0: 3.3871E-08 | 9: delta_s/delta_0: 2.6913E-07 | 10: delta_r/delta_0: 4.2983E-09 | 11: delta_s/delta_0: 1.9705E-09 | 12: delta_r/delta_0: 4.9356E-10 | 13: delta_s/delta_0: 2.4258E-10 | 14: delta_r/delta_0: 6.5761E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.486623477446733E-002 4.022391723518534E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8349E-03 | 2: delta_r/delta_0: 4.2400E-05 | 3: delta_s/delta_0: 2.7745E-03 | 4: delta_r/delta_0: 1.4103E-04 | 5: delta_s/delta_0: 5.1019E-05 | 6: delta_r/delta_0: 7.9497E-06 | 7: delta_s/delta_0: 5.8338E-08 | 8: delta_r/delta_0: 3.3870E-08 | 9: delta_s/delta_0: 2.6900E-07 | 10: delta_r/delta_0: 4.2986E-09 | 11: delta_s/delta_0: 1.9709E-09 | 12: delta_r/delta_0: 4.9356E-10 | 13: delta_s/delta_0: 2.4227E-10 | 14: delta_r/delta_0: 6.5764E-11 | Reached bicg-stab tolerance | BP delta = -0.1161695 -0.1501487 2827220.77301867 | BP delta = -0.1161695 -0.1449784 2827213.91116304 | BP chisq diff = -6.9, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95891732 | --> Sampling calibration, mode = relcal | relcal = 0.1064814 0.1395148 -0.1102427 -0.1357536 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1452617E-03 1.2131644E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6690E-04 | 2: delta_r/delta_0: 9.0902E-06 | 3: delta_s/delta_0: 3.0481E-05 | 4: delta_r/delta_0: 2.0956E-06 | 5: delta_s/delta_0: 2.4319E-07 | 6: delta_r/delta_0: 1.3263E-07 | 7: delta_s/delta_0: 6.5892E-07 | 8: delta_r/delta_0: 3.0534E-08 | 9: delta_s/delta_0: 2.1262E-05 | 10: delta_r/delta_0: 8.2701E-06 | 11: delta_s/delta_0: 1.7672E-09 | 12: delta_r/delta_0: 7.1010E-10 | 13: delta_s/delta_0: 4.2046E-09 | 14: delta_r/delta_0: 1.8362E-10 | 15: delta_s/delta_0: 5.2864E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.149684717971730E-002 3.698124318918298E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6694E-04 | 2: delta_r/delta_0: 9.0913E-06 | 3: delta_s/delta_0: 3.0479E-05 | 4: delta_r/delta_0: 2.0952E-06 | 5: delta_s/delta_0: 2.4319E-07 | 6: delta_r/delta_0: 1.3263E-07 | 7: delta_s/delta_0: 6.5872E-07 | 8: delta_r/delta_0: 3.0535E-08 | 9: delta_s/delta_0: 2.3453E-05 | 10: delta_r/delta_0: 9.1023E-06 | 11: delta_s/delta_0: 1.7673E-09 | 12: delta_r/delta_0: 7.1019E-10 | 13: delta_s/delta_0: 4.1911E-09 | 14: delta_r/delta_0: 1.8277E-10 | 15: delta_s/delta_0: 5.2867E-11 | Reached bicg-stab tolerance | BP delta = 9.0247400E-02 0.1991514 3004534.62624738 | BP delta = 9.0247400E-02 0.2026863 3004568.41754657 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52177004 | --> Sampling calibration, mode = relcal | relcal = -5.1070619E-02 -3.7908379E-03 2.7367648E-02 2.7493810E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.9110018E-05 1.9893914E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.4706E-05 | 2: delta_r/delta_0: 4.3270E-06 | 3: delta_s/delta_0: 5.3482E-07 | 4: delta_r/delta_0: 1.8883E-07 | 5: delta_s/delta_0: 1.0910E-07 | 6: delta_r/delta_0: 3.0388E-08 | 7: delta_s/delta_0: 1.8523E-08 | 8: delta_r/delta_0: 1.1394E-08 | 9: delta_s/delta_0: 5.0287E-09 | 10: delta_r/delta_0: 8.9232E-10 | 11: delta_s/delta_0: 1.1452E-09 | 12: delta_r/delta_0: 3.8263E-10 | 13: delta_s/delta_0: 4.4905E-09 | 14: delta_r/delta_0: 1.0778E-09 | 15: delta_s/delta_0: 1.0426E-09 | 16: delta_r/delta_0: 4.2539E-10 | 17: delta_s/delta_0: 1.1557E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.211458597709890E-002 5.481175082783759E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.4706E-05 | 2: delta_r/delta_0: 4.3270E-06 | 3: delta_s/delta_0: 5.3482E-07 | 4: delta_r/delta_0: 1.8883E-07 | 5: delta_s/delta_0: 1.0910E-07 | 6: delta_r/delta_0: 3.0388E-08 | 7: delta_s/delta_0: 1.8523E-08 | 8: delta_r/delta_0: 1.1394E-08 | 9: delta_s/delta_0: 5.0292E-09 | 10: delta_r/delta_0: 8.9222E-10 | 11: delta_s/delta_0: 1.1452E-09 | 12: delta_r/delta_0: 3.8263E-10 | 13: delta_s/delta_0: 4.4905E-09 | 14: delta_r/delta_0: 1.0776E-09 | 15: delta_s/delta_0: 1.0425E-09 | 16: delta_r/delta_0: 4.2534E-10 | 17: delta_s/delta_0: 1.1557E-11 | Reached bicg-stab tolerance | BP delta = 4.0943425E-02 0.1384740 2435368.41927286 | BP delta = 4.0943425E-02 0.1360208 2435368.85926440 | BP chisq diff = 0.4, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42172654 | --> Sampling calibration, mode = relcal | relcal = 4.5641590E-02 3.9675862E-02 -2.8300202E-02 -5.7017252E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2307722E-03 4.4343802E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2109E-05 | 2: delta_r/delta_0: 3.8861E-06 | 3: delta_s/delta_0: 6.3211E-06 | 4: delta_r/delta_0: 9.7701E-07 | 5: delta_s/delta_0: 6.0897E-08 | 6: delta_r/delta_0: 4.0240E-08 | 7: delta_s/delta_0: 1.7239E-07 | 8: delta_r/delta_0: 8.3899E-09 | 9: delta_s/delta_0: 2.1287E-09 | 10: delta_r/delta_0: 6.3784E-10 | 11: delta_s/delta_0: 7.9736E-10 | 12: delta_r/delta_0: 4.9558E-10 | 13: delta_s/delta_0: 4.8254E-10 | 14: delta_r/delta_0: 3.8628E-10 | 15: delta_s/delta_0: 3.3406E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.506504141782123E-002 4.993974069833743E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2109E-05 | 2: delta_r/delta_0: 3.8860E-06 | 3: delta_s/delta_0: 6.3213E-06 | 4: delta_r/delta_0: 9.7702E-07 | 5: delta_s/delta_0: 6.0896E-08 | 6: delta_r/delta_0: 4.0240E-08 | 7: delta_s/delta_0: 1.7240E-07 | 8: delta_r/delta_0: 8.3897E-09 | 9: delta_s/delta_0: 2.1290E-09 | 10: delta_r/delta_0: 6.3805E-10 | 11: delta_s/delta_0: 7.9736E-10 | 12: delta_r/delta_0: 4.9560E-10 | 13: delta_s/delta_0: 4.8268E-10 | 14: delta_r/delta_0: 3.8638E-10 | 15: delta_s/delta_0: 3.3403E-11 | Reached bicg-stab tolerance | BP delta = -2.7881730E-02 -0.1167844 2321891.10370783 | BP delta = -2.7881730E-02 -0.1314386 2321890.11897327 | BP chisq diff = -1.0, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28185450 | --> Sampling calibration, mode = relcal | relcal = 2.4259550E-02 4.5155253E-02 -2.3393124E-02 -4.6021681E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2974593E-02 1.9470451E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0792E-04 | 2: delta_r/delta_0: 8.8191E-06 | 3: delta_s/delta_0: 1.4091E-06 | 4: delta_r/delta_0: 1.9902E-07 | 5: delta_s/delta_0: 8.0384E-08 | 6: delta_r/delta_0: 1.7882E-08 | 7: delta_s/delta_0: 8.9673E-09 | 8: delta_r/delta_0: 5.2523E-09 | 9: delta_s/delta_0: 7.0239E-08 | 10: delta_r/delta_0: 4.4252E-09 | 11: delta_s/delta_0: 2.0003E-09 | 12: delta_r/delta_0: 3.1170E-10 | 13: delta_s/delta_0: 3.2056E-10 | 14: delta_r/delta_0: 1.9967E-10 | 15: delta_s/delta_0: 4.9522E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.139762833551058E-002 7.837365741174631E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0792E-04 | 2: delta_r/delta_0: 8.8191E-06 | 3: delta_s/delta_0: 1.4091E-06 | 4: delta_r/delta_0: 1.9902E-07 | 5: delta_s/delta_0: 8.0384E-08 | 6: delta_r/delta_0: 1.7882E-08 | 7: delta_s/delta_0: 8.9673E-09 | 8: delta_r/delta_0: 5.2523E-09 | 9: delta_s/delta_0: 7.0238E-08 | 10: delta_r/delta_0: 4.4252E-09 | 11: delta_s/delta_0: 2.0003E-09 | 12: delta_r/delta_0: 3.1169E-10 | 13: delta_s/delta_0: 3.2056E-10 | 14: delta_r/delta_0: 1.9966E-10 | 15: delta_s/delta_0: 4.9522E-11 | Reached bicg-stab tolerance | BP delta = -0.1756133 -0.2885195 2489720.69480706 | BP delta = -0.1756133 -0.3003239 2489719.02644489 | BP chisq diff = -1.7, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29418638 | --> Sampling calibration, mode = relcal | relcal = 5.0344400E-04 1.0307657E-02 -3.8028734E-03 -7.0082266E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5657684E-02 1.4348368E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3168E-04 | 2: delta_r/delta_0: 1.1252E-05 | 3: delta_s/delta_0: 1.8253E-06 | 4: delta_r/delta_0: 2.9843E-07 | 5: delta_s/delta_0: 1.3102E-07 | 6: delta_r/delta_0: 2.3877E-08 | 7: delta_s/delta_0: 1.0382E-08 | 8: delta_r/delta_0: 6.9752E-09 | 9: delta_s/delta_0: 5.1874E-09 | 10: delta_r/delta_0: 3.9857E-09 | 11: delta_s/delta_0: 3.9513E-05 | 12: delta_r/delta_0: 2.3572E-07 | 13: delta_s/delta_0: 2.0379E-10 | 14: delta_r/delta_0: 9.9727E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.145032172453881E-002 8.299317485742712E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3168E-04 | 2: delta_r/delta_0: 1.1252E-05 | 3: delta_s/delta_0: 1.8253E-06 | 4: delta_r/delta_0: 2.9843E-07 | 5: delta_s/delta_0: 1.3102E-07 | 6: delta_r/delta_0: 2.3877E-08 | 7: delta_s/delta_0: 1.0382E-08 | 8: delta_r/delta_0: 6.9752E-09 | 9: delta_s/delta_0: 5.1874E-09 | 10: delta_r/delta_0: 3.9856E-09 | 11: delta_s/delta_0: 3.9429E-05 | 12: delta_r/delta_0: 2.3509E-07 | 13: delta_s/delta_0: 2.0395E-10 | 14: delta_r/delta_0: 9.9756E-11 | Reached bicg-stab tolerance | BP delta = -0.8714843 -0.8424620 2737971.21148251 | BP delta = -0.8714843 -0.8479616 2737967.85329607 | BP chisq diff = -3.4, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26531001 | --> Sampling calibration, mode = relcal | relcal = -5.6432015E-03 1.5021205E-02 -2.3458756E-03 -7.0321271E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.9071055E-04 3.7501222E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4231E-04 | 2: delta_r/delta_0: 1.1622E-05 | 3: delta_s/delta_0: 1.9258E-06 | 4: delta_r/delta_0: 2.5332E-07 | 5: delta_s/delta_0: 9.0969E-08 | 6: delta_r/delta_0: 2.1944E-08 | 7: delta_s/delta_0: 1.0145E-08 | 8: delta_r/delta_0: 6.5554E-09 | 9: delta_s/delta_0: 3.8932E-08 | 10: delta_r/delta_0: 9.6040E-09 | 11: delta_s/delta_0: 4.6895E-09 | 12: delta_r/delta_0: 2.8680E-09 | 13: delta_s/delta_0: 1.4820E-09 | 14: delta_r/delta_0: 4.4987E-10 | 15: delta_s/delta_0: 5.9653E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.015344867878426E-002 9.144787409863305E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4231E-04 | 2: delta_r/delta_0: 1.1622E-05 | 3: delta_s/delta_0: 1.9258E-06 | 4: delta_r/delta_0: 2.5338E-07 | 5: delta_s/delta_0: 9.0952E-08 | 6: delta_r/delta_0: 2.1949E-08 | 7: delta_s/delta_0: 1.0146E-08 | 8: delta_r/delta_0: 6.5563E-09 | 9: delta_s/delta_0: 3.8953E-08 | 10: delta_r/delta_0: 9.6056E-09 | 11: delta_s/delta_0: 4.6915E-09 | 12: delta_r/delta_0: 2.8699E-09 | 13: delta_s/delta_0: 1.4820E-09 | 14: delta_r/delta_0: 4.5008E-10 | 15: delta_s/delta_0: 5.9664E-11 | Reached bicg-stab tolerance | BP delta = 0.4450384 0.4970272 2516768.42454410 | BP delta = 0.4450384 0.4851660 2516768.76252574 | BP chisq diff = 0.3, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25677243 | --> Sampling calibration, mode = relcal | relcal = -3.1714436E-02 -2.5964180E-02 3.6950964E-02 2.0727651E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8322740E-02 1.6523972E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4731E-04 | 2: delta_r/delta_0: 1.2419E-05 | 3: delta_s/delta_0: 1.9294E-06 | 4: delta_r/delta_0: 4.2304E-07 | 5: delta_s/delta_0: 1.9650E-07 | 6: delta_r/delta_0: 3.3686E-08 | 7: delta_s/delta_0: 1.7740E-08 | 8: delta_r/delta_0: 8.4892E-09 | 9: delta_s/delta_0: 7.2096E-08 | 10: delta_r/delta_0: 5.9958E-09 | 11: delta_s/delta_0: 7.5274E-09 | 12: delta_r/delta_0: 2.8848E-09 | 13: delta_s/delta_0: 6.6229E-10 | 14: delta_r/delta_0: 1.6064E-10 | 15: delta_s/delta_0: 1.2774E-10 | 16: delta_r/delta_0: 7.6521E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.282748148657134E-002 8.667626394778634E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4731E-04 | 2: delta_r/delta_0: 1.2419E-05 | 3: delta_s/delta_0: 1.9294E-06 | 4: delta_r/delta_0: 4.2304E-07 | 5: delta_s/delta_0: 1.9650E-07 | 6: delta_r/delta_0: 3.3687E-08 | 7: delta_s/delta_0: 1.7740E-08 | 8: delta_r/delta_0: 8.4892E-09 | 9: delta_s/delta_0: 7.2099E-08 | 10: delta_r/delta_0: 5.9959E-09 | 11: delta_s/delta_0: 7.5265E-09 | 12: delta_r/delta_0: 2.8844E-09 | 13: delta_s/delta_0: 6.6296E-10 | 14: delta_r/delta_0: 1.6077E-10 | 15: delta_s/delta_0: 1.2774E-10 | 16: delta_r/delta_0: 7.6519E-11 | Reached bicg-stab tolerance | BP delta = -0.7290829 -0.8519913 2706704.90276782 | BP delta = -0.7290829 -0.8481936 2706708.33820732 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165113 | New value = -3.118206 | poltype: 2 pol: 1 CPU time specind = 3.3025980E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114310 | New value = -3.067642 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157329 | New value = -3.188318 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115949 | New value = -3.063757 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194695 | New value = -3.197555 | poltype: 2 pol: 2 CPU time specind = 2.1463871E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.37 | CG iter. 1 -- res = 0.13585E+08, tol = 0.91542E+01, time = 5.15 | CG iter. 2 -- res = 0.35096E+06, tol = 0.91542E+01, time = 4.57 | CG iter. 3 -- res = 0.58092E+05, tol = 0.91542E+01, time = 4.59 | CG iter. 4 -- res = 0.38244E+05, tol = 0.91542E+01, time = 4.93 | CG iter. 5 -- res = 0.29158E+05, tol = 0.91542E+01, time = 4.69 | CG iter. 6 -- res = 0.24858E+05, tol = 0.91542E+01, time = 4.50 | CG iter. 7 -- res = 0.23800E+05, tol = 0.91542E+01, time = 4.84 | CG iter. 8 -- res = 0.18760E+05, tol = 0.91542E+01, time = 4.88 | CG iter. 9 -- res = 0.15358E+05, tol = 0.91542E+01, time = 5.39 | CG iter. 10 -- res = 0.13053E+05, tol = 0.91542E+01, time = 4.67 | CG iter. 11 -- res = 0.92726E+04, tol = 0.91542E+01, time = 4.80 | CG iter. 12 -- res = 0.59469E+04, tol = 0.91542E+01, time = 4.70 | CG iter. 13 -- res = 0.44839E+04, tol = 0.91542E+01, time = 4.60 | CG iter. 14 -- res = 0.37909E+04, tol = 0.91542E+01, time = 4.48 | CG iter. 15 -- res = 0.31459E+04, tol = 0.91542E+01, time = 4.75 | CG iter. 16 -- res = 0.23275E+04, tol = 0.91542E+01, time = 4.76 | CG iter. 17 -- res = 0.15724E+04, tol = 0.91542E+01, time = 4.76 | CG iter. 18 -- res = 0.12309E+04, tol = 0.91542E+01, time = 4.71 | CG iter. 19 -- res = 0.10165E+04, tol = 0.91542E+01, time = 4.79 | CG iter. 20 -- res = 0.77080E+03, tol = 0.91542E+01, time = 4.75 | CG iter. 21 -- res = 0.54526E+03, tol = 0.91542E+01, time = 4.90 | CG iter. 22 -- res = 0.43371E+03, tol = 0.91542E+01, time = 4.70 | CG iter. 23 -- res = 0.37516E+03, tol = 0.91542E+01, time = 4.69 | CG iter. 24 -- res = 0.29880E+03, tol = 0.91542E+01, time = 5.03 | CG iter. 25 -- res = 0.21420E+03, tol = 0.91542E+01, time = 5.00 | CG iter. 26 -- res = 0.15550E+03, tol = 0.91542E+01, time = 4.51 | CG iter. 27 -- res = 0.13023E+03, tol = 0.91542E+01, time = 4.72 | CG iter. 28 -- res = 0.11092E+03, tol = 0.91542E+01, time = 4.94 | CG iter. 29 -- res = 0.85305E+02, tol = 0.91542E+01, time = 10.37 | CG iter. 30 -- res = 0.64579E+02, tol = 0.91542E+01, time = 5.78 | CG iter. 31 -- res = 0.54670E+02, tol = 0.91542E+01, time = 4.71 | CG iter. 32 -- res = 0.44917E+02, tol = 0.91542E+01, time = 4.75 | CG iter. 33 -- res = 0.37077E+02, tol = 0.91542E+01, time = 4.62 | CG iter. 34 -- res = 0.27870E+02, tol = 0.91542E+01, time = 4.63 | CG iter. 35 -- res = 0.21937E+02, tol = 0.91542E+01, time = 4.45 | CG iter. 36 -- res = 0.19362E+02, tol = 0.91542E+01, time = 4.76 | CG iter. 37 -- res = 0.15926E+02, tol = 0.91542E+01, time = 4.87 | CG iter. 38 -- res = 0.12379E+02, tol = 0.91542E+01, time = 4.75 | CG iter. 39 -- res = 0.96790E+01, tol = 0.91542E+01, time = 4.71 | CG iter. 40 -- res = 0.80762E+01, tol = 0.91542E+01, time = 4.71 | CG iter. 41 -- res = 0.68947E+01, tol = 0.91542E+01, time = 4.80 | CG iter. 42 -- res = 0.55245E+01, tol = 0.91542E+01, time = 4.70 | CG iter. 43 -- res = 0.43221E+01, tol = 0.91542E+01, time = 4.67 | CG iter. 44 -- res = 0.34735E+01, tol = 0.91542E+01, time = 4.55 | CG iter. 45 -- res = 0.28788E+01, tol = 0.91542E+01, time = 4.85 | CG iter. 46 -- res = 0.23106E+01, tol = 0.91542E+01, time = 4.77 | CG iter. 47 -- res = 0.17580E+01, tol = 0.91542E+01, time = 5.21 | CG iter. 48 -- res = 0.14076E+01, tol = 0.91542E+01, time = 5.83 | CG iter. 49 -- res = 0.11626E+01, tol = 0.91542E+01, time = 5.16 | CG iter. 50 -- res = 0.93294E+00, tol = 0.91542E+01, time = 4.84 | Final CG iter 51 -- res = 0.93294E+00, tol = 0.91542E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9874060.982 | Old band monopole 7393869.632 | Change to band monopole 2480191.350 | Change to component monopole -2480180.682 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.34 | CG iter. 1 -- res = 0.52640E+04, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.20478E+02, tol = 0.47627E+18, time = 1.61 | CG iter. 3 -- res = 0.85653E+00, tol = 0.47627E+18, time = 1.64 | CG iter. 4 -- res = 0.42917E-03, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.13589E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9874018.512 | (Sampled value in CG: 9930791.090 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.559591 | New value = 1.467762 | poltype: 2 pol: 1 CPU time specind = 3.4554958E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.514527 | New value = 1.555087 | poltype: 2 pol: 2 CPU time specind = 2.1955013E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.25807E+08, tol = 0.47505E+04, time = 5.27 | CG iter. 2 -- res = 0.54218E+07, tol = 0.47505E+04, time = 5.11 | CG iter. 3 -- res = 0.83889E+06, tol = 0.47505E+04, time = 5.43 | CG iter. 4 -- res = 0.35385E+06, tol = 0.47505E+04, time = 5.57 | CG iter. 5 -- res = 0.15161E+06, tol = 0.47505E+04, time = 5.58 | CG iter. 6 -- res = 0.80548E+05, tol = 0.47505E+04, time = 5.56 | CG iter. 7 -- res = 0.43733E+05, tol = 0.47505E+04, time = 5.38 | CG iter. 8 -- res = 0.20994E+05, tol = 0.47505E+04, time = 5.41 | CG iter. 9 -- res = 0.91354E+04, tol = 0.47505E+04, time = 5.45 | CG iter. 10 -- res = 0.37945E+04, tol = 0.47505E+04, time = 5.21 | CG iter. 11 -- res = 0.17132E+04, tol = 0.47505E+04, time = 5.36 | CG iter. 12 -- res = 0.88697E+03, tol = 0.47505E+04, time = 5.41 | CG iter. 13 -- res = 0.49744E+03, tol = 0.47505E+04, time = 5.29 | CG iter. 14 -- res = 0.28311E+03, tol = 0.47505E+04, time = 5.28 | CG iter. 15 -- res = 0.14583E+03, tol = 0.47505E+04, time = 5.32 | CG iter. 16 -- res = 0.68870E+02, tol = 0.47505E+04, time = 6.88 | CG iter. 17 -- res = 0.32028E+02, tol = 0.47505E+04, time = 10.31 | CG iter. 18 -- res = 0.16024E+02, tol = 0.47505E+04, time = 5.57 | CG iter. 19 -- res = 0.86849E+01, tol = 0.47505E+04, time = 5.38 | CG iter. 20 -- res = 0.49684E+01, tol = 0.47505E+04, time = 5.38 | CG iter. 21 -- res = 0.27188E+01, tol = 0.47505E+04, time = 5.33 | CG iter. 22 -- res = 0.14173E+01, tol = 0.47505E+04, time = 5.67 | CG iter. 23 -- res = 0.71012E+00, tol = 0.47505E+04, time = 5.21 | CG iter. 24 -- res = 0.36338E+00, tol = 0.47505E+04, time = 5.59 | CG iter. 25 -- res = 0.19759E+00, tol = 0.47505E+04, time = 5.37 | CG iter. 26 -- res = 0.11295E+00, tol = 0.47505E+04, time = 5.06 | CG iter. 27 -- res = 0.63735E-01, tol = 0.47505E+04, time = 5.18 | CG iter. 28 -- res = 0.34537E-01, tol = 0.47505E+04, time = 5.33 | CG iter. 29 -- res = 0.18191E-01, tol = 0.47505E+04, time = 5.43 | CG iter. 30 -- res = 0.96108E-02, tol = 0.47505E+04, time = 5.39 | CG iter. 31 -- res = 0.52935E-02, tol = 0.47505E+04, time = 5.28 | CG iter. 32 -- res = 0.29688E-02, tol = 0.47505E+04, time = 5.81 | CG iter. 33 -- res = 0.16689E-02, tol = 0.47505E+04, time = 6.48 | CG iter. 34 -- res = 0.89824E-03, tol = 0.47505E+04, time = 5.73 | CG iter. 35 -- res = 0.47505E-03, tol = 0.47505E+04, time = 5.55 | Final CG iter 36 -- res = 0.47505E-03, tol = 0.47505E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.938 2.750 | New value -5.175 | Old value 1.938 | Difference -7.113 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.26293E+07, tol = 0.47627E+18, time = 1.56 | CG iter. 2 -- res = 0.60997E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.18374E+01, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.18951E-02, tol = 0.47627E+18, time = 1.59 | Final CG iter 5 -- res = 0.48232E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9874018.512 | (Sampled value in CG: 9931677.259 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.501190 | New value = -3.449064 | poltype: 1 pol: 1 CPU time specind = 5.4719448E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.51 | CG iter. 1 -- res = 0.30724E+07, tol = 0.30410E+01, time = 2.11 | CG iter. 2 -- res = 0.11788E+07, tol = 0.30410E+01, time = 2.19 | CG iter. 3 -- res = 0.27150E+06, tol = 0.30410E+01, time = 2.05 | CG iter. 4 -- res = 0.12507E+06, tol = 0.30410E+01, time = 2.25 | CG iter. 5 -- res = 0.70868E+05, tol = 0.30410E+01, time = 2.06 | CG iter. 6 -- res = 0.32097E+05, tol = 0.30410E+01, time = 2.03 | CG iter. 7 -- res = 0.11963E+05, tol = 0.30410E+01, time = 2.06 | CG iter. 8 -- res = 0.58136E+04, tol = 0.30410E+01, time = 2.13 | CG iter. 9 -- res = 0.28240E+04, tol = 0.30410E+01, time = 2.26 | CG iter. 10 -- res = 0.11653E+04, tol = 0.30410E+01, time = 2.24 | CG iter. 11 -- res = 0.46427E+03, tol = 0.30410E+01, time = 2.04 | CG iter. 12 -- res = 0.20910E+03, tol = 0.30410E+01, time = 2.18 | CG iter. 13 -- res = 0.10194E+03, tol = 0.30410E+01, time = 2.10 | CG iter. 14 -- res = 0.51309E+02, tol = 0.30410E+01, time = 2.06 | CG iter. 15 -- res = 0.26169E+02, tol = 0.30410E+01, time = 2.08 | CG iter. 16 -- res = 0.13086E+02, tol = 0.30410E+01, time = 2.33 | CG iter. 17 -- res = 0.55494E+01, tol = 0.30410E+01, time = 2.32 | CG iter. 18 -- res = 0.24113E+01, tol = 0.30410E+01, time = 2.32 | CG iter. 19 -- res = 0.10847E+01, tol = 0.30410E+01, time = 2.16 | CG iter. 20 -- res = 0.55072E+00, tol = 0.30410E+01, time = 2.08 | CG iter. 21 -- res = 0.27403E+00, tol = 0.30410E+01, time = 2.10 | CG iter. 22 -- res = 0.13262E+00, tol = 0.30410E+01, time = 2.27 | CG iter. 23 -- res = 0.66101E-01, tol = 0.30410E+01, time = 3.20 | CG iter. 24 -- res = 0.31128E-01, tol = 0.30410E+01, time = 2.95 | CG iter. 25 -- res = 0.13867E-01, tol = 0.30410E+01, time = 2.34 | CG iter. 26 -- res = 0.65040E-02, tol = 0.30410E+01, time = 2.28 | CG iter. 27 -- res = 0.32054E-02, tol = 0.30410E+01, time = 2.53 | CG iter. 28 -- res = 0.16632E-02, tol = 0.30410E+01, time = 2.35 | CG iter. 29 -- res = 0.85073E-03, tol = 0.30410E+01, time = 2.14 | CG iter. 30 -- res = 0.42126E-03, tol = 0.30410E+01, time = 2.19 | CG iter. 31 -- res = 0.20160E-03, tol = 0.30410E+01, time = 2.10 | CG iter. 32 -- res = 0.88956E-04, tol = 0.30410E+01, time = 2.17 | CG iter. 33 -- res = 0.42143E-04, tol = 0.30410E+01, time = 2.02 | CG iter. 34 -- res = 0.22344E-04, tol = 0.30410E+01, time = 2.15 | CG iter. 35 -- res = 0.11910E-04, tol = 0.30410E+01, time = 2.30 | CG iter. 36 -- res = 0.60000E-05, tol = 0.30410E+01, time = 2.34 | CG iter. 37 -- res = 0.28078E-05, tol = 0.30410E+01, time = 2.27 | CG iter. 38 -- res = 0.13226E-05, tol = 0.30410E+01, time = 2.18 | CG iter. 39 -- res = 0.62162E-06, tol = 0.30410E+01, time = 2.20 | CG iter. 40 -- res = 0.29516E-06, tol = 0.30410E+01, time = 2.20 | CG iter. 41 -- res = 0.15423E-06, tol = 0.30410E+01, time = 2.05 | CG iter. 42 -- res = 0.77463E-07, tol = 0.30410E+01, time = 2.21 | CG iter. 43 -- res = 0.37446E-07, tol = 0.30410E+01, time = 2.39 | CG iter. 44 -- res = 0.17407E-07, tol = 0.30410E+01, time = 2.22 | CG iter. 45 -- res = 0.80863E-08, tol = 0.30410E+01, time = 2.06 | CG iter. 46 -- res = 0.39077E-08, tol = 0.30410E+01, time = 2.42 | CG iter. 47 -- res = 0.19561E-08, tol = 0.30410E+01, time = 2.34 | CG iter. 48 -- res = 0.96093E-09, tol = 0.30410E+01, time = 1.99 | CG iter. 49 -- res = 0.46052E-09, tol = 0.30410E+01, time = 2.05 | CG iter. 50 -- res = 0.21896E-09, tol = 0.30410E+01, time = 2.25 | Final CG iter 51 -- res = 0.21896E-09, tol = 0.30410E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.510 5.843 | New value -11.244 | Old value -3.510 | Difference -7.735 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.63945E+05, tol = 0.47627E+18, time = 1.55 | CG iter. 2 -- res = 0.62838E+02, tol = 0.47627E+18, time = 1.66 | CG iter. 3 -- res = 0.24138E+01, tol = 0.47627E+18, time = 1.71 | CG iter. 4 -- res = 0.77229E-02, tol = 0.47627E+18, time = 1.67 | Final CG iter 5 -- res = 0.56739E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9874018.512 | (Sampled value in CG: 9919919.672 ) | CPU time specind = 995.9169 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.74042E+08, tol = 0.57454E+04, time = 9.57 | CG iter. 2 -- res = 0.61159E+08, tol = 0.57454E+04, time = 9.94 | CG iter. 3 -- res = 0.15979E+08, tol = 0.57454E+04, time = 9.63 | CG iter. 4 -- res = 0.70939E+07, tol = 0.57454E+04, time = 9.95 | CG iter. 5 -- res = 0.43977E+07, tol = 0.57454E+04, time = 9.75 | CG iter. 6 -- res = 0.25919E+07, tol = 0.57454E+04, time = 9.83 | CG iter. 7 -- res = 0.15000E+07, tol = 0.57454E+04, time = 15.70 | CG iter. 8 -- res = 0.95600E+06, tol = 0.57454E+04, time = 11.29 | CG iter. 9 -- res = 0.59917E+06, tol = 0.57454E+04, time = 10.28 | CG iter. 10 -- res = 0.36872E+06, tol = 0.57454E+04, time = 9.68 | CG iter. 11 -- res = 0.20488E+06, tol = 0.57454E+04, time = 9.72 | CG iter. 12 -- res = 0.11423E+06, tol = 0.57454E+04, time = 9.48 | CG iter. 13 -- res = 0.64073E+05, tol = 0.57454E+04, time = 9.88 | CG iter. 14 -- res = 0.37700E+05, tol = 0.57454E+04, time = 9.56 | CG iter. 15 -- res = 0.25722E+05, tol = 0.57454E+04, time = 9.75 | CG iter. 16 -- res = 0.20074E+05, tol = 0.57454E+04, time = 12.23 | CG iter. 17 -- res = 0.16306E+05, tol = 0.57454E+04, time = 10.00 | CG iter. 18 -- res = 0.13120E+05, tol = 0.57454E+04, time = 9.94 | CG iter. 19 -- res = 0.10557E+05, tol = 0.57454E+04, time = 9.70 | CG iter. 20 -- res = 0.87234E+04, tol = 0.57454E+04, time = 9.55 | CG iter. 21 -- res = 0.76538E+04, tol = 0.57454E+04, time = 9.80 | CG iter. 22 -- res = 0.75703E+04, tol = 0.57454E+04, time = 9.75 | CG iter. 23 -- res = 0.81018E+04, tol = 0.57454E+04, time = 9.71 | CG iter. 24 -- res = 0.87622E+04, tol = 0.57454E+04, time = 9.79 | CG iter. 25 -- res = 0.84419E+04, tol = 0.57454E+04, time = 9.66 | CG iter. 26 -- res = 0.72917E+04, tol = 0.57454E+04, time = 9.77 | CG iter. 27 -- res = 0.57494E+04, tol = 0.57454E+04, time = 10.54 | CG iter. 28 -- res = 0.43910E+04, tol = 0.57454E+04, time = 9.58 | CG iter. 29 -- res = 0.35234E+04, tol = 0.57454E+04, time = 9.74 | CG iter. 30 -- res = 0.29984E+04, tol = 0.57454E+04, time = 9.98 | CG iter. 31 -- res = 0.26081E+04, tol = 0.57454E+04, time = 9.77 | CG iter. 32 -- res = 0.21863E+04, tol = 0.57454E+04, time = 9.49 | CG iter. 33 -- res = 0.18596E+04, tol = 0.57454E+04, time = 9.68 | CG iter. 34 -- res = 0.15597E+04, tol = 0.57454E+04, time = 9.80 | CG iter. 35 -- res = 0.13176E+04, tol = 0.57454E+04, time = 9.65 | CG iter. 36 -- res = 0.11818E+04, tol = 0.57454E+04, time = 9.53 | CG iter. 37 -- res = 0.11406E+04, tol = 0.57454E+04, time = 16.51 | CG iter. 38 -- res = 0.11376E+04, tol = 0.57454E+04, time = 9.78 | CG iter. 39 -- res = 0.10579E+04, tol = 0.57454E+04, time = 9.52 | CG iter. 40 -- res = 0.93550E+03, tol = 0.57454E+04, time = 9.94 | CG iter. 41 -- res = 0.78958E+03, tol = 0.57454E+04, time = 9.67 | CG iter. 42 -- res = 0.64219E+03, tol = 0.57454E+04, time = 9.68 | CG iter. 43 -- res = 0.53792E+03, tol = 0.57454E+04, time = 9.43 | CG iter. 44 -- res = 0.47797E+03, tol = 0.57454E+04, time = 9.73 | CG iter. 45 -- res = 0.43823E+03, tol = 0.57454E+04, time = 9.65 | CG iter. 46 -- res = 0.39505E+03, tol = 0.57454E+04, time = 11.31 | CG iter. 47 -- res = 0.34833E+03, tol = 0.57454E+04, time = 10.43 | CG iter. 48 -- res = 0.29906E+03, tol = 0.57454E+04, time = 9.75 | CG iter. 49 -- res = 0.25832E+03, tol = 0.57454E+04, time = 9.90 | CG iter. 50 -- res = 0.23261E+03, tol = 0.57454E+04, time = 9.68 | CG iter. 51 -- res = 0.22030E+03, tol = 0.57454E+04, time = 9.59 | CG iter. 52 -- res = 0.21108E+03, tol = 0.57454E+04, time = 9.79 | CG iter. 53 -- res = 0.20106E+03, tol = 0.57454E+04, time = 9.60 | CG iter. 54 -- res = 0.18456E+03, tol = 0.57454E+04, time = 10.16 | CG iter. 55 -- res = 0.16343E+03, tol = 0.57454E+04, time = 9.72 | CG iter. 56 -- res = 0.13869E+03, tol = 0.57454E+04, time = 9.54 | CG iter. 57 -- res = 0.12054E+03, tol = 0.57454E+04, time = 9.59 | CG iter. 58 -- res = 0.11050E+03, tol = 0.57454E+04, time = 9.94 | CG iter. 59 -- res = 0.10390E+03, tol = 0.57454E+04, time = 9.62 | CG iter. 60 -- res = 0.96811E+02, tol = 0.57454E+04, time = 10.18 | Final CG iter 61 -- res = 0.96811E+02, tol = 0.57454E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.902 ( -229.951 -2229.477 2511.786 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9767537.208 | Old band monopole 9874060.982 | Change to band monopole -106523.774 | Change to component monopole 106523.316 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.197 2.779 | New value -5.362 | Old value -5.197 | Difference -0.165 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -2.031 ( 7.021 10.048 -9.878 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.193 5.004 | New value -1.514 | Old value -5.193 | Difference 3.679 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.14221E+06, tol = 0.47627E+18, time = 1.54 | CG iter. 2 -- res = 0.69732E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.25275E+01, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.68698E-02, tol = 0.47627E+18, time = 1.71 | Final CG iter 5 -- res = 0.37907E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9767495.196 | (Sampled value in CG: 9734813.906 ) | Chain = 1 -- chisq = 0.81549499E+09 | Chain = 1 -- wall time = 17542.493 sec Available RAM: MemAvailable: 489348248 kB Available Swap: SwapFree: 1054680728 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 187 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442585 | --> Sampling calibration, mode = relcal | relcal = 1.3428631E-02 7.4736355E-04 -1.5926876E-03 -1.2583308E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.3951009E-02 0.1156618 97044348.3861151 | BP delta = 0.1006126 0.1223233 97044342.9514582 | BP chisq diff = -5.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632549 | --> Sampling calibration, mode = relcal | relcal = -2.8209204E-03 -7.0444710E-04 1.6787197E-03 1.6131413E-03 -4.0718884E-04 6.4069539E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5667195 15218801.7736177 | BP delta = 0.0000000E+00 -0.5589945 15218797.5475333 | BP chisq diff = -4.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17992571594581 | --> Sampling calibration, mode = relcal | relcal = -7.4702799E-02 -5.8112048E-02 9.1423914E-02 4.1390933E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1153694E-04 3.8166235E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8602E-05 | 2: delta_r/delta_0: 7.8062E-07 | 3: delta_s/delta_0: 2.5037E-07 | 4: delta_r/delta_0: 1.1325E-08 | 5: delta_s/delta_0: 1.1386E-08 | 6: delta_r/delta_0: 2.8397E-09 | 7: delta_s/delta_0: 2.7927E-10 | 8: delta_r/delta_0: 8.5249E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.780178513072158E-004 2.743614470559084E-005 | BP delta = 3.5359837E-02 5.2137863E-02 50483391.6235237 | BP delta = 4.1177064E-02 5.7955090E-02 50483394.1960499 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02580987 | --> Sampling calibration, mode = relcal | relcal = -0.1066071 -9.5535591E-02 0.1448968 5.7245962E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2965781E-03 1.0432275E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0422E-05 | 2: delta_r/delta_0: 1.2059E-06 | 3: delta_s/delta_0: 2.4388E-07 | 4: delta_r/delta_0: 4.8897E-08 | 5: delta_s/delta_0: 1.8198E-08 | 6: delta_r/delta_0: 6.5567E-09 | 7: delta_s/delta_0: 1.3835E-08 | 8: delta_r/delta_0: 9.0334E-10 | 9: delta_s/delta_0: 9.1157E-10 | 10: delta_r/delta_0: 1.4023E-10 | 11: delta_s/delta_0: 9.1822E-10 | 12: delta_r/delta_0: 2.0131E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.448819798211888E-003 2.811321056187478E-005 | BP delta = -0.3142671 -0.2864545 57388150.2371269 | BP delta = -0.3054723 -0.2776597 57388149.7120237 | BP chisq diff = -0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81227578 | --> Sampling calibration, mode = relcal | relcal = 0.2955498 0.2247577 -0.2838157 -0.2364918 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9322439E-04 5.0700819E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1406E-04 | 2: delta_r/delta_0: 9.3632E-06 | 3: delta_s/delta_0: 2.7315E-05 | 4: delta_r/delta_0: 3.1046E-06 | 5: delta_s/delta_0: 2.3214E-07 | 6: delta_r/delta_0: 7.3141E-08 | 7: delta_s/delta_0: 5.5386E-08 | 8: delta_r/delta_0: 2.8576E-08 | 9: delta_s/delta_0: 5.6405E-08 | 10: delta_r/delta_0: 2.5927E-09 | 11: delta_s/delta_0: 8.3579E-10 | 12: delta_r/delta_0: 4.4736E-10 | 13: delta_s/delta_0: 1.1743E-08 | 14: delta_r/delta_0: 8.5933E-10 | 15: delta_s/delta_0: 2.9559E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.366245020671144E-002 4.021497518091110E-005 | BP delta = -0.1161695 -0.1449784 72487434.3432618 | BP delta = -0.1073977 -0.1362065 72487434.8825216 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95922412 | --> Sampling calibration, mode = relcal | relcal = 0.1066145 0.1393960 -0.1102386 -0.1357720 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8581685E-03 1.2884350E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8777E-03 | 2: delta_r/delta_0: 4.5264E-05 | 3: delta_s/delta_0: 8.7388E-03 | 4: delta_r/delta_0: 3.5212E-04 | 5: delta_s/delta_0: 4.9229E-07 | 6: delta_r/delta_0: 1.8902E-07 | 7: delta_s/delta_0: 3.9545E-07 | 8: delta_r/delta_0: 5.1732E-08 | 9: delta_s/delta_0: 1.7558E-08 | 10: delta_r/delta_0: 4.5451E-09 | 11: delta_s/delta_0: 5.1878E-09 | 12: delta_r/delta_0: 3.5087E-09 | 13: delta_s/delta_0: 3.2376E-10 | 14: delta_r/delta_0: 1.8335E-10 | 15: delta_s/delta_0: 1.2914E-09 | 16: delta_r/delta_0: 5.6492E-10 | 17: delta_s/delta_0: 3.6149E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.742675284595067E-002 3.696915454782935E-005 | BP delta = 9.0247400E-02 0.1991514 72780232.8193018 | BP delta = 7.0454121E-02 0.1793581 72780232.8639659 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118206 | New value = -3.088352 | poltype: 2 pol: 1 CPU time specind = 1.7584801E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.067642 | New value = -3.134876 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188318 | New value = -3.111026 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.063757 | New value = -3.180887 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197555 | New value = -3.134178 | poltype: 2 pol: 2 CPU time specind = 1.4778852E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.13583E+08, tol = 0.74179E+01, time = 5.26 | CG iter. 2 -- res = 0.32091E+06, tol = 0.74179E+01, time = 5.01 | CG iter. 3 -- res = 0.55591E+05, tol = 0.74179E+01, time = 5.66 | CG iter. 4 -- res = 0.32511E+05, tol = 0.74179E+01, time = 4.76 | CG iter. 5 -- res = 0.22235E+05, tol = 0.74179E+01, time = 4.99 | CG iter. 6 -- res = 0.18825E+05, tol = 0.74179E+01, time = 4.87 | CG iter. 7 -- res = 0.17796E+05, tol = 0.74179E+01, time = 5.19 | CG iter. 8 -- res = 0.14271E+05, tol = 0.74179E+01, time = 5.03 | CG iter. 9 -- res = 0.11790E+05, tol = 0.74179E+01, time = 5.24 | CG iter. 10 -- res = 0.99372E+04, tol = 0.74179E+01, time = 5.27 | CG iter. 11 -- res = 0.70789E+04, tol = 0.74179E+01, time = 5.00 | CG iter. 12 -- res = 0.46200E+04, tol = 0.74179E+01, time = 4.79 | CG iter. 13 -- res = 0.32149E+04, tol = 0.74179E+01, time = 4.93 | CG iter. 14 -- res = 0.26095E+04, tol = 0.74179E+01, time = 5.08 | CG iter. 15 -- res = 0.22839E+04, tol = 0.74179E+01, time = 4.73 | CG iter. 16 -- res = 0.17225E+04, tol = 0.74179E+01, time = 5.05 | CG iter. 17 -- res = 0.11223E+04, tol = 0.74179E+01, time = 5.06 | CG iter. 18 -- res = 0.79081E+03, tol = 0.74179E+01, time = 4.99 | CG iter. 19 -- res = 0.65795E+03, tol = 0.74179E+01, time = 4.78 | CG iter. 20 -- res = 0.51128E+03, tol = 0.74179E+01, time = 5.22 | CG iter. 21 -- res = 0.36011E+03, tol = 0.74179E+01, time = 4.75 | CG iter. 22 -- res = 0.26530E+03, tol = 0.74179E+01, time = 5.59 | CG iter. 23 -- res = 0.22698E+03, tol = 0.74179E+01, time = 10.84 | CG iter. 24 -- res = 0.18591E+03, tol = 0.74179E+01, time = 4.92 | CG iter. 25 -- res = 0.13754E+03, tol = 0.74179E+01, time = 5.06 | CG iter. 26 -- res = 0.97259E+02, tol = 0.74179E+01, time = 4.97 | CG iter. 27 -- res = 0.77091E+02, tol = 0.74179E+01, time = 4.91 | CG iter. 28 -- res = 0.65980E+02, tol = 0.74179E+01, time = 4.88 | CG iter. 29 -- res = 0.50864E+02, tol = 0.74179E+01, time = 5.08 | CG iter. 30 -- res = 0.37291E+02, tol = 0.74179E+01, time = 5.10 | CG iter. 31 -- res = 0.29894E+02, tol = 0.74179E+01, time = 4.86 | CG iter. 32 -- res = 0.25669E+02, tol = 0.74179E+01, time = 5.00 | CG iter. 33 -- res = 0.20588E+02, tol = 0.74179E+01, time = 5.35 | CG iter. 34 -- res = 0.14730E+02, tol = 0.74179E+01, time = 4.99 | CG iter. 35 -- res = 0.11725E+02, tol = 0.74179E+01, time = 4.88 | CG iter. 36 -- res = 0.97592E+01, tol = 0.74179E+01, time = 4.83 | CG iter. 37 -- res = 0.81656E+01, tol = 0.74179E+01, time = 5.03 | CG iter. 38 -- res = 0.63521E+01, tol = 0.74179E+01, time = 5.08 | CG iter. 39 -- res = 0.46600E+01, tol = 0.74179E+01, time = 5.21 | CG iter. 40 -- res = 0.37967E+01, tol = 0.74179E+01, time = 6.75 | CG iter. 41 -- res = 0.31535E+01, tol = 0.74179E+01, time = 5.04 | CG iter. 42 -- res = 0.24333E+01, tol = 0.74179E+01, time = 5.58 | CG iter. 43 -- res = 0.18342E+01, tol = 0.74179E+01, time = 4.82 | CG iter. 44 -- res = 0.13657E+01, tol = 0.74179E+01, time = 4.93 | CG iter. 45 -- res = 0.11255E+01, tol = 0.74179E+01, time = 5.05 | CG iter. 46 -- res = 0.90303E+00, tol = 0.74179E+01, time = 5.15 | CG iter. 47 -- res = 0.67189E+00, tol = 0.74179E+01, time = 4.76 | CG iter. 48 -- res = 0.50819E+00, tol = 0.74179E+01, time = 5.11 | CG iter. 49 -- res = 0.39826E+00, tol = 0.74179E+01, time = 4.89 | CG iter. 50 -- res = 0.32357E+00, tol = 0.74179E+01, time = 4.93 | Final CG iter 51 -- res = 0.32357E+00, tol = 0.74179E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7672449.180 | Old band monopole 9767537.208 | Change to band monopole -2095088.028 | Change to component monopole 2095079.017 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.33725E+06, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.13460E+03, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.33138E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.10642E-01, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.12239E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7672416.179 | (Sampled value in CG: 7711147.309 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.467762 | New value = 1.512571 | poltype: 2 pol: 1 CPU time specind = 6.4401627E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.555087 | New value = 1.447379 | poltype: 2 pol: 2 CPU time specind = 1.5347004E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.24399E+08, tol = 0.47542E+04, time = 5.76 | CG iter. 2 -- res = 0.52221E+07, tol = 0.47542E+04, time = 5.91 | CG iter. 3 -- res = 0.81751E+06, tol = 0.47542E+04, time = 5.75 | CG iter. 4 -- res = 0.34123E+06, tol = 0.47542E+04, time = 5.94 | CG iter. 5 -- res = 0.14925E+06, tol = 0.47542E+04, time = 5.76 | CG iter. 6 -- res = 0.78963E+05, tol = 0.47542E+04, time = 5.77 | CG iter. 7 -- res = 0.43702E+05, tol = 0.47542E+04, time = 5.82 | CG iter. 8 -- res = 0.20752E+05, tol = 0.47542E+04, time = 12.60 | CG iter. 9 -- res = 0.89128E+04, tol = 0.47542E+04, time = 5.65 | CG iter. 10 -- res = 0.36433E+04, tol = 0.47542E+04, time = 5.74 | CG iter. 11 -- res = 0.16465E+04, tol = 0.47542E+04, time = 5.83 | CG iter. 12 -- res = 0.84136E+03, tol = 0.47542E+04, time = 5.81 | CG iter. 13 -- res = 0.48130E+03, tol = 0.47542E+04, time = 5.75 | CG iter. 14 -- res = 0.27172E+03, tol = 0.47542E+04, time = 5.76 | CG iter. 15 -- res = 0.13816E+03, tol = 0.47542E+04, time = 5.67 | CG iter. 16 -- res = 0.65318E+02, tol = 0.47542E+04, time = 5.63 | CG iter. 17 -- res = 0.30600E+02, tol = 0.47542E+04, time = 5.72 | CG iter. 18 -- res = 0.15282E+02, tol = 0.47542E+04, time = 5.85 | CG iter. 19 -- res = 0.83395E+01, tol = 0.47542E+04, time = 5.61 | CG iter. 20 -- res = 0.47471E+01, tol = 0.47542E+04, time = 5.75 | CG iter. 21 -- res = 0.25948E+01, tol = 0.47542E+04, time = 5.85 | CG iter. 22 -- res = 0.13516E+01, tol = 0.47542E+04, time = 5.84 | CG iter. 23 -- res = 0.66807E+00, tol = 0.47542E+04, time = 6.90 | CG iter. 24 -- res = 0.34843E+00, tol = 0.47542E+04, time = 6.41 | CG iter. 25 -- res = 0.19328E+00, tol = 0.47542E+04, time = 6.12 | CG iter. 26 -- res = 0.10999E+00, tol = 0.47542E+04, time = 5.72 | CG iter. 27 -- res = 0.62712E-01, tol = 0.47542E+04, time = 5.66 | CG iter. 28 -- res = 0.33507E-01, tol = 0.47542E+04, time = 5.81 | CG iter. 29 -- res = 0.17483E-01, tol = 0.47542E+04, time = 5.74 | CG iter. 30 -- res = 0.89519E-02, tol = 0.47542E+04, time = 5.64 | CG iter. 31 -- res = 0.49188E-02, tol = 0.47542E+04, time = 5.80 | CG iter. 32 -- res = 0.27620E-02, tol = 0.47542E+04, time = 5.77 | CG iter. 33 -- res = 0.15520E-02, tol = 0.47542E+04, time = 6.35 | CG iter. 34 -- res = 0.83127E-03, tol = 0.47542E+04, time = 5.46 | CG iter. 35 -- res = 0.42691E-03, tol = 0.47542E+04, time = 6.06 | Final CG iter 36 -- res = 0.42691E-03, tol = 0.47542E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.364 2.745 | New value 0.271 | Old value -5.364 | Difference 5.634 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.16479E+07, tol = 0.47627E+18, time = 2.23 | CG iter. 2 -- res = 0.40450E+02, tol = 0.47627E+18, time = 1.70 | CG iter. 3 -- res = 0.11674E+01, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.24391E-03, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.80150E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7672416.179 | (Sampled value in CG: 7711838.519 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.449064 | New value = -3.628622 | poltype: 1 pol: 1 CPU time specind = 5.8717728E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.21583E+07, tol = 0.25233E+01, time = 2.42 | CG iter. 2 -- res = 0.80742E+06, tol = 0.25233E+01, time = 2.37 | CG iter. 3 -- res = 0.14260E+06, tol = 0.25233E+01, time = 2.30 | CG iter. 4 -- res = 0.56367E+05, tol = 0.25233E+01, time = 2.26 | CG iter. 5 -- res = 0.31301E+05, tol = 0.25233E+01, time = 2.43 | CG iter. 6 -- res = 0.16958E+05, tol = 0.25233E+01, time = 2.03 | CG iter. 7 -- res = 0.69275E+04, tol = 0.25233E+01, time = 2.14 | CG iter. 8 -- res = 0.29520E+04, tol = 0.25233E+01, time = 2.43 | CG iter. 9 -- res = 0.13166E+04, tol = 0.25233E+01, time = 2.56 | CG iter. 10 -- res = 0.51210E+03, tol = 0.25233E+01, time = 2.59 | CG iter. 11 -- res = 0.20560E+03, tol = 0.25233E+01, time = 2.26 | CG iter. 12 -- res = 0.10414E+03, tol = 0.25233E+01, time = 2.34 | CG iter. 13 -- res = 0.51810E+02, tol = 0.25233E+01, time = 2.24 | CG iter. 14 -- res = 0.26897E+02, tol = 0.25233E+01, time = 2.40 | CG iter. 15 -- res = 0.12810E+02, tol = 0.25233E+01, time = 2.42 | CG iter. 16 -- res = 0.53999E+01, tol = 0.25233E+01, time = 2.50 | CG iter. 17 -- res = 0.22751E+01, tol = 0.25233E+01, time = 2.55 | CG iter. 18 -- res = 0.10386E+01, tol = 0.25233E+01, time = 2.45 | CG iter. 19 -- res = 0.51011E+00, tol = 0.25233E+01, time = 2.23 | CG iter. 20 -- res = 0.25838E+00, tol = 0.25233E+01, time = 2.28 | CG iter. 21 -- res = 0.12891E+00, tol = 0.25233E+01, time = 2.24 | CG iter. 22 -- res = 0.60125E-01, tol = 0.25233E+01, time = 2.35 | CG iter. 23 -- res = 0.25486E-01, tol = 0.25233E+01, time = 2.30 | CG iter. 24 -- res = 0.11820E-01, tol = 0.25233E+01, time = 2.40 | CG iter. 25 -- res = 0.59289E-02, tol = 0.25233E+01, time = 2.40 | CG iter. 26 -- res = 0.30310E-02, tol = 0.25233E+01, time = 2.41 | CG iter. 27 -- res = 0.15189E-02, tol = 0.25233E+01, time = 2.52 | CG iter. 28 -- res = 0.72098E-03, tol = 0.25233E+01, time = 2.31 | CG iter. 29 -- res = 0.33117E-03, tol = 0.25233E+01, time = 2.41 | CG iter. 30 -- res = 0.14987E-03, tol = 0.25233E+01, time = 2.59 | CG iter. 31 -- res = 0.73685E-04, tol = 0.25233E+01, time = 2.19 | CG iter. 32 -- res = 0.36416E-04, tol = 0.25233E+01, time = 2.53 | CG iter. 33 -- res = 0.18529E-04, tol = 0.25233E+01, time = 2.26 | CG iter. 34 -- res = 0.88211E-05, tol = 0.25233E+01, time = 2.44 | CG iter. 35 -- res = 0.40698E-05, tol = 0.25233E+01, time = 2.20 | CG iter. 36 -- res = 0.19267E-05, tol = 0.25233E+01, time = 2.53 | CG iter. 37 -- res = 0.91833E-06, tol = 0.25233E+01, time = 2.37 | CG iter. 38 -- res = 0.47080E-06, tol = 0.25233E+01, time = 2.32 | CG iter. 39 -- res = 0.22927E-06, tol = 0.25233E+01, time = 2.54 | CG iter. 40 -- res = 0.10882E-06, tol = 0.25233E+01, time = 2.24 | CG iter. 41 -- res = 0.51280E-07, tol = 0.25233E+01, time = 2.49 | CG iter. 42 -- res = 0.24389E-07, tol = 0.25233E+01, time = 2.20 | CG iter. 43 -- res = 0.11408E-07, tol = 0.25233E+01, time = 2.39 | CG iter. 44 -- res = 0.56210E-08, tol = 0.25233E+01, time = 2.33 | CG iter. 45 -- res = 0.27383E-08, tol = 0.25233E+01, time = 2.69 | CG iter. 46 -- res = 0.13373E-08, tol = 0.25233E+01, time = 2.25 | CG iter. 47 -- res = 0.62060E-09, tol = 0.25233E+01, time = 2.39 | CG iter. 48 -- res = 0.30173E-09, tol = 0.25233E+01, time = 2.24 | CG iter. 49 -- res = 0.14256E-09, tol = 0.25233E+01, time = 2.31 | CG iter. 50 -- res = 0.68492E-10, tol = 0.25233E+01, time = 2.23 | Final CG iter 51 -- res = 0.68492E-10, tol = 0.25233E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.950 4.471 | New value -2.824 | Old value 0.950 | Difference -3.774 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.16499E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.30218E+02, tol = 0.47627E+18, time = 1.67 | CG iter. 3 -- res = 0.10895E+01, tol = 0.47627E+18, time = 1.58 | CG iter. 4 -- res = 0.27654E-02, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.42624E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7672416.179 | (Sampled value in CG: 7703908.270 ) | CPU time specind = 1051.657 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.69789E+08, tol = 0.57743E+04, time = 10.42 | CG iter. 2 -- res = 0.59857E+08, tol = 0.57743E+04, time = 10.33 | CG iter. 3 -- res = 0.16084E+08, tol = 0.57743E+04, time = 10.71 | CG iter. 4 -- res = 0.69308E+07, tol = 0.57743E+04, time = 10.34 | CG iter. 5 -- res = 0.41083E+07, tol = 0.57743E+04, time = 10.53 | CG iter. 6 -- res = 0.24451E+07, tol = 0.57743E+04, time = 10.57 | CG iter. 7 -- res = 0.14157E+07, tol = 0.57743E+04, time = 11.73 | CG iter. 8 -- res = 0.91816E+06, tol = 0.57743E+04, time = 11.20 | CG iter. 9 -- res = 0.59008E+06, tol = 0.57743E+04, time = 10.52 | CG iter. 10 -- res = 0.36264E+06, tol = 0.57743E+04, time = 10.27 | CG iter. 11 -- res = 0.20187E+06, tol = 0.57743E+04, time = 10.67 | CG iter. 12 -- res = 0.11034E+06, tol = 0.57743E+04, time = 10.56 | CG iter. 13 -- res = 0.59993E+05, tol = 0.57743E+04, time = 10.56 | CG iter. 14 -- res = 0.34975E+05, tol = 0.57743E+04, time = 10.47 | CG iter. 15 -- res = 0.23839E+05, tol = 0.57743E+04, time = 10.71 | CG iter. 16 -- res = 0.17891E+05, tol = 0.57743E+04, time = 10.21 | CG iter. 17 -- res = 0.13752E+05, tol = 0.57743E+04, time = 11.09 | CG iter. 18 -- res = 0.10823E+05, tol = 0.57743E+04, time = 10.54 | CG iter. 19 -- res = 0.84847E+04, tol = 0.57743E+04, time = 10.46 | CG iter. 20 -- res = 0.68922E+04, tol = 0.57743E+04, time = 10.23 | CG iter. 21 -- res = 0.58764E+04, tol = 0.57743E+04, time = 10.54 | CG iter. 22 -- res = 0.57049E+04, tol = 0.57743E+04, time = 9.95 | CG iter. 23 -- res = 0.60484E+04, tol = 0.57743E+04, time = 10.50 | CG iter. 24 -- res = 0.65088E+04, tol = 0.57743E+04, time = 10.62 | CG iter. 25 -- res = 0.66260E+04, tol = 0.57743E+04, time = 10.98 | CG iter. 26 -- res = 0.60879E+04, tol = 0.57743E+04, time = 10.44 | CG iter. 27 -- res = 0.49558E+04, tol = 0.57743E+04, time = 16.60 | CG iter. 28 -- res = 0.37927E+04, tol = 0.57743E+04, time = 10.35 | CG iter. 29 -- res = 0.30393E+04, tol = 0.57743E+04, time = 10.50 | CG iter. 30 -- res = 0.25061E+04, tol = 0.57743E+04, time = 10.47 | CG iter. 31 -- res = 0.21227E+04, tol = 0.57743E+04, time = 10.23 | CG iter. 32 -- res = 0.18059E+04, tol = 0.57743E+04, time = 10.54 | CG iter. 33 -- res = 0.14922E+04, tol = 0.57743E+04, time = 10.55 | CG iter. 34 -- res = 0.12133E+04, tol = 0.57743E+04, time = 10.46 | CG iter. 35 -- res = 0.99655E+03, tol = 0.57743E+04, time = 11.96 | CG iter. 36 -- res = 0.84658E+03, tol = 0.57743E+04, time = 10.78 | CG iter. 37 -- res = 0.80326E+03, tol = 0.57743E+04, time = 10.66 | CG iter. 38 -- res = 0.81505E+03, tol = 0.57743E+04, time = 10.52 | CG iter. 39 -- res = 0.77123E+03, tol = 0.57743E+04, time = 10.74 | CG iter. 40 -- res = 0.69864E+03, tol = 0.57743E+04, time = 10.18 | CG iter. 41 -- res = 0.60132E+03, tol = 0.57743E+04, time = 10.75 | CG iter. 42 -- res = 0.49765E+03, tol = 0.57743E+04, time = 10.74 | CG iter. 43 -- res = 0.41977E+03, tol = 0.57743E+04, time = 10.41 | CG iter. 44 -- res = 0.37409E+03, tol = 0.57743E+04, time = 10.47 | CG iter. 45 -- res = 0.34110E+03, tol = 0.57743E+04, time = 10.44 | CG iter. 46 -- res = 0.31472E+03, tol = 0.57743E+04, time = 10.51 | CG iter. 47 -- res = 0.27786E+03, tol = 0.57743E+04, time = 10.65 | CG iter. 48 -- res = 0.23204E+03, tol = 0.57743E+04, time = 10.57 | CG iter. 49 -- res = 0.19582E+03, tol = 0.57743E+04, time = 10.54 | CG iter. 50 -- res = 0.17213E+03, tol = 0.57743E+04, time = 10.24 | CG iter. 51 -- res = 0.16019E+03, tol = 0.57743E+04, time = 10.77 | CG iter. 52 -- res = 0.15468E+03, tol = 0.57743E+04, time = 10.22 | CG iter. 53 -- res = 0.14837E+03, tol = 0.57743E+04, time = 10.67 | CG iter. 54 -- res = 0.13902E+03, tol = 0.57743E+04, time = 10.85 | CG iter. 55 -- res = 0.12723E+03, tol = 0.57743E+04, time = 15.94 | CG iter. 56 -- res = 0.11400E+03, tol = 0.57743E+04, time = 10.68 | CG iter. 57 -- res = 0.10135E+03, tol = 0.57743E+04, time = 10.15 | CG iter. 58 -- res = 0.91603E+02, tol = 0.57743E+04, time = 10.61 | CG iter. 59 -- res = 0.83152E+02, tol = 0.57743E+04, time = 10.74 | CG iter. 60 -- res = 0.76328E+02, tol = 0.57743E+04, time = 10.48 | Final CG iter 61 -- res = 0.76328E+02, tol = 0.57743E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.724 ( -229.998 -2228.904 2511.180 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8465138.554 | Old band monopole 7672449.180 | Change to band monopole 792689.374 | Change to component monopole -792685.964 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.286 2.746 | New value -3.154 | Old value 0.286 | Difference -3.441 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.004 ( 6.699 9.416 -9.422 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.276 4.861 | New value 1.392 | Old value -0.276 | Difference 1.669 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.61326E+06, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.20631E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.40010E+00, tol = 0.47627E+18, time = 1.64 | CG iter. 4 -- res = 0.54592E-03, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.19147E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8465102.143 | (Sampled value in CG: 8446582.270 ) | Chain = 1 -- chisq = 0.81485678E+09 | Chain = 1 -- wall time = 5528.764 sec Available RAM: MemAvailable: 372364132 kB Available Swap: SwapFree: 1133939608 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 188 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441800 | --> Sampling calibration, mode = relcal | relcal = 1.3429320E-02 7.4757420E-04 -1.5974260E-03 -1.2579469E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1006126 0.1223233 9408320.55717930 | BP delta = 0.1006126 0.1164130 9408334.72711449 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632571 | --> Sampling calibration, mode = relcal | relcal = -2.8209023E-03 -7.0314150E-04 1.6793199E-03 1.6133869E-03 -4.0901673E-04 6.4035383E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5589945 15218444.7418806 | BP delta = 0.0000000E+00 -0.5648485 15218444.5592251 | BP chisq diff = -0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18321231830513 | --> Sampling calibration, mode = relcal | relcal = -7.5692803E-02 -5.8988601E-02 9.2574067E-02 4.2107336E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1933514E-04 5.6331265E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6076E-05 | 2: delta_r/delta_0: 1.2047E-06 | 3: delta_s/delta_0: 1.9058E-07 | 4: delta_r/delta_0: 2.4094E-08 | 5: delta_s/delta_0: 6.5475E-09 | 6: delta_r/delta_0: 2.3231E-09 | 7: delta_s/delta_0: 5.6349E-10 | 8: delta_r/delta_0: 1.9094E-10 | 9: delta_s/delta_0: 2.6630E-10 | 10: delta_r/delta_0: 1.0700E-10 | 11: delta_s/delta_0: 6.9075E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.311347325344308E-003 2.735878818023167E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6077E-05 | 2: delta_r/delta_0: 1.2047E-06 | 3: delta_s/delta_0: 1.9058E-07 | 4: delta_r/delta_0: 2.4092E-08 | 5: delta_s/delta_0: 6.5464E-09 | 6: delta_r/delta_0: 2.3229E-09 | 7: delta_s/delta_0: 5.6352E-10 | 8: delta_r/delta_0: 1.9093E-10 | 9: delta_s/delta_0: 2.6620E-10 | 10: delta_r/delta_0: 1.0697E-10 | 11: delta_s/delta_0: 6.9048E-11 | Reached bicg-stab tolerance | BP delta = 3.5359837E-02 5.2137863E-02 3581491.60773895 | BP delta = 3.5359837E-02 5.2009434E-02 3583416.36453050 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02580962 | --> Sampling calibration, mode = relcal | relcal = -0.1066353 -9.5498085E-02 0.1449005 5.7232898E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5030134E-03 1.4245544E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1330E-05 | 2: delta_r/delta_0: 1.3575E-06 | 3: delta_s/delta_0: 2.4954E-07 | 4: delta_r/delta_0: 4.1645E-08 | 5: delta_s/delta_0: 2.4474E-08 | 6: delta_r/delta_0: 6.7782E-09 | 7: delta_s/delta_0: 6.6494E-09 | 8: delta_r/delta_0: 1.5622E-09 | 9: delta_s/delta_0: 7.6369E-10 | 10: delta_r/delta_0: 5.7507E-10 | 11: delta_s/delta_0: 1.9517E-09 | 12: delta_r/delta_0: 6.1199E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.807524536806852E-003 2.811319800869828E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1331E-05 | 2: delta_r/delta_0: 1.3575E-06 | 3: delta_s/delta_0: 2.4955E-07 | 4: delta_r/delta_0: 4.1665E-08 | 5: delta_s/delta_0: 2.4463E-08 | 6: delta_r/delta_0: 6.7791E-09 | 7: delta_s/delta_0: 6.6486E-09 | 8: delta_r/delta_0: 1.5625E-09 | 9: delta_s/delta_0: 7.6385E-10 | 10: delta_r/delta_0: 5.7519E-10 | 11: delta_s/delta_0: 1.9536E-09 | 12: delta_r/delta_0: 6.1183E-11 | Reached bicg-stab tolerance | BP delta = -0.3054723 -0.2776597 2841595.74880215 | BP delta = -0.3054723 -0.2801614 2841643.70775455 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81240960 | --> Sampling calibration, mode = relcal | relcal = 0.2954663 0.2249371 -0.2838447 -0.2365588 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.3114137E-04 5.4024146E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6202E-03 | 2: delta_r/delta_0: 3.7403E-05 | 3: delta_s/delta_0: 3.9874E-06 | 4: delta_r/delta_0: 5.5543E-07 | 5: delta_s/delta_0: 6.0753E-06 | 6: delta_r/delta_0: 8.1556E-07 | 7: delta_s/delta_0: 6.3146E-08 | 8: delta_r/delta_0: 3.7900E-08 | 9: delta_s/delta_0: 2.9224E-07 | 10: delta_r/delta_0: 5.8306E-09 | 11: delta_s/delta_0: 1.8842E-09 | 12: delta_r/delta_0: 5.8555E-10 | 13: delta_s/delta_0: 2.3359E-10 | 14: delta_r/delta_0: 1.1223E-10 | 15: delta_s/delta_0: 2.6677E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.798130194257615E-002 4.020741189807567E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6203E-03 | 2: delta_r/delta_0: 3.7405E-05 | 3: delta_s/delta_0: 3.9872E-06 | 4: delta_r/delta_0: 5.5548E-07 | 5: delta_s/delta_0: 6.0762E-06 | 6: delta_r/delta_0: 8.1576E-07 | 7: delta_s/delta_0: 6.3153E-08 | 8: delta_r/delta_0: 3.7902E-08 | 9: delta_s/delta_0: 2.9221E-07 | 10: delta_r/delta_0: 5.8313E-09 | 11: delta_s/delta_0: 1.8845E-09 | 12: delta_r/delta_0: 5.8559E-10 | 13: delta_s/delta_0: 2.3352E-10 | 14: delta_r/delta_0: 1.1224E-10 | 15: delta_s/delta_0: 2.6679E-11 | Reached bicg-stab tolerance | BP delta = -0.1161695 -0.1449784 2827161.21465259 | BP delta = -0.1161695 -0.1491372 2827162.51333664 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95928759 | --> Sampling calibration, mode = relcal | relcal = 0.1065589 0.1394774 -0.1103936 -0.1356427 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9031972E-03 1.3052695E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3641E-04 | 2: delta_r/delta_0: 1.0737E-05 | 3: delta_s/delta_0: 1.4997E-02 | 4: delta_r/delta_0: 6.2679E-04 | 5: delta_s/delta_0: 2.5910E-07 | 6: delta_r/delta_0: 1.1942E-07 | 7: delta_s/delta_0: 3.1300E-07 | 8: delta_r/delta_0: 3.3981E-08 | 9: delta_s/delta_0: 1.0853E-08 | 10: delta_r/delta_0: 2.5573E-09 | 11: delta_s/delta_0: 2.3545E-09 | 12: delta_r/delta_0: 1.5283E-09 | 13: delta_s/delta_0: 2.4094E-10 | 14: delta_r/delta_0: 9.2943E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.214007123794786E-002 3.696647530507324E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3651E-04 | 2: delta_r/delta_0: 1.0739E-05 | 3: delta_s/delta_0: 1.4927E-02 | 4: delta_r/delta_0: 6.2345E-04 | 5: delta_s/delta_0: 2.5910E-07 | 6: delta_r/delta_0: 1.1941E-07 | 7: delta_s/delta_0: 3.1202E-07 | 8: delta_r/delta_0: 3.3982E-08 | 9: delta_s/delta_0: 1.0846E-08 | 10: delta_r/delta_0: 2.5656E-09 | 11: delta_s/delta_0: 2.3613E-09 | 12: delta_r/delta_0: 1.5363E-09 | 13: delta_s/delta_0: 2.4241E-10 | 14: delta_r/delta_0: 9.3492E-11 | Reached bicg-stab tolerance | BP delta = 7.0454121E-02 0.1793581 3003656.42483660 | BP delta = 7.0454121E-02 0.1795661 3003687.91545865 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.088352 | New value = -3.131505 | poltype: 2 pol: 1 CPU time specind = 1.9437075E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134876 | New value = -3.152466 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111026 | New value = -3.121230 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.180887 | New value = -3.153133 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134178 | New value = -3.160067 | poltype: 2 pol: 2 CPU time specind = 2.0546913E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.13566E+08, tol = 0.83650E+01, time = 5.11 | CG iter. 2 -- res = 0.33814E+06, tol = 0.83650E+01, time = 4.85 | CG iter. 3 -- res = 0.58236E+05, tol = 0.83650E+01, time = 5.27 | CG iter. 4 -- res = 0.37176E+05, tol = 0.83650E+01, time = 5.13 | CG iter. 5 -- res = 0.28181E+05, tol = 0.83650E+01, time = 4.65 | CG iter. 6 -- res = 0.24327E+05, tol = 0.83650E+01, time = 4.62 | CG iter. 7 -- res = 0.22983E+05, tol = 0.83650E+01, time = 5.79 | CG iter. 8 -- res = 0.18714E+05, tol = 0.83650E+01, time = 4.90 | CG iter. 9 -- res = 0.15103E+05, tol = 0.83650E+01, time = 4.59 | CG iter. 10 -- res = 0.13038E+05, tol = 0.83650E+01, time = 5.00 | CG iter. 11 -- res = 0.93704E+04, tol = 0.83650E+01, time = 4.98 | CG iter. 12 -- res = 0.62654E+04, tol = 0.83650E+01, time = 4.72 | CG iter. 13 -- res = 0.45688E+04, tol = 0.83650E+01, time = 4.93 | CG iter. 14 -- res = 0.39022E+04, tol = 0.83650E+01, time = 4.76 | CG iter. 15 -- res = 0.34934E+04, tol = 0.83650E+01, time = 4.76 | CG iter. 16 -- res = 0.25370E+04, tol = 0.83650E+01, time = 5.22 | CG iter. 17 -- res = 0.17652E+04, tol = 0.83650E+01, time = 4.95 | CG iter. 18 -- res = 0.13323E+04, tol = 0.83650E+01, time = 4.82 | CG iter. 19 -- res = 0.10792E+04, tol = 0.83650E+01, time = 5.45 | CG iter. 20 -- res = 0.83690E+03, tol = 0.83650E+01, time = 8.19 | CG iter. 21 -- res = 0.59692E+03, tol = 0.83650E+01, time = 5.07 | CG iter. 22 -- res = 0.45850E+03, tol = 0.83650E+01, time = 4.92 | CG iter. 23 -- res = 0.38034E+03, tol = 0.83650E+01, time = 4.99 | CG iter. 24 -- res = 0.31226E+03, tol = 0.83650E+01, time = 5.09 | CG iter. 25 -- res = 0.22893E+03, tol = 0.83650E+01, time = 5.00 | CG iter. 26 -- res = 0.17035E+03, tol = 0.83650E+01, time = 12.45 | CG iter. 27 -- res = 0.13323E+03, tol = 0.83650E+01, time = 4.79 | CG iter. 28 -- res = 0.11414E+03, tol = 0.83650E+01, time = 4.91 | CG iter. 29 -- res = 0.88172E+02, tol = 0.83650E+01, time = 6.07 | CG iter. 30 -- res = 0.66953E+02, tol = 0.83650E+01, time = 4.97 | CG iter. 31 -- res = 0.52489E+02, tol = 0.83650E+01, time = 4.95 | CG iter. 32 -- res = 0.43800E+02, tol = 0.83650E+01, time = 5.15 | CG iter. 33 -- res = 0.35609E+02, tol = 0.83650E+01, time = 4.95 | CG iter. 34 -- res = 0.26763E+02, tol = 0.83650E+01, time = 4.90 | CG iter. 35 -- res = 0.21147E+02, tol = 0.83650E+01, time = 5.14 | CG iter. 36 -- res = 0.18226E+02, tol = 0.83650E+01, time = 4.79 | CG iter. 37 -- res = 0.15513E+02, tol = 0.83650E+01, time = 4.93 | CG iter. 38 -- res = 0.12235E+02, tol = 0.83650E+01, time = 4.73 | CG iter. 39 -- res = 0.94084E+01, tol = 0.83650E+01, time = 4.78 | CG iter. 40 -- res = 0.82065E+01, tol = 0.83650E+01, time = 4.89 | CG iter. 41 -- res = 0.69929E+01, tol = 0.83650E+01, time = 4.76 | CG iter. 42 -- res = 0.56467E+01, tol = 0.83650E+01, time = 4.91 | CG iter. 43 -- res = 0.43915E+01, tol = 0.83650E+01, time = 6.20 | CG iter. 44 -- res = 0.35588E+01, tol = 0.83650E+01, time = 5.50 | CG iter. 45 -- res = 0.30237E+01, tol = 0.83650E+01, time = 5.29 | CG iter. 46 -- res = 0.25821E+01, tol = 0.83650E+01, time = 4.87 | CG iter. 47 -- res = 0.20497E+01, tol = 0.83650E+01, time = 5.07 | CG iter. 48 -- res = 0.16154E+01, tol = 0.83650E+01, time = 4.81 | CG iter. 49 -- res = 0.13769E+01, tol = 0.83650E+01, time = 4.76 | CG iter. 50 -- res = 0.11638E+01, tol = 0.83650E+01, time = 4.76 | Final CG iter 51 -- res = 0.11638E+01, tol = 0.83650E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9433135.688 | Old band monopole 8465138.554 | Change to band monopole 967997.134 | Change to component monopole -967992.971 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.28897E+06, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.11803E+03, tol = 0.47627E+18, time = 1.60 | CG iter. 3 -- res = 0.36273E+01, tol = 0.47627E+18, time = 1.76 | CG iter. 4 -- res = 0.17012E-01, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.24999E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9433095.114 | (Sampled value in CG: 9374162.323 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.512571 | New value = 1.505338 | poltype: 2 pol: 1 CPU time specind = 1.9561052E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.447379 | New value = 1.497624 | poltype: 2 pol: 2 CPU time specind = 2.4278164E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.24015E+08, tol = 0.47537E+04, time = 5.36 | CG iter. 2 -- res = 0.54107E+07, tol = 0.47537E+04, time = 5.71 | CG iter. 3 -- res = 0.84694E+06, tol = 0.47537E+04, time = 5.54 | CG iter. 4 -- res = 0.34448E+06, tol = 0.47537E+04, time = 5.61 | CG iter. 5 -- res = 0.14703E+06, tol = 0.47537E+04, time = 5.87 | CG iter. 6 -- res = 0.77677E+05, tol = 0.47537E+04, time = 5.66 | CG iter. 7 -- res = 0.42780E+05, tol = 0.47537E+04, time = 5.97 | CG iter. 8 -- res = 0.20923E+05, tol = 0.47537E+04, time = 5.62 | CG iter. 9 -- res = 0.93337E+04, tol = 0.47537E+04, time = 5.83 | CG iter. 10 -- res = 0.37468E+04, tol = 0.47537E+04, time = 5.91 | CG iter. 11 -- res = 0.16337E+04, tol = 0.47537E+04, time = 6.57 | CG iter. 12 -- res = 0.84224E+03, tol = 0.47537E+04, time = 11.72 | CG iter. 13 -- res = 0.47478E+03, tol = 0.47537E+04, time = 5.81 | CG iter. 14 -- res = 0.26531E+03, tol = 0.47537E+04, time = 6.08 | CG iter. 15 -- res = 0.13870E+03, tol = 0.47537E+04, time = 5.78 | CG iter. 16 -- res = 0.67503E+02, tol = 0.47537E+04, time = 5.53 | CG iter. 17 -- res = 0.31975E+02, tol = 0.47537E+04, time = 5.68 | CG iter. 18 -- res = 0.16022E+02, tol = 0.47537E+04, time = 5.51 | CG iter. 19 -- res = 0.86827E+01, tol = 0.47537E+04, time = 5.62 | CG iter. 20 -- res = 0.48675E+01, tol = 0.47537E+04, time = 5.86 | CG iter. 21 -- res = 0.26492E+01, tol = 0.47537E+04, time = 5.44 | CG iter. 22 -- res = 0.13579E+01, tol = 0.47537E+04, time = 5.63 | CG iter. 23 -- res = 0.68890E+00, tol = 0.47537E+04, time = 5.80 | CG iter. 24 -- res = 0.35291E+00, tol = 0.47537E+04, time = 5.41 | CG iter. 25 -- res = 0.19504E+00, tol = 0.47537E+04, time = 5.70 | CG iter. 26 -- res = 0.11067E+00, tol = 0.47537E+04, time = 5.66 | CG iter. 27 -- res = 0.62032E-01, tol = 0.47537E+04, time = 8.24 | CG iter. 28 -- res = 0.32891E-01, tol = 0.47537E+04, time = 6.05 | CG iter. 29 -- res = 0.17162E-01, tol = 0.47537E+04, time = 5.77 | CG iter. 30 -- res = 0.90871E-02, tol = 0.47537E+04, time = 5.90 | CG iter. 31 -- res = 0.50007E-02, tol = 0.47537E+04, time = 5.82 | CG iter. 32 -- res = 0.28148E-02, tol = 0.47537E+04, time = 5.69 | CG iter. 33 -- res = 0.16150E-02, tol = 0.47537E+04, time = 5.81 | CG iter. 34 -- res = 0.87012E-03, tol = 0.47537E+04, time = 5.59 | CG iter. 35 -- res = 0.45274E-03, tol = 0.47537E+04, time = 5.87 | Final CG iter 36 -- res = 0.45274E-03, tol = 0.47537E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.200 2.716 | New value -0.497 | Old value -3.200 | Difference 2.703 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.38061E+06, tol = 0.47627E+18, time = 1.59 | CG iter. 2 -- res = 0.51153E+02, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.14358E+01, tol = 0.47627E+18, time = 1.61 | CG iter. 4 -- res = 0.18046E-03, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.18135E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9433095.114 | (Sampled value in CG: 9376926.736 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.628622 | New value = -3.539809 | poltype: 1 pol: 1 CPU time specind = 1.8542051E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.23136E+07, tol = 0.26482E+01, time = 2.77 | CG iter. 2 -- res = 0.10360E+07, tol = 0.26482E+01, time = 2.68 | CG iter. 3 -- res = 0.18101E+06, tol = 0.26482E+01, time = 2.68 | CG iter. 4 -- res = 0.69542E+05, tol = 0.26482E+01, time = 2.26 | CG iter. 5 -- res = 0.38999E+05, tol = 0.26482E+01, time = 2.22 | CG iter. 6 -- res = 0.20597E+05, tol = 0.26482E+01, time = 2.22 | CG iter. 7 -- res = 0.84352E+04, tol = 0.26482E+01, time = 2.45 | CG iter. 8 -- res = 0.36964E+04, tol = 0.26482E+01, time = 2.55 | CG iter. 9 -- res = 0.16172E+04, tol = 0.26482E+01, time = 2.40 | CG iter. 10 -- res = 0.65254E+03, tol = 0.26482E+01, time = 2.35 | CG iter. 11 -- res = 0.26035E+03, tol = 0.26482E+01, time = 2.30 | CG iter. 12 -- res = 0.12682E+03, tol = 0.26482E+01, time = 2.37 | CG iter. 13 -- res = 0.63978E+02, tol = 0.26482E+01, time = 2.40 | CG iter. 14 -- res = 0.34178E+02, tol = 0.26482E+01, time = 2.35 | CG iter. 15 -- res = 0.16351E+02, tol = 0.26482E+01, time = 2.51 | CG iter. 16 -- res = 0.72363E+01, tol = 0.26482E+01, time = 2.40 | CG iter. 17 -- res = 0.30227E+01, tol = 0.26482E+01, time = 2.33 | CG iter. 18 -- res = 0.13662E+01, tol = 0.26482E+01, time = 2.17 | CG iter. 19 -- res = 0.65715E+00, tol = 0.26482E+01, time = 2.39 | CG iter. 20 -- res = 0.32861E+00, tol = 0.26482E+01, time = 2.48 | CG iter. 21 -- res = 0.16878E+00, tol = 0.26482E+01, time = 2.30 | CG iter. 22 -- res = 0.84965E-01, tol = 0.26482E+01, time = 2.52 | CG iter. 23 -- res = 0.37673E-01, tol = 0.26482E+01, time = 2.27 | CG iter. 24 -- res = 0.16941E-01, tol = 0.26482E+01, time = 2.28 | CG iter. 25 -- res = 0.85294E-02, tol = 0.26482E+01, time = 2.26 | CG iter. 26 -- res = 0.42929E-02, tol = 0.26482E+01, time = 2.49 | CG iter. 27 -- res = 0.21696E-02, tol = 0.26482E+01, time = 2.29 | CG iter. 28 -- res = 0.10817E-02, tol = 0.26482E+01, time = 2.16 | CG iter. 29 -- res = 0.48963E-03, tol = 0.26482E+01, time = 2.47 | CG iter. 30 -- res = 0.23180E-03, tol = 0.26482E+01, time = 2.37 | CG iter. 31 -- res = 0.10960E-03, tol = 0.26482E+01, time = 2.36 | CG iter. 32 -- res = 0.54424E-04, tol = 0.26482E+01, time = 2.37 | CG iter. 33 -- res = 0.27886E-04, tol = 0.26482E+01, time = 2.39 | CG iter. 34 -- res = 0.13677E-04, tol = 0.26482E+01, time = 2.17 | CG iter. 35 -- res = 0.66316E-05, tol = 0.26482E+01, time = 2.29 | CG iter. 36 -- res = 0.31208E-05, tol = 0.26482E+01, time = 2.30 | CG iter. 37 -- res = 0.14620E-05, tol = 0.26482E+01, time = 2.26 | CG iter. 38 -- res = 0.72744E-06, tol = 0.26482E+01, time = 2.26 | CG iter. 39 -- res = 0.36494E-06, tol = 0.26482E+01, time = 2.22 | CG iter. 40 -- res = 0.17806E-06, tol = 0.26482E+01, time = 2.28 | CG iter. 41 -- res = 0.88696E-07, tol = 0.26482E+01, time = 2.44 | CG iter. 42 -- res = 0.43805E-07, tol = 0.26482E+01, time = 2.36 | CG iter. 43 -- res = 0.19674E-07, tol = 0.26482E+01, time = 2.27 | CG iter. 44 -- res = 0.89958E-08, tol = 0.26482E+01, time = 2.33 | CG iter. 45 -- res = 0.45195E-08, tol = 0.26482E+01, time = 2.15 | CG iter. 46 -- res = 0.22122E-08, tol = 0.26482E+01, time = 2.32 | CG iter. 47 -- res = 0.10911E-08, tol = 0.26482E+01, time = 2.20 | CG iter. 48 -- res = 0.52389E-09, tol = 0.26482E+01, time = 2.25 | CG iter. 49 -- res = 0.25113E-09, tol = 0.26482E+01, time = 2.37 | CG iter. 50 -- res = 0.11522E-09, tol = 0.26482E+01, time = 2.19 | Final CG iter 51 -- res = 0.11522E-09, tol = 0.26482E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.541 5.859 | New value -3.235 | Old value -2.541 | Difference -0.694 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.22717E+04, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.13821E+02, tol = 0.47627E+18, time = 1.70 | CG iter. 3 -- res = 0.32868E+00, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.70965E-04, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.40544E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9433095.114 | (Sampled value in CG: 9392343.118 ) | CPU time specind = 1043.075 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.68113E+08, tol = 0.57613E+04, time = 16.63 | CG iter. 2 -- res = 0.58339E+08, tol = 0.57613E+04, time = 10.26 | CG iter. 3 -- res = 0.15066E+08, tol = 0.57613E+04, time = 10.33 | CG iter. 4 -- res = 0.64419E+07, tol = 0.57613E+04, time = 10.38 | CG iter. 5 -- res = 0.38209E+07, tol = 0.57613E+04, time = 10.34 | CG iter. 6 -- res = 0.22068E+07, tol = 0.57613E+04, time = 10.50 | CG iter. 7 -- res = 0.12891E+07, tol = 0.57613E+04, time = 10.27 | CG iter. 8 -- res = 0.84043E+06, tol = 0.57613E+04, time = 10.16 | CG iter. 9 -- res = 0.54410E+06, tol = 0.57613E+04, time = 10.95 | CG iter. 10 -- res = 0.32383E+06, tol = 0.57613E+04, time = 11.69 | CG iter. 11 -- res = 0.17696E+06, tol = 0.57613E+04, time = 10.31 | CG iter. 12 -- res = 0.95996E+05, tol = 0.57613E+04, time = 10.25 | CG iter. 13 -- res = 0.53277E+05, tol = 0.57613E+04, time = 10.02 | CG iter. 14 -- res = 0.32687E+05, tol = 0.57613E+04, time = 10.08 | CG iter. 15 -- res = 0.23038E+05, tol = 0.57613E+04, time = 10.25 | CG iter. 16 -- res = 0.17783E+05, tol = 0.57613E+04, time = 10.21 | CG iter. 17 -- res = 0.14197E+05, tol = 0.57613E+04, time = 10.05 | CG iter. 18 -- res = 0.11164E+05, tol = 0.57613E+04, time = 10.58 | CG iter. 19 -- res = 0.86589E+04, tol = 0.57613E+04, time = 9.88 | CG iter. 20 -- res = 0.69689E+04, tol = 0.57613E+04, time = 11.24 | CG iter. 21 -- res = 0.60534E+04, tol = 0.57613E+04, time = 10.23 | CG iter. 22 -- res = 0.59576E+04, tol = 0.57613E+04, time = 10.51 | CG iter. 23 -- res = 0.62580E+04, tol = 0.57613E+04, time = 10.15 | CG iter. 24 -- res = 0.66751E+04, tol = 0.57613E+04, time = 10.17 | CG iter. 25 -- res = 0.66610E+04, tol = 0.57613E+04, time = 10.45 | CG iter. 26 -- res = 0.58558E+04, tol = 0.57613E+04, time = 10.22 | CG iter. 27 -- res = 0.47424E+04, tol = 0.57613E+04, time = 10.24 | CG iter. 28 -- res = 0.35616E+04, tol = 0.57613E+04, time = 10.13 | CG iter. 29 -- res = 0.28521E+04, tol = 0.57613E+04, time = 14.57 | CG iter. 30 -- res = 0.23994E+04, tol = 0.57613E+04, time = 12.74 | CG iter. 31 -- res = 0.20749E+04, tol = 0.57613E+04, time = 10.11 | CG iter. 32 -- res = 0.17551E+04, tol = 0.57613E+04, time = 10.04 | CG iter. 33 -- res = 0.14676E+04, tol = 0.57613E+04, time = 9.97 | CG iter. 34 -- res = 0.12175E+04, tol = 0.57613E+04, time = 10.33 | CG iter. 35 -- res = 0.10088E+04, tol = 0.57613E+04, time = 10.11 | CG iter. 36 -- res = 0.88364E+03, tol = 0.57613E+04, time = 10.26 | CG iter. 37 -- res = 0.84364E+03, tol = 0.57613E+04, time = 10.24 | CG iter. 38 -- res = 0.83132E+03, tol = 0.57613E+04, time = 12.12 | CG iter. 39 -- res = 0.78538E+03, tol = 0.57613E+04, time = 10.76 | CG iter. 40 -- res = 0.69164E+03, tol = 0.57613E+04, time = 10.35 | CG iter. 41 -- res = 0.57924E+03, tol = 0.57613E+04, time = 10.02 | CG iter. 42 -- res = 0.47126E+03, tol = 0.57613E+04, time = 10.25 | CG iter. 43 -- res = 0.39079E+03, tol = 0.57613E+04, time = 9.63 | CG iter. 44 -- res = 0.34366E+03, tol = 0.57613E+04, time = 10.39 | CG iter. 45 -- res = 0.31061E+03, tol = 0.57613E+04, time = 10.21 | CG iter. 46 -- res = 0.28272E+03, tol = 0.57613E+04, time = 10.15 | CG iter. 47 -- res = 0.25048E+03, tol = 0.57613E+04, time = 10.32 | CG iter. 48 -- res = 0.21328E+03, tol = 0.57613E+04, time = 10.27 | CG iter. 49 -- res = 0.18391E+03, tol = 0.57613E+04, time = 10.14 | CG iter. 50 -- res = 0.16481E+03, tol = 0.57613E+04, time = 10.16 | CG iter. 51 -- res = 0.15656E+03, tol = 0.57613E+04, time = 9.83 | CG iter. 52 -- res = 0.15249E+03, tol = 0.57613E+04, time = 10.24 | CG iter. 53 -- res = 0.14891E+03, tol = 0.57613E+04, time = 10.28 | CG iter. 54 -- res = 0.13730E+03, tol = 0.57613E+04, time = 10.80 | CG iter. 55 -- res = 0.12276E+03, tol = 0.57613E+04, time = 10.46 | CG iter. 56 -- res = 0.10837E+03, tol = 0.57613E+04, time = 10.00 | CG iter. 57 -- res = 0.94596E+02, tol = 0.57613E+04, time = 10.24 | CG iter. 58 -- res = 0.86799E+02, tol = 0.57613E+04, time = 16.58 | CG iter. 59 -- res = 0.85071E+02, tol = 0.57613E+04, time = 10.13 | CG iter. 60 -- res = 0.80912E+02, tol = 0.57613E+04, time = 10.46 | Final CG iter 61 -- res = 0.80912E+02, tol = 0.57613E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.811 ( -229.873 -2227.827 2509.981 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8066709.230 | Old band monopole 9433135.688 | Change to band monopole -1366426.458 | Change to component monopole 1366420.581 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.494 2.723 | New value -4.746 | Old value -0.494 | Difference -4.252 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.330 ( 6.803 7.500 -6.624 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.130 6.176 | New value 1.588 | Old value 2.130 | Difference -0.543 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.10328E+07, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.48039E+02, tol = 0.47627E+18, time = 1.52 | CG iter. 3 -- res = 0.20853E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.30856E-02, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.22886E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8066674.533 | (Sampled value in CG: 8044670.803 ) | Chain = 1 -- chisq = 0.81535722E+09 | Chain = 1 -- wall time = 5964.902 sec Available RAM: MemAvailable: 372584772 kB Available Swap: SwapFree: 1134664556 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 189 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443904 | --> Sampling calibration, mode = relcal | relcal = 1.3420107E-02 7.3841610E-04 -1.5843938E-03 -1.2574129E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1006126 0.1223233 97047476.2688284 | BP delta = 0.1083980 0.1301088 97047473.8724620 | BP chisq diff = -2.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632394 | --> Sampling calibration, mode = relcal | relcal = -2.8206096E-03 -7.0389314E-04 1.6783476E-03 1.6134401E-03 -4.0778273E-04 6.4049760E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5648485 15218500.0916664 | BP delta = 0.0000000E+00 -0.5710818 15218499.0595313 | BP chisq diff = -1.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18432495709192 | --> Sampling calibration, mode = relcal | relcal = -7.5189151E-02 -5.8760814E-02 9.2186332E-02 4.1763633E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2005350E-04 5.1242001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2415E-05 | 2: delta_r/delta_0: 1.0044E-06 | 3: delta_s/delta_0: 1.9230E-07 | 4: delta_r/delta_0: 2.0042E-08 | 5: delta_s/delta_0: 6.8688E-09 | 6: delta_r/delta_0: 1.3570E-09 | 7: delta_s/delta_0: 3.0242E-10 | 8: delta_r/delta_0: 1.1567E-10 | 9: delta_s/delta_0: 2.5402E-10 | 10: delta_r/delta_0: 7.5203E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.326751428778913E-003 2.733399130777333E-005 | BP delta = 3.5359837E-02 5.2137863E-02 50481720.4630500 | BP delta = 3.2357343E-02 4.9135368E-02 50481722.0200106 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02567868 | --> Sampling calibration, mode = relcal | relcal = -0.1067040 -9.5492221E-02 0.1449212 5.7275068E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4584603E-03 1.5969909E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6602E-05 | 2: delta_r/delta_0: 1.2870E-06 | 3: delta_s/delta_0: 2.5110E-07 | 4: delta_r/delta_0: 3.8369E-08 | 5: delta_s/delta_0: 2.1805E-08 | 6: delta_r/delta_0: 5.9562E-09 | 7: delta_s/delta_0: 5.8322E-09 | 8: delta_r/delta_0: 1.2959E-09 | 9: delta_s/delta_0: 6.3400E-10 | 10: delta_r/delta_0: 3.3905E-10 | 11: delta_s/delta_0: 5.8131E-10 | 12: delta_r/delta_0: 3.5219E-10 | 13: delta_s/delta_0: 1.2292E-10 | 14: delta_r/delta_0: 1.3938E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.603108842327283E-003 2.811698921634269E-005 | BP delta = -0.3054723 -0.2776597 57384551.5626493 | BP delta = -0.2925902 -0.2647776 57384550.9702755 | BP chisq diff = -0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215231 | --> Sampling calibration, mode = relcal | relcal = 0.2955190 0.2248507 -0.2837699 -0.2365998 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9365516E-04 5.6349249E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0745E-03 | 2: delta_r/delta_0: 2.4620E-05 | 3: delta_s/delta_0: 2.3268E-05 | 4: delta_r/delta_0: 2.3717E-06 | 5: delta_s/delta_0: 6.6942E-07 | 6: delta_r/delta_0: 9.6799E-08 | 7: delta_s/delta_0: 6.0774E-08 | 8: delta_r/delta_0: 3.2923E-08 | 9: delta_s/delta_0: 3.2244E-07 | 10: delta_r/delta_0: 2.1699E-09 | 11: delta_s/delta_0: 8.9057E-10 | 12: delta_r/delta_0: 3.9341E-10 | 13: delta_s/delta_0: 5.6190E-09 | 14: delta_r/delta_0: 3.0236E-10 | 15: delta_s/delta_0: 9.9110E-09 | 16: delta_r/delta_0: 1.9985E-09 | 17: delta_s/delta_0: 1.4927E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.786155071449738E-002 4.022217489673630E-005 | BP delta = -0.1161695 -0.1449784 72488965.9969369 | BP delta = -9.5920563E-02 -0.1247294 72488966.7762855 | BP chisq diff = 0.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95906050 | --> Sampling calibration, mode = relcal | relcal = 0.1066108 0.1395206 -0.1103070 -0.1358245 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5093688E-03 1.3853319E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5421E-04 | 2: delta_r/delta_0: 6.4735E-06 | 3: delta_s/delta_0: 1.0979E-05 | 4: delta_r/delta_0: 1.1912E-06 | 5: delta_s/delta_0: 2.1553E-07 | 6: delta_r/delta_0: 1.3057E-07 | 7: delta_s/delta_0: 5.9730E-07 | 8: delta_r/delta_0: 3.0035E-08 | 9: delta_s/delta_0: 9.7595E-09 | 10: delta_r/delta_0: 5.2464E-09 | 11: delta_s/delta_0: 1.7245E-09 | 12: delta_r/delta_0: 8.1061E-10 | 13: delta_s/delta_0: 1.0094E-09 | 14: delta_r/delta_0: 5.3674E-10 | 15: delta_s/delta_0: 6.6842E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.036893368213421E-002 3.697603910698693E-005 | BP delta = 7.0454121E-02 0.1793581 72781722.1705002 | BP delta = 4.9964124E-03 0.1139004 72781724.6168908 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131505 | New value = -3.053726 | poltype: 2 pol: 1 CPU time specind = 7.0879459E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152466 | New value = -3.141227 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121230 | New value = -3.170561 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153133 | New value = -3.227007 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160067 | New value = -3.059374 | poltype: 2 pol: 2 CPU time specind = 5.0401688E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.13846E+08, tol = 0.87799E+01, time = 4.92 | CG iter. 2 -- res = 0.43594E+06, tol = 0.87799E+01, time = 4.92 | CG iter. 3 -- res = 0.18537E+06, tol = 0.87799E+01, time = 4.71 | CG iter. 4 -- res = 0.27937E+06, tol = 0.87799E+01, time = 4.96 | CG iter. 5 -- res = 0.27010E+06, tol = 0.87799E+01, time = 4.87 | CG iter. 6 -- res = 0.23269E+06, tol = 0.87799E+01, time = 4.97 | CG iter. 7 -- res = 0.15301E+06, tol = 0.87799E+01, time = 11.92 | CG iter. 8 -- res = 0.10027E+06, tol = 0.87799E+01, time = 5.13 | CG iter. 9 -- res = 0.84573E+05, tol = 0.87799E+01, time = 5.09 | CG iter. 10 -- res = 0.65327E+05, tol = 0.87799E+01, time = 4.81 | CG iter. 11 -- res = 0.48006E+05, tol = 0.87799E+01, time = 5.00 | CG iter. 12 -- res = 0.32570E+05, tol = 0.87799E+01, time = 5.11 | CG iter. 13 -- res = 0.24480E+05, tol = 0.87799E+01, time = 4.72 | CG iter. 14 -- res = 0.20151E+05, tol = 0.87799E+01, time = 4.69 | CG iter. 15 -- res = 0.14943E+05, tol = 0.87799E+01, time = 5.12 | CG iter. 16 -- res = 0.97227E+04, tol = 0.87799E+01, time = 5.16 | CG iter. 17 -- res = 0.68448E+04, tol = 0.87799E+01, time = 5.11 | CG iter. 18 -- res = 0.56960E+04, tol = 0.87799E+01, time = 5.08 | CG iter. 19 -- res = 0.47750E+04, tol = 0.87799E+01, time = 4.86 | CG iter. 20 -- res = 0.34502E+04, tol = 0.87799E+01, time = 4.86 | CG iter. 21 -- res = 0.24071E+04, tol = 0.87799E+01, time = 4.94 | CG iter. 22 -- res = 0.19282E+04, tol = 0.87799E+01, time = 5.05 | CG iter. 23 -- res = 0.16026E+04, tol = 0.87799E+01, time = 4.82 | CG iter. 24 -- res = 0.12216E+04, tol = 0.87799E+01, time = 5.76 | CG iter. 25 -- res = 0.86589E+03, tol = 0.87799E+01, time = 6.03 | CG iter. 26 -- res = 0.67003E+03, tol = 0.87799E+01, time = 5.19 | CG iter. 27 -- res = 0.57313E+03, tol = 0.87799E+01, time = 5.18 | CG iter. 28 -- res = 0.45354E+03, tol = 0.87799E+01, time = 5.00 | CG iter. 29 -- res = 0.31814E+03, tol = 0.87799E+01, time = 5.09 | CG iter. 30 -- res = 0.22890E+03, tol = 0.87799E+01, time = 5.16 | CG iter. 31 -- res = 0.19006E+03, tol = 0.87799E+01, time = 5.06 | CG iter. 32 -- res = 0.15307E+03, tol = 0.87799E+01, time = 4.84 | CG iter. 33 -- res = 0.11334E+03, tol = 0.87799E+01, time = 4.67 | CG iter. 34 -- res = 0.79373E+02, tol = 0.87799E+01, time = 5.06 | CG iter. 35 -- res = 0.61416E+02, tol = 0.87799E+01, time = 4.91 | CG iter. 36 -- res = 0.49551E+02, tol = 0.87799E+01, time = 4.86 | CG iter. 37 -- res = 0.36979E+02, tol = 0.87799E+01, time = 4.94 | CG iter. 38 -- res = 0.25561E+02, tol = 0.87799E+01, time = 4.92 | CG iter. 39 -- res = 0.18738E+02, tol = 0.87799E+01, time = 5.06 | CG iter. 40 -- res = 0.14580E+02, tol = 0.87799E+01, time = 4.77 | CG iter. 41 -- res = 0.11435E+02, tol = 0.87799E+01, time = 5.21 | CG iter. 42 -- res = 0.81395E+01, tol = 0.87799E+01, time = 5.05 | CG iter. 43 -- res = 0.58217E+01, tol = 0.87799E+01, time = 4.83 | CG iter. 44 -- res = 0.44855E+01, tol = 0.87799E+01, time = 4.84 | CG iter. 45 -- res = 0.34531E+01, tol = 0.87799E+01, time = 5.24 | CG iter. 46 -- res = 0.24818E+01, tol = 0.87799E+01, time = 4.88 | CG iter. 47 -- res = 0.16660E+01, tol = 0.87799E+01, time = 4.88 | CG iter. 48 -- res = 0.12235E+01, tol = 0.87799E+01, time = 5.18 | CG iter. 49 -- res = 0.92000E+00, tol = 0.87799E+01, time = 5.25 | CG iter. 50 -- res = 0.65199E+00, tol = 0.87799E+01, time = 4.92 | Final CG iter 51 -- res = 0.65199E+00, tol = 0.87799E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8198418.695 | Old band monopole 8066709.230 | Change to band monopole 131709.465 | Change to component monopole -131708.898 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.54637E+06, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.31433E+03, tol = 0.47627E+18, time = 1.70 | CG iter. 3 -- res = 0.36976E+01, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.52999E-01, tol = 0.47627E+18, time = 1.62 | Final CG iter 5 -- res = 0.48497E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8198383.431 | (Sampled value in CG: 8340134.630 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505338 | New value = 1.455240 | poltype: 2 pol: 1 CPU time specind = 5.9070587E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.497624 | New value = 1.526934 | poltype: 2 pol: 2 CPU time specind = 3.5929680E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.24532E+08, tol = 0.47422E+04, time = 5.74 | CG iter. 2 -- res = 0.52900E+07, tol = 0.47422E+04, time = 5.89 | CG iter. 3 -- res = 0.84200E+06, tol = 0.47422E+04, time = 5.61 | CG iter. 4 -- res = 0.35014E+06, tol = 0.47422E+04, time = 5.66 | CG iter. 5 -- res = 0.14907E+06, tol = 0.47422E+04, time = 5.78 | CG iter. 6 -- res = 0.78107E+05, tol = 0.47422E+04, time = 5.51 | CG iter. 7 -- res = 0.42551E+05, tol = 0.47422E+04, time = 5.58 | CG iter. 8 -- res = 0.20312E+05, tol = 0.47422E+04, time = 5.77 | CG iter. 9 -- res = 0.88621E+04, tol = 0.47422E+04, time = 5.67 | CG iter. 10 -- res = 0.36201E+04, tol = 0.47422E+04, time = 5.78 | CG iter. 11 -- res = 0.16676E+04, tol = 0.47422E+04, time = 7.23 | CG iter. 12 -- res = 0.86464E+03, tol = 0.47422E+04, time = 6.09 | CG iter. 13 -- res = 0.49339E+03, tol = 0.47422E+04, time = 6.04 | CG iter. 14 -- res = 0.27344E+03, tol = 0.47422E+04, time = 5.74 | CG iter. 15 -- res = 0.14092E+03, tol = 0.47422E+04, time = 5.43 | CG iter. 16 -- res = 0.67603E+02, tol = 0.47422E+04, time = 5.74 | CG iter. 17 -- res = 0.31888E+02, tol = 0.47422E+04, time = 6.08 | CG iter. 18 -- res = 0.15804E+02, tol = 0.47422E+04, time = 5.65 | CG iter. 19 -- res = 0.85047E+01, tol = 0.47422E+04, time = 5.63 | CG iter. 20 -- res = 0.47733E+01, tol = 0.47422E+04, time = 5.82 | CG iter. 21 -- res = 0.26322E+01, tol = 0.47422E+04, time = 5.72 | CG iter. 22 -- res = 0.13997E+01, tol = 0.47422E+04, time = 5.45 | CG iter. 23 -- res = 0.70144E+00, tol = 0.47422E+04, time = 5.77 | CG iter. 24 -- res = 0.35523E+00, tol = 0.47422E+04, time = 5.46 | CG iter. 25 -- res = 0.19416E+00, tol = 0.47422E+04, time = 5.43 | CG iter. 26 -- res = 0.11297E+00, tol = 0.47422E+04, time = 5.61 | CG iter. 27 -- res = 0.64212E-01, tol = 0.47422E+04, time = 6.20 | CG iter. 28 -- res = 0.35151E-01, tol = 0.47422E+04, time = 5.76 | CG iter. 29 -- res = 0.18284E-01, tol = 0.47422E+04, time = 6.17 | CG iter. 30 -- res = 0.94866E-02, tol = 0.47422E+04, time = 5.92 | CG iter. 31 -- res = 0.50955E-02, tol = 0.47422E+04, time = 5.58 | CG iter. 32 -- res = 0.28605E-02, tol = 0.47422E+04, time = 5.97 | CG iter. 33 -- res = 0.16055E-02, tol = 0.47422E+04, time = 6.14 | CG iter. 34 -- res = 0.86469E-03, tol = 0.47422E+04, time = 5.44 | CG iter. 35 -- res = 0.44377E-03, tol = 0.47422E+04, time = 5.65 | Final CG iter 36 -- res = 0.44377E-03, tol = 0.47422E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.717 2.745 | New value 2.790 | Old value -4.717 | Difference 7.507 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.29349E+07, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.25866E+03, tol = 0.47627E+18, time = 1.65 | CG iter. 3 -- res = 0.23431E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.47588E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.55691E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8198383.431 | (Sampled value in CG: 8341065.514 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.539809 | New value = -3.617714 | poltype: 1 pol: 1 CPU time specind = 1.5434027E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.46 | CG iter. 1 -- res = 0.37649E+07, tol = 0.22467E+01, time = 2.23 | CG iter. 2 -- res = 0.14801E+07, tol = 0.22467E+01, time = 2.30 | CG iter. 3 -- res = 0.34556E+06, tol = 0.22467E+01, time = 2.46 | CG iter. 4 -- res = 0.16371E+06, tol = 0.22467E+01, time = 2.50 | CG iter. 5 -- res = 0.97220E+05, tol = 0.22467E+01, time = 2.24 | CG iter. 6 -- res = 0.40579E+05, tol = 0.22467E+01, time = 2.38 | CG iter. 7 -- res = 0.13323E+05, tol = 0.22467E+01, time = 2.28 | CG iter. 8 -- res = 0.56718E+04, tol = 0.22467E+01, time = 2.43 | CG iter. 9 -- res = 0.27048E+04, tol = 0.22467E+01, time = 1.95 | CG iter. 10 -- res = 0.11259E+04, tol = 0.22467E+01, time = 2.77 | CG iter. 11 -- res = 0.45125E+03, tol = 0.22467E+01, time = 2.29 | CG iter. 12 -- res = 0.21882E+03, tol = 0.22467E+01, time = 2.18 | CG iter. 13 -- res = 0.11507E+03, tol = 0.22467E+01, time = 2.19 | CG iter. 14 -- res = 0.55934E+02, tol = 0.22467E+01, time = 2.36 | CG iter. 15 -- res = 0.25458E+02, tol = 0.22467E+01, time = 2.16 | CG iter. 16 -- res = 0.11216E+02, tol = 0.22467E+01, time = 2.42 | CG iter. 17 -- res = 0.46793E+01, tol = 0.22467E+01, time = 2.39 | CG iter. 18 -- res = 0.22636E+01, tol = 0.22467E+01, time = 2.34 | CG iter. 19 -- res = 0.11531E+01, tol = 0.22467E+01, time = 2.53 | CG iter. 20 -- res = 0.56876E+00, tol = 0.22467E+01, time = 2.22 | CG iter. 21 -- res = 0.26628E+00, tol = 0.22467E+01, time = 2.34 | CG iter. 22 -- res = 0.11734E+00, tol = 0.22467E+01, time = 2.49 | CG iter. 23 -- res = 0.53902E-01, tol = 0.22467E+01, time = 2.54 | CG iter. 24 -- res = 0.26076E-01, tol = 0.22467E+01, time = 2.20 | CG iter. 25 -- res = 0.13054E-01, tol = 0.22467E+01, time = 2.34 | CG iter. 26 -- res = 0.65511E-02, tol = 0.22467E+01, time = 2.40 | CG iter. 27 -- res = 0.33598E-02, tol = 0.22467E+01, time = 2.31 | CG iter. 28 -- res = 0.15998E-02, tol = 0.22467E+01, time = 2.15 | CG iter. 29 -- res = 0.69828E-03, tol = 0.22467E+01, time = 2.52 | CG iter. 30 -- res = 0.33362E-03, tol = 0.22467E+01, time = 2.49 | CG iter. 31 -- res = 0.16007E-03, tol = 0.22467E+01, time = 2.57 | CG iter. 32 -- res = 0.83675E-04, tol = 0.22467E+01, time = 2.09 | CG iter. 33 -- res = 0.41373E-04, tol = 0.22467E+01, time = 2.52 | CG iter. 34 -- res = 0.19906E-04, tol = 0.22467E+01, time = 2.22 | CG iter. 35 -- res = 0.97038E-05, tol = 0.22467E+01, time = 2.28 | CG iter. 36 -- res = 0.44103E-05, tol = 0.22467E+01, time = 2.29 | CG iter. 37 -- res = 0.20049E-05, tol = 0.22467E+01, time = 2.21 | CG iter. 38 -- res = 0.10503E-05, tol = 0.22467E+01, time = 2.43 | CG iter. 39 -- res = 0.52534E-06, tol = 0.22467E+01, time = 2.41 | CG iter. 40 -- res = 0.24950E-06, tol = 0.22467E+01, time = 2.55 | CG iter. 41 -- res = 0.11684E-06, tol = 0.22467E+01, time = 2.18 | CG iter. 42 -- res = 0.54273E-07, tol = 0.22467E+01, time = 2.32 | CG iter. 43 -- res = 0.24457E-07, tol = 0.22467E+01, time = 2.24 | CG iter. 44 -- res = 0.11845E-07, tol = 0.22467E+01, time = 2.42 | CG iter. 45 -- res = 0.58842E-08, tol = 0.22467E+01, time = 2.23 | CG iter. 46 -- res = 0.28150E-08, tol = 0.22467E+01, time = 3.10 | CG iter. 47 -- res = 0.13594E-08, tol = 0.22467E+01, time = 8.08 | CG iter. 48 -- res = 0.61944E-09, tol = 0.22467E+01, time = 2.38 | CG iter. 49 -- res = 0.28649E-09, tol = 0.22467E+01, time = 2.25 | CG iter. 50 -- res = 0.13725E-09, tol = 0.22467E+01, time = 2.11 | Final CG iter 51 -- res = 0.13725E-09, tol = 0.22467E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.219 4.729 | New value 3.196 | Old value 9.219 | Difference -6.023 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.50286E+05, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.10810E+03, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.19491E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.48939E-02, tol = 0.47627E+18, time = 1.75 | Final CG iter 5 -- res = 0.11833E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8198383.431 | (Sampled value in CG: 8306684.174 ) | CPU time specind = 1047.063 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.70568E+08, tol = 0.57707E+04, time = 10.95 | CG iter. 2 -- res = 0.60699E+08, tol = 0.57707E+04, time = 10.77 | CG iter. 3 -- res = 0.16268E+08, tol = 0.57707E+04, time = 10.26 | CG iter. 4 -- res = 0.70189E+07, tol = 0.57707E+04, time = 10.12 | CG iter. 5 -- res = 0.43078E+07, tol = 0.57707E+04, time = 10.20 | CG iter. 6 -- res = 0.25577E+07, tol = 0.57707E+04, time = 10.68 | CG iter. 7 -- res = 0.14965E+07, tol = 0.57707E+04, time = 10.52 | CG iter. 8 -- res = 0.98652E+06, tol = 0.57707E+04, time = 10.53 | CG iter. 9 -- res = 0.66483E+06, tol = 0.57707E+04, time = 10.06 | CG iter. 10 -- res = 0.43029E+06, tol = 0.57707E+04, time = 10.06 | CG iter. 11 -- res = 0.25917E+06, tol = 0.57707E+04, time = 11.17 | CG iter. 12 -- res = 0.15887E+06, tol = 0.57707E+04, time = 10.34 | CG iter. 13 -- res = 0.10992E+06, tol = 0.57707E+04, time = 10.21 | CG iter. 14 -- res = 0.87330E+05, tol = 0.57707E+04, time = 9.98 | CG iter. 15 -- res = 0.82556E+05, tol = 0.57707E+04, time = 9.96 | CG iter. 16 -- res = 0.84153E+05, tol = 0.57707E+04, time = 10.07 | CG iter. 17 -- res = 0.83949E+05, tol = 0.57707E+04, time = 10.37 | CG iter. 18 -- res = 0.81688E+05, tol = 0.57707E+04, time = 10.44 | CG iter. 19 -- res = 0.72313E+05, tol = 0.57707E+04, time = 9.93 | CG iter. 20 -- res = 0.62125E+05, tol = 0.57707E+04, time = 17.08 | CG iter. 21 -- res = 0.55097E+05, tol = 0.57707E+04, time = 10.37 | CG iter. 22 -- res = 0.50079E+05, tol = 0.57707E+04, time = 10.06 | CG iter. 23 -- res = 0.45512E+05, tol = 0.57707E+04, time = 10.70 | CG iter. 24 -- res = 0.38964E+05, tol = 0.57707E+04, time = 10.32 | CG iter. 25 -- res = 0.31203E+05, tol = 0.57707E+04, time = 10.32 | CG iter. 26 -- res = 0.23673E+05, tol = 0.57707E+04, time = 10.46 | CG iter. 27 -- res = 0.18358E+05, tol = 0.57707E+04, time = 10.20 | CG iter. 28 -- res = 0.14469E+05, tol = 0.57707E+04, time = 10.92 | CG iter. 29 -- res = 0.12739E+05, tol = 0.57707E+04, time = 11.42 | CG iter. 30 -- res = 0.12239E+05, tol = 0.57707E+04, time = 10.36 | CG iter. 31 -- res = 0.11818E+05, tol = 0.57707E+04, time = 10.19 | CG iter. 32 -- res = 0.11006E+05, tol = 0.57707E+04, time = 10.13 | CG iter. 33 -- res = 0.98108E+04, tol = 0.57707E+04, time = 10.42 | CG iter. 34 -- res = 0.82640E+04, tol = 0.57707E+04, time = 10.20 | CG iter. 35 -- res = 0.69317E+04, tol = 0.57707E+04, time = 10.45 | CG iter. 36 -- res = 0.59964E+04, tol = 0.57707E+04, time = 10.22 | CG iter. 37 -- res = 0.54303E+04, tol = 0.57707E+04, time = 10.21 | CG iter. 38 -- res = 0.49108E+04, tol = 0.57707E+04, time = 10.03 | CG iter. 39 -- res = 0.42747E+04, tol = 0.57707E+04, time = 10.36 | CG iter. 40 -- res = 0.35067E+04, tol = 0.57707E+04, time = 10.07 | CG iter. 41 -- res = 0.28174E+04, tol = 0.57707E+04, time = 10.10 | CG iter. 42 -- res = 0.23671E+04, tol = 0.57707E+04, time = 10.24 | CG iter. 43 -- res = 0.21164E+04, tol = 0.57707E+04, time = 10.27 | CG iter. 44 -- res = 0.20516E+04, tol = 0.57707E+04, time = 10.42 | CG iter. 45 -- res = 0.19957E+04, tol = 0.57707E+04, time = 10.40 | CG iter. 46 -- res = 0.18864E+04, tol = 0.57707E+04, time = 10.47 | CG iter. 47 -- res = 0.16824E+04, tol = 0.57707E+04, time = 10.07 | CG iter. 48 -- res = 0.14406E+04, tol = 0.57707E+04, time = 10.77 | CG iter. 49 -- res = 0.12544E+04, tol = 0.57707E+04, time = 16.09 | CG iter. 50 -- res = 0.11125E+04, tol = 0.57707E+04, time = 10.64 | CG iter. 51 -- res = 0.10255E+04, tol = 0.57707E+04, time = 10.34 | CG iter. 52 -- res = 0.97831E+03, tol = 0.57707E+04, time = 10.45 | CG iter. 53 -- res = 0.90330E+03, tol = 0.57707E+04, time = 10.52 | CG iter. 54 -- res = 0.80318E+03, tol = 0.57707E+04, time = 10.05 | CG iter. 55 -- res = 0.69776E+03, tol = 0.57707E+04, time = 10.21 | CG iter. 56 -- res = 0.59689E+03, tol = 0.57707E+04, time = 9.89 | CG iter. 57 -- res = 0.52952E+03, tol = 0.57707E+04, time = 12.18 | CG iter. 58 -- res = 0.49828E+03, tol = 0.57707E+04, time = 10.74 | CG iter. 59 -- res = 0.48567E+03, tol = 0.57707E+04, time = 10.32 | CG iter. 60 -- res = 0.45528E+03, tol = 0.57707E+04, time = 10.31 | Final CG iter 61 -- res = 0.45528E+03, tol = 0.57707E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.688 ( -229.713 -2227.686 2509.802 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6671848.275 | Old band monopole 8198418.695 | Change to band monopole -1526570.419 | Change to component monopole 1526563.853 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.763 2.724 | New value -1.433 | Old value 2.763 | Difference -4.196 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.507 ( 5.990 5.808 -5.671 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.884 5.548 | New value 4.943 | Old value 4.884 | Difference 0.059 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.11127E+07, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.77369E+02, tol = 0.47627E+18, time = 1.77 | CG iter. 3 -- res = 0.29411E+01, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.40547E-02, tol = 0.47627E+18, time = 1.72 | Final CG iter 5 -- res = 0.26442E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6671819.578 | (Sampled value in CG: 6646547.797 ) | Chain = 1 -- chisq = 0.81544848E+09 | Chain = 1 -- wall time = 5497.876 sec Available RAM: MemAvailable: 371881912 kB Available Swap: SwapFree: 1135106156 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 190 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444629 | --> Sampling calibration, mode = relcal | relcal = 1.3438170E-02 7.3829060E-04 -1.6018223E-03 -1.2574638E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1083980 0.1301088 9405179.87128921 | BP delta = 0.1083980 0.1264481 9405184.32878088 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632311 | --> Sampling calibration, mode = relcal | relcal = -2.8213754E-03 -7.0400210E-04 1.6786092E-03 1.6126486E-03 -4.0600231E-04 6.4012205E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5710818 15217303.9669051 | BP delta = 0.0000000E+00 -0.5676678 15217305.4527496 | BP chisq diff = 1.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18081937557252 | --> Sampling calibration, mode = relcal | relcal = -7.3911086E-02 -5.7772160E-02 9.0725124E-02 4.0958125E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8020610E-04 3.1340662E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1398E-03 | 2: delta_r/delta_0: 9.1934E-05 | 3: delta_s/delta_0: 1.9597E-07 | 4: delta_r/delta_0: 2.1358E-08 | 5: delta_s/delta_0: 1.0223E-08 | 6: delta_r/delta_0: 2.5089E-09 | 7: delta_s/delta_0: 1.7060E-09 | 8: delta_r/delta_0: 1.0182E-10 | 9: delta_s/delta_0: 8.7868E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.273056551164148E-003 2.741631429379872E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1406E-03 | 2: delta_r/delta_0: 9.1950E-05 | 3: delta_s/delta_0: 1.9597E-07 | 4: delta_r/delta_0: 2.1358E-08 | 5: delta_s/delta_0: 1.0223E-08 | 6: delta_r/delta_0: 2.5088E-09 | 7: delta_s/delta_0: 1.7058E-09 | 8: delta_r/delta_0: 1.0182E-10 | 9: delta_s/delta_0: 8.7865E-11 | Reached bicg-stab tolerance | BP delta = 3.5359837E-02 5.2137863E-02 3689371.32630995 | BP delta = 3.5359837E-02 5.2304223E-02 3690166.93694386 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02562824 | --> Sampling calibration, mode = relcal | relcal = -0.1066068 -9.5493883E-02 0.1447839 5.7316732E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6909415E-03 1.5542719E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7318E-05 | 2: delta_r/delta_0: 1.1797E-06 | 3: delta_s/delta_0: 2.4061E-07 | 4: delta_r/delta_0: 6.1106E-08 | 5: delta_s/delta_0: 1.5742E-08 | 6: delta_r/delta_0: 7.7018E-09 | 7: delta_s/delta_0: 8.6142E-08 | 8: delta_r/delta_0: 1.4407E-08 | 9: delta_s/delta_0: 9.2269E-10 | 10: delta_r/delta_0: 6.8835E-10 | 11: delta_s/delta_0: 3.3249E-09 | 12: delta_r/delta_0: 1.0080E-10 | 13: delta_s/delta_0: 9.8163E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.704050749289414E-003 2.811812848787593E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7318E-05 | 2: delta_r/delta_0: 1.1796E-06 | 3: delta_s/delta_0: 2.4060E-07 | 4: delta_r/delta_0: 6.1099E-08 | 5: delta_s/delta_0: 1.5742E-08 | 6: delta_r/delta_0: 7.7016E-09 | 7: delta_s/delta_0: 8.6116E-08 | 8: delta_r/delta_0: 1.4409E-08 | 9: delta_s/delta_0: 9.2273E-10 | 10: delta_r/delta_0: 6.8838E-10 | 11: delta_s/delta_0: 3.3248E-09 | 12: delta_r/delta_0: 1.0081E-10 | 13: delta_s/delta_0: 9.8149E-11 | Reached bicg-stab tolerance | BP delta = -0.2925902 -0.2647776 2841595.87125055 | BP delta = -0.2925902 -0.2674468 2841562.62474958 | BP chisq diff = -33.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81204137 | --> Sampling calibration, mode = relcal | relcal = 0.2953441 0.2248372 -0.2836739 -0.2365074 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.7606192E-04 4.5157936E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0685E-03 | 2: delta_r/delta_0: 2.4469E-05 | 3: delta_s/delta_0: 7.1109E-05 | 4: delta_r/delta_0: 1.9917E-06 | 5: delta_s/delta_0: 1.6147E-05 | 6: delta_r/delta_0: 1.7292E-06 | 7: delta_s/delta_0: 4.9358E-08 | 8: delta_r/delta_0: 3.5151E-08 | 9: delta_s/delta_0: 5.5417E-07 | 10: delta_r/delta_0: 4.1170E-09 | 11: delta_s/delta_0: 1.0429E-09 | 12: delta_r/delta_0: 5.7931E-10 | 13: delta_s/delta_0: 7.7797E-10 | 14: delta_r/delta_0: 9.4654E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.952188976067968E-002 4.022658787585696E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0680E-03 | 2: delta_r/delta_0: 2.4456E-05 | 3: delta_s/delta_0: 7.1204E-05 | 4: delta_r/delta_0: 1.9956E-06 | 5: delta_s/delta_0: 1.6132E-05 | 6: delta_r/delta_0: 1.7282E-06 | 7: delta_s/delta_0: 4.9364E-08 | 8: delta_r/delta_0: 3.5154E-08 | 9: delta_s/delta_0: 5.5459E-07 | 10: delta_r/delta_0: 4.1169E-09 | 11: delta_s/delta_0: 1.0424E-09 | 12: delta_r/delta_0: 5.7945E-10 | 13: delta_s/delta_0: 7.7828E-10 | 14: delta_r/delta_0: 9.4651E-11 | Reached bicg-stab tolerance | BP delta = -9.5920563E-02 -0.1247294 2827493.90417826 | BP delta = -9.5920563E-02 -0.1158850 2827543.61566669 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95883781 | --> Sampling calibration, mode = relcal | relcal = 0.1065043 0.1394084 -0.1102066 -0.1357061 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7789103E-03 1.2264761E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5242E-04 | 2: delta_r/delta_0: 8.7354E-06 | 3: delta_s/delta_0: 1.5121E-02 | 4: delta_r/delta_0: 6.0591E-04 | 5: delta_s/delta_0: 2.3409E-07 | 6: delta_r/delta_0: 1.0943E-07 | 7: delta_s/delta_0: 1.4345E-07 | 8: delta_r/delta_0: 3.2261E-08 | 9: delta_s/delta_0: 1.2283E-08 | 10: delta_r/delta_0: 3.4214E-09 | 11: delta_s/delta_0: 1.6926E-06 | 12: delta_r/delta_0: 6.4174E-07 | 13: delta_s/delta_0: 1.9066E-10 | 14: delta_r/delta_0: 1.2330E-10 | 15: delta_s/delta_0: 2.9014E-06 | 16: delta_r/delta_0: 4.9487E-08 | 17: delta_s/delta_0: 1.9946E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.108270875420843E-002 3.698441462934933E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5241E-04 | 2: delta_r/delta_0: 8.7353E-06 | 3: delta_s/delta_0: 1.5116E-02 | 4: delta_r/delta_0: 6.0574E-04 | 5: delta_s/delta_0: 2.3409E-07 | 6: delta_r/delta_0: 1.0944E-07 | 7: delta_s/delta_0: 1.4353E-07 | 8: delta_r/delta_0: 3.2261E-08 | 9: delta_s/delta_0: 1.2281E-08 | 10: delta_r/delta_0: 3.4206E-09 | 11: delta_s/delta_0: 2.3579E-06 | 12: delta_r/delta_0: 8.9992E-07 | 13: delta_s/delta_0: 1.9055E-10 | 14: delta_r/delta_0: 1.2324E-10 | 15: delta_s/delta_0: 2.9331E-06 | 16: delta_r/delta_0: 5.5720E-08 | 17: delta_s/delta_0: 1.9919E-11 | Reached bicg-stab tolerance | BP delta = 7.0454121E-02 0.1793581 3003913.82238567 | BP delta = 7.0454121E-02 0.1779807 3003940.04398080 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.053726 | New value = -3.112989 | poltype: 2 pol: 1 CPU time specind = 1.8558025E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141227 | New value = -3.081092 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170561 | New value = -3.095085 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.227007 | New value = -3.172094 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.059374 | New value = -3.145941 | poltype: 2 pol: 2 CPU time specind = 1.2921095E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.13639E+08, tol = 0.99073E+01, time = 4.71 | CG iter. 2 -- res = 0.37295E+06, tol = 0.99073E+01, time = 4.96 | CG iter. 3 -- res = 0.99257E+05, tol = 0.99073E+01, time = 5.06 | CG iter. 4 -- res = 0.11850E+06, tol = 0.99073E+01, time = 4.74 | CG iter. 5 -- res = 0.12598E+06, tol = 0.99073E+01, time = 4.61 | CG iter. 6 -- res = 0.11821E+06, tol = 0.99073E+01, time = 4.90 | CG iter. 7 -- res = 0.95666E+05, tol = 0.99073E+01, time = 5.00 | CG iter. 8 -- res = 0.66726E+05, tol = 0.99073E+01, time = 4.85 | CG iter. 9 -- res = 0.54986E+05, tol = 0.99073E+01, time = 4.89 | CG iter. 10 -- res = 0.44289E+05, tol = 0.99073E+01, time = 5.01 | CG iter. 11 -- res = 0.30814E+05, tol = 0.99073E+01, time = 4.88 | CG iter. 12 -- res = 0.22602E+05, tol = 0.99073E+01, time = 4.76 | CG iter. 13 -- res = 0.18386E+05, tol = 0.99073E+01, time = 9.35 | CG iter. 14 -- res = 0.15516E+05, tol = 0.99073E+01, time = 7.11 | CG iter. 15 -- res = 0.11740E+05, tol = 0.99073E+01, time = 4.81 | CG iter. 16 -- res = 0.80937E+04, tol = 0.99073E+01, time = 4.68 | CG iter. 17 -- res = 0.57537E+04, tol = 0.99073E+01, time = 4.48 | CG iter. 18 -- res = 0.49494E+04, tol = 0.99073E+01, time = 5.09 | CG iter. 19 -- res = 0.42389E+04, tol = 0.99073E+01, time = 4.93 | CG iter. 20 -- res = 0.32190E+04, tol = 0.99073E+01, time = 4.73 | CG iter. 21 -- res = 0.23155E+04, tol = 0.99073E+01, time = 5.14 | CG iter. 22 -- res = 0.18932E+04, tol = 0.99073E+01, time = 4.97 | CG iter. 23 -- res = 0.16545E+04, tol = 0.99073E+01, time = 4.83 | CG iter. 24 -- res = 0.13247E+04, tol = 0.99073E+01, time = 4.98 | CG iter. 25 -- res = 0.97638E+03, tol = 0.99073E+01, time = 4.90 | CG iter. 26 -- res = 0.76099E+03, tol = 0.99073E+01, time = 4.93 | CG iter. 27 -- res = 0.69419E+03, tol = 0.99073E+01, time = 4.96 | CG iter. 28 -- res = 0.59522E+03, tol = 0.99073E+01, time = 4.90 | CG iter. 29 -- res = 0.45245E+03, tol = 0.99073E+01, time = 4.93 | CG iter. 30 -- res = 0.35071E+03, tol = 0.99073E+01, time = 4.87 | CG iter. 31 -- res = 0.30090E+03, tol = 0.99073E+01, time = 6.45 | CG iter. 32 -- res = 0.26082E+03, tol = 0.99073E+01, time = 5.45 | CG iter. 33 -- res = 0.19867E+03, tol = 0.99073E+01, time = 5.09 | CG iter. 34 -- res = 0.14779E+03, tol = 0.99073E+01, time = 5.03 | CG iter. 35 -- res = 0.12548E+03, tol = 0.99073E+01, time = 4.87 | CG iter. 36 -- res = 0.10787E+03, tol = 0.99073E+01, time = 4.75 | CG iter. 37 -- res = 0.82863E+02, tol = 0.99073E+01, time = 4.88 | CG iter. 38 -- res = 0.60499E+02, tol = 0.99073E+01, time = 4.70 | CG iter. 39 -- res = 0.47213E+02, tol = 0.99073E+01, time = 5.03 | CG iter. 40 -- res = 0.39725E+02, tol = 0.99073E+01, time = 4.78 | CG iter. 41 -- res = 0.31334E+02, tol = 0.99073E+01, time = 4.91 | CG iter. 42 -- res = 0.23073E+02, tol = 0.99073E+01, time = 4.95 | CG iter. 43 -- res = 0.17962E+02, tol = 0.99073E+01, time = 4.78 | CG iter. 44 -- res = 0.14351E+02, tol = 0.99073E+01, time = 4.84 | CG iter. 45 -- res = 0.11569E+02, tol = 0.99073E+01, time = 5.04 | CG iter. 46 -- res = 0.86177E+01, tol = 0.99073E+01, time = 4.84 | CG iter. 47 -- res = 0.65395E+01, tol = 0.99073E+01, time = 4.62 | CG iter. 48 -- res = 0.50732E+01, tol = 0.99073E+01, time = 4.85 | CG iter. 49 -- res = 0.41416E+01, tol = 0.99073E+01, time = 4.89 | CG iter. 50 -- res = 0.30987E+01, tol = 0.99073E+01, time = 4.85 | Final CG iter 51 -- res = 0.30987E+01, tol = 0.99073E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8663139.899 | Old band monopole 6671848.275 | Change to band monopole 1991291.624 | Change to component monopole -1991283.059 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.46 | CG iter. 1 -- res = 0.93810E+06, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.39787E+03, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.48584E+01, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.56204E-01, tol = 0.47627E+18, time = 1.75 | Final CG iter 5 -- res = 0.24073E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8663102.637 | (Sampled value in CG: 8562301.978 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.455240 | New value = 1.497204 | poltype: 2 pol: 1 CPU time specind = 1.4530897E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526934 | New value = 1.513911 | poltype: 2 pol: 2 CPU time specind = 3.0701160E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.24361E+08, tol = 0.47559E+04, time = 12.14 | CG iter. 2 -- res = 0.52764E+07, tol = 0.47559E+04, time = 5.79 | CG iter. 3 -- res = 0.84022E+06, tol = 0.47559E+04, time = 5.56 | CG iter. 4 -- res = 0.35294E+06, tol = 0.47559E+04, time = 5.54 | CG iter. 5 -- res = 0.15352E+06, tol = 0.47559E+04, time = 5.72 | CG iter. 6 -- res = 0.81279E+05, tol = 0.47559E+04, time = 5.79 | CG iter. 7 -- res = 0.43218E+05, tol = 0.47559E+04, time = 5.43 | CG iter. 8 -- res = 0.20995E+05, tol = 0.47559E+04, time = 5.71 | CG iter. 9 -- res = 0.91613E+04, tol = 0.47559E+04, time = 5.80 | CG iter. 10 -- res = 0.37909E+04, tol = 0.47559E+04, time = 5.48 | CG iter. 11 -- res = 0.16891E+04, tol = 0.47559E+04, time = 5.71 | CG iter. 12 -- res = 0.86352E+03, tol = 0.47559E+04, time = 5.51 | CG iter. 13 -- res = 0.49347E+03, tol = 0.47559E+04, time = 5.68 | CG iter. 14 -- res = 0.28150E+03, tol = 0.47559E+04, time = 5.62 | CG iter. 15 -- res = 0.14643E+03, tol = 0.47559E+04, time = 5.38 | CG iter. 16 -- res = 0.69856E+02, tol = 0.47559E+04, time = 6.77 | CG iter. 17 -- res = 0.32854E+02, tol = 0.47559E+04, time = 5.96 | CG iter. 18 -- res = 0.16194E+02, tol = 0.47559E+04, time = 5.88 | CG iter. 19 -- res = 0.88167E+01, tol = 0.47559E+04, time = 5.79 | CG iter. 20 -- res = 0.51079E+01, tol = 0.47559E+04, time = 5.59 | CG iter. 21 -- res = 0.28639E+01, tol = 0.47559E+04, time = 5.56 | CG iter. 22 -- res = 0.14923E+01, tol = 0.47559E+04, time = 5.69 | CG iter. 23 -- res = 0.73174E+00, tol = 0.47559E+04, time = 5.64 | CG iter. 24 -- res = 0.37157E+00, tol = 0.47559E+04, time = 5.67 | CG iter. 25 -- res = 0.20374E+00, tol = 0.47559E+04, time = 5.52 | CG iter. 26 -- res = 0.11742E+00, tol = 0.47559E+04, time = 5.30 | CG iter. 27 -- res = 0.66275E-01, tol = 0.47559E+04, time = 5.52 | CG iter. 28 -- res = 0.35858E-01, tol = 0.47559E+04, time = 5.63 | CG iter. 29 -- res = 0.18989E-01, tol = 0.47559E+04, time = 5.58 | CG iter. 30 -- res = 0.99958E-02, tol = 0.47559E+04, time = 5.62 | CG iter. 31 -- res = 0.54046E-02, tol = 0.47559E+04, time = 5.83 | CG iter. 32 -- res = 0.30323E-02, tol = 0.47559E+04, time = 5.48 | CG iter. 33 -- res = 0.17095E-02, tol = 0.47559E+04, time = 5.63 | CG iter. 34 -- res = 0.92908E-03, tol = 0.47559E+04, time = 5.66 | CG iter. 35 -- res = 0.47588E-03, tol = 0.47559E+04, time = 5.73 | Final CG iter 36 -- res = 0.47588E-03, tol = 0.47559E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.417 2.746 | New value -1.711 | Old value -1.417 | Difference -0.293 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.19555E+05, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.50319E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.17312E+01, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.89301E-03, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.24305E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8663102.637 | (Sampled value in CG: 8562304.802 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.617714 | New value = -3.693994 | poltype: 1 pol: 1 CPU time specind = 6.9911480E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.37096E+07, tol = 0.19767E+01, time = 2.18 | CG iter. 2 -- res = 0.12850E+07, tol = 0.19767E+01, time = 2.32 | CG iter. 3 -- res = 0.28817E+06, tol = 0.19767E+01, time = 2.25 | CG iter. 4 -- res = 0.16032E+06, tol = 0.19767E+01, time = 2.36 | CG iter. 5 -- res = 0.93019E+05, tol = 0.19767E+01, time = 2.17 | CG iter. 6 -- res = 0.33773E+05, tol = 0.19767E+01, time = 2.31 | CG iter. 7 -- res = 0.11045E+05, tol = 0.19767E+01, time = 2.31 | CG iter. 8 -- res = 0.48697E+04, tol = 0.19767E+01, time = 2.40 | CG iter. 9 -- res = 0.23162E+04, tol = 0.19767E+01, time = 2.25 | CG iter. 10 -- res = 0.88118E+03, tol = 0.19767E+01, time = 2.45 | CG iter. 11 -- res = 0.37633E+03, tol = 0.19767E+01, time = 2.35 | CG iter. 12 -- res = 0.20023E+03, tol = 0.19767E+01, time = 2.26 | CG iter. 13 -- res = 0.10099E+03, tol = 0.19767E+01, time = 2.31 | CG iter. 14 -- res = 0.47614E+02, tol = 0.19767E+01, time = 2.16 | CG iter. 15 -- res = 0.21152E+02, tol = 0.19767E+01, time = 2.28 | CG iter. 16 -- res = 0.87136E+01, tol = 0.19767E+01, time = 2.31 | CG iter. 17 -- res = 0.37625E+01, tol = 0.19767E+01, time = 2.41 | CG iter. 18 -- res = 0.18736E+01, tol = 0.19767E+01, time = 2.34 | CG iter. 19 -- res = 0.94274E+00, tol = 0.19767E+01, time = 2.37 | CG iter. 20 -- res = 0.48002E+00, tol = 0.19767E+01, time = 2.29 | CG iter. 21 -- res = 0.21786E+00, tol = 0.19767E+01, time = 2.29 | CG iter. 22 -- res = 0.93236E-01, tol = 0.19767E+01, time = 2.34 | CG iter. 23 -- res = 0.42121E-01, tol = 0.19767E+01, time = 2.03 | CG iter. 24 -- res = 0.21105E-01, tol = 0.19767E+01, time = 2.44 | CG iter. 25 -- res = 0.10610E-01, tol = 0.19767E+01, time = 2.53 | CG iter. 26 -- res = 0.51885E-02, tol = 0.19767E+01, time = 2.23 | CG iter. 27 -- res = 0.24821E-02, tol = 0.19767E+01, time = 2.32 | CG iter. 28 -- res = 0.11875E-02, tol = 0.19767E+01, time = 2.28 | CG iter. 29 -- res = 0.53137E-03, tol = 0.19767E+01, time = 2.16 | CG iter. 30 -- res = 0.25531E-03, tol = 0.19767E+01, time = 2.16 | CG iter. 31 -- res = 0.11931E-03, tol = 0.19767E+01, time = 2.37 | CG iter. 32 -- res = 0.63394E-04, tol = 0.19767E+01, time = 2.38 | CG iter. 33 -- res = 0.30046E-04, tol = 0.19767E+01, time = 2.48 | CG iter. 34 -- res = 0.13619E-04, tol = 0.19767E+01, time = 2.35 | CG iter. 35 -- res = 0.64846E-05, tol = 0.19767E+01, time = 2.24 | CG iter. 36 -- res = 0.31122E-05, tol = 0.19767E+01, time = 2.26 | CG iter. 37 -- res = 0.15253E-05, tol = 0.19767E+01, time = 2.24 | CG iter. 38 -- res = 0.76475E-06, tol = 0.19767E+01, time = 2.41 | CG iter. 39 -- res = 0.36376E-06, tol = 0.19767E+01, time = 2.08 | CG iter. 40 -- res = 0.17003E-06, tol = 0.19767E+01, time = 2.18 | CG iter. 41 -- res = 0.77364E-07, tol = 0.19767E+01, time = 2.50 | CG iter. 42 -- res = 0.36374E-07, tol = 0.19767E+01, time = 2.15 | CG iter. 43 -- res = 0.16962E-07, tol = 0.19767E+01, time = 2.26 | CG iter. 44 -- res = 0.83853E-08, tol = 0.19767E+01, time = 2.18 | CG iter. 45 -- res = 0.41492E-08, tol = 0.19767E+01, time = 2.40 | CG iter. 46 -- res = 0.19241E-08, tol = 0.19767E+01, time = 2.37 | CG iter. 47 -- res = 0.89049E-09, tol = 0.19767E+01, time = 2.17 | CG iter. 48 -- res = 0.41214E-09, tol = 0.19767E+01, time = 2.13 | CG iter. 49 -- res = 0.19213E-09, tol = 0.19767E+01, time = 2.17 | CG iter. 50 -- res = 0.91494E-10, tol = 0.19767E+01, time = 2.52 | Final CG iter 51 -- res = 0.91494E-10, tol = 0.19767E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.782 6.533 | New value 1.810 | Old value -0.782 | Difference 2.592 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.13692E+05, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.48341E+02, tol = 0.47627E+18, time = 5.67 | CG iter. 3 -- res = 0.15605E+01, tol = 0.47627E+18, time = 7.54 | CG iter. 4 -- res = 0.97640E-03, tol = 0.47627E+18, time = 1.57 | Final CG iter 5 -- res = 0.48986E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8663102.637 | (Sampled value in CG: 8591953.793 ) | CPU time specind = 1036.762 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.69933E+08, tol = 0.57811E+04, time = 10.08 | CG iter. 2 -- res = 0.59405E+08, tol = 0.57811E+04, time = 10.21 | CG iter. 3 -- res = 0.15695E+08, tol = 0.57811E+04, time = 10.29 | CG iter. 4 -- res = 0.69811E+07, tol = 0.57811E+04, time = 12.22 | CG iter. 5 -- res = 0.41618E+07, tol = 0.57811E+04, time = 10.79 | CG iter. 6 -- res = 0.23651E+07, tol = 0.57811E+04, time = 10.33 | CG iter. 7 -- res = 0.13942E+07, tol = 0.57811E+04, time = 9.98 | CG iter. 8 -- res = 0.92709E+06, tol = 0.57811E+04, time = 10.21 | CG iter. 9 -- res = 0.59939E+06, tol = 0.57811E+04, time = 10.05 | CG iter. 10 -- res = 0.37005E+06, tol = 0.57811E+04, time = 10.30 | CG iter. 11 -- res = 0.21306E+06, tol = 0.57811E+04, time = 10.09 | CG iter. 12 -- res = 0.12332E+06, tol = 0.57811E+04, time = 10.19 | CG iter. 13 -- res = 0.77679E+05, tol = 0.57811E+04, time = 10.17 | CG iter. 14 -- res = 0.54948E+05, tol = 0.57811E+04, time = 10.13 | CG iter. 15 -- res = 0.45892E+05, tol = 0.57811E+04, time = 10.82 | CG iter. 16 -- res = 0.42815E+05, tol = 0.57811E+04, time = 10.19 | CG iter. 17 -- res = 0.41395E+05, tol = 0.57811E+04, time = 10.00 | CG iter. 18 -- res = 0.39037E+05, tol = 0.57811E+04, time = 10.16 | CG iter. 19 -- res = 0.35667E+05, tol = 0.57811E+04, time = 9.83 | CG iter. 20 -- res = 0.32702E+05, tol = 0.57811E+04, time = 10.32 | CG iter. 21 -- res = 0.31023E+05, tol = 0.57811E+04, time = 10.13 | CG iter. 22 -- res = 0.30041E+05, tol = 0.57811E+04, time = 10.15 | CG iter. 23 -- res = 0.29291E+05, tol = 0.57811E+04, time = 10.21 | CG iter. 24 -- res = 0.27283E+05, tol = 0.57811E+04, time = 16.58 | CG iter. 25 -- res = 0.22514E+05, tol = 0.57811E+04, time = 10.13 | CG iter. 26 -- res = 0.16966E+05, tol = 0.57811E+04, time = 10.39 | CG iter. 27 -- res = 0.12321E+05, tol = 0.57811E+04, time = 10.55 | CG iter. 28 -- res = 0.90557E+04, tol = 0.57811E+04, time = 10.30 | CG iter. 29 -- res = 0.73673E+04, tol = 0.57811E+04, time = 10.60 | CG iter. 30 -- res = 0.66312E+04, tol = 0.57811E+04, time = 10.47 | CG iter. 31 -- res = 0.60544E+04, tol = 0.57811E+04, time = 10.01 | CG iter. 32 -- res = 0.54921E+04, tol = 0.57811E+04, time = 10.23 | CG iter. 33 -- res = 0.48016E+04, tol = 0.57811E+04, time = 11.51 | CG iter. 34 -- res = 0.40590E+04, tol = 0.57811E+04, time = 10.14 | CG iter. 35 -- res = 0.34763E+04, tol = 0.57811E+04, time = 10.56 | CG iter. 36 -- res = 0.31297E+04, tol = 0.57811E+04, time = 10.13 | CG iter. 37 -- res = 0.28560E+04, tol = 0.57811E+04, time = 10.28 | CG iter. 38 -- res = 0.25746E+04, tol = 0.57811E+04, time = 10.46 | CG iter. 39 -- res = 0.22222E+04, tol = 0.57811E+04, time = 10.33 | CG iter. 40 -- res = 0.18305E+04, tol = 0.57811E+04, time = 9.84 | CG iter. 41 -- res = 0.14515E+04, tol = 0.57811E+04, time = 10.01 | CG iter. 42 -- res = 0.11791E+04, tol = 0.57811E+04, time = 10.10 | CG iter. 43 -- res = 0.10212E+04, tol = 0.57811E+04, time = 10.08 | CG iter. 44 -- res = 0.92955E+03, tol = 0.57811E+04, time = 10.66 | CG iter. 45 -- res = 0.85930E+03, tol = 0.57811E+04, time = 9.83 | CG iter. 46 -- res = 0.79314E+03, tol = 0.57811E+04, time = 10.37 | CG iter. 47 -- res = 0.73062E+03, tol = 0.57811E+04, time = 9.94 | CG iter. 48 -- res = 0.62744E+03, tol = 0.57811E+04, time = 9.97 | CG iter. 49 -- res = 0.53605E+03, tol = 0.57811E+04, time = 10.36 | CG iter. 50 -- res = 0.46548E+03, tol = 0.57811E+04, time = 10.02 | CG iter. 51 -- res = 0.42188E+03, tol = 0.57811E+04, time = 10.20 | CG iter. 52 -- res = 0.39176E+03, tol = 0.57811E+04, time = 10.08 | CG iter. 53 -- res = 0.35323E+03, tol = 0.57811E+04, time = 16.27 | CG iter. 54 -- res = 0.31286E+03, tol = 0.57811E+04, time = 10.17 | CG iter. 55 -- res = 0.27173E+03, tol = 0.57811E+04, time = 10.40 | CG iter. 56 -- res = 0.23198E+03, tol = 0.57811E+04, time = 10.06 | CG iter. 57 -- res = 0.19724E+03, tol = 0.57811E+04, time = 10.42 | CG iter. 58 -- res = 0.17569E+03, tol = 0.57811E+04, time = 10.26 | CG iter. 59 -- res = 0.16368E+03, tol = 0.57811E+04, time = 9.82 | CG iter. 60 -- res = 0.15095E+03, tol = 0.57811E+04, time = 10.52 | Final CG iter 61 -- res = 0.15095E+03, tol = 0.57811E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.823 ( -230.002 -2228.908 2511.072 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8555239.940 | Old band monopole 8663139.899 | Change to band monopole -107899.959 | Change to component monopole 107899.495 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.711 2.744 | New value -1.321 | Old value -1.711 | Difference 0.390 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.166 ( 7.197 8.770 -8.227 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.569 4.310 | New value -3.922 | Old value 10.569 | Difference -14.492 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.10063E+06, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.45338E+02, tol = 0.47627E+18, time = 1.56 | CG iter. 3 -- res = 0.20444E+01, tol = 0.47627E+18, time = 1.64 | CG iter. 4 -- res = 0.24206E-02, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.62720E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8555203.142 | (Sampled value in CG: 8536684.407 ) | Chain = 1 -- chisq = 0.81520154E+09 | Chain = 1 -- wall time = 5954.160 sec Available RAM: MemAvailable: 372352256 kB Available Swap: SwapFree: 1135683436 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 191 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443587 | --> Sampling calibration, mode = relcal | relcal = 1.3445029E-02 7.3844672E-04 -1.6034163E-03 -1.2580059E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1083980 0.1301088 97038297.2662517 | BP delta = 0.1111271 0.1328379 97038298.7909997 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632453 | --> Sampling calibration, mode = relcal | relcal = -2.8212648E-03 -7.0387026E-04 1.6789045E-03 1.6134643E-03 -4.0765325E-04 6.4041943E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5676678 15217172.7153350 | BP delta = 0.0000000E+00 -0.5707834 15217170.5993447 | BP chisq diff = -2.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03104306 | --> Sampling calibration, mode = relcal | relcal = 3.7106473E-02 1.3729186E-02 5.7518701E-03 -7.1724583E-03 8.2454812E-03 2.3977826E-03 -7.6079639E-03 -7.1810479E-03 -1.5307833E-02 -1.4806490E-02 -3.0549022E-03 -1.2100097E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.231249 132210190.404584 | BP delta = 0.0000000E+00 -1.270700 132210190.994554 | BP chisq diff = 0.6, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18009298764103 | --> Sampling calibration, mode = relcal | relcal = -7.4574627E-02 -5.8114000E-02 9.1394968E-02 4.1293655E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.8003730E-04 3.3928223E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6486E-05 | 2: delta_r/delta_0: 9.1255E-07 | 3: delta_s/delta_0: 2.4242E-07 | 4: delta_r/delta_0: 1.2315E-08 | 5: delta_s/delta_0: 4.6075E-09 | 6: delta_r/delta_0: 1.0573E-09 | 7: delta_s/delta_0: 1.7471E-09 | 8: delta_r/delta_0: 1.0054E-10 | 9: delta_s/delta_0: 1.2774E-09 | 10: delta_r/delta_0: 5.9860E-10 | 11: delta_s/delta_0: 2.9453E-10 | 12: delta_r/delta_0: 8.4045E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.029211076636570E-003 2.743238371700559E-005 | BP delta = 3.5359837E-02 5.2137863E-02 50482590.3605175 | BP delta = 3.3489432E-02 5.0267458E-02 50482590.4115056 | BP chisq diff = 0.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02573022 | --> Sampling calibration, mode = relcal | relcal = -0.1066101 -9.5555618E-02 0.1448784 5.7287268E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3236302E-03 1.8750014E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1770E-05 | 2: delta_r/delta_0: 1.5298E-06 | 3: delta_s/delta_0: 2.5104E-07 | 4: delta_r/delta_0: 3.7581E-08 | 5: delta_s/delta_0: 2.7753E-08 | 6: delta_r/delta_0: 6.9157E-09 | 7: delta_s/delta_0: 5.0122E-09 | 8: delta_r/delta_0: 1.9019E-09 | 9: delta_s/delta_0: 8.4993E-10 | 10: delta_r/delta_0: 6.3986E-10 | 11: delta_s/delta_0: 1.6832E-09 | 12: delta_r/delta_0: 9.6923E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.964577142739829E-003 2.811550900488326E-005 | BP delta = -0.2925902 -0.2674468 57384856.2707958 | BP delta = -0.2776559 -0.2525125 57384856.3244409 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81223105 | --> Sampling calibration, mode = relcal | relcal = 0.2955068 0.2247427 -0.2837211 -0.2365285 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3375095E-03 4.6182037E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.8588E-04 | 2: delta_r/delta_0: 2.2547E-05 | 3: delta_s/delta_0: 1.3835E-03 | 4: delta_r/delta_0: 8.0420E-05 | 5: delta_s/delta_0: 8.2455E-05 | 6: delta_r/delta_0: 1.3736E-05 | 7: delta_s/delta_0: 5.6375E-08 | 8: delta_r/delta_0: 3.6774E-08 | 9: delta_s/delta_0: 5.7103E-07 | 10: delta_r/delta_0: 3.7551E-09 | 11: delta_s/delta_0: 1.0059E-09 | 12: delta_r/delta_0: 5.9179E-10 | 13: delta_s/delta_0: 8.9475E-10 | 14: delta_r/delta_0: 9.1366E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.946436623300235E-002 4.021616051182067E-005 | BP delta = -9.5920563E-02 -0.1247294 72491292.7444908 | BP delta = -0.1404364 -0.1692453 72491291.7383562 | BP chisq diff = -1.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95915332 | --> Sampling calibration, mode = relcal | relcal = 0.1064915 0.1396272 -0.1103117 -0.1358070 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0387332E-02 1.3326190E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4744E-04 | 2: delta_r/delta_0: 6.3132E-06 | 3: delta_s/delta_0: 1.7325E-05 | 4: delta_r/delta_0: 1.6235E-06 | 5: delta_s/delta_0: 2.0691E-07 | 6: delta_r/delta_0: 1.2472E-07 | 7: delta_s/delta_0: 6.7421E-07 | 8: delta_r/delta_0: 2.8667E-08 | 9: delta_s/delta_0: 9.2660E-09 | 10: delta_r/delta_0: 4.7705E-09 | 11: delta_s/delta_0: 1.5892E-09 | 12: delta_r/delta_0: 7.2373E-10 | 13: delta_s/delta_0: 1.8345E-09 | 14: delta_r/delta_0: 6.6004E-10 | 15: delta_s/delta_0: 5.5394E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.022643323405539E-002 3.697265212892616E-005 | BP delta = 7.0454121E-02 0.1793581 72780079.9393708 | BP delta = 8.3271779E-02 0.1921758 72780079.5874937 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52177804 | --> Sampling calibration, mode = relcal | relcal = -5.1098105E-02 -3.7818851E-03 2.7372256E-02 2.7507735E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.1465817E-04 2.6540754E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7473E-05 | 2: delta_r/delta_0: 4.5526E-06 | 3: delta_s/delta_0: 1.6274E-06 | 4: delta_r/delta_0: 1.2025E-07 | 5: delta_s/delta_0: 6.2994E-08 | 6: delta_r/delta_0: 3.6114E-08 | 7: delta_s/delta_0: 1.7328E-08 | 8: delta_r/delta_0: 1.1366E-08 | 9: delta_s/delta_0: 2.5252E-08 | 10: delta_r/delta_0: 1.1373E-09 | 11: delta_s/delta_0: 1.6897E-09 | 12: delta_r/delta_0: 1.2422E-09 | 13: delta_s/delta_0: 3.5510E-10 | 14: delta_r/delta_0: 2.0346E-10 | 15: delta_s/delta_0: 5.4698E-08 | 16: delta_r/delta_0: 2.8072E-08 | 17: delta_s/delta_0: 1.8712E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.178004047668171E-002 5.481194059403728E-005 | BP delta = 4.0943425E-02 0.1360208 91260692.1802483 | BP delta = 5.2877761E-02 0.1479552 91260692.0787677 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42170475 | --> Sampling calibration, mode = relcal | relcal = 4.5618258E-02 3.9713044E-02 -2.8359862E-02 -5.6971442E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3198255E-03 5.6270999E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0588E-05 | 2: delta_r/delta_0: 3.8589E-06 | 3: delta_s/delta_0: 3.1081E-06 | 4: delta_r/delta_0: 5.3607E-07 | 5: delta_s/delta_0: 6.2757E-08 | 6: delta_r/delta_0: 3.8859E-08 | 7: delta_s/delta_0: 4.2401E-08 | 8: delta_r/delta_0: 1.4939E-08 | 9: delta_s/delta_0: 2.3480E-09 | 10: delta_r/delta_0: 9.7109E-10 | 11: delta_s/delta_0: 1.1156E-09 | 12: delta_r/delta_0: 5.1021E-10 | 13: delta_s/delta_0: 1.5640E-09 | 14: delta_r/delta_0: 3.3371E-10 | 15: delta_s/delta_0: 2.1135E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.471320324747779E-002 4.994311113576507E-005 | BP delta = -2.7881730E-02 -0.1314386 90173754.2327889 | BP delta = 1.7444899E-02 -8.6111985E-02 90173753.7820989 | BP chisq diff = -0.5, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28185961 | --> Sampling calibration, mode = relcal | relcal = 2.4218943E-02 4.5116089E-02 -2.3352858E-02 -4.5982175E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1668566E-02 3.4341316E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0738E-04 | 2: delta_r/delta_0: 8.4292E-06 | 3: delta_s/delta_0: 1.3176E-06 | 4: delta_r/delta_0: 2.3622E-07 | 5: delta_s/delta_0: 6.6006E-08 | 6: delta_r/delta_0: 1.9956E-08 | 7: delta_s/delta_0: 1.0305E-08 | 8: delta_r/delta_0: 6.9206E-09 | 9: delta_s/delta_0: 1.4363E-04 | 10: delta_r/delta_0: 8.3705E-07 | 11: delta_s/delta_0: 8.2913E-08 | 12: delta_r/delta_0: 4.6055E-08 | 13: delta_s/delta_0: 1.3637E-10 | 14: delta_r/delta_0: 9.4481E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.077149532210569E-002 7.836799538155773E-005 | BP delta = -0.1756133 -0.3003239 160952451.808854 | BP delta = -0.1734356 -0.2981462 160952451.821257 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29413644 | --> Sampling calibration, mode = relcal | relcal = 5.9184630E-04 1.0296400E-02 -3.8358897E-03 -7.0523564E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2904654E-02 1.6786255E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3028E-04 | 2: delta_r/delta_0: 1.0923E-05 | 3: delta_s/delta_0: 1.6890E-06 | 4: delta_r/delta_0: 3.0432E-07 | 5: delta_s/delta_0: 1.0735E-07 | 6: delta_r/delta_0: 2.5225E-08 | 7: delta_s/delta_0: 1.2254E-08 | 8: delta_r/delta_0: 8.4171E-09 | 9: delta_s/delta_0: 9.0511E-09 | 10: delta_r/delta_0: 5.4677E-09 | 11: delta_s/delta_0: 3.2515E-06 | 12: delta_r/delta_0: 1.0066E-06 | 13: delta_s/delta_0: 3.8768E-10 | 14: delta_r/delta_0: 1.9154E-10 | 15: delta_s/delta_0: 8.8415E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.080212227133436E-002 8.300610630579762E-005 | BP delta = -0.8714843 -0.8479616 157898071.119531 | BP delta = -0.8896907 -0.8661680 157898070.989318 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26519085 | --> Sampling calibration, mode = relcal | relcal = -5.6182179E-03 1.5063327E-02 -2.3813744E-03 -7.0637348E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8202659E-03 3.1439741E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4354E-04 | 2: delta_r/delta_0: 1.2204E-05 | 3: delta_s/delta_0: 2.0432E-06 | 4: delta_r/delta_0: 2.6981E-07 | 5: delta_s/delta_0: 1.0249E-07 | 6: delta_r/delta_0: 2.3550E-08 | 7: delta_s/delta_0: 9.9232E-09 | 8: delta_r/delta_0: 6.5744E-09 | 9: delta_s/delta_0: 5.4641E-09 | 10: delta_r/delta_0: 3.9598E-09 | 11: delta_s/delta_0: 1.4364E-05 | 12: delta_r/delta_0: 2.9122E-08 | 13: delta_s/delta_0: 2.9710E-08 | 14: delta_r/delta_0: 2.1281E-08 | 15: delta_s/delta_0: 9.9555E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.004831100272155E-003 9.149191445742777E-005 | BP delta = 0.4450384 0.4851660 157019517.722330 | BP delta = 0.3933705 0.4334981 157019517.600130 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25680951 | --> Sampling calibration, mode = relcal | relcal = -3.1710383E-02 -2.5970142E-02 3.7014548E-02 2.0665979E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2448584E-02 1.8761901E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4336E-04 | 2: delta_r/delta_0: 1.2110E-05 | 3: delta_s/delta_0: 1.8768E-06 | 4: delta_r/delta_0: 3.7726E-07 | 5: delta_s/delta_0: 1.4609E-07 | 6: delta_r/delta_0: 2.6802E-08 | 7: delta_s/delta_0: 1.2750E-08 | 8: delta_r/delta_0: 6.8288E-09 | 9: delta_s/delta_0: 1.3747E-08 | 10: delta_r/delta_0: 3.8446E-09 | 11: delta_s/delta_0: 3.1337E-08 | 12: delta_r/delta_0: 1.5099E-08 | 13: delta_s/delta_0: 3.4206E-10 | 14: delta_r/delta_0: 2.6367E-10 | 15: delta_s/delta_0: 1.3895E-10 | 16: delta_r/delta_0: 1.0789E-10 | 17: delta_s/delta_0: 9.1544E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.078642272153379E-002 8.666451180872819E-005 | BP delta = -0.7290829 -0.8519913 158514489.772075 | BP delta = -0.7906818 -0.9135902 158514489.622630 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112989 | New value = -3.203866 | poltype: 2 pol: 1 CPU time specind = 3.2961845E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.081092 | New value = -3.079917 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.095085 | New value = -3.164499 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172094 | New value = -3.153636 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145941 | New value = -3.134839 | poltype: 2 pol: 2 CPU time specind = 3.2165051E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.53 | CG iter. 1 -- res = 0.13578E+08, tol = 0.81288E+01, time = 5.02 | CG iter. 2 -- res = 0.34213E+06, tol = 0.81288E+01, time = 4.74 | CG iter. 3 -- res = 0.68096E+05, tol = 0.81288E+01, time = 5.00 | CG iter. 4 -- res = 0.65375E+05, tol = 0.81288E+01, time = 5.26 | CG iter. 5 -- res = 0.66633E+05, tol = 0.81288E+01, time = 4.66 | CG iter. 6 -- res = 0.65452E+05, tol = 0.81288E+01, time = 4.72 | CG iter. 7 -- res = 0.60724E+05, tol = 0.81288E+01, time = 4.95 | CG iter. 8 -- res = 0.47981E+05, tol = 0.81288E+01, time = 4.78 | CG iter. 9 -- res = 0.41191E+05, tol = 0.81288E+01, time = 4.65 | CG iter. 10 -- res = 0.33911E+05, tol = 0.81288E+01, time = 4.86 | CG iter. 11 -- res = 0.24202E+05, tol = 0.81288E+01, time = 5.06 | CG iter. 12 -- res = 0.18291E+05, tol = 0.81288E+01, time = 4.85 | CG iter. 13 -- res = 0.15263E+05, tol = 0.81288E+01, time = 4.84 | CG iter. 14 -- res = 0.13892E+05, tol = 0.81288E+01, time = 5.14 | CG iter. 15 -- res = 0.11136E+05, tol = 0.81288E+01, time = 4.70 | CG iter. 16 -- res = 0.81295E+04, tol = 0.81288E+01, time = 4.93 | CG iter. 17 -- res = 0.58596E+04, tol = 0.81288E+01, time = 5.80 | CG iter. 18 -- res = 0.50465E+04, tol = 0.81288E+01, time = 5.79 | CG iter. 19 -- res = 0.43138E+04, tol = 0.81288E+01, time = 5.39 | CG iter. 20 -- res = 0.35520E+04, tol = 0.81288E+01, time = 4.97 | CG iter. 21 -- res = 0.27339E+04, tol = 0.81288E+01, time = 4.84 | CG iter. 22 -- res = 0.23131E+04, tol = 0.81288E+01, time = 4.75 | CG iter. 23 -- res = 0.20235E+04, tol = 0.81288E+01, time = 4.98 | CG iter. 24 -- res = 0.16635E+04, tol = 0.81288E+01, time = 4.99 | CG iter. 25 -- res = 0.12595E+04, tol = 0.81288E+01, time = 4.86 | CG iter. 26 -- res = 0.10913E+04, tol = 0.81288E+01, time = 4.93 | CG iter. 27 -- res = 0.97899E+03, tol = 0.81288E+01, time = 5.06 | CG iter. 28 -- res = 0.86012E+03, tol = 0.81288E+01, time = 4.89 | CG iter. 29 -- res = 0.68901E+03, tol = 0.81288E+01, time = 4.71 | CG iter. 30 -- res = 0.54358E+03, tol = 0.81288E+01, time = 5.03 | CG iter. 31 -- res = 0.50689E+03, tol = 0.81288E+01, time = 4.90 | CG iter. 32 -- res = 0.45210E+03, tol = 0.81288E+01, time = 4.95 | CG iter. 33 -- res = 0.37610E+03, tol = 0.81288E+01, time = 4.80 | CG iter. 34 -- res = 0.29520E+03, tol = 0.81288E+01, time = 5.14 | CG iter. 35 -- res = 0.26266E+03, tol = 0.81288E+01, time = 4.92 | CG iter. 36 -- res = 0.23212E+03, tol = 0.81288E+01, time = 4.65 | CG iter. 37 -- res = 0.19787E+03, tol = 0.81288E+01, time = 5.00 | CG iter. 38 -- res = 0.15610E+03, tol = 0.81288E+01, time = 4.81 | CG iter. 39 -- res = 0.13791E+03, tol = 0.81288E+01, time = 4.90 | CG iter. 40 -- res = 0.12170E+03, tol = 0.81288E+01, time = 4.98 | CG iter. 41 -- res = 0.10327E+03, tol = 0.81288E+01, time = 4.80 | CG iter. 42 -- res = 0.81130E+02, tol = 0.81288E+01, time = 5.03 | CG iter. 43 -- res = 0.68341E+02, tol = 0.81288E+01, time = 4.83 | CG iter. 44 -- res = 0.60023E+02, tol = 0.81288E+01, time = 5.08 | CG iter. 45 -- res = 0.50627E+02, tol = 0.81288E+01, time = 4.75 | CG iter. 46 -- res = 0.39329E+02, tol = 0.81288E+01, time = 4.92 | CG iter. 47 -- res = 0.31811E+02, tol = 0.81288E+01, time = 4.72 | CG iter. 48 -- res = 0.27249E+02, tol = 0.81288E+01, time = 4.97 | CG iter. 49 -- res = 0.22685E+02, tol = 0.81288E+01, time = 4.93 | CG iter. 50 -- res = 0.18379E+02, tol = 0.81288E+01, time = 4.63 | Final CG iter 51 -- res = 0.18379E+02, tol = 0.81288E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10743527.071 | Old band monopole 8555239.940 | Change to band monopole 2188287.132 | Change to component monopole -2188277.719 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.81865E+06, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.32531E+03, tol = 0.47627E+18, time = 1.70 | CG iter. 3 -- res = 0.50639E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.33071E-01, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.28253E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10743480.861 | (Sampled value in CG: 10672641.484 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.497204 | New value = 1.518363 | poltype: 2 pol: 1 CPU time specind = 5.2681923E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.513911 | New value = 1.506864 | poltype: 2 pol: 2 CPU time specind = 2.1908045E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.55 | CG iter. 1 -- res = 0.24081E+08, tol = 0.47588E+04, time = 5.54 | CG iter. 2 -- res = 0.53945E+07, tol = 0.47588E+04, time = 5.73 | CG iter. 3 -- res = 0.85000E+06, tol = 0.47588E+04, time = 5.78 | CG iter. 4 -- res = 0.35099E+06, tol = 0.47588E+04, time = 6.18 | CG iter. 5 -- res = 0.15131E+06, tol = 0.47588E+04, time = 6.89 | CG iter. 6 -- res = 0.81259E+05, tol = 0.47588E+04, time = 6.16 | CG iter. 7 -- res = 0.44641E+05, tol = 0.47588E+04, time = 5.52 | CG iter. 8 -- res = 0.20908E+05, tol = 0.47588E+04, time = 5.76 | CG iter. 9 -- res = 0.89257E+04, tol = 0.47588E+04, time = 5.56 | CG iter. 10 -- res = 0.37026E+04, tol = 0.47588E+04, time = 5.43 | CG iter. 11 -- res = 0.16848E+04, tol = 0.47588E+04, time = 5.83 | CG iter. 12 -- res = 0.85604E+03, tol = 0.47588E+04, time = 5.87 | CG iter. 13 -- res = 0.48153E+03, tol = 0.47588E+04, time = 5.49 | CG iter. 14 -- res = 0.27167E+03, tol = 0.47588E+04, time = 5.83 | CG iter. 15 -- res = 0.14241E+03, tol = 0.47588E+04, time = 5.64 | CG iter. 16 -- res = 0.66790E+02, tol = 0.47588E+04, time = 5.81 | CG iter. 17 -- res = 0.31148E+02, tol = 0.47588E+04, time = 5.51 | CG iter. 18 -- res = 0.15461E+02, tol = 0.47588E+04, time = 5.44 | CG iter. 19 -- res = 0.82162E+01, tol = 0.47588E+04, time = 5.92 | CG iter. 20 -- res = 0.45703E+01, tol = 0.47588E+04, time = 5.62 | CG iter. 21 -- res = 0.24854E+01, tol = 0.47588E+04, time = 5.42 | CG iter. 22 -- res = 0.12682E+01, tol = 0.47588E+04, time = 5.79 | CG iter. 23 -- res = 0.63391E+00, tol = 0.47588E+04, time = 6.39 | CG iter. 24 -- res = 0.32830E+00, tol = 0.47588E+04, time = 5.50 | CG iter. 25 -- res = 0.18193E+00, tol = 0.47588E+04, time = 5.86 | CG iter. 26 -- res = 0.10632E+00, tol = 0.47588E+04, time = 5.38 | CG iter. 27 -- res = 0.59669E-01, tol = 0.47588E+04, time = 5.78 | CG iter. 28 -- res = 0.31469E-01, tol = 0.47588E+04, time = 5.46 | CG iter. 29 -- res = 0.16430E-01, tol = 0.47588E+04, time = 5.72 | CG iter. 30 -- res = 0.88893E-02, tol = 0.47588E+04, time = 5.55 | CG iter. 31 -- res = 0.50460E-02, tol = 0.47588E+04, time = 5.52 | CG iter. 32 -- res = 0.28674E-02, tol = 0.47588E+04, time = 5.56 | CG iter. 33 -- res = 0.16246E-02, tol = 0.47588E+04, time = 5.51 | CG iter. 34 -- res = 0.87893E-03, tol = 0.47588E+04, time = 5.93 | CG iter. 35 -- res = 0.45720E-03, tol = 0.47588E+04, time = 5.75 | Final CG iter 36 -- res = 0.45720E-03, tol = 0.47588E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.375 2.705 | New value -0.507 | Old value -1.375 | Difference 0.867 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.45040E+05, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.66470E+02, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.18574E+01, tol = 0.47627E+18, time = 1.58 | CG iter. 4 -- res = 0.15389E-03, tol = 0.47627E+18, time = 1.66 | Final CG iter 5 -- res = 0.50677E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10743480.861 | (Sampled value in CG: 10672719.665 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.693994 | New value = -3.660189 | poltype: 1 pol: 1 CPU time specind = 5.2671432E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.35465E+07, tol = 0.23876E+01, time = 2.19 | CG iter. 2 -- res = 0.13957E+07, tol = 0.23876E+01, time = 2.36 | CG iter. 3 -- res = 0.31246E+06, tol = 0.23876E+01, time = 2.27 | CG iter. 4 -- res = 0.15077E+06, tol = 0.23876E+01, time = 2.30 | CG iter. 5 -- res = 0.92831E+05, tol = 0.23876E+01, time = 2.17 | CG iter. 6 -- res = 0.39375E+05, tol = 0.23876E+01, time = 2.18 | CG iter. 7 -- res = 0.12367E+05, tol = 0.23876E+01, time = 2.38 | CG iter. 8 -- res = 0.51095E+04, tol = 0.23876E+01, time = 2.25 | CG iter. 9 -- res = 0.23637E+04, tol = 0.23876E+01, time = 2.37 | CG iter. 10 -- res = 0.95394E+03, tol = 0.23876E+01, time = 2.10 | CG iter. 11 -- res = 0.40229E+03, tol = 0.23876E+01, time = 2.32 | CG iter. 12 -- res = 0.20284E+03, tol = 0.23876E+01, time = 2.10 | CG iter. 13 -- res = 0.10324E+03, tol = 0.23876E+01, time = 2.61 | CG iter. 14 -- res = 0.50018E+02, tol = 0.23876E+01, time = 2.26 | CG iter. 15 -- res = 0.21304E+02, tol = 0.23876E+01, time = 2.20 | CG iter. 16 -- res = 0.93059E+01, tol = 0.23876E+01, time = 2.40 | CG iter. 17 -- res = 0.40262E+01, tol = 0.23876E+01, time = 2.21 | CG iter. 18 -- res = 0.19720E+01, tol = 0.23876E+01, time = 2.32 | CG iter. 19 -- res = 0.10167E+01, tol = 0.23876E+01, time = 2.22 | CG iter. 20 -- res = 0.49436E+00, tol = 0.23876E+01, time = 2.45 | CG iter. 21 -- res = 0.22822E+00, tol = 0.23876E+01, time = 2.17 | CG iter. 22 -- res = 0.98176E-01, tol = 0.23876E+01, time = 2.21 | CG iter. 23 -- res = 0.43647E-01, tol = 0.23876E+01, time = 2.32 | CG iter. 24 -- res = 0.20994E-01, tol = 0.23876E+01, time = 2.49 | CG iter. 25 -- res = 0.10706E-01, tol = 0.23876E+01, time = 2.36 | CG iter. 26 -- res = 0.53449E-02, tol = 0.23876E+01, time = 2.29 | CG iter. 27 -- res = 0.26052E-02, tol = 0.23876E+01, time = 2.12 | CG iter. 28 -- res = 0.12161E-02, tol = 0.23876E+01, time = 2.27 | CG iter. 29 -- res = 0.53574E-03, tol = 0.23876E+01, time = 2.26 | CG iter. 30 -- res = 0.26045E-03, tol = 0.23876E+01, time = 2.22 | CG iter. 31 -- res = 0.12411E-03, tol = 0.23876E+01, time = 2.48 | CG iter. 32 -- res = 0.63995E-04, tol = 0.23876E+01, time = 2.05 | CG iter. 33 -- res = 0.30621E-04, tol = 0.23876E+01, time = 2.38 | CG iter. 34 -- res = 0.13655E-04, tol = 0.23876E+01, time = 2.22 | CG iter. 35 -- res = 0.65163E-05, tol = 0.23876E+01, time = 2.33 | CG iter. 36 -- res = 0.30953E-05, tol = 0.23876E+01, time = 2.32 | CG iter. 37 -- res = 0.15019E-05, tol = 0.23876E+01, time = 2.79 | CG iter. 38 -- res = 0.75598E-06, tol = 0.23876E+01, time = 8.34 | CG iter. 39 -- res = 0.35554E-06, tol = 0.23876E+01, time = 2.19 | CG iter. 40 -- res = 0.16630E-06, tol = 0.23876E+01, time = 2.44 | CG iter. 41 -- res = 0.76925E-07, tol = 0.23876E+01, time = 2.36 | CG iter. 42 -- res = 0.35696E-07, tol = 0.23876E+01, time = 2.26 | CG iter. 43 -- res = 0.17398E-07, tol = 0.23876E+01, time = 2.36 | CG iter. 44 -- res = 0.85989E-08, tol = 0.23876E+01, time = 2.15 | CG iter. 45 -- res = 0.41704E-08, tol = 0.23876E+01, time = 2.24 | CG iter. 46 -- res = 0.20088E-08, tol = 0.23876E+01, time = 2.16 | CG iter. 47 -- res = 0.93410E-09, tol = 0.23876E+01, time = 2.34 | CG iter. 48 -- res = 0.44478E-09, tol = 0.23876E+01, time = 2.45 | CG iter. 49 -- res = 0.20969E-09, tol = 0.23876E+01, time = 2.16 | CG iter. 50 -- res = 0.99417E-10, tol = 0.23876E+01, time = 2.47 | Final CG iter 51 -- res = 0.99417E-10, tol = 0.23876E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.632 5.881 | New value 0.999 | Old value -10.632 | Difference 11.631 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.13635E+06, tol = 0.47627E+18, time = 1.58 | CG iter. 2 -- res = 0.86163E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.24618E+01, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.13085E-01, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.14270E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10743480.861 | (Sampled value in CG: 10688865.731 ) | CPU time specind = 1035.739 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.68580E+08, tol = 0.57817E+04, time = 10.00 | CG iter. 2 -- res = 0.58550E+08, tol = 0.57817E+04, time = 10.10 | CG iter. 3 -- res = 0.15076E+08, tol = 0.57817E+04, time = 9.89 | CG iter. 4 -- res = 0.64083E+07, tol = 0.57817E+04, time = 10.18 | CG iter. 5 -- res = 0.37312E+07, tol = 0.57817E+04, time = 9.81 | CG iter. 6 -- res = 0.21425E+07, tol = 0.57817E+04, time = 10.39 | CG iter. 7 -- res = 0.12841E+07, tol = 0.57817E+04, time = 10.26 | CG iter. 8 -- res = 0.87002E+06, tol = 0.57817E+04, time = 10.09 | CG iter. 9 -- res = 0.56668E+06, tol = 0.57817E+04, time = 10.51 | CG iter. 10 -- res = 0.34454E+06, tol = 0.57817E+04, time = 10.25 | CG iter. 11 -- res = 0.19338E+06, tol = 0.57817E+04, time = 9.91 | CG iter. 12 -- res = 0.10977E+06, tol = 0.57817E+04, time = 10.05 | CG iter. 13 -- res = 0.67521E+05, tol = 0.57817E+04, time = 10.04 | CG iter. 14 -- res = 0.46678E+05, tol = 0.57817E+04, time = 10.14 | CG iter. 15 -- res = 0.37645E+05, tol = 0.57817E+04, time = 9.96 | CG iter. 16 -- res = 0.34064E+05, tol = 0.57817E+04, time = 10.20 | CG iter. 17 -- res = 0.32322E+05, tol = 0.57817E+04, time = 10.15 | CG iter. 18 -- res = 0.30125E+05, tol = 0.57817E+04, time = 10.37 | CG iter. 19 -- res = 0.27463E+05, tol = 0.57817E+04, time = 16.09 | CG iter. 20 -- res = 0.26033E+05, tol = 0.57817E+04, time = 10.04 | CG iter. 21 -- res = 0.25666E+05, tol = 0.57817E+04, time = 10.17 | CG iter. 22 -- res = 0.26206E+05, tol = 0.57817E+04, time = 10.22 | CG iter. 23 -- res = 0.26513E+05, tol = 0.57817E+04, time = 9.91 | CG iter. 24 -- res = 0.25085E+05, tol = 0.57817E+04, time = 9.96 | CG iter. 25 -- res = 0.21212E+05, tol = 0.57817E+04, time = 10.35 | CG iter. 26 -- res = 0.16211E+05, tol = 0.57817E+04, time = 10.05 | CG iter. 27 -- res = 0.12069E+05, tol = 0.57817E+04, time = 11.72 | CG iter. 28 -- res = 0.91429E+04, tol = 0.57817E+04, time = 10.85 | CG iter. 29 -- res = 0.75314E+04, tol = 0.57817E+04, time = 10.26 | CG iter. 30 -- res = 0.65940E+04, tol = 0.57817E+04, time = 9.79 | CG iter. 31 -- res = 0.59902E+04, tol = 0.57817E+04, time = 10.21 | CG iter. 32 -- res = 0.53944E+04, tol = 0.57817E+04, time = 10.12 | CG iter. 33 -- res = 0.47915E+04, tol = 0.57817E+04, time = 10.07 | CG iter. 34 -- res = 0.42492E+04, tol = 0.57817E+04, time = 10.50 | CG iter. 35 -- res = 0.38105E+04, tol = 0.57817E+04, time = 10.02 | CG iter. 36 -- res = 0.36666E+04, tol = 0.57817E+04, time = 10.27 | CG iter. 37 -- res = 0.36079E+04, tol = 0.57817E+04, time = 10.08 | CG iter. 38 -- res = 0.34654E+04, tol = 0.57817E+04, time = 10.11 | CG iter. 39 -- res = 0.31511E+04, tol = 0.57817E+04, time = 10.11 | CG iter. 40 -- res = 0.27622E+04, tol = 0.57817E+04, time = 10.00 | CG iter. 41 -- res = 0.22380E+04, tol = 0.57817E+04, time = 9.95 | CG iter. 42 -- res = 0.18051E+04, tol = 0.57817E+04, time = 10.10 | CG iter. 43 -- res = 0.15902E+04, tol = 0.57817E+04, time = 9.94 | CG iter. 44 -- res = 0.15004E+04, tol = 0.57817E+04, time = 10.63 | CG iter. 45 -- res = 0.14419E+04, tol = 0.57817E+04, time = 10.18 | CG iter. 46 -- res = 0.13544E+04, tol = 0.57817E+04, time = 9.95 | CG iter. 47 -- res = 0.12350E+04, tol = 0.57817E+04, time = 10.58 | CG iter. 48 -- res = 0.11170E+04, tol = 0.57817E+04, time = 16.87 | CG iter. 49 -- res = 0.10262E+04, tol = 0.57817E+04, time = 9.92 | CG iter. 50 -- res = 0.96137E+03, tol = 0.57817E+04, time = 10.11 | CG iter. 51 -- res = 0.90857E+03, tol = 0.57817E+04, time = 10.13 | CG iter. 52 -- res = 0.87811E+03, tol = 0.57817E+04, time = 10.20 | CG iter. 53 -- res = 0.82346E+03, tol = 0.57817E+04, time = 10.15 | CG iter. 54 -- res = 0.73916E+03, tol = 0.57817E+04, time = 9.97 | CG iter. 55 -- res = 0.64678E+03, tol = 0.57817E+04, time = 10.20 | CG iter. 56 -- res = 0.56070E+03, tol = 0.57817E+04, time = 13.03 | CG iter. 57 -- res = 0.49767E+03, tol = 0.57817E+04, time = 10.55 | CG iter. 58 -- res = 0.46823E+03, tol = 0.57817E+04, time = 10.19 | CG iter. 59 -- res = 0.45150E+03, tol = 0.57817E+04, time = 9.86 | CG iter. 60 -- res = 0.41945E+03, tol = 0.57817E+04, time = 10.27 | Final CG iter 61 -- res = 0.41945E+03, tol = 0.57817E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.825 ( -230.128 -2229.249 2511.445 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9685807.614 | Old band monopole 10743527.071 | Change to band monopole -1057719.458 | Change to component monopole 1057714.908 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.441 2.742 | New value -0.810 | Old value -0.441 | Difference -0.369 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.234 ( 8.043 10.176 -9.062 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.899 5.047 | New value 4.246 | Old value 9.899 | Difference -5.652 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.11546E+05, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.21035E+02, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.51462E+00, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.84870E-03, tol = 0.47627E+18, time = 1.65 | Final CG iter 5 -- res = 0.22158E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9685765.953 | (Sampled value in CG: 9664112.581 ) | Chain = 1 -- chisq = 0.81531968E+09 | Chain = 1 -- wall time = 16255.956 sec Available RAM: MemAvailable: 506057776 kB Available Swap: SwapFree: 1056834344 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 192 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442268 | --> Sampling calibration, mode = relcal | relcal = 1.3422634E-02 7.4392854E-04 -1.5971485E-03 -1.2569414E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1083980 0.1301088 9403199.29123512 | BP delta = 0.1083980 0.1197053 9403208.82457734 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632564 | --> Sampling calibration, mode = relcal | relcal = -2.8213430E-03 -7.0377468E-04 1.6791007E-03 1.6135528E-03 -4.0836199E-04 6.4082624E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5707834 15217971.0884803 | BP delta = 0.0000000E+00 -0.5772037 15217971.2472871 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18000404071927 | --> Sampling calibration, mode = relcal | relcal = -7.4875079E-02 -5.8261544E-02 9.1655828E-02 4.1480798E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1780779E-04 4.3894439E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2672E-05 | 2: delta_r/delta_0: 7.6780E-07 | 3: delta_s/delta_0: 2.5295E-07 | 4: delta_r/delta_0: 1.3655E-08 | 5: delta_s/delta_0: 3.5274E-07 | 6: delta_r/delta_0: 1.3793E-08 | 7: delta_s/delta_0: 2.6151E-10 | 8: delta_r/delta_0: 9.6662E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.118105307131107E-003 2.743389537400913E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2673E-05 | 2: delta_r/delta_0: 7.6785E-07 | 3: delta_s/delta_0: 2.5296E-07 | 4: delta_r/delta_0: 1.3653E-08 | 5: delta_s/delta_0: 3.5332E-07 | 6: delta_r/delta_0: 1.3829E-08 | 7: delta_s/delta_0: 2.6154E-10 | 8: delta_r/delta_0: 9.6674E-11 | Reached bicg-stab tolerance | BP delta = 3.3489432E-02 5.0267458E-02 3633924.07719833 | BP delta = 3.3489432E-02 5.0097466E-02 3640463.21862729 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583056 | --> Sampling calibration, mode = relcal | relcal = -0.1066141 -9.5547080E-02 0.1448814 5.7279754E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4882734E-03 1.4890169E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7893E-05 | 2: delta_r/delta_0: 1.6347E-06 | 3: delta_s/delta_0: 2.3945E-07 | 4: delta_r/delta_0: 3.9750E-08 | 5: delta_s/delta_0: 2.8028E-08 | 6: delta_r/delta_0: 6.5380E-09 | 7: delta_s/delta_0: 4.8874E-09 | 8: delta_r/delta_0: 1.7325E-09 | 9: delta_s/delta_0: 8.3000E-10 | 10: delta_r/delta_0: 6.2707E-10 | 11: delta_s/delta_0: 9.3202E-10 | 12: delta_r/delta_0: 1.2119E-10 | 13: delta_s/delta_0: 9.5051E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.003651606487850E-002 2.811280103697261E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7891E-05 | 2: delta_r/delta_0: 1.6346E-06 | 3: delta_s/delta_0: 2.3944E-07 | 4: delta_r/delta_0: 3.9716E-08 | 5: delta_s/delta_0: 2.8055E-08 | 6: delta_r/delta_0: 6.5363E-09 | 7: delta_s/delta_0: 4.8878E-09 | 8: delta_r/delta_0: 1.7321E-09 | 9: delta_s/delta_0: 8.2972E-10 | 10: delta_r/delta_0: 6.2686E-10 | 11: delta_s/delta_0: 9.3156E-10 | 12: delta_r/delta_0: 1.2115E-10 | 13: delta_s/delta_0: 9.4969E-11 | Reached bicg-stab tolerance | BP delta = -0.2776559 -0.2525125 2841759.48842946 | BP delta = -0.2776559 -0.2548551 2841695.62884130 | BP chisq diff = -63.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231142 | --> Sampling calibration, mode = relcal | relcal = 0.2955094 0.2248288 -0.2837978 -0.2365404 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5627632E-04 5.5374722E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0787E-03 | 2: delta_r/delta_0: 1.1813E-04 | 3: delta_s/delta_0: 1.7588E-05 | 4: delta_r/delta_0: 1.4299E-06 | 5: delta_s/delta_0: 1.6805E-06 | 6: delta_r/delta_0: 1.3910E-07 | 7: delta_s/delta_0: 1.2191E-08 | 8: delta_r/delta_0: 3.0085E-09 | 9: delta_s/delta_0: 1.0912E-08 | 10: delta_r/delta_0: 9.3770E-10 | 11: delta_s/delta_0: 9.1532E-10 | 12: delta_r/delta_0: 3.2278E-10 | 13: delta_s/delta_0: 5.7244E-09 | 14: delta_r/delta_0: 9.8052E-10 | 15: delta_s/delta_0: 1.8891E-09 | 16: delta_r/delta_0: 6.6067E-10 | 17: delta_s/delta_0: 2.5706E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.013693740973042E-003 4.021276109452775E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.0748E-03 | 2: delta_r/delta_0: 1.1803E-04 | 3: delta_s/delta_0: 1.7578E-05 | 4: delta_r/delta_0: 1.4289E-06 | 5: delta_s/delta_0: 1.6819E-06 | 6: delta_r/delta_0: 1.3891E-07 | 7: delta_s/delta_0: 1.2209E-08 | 8: delta_r/delta_0: 3.0121E-09 | 9: delta_s/delta_0: 1.0659E-08 | 10: delta_r/delta_0: 9.0716E-10 | 11: delta_s/delta_0: 8.8330E-10 | 12: delta_r/delta_0: 3.1480E-10 | 13: delta_s/delta_0: 6.1085E-09 | 14: delta_r/delta_0: 1.0549E-09 | 15: delta_s/delta_0: 1.7486E-09 | 16: delta_r/delta_0: 6.0345E-10 | 17: delta_s/delta_0: 2.5736E-11 | Reached bicg-stab tolerance | BP delta = -0.1404364 -0.1692453 2827552.47509990 | BP delta = -0.1404364 -0.1713150 2827575.69349790 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95928289 | --> Sampling calibration, mode = relcal | relcal = 0.1065022 0.1395850 -0.1103534 -0.1357337 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0553585E-02 1.2920334E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1333E-04 | 2: delta_r/delta_0: 5.5073E-06 | 3: delta_s/delta_0: 6.0275E-06 | 4: delta_r/delta_0: 8.5929E-07 | 5: delta_s/delta_0: 1.9630E-07 | 6: delta_r/delta_0: 1.1876E-07 | 7: delta_s/delta_0: 5.7839E-07 | 8: delta_r/delta_0: 2.6077E-08 | 9: delta_s/delta_0: 5.8611E-08 | 10: delta_r/delta_0: 3.3431E-08 | 11: delta_s/delta_0: 1.4257E-09 | 12: delta_r/delta_0: 9.7861E-10 | 13: delta_s/delta_0: 2.8489E-09 | 14: delta_r/delta_0: 1.0375E-10 | 15: delta_s/delta_0: 1.0344E-10 | 16: delta_r/delta_0: 7.1081E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.973901949145182E-002 3.696696499203162E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1333E-04 | 2: delta_r/delta_0: 5.5074E-06 | 3: delta_s/delta_0: 6.0275E-06 | 4: delta_r/delta_0: 8.5928E-07 | 5: delta_s/delta_0: 1.9629E-07 | 6: delta_r/delta_0: 1.1876E-07 | 7: delta_s/delta_0: 5.7829E-07 | 8: delta_r/delta_0: 2.6078E-08 | 9: delta_s/delta_0: 5.8652E-08 | 10: delta_r/delta_0: 3.3444E-08 | 11: delta_s/delta_0: 1.4257E-09 | 12: delta_r/delta_0: 9.7866E-10 | 13: delta_s/delta_0: 2.8405E-09 | 14: delta_r/delta_0: 1.0401E-10 | 15: delta_s/delta_0: 1.0403E-10 | 16: delta_r/delta_0: 7.2102E-11 | Reached bicg-stab tolerance | BP delta = 8.3271779E-02 0.1921758 3004238.99639748 | BP delta = 8.3271779E-02 0.1899265 3004227.15951586 | BP chisq diff = -11.8, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203866 | New value = -3.139029 | poltype: 2 pol: 1 CPU time specind = 6.3340902E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.079917 | New value = -3.078193 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164499 | New value = -3.164121 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153636 | New value = -3.167725 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134839 | New value = -3.222538 | poltype: 2 pol: 2 CPU time specind = 1.1208057E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.13596E+08, tol = 0.73025E+01, time = 5.23 | CG iter. 2 -- res = 0.34598E+06, tol = 0.73025E+01, time = 4.82 | CG iter. 3 -- res = 0.67396E+05, tol = 0.73025E+01, time = 5.09 | CG iter. 4 -- res = 0.52171E+05, tol = 0.73025E+01, time = 7.39 | CG iter. 5 -- res = 0.48271E+05, tol = 0.73025E+01, time = 4.95 | CG iter. 6 -- res = 0.46460E+05, tol = 0.73025E+01, time = 4.99 | CG iter. 7 -- res = 0.47082E+05, tol = 0.73025E+01, time = 5.12 | CG iter. 8 -- res = 0.37004E+05, tol = 0.73025E+01, time = 5.18 | CG iter. 9 -- res = 0.30513E+05, tol = 0.73025E+01, time = 5.05 | CG iter. 10 -- res = 0.26427E+05, tol = 0.73025E+01, time = 5.29 | CG iter. 11 -- res = 0.17662E+05, tol = 0.73025E+01, time = 4.92 | CG iter. 12 -- res = 0.12183E+05, tol = 0.73025E+01, time = 5.18 | CG iter. 13 -- res = 0.96474E+04, tol = 0.73025E+01, time = 4.82 | CG iter. 14 -- res = 0.84512E+04, tol = 0.73025E+01, time = 5.05 | CG iter. 15 -- res = 0.73016E+04, tol = 0.73025E+01, time = 5.21 | CG iter. 16 -- res = 0.52242E+04, tol = 0.73025E+01, time = 5.31 | CG iter. 17 -- res = 0.36783E+04, tol = 0.73025E+01, time = 5.02 | CG iter. 18 -- res = 0.29720E+04, tol = 0.73025E+01, time = 5.17 | CG iter. 19 -- res = 0.26492E+04, tol = 0.73025E+01, time = 5.43 | CG iter. 20 -- res = 0.20959E+04, tol = 0.73025E+01, time = 5.19 | CG iter. 21 -- res = 0.15780E+04, tol = 0.73025E+01, time = 5.25 | CG iter. 22 -- res = 0.12520E+04, tol = 0.73025E+01, time = 5.63 | CG iter. 23 -- res = 0.10782E+04, tol = 0.73025E+01, time = 10.78 | CG iter. 24 -- res = 0.87152E+03, tol = 0.73025E+01, time = 5.03 | CG iter. 25 -- res = 0.65472E+03, tol = 0.73025E+01, time = 5.21 | CG iter. 26 -- res = 0.52345E+03, tol = 0.73025E+01, time = 5.18 | CG iter. 27 -- res = 0.46587E+03, tol = 0.73025E+01, time = 5.00 | CG iter. 28 -- res = 0.41814E+03, tol = 0.73025E+01, time = 4.87 | CG iter. 29 -- res = 0.31933E+03, tol = 0.73025E+01, time = 5.33 | CG iter. 30 -- res = 0.25258E+03, tol = 0.73025E+01, time = 5.20 | CG iter. 31 -- res = 0.22160E+03, tol = 0.73025E+01, time = 5.27 | CG iter. 32 -- res = 0.19254E+03, tol = 0.73025E+01, time = 5.26 | CG iter. 33 -- res = 0.15295E+03, tol = 0.73025E+01, time = 5.20 | CG iter. 34 -- res = 0.11730E+03, tol = 0.73025E+01, time = 5.19 | CG iter. 35 -- res = 0.97970E+02, tol = 0.73025E+01, time = 5.11 | CG iter. 36 -- res = 0.88741E+02, tol = 0.73025E+01, time = 5.12 | CG iter. 37 -- res = 0.70361E+02, tol = 0.73025E+01, time = 5.12 | CG iter. 38 -- res = 0.53560E+02, tol = 0.73025E+01, time = 5.26 | CG iter. 39 -- res = 0.42935E+02, tol = 0.73025E+01, time = 6.00 | CG iter. 40 -- res = 0.36256E+02, tol = 0.73025E+01, time = 5.61 | CG iter. 41 -- res = 0.29295E+02, tol = 0.73025E+01, time = 5.38 | CG iter. 42 -- res = 0.22164E+02, tol = 0.73025E+01, time = 5.01 | CG iter. 43 -- res = 0.17149E+02, tol = 0.73025E+01, time = 5.08 | CG iter. 44 -- res = 0.14489E+02, tol = 0.73025E+01, time = 4.85 | CG iter. 45 -- res = 0.11683E+02, tol = 0.73025E+01, time = 5.06 | CG iter. 46 -- res = 0.87275E+01, tol = 0.73025E+01, time = 4.98 | CG iter. 47 -- res = 0.66963E+01, tol = 0.73025E+01, time = 4.93 | CG iter. 48 -- res = 0.53752E+01, tol = 0.73025E+01, time = 4.98 | CG iter. 49 -- res = 0.43450E+01, tol = 0.73025E+01, time = 5.39 | CG iter. 50 -- res = 0.34459E+01, tol = 0.73025E+01, time = 5.14 | Final CG iter 51 -- res = 0.34459E+01, tol = 0.73025E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9275737.365 | Old band monopole 9685807.614 | Change to band monopole -410070.249 | Change to component monopole 410068.485 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.21947E+06, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.10871E+03, tol = 0.47627E+18, time = 1.66 | CG iter. 3 -- res = 0.26164E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.16555E-01, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.77770E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9275697.468 | (Sampled value in CG: 9329912.127 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518363 | New value = 1.476522 | poltype: 2 pol: 1 CPU time specind = 1.1600018E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.506864 | New value = 1.477803 | poltype: 2 pol: 2 CPU time specind = 3.5691261E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.24365E+08, tol = 0.47505E+04, time = 5.51 | CG iter. 2 -- res = 0.53064E+07, tol = 0.47505E+04, time = 5.55 | CG iter. 3 -- res = 0.82116E+06, tol = 0.47505E+04, time = 6.10 | CG iter. 4 -- res = 0.33716E+06, tol = 0.47505E+04, time = 5.58 | CG iter. 5 -- res = 0.14095E+06, tol = 0.47505E+04, time = 5.57 | CG iter. 6 -- res = 0.75219E+05, tol = 0.47505E+04, time = 6.06 | CG iter. 7 -- res = 0.41590E+05, tol = 0.47505E+04, time = 5.66 | CG iter. 8 -- res = 0.19739E+05, tol = 0.47505E+04, time = 12.29 | CG iter. 9 -- res = 0.87715E+04, tol = 0.47505E+04, time = 5.50 | CG iter. 10 -- res = 0.35820E+04, tol = 0.47505E+04, time = 5.80 | CG iter. 11 -- res = 0.16077E+04, tol = 0.47505E+04, time = 5.87 | CG iter. 12 -- res = 0.83163E+03, tol = 0.47505E+04, time = 5.86 | CG iter. 13 -- res = 0.48032E+03, tol = 0.47505E+04, time = 5.80 | CG iter. 14 -- res = 0.26641E+03, tol = 0.47505E+04, time = 5.85 | CG iter. 15 -- res = 0.13656E+03, tol = 0.47505E+04, time = 5.88 | CG iter. 16 -- res = 0.65847E+02, tol = 0.47505E+04, time = 5.48 | CG iter. 17 -- res = 0.30953E+02, tol = 0.47505E+04, time = 5.84 | CG iter. 18 -- res = 0.15481E+02, tol = 0.47505E+04, time = 5.70 | CG iter. 19 -- res = 0.83382E+01, tol = 0.47505E+04, time = 5.84 | CG iter. 20 -- res = 0.46743E+01, tol = 0.47505E+04, time = 5.50 | CG iter. 21 -- res = 0.25152E+01, tol = 0.47505E+04, time = 6.06 | CG iter. 22 -- res = 0.13081E+01, tol = 0.47505E+04, time = 5.82 | CG iter. 23 -- res = 0.66274E+00, tol = 0.47505E+04, time = 7.04 | CG iter. 24 -- res = 0.34922E+00, tol = 0.47505E+04, time = 6.12 | CG iter. 25 -- res = 0.19070E+00, tol = 0.47505E+04, time = 6.02 | CG iter. 26 -- res = 0.10676E+00, tol = 0.47505E+04, time = 5.59 | CG iter. 27 -- res = 0.58464E-01, tol = 0.47505E+04, time = 5.87 | CG iter. 28 -- res = 0.31253E-01, tol = 0.47505E+04, time = 5.82 | CG iter. 29 -- res = 0.16480E-01, tol = 0.47505E+04, time = 5.92 | CG iter. 30 -- res = 0.87582E-02, tol = 0.47505E+04, time = 5.99 | CG iter. 31 -- res = 0.47998E-02, tol = 0.47505E+04, time = 6.05 | CG iter. 32 -- res = 0.26769E-02, tol = 0.47505E+04, time = 5.77 | CG iter. 33 -- res = 0.14649E-02, tol = 0.47505E+04, time = 5.99 | CG iter. 34 -- res = 0.78241E-03, tol = 0.47505E+04, time = 5.67 | CG iter. 35 -- res = 0.40432E-03, tol = 0.47505E+04, time = 5.81 | Final CG iter 36 -- res = 0.40432E-03, tol = 0.47505E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.832 2.731 | New value 1.704 | Old value -0.832 | Difference 2.535 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.33920E+06, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.55659E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.16257E+01, tol = 0.47627E+18, time = 1.65 | CG iter. 4 -- res = 0.17517E-02, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.34764E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9275697.468 | (Sampled value in CG: 9332510.854 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.660189 | New value = -3.543105 | poltype: 1 pol: 1 CPU time specind = 7.3039532E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.31827E+07, tol = 0.24126E+01, time = 2.44 | CG iter. 2 -- res = 0.10606E+07, tol = 0.24126E+01, time = 2.20 | CG iter. 3 -- res = 0.24221E+06, tol = 0.24126E+01, time = 2.56 | CG iter. 4 -- res = 0.12551E+06, tol = 0.24126E+01, time = 2.28 | CG iter. 5 -- res = 0.72112E+05, tol = 0.24126E+01, time = 2.49 | CG iter. 6 -- res = 0.29792E+05, tol = 0.24126E+01, time = 2.22 | CG iter. 7 -- res = 0.10472E+05, tol = 0.24126E+01, time = 2.49 | CG iter. 8 -- res = 0.47240E+04, tol = 0.24126E+01, time = 2.43 | CG iter. 9 -- res = 0.22457E+04, tol = 0.24126E+01, time = 2.26 | CG iter. 10 -- res = 0.90136E+03, tol = 0.24126E+01, time = 2.51 | CG iter. 11 -- res = 0.35691E+03, tol = 0.24126E+01, time = 2.42 | CG iter. 12 -- res = 0.17504E+03, tol = 0.24126E+01, time = 2.32 | CG iter. 13 -- res = 0.90220E+02, tol = 0.24126E+01, time = 2.40 | CG iter. 14 -- res = 0.45556E+02, tol = 0.24126E+01, time = 2.40 | CG iter. 15 -- res = 0.21940E+02, tol = 0.24126E+01, time = 2.53 | CG iter. 16 -- res = 0.96666E+01, tol = 0.24126E+01, time = 2.23 | CG iter. 17 -- res = 0.40058E+01, tol = 0.24126E+01, time = 2.36 | CG iter. 18 -- res = 0.18165E+01, tol = 0.24126E+01, time = 2.20 | CG iter. 19 -- res = 0.88802E+00, tol = 0.24126E+01, time = 2.41 | CG iter. 20 -- res = 0.46121E+00, tol = 0.24126E+01, time = 2.48 | CG iter. 21 -- res = 0.23841E+00, tol = 0.24126E+01, time = 2.20 | CG iter. 22 -- res = 0.10975E+00, tol = 0.24126E+01, time = 2.65 | CG iter. 23 -- res = 0.49057E-01, tol = 0.24126E+01, time = 2.14 | CG iter. 24 -- res = 0.22506E-01, tol = 0.24126E+01, time = 2.36 | CG iter. 25 -- res = 0.10706E-01, tol = 0.24126E+01, time = 2.06 | CG iter. 26 -- res = 0.53625E-02, tol = 0.24126E+01, time = 2.31 | CG iter. 27 -- res = 0.26661E-02, tol = 0.24126E+01, time = 2.21 | CG iter. 28 -- res = 0.13901E-02, tol = 0.24126E+01, time = 2.53 | CG iter. 29 -- res = 0.63421E-03, tol = 0.24126E+01, time = 2.23 | CG iter. 30 -- res = 0.30064E-03, tol = 0.24126E+01, time = 2.26 | CG iter. 31 -- res = 0.13955E-03, tol = 0.24126E+01, time = 2.49 | CG iter. 32 -- res = 0.68841E-04, tol = 0.24126E+01, time = 2.44 | CG iter. 33 -- res = 0.35082E-04, tol = 0.24126E+01, time = 2.52 | CG iter. 34 -- res = 0.17830E-04, tol = 0.24126E+01, time = 2.36 | CG iter. 35 -- res = 0.88980E-05, tol = 0.24126E+01, time = 2.32 | CG iter. 36 -- res = 0.41161E-05, tol = 0.24126E+01, time = 2.24 | CG iter. 37 -- res = 0.18589E-05, tol = 0.24126E+01, time = 2.30 | CG iter. 38 -- res = 0.89448E-06, tol = 0.24126E+01, time = 2.53 | CG iter. 39 -- res = 0.46185E-06, tol = 0.24126E+01, time = 2.38 | CG iter. 40 -- res = 0.22657E-06, tol = 0.24126E+01, time = 2.48 | CG iter. 41 -- res = 0.11236E-06, tol = 0.24126E+01, time = 2.49 | CG iter. 42 -- res = 0.53077E-07, tol = 0.24126E+01, time = 2.04 | CG iter. 43 -- res = 0.22805E-07, tol = 0.24126E+01, time = 2.46 | CG iter. 44 -- res = 0.10815E-07, tol = 0.24126E+01, time = 2.48 | CG iter. 45 -- res = 0.52601E-08, tol = 0.24126E+01, time = 2.58 | CG iter. 46 -- res = 0.26589E-08, tol = 0.24126E+01, time = 2.61 | CG iter. 47 -- res = 0.13316E-08, tol = 0.24126E+01, time = 2.71 | CG iter. 48 -- res = 0.62732E-09, tol = 0.24126E+01, time = 2.14 | CG iter. 49 -- res = 0.28638E-09, tol = 0.24126E+01, time = 2.45 | CG iter. 50 -- res = 0.12675E-09, tol = 0.24126E+01, time = 2.34 | Final CG iter 51 -- res = 0.12675E-09, tol = 0.24126E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.746 4.130 | New value -1.162 | Old value 8.746 | Difference -9.908 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.10244E+06, tol = 0.47627E+18, time = 1.59 | CG iter. 2 -- res = 0.71187E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.26726E+01, tol = 0.47627E+18, time = 1.70 | CG iter. 4 -- res = 0.93240E-02, tol = 0.47627E+18, time = 1.72 | Final CG iter 5 -- res = 0.89379E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9275697.468 | (Sampled value in CG: 9321132.630 ) | CPU time specind = 1057.549 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.69724E+08, tol = 0.57594E+04, time = 10.60 | CG iter. 2 -- res = 0.59563E+08, tol = 0.57594E+04, time = 10.87 | CG iter. 3 -- res = 0.15643E+08, tol = 0.57594E+04, time = 10.62 | CG iter. 4 -- res = 0.67086E+07, tol = 0.57594E+04, time = 10.24 | CG iter. 5 -- res = 0.40567E+07, tol = 0.57594E+04, time = 10.19 | CG iter. 6 -- res = 0.23250E+07, tol = 0.57594E+04, time = 10.26 | CG iter. 7 -- res = 0.13584E+07, tol = 0.57594E+04, time = 11.97 | CG iter. 8 -- res = 0.88995E+06, tol = 0.57594E+04, time = 11.06 | CG iter. 9 -- res = 0.56562E+06, tol = 0.57594E+04, time = 10.57 | CG iter. 10 -- res = 0.34405E+06, tol = 0.57594E+04, time = 10.56 | CG iter. 11 -- res = 0.19625E+06, tol = 0.57594E+04, time = 10.60 | CG iter. 12 -- res = 0.10733E+06, tol = 0.57594E+04, time = 10.26 | CG iter. 13 -- res = 0.60585E+05, tol = 0.57594E+04, time = 10.12 | CG iter. 14 -- res = 0.38335E+05, tol = 0.57594E+04, time = 10.18 | CG iter. 15 -- res = 0.28057E+05, tol = 0.57594E+04, time = 10.55 | CG iter. 16 -- res = 0.22747E+05, tol = 0.57594E+04, time = 10.51 | CG iter. 17 -- res = 0.19361E+05, tol = 0.57594E+04, time = 11.24 | CG iter. 18 -- res = 0.16336E+05, tol = 0.57594E+04, time = 10.60 | CG iter. 19 -- res = 0.13771E+05, tol = 0.57594E+04, time = 10.68 | CG iter. 20 -- res = 0.12046E+05, tol = 0.57594E+04, time = 10.25 | CG iter. 21 -- res = 0.11207E+05, tol = 0.57594E+04, time = 10.89 | CG iter. 22 -- res = 0.11423E+05, tol = 0.57594E+04, time = 10.37 | CG iter. 23 -- res = 0.12193E+05, tol = 0.57594E+04, time = 10.57 | CG iter. 24 -- res = 0.12666E+05, tol = 0.57594E+04, time = 10.50 | CG iter. 25 -- res = 0.11895E+05, tol = 0.57594E+04, time = 10.58 | CG iter. 26 -- res = 0.97674E+04, tol = 0.57594E+04, time = 10.96 | CG iter. 27 -- res = 0.74444E+04, tol = 0.57594E+04, time = 16.10 | CG iter. 28 -- res = 0.55081E+04, tol = 0.57594E+04, time = 10.11 | CG iter. 29 -- res = 0.43026E+04, tol = 0.57594E+04, time = 10.84 | CG iter. 30 -- res = 0.36086E+04, tol = 0.57594E+04, time = 10.91 | CG iter. 31 -- res = 0.30659E+04, tol = 0.57594E+04, time = 10.21 | CG iter. 32 -- res = 0.26670E+04, tol = 0.57594E+04, time = 10.51 | CG iter. 33 -- res = 0.22861E+04, tol = 0.57594E+04, time = 10.52 | CG iter. 34 -- res = 0.18816E+04, tol = 0.57594E+04, time = 10.69 | CG iter. 35 -- res = 0.15884E+04, tol = 0.57594E+04, time = 11.95 | CG iter. 36 -- res = 0.14400E+04, tol = 0.57594E+04, time = 10.93 | CG iter. 37 -- res = 0.13822E+04, tol = 0.57594E+04, time = 10.36 | CG iter. 38 -- res = 0.13368E+04, tol = 0.57594E+04, time = 10.86 | CG iter. 39 -- res = 0.12610E+04, tol = 0.57594E+04, time = 10.45 | CG iter. 40 -- res = 0.10895E+04, tol = 0.57594E+04, time = 10.67 | CG iter. 41 -- res = 0.86305E+03, tol = 0.57594E+04, time = 10.22 | CG iter. 42 -- res = 0.67691E+03, tol = 0.57594E+04, time = 10.22 | CG iter. 43 -- res = 0.56391E+03, tol = 0.57594E+04, time = 10.66 | CG iter. 44 -- res = 0.50022E+03, tol = 0.57594E+04, time = 10.68 | CG iter. 45 -- res = 0.44384E+03, tol = 0.57594E+04, time = 10.46 | CG iter. 46 -- res = 0.39668E+03, tol = 0.57594E+04, time = 10.56 | CG iter. 47 -- res = 0.35282E+03, tol = 0.57594E+04, time = 10.72 | CG iter. 48 -- res = 0.30591E+03, tol = 0.57594E+04, time = 10.17 | CG iter. 49 -- res = 0.26465E+03, tol = 0.57594E+04, time = 11.11 | CG iter. 50 -- res = 0.23875E+03, tol = 0.57594E+04, time = 10.07 | CG iter. 51 -- res = 0.22694E+03, tol = 0.57594E+04, time = 10.63 | CG iter. 52 -- res = 0.21403E+03, tol = 0.57594E+04, time = 10.77 | CG iter. 53 -- res = 0.20575E+03, tol = 0.57594E+04, time = 10.50 | CG iter. 54 -- res = 0.18763E+03, tol = 0.57594E+04, time = 16.80 | CG iter. 55 -- res = 0.15943E+03, tol = 0.57594E+04, time = 10.46 | CG iter. 56 -- res = 0.13578E+03, tol = 0.57594E+04, time = 10.36 | CG iter. 57 -- res = 0.11852E+03, tol = 0.57594E+04, time = 10.31 | CG iter. 58 -- res = 0.10857E+03, tol = 0.57594E+04, time = 10.51 | CG iter. 59 -- res = 0.10111E+03, tol = 0.57594E+04, time = 10.70 | CG iter. 60 -- res = 0.90666E+02, tol = 0.57594E+04, time = 10.44 | Final CG iter 61 -- res = 0.90666E+02, tol = 0.57594E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.900 ( -229.979 -2229.446 2511.708 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7520563.831 | Old band monopole 9275737.365 | Change to band monopole -1755173.534 | Change to component monopole 1755165.985 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.722 2.720 | New value -0.738 | Old value 1.722 | Difference -2.461 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.657 ( 7.354 10.382 -9.956 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.188 5.016 | New value 0.830 | Old value 0.188 | Difference 0.642 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.49729E+06, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.79747E+02, tol = 0.47627E+18, time = 1.63 | CG iter. 3 -- res = 0.25809E+01, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.66024E-02, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.91115E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7520531.483 | (Sampled value in CG: 7493028.505 ) | Chain = 1 -- chisq = 0.81552176E+09 | Chain = 1 -- wall time = 5929.768 sec Available RAM: MemAvailable: 407748052 kB Available Swap: SwapFree: 1113566504 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 193 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441769 | --> Sampling calibration, mode = relcal | relcal = 1.3434756E-02 7.4556627E-04 -1.6040824E-03 -1.2576239E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1083980 0.1301088 97042839.2586455 | BP delta = 0.1146954 0.1364062 97042839.3035064 | BP chisq diff = 0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632559 | --> Sampling calibration, mode = relcal | relcal = -2.8218015E-03 -7.0281845E-04 1.6802605E-03 1.6143630E-03 -4.0954410E-04 6.3954032E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5707834 15219062.5716546 | BP delta = 0.0000000E+00 -0.5832672 15219063.0312947 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18102392651491 | --> Sampling calibration, mode = relcal | relcal = -7.5142480E-02 -5.8571972E-02 9.2034303E-02 4.1680153E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5856786E-04 4.7020828E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1118E-05 | 2: delta_r/delta_0: 9.2593E-07 | 3: delta_s/delta_0: 2.0415E-07 | 4: delta_r/delta_0: 1.6649E-08 | 5: delta_s/delta_0: 6.9588E-09 | 6: delta_r/delta_0: 9.4631E-10 | 7: delta_s/delta_0: 2.3166E-10 | 8: delta_r/delta_0: 9.8209E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.225996785154764E-003 2.740975113249676E-005 | BP delta = 3.3489432E-02 5.0267458E-02 50480825.9987919 | BP delta = 4.2619623E-02 5.9397649E-02 50480825.6362751 | BP chisq diff = -0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02591522 | --> Sampling calibration, mode = relcal | relcal = -0.1066512 -9.5562264E-02 0.1450266 5.7186853E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8836194E-03 1.2311880E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0482E-05 | 2: delta_r/delta_0: 1.2071E-06 | 3: delta_s/delta_0: 2.6023E-07 | 4: delta_r/delta_0: 5.5508E-08 | 5: delta_s/delta_0: 1.6169E-08 | 6: delta_r/delta_0: 6.7329E-09 | 7: delta_s/delta_0: 2.7512E-08 | 8: delta_r/delta_0: 6.3078E-09 | 9: delta_s/delta_0: 9.7212E-10 | 10: delta_r/delta_0: 5.6271E-10 | 11: delta_s/delta_0: 6.3547E-10 | 12: delta_r/delta_0: 1.2889E-10 | 13: delta_s/delta_0: 9.7355E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.771169985817649E-003 2.811047760593850E-005 | BP delta = -0.2776559 -0.2548551 57387040.6985799 | BP delta = -0.2638560 -0.2410552 57387040.9841998 | BP chisq diff = 0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81237694 | --> Sampling calibration, mode = relcal | relcal = 0.2955117 0.2249056 -0.2837993 -0.2366180 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8725594E-04 5.8633233E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9207E-03 | 2: delta_r/delta_0: 4.4386E-05 | 3: delta_s/delta_0: 1.2191E-05 | 4: delta_r/delta_0: 1.2566E-06 | 5: delta_s/delta_0: 1.0663E-06 | 6: delta_r/delta_0: 8.8186E-08 | 7: delta_s/delta_0: 5.1297E-08 | 8: delta_r/delta_0: 2.6407E-08 | 9: delta_s/delta_0: 9.3937E-07 | 10: delta_r/delta_0: 9.4160E-09 | 11: delta_s/delta_0: 3.0883E-09 | 12: delta_r/delta_0: 1.6794E-09 | 13: delta_s/delta_0: 4.8961E-10 | 14: delta_r/delta_0: 1.4102E-10 | 15: delta_s/delta_0: 2.7455E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.000434667641888E-002 4.021011763856211E-005 | BP delta = -0.1404364 -0.1692453 72492176.3965765 | BP delta = -0.1378155 -0.1666244 72492176.4515039 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95928035 | --> Sampling calibration, mode = relcal | relcal = 0.1065088 0.1396759 -0.1103749 -0.1358097 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7037274E-03 1.2212944E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3328E-04 | 2: delta_r/delta_0: 1.5462E-05 | 3: delta_s/delta_0: 3.3861E-04 | 4: delta_r/delta_0: 1.3305E-05 | 5: delta_s/delta_0: 3.1302E-07 | 6: delta_r/delta_0: 1.3390E-07 | 7: delta_s/delta_0: 2.5762E-07 | 8: delta_r/delta_0: 4.0710E-08 | 9: delta_s/delta_0: 1.1101E-08 | 10: delta_r/delta_0: 5.7816E-09 | 11: delta_s/delta_0: 1.8651E-09 | 12: delta_r/delta_0: 1.4078E-09 | 13: delta_s/delta_0: 2.0616E-10 | 14: delta_r/delta_0: 1.2842E-10 | 15: delta_s/delta_0: 3.3186E-08 | 16: delta_r/delta_0: 4.3251E-10 | 17: delta_s/delta_0: 1.5722E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.329352391970621E-002 3.696780782663773E-005 | BP delta = 8.3271779E-02 0.1899265 72780635.5698221 | BP delta = 6.9658555E-02 0.1763133 72780635.6066246 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139029 | New value = -3.136287 | poltype: 2 pol: 1 CPU time specind = 3.1469822E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.078193 | New value = -3.126960 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164121 | New value = -3.116173 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167725 | New value = -3.157984 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.222538 | New value = -3.176153 | poltype: 2 pol: 2 CPU time specind = 1.1087894E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.13550E+08, tol = 0.90081E+01, time = 5.29 | CG iter. 2 -- res = 0.30989E+06, tol = 0.90081E+01, time = 4.92 | CG iter. 3 -- res = 0.45004E+05, tol = 0.90081E+01, time = 4.92 | CG iter. 4 -- res = 0.18800E+05, tol = 0.90081E+01, time = 5.16 | CG iter. 5 -- res = 0.79504E+04, tol = 0.90081E+01, time = 4.74 | CG iter. 6 -- res = 0.36057E+04, tol = 0.90081E+01, time = 5.00 | CG iter. 7 -- res = 0.19770E+04, tol = 0.90081E+01, time = 5.20 | CG iter. 8 -- res = 0.10400E+04, tol = 0.90081E+01, time = 5.13 | CG iter. 9 -- res = 0.63166E+03, tol = 0.90081E+01, time = 5.20 | CG iter. 10 -- res = 0.49383E+03, tol = 0.90081E+01, time = 5.05 | CG iter. 11 -- res = 0.43900E+03, tol = 0.90081E+01, time = 5.05 | CG iter. 12 -- res = 0.35421E+03, tol = 0.90081E+01, time = 4.74 | CG iter. 13 -- res = 0.25480E+03, tol = 0.90081E+01, time = 5.08 | CG iter. 14 -- res = 0.18049E+03, tol = 0.90081E+01, time = 4.95 | CG iter. 15 -- res = 0.14320E+03, tol = 0.90081E+01, time = 5.17 | CG iter. 16 -- res = 0.11569E+03, tol = 0.90081E+01, time = 5.11 | CG iter. 17 -- res = 0.83596E+02, tol = 0.90081E+01, time = 11.50 | CG iter. 18 -- res = 0.61901E+02, tol = 0.90081E+01, time = 5.16 | CG iter. 19 -- res = 0.51482E+02, tol = 0.90081E+01, time = 5.18 | CG iter. 20 -- res = 0.43383E+02, tol = 0.90081E+01, time = 5.06 | CG iter. 21 -- res = 0.31794E+02, tol = 0.90081E+01, time = 5.35 | CG iter. 22 -- res = 0.21483E+02, tol = 0.90081E+01, time = 4.85 | CG iter. 23 -- res = 0.16127E+02, tol = 0.90081E+01, time = 5.12 | CG iter. 24 -- res = 0.13408E+02, tol = 0.90081E+01, time = 5.34 | CG iter. 25 -- res = 0.10862E+02, tol = 0.90081E+01, time = 4.97 | CG iter. 26 -- res = 0.79389E+01, tol = 0.90081E+01, time = 5.14 | CG iter. 27 -- res = 0.60112E+01, tol = 0.90081E+01, time = 5.10 | CG iter. 28 -- res = 0.48716E+01, tol = 0.90081E+01, time = 5.05 | CG iter. 29 -- res = 0.38864E+01, tol = 0.90081E+01, time = 4.86 | CG iter. 30 -- res = 0.29518E+01, tol = 0.90081E+01, time = 5.37 | CG iter. 31 -- res = 0.21172E+01, tol = 0.90081E+01, time = 4.90 | CG iter. 32 -- res = 0.16737E+01, tol = 0.90081E+01, time = 5.39 | CG iter. 33 -- res = 0.13827E+01, tol = 0.90081E+01, time = 5.48 | CG iter. 34 -- res = 0.10711E+01, tol = 0.90081E+01, time = 5.84 | CG iter. 35 -- res = 0.79872E+00, tol = 0.90081E+01, time = 5.53 | CG iter. 36 -- res = 0.64488E+00, tol = 0.90081E+01, time = 5.08 | CG iter. 37 -- res = 0.53349E+00, tol = 0.90081E+01, time = 4.96 | CG iter. 38 -- res = 0.42264E+00, tol = 0.90081E+01, time = 5.03 | CG iter. 39 -- res = 0.32315E+00, tol = 0.90081E+01, time = 5.13 | CG iter. 40 -- res = 0.24854E+00, tol = 0.90081E+01, time = 5.25 | CG iter. 41 -- res = 0.19452E+00, tol = 0.90081E+01, time = 4.99 | CG iter. 42 -- res = 0.15560E+00, tol = 0.90081E+01, time = 5.18 | CG iter. 43 -- res = 0.11846E+00, tol = 0.90081E+01, time = 5.10 | CG iter. 44 -- res = 0.84809E-01, tol = 0.90081E+01, time = 4.92 | CG iter. 45 -- res = 0.63973E-01, tol = 0.90081E+01, time = 5.04 | CG iter. 46 -- res = 0.52264E-01, tol = 0.90081E+01, time = 4.98 | CG iter. 47 -- res = 0.39764E-01, tol = 0.90081E+01, time = 5.15 | CG iter. 48 -- res = 0.29226E-01, tol = 0.90081E+01, time = 5.11 | CG iter. 49 -- res = 0.22791E-01, tol = 0.90081E+01, time = 5.03 | CG iter. 50 -- res = 0.18090E-01, tol = 0.90081E+01, time = 5.07 | Final CG iter 51 -- res = 0.18090E-01, tol = 0.90081E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9121166.116 | Old band monopole 7520563.831 | Change to band monopole 1600602.285 | Change to component monopole -1600595.400 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.39716E+05, tol = 0.47627E+18, time = 1.52 | CG iter. 2 -- res = 0.31307E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.11603E+01, tol = 0.47627E+18, time = 1.68 | Final CG iter 4 -- res = 0.11272E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9121126.884 | (Sampled value in CG: 9121683.286 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.476522 | New value = 1.500258 | poltype: 2 pol: 1 CPU time specind = 6.7520142E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477803 | New value = 1.550399 | poltype: 2 pol: 2 CPU time specind = 3.4978390E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.24154E+08, tol = 0.47568E+04, time = 5.61 | CG iter. 2 -- res = 0.54560E+07, tol = 0.47568E+04, time = 5.64 | CG iter. 3 -- res = 0.85545E+06, tol = 0.47568E+04, time = 10.97 | CG iter. 4 -- res = 0.36452E+06, tol = 0.47568E+04, time = 7.78 | CG iter. 5 -- res = 0.15862E+06, tol = 0.47568E+04, time = 5.80 | CG iter. 6 -- res = 0.81352E+05, tol = 0.47568E+04, time = 5.88 | CG iter. 7 -- res = 0.44403E+05, tol = 0.47568E+04, time = 5.83 | CG iter. 8 -- res = 0.21310E+05, tol = 0.47568E+04, time = 5.86 | CG iter. 9 -- res = 0.93665E+04, tol = 0.47568E+04, time = 5.82 | CG iter. 10 -- res = 0.38109E+04, tol = 0.47568E+04, time = 5.93 | CG iter. 11 -- res = 0.17562E+04, tol = 0.47568E+04, time = 5.66 | CG iter. 12 -- res = 0.90338E+03, tol = 0.47568E+04, time = 5.88 | CG iter. 13 -- res = 0.51434E+03, tol = 0.47568E+04, time = 5.58 | CG iter. 14 -- res = 0.29081E+03, tol = 0.47568E+04, time = 5.84 | CG iter. 15 -- res = 0.14924E+03, tol = 0.47568E+04, time = 5.66 | CG iter. 16 -- res = 0.69447E+02, tol = 0.47568E+04, time = 5.98 | CG iter. 17 -- res = 0.32844E+02, tol = 0.47568E+04, time = 6.11 | CG iter. 18 -- res = 0.16355E+02, tol = 0.47568E+04, time = 7.19 | CG iter. 19 -- res = 0.87785E+01, tol = 0.47568E+04, time = 6.43 | CG iter. 20 -- res = 0.51753E+01, tol = 0.47568E+04, time = 5.85 | CG iter. 21 -- res = 0.28666E+01, tol = 0.47568E+04, time = 5.92 | CG iter. 22 -- res = 0.14602E+01, tol = 0.47568E+04, time = 6.13 | CG iter. 23 -- res = 0.71927E+00, tol = 0.47568E+04, time = 5.73 | CG iter. 24 -- res = 0.36452E+00, tol = 0.47568E+04, time = 5.94 | CG iter. 25 -- res = 0.19588E+00, tol = 0.47568E+04, time = 5.60 | CG iter. 26 -- res = 0.11289E+00, tol = 0.47568E+04, time = 5.45 | CG iter. 27 -- res = 0.63426E-01, tol = 0.47568E+04, time = 5.73 | CG iter. 28 -- res = 0.34025E-01, tol = 0.47568E+04, time = 5.82 | CG iter. 29 -- res = 0.17801E-01, tol = 0.47568E+04, time = 5.73 | CG iter. 30 -- res = 0.91292E-02, tol = 0.47568E+04, time = 6.08 | CG iter. 31 -- res = 0.48246E-02, tol = 0.47568E+04, time = 5.85 | CG iter. 32 -- res = 0.27286E-02, tol = 0.47568E+04, time = 5.79 | CG iter. 33 -- res = 0.15604E-02, tol = 0.47568E+04, time = 5.87 | CG iter. 34 -- res = 0.84398E-03, tol = 0.47568E+04, time = 5.83 | CG iter. 35 -- res = 0.43349E-03, tol = 0.47568E+04, time = 5.67 | Final CG iter 36 -- res = 0.43349E-03, tol = 0.47568E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.728 2.737 | New value 3.007 | Old value -0.728 | Difference 3.735 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.72361E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.22838E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.10406E-01, tol = 0.47627E+18, time = 1.75 | Final CG iter 4 -- res = 0.19382E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9121126.884 | (Sampled value in CG: 9121064.580 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.543105 | New value = -3.507015 | poltype: 1 pol: 1 CPU time specind = 7.0500374E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.20154E+07, tol = 0.24472E+01, time = 2.30 | CG iter. 2 -- res = 0.76287E+06, tol = 0.24472E+01, time = 2.37 | CG iter. 3 -- res = 0.13686E+06, tol = 0.24472E+01, time = 2.45 | CG iter. 4 -- res = 0.47371E+05, tol = 0.24472E+01, time = 2.43 | CG iter. 5 -- res = 0.24297E+05, tol = 0.24472E+01, time = 2.49 | CG iter. 6 -- res = 0.12948E+05, tol = 0.24472E+01, time = 2.41 | CG iter. 7 -- res = 0.55470E+04, tol = 0.24472E+01, time = 2.46 | CG iter. 8 -- res = 0.26717E+04, tol = 0.24472E+01, time = 2.27 | CG iter. 9 -- res = 0.12174E+04, tol = 0.24472E+01, time = 2.47 | CG iter. 10 -- res = 0.47445E+03, tol = 0.24472E+01, time = 2.53 | CG iter. 11 -- res = 0.19315E+03, tol = 0.24472E+01, time = 2.48 | CG iter. 12 -- res = 0.95068E+02, tol = 0.24472E+01, time = 2.24 | CG iter. 13 -- res = 0.48431E+02, tol = 0.24472E+01, time = 2.27 | CG iter. 14 -- res = 0.25497E+02, tol = 0.24472E+01, time = 2.38 | CG iter. 15 -- res = 0.11630E+02, tol = 0.24472E+01, time = 2.57 | CG iter. 16 -- res = 0.50722E+01, tol = 0.24472E+01, time = 2.11 | CG iter. 17 -- res = 0.21849E+01, tol = 0.24472E+01, time = 2.51 | CG iter. 18 -- res = 0.98418E+00, tol = 0.24472E+01, time = 2.54 | CG iter. 19 -- res = 0.47065E+00, tol = 0.24472E+01, time = 2.56 | CG iter. 20 -- res = 0.23848E+00, tol = 0.24472E+01, time = 2.20 | CG iter. 21 -- res = 0.12773E+00, tol = 0.24472E+01, time = 2.35 | CG iter. 22 -- res = 0.61765E-01, tol = 0.24472E+01, time = 2.24 | CG iter. 23 -- res = 0.28217E-01, tol = 0.24472E+01, time = 2.29 | CG iter. 24 -- res = 0.12948E-01, tol = 0.24472E+01, time = 2.36 | CG iter. 25 -- res = 0.60301E-02, tol = 0.24472E+01, time = 2.47 | CG iter. 26 -- res = 0.29498E-02, tol = 0.24472E+01, time = 2.41 | CG iter. 27 -- res = 0.15286E-02, tol = 0.24472E+01, time = 2.55 | CG iter. 28 -- res = 0.76046E-03, tol = 0.24472E+01, time = 2.41 | CG iter. 29 -- res = 0.36720E-03, tol = 0.24472E+01, time = 2.48 | CG iter. 30 -- res = 0.16772E-03, tol = 0.24472E+01, time = 2.21 | CG iter. 31 -- res = 0.78480E-04, tol = 0.24472E+01, time = 2.43 | CG iter. 32 -- res = 0.38401E-04, tol = 0.24472E+01, time = 2.57 | CG iter. 33 -- res = 0.19201E-04, tol = 0.24472E+01, time = 2.38 | CG iter. 34 -- res = 0.96628E-05, tol = 0.24472E+01, time = 2.39 | CG iter. 35 -- res = 0.47451E-05, tol = 0.24472E+01, time = 2.55 | CG iter. 36 -- res = 0.22776E-05, tol = 0.24472E+01, time = 2.29 | CG iter. 37 -- res = 0.10559E-05, tol = 0.24472E+01, time = 2.53 | CG iter. 38 -- res = 0.50453E-06, tol = 0.24472E+01, time = 2.46 | CG iter. 39 -- res = 0.24900E-06, tol = 0.24472E+01, time = 2.32 | CG iter. 40 -- res = 0.12718E-06, tol = 0.24472E+01, time = 2.52 | CG iter. 41 -- res = 0.64317E-07, tol = 0.24472E+01, time = 2.49 | CG iter. 42 -- res = 0.30169E-07, tol = 0.24472E+01, time = 2.44 | CG iter. 43 -- res = 0.14302E-07, tol = 0.24472E+01, time = 2.38 | CG iter. 44 -- res = 0.63917E-08, tol = 0.24472E+01, time = 2.20 | CG iter. 45 -- res = 0.31241E-08, tol = 0.24472E+01, time = 2.51 | CG iter. 46 -- res = 0.15489E-08, tol = 0.24472E+01, time = 2.32 | CG iter. 47 -- res = 0.78631E-09, tol = 0.24472E+01, time = 2.33 | CG iter. 48 -- res = 0.38023E-09, tol = 0.24472E+01, time = 2.47 | CG iter. 49 -- res = 0.17448E-09, tol = 0.24472E+01, time = 2.44 | CG iter. 50 -- res = 0.79825E-10, tol = 0.24472E+01, time = 2.50 | Final CG iter 51 -- res = 0.79825E-10, tol = 0.24472E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.624 5.027 | New value 2.470 | Old value 0.624 | Difference 1.846 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.36217E+04, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.18106E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.12017E+00, tol = 0.47627E+18, time = 1.84 | Final CG iter 4 -- res = 0.23449E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9121126.884 | (Sampled value in CG: 9122861.847 ) | CPU time specind = 1059.410 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.68489E+08, tol = 0.57610E+04, time = 10.72 | CG iter. 2 -- res = 0.59055E+08, tol = 0.57610E+04, time = 10.68 | CG iter. 3 -- res = 0.15659E+08, tol = 0.57610E+04, time = 10.44 | CG iter. 4 -- res = 0.65320E+07, tol = 0.57610E+04, time = 13.78 | CG iter. 5 -- res = 0.38508E+07, tol = 0.57610E+04, time = 10.79 | CG iter. 6 -- res = 0.21984E+07, tol = 0.57610E+04, time = 10.49 | CG iter. 7 -- res = 0.12995E+07, tol = 0.57610E+04, time = 10.50 | CG iter. 8 -- res = 0.87412E+06, tol = 0.57610E+04, time = 10.99 | CG iter. 9 -- res = 0.55569E+06, tol = 0.57610E+04, time = 10.85 | CG iter. 10 -- res = 0.33483E+06, tol = 0.57610E+04, time = 10.66 | CG iter. 11 -- res = 0.18387E+06, tol = 0.57610E+04, time = 10.55 | CG iter. 12 -- res = 0.95727E+05, tol = 0.57610E+04, time = 10.37 | CG iter. 13 -- res = 0.50076E+05, tol = 0.57610E+04, time = 10.70 | CG iter. 14 -- res = 0.28537E+05, tol = 0.57610E+04, time = 10.88 | CG iter. 15 -- res = 0.17878E+05, tol = 0.57610E+04, time = 10.59 | CG iter. 16 -- res = 0.11896E+05, tol = 0.57610E+04, time = 10.76 | CG iter. 17 -- res = 0.79988E+04, tol = 0.57610E+04, time = 10.65 | CG iter. 18 -- res = 0.52625E+04, tol = 0.57610E+04, time = 10.81 | CG iter. 19 -- res = 0.33099E+04, tol = 0.57610E+04, time = 10.39 | CG iter. 20 -- res = 0.20315E+04, tol = 0.57610E+04, time = 10.55 | CG iter. 21 -- res = 0.12887E+04, tol = 0.57610E+04, time = 10.72 | CG iter. 22 -- res = 0.90394E+03, tol = 0.57610E+04, time = 10.58 | CG iter. 23 -- res = 0.72477E+03, tol = 0.57610E+04, time = 17.09 | CG iter. 24 -- res = 0.65731E+03, tol = 0.57610E+04, time = 10.75 | CG iter. 25 -- res = 0.65076E+03, tol = 0.57610E+04, time = 10.53 | CG iter. 26 -- res = 0.65462E+03, tol = 0.57610E+04, time = 10.71 | CG iter. 27 -- res = 0.65149E+03, tol = 0.57610E+04, time = 10.57 | CG iter. 28 -- res = 0.62338E+03, tol = 0.57610E+04, time = 10.62 | CG iter. 29 -- res = 0.58743E+03, tol = 0.57610E+04, time = 10.75 | CG iter. 30 -- res = 0.58645E+03, tol = 0.57610E+04, time = 10.20 | CG iter. 31 -- res = 0.59019E+03, tol = 0.57610E+04, time = 12.34 | CG iter. 32 -- res = 0.58907E+03, tol = 0.57610E+04, time = 10.85 | CG iter. 33 -- res = 0.53957E+03, tol = 0.57610E+04, time = 10.50 | CG iter. 34 -- res = 0.44131E+03, tol = 0.57610E+04, time = 10.15 | CG iter. 35 -- res = 0.34096E+03, tol = 0.57610E+04, time = 10.50 | CG iter. 36 -- res = 0.25807E+03, tol = 0.57610E+04, time = 10.74 | CG iter. 37 -- res = 0.21055E+03, tol = 0.57610E+04, time = 10.71 | CG iter. 38 -- res = 0.18490E+03, tol = 0.57610E+04, time = 10.40 | CG iter. 39 -- res = 0.16473E+03, tol = 0.57610E+04, time = 10.74 | CG iter. 40 -- res = 0.14441E+03, tol = 0.57610E+04, time = 10.54 | CG iter. 41 -- res = 0.12352E+03, tol = 0.57610E+04, time = 10.63 | CG iter. 42 -- res = 0.10619E+03, tol = 0.57610E+04, time = 10.61 | CG iter. 43 -- res = 0.91367E+02, tol = 0.57610E+04, time = 10.30 | CG iter. 44 -- res = 0.83365E+02, tol = 0.57610E+04, time = 10.03 | CG iter. 45 -- res = 0.81027E+02, tol = 0.57610E+04, time = 10.42 | CG iter. 46 -- res = 0.80526E+02, tol = 0.57610E+04, time = 10.68 | CG iter. 47 -- res = 0.79950E+02, tol = 0.57610E+04, time = 10.67 | CG iter. 48 -- res = 0.73538E+02, tol = 0.57610E+04, time = 10.66 | CG iter. 49 -- res = 0.62458E+02, tol = 0.57610E+04, time = 10.55 | CG iter. 50 -- res = 0.51815E+02, tol = 0.57610E+04, time = 10.56 | CG iter. 51 -- res = 0.44382E+02, tol = 0.57610E+04, time = 16.79 | CG iter. 52 -- res = 0.39827E+02, tol = 0.57610E+04, time = 10.63 | CG iter. 53 -- res = 0.37337E+02, tol = 0.57610E+04, time = 10.39 | CG iter. 54 -- res = 0.34902E+02, tol = 0.57610E+04, time = 10.49 | CG iter. 55 -- res = 0.31807E+02, tol = 0.57610E+04, time = 20.22 | CG iter. 56 -- res = 0.28415E+02, tol = 0.57610E+04, time = 10.56 | CG iter. 57 -- res = 0.25347E+02, tol = 0.57610E+04, time = 10.77 | CG iter. 58 -- res = 0.23211E+02, tol = 0.57610E+04, time = 12.60 | CG iter. 59 -- res = 0.22337E+02, tol = 0.57610E+04, time = 10.71 | CG iter. 60 -- res = 0.21892E+02, tol = 0.57610E+04, time = 10.56 | Final CG iter 61 -- res = 0.21892E+02, tol = 0.57610E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.899 ( -229.906 -2228.909 2511.268 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10834531.180 | Old band monopole 9121166.116 | Change to band monopole 1713365.065 | Change to component monopole -1713357.695 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.007 2.725 | New value 2.513 | Old value 3.007 | Difference -0.494 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.225 ( 6.999 9.611 -9.245 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.793 4.806 | New value 4.536 | Old value 5.793 | Difference -1.257 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.34745E+05, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.21739E+02, tol = 0.47627E+18, time = 1.65 | CG iter. 3 -- res = 0.85365E+00, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.19837E-02, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.52342E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10834484.579 | (Sampled value in CG: 10814470.675 ) | Chain = 1 -- chisq = 0.81551823E+09 | Chain = 1 -- wall time = 5450.973 sec Available RAM: MemAvailable: 408267612 kB Available Swap: SwapFree: 1114353352 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 194 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442729 | --> Sampling calibration, mode = relcal | relcal = 1.3432251E-02 7.5009605E-04 -1.6121995E-03 -1.2570148E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1146954 0.1364062 9408803.09854531 | BP delta = 0.1146954 0.1364090 9408816.48486638 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632551 | --> Sampling calibration, mode = relcal | relcal = -2.8215041E-03 -7.0376333E-04 1.6789903E-03 1.6143300E-03 -4.0797744E-04 6.3992460E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5707834 15217759.4759481 | BP delta = 0.0000000E+00 -0.5654923 15217759.3971263 | BP chisq diff = -0.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18449878357357 | --> Sampling calibration, mode = relcal | relcal = -7.5655632E-02 -5.9180263E-02 9.2692234E-02 4.2143658E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7842206E-04 6.1154380E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7652E-05 | 2: delta_r/delta_0: 1.3037E-06 | 3: delta_s/delta_0: 1.9246E-07 | 4: delta_r/delta_0: 2.4846E-08 | 5: delta_s/delta_0: 7.1330E-09 | 6: delta_r/delta_0: 2.2225E-09 | 7: delta_s/delta_0: 4.5927E-10 | 8: delta_r/delta_0: 1.4579E-10 | 9: delta_s/delta_0: 1.4431E-10 | 10: delta_r/delta_0: 6.7107E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.320262500150589E-003 2.732884594260571E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7653E-05 | 2: delta_r/delta_0: 1.3037E-06 | 3: delta_s/delta_0: 1.9246E-07 | 4: delta_r/delta_0: 2.4846E-08 | 5: delta_s/delta_0: 7.1327E-09 | 6: delta_r/delta_0: 2.2225E-09 | 7: delta_s/delta_0: 4.5927E-10 | 8: delta_r/delta_0: 1.4578E-10 | 9: delta_s/delta_0: 1.4431E-10 | 10: delta_r/delta_0: 6.7104E-11 | Reached bicg-stab tolerance | BP delta = 4.2619623E-02 5.9397649E-02 3566792.59497539 | BP delta = 4.2619623E-02 5.9470192E-02 3567255.89898036 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02580671 | --> Sampling calibration, mode = relcal | relcal = -0.1066346 -9.5536038E-02 0.1448952 5.7275511E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1571356E-03 1.7018777E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1675E-05 | 2: delta_r/delta_0: 1.5237E-06 | 3: delta_s/delta_0: 2.3421E-07 | 4: delta_r/delta_0: 4.9286E-08 | 5: delta_s/delta_0: 2.4764E-08 | 6: delta_r/delta_0: 7.3444E-09 | 7: delta_s/delta_0: 1.1077E-08 | 8: delta_r/delta_0: 1.2880E-09 | 9: delta_s/delta_0: 1.1111E-09 | 10: delta_r/delta_0: 2.2997E-10 | 11: delta_s/delta_0: 1.5448E-09 | 12: delta_r/delta_0: 2.0844E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.007537148837396E-002 2.811331979885722E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1675E-05 | 2: delta_r/delta_0: 1.5236E-06 | 3: delta_s/delta_0: 2.3419E-07 | 4: delta_r/delta_0: 4.9247E-08 | 5: delta_s/delta_0: 2.4794E-08 | 6: delta_r/delta_0: 7.3421E-09 | 7: delta_s/delta_0: 1.1079E-08 | 8: delta_r/delta_0: 1.2876E-09 | 9: delta_s/delta_0: 1.1107E-09 | 10: delta_r/delta_0: 2.3015E-10 | 11: delta_s/delta_0: 1.5442E-09 | 12: delta_r/delta_0: 2.0861E-11 | Reached bicg-stab tolerance | BP delta = -0.2638560 -0.2410552 2841438.73091905 | BP delta = -0.2638560 -0.2438317 2841566.16257579 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81235976 | --> Sampling calibration, mode = relcal | relcal = 0.2955647 0.2247806 -0.2837890 -0.2365562 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.7891768E-04 4.8073316E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.6562E-02 | 2: delta_r/delta_0: 2.0466E-03 | 3: delta_s/delta_0: 3.6509E-02 | 4: delta_r/delta_0: 3.0756E-03 | 5: delta_s/delta_0: 1.7437E-04 | 6: delta_r/delta_0: 5.0922E-05 | 7: delta_s/delta_0: 2.2657E-04 | 8: delta_r/delta_0: 7.6095E-05 | 9: delta_s/delta_0: 1.9882E-05 | 10: delta_r/delta_0: 1.2271E-06 | 11: delta_s/delta_0: 2.1447E-07 | 12: delta_r/delta_0: 1.7703E-08 | 13: delta_s/delta_0: 1.7122E-08 | 14: delta_r/delta_0: 1.4566E-09 | 15: delta_s/delta_0: 1.0024E-09 | 16: delta_r/delta_0: 2.7233E-10 | 17: delta_s/delta_0: 7.5624E-10 | 18: delta_r/delta_0: 1.6494E-10 | 19: delta_s/delta_0: 1.2304E-10 | 20: delta_r/delta_0: 4.7706E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.127720110071412 4.020950957801181E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.6224E-02 | 2: delta_r/delta_0: 2.0386E-03 | 3: delta_s/delta_0: 3.7795E-02 | 4: delta_r/delta_0: 3.1837E-03 | 5: delta_s/delta_0: 1.6998E-04 | 6: delta_r/delta_0: 4.9562E-05 | 7: delta_s/delta_0: 2.2601E-04 | 8: delta_r/delta_0: 7.5862E-05 | 9: delta_s/delta_0: 1.9718E-05 | 10: delta_r/delta_0: 1.2248E-06 | 11: delta_s/delta_0: 2.1396E-07 | 12: delta_r/delta_0: 1.7667E-08 | 13: delta_s/delta_0: 1.7195E-08 | 14: delta_r/delta_0: 1.4494E-09 | 15: delta_s/delta_0: 9.9863E-10 | 16: delta_r/delta_0: 2.7175E-10 | 17: delta_s/delta_0: 7.6103E-10 | 18: delta_r/delta_0: 1.6532E-10 | 19: delta_s/delta_0: 1.2204E-10 | 20: delta_r/delta_0: 4.7007E-11 | Reached bicg-stab tolerance | BP delta = -0.1378155 -0.1666244 2827319.25519841 | BP delta = -0.1378155 -0.1668823 2827346.50852385 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95919833 | --> Sampling calibration, mode = relcal | relcal = 0.1064697 0.1395633 -0.1101974 -0.1358356 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0309737E-02 1.3085702E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3659E-04 | 2: delta_r/delta_0: 8.3655E-06 | 3: delta_s/delta_0: 1.9020E-04 | 4: delta_r/delta_0: 9.8125E-06 | 5: delta_s/delta_0: 2.3002E-07 | 6: delta_r/delta_0: 1.1711E-07 | 7: delta_s/delta_0: 4.4326E-07 | 8: delta_r/delta_0: 3.2643E-08 | 9: delta_s/delta_0: 8.6052E-09 | 10: delta_r/delta_0: 5.0801E-09 | 11: delta_s/delta_0: 1.6337E-09 | 12: delta_r/delta_0: 1.0880E-09 | 13: delta_s/delta_0: 3.0538E-10 | 14: delta_r/delta_0: 7.8148E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.090113270456953E-002 3.697029485482377E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3664E-04 | 2: delta_r/delta_0: 8.3666E-06 | 3: delta_s/delta_0: 1.9016E-04 | 4: delta_r/delta_0: 9.8108E-06 | 5: delta_s/delta_0: 2.3005E-07 | 6: delta_r/delta_0: 1.1713E-07 | 7: delta_s/delta_0: 4.4374E-07 | 8: delta_r/delta_0: 3.2646E-08 | 9: delta_s/delta_0: 8.6036E-09 | 10: delta_r/delta_0: 5.0854E-09 | 11: delta_s/delta_0: 1.6341E-09 | 12: delta_r/delta_0: 1.0878E-09 | 13: delta_s/delta_0: 3.0627E-10 | 14: delta_r/delta_0: 7.8079E-11 | Reached bicg-stab tolerance | BP delta = 6.9658555E-02 0.1763133 3003632.36145359 | BP delta = 6.9658555E-02 0.1852964 3003670.69775523 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136287 | New value = -3.119511 | poltype: 2 pol: 1 CPU time specind = 3.4060001E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126960 | New value = -3.248607 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116173 | New value = -3.164059 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157984 | New value = -3.164518 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176153 | New value = -3.184713 | poltype: 2 pol: 2 CPU time specind = 6.2880516E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.13562E+08, tol = 0.66307E+01, time = 4.80 | CG iter. 2 -- res = 0.37746E+06, tol = 0.66307E+01, time = 5.12 | CG iter. 3 -- res = 0.56481E+05, tol = 0.66307E+01, time = 5.48 | CG iter. 4 -- res = 0.27192E+05, tol = 0.66307E+01, time = 5.10 | CG iter. 5 -- res = 0.16935E+05, tol = 0.66307E+01, time = 4.90 | CG iter. 6 -- res = 0.13574E+05, tol = 0.66307E+01, time = 5.24 | CG iter. 7 -- res = 0.13672E+05, tol = 0.66307E+01, time = 4.91 | CG iter. 8 -- res = 0.12386E+05, tol = 0.66307E+01, time = 4.84 | CG iter. 9 -- res = 0.12146E+05, tol = 0.66307E+01, time = 4.77 | CG iter. 10 -- res = 0.11232E+05, tol = 0.66307E+01, time = 5.08 | CG iter. 11 -- res = 0.84540E+04, tol = 0.66307E+01, time = 4.90 | CG iter. 12 -- res = 0.54425E+04, tol = 0.66307E+01, time = 4.65 | CG iter. 13 -- res = 0.36149E+04, tol = 0.66307E+01, time = 5.13 | CG iter. 14 -- res = 0.28533E+04, tol = 0.66307E+01, time = 4.65 | CG iter. 15 -- res = 0.25188E+04, tol = 0.66307E+01, time = 5.57 | CG iter. 16 -- res = 0.21164E+04, tol = 0.66307E+01, time = 5.27 | CG iter. 17 -- res = 0.15159E+04, tol = 0.66307E+01, time = 4.98 | CG iter. 18 -- res = 0.11067E+04, tol = 0.66307E+01, time = 4.73 | CG iter. 19 -- res = 0.90177E+03, tol = 0.66307E+01, time = 4.95 | CG iter. 20 -- res = 0.74748E+03, tol = 0.66307E+01, time = 5.13 | CG iter. 21 -- res = 0.56629E+03, tol = 0.66307E+01, time = 4.86 | CG iter. 22 -- res = 0.41083E+03, tol = 0.66307E+01, time = 5.12 | CG iter. 23 -- res = 0.35366E+03, tol = 0.66307E+01, time = 5.10 | CG iter. 24 -- res = 0.31537E+03, tol = 0.66307E+01, time = 5.26 | CG iter. 25 -- res = 0.25156E+03, tol = 0.66307E+01, time = 4.94 | CG iter. 26 -- res = 0.18891E+03, tol = 0.66307E+01, time = 5.12 | CG iter. 27 -- res = 0.16116E+03, tol = 0.66307E+01, time = 5.09 | CG iter. 28 -- res = 0.14789E+03, tol = 0.66307E+01, time = 5.08 | CG iter. 29 -- res = 0.12885E+03, tol = 0.66307E+01, time = 5.08 | CG iter. 30 -- res = 0.10677E+03, tol = 0.66307E+01, time = 4.93 | CG iter. 31 -- res = 0.85830E+02, tol = 0.66307E+01, time = 5.00 | CG iter. 32 -- res = 0.72640E+02, tol = 0.66307E+01, time = 5.10 | CG iter. 33 -- res = 0.60902E+02, tol = 0.66307E+01, time = 5.14 | CG iter. 34 -- res = 0.46267E+02, tol = 0.66307E+01, time = 5.54 | CG iter. 35 -- res = 0.34842E+02, tol = 0.66307E+01, time = 10.72 | CG iter. 36 -- res = 0.29298E+02, tol = 0.66307E+01, time = 4.74 | CG iter. 37 -- res = 0.23721E+02, tol = 0.66307E+01, time = 4.76 | CG iter. 38 -- res = 0.17939E+02, tol = 0.66307E+01, time = 5.25 | CG iter. 39 -- res = 0.13246E+02, tol = 0.66307E+01, time = 5.12 | CG iter. 40 -- res = 0.10266E+02, tol = 0.66307E+01, time = 4.81 | CG iter. 41 -- res = 0.81623E+01, tol = 0.66307E+01, time = 5.05 | CG iter. 42 -- res = 0.62885E+01, tol = 0.66307E+01, time = 5.09 | CG iter. 43 -- res = 0.47191E+01, tol = 0.66307E+01, time = 4.96 | CG iter. 44 -- res = 0.35145E+01, tol = 0.66307E+01, time = 4.96 | CG iter. 45 -- res = 0.27856E+01, tol = 0.66307E+01, time = 5.13 | CG iter. 46 -- res = 0.22440E+01, tol = 0.66307E+01, time = 4.91 | CG iter. 47 -- res = 0.17811E+01, tol = 0.66307E+01, time = 4.80 | CG iter. 48 -- res = 0.13036E+01, tol = 0.66307E+01, time = 5.03 | CG iter. 49 -- res = 0.99481E+00, tol = 0.66307E+01, time = 4.75 | CG iter. 50 -- res = 0.79126E+00, tol = 0.66307E+01, time = 4.98 | Final CG iter 51 -- res = 0.79126E+00, tol = 0.66307E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7320805.734 | Old band monopole 10834531.180 | Change to band monopole -3513725.446 | Change to component monopole 3513710.333 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.36721E+06, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.91602E+02, tol = 0.47627E+18, time = 1.66 | CG iter. 3 -- res = 0.31072E+01, tol = 0.47627E+18, time = 1.64 | CG iter. 4 -- res = 0.16694E-02, tol = 0.47627E+18, time = 1.64 | Final CG iter 5 -- res = 0.27676E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7320774.246 | (Sampled value in CG: 7336350.146 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.500258 | New value = 1.538588 | poltype: 2 pol: 1 CPU time specind = 7.3270798E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.550399 | New value = 1.550412 | poltype: 2 pol: 2 CPU time specind = 4.1429996E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.24344E+08, tol = 0.47674E+04, time = 5.91 | CG iter. 2 -- res = 0.54176E+07, tol = 0.47674E+04, time = 5.50 | CG iter. 3 -- res = 0.87944E+06, tol = 0.47674E+04, time = 5.52 | CG iter. 4 -- res = 0.36385E+06, tol = 0.47674E+04, time = 5.64 | CG iter. 5 -- res = 0.15289E+06, tol = 0.47674E+04, time = 5.66 | CG iter. 6 -- res = 0.81532E+05, tol = 0.47674E+04, time = 5.64 | CG iter. 7 -- res = 0.45088E+05, tol = 0.47674E+04, time = 5.66 | CG iter. 8 -- res = 0.21575E+05, tol = 0.47674E+04, time = 5.69 | CG iter. 9 -- res = 0.95048E+04, tol = 0.47674E+04, time = 5.75 | CG iter. 10 -- res = 0.38330E+04, tol = 0.47674E+04, time = 5.86 | CG iter. 11 -- res = 0.17198E+04, tol = 0.47674E+04, time = 5.61 | CG iter. 12 -- res = 0.88611E+03, tol = 0.47674E+04, time = 5.64 | CG iter. 13 -- res = 0.50220E+03, tol = 0.47674E+04, time = 5.38 | CG iter. 14 -- res = 0.28351E+03, tol = 0.47674E+04, time = 5.81 | CG iter. 15 -- res = 0.14705E+03, tol = 0.47674E+04, time = 6.11 | CG iter. 16 -- res = 0.68756E+02, tol = 0.47674E+04, time = 5.67 | CG iter. 17 -- res = 0.32554E+02, tol = 0.47674E+04, time = 5.53 | CG iter. 18 -- res = 0.16506E+02, tol = 0.47674E+04, time = 5.63 | CG iter. 19 -- res = 0.89314E+01, tol = 0.47674E+04, time = 5.99 | CG iter. 20 -- res = 0.51687E+01, tol = 0.47674E+04, time = 11.84 | CG iter. 21 -- res = 0.27634E+01, tol = 0.47674E+04, time = 5.58 | CG iter. 22 -- res = 0.14000E+01, tol = 0.47674E+04, time = 5.60 | CG iter. 23 -- res = 0.68898E+00, tol = 0.47674E+04, time = 6.09 | CG iter. 24 -- res = 0.34916E+00, tol = 0.47674E+04, time = 5.73 | CG iter. 25 -- res = 0.18977E+00, tol = 0.47674E+04, time = 5.37 | CG iter. 26 -- res = 0.10935E+00, tol = 0.47674E+04, time = 5.98 | CG iter. 27 -- res = 0.62038E-01, tol = 0.47674E+04, time = 5.50 | CG iter. 28 -- res = 0.33376E-01, tol = 0.47674E+04, time = 5.50 | CG iter. 29 -- res = 0.17256E-01, tol = 0.47674E+04, time = 5.97 | CG iter. 30 -- res = 0.89519E-02, tol = 0.47674E+04, time = 5.49 | CG iter. 31 -- res = 0.47862E-02, tol = 0.47674E+04, time = 5.79 | CG iter. 32 -- res = 0.27067E-02, tol = 0.47674E+04, time = 5.82 | CG iter. 33 -- res = 0.15353E-02, tol = 0.47674E+04, time = 5.88 | CG iter. 34 -- res = 0.84062E-03, tol = 0.47674E+04, time = 5.62 | CG iter. 35 -- res = 0.44513E-03, tol = 0.47674E+04, time = 7.25 | Final CG iter 36 -- res = 0.44513E-03, tol = 0.47674E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.523 2.738 | New value 2.643 | Old value 2.523 | Difference 0.120 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.39844E+04, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.17493E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.21645E+00, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.30446E-03, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.79816E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7320774.246 | (Sampled value in CG: 7337055.840 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.507015 | New value = -3.470048 | poltype: 1 pol: 1 CPU time specind = 1.5536070E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.20953E+07, tol = 0.27277E+01, time = 2.23 | CG iter. 2 -- res = 0.84612E+06, tol = 0.27277E+01, time = 2.33 | CG iter. 3 -- res = 0.15646E+06, tol = 0.27277E+01, time = 2.26 | CG iter. 4 -- res = 0.54318E+05, tol = 0.27277E+01, time = 2.16 | CG iter. 5 -- res = 0.28996E+05, tol = 0.27277E+01, time = 2.37 | CG iter. 6 -- res = 0.15037E+05, tol = 0.27277E+01, time = 2.20 | CG iter. 7 -- res = 0.67937E+04, tol = 0.27277E+01, time = 2.16 | CG iter. 8 -- res = 0.31286E+04, tol = 0.27277E+01, time = 2.30 | CG iter. 9 -- res = 0.15044E+04, tol = 0.27277E+01, time = 2.44 | CG iter. 10 -- res = 0.58516E+03, tol = 0.27277E+01, time = 2.26 | CG iter. 11 -- res = 0.23635E+03, tol = 0.27277E+01, time = 2.47 | CG iter. 12 -- res = 0.10840E+03, tol = 0.27277E+01, time = 2.33 | CG iter. 13 -- res = 0.53888E+02, tol = 0.27277E+01, time = 2.51 | CG iter. 14 -- res = 0.27491E+02, tol = 0.27277E+01, time = 2.39 | CG iter. 15 -- res = 0.13442E+02, tol = 0.27277E+01, time = 2.40 | CG iter. 16 -- res = 0.62009E+01, tol = 0.27277E+01, time = 2.43 | CG iter. 17 -- res = 0.26461E+01, tol = 0.27277E+01, time = 2.15 | CG iter. 18 -- res = 0.11910E+01, tol = 0.27277E+01, time = 3.33 | CG iter. 19 -- res = 0.54068E+00, tol = 0.27277E+01, time = 3.20 | CG iter. 20 -- res = 0.28202E+00, tol = 0.27277E+01, time = 2.68 | CG iter. 21 -- res = 0.14772E+00, tol = 0.27277E+01, time = 2.39 | CG iter. 22 -- res = 0.72931E-01, tol = 0.27277E+01, time = 2.77 | CG iter. 23 -- res = 0.34268E-01, tol = 0.27277E+01, time = 2.47 | CG iter. 24 -- res = 0.15937E-01, tol = 0.27277E+01, time = 2.27 | CG iter. 25 -- res = 0.74506E-02, tol = 0.27277E+01, time = 2.64 | CG iter. 26 -- res = 0.35202E-02, tol = 0.27277E+01, time = 2.40 | CG iter. 27 -- res = 0.18654E-02, tol = 0.27277E+01, time = 2.35 | CG iter. 28 -- res = 0.94553E-03, tol = 0.27277E+01, time = 2.40 | CG iter. 29 -- res = 0.46281E-03, tol = 0.27277E+01, time = 2.23 | CG iter. 30 -- res = 0.22385E-03, tol = 0.27277E+01, time = 2.56 | CG iter. 31 -- res = 0.10531E-03, tol = 0.27277E+01, time = 2.44 | CG iter. 32 -- res = 0.50278E-04, tol = 0.27277E+01, time = 2.62 | CG iter. 33 -- res = 0.24576E-04, tol = 0.27277E+01, time = 2.47 | CG iter. 34 -- res = 0.12285E-04, tol = 0.27277E+01, time = 2.09 | CG iter. 35 -- res = 0.62572E-05, tol = 0.27277E+01, time = 2.34 | CG iter. 36 -- res = 0.31348E-05, tol = 0.27277E+01, time = 2.21 | CG iter. 37 -- res = 0.15233E-05, tol = 0.27277E+01, time = 2.59 | CG iter. 38 -- res = 0.71308E-06, tol = 0.27277E+01, time = 2.49 | CG iter. 39 -- res = 0.33233E-06, tol = 0.27277E+01, time = 2.34 | CG iter. 40 -- res = 0.15948E-06, tol = 0.27277E+01, time = 2.25 | CG iter. 41 -- res = 0.81616E-07, tol = 0.27277E+01, time = 2.18 | CG iter. 42 -- res = 0.39361E-07, tol = 0.27277E+01, time = 2.24 | CG iter. 43 -- res = 0.20141E-07, tol = 0.27277E+01, time = 2.26 | CG iter. 44 -- res = 0.90551E-08, tol = 0.27277E+01, time = 2.28 | CG iter. 45 -- res = 0.41330E-08, tol = 0.27277E+01, time = 2.40 | CG iter. 46 -- res = 0.20232E-08, tol = 0.27277E+01, time = 2.51 | CG iter. 47 -- res = 0.10052E-08, tol = 0.27277E+01, time = 2.31 | CG iter. 48 -- res = 0.51668E-09, tol = 0.27277E+01, time = 2.11 | CG iter. 49 -- res = 0.24597E-09, tol = 0.27277E+01, time = 2.13 | CG iter. 50 -- res = 0.11479E-09, tol = 0.27277E+01, time = 2.48 | Final CG iter 51 -- res = 0.11479E-09, tol = 0.27277E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.948 4.817 | New value 0.706 | Old value 4.948 | Difference -4.242 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.19688E+05, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.25113E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.54209E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.85059E-03, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.31863E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7320774.246 | (Sampled value in CG: 7334213.967 ) | CPU time specind = 1042.548 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.69044E+08, tol = 0.57672E+04, time = 10.08 | CG iter. 2 -- res = 0.58977E+08, tol = 0.57672E+04, time = 10.90 | CG iter. 3 -- res = 0.15443E+08, tol = 0.57672E+04, time = 10.49 | CG iter. 4 -- res = 0.66825E+07, tol = 0.57672E+04, time = 10.31 | CG iter. 5 -- res = 0.40393E+07, tol = 0.57672E+04, time = 17.27 | CG iter. 6 -- res = 0.23486E+07, tol = 0.57672E+04, time = 10.70 | CG iter. 7 -- res = 0.13631E+07, tol = 0.57672E+04, time = 10.21 | CG iter. 8 -- res = 0.88719E+06, tol = 0.57672E+04, time = 10.37 | CG iter. 9 -- res = 0.57858E+06, tol = 0.57672E+04, time = 10.37 | CG iter. 10 -- res = 0.35715E+06, tol = 0.57672E+04, time = 10.29 | CG iter. 11 -- res = 0.19382E+06, tol = 0.57672E+04, time = 10.63 | CG iter. 12 -- res = 0.10298E+06, tol = 0.57672E+04, time = 10.58 | CG iter. 13 -- res = 0.55733E+05, tol = 0.57672E+04, time = 11.14 | CG iter. 14 -- res = 0.33147E+05, tol = 0.57672E+04, time = 11.65 | CG iter. 15 -- res = 0.22304E+05, tol = 0.57672E+04, time = 10.49 | CG iter. 16 -- res = 0.16772E+05, tol = 0.57672E+04, time = 10.32 | CG iter. 17 -- res = 0.13160E+05, tol = 0.57672E+04, time = 10.40 | CG iter. 18 -- res = 0.10453E+05, tol = 0.57672E+04, time = 10.20 | CG iter. 19 -- res = 0.80971E+04, tol = 0.57672E+04, time = 10.40 | CG iter. 20 -- res = 0.66588E+04, tol = 0.57672E+04, time = 10.39 | CG iter. 21 -- res = 0.60631E+04, tol = 0.57672E+04, time = 10.47 | CG iter. 22 -- res = 0.61824E+04, tol = 0.57672E+04, time = 10.60 | CG iter. 23 -- res = 0.68631E+04, tol = 0.57672E+04, time = 10.52 | CG iter. 24 -- res = 0.76949E+04, tol = 0.57672E+04, time = 10.89 | CG iter. 25 -- res = 0.78808E+04, tol = 0.57672E+04, time = 10.38 | CG iter. 26 -- res = 0.72610E+04, tol = 0.57672E+04, time = 10.38 | CG iter. 27 -- res = 0.60603E+04, tol = 0.57672E+04, time = 10.57 | CG iter. 28 -- res = 0.46871E+04, tol = 0.57672E+04, time = 10.28 | CG iter. 29 -- res = 0.37370E+04, tol = 0.57672E+04, time = 10.47 | CG iter. 30 -- res = 0.31595E+04, tol = 0.57672E+04, time = 10.46 | CG iter. 31 -- res = 0.27024E+04, tol = 0.57672E+04, time = 10.13 | CG iter. 32 -- res = 0.22885E+04, tol = 0.57672E+04, time = 10.59 | CG iter. 33 -- res = 0.18919E+04, tol = 0.57672E+04, time = 17.06 | CG iter. 34 -- res = 0.14733E+04, tol = 0.57672E+04, time = 10.47 | CG iter. 35 -- res = 0.11684E+04, tol = 0.57672E+04, time = 10.59 | CG iter. 36 -- res = 0.10236E+04, tol = 0.57672E+04, time = 10.19 | CG iter. 37 -- res = 0.95944E+03, tol = 0.57672E+04, time = 10.31 | CG iter. 38 -- res = 0.94783E+03, tol = 0.57672E+04, time = 10.43 | CG iter. 39 -- res = 0.91242E+03, tol = 0.57672E+04, time = 10.47 | CG iter. 40 -- res = 0.83574E+03, tol = 0.57672E+04, time = 10.26 | CG iter. 41 -- res = 0.72651E+03, tol = 0.57672E+04, time = 11.21 | CG iter. 42 -- res = 0.61171E+03, tol = 0.57672E+04, time = 11.49 | CG iter. 43 -- res = 0.52130E+03, tol = 0.57672E+04, time = 10.45 | CG iter. 44 -- res = 0.45182E+03, tol = 0.57672E+04, time = 10.37 | CG iter. 45 -- res = 0.39917E+03, tol = 0.57672E+04, time = 10.30 | CG iter. 46 -- res = 0.35486E+03, tol = 0.57672E+04, time = 10.66 | CG iter. 47 -- res = 0.31545E+03, tol = 0.57672E+04, time = 10.33 | CG iter. 48 -- res = 0.26165E+03, tol = 0.57672E+04, time = 10.44 | CG iter. 49 -- res = 0.21287E+03, tol = 0.57672E+04, time = 10.59 | CG iter. 50 -- res = 0.18518E+03, tol = 0.57672E+04, time = 10.67 | CG iter. 51 -- res = 0.17398E+03, tol = 0.57672E+04, time = 10.50 | CG iter. 52 -- res = 0.16915E+03, tol = 0.57672E+04, time = 10.28 | CG iter. 53 -- res = 0.16227E+03, tol = 0.57672E+04, time = 10.63 | CG iter. 54 -- res = 0.14802E+03, tol = 0.57672E+04, time = 10.22 | CG iter. 55 -- res = 0.13362E+03, tol = 0.57672E+04, time = 10.40 | CG iter. 56 -- res = 0.11766E+03, tol = 0.57672E+04, time = 10.24 | CG iter. 57 -- res = 0.10442E+03, tol = 0.57672E+04, time = 10.74 | CG iter. 58 -- res = 0.95056E+02, tol = 0.57672E+04, time = 10.11 | CG iter. 59 -- res = 0.89855E+02, tol = 0.57672E+04, time = 10.35 | CG iter. 60 -- res = 0.85806E+02, tol = 0.57672E+04, time = 10.43 | Final CG iter 61 -- res = 0.85806E+02, tol = 0.57672E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.824 ( -229.794 -2227.616 2509.841 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9342723.392 | Old band monopole 7320805.734 | Change to band monopole 2021917.658 | Change to component monopole -2021908.961 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.668 2.757 | New value 3.792 | Old value 2.668 | Difference 1.124 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.089 ( 6.269 6.516 -6.026 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.498 5.793 | New value 1.151 | Old value 1.498 | Difference -0.347 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.10554E+06, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.29587E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.11833E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.19632E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.36746E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9342683.207 | (Sampled value in CG: 9322842.806 ) | Chain = 1 -- chisq = 0.81529549E+09 | Chain = 1 -- wall time = 5877.132 sec Available RAM: MemAvailable: 407376180 kB Available Swap: SwapFree: 1114893516 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 195 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445039 | --> Sampling calibration, mode = relcal | relcal = 1.3423651E-02 7.4266340E-04 -1.5983016E-03 -1.2568013E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1146954 0.1364062 97044673.8819175 | BP delta = 0.1217151 0.1434259 97044675.2481887 | BP chisq diff = 1.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632403 | --> Sampling calibration, mode = relcal | relcal = -2.8213828E-03 -7.0348853E-04 1.6786597E-03 1.6143171E-03 -4.0770572E-04 6.3960039E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5654923 15218431.8768591 | BP delta = 0.0000000E+00 -0.5606512 15218433.1685335 | BP chisq diff = 1.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17823467454630 | --> Sampling calibration, mode = relcal | relcal = -7.3385447E-02 -5.7313245E-02 9.0091512E-02 4.0607184E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.9863465E-04 2.4383003E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8192E-04 | 2: delta_r/delta_0: 4.5902E-06 | 3: delta_s/delta_0: 1.6449E-07 | 4: delta_r/delta_0: 2.8445E-08 | 5: delta_s/delta_0: 9.3904E-09 | 6: delta_r/delta_0: 2.7792E-09 | 7: delta_s/delta_0: 4.8833E-10 | 8: delta_r/delta_0: 1.6362E-10 | 9: delta_s/delta_0: 7.7890E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.623541765199485E-005 2.747712228134896E-005 | BP delta = 4.2619623E-02 5.9397649E-02 50481434.4361303 | BP delta = 4.1382316E-02 5.8160342E-02 50481433.0328387 | BP chisq diff = -1.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02559924 | --> Sampling calibration, mode = relcal | relcal = -0.1066056 -9.5487818E-02 0.1448271 5.7266291E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2753434E-03 1.3551211E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2785E-05 | 2: delta_r/delta_0: 1.7177E-06 | 3: delta_s/delta_0: 2.2966E-07 | 4: delta_r/delta_0: 4.8116E-08 | 5: delta_s/delta_0: 2.6816E-08 | 6: delta_r/delta_0: 7.2793E-09 | 7: delta_s/delta_0: 6.3373E-09 | 8: delta_r/delta_0: 1.7600E-09 | 9: delta_s/delta_0: 8.6779E-10 | 10: delta_r/delta_0: 6.4936E-10 | 11: delta_s/delta_0: 6.7130E-10 | 12: delta_r/delta_0: 1.3532E-10 | 13: delta_s/delta_0: 9.2791E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.008106803573332E-002 2.811900378554078E-005 | BP delta = -0.2638560 -0.2410552 57385191.1450106 | BP delta = -0.2585694 -0.2357686 57385191.7522903 | BP chisq diff = 0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81205571 | --> Sampling calibration, mode = relcal | relcal = 0.2954125 0.2247934 -0.2837459 -0.2364600 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.7447854E-04 4.5746500E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7078E-02 | 2: delta_r/delta_0: 4.0398E-04 | 3: delta_s/delta_0: 2.8348E-04 | 4: delta_r/delta_0: 1.8255E-05 | 5: delta_s/delta_0: 1.8002E-06 | 6: delta_r/delta_0: 5.1728E-07 | 7: delta_s/delta_0: 9.2649E-07 | 8: delta_r/delta_0: 1.6389E-07 | 9: delta_s/delta_0: 1.6452E-07 | 10: delta_r/delta_0: 1.2466E-08 | 11: delta_s/delta_0: 1.0498E-08 | 12: delta_r/delta_0: 2.3557E-09 | 13: delta_s/delta_0: 1.9320E-09 | 14: delta_r/delta_0: 1.3536E-09 | 15: delta_s/delta_0: 1.5431E-10 | 16: delta_r/delta_0: 8.4028E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.188445073127969E-002 4.022540513751758E-005 | BP delta = -0.1378155 -0.1666244 72490013.1608516 | BP delta = -0.1224145 -0.1512233 72490013.4821595 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95891352 | --> Sampling calibration, mode = relcal | relcal = 0.1064622 0.1395554 -0.1103179 -0.1356997 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7499946E-03 1.3387413E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9638E-04 | 2: delta_r/delta_0: 5.1063E-06 | 3: delta_s/delta_0: 8.4886E-06 | 4: delta_r/delta_0: 1.0462E-06 | 5: delta_s/delta_0: 1.7662E-07 | 6: delta_r/delta_0: 1.0344E-07 | 7: delta_s/delta_0: 4.2722E-07 | 8: delta_r/delta_0: 2.5482E-08 | 9: delta_s/delta_0: 2.2410E-07 | 10: delta_r/delta_0: 6.5863E-08 | 11: delta_s/delta_0: 1.0757E-09 | 12: delta_r/delta_0: 8.0312E-10 | 13: delta_s/delta_0: 1.0619E-09 | 14: delta_r/delta_0: 1.5223E-10 | 15: delta_s/delta_0: 6.9407E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.934307512618314E-002 3.698137377477311E-005 | BP delta = 6.9658555E-02 0.1763133 72781139.1710866 | BP delta = 5.5330429E-02 0.1619851 72781139.7745751 | BP chisq diff = 0.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119511 | New value = -3.158609 | poltype: 2 pol: 1 CPU time specind = 1.1922836E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.248607 | New value = -3.230608 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164059 | New value = -3.077434 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164518 | New value = -3.112332 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184713 | New value = -3.203054 | poltype: 2 pol: 2 CPU time specind = 3.8609505E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.13572E+08, tol = 0.76566E+01, time = 4.92 | CG iter. 2 -- res = 0.35528E+06, tol = 0.76566E+01, time = 4.84 | CG iter. 3 -- res = 0.61934E+05, tol = 0.76566E+01, time = 4.83 | CG iter. 4 -- res = 0.46485E+05, tol = 0.76566E+01, time = 5.12 | CG iter. 5 -- res = 0.43683E+05, tol = 0.76566E+01, time = 5.17 | CG iter. 6 -- res = 0.45954E+05, tol = 0.76566E+01, time = 4.93 | CG iter. 7 -- res = 0.48232E+05, tol = 0.76566E+01, time = 5.19 | CG iter. 8 -- res = 0.39770E+05, tol = 0.76566E+01, time = 5.15 | CG iter. 9 -- res = 0.34467E+05, tol = 0.76566E+01, time = 4.83 | CG iter. 10 -- res = 0.27811E+05, tol = 0.76566E+01, time = 5.02 | CG iter. 11 -- res = 0.18884E+05, tol = 0.76566E+01, time = 5.56 | CG iter. 12 -- res = 0.12801E+05, tol = 0.76566E+01, time = 5.09 | CG iter. 13 -- res = 0.10669E+05, tol = 0.76566E+01, time = 5.11 | CG iter. 14 -- res = 0.96322E+04, tol = 0.76566E+01, time = 5.12 | CG iter. 15 -- res = 0.84855E+04, tol = 0.76566E+01, time = 5.03 | CG iter. 16 -- res = 0.66005E+04, tol = 0.76566E+01, time = 4.92 | CG iter. 17 -- res = 0.47031E+04, tol = 0.76566E+01, time = 5.05 | CG iter. 18 -- res = 0.38624E+04, tol = 0.76566E+01, time = 4.93 | CG iter. 19 -- res = 0.32961E+04, tol = 0.76566E+01, time = 5.33 | CG iter. 20 -- res = 0.27197E+04, tol = 0.76566E+01, time = 5.26 | CG iter. 21 -- res = 0.20976E+04, tol = 0.76566E+01, time = 5.03 | CG iter. 22 -- res = 0.17082E+04, tol = 0.76566E+01, time = 4.98 | CG iter. 23 -- res = 0.15663E+04, tol = 0.76566E+01, time = 5.24 | CG iter. 24 -- res = 0.13602E+04, tol = 0.76566E+01, time = 4.79 | CG iter. 25 -- res = 0.10694E+04, tol = 0.76566E+01, time = 5.07 | CG iter. 26 -- res = 0.85637E+03, tol = 0.76566E+01, time = 4.96 | CG iter. 27 -- res = 0.77446E+03, tol = 0.76566E+01, time = 4.98 | CG iter. 28 -- res = 0.73790E+03, tol = 0.76566E+01, time = 5.18 | CG iter. 29 -- res = 0.62462E+03, tol = 0.76566E+01, time = 5.11 | CG iter. 30 -- res = 0.49851E+03, tol = 0.76566E+01, time = 5.96 | CG iter. 31 -- res = 0.42019E+03, tol = 0.76566E+01, time = 9.94 | CG iter. 32 -- res = 0.37499E+03, tol = 0.76566E+01, time = 4.98 | CG iter. 33 -- res = 0.30824E+03, tol = 0.76566E+01, time = 5.18 | CG iter. 34 -- res = 0.23933E+03, tol = 0.76566E+01, time = 4.97 | CG iter. 35 -- res = 0.19641E+03, tol = 0.76566E+01, time = 4.93 | CG iter. 36 -- res = 0.16974E+03, tol = 0.76566E+01, time = 5.03 | CG iter. 37 -- res = 0.13690E+03, tol = 0.76566E+01, time = 4.96 | CG iter. 38 -- res = 0.10419E+03, tol = 0.76566E+01, time = 4.67 | CG iter. 39 -- res = 0.78041E+02, tol = 0.76566E+01, time = 4.94 | CG iter. 40 -- res = 0.64226E+02, tol = 0.76566E+01, time = 5.06 | CG iter. 41 -- res = 0.52474E+02, tol = 0.76566E+01, time = 5.15 | CG iter. 42 -- res = 0.38862E+02, tol = 0.76566E+01, time = 5.02 | CG iter. 43 -- res = 0.28963E+02, tol = 0.76566E+01, time = 4.89 | CG iter. 44 -- res = 0.23112E+02, tol = 0.76566E+01, time = 5.29 | CG iter. 45 -- res = 0.19446E+02, tol = 0.76566E+01, time = 5.04 | CG iter. 46 -- res = 0.15326E+02, tol = 0.76566E+01, time = 4.68 | CG iter. 47 -- res = 0.11570E+02, tol = 0.76566E+01, time = 5.46 | CG iter. 48 -- res = 0.91653E+01, tol = 0.76566E+01, time = 6.21 | CG iter. 49 -- res = 0.73402E+01, tol = 0.76566E+01, time = 5.40 | CG iter. 50 -- res = 0.58924E+01, tol = 0.76566E+01, time = 5.32 | Final CG iter 51 -- res = 0.58924E+01, tol = 0.76566E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8296099.590 | Old band monopole 9342723.392 | Change to band monopole -1046623.802 | Change to component monopole 1046619.301 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.31626E+05, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.38202E+02, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.14950E+01, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.55266E-02, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.26696E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8296063.907 | (Sampled value in CG: 8257760.555 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.538588 | New value = 1.529909 | poltype: 2 pol: 1 CPU time specind = 6.7150593E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.550412 | New value = 1.500294 | poltype: 2 pol: 2 CPU time specind = 2.7818680E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.24039E+08, tol = 0.47660E+04, time = 5.43 | CG iter. 2 -- res = 0.54807E+07, tol = 0.47660E+04, time = 5.56 | CG iter. 3 -- res = 0.86738E+06, tol = 0.47660E+04, time = 5.68 | CG iter. 4 -- res = 0.36467E+06, tol = 0.47660E+04, time = 5.85 | CG iter. 5 -- res = 0.15724E+06, tol = 0.47660E+04, time = 5.78 | CG iter. 6 -- res = 0.81691E+05, tol = 0.47660E+04, time = 5.89 | CG iter. 7 -- res = 0.44746E+05, tol = 0.47660E+04, time = 5.66 | CG iter. 8 -- res = 0.21946E+05, tol = 0.47660E+04, time = 5.96 | CG iter. 9 -- res = 0.96222E+04, tol = 0.47660E+04, time = 5.67 | CG iter. 10 -- res = 0.38640E+04, tol = 0.47660E+04, time = 5.81 | CG iter. 11 -- res = 0.17307E+04, tol = 0.47660E+04, time = 5.78 | CG iter. 12 -- res = 0.89309E+03, tol = 0.47660E+04, time = 5.92 | CG iter. 13 -- res = 0.50151E+03, tol = 0.47660E+04, time = 6.11 | CG iter. 14 -- res = 0.28571E+03, tol = 0.47660E+04, time = 5.92 | CG iter. 15 -- res = 0.14795E+03, tol = 0.47660E+04, time = 9.82 | CG iter. 16 -- res = 0.70037E+02, tol = 0.47660E+04, time = 8.76 | CG iter. 17 -- res = 0.32940E+02, tol = 0.47660E+04, time = 6.17 | CG iter. 18 -- res = 0.16414E+02, tol = 0.47660E+04, time = 5.76 | CG iter. 19 -- res = 0.89641E+01, tol = 0.47660E+04, time = 5.64 | CG iter. 20 -- res = 0.51535E+01, tol = 0.47660E+04, time = 5.60 | CG iter. 21 -- res = 0.28161E+01, tol = 0.47660E+04, time = 6.06 | CG iter. 22 -- res = 0.14437E+01, tol = 0.47660E+04, time = 5.51 | CG iter. 23 -- res = 0.71494E+00, tol = 0.47660E+04, time = 6.09 | CG iter. 24 -- res = 0.36297E+00, tol = 0.47660E+04, time = 5.94 | CG iter. 25 -- res = 0.19889E+00, tol = 0.47660E+04, time = 5.54 | CG iter. 26 -- res = 0.11546E+00, tol = 0.47660E+04, time = 5.74 | CG iter. 27 -- res = 0.65672E-01, tol = 0.47660E+04, time = 5.89 | CG iter. 28 -- res = 0.34985E-01, tol = 0.47660E+04, time = 5.67 | CG iter. 29 -- res = 0.18495E-01, tol = 0.47660E+04, time = 5.63 | CG iter. 30 -- res = 0.95555E-02, tol = 0.47660E+04, time = 7.14 | CG iter. 31 -- res = 0.51859E-02, tol = 0.47660E+04, time = 7.37 | CG iter. 32 -- res = 0.29210E-02, tol = 0.47660E+04, time = 5.46 | CG iter. 33 -- res = 0.16884E-02, tol = 0.47660E+04, time = 5.95 | CG iter. 34 -- res = 0.91305E-03, tol = 0.47660E+04, time = 5.93 | CG iter. 35 -- res = 0.46821E-03, tol = 0.47660E+04, time = 5.66 | Final CG iter 36 -- res = 0.46821E-03, tol = 0.47660E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.784 2.746 | New value 0.196 | Old value 3.784 | Difference -3.587 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.66555E+06, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.36307E+02, tol = 0.47627E+18, time = 1.66 | CG iter. 3 -- res = 0.10719E+01, tol = 0.47627E+18, time = 1.59 | Final CG iter 4 -- res = 0.25773E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8296063.907 | (Sampled value in CG: 8256906.152 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.470048 | New value = -3.631289 | poltype: 1 pol: 1 CPU time specind = 7.0610046E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.28771E+07, tol = 0.30178E+01, time = 2.43 | CG iter. 2 -- res = 0.84297E+06, tol = 0.30178E+01, time = 2.24 | CG iter. 3 -- res = 0.18198E+06, tol = 0.30178E+01, time = 2.60 | CG iter. 4 -- res = 0.97966E+05, tol = 0.30178E+01, time = 2.33 | CG iter. 5 -- res = 0.57611E+05, tol = 0.30178E+01, time = 2.35 | CG iter. 6 -- res = 0.22980E+05, tol = 0.30178E+01, time = 3.29 | CG iter. 7 -- res = 0.82195E+04, tol = 0.30178E+01, time = 2.87 | CG iter. 8 -- res = 0.36188E+04, tol = 0.30178E+01, time = 2.68 | CG iter. 9 -- res = 0.16726E+04, tol = 0.30178E+01, time = 2.71 | CG iter. 10 -- res = 0.66376E+03, tol = 0.30178E+01, time = 2.69 | CG iter. 11 -- res = 0.25832E+03, tol = 0.30178E+01, time = 2.18 | CG iter. 12 -- res = 0.13324E+03, tol = 0.30178E+01, time = 2.39 | CG iter. 13 -- res = 0.68380E+02, tol = 0.30178E+01, time = 2.54 | CG iter. 14 -- res = 0.36010E+02, tol = 0.30178E+01, time = 2.47 | CG iter. 15 -- res = 0.16246E+02, tol = 0.30178E+01, time = 2.47 | CG iter. 16 -- res = 0.67799E+01, tol = 0.30178E+01, time = 2.39 | CG iter. 17 -- res = 0.28915E+01, tol = 0.30178E+01, time = 2.34 | CG iter. 18 -- res = 0.13622E+01, tol = 0.30178E+01, time = 2.37 | CG iter. 19 -- res = 0.67163E+00, tol = 0.30178E+01, time = 2.35 | CG iter. 20 -- res = 0.33331E+00, tol = 0.30178E+01, time = 2.40 | CG iter. 21 -- res = 0.15579E+00, tol = 0.30178E+01, time = 2.51 | CG iter. 22 -- res = 0.69372E-01, tol = 0.30178E+01, time = 2.40 | CG iter. 23 -- res = 0.31183E-01, tol = 0.30178E+01, time = 2.28 | CG iter. 24 -- res = 0.14386E-01, tol = 0.30178E+01, time = 2.28 | CG iter. 25 -- res = 0.70937E-02, tol = 0.30178E+01, time = 2.48 | CG iter. 26 -- res = 0.36693E-02, tol = 0.30178E+01, time = 2.18 | CG iter. 27 -- res = 0.18236E-02, tol = 0.30178E+01, time = 2.52 | CG iter. 28 -- res = 0.90639E-03, tol = 0.30178E+01, time = 2.32 | CG iter. 29 -- res = 0.39401E-03, tol = 0.30178E+01, time = 2.46 | CG iter. 30 -- res = 0.18065E-03, tol = 0.30178E+01, time = 2.32 | CG iter. 31 -- res = 0.88398E-04, tol = 0.30178E+01, time = 2.32 | CG iter. 32 -- res = 0.46865E-04, tol = 0.30178E+01, time = 2.45 | CG iter. 33 -- res = 0.23897E-04, tol = 0.30178E+01, time = 2.31 | CG iter. 34 -- res = 0.10585E-04, tol = 0.30178E+01, time = 2.45 | CG iter. 35 -- res = 0.48457E-05, tol = 0.30178E+01, time = 2.34 | CG iter. 36 -- res = 0.23298E-05, tol = 0.30178E+01, time = 2.44 | CG iter. 37 -- res = 0.11427E-05, tol = 0.30178E+01, time = 2.47 | CG iter. 38 -- res = 0.56759E-06, tol = 0.30178E+01, time = 2.41 | CG iter. 39 -- res = 0.28357E-06, tol = 0.30178E+01, time = 2.33 | CG iter. 40 -- res = 0.13419E-06, tol = 0.30178E+01, time = 2.40 | CG iter. 41 -- res = 0.60530E-07, tol = 0.30178E+01, time = 2.23 | CG iter. 42 -- res = 0.28871E-07, tol = 0.30178E+01, time = 2.34 | CG iter. 43 -- res = 0.13372E-07, tol = 0.30178E+01, time = 2.35 | CG iter. 44 -- res = 0.66116E-08, tol = 0.30178E+01, time = 2.39 | CG iter. 45 -- res = 0.32185E-08, tol = 0.30178E+01, time = 2.27 | CG iter. 46 -- res = 0.15035E-08, tol = 0.30178E+01, time = 2.47 | CG iter. 47 -- res = 0.72040E-09, tol = 0.30178E+01, time = 2.34 | CG iter. 48 -- res = 0.34711E-09, tol = 0.30178E+01, time = 2.55 | CG iter. 49 -- res = 0.15828E-09, tol = 0.30178E+01, time = 2.45 | CG iter. 50 -- res = 0.73782E-10, tol = 0.30178E+01, time = 2.48 | Final CG iter 51 -- res = 0.73782E-10, tol = 0.30178E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.841 5.890 | New value -3.066 | Old value -0.841 | Difference -2.225 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.62662E+04, tol = 0.47627E+18, time = 1.52 | CG iter. 2 -- res = 0.22697E+02, tol = 0.47627E+18, time = 1.74 | CG iter. 3 -- res = 0.65486E+00, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.13821E-02, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.45868E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8296063.907 | (Sampled value in CG: 8267058.722 ) | CPU time specind = 1052.613 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.68328E+08, tol = 0.57775E+04, time = 10.28 | CG iter. 2 -- res = 0.58562E+08, tol = 0.57775E+04, time = 16.63 | CG iter. 3 -- res = 0.15308E+08, tol = 0.57775E+04, time = 10.29 | CG iter. 4 -- res = 0.65218E+07, tol = 0.57775E+04, time = 10.49 | CG iter. 5 -- res = 0.39262E+07, tol = 0.57775E+04, time = 10.34 | CG iter. 6 -- res = 0.23001E+07, tol = 0.57775E+04, time = 10.18 | CG iter. 7 -- res = 0.13490E+07, tol = 0.57775E+04, time = 10.95 | CG iter. 8 -- res = 0.89101E+06, tol = 0.57775E+04, time = 10.52 | CG iter. 9 -- res = 0.58171E+06, tol = 0.57775E+04, time = 10.54 | CG iter. 10 -- res = 0.35315E+06, tol = 0.57775E+04, time = 11.41 | CG iter. 11 -- res = 0.18940E+06, tol = 0.57775E+04, time = 11.83 | CG iter. 12 -- res = 0.10270E+06, tol = 0.57775E+04, time = 10.46 | CG iter. 13 -- res = 0.59488E+05, tol = 0.57775E+04, time = 10.58 | CG iter. 14 -- res = 0.39535E+05, tol = 0.57775E+04, time = 10.25 | CG iter. 15 -- res = 0.29843E+05, tol = 0.57775E+04, time = 10.82 | CG iter. 16 -- res = 0.25230E+05, tol = 0.57775E+04, time = 10.53 | CG iter. 17 -- res = 0.22568E+05, tol = 0.57775E+04, time = 10.71 | CG iter. 18 -- res = 0.20248E+05, tol = 0.57775E+04, time = 10.26 | CG iter. 19 -- res = 0.17856E+05, tol = 0.57775E+04, time = 10.53 | CG iter. 20 -- res = 0.16988E+05, tol = 0.57775E+04, time = 10.18 | CG iter. 21 -- res = 0.16587E+05, tol = 0.57775E+04, time = 11.16 | CG iter. 22 -- res = 0.17394E+05, tol = 0.57775E+04, time = 10.39 | CG iter. 23 -- res = 0.18468E+05, tol = 0.57775E+04, time = 10.62 | CG iter. 24 -- res = 0.18462E+05, tol = 0.57775E+04, time = 10.56 | CG iter. 25 -- res = 0.16264E+05, tol = 0.57775E+04, time = 10.62 | CG iter. 26 -- res = 0.12940E+05, tol = 0.57775E+04, time = 10.19 | CG iter. 27 -- res = 0.97971E+04, tol = 0.57775E+04, time = 10.28 | CG iter. 28 -- res = 0.74222E+04, tol = 0.57775E+04, time = 10.48 | CG iter. 29 -- res = 0.57785E+04, tol = 0.57775E+04, time = 10.57 | CG iter. 30 -- res = 0.47686E+04, tol = 0.57775E+04, time = 16.89 | CG iter. 31 -- res = 0.39816E+04, tol = 0.57775E+04, time = 10.42 | CG iter. 32 -- res = 0.33777E+04, tol = 0.57775E+04, time = 10.44 | CG iter. 33 -- res = 0.28547E+04, tol = 0.57775E+04, time = 10.50 | CG iter. 34 -- res = 0.24074E+04, tol = 0.57775E+04, time = 10.14 | CG iter. 35 -- res = 0.21053E+04, tol = 0.57775E+04, time = 10.31 | CG iter. 36 -- res = 0.20083E+04, tol = 0.57775E+04, time = 10.36 | CG iter. 37 -- res = 0.19617E+04, tol = 0.57775E+04, time = 10.59 | CG iter. 38 -- res = 0.18930E+04, tol = 0.57775E+04, time = 12.01 | CG iter. 39 -- res = 0.17323E+04, tol = 0.57775E+04, time = 11.51 | CG iter. 40 -- res = 0.14801E+04, tol = 0.57775E+04, time = 10.35 | CG iter. 41 -- res = 0.12178E+04, tol = 0.57775E+04, time = 10.29 | CG iter. 42 -- res = 0.97587E+03, tol = 0.57775E+04, time = 10.19 | CG iter. 43 -- res = 0.79785E+03, tol = 0.57775E+04, time = 10.23 | CG iter. 44 -- res = 0.69058E+03, tol = 0.57775E+04, time = 10.14 | CG iter. 45 -- res = 0.61155E+03, tol = 0.57775E+04, time = 10.56 | CG iter. 46 -- res = 0.53193E+03, tol = 0.57775E+04, time = 10.29 | CG iter. 47 -- res = 0.46126E+03, tol = 0.57775E+04, time = 10.48 | CG iter. 48 -- res = 0.39375E+03, tol = 0.57775E+04, time = 10.32 | CG iter. 49 -- res = 0.33883E+03, tol = 0.57775E+04, time = 10.37 | CG iter. 50 -- res = 0.30122E+03, tol = 0.57775E+04, time = 9.99 | CG iter. 51 -- res = 0.28365E+03, tol = 0.57775E+04, time = 10.56 | CG iter. 52 -- res = 0.27362E+03, tol = 0.57775E+04, time = 10.82 | CG iter. 53 -- res = 0.25640E+03, tol = 0.57775E+04, time = 10.65 | CG iter. 54 -- res = 0.23072E+03, tol = 0.57775E+04, time = 10.44 | CG iter. 55 -- res = 0.20068E+03, tol = 0.57775E+04, time = 10.43 | CG iter. 56 -- res = 0.17495E+03, tol = 0.57775E+04, time = 10.56 | CG iter. 57 -- res = 0.15491E+03, tol = 0.57775E+04, time = 10.64 | CG iter. 58 -- res = 0.13682E+03, tol = 0.57775E+04, time = 16.85 | CG iter. 59 -- res = 0.12200E+03, tol = 0.57775E+04, time = 10.40 | CG iter. 60 -- res = 0.11128E+03, tol = 0.57775E+04, time = 10.82 | Final CG iter 61 -- res = 0.11128E+03, tol = 0.57775E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.851 ( -230.337 -2230.028 2512.426 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8419183.352 | Old band monopole 8296099.590 | Change to band monopole 123083.762 | Change to component monopole -123083.233 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.156 2.716 | New value -1.718 | Old value 0.156 | Difference -1.874 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.591 ( 7.941 11.720 -11.173 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.006 4.416 | New value -1.365 | Old value 8.006 | Difference -9.371 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.19894E+06, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.30140E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.10703E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.33648E-02, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.19504E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8419147.139 | (Sampled value in CG: 8393194.555 ) | Chain = 1 -- chisq = 0.81521043E+09 | Chain = 1 -- wall time = 5433.740 sec Available RAM: MemAvailable: 407863356 kB Available Swap: SwapFree: 1115464752 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 196 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441437 | --> Sampling calibration, mode = relcal | relcal = 1.3421292E-02 7.4890343E-04 -1.5923368E-03 -1.2577859E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1217151 0.1434259 9411326.17582450 | BP delta = 0.1217151 0.1506063 9411332.86833138 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632588 | --> Sampling calibration, mode = relcal | relcal = -2.8219663E-03 -7.0336257E-04 1.6772021E-03 1.6156632E-03 -4.0729388E-04 6.3975743E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5606512 15221157.7631108 | BP delta = 0.0000000E+00 -0.5655822 15221158.9628679 | BP chisq diff = 1.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103891 | --> Sampling calibration, mode = relcal | relcal = 3.7092708E-02 1.3731745E-02 5.7573933E-03 -7.1649221E-03 8.2498845E-03 2.3958725E-03 -7.6026311E-03 -7.1884957E-03 -1.5307912E-02 -1.4805352E-02 -3.0564906E-03 -1.2101799E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.270700 132213197.339333 | BP delta = 0.0000000E+00 -1.299614 132213197.019783 | BP chisq diff = -0.3, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18187515481817 | --> Sampling calibration, mode = relcal | relcal = -7.5665653E-02 -5.8835570E-02 9.2514686E-02 4.1986533E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.8158153E-06 5.2037793E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4898E-05 | 2: delta_r/delta_0: 1.1580E-06 | 3: delta_s/delta_0: 1.9277E-07 | 4: delta_r/delta_0: 2.4529E-08 | 5: delta_s/delta_0: 7.1417E-09 | 6: delta_r/delta_0: 2.2116E-09 | 7: delta_s/delta_0: 4.4479E-10 | 8: delta_r/delta_0: 1.3191E-10 | 9: delta_s/delta_0: 1.4766E-10 | 10: delta_r/delta_0: 6.3864E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.256270275853077E-003 2.738934551242657E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4899E-05 | 2: delta_r/delta_0: 1.1580E-06 | 3: delta_s/delta_0: 1.9276E-07 | 4: delta_r/delta_0: 2.4527E-08 | 5: delta_s/delta_0: 7.1399E-09 | 6: delta_r/delta_0: 2.2116E-09 | 7: delta_s/delta_0: 4.4484E-10 | 8: delta_r/delta_0: 1.3190E-10 | 9: delta_s/delta_0: 1.4760E-10 | 10: delta_r/delta_0: 6.3841E-11 | Reached bicg-stab tolerance | BP delta = 4.1382316E-02 5.8160342E-02 3585787.32831706 | BP delta = 4.1382316E-02 5.7903845E-02 3588631.67296419 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02592650 | --> Sampling calibration, mode = relcal | relcal = -0.1066571 -9.5585711E-02 0.1448802 5.7362642E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3287683E-03 1.7807687E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0785E-04 | 2: delta_r/delta_0: 2.3750E-06 | 3: delta_s/delta_0: 2.2669E-07 | 4: delta_r/delta_0: 3.6472E-08 | 5: delta_s/delta_0: 3.8410E-08 | 6: delta_r/delta_0: 7.0852E-09 | 7: delta_s/delta_0: 4.6515E-09 | 8: delta_r/delta_0: 2.0448E-09 | 9: delta_s/delta_0: 8.6826E-10 | 10: delta_r/delta_0: 6.3363E-10 | 11: delta_s/delta_0: 2.2331E-09 | 12: delta_r/delta_0: 7.7939E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.026379306571270E-002 2.811014391738437E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0784E-04 | 2: delta_r/delta_0: 2.3749E-06 | 3: delta_s/delta_0: 2.2669E-07 | 4: delta_r/delta_0: 3.6469E-08 | 5: delta_s/delta_0: 3.8413E-08 | 6: delta_r/delta_0: 7.0851E-09 | 7: delta_s/delta_0: 4.6515E-09 | 8: delta_r/delta_0: 2.0447E-09 | 9: delta_s/delta_0: 8.6823E-10 | 10: delta_r/delta_0: 6.3361E-10 | 11: delta_s/delta_0: 2.2330E-09 | 12: delta_r/delta_0: 7.7939E-11 | Reached bicg-stab tolerance | BP delta = -0.2585694 -0.2357686 2841488.71082592 | BP delta = -0.2585694 -0.2347864 2841488.96295731 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236904 | --> Sampling calibration, mode = relcal | relcal = 0.2955005 0.2249072 -0.2838358 -0.2365720 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3258024E-03 5.6376611E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0465E-03 | 2: delta_r/delta_0: 2.3891E-05 | 3: delta_s/delta_0: 6.5268E-06 | 4: delta_r/delta_0: 7.1663E-07 | 5: delta_s/delta_0: 4.2639E-07 | 6: delta_r/delta_0: 4.4195E-08 | 7: delta_s/delta_0: 3.3925E-08 | 8: delta_r/delta_0: 2.2167E-08 | 9: delta_s/delta_0: 5.5980E-08 | 10: delta_r/delta_0: 2.2297E-09 | 11: delta_s/delta_0: 7.0651E-10 | 12: delta_r/delta_0: 4.5186E-10 | 13: delta_s/delta_0: 8.3843E-10 | 14: delta_r/delta_0: 1.1855E-10 | 15: delta_s/delta_0: 2.5403E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.418362276846948E-002 4.021036644296629E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0463E-03 | 2: delta_r/delta_0: 2.3886E-05 | 3: delta_s/delta_0: 6.5266E-06 | 4: delta_r/delta_0: 7.1666E-07 | 5: delta_s/delta_0: 4.2626E-07 | 6: delta_r/delta_0: 4.4191E-08 | 7: delta_s/delta_0: 3.3923E-08 | 8: delta_r/delta_0: 2.2163E-08 | 9: delta_s/delta_0: 5.5941E-08 | 10: delta_r/delta_0: 2.2294E-09 | 11: delta_s/delta_0: 7.0597E-10 | 12: delta_r/delta_0: 4.5186E-10 | 13: delta_s/delta_0: 8.3744E-10 | 14: delta_r/delta_0: 1.1858E-10 | 15: delta_s/delta_0: 2.5422E-11 | Reached bicg-stab tolerance | BP delta = -0.1224145 -0.1512233 2827107.95003938 | BP delta = -0.1224145 -0.1483151 2827126.49330323 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95939056 | --> Sampling calibration, mode = relcal | relcal = 0.1066264 0.1396124 -0.1102577 -0.1359812 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0612175E-02 1.2334539E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6641E-04 | 2: delta_r/delta_0: 6.7376E-06 | 3: delta_s/delta_0: 1.0775E-03 | 4: delta_r/delta_0: 5.1070E-05 | 5: delta_s/delta_0: 2.1243E-07 | 6: delta_r/delta_0: 1.0777E-07 | 7: delta_s/delta_0: 5.6697E-07 | 8: delta_r/delta_0: 2.8442E-08 | 9: delta_s/delta_0: 9.3418E-09 | 10: delta_r/delta_0: 2.0600E-09 | 11: delta_s/delta_0: 1.9695E-09 | 12: delta_r/delta_0: 1.3011E-09 | 13: delta_s/delta_0: 1.4807E-10 | 14: delta_r/delta_0: 9.1648E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.029347567028466E-002 3.696354416822340E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6641E-04 | 2: delta_r/delta_0: 6.7376E-06 | 3: delta_s/delta_0: 1.0775E-03 | 4: delta_r/delta_0: 5.1068E-05 | 5: delta_s/delta_0: 2.1243E-07 | 6: delta_r/delta_0: 1.0777E-07 | 7: delta_s/delta_0: 5.6693E-07 | 8: delta_r/delta_0: 2.8442E-08 | 9: delta_s/delta_0: 9.3411E-09 | 10: delta_r/delta_0: 2.0604E-09 | 11: delta_s/delta_0: 1.9696E-09 | 12: delta_r/delta_0: 1.3014E-09 | 13: delta_s/delta_0: 1.4807E-10 | 14: delta_r/delta_0: 9.1661E-11 | Reached bicg-stab tolerance | BP delta = 5.5330429E-02 0.1619851 3004108.20649188 | BP delta = 5.5330429E-02 0.1550650 3004102.13254315 | BP chisq diff = -6.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52179896 | --> Sampling calibration, mode = relcal | relcal = -5.1009182E-02 -3.7873895E-03 2.7334638E-02 2.7461933E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.3510927E-04 1.4471411E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5252E-05 | 2: delta_r/delta_0: 4.4399E-06 | 3: delta_s/delta_0: 4.2968E-06 | 4: delta_r/delta_0: 6.6986E-07 | 5: delta_s/delta_0: 4.7454E-08 | 6: delta_r/delta_0: 2.8301E-08 | 7: delta_s/delta_0: 2.6983E-07 | 8: delta_r/delta_0: 4.6062E-09 | 9: delta_s/delta_0: 3.5929E-09 | 10: delta_r/delta_0: 1.4221E-09 | 11: delta_s/delta_0: 2.5703E-09 | 12: delta_r/delta_0: 1.3823E-10 | 13: delta_s/delta_0: 5.7089E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.099819374216047E-002 5.480875343959843E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5252E-05 | 2: delta_r/delta_0: 4.4399E-06 | 3: delta_s/delta_0: 4.2968E-06 | 4: delta_r/delta_0: 6.6985E-07 | 5: delta_s/delta_0: 4.7454E-08 | 6: delta_r/delta_0: 2.8301E-08 | 7: delta_s/delta_0: 2.6979E-07 | 8: delta_r/delta_0: 4.6060E-09 | 9: delta_s/delta_0: 3.5928E-09 | 10: delta_r/delta_0: 1.4221E-09 | 11: delta_s/delta_0: 2.5696E-09 | 12: delta_r/delta_0: 1.3818E-10 | 13: delta_s/delta_0: 5.6969E-11 | Reached bicg-stab tolerance | BP delta = 5.2877761E-02 0.1479552 2434875.06477215 | BP delta = 5.2877761E-02 0.1360360 2434877.54316598 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42168975 | --> Sampling calibration, mode = relcal | relcal = 4.5611430E-02 3.9658368E-02 -2.8311849E-02 -5.6957949E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9138322E-03 3.9900704E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1695E-05 | 2: delta_r/delta_0: 3.8786E-06 | 3: delta_s/delta_0: 5.4688E-06 | 4: delta_r/delta_0: 8.5632E-07 | 5: delta_s/delta_0: 5.8878E-08 | 6: delta_r/delta_0: 3.8393E-08 | 7: delta_s/delta_0: 3.4265E-08 | 8: delta_r/delta_0: 1.4622E-08 | 9: delta_s/delta_0: 4.1160E-09 | 10: delta_r/delta_0: 4.2072E-10 | 11: delta_s/delta_0: 6.2984E-10 | 12: delta_r/delta_0: 4.6890E-10 | 13: delta_s/delta_0: 2.2555E-10 | 14: delta_r/delta_0: 1.4238E-10 | 15: delta_s/delta_0: 1.8505E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.492507324464100E-002 4.994470843030433E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1695E-05 | 2: delta_r/delta_0: 3.8786E-06 | 3: delta_s/delta_0: 5.4687E-06 | 4: delta_r/delta_0: 8.5629E-07 | 5: delta_s/delta_0: 5.8878E-08 | 6: delta_r/delta_0: 3.8393E-08 | 7: delta_s/delta_0: 3.4260E-08 | 8: delta_r/delta_0: 1.4622E-08 | 9: delta_s/delta_0: 4.1167E-09 | 10: delta_r/delta_0: 4.2071E-10 | 11: delta_s/delta_0: 6.2983E-10 | 12: delta_r/delta_0: 4.6885E-10 | 13: delta_s/delta_0: 2.2560E-10 | 14: delta_r/delta_0: 1.4235E-10 | 15: delta_s/delta_0: 1.8506E-11 | Reached bicg-stab tolerance | BP delta = 1.7444899E-02 -8.6111985E-02 2322236.03201586 | BP delta = 1.7444899E-02 -7.2548389E-02 2322234.64396803 | BP chisq diff = -1.4, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28172528 | --> Sampling calibration, mode = relcal | relcal = 2.4163591E-02 4.5177191E-02 -2.3342185E-02 -4.5998599E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0518953E-02 2.9827205E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0591E-04 | 2: delta_r/delta_0: 8.7426E-06 | 3: delta_s/delta_0: 1.3826E-06 | 4: delta_r/delta_0: 2.0919E-07 | 5: delta_s/delta_0: 8.6783E-08 | 6: delta_r/delta_0: 1.7584E-08 | 7: delta_s/delta_0: 8.7751E-09 | 8: delta_r/delta_0: 5.0436E-09 | 9: delta_s/delta_0: 5.6227E-08 | 10: delta_r/delta_0: 4.0971E-09 | 11: delta_s/delta_0: 2.5207E-09 | 12: delta_r/delta_0: 1.1467E-09 | 13: delta_s/delta_0: 1.6537E-10 | 14: delta_r/delta_0: 1.3493E-10 | 15: delta_s/delta_0: 1.0792E-10 | 16: delta_r/delta_0: 8.9974E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.032444845880179E-002 7.840697642815096E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0591E-04 | 2: delta_r/delta_0: 8.7426E-06 | 3: delta_s/delta_0: 1.3826E-06 | 4: delta_r/delta_0: 2.0919E-07 | 5: delta_s/delta_0: 8.6783E-08 | 6: delta_r/delta_0: 1.7584E-08 | 7: delta_s/delta_0: 8.7751E-09 | 8: delta_r/delta_0: 5.0436E-09 | 9: delta_s/delta_0: 5.6226E-08 | 10: delta_r/delta_0: 4.0971E-09 | 11: delta_s/delta_0: 2.5207E-09 | 12: delta_r/delta_0: 1.1467E-09 | 13: delta_s/delta_0: 1.6537E-10 | 14: delta_r/delta_0: 1.3493E-10 | 15: delta_s/delta_0: 1.0792E-10 | 16: delta_r/delta_0: 8.9974E-11 | Reached bicg-stab tolerance | BP delta = -0.1734356 -0.2981462 2490362.70505076 | BP delta = -0.1734356 -0.3013188 2490361.45114841 | BP chisq diff = -1.3, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29400936 | --> Sampling calibration, mode = relcal | relcal = 6.3223869E-04 1.0304023E-02 -3.8660087E-03 -7.0702527E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6129633E-02 1.7649496E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3067E-04 | 2: delta_r/delta_0: 1.1195E-05 | 3: delta_s/delta_0: 1.7451E-06 | 4: delta_r/delta_0: 2.8109E-07 | 5: delta_s/delta_0: 1.2916E-07 | 6: delta_r/delta_0: 2.1202E-08 | 7: delta_s/delta_0: 8.5681E-09 | 8: delta_r/delta_0: 5.8336E-09 | 9: delta_s/delta_0: 3.7561E-09 | 10: delta_r/delta_0: 2.8920E-09 | 11: delta_s/delta_0: 3.1953E-09 | 12: delta_r/delta_0: 1.3689E-09 | 13: delta_s/delta_0: 1.3557E-09 | 14: delta_r/delta_0: 7.6349E-10 | 15: delta_s/delta_0: 4.8878E-10 | 16: delta_r/delta_0: 3.9647E-10 | 17: delta_s/delta_0: 8.0985E-10 | 18: delta_r/delta_0: 3.4587E-10 | 19: delta_s/delta_0: 1.8015E-10 | 20: delta_r/delta_0: 1.4224E-10 | 21: delta_s/delta_0: 3.2383E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.045345417029311E-002 8.304230080850202E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3067E-04 | 2: delta_r/delta_0: 1.1195E-05 | 3: delta_s/delta_0: 1.7451E-06 | 4: delta_r/delta_0: 2.8109E-07 | 5: delta_s/delta_0: 1.2916E-07 | 6: delta_r/delta_0: 2.1202E-08 | 7: delta_s/delta_0: 8.5681E-09 | 8: delta_r/delta_0: 5.8336E-09 | 9: delta_s/delta_0: 3.7561E-09 | 10: delta_r/delta_0: 2.8920E-09 | 11: delta_s/delta_0: 3.1947E-09 | 12: delta_r/delta_0: 1.3690E-09 | 13: delta_s/delta_0: 1.3557E-09 | 14: delta_r/delta_0: 7.6376E-10 | 15: delta_s/delta_0: 4.8898E-10 | 16: delta_r/delta_0: 3.9665E-10 | 17: delta_s/delta_0: 8.1012E-10 | 18: delta_r/delta_0: 3.4601E-10 | 19: delta_s/delta_0: 1.8021E-10 | 20: delta_r/delta_0: 1.4229E-10 | 21: delta_s/delta_0: 3.2391E-11 | Reached bicg-stab tolerance | BP delta = -0.8896907 -0.8661680 2738590.06601403 | BP delta = -0.8896907 -0.8813311 2738590.65187610 | BP chisq diff = 0.6, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26512819 | --> Sampling calibration, mode = relcal | relcal = -5.6057442E-03 1.5070009E-02 -2.3535101E-03 -7.1107545E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.1282466E-03 3.0420842E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4025E-04 | 2: delta_r/delta_0: 1.1923E-05 | 3: delta_s/delta_0: 2.0295E-06 | 4: delta_r/delta_0: 2.0438E-07 | 5: delta_s/delta_0: 8.2329E-08 | 6: delta_r/delta_0: 1.6696E-08 | 7: delta_s/delta_0: 7.4199E-09 | 8: delta_r/delta_0: 4.8003E-09 | 9: delta_s/delta_0: 5.1196E-09 | 10: delta_r/delta_0: 3.5698E-09 | 11: delta_s/delta_0: 2.2512E-06 | 12: delta_r/delta_0: 2.0072E-07 | 13: delta_s/delta_0: 1.1902E-09 | 14: delta_r/delta_0: 7.2324E-10 | 15: delta_s/delta_0: 9.8391E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.000369814060806E-003 9.151326231183308E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4025E-04 | 2: delta_r/delta_0: 1.1923E-05 | 3: delta_s/delta_0: 2.0295E-06 | 4: delta_r/delta_0: 2.0440E-07 | 5: delta_s/delta_0: 8.2324E-08 | 6: delta_r/delta_0: 1.6697E-08 | 7: delta_s/delta_0: 7.4201E-09 | 8: delta_r/delta_0: 4.8004E-09 | 9: delta_s/delta_0: 5.1198E-09 | 10: delta_r/delta_0: 3.5698E-09 | 11: delta_s/delta_0: 2.2513E-06 | 12: delta_r/delta_0: 2.0075E-07 | 13: delta_s/delta_0: 1.1902E-09 | 14: delta_r/delta_0: 7.2325E-10 | 15: delta_s/delta_0: 9.8395E-11 | Reached bicg-stab tolerance | BP delta = 0.3933705 0.4334981 2516800.44429431 | BP delta = 0.3933705 0.4261221 2516800.45715663 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25672544 | --> Sampling calibration, mode = relcal | relcal = -3.1694427E-02 -2.5990797E-02 3.6887739E-02 2.0797487E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7693698E-02 1.9042004E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4617E-04 | 2: delta_r/delta_0: 1.1932E-05 | 3: delta_s/delta_0: 1.7953E-06 | 4: delta_r/delta_0: 5.1233E-07 | 5: delta_s/delta_0: 1.5545E-07 | 6: delta_r/delta_0: 3.9585E-08 | 7: delta_s/delta_0: 1.8779E-08 | 8: delta_r/delta_0: 8.9580E-09 | 9: delta_s/delta_0: 2.9399E-07 | 10: delta_r/delta_0: 8.3147E-09 | 11: delta_s/delta_0: 2.0601E-09 | 12: delta_r/delta_0: 9.3402E-10 | 13: delta_s/delta_0: 5.1301E-10 | 14: delta_r/delta_0: 1.9199E-10 | 15: delta_s/delta_0: 8.5562E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.193339333923624E-002 8.669266213893591E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4617E-04 | 2: delta_r/delta_0: 1.1932E-05 | 3: delta_s/delta_0: 1.7952E-06 | 4: delta_r/delta_0: 5.1230E-07 | 5: delta_s/delta_0: 1.5545E-07 | 6: delta_r/delta_0: 3.9581E-08 | 7: delta_s/delta_0: 1.8777E-08 | 8: delta_r/delta_0: 8.9572E-09 | 9: delta_s/delta_0: 2.9388E-07 | 10: delta_r/delta_0: 8.3131E-09 | 11: delta_s/delta_0: 2.0586E-09 | 12: delta_r/delta_0: 9.3266E-10 | 13: delta_s/delta_0: 5.1296E-10 | 14: delta_r/delta_0: 1.9198E-10 | 15: delta_s/delta_0: 8.5568E-11 | Reached bicg-stab tolerance | BP delta = -0.7906818 -0.9135902 2705919.50522518 | BP delta = -0.7906818 -0.9237537 2705900.44101625 | BP chisq diff = -19.1, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158609 | New value = -3.153248 | poltype: 2 pol: 1 CPU time specind = 2.9621124E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230608 | New value = -3.119775 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.077434 | New value = -3.119923 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112332 | New value = -3.192338 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203054 | New value = -3.103825 | poltype: 2 pol: 2 CPU time specind = 2.8499126E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.98 | CG iter. 1 -- res = 0.13549E+08, tol = 0.82846E+01, time = 5.01 | CG iter. 2 -- res = 0.33881E+06, tol = 0.82846E+01, time = 4.66 | CG iter. 3 -- res = 0.47536E+05, tol = 0.82846E+01, time = 4.75 | CG iter. 4 -- res = 0.20354E+05, tol = 0.82846E+01, time = 5.10 | CG iter. 5 -- res = 0.10286E+05, tol = 0.82846E+01, time = 4.59 | CG iter. 6 -- res = 0.57601E+04, tol = 0.82846E+01, time = 4.65 | CG iter. 7 -- res = 0.42851E+04, tol = 0.82846E+01, time = 4.97 | CG iter. 8 -- res = 0.34938E+04, tol = 0.82846E+01, time = 4.87 | CG iter. 9 -- res = 0.34799E+04, tol = 0.82846E+01, time = 4.78 | CG iter. 10 -- res = 0.38932E+04, tol = 0.82846E+01, time = 4.86 | CG iter. 11 -- res = 0.38085E+04, tol = 0.82846E+01, time = 4.74 | CG iter. 12 -- res = 0.28873E+04, tol = 0.82846E+01, time = 5.05 | CG iter. 13 -- res = 0.19679E+04, tol = 0.82846E+01, time = 4.47 | CG iter. 14 -- res = 0.15125E+04, tol = 0.82846E+01, time = 4.82 | CG iter. 15 -- res = 0.12682E+04, tol = 0.82846E+01, time = 4.81 | CG iter. 16 -- res = 0.10405E+04, tol = 0.82846E+01, time = 5.01 | CG iter. 17 -- res = 0.81306E+03, tol = 0.82846E+01, time = 6.29 | CG iter. 18 -- res = 0.69394E+03, tol = 0.82846E+01, time = 5.18 | CG iter. 19 -- res = 0.62929E+03, tol = 0.82846E+01, time = 4.80 | CG iter. 20 -- res = 0.52492E+03, tol = 0.82846E+01, time = 4.88 | CG iter. 21 -- res = 0.39503E+03, tol = 0.82846E+01, time = 5.01 | CG iter. 22 -- res = 0.30630E+03, tol = 0.82846E+01, time = 4.74 | CG iter. 23 -- res = 0.25888E+03, tol = 0.82846E+01, time = 4.87 | CG iter. 24 -- res = 0.23564E+03, tol = 0.82846E+01, time = 5.01 | CG iter. 25 -- res = 0.19358E+03, tol = 0.82846E+01, time = 4.67 | CG iter. 26 -- res = 0.15296E+03, tol = 0.82846E+01, time = 4.61 | CG iter. 27 -- res = 0.12775E+03, tol = 0.82846E+01, time = 4.97 | CG iter. 28 -- res = 0.11861E+03, tol = 0.82846E+01, time = 4.75 | CG iter. 29 -- res = 0.10163E+03, tol = 0.82846E+01, time = 5.03 | CG iter. 30 -- res = 0.83029E+02, tol = 0.82846E+01, time = 4.75 | CG iter. 31 -- res = 0.72072E+02, tol = 0.82846E+01, time = 5.34 | CG iter. 32 -- res = 0.64522E+02, tol = 0.82846E+01, time = 4.82 | CG iter. 33 -- res = 0.55022E+02, tol = 0.82846E+01, time = 4.74 | CG iter. 34 -- res = 0.42265E+02, tol = 0.82846E+01, time = 4.99 | CG iter. 35 -- res = 0.31678E+02, tol = 0.82846E+01, time = 4.93 | CG iter. 36 -- res = 0.26280E+02, tol = 0.82846E+01, time = 4.71 | CG iter. 37 -- res = 0.21167E+02, tol = 0.82846E+01, time = 4.77 | CG iter. 38 -- res = 0.15597E+02, tol = 0.82846E+01, time = 4.96 | CG iter. 39 -- res = 0.11448E+02, tol = 0.82846E+01, time = 4.95 | CG iter. 40 -- res = 0.86156E+01, tol = 0.82846E+01, time = 4.92 | CG iter. 41 -- res = 0.68440E+01, tol = 0.82846E+01, time = 4.79 | CG iter. 42 -- res = 0.50999E+01, tol = 0.82846E+01, time = 4.78 | CG iter. 43 -- res = 0.38210E+01, tol = 0.82846E+01, time = 5.06 | CG iter. 44 -- res = 0.28473E+01, tol = 0.82846E+01, time = 4.59 | CG iter. 45 -- res = 0.22348E+01, tol = 0.82846E+01, time = 4.91 | CG iter. 46 -- res = 0.18453E+01, tol = 0.82846E+01, time = 4.70 | CG iter. 47 -- res = 0.13739E+01, tol = 0.82846E+01, time = 4.65 | CG iter. 48 -- res = 0.10034E+01, tol = 0.82846E+01, time = 4.66 | CG iter. 49 -- res = 0.80922E+00, tol = 0.82846E+01, time = 4.80 | CG iter. 50 -- res = 0.65789E+00, tol = 0.82846E+01, time = 4.68 | Final CG iter 51 -- res = 0.65789E+00, tol = 0.82846E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8040428.717 | Old band monopole 8419183.352 | Change to band monopole -378754.635 | Change to component monopole 378753.006 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.47 | CG iter. 1 -- res = 0.59010E+04, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.17112E+02, tol = 0.47627E+18, time = 1.70 | CG iter. 3 -- res = 0.18878E+00, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.93840E-04, tol = 0.47627E+18, time = 1.71 | Final CG iter 5 -- res = 0.82870E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8040394.133 | (Sampled value in CG: 8044024.370 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.529909 | New value = 1.469785 | poltype: 2 pol: 1 CPU time specind = 3.4613848E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.500294 | New value = 1.503907 | poltype: 2 pol: 2 CPU time specind = 2.0833969E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.24752E+08, tol = 0.47480E+04, time = 5.60 | CG iter. 2 -- res = 0.53976E+07, tol = 0.47480E+04, time = 5.32 | CG iter. 3 -- res = 0.86486E+06, tol = 0.47480E+04, time = 5.53 | CG iter. 4 -- res = 0.35471E+06, tol = 0.47480E+04, time = 6.32 | CG iter. 5 -- res = 0.15739E+06, tol = 0.47480E+04, time = 7.54 | CG iter. 6 -- res = 0.81987E+05, tol = 0.47480E+04, time = 6.06 | CG iter. 7 -- res = 0.44538E+05, tol = 0.47480E+04, time = 5.29 | CG iter. 8 -- res = 0.21564E+05, tol = 0.47480E+04, time = 5.59 | CG iter. 9 -- res = 0.92499E+04, tol = 0.47480E+04, time = 5.60 | CG iter. 10 -- res = 0.37278E+04, tol = 0.47480E+04, time = 5.54 | CG iter. 11 -- res = 0.16762E+04, tol = 0.47480E+04, time = 5.71 | CG iter. 12 -- res = 0.86573E+03, tol = 0.47480E+04, time = 5.43 | CG iter. 13 -- res = 0.48501E+03, tol = 0.47480E+04, time = 5.52 | CG iter. 14 -- res = 0.27529E+03, tol = 0.47480E+04, time = 5.68 | CG iter. 15 -- res = 0.14365E+03, tol = 0.47480E+04, time = 5.33 | CG iter. 16 -- res = 0.68169E+02, tol = 0.47480E+04, time = 5.70 | CG iter. 17 -- res = 0.32024E+02, tol = 0.47480E+04, time = 5.53 | CG iter. 18 -- res = 0.15779E+02, tol = 0.47480E+04, time = 5.59 | CG iter. 19 -- res = 0.86089E+01, tol = 0.47480E+04, time = 5.41 | CG iter. 20 -- res = 0.48981E+01, tol = 0.47480E+04, time = 5.41 | CG iter. 21 -- res = 0.26649E+01, tol = 0.47480E+04, time = 5.49 | CG iter. 22 -- res = 0.13760E+01, tol = 0.47480E+04, time = 5.66 | CG iter. 23 -- res = 0.67821E+00, tol = 0.47480E+04, time = 6.24 | CG iter. 24 -- res = 0.33882E+00, tol = 0.47480E+04, time = 5.53 | CG iter. 25 -- res = 0.18626E+00, tol = 0.47480E+04, time = 5.54 | CG iter. 26 -- res = 0.10403E+00, tol = 0.47480E+04, time = 5.55 | CG iter. 27 -- res = 0.58225E-01, tol = 0.47480E+04, time = 5.39 | CG iter. 28 -- res = 0.30795E-01, tol = 0.47480E+04, time = 5.66 | CG iter. 29 -- res = 0.15830E-01, tol = 0.47480E+04, time = 5.40 | CG iter. 30 -- res = 0.84209E-02, tol = 0.47480E+04, time = 5.34 | CG iter. 31 -- res = 0.46974E-02, tol = 0.47480E+04, time = 5.31 | CG iter. 32 -- res = 0.26751E-02, tol = 0.47480E+04, time = 5.40 | CG iter. 33 -- res = 0.15065E-02, tol = 0.47480E+04, time = 5.45 | CG iter. 34 -- res = 0.82216E-03, tol = 0.47480E+04, time = 5.56 | CG iter. 35 -- res = 0.43985E-03, tol = 0.47480E+04, time = 5.56 | Final CG iter 36 -- res = 0.43985E-03, tol = 0.47480E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.708 2.737 | New value 0.880 | Old value -1.708 | Difference 2.588 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.35260E+06, tol = 0.47627E+18, time = 3.60 | CG iter. 2 -- res = 0.22497E+02, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.52877E+00, tol = 0.47627E+18, time = 1.60 | CG iter. 4 -- res = 0.66969E-04, tol = 0.47627E+18, time = 1.59 | Final CG iter 5 -- res = 0.43846E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8040394.133 | (Sampled value in CG: 8043502.633 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.631289 | New value = -3.714471 | poltype: 1 pol: 1 CPU time specind = 1.2350082E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.21553E+07, tol = 0.25627E+01, time = 2.33 | CG iter. 2 -- res = 0.59208E+06, tol = 0.25627E+01, time = 2.15 | CG iter. 3 -- res = 0.12198E+06, tol = 0.25627E+01, time = 2.51 | CG iter. 4 -- res = 0.55050E+05, tol = 0.25627E+01, time = 2.05 | CG iter. 5 -- res = 0.33837E+05, tol = 0.25627E+01, time = 2.26 | CG iter. 6 -- res = 0.16616E+05, tol = 0.25627E+01, time = 2.44 | CG iter. 7 -- res = 0.63958E+04, tol = 0.25627E+01, time = 2.13 | CG iter. 8 -- res = 0.27232E+04, tol = 0.25627E+01, time = 2.31 | CG iter. 9 -- res = 0.11311E+04, tol = 0.25627E+01, time = 2.18 | CG iter. 10 -- res = 0.45916E+03, tol = 0.25627E+01, time = 2.45 | CG iter. 11 -- res = 0.21197E+03, tol = 0.25627E+01, time = 2.16 | CG iter. 12 -- res = 0.10753E+03, tol = 0.25627E+01, time = 2.14 | CG iter. 13 -- res = 0.52680E+02, tol = 0.25627E+01, time = 2.27 | CG iter. 14 -- res = 0.25303E+02, tol = 0.25627E+01, time = 2.27 | CG iter. 15 -- res = 0.10463E+02, tol = 0.25627E+01, time = 2.19 | CG iter. 16 -- res = 0.44532E+01, tol = 0.25627E+01, time = 2.25 | CG iter. 17 -- res = 0.20478E+01, tol = 0.25627E+01, time = 2.12 | CG iter. 18 -- res = 0.99009E+00, tol = 0.25627E+01, time = 2.16 | CG iter. 19 -- res = 0.48936E+00, tol = 0.25627E+01, time = 2.29 | CG iter. 20 -- res = 0.24038E+00, tol = 0.25627E+01, time = 2.30 | CG iter. 21 -- res = 0.11484E+00, tol = 0.25627E+01, time = 2.25 | CG iter. 22 -- res = 0.49467E-01, tol = 0.25627E+01, time = 2.22 | CG iter. 23 -- res = 0.22277E-01, tol = 0.25627E+01, time = 2.39 | CG iter. 24 -- res = 0.11016E-01, tol = 0.25627E+01, time = 2.24 | CG iter. 25 -- res = 0.54974E-02, tol = 0.25627E+01, time = 2.31 | CG iter. 26 -- res = 0.26789E-02, tol = 0.25627E+01, time = 2.13 | CG iter. 27 -- res = 0.12851E-02, tol = 0.25627E+01, time = 2.33 | CG iter. 28 -- res = 0.60376E-03, tol = 0.25627E+01, time = 2.27 | CG iter. 29 -- res = 0.26218E-03, tol = 0.25627E+01, time = 2.13 | CG iter. 30 -- res = 0.12763E-03, tol = 0.25627E+01, time = 2.29 | CG iter. 31 -- res = 0.64358E-04, tol = 0.25627E+01, time = 2.36 | CG iter. 32 -- res = 0.31811E-04, tol = 0.25627E+01, time = 2.25 | CG iter. 33 -- res = 0.14102E-04, tol = 0.25627E+01, time = 2.32 | CG iter. 34 -- res = 0.65396E-05, tol = 0.25627E+01, time = 2.23 | CG iter. 35 -- res = 0.29982E-05, tol = 0.25627E+01, time = 2.39 | CG iter. 36 -- res = 0.14806E-05, tol = 0.25627E+01, time = 2.60 | CG iter. 37 -- res = 0.76810E-06, tol = 0.25627E+01, time = 2.13 | CG iter. 38 -- res = 0.38566E-06, tol = 0.25627E+01, time = 2.17 | CG iter. 39 -- res = 0.16832E-06, tol = 0.25627E+01, time = 2.83 | CG iter. 40 -- res = 0.77353E-07, tol = 0.25627E+01, time = 8.15 | CG iter. 41 -- res = 0.37537E-07, tol = 0.25627E+01, time = 2.24 | CG iter. 42 -- res = 0.17802E-07, tol = 0.25627E+01, time = 2.17 | CG iter. 43 -- res = 0.93618E-08, tol = 0.25627E+01, time = 2.27 | CG iter. 44 -- res = 0.44942E-08, tol = 0.25627E+01, time = 2.23 | CG iter. 45 -- res = 0.20140E-08, tol = 0.25627E+01, time = 2.15 | CG iter. 46 -- res = 0.90490E-09, tol = 0.25627E+01, time = 2.13 | CG iter. 47 -- res = 0.41977E-09, tol = 0.25627E+01, time = 2.44 | CG iter. 48 -- res = 0.21314E-09, tol = 0.25627E+01, time = 1.97 | CG iter. 49 -- res = 0.10546E-09, tol = 0.25627E+01, time = 2.30 | CG iter. 50 -- res = 0.49608E-10, tol = 0.25627E+01, time = 2.18 | Final CG iter 51 -- res = 0.49608E-10, tol = 0.25627E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.920 4.567 | New value -4.154 | Old value -0.920 | Difference -3.234 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.10448E+05, tol = 0.47627E+18, time = 1.65 | CG iter. 2 -- res = 0.17212E+02, tol = 0.47627E+18, time = 1.68 | CG iter. 3 -- res = 0.31965E+00, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.92848E-04, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.56662E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8040394.133 | (Sampled value in CG: 8043946.714 ) | CPU time specind = 1019.859 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.70703E+08, tol = 0.57886E+04, time = 9.73 | CG iter. 2 -- res = 0.59899E+08, tol = 0.57886E+04, time = 9.95 | CG iter. 3 -- res = 0.15625E+08, tol = 0.57886E+04, time = 9.96 | CG iter. 4 -- res = 0.67364E+07, tol = 0.57886E+04, time = 10.03 | CG iter. 5 -- res = 0.40126E+07, tol = 0.57886E+04, time = 10.01 | CG iter. 6 -- res = 0.23255E+07, tol = 0.57886E+04, time = 10.25 | CG iter. 7 -- res = 0.13595E+07, tol = 0.57886E+04, time = 9.82 | CG iter. 8 -- res = 0.89618E+06, tol = 0.57886E+04, time = 10.35 | CG iter. 9 -- res = 0.58764E+06, tol = 0.57886E+04, time = 10.29 | CG iter. 10 -- res = 0.35245E+06, tol = 0.57886E+04, time = 10.54 | CG iter. 11 -- res = 0.18467E+06, tol = 0.57886E+04, time = 10.03 | CG iter. 12 -- res = 0.95859E+05, tol = 0.57886E+04, time = 10.22 | CG iter. 13 -- res = 0.51395E+05, tol = 0.57886E+04, time = 9.66 | CG iter. 14 -- res = 0.29599E+05, tol = 0.57886E+04, time = 10.00 | CG iter. 15 -- res = 0.18104E+05, tol = 0.57886E+04, time = 10.29 | CG iter. 16 -- res = 0.12186E+05, tol = 0.57886E+04, time = 9.97 | CG iter. 17 -- res = 0.85438E+04, tol = 0.57886E+04, time = 9.82 | CG iter. 18 -- res = 0.57417E+04, tol = 0.57886E+04, time = 9.93 | CG iter. 19 -- res = 0.37161E+04, tol = 0.57886E+04, time = 15.12 | CG iter. 20 -- res = 0.24849E+04, tol = 0.57886E+04, time = 11.58 | CG iter. 21 -- res = 0.17314E+04, tol = 0.57886E+04, time = 9.91 | CG iter. 22 -- res = 0.13541E+04, tol = 0.57886E+04, time = 10.12 | CG iter. 23 -- res = 0.11840E+04, tol = 0.57886E+04, time = 9.70 | CG iter. 24 -- res = 0.11694E+04, tol = 0.57886E+04, time = 10.38 | CG iter. 25 -- res = 0.12251E+04, tol = 0.57886E+04, time = 9.84 | CG iter. 26 -- res = 0.12481E+04, tol = 0.57886E+04, time = 10.21 | CG iter. 27 -- res = 0.12050E+04, tol = 0.57886E+04, time = 10.11 | CG iter. 28 -- res = 0.11503E+04, tol = 0.57886E+04, time = 12.02 | CG iter. 29 -- res = 0.10638E+04, tol = 0.57886E+04, time = 10.16 | CG iter. 30 -- res = 0.98998E+03, tol = 0.57886E+04, time = 10.15 | CG iter. 31 -- res = 0.91336E+03, tol = 0.57886E+04, time = 10.11 | CG iter. 32 -- res = 0.83692E+03, tol = 0.57886E+04, time = 10.11 | CG iter. 33 -- res = 0.71076E+03, tol = 0.57886E+04, time = 9.92 | CG iter. 34 -- res = 0.53313E+03, tol = 0.57886E+04, time = 10.08 | CG iter. 35 -- res = 0.38979E+03, tol = 0.57886E+04, time = 10.25 | CG iter. 36 -- res = 0.29790E+03, tol = 0.57886E+04, time = 10.08 | CG iter. 37 -- res = 0.24678E+03, tol = 0.57886E+04, time = 10.09 | CG iter. 38 -- res = 0.21514E+03, tol = 0.57886E+04, time = 10.23 | CG iter. 39 -- res = 0.19487E+03, tol = 0.57886E+04, time = 10.09 | CG iter. 40 -- res = 0.17792E+03, tol = 0.57886E+04, time = 9.79 | CG iter. 41 -- res = 0.15666E+03, tol = 0.57886E+04, time = 10.03 | CG iter. 42 -- res = 0.13291E+03, tol = 0.57886E+04, time = 10.01 | CG iter. 43 -- res = 0.11525E+03, tol = 0.57886E+04, time = 9.98 | CG iter. 44 -- res = 0.10705E+03, tol = 0.57886E+04, time = 10.00 | CG iter. 45 -- res = 0.99827E+02, tol = 0.57886E+04, time = 9.79 | CG iter. 46 -- res = 0.92591E+02, tol = 0.57886E+04, time = 9.91 | CG iter. 47 -- res = 0.86185E+02, tol = 0.57886E+04, time = 10.22 | CG iter. 48 -- res = 0.75387E+02, tol = 0.57886E+04, time = 11.58 | CG iter. 49 -- res = 0.60973E+02, tol = 0.57886E+04, time = 14.89 | CG iter. 50 -- res = 0.50323E+02, tol = 0.57886E+04, time = 9.99 | CG iter. 51 -- res = 0.42784E+02, tol = 0.57886E+04, time = 9.81 | CG iter. 52 -- res = 0.37929E+02, tol = 0.57886E+04, time = 9.91 | CG iter. 53 -- res = 0.34679E+02, tol = 0.57886E+04, time = 10.07 | CG iter. 54 -- res = 0.32032E+02, tol = 0.57886E+04, time = 9.86 | CG iter. 55 -- res = 0.29565E+02, tol = 0.57886E+04, time = 10.33 | CG iter. 56 -- res = 0.26303E+02, tol = 0.57886E+04, time = 10.02 | CG iter. 57 -- res = 0.23966E+02, tol = 0.57886E+04, time = 11.60 | CG iter. 58 -- res = 0.22681E+02, tol = 0.57886E+04, time = 10.32 | CG iter. 59 -- res = 0.22446E+02, tol = 0.57886E+04, time = 10.10 | CG iter. 60 -- res = 0.22329E+02, tol = 0.57886E+04, time = 10.11 | Final CG iter 61 -- res = 0.22329E+02, tol = 0.57886E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.637 ( -230.078 -2229.206 2511.360 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7889684.229 | Old band monopole 8040428.717 | Change to band monopole -150744.488 | Change to component monopole 150743.840 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.890 2.755 | New value -6.195 | Old value 0.890 | Difference -7.085 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.388 ( 7.943 9.330 -8.290 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.950 5.076 | New value 7.470 | Old value 1.950 | Difference 5.520 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.27061E+07, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.58055E+02, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.25717E+01, tol = 0.47627E+18, time = 1.73 | CG iter. 4 -- res = 0.39838E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.48499E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7889650.294 | (Sampled value in CG: 7866954.959 ) | Chain = 1 -- chisq = 0.81546679E+09 | Chain = 1 -- wall time = 18096.535 sec Available RAM: MemAvailable: 494072096 kB Available Swap: SwapFree: 1054990980 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 197 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443735 | --> Sampling calibration, mode = relcal | relcal = 1.3434067E-02 7.4480049E-04 -1.5976954E-03 -1.2581172E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1217151 0.1434259 97043559.5196713 | BP delta = 0.1316417 0.1533524 97043554.9745539 | BP chisq diff = -4.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632487 | --> Sampling calibration, mode = relcal | relcal = -2.8212471E-03 -7.0309557E-04 1.6771124E-03 1.6144555E-03 -4.0795363E-04 6.4072834E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5655822 15216714.2714487 | BP delta = 0.0000000E+00 -0.5588135 15216714.0534491 | BP chisq diff = -0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17952391870829 | --> Sampling calibration, mode = relcal | relcal = -7.4449614E-02 -5.8090948E-02 9.1265030E-02 4.1275531E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2898240E-04 3.9751003E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.1493E-05 | 2: delta_r/delta_0: 2.1819E-06 | 3: delta_s/delta_0: 2.1667E-07 | 4: delta_r/delta_0: 1.5036E-08 | 5: delta_s/delta_0: 4.2382E-09 | 6: delta_r/delta_0: 8.3133E-10 | 7: delta_s/delta_0: 6.1204E-09 | 8: delta_r/delta_0: 1.2951E-10 | 9: delta_s/delta_0: 2.0687E-10 | 10: delta_r/delta_0: 5.0284E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.168252347852531E-004 2.744556108096037E-005 | BP delta = 4.1382316E-02 5.8160342E-02 50481659.8444792 | BP delta = 3.7067708E-02 5.3845733E-02 50481658.1691540 | BP chisq diff = -1.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02578463 | --> Sampling calibration, mode = relcal | relcal = -0.1066190 -9.5490083E-02 0.1448123 5.7296798E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0545890E-03 1.5775500E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4185E-05 | 2: delta_r/delta_0: 1.5695E-06 | 3: delta_s/delta_0: 2.4025E-07 | 4: delta_r/delta_0: 3.8363E-08 | 5: delta_s/delta_0: 2.7466E-08 | 6: delta_r/delta_0: 6.3754E-09 | 7: delta_s/delta_0: 4.6106E-09 | 8: delta_r/delta_0: 1.7327E-09 | 9: delta_s/delta_0: 8.3076E-10 | 10: delta_r/delta_0: 6.2993E-10 | 11: delta_s/delta_0: 1.2526E-09 | 12: delta_r/delta_0: 1.0772E-10 | 13: delta_s/delta_0: 9.7588E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.003970328000525E-002 2.811394038654527E-005 | BP delta = -0.2585694 -0.2357686 57386147.1289047 | BP delta = -0.2521337 -0.2293329 57386147.4679873 | BP chisq diff = 0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231367 | --> Sampling calibration, mode = relcal | relcal = 0.2955391 0.2248004 -0.2837389 -0.2366007 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.4836437E-04 5.4639131E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1871E-01 | 2: delta_r/delta_0: 2.8055E-03 | 3: delta_s/delta_0: 4.5698E-03 | 4: delta_r/delta_0: 3.5549E-04 | 5: delta_s/delta_0: 1.0595E-05 | 6: delta_r/delta_0: 2.5347E-06 | 7: delta_s/delta_0: 1.8767E-05 | 8: delta_r/delta_0: 4.6065E-06 | 9: delta_s/delta_0: 1.4869E-06 | 10: delta_r/delta_0: 3.6137E-07 | 11: delta_s/delta_0: 1.9873E-07 | 12: delta_r/delta_0: 3.1849E-08 | 13: delta_s/delta_0: 3.4517E-06 | 14: delta_r/delta_0: 1.2581E-06 | 15: delta_s/delta_0: 1.5831E-09 | 16: delta_r/delta_0: 5.2496E-10 | 17: delta_s/delta_0: 2.1775E-10 | 18: delta_r/delta_0: 5.7727E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.252393107234276E-002 4.021277104474040E-005 | BP delta = -0.1224145 -0.1512233 72491659.3603154 | BP delta = -0.1283548 -0.1571637 72491659.3114233 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95914144 | --> Sampling calibration, mode = relcal | relcal = 0.1065001 0.1396385 -0.1102986 -0.1358401 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0010870E-02 1.4159542E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9566E-04 | 2: delta_r/delta_0: 5.1233E-06 | 3: delta_s/delta_0: 1.8677E-05 | 4: delta_r/delta_0: 1.8549E-06 | 5: delta_s/delta_0: 1.8472E-07 | 6: delta_r/delta_0: 1.1821E-07 | 7: delta_s/delta_0: 9.0400E-07 | 8: delta_r/delta_0: 2.4176E-08 | 9: delta_s/delta_0: 4.7155E-07 | 10: delta_r/delta_0: 1.9815E-07 | 11: delta_s/delta_0: 1.2922E-09 | 12: delta_r/delta_0: 7.0610E-10 | 13: delta_s/delta_0: 1.3188E-09 | 14: delta_r/delta_0: 1.2586E-10 | 15: delta_s/delta_0: 5.1143E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.944649049723727E-002 3.697296465256871E-005 | BP delta = 5.5330429E-02 0.1550650 72779733.3425314 | BP delta = 3.2992125E-02 0.1327267 72779734.4899775 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153248 | New value = -3.191257 | poltype: 2 pol: 1 CPU time specind = 1.3143063E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119775 | New value = -3.118207 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119923 | New value = -3.166615 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.192338 | New value = -3.174241 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.103825 | New value = -3.142089 | poltype: 2 pol: 2 CPU time specind = 3.0647993E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.13539E+08, tol = 0.86058E+01, time = 5.42 | CG iter. 2 -- res = 0.32876E+06, tol = 0.86058E+01, time = 5.14 | CG iter. 3 -- res = 0.48471E+05, tol = 0.86058E+01, time = 5.01 | CG iter. 4 -- res = 0.26449E+05, tol = 0.86058E+01, time = 5.17 | CG iter. 5 -- res = 0.17656E+05, tol = 0.86058E+01, time = 5.11 | CG iter. 6 -- res = 0.14072E+05, tol = 0.86058E+01, time = 5.24 | CG iter. 7 -- res = 0.13924E+05, tol = 0.86058E+01, time = 4.94 | CG iter. 8 -- res = 0.13180E+05, tol = 0.86058E+01, time = 5.29 | CG iter. 9 -- res = 0.13296E+05, tol = 0.86058E+01, time = 5.35 | CG iter. 10 -- res = 0.13082E+05, tol = 0.86058E+01, time = 5.18 | CG iter. 11 -- res = 0.97218E+04, tol = 0.86058E+01, time = 5.05 | CG iter. 12 -- res = 0.64508E+04, tol = 0.86058E+01, time = 6.92 | CG iter. 13 -- res = 0.46118E+04, tol = 0.86058E+01, time = 9.87 | CG iter. 14 -- res = 0.38255E+04, tol = 0.86058E+01, time = 5.06 | CG iter. 15 -- res = 0.35482E+04, tol = 0.86058E+01, time = 5.33 | CG iter. 16 -- res = 0.28480E+04, tol = 0.86058E+01, time = 5.15 | CG iter. 17 -- res = 0.21536E+04, tol = 0.86058E+01, time = 5.40 | CG iter. 18 -- res = 0.17081E+04, tol = 0.86058E+01, time = 5.14 | CG iter. 19 -- res = 0.14733E+04, tol = 0.86058E+01, time = 4.75 | CG iter. 20 -- res = 0.12238E+04, tol = 0.86058E+01, time = 5.28 | CG iter. 21 -- res = 0.92861E+03, tol = 0.86058E+01, time = 5.47 | CG iter. 22 -- res = 0.73909E+03, tol = 0.86058E+01, time = 4.97 | CG iter. 23 -- res = 0.68368E+03, tol = 0.86058E+01, time = 5.27 | CG iter. 24 -- res = 0.59673E+03, tol = 0.86058E+01, time = 5.21 | CG iter. 25 -- res = 0.49085E+03, tol = 0.86058E+01, time = 5.12 | CG iter. 26 -- res = 0.39360E+03, tol = 0.86058E+01, time = 5.09 | CG iter. 27 -- res = 0.34817E+03, tol = 0.86058E+01, time = 5.07 | CG iter. 28 -- res = 0.31964E+03, tol = 0.86058E+01, time = 4.98 | CG iter. 29 -- res = 0.27818E+03, tol = 0.86058E+01, time = 6.65 | CG iter. 30 -- res = 0.22753E+03, tol = 0.86058E+01, time = 5.75 | CG iter. 31 -- res = 0.20172E+03, tol = 0.86058E+01, time = 5.47 | CG iter. 32 -- res = 0.18202E+03, tol = 0.86058E+01, time = 5.22 | CG iter. 33 -- res = 0.15550E+03, tol = 0.86058E+01, time = 5.18 | CG iter. 34 -- res = 0.11813E+03, tol = 0.86058E+01, time = 5.40 | CG iter. 35 -- res = 0.10191E+03, tol = 0.86058E+01, time = 5.13 | CG iter. 36 -- res = 0.89891E+02, tol = 0.86058E+01, time = 5.14 | CG iter. 37 -- res = 0.78999E+02, tol = 0.86058E+01, time = 5.26 | CG iter. 38 -- res = 0.61645E+02, tol = 0.86058E+01, time = 5.23 | CG iter. 39 -- res = 0.47858E+02, tol = 0.86058E+01, time = 5.16 | CG iter. 40 -- res = 0.41117E+02, tol = 0.86058E+01, time = 5.22 | CG iter. 41 -- res = 0.35285E+02, tol = 0.86058E+01, time = 5.42 | CG iter. 42 -- res = 0.27309E+02, tol = 0.86058E+01, time = 5.18 | CG iter. 43 -- res = 0.21315E+02, tol = 0.86058E+01, time = 5.12 | CG iter. 44 -- res = 0.17647E+02, tol = 0.86058E+01, time = 5.32 | CG iter. 45 -- res = 0.14442E+02, tol = 0.86058E+01, time = 4.95 | CG iter. 46 -- res = 0.11371E+02, tol = 0.86058E+01, time = 5.10 | CG iter. 47 -- res = 0.87393E+01, tol = 0.86058E+01, time = 5.12 | CG iter. 48 -- res = 0.69340E+01, tol = 0.86058E+01, time = 5.38 | CG iter. 49 -- res = 0.58240E+01, tol = 0.86058E+01, time = 4.97 | CG iter. 50 -- res = 0.47118E+01, tol = 0.86058E+01, time = 5.83 | Final CG iter 51 -- res = 0.47118E+01, tol = 0.86058E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9820146.162 | Old band monopole 7889684.229 | Change to band monopole 1930461.933 | Change to component monopole -1930453.629 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.23898E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.10404E+03, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.33340E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.69434E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.10107E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9820103.923 | (Sampled value in CG: 9789287.105 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.469785 | New value = 1.546322 | poltype: 2 pol: 1 CPU time specind = 7.7080727E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.503907 | New value = 1.520852 | poltype: 2 pol: 2 CPU time specind = 4.2459965E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.25265E+08, tol = 0.47600E+04, time = 5.83 | CG iter. 2 -- res = 0.53719E+07, tol = 0.47600E+04, time = 5.52 | CG iter. 3 -- res = 0.84692E+06, tol = 0.47600E+04, time = 6.06 | CG iter. 4 -- res = 0.35443E+06, tol = 0.47600E+04, time = 5.71 | CG iter. 5 -- res = 0.15249E+06, tol = 0.47600E+04, time = 6.06 | CG iter. 6 -- res = 0.79839E+05, tol = 0.47600E+04, time = 5.84 | CG iter. 7 -- res = 0.43544E+05, tol = 0.47600E+04, time = 6.09 | CG iter. 8 -- res = 0.21368E+05, tol = 0.47600E+04, time = 6.05 | CG iter. 9 -- res = 0.91914E+04, tol = 0.47600E+04, time = 5.83 | CG iter. 10 -- res = 0.36755E+04, tol = 0.47600E+04, time = 5.76 | CG iter. 11 -- res = 0.16834E+04, tol = 0.47600E+04, time = 5.70 | CG iter. 12 -- res = 0.86836E+03, tol = 0.47600E+04, time = 5.97 | CG iter. 13 -- res = 0.49159E+03, tol = 0.47600E+04, time = 6.13 | CG iter. 14 -- res = 0.27692E+03, tol = 0.47600E+04, time = 7.28 | CG iter. 15 -- res = 0.14483E+03, tol = 0.47600E+04, time = 6.50 | CG iter. 16 -- res = 0.68902E+02, tol = 0.47600E+04, time = 6.22 | CG iter. 17 -- res = 0.31811E+02, tol = 0.47600E+04, time = 5.88 | CG iter. 18 -- res = 0.15765E+02, tol = 0.47600E+04, time = 6.13 | CG iter. 19 -- res = 0.85620E+01, tol = 0.47600E+04, time = 5.69 | CG iter. 20 -- res = 0.48617E+01, tol = 0.47600E+04, time = 5.67 | CG iter. 21 -- res = 0.26593E+01, tol = 0.47600E+04, time = 6.11 | CG iter. 22 -- res = 0.13930E+01, tol = 0.47600E+04, time = 5.75 | CG iter. 23 -- res = 0.70114E+00, tol = 0.47600E+04, time = 5.89 | CG iter. 24 -- res = 0.35710E+00, tol = 0.47600E+04, time = 5.93 | CG iter. 25 -- res = 0.19447E+00, tol = 0.47600E+04, time = 5.85 | CG iter. 26 -- res = 0.10939E+00, tol = 0.47600E+04, time = 5.99 | CG iter. 27 -- res = 0.60179E-01, tol = 0.47600E+04, time = 6.03 | CG iter. 28 -- res = 0.32252E-01, tol = 0.47600E+04, time = 5.94 | CG iter. 29 -- res = 0.16871E-01, tol = 0.47600E+04, time = 5.95 | CG iter. 30 -- res = 0.89335E-02, tol = 0.47600E+04, time = 5.86 | CG iter. 31 -- res = 0.49007E-02, tol = 0.47600E+04, time = 5.88 | CG iter. 32 -- res = 0.27629E-02, tol = 0.47600E+04, time = 5.73 | CG iter. 33 -- res = 0.15738E-02, tol = 0.47600E+04, time = 5.91 | CG iter. 34 -- res = 0.85611E-03, tol = 0.47600E+04, time = 5.99 | CG iter. 35 -- res = 0.44891E-03, tol = 0.47600E+04, time = 5.87 | Final CG iter 36 -- res = 0.44891E-03, tol = 0.47600E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.217 2.749 | New value -0.995 | Old value -6.217 | Difference 5.222 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.14234E+07, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.37615E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.99313E+00, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.12080E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.36806E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9820103.923 | (Sampled value in CG: 9789426.480 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.714471 | New value = -3.499941 | poltype: 1 pol: 1 CPU time specind = 7.5669289E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.25759E+07, tol = 0.21687E+01, time = 2.58 | CG iter. 2 -- res = 0.10839E+07, tol = 0.21687E+01, time = 2.50 | CG iter. 3 -- res = 0.21400E+06, tol = 0.21687E+01, time = 2.42 | CG iter. 4 -- res = 0.90008E+05, tol = 0.21687E+01, time = 2.67 | CG iter. 5 -- res = 0.52551E+05, tol = 0.21687E+01, time = 2.61 | CG iter. 6 -- res = 0.25570E+05, tol = 0.21687E+01, time = 3.07 | CG iter. 7 -- res = 0.96415E+04, tol = 0.21687E+01, time = 2.47 | CG iter. 8 -- res = 0.44092E+04, tol = 0.21687E+01, time = 2.40 | CG iter. 9 -- res = 0.20359E+04, tol = 0.21687E+01, time = 2.52 | CG iter. 10 -- res = 0.78492E+03, tol = 0.21687E+01, time = 2.34 | CG iter. 11 -- res = 0.33220E+03, tol = 0.21687E+01, time = 2.68 | CG iter. 12 -- res = 0.15560E+03, tol = 0.21687E+01, time = 2.47 | CG iter. 13 -- res = 0.79654E+02, tol = 0.21687E+01, time = 2.32 | CG iter. 14 -- res = 0.42071E+02, tol = 0.21687E+01, time = 2.54 | CG iter. 15 -- res = 0.20794E+02, tol = 0.21687E+01, time = 2.25 | CG iter. 16 -- res = 0.93100E+01, tol = 0.21687E+01, time = 2.34 | CG iter. 17 -- res = 0.37899E+01, tol = 0.21687E+01, time = 2.58 | CG iter. 18 -- res = 0.16944E+01, tol = 0.21687E+01, time = 2.37 | CG iter. 19 -- res = 0.79159E+00, tol = 0.21687E+01, time = 2.67 | CG iter. 20 -- res = 0.40711E+00, tol = 0.21687E+01, time = 2.45 | CG iter. 21 -- res = 0.20919E+00, tol = 0.21687E+01, time = 2.44 | CG iter. 22 -- res = 0.10408E+00, tol = 0.21687E+01, time = 2.48 | CG iter. 23 -- res = 0.48344E-01, tol = 0.21687E+01, time = 2.31 | CG iter. 24 -- res = 0.22028E-01, tol = 0.21687E+01, time = 2.41 | CG iter. 25 -- res = 0.10811E-01, tol = 0.21687E+01, time = 2.55 | CG iter. 26 -- res = 0.51247E-02, tol = 0.21687E+01, time = 2.39 | CG iter. 27 -- res = 0.26730E-02, tol = 0.21687E+01, time = 2.62 | CG iter. 28 -- res = 0.13923E-02, tol = 0.21687E+01, time = 2.52 | CG iter. 29 -- res = 0.66045E-03, tol = 0.21687E+01, time = 2.44 | CG iter. 30 -- res = 0.31062E-03, tol = 0.21687E+01, time = 2.10 | CG iter. 31 -- res = 0.14460E-03, tol = 0.21687E+01, time = 2.76 | CG iter. 32 -- res = 0.70438E-04, tol = 0.21687E+01, time = 2.64 | CG iter. 33 -- res = 0.34806E-04, tol = 0.21687E+01, time = 2.38 | CG iter. 34 -- res = 0.17913E-04, tol = 0.21687E+01, time = 2.42 | CG iter. 35 -- res = 0.91280E-05, tol = 0.21687E+01, time = 2.50 | CG iter. 36 -- res = 0.44521E-05, tol = 0.21687E+01, time = 2.48 | CG iter. 37 -- res = 0.19855E-05, tol = 0.21687E+01, time = 2.39 | CG iter. 38 -- res = 0.96924E-06, tol = 0.21687E+01, time = 2.68 | CG iter. 39 -- res = 0.46722E-06, tol = 0.21687E+01, time = 2.67 | CG iter. 40 -- res = 0.23748E-06, tol = 0.21687E+01, time = 2.45 | CG iter. 41 -- res = 0.12370E-06, tol = 0.21687E+01, time = 2.51 | CG iter. 42 -- res = 0.58210E-07, tol = 0.21687E+01, time = 2.52 | CG iter. 43 -- res = 0.26521E-07, tol = 0.21687E+01, time = 2.41 | CG iter. 44 -- res = 0.12256E-07, tol = 0.21687E+01, time = 2.44 | CG iter. 45 -- res = 0.57985E-08, tol = 0.21687E+01, time = 4.14 | CG iter. 46 -- res = 0.28733E-08, tol = 0.21687E+01, time = 7.11 | CG iter. 47 -- res = 0.14794E-08, tol = 0.21687E+01, time = 2.32 | CG iter. 48 -- res = 0.70812E-09, tol = 0.21687E+01, time = 2.39 | CG iter. 49 -- res = 0.33227E-09, tol = 0.21687E+01, time = 2.35 | CG iter. 50 -- res = 0.14966E-09, tol = 0.21687E+01, time = 2.57 | Final CG iter 51 -- res = 0.14966E-09, tol = 0.21687E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.503 5.371 | New value -1.850 | Old value 4.503 | Difference -6.353 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.39849E+05, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.39769E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.15182E+01, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.30186E-02, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.16315E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9820103.923 | (Sampled value in CG: 9796088.115 ) | CPU time specind = 1080.681 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.72031E+08, tol = 0.57607E+04, time = 11.24 | CG iter. 2 -- res = 0.59976E+08, tol = 0.57607E+04, time = 10.84 | CG iter. 3 -- res = 0.15706E+08, tol = 0.57607E+04, time = 10.69 | CG iter. 4 -- res = 0.69114E+07, tol = 0.57607E+04, time = 10.91 | CG iter. 5 -- res = 0.42747E+07, tol = 0.57607E+04, time = 10.53 | CG iter. 6 -- res = 0.24091E+07, tol = 0.57607E+04, time = 10.88 | CG iter. 7 -- res = 0.13774E+07, tol = 0.57607E+04, time = 10.80 | CG iter. 8 -- res = 0.88841E+06, tol = 0.57607E+04, time = 10.51 | CG iter. 9 -- res = 0.55662E+06, tol = 0.57607E+04, time = 10.82 | CG iter. 10 -- res = 0.32620E+06, tol = 0.57607E+04, time = 10.47 | CG iter. 11 -- res = 0.17700E+06, tol = 0.57607E+04, time = 11.02 | CG iter. 12 -- res = 0.96206E+05, tol = 0.57607E+04, time = 10.96 | CG iter. 13 -- res = 0.54671E+05, tol = 0.57607E+04, time = 10.99 | CG iter. 14 -- res = 0.32327E+05, tol = 0.57607E+04, time = 10.32 | CG iter. 15 -- res = 0.20881E+05, tol = 0.57607E+04, time = 11.17 | CG iter. 16 -- res = 0.15190E+05, tol = 0.57607E+04, time = 10.53 | CG iter. 17 -- res = 0.11773E+05, tol = 0.57607E+04, time = 11.00 | CG iter. 18 -- res = 0.89572E+04, tol = 0.57607E+04, time = 10.81 | CG iter. 19 -- res = 0.67194E+04, tol = 0.57607E+04, time = 17.07 | CG iter. 20 -- res = 0.52192E+04, tol = 0.57607E+04, time = 10.65 | CG iter. 21 -- res = 0.43505E+04, tol = 0.57607E+04, time = 10.76 | CG iter. 22 -- res = 0.40851E+04, tol = 0.57607E+04, time = 10.12 | CG iter. 23 -- res = 0.42909E+04, tol = 0.57607E+04, time = 11.00 | CG iter. 24 -- res = 0.48339E+04, tol = 0.57607E+04, time = 10.93 | CG iter. 25 -- res = 0.51351E+04, tol = 0.57607E+04, time = 10.48 | CG iter. 26 -- res = 0.48196E+04, tol = 0.57607E+04, time = 10.61 | CG iter. 27 -- res = 0.40950E+04, tol = 0.57607E+04, time = 12.36 | CG iter. 28 -- res = 0.33570E+04, tol = 0.57607E+04, time = 11.29 | CG iter. 29 -- res = 0.27482E+04, tol = 0.57607E+04, time = 10.76 | CG iter. 30 -- res = 0.23012E+04, tol = 0.57607E+04, time = 10.79 | CG iter. 31 -- res = 0.19426E+04, tol = 0.57607E+04, time = 10.79 | CG iter. 32 -- res = 0.15946E+04, tol = 0.57607E+04, time = 10.55 | CG iter. 33 -- res = 0.12857E+04, tol = 0.57607E+04, time = 10.54 | CG iter. 34 -- res = 0.99576E+03, tol = 0.57607E+04, time = 10.47 | CG iter. 35 -- res = 0.79673E+03, tol = 0.57607E+04, time = 10.41 | CG iter. 36 -- res = 0.69182E+03, tol = 0.57607E+04, time = 10.61 | CG iter. 37 -- res = 0.65202E+03, tol = 0.57607E+04, time = 11.58 | CG iter. 38 -- res = 0.65115E+03, tol = 0.57607E+04, time = 10.52 | CG iter. 39 -- res = 0.62609E+03, tol = 0.57607E+04, time = 11.07 | CG iter. 40 -- res = 0.57451E+03, tol = 0.57607E+04, time = 10.46 | CG iter. 41 -- res = 0.49685E+03, tol = 0.57607E+04, time = 10.83 | CG iter. 42 -- res = 0.42431E+03, tol = 0.57607E+04, time = 11.29 | CG iter. 43 -- res = 0.37526E+03, tol = 0.57607E+04, time = 10.46 | CG iter. 44 -- res = 0.34520E+03, tol = 0.57607E+04, time = 10.90 | CG iter. 45 -- res = 0.31297E+03, tol = 0.57607E+04, time = 10.77 | CG iter. 46 -- res = 0.28136E+03, tol = 0.57607E+04, time = 17.50 | CG iter. 47 -- res = 0.24872E+03, tol = 0.57607E+04, time = 10.72 | CG iter. 48 -- res = 0.20886E+03, tol = 0.57607E+04, time = 10.71 | CG iter. 49 -- res = 0.17269E+03, tol = 0.57607E+04, time = 10.49 | CG iter. 50 -- res = 0.15106E+03, tol = 0.57607E+04, time = 10.78 | CG iter. 51 -- res = 0.14010E+03, tol = 0.57607E+04, time = 10.44 | CG iter. 52 -- res = 0.13707E+03, tol = 0.57607E+04, time = 10.53 | CG iter. 53 -- res = 0.13587E+03, tol = 0.57607E+04, time = 10.73 | CG iter. 54 -- res = 0.12846E+03, tol = 0.57607E+04, time = 12.07 | CG iter. 55 -- res = 0.11988E+03, tol = 0.57607E+04, time = 11.42 | CG iter. 56 -- res = 0.10615E+03, tol = 0.57607E+04, time = 10.73 | CG iter. 57 -- res = 0.92630E+02, tol = 0.57607E+04, time = 10.53 | CG iter. 58 -- res = 0.83404E+02, tol = 0.57607E+04, time = 10.88 | CG iter. 59 -- res = 0.78030E+02, tol = 0.57607E+04, time = 10.61 | CG iter. 60 -- res = 0.74765E+02, tol = 0.57607E+04, time = 10.65 | Final CG iter 61 -- res = 0.74765E+02, tol = 0.57607E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.981 ( -230.136 -2230.168 2512.583 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9708048.545 | Old band monopole 9820146.162 | Change to band monopole -112097.616 | Change to component monopole 112097.134 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.960 2.730 | New value -0.588 | Old value -0.960 | Difference 0.372 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.123 ( 7.555 12.042 -11.235 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.478 5.351 | New value 0.912 | Old value -0.478 | Difference 1.390 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.35505E+05, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.26731E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.10638E+01, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.20806E-02, tol = 0.47627E+18, time = 1.68 | Final CG iter 5 -- res = 0.64810E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9708006.789 | (Sampled value in CG: 9689548.846 ) | Chain = 1 -- chisq = 0.81526309E+09 | Chain = 1 -- wall time = 5732.799 sec Available RAM: MemAvailable: 374730032 kB Available Swap: SwapFree: 1113624168 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 198 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442105 | --> Sampling calibration, mode = relcal | relcal = 1.3433879E-02 7.4822875E-04 -1.6063916E-03 -1.2575717E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1316417 0.1533524 9406466.63388931 | BP delta = 0.1316417 0.1514529 9406477.90755777 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632579 | --> Sampling calibration, mode = relcal | relcal = -2.8210399E-03 -7.0345047E-04 1.6778042E-03 1.6139076E-03 -4.0706800E-04 6.3984649E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5588135 15219882.8453289 | BP delta = 0.0000000E+00 -0.5701988 15219878.4289251 | BP chisq diff = -4.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18090782977144 | --> Sampling calibration, mode = relcal | relcal = -7.5192846E-02 -5.8618560E-02 9.2044584E-02 4.1766822E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0939898E-04 4.7510080E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1190E-05 | 2: delta_r/delta_0: 9.3810E-07 | 3: delta_s/delta_0: 2.0642E-07 | 4: delta_r/delta_0: 1.9526E-08 | 5: delta_s/delta_0: 5.5347E-09 | 6: delta_r/delta_0: 1.5016E-09 | 7: delta_s/delta_0: 2.9690E-10 | 8: delta_r/delta_0: 1.0523E-10 | 9: delta_s/delta_0: 2.7793E-09 | 10: delta_r/delta_0: 1.0196E-09 | 11: delta_s/delta_0: 9.1180E-10 | 12: delta_r/delta_0: 2.0458E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.505253070907437E-004 2.741234272489233E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1189E-05 | 2: delta_r/delta_0: 9.3807E-07 | 3: delta_s/delta_0: 2.0642E-07 | 4: delta_r/delta_0: 1.9527E-08 | 5: delta_s/delta_0: 5.5364E-09 | 6: delta_r/delta_0: 1.5015E-09 | 7: delta_s/delta_0: 2.9689E-10 | 8: delta_r/delta_0: 1.0524E-10 | 9: delta_s/delta_0: 2.7788E-09 | 10: delta_r/delta_0: 1.0195E-09 | 11: delta_s/delta_0: 9.1339E-10 | 12: delta_r/delta_0: 2.0521E-11 | Reached bicg-stab tolerance | BP delta = 3.7067708E-02 5.3845733E-02 3598293.42414036 | BP delta = 3.7067708E-02 5.3877346E-02 3595068.64388989 | BP chisq diff = -3224.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02588969 | --> Sampling calibration, mode = relcal | relcal = -0.1066607 -9.5560163E-02 0.1449099 5.7310913E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3106464E-03 1.4733647E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.9597E-05 | 2: delta_r/delta_0: 2.0396E-06 | 3: delta_s/delta_0: 2.3796E-07 | 4: delta_r/delta_0: 4.6573E-08 | 5: delta_s/delta_0: 3.8624E-08 | 6: delta_r/delta_0: 8.4562E-09 | 7: delta_s/delta_0: 7.2839E-09 | 8: delta_r/delta_0: 2.0318E-09 | 9: delta_s/delta_0: 8.9688E-10 | 10: delta_r/delta_0: 6.7128E-10 | 11: delta_s/delta_0: 1.4529E-08 | 12: delta_r/delta_0: 3.2226E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.013233346775707E-002 2.811116453541526E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.9606E-05 | 2: delta_r/delta_0: 2.0400E-06 | 3: delta_s/delta_0: 2.3799E-07 | 4: delta_r/delta_0: 4.6647E-08 | 5: delta_s/delta_0: 3.8564E-08 | 6: delta_r/delta_0: 8.4574E-09 | 7: delta_s/delta_0: 7.2752E-09 | 8: delta_r/delta_0: 2.0332E-09 | 9: delta_s/delta_0: 8.9770E-10 | 10: delta_r/delta_0: 6.7185E-10 | 11: delta_s/delta_0: 1.4803E-08 | 12: delta_r/delta_0: 3.3508E-11 | Reached bicg-stab tolerance | BP delta = -0.2521337 -0.2293329 2841691.93511286 | BP delta = -0.2521337 -0.2245909 2841954.16149865 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81238358 | --> Sampling calibration, mode = relcal | relcal = 0.2953908 0.2249801 -0.2838231 -0.2365478 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.1978389E-04 4.7970749E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1857E-02 | 2: delta_r/delta_0: 2.7729E-04 | 3: delta_s/delta_0: 4.7058E-05 | 4: delta_r/delta_0: 8.5783E-06 | 5: delta_s/delta_0: 3.9486E-06 | 6: delta_r/delta_0: 5.4332E-07 | 7: delta_s/delta_0: 1.4487E-05 | 8: delta_r/delta_0: 8.4825E-07 | 9: delta_s/delta_0: 2.7118E-05 | 10: delta_r/delta_0: 1.6645E-06 | 11: delta_s/delta_0: 1.3203E-07 | 12: delta_r/delta_0: 4.0154E-08 | 13: delta_s/delta_0: 2.6524E-09 | 14: delta_r/delta_0: 1.3959E-09 | 15: delta_s/delta_0: 1.1240E-09 | 16: delta_r/delta_0: 6.2085E-10 | 17: delta_s/delta_0: 3.0494E-10 | 18: delta_r/delta_0: 1.1620E-10 | 19: delta_s/delta_0: 4.3795E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.118137074232432 4.020847748709426E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1823E-02 | 2: delta_r/delta_0: 2.7649E-04 | 3: delta_s/delta_0: 4.6737E-05 | 4: delta_r/delta_0: 8.5166E-06 | 5: delta_s/delta_0: 3.9032E-06 | 6: delta_r/delta_0: 5.3052E-07 | 7: delta_s/delta_0: 1.4041E-05 | 8: delta_r/delta_0: 8.1584E-07 | 9: delta_s/delta_0: 2.7116E-05 | 10: delta_r/delta_0: 1.6531E-06 | 11: delta_s/delta_0: 1.2757E-07 | 12: delta_r/delta_0: 3.9015E-08 | 13: delta_s/delta_0: 2.5967E-09 | 14: delta_r/delta_0: 1.3711E-09 | 15: delta_s/delta_0: 1.1014E-09 | 16: delta_r/delta_0: 6.0639E-10 | 17: delta_s/delta_0: 3.0350E-10 | 18: delta_r/delta_0: 1.1354E-10 | 19: delta_s/delta_0: 4.2438E-11 | Reached bicg-stab tolerance | BP delta = -0.1283548 -0.1571637 2827309.03133358 | BP delta = -0.1283548 -0.1530686 2827453.22549085 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95934966 | --> Sampling calibration, mode = relcal | relcal = 0.1065622 0.1394699 -0.1102168 -0.1358153 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6070766E-03 1.3073910E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8233E-04 | 2: delta_r/delta_0: 4.8083E-06 | 3: delta_s/delta_0: 1.7395E-05 | 4: delta_r/delta_0: 1.7732E-06 | 5: delta_s/delta_0: 1.7365E-07 | 6: delta_r/delta_0: 1.1095E-07 | 7: delta_s/delta_0: 8.4331E-07 | 8: delta_r/delta_0: 2.3020E-08 | 9: delta_s/delta_0: 4.2094E-07 | 10: delta_r/delta_0: 7.4754E-08 | 11: delta_s/delta_0: 1.3573E-09 | 12: delta_r/delta_0: 9.7154E-10 | 13: delta_s/delta_0: 4.0450E-10 | 14: delta_r/delta_0: 2.8442E-10 | 15: delta_s/delta_0: 6.8371E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.890849255965560E-002 3.696407270626145E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8235E-04 | 2: delta_r/delta_0: 4.8085E-06 | 3: delta_s/delta_0: 1.7393E-05 | 4: delta_r/delta_0: 1.7724E-06 | 5: delta_s/delta_0: 1.7362E-07 | 6: delta_r/delta_0: 1.1089E-07 | 7: delta_s/delta_0: 8.4199E-07 | 8: delta_r/delta_0: 2.3019E-08 | 9: delta_s/delta_0: 4.0115E-07 | 10: delta_r/delta_0: 7.0249E-08 | 11: delta_s/delta_0: 1.3608E-09 | 12: delta_r/delta_0: 9.7640E-10 | 13: delta_s/delta_0: 4.0433E-10 | 14: delta_r/delta_0: 2.8637E-10 | 15: delta_s/delta_0: 6.8438E-11 | Reached bicg-stab tolerance | BP delta = 5.5330429E-02 0.1550650 3004132.61947041 | BP delta = 5.5330429E-02 0.1657420 3004259.39334453 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191257 | New value = -3.124792 | poltype: 2 pol: 1 CPU time specind = 1.6763926E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118207 | New value = -3.132247 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166615 | New value = -3.106010 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174241 | New value = -3.109568 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142089 | New value = -3.149798 | poltype: 2 pol: 2 CPU time specind = 2.0702839E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.13622E+08, tol = 0.73644E+01, time = 4.90 | CG iter. 2 -- res = 0.34065E+06, tol = 0.73644E+01, time = 4.98 | CG iter. 3 -- res = 0.76824E+05, tol = 0.73644E+01, time = 5.33 | CG iter. 4 -- res = 0.71390E+05, tol = 0.73644E+01, time = 5.41 | CG iter. 5 -- res = 0.71692E+05, tol = 0.73644E+01, time = 4.93 | CG iter. 6 -- res = 0.72272E+05, tol = 0.73644E+01, time = 5.21 | CG iter. 7 -- res = 0.69280E+05, tol = 0.73644E+01, time = 5.06 | CG iter. 8 -- res = 0.52411E+05, tol = 0.73644E+01, time = 4.97 | CG iter. 9 -- res = 0.40832E+05, tol = 0.73644E+01, time = 5.09 | CG iter. 10 -- res = 0.32310E+05, tol = 0.73644E+01, time = 4.89 | CG iter. 11 -- res = 0.22497E+05, tol = 0.73644E+01, time = 5.10 | CG iter. 12 -- res = 0.15927E+05, tol = 0.73644E+01, time = 5.04 | CG iter. 13 -- res = 0.13036E+05, tol = 0.73644E+01, time = 5.13 | CG iter. 14 -- res = 0.11596E+05, tol = 0.73644E+01, time = 5.19 | CG iter. 15 -- res = 0.93862E+04, tol = 0.73644E+01, time = 5.70 | CG iter. 16 -- res = 0.66623E+04, tol = 0.73644E+01, time = 5.19 | CG iter. 17 -- res = 0.45468E+04, tol = 0.73644E+01, time = 5.12 | CG iter. 18 -- res = 0.37953E+04, tol = 0.73644E+01, time = 5.01 | CG iter. 19 -- res = 0.32690E+04, tol = 0.73644E+01, time = 5.30 | CG iter. 20 -- res = 0.26075E+04, tol = 0.73644E+01, time = 5.10 | CG iter. 21 -- res = 0.19102E+04, tol = 0.73644E+01, time = 4.94 | CG iter. 22 -- res = 0.15632E+04, tol = 0.73644E+01, time = 5.05 | CG iter. 23 -- res = 0.13842E+04, tol = 0.73644E+01, time = 5.22 | CG iter. 24 -- res = 0.11431E+04, tol = 0.73644E+01, time = 5.11 | CG iter. 25 -- res = 0.84792E+03, tol = 0.73644E+01, time = 4.98 | CG iter. 26 -- res = 0.67001E+03, tol = 0.73644E+01, time = 5.19 | CG iter. 27 -- res = 0.61115E+03, tol = 0.73644E+01, time = 5.04 | CG iter. 28 -- res = 0.52992E+03, tol = 0.73644E+01, time = 5.16 | CG iter. 29 -- res = 0.40313E+03, tol = 0.73644E+01, time = 4.99 | CG iter. 30 -- res = 0.32218E+03, tol = 0.73644E+01, time = 5.13 | CG iter. 31 -- res = 0.28304E+03, tol = 0.73644E+01, time = 5.19 | CG iter. 32 -- res = 0.24083E+03, tol = 0.73644E+01, time = 5.01 | CG iter. 33 -- res = 0.18624E+03, tol = 0.73644E+01, time = 4.98 | CG iter. 34 -- res = 0.13959E+03, tol = 0.73644E+01, time = 11.58 | CG iter. 35 -- res = 0.11650E+03, tol = 0.73644E+01, time = 4.97 | CG iter. 36 -- res = 0.10046E+03, tol = 0.73644E+01, time = 5.18 | CG iter. 37 -- res = 0.79692E+02, tol = 0.73644E+01, time = 5.08 | CG iter. 38 -- res = 0.59252E+02, tol = 0.73644E+01, time = 5.31 | CG iter. 39 -- res = 0.45622E+02, tol = 0.73644E+01, time = 4.99 | CG iter. 40 -- res = 0.38077E+02, tol = 0.73644E+01, time = 4.81 | CG iter. 41 -- res = 0.31271E+02, tol = 0.73644E+01, time = 5.10 | CG iter. 42 -- res = 0.22896E+02, tol = 0.73644E+01, time = 5.30 | CG iter. 43 -- res = 0.17503E+02, tol = 0.73644E+01, time = 4.77 | CG iter. 44 -- res = 0.14387E+02, tol = 0.73644E+01, time = 4.90 | CG iter. 45 -- res = 0.11192E+02, tol = 0.73644E+01, time = 4.94 | CG iter. 46 -- res = 0.84948E+01, tol = 0.73644E+01, time = 4.99 | CG iter. 47 -- res = 0.64571E+01, tol = 0.73644E+01, time = 5.04 | CG iter. 48 -- res = 0.50618E+01, tol = 0.73644E+01, time = 5.10 | CG iter. 49 -- res = 0.41789E+01, tol = 0.73644E+01, time = 5.21 | CG iter. 50 -- res = 0.32610E+01, tol = 0.73644E+01, time = 5.02 | Final CG iter 51 -- res = 0.32610E+01, tol = 0.73644E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9270901.507 | Old band monopole 9708048.545 | Change to band monopole -437147.039 | Change to component monopole 437145.159 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.25920E+06, tol = 0.47627E+18, time = 1.68 | CG iter. 2 -- res = 0.12589E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.31673E+01, tol = 0.47627E+18, time = 1.64 | CG iter. 4 -- res = 0.19904E-01, tol = 0.47627E+18, time = 1.59 | Final CG iter 5 -- res = 0.63568E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9270861.630 | (Sampled value in CG: 9332714.607 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.546322 | New value = 1.427304 | poltype: 2 pol: 1 CPU time specind = 8.1789494E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.520852 | New value = 1.468945 | poltype: 2 pol: 2 CPU time specind = 3.8380623E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.26847E+08, tol = 0.47403E+04, time = 5.75 | CG iter. 2 -- res = 0.52915E+07, tol = 0.47403E+04, time = 5.92 | CG iter. 3 -- res = 0.83209E+06, tol = 0.47403E+04, time = 6.17 | CG iter. 4 -- res = 0.35717E+06, tol = 0.47403E+04, time = 5.89 | CG iter. 5 -- res = 0.15793E+06, tol = 0.47403E+04, time = 5.68 | CG iter. 6 -- res = 0.83081E+05, tol = 0.47403E+04, time = 5.85 | CG iter. 7 -- res = 0.45071E+05, tol = 0.47403E+04, time = 5.91 | CG iter. 8 -- res = 0.21607E+05, tol = 0.47403E+04, time = 5.89 | CG iter. 9 -- res = 0.93336E+04, tol = 0.47403E+04, time = 5.94 | CG iter. 10 -- res = 0.38160E+04, tol = 0.47403E+04, time = 5.69 | CG iter. 11 -- res = 0.17261E+04, tol = 0.47403E+04, time = 5.93 | CG iter. 12 -- res = 0.89445E+03, tol = 0.47403E+04, time = 5.75 | CG iter. 13 -- res = 0.50113E+03, tol = 0.47403E+04, time = 5.51 | CG iter. 14 -- res = 0.27930E+03, tol = 0.47403E+04, time = 5.76 | CG iter. 15 -- res = 0.14282E+03, tol = 0.47403E+04, time = 5.65 | CG iter. 16 -- res = 0.66430E+02, tol = 0.47403E+04, time = 5.81 | CG iter. 17 -- res = 0.31386E+02, tol = 0.47403E+04, time = 6.10 | CG iter. 18 -- res = 0.16356E+02, tol = 0.47403E+04, time = 12.08 | CG iter. 19 -- res = 0.89259E+01, tol = 0.47403E+04, time = 5.80 | CG iter. 20 -- res = 0.50094E+01, tol = 0.47403E+04, time = 5.66 | CG iter. 21 -- res = 0.27421E+01, tol = 0.47403E+04, time = 5.84 | CG iter. 22 -- res = 0.13835E+01, tol = 0.47403E+04, time = 5.63 | CG iter. 23 -- res = 0.68943E+00, tol = 0.47403E+04, time = 5.98 | CG iter. 24 -- res = 0.35560E+00, tol = 0.47403E+04, time = 5.91 | CG iter. 25 -- res = 0.19511E+00, tol = 0.47403E+04, time = 5.66 | CG iter. 26 -- res = 0.11406E+00, tol = 0.47403E+04, time = 5.56 | CG iter. 27 -- res = 0.64657E-01, tol = 0.47403E+04, time = 5.70 | CG iter. 28 -- res = 0.34321E-01, tol = 0.47403E+04, time = 5.81 | CG iter. 29 -- res = 0.18161E-01, tol = 0.47403E+04, time = 5.67 | CG iter. 30 -- res = 0.96531E-02, tol = 0.47403E+04, time = 6.24 | CG iter. 31 -- res = 0.54069E-02, tol = 0.47403E+04, time = 5.94 | CG iter. 32 -- res = 0.30454E-02, tol = 0.47403E+04, time = 5.79 | CG iter. 33 -- res = 0.16765E-02, tol = 0.47403E+04, time = 7.08 | CG iter. 34 -- res = 0.91197E-03, tol = 0.47403E+04, time = 6.15 | CG iter. 35 -- res = 0.47958E-03, tol = 0.47403E+04, time = 6.01 | Final CG iter 36 -- res = 0.47958E-03, tol = 0.47403E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.611 2.752 | New value 0.772 | Old value -0.611 | Difference 1.384 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.13598E+06, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.72798E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.23502E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.67703E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.17442E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9270861.630 | (Sampled value in CG: 9334266.583 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.499941 | New value = -3.609477 | poltype: 1 pol: 1 CPU time specind = 8.0900192E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.54 | CG iter. 1 -- res = 0.36981E+07, tol = 0.28483E+01, time = 2.41 | CG iter. 2 -- res = 0.11009E+07, tol = 0.28483E+01, time = 2.49 | CG iter. 3 -- res = 0.27453E+06, tol = 0.28483E+01, time = 2.55 | CG iter. 4 -- res = 0.16834E+06, tol = 0.28483E+01, time = 2.20 | CG iter. 5 -- res = 0.93765E+05, tol = 0.28483E+01, time = 2.38 | CG iter. 6 -- res = 0.34206E+05, tol = 0.28483E+01, time = 2.44 | CG iter. 7 -- res = 0.11931E+05, tol = 0.28483E+01, time = 2.49 | CG iter. 8 -- res = 0.56283E+04, tol = 0.28483E+01, time = 2.47 | CG iter. 9 -- res = 0.26091E+04, tol = 0.28483E+01, time = 2.34 | CG iter. 10 -- res = 0.10518E+04, tol = 0.28483E+01, time = 3.10 | CG iter. 11 -- res = 0.45277E+03, tol = 0.28483E+01, time = 3.27 | CG iter. 12 -- res = 0.21616E+03, tol = 0.28483E+01, time = 2.81 | CG iter. 13 -- res = 0.11408E+03, tol = 0.28483E+01, time = 2.41 | CG iter. 14 -- res = 0.56252E+02, tol = 0.28483E+01, time = 2.83 | CG iter. 15 -- res = 0.23953E+02, tol = 0.28483E+01, time = 2.42 | CG iter. 16 -- res = 0.10235E+02, tol = 0.28483E+01, time = 2.57 | CG iter. 17 -- res = 0.43537E+01, tol = 0.28483E+01, time = 2.44 | CG iter. 18 -- res = 0.20875E+01, tol = 0.28483E+01, time = 2.34 | CG iter. 19 -- res = 0.10585E+01, tol = 0.28483E+01, time = 2.54 | CG iter. 20 -- res = 0.52040E+00, tol = 0.28483E+01, time = 2.12 | CG iter. 21 -- res = 0.25943E+00, tol = 0.28483E+01, time = 2.35 | CG iter. 22 -- res = 0.12069E+00, tol = 0.28483E+01, time = 2.45 | CG iter. 23 -- res = 0.52395E-01, tol = 0.28483E+01, time = 2.22 | CG iter. 24 -- res = 0.25118E-01, tol = 0.28483E+01, time = 2.74 | CG iter. 25 -- res = 0.12687E-01, tol = 0.28483E+01, time = 2.24 | CG iter. 26 -- res = 0.62406E-02, tol = 0.28483E+01, time = 2.35 | CG iter. 27 -- res = 0.31713E-02, tol = 0.28483E+01, time = 2.34 | CG iter. 28 -- res = 0.15109E-02, tol = 0.28483E+01, time = 2.26 | CG iter. 29 -- res = 0.66918E-03, tol = 0.28483E+01, time = 2.53 | CG iter. 30 -- res = 0.31750E-03, tol = 0.28483E+01, time = 2.62 | CG iter. 31 -- res = 0.15033E-03, tol = 0.28483E+01, time = 2.37 | CG iter. 32 -- res = 0.76138E-04, tol = 0.28483E+01, time = 2.72 | CG iter. 33 -- res = 0.38002E-04, tol = 0.28483E+01, time = 2.16 | CG iter. 34 -- res = 0.18418E-04, tol = 0.28483E+01, time = 2.49 | CG iter. 35 -- res = 0.88415E-05, tol = 0.28483E+01, time = 2.41 | CG iter. 36 -- res = 0.40972E-05, tol = 0.28483E+01, time = 2.56 | CG iter. 37 -- res = 0.19047E-05, tol = 0.28483E+01, time = 2.40 | CG iter. 38 -- res = 0.98778E-06, tol = 0.28483E+01, time = 2.48 | CG iter. 39 -- res = 0.48369E-06, tol = 0.28483E+01, time = 2.42 | CG iter. 40 -- res = 0.22429E-06, tol = 0.28483E+01, time = 2.29 | CG iter. 41 -- res = 0.10709E-06, tol = 0.28483E+01, time = 2.50 | CG iter. 42 -- res = 0.51659E-07, tol = 0.28483E+01, time = 2.30 | CG iter. 43 -- res = 0.24116E-07, tol = 0.28483E+01, time = 2.45 | CG iter. 44 -- res = 0.11633E-07, tol = 0.28483E+01, time = 2.71 | CG iter. 45 -- res = 0.57666E-08, tol = 0.28483E+01, time = 2.32 | CG iter. 46 -- res = 0.27761E-08, tol = 0.28483E+01, time = 2.51 | CG iter. 47 -- res = 0.13113E-08, tol = 0.28483E+01, time = 2.48 | CG iter. 48 -- res = 0.61044E-09, tol = 0.28483E+01, time = 2.35 | CG iter. 49 -- res = 0.28318E-09, tol = 0.28483E+01, time = 2.36 | CG iter. 50 -- res = 0.13625E-09, tol = 0.28483E+01, time = 2.50 | Final CG iter 51 -- res = 0.13625E-09, tol = 0.28483E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.831 4.731 | New value -2.648 | Old value 6.831 | Difference -9.478 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.92238E+05, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.73591E+02, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.28201E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.96735E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.86370E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9270861.630 | (Sampled value in CG: 9320322.985 ) | CPU time specind = 1062.538 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.79015E+08, tol = 0.57612E+04, time = 10.44 | CG iter. 2 -- res = 0.63865E+08, tol = 0.57612E+04, time = 10.53 | CG iter. 3 -- res = 0.17133E+08, tol = 0.57612E+04, time = 17.44 | CG iter. 4 -- res = 0.79145E+07, tol = 0.57612E+04, time = 10.76 | CG iter. 5 -- res = 0.50790E+07, tol = 0.57612E+04, time = 10.78 | CG iter. 6 -- res = 0.29235E+07, tol = 0.57612E+04, time = 10.94 | CG iter. 7 -- res = 0.16700E+07, tol = 0.57612E+04, time = 11.00 | CG iter. 8 -- res = 0.10507E+07, tol = 0.57612E+04, time = 10.42 | CG iter. 9 -- res = 0.65145E+06, tol = 0.57612E+04, time = 10.37 | CG iter. 10 -- res = 0.39765E+06, tol = 0.57612E+04, time = 10.38 | CG iter. 11 -- res = 0.22849E+06, tol = 0.57612E+04, time = 11.90 | CG iter. 12 -- res = 0.13160E+06, tol = 0.57612E+04, time = 11.25 | CG iter. 13 -- res = 0.76556E+05, tol = 0.57612E+04, time = 10.62 | CG iter. 14 -- res = 0.46733E+05, tol = 0.57612E+04, time = 10.74 | CG iter. 15 -- res = 0.32628E+05, tol = 0.57612E+04, time = 10.62 | CG iter. 16 -- res = 0.27233E+05, tol = 0.57612E+04, time = 10.50 | CG iter. 17 -- res = 0.24549E+05, tol = 0.57612E+04, time = 10.80 | CG iter. 18 -- res = 0.21957E+05, tol = 0.57612E+04, time = 10.52 | CG iter. 19 -- res = 0.19529E+05, tol = 0.57612E+04, time = 10.21 | CG iter. 20 -- res = 0.17681E+05, tol = 0.57612E+04, time = 10.83 | CG iter. 21 -- res = 0.16241E+05, tol = 0.57612E+04, time = 11.09 | CG iter. 22 -- res = 0.16077E+05, tol = 0.57612E+04, time = 10.63 | CG iter. 23 -- res = 0.16743E+05, tol = 0.57612E+04, time = 10.66 | CG iter. 24 -- res = 0.17095E+05, tol = 0.57612E+04, time = 10.40 | CG iter. 25 -- res = 0.15670E+05, tol = 0.57612E+04, time = 10.28 | CG iter. 26 -- res = 0.12388E+05, tol = 0.57612E+04, time = 10.81 | CG iter. 27 -- res = 0.91816E+04, tol = 0.57612E+04, time = 10.34 | CG iter. 28 -- res = 0.68630E+04, tol = 0.57612E+04, time = 10.10 | CG iter. 29 -- res = 0.53992E+04, tol = 0.57612E+04, time = 10.80 | CG iter. 30 -- res = 0.45707E+04, tol = 0.57612E+04, time = 9.96 | CG iter. 31 -- res = 0.40160E+04, tol = 0.57612E+04, time = 16.54 | CG iter. 32 -- res = 0.35118E+04, tol = 0.57612E+04, time = 10.56 | CG iter. 33 -- res = 0.31150E+04, tol = 0.57612E+04, time = 10.76 | CG iter. 34 -- res = 0.26605E+04, tol = 0.57612E+04, time = 10.50 | CG iter. 35 -- res = 0.22661E+04, tol = 0.57612E+04, time = 10.60 | CG iter. 36 -- res = 0.20639E+04, tol = 0.57612E+04, time = 10.42 | CG iter. 37 -- res = 0.19910E+04, tol = 0.57612E+04, time = 10.76 | CG iter. 38 -- res = 0.19184E+04, tol = 0.57612E+04, time = 10.13 | CG iter. 39 -- res = 0.17332E+04, tol = 0.57612E+04, time = 12.12 | CG iter. 40 -- res = 0.15071E+04, tol = 0.57612E+04, time = 10.95 | CG iter. 41 -- res = 0.12308E+04, tol = 0.57612E+04, time = 10.49 | CG iter. 42 -- res = 0.10007E+04, tol = 0.57612E+04, time = 10.72 | CG iter. 43 -- res = 0.83697E+03, tol = 0.57612E+04, time = 10.35 | CG iter. 44 -- res = 0.72784E+03, tol = 0.57612E+04, time = 10.62 | CG iter. 45 -- res = 0.67082E+03, tol = 0.57612E+04, time = 10.68 | CG iter. 46 -- res = 0.61697E+03, tol = 0.57612E+04, time = 10.31 | CG iter. 47 -- res = 0.56190E+03, tol = 0.57612E+04, time = 10.68 | CG iter. 48 -- res = 0.48896E+03, tol = 0.57612E+04, time = 10.52 | CG iter. 49 -- res = 0.42389E+03, tol = 0.57612E+04, time = 10.57 | CG iter. 50 -- res = 0.37971E+03, tol = 0.57612E+04, time = 10.64 | CG iter. 51 -- res = 0.35395E+03, tol = 0.57612E+04, time = 10.10 | CG iter. 52 -- res = 0.34106E+03, tol = 0.57612E+04, time = 10.92 | CG iter. 53 -- res = 0.32560E+03, tol = 0.57612E+04, time = 10.28 | CG iter. 54 -- res = 0.29751E+03, tol = 0.57612E+04, time = 10.59 | CG iter. 55 -- res = 0.26411E+03, tol = 0.57612E+04, time = 10.88 | CG iter. 56 -- res = 0.22795E+03, tol = 0.57612E+04, time = 10.35 | CG iter. 57 -- res = 0.19526E+03, tol = 0.57612E+04, time = 10.75 | CG iter. 58 -- res = 0.17567E+03, tol = 0.57612E+04, time = 17.67 | CG iter. 59 -- res = 0.16556E+03, tol = 0.57612E+04, time = 10.74 | CG iter. 60 -- res = 0.15915E+03, tol = 0.57612E+04, time = 10.65 | Final CG iter 61 -- res = 0.15915E+03, tol = 0.57612E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.619 ( -229.903 -2229.903 2511.969 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7270988.569 | Old band monopole 9270901.507 | Change to band monopole -1999912.938 | Change to component monopole 1999904.336 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.765 2.755 | New value 1.963 | Old value 0.765 | Difference 1.198 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.823 ( 7.670 10.308 -9.532 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.276 4.679 | New value -6.587 | Old value 4.276 | Difference -10.863 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.11000E+06, tol = 0.47627E+18, time = 1.53 | CG iter. 2 -- res = 0.35469E+02, tol = 0.47627E+18, time = 1.77 | CG iter. 3 -- res = 0.14194E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.35100E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.11520E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7270957.295 | (Sampled value in CG: 7242779.324 ) | Chain = 1 -- chisq = 0.81580456E+09 | Chain = 1 -- wall time = 6167.307 sec Available RAM: MemAvailable: 374583408 kB Available Swap: SwapFree: 1113995636 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 199 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442358 | --> Sampling calibration, mode = relcal | relcal = 1.3433032E-02 7.4163510E-04 -1.5974089E-03 -1.2577257E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1316417 0.1533524 97046162.7432102 | BP delta = 0.1212732 0.1429840 97046165.4647751 | BP chisq diff = 2.7, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632501 | --> Sampling calibration, mode = relcal | relcal = -2.8211412E-03 -7.0348417E-04 1.6782053E-03 1.6137941E-03 -4.0700295E-04 6.3962868E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5701988 15218886.4440534 | BP delta = 0.0000000E+00 -0.5737073 15218889.2919684 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18281459135744 | --> Sampling calibration, mode = relcal | relcal = -7.5440302E-02 -5.8831353E-02 9.2321374E-02 4.1950282E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.4830260E-05 5.3059617E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3409E-05 | 2: delta_r/delta_0: 1.0576E-06 | 3: delta_s/delta_0: 1.9031E-07 | 4: delta_r/delta_0: 2.3741E-08 | 5: delta_s/delta_0: 7.5010E-09 | 6: delta_r/delta_0: 1.9054E-09 | 7: delta_s/delta_0: 4.8611E-10 | 8: delta_r/delta_0: 1.3328E-10 | 9: delta_s/delta_0: 3.3008E-10 | 10: delta_r/delta_0: 1.2968E-10 | 11: delta_s/delta_0: 6.2619E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.066998600979577E-003 2.736821943899557E-005 | BP delta = 3.7067708E-02 5.3877346E-02 50480358.0753761 | BP delta = 3.6265653E-02 5.3075291E-02 50480358.6087791 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02586402 | --> Sampling calibration, mode = relcal | relcal = -0.1066076 -9.5578812E-02 0.1448852 5.7301220E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2419711E-03 1.2964824E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7589E-05 | 2: delta_r/delta_0: 1.4582E-06 | 3: delta_s/delta_0: 2.5116E-07 | 4: delta_r/delta_0: 3.6906E-08 | 5: delta_s/delta_0: 2.7454E-08 | 6: delta_r/delta_0: 6.2696E-09 | 7: delta_s/delta_0: 5.7382E-09 | 8: delta_r/delta_0: 1.5021E-09 | 9: delta_s/delta_0: 7.4245E-10 | 10: delta_r/delta_0: 5.6366E-10 | 11: delta_s/delta_0: 1.5334E-09 | 12: delta_r/delta_0: 6.6755E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.868068669980988E-003 2.811193512628082E-005 | BP delta = -0.2521337 -0.2293329 57386012.3233867 | BP delta = -0.2626044 -0.2398036 57386012.7129360 | BP chisq diff = 0.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81228190 | --> Sampling calibration, mode = relcal | relcal = 0.2954603 0.2249617 -0.2838852 -0.2365369 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9068333E-04 5.9363851E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9876E-03 | 2: delta_r/delta_0: 4.5910E-05 | 3: delta_s/delta_0: 1.1523E-05 | 4: delta_r/delta_0: 1.1567E-06 | 5: delta_s/delta_0: 9.6875E-07 | 6: delta_r/delta_0: 6.6405E-08 | 7: delta_s/delta_0: 4.8374E-08 | 8: delta_r/delta_0: 2.4232E-08 | 9: delta_s/delta_0: 7.1207E-07 | 10: delta_r/delta_0: 2.0789E-08 | 11: delta_s/delta_0: 1.1571E-09 | 12: delta_r/delta_0: 7.2432E-10 | 13: delta_s/delta_0: 4.5238E-10 | 14: delta_r/delta_0: 1.3953E-10 | 15: delta_s/delta_0: 2.2889E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.856843628974891E-002 4.021549273450793E-005 | BP delta = -0.1283548 -0.1571637 72491017.1649940 | BP delta = -0.1070954 -0.1359042 72491017.8179286 | BP chisq diff = 0.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95921459 | --> Sampling calibration, mode = relcal | relcal = 0.1065300 0.1395155 -0.1102591 -0.1357865 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0440852E-02 1.2474281E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3145E-04 | 2: delta_r/delta_0: 8.2702E-06 | 3: delta_s/delta_0: 2.3425E-05 | 4: delta_r/delta_0: 1.0622E-06 | 5: delta_s/delta_0: 2.4892E-07 | 6: delta_r/delta_0: 1.1831E-07 | 7: delta_s/delta_0: 1.9139E-07 | 8: delta_r/delta_0: 3.3312E-08 | 9: delta_s/delta_0: 9.3970E-09 | 10: delta_r/delta_0: 4.3479E-09 | 11: delta_s/delta_0: 1.3367E-09 | 12: delta_r/delta_0: 9.1942E-10 | 13: delta_s/delta_0: 1.9150E-10 | 14: delta_r/delta_0: 1.1584E-10 | 15: delta_s/delta_0: 1.3284E-10 | 16: delta_r/delta_0: 6.8489E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.136976046282127E-002 3.696983059942464E-005 | BP delta = 5.5330429E-02 0.1550650 72784152.5125931 | BP delta = 4.1754201E-02 0.1414888 72784152.7049263 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124792 | New value = -3.077519 | poltype: 2 pol: 1 CPU time specind = 1.6155005E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132247 | New value = -3.195597 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106010 | New value = -3.239816 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109568 | New value = -3.157453 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149798 | New value = -3.080069 | poltype: 2 pol: 2 CPU time specind = 6.6781044E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.13665E+08, tol = 0.93296E+01, time = 5.32 | CG iter. 2 -- res = 0.36715E+06, tol = 0.93296E+01, time = 4.75 | CG iter. 3 -- res = 0.88760E+05, tol = 0.93296E+01, time = 5.06 | CG iter. 4 -- res = 0.91623E+05, tol = 0.93296E+01, time = 5.45 | CG iter. 5 -- res = 0.89813E+05, tol = 0.93296E+01, time = 4.93 | CG iter. 6 -- res = 0.93525E+05, tol = 0.93296E+01, time = 4.68 | CG iter. 7 -- res = 0.78852E+05, tol = 0.93296E+01, time = 5.32 | CG iter. 8 -- res = 0.53662E+05, tol = 0.93296E+01, time = 5.13 | CG iter. 9 -- res = 0.43149E+05, tol = 0.93296E+01, time = 5.01 | CG iter. 10 -- res = 0.32874E+05, tol = 0.93296E+01, time = 5.04 | CG iter. 11 -- res = 0.23669E+05, tol = 0.93296E+01, time = 5.13 | CG iter. 12 -- res = 0.16964E+05, tol = 0.93296E+01, time = 5.16 | CG iter. 13 -- res = 0.12839E+05, tol = 0.93296E+01, time = 5.17 | CG iter. 14 -- res = 0.10885E+05, tol = 0.93296E+01, time = 5.22 | CG iter. 15 -- res = 0.87712E+04, tol = 0.93296E+01, time = 5.10 | CG iter. 16 -- res = 0.60652E+04, tol = 0.93296E+01, time = 5.00 | CG iter. 17 -- res = 0.39526E+04, tol = 0.93296E+01, time = 5.22 | CG iter. 18 -- res = 0.31621E+04, tol = 0.93296E+01, time = 5.12 | CG iter. 19 -- res = 0.27622E+04, tol = 0.93296E+01, time = 5.06 | CG iter. 20 -- res = 0.21519E+04, tol = 0.93296E+01, time = 5.00 | CG iter. 21 -- res = 0.15373E+04, tol = 0.93296E+01, time = 4.95 | CG iter. 22 -- res = 0.12049E+04, tol = 0.93296E+01, time = 5.24 | CG iter. 23 -- res = 0.10505E+04, tol = 0.93296E+01, time = 4.98 | CG iter. 24 -- res = 0.85135E+03, tol = 0.93296E+01, time = 5.15 | CG iter. 25 -- res = 0.60982E+03, tol = 0.93296E+01, time = 5.11 | CG iter. 26 -- res = 0.46236E+03, tol = 0.93296E+01, time = 5.32 | CG iter. 27 -- res = 0.40325E+03, tol = 0.93296E+01, time = 5.14 | CG iter. 28 -- res = 0.33772E+03, tol = 0.93296E+01, time = 11.47 | CG iter. 29 -- res = 0.26104E+03, tol = 0.93296E+01, time = 5.09 | CG iter. 30 -- res = 0.19689E+03, tol = 0.93296E+01, time = 5.10 | CG iter. 31 -- res = 0.15814E+03, tol = 0.93296E+01, time = 5.12 | CG iter. 32 -- res = 0.13120E+03, tol = 0.93296E+01, time = 5.02 | CG iter. 33 -- res = 0.99155E+02, tol = 0.93296E+01, time = 5.26 | CG iter. 34 -- res = 0.71094E+02, tol = 0.93296E+01, time = 4.86 | CG iter. 35 -- res = 0.54715E+02, tol = 0.93296E+01, time = 5.10 | CG iter. 36 -- res = 0.43623E+02, tol = 0.93296E+01, time = 5.34 | CG iter. 37 -- res = 0.34577E+02, tol = 0.93296E+01, time = 4.89 | CG iter. 38 -- res = 0.24403E+02, tol = 0.93296E+01, time = 5.32 | CG iter. 39 -- res = 0.17520E+02, tol = 0.93296E+01, time = 5.38 | CG iter. 40 -- res = 0.13527E+02, tol = 0.93296E+01, time = 4.90 | CG iter. 41 -- res = 0.10819E+02, tol = 0.93296E+01, time = 5.09 | CG iter. 42 -- res = 0.80382E+01, tol = 0.93296E+01, time = 5.00 | CG iter. 43 -- res = 0.59615E+01, tol = 0.93296E+01, time = 4.96 | CG iter. 44 -- res = 0.44054E+01, tol = 0.93296E+01, time = 5.72 | CG iter. 45 -- res = 0.35118E+01, tol = 0.93296E+01, time = 6.28 | CG iter. 46 -- res = 0.25690E+01, tol = 0.93296E+01, time = 5.44 | CG iter. 47 -- res = 0.18766E+01, tol = 0.93296E+01, time = 5.26 | CG iter. 48 -- res = 0.13506E+01, tol = 0.93296E+01, time = 5.17 | CG iter. 49 -- res = 0.10295E+01, tol = 0.93296E+01, time = 5.03 | CG iter. 50 -- res = 0.76089E+00, tol = 0.93296E+01, time = 5.11 | Final CG iter 51 -- res = 0.76089E+00, tol = 0.93296E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7348698.397 | Old band monopole 7270988.569 | Change to band monopole 77709.828 | Change to component monopole -77709.494 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.20813E+06, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.12758E+03, tol = 0.47627E+18, time = 1.71 | CG iter. 3 -- res = 0.36251E+01, tol = 0.47627E+18, time = 1.76 | CG iter. 4 -- res = 0.21171E-01, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.19859E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7348666.788 | (Sampled value in CG: 7426873.178 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.427304 | New value = 1.483043 | poltype: 2 pol: 1 CPU time specind = 7.3120594E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.468945 | New value = 1.504903 | poltype: 2 pol: 2 CPU time specind = 4.3818951E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.24663E+08, tol = 0.47581E+04, time = 5.81 | CG iter. 2 -- res = 0.54372E+07, tol = 0.47581E+04, time = 5.82 | CG iter. 3 -- res = 0.87007E+06, tol = 0.47581E+04, time = 5.69 | CG iter. 4 -- res = 0.36066E+06, tol = 0.47581E+04, time = 5.85 | CG iter. 5 -- res = 0.15748E+06, tol = 0.47581E+04, time = 5.84 | CG iter. 6 -- res = 0.81661E+05, tol = 0.47581E+04, time = 5.86 | CG iter. 7 -- res = 0.44871E+05, tol = 0.47581E+04, time = 5.88 | CG iter. 8 -- res = 0.21943E+05, tol = 0.47581E+04, time = 5.86 | CG iter. 9 -- res = 0.95926E+04, tol = 0.47581E+04, time = 5.81 | CG iter. 10 -- res = 0.39522E+04, tol = 0.47581E+04, time = 5.65 | CG iter. 11 -- res = 0.17380E+04, tol = 0.47581E+04, time = 5.81 | CG iter. 12 -- res = 0.89645E+03, tol = 0.47581E+04, time = 12.43 | CG iter. 13 -- res = 0.50971E+03, tol = 0.47581E+04, time = 5.94 | CG iter. 14 -- res = 0.28651E+03, tol = 0.47581E+04, time = 6.30 | CG iter. 15 -- res = 0.14757E+03, tol = 0.47581E+04, time = 5.90 | CG iter. 16 -- res = 0.68899E+02, tol = 0.47581E+04, time = 5.93 | CG iter. 17 -- res = 0.32106E+02, tol = 0.47581E+04, time = 5.96 | CG iter. 18 -- res = 0.16034E+02, tol = 0.47581E+04, time = 5.56 | CG iter. 19 -- res = 0.86457E+01, tol = 0.47581E+04, time = 5.63 | CG iter. 20 -- res = 0.49362E+01, tol = 0.47581E+04, time = 5.72 | CG iter. 21 -- res = 0.27090E+01, tol = 0.47581E+04, time = 5.54 | CG iter. 22 -- res = 0.13930E+01, tol = 0.47581E+04, time = 6.01 | CG iter. 23 -- res = 0.69523E+00, tol = 0.47581E+04, time = 6.02 | CG iter. 24 -- res = 0.35047E+00, tol = 0.47581E+04, time = 5.60 | CG iter. 25 -- res = 0.19312E+00, tol = 0.47581E+04, time = 5.91 | CG iter. 26 -- res = 0.11008E+00, tol = 0.47581E+04, time = 5.73 | CG iter. 27 -- res = 0.61061E-01, tol = 0.47581E+04, time = 7.52 | CG iter. 28 -- res = 0.33522E-01, tol = 0.47581E+04, time = 6.26 | CG iter. 29 -- res = 0.17668E-01, tol = 0.47581E+04, time = 6.10 | CG iter. 30 -- res = 0.91029E-02, tol = 0.47581E+04, time = 6.15 | CG iter. 31 -- res = 0.49161E-02, tol = 0.47581E+04, time = 5.50 | CG iter. 32 -- res = 0.27429E-02, tol = 0.47581E+04, time = 6.03 | CG iter. 33 -- res = 0.15526E-02, tol = 0.47581E+04, time = 5.81 | CG iter. 34 -- res = 0.84036E-03, tol = 0.47581E+04, time = 5.59 | CG iter. 35 -- res = 0.44478E-03, tol = 0.47581E+04, time = 6.02 | Final CG iter 36 -- res = 0.44478E-03, tol = 0.47581E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.954 2.743 | New value 2.525 | Old value 1.954 | Difference 0.571 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.32311E+05, tol = 0.47627E+18, time = 1.68 | CG iter. 2 -- res = 0.73471E+02, tol = 0.47627E+18, time = 1.67 | CG iter. 3 -- res = 0.24603E+01, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.18485E-02, tol = 0.47627E+18, time = 1.68 | Final CG iter 5 -- res = 0.25616E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7348666.788 | (Sampled value in CG: 7426278.947 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.609477 | New value = -3.647083 | poltype: 1 pol: 1 CPU time specind = 7.2560310E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.23078E+07, tol = 0.16142E+01, time = 3.89 | CG iter. 2 -- res = 0.95864E+06, tol = 0.16142E+01, time = 2.75 | CG iter. 3 -- res = 0.17479E+06, tol = 0.16142E+01, time = 2.29 | CG iter. 4 -- res = 0.67625E+05, tol = 0.16142E+01, time = 2.36 | CG iter. 5 -- res = 0.40884E+05, tol = 0.16142E+01, time = 2.32 | CG iter. 6 -- res = 0.21668E+05, tol = 0.16142E+01, time = 2.66 | CG iter. 7 -- res = 0.80508E+04, tol = 0.16142E+01, time = 2.37 | CG iter. 8 -- res = 0.32378E+04, tol = 0.16142E+01, time = 2.20 | CG iter. 9 -- res = 0.13667E+04, tol = 0.16142E+01, time = 2.68 | CG iter. 10 -- res = 0.53432E+03, tol = 0.16142E+01, time = 2.73 | CG iter. 11 -- res = 0.23243E+03, tol = 0.16142E+01, time = 2.35 | CG iter. 12 -- res = 0.11919E+03, tol = 0.16142E+01, time = 2.34 | CG iter. 13 -- res = 0.62661E+02, tol = 0.16142E+01, time = 2.50 | CG iter. 14 -- res = 0.30689E+02, tol = 0.16142E+01, time = 2.22 | CG iter. 15 -- res = 0.13572E+02, tol = 0.16142E+01, time = 2.33 | CG iter. 16 -- res = 0.54844E+01, tol = 0.16142E+01, time = 2.36 | CG iter. 17 -- res = 0.23701E+01, tol = 0.16142E+01, time = 2.41 | CG iter. 18 -- res = 0.11293E+01, tol = 0.16142E+01, time = 2.29 | CG iter. 19 -- res = 0.55666E+00, tol = 0.16142E+01, time = 2.39 | CG iter. 20 -- res = 0.28226E+00, tol = 0.16142E+01, time = 2.32 | CG iter. 21 -- res = 0.13318E+00, tol = 0.16142E+01, time = 2.29 | CG iter. 22 -- res = 0.57350E-01, tol = 0.16142E+01, time = 2.50 | CG iter. 23 -- res = 0.26683E-01, tol = 0.16142E+01, time = 2.19 | CG iter. 24 -- res = 0.12605E-01, tol = 0.16142E+01, time = 2.50 | CG iter. 25 -- res = 0.64129E-02, tol = 0.16142E+01, time = 2.37 | CG iter. 26 -- res = 0.32180E-02, tol = 0.16142E+01, time = 2.49 | CG iter. 27 -- res = 0.16020E-02, tol = 0.16142E+01, time = 2.59 | CG iter. 28 -- res = 0.72176E-03, tol = 0.16142E+01, time = 2.39 | CG iter. 29 -- res = 0.31786E-03, tol = 0.16142E+01, time = 2.28 | CG iter. 30 -- res = 0.15401E-03, tol = 0.16142E+01, time = 2.49 | CG iter. 31 -- res = 0.76222E-04, tol = 0.16142E+01, time = 2.41 | CG iter. 32 -- res = 0.38713E-04, tol = 0.16142E+01, time = 2.20 | CG iter. 33 -- res = 0.18945E-04, tol = 0.16142E+01, time = 2.39 | CG iter. 34 -- res = 0.88072E-05, tol = 0.16142E+01, time = 2.42 | CG iter. 35 -- res = 0.42522E-05, tol = 0.16142E+01, time = 2.48 | CG iter. 36 -- res = 0.19818E-05, tol = 0.16142E+01, time = 2.44 | CG iter. 37 -- res = 0.95741E-06, tol = 0.16142E+01, time = 2.38 | CG iter. 38 -- res = 0.48120E-06, tol = 0.16142E+01, time = 2.48 | CG iter. 39 -- res = 0.23062E-06, tol = 0.16142E+01, time = 2.48 | CG iter. 40 -- res = 0.10587E-06, tol = 0.16142E+01, time = 2.47 | CG iter. 41 -- res = 0.50702E-07, tol = 0.16142E+01, time = 3.16 | CG iter. 42 -- res = 0.23330E-07, tol = 0.16142E+01, time = 2.35 | CG iter. 43 -- res = 0.11429E-07, tol = 0.16142E+01, time = 2.25 | CG iter. 44 -- res = 0.54561E-08, tol = 0.16142E+01, time = 2.39 | CG iter. 45 -- res = 0.26447E-08, tol = 0.16142E+01, time = 2.49 | CG iter. 46 -- res = 0.12524E-08, tol = 0.16142E+01, time = 2.34 | CG iter. 47 -- res = 0.57868E-09, tol = 0.16142E+01, time = 2.24 | CG iter. 48 -- res = 0.27509E-09, tol = 0.16142E+01, time = 2.53 | CG iter. 49 -- res = 0.13131E-09, tol = 0.16142E+01, time = 2.53 | CG iter. 50 -- res = 0.62900E-10, tol = 0.16142E+01, time = 2.40 | Final CG iter 51 -- res = 0.62900E-10, tol = 0.16142E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.997 3.872 | New value -5.074 | Old value -2.997 | Difference -2.078 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.90193E+04, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.34180E+02, tol = 0.47627E+18, time = 1.77 | CG iter. 3 -- res = 0.13237E+01, tol = 0.47627E+18, time = 1.76 | CG iter. 4 -- res = 0.58114E-03, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.15443E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7348666.788 | (Sampled value in CG: 7411177.522 ) | CPU time specind = 1062.785 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.70940E+08, tol = 0.57763E+04, time = 10.42 | CG iter. 2 -- res = 0.60823E+08, tol = 0.57763E+04, time = 10.60 | CG iter. 3 -- res = 0.16496E+08, tol = 0.57763E+04, time = 10.60 | CG iter. 4 -- res = 0.69248E+07, tol = 0.57763E+04, time = 10.89 | CG iter. 5 -- res = 0.42552E+07, tol = 0.57763E+04, time = 10.39 | CG iter. 6 -- res = 0.24430E+07, tol = 0.57763E+04, time = 10.49 | CG iter. 7 -- res = 0.14592E+07, tol = 0.57763E+04, time = 10.89 | CG iter. 8 -- res = 0.97361E+06, tol = 0.57763E+04, time = 12.43 | CG iter. 9 -- res = 0.63613E+06, tol = 0.57763E+04, time = 11.13 | CG iter. 10 -- res = 0.39514E+06, tol = 0.57763E+04, time = 11.15 | CG iter. 11 -- res = 0.22682E+06, tol = 0.57763E+04, time = 10.38 | CG iter. 12 -- res = 0.12973E+06, tol = 0.57763E+04, time = 10.54 | CG iter. 13 -- res = 0.77346E+05, tol = 0.57763E+04, time = 10.71 | CG iter. 14 -- res = 0.51768E+05, tol = 0.57763E+04, time = 10.56 | CG iter. 15 -- res = 0.41474E+05, tol = 0.57763E+04, time = 10.70 | CG iter. 16 -- res = 0.38046E+05, tol = 0.57763E+04, time = 10.86 | CG iter. 17 -- res = 0.36534E+05, tol = 0.57763E+04, time = 11.19 | CG iter. 18 -- res = 0.34442E+05, tol = 0.57763E+04, time = 10.55 | CG iter. 19 -- res = 0.31845E+05, tol = 0.57763E+04, time = 10.54 | CG iter. 20 -- res = 0.28990E+05, tol = 0.57763E+04, time = 10.90 | CG iter. 21 -- res = 0.27344E+05, tol = 0.57763E+04, time = 10.01 | CG iter. 22 -- res = 0.27089E+05, tol = 0.57763E+04, time = 10.74 | CG iter. 23 -- res = 0.26978E+05, tol = 0.57763E+04, time = 10.51 | CG iter. 24 -- res = 0.25659E+05, tol = 0.57763E+04, time = 10.64 | CG iter. 25 -- res = 0.21754E+05, tol = 0.57763E+04, time = 10.09 | CG iter. 26 -- res = 0.17066E+05, tol = 0.57763E+04, time = 10.82 | CG iter. 27 -- res = 0.12517E+05, tol = 0.57763E+04, time = 11.56 | CG iter. 28 -- res = 0.93986E+04, tol = 0.57763E+04, time = 15.52 | CG iter. 29 -- res = 0.77145E+04, tol = 0.57763E+04, time = 11.04 | CG iter. 30 -- res = 0.67125E+04, tol = 0.57763E+04, time = 10.76 | CG iter. 31 -- res = 0.61520E+04, tol = 0.57763E+04, time = 10.45 | CG iter. 32 -- res = 0.57177E+04, tol = 0.57763E+04, time = 10.71 | CG iter. 33 -- res = 0.49010E+04, tol = 0.57763E+04, time = 10.39 | CG iter. 34 -- res = 0.40907E+04, tol = 0.57763E+04, time = 10.42 | CG iter. 35 -- res = 0.35779E+04, tol = 0.57763E+04, time = 10.53 | CG iter. 36 -- res = 0.33001E+04, tol = 0.57763E+04, time = 12.34 | CG iter. 37 -- res = 0.31635E+04, tol = 0.57763E+04, time = 10.68 | CG iter. 38 -- res = 0.29802E+04, tol = 0.57763E+04, time = 10.84 | CG iter. 39 -- res = 0.26380E+04, tol = 0.57763E+04, time = 10.62 | CG iter. 40 -- res = 0.22469E+04, tol = 0.57763E+04, time = 10.55 | CG iter. 41 -- res = 0.18276E+04, tol = 0.57763E+04, time = 11.07 | CG iter. 42 -- res = 0.14754E+04, tol = 0.57763E+04, time = 10.32 | CG iter. 43 -- res = 0.12293E+04, tol = 0.57763E+04, time = 10.45 | CG iter. 44 -- res = 0.11164E+04, tol = 0.57763E+04, time = 10.38 | CG iter. 45 -- res = 0.10723E+04, tol = 0.57763E+04, time = 10.84 | CG iter. 46 -- res = 0.10141E+04, tol = 0.57763E+04, time = 11.57 | CG iter. 47 -- res = 0.91050E+03, tol = 0.57763E+04, time = 10.45 | CG iter. 48 -- res = 0.77850E+03, tol = 0.57763E+04, time = 10.47 | CG iter. 49 -- res = 0.67221E+03, tol = 0.57763E+04, time = 10.73 | CG iter. 50 -- res = 0.60442E+03, tol = 0.57763E+04, time = 10.64 | CG iter. 51 -- res = 0.56258E+03, tol = 0.57763E+04, time = 10.52 | CG iter. 52 -- res = 0.52149E+03, tol = 0.57763E+04, time = 10.89 | CG iter. 53 -- res = 0.48957E+03, tol = 0.57763E+04, time = 10.48 | CG iter. 54 -- res = 0.44316E+03, tol = 0.57763E+04, time = 10.64 | CG iter. 55 -- res = 0.38652E+03, tol = 0.57763E+04, time = 17.12 | CG iter. 56 -- res = 0.32395E+03, tol = 0.57763E+04, time = 10.61 | CG iter. 57 -- res = 0.28328E+03, tol = 0.57763E+04, time = 10.16 | CG iter. 58 -- res = 0.26818E+03, tol = 0.57763E+04, time = 10.60 | CG iter. 59 -- res = 0.25883E+03, tol = 0.57763E+04, time = 9.90 | CG iter. 60 -- res = 0.23962E+03, tol = 0.57763E+04, time = 10.57 | Final CG iter 61 -- res = 0.23962E+03, tol = 0.57763E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.719 ( -229.792 -2228.822 2511.170 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9025594.926 | Old band monopole 7348698.397 | Change to band monopole 1676896.529 | Change to component monopole -1676889.317 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.527 2.738 | New value -1.199 | Old value 2.527 | Difference -3.726 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.823 ( 6.408 7.922 -7.959 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.411 4.939 | New value 1.637 | Old value -7.411 | Difference 9.047 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.72691E+06, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.20055E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.45101E+00, tol = 0.47627E+18, time = 2.18 | CG iter. 4 -- res = 0.87453E-03, tol = 0.47627E+18, time = 1.64 | Final CG iter 5 -- res = 0.41367E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9025556.105 | (Sampled value in CG: 9011701.402 ) | Chain = 1 -- chisq = 0.81547939E+09 | Chain = 1 -- wall time = 5734.586 sec Available RAM: MemAvailable: 375237108 kB Available Swap: SwapFree: 1113649492 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 200 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444409 | --> Sampling calibration, mode = relcal | relcal = 1.3422886E-02 7.3402596E-04 -1.5853748E-03 -1.2571537E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1212732 0.1429840 9408775.87362848 | BP delta = 0.1212732 0.1362866 9408774.65384498 | BP chisq diff = -1.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632379 | --> Sampling calibration, mode = relcal | relcal = -2.8208124E-03 -7.0408511E-04 1.6780287E-03 1.6132074E-03 -4.0731067E-04 6.4097217E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5701988 15218692.4629259 | BP delta = 0.0000000E+00 -0.5727865 15218689.8043209 | BP chisq diff = -2.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18293238019209 | --> Sampling calibration, mode = relcal | relcal = -7.4882470E-02 -5.8557764E-02 9.1803566E-02 4.1636668E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9451541E-04 4.8353481E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0815E-05 | 2: delta_r/delta_0: 8.6319E-07 | 3: delta_s/delta_0: 2.2085E-07 | 4: delta_r/delta_0: 1.5665E-08 | 5: delta_s/delta_0: 2.7916E-08 | 6: delta_r/delta_0: 1.1717E-09 | 7: delta_s/delta_0: 1.1797E-08 | 8: delta_r/delta_0: 1.4076E-09 | 9: delta_s/delta_0: 1.9985E-09 | 10: delta_r/delta_0: 3.8537E-10 | 11: delta_s/delta_0: 7.8310E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.087430794181953E-003 2.736611884259373E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0815E-05 | 2: delta_r/delta_0: 8.6318E-07 | 3: delta_s/delta_0: 2.2085E-07 | 4: delta_r/delta_0: 1.5667E-08 | 5: delta_s/delta_0: 2.7925E-08 | 6: delta_r/delta_0: 1.1717E-09 | 7: delta_s/delta_0: 1.1802E-08 | 8: delta_r/delta_0: 1.4082E-09 | 9: delta_s/delta_0: 1.9992E-09 | 10: delta_r/delta_0: 3.8554E-10 | 11: delta_s/delta_0: 7.8319E-11 | Reached bicg-stab tolerance | BP delta = 3.7067708E-02 5.3877346E-02 3613091.71631764 | BP delta = 3.7067708E-02 5.4330297E-02 3611417.37832163 | BP chisq diff = -1674.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02576292 | --> Sampling calibration, mode = relcal | relcal = -0.1066183 -9.5511340E-02 0.1449132 5.7216380E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1927601E-03 1.3347656E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9209E-05 | 2: delta_r/delta_0: 1.3282E-06 | 3: delta_s/delta_0: 2.3885E-07 | 4: delta_r/delta_0: 5.4833E-08 | 5: delta_s/delta_0: 1.8987E-08 | 6: delta_r/delta_0: 7.3373E-09 | 7: delta_s/delta_0: 2.7837E-08 | 8: delta_r/delta_0: 1.0391E-09 | 9: delta_s/delta_0: 9.8240E-10 | 10: delta_r/delta_0: 1.9405E-10 | 11: delta_s/delta_0: 1.3325E-09 | 12: delta_r/delta_0: 2.2037E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.794627819447559E-003 2.811456709760479E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.9209E-05 | 2: delta_r/delta_0: 1.3282E-06 | 3: delta_s/delta_0: 2.3884E-07 | 4: delta_r/delta_0: 5.4819E-08 | 5: delta_s/delta_0: 1.8994E-08 | 6: delta_r/delta_0: 7.3358E-09 | 7: delta_s/delta_0: 2.7821E-08 | 8: delta_r/delta_0: 1.0386E-09 | 9: delta_s/delta_0: 9.8228E-10 | 10: delta_r/delta_0: 1.9392E-10 | 11: delta_s/delta_0: 1.3312E-09 | 12: delta_r/delta_0: 2.2028E-11 | Reached bicg-stab tolerance | BP delta = -0.2626044 -0.2398036 2841610.75376048 | BP delta = -0.2626044 -0.2398632 2841636.35410616 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81219749 | --> Sampling calibration, mode = relcal | relcal = 0.2954814 0.2248453 -0.2837588 -0.2365679 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1406899E-04 5.4975213E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1296E+00 | 2: delta_r/delta_0: 2.6666E-02 | 3: delta_s/delta_0: 2.5285E-04 | 4: delta_r/delta_0: 2.2143E-05 | 5: delta_s/delta_0: 1.0738E-05 | 6: delta_r/delta_0: 1.6789E-06 | 7: delta_s/delta_0: 1.3702E-06 | 8: delta_r/delta_0: 2.5481E-07 | 9: delta_s/delta_0: 2.8689E-06 | 10: delta_r/delta_0: 3.1245E-07 | 11: delta_s/delta_0: 2.3800E-07 | 12: delta_r/delta_0: 5.2483E-08 | 13: delta_s/delta_0: 3.5065E-08 | 14: delta_r/delta_0: 1.1118E-08 | 15: delta_s/delta_0: 3.5384E-09 | 16: delta_r/delta_0: 1.0032E-09 | 17: delta_s/delta_0: 4.8245E-10 | 18: delta_r/delta_0: 1.6427E-10 | 19: delta_s/delta_0: 1.3054E-10 | 20: delta_r/delta_0: 9.9493E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.132714489573424 4.021884735317253E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1107E+00 | 2: delta_r/delta_0: 2.6219E-02 | 3: delta_s/delta_0: 2.5187E-04 | 4: delta_r/delta_0: 2.2058E-05 | 5: delta_s/delta_0: 1.0755E-05 | 6: delta_r/delta_0: 1.6821E-06 | 7: delta_s/delta_0: 1.3718E-06 | 8: delta_r/delta_0: 2.5256E-07 | 9: delta_s/delta_0: 2.7738E-06 | 10: delta_r/delta_0: 3.0931E-07 | 11: delta_s/delta_0: 2.3641E-07 | 12: delta_r/delta_0: 5.2226E-08 | 13: delta_s/delta_0: 3.4772E-08 | 14: delta_r/delta_0: 1.1083E-08 | 15: delta_s/delta_0: 3.5287E-09 | 16: delta_r/delta_0: 1.0011E-09 | 17: delta_s/delta_0: 4.7572E-10 | 18: delta_r/delta_0: 1.6268E-10 | 19: delta_s/delta_0: 1.2922E-10 | 20: delta_r/delta_0: 9.8236E-11 | Reached bicg-stab tolerance | BP delta = -0.1070954 -0.1359042 2827611.62251023 | BP delta = -0.1070954 -0.1314403 2827646.77796975 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95906405 | --> Sampling calibration, mode = relcal | relcal = 0.1065216 0.1395184 -0.1103290 -0.1357110 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9286223E-03 1.3638034E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3312E-04 | 2: delta_r/delta_0: 3.8117E-06 | 3: delta_s/delta_0: 3.8065E-06 | 4: delta_r/delta_0: 7.6826E-07 | 5: delta_s/delta_0: 1.5492E-07 | 6: delta_r/delta_0: 1.0429E-07 | 7: delta_s/delta_0: 8.2024E-07 | 8: delta_r/delta_0: 2.0525E-08 | 9: delta_s/delta_0: 1.7671E-08 | 10: delta_r/delta_0: 1.1644E-08 | 11: delta_s/delta_0: 1.4922E-09 | 12: delta_r/delta_0: 5.5652E-10 | 13: delta_s/delta_0: 6.8761E-10 | 14: delta_r/delta_0: 5.0726E-10 | 15: delta_s/delta_0: 6.9447E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.807063222904677E-002 3.697599194790966E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3312E-04 | 2: delta_r/delta_0: 3.8119E-06 | 3: delta_s/delta_0: 3.8067E-06 | 4: delta_r/delta_0: 7.6837E-07 | 5: delta_s/delta_0: 1.5497E-07 | 6: delta_r/delta_0: 1.0433E-07 | 7: delta_s/delta_0: 8.2087E-07 | 8: delta_r/delta_0: 2.0511E-08 | 9: delta_s/delta_0: 1.7669E-08 | 10: delta_r/delta_0: 1.1647E-08 | 11: delta_s/delta_0: 1.4915E-09 | 12: delta_r/delta_0: 5.5575E-10 | 13: delta_s/delta_0: 6.8358E-10 | 14: delta_r/delta_0: 5.0463E-10 | 15: delta_s/delta_0: 6.9347E-11 | Reached bicg-stab tolerance | BP delta = 4.1754201E-02 0.1414888 3004101.85402163 | BP delta = 4.1754201E-02 0.1287740 3004331.77885194 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.077519 | New value = -3.218699 | poltype: 2 pol: 1 CPU time specind = 3.1167984E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195597 | New value = -3.154855 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.239816 | New value = -3.177283 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157453 | New value = -3.154356 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.080069 | New value = -3.135358 | poltype: 2 pol: 2 CPU time specind = 1.3717175E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.13645E+08, tol = 0.77992E+01, time = 5.53 | CG iter. 2 -- res = 0.37020E+06, tol = 0.77992E+01, time = 11.49 | CG iter. 3 -- res = 0.10450E+06, tol = 0.77992E+01, time = 5.17 | CG iter. 4 -- res = 0.14242E+06, tol = 0.77992E+01, time = 5.32 | CG iter. 5 -- res = 0.15919E+06, tol = 0.77992E+01, time = 4.73 | CG iter. 6 -- res = 0.14671E+06, tol = 0.77992E+01, time = 5.26 | CG iter. 7 -- res = 0.11740E+06, tol = 0.77992E+01, time = 4.72 | CG iter. 8 -- res = 0.85794E+05, tol = 0.77992E+01, time = 4.85 | CG iter. 9 -- res = 0.74390E+05, tol = 0.77992E+01, time = 4.97 | CG iter. 10 -- res = 0.60736E+05, tol = 0.77992E+01, time = 4.82 | CG iter. 11 -- res = 0.44849E+05, tol = 0.77992E+01, time = 5.10 | CG iter. 12 -- res = 0.35187E+05, tol = 0.77992E+01, time = 5.02 | CG iter. 13 -- res = 0.30772E+05, tol = 0.77992E+01, time = 4.93 | CG iter. 14 -- res = 0.27221E+05, tol = 0.77992E+01, time = 4.83 | CG iter. 15 -- res = 0.20767E+05, tol = 0.77992E+01, time = 5.04 | CG iter. 16 -- res = 0.14779E+05, tol = 0.77992E+01, time = 5.07 | CG iter. 17 -- res = 0.11575E+05, tol = 0.77992E+01, time = 5.09 | CG iter. 18 -- res = 0.10188E+05, tol = 0.77992E+01, time = 5.04 | CG iter. 19 -- res = 0.88171E+04, tol = 0.77992E+01, time = 6.14 | CG iter. 20 -- res = 0.68014E+04, tol = 0.77992E+01, time = 5.62 | CG iter. 21 -- res = 0.52150E+04, tol = 0.77992E+01, time = 5.10 | CG iter. 22 -- res = 0.45464E+04, tol = 0.77992E+01, time = 5.29 | CG iter. 23 -- res = 0.39186E+04, tol = 0.77992E+01, time = 4.99 | CG iter. 24 -- res = 0.31221E+04, tol = 0.77992E+01, time = 4.98 | CG iter. 25 -- res = 0.24706E+04, tol = 0.77992E+01, time = 4.89 | CG iter. 26 -- res = 0.20972E+04, tol = 0.77992E+01, time = 4.85 | CG iter. 27 -- res = 0.19130E+04, tol = 0.77992E+01, time = 4.96 | CG iter. 28 -- res = 0.16672E+04, tol = 0.77992E+01, time = 4.88 | CG iter. 29 -- res = 0.12570E+04, tol = 0.77992E+01, time = 5.23 | CG iter. 30 -- res = 0.10254E+04, tol = 0.77992E+01, time = 5.00 | CG iter. 31 -- res = 0.93396E+03, tol = 0.77992E+01, time = 5.08 | CG iter. 32 -- res = 0.83457E+03, tol = 0.77992E+01, time = 5.14 | CG iter. 33 -- res = 0.67710E+03, tol = 0.77992E+01, time = 5.05 | CG iter. 34 -- res = 0.53704E+03, tol = 0.77992E+01, time = 5.08 | CG iter. 35 -- res = 0.47923E+03, tol = 0.77992E+01, time = 4.94 | CG iter. 36 -- res = 0.44521E+03, tol = 0.77992E+01, time = 5.17 | CG iter. 37 -- res = 0.36608E+03, tol = 0.77992E+01, time = 4.92 | CG iter. 38 -- res = 0.30767E+03, tol = 0.77992E+01, time = 4.96 | CG iter. 39 -- res = 0.25702E+03, tol = 0.77992E+01, time = 5.15 | CG iter. 40 -- res = 0.23829E+03, tol = 0.77992E+01, time = 5.58 | CG iter. 41 -- res = 0.20274E+03, tol = 0.77992E+01, time = 5.03 | CG iter. 42 -- res = 0.16648E+03, tol = 0.77992E+01, time = 5.25 | CG iter. 43 -- res = 0.14347E+03, tol = 0.77992E+01, time = 5.10 | CG iter. 44 -- res = 0.12907E+03, tol = 0.77992E+01, time = 4.85 | CG iter. 45 -- res = 0.11129E+03, tol = 0.77992E+01, time = 4.94 | CG iter. 46 -- res = 0.89420E+02, tol = 0.77992E+01, time = 5.16 | CG iter. 47 -- res = 0.71654E+02, tol = 0.77992E+01, time = 4.94 | CG iter. 48 -- res = 0.62846E+02, tol = 0.77992E+01, time = 5.17 | CG iter. 49 -- res = 0.54438E+02, tol = 0.77992E+01, time = 5.07 | CG iter. 50 -- res = 0.44071E+02, tol = 0.77992E+01, time = 4.93 | Final CG iter 51 -- res = 0.44071E+02, tol = 0.77992E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8761671.480 | Old band monopole 9025594.926 | Change to band monopole -263923.446 | Change to component monopole 263922.310 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.35 | CG iter. 1 -- res = 0.11381E+07, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.39592E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.34691E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.55204E-01, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.10960E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8761633.794 | (Sampled value in CG: 8655952.200 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.483043 | New value = 1.505621 | poltype: 2 pol: 1 CPU time specind = 1.7548084E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504903 | New value = 1.489464 | poltype: 2 pol: 2 CPU time specind = 3.3831596E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.24102E+08, tol = 0.47566E+04, time = 5.92 | CG iter. 2 -- res = 0.52865E+07, tol = 0.47566E+04, time = 5.84 | CG iter. 3 -- res = 0.83915E+06, tol = 0.47566E+04, time = 5.87 | CG iter. 4 -- res = 0.35359E+06, tol = 0.47566E+04, time = 5.45 | CG iter. 5 -- res = 0.15246E+06, tol = 0.47566E+04, time = 7.03 | CG iter. 6 -- res = 0.80496E+05, tol = 0.47566E+04, time = 6.39 | CG iter. 7 -- res = 0.43229E+05, tol = 0.47566E+04, time = 6.22 | CG iter. 8 -- res = 0.20457E+05, tol = 0.47566E+04, time = 5.90 | CG iter. 9 -- res = 0.88764E+04, tol = 0.47566E+04, time = 5.78 | CG iter. 10 -- res = 0.37153E+04, tol = 0.47566E+04, time = 5.78 | CG iter. 11 -- res = 0.17132E+04, tol = 0.47566E+04, time = 5.55 | CG iter. 12 -- res = 0.87495E+03, tol = 0.47566E+04, time = 5.65 | CG iter. 13 -- res = 0.49950E+03, tol = 0.47566E+04, time = 6.08 | CG iter. 14 -- res = 0.28727E+03, tol = 0.47566E+04, time = 5.69 | CG iter. 15 -- res = 0.14703E+03, tol = 0.47566E+04, time = 5.68 | CG iter. 16 -- res = 0.68455E+02, tol = 0.47566E+04, time = 5.72 | CG iter. 17 -- res = 0.32026E+02, tol = 0.47566E+04, time = 6.08 | CG iter. 18 -- res = 0.15910E+02, tol = 0.47566E+04, time = 5.63 | CG iter. 19 -- res = 0.86134E+01, tol = 0.47566E+04, time = 5.69 | CG iter. 20 -- res = 0.49287E+01, tol = 0.47566E+04, time = 5.36 | CG iter. 21 -- res = 0.26950E+01, tol = 0.47566E+04, time = 5.85 | CG iter. 22 -- res = 0.13672E+01, tol = 0.47566E+04, time = 5.71 | CG iter. 23 -- res = 0.67142E+00, tol = 0.47566E+04, time = 5.59 | CG iter. 24 -- res = 0.34510E+00, tol = 0.47566E+04, time = 6.02 | CG iter. 25 -- res = 0.19305E+00, tol = 0.47566E+04, time = 5.89 | CG iter. 26 -- res = 0.11166E+00, tol = 0.47566E+04, time = 5.30 | CG iter. 27 -- res = 0.63724E-01, tol = 0.47566E+04, time = 6.14 | CG iter. 28 -- res = 0.34638E-01, tol = 0.47566E+04, time = 5.76 | CG iter. 29 -- res = 0.18118E-01, tol = 0.47566E+04, time = 5.68 | CG iter. 30 -- res = 0.95473E-02, tol = 0.47566E+04, time = 5.88 | CG iter. 31 -- res = 0.53022E-02, tol = 0.47566E+04, time = 6.00 | CG iter. 32 -- res = 0.29545E-02, tol = 0.47566E+04, time = 5.88 | CG iter. 33 -- res = 0.16415E-02, tol = 0.47566E+04, time = 5.76 | CG iter. 34 -- res = 0.87262E-03, tol = 0.47566E+04, time = 5.64 | CG iter. 35 -- res = 0.45023E-03, tol = 0.47566E+04, time = 5.68 | Final CG iter 36 -- res = 0.45023E-03, tol = 0.47566E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.222 2.716 | New value -2.083 | Old value -1.222 | Difference -0.860 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.51781E+05, tol = 0.47627E+18, time = 4.11 | CG iter. 2 -- res = 0.10513E+03, tol = 0.47627E+18, time = 1.70 | CG iter. 3 -- res = 0.17813E+01, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.40831E-03, tol = 0.47627E+18, time = 1.62 | Final CG iter 5 -- res = 0.63412E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8761633.794 | (Sampled value in CG: 8656717.261 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.647083 | New value = -3.514216 | poltype: 1 pol: 1 CPU time specind = 4.4108868E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.57714E+07, tol = 0.24325E+01, time = 2.31 | CG iter. 2 -- res = 0.31550E+07, tol = 0.24325E+01, time = 2.35 | CG iter. 3 -- res = 0.71056E+06, tol = 0.24325E+01, time = 2.41 | CG iter. 4 -- res = 0.32518E+06, tol = 0.24325E+01, time = 2.16 | CG iter. 5 -- res = 0.18623E+06, tol = 0.24325E+01, time = 2.40 | CG iter. 6 -- res = 0.85288E+05, tol = 0.24325E+01, time = 2.31 | CG iter. 7 -- res = 0.26185E+05, tol = 0.24325E+01, time = 2.29 | CG iter. 8 -- res = 0.10792E+05, tol = 0.24325E+01, time = 2.56 | CG iter. 9 -- res = 0.54302E+04, tol = 0.24325E+01, time = 2.47 | CG iter. 10 -- res = 0.23123E+04, tol = 0.24325E+01, time = 2.24 | CG iter. 11 -- res = 0.91161E+03, tol = 0.24325E+01, time = 2.28 | CG iter. 12 -- res = 0.42980E+03, tol = 0.24325E+01, time = 2.38 | CG iter. 13 -- res = 0.21293E+03, tol = 0.24325E+01, time = 2.22 | CG iter. 14 -- res = 0.10447E+03, tol = 0.24325E+01, time = 2.23 | CG iter. 15 -- res = 0.50377E+02, tol = 0.24325E+01, time = 2.53 | CG iter. 16 -- res = 0.22525E+02, tol = 0.24325E+01, time = 2.45 | CG iter. 17 -- res = 0.94869E+01, tol = 0.24325E+01, time = 2.45 | CG iter. 18 -- res = 0.44081E+01, tol = 0.24325E+01, time = 2.32 | CG iter. 19 -- res = 0.21480E+01, tol = 0.24325E+01, time = 2.31 | CG iter. 20 -- res = 0.10302E+01, tol = 0.24325E+01, time = 2.33 | CG iter. 21 -- res = 0.49441E+00, tol = 0.24325E+01, time = 2.22 | CG iter. 22 -- res = 0.22312E+00, tol = 0.24325E+01, time = 2.17 | CG iter. 23 -- res = 0.10015E+00, tol = 0.24325E+01, time = 2.45 | CG iter. 24 -- res = 0.46793E-01, tol = 0.24325E+01, time = 2.34 | CG iter. 25 -- res = 0.22027E-01, tol = 0.24325E+01, time = 2.50 | CG iter. 26 -- res = 0.10521E-01, tol = 0.24325E+01, time = 2.32 | CG iter. 27 -- res = 0.51921E-02, tol = 0.24325E+01, time = 2.17 | CG iter. 28 -- res = 0.26527E-02, tol = 0.24325E+01, time = 2.54 | CG iter. 29 -- res = 0.12541E-02, tol = 0.24325E+01, time = 2.39 | CG iter. 30 -- res = 0.58110E-03, tol = 0.24325E+01, time = 2.28 | CG iter. 31 -- res = 0.26473E-03, tol = 0.24325E+01, time = 2.39 | CG iter. 32 -- res = 0.12145E-03, tol = 0.24325E+01, time = 8.52 | CG iter. 33 -- res = 0.61960E-04, tol = 0.24325E+01, time = 3.07 | CG iter. 34 -- res = 0.29723E-04, tol = 0.24325E+01, time = 2.46 | CG iter. 35 -- res = 0.15468E-04, tol = 0.24325E+01, time = 2.39 | CG iter. 36 -- res = 0.75655E-05, tol = 0.24325E+01, time = 2.25 | CG iter. 37 -- res = 0.33358E-05, tol = 0.24325E+01, time = 2.36 | CG iter. 38 -- res = 0.16244E-05, tol = 0.24325E+01, time = 2.54 | CG iter. 39 -- res = 0.78594E-06, tol = 0.24325E+01, time = 2.38 | CG iter. 40 -- res = 0.39890E-06, tol = 0.24325E+01, time = 2.11 | CG iter. 41 -- res = 0.19923E-06, tol = 0.24325E+01, time = 2.61 | CG iter. 42 -- res = 0.96716E-07, tol = 0.24325E+01, time = 2.25 | CG iter. 43 -- res = 0.42661E-07, tol = 0.24325E+01, time = 2.45 | CG iter. 44 -- res = 0.20064E-07, tol = 0.24325E+01, time = 2.35 | CG iter. 45 -- res = 0.94195E-08, tol = 0.24325E+01, time = 2.51 | CG iter. 46 -- res = 0.47102E-08, tol = 0.24325E+01, time = 2.57 | CG iter. 47 -- res = 0.24238E-08, tol = 0.24325E+01, time = 2.19 | CG iter. 48 -- res = 0.11774E-08, tol = 0.24325E+01, time = 2.27 | CG iter. 49 -- res = 0.53879E-09, tol = 0.24325E+01, time = 2.37 | CG iter. 50 -- res = 0.24510E-09, tol = 0.24325E+01, time = 2.38 | Final CG iter 51 -- res = 0.24510E-09, tol = 0.24325E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.636 7.274 | New value -11.713 | Old value -9.636 | Difference -2.077 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.10033E+05, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.29889E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.12666E+01, tol = 0.47627E+18, time = 1.68 | CG iter. 4 -- res = 0.76310E-03, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.79391E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8761633.794 | (Sampled value in CG: 8684713.143 ) | CPU time specind = 1057.479 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.68831E+08, tol = 0.57578E+04, time = 10.30 | CG iter. 2 -- res = 0.58592E+08, tol = 0.57578E+04, time = 10.60 | CG iter. 3 -- res = 0.15096E+08, tol = 0.57578E+04, time = 10.44 | CG iter. 4 -- res = 0.63553E+07, tol = 0.57578E+04, time = 10.69 | CG iter. 5 -- res = 0.38131E+07, tol = 0.57578E+04, time = 10.56 | CG iter. 6 -- res = 0.22046E+07, tol = 0.57578E+04, time = 10.38 | CG iter. 7 -- res = 0.13257E+07, tol = 0.57578E+04, time = 10.25 | CG iter. 8 -- res = 0.90229E+06, tol = 0.57578E+04, time = 10.92 | CG iter. 9 -- res = 0.60913E+06, tol = 0.57578E+04, time = 10.65 | CG iter. 10 -- res = 0.38009E+06, tol = 0.57578E+04, time = 10.36 | CG iter. 11 -- res = 0.22061E+06, tol = 0.57578E+04, time = 10.88 | CG iter. 12 -- res = 0.13246E+06, tol = 0.57578E+04, time = 10.47 | CG iter. 13 -- res = 0.86627E+05, tol = 0.57578E+04, time = 10.30 | CG iter. 14 -- res = 0.67938E+05, tol = 0.57578E+04, time = 10.56 | CG iter. 15 -- res = 0.61895E+05, tol = 0.57578E+04, time = 10.27 | CG iter. 16 -- res = 0.61862E+05, tol = 0.57578E+04, time = 15.11 | CG iter. 17 -- res = 0.62260E+05, tol = 0.57578E+04, time = 12.01 | CG iter. 18 -- res = 0.58483E+05, tol = 0.57578E+04, time = 10.49 | CG iter. 19 -- res = 0.53941E+05, tol = 0.57578E+04, time = 10.36 | CG iter. 20 -- res = 0.50770E+05, tol = 0.57578E+04, time = 10.78 | CG iter. 21 -- res = 0.47686E+05, tol = 0.57578E+04, time = 10.36 | CG iter. 22 -- res = 0.45211E+05, tol = 0.57578E+04, time = 10.65 | CG iter. 23 -- res = 0.42247E+05, tol = 0.57578E+04, time = 10.31 | CG iter. 24 -- res = 0.35918E+05, tol = 0.57578E+04, time = 10.39 | CG iter. 25 -- res = 0.27317E+05, tol = 0.57578E+04, time = 12.19 | CG iter. 26 -- res = 0.20362E+05, tol = 0.57578E+04, time = 10.59 | CG iter. 27 -- res = 0.15347E+05, tol = 0.57578E+04, time = 10.34 | CG iter. 28 -- res = 0.12204E+05, tol = 0.57578E+04, time = 10.22 | CG iter. 29 -- res = 0.10906E+05, tol = 0.57578E+04, time = 10.15 | CG iter. 30 -- res = 0.10167E+05, tol = 0.57578E+04, time = 10.41 | CG iter. 31 -- res = 0.95828E+04, tol = 0.57578E+04, time = 10.35 | CG iter. 32 -- res = 0.87344E+04, tol = 0.57578E+04, time = 10.46 | CG iter. 33 -- res = 0.78742E+04, tol = 0.57578E+04, time = 10.73 | CG iter. 34 -- res = 0.66359E+04, tol = 0.57578E+04, time = 10.64 | CG iter. 35 -- res = 0.57477E+04, tol = 0.57578E+04, time = 11.12 | CG iter. 36 -- res = 0.53005E+04, tol = 0.57578E+04, time = 10.38 | CG iter. 37 -- res = 0.50310E+04, tol = 0.57578E+04, time = 10.53 | CG iter. 38 -- res = 0.44681E+04, tol = 0.57578E+04, time = 10.75 | CG iter. 39 -- res = 0.37581E+04, tol = 0.57578E+04, time = 10.44 | CG iter. 40 -- res = 0.30720E+04, tol = 0.57578E+04, time = 10.34 | CG iter. 41 -- res = 0.24762E+04, tol = 0.57578E+04, time = 10.33 | CG iter. 42 -- res = 0.21146E+04, tol = 0.57578E+04, time = 10.70 | CG iter. 43 -- res = 0.19321E+04, tol = 0.57578E+04, time = 10.64 | CG iter. 44 -- res = 0.19196E+04, tol = 0.57578E+04, time = 17.42 | CG iter. 45 -- res = 0.18810E+04, tol = 0.57578E+04, time = 10.63 | CG iter. 46 -- res = 0.17143E+04, tol = 0.57578E+04, time = 10.36 | CG iter. 47 -- res = 0.15525E+04, tol = 0.57578E+04, time = 10.49 | CG iter. 48 -- res = 0.13529E+04, tol = 0.57578E+04, time = 10.72 | CG iter. 49 -- res = 0.12137E+04, tol = 0.57578E+04, time = 10.23 | CG iter. 50 -- res = 0.11177E+04, tol = 0.57578E+04, time = 10.45 | CG iter. 51 -- res = 0.10561E+04, tol = 0.57578E+04, time = 10.10 | CG iter. 52 -- res = 0.10415E+04, tol = 0.57578E+04, time = 11.15 | CG iter. 53 -- res = 0.95629E+03, tol = 0.57578E+04, time = 12.08 | CG iter. 54 -- res = 0.82997E+03, tol = 0.57578E+04, time = 10.33 | CG iter. 55 -- res = 0.71760E+03, tol = 0.57578E+04, time = 10.78 | CG iter. 56 -- res = 0.62090E+03, tol = 0.57578E+04, time = 10.50 | CG iter. 57 -- res = 0.56934E+03, tol = 0.57578E+04, time = 10.07 | CG iter. 58 -- res = 0.54898E+03, tol = 0.57578E+04, time = 10.33 | CG iter. 59 -- res = 0.54960E+03, tol = 0.57578E+04, time = 10.51 | CG iter. 60 -- res = 0.52069E+03, tol = 0.57578E+04, time = 10.26 | Final CG iter 61 -- res = 0.52069E+03, tol = 0.57578E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.892 ( -230.043 -2229.139 2511.341 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8655903.400 | Old band monopole 8761671.480 | Change to band monopole -105768.081 | Change to component monopole 105767.626 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.055 2.724 | New value -3.163 | Old value -2.055 | Difference -1.109 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.354 ( 7.764 9.091 -7.782 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.747 6.555 | New value -1.405 | Old value -1.747 | Difference 0.342 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.94350E+05, tol = 0.47627E+18, time = 1.60 | CG iter. 2 -- res = 0.32044E+02, tol = 0.47627E+18, time = 1.67 | CG iter. 3 -- res = 0.10946E+01, tol = 0.47627E+18, time = 1.60 | CG iter. 4 -- res = 0.22672E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.72724E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8655866.169 | (Sampled value in CG: 8632961.890 ) | Chain = 1 -- chisq = 0.81576292E+09 | Chain = 1 -- wall time = 6114.051 sec Available RAM: MemAvailable: 375654292 kB Available Swap: SwapFree: 1114093140 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 201 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444665 | --> Sampling calibration, mode = relcal | relcal = 1.3434885E-02 7.4265443E-04 -1.5983492E-03 -1.2579191E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1212732 0.1362866 97040848.6014686 | BP delta = 0.1029314 0.1179447 97040852.7692347 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632358 | --> Sampling calibration, mode = relcal | relcal = -2.8209740E-03 -7.0359651E-04 1.6781052E-03 1.6146125E-03 -4.0607288E-04 6.3792564E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5727865 15218867.1752786 | BP delta = 0.0000000E+00 -0.5733525 15218867.6373847 | BP chisq diff = 0.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103908 | --> Sampling calibration, mode = relcal | relcal = 3.7100125E-02 1.3727026E-02 5.7504973E-03 -7.1732653E-03 8.2469387E-03 2.4004306E-03 -7.6078707E-03 -7.1820528E-03 -1.5305246E-02 -1.4800369E-02 -3.0556167E-03 -1.2100598E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.299614 132211860.322268 | BP delta = 0.0000000E+00 -1.204168 132211862.357457 | BP chisq diff = 2.0, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17950235391844 | --> Sampling calibration, mode = relcal | relcal = -7.4006632E-02 -5.7771955E-02 9.0755805E-02 4.1022781E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0611537E-04 3.0309043E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5243E-03 | 2: delta_r/delta_0: 8.0085E-05 | 3: delta_s/delta_0: 1.9461E-07 | 4: delta_r/delta_0: 2.1702E-08 | 5: delta_s/delta_0: 7.6534E-09 | 6: delta_r/delta_0: 1.3870E-09 | 7: delta_s/delta_0: 8.1853E-09 | 8: delta_r/delta_0: 1.2373E-10 | 9: delta_s/delta_0: 7.3588E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.140987974365097E-003 2.744694803701365E-005 | BP delta = 3.7067708E-02 5.4330297E-02 50480848.7853871 | BP delta = 3.7755691E-02 5.5018283E-02 50480849.3014971 | BP chisq diff = 0.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02574954 | --> Sampling calibration, mode = relcal | relcal = -0.1066998 -9.5537230E-02 0.1449361 5.7300869E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4526326E-03 1.4113205E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4257E-05 | 2: delta_r/delta_0: 1.5684E-06 | 3: delta_s/delta_0: 2.3627E-07 | 4: delta_r/delta_0: 4.5520E-08 | 5: delta_s/delta_0: 2.6315E-08 | 6: delta_r/delta_0: 7.0545E-09 | 7: delta_s/delta_0: 7.1864E-09 | 8: delta_r/delta_0: 1.5893E-09 | 9: delta_s/delta_0: 7.7210E-10 | 10: delta_r/delta_0: 5.8135E-10 | 11: delta_s/delta_0: 3.8593E-09 | 12: delta_r/delta_0: 2.8929E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.928685509030860E-003 2.811516102403354E-005 | BP delta = -0.2626044 -0.2398036 57385317.9253569 | BP delta = -0.2644560 -0.2416552 57385317.7822275 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81211621 | --> Sampling calibration, mode = relcal | relcal = 0.2952813 0.2248958 -0.2837677 -0.2364094 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4075032E-04 4.9649794E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9093E-03 | 2: delta_r/delta_0: 4.4165E-05 | 3: delta_s/delta_0: 1.7229E-05 | 4: delta_r/delta_0: 1.7981E-06 | 5: delta_s/delta_0: 1.8722E-06 | 6: delta_r/delta_0: 2.0574E-07 | 7: delta_s/delta_0: 6.5601E-08 | 8: delta_r/delta_0: 3.4236E-08 | 9: delta_s/delta_0: 3.9553E-07 | 10: delta_r/delta_0: 3.9110E-09 | 11: delta_s/delta_0: 2.8326E-09 | 12: delta_r/delta_0: 4.1454E-10 | 13: delta_s/delta_0: 3.8623E-10 | 14: delta_r/delta_0: 2.1483E-10 | 15: delta_s/delta_0: 2.7498E-10 | 16: delta_r/delta_0: 1.6860E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.200335268849045E-002 4.022256081942650E-005 | BP delta = -0.1070954 -0.1359042 72491703.8385918 | BP delta = -0.1198941 -0.1487030 72491703.4439149 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95899397 | --> Sampling calibration, mode = relcal | relcal = 0.1064422 0.1394794 -0.1102628 -0.1356589 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7443415E-03 1.2571166E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5966E-04 | 2: delta_r/delta_0: 4.3483E-06 | 3: delta_s/delta_0: 7.2599E-06 | 4: delta_r/delta_0: 1.0883E-06 | 5: delta_s/delta_0: 1.7199E-07 | 6: delta_r/delta_0: 1.1521E-07 | 7: delta_s/delta_0: 8.0708E-07 | 8: delta_r/delta_0: 2.2850E-08 | 9: delta_s/delta_0: 3.3525E-08 | 10: delta_r/delta_0: 2.2735E-08 | 11: delta_s/delta_0: 1.1636E-09 | 12: delta_r/delta_0: 8.1983E-10 | 13: delta_s/delta_0: 3.5519E-09 | 14: delta_r/delta_0: 5.6526E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.872873097335764E-002 3.697751087747277E-005 | BP delta = 4.1754201E-02 0.1414888 72777619.5769352 | BP delta = 7.3693685E-02 0.1734283 72777618.8860987 | BP chisq diff = -0.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52175186 | --> Sampling calibration, mode = relcal | relcal = -5.1081978E-02 -3.7522733E-03 2.7293051E-02 2.7541200E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0298791E-03 3.2567284E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5564E-05 | 2: delta_r/delta_0: 4.4912E-06 | 3: delta_s/delta_0: 6.0016E-06 | 4: delta_r/delta_0: 9.7282E-07 | 5: delta_s/delta_0: 5.3463E-08 | 6: delta_r/delta_0: 3.1285E-08 | 7: delta_s/delta_0: 4.2664E-07 | 8: delta_r/delta_0: 8.2113E-09 | 9: delta_s/delta_0: 4.1497E-09 | 10: delta_r/delta_0: 1.3917E-09 | 11: delta_s/delta_0: 6.4082E-09 | 12: delta_r/delta_0: 1.2890E-09 | 13: delta_s/delta_0: 7.4758E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.142245912528929E-002 5.481445720640692E-005 | BP delta = 5.2877761E-02 0.1479552 91257266.2439705 | BP delta = 7.8844227E-02 0.1739216 91257265.9101782 | BP chisq diff = -0.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42168825 | --> Sampling calibration, mode = relcal | relcal = 4.5649394E-02 3.9687682E-02 -2.8375940E-02 -5.6961138E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3838440E-03 5.4639941E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2278E-05 | 2: delta_r/delta_0: 3.2445E-06 | 3: delta_s/delta_0: 1.8538E-06 | 4: delta_r/delta_0: 2.3289E-07 | 5: delta_s/delta_0: 6.6130E-08 | 6: delta_r/delta_0: 3.4962E-08 | 7: delta_s/delta_0: 1.2671E-07 | 8: delta_r/delta_0: 5.1978E-09 | 9: delta_s/delta_0: 4.6745E-09 | 10: delta_r/delta_0: 2.8088E-09 | 11: delta_s/delta_0: 7.3670E-08 | 12: delta_r/delta_0: 2.1769E-08 | 13: delta_s/delta_0: 2.2922E-08 | 14: delta_r/delta_0: 1.4410E-08 | 15: delta_s/delta_0: 1.0606E-10 | 16: delta_r/delta_0: 3.8496E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.431389919992901E-002 4.994514729209594E-005 | BP delta = 1.7444899E-02 -7.2548389E-02 90173957.3847279 | BP delta = 3.8424391E-02 -5.1568899E-02 90173957.0433712 | BP chisq diff = -0.3, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28180697 | --> Sampling calibration, mode = relcal | relcal = 2.4242733E-02 4.5100439E-02 -2.3383291E-02 -4.5959882E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.1787187E-03 2.9606612E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0587E-04 | 2: delta_r/delta_0: 8.6830E-06 | 3: delta_s/delta_0: 1.4411E-06 | 4: delta_r/delta_0: 2.0233E-07 | 5: delta_s/delta_0: 9.2256E-08 | 6: delta_r/delta_0: 1.9376E-08 | 7: delta_s/delta_0: 9.6839E-09 | 8: delta_r/delta_0: 6.5224E-09 | 9: delta_s/delta_0: 3.3578E-08 | 10: delta_r/delta_0: 4.9564E-09 | 11: delta_s/delta_0: 5.8620E-09 | 12: delta_r/delta_0: 2.9230E-09 | 13: delta_s/delta_0: 1.6574E-10 | 14: delta_r/delta_0: 1.1573E-10 | 15: delta_s/delta_0: 5.6134E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.046140595911139E-002 7.838430817760588E-005 | BP delta = -0.1734356 -0.3013188 160933197.834017 | BP delta = -0.1258788 -0.2537619 160933198.380615 | BP chisq diff = 0.5, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29411774 | --> Sampling calibration, mode = relcal | relcal = 5.8000890E-04 1.0214512E-02 -3.8566506E-03 -6.9378703E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5528625E-02 1.5505341E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3038E-04 | 2: delta_r/delta_0: 1.0784E-05 | 3: delta_s/delta_0: 1.6388E-06 | 4: delta_r/delta_0: 3.2853E-07 | 5: delta_s/delta_0: 8.6411E-08 | 6: delta_r/delta_0: 2.4146E-08 | 7: delta_s/delta_0: 1.0860E-08 | 8: delta_r/delta_0: 7.0767E-09 | 9: delta_s/delta_0: 1.0155E-08 | 10: delta_r/delta_0: 4.8093E-09 | 11: delta_s/delta_0: 4.5924E-07 | 12: delta_r/delta_0: 1.8923E-07 | 13: delta_s/delta_0: 3.8083E-10 | 14: delta_r/delta_0: 2.3112E-10 | 15: delta_s/delta_0: 8.3931E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.023152757769235E-002 8.300973539477050E-005 | BP delta = -0.8896907 -0.8813311 157884265.168605 | BP delta = -0.9115900 -0.9032304 157884265.054344 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26519541 | --> Sampling calibration, mode = relcal | relcal = -5.6191720E-03 1.5010075E-02 -2.2618936E-03 -7.1290098E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.2344070E-03 4.3950975E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4094E-04 | 2: delta_r/delta_0: 1.2052E-05 | 3: delta_s/delta_0: 2.1606E-06 | 4: delta_r/delta_0: 2.3745E-07 | 5: delta_s/delta_0: 9.6289E-08 | 6: delta_r/delta_0: 2.1386E-08 | 7: delta_s/delta_0: 9.9059E-09 | 8: delta_r/delta_0: 6.4674E-09 | 9: delta_s/delta_0: 9.8255E-09 | 10: delta_r/delta_0: 5.7181E-09 | 11: delta_s/delta_0: 7.6301E-08 | 12: delta_r/delta_0: 6.3085E-09 | 13: delta_s/delta_0: 6.4016E-09 | 14: delta_r/delta_0: 1.8022E-09 | 15: delta_s/delta_0: 6.1970E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.273756687010522E-003 9.148725518298284E-005 | BP delta = 0.3933705 0.4261221 157017257.068987 | BP delta = 0.3709631 0.4037147 157017257.002072 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25681778 | --> Sampling calibration, mode = relcal | relcal = -3.1701766E-02 -2.5921352E-02 3.6886729E-02 2.0736389E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8892439E-02 1.8859003E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4931E-04 | 2: delta_r/delta_0: 1.1411E-05 | 3: delta_s/delta_0: 1.5814E-06 | 4: delta_r/delta_0: 4.0906E-07 | 5: delta_s/delta_0: 1.0962E-07 | 6: delta_r/delta_0: 4.3724E-08 | 7: delta_s/delta_0: 2.3895E-08 | 8: delta_r/delta_0: 5.9678E-09 | 9: delta_s/delta_0: 1.6774E-06 | 10: delta_r/delta_0: 1.9094E-08 | 11: delta_s/delta_0: 4.5480E-09 | 12: delta_r/delta_0: 2.3916E-09 | 13: delta_s/delta_0: 2.9031E-10 | 14: delta_r/delta_0: 2.3800E-10 | 15: delta_s/delta_0: 2.0950E-10 | 16: delta_r/delta_0: 1.7923E-10 | 17: delta_s/delta_0: 1.5827E-10 | 18: delta_r/delta_0: 1.3980E-10 | 19: delta_s/delta_0: 1.1558E-10 | 20: delta_r/delta_0: 8.8599E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.073654585843247E-002 8.665717260060062E-005 | BP delta = -0.7906818 -0.9237537 158513204.295845 | BP delta = -0.7973871 -0.9304589 158513204.266483 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218699 | New value = -3.185022 | poltype: 2 pol: 1 CPU time specind = 1.7937899E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154855 | New value = -3.105158 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177283 | New value = -3.162241 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154356 | New value = -3.197824 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135358 | New value = -3.154566 | poltype: 2 pol: 2 CPU time specind = 1.4720917E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.37 | CG iter. 1 -- res = 0.13549E+08, tol = 0.79938E+01, time = 5.22 | CG iter. 2 -- res = 0.30831E+06, tol = 0.79938E+01, time = 4.97 | CG iter. 3 -- res = 0.44434E+05, tol = 0.79938E+01, time = 5.19 | CG iter. 4 -- res = 0.21610E+05, tol = 0.79938E+01, time = 5.10 | CG iter. 5 -- res = 0.11568E+05, tol = 0.79938E+01, time = 4.88 | CG iter. 6 -- res = 0.68452E+04, tol = 0.79938E+01, time = 4.94 | CG iter. 7 -- res = 0.50828E+04, tol = 0.79938E+01, time = 4.91 | CG iter. 8 -- res = 0.42305E+04, tol = 0.79938E+01, time = 5.10 | CG iter. 9 -- res = 0.37553E+04, tol = 0.79938E+01, time = 4.84 | CG iter. 10 -- res = 0.40221E+04, tol = 0.79938E+01, time = 5.05 | CG iter. 11 -- res = 0.35743E+04, tol = 0.79938E+01, time = 5.30 | CG iter. 12 -- res = 0.24738E+04, tol = 0.79938E+01, time = 5.19 | CG iter. 13 -- res = 0.17521E+04, tol = 0.79938E+01, time = 4.87 | CG iter. 14 -- res = 0.13438E+04, tol = 0.79938E+01, time = 4.94 | CG iter. 15 -- res = 0.11895E+04, tol = 0.79938E+01, time = 5.29 | CG iter. 16 -- res = 0.97912E+03, tol = 0.79938E+01, time = 4.94 | CG iter. 17 -- res = 0.74956E+03, tol = 0.79938E+01, time = 5.00 | CG iter. 18 -- res = 0.59917E+03, tol = 0.79938E+01, time = 5.60 | CG iter. 19 -- res = 0.53554E+03, tol = 0.79938E+01, time = 10.27 | CG iter. 20 -- res = 0.43575E+03, tol = 0.79938E+01, time = 4.89 | CG iter. 21 -- res = 0.30956E+03, tol = 0.79938E+01, time = 5.28 | CG iter. 22 -- res = 0.23034E+03, tol = 0.79938E+01, time = 4.83 | CG iter. 23 -- res = 0.19365E+03, tol = 0.79938E+01, time = 4.99 | CG iter. 24 -- res = 0.16707E+03, tol = 0.79938E+01, time = 5.03 | CG iter. 25 -- res = 0.12653E+03, tol = 0.79938E+01, time = 5.25 | CG iter. 26 -- res = 0.89144E+02, tol = 0.79938E+01, time = 4.71 | CG iter. 27 -- res = 0.65608E+02, tol = 0.79938E+01, time = 5.34 | CG iter. 28 -- res = 0.52986E+02, tol = 0.79938E+01, time = 5.31 | CG iter. 29 -- res = 0.40058E+02, tol = 0.79938E+01, time = 4.67 | CG iter. 30 -- res = 0.28896E+02, tol = 0.79938E+01, time = 5.18 | CG iter. 31 -- res = 0.22168E+02, tol = 0.79938E+01, time = 5.27 | CG iter. 32 -- res = 0.18874E+02, tol = 0.79938E+01, time = 4.91 | CG iter. 33 -- res = 0.15025E+02, tol = 0.79938E+01, time = 5.18 | CG iter. 34 -- res = 0.11291E+02, tol = 0.79938E+01, time = 5.06 | CG iter. 35 -- res = 0.82172E+01, tol = 0.79938E+01, time = 4.93 | CG iter. 36 -- res = 0.68049E+01, tol = 0.79938E+01, time = 6.59 | CG iter. 37 -- res = 0.57454E+01, tol = 0.79938E+01, time = 5.41 | CG iter. 38 -- res = 0.43546E+01, tol = 0.79938E+01, time = 5.22 | CG iter. 39 -- res = 0.32660E+01, tol = 0.79938E+01, time = 5.23 | CG iter. 40 -- res = 0.26202E+01, tol = 0.79938E+01, time = 4.88 | CG iter. 41 -- res = 0.21598E+01, tol = 0.79938E+01, time = 4.74 | CG iter. 42 -- res = 0.16603E+01, tol = 0.79938E+01, time = 5.04 | CG iter. 43 -- res = 0.12260E+01, tol = 0.79938E+01, time = 5.04 | CG iter. 44 -- res = 0.97611E+00, tol = 0.79938E+01, time = 5.18 | CG iter. 45 -- res = 0.81014E+00, tol = 0.79938E+01, time = 5.02 | CG iter. 46 -- res = 0.64034E+00, tol = 0.79938E+01, time = 5.22 | CG iter. 47 -- res = 0.48947E+00, tol = 0.79938E+01, time = 5.11 | CG iter. 48 -- res = 0.37614E+00, tol = 0.79938E+01, time = 4.97 | CG iter. 49 -- res = 0.29951E+00, tol = 0.79938E+01, time = 5.08 | CG iter. 50 -- res = 0.24436E+00, tol = 0.79938E+01, time = 5.03 | Final CG iter 51 -- res = 0.24436E+00, tol = 0.79938E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8025943.851 | Old band monopole 8655903.400 | Change to band monopole -629959.548 | Change to component monopole 629956.839 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.75183E+05, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.50353E+02, tol = 0.47627E+18, time = 1.66 | CG iter. 3 -- res = 0.23325E+01, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.29814E-02, tol = 0.47627E+18, time = 1.71 | Final CG iter 5 -- res = 0.31054E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8025909.330 | (Sampled value in CG: 8046542.683 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505621 | New value = 1.534650 | poltype: 2 pol: 1 CPU time specind = 8.8219643E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489464 | New value = 1.518625 | poltype: 2 pol: 2 CPU time specind = 5.7339668E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.24209E+08, tol = 0.47595E+04, time = 5.67 | CG iter. 2 -- res = 0.53606E+07, tol = 0.47595E+04, time = 5.78 | CG iter. 3 -- res = 0.85988E+06, tol = 0.47595E+04, time = 5.87 | CG iter. 4 -- res = 0.36604E+06, tol = 0.47595E+04, time = 6.23 | CG iter. 5 -- res = 0.15623E+06, tol = 0.47595E+04, time = 11.45 | CG iter. 6 -- res = 0.80992E+05, tol = 0.47595E+04, time = 5.39 | CG iter. 7 -- res = 0.44770E+05, tol = 0.47595E+04, time = 5.81 | CG iter. 8 -- res = 0.21585E+05, tol = 0.47595E+04, time = 5.76 | CG iter. 9 -- res = 0.94478E+04, tol = 0.47595E+04, time = 5.58 | CG iter. 10 -- res = 0.39532E+04, tol = 0.47595E+04, time = 5.81 | CG iter. 11 -- res = 0.17676E+04, tol = 0.47595E+04, time = 5.78 | CG iter. 12 -- res = 0.89449E+03, tol = 0.47595E+04, time = 5.61 | CG iter. 13 -- res = 0.49954E+03, tol = 0.47595E+04, time = 5.69 | CG iter. 14 -- res = 0.28641E+03, tol = 0.47595E+04, time = 5.93 | CG iter. 15 -- res = 0.14562E+03, tol = 0.47595E+04, time = 5.63 | CG iter. 16 -- res = 0.67672E+02, tol = 0.47595E+04, time = 5.91 | CG iter. 17 -- res = 0.31639E+02, tol = 0.47595E+04, time = 5.85 | CG iter. 18 -- res = 0.16156E+02, tol = 0.47595E+04, time = 5.77 | CG iter. 19 -- res = 0.90372E+01, tol = 0.47595E+04, time = 6.39 | CG iter. 20 -- res = 0.50613E+01, tol = 0.47595E+04, time = 6.83 | CG iter. 21 -- res = 0.27491E+01, tol = 0.47595E+04, time = 6.14 | CG iter. 22 -- res = 0.13797E+01, tol = 0.47595E+04, time = 5.69 | CG iter. 23 -- res = 0.66940E+00, tol = 0.47595E+04, time = 6.11 | CG iter. 24 -- res = 0.33746E+00, tol = 0.47595E+04, time = 5.82 | CG iter. 25 -- res = 0.18375E+00, tol = 0.47595E+04, time = 5.96 | CG iter. 26 -- res = 0.10446E+00, tol = 0.47595E+04, time = 5.88 | CG iter. 27 -- res = 0.58956E-01, tol = 0.47595E+04, time = 5.78 | CG iter. 28 -- res = 0.32057E-01, tol = 0.47595E+04, time = 5.85 | CG iter. 29 -- res = 0.16786E-01, tol = 0.47595E+04, time = 5.75 | CG iter. 30 -- res = 0.86751E-02, tol = 0.47595E+04, time = 5.77 | CG iter. 31 -- res = 0.46028E-02, tol = 0.47595E+04, time = 5.78 | CG iter. 32 -- res = 0.25670E-02, tol = 0.47595E+04, time = 5.58 | CG iter. 33 -- res = 0.14434E-02, tol = 0.47595E+04, time = 5.78 | CG iter. 34 -- res = 0.79235E-03, tol = 0.47595E+04, time = 5.67 | CG iter. 35 -- res = 0.41230E-03, tol = 0.47595E+04, time = 5.78 | Final CG iter 36 -- res = 0.41230E-03, tol = 0.47595E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.151 2.731 | New value -0.987 | Old value -3.151 | Difference 2.164 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.24431E+06, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.18994E+02, tol = 0.47627E+18, time = 1.63 | CG iter. 3 -- res = 0.42166E+00, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.18863E-03, tol = 0.47627E+18, time = 1.71 | Final CG iter 5 -- res = 0.42398E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8025909.330 | (Sampled value in CG: 8047321.389 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.514216 | New value = -3.469824 | poltype: 1 pol: 1 CPU time specind = 6.6201687E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.21264E+07, tol = 0.26938E+01, time = 2.30 | CG iter. 2 -- res = 0.90811E+06, tol = 0.26938E+01, time = 2.40 | CG iter. 3 -- res = 0.17360E+06, tol = 0.26938E+01, time = 2.12 | CG iter. 4 -- res = 0.59006E+05, tol = 0.26938E+01, time = 2.40 | CG iter. 5 -- res = 0.30946E+05, tol = 0.26938E+01, time = 2.24 | CG iter. 6 -- res = 0.17216E+05, tol = 0.26938E+01, time = 2.53 | CG iter. 7 -- res = 0.73607E+04, tol = 0.26938E+01, time = 2.21 | CG iter. 8 -- res = 0.35044E+04, tol = 0.26938E+01, time = 2.37 | CG iter. 9 -- res = 0.16263E+04, tol = 0.26938E+01, time = 2.51 | CG iter. 10 -- res = 0.61988E+03, tol = 0.26938E+01, time = 2.29 | CG iter. 11 -- res = 0.24385E+03, tol = 0.26938E+01, time = 2.28 | CG iter. 12 -- res = 0.11691E+03, tol = 0.26938E+01, time = 2.35 | CG iter. 13 -- res = 0.59261E+02, tol = 0.26938E+01, time = 2.39 | CG iter. 14 -- res = 0.31098E+02, tol = 0.26938E+01, time = 2.45 | CG iter. 15 -- res = 0.14960E+02, tol = 0.26938E+01, time = 2.39 | CG iter. 16 -- res = 0.72091E+01, tol = 0.26938E+01, time = 2.55 | CG iter. 17 -- res = 0.31152E+01, tol = 0.26938E+01, time = 2.28 | CG iter. 18 -- res = 0.13338E+01, tol = 0.26938E+01, time = 2.35 | CG iter. 19 -- res = 0.60600E+00, tol = 0.26938E+01, time = 2.40 | CG iter. 20 -- res = 0.30488E+00, tol = 0.26938E+01, time = 2.39 | CG iter. 21 -- res = 0.15717E+00, tol = 0.26938E+01, time = 2.56 | CG iter. 22 -- res = 0.78229E-01, tol = 0.26938E+01, time = 2.37 | CG iter. 23 -- res = 0.38451E-01, tol = 0.26938E+01, time = 2.32 | CG iter. 24 -- res = 0.17254E-01, tol = 0.26938E+01, time = 2.35 | CG iter. 25 -- res = 0.78753E-02, tol = 0.26938E+01, time = 2.28 | CG iter. 26 -- res = 0.37688E-02, tol = 0.26938E+01, time = 2.29 | CG iter. 27 -- res = 0.19356E-02, tol = 0.26938E+01, time = 2.47 | CG iter. 28 -- res = 0.96807E-03, tol = 0.26938E+01, time = 2.22 | CG iter. 29 -- res = 0.46440E-03, tol = 0.26938E+01, time = 2.48 | CG iter. 30 -- res = 0.21481E-03, tol = 0.26938E+01, time = 2.42 | CG iter. 31 -- res = 0.10098E-03, tol = 0.26938E+01, time = 2.12 | CG iter. 32 -- res = 0.46913E-04, tol = 0.26938E+01, time = 2.51 | CG iter. 33 -- res = 0.22644E-04, tol = 0.26938E+01, time = 2.53 | CG iter. 34 -- res = 0.11435E-04, tol = 0.26938E+01, time = 2.35 | CG iter. 35 -- res = 0.58643E-05, tol = 0.26938E+01, time = 2.46 | CG iter. 36 -- res = 0.28921E-05, tol = 0.26938E+01, time = 2.38 | CG iter. 37 -- res = 0.13152E-05, tol = 0.26938E+01, time = 2.31 | CG iter. 38 -- res = 0.61487E-06, tol = 0.26938E+01, time = 2.54 | CG iter. 39 -- res = 0.29764E-06, tol = 0.26938E+01, time = 2.43 | CG iter. 40 -- res = 0.14691E-06, tol = 0.26938E+01, time = 2.33 | CG iter. 41 -- res = 0.77924E-07, tol = 0.26938E+01, time = 2.28 | CG iter. 42 -- res = 0.38636E-07, tol = 0.26938E+01, time = 2.43 | CG iter. 43 -- res = 0.17566E-07, tol = 0.26938E+01, time = 2.27 | CG iter. 44 -- res = 0.82215E-08, tol = 0.26938E+01, time = 2.57 | CG iter. 45 -- res = 0.38533E-08, tol = 0.26938E+01, time = 2.36 | CG iter. 46 -- res = 0.18609E-08, tol = 0.26938E+01, time = 2.28 | CG iter. 47 -- res = 0.94694E-09, tol = 0.26938E+01, time = 2.50 | CG iter. 48 -- res = 0.47643E-09, tol = 0.26938E+01, time = 2.27 | CG iter. 49 -- res = 0.23638E-09, tol = 0.26938E+01, time = 2.34 | CG iter. 50 -- res = 0.10846E-09, tol = 0.26938E+01, time = 2.30 | Final CG iter 51 -- res = 0.10846E-09, tol = 0.26938E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.690 5.665 | New value 7.524 | Old value 0.690 | Difference 6.833 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.52 | CG iter. 1 -- res = 0.46198E+05, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.39107E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.16770E+01, tol = 0.47627E+18, time = 1.64 | CG iter. 4 -- res = 0.22300E-02, tol = 0.47627E+18, time = 1.60 | Final CG iter 5 -- res = 0.84878E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8025909.330 | (Sampled value in CG: 8044188.973 ) | CPU time specind = 1052.765 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.68699E+08, tol = 0.57587E+04, time = 10.18 | CG iter. 2 -- res = 0.58836E+08, tol = 0.57587E+04, time = 10.37 | CG iter. 3 -- res = 0.15139E+08, tol = 0.57587E+04, time = 10.19 | CG iter. 4 -- res = 0.63418E+07, tol = 0.57587E+04, time = 10.55 | CG iter. 5 -- res = 0.37623E+07, tol = 0.57587E+04, time = 11.59 | CG iter. 6 -- res = 0.22127E+07, tol = 0.57587E+04, time = 11.28 | CG iter. 7 -- res = 0.12893E+07, tol = 0.57587E+04, time = 10.59 | CG iter. 8 -- res = 0.85601E+06, tol = 0.57587E+04, time = 10.01 | CG iter. 9 -- res = 0.54735E+06, tol = 0.57587E+04, time = 10.52 | CG iter. 10 -- res = 0.31987E+06, tol = 0.57587E+04, time = 10.51 | CG iter. 11 -- res = 0.17590E+06, tol = 0.57587E+04, time = 10.40 | CG iter. 12 -- res = 0.94626E+05, tol = 0.57587E+04, time = 10.62 | CG iter. 13 -- res = 0.50084E+05, tol = 0.57587E+04, time = 10.45 | CG iter. 14 -- res = 0.29019E+05, tol = 0.57587E+04, time = 10.17 | CG iter. 15 -- res = 0.18558E+05, tol = 0.57587E+04, time = 11.01 | CG iter. 16 -- res = 0.12802E+05, tol = 0.57587E+04, time = 10.09 | CG iter. 17 -- res = 0.91737E+04, tol = 0.57587E+04, time = 10.57 | CG iter. 18 -- res = 0.63890E+04, tol = 0.57587E+04, time = 10.02 | CG iter. 19 -- res = 0.42049E+04, tol = 0.57587E+04, time = 10.61 | CG iter. 20 -- res = 0.28283E+04, tol = 0.57587E+04, time = 10.12 | CG iter. 21 -- res = 0.20269E+04, tol = 0.57587E+04, time = 10.07 | CG iter. 22 -- res = 0.16473E+04, tol = 0.57587E+04, time = 10.41 | CG iter. 23 -- res = 0.15493E+04, tol = 0.57587E+04, time = 10.24 | CG iter. 24 -- res = 0.16186E+04, tol = 0.57587E+04, time = 10.15 | CG iter. 25 -- res = 0.16960E+04, tol = 0.57587E+04, time = 17.10 | CG iter. 26 -- res = 0.17100E+04, tol = 0.57587E+04, time = 10.37 | CG iter. 27 -- res = 0.16010E+04, tol = 0.57587E+04, time = 10.38 | CG iter. 28 -- res = 0.14032E+04, tol = 0.57587E+04, time = 10.46 | CG iter. 29 -- res = 0.12381E+04, tol = 0.57587E+04, time = 10.43 | CG iter. 30 -- res = 0.11224E+04, tol = 0.57587E+04, time = 10.07 | CG iter. 31 -- res = 0.99879E+03, tol = 0.57587E+04, time = 10.35 | CG iter. 32 -- res = 0.86589E+03, tol = 0.57587E+04, time = 10.47 | CG iter. 33 -- res = 0.72466E+03, tol = 0.57587E+04, time = 11.43 | CG iter. 34 -- res = 0.56808E+03, tol = 0.57587E+04, time = 11.29 | CG iter. 35 -- res = 0.43018E+03, tol = 0.57587E+04, time = 10.27 | CG iter. 36 -- res = 0.34281E+03, tol = 0.57587E+04, time = 10.20 | CG iter. 37 -- res = 0.29482E+03, tol = 0.57587E+04, time = 10.38 | CG iter. 38 -- res = 0.27742E+03, tol = 0.57587E+04, time = 10.26 | CG iter. 39 -- res = 0.26728E+03, tol = 0.57587E+04, time = 10.02 | CG iter. 40 -- res = 0.23942E+03, tol = 0.57587E+04, time = 10.24 | CG iter. 41 -- res = 0.20661E+03, tol = 0.57587E+04, time = 10.87 | CG iter. 42 -- res = 0.17653E+03, tol = 0.57587E+04, time = 10.31 | CG iter. 43 -- res = 0.15481E+03, tol = 0.57587E+04, time = 9.89 | CG iter. 44 -- res = 0.13961E+03, tol = 0.57587E+04, time = 10.35 | CG iter. 45 -- res = 0.12891E+03, tol = 0.57587E+04, time = 10.33 | CG iter. 46 -- res = 0.11945E+03, tol = 0.57587E+04, time = 11.77 | CG iter. 47 -- res = 0.10865E+03, tol = 0.57587E+04, time = 10.46 | CG iter. 48 -- res = 0.90854E+02, tol = 0.57587E+04, time = 9.93 | CG iter. 49 -- res = 0.74316E+02, tol = 0.57587E+04, time = 9.96 | CG iter. 50 -- res = 0.63359E+02, tol = 0.57587E+04, time = 10.13 | CG iter. 51 -- res = 0.57107E+02, tol = 0.57587E+04, time = 10.57 | CG iter. 52 -- res = 0.53474E+02, tol = 0.57587E+04, time = 9.98 | CG iter. 53 -- res = 0.50514E+02, tol = 0.57587E+04, time = 17.22 | CG iter. 54 -- res = 0.47275E+02, tol = 0.57587E+04, time = 10.36 | CG iter. 55 -- res = 0.43566E+02, tol = 0.57587E+04, time = 10.16 | CG iter. 56 -- res = 0.39119E+02, tol = 0.57587E+04, time = 10.60 | CG iter. 57 -- res = 0.35425E+02, tol = 0.57587E+04, time = 10.37 | CG iter. 58 -- res = 0.33920E+02, tol = 0.57587E+04, time = 10.90 | CG iter. 59 -- res = 0.34023E+02, tol = 0.57587E+04, time = 10.08 | CG iter. 60 -- res = 0.32011E+02, tol = 0.57587E+04, time = 10.81 | Final CG iter 61 -- res = 0.32011E+02, tol = 0.57587E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.898 ( -230.054 -2230.173 2512.625 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9355362.525 | Old band monopole 8025943.851 | Change to band monopole 1329418.674 | Change to component monopole -1329412.956 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.967 2.739 | New value 1.155 | Old value -0.967 | Difference 2.122 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.227 ( 7.478 11.696 -11.259 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.099 4.575 | New value -3.433 | Old value 10.099 | Difference -13.532 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.43367E+06, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.90412E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.34738E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.45655E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.90253E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9355322.286 | (Sampled value in CG: 9335067.992 ) | Chain = 1 -- chisq = 0.81512613E+09 | Chain = 1 -- wall time = 16405.799 sec Available RAM: MemAvailable: 475135328 kB Available Swap: SwapFree: 1054710800 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 202 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442959 | --> Sampling calibration, mode = relcal | relcal = 1.3426020E-02 7.4458116E-04 -1.5891185E-03 -1.2581483E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1212732 0.1362866 9404878.95662123 | BP delta = 0.1212732 0.1451544 9404909.54716403 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632568 | --> Sampling calibration, mode = relcal | relcal = -2.8207046E-03 -7.0459035E-04 1.6793380E-03 1.6147776E-03 -4.0904255E-04 6.4022181E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5733525 15220424.6838677 | BP delta = 0.0000000E+00 -0.5837001 15220428.9366715 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18203825097315 | --> Sampling calibration, mode = relcal | relcal = -7.5318903E-02 -5.8610041E-02 9.2209622E-02 4.1719317E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.8289957E-04 4.7654584E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2968E-05 | 2: delta_r/delta_0: 1.0422E-06 | 3: delta_s/delta_0: 1.9295E-07 | 4: delta_r/delta_0: 2.5226E-08 | 5: delta_s/delta_0: 1.0774E-08 | 6: delta_r/delta_0: 1.8041E-09 | 7: delta_s/delta_0: 3.0682E-10 | 8: delta_r/delta_0: 1.3009E-10 | 9: delta_s/delta_0: 2.1538E-10 | 10: delta_r/delta_0: 7.6286E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.400326767848788E-003 2.738650864798469E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2968E-05 | 2: delta_r/delta_0: 1.0422E-06 | 3: delta_s/delta_0: 1.9295E-07 | 4: delta_r/delta_0: 2.5226E-08 | 5: delta_s/delta_0: 1.0774E-08 | 6: delta_r/delta_0: 1.8041E-09 | 7: delta_s/delta_0: 3.0682E-10 | 8: delta_r/delta_0: 1.3009E-10 | 9: delta_s/delta_0: 2.1538E-10 | 10: delta_r/delta_0: 7.6288E-11 | Reached bicg-stab tolerance | BP delta = 3.7755691E-02 5.5018283E-02 3598716.51368504 | BP delta = 3.7755691E-02 5.4723598E-02 3598369.32459581 | BP chisq diff = -347.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02590501 | --> Sampling calibration, mode = relcal | relcal = -0.1066853 -9.5571868E-02 0.1449757 5.7281554E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8597312E-03 1.1915389E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6954E-05 | 2: delta_r/delta_0: 1.6171E-06 | 3: delta_s/delta_0: 2.3449E-07 | 4: delta_r/delta_0: 5.0868E-08 | 5: delta_s/delta_0: 2.5923E-08 | 6: delta_r/delta_0: 7.8548E-09 | 7: delta_s/delta_0: 7.9684E-09 | 8: delta_r/delta_0: 1.7382E-09 | 9: delta_s/delta_0: 8.3103E-10 | 10: delta_r/delta_0: 6.2431E-10 | 11: delta_s/delta_0: 6.9939E-10 | 12: delta_r/delta_0: 1.1545E-10 | 13: delta_s/delta_0: 1.0950E-10 | 14: delta_r/delta_0: 4.3322E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.023058833986623E-002 2.811083375706304E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6952E-05 | 2: delta_r/delta_0: 1.6170E-06 | 3: delta_s/delta_0: 2.3446E-07 | 4: delta_r/delta_0: 5.0826E-08 | 5: delta_s/delta_0: 2.5955E-08 | 6: delta_r/delta_0: 7.8522E-09 | 7: delta_s/delta_0: 7.9717E-09 | 8: delta_r/delta_0: 1.7375E-09 | 9: delta_s/delta_0: 8.3066E-10 | 10: delta_r/delta_0: 6.2406E-10 | 11: delta_s/delta_0: 6.9844E-10 | 12: delta_r/delta_0: 1.1542E-10 | 13: delta_s/delta_0: 1.0985E-10 | 14: delta_r/delta_0: 4.4823E-11 | Reached bicg-stab tolerance | BP delta = -0.2644560 -0.2416552 2841665.45045056 | BP delta = -0.2644560 -0.2426104 2841688.60101063 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81241443 | --> Sampling calibration, mode = relcal | relcal = 0.2955237 0.2248254 -0.2837984 -0.2365506 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.8087805E-04 5.4119048E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5922E-03 | 2: delta_r/delta_0: 8.3498E-05 | 3: delta_s/delta_0: 1.9577E-04 | 4: delta_r/delta_0: 4.5099E-06 | 5: delta_s/delta_0: 1.3377E-05 | 6: delta_r/delta_0: 1.2233E-06 | 7: delta_s/delta_0: 6.4780E-08 | 8: delta_r/delta_0: 1.9018E-08 | 9: delta_s/delta_0: 4.1611E-08 | 10: delta_r/delta_0: 3.7808E-09 | 11: delta_s/delta_0: 2.4632E-09 | 12: delta_r/delta_0: 4.5062E-10 | 13: delta_s/delta_0: 8.1571E-10 | 14: delta_r/delta_0: 3.7438E-10 | 15: delta_s/delta_0: 3.9733E-10 | 16: delta_r/delta_0: 2.7639E-10 | 17: delta_s/delta_0: 1.2831E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.629202266851477E-002 4.020708149268442E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5938E-03 | 2: delta_r/delta_0: 8.3538E-05 | 3: delta_s/delta_0: 1.9421E-04 | 4: delta_r/delta_0: 4.4639E-06 | 5: delta_s/delta_0: 1.3373E-05 | 6: delta_r/delta_0: 1.2220E-06 | 7: delta_s/delta_0: 6.4892E-08 | 8: delta_r/delta_0: 1.9008E-08 | 9: delta_s/delta_0: 4.1479E-08 | 10: delta_r/delta_0: 3.7814E-09 | 11: delta_s/delta_0: 2.4640E-09 | 12: delta_r/delta_0: 4.5078E-10 | 13: delta_s/delta_0: 8.1397E-10 | 14: delta_r/delta_0: 3.7390E-10 | 15: delta_s/delta_0: 3.9695E-10 | 16: delta_r/delta_0: 2.7608E-10 | 17: delta_s/delta_0: 1.2837E-11 | Reached bicg-stab tolerance | BP delta = -0.1198941 -0.1487030 2827407.18656558 | BP delta = -0.1198941 -0.1515227 2827420.72311489 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95929997 | --> Sampling calibration, mode = relcal | relcal = 0.1064478 0.1395079 -0.1101611 -0.1357945 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6842684E-03 1.4141928E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4919E-04 | 2: delta_r/delta_0: 6.3695E-06 | 3: delta_s/delta_0: 1.2309E-05 | 4: delta_r/delta_0: 1.2821E-06 | 5: delta_s/delta_0: 2.1245E-07 | 6: delta_r/delta_0: 1.2456E-07 | 7: delta_s/delta_0: 5.6615E-07 | 8: delta_r/delta_0: 2.9930E-08 | 9: delta_s/delta_0: 7.2645E-08 | 10: delta_r/delta_0: 6.3028E-09 | 11: delta_s/delta_0: 1.5792E-09 | 12: delta_r/delta_0: 8.7714E-10 | 13: delta_s/delta_0: 1.4137E-09 | 14: delta_r/delta_0: 2.3117E-10 | 15: delta_s/delta_0: 5.9661E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.075992730470823E-002 3.696532453463566E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.4918E-04 | 2: delta_r/delta_0: 6.3695E-06 | 3: delta_s/delta_0: 1.2311E-05 | 4: delta_r/delta_0: 1.2827E-06 | 5: delta_s/delta_0: 2.1250E-07 | 6: delta_r/delta_0: 1.2466E-07 | 7: delta_s/delta_0: 5.6814E-07 | 8: delta_r/delta_0: 2.9929E-08 | 9: delta_s/delta_0: 7.3093E-08 | 10: delta_r/delta_0: 6.3946E-09 | 11: delta_s/delta_0: 1.5811E-09 | 12: delta_r/delta_0: 8.7513E-10 | 13: delta_s/delta_0: 1.4184E-09 | 14: delta_r/delta_0: 2.2963E-10 | 15: delta_s/delta_0: 5.9578E-11 | Reached bicg-stab tolerance | BP delta = 7.3693685E-02 0.1734283 3003941.10193946 | BP delta = 7.3693685E-02 0.1657048 3004135.07077248 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185022 | New value = -3.119239 | poltype: 2 pol: 1 CPU time specind = 6.0129166E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105158 | New value = -3.178618 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162241 | New value = -3.045412 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197824 | New value = -3.158202 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154566 | New value = -3.172526 | poltype: 2 pol: 2 CPU time specind = 4.1429996E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.13633E+08, tol = 0.76176E+01, time = 5.11 | CG iter. 2 -- res = 0.37124E+06, tol = 0.76176E+01, time = 11.42 | CG iter. 3 -- res = 0.85354E+05, tol = 0.76176E+01, time = 5.17 | CG iter. 4 -- res = 0.78469E+05, tol = 0.76176E+01, time = 4.98 | CG iter. 5 -- res = 0.81714E+05, tol = 0.76176E+01, time = 5.29 | CG iter. 6 -- res = 0.80670E+05, tol = 0.76176E+01, time = 5.17 | CG iter. 7 -- res = 0.74426E+05, tol = 0.76176E+01, time = 5.04 | CG iter. 8 -- res = 0.55696E+05, tol = 0.76176E+01, time = 5.43 | CG iter. 9 -- res = 0.44434E+05, tol = 0.76176E+01, time = 5.23 | CG iter. 10 -- res = 0.35375E+05, tol = 0.76176E+01, time = 5.15 | CG iter. 11 -- res = 0.25308E+05, tol = 0.76176E+01, time = 5.35 | CG iter. 12 -- res = 0.18073E+05, tol = 0.76176E+01, time = 5.09 | CG iter. 13 -- res = 0.14921E+05, tol = 0.76176E+01, time = 5.30 | CG iter. 14 -- res = 0.13001E+05, tol = 0.76176E+01, time = 5.12 | CG iter. 15 -- res = 0.10441E+05, tol = 0.76176E+01, time = 5.48 | CG iter. 16 -- res = 0.72978E+04, tol = 0.76176E+01, time = 5.23 | CG iter. 17 -- res = 0.50359E+04, tol = 0.76176E+01, time = 5.22 | CG iter. 18 -- res = 0.41760E+04, tol = 0.76176E+01, time = 6.67 | CG iter. 19 -- res = 0.37051E+04, tol = 0.76176E+01, time = 5.68 | CG iter. 20 -- res = 0.29788E+04, tol = 0.76176E+01, time = 5.46 | CG iter. 21 -- res = 0.21744E+04, tol = 0.76176E+01, time = 5.19 | CG iter. 22 -- res = 0.17421E+04, tol = 0.76176E+01, time = 5.38 | CG iter. 23 -- res = 0.15155E+04, tol = 0.76176E+01, time = 5.25 | CG iter. 24 -- res = 0.12631E+04, tol = 0.76176E+01, time = 5.29 | CG iter. 25 -- res = 0.94071E+03, tol = 0.76176E+01, time = 5.16 | CG iter. 26 -- res = 0.76552E+03, tol = 0.76176E+01, time = 5.19 | CG iter. 27 -- res = 0.67969E+03, tol = 0.76176E+01, time = 5.20 | CG iter. 28 -- res = 0.60303E+03, tol = 0.76176E+01, time = 5.35 | CG iter. 29 -- res = 0.47215E+03, tol = 0.76176E+01, time = 5.39 | CG iter. 30 -- res = 0.36271E+03, tol = 0.76176E+01, time = 5.21 | CG iter. 31 -- res = 0.30249E+03, tol = 0.76176E+01, time = 5.00 | CG iter. 32 -- res = 0.26592E+03, tol = 0.76176E+01, time = 5.05 | CG iter. 33 -- res = 0.21032E+03, tol = 0.76176E+01, time = 5.42 | CG iter. 34 -- res = 0.15625E+03, tol = 0.76176E+01, time = 5.37 | CG iter. 35 -- res = 0.12428E+03, tol = 0.76176E+01, time = 5.27 | CG iter. 36 -- res = 0.10738E+03, tol = 0.76176E+01, time = 5.30 | CG iter. 37 -- res = 0.85653E+02, tol = 0.76176E+01, time = 5.31 | CG iter. 38 -- res = 0.61714E+02, tol = 0.76176E+01, time = 4.93 | CG iter. 39 -- res = 0.47698E+02, tol = 0.76176E+01, time = 5.28 | CG iter. 40 -- res = 0.39372E+02, tol = 0.76176E+01, time = 5.61 | CG iter. 41 -- res = 0.31521E+02, tol = 0.76176E+01, time = 5.30 | CG iter. 42 -- res = 0.23559E+02, tol = 0.76176E+01, time = 5.37 | CG iter. 43 -- res = 0.18096E+02, tol = 0.76176E+01, time = 5.10 | CG iter. 44 -- res = 0.14176E+02, tol = 0.76176E+01, time = 5.01 | CG iter. 45 -- res = 0.11209E+02, tol = 0.76176E+01, time = 5.16 | CG iter. 46 -- res = 0.86611E+01, tol = 0.76176E+01, time = 5.23 | CG iter. 47 -- res = 0.65411E+01, tol = 0.76176E+01, time = 5.08 | CG iter. 48 -- res = 0.50671E+01, tol = 0.76176E+01, time = 5.16 | CG iter. 49 -- res = 0.41376E+01, tol = 0.76176E+01, time = 5.48 | CG iter. 50 -- res = 0.32258E+01, tol = 0.76176E+01, time = 5.18 | Final CG iter 51 -- res = 0.32258E+01, tol = 0.76176E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8803066.031 | Old band monopole 9355362.525 | Change to band monopole -552296.494 | Change to component monopole 552294.118 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.47 | CG iter. 1 -- res = 0.29464E+06, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.13856E+03, tol = 0.47627E+18, time = 3.54 | CG iter. 3 -- res = 0.33954E+01, tol = 0.47627E+18, time = 6.88 | CG iter. 4 -- res = 0.22480E-01, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.42122E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8803028.167 | (Sampled value in CG: 8871995.242 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.534650 | New value = 1.524608 | poltype: 2 pol: 1 CPU time specind = 1.9172907E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518625 | New value = 1.531218 | poltype: 2 pol: 2 CPU time specind = 8.9519024E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.24058E+08, tol = 0.47616E+04, time = 5.85 | CG iter. 2 -- res = 0.54648E+07, tol = 0.47616E+04, time = 6.34 | CG iter. 3 -- res = 0.83095E+06, tol = 0.47616E+04, time = 7.21 | CG iter. 4 -- res = 0.34096E+06, tol = 0.47616E+04, time = 6.45 | CG iter. 5 -- res = 0.14789E+06, tol = 0.47616E+04, time = 6.22 | CG iter. 6 -- res = 0.79145E+05, tol = 0.47616E+04, time = 5.93 | CG iter. 7 -- res = 0.42761E+05, tol = 0.47616E+04, time = 5.97 | CG iter. 8 -- res = 0.20307E+05, tol = 0.47616E+04, time = 6.12 | CG iter. 9 -- res = 0.87877E+04, tol = 0.47616E+04, time = 5.88 | CG iter. 10 -- res = 0.36183E+04, tol = 0.47616E+04, time = 6.03 | CG iter. 11 -- res = 0.16692E+04, tol = 0.47616E+04, time = 6.22 | CG iter. 12 -- res = 0.84721E+03, tol = 0.47616E+04, time = 5.94 | CG iter. 13 -- res = 0.47774E+03, tol = 0.47616E+04, time = 6.31 | CG iter. 14 -- res = 0.26982E+03, tol = 0.47616E+04, time = 5.93 | CG iter. 15 -- res = 0.13800E+03, tol = 0.47616E+04, time = 6.03 | CG iter. 16 -- res = 0.66335E+02, tol = 0.47616E+04, time = 6.08 | CG iter. 17 -- res = 0.30776E+02, tol = 0.47616E+04, time = 5.80 | CG iter. 18 -- res = 0.15532E+02, tol = 0.47616E+04, time = 6.15 | CG iter. 19 -- res = 0.83434E+01, tol = 0.47616E+04, time = 5.85 | CG iter. 20 -- res = 0.47328E+01, tol = 0.47616E+04, time = 6.71 | CG iter. 21 -- res = 0.26548E+01, tol = 0.47616E+04, time = 6.02 | CG iter. 22 -- res = 0.13742E+01, tol = 0.47616E+04, time = 5.97 | CG iter. 23 -- res = 0.68359E+00, tol = 0.47616E+04, time = 5.96 | CG iter. 24 -- res = 0.35102E+00, tol = 0.47616E+04, time = 5.89 | CG iter. 25 -- res = 0.19272E+00, tol = 0.47616E+04, time = 6.16 | CG iter. 26 -- res = 0.10888E+00, tol = 0.47616E+04, time = 5.87 | CG iter. 27 -- res = 0.62535E-01, tol = 0.47616E+04, time = 5.97 | CG iter. 28 -- res = 0.33946E-01, tol = 0.47616E+04, time = 5.65 | CG iter. 29 -- res = 0.17865E-01, tol = 0.47616E+04, time = 6.01 | CG iter. 30 -- res = 0.92134E-02, tol = 0.47616E+04, time = 5.86 | CG iter. 31 -- res = 0.49385E-02, tol = 0.47616E+04, time = 6.01 | CG iter. 32 -- res = 0.28378E-02, tol = 0.47616E+04, time = 5.92 | CG iter. 33 -- res = 0.16047E-02, tol = 0.47616E+04, time = 6.04 | CG iter. 34 -- res = 0.86857E-03, tol = 0.47616E+04, time = 6.03 | CG iter. 35 -- res = 0.45458E-03, tol = 0.47616E+04, time = 6.01 | Final CG iter 36 -- res = 0.45458E-03, tol = 0.47616E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.131 2.724 | New value -1.210 | Old value 1.131 | Difference -2.342 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.28780E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.71034E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.19113E+01, tol = 0.47627E+18, time = 1.89 | Final CG iter 4 -- res = 0.47211E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8803028.167 | (Sampled value in CG: 8870966.092 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.469824 | New value = -3.607154 | poltype: 1 pol: 1 CPU time specind = 6.1998367E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.25813E+07, tol = 0.29837E+01, time = 2.48 | CG iter. 2 -- res = 0.10245E+07, tol = 0.29837E+01, time = 2.27 | CG iter. 3 -- res = 0.20341E+06, tol = 0.29837E+01, time = 2.59 | CG iter. 4 -- res = 0.88721E+05, tol = 0.29837E+01, time = 2.35 | CG iter. 5 -- res = 0.54316E+05, tol = 0.29837E+01, time = 2.37 | CG iter. 6 -- res = 0.26456E+05, tol = 0.29837E+01, time = 2.58 | CG iter. 7 -- res = 0.92977E+04, tol = 0.29837E+01, time = 2.57 | CG iter. 8 -- res = 0.39311E+04, tol = 0.29837E+01, time = 2.39 | CG iter. 9 -- res = 0.17319E+04, tol = 0.29837E+01, time = 2.64 | CG iter. 10 -- res = 0.71097E+03, tol = 0.29837E+01, time = 2.35 | CG iter. 11 -- res = 0.30197E+03, tol = 0.29837E+01, time = 2.45 | CG iter. 12 -- res = 0.15851E+03, tol = 0.29837E+01, time = 2.57 | CG iter. 13 -- res = 0.79964E+02, tol = 0.29837E+01, time = 2.52 | CG iter. 14 -- res = 0.39503E+02, tol = 0.29837E+01, time = 2.50 | CG iter. 15 -- res = 0.17487E+02, tol = 0.29837E+01, time = 2.59 | CG iter. 16 -- res = 0.72156E+01, tol = 0.29837E+01, time = 2.50 | CG iter. 17 -- res = 0.29931E+01, tol = 0.29837E+01, time = 3.43 | CG iter. 18 -- res = 0.13996E+01, tol = 0.29837E+01, time = 8.73 | CG iter. 19 -- res = 0.71216E+00, tol = 0.29837E+01, time = 2.38 | CG iter. 20 -- res = 0.37326E+00, tol = 0.29837E+01, time = 2.58 | CG iter. 21 -- res = 0.18453E+00, tol = 0.29837E+01, time = 2.61 | CG iter. 22 -- res = 0.81990E-01, tol = 0.29837E+01, time = 2.54 | CG iter. 23 -- res = 0.35813E-01, tol = 0.29837E+01, time = 2.25 | CG iter. 24 -- res = 0.16592E-01, tol = 0.29837E+01, time = 2.41 | CG iter. 25 -- res = 0.84141E-02, tol = 0.29837E+01, time = 2.59 | CG iter. 26 -- res = 0.42587E-02, tol = 0.29837E+01, time = 2.33 | CG iter. 27 -- res = 0.20793E-02, tol = 0.29837E+01, time = 2.59 | CG iter. 28 -- res = 0.99705E-03, tol = 0.29837E+01, time = 2.81 | CG iter. 29 -- res = 0.43030E-03, tol = 0.29837E+01, time = 2.26 | CG iter. 30 -- res = 0.20740E-03, tol = 0.29837E+01, time = 2.24 | CG iter. 31 -- res = 0.10126E-03, tol = 0.29837E+01, time = 2.45 | CG iter. 32 -- res = 0.51271E-04, tol = 0.29837E+01, time = 2.56 | CG iter. 33 -- res = 0.25670E-04, tol = 0.29837E+01, time = 2.59 | CG iter. 34 -- res = 0.11974E-04, tol = 0.29837E+01, time = 2.64 | CG iter. 35 -- res = 0.55627E-05, tol = 0.29837E+01, time = 2.35 | CG iter. 36 -- res = 0.26624E-05, tol = 0.29837E+01, time = 2.61 | CG iter. 37 -- res = 0.12545E-05, tol = 0.29837E+01, time = 2.38 | CG iter. 38 -- res = 0.64805E-06, tol = 0.29837E+01, time = 2.80 | CG iter. 39 -- res = 0.31263E-06, tol = 0.29837E+01, time = 2.41 | CG iter. 40 -- res = 0.14407E-06, tol = 0.29837E+01, time = 2.41 | CG iter. 41 -- res = 0.68585E-07, tol = 0.29837E+01, time = 2.33 | CG iter. 42 -- res = 0.31787E-07, tol = 0.29837E+01, time = 2.67 | CG iter. 43 -- res = 0.15105E-07, tol = 0.29837E+01, time = 2.49 | CG iter. 44 -- res = 0.76397E-08, tol = 0.29837E+01, time = 2.52 | CG iter. 45 -- res = 0.36982E-08, tol = 0.29837E+01, time = 2.43 | CG iter. 46 -- res = 0.17481E-08, tol = 0.29837E+01, time = 2.43 | CG iter. 47 -- res = 0.81068E-09, tol = 0.29837E+01, time = 2.51 | CG iter. 48 -- res = 0.37911E-09, tol = 0.29837E+01, time = 2.34 | CG iter. 49 -- res = 0.18018E-09, tol = 0.29837E+01, time = 2.39 | CG iter. 50 -- res = 0.84085E-10, tol = 0.29837E+01, time = 2.58 | Final CG iter 51 -- res = 0.84085E-10, tol = 0.29837E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.960 3.918 | New value -0.919 | Old value 0.960 | Difference -1.878 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.73659E+04, tol = 0.47627E+18, time = 1.54 | CG iter. 2 -- res = 0.29959E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.11845E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.77942E-03, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.64683E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8803028.167 | (Sampled value in CG: 8858015.890 ) | CPU time specind = 1097.347 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.68527E+08, tol = 0.57701E+04, time = 10.37 | CG iter. 2 -- res = 0.58982E+08, tol = 0.57701E+04, time = 10.87 | CG iter. 3 -- res = 0.15271E+08, tol = 0.57701E+04, time = 11.56 | CG iter. 4 -- res = 0.64472E+07, tol = 0.57701E+04, time = 10.48 | CG iter. 5 -- res = 0.38155E+07, tol = 0.57701E+04, time = 10.79 | CG iter. 6 -- res = 0.22198E+07, tol = 0.57701E+04, time = 11.28 | CG iter. 7 -- res = 0.13071E+07, tol = 0.57701E+04, time = 11.05 | CG iter. 8 -- res = 0.88032E+06, tol = 0.57701E+04, time = 10.79 | CG iter. 9 -- res = 0.59500E+06, tol = 0.57701E+04, time = 11.06 | CG iter. 10 -- res = 0.36088E+06, tol = 0.57701E+04, time = 10.74 | CG iter. 11 -- res = 0.20190E+06, tol = 0.57701E+04, time = 11.22 | CG iter. 12 -- res = 0.11160E+06, tol = 0.57701E+04, time = 17.39 | CG iter. 13 -- res = 0.64774E+05, tol = 0.57701E+04, time = 10.65 | CG iter. 14 -- res = 0.43626E+05, tol = 0.57701E+04, time = 10.70 | CG iter. 15 -- res = 0.34283E+05, tol = 0.57701E+04, time = 11.08 | CG iter. 16 -- res = 0.29928E+05, tol = 0.57701E+04, time = 10.90 | CG iter. 17 -- res = 0.27472E+05, tol = 0.57701E+04, time = 10.94 | CG iter. 18 -- res = 0.25163E+05, tol = 0.57701E+04, time = 11.50 | CG iter. 19 -- res = 0.22547E+05, tol = 0.57701E+04, time = 10.52 | CG iter. 20 -- res = 0.20678E+05, tol = 0.57701E+04, time = 12.44 | CG iter. 21 -- res = 0.20328E+05, tol = 0.57701E+04, time = 11.38 | CG iter. 22 -- res = 0.21287E+05, tol = 0.57701E+04, time = 10.79 | CG iter. 23 -- res = 0.22120E+05, tol = 0.57701E+04, time = 10.84 | CG iter. 24 -- res = 0.20801E+05, tol = 0.57701E+04, time = 10.79 | CG iter. 25 -- res = 0.17639E+05, tol = 0.57701E+04, time = 10.57 | CG iter. 26 -- res = 0.13771E+05, tol = 0.57701E+04, time = 11.11 | CG iter. 27 -- res = 0.10393E+05, tol = 0.57701E+04, time = 11.06 | CG iter. 28 -- res = 0.77943E+04, tol = 0.57701E+04, time = 10.97 | CG iter. 29 -- res = 0.60836E+04, tol = 0.57701E+04, time = 10.92 | CG iter. 30 -- res = 0.51462E+04, tol = 0.57701E+04, time = 10.73 | CG iter. 31 -- res = 0.46437E+04, tol = 0.57701E+04, time = 10.74 | CG iter. 32 -- res = 0.42078E+04, tol = 0.57701E+04, time = 10.87 | CG iter. 33 -- res = 0.36973E+04, tol = 0.57701E+04, time = 10.81 | CG iter. 34 -- res = 0.31751E+04, tol = 0.57701E+04, time = 10.85 | CG iter. 35 -- res = 0.27188E+04, tol = 0.57701E+04, time = 10.89 | CG iter. 36 -- res = 0.24749E+04, tol = 0.57701E+04, time = 10.60 | CG iter. 37 -- res = 0.23740E+04, tol = 0.57701E+04, time = 10.72 | CG iter. 38 -- res = 0.23141E+04, tol = 0.57701E+04, time = 10.73 | CG iter. 39 -- res = 0.21597E+04, tol = 0.57701E+04, time = 16.89 | CG iter. 40 -- res = 0.18203E+04, tol = 0.57701E+04, time = 10.79 | CG iter. 41 -- res = 0.14646E+04, tol = 0.57701E+04, time = 11.21 | CG iter. 42 -- res = 0.11757E+04, tol = 0.57701E+04, time = 10.64 | CG iter. 43 -- res = 0.10020E+04, tol = 0.57701E+04, time = 11.32 | CG iter. 44 -- res = 0.91083E+03, tol = 0.57701E+04, time = 10.85 | CG iter. 45 -- res = 0.85383E+03, tol = 0.57701E+04, time = 11.01 | CG iter. 46 -- res = 0.80850E+03, tol = 0.57701E+04, time = 10.54 | CG iter. 47 -- res = 0.75642E+03, tol = 0.57701E+04, time = 12.71 | CG iter. 48 -- res = 0.65271E+03, tol = 0.57701E+04, time = 10.95 | CG iter. 49 -- res = 0.56462E+03, tol = 0.57701E+04, time = 11.12 | CG iter. 50 -- res = 0.51443E+03, tol = 0.57701E+04, time = 10.69 | CG iter. 51 -- res = 0.47766E+03, tol = 0.57701E+04, time = 11.07 | CG iter. 52 -- res = 0.46017E+03, tol = 0.57701E+04, time = 10.91 | CG iter. 53 -- res = 0.43719E+03, tol = 0.57701E+04, time = 10.88 | CG iter. 54 -- res = 0.39635E+03, tol = 0.57701E+04, time = 10.66 | CG iter. 55 -- res = 0.34602E+03, tol = 0.57701E+04, time = 10.82 | CG iter. 56 -- res = 0.29739E+03, tol = 0.57701E+04, time = 10.79 | CG iter. 57 -- res = 0.25895E+03, tol = 0.57701E+04, time = 11.67 | CG iter. 58 -- res = 0.23639E+03, tol = 0.57701E+04, time = 10.75 | CG iter. 59 -- res = 0.22790E+03, tol = 0.57701E+04, time = 10.96 | CG iter. 60 -- res = 0.21818E+03, tol = 0.57701E+04, time = 11.07 | Final CG iter 61 -- res = 0.21818E+03, tol = 0.57701E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.689 ( -229.945 -2228.841 2511.135 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11755866.341 | Old band monopole 8803066.031 | Change to band monopole 2952800.310 | Change to component monopole -2952787.610 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.213 2.732 | New value 6.142 | Old value -1.213 | Difference 7.355 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.216 ( 6.854 8.820 -8.512 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.545 4.782 | New value -0.204 | Old value 2.545 | Difference -2.749 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.29231E+07, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.60119E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.24896E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.33858E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.49525E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11755815.777 | (Sampled value in CG: 11735090.295 ) | Chain = 1 -- chisq = 0.81524155E+09 | Chain = 1 -- wall time = 6164.843 sec Available RAM: MemAvailable: 373358324 kB Available Swap: SwapFree: 1129210896 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 203 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443394 | --> Sampling calibration, mode = relcal | relcal = 1.3421612E-02 7.4429950E-04 -1.5955273E-03 -1.2570384E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1212732 0.1362866 97061688.0802992 | BP delta = 0.1084283 0.1234416 97061687.7467829 | BP chisq diff = -0.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632450 | --> Sampling calibration, mode = relcal | relcal = -2.8201558E-03 -7.0333719E-04 1.6774016E-03 1.6127776E-03 -4.0842488E-04 6.4173876E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5733525 15216940.5256460 | BP delta = 0.0000000E+00 -0.5751673 15216938.3841488 | BP chisq diff = -2.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18057848250835 | --> Sampling calibration, mode = relcal | relcal = -7.4503809E-02 -5.8273774E-02 9.1456793E-02 4.1320790E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0492989E-04 4.1188528E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4469E-05 | 2: delta_r/delta_0: 8.7883E-07 | 3: delta_s/delta_0: 2.4573E-07 | 4: delta_r/delta_0: 1.6103E-08 | 5: delta_s/delta_0: 8.9279E-09 | 6: delta_r/delta_0: 2.7079E-09 | 7: delta_s/delta_0: 1.1109E-09 | 8: delta_r/delta_0: 9.5150E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.148556882694724E-003 2.742127936562626E-005 | BP delta = 3.7755691E-02 5.4723598E-02 50480264.3641160 | BP delta = 4.1831948E-02 5.8799855E-02 50480265.0591923 | BP chisq diff = 0.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02580874 | --> Sampling calibration, mode = relcal | relcal = -0.1066415 -9.5548630E-02 0.1449257 5.7264429E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2662936E-03 1.5026148E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9739E-05 | 2: delta_r/delta_0: 1.4909E-06 | 3: delta_s/delta_0: 2.3628E-07 | 4: delta_r/delta_0: 4.4155E-08 | 5: delta_s/delta_0: 2.4180E-08 | 6: delta_r/delta_0: 6.4140E-09 | 7: delta_s/delta_0: 6.2415E-09 | 8: delta_r/delta_0: 1.3810E-09 | 9: delta_s/delta_0: 6.5606E-10 | 10: delta_r/delta_0: 3.3051E-10 | 11: delta_s/delta_0: 3.0001E-10 | 12: delta_r/delta_0: 2.1007E-10 | 13: delta_s/delta_0: 4.3763E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.919697408061307E-003 2.811331534864145E-005 | BP delta = -0.2644560 -0.2416552 57387025.4668615 | BP delta = -0.2581138 -0.2353130 57387025.9559190 | BP chisq diff = 0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81226279 | --> Sampling calibration, mode = relcal | relcal = 0.2954489 0.2249278 -0.2838167 -0.2365600 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1519940E-04 5.3424649E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4816E-02 | 2: delta_r/delta_0: 3.4662E-04 | 3: delta_s/delta_0: 1.5573E-04 | 4: delta_r/delta_0: 7.0271E-06 | 5: delta_s/delta_0: 5.7484E-06 | 6: delta_r/delta_0: 3.8544E-07 | 7: delta_s/delta_0: 2.5290E-06 | 8: delta_r/delta_0: 5.7337E-07 | 9: delta_s/delta_0: 8.2477E-05 | 10: delta_r/delta_0: 1.5661E-06 | 11: delta_s/delta_0: 3.0255E-07 | 12: delta_r/delta_0: 2.4809E-08 | 13: delta_s/delta_0: 2.4609E-09 | 14: delta_r/delta_0: 1.2536E-09 | 15: delta_s/delta_0: 1.0031E-09 | 16: delta_r/delta_0: 5.1929E-10 | 17: delta_s/delta_0: 2.0504E-10 | 18: delta_r/delta_0: 1.1293E-10 | 19: delta_s/delta_0: 5.7374E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.114102230357300 4.021644336968809E-005 | BP delta = -0.1198941 -0.1487030 72492623.4180011 | BP delta = -0.1280516 -0.1568605 72492623.2964309 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95912470 | --> Sampling calibration, mode = relcal | relcal = 0.1065508 0.1395374 -0.1102903 -0.1357979 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0172957E-02 1.4319161E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8778E-04 | 2: delta_r/delta_0: 4.9337E-06 | 3: delta_s/delta_0: 9.7633E-06 | 4: delta_r/delta_0: 1.1823E-06 | 5: delta_s/delta_0: 1.7405E-07 | 6: delta_r/delta_0: 1.0303E-07 | 7: delta_s/delta_0: 4.9538E-07 | 8: delta_r/delta_0: 2.4208E-08 | 9: delta_s/delta_0: 8.5128E-08 | 10: delta_r/delta_0: 3.1189E-08 | 11: delta_s/delta_0: 1.0609E-09 | 12: delta_r/delta_0: 7.8119E-10 | 13: delta_s/delta_0: 4.1627E-10 | 14: delta_r/delta_0: 2.1346E-10 | 15: delta_s/delta_0: 7.4680E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.942017297197897E-002 3.697330946908533E-005 | BP delta = 7.3693685E-02 0.1734283 72781657.9408260 | BP delta = 0.1035706 0.2033052 72781656.8570489 | BP chisq diff = -1.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119239 | New value = -3.179874 | poltype: 2 pol: 1 CPU time specind = 5.7389736E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178618 | New value = -3.092112 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.045412 | New value = -3.191057 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158202 | New value = -3.148143 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172526 | New value = -3.184789 | poltype: 2 pol: 2 CPU time specind = 4.1239262E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.13563E+08, tol = 0.59924E+01, time = 5.37 | CG iter. 2 -- res = 0.34921E+06, tol = 0.59924E+01, time = 5.10 | CG iter. 3 -- res = 0.59659E+05, tol = 0.59924E+01, time = 5.36 | CG iter. 4 -- res = 0.41842E+05, tol = 0.59924E+01, time = 5.47 | CG iter. 5 -- res = 0.37250E+05, tol = 0.59924E+01, time = 4.89 | CG iter. 6 -- res = 0.35725E+05, tol = 0.59924E+01, time = 5.09 | CG iter. 7 -- res = 0.36521E+05, tol = 0.59924E+01, time = 5.38 | CG iter. 8 -- res = 0.31544E+05, tol = 0.59924E+01, time = 5.12 | CG iter. 9 -- res = 0.26142E+05, tol = 0.59924E+01, time = 5.52 | CG iter. 10 -- res = 0.21632E+05, tol = 0.59924E+01, time = 5.16 | CG iter. 11 -- res = 0.15180E+05, tol = 0.59924E+01, time = 5.44 | CG iter. 12 -- res = 0.10243E+05, tol = 0.59924E+01, time = 5.27 | CG iter. 13 -- res = 0.81480E+04, tol = 0.59924E+01, time = 5.39 | CG iter. 14 -- res = 0.74380E+04, tol = 0.59924E+01, time = 5.23 | CG iter. 15 -- res = 0.64929E+04, tol = 0.59924E+01, time = 5.18 | CG iter. 16 -- res = 0.48886E+04, tol = 0.59924E+01, time = 5.76 | CG iter. 17 -- res = 0.34701E+04, tol = 0.59924E+01, time = 5.13 | CG iter. 18 -- res = 0.28061E+04, tol = 0.59924E+01, time = 5.16 | CG iter. 19 -- res = 0.24028E+04, tol = 0.59924E+01, time = 5.59 | CG iter. 20 -- res = 0.19194E+04, tol = 0.59924E+01, time = 5.15 | CG iter. 21 -- res = 0.14549E+04, tol = 0.59924E+01, time = 5.38 | CG iter. 22 -- res = 0.11963E+04, tol = 0.59924E+01, time = 5.32 | CG iter. 23 -- res = 0.10632E+04, tol = 0.59924E+01, time = 5.26 | CG iter. 24 -- res = 0.84959E+03, tol = 0.59924E+01, time = 5.37 | CG iter. 25 -- res = 0.64910E+03, tol = 0.59924E+01, time = 4.81 | CG iter. 26 -- res = 0.51166E+03, tol = 0.59924E+01, time = 5.19 | CG iter. 27 -- res = 0.44599E+03, tol = 0.59924E+01, time = 5.00 | CG iter. 28 -- res = 0.39990E+03, tol = 0.59924E+01, time = 5.20 | CG iter. 29 -- res = 0.32253E+03, tol = 0.59924E+01, time = 5.02 | CG iter. 30 -- res = 0.25344E+03, tol = 0.59924E+01, time = 5.06 | CG iter. 31 -- res = 0.22272E+03, tol = 0.59924E+01, time = 5.50 | CG iter. 32 -- res = 0.19394E+03, tol = 0.59924E+01, time = 5.37 | CG iter. 33 -- res = 0.16286E+03, tol = 0.59924E+01, time = 5.44 | CG iter. 34 -- res = 0.13149E+03, tol = 0.59924E+01, time = 5.04 | CG iter. 35 -- res = 0.10953E+03, tol = 0.59924E+01, time = 7.14 | CG iter. 36 -- res = 0.10378E+03, tol = 0.59924E+01, time = 9.98 | CG iter. 37 -- res = 0.85158E+02, tol = 0.59924E+01, time = 5.25 | CG iter. 38 -- res = 0.67709E+02, tol = 0.59924E+01, time = 5.57 | CG iter. 39 -- res = 0.55388E+02, tol = 0.59924E+01, time = 5.24 | CG iter. 40 -- res = 0.49550E+02, tol = 0.59924E+01, time = 5.19 | CG iter. 41 -- res = 0.41782E+02, tol = 0.59924E+01, time = 5.23 | CG iter. 42 -- res = 0.34077E+02, tol = 0.59924E+01, time = 5.11 | CG iter. 43 -- res = 0.27128E+02, tol = 0.59924E+01, time = 5.30 | CG iter. 44 -- res = 0.23389E+02, tol = 0.59924E+01, time = 4.99 | CG iter. 45 -- res = 0.19870E+02, tol = 0.59924E+01, time = 5.36 | CG iter. 46 -- res = 0.16116E+02, tol = 0.59924E+01, time = 5.19 | CG iter. 47 -- res = 0.12523E+02, tol = 0.59924E+01, time = 5.35 | CG iter. 48 -- res = 0.10183E+02, tol = 0.59924E+01, time = 5.38 | CG iter. 49 -- res = 0.87344E+01, tol = 0.59924E+01, time = 5.30 | CG iter. 50 -- res = 0.71138E+01, tol = 0.59924E+01, time = 5.30 | Final CG iter 51 -- res = 0.71138E+01, tol = 0.59924E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9311136.685 | Old band monopole 11755866.341 | Change to band monopole -2444729.656 | Change to component monopole 2444719.140 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.13057E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.35465E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.12747E+01, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.22484E-02, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.66990E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9311096.636 | (Sampled value in CG: 9268065.926 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.524608 | New value = 1.462839 | poltype: 2 pol: 1 CPU time specind = 6.7470074E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.531218 | New value = 1.433392 | poltype: 2 pol: 2 CPU time specind = 2.7079582E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.24765E+08, tol = 0.47556E+04, time = 6.16 | CG iter. 2 -- res = 0.52380E+07, tol = 0.47556E+04, time = 6.74 | CG iter. 3 -- res = 0.83214E+06, tol = 0.47556E+04, time = 5.90 | CG iter. 4 -- res = 0.34514E+06, tol = 0.47556E+04, time = 6.32 | CG iter. 5 -- res = 0.14851E+06, tol = 0.47556E+04, time = 6.28 | CG iter. 6 -- res = 0.79314E+05, tol = 0.47556E+04, time = 5.70 | CG iter. 7 -- res = 0.42972E+05, tol = 0.47556E+04, time = 6.41 | CG iter. 8 -- res = 0.20389E+05, tol = 0.47556E+04, time = 6.11 | CG iter. 9 -- res = 0.88760E+04, tol = 0.47556E+04, time = 5.86 | CG iter. 10 -- res = 0.35941E+04, tol = 0.47556E+04, time = 6.15 | CG iter. 11 -- res = 0.16178E+04, tol = 0.47556E+04, time = 5.98 | CG iter. 12 -- res = 0.85246E+03, tol = 0.47556E+04, time = 6.23 | CG iter. 13 -- res = 0.48500E+03, tol = 0.47556E+04, time = 6.09 | CG iter. 14 -- res = 0.27606E+03, tol = 0.47556E+04, time = 5.54 | CG iter. 15 -- res = 0.14248E+03, tol = 0.47556E+04, time = 6.10 | CG iter. 16 -- res = 0.65729E+02, tol = 0.47556E+04, time = 6.15 | CG iter. 17 -- res = 0.30787E+02, tol = 0.47556E+04, time = 6.05 | CG iter. 18 -- res = 0.15766E+02, tol = 0.47556E+04, time = 12.55 | CG iter. 19 -- res = 0.85481E+01, tol = 0.47556E+04, time = 6.21 | CG iter. 20 -- res = 0.48428E+01, tol = 0.47556E+04, time = 5.87 | CG iter. 21 -- res = 0.26786E+01, tol = 0.47556E+04, time = 5.90 | CG iter. 22 -- res = 0.13759E+01, tol = 0.47556E+04, time = 6.34 | CG iter. 23 -- res = 0.68479E+00, tol = 0.47556E+04, time = 5.81 | CG iter. 24 -- res = 0.35026E+00, tol = 0.47556E+04, time = 6.12 | CG iter. 25 -- res = 0.19215E+00, tol = 0.47556E+04, time = 6.01 | CG iter. 26 -- res = 0.11129E+00, tol = 0.47556E+04, time = 5.99 | CG iter. 27 -- res = 0.63145E-01, tol = 0.47556E+04, time = 6.03 | CG iter. 28 -- res = 0.33303E-01, tol = 0.47556E+04, time = 5.86 | CG iter. 29 -- res = 0.17288E-01, tol = 0.47556E+04, time = 6.37 | CG iter. 30 -- res = 0.91817E-02, tol = 0.47556E+04, time = 6.14 | CG iter. 31 -- res = 0.50344E-02, tol = 0.47556E+04, time = 6.05 | CG iter. 32 -- res = 0.28469E-02, tol = 0.47556E+04, time = 7.72 | CG iter. 33 -- res = 0.16066E-02, tol = 0.47556E+04, time = 5.99 | CG iter. 34 -- res = 0.85882E-03, tol = 0.47556E+04, time = 6.40 | CG iter. 35 -- res = 0.44634E-03, tol = 0.47556E+04, time = 5.83 | Final CG iter 36 -- res = 0.44634E-03, tol = 0.47556E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 6.180 2.743 | New value -3.355 | Old value 6.180 | Difference -9.535 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.47103E+07, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.39594E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.12033E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.28329E-03, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.51127E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9311096.636 | (Sampled value in CG: 9269216.959 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.607154 | New value = -3.539878 | poltype: 1 pol: 1 CPU time specind = 6.0319901E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.23987E+07, tol = 0.26174E+01, time = 2.46 | CG iter. 2 -- res = 0.10832E+07, tol = 0.26174E+01, time = 2.30 | CG iter. 3 -- res = 0.21905E+06, tol = 0.26174E+01, time = 2.50 | CG iter. 4 -- res = 0.79941E+05, tol = 0.26174E+01, time = 2.85 | CG iter. 5 -- res = 0.43705E+05, tol = 0.26174E+01, time = 3.93 | CG iter. 6 -- res = 0.24394E+05, tol = 0.26174E+01, time = 2.74 | CG iter. 7 -- res = 0.95050E+04, tol = 0.26174E+01, time = 2.60 | CG iter. 8 -- res = 0.40077E+04, tol = 0.26174E+01, time = 3.06 | CG iter. 9 -- res = 0.17878E+04, tol = 0.26174E+01, time = 2.52 | CG iter. 10 -- res = 0.70324E+03, tol = 0.26174E+01, time = 2.36 | CG iter. 11 -- res = 0.28550E+03, tol = 0.26174E+01, time = 2.48 | CG iter. 12 -- res = 0.13722E+03, tol = 0.26174E+01, time = 2.26 | CG iter. 13 -- res = 0.70001E+02, tol = 0.26174E+01, time = 2.53 | CG iter. 14 -- res = 0.35450E+02, tol = 0.26174E+01, time = 2.29 | CG iter. 15 -- res = 0.16797E+02, tol = 0.26174E+01, time = 2.56 | CG iter. 16 -- res = 0.71499E+01, tol = 0.26174E+01, time = 2.50 | CG iter. 17 -- res = 0.30228E+01, tol = 0.26174E+01, time = 2.35 | CG iter. 18 -- res = 0.13556E+01, tol = 0.26174E+01, time = 2.57 | CG iter. 19 -- res = 0.65428E+00, tol = 0.26174E+01, time = 2.67 | CG iter. 20 -- res = 0.33600E+00, tol = 0.26174E+01, time = 2.29 | CG iter. 21 -- res = 0.17296E+00, tol = 0.26174E+01, time = 2.63 | CG iter. 22 -- res = 0.80920E-01, tol = 0.26174E+01, time = 2.79 | CG iter. 23 -- res = 0.36573E-01, tol = 0.26174E+01, time = 2.75 | CG iter. 24 -- res = 0.17248E-01, tol = 0.26174E+01, time = 2.50 | CG iter. 25 -- res = 0.83159E-02, tol = 0.26174E+01, time = 2.41 | CG iter. 26 -- res = 0.39590E-02, tol = 0.26174E+01, time = 2.43 | CG iter. 27 -- res = 0.19883E-02, tol = 0.26174E+01, time = 2.32 | CG iter. 28 -- res = 0.10125E-02, tol = 0.26174E+01, time = 2.46 | CG iter. 29 -- res = 0.48095E-03, tol = 0.26174E+01, time = 2.48 | CG iter. 30 -- res = 0.22287E-03, tol = 0.26174E+01, time = 2.43 | CG iter. 31 -- res = 0.10178E-03, tol = 0.26174E+01, time = 2.45 | CG iter. 32 -- res = 0.49660E-04, tol = 0.26174E+01, time = 2.62 | CG iter. 33 -- res = 0.24899E-04, tol = 0.26174E+01, time = 2.48 | CG iter. 34 -- res = 0.12909E-04, tol = 0.26174E+01, time = 2.77 | CG iter. 35 -- res = 0.62154E-05, tol = 0.26174E+01, time = 2.37 | CG iter. 36 -- res = 0.29276E-05, tol = 0.26174E+01, time = 2.27 | CG iter. 37 -- res = 0.13804E-05, tol = 0.26174E+01, time = 2.49 | CG iter. 38 -- res = 0.66161E-06, tol = 0.26174E+01, time = 2.52 | CG iter. 39 -- res = 0.32444E-06, tol = 0.26174E+01, time = 2.70 | CG iter. 40 -- res = 0.16879E-06, tol = 0.26174E+01, time = 2.31 | CG iter. 41 -- res = 0.86268E-07, tol = 0.26174E+01, time = 2.42 | CG iter. 42 -- res = 0.40484E-07, tol = 0.26174E+01, time = 2.48 | CG iter. 43 -- res = 0.17912E-07, tol = 0.26174E+01, time = 2.51 | CG iter. 44 -- res = 0.86851E-08, tol = 0.26174E+01, time = 2.50 | CG iter. 45 -- res = 0.41902E-08, tol = 0.26174E+01, time = 2.68 | CG iter. 46 -- res = 0.20873E-08, tol = 0.26174E+01, time = 2.49 | CG iter. 47 -- res = 0.10355E-08, tol = 0.26174E+01, time = 3.35 | CG iter. 48 -- res = 0.52247E-09, tol = 0.26174E+01, time = 2.48 | CG iter. 49 -- res = 0.24013E-09, tol = 0.26174E+01, time = 2.49 | CG iter. 50 -- res = 0.10828E-09, tol = 0.26174E+01, time = 2.58 | Final CG iter 51 -- res = 0.10828E-09, tol = 0.26174E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.865 5.606 | New value -0.733 | Old value -3.865 | Difference 3.132 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.47 | CG iter. 1 -- res = 0.10626E+05, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.28400E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.91057E+00, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.15861E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.13927E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9311096.636 | (Sampled value in CG: 9281005.694 ) | CPU time specind = 1095.708 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.70690E+08, tol = 0.57523E+04, time = 17.44 | CG iter. 2 -- res = 0.59529E+08, tol = 0.57523E+04, time = 11.15 | CG iter. 3 -- res = 0.15943E+08, tol = 0.57523E+04, time = 10.25 | CG iter. 4 -- res = 0.68923E+07, tol = 0.57523E+04, time = 11.11 | CG iter. 5 -- res = 0.40356E+07, tol = 0.57523E+04, time = 10.93 | CG iter. 6 -- res = 0.22948E+07, tol = 0.57523E+04, time = 10.98 | CG iter. 7 -- res = 0.13591E+07, tol = 0.57523E+04, time = 11.17 | CG iter. 8 -- res = 0.91066E+06, tol = 0.57523E+04, time = 11.06 | CG iter. 9 -- res = 0.59330E+06, tol = 0.57523E+04, time = 12.88 | CG iter. 10 -- res = 0.35712E+06, tol = 0.57523E+04, time = 11.17 | CG iter. 11 -- res = 0.19991E+06, tol = 0.57523E+04, time = 10.98 | CG iter. 12 -- res = 0.10917E+06, tol = 0.57523E+04, time = 10.47 | CG iter. 13 -- res = 0.61163E+05, tol = 0.57523E+04, time = 11.09 | CG iter. 14 -- res = 0.39759E+05, tol = 0.57523E+04, time = 10.64 | CG iter. 15 -- res = 0.29567E+05, tol = 0.57523E+04, time = 10.96 | CG iter. 16 -- res = 0.24140E+05, tol = 0.57523E+04, time = 10.89 | CG iter. 17 -- res = 0.21354E+05, tol = 0.57523E+04, time = 11.30 | CG iter. 18 -- res = 0.18772E+05, tol = 0.57523E+04, time = 10.81 | CG iter. 19 -- res = 0.16229E+05, tol = 0.57523E+04, time = 11.11 | CG iter. 20 -- res = 0.14773E+05, tol = 0.57523E+04, time = 10.92 | CG iter. 21 -- res = 0.14476E+05, tol = 0.57523E+04, time = 11.21 | CG iter. 22 -- res = 0.14845E+05, tol = 0.57523E+04, time = 10.78 | CG iter. 23 -- res = 0.15807E+05, tol = 0.57523E+04, time = 10.50 | CG iter. 24 -- res = 0.16096E+05, tol = 0.57523E+04, time = 10.89 | CG iter. 25 -- res = 0.14629E+05, tol = 0.57523E+04, time = 11.05 | CG iter. 26 -- res = 0.11869E+05, tol = 0.57523E+04, time = 10.86 | CG iter. 27 -- res = 0.88669E+04, tol = 0.57523E+04, time = 10.99 | CG iter. 28 -- res = 0.65977E+04, tol = 0.57523E+04, time = 16.90 | CG iter. 29 -- res = 0.52415E+04, tol = 0.57523E+04, time = 10.92 | CG iter. 30 -- res = 0.44066E+04, tol = 0.57523E+04, time = 10.98 | CG iter. 31 -- res = 0.38580E+04, tol = 0.57523E+04, time = 11.16 | CG iter. 32 -- res = 0.34101E+04, tol = 0.57523E+04, time = 10.64 | CG iter. 33 -- res = 0.28449E+04, tol = 0.57523E+04, time = 11.80 | CG iter. 34 -- res = 0.22696E+04, tol = 0.57523E+04, time = 10.48 | CG iter. 35 -- res = 0.19118E+04, tol = 0.57523E+04, time = 10.88 | CG iter. 36 -- res = 0.18012E+04, tol = 0.57523E+04, time = 12.91 | CG iter. 37 -- res = 0.17689E+04, tol = 0.57523E+04, time = 11.16 | CG iter. 38 -- res = 0.17130E+04, tol = 0.57523E+04, time = 10.58 | CG iter. 39 -- res = 0.15545E+04, tol = 0.57523E+04, time = 11.04 | CG iter. 40 -- res = 0.13201E+04, tol = 0.57523E+04, time = 11.56 | CG iter. 41 -- res = 0.10795E+04, tol = 0.57523E+04, time = 11.05 | CG iter. 42 -- res = 0.86496E+03, tol = 0.57523E+04, time = 11.20 | CG iter. 43 -- res = 0.73516E+03, tol = 0.57523E+04, time = 10.97 | CG iter. 44 -- res = 0.64989E+03, tol = 0.57523E+04, time = 10.78 | CG iter. 45 -- res = 0.58508E+03, tol = 0.57523E+04, time = 11.82 | CG iter. 46 -- res = 0.53164E+03, tol = 0.57523E+04, time = 10.43 | CG iter. 47 -- res = 0.48680E+03, tol = 0.57523E+04, time = 10.57 | CG iter. 48 -- res = 0.42592E+03, tol = 0.57523E+04, time = 10.83 | CG iter. 49 -- res = 0.37201E+03, tol = 0.57523E+04, time = 10.79 | CG iter. 50 -- res = 0.33794E+03, tol = 0.57523E+04, time = 11.18 | CG iter. 51 -- res = 0.31761E+03, tol = 0.57523E+04, time = 10.83 | CG iter. 52 -- res = 0.30764E+03, tol = 0.57523E+04, time = 10.76 | CG iter. 53 -- res = 0.28960E+03, tol = 0.57523E+04, time = 10.91 | CG iter. 54 -- res = 0.26092E+03, tol = 0.57523E+04, time = 17.66 | CG iter. 55 -- res = 0.22602E+03, tol = 0.57523E+04, time = 11.31 | CG iter. 56 -- res = 0.19376E+03, tol = 0.57523E+04, time = 10.79 | CG iter. 57 -- res = 0.16883E+03, tol = 0.57523E+04, time = 10.75 | CG iter. 58 -- res = 0.15354E+03, tol = 0.57523E+04, time = 10.62 | CG iter. 59 -- res = 0.14513E+03, tol = 0.57523E+04, time = 11.04 | CG iter. 60 -- res = 0.13866E+03, tol = 0.57523E+04, time = 10.73 | Final CG iter 61 -- res = 0.13866E+03, tol = 0.57523E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.834 ( -229.869 -2229.923 2512.145 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9792082.694 | Old band monopole 9311136.685 | Change to band monopole 480946.009 | Change to component monopole -480943.940 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.407 2.732 | New value -1.963 | Old value -3.407 | Difference 1.444 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.780 ( 7.631 10.856 -9.902 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.730 5.724 | New value -6.053 | Old value 6.730 | Difference -12.783 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.16791E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.45165E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.18808E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.46260E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.29267E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9792040.576 | (Sampled value in CG: 9764573.937 ) | Chain = 1 -- chisq = 0.81567241E+09 | Chain = 1 -- wall time = 5524.651 sec Available RAM: MemAvailable: 373196316 kB Available Swap: SwapFree: 1129915152 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 204 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442760 | --> Sampling calibration, mode = relcal | relcal = 1.3424970E-02 7.5047067E-04 -1.5971755E-03 -1.2578266E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1084283 0.1234416 9411552.94173697 | BP delta = 0.1084283 0.1215529 9411570.41817269 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632422 | --> Sampling calibration, mode = relcal | relcal = -2.8205437E-03 -7.0359430E-04 1.6775862E-03 1.6136238E-03 -4.0751745E-04 6.4044556E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5751673 15216832.4743655 | BP delta = 0.0000000E+00 -0.5716875 15216829.4529272 | BP chisq diff = -3.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18255644106911 | --> Sampling calibration, mode = relcal | relcal = -7.5374648E-02 -5.8771465E-02 9.2312403E-02 4.1833710E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8338071E-04 5.0561703E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2921E-05 | 2: delta_r/delta_0: 1.0254E-06 | 3: delta_s/delta_0: 1.9128E-07 | 4: delta_r/delta_0: 2.3479E-08 | 5: delta_s/delta_0: 6.7994E-09 | 6: delta_r/delta_0: 1.9862E-09 | 7: delta_s/delta_0: 4.6238E-10 | 8: delta_r/delta_0: 1.2132E-10 | 9: delta_s/delta_0: 5.4399E-10 | 10: delta_r/delta_0: 1.9942E-10 | 11: delta_s/delta_0: 2.2982E-10 | 12: delta_r/delta_0: 8.5695E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.049827871264971E-003 2.737435989228026E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2922E-05 | 2: delta_r/delta_0: 1.0254E-06 | 3: delta_s/delta_0: 1.9128E-07 | 4: delta_r/delta_0: 2.3479E-08 | 5: delta_s/delta_0: 6.7978E-09 | 6: delta_r/delta_0: 1.9863E-09 | 7: delta_s/delta_0: 4.6246E-10 | 8: delta_r/delta_0: 1.2131E-10 | 9: delta_s/delta_0: 5.4378E-10 | 10: delta_r/delta_0: 1.9933E-10 | 11: delta_s/delta_0: 2.2992E-10 | 12: delta_r/delta_0: 8.5698E-11 | Reached bicg-stab tolerance | BP delta = 4.1831948E-02 5.8799855E-02 3575459.33262741 | BP delta = 4.1831948E-02 5.8573917E-02 3579263.35327001 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02589064 | --> Sampling calibration, mode = relcal | relcal = -0.1066195 -9.5541857E-02 0.1448469 5.7314463E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2059760E-03 1.3591914E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9698E-05 | 2: delta_r/delta_0: 1.6580E-06 | 3: delta_s/delta_0: 2.2945E-07 | 4: delta_r/delta_0: 4.0207E-08 | 5: delta_s/delta_0: 2.8708E-08 | 6: delta_r/delta_0: 6.0366E-09 | 7: delta_s/delta_0: 4.1266E-09 | 8: delta_r/delta_0: 1.4244E-09 | 9: delta_s/delta_0: 7.8434E-10 | 10: delta_r/delta_0: 4.2774E-10 | 11: delta_s/delta_0: 4.4437E-09 | 12: delta_r/delta_0: 2.0808E-10 | 13: delta_s/delta_0: 9.8756E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.011915069948768E-002 2.811108218728785E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9698E-05 | 2: delta_r/delta_0: 1.6579E-06 | 3: delta_s/delta_0: 2.2942E-07 | 4: delta_r/delta_0: 4.0171E-08 | 5: delta_s/delta_0: 2.8749E-08 | 6: delta_r/delta_0: 6.0348E-09 | 7: delta_s/delta_0: 4.1252E-09 | 8: delta_r/delta_0: 1.4239E-09 | 9: delta_s/delta_0: 7.8348E-10 | 10: delta_r/delta_0: 4.2779E-10 | 11: delta_s/delta_0: 3.9944E-09 | 12: delta_r/delta_0: 1.7089E-10 | 13: delta_s/delta_0: 9.8645E-11 | Reached bicg-stab tolerance | BP delta = -0.2581138 -0.2353130 2841639.98099903 | BP delta = -0.2581138 -0.2394699 2841792.15181855 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81238165 | --> Sampling calibration, mode = relcal | relcal = 0.2955252 0.2248399 -0.2838256 -0.2365395 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.4598559E-04 5.2007949E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6741E-03 | 2: delta_r/delta_0: 1.7943E-04 | 3: delta_s/delta_0: 1.6013E-05 | 4: delta_r/delta_0: 1.3520E-06 | 5: delta_s/delta_0: 4.8309E-04 | 6: delta_r/delta_0: 1.8661E-05 | 7: delta_s/delta_0: 1.1130E-07 | 8: delta_r/delta_0: 2.7750E-08 | 9: delta_s/delta_0: 3.0191E-08 | 10: delta_r/delta_0: 9.5311E-09 | 11: delta_s/delta_0: 3.5858E-09 | 12: delta_r/delta_0: 9.7339E-10 | 13: delta_s/delta_0: 4.5752E-10 | 14: delta_r/delta_0: 2.8944E-10 | 15: delta_s/delta_0: 9.7352E-10 | 16: delta_r/delta_0: 6.0506E-10 | 17: delta_s/delta_0: 1.6364E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.808458944678743E-002 4.020882597890583E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.6718E-03 | 2: delta_r/delta_0: 1.7937E-04 | 3: delta_s/delta_0: 1.6008E-05 | 4: delta_r/delta_0: 1.3515E-06 | 5: delta_s/delta_0: 4.8226E-04 | 6: delta_r/delta_0: 1.8622E-05 | 7: delta_s/delta_0: 1.1123E-07 | 8: delta_r/delta_0: 2.7751E-08 | 9: delta_s/delta_0: 3.0210E-08 | 10: delta_r/delta_0: 9.5306E-09 | 11: delta_s/delta_0: 3.5849E-09 | 12: delta_r/delta_0: 9.7302E-10 | 13: delta_s/delta_0: 4.5742E-10 | 14: delta_r/delta_0: 2.8938E-10 | 15: delta_s/delta_0: 9.7119E-10 | 16: delta_r/delta_0: 6.0360E-10 | 17: delta_s/delta_0: 1.6362E-11 | Reached bicg-stab tolerance | BP delta = -0.1280516 -0.1568605 2827493.85151596 | BP delta = -0.1280516 -0.1583689 2827494.08452033 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95919471 | --> Sampling calibration, mode = relcal | relcal = 0.1064524 0.1396101 -0.1102506 -0.1358119 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9542774E-03 1.2778495E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2171E-03 | 2: delta_r/delta_0: 7.7311E-05 | 3: delta_s/delta_0: 5.3758E-06 | 4: delta_r/delta_0: 6.3067E-07 | 5: delta_s/delta_0: 6.9768E-06 | 6: delta_r/delta_0: 1.5553E-06 | 7: delta_s/delta_0: 1.1181E-07 | 8: delta_r/delta_0: 5.7437E-08 | 9: delta_s/delta_0: 1.1858E-07 | 10: delta_r/delta_0: 1.0553E-08 | 11: delta_s/delta_0: 2.9745E-09 | 12: delta_r/delta_0: 1.1471E-09 | 13: delta_s/delta_0: 6.0904E-10 | 14: delta_r/delta_0: 1.3927E-10 | 15: delta_s/delta_0: 1.2046E-10 | 16: delta_r/delta_0: 7.8892E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.848082493686620E-002 3.697158185431757E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2159E-03 | 2: delta_r/delta_0: 7.7283E-05 | 3: delta_s/delta_0: 5.3758E-06 | 4: delta_r/delta_0: 6.3073E-07 | 5: delta_s/delta_0: 6.9751E-06 | 6: delta_r/delta_0: 1.5547E-06 | 7: delta_s/delta_0: 1.1182E-07 | 8: delta_r/delta_0: 5.7444E-08 | 9: delta_s/delta_0: 1.1942E-07 | 10: delta_r/delta_0: 1.0554E-08 | 11: delta_s/delta_0: 2.9663E-09 | 12: delta_r/delta_0: 1.1447E-09 | 13: delta_s/delta_0: 6.2601E-10 | 14: delta_r/delta_0: 1.3858E-10 | 15: delta_s/delta_0: 1.1916E-10 | 16: delta_r/delta_0: 7.7133E-11 | Reached bicg-stab tolerance | BP delta = 0.1035706 0.2033052 3003812.69709301 | BP delta = 0.1035706 0.1848287 3003904.35503010 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179874 | New value = -3.167840 | poltype: 2 pol: 1 CPU time specind = 5.8071613E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.092112 | New value = -3.154806 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191057 | New value = -3.160315 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148143 | New value = -3.043519 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184789 | New value = -3.129214 | poltype: 2 pol: 2 CPU time specind = 5.4850578E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.13548E+08, tol = 0.72014E+01, time = 4.84 | CG iter. 2 -- res = 0.31926E+06, tol = 0.72014E+01, time = 5.14 | CG iter. 3 -- res = 0.47125E+05, tol = 0.72014E+01, time = 5.17 | CG iter. 4 -- res = 0.20965E+05, tol = 0.72014E+01, time = 5.36 | CG iter. 5 -- res = 0.10550E+05, tol = 0.72014E+01, time = 5.26 | CG iter. 6 -- res = 0.57427E+04, tol = 0.72014E+01, time = 4.97 | CG iter. 7 -- res = 0.39939E+04, tol = 0.72014E+01, time = 5.27 | CG iter. 8 -- res = 0.29851E+04, tol = 0.72014E+01, time = 5.44 | CG iter. 9 -- res = 0.26329E+04, tol = 0.72014E+01, time = 5.01 | CG iter. 10 -- res = 0.29865E+04, tol = 0.72014E+01, time = 5.27 | CG iter. 11 -- res = 0.29516E+04, tol = 0.72014E+01, time = 4.95 | CG iter. 12 -- res = 0.22289E+04, tol = 0.72014E+01, time = 5.24 | CG iter. 13 -- res = 0.15589E+04, tol = 0.72014E+01, time = 5.18 | CG iter. 14 -- res = 0.11290E+04, tol = 0.72014E+01, time = 5.26 | CG iter. 15 -- res = 0.92206E+03, tol = 0.72014E+01, time = 5.01 | CG iter. 16 -- res = 0.74983E+03, tol = 0.72014E+01, time = 6.45 | CG iter. 17 -- res = 0.55561E+03, tol = 0.72014E+01, time = 10.36 | CG iter. 18 -- res = 0.44231E+03, tol = 0.72014E+01, time = 5.17 | CG iter. 19 -- res = 0.37387E+03, tol = 0.72014E+01, time = 5.44 | CG iter. 20 -- res = 0.31300E+03, tol = 0.72014E+01, time = 5.07 | CG iter. 21 -- res = 0.23439E+03, tol = 0.72014E+01, time = 5.15 | CG iter. 22 -- res = 0.17076E+03, tol = 0.72014E+01, time = 5.26 | CG iter. 23 -- res = 0.13889E+03, tol = 0.72014E+01, time = 5.01 | CG iter. 24 -- res = 0.12229E+03, tol = 0.72014E+01, time = 5.24 | CG iter. 25 -- res = 0.96616E+02, tol = 0.72014E+01, time = 5.27 | CG iter. 26 -- res = 0.73179E+02, tol = 0.72014E+01, time = 5.07 | CG iter. 27 -- res = 0.57435E+02, tol = 0.72014E+01, time = 5.07 | CG iter. 28 -- res = 0.49082E+02, tol = 0.72014E+01, time = 5.08 | CG iter. 29 -- res = 0.42014E+02, tol = 0.72014E+01, time = 5.16 | CG iter. 30 -- res = 0.33654E+02, tol = 0.72014E+01, time = 5.06 | CG iter. 31 -- res = 0.27810E+02, tol = 0.72014E+01, time = 5.26 | CG iter. 32 -- res = 0.26236E+02, tol = 0.72014E+01, time = 5.29 | CG iter. 33 -- res = 0.23268E+02, tol = 0.72014E+01, time = 6.24 | CG iter. 34 -- res = 0.19229E+02, tol = 0.72014E+01, time = 5.82 | CG iter. 35 -- res = 0.15515E+02, tol = 0.72014E+01, time = 5.25 | CG iter. 36 -- res = 0.13647E+02, tol = 0.72014E+01, time = 5.39 | CG iter. 37 -- res = 0.12004E+02, tol = 0.72014E+01, time = 5.28 | CG iter. 38 -- res = 0.10112E+02, tol = 0.72014E+01, time = 4.90 | CG iter. 39 -- res = 0.78874E+01, tol = 0.72014E+01, time = 4.97 | CG iter. 40 -- res = 0.66560E+01, tol = 0.72014E+01, time = 5.21 | CG iter. 41 -- res = 0.57639E+01, tol = 0.72014E+01, time = 5.13 | CG iter. 42 -- res = 0.47317E+01, tol = 0.72014E+01, time = 5.96 | CG iter. 43 -- res = 0.37180E+01, tol = 0.72014E+01, time = 5.22 | CG iter. 44 -- res = 0.29200E+01, tol = 0.72014E+01, time = 4.93 | CG iter. 45 -- res = 0.24273E+01, tol = 0.72014E+01, time = 5.13 | CG iter. 46 -- res = 0.19916E+01, tol = 0.72014E+01, time = 5.17 | CG iter. 47 -- res = 0.15671E+01, tol = 0.72014E+01, time = 5.02 | CG iter. 48 -- res = 0.11739E+01, tol = 0.72014E+01, time = 5.14 | CG iter. 49 -- res = 0.94341E+00, tol = 0.72014E+01, time = 4.94 | CG iter. 50 -- res = 0.82582E+00, tol = 0.72014E+01, time = 5.06 | Final CG iter 51 -- res = 0.82582E+00, tol = 0.72014E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8622866.593 | Old band monopole 9792082.694 | Change to band monopole -1169216.102 | Change to component monopole 1169211.072 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.41887E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.25871E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.10754E+01, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.48580E-03, tol = 0.47627E+18, time = 1.66 | Final CG iter 5 -- res = 0.34733E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8622829.504 | (Sampled value in CG: 8631143.463 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.462839 | New value = 1.499234 | poltype: 2 pol: 1 CPU time specind = 6.3002110E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.433392 | New value = 1.509523 | poltype: 2 pol: 2 CPU time specind = 2.7790070E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.24300E+08, tol = 0.47556E+04, time = 6.15 | CG iter. 2 -- res = 0.53865E+07, tol = 0.47556E+04, time = 11.70 | CG iter. 3 -- res = 0.84930E+06, tol = 0.47556E+04, time = 5.95 | CG iter. 4 -- res = 0.35387E+06, tol = 0.47556E+04, time = 6.02 | CG iter. 5 -- res = 0.15234E+06, tol = 0.47556E+04, time = 5.86 | CG iter. 6 -- res = 0.81811E+05, tol = 0.47556E+04, time = 5.66 | CG iter. 7 -- res = 0.44437E+05, tol = 0.47556E+04, time = 5.44 | CG iter. 8 -- res = 0.20993E+05, tol = 0.47556E+04, time = 5.82 | CG iter. 9 -- res = 0.91544E+04, tol = 0.47556E+04, time = 6.02 | CG iter. 10 -- res = 0.37613E+04, tol = 0.47556E+04, time = 6.25 | CG iter. 11 -- res = 0.16870E+04, tol = 0.47556E+04, time = 5.91 | CG iter. 12 -- res = 0.87998E+03, tol = 0.47556E+04, time = 5.51 | CG iter. 13 -- res = 0.49723E+03, tol = 0.47556E+04, time = 5.84 | CG iter. 14 -- res = 0.27897E+03, tol = 0.47556E+04, time = 6.06 | CG iter. 15 -- res = 0.14282E+03, tol = 0.47556E+04, time = 5.61 | CG iter. 16 -- res = 0.67436E+02, tol = 0.47556E+04, time = 6.02 | CG iter. 17 -- res = 0.31797E+02, tol = 0.47556E+04, time = 7.43 | CG iter. 18 -- res = 0.15976E+02, tol = 0.47556E+04, time = 6.55 | CG iter. 19 -- res = 0.87893E+01, tol = 0.47556E+04, time = 6.03 | CG iter. 20 -- res = 0.49470E+01, tol = 0.47556E+04, time = 5.78 | CG iter. 21 -- res = 0.27337E+01, tol = 0.47556E+04, time = 6.02 | CG iter. 22 -- res = 0.13910E+01, tol = 0.47556E+04, time = 5.79 | CG iter. 23 -- res = 0.67048E+00, tol = 0.47556E+04, time = 5.90 | CG iter. 24 -- res = 0.34480E+00, tol = 0.47556E+04, time = 6.21 | CG iter. 25 -- res = 0.18862E+00, tol = 0.47556E+04, time = 5.79 | CG iter. 26 -- res = 0.10794E+00, tol = 0.47556E+04, time = 5.80 | CG iter. 27 -- res = 0.60671E-01, tol = 0.47556E+04, time = 5.94 | CG iter. 28 -- res = 0.32459E-01, tol = 0.47556E+04, time = 5.72 | CG iter. 29 -- res = 0.17031E-01, tol = 0.47556E+04, time = 5.76 | CG iter. 30 -- res = 0.87840E-02, tol = 0.47556E+04, time = 5.70 | CG iter. 31 -- res = 0.46147E-02, tol = 0.47556E+04, time = 5.96 | CG iter. 32 -- res = 0.25591E-02, tol = 0.47556E+04, time = 6.02 | CG iter. 33 -- res = 0.14404E-02, tol = 0.47556E+04, time = 6.31 | CG iter. 34 -- res = 0.77811E-03, tol = 0.47556E+04, time = 5.79 | CG iter. 35 -- res = 0.40970E-03, tol = 0.47556E+04, time = 5.89 | Final CG iter 36 -- res = 0.40970E-03, tol = 0.47556E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.957 2.732 | New value -1.586 | Old value -1.957 | Difference 0.371 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.10274E+05, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.16463E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.16267E+00, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.24587E-03, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.13927E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8622829.504 | (Sampled value in CG: 8630476.584 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.539878 | New value = -3.799331 | poltype: 1 pol: 1 CPU time specind = 8.4629059E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.21327E+07, tol = 0.21997E+01, time = 2.31 | CG iter. 2 -- res = 0.56688E+06, tol = 0.21997E+01, time = 2.71 | CG iter. 3 -- res = 0.10786E+06, tol = 0.21997E+01, time = 2.58 | CG iter. 4 -- res = 0.47960E+05, tol = 0.21997E+01, time = 2.46 | CG iter. 5 -- res = 0.31271E+05, tol = 0.21997E+01, time = 2.38 | CG iter. 6 -- res = 0.14967E+05, tol = 0.21997E+01, time = 2.55 | CG iter. 7 -- res = 0.53427E+04, tol = 0.21997E+01, time = 2.19 | CG iter. 8 -- res = 0.22716E+04, tol = 0.21997E+01, time = 2.36 | CG iter. 9 -- res = 0.10229E+04, tol = 0.21997E+01, time = 2.50 | CG iter. 10 -- res = 0.40192E+03, tol = 0.21997E+01, time = 2.67 | CG iter. 11 -- res = 0.18091E+03, tol = 0.21997E+01, time = 2.41 | CG iter. 12 -- res = 0.91484E+02, tol = 0.21997E+01, time = 2.61 | CG iter. 13 -- res = 0.46057E+02, tol = 0.21997E+01, time = 2.57 | CG iter. 14 -- res = 0.21019E+02, tol = 0.21997E+01, time = 3.08 | CG iter. 15 -- res = 0.85938E+01, tol = 0.21997E+01, time = 2.37 | CG iter. 16 -- res = 0.36429E+01, tol = 0.21997E+01, time = 2.49 | CG iter. 17 -- res = 0.17105E+01, tol = 0.21997E+01, time = 2.38 | CG iter. 18 -- res = 0.83440E+00, tol = 0.21997E+01, time = 2.61 | CG iter. 19 -- res = 0.40187E+00, tol = 0.21997E+01, time = 2.63 | CG iter. 20 -- res = 0.18780E+00, tol = 0.21997E+01, time = 2.59 | CG iter. 21 -- res = 0.83450E-01, tol = 0.21997E+01, time = 2.46 | CG iter. 22 -- res = 0.36970E-01, tol = 0.21997E+01, time = 2.47 | CG iter. 23 -- res = 0.17333E-01, tol = 0.21997E+01, time = 2.25 | CG iter. 24 -- res = 0.87650E-02, tol = 0.21997E+01, time = 2.52 | CG iter. 25 -- res = 0.44123E-02, tol = 0.21997E+01, time = 2.41 | CG iter. 26 -- res = 0.20804E-02, tol = 0.21997E+01, time = 2.43 | CG iter. 27 -- res = 0.94925E-03, tol = 0.21997E+01, time = 2.28 | CG iter. 28 -- res = 0.43369E-03, tol = 0.21997E+01, time = 2.29 | CG iter. 29 -- res = 0.20068E-03, tol = 0.21997E+01, time = 2.58 | CG iter. 30 -- res = 0.10020E-03, tol = 0.21997E+01, time = 2.44 | CG iter. 31 -- res = 0.51348E-04, tol = 0.21997E+01, time = 2.53 | CG iter. 32 -- res = 0.23630E-04, tol = 0.21997E+01, time = 2.39 | CG iter. 33 -- res = 0.10496E-04, tol = 0.21997E+01, time = 2.38 | CG iter. 34 -- res = 0.48422E-05, tol = 0.21997E+01, time = 2.52 | CG iter. 35 -- res = 0.23291E-05, tol = 0.21997E+01, time = 2.35 | CG iter. 36 -- res = 0.11912E-05, tol = 0.21997E+01, time = 2.40 | CG iter. 37 -- res = 0.59144E-06, tol = 0.21997E+01, time = 2.47 | CG iter. 38 -- res = 0.28149E-06, tol = 0.21997E+01, time = 2.74 | CG iter. 39 -- res = 0.12403E-06, tol = 0.21997E+01, time = 2.31 | CG iter. 40 -- res = 0.57327E-07, tol = 0.21997E+01, time = 2.40 | CG iter. 41 -- res = 0.28712E-07, tol = 0.21997E+01, time = 2.60 | CG iter. 42 -- res = 0.14575E-07, tol = 0.21997E+01, time = 2.53 | CG iter. 43 -- res = 0.68815E-08, tol = 0.21997E+01, time = 2.36 | CG iter. 44 -- res = 0.31603E-08, tol = 0.21997E+01, time = 2.43 | CG iter. 45 -- res = 0.14512E-08, tol = 0.21997E+01, time = 2.53 | CG iter. 46 -- res = 0.67372E-09, tol = 0.21997E+01, time = 2.50 | CG iter. 47 -- res = 0.33508E-09, tol = 0.21997E+01, time = 2.50 | CG iter. 48 -- res = 0.16763E-09, tol = 0.21997E+01, time = 2.49 | CG iter. 49 -- res = 0.76688E-10, tol = 0.21997E+01, time = 2.30 | CG iter. 50 -- res = 0.34214E-10, tol = 0.21997E+01, time = 2.47 | Final CG iter 51 -- res = 0.34214E-10, tol = 0.21997E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.057 5.863 | New value 2.005 | Old value -6.057 | Difference 8.062 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.60445E+05, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.27014E+02, tol = 0.47627E+18, time = 1.62 | CG iter. 3 -- res = 0.11601E+01, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.48082E-03, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.23539E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8622829.504 | (Sampled value in CG: 8631121.059 ) | CPU time specind = 1072.799 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.69772E+08, tol = 0.58118E+04, time = 10.60 | CG iter. 2 -- res = 0.59614E+08, tol = 0.58118E+04, time = 12.12 | CG iter. 3 -- res = 0.16422E+08, tol = 0.58118E+04, time = 11.30 | CG iter. 4 -- res = 0.71072E+07, tol = 0.58118E+04, time = 10.75 | CG iter. 5 -- res = 0.41271E+07, tol = 0.58118E+04, time = 10.58 | CG iter. 6 -- res = 0.23583E+07, tol = 0.58118E+04, time = 11.00 | CG iter. 7 -- res = 0.14019E+07, tol = 0.58118E+04, time = 10.36 | CG iter. 8 -- res = 0.92454E+06, tol = 0.58118E+04, time = 10.79 | CG iter. 9 -- res = 0.59591E+06, tol = 0.58118E+04, time = 10.66 | CG iter. 10 -- res = 0.35030E+06, tol = 0.58118E+04, time = 10.21 | CG iter. 11 -- res = 0.19151E+06, tol = 0.58118E+04, time = 10.80 | CG iter. 12 -- res = 0.10052E+06, tol = 0.58118E+04, time = 10.42 | CG iter. 13 -- res = 0.52357E+05, tol = 0.58118E+04, time = 11.03 | CG iter. 14 -- res = 0.30492E+05, tol = 0.58118E+04, time = 10.45 | CG iter. 15 -- res = 0.19640E+05, tol = 0.58118E+04, time = 10.28 | CG iter. 16 -- res = 0.13669E+05, tol = 0.58118E+04, time = 10.74 | CG iter. 17 -- res = 0.99205E+04, tol = 0.58118E+04, time = 10.67 | CG iter. 18 -- res = 0.70999E+04, tol = 0.58118E+04, time = 10.95 | CG iter. 19 -- res = 0.49920E+04, tol = 0.58118E+04, time = 10.72 | CG iter. 20 -- res = 0.37212E+04, tol = 0.58118E+04, time = 10.69 | CG iter. 21 -- res = 0.29062E+04, tol = 0.58118E+04, time = 10.65 | CG iter. 22 -- res = 0.25909E+04, tol = 0.58118E+04, time = 16.60 | CG iter. 23 -- res = 0.26386E+04, tol = 0.58118E+04, time = 10.96 | CG iter. 24 -- res = 0.29025E+04, tol = 0.58118E+04, time = 10.07 | CG iter. 25 -- res = 0.31804E+04, tol = 0.58118E+04, time = 10.77 | CG iter. 26 -- res = 0.32578E+04, tol = 0.58118E+04, time = 10.51 | CG iter. 27 -- res = 0.30501E+04, tol = 0.58118E+04, time = 10.82 | CG iter. 28 -- res = 0.26285E+04, tol = 0.58118E+04, time = 10.85 | CG iter. 29 -- res = 0.22456E+04, tol = 0.58118E+04, time = 10.85 | CG iter. 30 -- res = 0.19498E+04, tol = 0.58118E+04, time = 12.32 | CG iter. 31 -- res = 0.16787E+04, tol = 0.58118E+04, time = 11.15 | CG iter. 32 -- res = 0.14389E+04, tol = 0.58118E+04, time = 10.82 | CG iter. 33 -- res = 0.11557E+04, tol = 0.58118E+04, time = 10.35 | CG iter. 34 -- res = 0.86891E+03, tol = 0.58118E+04, time = 10.72 | CG iter. 35 -- res = 0.64396E+03, tol = 0.58118E+04, time = 10.63 | CG iter. 36 -- res = 0.51654E+03, tol = 0.58118E+04, time = 10.55 | CG iter. 37 -- res = 0.44880E+03, tol = 0.58118E+04, time = 10.41 | CG iter. 38 -- res = 0.41600E+03, tol = 0.58118E+04, time = 10.43 | CG iter. 39 -- res = 0.38064E+03, tol = 0.58118E+04, time = 10.62 | CG iter. 40 -- res = 0.34122E+03, tol = 0.58118E+04, time = 11.68 | CG iter. 41 -- res = 0.30365E+03, tol = 0.58118E+04, time = 10.75 | CG iter. 42 -- res = 0.26287E+03, tol = 0.58118E+04, time = 10.71 | CG iter. 43 -- res = 0.23143E+03, tol = 0.58118E+04, time = 10.34 | CG iter. 44 -- res = 0.20590E+03, tol = 0.58118E+04, time = 10.84 | CG iter. 45 -- res = 0.18183E+03, tol = 0.58118E+04, time = 10.61 | CG iter. 46 -- res = 0.16286E+03, tol = 0.58118E+04, time = 11.07 | CG iter. 47 -- res = 0.14080E+03, tol = 0.58118E+04, time = 10.74 | CG iter. 48 -- res = 0.11334E+03, tol = 0.58118E+04, time = 10.41 | CG iter. 49 -- res = 0.89455E+02, tol = 0.58118E+04, time = 20.84 | CG iter. 50 -- res = 0.71222E+02, tol = 0.58118E+04, time = 10.67 | CG iter. 51 -- res = 0.60262E+02, tol = 0.58118E+04, time = 10.79 | CG iter. 52 -- res = 0.53540E+02, tol = 0.58118E+04, time = 10.77 | CG iter. 53 -- res = 0.49252E+02, tol = 0.58118E+04, time = 10.40 | CG iter. 54 -- res = 0.45492E+02, tol = 0.58118E+04, time = 11.00 | CG iter. 55 -- res = 0.41812E+02, tol = 0.58118E+04, time = 10.70 | CG iter. 56 -- res = 0.38164E+02, tol = 0.58118E+04, time = 10.19 | CG iter. 57 -- res = 0.34004E+02, tol = 0.58118E+04, time = 12.19 | CG iter. 58 -- res = 0.30235E+02, tol = 0.58118E+04, time = 11.13 | CG iter. 59 -- res = 0.27806E+02, tol = 0.58118E+04, time = 10.92 | CG iter. 60 -- res = 0.25865E+02, tol = 0.58118E+04, time = 10.61 | Final CG iter 61 -- res = 0.25865E+02, tol = 0.58118E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.585 ( -230.020 -2228.756 2510.823 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11470185.848 | Old band monopole 8622866.593 | Change to band monopole 2847319.255 | Change to component monopole -2847307.008 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.586 2.725 | New value 2.528 | Old value -1.586 | Difference 4.114 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.862 ( 7.914 8.250 -7.065 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.833 5.076 | New value 7.782 | Old value 7.833 | Difference -0.051 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.93100E+06, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.38571E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.16807E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.18142E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.17501E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11470136.512 | (Sampled value in CG: 11453749.209 ) | Chain = 1 -- chisq = 0.81522964E+09 | Chain = 1 -- wall time = 6060.839 sec Available RAM: MemAvailable: 372946208 kB Available Swap: SwapFree: 1130529296 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 205 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444171 | --> Sampling calibration, mode = relcal | relcal = 1.3428582E-02 7.4639462E-04 -1.5936788E-03 -1.2581298E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1084283 0.1234416 97050560.5833245 | BP delta = 0.1052723 0.1202856 97050560.1150908 | BP chisq diff = -0.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632396 | --> Sampling calibration, mode = relcal | relcal = -2.8208173E-03 -7.0286222E-04 1.6782893E-03 1.6146926E-03 -4.0971427E-04 6.4041192E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5716875 15220283.0525075 | BP delta = 0.0000000E+00 -0.5678503 15220283.4207836 | BP chisq diff = 0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17791266402866 | --> Sampling calibration, mode = relcal | relcal = -7.3844783E-02 -5.7629060E-02 9.0575144E-02 4.0898696E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.7306161E-04 2.8294122E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.5767E-04 | 2: delta_r/delta_0: 1.8300E-05 | 3: delta_s/delta_0: 2.7198E-07 | 4: delta_r/delta_0: 3.9851E-08 | 5: delta_s/delta_0: 2.7217E-07 | 6: delta_r/delta_0: 4.4421E-08 | 7: delta_s/delta_0: 9.1620E-10 | 8: delta_r/delta_0: 3.8156E-10 | 9: delta_s/delta_0: 3.6685E-10 | 10: delta_r/delta_0: 2.5092E-10 | 11: delta_s/delta_0: 4.9509E-10 | 12: delta_r/delta_0: 1.8687E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 3.066880598339455E-003 2.748403570230536E-005 | BP delta = 4.1831948E-02 5.8799855E-02 50482064.1656696 | BP delta = 3.9056826E-02 5.6024730E-02 50482061.6821523 | BP chisq diff = -2.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02576355 | --> Sampling calibration, mode = relcal | relcal = -0.1066879 -9.5485345E-02 0.1448926 5.7280619E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2293752E-03 1.4384238E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8961E-05 | 2: delta_r/delta_0: 1.6535E-06 | 3: delta_s/delta_0: 2.2830E-07 | 4: delta_r/delta_0: 4.8030E-08 | 5: delta_s/delta_0: 2.5560E-08 | 6: delta_r/delta_0: 6.8723E-09 | 7: delta_s/delta_0: 7.6810E-09 | 8: delta_r/delta_0: 1.2415E-09 | 9: delta_s/delta_0: 1.0560E-09 | 10: delta_r/delta_0: 2.5663E-10 | 11: delta_s/delta_0: 1.8649E-09 | 12: delta_r/delta_0: 2.3944E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.028960132303913E-002 2.811464852919505E-005 | BP delta = -0.2581138 -0.2353130 57387873.1616296 | BP delta = -0.2504721 -0.2276713 57387873.7605147 | BP chisq diff = 0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81217551 | --> Sampling calibration, mode = relcal | relcal = 0.2955909 0.2248054 -0.2838231 -0.2365732 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7210627E-04 4.7412589E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6486E-01 | 2: delta_r/delta_0: 1.0935E-02 | 3: delta_s/delta_0: 5.5413E-03 | 4: delta_r/delta_0: 2.0864E-04 | 5: delta_s/delta_0: 7.8784E-06 | 6: delta_r/delta_0: 3.5798E-06 | 7: delta_s/delta_0: 8.7131E-06 | 8: delta_r/delta_0: 1.5305E-06 | 9: delta_s/delta_0: 4.3219E-06 | 10: delta_r/delta_0: 5.1163E-07 | 11: delta_s/delta_0: 2.7736E-08 | 12: delta_r/delta_0: 4.6232E-09 | 13: delta_s/delta_0: 1.9748E-07 | 14: delta_r/delta_0: 2.8664E-08 | 15: delta_s/delta_0: 1.6373E-09 | 16: delta_r/delta_0: 9.2888E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.104106317858710 4.022127276090577E-005 | BP delta = -0.1280516 -0.1568605 72489519.4072766 | BP delta = -0.1560757 -0.1848846 72489519.4971390 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95909001 | --> Sampling calibration, mode = relcal | relcal = 0.1064303 0.1394729 -0.1101201 -0.1357831 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5775248E-03 1.2892357E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6901E-04 | 2: delta_r/delta_0: 4.5386E-06 | 3: delta_s/delta_0: 3.4635E-06 | 4: delta_r/delta_0: 6.7811E-07 | 5: delta_s/delta_0: 1.9208E-07 | 6: delta_r/delta_0: 1.1440E-07 | 7: delta_s/delta_0: 4.4118E-07 | 8: delta_r/delta_0: 2.4660E-08 | 9: delta_s/delta_0: 4.4314E-08 | 10: delta_r/delta_0: 3.1092E-08 | 11: delta_s/delta_0: 1.5136E-09 | 12: delta_r/delta_0: 1.0342E-09 | 13: delta_s/delta_0: 5.4062E-10 | 14: delta_r/delta_0: 2.7413E-10 | 15: delta_s/delta_0: 8.4805E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.909100466002800E-002 3.697362117044492E-005 | BP delta = 0.1035706 0.2033052 72783294.1597332 | BP delta = 6.9743752E-02 0.1694784 72783295.9301253 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167840 | New value = -3.194392 | poltype: 2 pol: 1 CPU time specind = 6.4501762E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154806 | New value = -3.203128 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160315 | New value = -3.115989 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.043519 | New value = -3.183508 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129214 | New value = -3.146247 | poltype: 2 pol: 2 CPU time specind = 4.7998428E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.13545E+08, tol = 0.60890E+01, time = 5.19 | CG iter. 2 -- res = 0.35213E+06, tol = 0.60890E+01, time = 11.52 | CG iter. 3 -- res = 0.51406E+05, tol = 0.60890E+01, time = 5.11 | CG iter. 4 -- res = 0.25212E+05, tol = 0.60890E+01, time = 4.81 | CG iter. 5 -- res = 0.14849E+05, tol = 0.60890E+01, time = 5.17 | CG iter. 6 -- res = 0.10936E+05, tol = 0.60890E+01, time = 5.19 | CG iter. 7 -- res = 0.10577E+05, tol = 0.60890E+01, time = 4.75 | CG iter. 8 -- res = 0.10367E+05, tol = 0.60890E+01, time = 5.25 | CG iter. 9 -- res = 0.10848E+05, tol = 0.60890E+01, time = 5.29 | CG iter. 10 -- res = 0.11391E+05, tol = 0.60890E+01, time = 5.10 | CG iter. 11 -- res = 0.89344E+04, tol = 0.60890E+01, time = 5.19 | CG iter. 12 -- res = 0.58054E+04, tol = 0.60890E+01, time = 5.23 | CG iter. 13 -- res = 0.39919E+04, tol = 0.60890E+01, time = 5.15 | CG iter. 14 -- res = 0.31419E+04, tol = 0.60890E+01, time = 5.13 | CG iter. 15 -- res = 0.28402E+04, tol = 0.60890E+01, time = 5.31 | CG iter. 16 -- res = 0.24690E+04, tol = 0.60890E+01, time = 5.19 | CG iter. 17 -- res = 0.18809E+04, tol = 0.60890E+01, time = 5.10 | CG iter. 18 -- res = 0.15240E+04, tol = 0.60890E+01, time = 5.33 | CG iter. 19 -- res = 0.13209E+04, tol = 0.60890E+01, time = 6.19 | CG iter. 20 -- res = 0.10683E+04, tol = 0.60890E+01, time = 5.54 | CG iter. 21 -- res = 0.81632E+03, tol = 0.60890E+01, time = 5.43 | CG iter. 22 -- res = 0.63198E+03, tol = 0.60890E+01, time = 5.11 | CG iter. 23 -- res = 0.56802E+03, tol = 0.60890E+01, time = 5.23 | CG iter. 24 -- res = 0.51837E+03, tol = 0.60890E+01, time = 4.97 | CG iter. 25 -- res = 0.43103E+03, tol = 0.60890E+01, time = 5.14 | CG iter. 26 -- res = 0.35072E+03, tol = 0.60890E+01, time = 5.50 | CG iter. 27 -- res = 0.30188E+03, tol = 0.60890E+01, time = 5.19 | CG iter. 28 -- res = 0.28394E+03, tol = 0.60890E+01, time = 5.31 | CG iter. 29 -- res = 0.25608E+03, tol = 0.60890E+01, time = 5.26 | CG iter. 30 -- res = 0.21316E+03, tol = 0.60890E+01, time = 5.25 | CG iter. 31 -- res = 0.18877E+03, tol = 0.60890E+01, time = 5.12 | CG iter. 32 -- res = 0.17154E+03, tol = 0.60890E+01, time = 5.35 | CG iter. 33 -- res = 0.15042E+03, tol = 0.60890E+01, time = 4.94 | CG iter. 34 -- res = 0.11712E+03, tol = 0.60890E+01, time = 5.19 | CG iter. 35 -- res = 0.95614E+02, tol = 0.60890E+01, time = 5.35 | CG iter. 36 -- res = 0.84071E+02, tol = 0.60890E+01, time = 5.33 | CG iter. 37 -- res = 0.73105E+02, tol = 0.60890E+01, time = 5.03 | CG iter. 38 -- res = 0.58047E+02, tol = 0.60890E+01, time = 5.36 | CG iter. 39 -- res = 0.45069E+02, tol = 0.60890E+01, time = 5.97 | CG iter. 40 -- res = 0.37132E+02, tol = 0.60890E+01, time = 5.24 | CG iter. 41 -- res = 0.31498E+02, tol = 0.60890E+01, time = 5.36 | CG iter. 42 -- res = 0.24687E+02, tol = 0.60890E+01, time = 4.99 | CG iter. 43 -- res = 0.19385E+02, tol = 0.60890E+01, time = 5.01 | CG iter. 44 -- res = 0.15292E+02, tol = 0.60890E+01, time = 5.15 | CG iter. 45 -- res = 0.12816E+02, tol = 0.60890E+01, time = 5.00 | CG iter. 46 -- res = 0.10434E+02, tol = 0.60890E+01, time = 5.27 | CG iter. 47 -- res = 0.78994E+01, tol = 0.60890E+01, time = 5.20 | CG iter. 48 -- res = 0.63690E+01, tol = 0.60890E+01, time = 5.28 | CG iter. 49 -- res = 0.51716E+01, tol = 0.60890E+01, time = 5.15 | CG iter. 50 -- res = 0.42492E+01, tol = 0.60890E+01, time = 5.44 | Final CG iter 51 -- res = 0.42492E+01, tol = 0.60890E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9613100.420 | Old band monopole 11470185.848 | Change to band monopole -1857085.428 | Change to component monopole 1857077.440 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.24530E+04, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.13570E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.31391E+00, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.52815E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.35215E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9613059.072 | (Sampled value in CG: 9596560.846 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499234 | New value = 1.509477 | poltype: 2 pol: 1 CPU time specind = 7.3142052E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509523 | New value = 1.530292 | poltype: 2 pol: 2 CPU time specind = 3.3249855E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.24045E+08, tol = 0.47615E+04, time = 5.96 | CG iter. 2 -- res = 0.53654E+07, tol = 0.47615E+04, time = 5.81 | CG iter. 3 -- res = 0.86220E+06, tol = 0.47615E+04, time = 6.02 | CG iter. 4 -- res = 0.36249E+06, tol = 0.47615E+04, time = 7.32 | CG iter. 5 -- res = 0.15395E+06, tol = 0.47615E+04, time = 6.59 | CG iter. 6 -- res = 0.80863E+05, tol = 0.47615E+04, time = 5.92 | CG iter. 7 -- res = 0.44569E+05, tol = 0.47615E+04, time = 5.99 | CG iter. 8 -- res = 0.21595E+05, tol = 0.47615E+04, time = 6.15 | CG iter. 9 -- res = 0.94259E+04, tol = 0.47615E+04, time = 5.88 | CG iter. 10 -- res = 0.38913E+04, tol = 0.47615E+04, time = 5.76 | CG iter. 11 -- res = 0.17262E+04, tol = 0.47615E+04, time = 5.97 | CG iter. 12 -- res = 0.89239E+03, tol = 0.47615E+04, time = 5.68 | CG iter. 13 -- res = 0.50740E+03, tol = 0.47615E+04, time = 6.13 | CG iter. 14 -- res = 0.29099E+03, tol = 0.47615E+04, time = 5.79 | CG iter. 15 -- res = 0.14907E+03, tol = 0.47615E+04, time = 6.01 | CG iter. 16 -- res = 0.70163E+02, tol = 0.47615E+04, time = 5.80 | CG iter. 17 -- res = 0.33432E+02, tol = 0.47615E+04, time = 5.80 | CG iter. 18 -- res = 0.16825E+02, tol = 0.47615E+04, time = 6.10 | CG iter. 19 -- res = 0.90354E+01, tol = 0.47615E+04, time = 6.33 | CG iter. 20 -- res = 0.52211E+01, tol = 0.47615E+04, time = 5.87 | CG iter. 21 -- res = 0.28654E+01, tol = 0.47615E+04, time = 5.87 | CG iter. 22 -- res = 0.14697E+01, tol = 0.47615E+04, time = 6.33 | CG iter. 23 -- res = 0.71162E+00, tol = 0.47615E+04, time = 5.77 | CG iter. 24 -- res = 0.35688E+00, tol = 0.47615E+04, time = 6.06 | CG iter. 25 -- res = 0.19265E+00, tol = 0.47615E+04, time = 6.24 | CG iter. 26 -- res = 0.11069E+00, tol = 0.47615E+04, time = 5.71 | CG iter. 27 -- res = 0.63937E-01, tol = 0.47615E+04, time = 6.18 | CG iter. 28 -- res = 0.34320E-01, tol = 0.47615E+04, time = 5.95 | CG iter. 29 -- res = 0.17851E-01, tol = 0.47615E+04, time = 5.87 | CG iter. 30 -- res = 0.91558E-02, tol = 0.47615E+04, time = 6.17 | CG iter. 31 -- res = 0.49092E-02, tol = 0.47615E+04, time = 6.01 | CG iter. 32 -- res = 0.27450E-02, tol = 0.47615E+04, time = 5.84 | CG iter. 33 -- res = 0.15794E-02, tol = 0.47615E+04, time = 5.93 | CG iter. 34 -- res = 0.87451E-03, tol = 0.47615E+04, time = 5.51 | CG iter. 35 -- res = 0.45952E-03, tol = 0.47615E+04, time = 5.92 | Final CG iter 36 -- res = 0.45952E-03, tol = 0.47615E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.574 2.758 | New value 1.996 | Old value 2.574 | Difference -0.578 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.17874E+05, tol = 0.47627E+18, time = 1.59 | CG iter. 2 -- res = 0.20578E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.19719E+00, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.85235E-04, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.18073E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9613059.072 | (Sampled value in CG: 9599191.355 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.799331 | New value = -3.545342 | poltype: 1 pol: 1 CPU time specind = 6.5619946E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.22050E+07, tol = 0.21660E+01, time = 2.43 | CG iter. 2 -- res = 0.88215E+06, tol = 0.21660E+01, time = 2.41 | CG iter. 3 -- res = 0.16743E+06, tol = 0.21660E+01, time = 2.46 | CG iter. 4 -- res = 0.63316E+05, tol = 0.21660E+01, time = 2.48 | CG iter. 5 -- res = 0.35509E+05, tol = 0.21660E+01, time = 2.32 | CG iter. 6 -- res = 0.19471E+05, tol = 0.21660E+01, time = 2.71 | CG iter. 7 -- res = 0.82143E+04, tol = 0.21660E+01, time = 2.68 | CG iter. 8 -- res = 0.38959E+04, tol = 0.21660E+01, time = 2.32 | CG iter. 9 -- res = 0.17209E+04, tol = 0.21660E+01, time = 2.52 | CG iter. 10 -- res = 0.65978E+03, tol = 0.21660E+01, time = 2.32 | CG iter. 11 -- res = 0.27246E+03, tol = 0.21660E+01, time = 2.51 | CG iter. 12 -- res = 0.12804E+03, tol = 0.21660E+01, time = 2.36 | CG iter. 13 -- res = 0.65276E+02, tol = 0.21660E+01, time = 2.31 | CG iter. 14 -- res = 0.33772E+02, tol = 0.21660E+01, time = 2.64 | CG iter. 15 -- res = 0.15472E+02, tol = 0.21660E+01, time = 2.24 | CG iter. 16 -- res = 0.67326E+01, tol = 0.21660E+01, time = 2.55 | CG iter. 17 -- res = 0.28380E+01, tol = 0.21660E+01, time = 2.39 | CG iter. 18 -- res = 0.13498E+01, tol = 0.21660E+01, time = 2.37 | CG iter. 19 -- res = 0.62901E+00, tol = 0.21660E+01, time = 2.46 | CG iter. 20 -- res = 0.33638E+00, tol = 0.21660E+01, time = 2.54 | CG iter. 21 -- res = 0.17770E+00, tol = 0.21660E+01, time = 2.68 | CG iter. 22 -- res = 0.83121E-01, tol = 0.21660E+01, time = 2.49 | CG iter. 23 -- res = 0.35922E-01, tol = 0.21660E+01, time = 2.31 | CG iter. 24 -- res = 0.16414E-01, tol = 0.21660E+01, time = 3.72 | CG iter. 25 -- res = 0.79513E-02, tol = 0.21660E+01, time = 7.51 | CG iter. 26 -- res = 0.40759E-02, tol = 0.21660E+01, time = 2.44 | CG iter. 27 -- res = 0.20702E-02, tol = 0.21660E+01, time = 2.30 | CG iter. 28 -- res = 0.10490E-02, tol = 0.21660E+01, time = 2.27 | CG iter. 29 -- res = 0.47953E-03, tol = 0.21660E+01, time = 2.68 | CG iter. 30 -- res = 0.21482E-03, tol = 0.21660E+01, time = 2.54 | CG iter. 31 -- res = 0.10545E-03, tol = 0.21660E+01, time = 2.37 | CG iter. 32 -- res = 0.53341E-04, tol = 0.21660E+01, time = 2.41 | CG iter. 33 -- res = 0.26487E-04, tol = 0.21660E+01, time = 2.64 | CG iter. 34 -- res = 0.13165E-04, tol = 0.21660E+01, time = 2.38 | CG iter. 35 -- res = 0.65060E-05, tol = 0.21660E+01, time = 2.53 | CG iter. 36 -- res = 0.31622E-05, tol = 0.21660E+01, time = 2.24 | CG iter. 37 -- res = 0.14621E-05, tol = 0.21660E+01, time = 2.52 | CG iter. 38 -- res = 0.71168E-06, tol = 0.21660E+01, time = 2.56 | CG iter. 39 -- res = 0.34720E-06, tol = 0.21660E+01, time = 2.25 | CG iter. 40 -- res = 0.17714E-06, tol = 0.21660E+01, time = 2.21 | CG iter. 41 -- res = 0.86217E-07, tol = 0.21660E+01, time = 2.43 | CG iter. 42 -- res = 0.40355E-07, tol = 0.21660E+01, time = 2.54 | CG iter. 43 -- res = 0.18252E-07, tol = 0.21660E+01, time = 2.37 | CG iter. 44 -- res = 0.85678E-08, tol = 0.21660E+01, time = 2.48 | CG iter. 45 -- res = 0.42130E-08, tol = 0.21660E+01, time = 2.62 | CG iter. 46 -- res = 0.21339E-08, tol = 0.21660E+01, time = 2.39 | CG iter. 47 -- res = 0.10583E-08, tol = 0.21660E+01, time = 2.50 | CG iter. 48 -- res = 0.48562E-09, tol = 0.21660E+01, time = 2.31 | CG iter. 49 -- res = 0.22283E-09, tol = 0.21660E+01, time = 2.37 | CG iter. 50 -- res = 0.10327E-09, tol = 0.21660E+01, time = 2.44 | Final CG iter 51 -- res = 0.10327E-09, tol = 0.21660E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.368 5.092 | New value 1.424 | Old value 6.368 | Difference -4.945 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.25268E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.27237E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.87678E+00, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.89466E-03, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.74970E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9613059.072 | (Sampled value in CG: 9601785.856 ) | CPU time specind = 1079.171 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.68570E+08, tol = 0.57640E+04, time = 10.99 | CG iter. 2 -- res = 0.58464E+08, tol = 0.57640E+04, time = 10.58 | CG iter. 3 -- res = 0.15137E+08, tol = 0.57640E+04, time = 10.51 | CG iter. 4 -- res = 0.65337E+07, tol = 0.57640E+04, time = 10.62 | CG iter. 5 -- res = 0.38376E+07, tol = 0.57640E+04, time = 10.74 | CG iter. 6 -- res = 0.22421E+07, tol = 0.57640E+04, time = 10.79 | CG iter. 7 -- res = 0.13340E+07, tol = 0.57640E+04, time = 10.37 | CG iter. 8 -- res = 0.87256E+06, tol = 0.57640E+04, time = 10.72 | CG iter. 9 -- res = 0.55646E+06, tol = 0.57640E+04, time = 10.57 | CG iter. 10 -- res = 0.33143E+06, tol = 0.57640E+04, time = 10.68 | CG iter. 11 -- res = 0.18073E+06, tol = 0.57640E+04, time = 10.89 | CG iter. 12 -- res = 0.96965E+05, tol = 0.57640E+04, time = 11.32 | CG iter. 13 -- res = 0.51124E+05, tol = 0.57640E+04, time = 10.69 | CG iter. 14 -- res = 0.29808E+05, tol = 0.57640E+04, time = 17.74 | CG iter. 15 -- res = 0.20095E+05, tol = 0.57640E+04, time = 10.77 | CG iter. 16 -- res = 0.14797E+05, tol = 0.57640E+04, time = 11.22 | CG iter. 17 -- res = 0.11273E+05, tol = 0.57640E+04, time = 10.58 | CG iter. 18 -- res = 0.85619E+04, tol = 0.57640E+04, time = 10.63 | CG iter. 19 -- res = 0.62351E+04, tol = 0.57640E+04, time = 10.73 | CG iter. 20 -- res = 0.47729E+04, tol = 0.57640E+04, time = 10.69 | CG iter. 21 -- res = 0.40755E+04, tol = 0.57640E+04, time = 10.45 | CG iter. 22 -- res = 0.40555E+04, tol = 0.57640E+04, time = 12.05 | CG iter. 23 -- res = 0.44440E+04, tol = 0.57640E+04, time = 11.30 | CG iter. 24 -- res = 0.50538E+04, tol = 0.57640E+04, time = 10.69 | CG iter. 25 -- res = 0.53790E+04, tol = 0.57640E+04, time = 10.48 | CG iter. 26 -- res = 0.52015E+04, tol = 0.57640E+04, time = 10.80 | CG iter. 27 -- res = 0.46040E+04, tol = 0.57640E+04, time = 10.57 | CG iter. 28 -- res = 0.38417E+04, tol = 0.57640E+04, time = 11.04 | CG iter. 29 -- res = 0.31893E+04, tol = 0.57640E+04, time = 10.47 | CG iter. 30 -- res = 0.26709E+04, tol = 0.57640E+04, time = 10.59 | CG iter. 31 -- res = 0.22754E+04, tol = 0.57640E+04, time = 10.65 | CG iter. 32 -- res = 0.18700E+04, tol = 0.57640E+04, time = 11.23 | CG iter. 33 -- res = 0.14677E+04, tol = 0.57640E+04, time = 11.00 | CG iter. 34 -- res = 0.10902E+04, tol = 0.57640E+04, time = 11.04 | CG iter. 35 -- res = 0.84104E+03, tol = 0.57640E+04, time = 10.74 | CG iter. 36 -- res = 0.69255E+03, tol = 0.57640E+04, time = 10.55 | CG iter. 37 -- res = 0.62709E+03, tol = 0.57640E+04, time = 10.75 | CG iter. 38 -- res = 0.60354E+03, tol = 0.57640E+04, time = 11.02 | CG iter. 39 -- res = 0.58533E+03, tol = 0.57640E+04, time = 10.53 | CG iter. 40 -- res = 0.54807E+03, tol = 0.57640E+04, time = 10.64 | CG iter. 41 -- res = 0.48245E+03, tol = 0.57640E+04, time = 17.20 | CG iter. 42 -- res = 0.41118E+03, tol = 0.57640E+04, time = 10.72 | CG iter. 43 -- res = 0.36046E+03, tol = 0.57640E+04, time = 10.46 | CG iter. 44 -- res = 0.32552E+03, tol = 0.57640E+04, time = 10.88 | CG iter. 45 -- res = 0.29854E+03, tol = 0.57640E+04, time = 10.67 | CG iter. 46 -- res = 0.26717E+03, tol = 0.57640E+04, time = 10.61 | CG iter. 47 -- res = 0.23152E+03, tol = 0.57640E+04, time = 11.31 | CG iter. 48 -- res = 0.18819E+03, tol = 0.57640E+04, time = 10.74 | CG iter. 49 -- res = 0.15147E+03, tol = 0.57640E+04, time = 11.30 | CG iter. 50 -- res = 0.13040E+03, tol = 0.57640E+04, time = 11.93 | CG iter. 51 -- res = 0.11577E+03, tol = 0.57640E+04, time = 10.88 | CG iter. 52 -- res = 0.10551E+03, tol = 0.57640E+04, time = 10.91 | CG iter. 53 -- res = 0.10182E+03, tol = 0.57640E+04, time = 10.98 | CG iter. 54 -- res = 0.96205E+02, tol = 0.57640E+04, time = 10.94 | CG iter. 55 -- res = 0.87061E+02, tol = 0.57640E+04, time = 10.48 | CG iter. 56 -- res = 0.77053E+02, tol = 0.57640E+04, time = 10.77 | CG iter. 57 -- res = 0.69150E+02, tol = 0.57640E+04, time = 10.81 | CG iter. 58 -- res = 0.63677E+02, tol = 0.57640E+04, time = 10.67 | CG iter. 59 -- res = 0.60992E+02, tol = 0.57640E+04, time = 10.54 | CG iter. 60 -- res = 0.57949E+02, tol = 0.57640E+04, time = 10.73 | Final CG iter 61 -- res = 0.57949E+02, tol = 0.57640E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.899 ( -230.054 -2230.626 2513.110 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10794042.944 | Old band monopole 9613100.420 | Change to band monopole 1180942.524 | Change to component monopole -1180937.445 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.969 2.729 | New value -1.227 | Old value 1.969 | Difference -3.196 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.281 ( 7.854 12.786 -12.247 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.601 4.695 | New value -1.275 | Old value 4.601 | Difference -5.876 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.55901E+06, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.40294E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.15961E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.37963E-02, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.41516E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10793996.516 | (Sampled value in CG: 10771219.863 ) | Chain = 1 -- chisq = 0.81547135E+09 | Chain = 1 -- wall time = 5479.786 sec Available RAM: MemAvailable: 373551468 kB Available Swap: SwapFree: 1130902756 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 206 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441608 | --> Sampling calibration, mode = relcal | relcal = 1.3434345E-02 7.4150081E-04 -1.5951032E-03 -1.2580743E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1052723 0.1202856 9407163.15396538 | BP delta = 0.1052723 0.1196086 9407199.75905173 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632595 | --> Sampling calibration, mode = relcal | relcal = -2.8222529E-03 -7.0385169E-04 1.6799453E-03 1.6144511E-03 -4.0881152E-04 6.4051978E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5678503 15217933.1325843 | BP delta = 0.0000000E+00 -0.5693995 15217936.1681357 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103432 | --> Sampling calibration, mode = relcal | relcal = 3.7084188E-02 1.3725161E-02 5.7595912E-03 -7.1698418E-03 8.2494318E-03 2.3951984E-03 -7.6005417E-03 -7.1791885E-03 -1.5305786E-02 -1.4804834E-02 -3.0537497E-03 -1.2099627E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.204168 132208149.633777 | BP delta = 0.0000000E+00 -1.226980 132208146.719851 | BP chisq diff = -2.9, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17739098080301 | --> Sampling calibration, mode = relcal | relcal = -7.4763067E-02 -5.8062326E-02 9.1411486E-02 4.1413907E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0616841E-04 3.7994192E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2014E-05 | 2: delta_r/delta_0: 1.0225E-06 | 3: delta_s/delta_0: 2.3569E-07 | 4: delta_r/delta_0: 1.3237E-08 | 5: delta_s/delta_0: 5.6358E-09 | 6: delta_r/delta_0: 1.4488E-09 | 7: delta_s/delta_0: 1.9567E-09 | 8: delta_r/delta_0: 6.5683E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.012156432754773E-003 2.749480791126137E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2017E-05 | 2: delta_r/delta_0: 1.0225E-06 | 3: delta_s/delta_0: 2.3568E-07 | 4: delta_r/delta_0: 1.3237E-08 | 5: delta_s/delta_0: 5.6353E-09 | 6: delta_r/delta_0: 1.4485E-09 | 7: delta_s/delta_0: 1.9564E-09 | 8: delta_r/delta_0: 6.5678E-11 | Reached bicg-stab tolerance | BP delta = 3.9056826E-02 5.6024730E-02 3626397.70406992 | BP delta = 3.9056826E-02 5.5795807E-02 3628499.21920865 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599066 | --> Sampling calibration, mode = relcal | relcal = -0.1066983 -9.5529534E-02 0.1449696 5.7258241E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2024411E-03 1.3903155E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3145E-04 | 2: delta_r/delta_0: 2.8357E-06 | 3: delta_s/delta_0: 2.0733E-07 | 4: delta_r/delta_0: 4.8184E-08 | 5: delta_s/delta_0: 4.2300E-08 | 6: delta_r/delta_0: 8.8734E-09 | 7: delta_s/delta_0: 7.7050E-09 | 8: delta_r/delta_0: 2.1183E-09 | 9: delta_s/delta_0: 9.0850E-10 | 10: delta_r/delta_0: 6.7713E-10 | 11: delta_s/delta_0: 1.4457E-08 | 12: delta_r/delta_0: 2.9880E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.059530579220874E-002 2.810854300871685E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3145E-04 | 2: delta_r/delta_0: 2.8358E-06 | 3: delta_s/delta_0: 2.0734E-07 | 4: delta_r/delta_0: 4.8198E-08 | 5: delta_s/delta_0: 4.2277E-08 | 6: delta_r/delta_0: 8.8735E-09 | 7: delta_s/delta_0: 7.7029E-09 | 8: delta_r/delta_0: 2.1186E-09 | 9: delta_s/delta_0: 9.0868E-10 | 10: delta_r/delta_0: 6.7725E-10 | 11: delta_s/delta_0: 1.4507E-08 | 12: delta_r/delta_0: 3.0120E-11 | Reached bicg-stab tolerance | BP delta = -0.2504721 -0.2276713 2841418.23587672 | BP delta = -0.2504721 -0.2271016 2841427.79673110 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81250073 | --> Sampling calibration, mode = relcal | relcal = 0.2955921 0.2249464 -0.2839194 -0.2366191 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0778096E-04 5.6287027E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6368E-03 | 2: delta_r/delta_0: 6.1036E-05 | 3: delta_s/delta_0: 1.2118E-05 | 4: delta_r/delta_0: 1.0931E-06 | 5: delta_s/delta_0: 1.1158E-06 | 6: delta_r/delta_0: 5.8401E-08 | 7: delta_s/delta_0: 3.8970E-08 | 8: delta_r/delta_0: 1.4793E-08 | 9: delta_s/delta_0: 1.1624E-06 | 10: delta_r/delta_0: 8.2272E-08 | 11: delta_s/delta_0: 1.6325E-09 | 12: delta_r/delta_0: 8.2519E-10 | 13: delta_s/delta_0: 4.9879E-10 | 14: delta_r/delta_0: 8.6982E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.117681531228519E-002 4.020457954010573E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6371E-03 | 2: delta_r/delta_0: 6.1043E-05 | 3: delta_s/delta_0: 1.2119E-05 | 4: delta_r/delta_0: 1.0931E-06 | 5: delta_s/delta_0: 1.1160E-06 | 6: delta_r/delta_0: 5.8411E-08 | 7: delta_s/delta_0: 3.8969E-08 | 8: delta_r/delta_0: 1.4790E-08 | 9: delta_s/delta_0: 1.1600E-06 | 10: delta_r/delta_0: 8.2136E-08 | 11: delta_s/delta_0: 1.6331E-09 | 12: delta_r/delta_0: 8.2539E-10 | 13: delta_s/delta_0: 4.9890E-10 | 14: delta_r/delta_0: 8.6979E-11 | Reached bicg-stab tolerance | BP delta = -0.1560757 -0.1848846 2827660.17045200 | BP delta = -0.1560757 -0.1843527 2827667.50718074 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95944428 | --> Sampling calibration, mode = relcal | relcal = 0.1065768 0.1395092 -0.1102394 -0.1358466 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0829728E-02 1.3463253E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.9161E-04 | 2: delta_r/delta_0: 2.1635E-05 | 3: delta_s/delta_0: 6.0668E-02 | 4: delta_r/delta_0: 2.3711E-03 | 5: delta_s/delta_0: 3.5693E-07 | 6: delta_r/delta_0: 1.4734E-07 | 7: delta_s/delta_0: 2.8918E-07 | 8: delta_r/delta_0: 4.3193E-08 | 9: delta_s/delta_0: 1.3244E-08 | 10: delta_r/delta_0: 4.3549E-09 | 11: delta_s/delta_0: 1.0589E-08 | 12: delta_r/delta_0: 6.5762E-09 | 13: delta_s/delta_0: 2.5606E-10 | 14: delta_r/delta_0: 2.0436E-10 | 15: delta_s/delta_0: 2.4048E-09 | 16: delta_r/delta_0: 2.1762E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.443358615873166E-002 3.696118697051276E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.9190E-04 | 2: delta_r/delta_0: 2.1642E-05 | 3: delta_s/delta_0: 6.0233E-02 | 4: delta_r/delta_0: 2.3540E-03 | 5: delta_s/delta_0: 3.5699E-07 | 6: delta_r/delta_0: 1.4735E-07 | 7: delta_s/delta_0: 2.8909E-07 | 8: delta_r/delta_0: 4.3195E-08 | 9: delta_s/delta_0: 1.3238E-08 | 10: delta_r/delta_0: 4.3601E-09 | 11: delta_s/delta_0: 1.1023E-08 | 12: delta_r/delta_0: 6.7916E-09 | 13: delta_s/delta_0: 2.5713E-10 | 14: delta_r/delta_0: 2.0516E-10 | 15: delta_s/delta_0: 1.5231E-09 | 16: delta_r/delta_0: 2.7943E-11 | Reached bicg-stab tolerance | BP delta = 0.1035706 0.2033052 3004105.16884943 | BP delta = 0.1035706 0.2090386 3004167.43695099 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52178656 | --> Sampling calibration, mode = relcal | relcal = -5.1066674E-02 -3.7320363E-03 2.7340936E-02 2.7457777E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.9993433E-04 2.5926798E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7394E-05 | 2: delta_r/delta_0: 4.2347E-06 | 3: delta_s/delta_0: 2.8526E-06 | 4: delta_r/delta_0: 4.1356E-07 | 5: delta_s/delta_0: 5.3883E-08 | 6: delta_r/delta_0: 2.6605E-08 | 7: delta_s/delta_0: 6.2969E-04 | 8: delta_r/delta_0: 4.4825E-05 | 9: delta_s/delta_0: 3.3084E-09 | 10: delta_r/delta_0: 1.3701E-09 | 11: delta_s/delta_0: 1.1808E-08 | 12: delta_r/delta_0: 1.1692E-10 | 13: delta_s/delta_0: 8.1084E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.084067512159936E-002 5.481030365237946E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7394E-05 | 2: delta_r/delta_0: 4.2347E-06 | 3: delta_s/delta_0: 2.8526E-06 | 4: delta_r/delta_0: 4.1356E-07 | 5: delta_s/delta_0: 5.3884E-08 | 6: delta_r/delta_0: 2.6605E-08 | 7: delta_s/delta_0: 6.2998E-04 | 8: delta_r/delta_0: 4.4846E-05 | 9: delta_s/delta_0: 3.3084E-09 | 10: delta_r/delta_0: 1.3701E-09 | 11: delta_s/delta_0: 1.1806E-08 | 12: delta_r/delta_0: 1.1691E-10 | 13: delta_s/delta_0: 8.1078E-11 | Reached bicg-stab tolerance | BP delta = 7.8844227E-02 0.1739216 2435698.86265410 | BP delta = 7.8844227E-02 0.1849886 2435698.62166631 | BP chisq diff = -0.2, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42164720 | --> Sampling calibration, mode = relcal | relcal = 4.5664109E-02 3.9652538E-02 -2.8311683E-02 -5.7004966E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8534529E-03 4.7112466E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5580E-05 | 2: delta_r/delta_0: 3.7502E-06 | 3: delta_s/delta_0: 6.1790E-05 | 4: delta_r/delta_0: 4.5756E-06 | 5: delta_s/delta_0: 6.2851E-08 | 6: delta_r/delta_0: 3.7078E-08 | 7: delta_s/delta_0: 2.1057E-08 | 8: delta_r/delta_0: 1.2564E-08 | 9: delta_s/delta_0: 4.2583E-08 | 10: delta_r/delta_0: 5.2153E-10 | 11: delta_s/delta_0: 3.7679E-10 | 12: delta_r/delta_0: 2.9718E-10 | 13: delta_s/delta_0: 3.0424E-10 | 14: delta_r/delta_0: 8.3423E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.544386821606426E-002 4.995002262636641E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5579E-05 | 2: delta_r/delta_0: 3.7503E-06 | 3: delta_s/delta_0: 6.1793E-05 | 4: delta_r/delta_0: 4.5758E-06 | 5: delta_s/delta_0: 6.2851E-08 | 6: delta_r/delta_0: 3.7079E-08 | 7: delta_s/delta_0: 2.1058E-08 | 8: delta_r/delta_0: 1.2564E-08 | 9: delta_s/delta_0: 4.2579E-08 | 10: delta_r/delta_0: 5.2156E-10 | 11: delta_s/delta_0: 3.7677E-10 | 12: delta_r/delta_0: 2.9715E-10 | 13: delta_s/delta_0: 3.0493E-10 | 14: delta_r/delta_0: 8.3360E-11 | Reached bicg-stab tolerance | BP delta = 3.8424391E-02 -5.1568899E-02 2322141.91894792 | BP delta = 3.8424391E-02 -7.2110519E-02 2322142.55666094 | BP chisq diff = 0.6, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28173763 | --> Sampling calibration, mode = relcal | relcal = 2.4181994E-02 4.5173641E-02 -2.3369230E-02 -4.5986403E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1892572E-02 -1.0736785E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0737E-04 | 2: delta_r/delta_0: 8.3025E-06 | 3: delta_s/delta_0: 1.2548E-06 | 4: delta_r/delta_0: 2.5314E-07 | 5: delta_s/delta_0: 6.2095E-08 | 6: delta_r/delta_0: 1.9139E-08 | 7: delta_s/delta_0: 9.0878E-09 | 8: delta_r/delta_0: 5.7964E-09 | 9: delta_s/delta_0: 4.1917E-08 | 10: delta_r/delta_0: 2.4108E-09 | 11: delta_s/delta_0: 3.1605E-09 | 12: delta_r/delta_0: 7.9945E-10 | 13: delta_s/delta_0: 1.8482E-08 | 14: delta_r/delta_0: 8.8486E-10 | 15: delta_s/delta_0: 7.0012E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.967216984332436E-003 7.840451964756951E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0737E-04 | 2: delta_r/delta_0: 8.3025E-06 | 3: delta_s/delta_0: 1.2548E-06 | 4: delta_r/delta_0: 2.5313E-07 | 5: delta_s/delta_0: 6.2094E-08 | 6: delta_r/delta_0: 1.9139E-08 | 7: delta_s/delta_0: 9.0877E-09 | 8: delta_r/delta_0: 5.7963E-09 | 9: delta_s/delta_0: 4.1917E-08 | 10: delta_r/delta_0: 2.4108E-09 | 11: delta_s/delta_0: 3.1604E-09 | 12: delta_r/delta_0: 7.9947E-10 | 13: delta_s/delta_0: 1.8482E-08 | 14: delta_r/delta_0: 8.8481E-10 | 15: delta_s/delta_0: 7.0012E-11 | Reached bicg-stab tolerance | BP delta = -0.1258788 -0.2537619 2489905.41521539 | BP delta = -0.1258788 -0.2467513 2489909.25741990 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29398149 | --> Sampling calibration, mode = relcal | relcal = 5.2462111E-04 1.0286449E-02 -3.8310201E-03 -6.9800508E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3829153E-02 1.4605984E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2942E-04 | 2: delta_r/delta_0: 1.0977E-05 | 3: delta_s/delta_0: 1.7237E-06 | 4: delta_r/delta_0: 2.6998E-07 | 5: delta_s/delta_0: 9.5501E-08 | 6: delta_r/delta_0: 2.2011E-08 | 7: delta_s/delta_0: 1.0242E-08 | 8: delta_r/delta_0: 6.9567E-09 | 9: delta_s/delta_0: 6.5920E-09 | 10: delta_r/delta_0: 4.5477E-09 | 11: delta_s/delta_0: 6.0597E-07 | 12: delta_r/delta_0: 2.7018E-08 | 13: delta_s/delta_0: 1.5170E-10 | 14: delta_r/delta_0: 1.1007E-10 | 15: delta_s/delta_0: 4.4266E-10 | 16: delta_r/delta_0: 1.8740E-10 | 17: delta_s/delta_0: 9.5023E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.029338891076886E-002 8.305006592644532E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2942E-04 | 2: delta_r/delta_0: 1.0977E-05 | 3: delta_s/delta_0: 1.7237E-06 | 4: delta_r/delta_0: 2.6998E-07 | 5: delta_s/delta_0: 9.5503E-08 | 6: delta_r/delta_0: 2.2011E-08 | 7: delta_s/delta_0: 1.0242E-08 | 8: delta_r/delta_0: 6.9567E-09 | 9: delta_s/delta_0: 6.5920E-09 | 10: delta_r/delta_0: 4.5477E-09 | 11: delta_s/delta_0: 6.0579E-07 | 12: delta_r/delta_0: 2.7003E-08 | 13: delta_s/delta_0: 1.5169E-10 | 14: delta_r/delta_0: 1.1008E-10 | 15: delta_s/delta_0: 4.2684E-10 | 16: delta_r/delta_0: 1.8285E-10 | 17: delta_s/delta_0: 9.5008E-11 | Reached bicg-stab tolerance | BP delta = -0.9115900 -0.9032304 2737944.32661630 | BP delta = -0.9115900 -0.8912461 2737942.64269892 | BP chisq diff = -1.7, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26509478 | --> Sampling calibration, mode = relcal | relcal = -5.5237585E-03 1.4999161E-02 -2.3779552E-03 -7.0974478E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.6465566E-04 2.0509718E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4160E-04 | 2: delta_r/delta_0: 1.2161E-05 | 3: delta_s/delta_0: 2.0976E-06 | 4: delta_r/delta_0: 2.5654E-07 | 5: delta_s/delta_0: 9.3511E-08 | 6: delta_r/delta_0: 2.0349E-08 | 7: delta_s/delta_0: 8.1946E-09 | 8: delta_r/delta_0: 5.1850E-09 | 9: delta_s/delta_0: 4.4880E-09 | 10: delta_r/delta_0: 3.1630E-09 | 11: delta_s/delta_0: 1.2426E-05 | 12: delta_r/delta_0: 1.5028E-07 | 13: delta_s/delta_0: 7.6802E-10 | 14: delta_r/delta_0: 5.0851E-10 | 15: delta_s/delta_0: 9.8442E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.473638003153818E-003 9.152716937833675E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4160E-04 | 2: delta_r/delta_0: 1.2161E-05 | 3: delta_s/delta_0: 2.0976E-06 | 4: delta_r/delta_0: 2.5656E-07 | 5: delta_s/delta_0: 9.3498E-08 | 6: delta_r/delta_0: 2.0350E-08 | 7: delta_s/delta_0: 8.1950E-09 | 8: delta_r/delta_0: 5.1853E-09 | 9: delta_s/delta_0: 4.4882E-09 | 10: delta_r/delta_0: 3.1632E-09 | 11: delta_s/delta_0: 1.2441E-05 | 12: delta_r/delta_0: 1.5049E-07 | 13: delta_s/delta_0: 7.6785E-10 | 14: delta_r/delta_0: 5.0836E-10 | 15: delta_s/delta_0: 9.8453E-11 | Reached bicg-stab tolerance | BP delta = 0.3709631 0.4037147 2516408.10262584 | BP delta = 0.3709631 0.3779299 2516408.53053468 | BP chisq diff = 0.4, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25663990 | --> Sampling calibration, mode = relcal | relcal = -3.1738572E-02 -2.5921475E-02 3.6927190E-02 2.0732857E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3662135E-02 1.6137950E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4416E-04 | 2: delta_r/delta_0: 1.2325E-05 | 3: delta_s/delta_0: 1.9750E-06 | 4: delta_r/delta_0: 4.6518E-07 | 5: delta_s/delta_0: 2.0220E-07 | 6: delta_r/delta_0: 3.2563E-08 | 7: delta_s/delta_0: 1.3996E-08 | 8: delta_r/delta_0: 7.9602E-09 | 9: delta_s/delta_0: 1.1390E-08 | 10: delta_r/delta_0: 4.5175E-09 | 11: delta_s/delta_0: 1.5241E-08 | 12: delta_r/delta_0: 8.7989E-10 | 13: delta_s/delta_0: 1.7852E-09 | 14: delta_r/delta_0: 7.2553E-10 | 15: delta_s/delta_0: 1.3888E-10 | 16: delta_r/delta_0: 1.1747E-10 | 17: delta_s/delta_0: 1.0671E-10 | 18: delta_r/delta_0: 8.3727E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.062331291664018E-002 8.672258600701411E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4416E-04 | 2: delta_r/delta_0: 1.2325E-05 | 3: delta_s/delta_0: 1.9750E-06 | 4: delta_r/delta_0: 4.6520E-07 | 5: delta_s/delta_0: 2.0221E-07 | 6: delta_r/delta_0: 3.2564E-08 | 7: delta_s/delta_0: 1.3996E-08 | 8: delta_r/delta_0: 7.9604E-09 | 9: delta_s/delta_0: 1.1391E-08 | 10: delta_r/delta_0: 4.5177E-09 | 11: delta_s/delta_0: 1.5233E-08 | 12: delta_r/delta_0: 8.7895E-10 | 13: delta_s/delta_0: 1.7848E-09 | 14: delta_r/delta_0: 7.2530E-10 | 15: delta_s/delta_0: 1.3888E-10 | 16: delta_r/delta_0: 1.1747E-10 | 17: delta_s/delta_0: 1.0671E-10 | 18: delta_r/delta_0: 8.3720E-11 | Reached bicg-stab tolerance | BP delta = -0.7973871 -0.9304589 2705458.28443930 | BP delta = -0.7973871 -0.9298649 2705473.19246056 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194392 | New value = -3.174166 | poltype: 2 pol: 1 CPU time specind = 2.1382093E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203128 | New value = -3.129079 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115989 | New value = -3.176229 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183508 | New value = -3.126663 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146247 | New value = -3.178550 | poltype: 2 pol: 2 CPU time specind = 2.4441004E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.03 | CG iter. 1 -- res = 0.13554E+08, tol = 0.65472E+01, time = 4.67 | CG iter. 2 -- res = 0.33791E+06, tol = 0.65472E+01, time = 5.13 | CG iter. 3 -- res = 0.45570E+05, tol = 0.65472E+01, time = 4.75 | CG iter. 4 -- res = 0.19869E+05, tol = 0.65472E+01, time = 4.84 | CG iter. 5 -- res = 0.96692E+04, tol = 0.65472E+01, time = 4.86 | CG iter. 6 -- res = 0.51689E+04, tol = 0.65472E+01, time = 4.99 | CG iter. 7 -- res = 0.35400E+04, tol = 0.65472E+01, time = 4.53 | CG iter. 8 -- res = 0.25390E+04, tol = 0.65472E+01, time = 5.05 | CG iter. 9 -- res = 0.21457E+04, tol = 0.65472E+01, time = 11.06 | CG iter. 10 -- res = 0.22347E+04, tol = 0.65472E+01, time = 4.71 | CG iter. 11 -- res = 0.21331E+04, tol = 0.65472E+01, time = 4.73 | CG iter. 12 -- res = 0.16190E+04, tol = 0.65472E+01, time = 4.97 | CG iter. 13 -- res = 0.11330E+04, tol = 0.65472E+01, time = 4.91 | CG iter. 14 -- res = 0.86382E+03, tol = 0.65472E+01, time = 5.02 | CG iter. 15 -- res = 0.71042E+03, tol = 0.65472E+01, time = 4.90 | CG iter. 16 -- res = 0.58547E+03, tol = 0.65472E+01, time = 4.71 | CG iter. 17 -- res = 0.43512E+03, tol = 0.65472E+01, time = 4.71 | CG iter. 18 -- res = 0.33255E+03, tol = 0.65472E+01, time = 4.93 | CG iter. 19 -- res = 0.28739E+03, tol = 0.65472E+01, time = 4.90 | CG iter. 20 -- res = 0.23623E+03, tol = 0.65472E+01, time = 4.95 | CG iter. 21 -- res = 0.17546E+03, tol = 0.65472E+01, time = 4.51 | CG iter. 22 -- res = 0.12634E+03, tol = 0.65472E+01, time = 5.10 | CG iter. 23 -- res = 0.10302E+03, tol = 0.65472E+01, time = 4.70 | CG iter. 24 -- res = 0.89935E+02, tol = 0.65472E+01, time = 4.75 | CG iter. 25 -- res = 0.71532E+02, tol = 0.65472E+01, time = 4.84 | CG iter. 26 -- res = 0.50758E+02, tol = 0.65472E+01, time = 4.79 | CG iter. 27 -- res = 0.40770E+02, tol = 0.65472E+01, time = 6.29 | CG iter. 28 -- res = 0.33571E+02, tol = 0.65472E+01, time = 5.34 | CG iter. 29 -- res = 0.26598E+02, tol = 0.65472E+01, time = 5.04 | CG iter. 30 -- res = 0.20184E+02, tol = 0.65472E+01, time = 4.96 | CG iter. 31 -- res = 0.15579E+02, tol = 0.65472E+01, time = 4.83 | CG iter. 32 -- res = 0.13040E+02, tol = 0.65472E+01, time = 5.24 | CG iter. 33 -- res = 0.11219E+02, tol = 0.65472E+01, time = 4.63 | CG iter. 34 -- res = 0.83326E+01, tol = 0.65472E+01, time = 4.74 | CG iter. 35 -- res = 0.62006E+01, tol = 0.65472E+01, time = 4.90 | CG iter. 36 -- res = 0.51697E+01, tol = 0.65472E+01, time = 5.00 | CG iter. 37 -- res = 0.44844E+01, tol = 0.65472E+01, time = 5.01 | CG iter. 38 -- res = 0.36693E+01, tol = 0.65472E+01, time = 4.91 | CG iter. 39 -- res = 0.28343E+01, tol = 0.65472E+01, time = 4.99 | CG iter. 40 -- res = 0.24172E+01, tol = 0.65472E+01, time = 4.90 | CG iter. 41 -- res = 0.20986E+01, tol = 0.65472E+01, time = 5.01 | CG iter. 42 -- res = 0.17563E+01, tol = 0.65472E+01, time = 4.87 | CG iter. 43 -- res = 0.14296E+01, tol = 0.65472E+01, time = 4.98 | CG iter. 44 -- res = 0.11936E+01, tol = 0.65472E+01, time = 4.94 | CG iter. 45 -- res = 0.10324E+01, tol = 0.65472E+01, time = 4.85 | CG iter. 46 -- res = 0.89528E+00, tol = 0.65472E+01, time = 4.85 | CG iter. 47 -- res = 0.72437E+00, tol = 0.65472E+01, time = 4.87 | CG iter. 48 -- res = 0.58174E+00, tol = 0.65472E+01, time = 4.67 | CG iter. 49 -- res = 0.50253E+00, tol = 0.65472E+01, time = 5.41 | CG iter. 50 -- res = 0.44386E+00, tol = 0.65472E+01, time = 4.96 | Final CG iter 51 -- res = 0.44386E+00, tol = 0.65472E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9437440.570 | Old band monopole 10794042.944 | Change to band monopole -1356602.373 | Change to component monopole 1356596.538 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.68980E+05, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.47004E+02, tol = 0.47627E+18, time = 1.64 | CG iter. 3 -- res = 0.22767E+01, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.12991E-02, tol = 0.47627E+18, time = 1.64 | Final CG iter 5 -- res = 0.56017E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9437399.978 | (Sampled value in CG: 9449604.208 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509477 | New value = 1.498112 | poltype: 2 pol: 1 CPU time specind = 1.4666080E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.530292 | New value = 1.536063 | poltype: 2 pol: 2 CPU time specind = 1.3505936E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.24048E+08, tol = 0.47545E+04, time = 5.72 | CG iter. 2 -- res = 0.54168E+07, tol = 0.47545E+04, time = 5.44 | CG iter. 3 -- res = 0.85662E+06, tol = 0.47545E+04, time = 5.52 | CG iter. 4 -- res = 0.35406E+06, tol = 0.47545E+04, time = 5.67 | CG iter. 5 -- res = 0.15254E+06, tol = 0.47545E+04, time = 5.43 | CG iter. 6 -- res = 0.79357E+05, tol = 0.47545E+04, time = 5.72 | CG iter. 7 -- res = 0.42864E+05, tol = 0.47545E+04, time = 5.60 | CG iter. 8 -- res = 0.20734E+05, tol = 0.47545E+04, time = 5.52 | CG iter. 9 -- res = 0.92664E+04, tol = 0.47545E+04, time = 5.71 | CG iter. 10 -- res = 0.37718E+04, tol = 0.47545E+04, time = 5.64 | CG iter. 11 -- res = 0.17153E+04, tol = 0.47545E+04, time = 5.60 | CG iter. 12 -- res = 0.86365E+03, tol = 0.47545E+04, time = 5.73 | CG iter. 13 -- res = 0.48745E+03, tol = 0.47545E+04, time = 5.45 | CG iter. 14 -- res = 0.28117E+03, tol = 0.47545E+04, time = 6.98 | CG iter. 15 -- res = 0.14468E+03, tol = 0.47545E+04, time = 6.26 | CG iter. 16 -- res = 0.67943E+02, tol = 0.47545E+04, time = 5.90 | CG iter. 17 -- res = 0.31711E+02, tol = 0.47545E+04, time = 5.62 | CG iter. 18 -- res = 0.15975E+02, tol = 0.47545E+04, time = 5.78 | CG iter. 19 -- res = 0.87095E+01, tol = 0.47545E+04, time = 5.61 | CG iter. 20 -- res = 0.49957E+01, tol = 0.47545E+04, time = 5.47 | CG iter. 21 -- res = 0.27645E+01, tol = 0.47545E+04, time = 5.57 | CG iter. 22 -- res = 0.13924E+01, tol = 0.47545E+04, time = 5.79 | CG iter. 23 -- res = 0.68904E+00, tol = 0.47545E+04, time = 5.77 | CG iter. 24 -- res = 0.35561E+00, tol = 0.47545E+04, time = 5.65 | CG iter. 25 -- res = 0.19309E+00, tol = 0.47545E+04, time = 5.63 | CG iter. 26 -- res = 0.10908E+00, tol = 0.47545E+04, time = 5.72 | CG iter. 27 -- res = 0.61903E-01, tol = 0.47545E+04, time = 5.38 | CG iter. 28 -- res = 0.33835E-01, tol = 0.47545E+04, time = 5.72 | CG iter. 29 -- res = 0.17443E-01, tol = 0.47545E+04, time = 5.34 | CG iter. 30 -- res = 0.89997E-02, tol = 0.47545E+04, time = 5.38 | CG iter. 31 -- res = 0.48357E-02, tol = 0.47545E+04, time = 5.86 | CG iter. 32 -- res = 0.26749E-02, tol = 0.47545E+04, time = 5.47 | CG iter. 33 -- res = 0.15289E-02, tol = 0.47545E+04, time = 5.53 | CG iter. 34 -- res = 0.83128E-03, tol = 0.47545E+04, time = 5.54 | CG iter. 35 -- res = 0.42876E-03, tol = 0.47545E+04, time = 5.25 | Final CG iter 36 -- res = 0.42876E-03, tol = 0.47545E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.242 2.723 | New value -0.803 | Old value -1.242 | Difference 0.438 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.10159E+05, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.22154E+02, tol = 0.47627E+18, time = 1.56 | CG iter. 3 -- res = 0.16281E+00, tol = 0.47627E+18, time = 1.61 | CG iter. 4 -- res = 0.86125E-04, tol = 0.47627E+18, time = 1.64 | Final CG iter 5 -- res = 0.10582E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9437399.978 | (Sampled value in CG: 9449832.414 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.545342 | New value = -3.537175 | poltype: 1 pol: 1 CPU time specind = 6.1838627E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.20618E+07, tol = 0.28757E+01, time = 2.13 | CG iter. 2 -- res = 0.72256E+06, tol = 0.28757E+01, time = 2.38 | CG iter. 3 -- res = 0.13433E+06, tol = 0.28757E+01, time = 2.23 | CG iter. 4 -- res = 0.50897E+05, tol = 0.28757E+01, time = 2.27 | CG iter. 5 -- res = 0.27480E+05, tol = 0.28757E+01, time = 2.14 | CG iter. 6 -- res = 0.14866E+05, tol = 0.28757E+01, time = 2.38 | CG iter. 7 -- res = 0.63392E+04, tol = 0.28757E+01, time = 2.19 | CG iter. 8 -- res = 0.29936E+04, tol = 0.28757E+01, time = 2.23 | CG iter. 9 -- res = 0.12979E+04, tol = 0.28757E+01, time = 2.25 | CG iter. 10 -- res = 0.48566E+03, tol = 0.28757E+01, time = 2.16 | CG iter. 11 -- res = 0.20782E+03, tol = 0.28757E+01, time = 2.43 | CG iter. 12 -- res = 0.99632E+02, tol = 0.28757E+01, time = 2.14 | CG iter. 13 -- res = 0.51355E+02, tol = 0.28757E+01, time = 2.41 | CG iter. 14 -- res = 0.26130E+02, tol = 0.28757E+01, time = 2.30 | CG iter. 15 -- res = 0.12268E+02, tol = 0.28757E+01, time = 2.37 | CG iter. 16 -- res = 0.56404E+01, tol = 0.28757E+01, time = 2.16 | CG iter. 17 -- res = 0.24301E+01, tol = 0.28757E+01, time = 2.21 | CG iter. 18 -- res = 0.10577E+01, tol = 0.28757E+01, time = 2.22 | CG iter. 19 -- res = 0.52644E+00, tol = 0.28757E+01, time = 2.93 | CG iter. 20 -- res = 0.27379E+00, tol = 0.28757E+01, time = 2.43 | CG iter. 21 -- res = 0.13738E+00, tol = 0.28757E+01, time = 2.57 | CG iter. 22 -- res = 0.64755E-01, tol = 0.28757E+01, time = 2.28 | CG iter. 23 -- res = 0.29839E-01, tol = 0.28757E+01, time = 2.28 | CG iter. 24 -- res = 0.13198E-01, tol = 0.28757E+01, time = 2.25 | CG iter. 25 -- res = 0.66244E-02, tol = 0.28757E+01, time = 2.34 | CG iter. 26 -- res = 0.33678E-02, tol = 0.28757E+01, time = 2.27 | CG iter. 27 -- res = 0.16826E-02, tol = 0.28757E+01, time = 2.12 | CG iter. 28 -- res = 0.86880E-03, tol = 0.28757E+01, time = 2.22 | CG iter. 29 -- res = 0.41209E-03, tol = 0.28757E+01, time = 2.35 | CG iter. 30 -- res = 0.18568E-03, tol = 0.28757E+01, time = 2.39 | CG iter. 31 -- res = 0.89683E-04, tol = 0.28757E+01, time = 2.07 | CG iter. 32 -- res = 0.43022E-04, tol = 0.28757E+01, time = 2.13 | CG iter. 33 -- res = 0.21571E-04, tol = 0.28757E+01, time = 2.15 | CG iter. 34 -- res = 0.10959E-04, tol = 0.28757E+01, time = 2.28 | CG iter. 35 -- res = 0.52192E-05, tol = 0.28757E+01, time = 2.33 | CG iter. 36 -- res = 0.25202E-05, tol = 0.28757E+01, time = 2.44 | CG iter. 37 -- res = 0.11617E-05, tol = 0.28757E+01, time = 2.30 | CG iter. 38 -- res = 0.56033E-06, tol = 0.28757E+01, time = 2.15 | CG iter. 39 -- res = 0.27845E-06, tol = 0.28757E+01, time = 2.11 | CG iter. 40 -- res = 0.13944E-06, tol = 0.28757E+01, time = 2.25 | CG iter. 41 -- res = 0.70794E-07, tol = 0.28757E+01, time = 2.10 | CG iter. 42 -- res = 0.33272E-07, tol = 0.28757E+01, time = 2.48 | CG iter. 43 -- res = 0.15407E-07, tol = 0.28757E+01, time = 2.33 | CG iter. 44 -- res = 0.73907E-08, tol = 0.28757E+01, time = 2.24 | CG iter. 45 -- res = 0.36272E-08, tol = 0.28757E+01, time = 2.22 | CG iter. 46 -- res = 0.18436E-08, tol = 0.28757E+01, time = 2.28 | CG iter. 47 -- res = 0.94897E-09, tol = 0.28757E+01, time = 2.07 | CG iter. 48 -- res = 0.43966E-09, tol = 0.28757E+01, time = 2.21 | CG iter. 49 -- res = 0.19901E-09, tol = 0.28757E+01, time = 2.32 | CG iter. 50 -- res = 0.90532E-10, tol = 0.28757E+01, time = 2.33 | Final CG iter 51 -- res = 0.90532E-10, tol = 0.28757E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.081 4.442 | New value -2.781 | Old value 0.081 | Difference -2.861 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.87246E+04, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.23070E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.47955E+00, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.78525E-03, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.26944E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9437399.978 | (Sampled value in CG: 9448752.741 ) | CPU time specind = 1023.090 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.68219E+08, tol = 0.57576E+04, time = 10.22 | CG iter. 2 -- res = 0.58415E+08, tol = 0.57576E+04, time = 10.34 | CG iter. 3 -- res = 0.15228E+08, tol = 0.57576E+04, time = 9.79 | CG iter. 4 -- res = 0.64864E+07, tol = 0.57576E+04, time = 11.64 | CG iter. 5 -- res = 0.38205E+07, tol = 0.57576E+04, time = 10.53 | CG iter. 6 -- res = 0.22439E+07, tol = 0.57576E+04, time = 10.25 | CG iter. 7 -- res = 0.13177E+07, tol = 0.57576E+04, time = 10.39 | CG iter. 8 -- res = 0.86595E+06, tol = 0.57576E+04, time = 10.09 | CG iter. 9 -- res = 0.54424E+06, tol = 0.57576E+04, time = 10.19 | CG iter. 10 -- res = 0.33005E+06, tol = 0.57576E+04, time = 9.87 | CG iter. 11 -- res = 0.18209E+06, tol = 0.57576E+04, time = 10.33 | CG iter. 12 -- res = 0.94360E+05, tol = 0.57576E+04, time = 10.14 | CG iter. 13 -- res = 0.49648E+05, tol = 0.57576E+04, time = 10.37 | CG iter. 14 -- res = 0.28142E+05, tol = 0.57576E+04, time = 9.89 | CG iter. 15 -- res = 0.18238E+05, tol = 0.57576E+04, time = 10.16 | CG iter. 16 -- res = 0.12449E+05, tol = 0.57576E+04, time = 10.42 | CG iter. 17 -- res = 0.85489E+04, tol = 0.57576E+04, time = 10.14 | CG iter. 18 -- res = 0.58125E+04, tol = 0.57576E+04, time = 10.03 | CG iter. 19 -- res = 0.36960E+04, tol = 0.57576E+04, time = 10.03 | CG iter. 20 -- res = 0.23127E+04, tol = 0.57576E+04, time = 10.31 | CG iter. 21 -- res = 0.15406E+04, tol = 0.57576E+04, time = 10.12 | CG iter. 22 -- res = 0.11795E+04, tol = 0.57576E+04, time = 9.91 | CG iter. 23 -- res = 0.10276E+04, tol = 0.57576E+04, time = 9.99 | CG iter. 24 -- res = 0.99793E+03, tol = 0.57576E+04, time = 16.86 | CG iter. 25 -- res = 0.10243E+04, tol = 0.57576E+04, time = 10.08 | CG iter. 26 -- res = 0.10155E+04, tol = 0.57576E+04, time = 10.35 | CG iter. 27 -- res = 0.94654E+03, tol = 0.57576E+04, time = 9.95 | CG iter. 28 -- res = 0.86306E+03, tol = 0.57576E+04, time = 10.27 | CG iter. 29 -- res = 0.79882E+03, tol = 0.57576E+04, time = 9.79 | CG iter. 30 -- res = 0.75229E+03, tol = 0.57576E+04, time = 10.02 | CG iter. 31 -- res = 0.70266E+03, tol = 0.57576E+04, time = 10.16 | CG iter. 32 -- res = 0.63000E+03, tol = 0.57576E+04, time = 9.85 | CG iter. 33 -- res = 0.53524E+03, tol = 0.57576E+04, time = 11.29 | CG iter. 34 -- res = 0.42073E+03, tol = 0.57576E+04, time = 10.60 | CG iter. 35 -- res = 0.31903E+03, tol = 0.57576E+04, time = 10.12 | CG iter. 36 -- res = 0.24768E+03, tol = 0.57576E+04, time = 10.29 | CG iter. 37 -- res = 0.20434E+03, tol = 0.57576E+04, time = 9.97 | CG iter. 38 -- res = 0.18029E+03, tol = 0.57576E+04, time = 9.96 | CG iter. 39 -- res = 0.16093E+03, tol = 0.57576E+04, time = 10.17 | CG iter. 40 -- res = 0.14480E+03, tol = 0.57576E+04, time = 10.05 | CG iter. 41 -- res = 0.12673E+03, tol = 0.57576E+04, time = 10.06 | CG iter. 42 -- res = 0.10817E+03, tol = 0.57576E+04, time = 9.88 | CG iter. 43 -- res = 0.95004E+02, tol = 0.57576E+04, time = 10.76 | CG iter. 44 -- res = 0.88349E+02, tol = 0.57576E+04, time = 10.00 | CG iter. 45 -- res = 0.83839E+02, tol = 0.57576E+04, time = 9.97 | CG iter. 46 -- res = 0.80502E+02, tol = 0.57576E+04, time = 9.67 | CG iter. 47 -- res = 0.74075E+02, tol = 0.57576E+04, time = 10.08 | CG iter. 48 -- res = 0.62978E+02, tol = 0.57576E+04, time = 10.21 | CG iter. 49 -- res = 0.52252E+02, tol = 0.57576E+04, time = 10.07 | CG iter. 50 -- res = 0.43251E+02, tol = 0.57576E+04, time = 10.49 | CG iter. 51 -- res = 0.37094E+02, tol = 0.57576E+04, time = 9.92 | CG iter. 52 -- res = 0.34419E+02, tol = 0.57576E+04, time = 10.31 | CG iter. 53 -- res = 0.32403E+02, tol = 0.57576E+04, time = 16.53 | CG iter. 54 -- res = 0.30423E+02, tol = 0.57576E+04, time = 10.13 | CG iter. 55 -- res = 0.28441E+02, tol = 0.57576E+04, time = 10.20 | CG iter. 56 -- res = 0.25819E+02, tol = 0.57576E+04, time = 9.99 | CG iter. 57 -- res = 0.23252E+02, tol = 0.57576E+04, time = 9.78 | CG iter. 58 -- res = 0.21441E+02, tol = 0.57576E+04, time = 10.14 | CG iter. 59 -- res = 0.20531E+02, tol = 0.57576E+04, time = 9.96 | CG iter. 60 -- res = 0.20264E+02, tol = 0.57576E+04, time = 9.83 | Final CG iter 61 -- res = 0.20264E+02, tol = 0.57576E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.860 ( -229.896 -2231.128 2513.682 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10044699.849 | Old band monopole 9437440.570 | Change to band monopole 607259.279 | Change to component monopole -607256.667 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.792 2.741 | New value -2.478 | Old value -0.792 | Difference -1.686 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.394 ( 7.578 13.815 -13.570 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.572 3.978 | New value 4.551 | Old value 3.572 | Difference 0.979 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.15849E+06, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.30535E+02, tol = 0.47627E+18, time = 1.60 | CG iter. 3 -- res = 0.98095E+00, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.29968E-02, tol = 0.47627E+18, time = 1.75 | Final CG iter 5 -- res = 0.14930E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10044656.645 | (Sampled value in CG: 10018619.375 ) | Chain = 1 -- chisq = 0.81551347E+09 | Chain = 1 -- wall time = 17865.147 sec Available RAM: MemAvailable: 513709832 kB Available Swap: SwapFree: 1054382316 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 207 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06440629 | --> Sampling calibration, mode = relcal | relcal = 1.3421831E-02 7.5315859E-04 -1.5930276E-03 -1.2581962E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1052723 0.1202856 97039706.3015158 | BP delta = 0.1007886 0.1158020 97039708.9634738 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632712 | --> Sampling calibration, mode = relcal | relcal = -2.8223158E-03 -7.0437614E-04 1.6790342E-03 1.6157608E-03 -4.0757825E-04 6.3947513E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5678503 15216019.3528241 | BP delta = 0.0000000E+00 -0.5614628 15216020.8286249 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17819781253054 | --> Sampling calibration, mode = relcal | relcal = -7.5327471E-02 -5.8358647E-02 9.2009597E-02 4.1676518E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8071663E-04 4.1178125E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0812E-05 | 2: delta_r/delta_0: 8.8411E-07 | 3: delta_s/delta_0: 2.1739E-07 | 4: delta_r/delta_0: 1.4634E-08 | 5: delta_s/delta_0: 6.5505E-09 | 6: delta_r/delta_0: 9.3994E-10 | 7: delta_s/delta_0: 2.5778E-10 | 8: delta_r/delta_0: 1.2253E-10 | 9: delta_s/delta_0: 4.7431E-09 | 10: delta_r/delta_0: 1.5991E-09 | 11: delta_s/delta_0: 1.2429E-10 | 12: delta_r/delta_0: 1.6512E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.176648392802428E-003 2.747509071400710E-005 | BP delta = 3.9056826E-02 5.6024730E-02 50480041.4059928 | BP delta = 3.4683272E-02 5.1651176E-02 50480042.2751684 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02603286 | --> Sampling calibration, mode = relcal | relcal = -0.1067355 -9.5571741E-02 0.1450226 5.7284657E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9794294E-03 1.0190923E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2021E-04 | 2: delta_r/delta_0: 2.6121E-06 | 3: delta_s/delta_0: 2.0844E-07 | 4: delta_r/delta_0: 4.5033E-08 | 5: delta_s/delta_0: 4.2126E-08 | 6: delta_r/delta_0: 7.7103E-09 | 7: delta_s/delta_0: 6.8344E-09 | 8: delta_r/delta_0: 1.8716E-09 | 9: delta_s/delta_0: 8.4087E-10 | 10: delta_r/delta_0: 6.3066E-10 | 11: delta_s/delta_0: 3.9626E-09 | 12: delta_r/delta_0: 4.1077E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.070216280924684E-002 2.810734613766874E-005 | BP delta = -0.2504721 -0.2276713 57387572.8618014 | BP delta = -0.2472282 -0.2244274 57387573.4713590 | BP chisq diff = 0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81265177 | --> Sampling calibration, mode = relcal | relcal = 0.2956035 0.2249478 -0.2839625 -0.2365887 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6869457E-04 5.4755863E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.4926E-03 | 2: delta_r/delta_0: 2.2202E-04 | 3: delta_s/delta_0: 4.6806E-04 | 4: delta_r/delta_0: 2.7963E-05 | 5: delta_s/delta_0: 5.2954E-06 | 6: delta_r/delta_0: 5.6889E-07 | 7: delta_s/delta_0: 1.3267E-07 | 8: delta_r/delta_0: 2.7326E-09 | 9: delta_s/delta_0: 2.8444E-09 | 10: delta_r/delta_0: 1.1280E-09 | 11: delta_s/delta_0: 7.1064E-09 | 12: delta_r/delta_0: 1.6119E-09 | 13: delta_s/delta_0: 2.3801E-08 | 14: delta_r/delta_0: 1.0597E-09 | 15: delta_s/delta_0: 3.4161E-09 | 16: delta_r/delta_0: 8.1868E-10 | 17: delta_s/delta_0: 2.3098E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.068418381880793E-002 4.019595959022467E-005 | BP delta = -0.1560757 -0.1848846 72489259.7792777 | BP delta = -0.1098703 -0.1386791 72489261.6309919 | BP chisq diff = 1.9, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95961434 | --> Sampling calibration, mode = relcal | relcal = 0.1064657 0.1396197 -0.1103156 -0.1357697 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0815886E-02 1.3089904E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2682E-04 | 2: delta_r/delta_0: 1.2921E-05 | 3: delta_s/delta_0: 1.5380E-05 | 4: delta_r/delta_0: 1.2365E-06 | 5: delta_s/delta_0: 3.0448E-07 | 6: delta_r/delta_0: 1.4467E-07 | 7: delta_s/delta_0: 3.7998E-07 | 8: delta_r/delta_0: 3.5511E-08 | 9: delta_s/delta_0: 2.8887E-07 | 10: delta_r/delta_0: 5.2483E-08 | 11: delta_s/delta_0: 1.8906E-09 | 12: delta_r/delta_0: 9.0999E-10 | 13: delta_s/delta_0: 2.3149E-09 | 14: delta_r/delta_0: 1.4534E-10 | 15: delta_s/delta_0: 5.7023E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.294184301002053E-002 3.695413767750037E-005 | BP delta = 0.1035706 0.2033052 72781927.8077921 | BP delta = 0.1060363 0.2057709 72781927.8051059 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174166 | New value = -3.089594 | poltype: 2 pol: 1 CPU time specind = 7.3609352E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129079 | New value = -3.144245 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176229 | New value = -3.143417 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126663 | New value = -3.084555 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178550 | New value = -3.108817 | poltype: 2 pol: 2 CPU time specind = 4.1029453E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.13721E+08, tol = 0.71698E+01, time = 5.16 | CG iter. 2 -- res = 0.40967E+06, tol = 0.71698E+01, time = 5.03 | CG iter. 3 -- res = 0.12456E+06, tol = 0.71698E+01, time = 5.34 | CG iter. 4 -- res = 0.17039E+06, tol = 0.71698E+01, time = 5.32 | CG iter. 5 -- res = 0.17764E+06, tol = 0.71698E+01, time = 5.26 | CG iter. 6 -- res = 0.15914E+06, tol = 0.71698E+01, time = 5.14 | CG iter. 7 -- res = 0.11951E+06, tol = 0.71698E+01, time = 5.11 | CG iter. 8 -- res = 0.83072E+05, tol = 0.71698E+01, time = 4.91 | CG iter. 9 -- res = 0.68714E+05, tol = 0.71698E+01, time = 5.48 | CG iter. 10 -- res = 0.55605E+05, tol = 0.71698E+01, time = 5.43 | CG iter. 11 -- res = 0.38959E+05, tol = 0.71698E+01, time = 4.99 | CG iter. 12 -- res = 0.28633E+05, tol = 0.71698E+01, time = 5.25 | CG iter. 13 -- res = 0.23037E+05, tol = 0.71698E+01, time = 5.27 | CG iter. 14 -- res = 0.19465E+05, tol = 0.71698E+01, time = 5.21 | CG iter. 15 -- res = 0.14785E+05, tol = 0.71698E+01, time = 6.40 | CG iter. 16 -- res = 0.99719E+04, tol = 0.71698E+01, time = 5.91 | CG iter. 17 -- res = 0.69862E+04, tol = 0.71698E+01, time = 5.85 | CG iter. 18 -- res = 0.61133E+04, tol = 0.71698E+01, time = 5.21 | CG iter. 19 -- res = 0.52699E+04, tol = 0.71698E+01, time = 5.26 | CG iter. 20 -- res = 0.41344E+04, tol = 0.71698E+01, time = 5.25 | CG iter. 21 -- res = 0.29866E+04, tol = 0.71698E+01, time = 5.48 | CG iter. 22 -- res = 0.24087E+04, tol = 0.71698E+01, time = 5.09 | CG iter. 23 -- res = 0.21145E+04, tol = 0.71698E+01, time = 5.49 | CG iter. 24 -- res = 0.16257E+04, tol = 0.71698E+01, time = 5.11 | CG iter. 25 -- res = 0.12312E+04, tol = 0.71698E+01, time = 5.02 | CG iter. 26 -- res = 0.99253E+03, tol = 0.71698E+01, time = 5.47 | CG iter. 27 -- res = 0.86540E+03, tol = 0.71698E+01, time = 5.45 | CG iter. 28 -- res = 0.70800E+03, tol = 0.71698E+01, time = 5.19 | CG iter. 29 -- res = 0.51005E+03, tol = 0.71698E+01, time = 5.25 | CG iter. 30 -- res = 0.38999E+03, tol = 0.71698E+01, time = 5.25 | CG iter. 31 -- res = 0.33438E+03, tol = 0.71698E+01, time = 5.00 | CG iter. 32 -- res = 0.27602E+03, tol = 0.71698E+01, time = 5.25 | CG iter. 33 -- res = 0.20687E+03, tol = 0.71698E+01, time = 5.17 | CG iter. 34 -- res = 0.14952E+03, tol = 0.71698E+01, time = 5.37 | CG iter. 35 -- res = 0.11867E+03, tol = 0.71698E+01, time = 5.11 | CG iter. 36 -- res = 0.98506E+02, tol = 0.71698E+01, time = 6.09 | CG iter. 37 -- res = 0.75907E+02, tol = 0.71698E+01, time = 5.27 | CG iter. 38 -- res = 0.53854E+02, tol = 0.71698E+01, time = 5.15 | CG iter. 39 -- res = 0.40431E+02, tol = 0.71698E+01, time = 5.32 | CG iter. 40 -- res = 0.33086E+02, tol = 0.71698E+01, time = 5.39 | CG iter. 41 -- res = 0.25852E+02, tol = 0.71698E+01, time = 4.99 | CG iter. 42 -- res = 0.18590E+02, tol = 0.71698E+01, time = 5.53 | CG iter. 43 -- res = 0.13828E+02, tol = 0.71698E+01, time = 5.37 | CG iter. 44 -- res = 0.10917E+02, tol = 0.71698E+01, time = 5.19 | CG iter. 45 -- res = 0.83904E+01, tol = 0.71698E+01, time = 5.47 | CG iter. 46 -- res = 0.62847E+01, tol = 0.71698E+01, time = 5.28 | CG iter. 47 -- res = 0.45090E+01, tol = 0.71698E+01, time = 5.13 | CG iter. 48 -- res = 0.35262E+01, tol = 0.71698E+01, time = 5.53 | CG iter. 49 -- res = 0.27306E+01, tol = 0.71698E+01, time = 5.28 | CG iter. 50 -- res = 0.19649E+01, tol = 0.71698E+01, time = 5.46 | Final CG iter 51 -- res = 0.19649E+01, tol = 0.71698E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9596812.736 | Old band monopole 10044699.849 | Change to band monopole -447887.114 | Change to component monopole 447885.187 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.48054E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.28888E+03, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.39648E+01, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.53387E-01, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.34310E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9596771.458 | (Sampled value in CG: 9698856.662 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498112 | New value = 1.556588 | poltype: 2 pol: 1 CPU time specind = 7.3280334E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.536063 | New value = 1.501061 | poltype: 2 pol: 2 CPU time specind = 6.0591698E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.24766E+08, tol = 0.47653E+04, time = 7.30 | CG iter. 2 -- res = 0.54598E+07, tol = 0.47653E+04, time = 6.03 | CG iter. 3 -- res = 0.85061E+06, tol = 0.47653E+04, time = 5.89 | CG iter. 4 -- res = 0.36046E+06, tol = 0.47653E+04, time = 5.88 | CG iter. 5 -- res = 0.15947E+06, tol = 0.47653E+04, time = 6.09 | CG iter. 6 -- res = 0.83369E+05, tol = 0.47653E+04, time = 5.78 | CG iter. 7 -- res = 0.45008E+05, tol = 0.47653E+04, time = 6.01 | CG iter. 8 -- res = 0.22048E+05, tol = 0.47653E+04, time = 6.04 | CG iter. 9 -- res = 0.95868E+04, tol = 0.47653E+04, time = 6.03 | CG iter. 10 -- res = 0.38705E+04, tol = 0.47653E+04, time = 6.26 | CG iter. 11 -- res = 0.17390E+04, tol = 0.47653E+04, time = 5.93 | CG iter. 12 -- res = 0.88688E+03, tol = 0.47653E+04, time = 5.75 | CG iter. 13 -- res = 0.49693E+03, tol = 0.47653E+04, time = 6.24 | CG iter. 14 -- res = 0.28151E+03, tol = 0.47653E+04, time = 6.11 | CG iter. 15 -- res = 0.14421E+03, tol = 0.47653E+04, time = 6.08 | CG iter. 16 -- res = 0.69195E+02, tol = 0.47653E+04, time = 6.37 | CG iter. 17 -- res = 0.32751E+02, tol = 0.47653E+04, time = 5.81 | CG iter. 18 -- res = 0.16114E+02, tol = 0.47653E+04, time = 6.00 | CG iter. 19 -- res = 0.88199E+01, tol = 0.47653E+04, time = 6.06 | CG iter. 20 -- res = 0.49949E+01, tol = 0.47653E+04, time = 5.89 | CG iter. 21 -- res = 0.27146E+01, tol = 0.47653E+04, time = 5.85 | CG iter. 22 -- res = 0.13857E+01, tol = 0.47653E+04, time = 6.18 | CG iter. 23 -- res = 0.69187E+00, tol = 0.47653E+04, time = 5.90 | CG iter. 24 -- res = 0.35091E+00, tol = 0.47653E+04, time = 6.03 | CG iter. 25 -- res = 0.18869E+00, tol = 0.47653E+04, time = 6.22 | CG iter. 26 -- res = 0.10424E+00, tol = 0.47653E+04, time = 6.28 | CG iter. 27 -- res = 0.59094E-01, tol = 0.47653E+04, time = 6.03 | CG iter. 28 -- res = 0.32350E-01, tol = 0.47653E+04, time = 6.18 | CG iter. 29 -- res = 0.16920E-01, tol = 0.47653E+04, time = 5.96 | CG iter. 30 -- res = 0.87915E-02, tol = 0.47653E+04, time = 6.13 | CG iter. 31 -- res = 0.46774E-02, tol = 0.47653E+04, time = 5.82 | CG iter. 32 -- res = 0.26365E-02, tol = 0.47653E+04, time = 6.03 | CG iter. 33 -- res = 0.14934E-02, tol = 0.47653E+04, time = 6.05 | CG iter. 34 -- res = 0.80205E-03, tol = 0.47653E+04, time = 5.99 | CG iter. 35 -- res = 0.41911E-03, tol = 0.47653E+04, time = 12.51 | Final CG iter 36 -- res = 0.41911E-03, tol = 0.47653E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.477 2.736 | New value -3.790 | Old value -2.477 | Difference -1.312 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.10578E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.12191E+03, tol = 0.47627E+18, time = 1.69 | CG iter. 3 -- res = 0.25534E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.19382E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.44361E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9596771.458 | (Sampled value in CG: 9697224.290 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.537175 | New value = -3.638383 | poltype: 1 pol: 1 CPU time specind = 6.7119598E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.27908E+07, tol = 0.26568E+01, time = 2.66 | CG iter. 2 -- res = 0.13602E+07, tol = 0.26568E+01, time = 2.56 | CG iter. 3 -- res = 0.26011E+06, tol = 0.26568E+01, time = 2.43 | CG iter. 4 -- res = 0.10245E+06, tol = 0.26568E+01, time = 2.15 | CG iter. 5 -- res = 0.63409E+05, tol = 0.26568E+01, time = 2.47 | CG iter. 6 -- res = 0.33063E+05, tol = 0.26568E+01, time = 2.52 | CG iter. 7 -- res = 0.10741E+05, tol = 0.26568E+01, time = 2.39 | CG iter. 8 -- res = 0.40575E+04, tol = 0.26568E+01, time = 2.52 | CG iter. 9 -- res = 0.18282E+04, tol = 0.26568E+01, time = 2.33 | CG iter. 10 -- res = 0.74727E+03, tol = 0.26568E+01, time = 2.55 | CG iter. 11 -- res = 0.31126E+03, tol = 0.26568E+01, time = 9.06 | CG iter. 12 -- res = 0.16436E+03, tol = 0.26568E+01, time = 2.49 | CG iter. 13 -- res = 0.82390E+02, tol = 0.26568E+01, time = 2.56 | CG iter. 14 -- res = 0.40528E+02, tol = 0.26568E+01, time = 2.45 | CG iter. 15 -- res = 0.17607E+02, tol = 0.26568E+01, time = 2.52 | CG iter. 16 -- res = 0.75264E+01, tol = 0.26568E+01, time = 2.31 | CG iter. 17 -- res = 0.32190E+01, tol = 0.26568E+01, time = 2.70 | CG iter. 18 -- res = 0.15300E+01, tol = 0.26568E+01, time = 2.71 | CG iter. 19 -- res = 0.77460E+00, tol = 0.26568E+01, time = 2.51 | CG iter. 20 -- res = 0.40416E+00, tol = 0.26568E+01, time = 2.64 | CG iter. 21 -- res = 0.18678E+00, tol = 0.26568E+01, time = 2.45 | CG iter. 22 -- res = 0.82238E-01, tol = 0.26568E+01, time = 2.43 | CG iter. 23 -- res = 0.36221E-01, tol = 0.26568E+01, time = 2.42 | CG iter. 24 -- res = 0.17636E-01, tol = 0.26568E+01, time = 2.56 | CG iter. 25 -- res = 0.91821E-02, tol = 0.26568E+01, time = 2.52 | CG iter. 26 -- res = 0.46648E-02, tol = 0.26568E+01, time = 2.42 | CG iter. 27 -- res = 0.24282E-02, tol = 0.26568E+01, time = 2.69 | CG iter. 28 -- res = 0.11117E-02, tol = 0.26568E+01, time = 2.48 | CG iter. 29 -- res = 0.48237E-03, tol = 0.26568E+01, time = 2.51 | CG iter. 30 -- res = 0.23952E-03, tol = 0.26568E+01, time = 2.48 | CG iter. 31 -- res = 0.11842E-03, tol = 0.26568E+01, time = 2.22 | CG iter. 32 -- res = 0.60234E-04, tol = 0.26568E+01, time = 2.37 | CG iter. 33 -- res = 0.28988E-04, tol = 0.26568E+01, time = 2.38 | CG iter. 34 -- res = 0.13196E-04, tol = 0.26568E+01, time = 2.60 | CG iter. 35 -- res = 0.64130E-05, tol = 0.26568E+01, time = 2.55 | CG iter. 36 -- res = 0.29454E-05, tol = 0.26568E+01, time = 2.67 | CG iter. 37 -- res = 0.14164E-05, tol = 0.26568E+01, time = 2.50 | CG iter. 38 -- res = 0.74930E-06, tol = 0.26568E+01, time = 2.70 | CG iter. 39 -- res = 0.36450E-06, tol = 0.26568E+01, time = 2.52 | CG iter. 40 -- res = 0.17190E-06, tol = 0.26568E+01, time = 2.39 | CG iter. 41 -- res = 0.76714E-07, tol = 0.26568E+01, time = 2.58 | CG iter. 42 -- res = 0.37377E-07, tol = 0.26568E+01, time = 2.56 | CG iter. 43 -- res = 0.17638E-07, tol = 0.26568E+01, time = 2.50 | CG iter. 44 -- res = 0.87457E-08, tol = 0.26568E+01, time = 2.47 | CG iter. 45 -- res = 0.43647E-08, tol = 0.26568E+01, time = 3.27 | CG iter. 46 -- res = 0.20352E-08, tol = 0.26568E+01, time = 3.52 | CG iter. 47 -- res = 0.96683E-09, tol = 0.26568E+01, time = 2.87 | CG iter. 48 -- res = 0.46094E-09, tol = 0.26568E+01, time = 2.85 | CG iter. 49 -- res = 0.21861E-09, tol = 0.26568E+01, time = 2.85 | CG iter. 50 -- res = 0.10323E-09, tol = 0.26568E+01, time = 2.31 | Final CG iter 51 -- res = 0.10323E-09, tol = 0.26568E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.154 2.989 | New value -1.374 | Old value 11.154 | Difference -12.529 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.16153E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.13961E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.30779E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.23441E-01, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.46863E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9596771.458 | (Sampled value in CG: 9676122.809 ) | CPU time specind = 1097.651 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.70356E+08, tol = 0.57732E+04, time = 10.74 | CG iter. 2 -- res = 0.60280E+08, tol = 0.57732E+04, time = 11.29 | CG iter. 3 -- res = 0.16132E+08, tol = 0.57732E+04, time = 10.38 | CG iter. 4 -- res = 0.69309E+07, tol = 0.57732E+04, time = 10.91 | CG iter. 5 -- res = 0.41486E+07, tol = 0.57732E+04, time = 11.34 | CG iter. 6 -- res = 0.24104E+07, tol = 0.57732E+04, time = 10.76 | CG iter. 7 -- res = 0.14358E+07, tol = 0.57732E+04, time = 11.01 | CG iter. 8 -- res = 0.95066E+06, tol = 0.57732E+04, time = 10.35 | CG iter. 9 -- res = 0.61613E+06, tol = 0.57732E+04, time = 11.10 | CG iter. 10 -- res = 0.38748E+06, tol = 0.57732E+04, time = 10.86 | CG iter. 11 -- res = 0.23041E+06, tol = 0.57732E+04, time = 16.89 | CG iter. 12 -- res = 0.13894E+06, tol = 0.57732E+04, time = 10.98 | CG iter. 13 -- res = 0.88365E+05, tol = 0.57732E+04, time = 11.07 | CG iter. 14 -- res = 0.66328E+05, tol = 0.57732E+04, time = 10.89 | CG iter. 15 -- res = 0.57629E+05, tol = 0.57732E+04, time = 10.93 | CG iter. 16 -- res = 0.55914E+05, tol = 0.57732E+04, time = 10.63 | CG iter. 17 -- res = 0.55860E+05, tol = 0.57732E+04, time = 10.81 | CG iter. 18 -- res = 0.54289E+05, tol = 0.57732E+04, time = 10.59 | CG iter. 19 -- res = 0.48799E+05, tol = 0.57732E+04, time = 12.36 | CG iter. 20 -- res = 0.43293E+05, tol = 0.57732E+04, time = 11.34 | CG iter. 21 -- res = 0.40034E+05, tol = 0.57732E+04, time = 10.76 | CG iter. 22 -- res = 0.38797E+05, tol = 0.57732E+04, time = 10.40 | CG iter. 23 -- res = 0.36861E+05, tol = 0.57732E+04, time = 10.61 | CG iter. 24 -- res = 0.32400E+05, tol = 0.57732E+04, time = 10.74 | CG iter. 25 -- res = 0.26354E+05, tol = 0.57732E+04, time = 11.03 | CG iter. 26 -- res = 0.20095E+05, tol = 0.57732E+04, time = 11.17 | CG iter. 27 -- res = 0.14605E+05, tol = 0.57732E+04, time = 11.34 | CG iter. 28 -- res = 0.11168E+05, tol = 0.57732E+04, time = 11.52 | CG iter. 29 -- res = 0.95432E+04, tol = 0.57732E+04, time = 10.88 | CG iter. 30 -- res = 0.87513E+04, tol = 0.57732E+04, time = 10.93 | CG iter. 31 -- res = 0.82487E+04, tol = 0.57732E+04, time = 10.73 | CG iter. 32 -- res = 0.75827E+04, tol = 0.57732E+04, time = 10.89 | CG iter. 33 -- res = 0.67703E+04, tol = 0.57732E+04, time = 10.81 | CG iter. 34 -- res = 0.58527E+04, tol = 0.57732E+04, time = 10.81 | CG iter. 35 -- res = 0.50530E+04, tol = 0.57732E+04, time = 11.45 | CG iter. 36 -- res = 0.45575E+04, tol = 0.57732E+04, time = 10.41 | CG iter. 37 -- res = 0.43534E+04, tol = 0.57732E+04, time = 14.81 | CG iter. 38 -- res = 0.40655E+04, tol = 0.57732E+04, time = 13.74 | CG iter. 39 -- res = 0.35053E+04, tol = 0.57732E+04, time = 11.09 | CG iter. 40 -- res = 0.28083E+04, tol = 0.57732E+04, time = 10.64 | CG iter. 41 -- res = 0.22520E+04, tol = 0.57732E+04, time = 10.73 | CG iter. 42 -- res = 0.18601E+04, tol = 0.57732E+04, time = 11.26 | CG iter. 43 -- res = 0.16426E+04, tol = 0.57732E+04, time = 11.37 | CG iter. 44 -- res = 0.15414E+04, tol = 0.57732E+04, time = 10.55 | CG iter. 45 -- res = 0.14780E+04, tol = 0.57732E+04, time = 12.03 | CG iter. 46 -- res = 0.14224E+04, tol = 0.57732E+04, time = 11.67 | CG iter. 47 -- res = 0.12961E+04, tol = 0.57732E+04, time = 10.75 | CG iter. 48 -- res = 0.11487E+04, tol = 0.57732E+04, time = 10.76 | CG iter. 49 -- res = 0.10041E+04, tol = 0.57732E+04, time = 11.08 | CG iter. 50 -- res = 0.89706E+03, tol = 0.57732E+04, time = 10.61 | CG iter. 51 -- res = 0.83414E+03, tol = 0.57732E+04, time = 10.93 | CG iter. 52 -- res = 0.78844E+03, tol = 0.57732E+04, time = 10.64 | CG iter. 53 -- res = 0.75234E+03, tol = 0.57732E+04, time = 10.77 | CG iter. 54 -- res = 0.67823E+03, tol = 0.57732E+04, time = 11.24 | CG iter. 55 -- res = 0.58168E+03, tol = 0.57732E+04, time = 10.47 | CG iter. 56 -- res = 0.49684E+03, tol = 0.57732E+04, time = 11.22 | CG iter. 57 -- res = 0.45028E+03, tol = 0.57732E+04, time = 10.85 | CG iter. 58 -- res = 0.42755E+03, tol = 0.57732E+04, time = 10.49 | CG iter. 59 -- res = 0.41671E+03, tol = 0.57732E+04, time = 11.08 | CG iter. 60 -- res = 0.39844E+03, tol = 0.57732E+04, time = 10.67 | Final CG iter 61 -- res = 0.39844E+03, tol = 0.57732E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.704 ( -230.047 -2230.200 2512.919 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8140815.955 | Old band monopole 9596812.736 | Change to band monopole -1455996.780 | Change to component monopole 1455990.518 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.789 2.729 | New value 2.831 | Old value -3.789 | Difference 6.620 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.796 ( 6.742 11.805 -12.545 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.831 3.819 | New value -1.688 | Old value -2.831 | Difference 1.143 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.23882E+07, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.60281E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.25965E+01, tol = 0.47627E+18, time = 2.38 | CG iter. 4 -- res = 0.36884E-02, tol = 0.47627E+18, time = 5.74 | Final CG iter 5 -- res = 0.85441E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8140780.940 | (Sampled value in CG: 8125883.879 ) | Chain = 1 -- chisq = 0.81440962E+09 | Chain = 1 -- wall time = 5588.790 sec Available RAM: MemAvailable: 384689656 kB Available Swap: SwapFree: 1123826668 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 208 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06440496 | --> Sampling calibration, mode = relcal | relcal = 1.3427660E-02 7.3771016E-04 -1.5886845E-03 -1.2576685E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1052723 0.1202856 9401996.76139030 | BP delta = 0.1052723 0.1127455 9402083.46182574 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632657 | --> Sampling calibration, mode = relcal | relcal = -2.8221400E-03 -7.0379151E-04 1.6788297E-03 1.6137223E-03 -4.0773020E-04 6.4110971E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5678503 15216764.6765163 | BP delta = 0.0000000E+00 -0.5667455 15216765.3993295 | BP chisq diff = 0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17870794616414 | --> Sampling calibration, mode = relcal | relcal = -7.5357489E-02 -5.8456298E-02 9.2094429E-02 4.1719362E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8592147E-04 4.5341868E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0837E-05 | 2: delta_r/delta_0: 8.9057E-07 | 3: delta_s/delta_0: 2.1345E-07 | 4: delta_r/delta_0: 1.6738E-08 | 5: delta_s/delta_0: 1.3749E-08 | 6: delta_r/delta_0: 9.9123E-10 | 7: delta_s/delta_0: 2.2627E-10 | 8: delta_r/delta_0: 1.0578E-10 | 9: delta_s/delta_0: 6.5202E-10 | 10: delta_r/delta_0: 1.9478E-10 | 11: delta_s/delta_0: 4.8377E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.396256410760657E-003 2.746321175499516E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0837E-05 | 2: delta_r/delta_0: 8.9059E-07 | 3: delta_s/delta_0: 2.1345E-07 | 4: delta_r/delta_0: 1.6737E-08 | 5: delta_s/delta_0: 1.3747E-08 | 6: delta_r/delta_0: 9.9119E-10 | 7: delta_s/delta_0: 2.2627E-10 | 8: delta_r/delta_0: 1.0578E-10 | 9: delta_s/delta_0: 6.5199E-10 | 10: delta_r/delta_0: 1.9479E-10 | 11: delta_s/delta_0: 4.8372E-11 | Reached bicg-stab tolerance | BP delta = 3.9056826E-02 5.6024730E-02 3595822.23741962 | BP delta = 3.9056826E-02 5.6130264E-02 3597579.72174830 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02601135 | --> Sampling calibration, mode = relcal | relcal = -0.1067063 -9.5489137E-02 0.1449226 5.7272807E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0723962E-03 1.6164856E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3667E-04 | 2: delta_r/delta_0: 2.9356E-06 | 3: delta_s/delta_0: 1.9971E-07 | 4: delta_r/delta_0: 4.7928E-08 | 5: delta_s/delta_0: 4.0206E-08 | 6: delta_r/delta_0: 8.1712E-09 | 7: delta_s/delta_0: 7.0994E-09 | 8: delta_r/delta_0: 1.9601E-09 | 9: delta_s/delta_0: 8.8258E-10 | 10: delta_r/delta_0: 6.5991E-10 | 11: delta_s/delta_0: 8.7017E-10 | 12: delta_r/delta_0: 1.4933E-10 | 13: delta_s/delta_0: 1.1131E-10 | 14: delta_r/delta_0: 9.9380E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.072804892527480E-002 2.810785286118348E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3667E-04 | 2: delta_r/delta_0: 2.9356E-06 | 3: delta_s/delta_0: 1.9971E-07 | 4: delta_r/delta_0: 4.7932E-08 | 5: delta_s/delta_0: 4.0198E-08 | 6: delta_r/delta_0: 8.1713E-09 | 7: delta_s/delta_0: 7.0987E-09 | 8: delta_r/delta_0: 1.9602E-09 | 9: delta_s/delta_0: 8.8262E-10 | 10: delta_r/delta_0: 6.5994E-10 | 11: delta_s/delta_0: 8.7029E-10 | 12: delta_r/delta_0: 1.4933E-10 | 13: delta_s/delta_0: 1.1132E-10 | 14: delta_r/delta_0: 9.9406E-12 | Reached bicg-stab tolerance | BP delta = -0.2472282 -0.2244274 2841544.99647730 | BP delta = -0.2472282 -0.2235616 2841545.78134012 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81257411 | --> Sampling calibration, mode = relcal | relcal = 0.2955180 0.2249910 -0.2838788 -0.2366302 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0767945E-03 5.1841717E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6596E-03 | 2: delta_r/delta_0: 6.1625E-05 | 3: delta_s/delta_0: 2.7825E-05 | 4: delta_r/delta_0: 2.7009E-06 | 5: delta_s/delta_0: 4.3707E-06 | 6: delta_r/delta_0: 5.5030E-07 | 7: delta_s/delta_0: 6.8754E-08 | 8: delta_r/delta_0: 3.2288E-08 | 9: delta_s/delta_0: 2.7331E-07 | 10: delta_r/delta_0: 4.7763E-09 | 11: delta_s/delta_0: 4.2588E-09 | 12: delta_r/delta_0: 4.3078E-10 | 13: delta_s/delta_0: 1.6922E-09 | 14: delta_r/delta_0: 8.4104E-10 | 15: delta_s/delta_0: 8.3255E-10 | 16: delta_r/delta_0: 5.1603E-10 | 17: delta_s/delta_0: 1.1615E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.898077215528058E-002 4.019963789322748E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6564E-03 | 2: delta_r/delta_0: 6.1550E-05 | 3: delta_s/delta_0: 2.7859E-05 | 4: delta_r/delta_0: 2.7037E-06 | 5: delta_s/delta_0: 4.3659E-06 | 6: delta_r/delta_0: 5.5004E-07 | 7: delta_s/delta_0: 6.8717E-08 | 8: delta_r/delta_0: 3.2302E-08 | 9: delta_s/delta_0: 2.7470E-07 | 10: delta_r/delta_0: 4.7716E-09 | 11: delta_s/delta_0: 4.2429E-09 | 12: delta_r/delta_0: 4.3062E-10 | 13: delta_s/delta_0: 1.7171E-09 | 14: delta_r/delta_0: 8.5255E-10 | 15: delta_s/delta_0: 8.4232E-10 | 16: delta_r/delta_0: 5.2272E-10 | 17: delta_s/delta_0: 1.1629E-11 | Reached bicg-stab tolerance | BP delta = -0.1098703 -0.1386791 2827510.11039225 | BP delta = -0.1098703 -0.1287448 2827642.39436468 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95950943 | --> Sampling calibration, mode = relcal | relcal = 0.1065801 0.1396349 -0.1102568 -0.1359582 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6626496E-03 1.2727570E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6632E-04 | 2: delta_r/delta_0: 9.0701E-06 | 3: delta_s/delta_0: 3.6122E-05 | 4: delta_r/delta_0: 2.3147E-06 | 5: delta_s/delta_0: 2.3193E-07 | 6: delta_r/delta_0: 1.1457E-07 | 7: delta_s/delta_0: 3.2238E-07 | 8: delta_r/delta_0: 3.0112E-08 | 9: delta_s/delta_0: 3.0405E-08 | 10: delta_r/delta_0: 1.7353E-09 | 11: delta_s/delta_0: 1.5043E-09 | 12: delta_r/delta_0: 7.6203E-10 | 13: delta_s/delta_0: 1.3677E-09 | 14: delta_r/delta_0: 2.1356E-10 | 15: delta_s/delta_0: 5.2127E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.135825842356029E-002 3.695861784455446E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6630E-04 | 2: delta_r/delta_0: 9.0696E-06 | 3: delta_s/delta_0: 3.6125E-05 | 4: delta_r/delta_0: 2.3148E-06 | 5: delta_s/delta_0: 2.3192E-07 | 6: delta_r/delta_0: 1.1455E-07 | 7: delta_s/delta_0: 3.2207E-07 | 8: delta_r/delta_0: 3.0109E-08 | 9: delta_s/delta_0: 3.0485E-08 | 10: delta_r/delta_0: 1.7371E-09 | 11: delta_s/delta_0: 1.5042E-09 | 12: delta_r/delta_0: 7.6196E-10 | 13: delta_s/delta_0: 1.3620E-09 | 14: delta_r/delta_0: 2.1226E-10 | 15: delta_s/delta_0: 5.2127E-11 | Reached bicg-stab tolerance | BP delta = 0.1060363 0.2057709 3003751.48926347 | BP delta = 0.1060363 0.2047860 3003802.82126571 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.089594 | New value = -3.189403 | poltype: 2 pol: 1 CPU time specind = 7.8420639E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144245 | New value = -3.143303 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143417 | New value = -3.199366 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.084555 | New value = -3.139490 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.108817 | New value = -3.187580 | poltype: 2 pol: 2 CPU time specind = 4.9028397E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.35 | CG iter. 1 -- res = 0.13617E+08, tol = 0.85550E+01, time = 5.01 | CG iter. 2 -- res = 0.36946E+06, tol = 0.85550E+01, time = 4.78 | CG iter. 3 -- res = 0.86295E+05, tol = 0.85550E+01, time = 5.41 | CG iter. 4 -- res = 0.93574E+05, tol = 0.85550E+01, time = 6.78 | CG iter. 5 -- res = 0.10141E+06, tol = 0.85550E+01, time = 5.41 | CG iter. 6 -- res = 0.96250E+05, tol = 0.85550E+01, time = 5.50 | CG iter. 7 -- res = 0.86851E+05, tol = 0.85550E+01, time = 5.50 | CG iter. 8 -- res = 0.66487E+05, tol = 0.85550E+01, time = 5.01 | CG iter. 9 -- res = 0.52670E+05, tol = 0.85550E+01, time = 5.07 | CG iter. 10 -- res = 0.42813E+05, tol = 0.85550E+01, time = 5.44 | CG iter. 11 -- res = 0.30767E+05, tol = 0.85550E+01, time = 5.22 | CG iter. 12 -- res = 0.22886E+05, tol = 0.85550E+01, time = 5.19 | CG iter. 13 -- res = 0.20032E+05, tol = 0.85550E+01, time = 5.31 | CG iter. 14 -- res = 0.17904E+05, tol = 0.85550E+01, time = 5.33 | CG iter. 15 -- res = 0.14378E+05, tol = 0.85550E+01, time = 5.27 | CG iter. 16 -- res = 0.10230E+05, tol = 0.85550E+01, time = 5.09 | CG iter. 17 -- res = 0.75089E+04, tol = 0.85550E+01, time = 5.14 | CG iter. 18 -- res = 0.64483E+04, tol = 0.85550E+01, time = 5.05 | CG iter. 19 -- res = 0.57015E+04, tol = 0.85550E+01, time = 5.03 | CG iter. 20 -- res = 0.44971E+04, tol = 0.85550E+01, time = 5.19 | CG iter. 21 -- res = 0.34286E+04, tol = 0.85550E+01, time = 5.08 | CG iter. 22 -- res = 0.28488E+04, tol = 0.85550E+01, time = 5.08 | CG iter. 23 -- res = 0.24957E+04, tol = 0.85550E+01, time = 4.92 | CG iter. 24 -- res = 0.20537E+04, tol = 0.85550E+01, time = 5.50 | CG iter. 25 -- res = 0.15299E+04, tol = 0.85550E+01, time = 5.74 | CG iter. 26 -- res = 0.12702E+04, tol = 0.85550E+01, time = 4.81 | CG iter. 27 -- res = 0.11208E+04, tol = 0.85550E+01, time = 5.37 | CG iter. 28 -- res = 0.99349E+03, tol = 0.85550E+01, time = 5.29 | CG iter. 29 -- res = 0.79412E+03, tol = 0.85550E+01, time = 5.16 | CG iter. 30 -- res = 0.63526E+03, tol = 0.85550E+01, time = 5.48 | CG iter. 31 -- res = 0.56770E+03, tol = 0.85550E+01, time = 5.14 | CG iter. 32 -- res = 0.51218E+03, tol = 0.85550E+01, time = 5.07 | CG iter. 33 -- res = 0.40606E+03, tol = 0.85550E+01, time = 5.05 | CG iter. 34 -- res = 0.33382E+03, tol = 0.85550E+01, time = 5.16 | CG iter. 35 -- res = 0.28038E+03, tol = 0.85550E+01, time = 5.15 | CG iter. 36 -- res = 0.25748E+03, tol = 0.85550E+01, time = 5.43 | CG iter. 37 -- res = 0.21932E+03, tol = 0.85550E+01, time = 5.37 | CG iter. 38 -- res = 0.17159E+03, tol = 0.85550E+01, time = 5.07 | CG iter. 39 -- res = 0.14529E+03, tol = 0.85550E+01, time = 5.17 | CG iter. 40 -- res = 0.13014E+03, tol = 0.85550E+01, time = 5.11 | CG iter. 41 -- res = 0.11129E+03, tol = 0.85550E+01, time = 5.16 | CG iter. 42 -- res = 0.89011E+02, tol = 0.85550E+01, time = 5.18 | CG iter. 43 -- res = 0.74739E+02, tol = 0.85550E+01, time = 5.64 | CG iter. 44 -- res = 0.64106E+02, tol = 0.85550E+01, time = 10.82 | CG iter. 45 -- res = 0.54031E+02, tol = 0.85550E+01, time = 5.31 | CG iter. 46 -- res = 0.42562E+02, tol = 0.85550E+01, time = 5.13 | CG iter. 47 -- res = 0.33906E+02, tol = 0.85550E+01, time = 5.16 | CG iter. 48 -- res = 0.28145E+02, tol = 0.85550E+01, time = 5.12 | CG iter. 49 -- res = 0.24405E+02, tol = 0.85550E+01, time = 5.37 | CG iter. 50 -- res = 0.19975E+02, tol = 0.85550E+01, time = 5.43 | Final CG iter 51 -- res = 0.19975E+02, tol = 0.85550E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11580016.153 | Old band monopole 8140815.955 | Change to band monopole 3439200.197 | Change to component monopole -3439185.405 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.14474E+07, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.58460E+03, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.50471E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.58270E-01, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.81224E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11579966.345 | (Sampled value in CG: 11488686.364 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.556588 | New value = 1.509236 | poltype: 2 pol: 1 CPU time specind = 6.5548420E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501061 | New value = 1.517251 | poltype: 2 pol: 2 CPU time specind = 2.5110245E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.24510E+08, tol = 0.47600E+04, time = 6.12 | CG iter. 2 -- res = 0.54895E+07, tol = 0.47600E+04, time = 5.63 | CG iter. 3 -- res = 0.87438E+06, tol = 0.47600E+04, time = 6.01 | CG iter. 4 -- res = 0.36549E+06, tol = 0.47600E+04, time = 6.08 | CG iter. 5 -- res = 0.15945E+06, tol = 0.47600E+04, time = 5.61 | CG iter. 6 -- res = 0.81873E+05, tol = 0.47600E+04, time = 6.16 | CG iter. 7 -- res = 0.44583E+05, tol = 0.47600E+04, time = 6.15 | CG iter. 8 -- res = 0.21665E+05, tol = 0.47600E+04, time = 5.79 | CG iter. 9 -- res = 0.95118E+04, tol = 0.47600E+04, time = 5.97 | CG iter. 10 -- res = 0.38237E+04, tol = 0.47600E+04, time = 5.89 | CG iter. 11 -- res = 0.17286E+04, tol = 0.47600E+04, time = 5.93 | CG iter. 12 -- res = 0.91546E+03, tol = 0.47600E+04, time = 6.01 | CG iter. 13 -- res = 0.51653E+03, tol = 0.47600E+04, time = 5.83 | CG iter. 14 -- res = 0.29075E+03, tol = 0.47600E+04, time = 5.90 | CG iter. 15 -- res = 0.14831E+03, tol = 0.47600E+04, time = 5.95 | CG iter. 16 -- res = 0.69054E+02, tol = 0.47600E+04, time = 5.86 | CG iter. 17 -- res = 0.32770E+02, tol = 0.47600E+04, time = 6.15 | CG iter. 18 -- res = 0.16738E+02, tol = 0.47600E+04, time = 5.81 | CG iter. 19 -- res = 0.89929E+01, tol = 0.47600E+04, time = 5.78 | CG iter. 20 -- res = 0.52326E+01, tol = 0.47600E+04, time = 5.76 | CG iter. 21 -- res = 0.28532E+01, tol = 0.47600E+04, time = 5.76 | CG iter. 22 -- res = 0.14648E+01, tol = 0.47600E+04, time = 5.57 | CG iter. 23 -- res = 0.72166E+00, tol = 0.47600E+04, time = 6.01 | CG iter. 24 -- res = 0.36761E+00, tol = 0.47600E+04, time = 5.87 | CG iter. 25 -- res = 0.20025E+00, tol = 0.47600E+04, time = 5.70 | CG iter. 26 -- res = 0.11584E+00, tol = 0.47600E+04, time = 12.29 | CG iter. 27 -- res = 0.65405E-01, tol = 0.47600E+04, time = 6.21 | CG iter. 28 -- res = 0.35919E-01, tol = 0.47600E+04, time = 5.71 | CG iter. 29 -- res = 0.18725E-01, tol = 0.47600E+04, time = 5.88 | CG iter. 30 -- res = 0.96565E-02, tol = 0.47600E+04, time = 5.69 | CG iter. 31 -- res = 0.52369E-02, tol = 0.47600E+04, time = 6.06 | CG iter. 32 -- res = 0.28863E-02, tol = 0.47600E+04, time = 6.09 | CG iter. 33 -- res = 0.16086E-02, tol = 0.47600E+04, time = 5.75 | CG iter. 34 -- res = 0.86393E-03, tol = 0.47600E+04, time = 5.84 | CG iter. 35 -- res = 0.44498E-03, tol = 0.47600E+04, time = 5.92 | Final CG iter 36 -- res = 0.44498E-03, tol = 0.47600E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.837 2.733 | New value 2.128 | Old value 2.837 | Difference -0.709 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.38929E+05, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.86636E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.23485E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.97253E-03, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.30847E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11579966.345 | (Sampled value in CG: 11489072.450 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.638383 | New value = -3.499223 | poltype: 1 pol: 1 CPU time specind = 6.9930553E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.67 | CG iter. 1 -- res = 0.33742E+07, tol = 0.31889E+01, time = 2.53 | CG iter. 2 -- res = 0.20539E+07, tol = 0.31889E+01, time = 2.45 | CG iter. 3 -- res = 0.39800E+06, tol = 0.31889E+01, time = 2.22 | CG iter. 4 -- res = 0.15473E+06, tol = 0.31889E+01, time = 2.37 | CG iter. 5 -- res = 0.89834E+05, tol = 0.31889E+01, time = 2.45 | CG iter. 6 -- res = 0.45875E+05, tol = 0.31889E+01, time = 2.57 | CG iter. 7 -- res = 0.15955E+05, tol = 0.31889E+01, time = 2.50 | CG iter. 8 -- res = 0.66448E+04, tol = 0.31889E+01, time = 2.38 | CG iter. 9 -- res = 0.30516E+04, tol = 0.31889E+01, time = 2.31 | CG iter. 10 -- res = 0.12383E+04, tol = 0.31889E+01, time = 2.32 | CG iter. 11 -- res = 0.49528E+03, tol = 0.31889E+01, time = 2.29 | CG iter. 12 -- res = 0.23208E+03, tol = 0.31889E+01, time = 2.56 | CG iter. 13 -- res = 0.12013E+03, tol = 0.31889E+01, time = 2.40 | CG iter. 14 -- res = 0.59882E+02, tol = 0.31889E+01, time = 2.47 | CG iter. 15 -- res = 0.29454E+02, tol = 0.31889E+01, time = 2.48 | CG iter. 16 -- res = 0.13342E+02, tol = 0.31889E+01, time = 2.37 | CG iter. 17 -- res = 0.53686E+01, tol = 0.31889E+01, time = 2.31 | CG iter. 18 -- res = 0.24730E+01, tol = 0.31889E+01, time = 2.65 | CG iter. 19 -- res = 0.11771E+01, tol = 0.31889E+01, time = 2.55 | CG iter. 20 -- res = 0.60400E+00, tol = 0.31889E+01, time = 2.65 | CG iter. 21 -- res = 0.29892E+00, tol = 0.31889E+01, time = 2.51 | CG iter. 22 -- res = 0.13783E+00, tol = 0.31889E+01, time = 2.41 | CG iter. 23 -- res = 0.61457E-01, tol = 0.31889E+01, time = 2.23 | CG iter. 24 -- res = 0.28700E-01, tol = 0.31889E+01, time = 2.56 | CG iter. 25 -- res = 0.13910E-01, tol = 0.31889E+01, time = 2.43 | CG iter. 26 -- res = 0.65390E-02, tol = 0.31889E+01, time = 2.39 | CG iter. 27 -- res = 0.33013E-02, tol = 0.31889E+01, time = 2.42 | CG iter. 28 -- res = 0.17230E-02, tol = 0.31889E+01, time = 2.60 | CG iter. 29 -- res = 0.81671E-03, tol = 0.31889E+01, time = 2.34 | CG iter. 30 -- res = 0.39272E-03, tol = 0.31889E+01, time = 2.99 | CG iter. 31 -- res = 0.18040E-03, tol = 0.31889E+01, time = 3.52 | CG iter. 32 -- res = 0.84362E-04, tol = 0.31889E+01, time = 2.63 | CG iter. 33 -- res = 0.42010E-04, tol = 0.31889E+01, time = 2.64 | CG iter. 34 -- res = 0.20775E-04, tol = 0.31889E+01, time = 2.65 | CG iter. 35 -- res = 0.10908E-04, tol = 0.31889E+01, time = 2.70 | CG iter. 36 -- res = 0.53039E-05, tol = 0.31889E+01, time = 2.53 | CG iter. 37 -- res = 0.23521E-05, tol = 0.31889E+01, time = 2.54 | CG iter. 38 -- res = 0.11296E-05, tol = 0.31889E+01, time = 2.53 | CG iter. 39 -- res = 0.53731E-06, tol = 0.31889E+01, time = 2.41 | CG iter. 40 -- res = 0.27075E-06, tol = 0.31889E+01, time = 2.59 | CG iter. 41 -- res = 0.13881E-06, tol = 0.31889E+01, time = 2.55 | CG iter. 42 -- res = 0.68316E-07, tol = 0.31889E+01, time = 2.41 | CG iter. 43 -- res = 0.30279E-07, tol = 0.31889E+01, time = 2.55 | CG iter. 44 -- res = 0.13976E-07, tol = 0.31889E+01, time = 2.24 | CG iter. 45 -- res = 0.65559E-08, tol = 0.31889E+01, time = 2.57 | CG iter. 46 -- res = 0.31805E-08, tol = 0.31889E+01, time = 2.42 | CG iter. 47 -- res = 0.16779E-08, tol = 0.31889E+01, time = 2.53 | CG iter. 48 -- res = 0.84465E-09, tol = 0.31889E+01, time = 2.58 | CG iter. 49 -- res = 0.39111E-09, tol = 0.31889E+01, time = 2.29 | CG iter. 50 -- res = 0.17786E-09, tol = 0.31889E+01, time = 2.38 | Final CG iter 51 -- res = 0.17786E-09, tol = 0.31889E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.735 5.261 | New value -2.041 | Old value -8.735 | Difference 6.694 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.54277E+05, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.76929E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.19075E+01, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.95099E-02, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.16853E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11579966.345 | (Sampled value in CG: 11511657.407 ) | CPU time specind = 1069.308 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.69395E+08, tol = 0.57580E+04, time = 11.01 | CG iter. 2 -- res = 0.58789E+08, tol = 0.57580E+04, time = 10.46 | CG iter. 3 -- res = 0.15317E+08, tol = 0.57580E+04, time = 10.57 | CG iter. 4 -- res = 0.65093E+07, tol = 0.57580E+04, time = 10.47 | CG iter. 5 -- res = 0.39248E+07, tol = 0.57580E+04, time = 10.66 | CG iter. 6 -- res = 0.22717E+07, tol = 0.57580E+04, time = 10.54 | CG iter. 7 -- res = 0.13835E+07, tol = 0.57580E+04, time = 11.84 | CG iter. 8 -- res = 0.93214E+06, tol = 0.57580E+04, time = 16.89 | CG iter. 9 -- res = 0.60369E+06, tol = 0.57580E+04, time = 10.80 | CG iter. 10 -- res = 0.36744E+06, tol = 0.57580E+04, time = 10.72 | CG iter. 11 -- res = 0.20957E+06, tol = 0.57580E+04, time = 10.75 | CG iter. 12 -- res = 0.11979E+06, tol = 0.57580E+04, time = 10.44 | CG iter. 13 -- res = 0.75410E+05, tol = 0.57580E+04, time = 10.84 | CG iter. 14 -- res = 0.54601E+05, tol = 0.57580E+04, time = 10.42 | CG iter. 15 -- res = 0.46163E+05, tol = 0.57580E+04, time = 11.22 | CG iter. 16 -- res = 0.42861E+05, tol = 0.57580E+04, time = 12.43 | CG iter. 17 -- res = 0.42083E+05, tol = 0.57580E+04, time = 10.79 | CG iter. 18 -- res = 0.39498E+05, tol = 0.57580E+04, time = 10.40 | CG iter. 19 -- res = 0.36312E+05, tol = 0.57580E+04, time = 10.54 | CG iter. 20 -- res = 0.33540E+05, tol = 0.57580E+04, time = 10.92 | CG iter. 21 -- res = 0.32390E+05, tol = 0.57580E+04, time = 10.65 | CG iter. 22 -- res = 0.32140E+05, tol = 0.57580E+04, time = 10.70 | CG iter. 23 -- res = 0.31496E+05, tol = 0.57580E+04, time = 10.77 | CG iter. 24 -- res = 0.28505E+05, tol = 0.57580E+04, time = 10.52 | CG iter. 25 -- res = 0.22984E+05, tol = 0.57580E+04, time = 11.50 | CG iter. 26 -- res = 0.17227E+05, tol = 0.57580E+04, time = 10.46 | CG iter. 27 -- res = 0.12670E+05, tol = 0.57580E+04, time = 10.78 | CG iter. 28 -- res = 0.97542E+04, tol = 0.57580E+04, time = 10.54 | CG iter. 29 -- res = 0.81491E+04, tol = 0.57580E+04, time = 10.91 | CG iter. 30 -- res = 0.72676E+04, tol = 0.57580E+04, time = 10.64 | CG iter. 31 -- res = 0.66193E+04, tol = 0.57580E+04, time = 11.04 | CG iter. 32 -- res = 0.58659E+04, tol = 0.57580E+04, time = 10.60 | CG iter. 33 -- res = 0.51336E+04, tol = 0.57580E+04, time = 10.86 | CG iter. 34 -- res = 0.44661E+04, tol = 0.57580E+04, time = 10.51 | CG iter. 35 -- res = 0.39442E+04, tol = 0.57580E+04, time = 16.84 | CG iter. 36 -- res = 0.36082E+04, tol = 0.57580E+04, time = 10.90 | CG iter. 37 -- res = 0.33795E+04, tol = 0.57580E+04, time = 10.85 | CG iter. 38 -- res = 0.30790E+04, tol = 0.57580E+04, time = 10.68 | CG iter. 39 -- res = 0.26728E+04, tol = 0.57580E+04, time = 11.01 | CG iter. 40 -- res = 0.22857E+04, tol = 0.57580E+04, time = 10.60 | CG iter. 41 -- res = 0.18848E+04, tol = 0.57580E+04, time = 10.71 | CG iter. 42 -- res = 0.15279E+04, tol = 0.57580E+04, time = 10.57 | CG iter. 43 -- res = 0.13330E+04, tol = 0.57580E+04, time = 12.54 | CG iter. 44 -- res = 0.12193E+04, tol = 0.57580E+04, time = 11.16 | CG iter. 45 -- res = 0.11585E+04, tol = 0.57580E+04, time = 10.60 | CG iter. 46 -- res = 0.10999E+04, tol = 0.57580E+04, time = 10.94 | CG iter. 47 -- res = 0.10024E+04, tol = 0.57580E+04, time = 10.65 | CG iter. 48 -- res = 0.88557E+03, tol = 0.57580E+04, time = 10.34 | CG iter. 49 -- res = 0.78642E+03, tol = 0.57580E+04, time = 10.86 | CG iter. 50 -- res = 0.71737E+03, tol = 0.57580E+04, time = 10.44 | CG iter. 51 -- res = 0.67347E+03, tol = 0.57580E+04, time = 10.79 | CG iter. 52 -- res = 0.63204E+03, tol = 0.57580E+04, time = 10.54 | CG iter. 53 -- res = 0.58679E+03, tol = 0.57580E+04, time = 10.61 | CG iter. 54 -- res = 0.52475E+03, tol = 0.57580E+04, time = 11.02 | CG iter. 55 -- res = 0.46008E+03, tol = 0.57580E+04, time = 10.31 | CG iter. 56 -- res = 0.40182E+03, tol = 0.57580E+04, time = 10.80 | CG iter. 57 -- res = 0.35894E+03, tol = 0.57580E+04, time = 10.89 | CG iter. 58 -- res = 0.33505E+03, tol = 0.57580E+04, time = 11.65 | CG iter. 59 -- res = 0.32167E+03, tol = 0.57580E+04, time = 10.80 | CG iter. 60 -- res = 0.30943E+03, tol = 0.57580E+04, time = 10.80 | Final CG iter 61 -- res = 0.30943E+03, tol = 0.57580E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.859 ( -229.840 -2230.597 2513.036 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7688212.934 | Old band monopole 11580016.153 | Change to band monopole -3891803.219 | Change to component monopole 3891786.480 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.127 2.713 | New value 0.331 | Old value 2.127 | Difference -1.796 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.671 ( 7.253 12.884 -12.376 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.394 4.770 | New value -1.343 | Old value 6.394 | Difference -7.737 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.30157E+06, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.63750E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.21609E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.57004E-02, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.76745E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7688179.865 | (Sampled value in CG: 7662974.780 ) | Chain = 1 -- chisq = 0.81532015E+09 | Chain = 1 -- wall time = 6018.257 sec Available RAM: MemAvailable: 384733632 kB Available Swap: SwapFree: 1124932332 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 209 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441031 | --> Sampling calibration, mode = relcal | relcal = 1.3424787E-02 7.4542343E-04 -1.5830894E-03 -1.2587121E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1052723 0.1202856 97043101.8792420 | BP delta = 9.5204815E-02 0.1102182 97043107.9609008 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632674 | --> Sampling calibration, mode = relcal | relcal = -2.8225011E-03 -7.0550275E-04 1.6807409E-03 1.6139604E-03 -4.0779769E-04 6.4110023E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5667455 15218960.6000350 | BP delta = 0.0000000E+00 -0.5682207 15218963.1002410 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17998399730134 | --> Sampling calibration, mode = relcal | relcal = -7.5407274E-02 -5.8670212E-02 9.2261292E-02 4.1816190E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3563082E-04 4.5720595E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1916E-05 | 2: delta_r/delta_0: 9.7087E-07 | 3: delta_s/delta_0: 1.9370E-07 | 4: delta_r/delta_0: 1.9151E-08 | 5: delta_s/delta_0: 6.3044E-09 | 6: delta_r/delta_0: 1.1698E-09 | 7: delta_s/delta_0: 2.2813E-10 | 8: delta_r/delta_0: 1.0472E-10 | 9: delta_s/delta_0: 2.0167E-10 | 10: delta_r/delta_0: 4.8940E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.308125712788175E-003 2.743361174570680E-005 | BP delta = 3.9056826E-02 5.6024730E-02 50481509.0175701 | BP delta = 3.7847579E-02 5.4815486E-02 50481509.3406293 | BP chisq diff = 0.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02594459 | --> Sampling calibration, mode = relcal | relcal = -0.1067211 -9.5511720E-02 0.1449728 5.7260048E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9915760E-03 1.4895333E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4441E-04 | 2: delta_r/delta_0: 3.0956E-06 | 3: delta_s/delta_0: 2.1257E-07 | 4: delta_r/delta_0: 4.2257E-08 | 5: delta_s/delta_0: 5.0587E-08 | 6: delta_r/delta_0: 7.9821E-09 | 7: delta_s/delta_0: 6.6012E-09 | 8: delta_r/delta_0: 2.0570E-09 | 9: delta_s/delta_0: 9.2050E-10 | 10: delta_r/delta_0: 6.9042E-10 | 11: delta_s/delta_0: 1.3760E-09 | 12: delta_r/delta_0: 1.2346E-10 | 13: delta_s/delta_0: 1.2157E-10 | 14: delta_r/delta_0: 5.6097E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.089480172841885E-002 2.810977240059498E-005 | BP delta = -0.2472282 -0.2244274 57388264.1162011 | BP delta = -0.2405478 -0.2177470 57388265.2079985 | BP chisq diff = 1.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81256573 | --> Sampling calibration, mode = relcal | relcal = 0.2955115 0.2249487 -0.2839127 -0.2365475 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1595649E-06 4.7869929E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8516E-03 | 2: delta_r/delta_0: 4.2786E-05 | 3: delta_s/delta_0: 5.0643E-06 | 4: delta_r/delta_0: 5.4040E-07 | 5: delta_s/delta_0: 7.5877E-06 | 6: delta_r/delta_0: 7.8986E-07 | 7: delta_s/delta_0: 5.1456E-08 | 8: delta_r/delta_0: 3.4192E-08 | 9: delta_s/delta_0: 5.5217E-07 | 10: delta_r/delta_0: 4.5435E-09 | 11: delta_s/delta_0: 1.3157E-09 | 12: delta_r/delta_0: 8.1661E-10 | 13: delta_s/delta_0: 1.7559E-07 | 14: delta_r/delta_0: 2.3120E-08 | 15: delta_s/delta_0: 3.4233E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.714515580107349E-002 4.019948609612696E-005 | BP delta = -0.1098703 -0.1386791 72489102.5817253 | BP delta = -0.1102711 -0.1390800 72489102.5684250 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95945963 | --> Sampling calibration, mode = relcal | relcal = 0.1065685 0.1396213 -0.1103258 -0.1358639 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0550193E-02 1.4181480E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3005E-04 | 2: delta_r/delta_0: 1.2983E-05 | 3: delta_s/delta_0: 3.2949E-05 | 4: delta_r/delta_0: 2.0624E-06 | 5: delta_s/delta_0: 2.8893E-07 | 6: delta_r/delta_0: 1.4109E-07 | 7: delta_s/delta_0: 4.6709E-07 | 8: delta_r/delta_0: 3.5588E-08 | 9: delta_s/delta_0: 1.5027E-08 | 10: delta_r/delta_0: 2.9759E-09 | 11: delta_s/delta_0: 2.3961E-09 | 12: delta_r/delta_0: 1.3552E-09 | 13: delta_s/delta_0: 2.2220E-09 | 14: delta_r/delta_0: 9.9010E-10 | 15: delta_s/delta_0: 8.3123E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.268091577362707E-002 3.696026920362147E-005 | BP delta = 0.1060363 0.2057709 72784589.4712823 | BP delta = 5.2758582E-02 0.1524932 72784590.4327336 | BP chisq diff = 1.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189403 | New value = -3.242918 | poltype: 2 pol: 1 CPU time specind = 1.9616127E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143303 | New value = -3.139336 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199366 | New value = -3.115309 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139490 | New value = -3.213300 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187580 | New value = -3.176900 | poltype: 2 pol: 2 CPU time specind = 1.7457008E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.13544E+08, tol = 0.87272E+01, time = 5.48 | CG iter. 2 -- res = 0.32788E+06, tol = 0.87272E+01, time = 4.97 | CG iter. 3 -- res = 0.48055E+05, tol = 0.87272E+01, time = 5.41 | CG iter. 4 -- res = 0.22518E+05, tol = 0.87272E+01, time = 5.20 | CG iter. 5 -- res = 0.13177E+05, tol = 0.87272E+01, time = 5.13 | CG iter. 6 -- res = 0.89514E+04, tol = 0.87272E+01, time = 5.20 | CG iter. 7 -- res = 0.74744E+04, tol = 0.87272E+01, time = 5.01 | CG iter. 8 -- res = 0.65443E+04, tol = 0.87272E+01, time = 4.96 | CG iter. 9 -- res = 0.64456E+04, tol = 0.87272E+01, time = 4.92 | CG iter. 10 -- res = 0.67294E+04, tol = 0.87272E+01, time = 5.21 | CG iter. 11 -- res = 0.58062E+04, tol = 0.87272E+01, time = 5.06 | CG iter. 12 -- res = 0.39181E+04, tol = 0.87272E+01, time = 6.06 | CG iter. 13 -- res = 0.27887E+04, tol = 0.87272E+01, time = 5.14 | CG iter. 14 -- res = 0.23913E+04, tol = 0.87272E+01, time = 5.08 | CG iter. 15 -- res = 0.21570E+04, tol = 0.87272E+01, time = 5.09 | CG iter. 16 -- res = 0.18429E+04, tol = 0.87272E+01, time = 5.09 | CG iter. 17 -- res = 0.14127E+04, tol = 0.87272E+01, time = 5.03 | CG iter. 18 -- res = 0.11333E+04, tol = 0.87272E+01, time = 5.23 | CG iter. 19 -- res = 0.98197E+03, tol = 0.87272E+01, time = 5.25 | CG iter. 20 -- res = 0.79316E+03, tol = 0.87272E+01, time = 5.36 | CG iter. 21 -- res = 0.59678E+03, tol = 0.87272E+01, time = 5.29 | CG iter. 22 -- res = 0.47755E+03, tol = 0.87272E+01, time = 5.18 | CG iter. 23 -- res = 0.43374E+03, tol = 0.87272E+01, time = 5.09 | CG iter. 24 -- res = 0.39786E+03, tol = 0.87272E+01, time = 5.38 | CG iter. 25 -- res = 0.32830E+03, tol = 0.87272E+01, time = 4.97 | CG iter. 26 -- res = 0.26745E+03, tol = 0.87272E+01, time = 5.29 | CG iter. 27 -- res = 0.23013E+03, tol = 0.87272E+01, time = 5.19 | CG iter. 28 -- res = 0.20825E+03, tol = 0.87272E+01, time = 5.36 | CG iter. 29 -- res = 0.17646E+03, tol = 0.87272E+01, time = 5.19 | CG iter. 30 -- res = 0.14579E+03, tol = 0.87272E+01, time = 5.19 | CG iter. 31 -- res = 0.12669E+03, tol = 0.87272E+01, time = 7.08 | CG iter. 32 -- res = 0.11629E+03, tol = 0.87272E+01, time = 9.86 | CG iter. 33 -- res = 0.10041E+03, tol = 0.87272E+01, time = 5.51 | CG iter. 34 -- res = 0.80243E+02, tol = 0.87272E+01, time = 5.23 | CG iter. 35 -- res = 0.66590E+02, tol = 0.87272E+01, time = 5.40 | CG iter. 36 -- res = 0.61065E+02, tol = 0.87272E+01, time = 5.37 | CG iter. 37 -- res = 0.54012E+02, tol = 0.87272E+01, time = 5.03 | CG iter. 38 -- res = 0.44784E+02, tol = 0.87272E+01, time = 5.39 | CG iter. 39 -- res = 0.36483E+02, tol = 0.87272E+01, time = 5.34 | CG iter. 40 -- res = 0.32611E+02, tol = 0.87272E+01, time = 5.31 | CG iter. 41 -- res = 0.29641E+02, tol = 0.87272E+01, time = 5.06 | CG iter. 42 -- res = 0.24739E+02, tol = 0.87272E+01, time = 5.20 | CG iter. 43 -- res = 0.20505E+02, tol = 0.87272E+01, time = 5.27 | CG iter. 44 -- res = 0.17523E+02, tol = 0.87272E+01, time = 5.11 | CG iter. 45 -- res = 0.16125E+02, tol = 0.87272E+01, time = 5.54 | CG iter. 46 -- res = 0.13719E+02, tol = 0.87272E+01, time = 5.15 | CG iter. 47 -- res = 0.11165E+02, tol = 0.87272E+01, time = 5.32 | CG iter. 48 -- res = 0.91122E+01, tol = 0.87272E+01, time = 6.64 | CG iter. 49 -- res = 0.79688E+01, tol = 0.87272E+01, time = 5.45 | CG iter. 50 -- res = 0.68963E+01, tol = 0.87272E+01, time = 5.15 | Final CG iter 51 -- res = 0.68963E+01, tol = 0.87272E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8144334.846 | Old band monopole 7688212.934 | Change to band monopole 456121.913 | Change to component monopole -456119.951 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.14559E+06, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.65796E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.22173E+01, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.69479E-02, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.50195E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8144299.816 | (Sampled value in CG: 8111919.325 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509236 | New value = 1.519808 | poltype: 2 pol: 1 CPU time specind = 1.5366077E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.517251 | New value = 1.539756 | poltype: 2 pol: 2 CPU time specind = 3.3237934E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.24043E+08, tol = 0.47612E+04, time = 6.02 | CG iter. 2 -- res = 0.53013E+07, tol = 0.47612E+04, time = 6.15 | CG iter. 3 -- res = 0.84730E+06, tol = 0.47612E+04, time = 6.06 | CG iter. 4 -- res = 0.35934E+06, tol = 0.47612E+04, time = 5.98 | CG iter. 5 -- res = 0.15734E+06, tol = 0.47612E+04, time = 5.91 | CG iter. 6 -- res = 0.81135E+05, tol = 0.47612E+04, time = 5.87 | CG iter. 7 -- res = 0.44419E+05, tol = 0.47612E+04, time = 5.81 | CG iter. 8 -- res = 0.21422E+05, tol = 0.47612E+04, time = 5.82 | CG iter. 9 -- res = 0.95319E+04, tol = 0.47612E+04, time = 5.93 | CG iter. 10 -- res = 0.38446E+04, tol = 0.47612E+04, time = 5.77 | CG iter. 11 -- res = 0.17180E+04, tol = 0.47612E+04, time = 5.74 | CG iter. 12 -- res = 0.88992E+03, tol = 0.47612E+04, time = 6.13 | CG iter. 13 -- res = 0.50731E+03, tol = 0.47612E+04, time = 5.88 | CG iter. 14 -- res = 0.29150E+03, tol = 0.47612E+04, time = 7.35 | CG iter. 15 -- res = 0.14852E+03, tol = 0.47612E+04, time = 10.48 | CG iter. 16 -- res = 0.70542E+02, tol = 0.47612E+04, time = 5.78 | CG iter. 17 -- res = 0.32778E+02, tol = 0.47612E+04, time = 6.03 | CG iter. 18 -- res = 0.16462E+02, tol = 0.47612E+04, time = 5.81 | CG iter. 19 -- res = 0.90780E+01, tol = 0.47612E+04, time = 5.90 | CG iter. 20 -- res = 0.51676E+01, tol = 0.47612E+04, time = 6.13 | CG iter. 21 -- res = 0.28381E+01, tol = 0.47612E+04, time = 6.03 | CG iter. 22 -- res = 0.14595E+01, tol = 0.47612E+04, time = 5.81 | CG iter. 23 -- res = 0.71214E+00, tol = 0.47612E+04, time = 5.88 | CG iter. 24 -- res = 0.36190E+00, tol = 0.47612E+04, time = 5.67 | CG iter. 25 -- res = 0.19763E+00, tol = 0.47612E+04, time = 5.60 | CG iter. 26 -- res = 0.11072E+00, tol = 0.47612E+04, time = 5.76 | CG iter. 27 -- res = 0.62892E-01, tol = 0.47612E+04, time = 5.99 | CG iter. 28 -- res = 0.34083E-01, tol = 0.47612E+04, time = 5.98 | CG iter. 29 -- res = 0.17886E-01, tol = 0.47612E+04, time = 7.12 | CG iter. 30 -- res = 0.92701E-02, tol = 0.47612E+04, time = 6.54 | CG iter. 31 -- res = 0.49809E-02, tol = 0.47612E+04, time = 6.25 | CG iter. 32 -- res = 0.28131E-02, tol = 0.47612E+04, time = 5.57 | CG iter. 33 -- res = 0.16048E-02, tol = 0.47612E+04, time = 6.05 | CG iter. 34 -- res = 0.87068E-03, tol = 0.47612E+04, time = 5.79 | CG iter. 35 -- res = 0.44357E-03, tol = 0.47612E+04, time = 5.87 | Final CG iter 36 -- res = 0.44357E-03, tol = 0.47612E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.348 2.748 | New value -1.178 | Old value 0.348 | Difference -1.526 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.12170E+06, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.28606E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.78036E+00, tol = 0.47627E+18, time = 1.67 | CG iter. 4 -- res = 0.17802E-03, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.72445E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8144299.816 | (Sampled value in CG: 8112907.936 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.499223 | New value = -3.764757 | poltype: 1 pol: 1 CPU time specind = 7.2600842E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.27962E+07, tol = 0.29817E+01, time = 3.59 | CG iter. 2 -- res = 0.77382E+06, tol = 0.29817E+01, time = 2.75 | CG iter. 3 -- res = 0.17263E+06, tol = 0.29817E+01, time = 2.48 | CG iter. 4 -- res = 0.93468E+05, tol = 0.29817E+01, time = 2.75 | CG iter. 5 -- res = 0.55780E+05, tol = 0.29817E+01, time = 2.44 | CG iter. 6 -- res = 0.22766E+05, tol = 0.29817E+01, time = 2.36 | CG iter. 7 -- res = 0.74180E+04, tol = 0.29817E+01, time = 2.22 | CG iter. 8 -- res = 0.32047E+04, tol = 0.29817E+01, time = 2.36 | CG iter. 9 -- res = 0.14398E+04, tol = 0.29817E+01, time = 2.57 | CG iter. 10 -- res = 0.56475E+03, tol = 0.29817E+01, time = 2.17 | CG iter. 11 -- res = 0.24851E+03, tol = 0.29817E+01, time = 2.49 | CG iter. 12 -- res = 0.13087E+03, tol = 0.29817E+01, time = 2.50 | CG iter. 13 -- res = 0.67064E+02, tol = 0.29817E+01, time = 2.40 | CG iter. 14 -- res = 0.31655E+02, tol = 0.29817E+01, time = 2.45 | CG iter. 15 -- res = 0.13138E+02, tol = 0.29817E+01, time = 2.61 | CG iter. 16 -- res = 0.54686E+01, tol = 0.29817E+01, time = 2.53 | CG iter. 17 -- res = 0.23711E+01, tol = 0.29817E+01, time = 2.68 | CG iter. 18 -- res = 0.11838E+01, tol = 0.29817E+01, time = 2.45 | CG iter. 19 -- res = 0.56789E+00, tol = 0.29817E+01, time = 2.42 | CG iter. 20 -- res = 0.26953E+00, tol = 0.29817E+01, time = 2.24 | CG iter. 21 -- res = 0.12000E+00, tol = 0.29817E+01, time = 2.52 | CG iter. 22 -- res = 0.52486E-01, tol = 0.29817E+01, time = 2.52 | CG iter. 23 -- res = 0.24346E-01, tol = 0.29817E+01, time = 2.39 | CG iter. 24 -- res = 0.11859E-01, tol = 0.29817E+01, time = 2.51 | CG iter. 25 -- res = 0.59703E-02, tol = 0.29817E+01, time = 2.35 | CG iter. 26 -- res = 0.28874E-02, tol = 0.29817E+01, time = 2.47 | CG iter. 27 -- res = 0.13518E-02, tol = 0.29817E+01, time = 2.59 | CG iter. 28 -- res = 0.61726E-03, tol = 0.29817E+01, time = 2.29 | CG iter. 29 -- res = 0.26738E-03, tol = 0.29817E+01, time = 2.33 | CG iter. 30 -- res = 0.13637E-03, tol = 0.29817E+01, time = 2.43 | CG iter. 31 -- res = 0.70839E-04, tol = 0.29817E+01, time = 2.28 | CG iter. 32 -- res = 0.32942E-04, tol = 0.29817E+01, time = 2.32 | CG iter. 33 -- res = 0.15654E-04, tol = 0.29817E+01, time = 2.70 | CG iter. 34 -- res = 0.68657E-05, tol = 0.29817E+01, time = 2.40 | CG iter. 35 -- res = 0.31855E-05, tol = 0.29817E+01, time = 2.18 | CG iter. 36 -- res = 0.16351E-05, tol = 0.29817E+01, time = 2.33 | CG iter. 37 -- res = 0.81803E-06, tol = 0.29817E+01, time = 2.56 | CG iter. 38 -- res = 0.38686E-06, tol = 0.29817E+01, time = 2.44 | CG iter. 39 -- res = 0.17226E-06, tol = 0.29817E+01, time = 2.53 | CG iter. 40 -- res = 0.77075E-07, tol = 0.29817E+01, time = 2.35 | CG iter. 41 -- res = 0.38725E-07, tol = 0.29817E+01, time = 2.56 | CG iter. 42 -- res = 0.19068E-07, tol = 0.29817E+01, time = 2.41 | CG iter. 43 -- res = 0.91512E-08, tol = 0.29817E+01, time = 2.24 | CG iter. 44 -- res = 0.43581E-08, tol = 0.29817E+01, time = 2.39 | CG iter. 45 -- res = 0.19550E-08, tol = 0.29817E+01, time = 2.72 | CG iter. 46 -- res = 0.91528E-09, tol = 0.29817E+01, time = 2.52 | CG iter. 47 -- res = 0.43597E-09, tol = 0.29817E+01, time = 2.22 | CG iter. 48 -- res = 0.21457E-09, tol = 0.29817E+01, time = 2.34 | CG iter. 49 -- res = 0.10126E-09, tol = 0.29817E+01, time = 2.33 | CG iter. 50 -- res = 0.46687E-10, tol = 0.29817E+01, time = 2.49 | Final CG iter 51 -- res = 0.46687E-10, tol = 0.29817E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.226 5.697 | New value 1.644 | Old value -5.226 | Difference 6.869 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.46590E+05, tol = 0.47627E+18, time = 1.68 | CG iter. 2 -- res = 0.30830E+02, tol = 0.47627E+18, time = 1.83 | CG iter. 3 -- res = 0.12383E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.29854E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.16027E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8144299.816 | (Sampled value in CG: 8119434.502 ) | CPU time specind = 1077.265 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.68970E+08, tol = 0.58121E+04, time = 16.76 | CG iter. 2 -- res = 0.58478E+08, tol = 0.58121E+04, time = 10.73 | CG iter. 3 -- res = 0.15472E+08, tol = 0.58121E+04, time = 10.48 | CG iter. 4 -- res = 0.65379E+07, tol = 0.58121E+04, time = 10.93 | CG iter. 5 -- res = 0.38575E+07, tol = 0.58121E+04, time = 10.67 | CG iter. 6 -- res = 0.22076E+07, tol = 0.58121E+04, time = 10.77 | CG iter. 7 -- res = 0.13028E+07, tol = 0.58121E+04, time = 10.90 | CG iter. 8 -- res = 0.84788E+06, tol = 0.58121E+04, time = 10.67 | CG iter. 9 -- res = 0.54032E+06, tol = 0.58121E+04, time = 12.62 | CG iter. 10 -- res = 0.32536E+06, tol = 0.58121E+04, time = 11.25 | CG iter. 11 -- res = 0.17516E+06, tol = 0.58121E+04, time = 10.83 | CG iter. 12 -- res = 0.93745E+05, tol = 0.58121E+04, time = 10.80 | CG iter. 13 -- res = 0.51436E+05, tol = 0.58121E+04, time = 11.07 | CG iter. 14 -- res = 0.29999E+05, tol = 0.58121E+04, time = 11.31 | CG iter. 15 -- res = 0.19586E+05, tol = 0.58121E+04, time = 10.88 | CG iter. 16 -- res = 0.13906E+05, tol = 0.58121E+04, time = 10.66 | CG iter. 17 -- res = 0.10302E+05, tol = 0.58121E+04, time = 11.15 | CG iter. 18 -- res = 0.74046E+04, tol = 0.58121E+04, time = 10.90 | CG iter. 19 -- res = 0.51732E+04, tol = 0.58121E+04, time = 11.33 | CG iter. 20 -- res = 0.37439E+04, tol = 0.58121E+04, time = 10.93 | CG iter. 21 -- res = 0.29313E+04, tol = 0.58121E+04, time = 10.27 | CG iter. 22 -- res = 0.26448E+04, tol = 0.58121E+04, time = 10.85 | CG iter. 23 -- res = 0.27469E+04, tol = 0.58121E+04, time = 10.53 | CG iter. 24 -- res = 0.30358E+04, tol = 0.58121E+04, time = 10.48 | CG iter. 25 -- res = 0.32587E+04, tol = 0.58121E+04, time = 10.88 | CG iter. 26 -- res = 0.32493E+04, tol = 0.58121E+04, time = 10.65 | CG iter. 27 -- res = 0.29100E+04, tol = 0.58121E+04, time = 10.57 | CG iter. 28 -- res = 0.25080E+04, tol = 0.58121E+04, time = 16.54 | CG iter. 29 -- res = 0.22061E+04, tol = 0.58121E+04, time = 10.71 | CG iter. 30 -- res = 0.19205E+04, tol = 0.58121E+04, time = 10.77 | CG iter. 31 -- res = 0.16588E+04, tol = 0.58121E+04, time = 10.73 | CG iter. 32 -- res = 0.14263E+04, tol = 0.58121E+04, time = 10.64 | CG iter. 33 -- res = 0.12136E+04, tol = 0.58121E+04, time = 10.87 | CG iter. 34 -- res = 0.98172E+03, tol = 0.58121E+04, time = 10.69 | CG iter. 35 -- res = 0.77713E+03, tol = 0.58121E+04, time = 10.63 | CG iter. 36 -- res = 0.65880E+03, tol = 0.58121E+04, time = 12.25 | CG iter. 37 -- res = 0.61900E+03, tol = 0.58121E+04, time = 11.14 | CG iter. 38 -- res = 0.62406E+03, tol = 0.58121E+04, time = 10.91 | CG iter. 39 -- res = 0.63464E+03, tol = 0.58121E+04, time = 10.64 | CG iter. 40 -- res = 0.62153E+03, tol = 0.58121E+04, time = 10.78 | CG iter. 41 -- res = 0.57355E+03, tol = 0.58121E+04, time = 11.16 | CG iter. 42 -- res = 0.50949E+03, tol = 0.58121E+04, time = 10.28 | CG iter. 43 -- res = 0.47468E+03, tol = 0.58121E+04, time = 10.75 | CG iter. 44 -- res = 0.44576E+03, tol = 0.58121E+04, time = 10.46 | CG iter. 45 -- res = 0.42686E+03, tol = 0.58121E+04, time = 11.19 | CG iter. 46 -- res = 0.40288E+03, tol = 0.58121E+04, time = 10.77 | CG iter. 47 -- res = 0.36186E+03, tol = 0.58121E+04, time = 10.52 | CG iter. 48 -- res = 0.30717E+03, tol = 0.58121E+04, time = 10.97 | CG iter. 49 -- res = 0.26482E+03, tol = 0.58121E+04, time = 10.92 | CG iter. 50 -- res = 0.23748E+03, tol = 0.58121E+04, time = 10.62 | CG iter. 51 -- res = 0.22525E+03, tol = 0.58121E+04, time = 11.29 | CG iter. 52 -- res = 0.22693E+03, tol = 0.58121E+04, time = 12.59 | CG iter. 53 -- res = 0.22818E+03, tol = 0.58121E+04, time = 12.79 | CG iter. 54 -- res = 0.21593E+03, tol = 0.58121E+04, time = 18.76 | CG iter. 55 -- res = 0.20056E+03, tol = 0.58121E+04, time = 11.94 | CG iter. 56 -- res = 0.17754E+03, tol = 0.58121E+04, time = 10.71 | CG iter. 57 -- res = 0.15898E+03, tol = 0.58121E+04, time = 10.44 | CG iter. 58 -- res = 0.14484E+03, tol = 0.58121E+04, time = 10.63 | CG iter. 59 -- res = 0.13679E+03, tol = 0.58121E+04, time = 10.62 | CG iter. 60 -- res = 0.12994E+03, tol = 0.58121E+04, time = 10.91 | Final CG iter 61 -- res = 0.12994E+03, tol = 0.58121E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.667 ( -230.016 -2229.781 2511.988 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8839049.423 | Old band monopole 8144334.846 | Change to band monopole 694714.577 | Change to component monopole -694711.589 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.192 2.732 | New value -4.028 | Old value -1.192 | Difference -2.836 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.262 ( 8.491 10.972 -9.512 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.334 5.211 | New value -0.113 | Old value 10.334 | Difference -10.446 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.47147E+06, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.34901E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.15523E+01, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.32248E-02, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.38064E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8839011.404 | (Sampled value in CG: 8819349.974 ) | Chain = 1 -- chisq = 0.81513608E+09 | Chain = 1 -- wall time = 5487.051 sec Available RAM: MemAvailable: 384207256 kB Available Swap: SwapFree: 1125761260 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 210 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442415 | --> Sampling calibration, mode = relcal | relcal = 1.3444253E-02 7.3246704E-04 -1.5901340E-03 -1.2586586E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1052723 0.1202856 9407023.57467075 | BP delta = 0.1052723 0.1186557 9407025.19336462 | BP chisq diff = 1.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632612 | --> Sampling calibration, mode = relcal | relcal = -2.8217128E-03 -7.0479291E-04 1.6784659E-03 1.6153168E-03 -4.0823678E-04 6.4095965E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5667455 15215619.0090760 | BP delta = 0.0000000E+00 -0.5673881 15215619.4791033 | BP chisq diff = 0.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17978983631021 | --> Sampling calibration, mode = relcal | relcal = -7.5079031E-02 -5.8439009E-02 9.1866300E-02 4.1651737E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.8329514E-04 4.4390950E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1145E-05 | 2: delta_r/delta_0: 8.1928E-07 | 3: delta_s/delta_0: 7.6597E-07 | 4: delta_r/delta_0: 1.1056E-07 | 5: delta_s/delta_0: 5.4819E-09 | 6: delta_r/delta_0: 6.6535E-10 | 7: delta_s/delta_0: 4.9131E-10 | 8: delta_r/delta_0: 1.5958E-10 | 9: delta_s/delta_0: 8.1967E-10 | 10: delta_r/delta_0: 3.1689E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.414600538553484E-003 2.743827287620568E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1145E-05 | 2: delta_r/delta_0: 8.1931E-07 | 3: delta_s/delta_0: 7.6568E-07 | 4: delta_r/delta_0: 1.1052E-07 | 5: delta_s/delta_0: 5.4821E-09 | 6: delta_r/delta_0: 6.6531E-10 | 7: delta_s/delta_0: 4.9130E-10 | 8: delta_r/delta_0: 1.5956E-10 | 9: delta_s/delta_0: 8.1914E-10 | 10: delta_r/delta_0: 3.1680E-11 | Reached bicg-stab tolerance | BP delta = 3.7847579E-02 5.4815486E-02 3610384.70234400 | BP delta = 3.7847579E-02 5.4422647E-02 3613672.34275668 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02589991 | --> Sampling calibration, mode = relcal | relcal = -0.1066004 -9.5538370E-02 0.1449071 5.7231631E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1138579E-03 1.3471270E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5413E-04 | 2: delta_r/delta_0: 3.3023E-06 | 3: delta_s/delta_0: 1.9949E-07 | 4: delta_r/delta_0: 5.6548E-08 | 5: delta_s/delta_0: 3.9118E-08 | 6: delta_r/delta_0: 9.5522E-09 | 7: delta_s/delta_0: 9.7537E-09 | 8: delta_r/delta_0: 2.0588E-09 | 9: delta_s/delta_0: 8.8092E-10 | 10: delta_r/delta_0: 6.2363E-10 | 11: delta_s/delta_0: 2.1856E-09 | 12: delta_r/delta_0: 6.4661E-10 | 13: delta_s/delta_0: 1.1840E-10 | 14: delta_r/delta_0: 3.5429E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.081751212444164E-002 2.811064929158921E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5413E-04 | 2: delta_r/delta_0: 3.3023E-06 | 3: delta_s/delta_0: 1.9949E-07 | 4: delta_r/delta_0: 5.6551E-08 | 5: delta_s/delta_0: 3.9113E-08 | 6: delta_r/delta_0: 9.5523E-09 | 7: delta_s/delta_0: 9.7530E-09 | 8: delta_r/delta_0: 2.0589E-09 | 9: delta_s/delta_0: 8.8095E-10 | 10: delta_r/delta_0: 6.2364E-10 | 11: delta_s/delta_0: 2.1817E-09 | 12: delta_r/delta_0: 6.4618E-10 | 13: delta_s/delta_0: 1.1841E-10 | 14: delta_r/delta_0: 3.5472E-11 | Reached bicg-stab tolerance | BP delta = -0.2405478 -0.2177470 2841874.97999902 | BP delta = -0.2405478 -0.2182815 2841875.43042018 | BP chisq diff = 0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236360 | --> Sampling calibration, mode = relcal | relcal = 0.2954800 0.2249421 -0.2837739 -0.2366482 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3001954E-04 5.1221871E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7739E-03 | 2: delta_r/delta_0: 8.7571E-05 | 3: delta_s/delta_0: 3.2814E-05 | 4: delta_r/delta_0: 3.1162E-06 | 5: delta_s/delta_0: 7.6047E-06 | 6: delta_r/delta_0: 8.9368E-07 | 7: delta_s/delta_0: 6.9980E-08 | 8: delta_r/delta_0: 2.6224E-08 | 9: delta_s/delta_0: 5.5884E-07 | 10: delta_r/delta_0: 1.7686E-08 | 11: delta_s/delta_0: 6.4880E-09 | 12: delta_r/delta_0: 4.2964E-10 | 13: delta_s/delta_0: 3.4807E-10 | 14: delta_r/delta_0: 1.5361E-10 | 15: delta_s/delta_0: 1.1090E-09 | 16: delta_r/delta_0: 1.0200E-10 | 17: delta_s/delta_0: 1.0075E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.404410055538229E-002 4.021034221967661E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7760E-03 | 2: delta_r/delta_0: 8.7620E-05 | 3: delta_s/delta_0: 3.2778E-05 | 4: delta_r/delta_0: 3.1132E-06 | 5: delta_s/delta_0: 7.6081E-06 | 6: delta_r/delta_0: 8.9336E-07 | 7: delta_s/delta_0: 7.0031E-08 | 8: delta_r/delta_0: 2.6209E-08 | 9: delta_s/delta_0: 5.5657E-07 | 10: delta_r/delta_0: 1.7677E-08 | 11: delta_s/delta_0: 6.4943E-09 | 12: delta_r/delta_0: 4.2958E-10 | 13: delta_s/delta_0: 3.4777E-10 | 14: delta_r/delta_0: 1.5413E-10 | 15: delta_s/delta_0: 1.1024E-09 | 16: delta_r/delta_0: 1.0206E-10 | 17: delta_s/delta_0: 1.0092E-11 | Reached bicg-stab tolerance | BP delta = -0.1102711 -0.1390800 2827159.28653808 | BP delta = -0.1102711 -0.1554775 2827181.31157949 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95923635 | --> Sampling calibration, mode = relcal | relcal = 0.1065752 0.1396521 -0.1103229 -0.1359044 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0225446E-02 1.3268572E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8847E-04 | 2: delta_r/delta_0: 7.2293E-06 | 3: delta_s/delta_0: 1.1812E-05 | 4: delta_r/delta_0: 6.3317E-07 | 5: delta_s/delta_0: 2.3626E-07 | 6: delta_r/delta_0: 1.1724E-07 | 7: delta_s/delta_0: 1.5505E-07 | 8: delta_r/delta_0: 2.9415E-08 | 9: delta_s/delta_0: 8.3542E-09 | 10: delta_r/delta_0: 3.6218E-09 | 11: delta_s/delta_0: 1.0628E-09 | 12: delta_r/delta_0: 6.1070E-10 | 13: delta_s/delta_0: 1.7705E-10 | 14: delta_r/delta_0: 1.0656E-10 | 15: delta_s/delta_0: 8.4250E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.055248521585966E-002 3.696979729413011E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.8848E-04 | 2: delta_r/delta_0: 7.2293E-06 | 3: delta_s/delta_0: 1.1812E-05 | 4: delta_r/delta_0: 6.3310E-07 | 5: delta_s/delta_0: 2.3626E-07 | 6: delta_r/delta_0: 1.1724E-07 | 7: delta_s/delta_0: 1.5499E-07 | 8: delta_r/delta_0: 2.9415E-08 | 9: delta_s/delta_0: 8.3544E-09 | 10: delta_r/delta_0: 3.6231E-09 | 11: delta_s/delta_0: 1.0631E-09 | 12: delta_r/delta_0: 6.1309E-10 | 13: delta_s/delta_0: 1.7698E-10 | 14: delta_r/delta_0: 1.0674E-10 | 15: delta_s/delta_0: 8.4411E-11 | Reached bicg-stab tolerance | BP delta = 5.2758582E-02 0.1524932 3003574.51872173 | BP delta = 5.2758582E-02 0.1531756 3003553.04225447 | BP chisq diff = -21.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.242918 | New value = -3.136143 | poltype: 2 pol: 1 CPU time specind = 1.7493963E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139336 | New value = -3.169667 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115309 | New value = -3.111885 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.213300 | New value = -3.125681 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176900 | New value = -3.190947 | poltype: 2 pol: 2 CPU time specind = 4.2459965E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.13656E+08, tol = 0.78811E+01, time = 5.09 | CG iter. 2 -- res = 0.35998E+06, tol = 0.78811E+01, time = 4.89 | CG iter. 3 -- res = 0.98243E+05, tol = 0.78811E+01, time = 5.15 | CG iter. 4 -- res = 0.11869E+06, tol = 0.78811E+01, time = 5.19 | CG iter. 5 -- res = 0.12691E+06, tol = 0.78811E+01, time = 4.90 | CG iter. 6 -- res = 0.12112E+06, tol = 0.78811E+01, time = 5.02 | CG iter. 7 -- res = 0.10053E+06, tol = 0.78811E+01, time = 5.16 | CG iter. 8 -- res = 0.70324E+05, tol = 0.78811E+01, time = 5.61 | CG iter. 9 -- res = 0.57042E+05, tol = 0.78811E+01, time = 4.90 | CG iter. 10 -- res = 0.46726E+05, tol = 0.78811E+01, time = 5.16 | CG iter. 11 -- res = 0.33441E+05, tol = 0.78811E+01, time = 5.10 | CG iter. 12 -- res = 0.25743E+05, tol = 0.78811E+01, time = 4.95 | CG iter. 13 -- res = 0.22588E+05, tol = 0.78811E+01, time = 5.28 | CG iter. 14 -- res = 0.19944E+05, tol = 0.78811E+01, time = 5.04 | CG iter. 15 -- res = 0.15462E+05, tol = 0.78811E+01, time = 5.13 | CG iter. 16 -- res = 0.10379E+05, tol = 0.78811E+01, time = 4.82 | CG iter. 17 -- res = 0.76037E+04, tol = 0.78811E+01, time = 5.02 | CG iter. 18 -- res = 0.66324E+04, tol = 0.78811E+01, time = 5.04 | CG iter. 19 -- res = 0.57769E+04, tol = 0.78811E+01, time = 5.08 | CG iter. 20 -- res = 0.45733E+04, tol = 0.78811E+01, time = 4.95 | CG iter. 21 -- res = 0.33940E+04, tol = 0.78811E+01, time = 5.32 | CG iter. 22 -- res = 0.27571E+04, tol = 0.78811E+01, time = 5.17 | CG iter. 23 -- res = 0.25238E+04, tol = 0.78811E+01, time = 4.89 | CG iter. 24 -- res = 0.20353E+04, tol = 0.78811E+01, time = 5.09 | CG iter. 25 -- res = 0.15178E+04, tol = 0.78811E+01, time = 5.04 | CG iter. 26 -- res = 0.12287E+04, tol = 0.78811E+01, time = 5.17 | CG iter. 27 -- res = 0.11442E+04, tol = 0.78811E+01, time = 5.33 | CG iter. 28 -- res = 0.99337E+03, tol = 0.78811E+01, time = 11.09 | CG iter. 29 -- res = 0.76768E+03, tol = 0.78811E+01, time = 5.08 | CG iter. 30 -- res = 0.58545E+03, tol = 0.78811E+01, time = 4.84 | CG iter. 31 -- res = 0.51846E+03, tol = 0.78811E+01, time = 5.15 | CG iter. 32 -- res = 0.45371E+03, tol = 0.78811E+01, time = 5.28 | CG iter. 33 -- res = 0.35672E+03, tol = 0.78811E+01, time = 4.87 | CG iter. 34 -- res = 0.26945E+03, tol = 0.78811E+01, time = 5.12 | CG iter. 35 -- res = 0.22637E+03, tol = 0.78811E+01, time = 5.32 | CG iter. 36 -- res = 0.20374E+03, tol = 0.78811E+01, time = 4.90 | CG iter. 37 -- res = 0.16332E+03, tol = 0.78811E+01, time = 4.62 | CG iter. 38 -- res = 0.12068E+03, tol = 0.78811E+01, time = 5.23 | CG iter. 39 -- res = 0.94664E+02, tol = 0.78811E+01, time = 5.14 | CG iter. 40 -- res = 0.80490E+02, tol = 0.78811E+01, time = 5.11 | CG iter. 41 -- res = 0.67000E+02, tol = 0.78811E+01, time = 5.06 | CG iter. 42 -- res = 0.48153E+02, tol = 0.78811E+01, time = 4.99 | CG iter. 43 -- res = 0.37351E+02, tol = 0.78811E+01, time = 4.80 | CG iter. 44 -- res = 0.30172E+02, tol = 0.78811E+01, time = 5.84 | CG iter. 45 -- res = 0.24691E+02, tol = 0.78811E+01, time = 6.10 | CG iter. 46 -- res = 0.18387E+02, tol = 0.78811E+01, time = 5.26 | CG iter. 47 -- res = 0.13973E+02, tol = 0.78811E+01, time = 5.52 | CG iter. 48 -- res = 0.11177E+02, tol = 0.78811E+01, time = 5.08 | CG iter. 49 -- res = 0.92912E+01, tol = 0.78811E+01, time = 4.88 | CG iter. 50 -- res = 0.71167E+01, tol = 0.78811E+01, time = 5.19 | Final CG iter 51 -- res = 0.71167E+01, tol = 0.78811E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8161538.359 | Old band monopole 8839049.423 | Change to band monopole -677511.064 | Change to component monopole 677508.150 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.59334E+06, tol = 0.47627E+18, time = 1.46 | CG iter. 2 -- res = 0.28119E+03, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.42337E+01, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.44066E-01, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.23742E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8161503.254 | (Sampled value in CG: 8250358.726 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519808 | New value = 1.480139 | poltype: 2 pol: 1 CPU time specind = 2.0746946E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.539756 | New value = 1.481733 | poltype: 2 pol: 2 CPU time specind = 3.7448406E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.42 | CG iter. 1 -- res = 0.24325E+08, tol = 0.47477E+04, time = 5.53 | CG iter. 2 -- res = 0.52344E+07, tol = 0.47477E+04, time = 5.96 | CG iter. 3 -- res = 0.83300E+06, tol = 0.47477E+04, time = 6.02 | CG iter. 4 -- res = 0.35086E+06, tol = 0.47477E+04, time = 5.70 | CG iter. 5 -- res = 0.15302E+06, tol = 0.47477E+04, time = 5.84 | CG iter. 6 -- res = 0.78909E+05, tol = 0.47477E+04, time = 6.19 | CG iter. 7 -- res = 0.42954E+05, tol = 0.47477E+04, time = 5.70 | CG iter. 8 -- res = 0.20956E+05, tol = 0.47477E+04, time = 5.66 | CG iter. 9 -- res = 0.90729E+04, tol = 0.47477E+04, time = 5.78 | CG iter. 10 -- res = 0.36874E+04, tol = 0.47477E+04, time = 6.06 | CG iter. 11 -- res = 0.16544E+04, tol = 0.47477E+04, time = 5.79 | CG iter. 12 -- res = 0.85109E+03, tol = 0.47477E+04, time = 13.20 | CG iter. 13 -- res = 0.49021E+03, tol = 0.47477E+04, time = 5.79 | CG iter. 14 -- res = 0.28218E+03, tol = 0.47477E+04, time = 5.80 | CG iter. 15 -- res = 0.14341E+03, tol = 0.47477E+04, time = 6.02 | CG iter. 16 -- res = 0.68360E+02, tol = 0.47477E+04, time = 5.59 | CG iter. 17 -- res = 0.32141E+02, tol = 0.47477E+04, time = 5.92 | CG iter. 18 -- res = 0.15993E+02, tol = 0.47477E+04, time = 5.94 | CG iter. 19 -- res = 0.86041E+01, tol = 0.47477E+04, time = 5.98 | CG iter. 20 -- res = 0.49553E+01, tol = 0.47477E+04, time = 5.71 | CG iter. 21 -- res = 0.27408E+01, tol = 0.47477E+04, time = 5.93 | CG iter. 22 -- res = 0.14351E+01, tol = 0.47477E+04, time = 5.85 | CG iter. 23 -- res = 0.70453E+00, tol = 0.47477E+04, time = 5.84 | CG iter. 24 -- res = 0.36167E+00, tol = 0.47477E+04, time = 5.76 | CG iter. 25 -- res = 0.19664E+00, tol = 0.47477E+04, time = 5.93 | CG iter. 26 -- res = 0.11348E+00, tol = 0.47477E+04, time = 5.96 | CG iter. 27 -- res = 0.64422E-01, tol = 0.47477E+04, time = 7.14 | CG iter. 28 -- res = 0.34595E-01, tol = 0.47477E+04, time = 6.03 | CG iter. 29 -- res = 0.18006E-01, tol = 0.47477E+04, time = 6.10 | CG iter. 30 -- res = 0.94058E-02, tol = 0.47477E+04, time = 5.81 | CG iter. 31 -- res = 0.51137E-02, tol = 0.47477E+04, time = 5.71 | CG iter. 32 -- res = 0.28951E-02, tol = 0.47477E+04, time = 6.10 | CG iter. 33 -- res = 0.16222E-02, tol = 0.47477E+04, time = 5.85 | CG iter. 34 -- res = 0.87261E-03, tol = 0.47477E+04, time = 5.73 | CG iter. 35 -- res = 0.45656E-03, tol = 0.47477E+04, time = 5.89 | Final CG iter 36 -- res = 0.45656E-03, tol = 0.47477E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.025 2.721 | New value -0.270 | Old value -4.025 | Difference 3.754 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.40 | CG iter. 1 -- res = 0.74135E+06, tol = 0.47627E+18, time = 1.60 | CG iter. 2 -- res = 0.11876E+03, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.24003E+01, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.18126E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.49276E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8161503.254 | (Sampled value in CG: 8253612.014 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.764757 | New value = -3.488439 | poltype: 1 pol: 1 CPU time specind = 1.5756130E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.49427E+07, tol = 0.21985E+01, time = 2.74 | CG iter. 2 -- res = 0.17523E+07, tol = 0.21985E+01, time = 2.51 | CG iter. 3 -- res = 0.44741E+06, tol = 0.21985E+01, time = 2.55 | CG iter. 4 -- res = 0.25036E+06, tol = 0.21985E+01, time = 2.26 | CG iter. 5 -- res = 0.13853E+06, tol = 0.21985E+01, time = 2.49 | CG iter. 6 -- res = 0.51544E+05, tol = 0.21985E+01, time = 2.49 | CG iter. 7 -- res = 0.17307E+05, tol = 0.21985E+01, time = 2.15 | CG iter. 8 -- res = 0.82433E+04, tol = 0.21985E+01, time = 2.49 | CG iter. 9 -- res = 0.40560E+04, tol = 0.21985E+01, time = 2.25 | CG iter. 10 -- res = 0.16596E+04, tol = 0.21985E+01, time = 2.50 | CG iter. 11 -- res = 0.61668E+03, tol = 0.21985E+01, time = 2.25 | CG iter. 12 -- res = 0.29197E+03, tol = 0.21985E+01, time = 2.42 | CG iter. 13 -- res = 0.14996E+03, tol = 0.21985E+01, time = 2.49 | CG iter. 14 -- res = 0.75495E+02, tol = 0.21985E+01, time = 2.41 | CG iter. 15 -- res = 0.36367E+02, tol = 0.21985E+01, time = 2.44 | CG iter. 16 -- res = 0.16091E+02, tol = 0.21985E+01, time = 2.43 | CG iter. 17 -- res = 0.68926E+01, tol = 0.21985E+01, time = 2.29 | CG iter. 18 -- res = 0.30967E+01, tol = 0.21985E+01, time = 2.51 | CG iter. 19 -- res = 0.14133E+01, tol = 0.21985E+01, time = 2.34 | CG iter. 20 -- res = 0.71299E+00, tol = 0.21985E+01, time = 2.39 | CG iter. 21 -- res = 0.37212E+00, tol = 0.21985E+01, time = 2.25 | CG iter. 22 -- res = 0.17994E+00, tol = 0.21985E+01, time = 2.40 | CG iter. 23 -- res = 0.81879E-01, tol = 0.21985E+01, time = 2.32 | CG iter. 24 -- res = 0.37615E-01, tol = 0.21985E+01, time = 2.21 | CG iter. 25 -- res = 0.16970E-01, tol = 0.21985E+01, time = 2.42 | CG iter. 26 -- res = 0.78111E-02, tol = 0.21985E+01, time = 2.42 | CG iter. 27 -- res = 0.38125E-02, tol = 0.21985E+01, time = 2.29 | CG iter. 28 -- res = 0.19971E-02, tol = 0.21985E+01, time = 2.35 | CG iter. 29 -- res = 0.93932E-03, tol = 0.21985E+01, time = 2.51 | CG iter. 30 -- res = 0.45317E-03, tol = 0.21985E+01, time = 2.41 | CG iter. 31 -- res = 0.21971E-03, tol = 0.21985E+01, time = 2.42 | CG iter. 32 -- res = 0.98669E-04, tol = 0.21985E+01, time = 2.35 | CG iter. 33 -- res = 0.47881E-04, tol = 0.21985E+01, time = 2.53 | CG iter. 34 -- res = 0.24431E-04, tol = 0.21985E+01, time = 2.57 | CG iter. 35 -- res = 0.13008E-04, tol = 0.21985E+01, time = 2.34 | CG iter. 36 -- res = 0.62680E-05, tol = 0.21985E+01, time = 2.47 | CG iter. 37 -- res = 0.29373E-05, tol = 0.21985E+01, time = 2.23 | CG iter. 38 -- res = 0.13868E-05, tol = 0.21985E+01, time = 2.36 | CG iter. 39 -- res = 0.66739E-06, tol = 0.21985E+01, time = 2.47 | CG iter. 40 -- res = 0.32088E-06, tol = 0.21985E+01, time = 2.67 | CG iter. 41 -- res = 0.16541E-06, tol = 0.21985E+01, time = 2.40 | CG iter. 42 -- res = 0.84199E-07, tol = 0.21985E+01, time = 2.63 | CG iter. 43 -- res = 0.38287E-07, tol = 0.21985E+01, time = 2.43 | CG iter. 44 -- res = 0.18288E-07, tol = 0.21985E+01, time = 2.28 | CG iter. 45 -- res = 0.82769E-08, tol = 0.21985E+01, time = 2.32 | CG iter. 46 -- res = 0.37709E-08, tol = 0.21985E+01, time = 2.57 | CG iter. 47 -- res = 0.19443E-08, tol = 0.21985E+01, time = 2.23 | CG iter. 48 -- res = 0.10212E-08, tol = 0.21985E+01, time = 2.45 | CG iter. 49 -- res = 0.49577E-09, tol = 0.21985E+01, time = 2.59 | CG iter. 50 -- res = 0.22993E-09, tol = 0.21985E+01, time = 2.38 | Final CG iter 51 -- res = 0.22993E-09, tol = 0.21985E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.238 3.555 | New value -6.819 | Old value 7.238 | Difference -14.056 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.20905E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.13562E+03, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.32636E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.21222E-01, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.19189E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8161503.254 | (Sampled value in CG: 8234445.691 ) | CPU time specind = 1060.727 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.70134E+08, tol = 0.57539E+04, time = 10.79 | CG iter. 2 -- res = 0.59369E+08, tol = 0.57539E+04, time = 10.69 | CG iter. 3 -- res = 0.15605E+08, tol = 0.57539E+04, time = 10.63 | CG iter. 4 -- res = 0.66683E+07, tol = 0.57539E+04, time = 10.66 | CG iter. 5 -- res = 0.39862E+07, tol = 0.57539E+04, time = 10.43 | CG iter. 6 -- res = 0.23204E+07, tol = 0.57539E+04, time = 10.46 | CG iter. 7 -- res = 0.13782E+07, tol = 0.57539E+04, time = 10.65 | CG iter. 8 -- res = 0.91117E+06, tol = 0.57539E+04, time = 12.19 | CG iter. 9 -- res = 0.59018E+06, tol = 0.57539E+04, time = 11.35 | CG iter. 10 -- res = 0.36218E+06, tol = 0.57539E+04, time = 10.46 | CG iter. 11 -- res = 0.20310E+06, tol = 0.57539E+04, time = 10.65 | CG iter. 12 -- res = 0.11901E+06, tol = 0.57539E+04, time = 10.31 | CG iter. 13 -- res = 0.74288E+05, tol = 0.57539E+04, time = 11.01 | CG iter. 14 -- res = 0.53023E+05, tol = 0.57539E+04, time = 10.65 | CG iter. 15 -- res = 0.44256E+05, tol = 0.57539E+04, time = 10.53 | CG iter. 16 -- res = 0.40450E+05, tol = 0.57539E+04, time = 10.75 | CG iter. 17 -- res = 0.38157E+05, tol = 0.57539E+04, time = 10.49 | CG iter. 18 -- res = 0.36179E+05, tol = 0.57539E+04, time = 11.40 | CG iter. 19 -- res = 0.33340E+05, tol = 0.57539E+04, time = 10.79 | CG iter. 20 -- res = 0.30046E+05, tol = 0.57539E+04, time = 10.52 | CG iter. 21 -- res = 0.27952E+05, tol = 0.57539E+04, time = 10.69 | CG iter. 22 -- res = 0.27567E+05, tol = 0.57539E+04, time = 10.25 | CG iter. 23 -- res = 0.27272E+05, tol = 0.57539E+04, time = 10.47 | CG iter. 24 -- res = 0.24798E+05, tol = 0.57539E+04, time = 10.58 | CG iter. 25 -- res = 0.20378E+05, tol = 0.57539E+04, time = 10.98 | CG iter. 26 -- res = 0.15324E+05, tol = 0.57539E+04, time = 10.69 | CG iter. 27 -- res = 0.11341E+05, tol = 0.57539E+04, time = 14.79 | CG iter. 28 -- res = 0.87474E+04, tol = 0.57539E+04, time = 13.18 | CG iter. 29 -- res = 0.72110E+04, tol = 0.57539E+04, time = 10.58 | CG iter. 30 -- res = 0.65101E+04, tol = 0.57539E+04, time = 10.30 | CG iter. 31 -- res = 0.59033E+04, tol = 0.57539E+04, time = 10.54 | CG iter. 32 -- res = 0.52415E+04, tol = 0.57539E+04, time = 10.60 | CG iter. 33 -- res = 0.46518E+04, tol = 0.57539E+04, time = 10.28 | CG iter. 34 -- res = 0.41333E+04, tol = 0.57539E+04, time = 10.24 | CG iter. 35 -- res = 0.36142E+04, tol = 0.57539E+04, time = 10.40 | CG iter. 36 -- res = 0.31746E+04, tol = 0.57539E+04, time = 11.95 | CG iter. 37 -- res = 0.29271E+04, tol = 0.57539E+04, time = 11.39 | CG iter. 38 -- res = 0.27097E+04, tol = 0.57539E+04, time = 10.52 | CG iter. 39 -- res = 0.23956E+04, tol = 0.57539E+04, time = 10.65 | CG iter. 40 -- res = 0.19874E+04, tol = 0.57539E+04, time = 10.87 | CG iter. 41 -- res = 0.16227E+04, tol = 0.57539E+04, time = 10.66 | CG iter. 42 -- res = 0.13315E+04, tol = 0.57539E+04, time = 10.26 | CG iter. 43 -- res = 0.11380E+04, tol = 0.57539E+04, time = 10.61 | CG iter. 44 -- res = 0.10288E+04, tol = 0.57539E+04, time = 10.66 | CG iter. 45 -- res = 0.96563E+03, tol = 0.57539E+04, time = 10.75 | CG iter. 46 -- res = 0.90022E+03, tol = 0.57539E+04, time = 10.57 | CG iter. 47 -- res = 0.82066E+03, tol = 0.57539E+04, time = 10.78 | CG iter. 48 -- res = 0.73594E+03, tol = 0.57539E+04, time = 10.60 | CG iter. 49 -- res = 0.65227E+03, tol = 0.57539E+04, time = 10.49 | CG iter. 50 -- res = 0.58286E+03, tol = 0.57539E+04, time = 10.69 | CG iter. 51 -- res = 0.53605E+03, tol = 0.57539E+04, time = 10.75 | CG iter. 52 -- res = 0.52651E+03, tol = 0.57539E+04, time = 10.45 | CG iter. 53 -- res = 0.50446E+03, tol = 0.57539E+04, time = 10.69 | CG iter. 54 -- res = 0.43414E+03, tol = 0.57539E+04, time = 10.22 | CG iter. 55 -- res = 0.36217E+03, tol = 0.57539E+04, time = 16.85 | CG iter. 56 -- res = 0.31358E+03, tol = 0.57539E+04, time = 10.68 | CG iter. 57 -- res = 0.28624E+03, tol = 0.57539E+04, time = 10.47 | CG iter. 58 -- res = 0.26902E+03, tol = 0.57539E+04, time = 10.66 | CG iter. 59 -- res = 0.25501E+03, tol = 0.57539E+04, time = 10.74 | CG iter. 60 -- res = 0.23948E+03, tol = 0.57539E+04, time = 10.66 | Final CG iter 61 -- res = 0.23948E+03, tol = 0.57539E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.994 ( -229.658 -2230.458 2512.988 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8615409.414 | Old band monopole 8161538.359 | Change to band monopole 453871.055 | Change to component monopole -453869.102 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.277 2.736 | New value 3.210 | Old value -0.277 | Difference 3.487 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.668 ( 6.801 11.835 -11.697 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.505 4.401 | New value -4.850 | Old value -7.505 | Difference 2.655 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.67106E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.38458E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.15897E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.46174E-02, tol = 0.47627E+18, time = 1.69 | Final CG iter 5 -- res = 0.36850E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8615372.357 | (Sampled value in CG: 8587976.354 ) | Chain = 1 -- chisq = 0.81539599E+09 | Chain = 1 -- wall time = 5991.248 sec Available RAM: MemAvailable: 384469036 kB Available Swap: SwapFree: 1126611488 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 211 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442234 | --> Sampling calibration, mode = relcal | relcal = 1.3428826E-02 7.4586039E-04 -1.5922260E-03 -1.2582460E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1052723 0.1186557 97041168.2357203 | BP delta = 9.7361900E-02 0.1107453 97041174.6941613 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632570 | --> Sampling calibration, mode = relcal | relcal = -2.8215663E-03 -7.0327753E-04 1.6793822E-03 1.6150476E-03 -4.0898527E-04 6.3939940E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5673881 15216421.9565569 | BP delta = 0.0000000E+00 -0.5686204 15216420.4844796 | BP chisq diff = -1.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103152 | --> Sampling calibration, mode = relcal | relcal = 3.7095051E-02 1.3718569E-02 5.7493765E-03 -7.1670236E-03 8.2510812E-03 2.3909251E-03 -7.5997231E-03 -7.1854386E-03 -1.5304314E-02 -1.4800814E-02 -3.0532719E-03 -1.2094416E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.226980 132212843.310349 | BP delta = 0.0000000E+00 -1.188144 132212842.056195 | BP chisq diff = -1.3, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18438792955288 | --> Sampling calibration, mode = relcal | relcal = -7.5963579E-02 -5.9345528E-02 9.2999808E-02 4.2309299E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0682248E-04 6.2837964E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0545E-05 | 2: delta_r/delta_0: 1.4941E-06 | 3: delta_s/delta_0: 1.9775E-07 | 4: delta_r/delta_0: 3.0399E-08 | 5: delta_s/delta_0: 9.4881E-09 | 6: delta_r/delta_0: 3.0247E-09 | 7: delta_s/delta_0: 6.5788E-10 | 8: delta_r/delta_0: 1.4895E-10 | 9: delta_s/delta_0: 1.7405E-10 | 10: delta_r/delta_0: 5.6959E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.201387811584341E-003 2.733082220732114E-005 | BP delta = 3.7847579E-02 5.4815486E-02 50481261.4196898 | BP delta = 4.5170337E-02 6.2138241E-02 50481252.2245347 | BP chisq diff = -9.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583297 | --> Sampling calibration, mode = relcal | relcal = -0.1066707 -9.5498316E-02 0.1448816 5.7287414E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5704272E-03 1.5722854E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7889E-04 | 2: delta_r/delta_0: 5.7656E-06 | 3: delta_s/delta_0: 1.9818E-07 | 4: delta_r/delta_0: 4.2458E-08 | 5: delta_s/delta_0: 4.9947E-08 | 6: delta_r/delta_0: 8.2621E-09 | 7: delta_s/delta_0: 4.7705E-09 | 8: delta_r/delta_0: 2.4910E-09 | 9: delta_s/delta_0: 1.0708E-09 | 10: delta_r/delta_0: 6.8327E-10 | 11: delta_s/delta_0: 5.8228E-10 | 12: delta_r/delta_0: 1.7644E-10 | 13: delta_s/delta_0: 9.9097E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.101600938936225E-002 2.811267795239446E-005 | BP delta = -0.2405478 -0.2182815 57389352.4840085 | BP delta = -0.2560342 -0.2337679 57389351.1564385 | BP chisq diff = -1.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236814 | --> Sampling calibration, mode = relcal | relcal = 0.2954895 0.2249017 -0.2837719 -0.2366193 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3553514E-05 4.6654134E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6784E-04 | 2: delta_r/delta_0: 1.7494E-05 | 3: delta_s/delta_0: 3.2278E-05 | 4: delta_r/delta_0: 3.1637E-06 | 5: delta_s/delta_0: 4.8638E-07 | 6: delta_r/delta_0: 8.9355E-08 | 7: delta_s/delta_0: 5.9645E-08 | 8: delta_r/delta_0: 2.9616E-08 | 9: delta_s/delta_0: 1.7329E-07 | 10: delta_r/delta_0: 2.3872E-09 | 11: delta_s/delta_0: 8.5469E-10 | 12: delta_r/delta_0: 4.9408E-10 | 13: delta_s/delta_0: 3.1966E-10 | 14: delta_r/delta_0: 3.7929E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.049989988100770E-002 4.020977831403238E-005 | BP delta = -0.1102711 -0.1390800 72489832.3731565 | BP delta = -0.1152739 -0.1440827 72489832.1529530 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95933201 | --> Sampling calibration, mode = relcal | relcal = 0.1065529 0.1394869 -0.1102467 -0.1357931 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3135741E-03 1.2430089E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0442E-04 | 2: delta_r/delta_0: 7.5926E-06 | 3: delta_s/delta_0: 2.0094E-04 | 4: delta_r/delta_0: 9.9194E-06 | 5: delta_s/delta_0: 2.1535E-07 | 6: delta_r/delta_0: 1.0417E-07 | 7: delta_s/delta_0: 1.7682E-07 | 8: delta_r/delta_0: 2.9450E-08 | 9: delta_s/delta_0: 1.7542E-08 | 10: delta_r/delta_0: 1.9124E-09 | 11: delta_s/delta_0: 1.7843E-09 | 12: delta_r/delta_0: 1.1152E-09 | 13: delta_s/delta_0: 3.3033E-10 | 14: delta_r/delta_0: 9.5133E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.072753509341469E-002 3.696491189360639E-005 | BP delta = 5.2758582E-02 0.1531756 72780777.2125071 | BP delta = 1.2228901E-02 0.1126459 72780778.6691088 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52172809 | --> Sampling calibration, mode = relcal | relcal = -5.1071841E-02 -3.7034198E-03 2.7287880E-02 2.7487380E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.8044616E-04 1.7653672E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5227E-05 | 2: delta_r/delta_0: 4.5630E-06 | 3: delta_s/delta_0: 2.2824E-04 | 4: delta_r/delta_0: 2.6516E-05 | 5: delta_s/delta_0: 4.5759E-08 | 6: delta_r/delta_0: 3.1194E-08 | 7: delta_s/delta_0: 2.0124E-07 | 8: delta_r/delta_0: 7.0236E-09 | 9: delta_s/delta_0: 1.9979E-09 | 10: delta_r/delta_0: 9.8377E-10 | 11: delta_s/delta_0: 9.5555E-10 | 12: delta_r/delta_0: 5.7352E-10 | 13: delta_s/delta_0: 3.0969E-10 | 14: delta_r/delta_0: 4.2974E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.151176265872027E-002 5.481610928533322E-005 | BP delta = 7.8844227E-02 0.1849886 91256558.1310409 | BP delta = 6.4679936E-02 0.1708243 91256558.2473056 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42167462 | --> Sampling calibration, mode = relcal | relcal = 4.5615982E-02 3.9653324E-02 -2.8314969E-02 -5.6954335E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3473533E-03 4.8699519E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4093E-05 | 2: delta_r/delta_0: 3.5038E-06 | 3: delta_s/delta_0: 2.0915E-06 | 4: delta_r/delta_0: 3.0274E-07 | 5: delta_s/delta_0: 6.2874E-08 | 6: delta_r/delta_0: 3.5235E-08 | 7: delta_s/delta_0: 1.1841E-07 | 8: delta_r/delta_0: 6.0419E-09 | 9: delta_s/delta_0: 6.2583E-09 | 10: delta_r/delta_0: 5.5724E-10 | 11: delta_s/delta_0: 1.0979E-09 | 12: delta_r/delta_0: 5.7987E-10 | 13: delta_s/delta_0: 1.4605E-09 | 14: delta_r/delta_0: 4.3067E-10 | 15: delta_s/delta_0: 1.8330E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.440482178205390E-002 4.994594076211004E-005 | BP delta = 3.8424391E-02 -7.2110519E-02 90178213.8332319 | BP delta = 2.6616992E-02 -8.3917916E-02 90178213.9462163 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28169693 | --> Sampling calibration, mode = relcal | relcal = 2.4138963E-02 4.5111999E-02 -2.3335142E-02 -4.5915820E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3048261E-03 2.3205453E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0606E-04 | 2: delta_r/delta_0: 8.6848E-06 | 3: delta_s/delta_0: 1.5771E-06 | 4: delta_r/delta_0: 1.8318E-07 | 5: delta_s/delta_0: 7.3520E-08 | 6: delta_r/delta_0: 1.7007E-08 | 7: delta_s/delta_0: 8.8249E-09 | 8: delta_r/delta_0: 5.9374E-09 | 9: delta_s/delta_0: 1.1196E-06 | 10: delta_r/delta_0: 1.4961E-08 | 11: delta_s/delta_0: 1.2060E-09 | 12: delta_r/delta_0: 3.4525E-10 | 13: delta_s/delta_0: 3.4453E-10 | 14: delta_r/delta_0: 1.8768E-10 | 15: delta_s/delta_0: 4.7305E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.015784012333332E-002 7.841019928425739E-005 | BP delta = -0.1258788 -0.2537619 160929667.447616 | BP delta = -0.1164539 -0.2443371 160929667.577411 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29396806 | --> Sampling calibration, mode = relcal | relcal = 5.8171712E-04 1.0236973E-02 -3.7989297E-03 -7.0197606E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5336909E-02 1.8284792E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3560E-04 | 2: delta_r/delta_0: 1.1338E-05 | 3: delta_s/delta_0: 1.9170E-06 | 4: delta_r/delta_0: 3.1822E-07 | 5: delta_s/delta_0: 1.2033E-07 | 6: delta_r/delta_0: 2.7961E-08 | 7: delta_s/delta_0: 1.2879E-08 | 8: delta_r/delta_0: 8.5299E-09 | 9: delta_s/delta_0: 1.1583E-08 | 10: delta_r/delta_0: 5.8096E-09 | 11: delta_s/delta_0: 1.6916E-08 | 12: delta_r/delta_0: 3.4373E-10 | 13: delta_s/delta_0: 7.9119E-10 | 14: delta_r/delta_0: 1.9999E-10 | 15: delta_s/delta_0: 8.7615E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.034020243061940E-002 8.305407791501675E-005 | BP delta = -0.9115900 -0.8912461 157887988.229940 | BP delta = -0.9177207 -0.8973768 157887988.158567 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26512080 | --> Sampling calibration, mode = relcal | relcal = -5.5940873E-03 1.4993110E-02 -2.3898648E-03 -7.0091579E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.2641539E-05 3.6735437E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4298E-04 | 2: delta_r/delta_0: 1.2203E-05 | 3: delta_s/delta_0: 2.1234E-06 | 4: delta_r/delta_0: 2.6992E-07 | 5: delta_s/delta_0: 9.0587E-08 | 6: delta_r/delta_0: 2.1190E-08 | 7: delta_s/delta_0: 8.8404E-09 | 8: delta_r/delta_0: 5.6229E-09 | 9: delta_s/delta_0: 5.5143E-09 | 10: delta_r/delta_0: 3.8560E-09 | 11: delta_s/delta_0: 3.6377E-06 | 12: delta_r/delta_0: 9.5766E-08 | 13: delta_s/delta_0: 2.8435E-10 | 14: delta_r/delta_0: 1.3525E-10 | 15: delta_s/delta_0: 1.6762E-10 | 16: delta_r/delta_0: 6.8210E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.020135834285267E-003 9.151922791230355E-005 | BP delta = 0.3709631 0.3779299 157018576.275360 | BP delta = 0.3231032 0.3300700 157018575.966772 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25667878 | --> Sampling calibration, mode = relcal | relcal = -3.1661946E-02 -2.5920451E-02 3.6989167E-02 2.0593232E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9410290E-02 2.0124098E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4566E-04 | 2: delta_r/delta_0: 1.2367E-05 | 3: delta_s/delta_0: 1.9696E-06 | 4: delta_r/delta_0: 3.5234E-07 | 5: delta_s/delta_0: 1.3906E-07 | 6: delta_r/delta_0: 2.7151E-08 | 7: delta_s/delta_0: 1.2487E-08 | 8: delta_r/delta_0: 7.1933E-09 | 9: delta_s/delta_0: 2.1714E-08 | 10: delta_r/delta_0: 4.8053E-09 | 11: delta_s/delta_0: 3.0027E-09 | 12: delta_r/delta_0: 3.9038E-10 | 13: delta_s/delta_0: 8.1928E-10 | 14: delta_r/delta_0: 3.7344E-10 | 15: delta_s/delta_0: 9.8082E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.518078890371292E-003 8.670822887530603E-005 | BP delta = -0.7973871 -0.9304589 158542806.845956 | BP delta = -0.7860345 -0.9191063 158542806.927486 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136143 | New value = -3.165703 | poltype: 2 pol: 1 CPU time specind = 2.2552013E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.169667 | New value = -3.247434 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111885 | New value = -3.137082 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125681 | New value = -3.124320 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190947 | New value = -3.093044 | poltype: 2 pol: 2 CPU time specind = 3.1387806E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.78 | CG iter. 1 -- res = 0.13552E+08, tol = 0.81243E+01, time = 5.51 | CG iter. 2 -- res = 0.35582E+06, tol = 0.81243E+01, time = 4.89 | CG iter. 3 -- res = 0.50987E+05, tol = 0.81243E+01, time = 5.51 | CG iter. 4 -- res = 0.22857E+05, tol = 0.81243E+01, time = 5.21 | CG iter. 5 -- res = 0.12519E+05, tol = 0.81243E+01, time = 5.11 | CG iter. 6 -- res = 0.79347E+04, tol = 0.81243E+01, time = 5.25 | CG iter. 7 -- res = 0.64441E+04, tol = 0.81243E+01, time = 4.85 | CG iter. 8 -- res = 0.50908E+04, tol = 0.81243E+01, time = 5.30 | CG iter. 9 -- res = 0.45621E+04, tol = 0.81243E+01, time = 5.03 | CG iter. 10 -- res = 0.44464E+04, tol = 0.81243E+01, time = 4.92 | CG iter. 11 -- res = 0.39124E+04, tol = 0.81243E+01, time = 5.10 | CG iter. 12 -- res = 0.26755E+04, tol = 0.81243E+01, time = 4.94 | CG iter. 13 -- res = 0.17399E+04, tol = 0.81243E+01, time = 5.08 | CG iter. 14 -- res = 0.13551E+04, tol = 0.81243E+01, time = 5.00 | CG iter. 15 -- res = 0.11661E+04, tol = 0.81243E+01, time = 5.31 | CG iter. 16 -- res = 0.99302E+03, tol = 0.81243E+01, time = 4.91 | CG iter. 17 -- res = 0.75781E+03, tol = 0.81243E+01, time = 4.99 | CG iter. 18 -- res = 0.57809E+03, tol = 0.81243E+01, time = 5.22 | CG iter. 19 -- res = 0.48291E+03, tol = 0.81243E+01, time = 4.87 | CG iter. 20 -- res = 0.40679E+03, tol = 0.81243E+01, time = 4.93 | CG iter. 21 -- res = 0.29919E+03, tol = 0.81243E+01, time = 5.25 | CG iter. 22 -- res = 0.21742E+03, tol = 0.81243E+01, time = 5.05 | CG iter. 23 -- res = 0.16601E+03, tol = 0.81243E+01, time = 11.71 | CG iter. 24 -- res = 0.14013E+03, tol = 0.81243E+01, time = 5.01 | CG iter. 25 -- res = 0.11158E+03, tol = 0.81243E+01, time = 4.88 | CG iter. 26 -- res = 0.82144E+02, tol = 0.81243E+01, time = 5.12 | CG iter. 27 -- res = 0.59784E+02, tol = 0.81243E+01, time = 5.09 | CG iter. 28 -- res = 0.49805E+02, tol = 0.81243E+01, time = 4.97 | CG iter. 29 -- res = 0.40084E+02, tol = 0.81243E+01, time = 5.13 | CG iter. 30 -- res = 0.30643E+02, tol = 0.81243E+01, time = 5.02 | CG iter. 31 -- res = 0.23144E+02, tol = 0.81243E+01, time = 5.26 | CG iter. 32 -- res = 0.18954E+02, tol = 0.81243E+01, time = 5.27 | CG iter. 33 -- res = 0.15599E+02, tol = 0.81243E+01, time = 5.03 | CG iter. 34 -- res = 0.11965E+02, tol = 0.81243E+01, time = 4.96 | CG iter. 35 -- res = 0.88705E+01, tol = 0.81243E+01, time = 4.90 | CG iter. 36 -- res = 0.71360E+01, tol = 0.81243E+01, time = 5.05 | CG iter. 37 -- res = 0.61527E+01, tol = 0.81243E+01, time = 5.17 | CG iter. 38 -- res = 0.51073E+01, tol = 0.81243E+01, time = 5.49 | CG iter. 39 -- res = 0.38875E+01, tol = 0.81243E+01, time = 5.04 | CG iter. 40 -- res = 0.31507E+01, tol = 0.81243E+01, time = 6.49 | CG iter. 41 -- res = 0.26824E+01, tol = 0.81243E+01, time = 5.40 | CG iter. 42 -- res = 0.22419E+01, tol = 0.81243E+01, time = 5.23 | CG iter. 43 -- res = 0.17408E+01, tol = 0.81243E+01, time = 4.86 | CG iter. 44 -- res = 0.13643E+01, tol = 0.81243E+01, time = 5.00 | CG iter. 45 -- res = 0.11090E+01, tol = 0.81243E+01, time = 5.05 | CG iter. 46 -- res = 0.93777E+00, tol = 0.81243E+01, time = 5.18 | CG iter. 47 -- res = 0.76534E+00, tol = 0.81243E+01, time = 5.12 | CG iter. 48 -- res = 0.62347E+00, tol = 0.81243E+01, time = 4.91 | CG iter. 49 -- res = 0.51612E+00, tol = 0.81243E+01, time = 5.23 | CG iter. 50 -- res = 0.46551E+00, tol = 0.81243E+01, time = 4.82 | Final CG iter 51 -- res = 0.46551E+00, tol = 0.81243E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7709609.298 | Old band monopole 8615409.414 | Change to band monopole -905800.115 | Change to component monopole 905796.219 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.18747E+05, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.27542E+02, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.89865E+00, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.19137E-02, tol = 0.47627E+18, time = 1.61 | Final CG iter 5 -- res = 0.17148E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7709576.137 | (Sampled value in CG: 7680137.670 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.480139 | New value = 1.478835 | poltype: 2 pol: 1 CPU time specind = 2.9958010E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.481733 | New value = 1.490460 | poltype: 2 pol: 2 CPU time specind = 2.1580935E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.24007E+08, tol = 0.47571E+04, time = 5.53 | CG iter. 2 -- res = 0.53669E+07, tol = 0.47571E+04, time = 5.65 | CG iter. 3 -- res = 0.84595E+06, tol = 0.47571E+04, time = 5.81 | CG iter. 4 -- res = 0.35879E+06, tol = 0.47571E+04, time = 5.68 | CG iter. 5 -- res = 0.15586E+06, tol = 0.47571E+04, time = 5.56 | CG iter. 6 -- res = 0.79843E+05, tol = 0.47571E+04, time = 5.75 | CG iter. 7 -- res = 0.43947E+05, tol = 0.47571E+04, time = 5.57 | CG iter. 8 -- res = 0.21366E+05, tol = 0.47571E+04, time = 12.30 | CG iter. 9 -- res = 0.94644E+04, tol = 0.47571E+04, time = 5.74 | CG iter. 10 -- res = 0.37644E+04, tol = 0.47571E+04, time = 6.07 | CG iter. 11 -- res = 0.16644E+04, tol = 0.47571E+04, time = 5.94 | CG iter. 12 -- res = 0.85589E+03, tol = 0.47571E+04, time = 5.51 | CG iter. 13 -- res = 0.48660E+03, tol = 0.47571E+04, time = 5.81 | CG iter. 14 -- res = 0.27599E+03, tol = 0.47571E+04, time = 5.62 | CG iter. 15 -- res = 0.13984E+03, tol = 0.47571E+04, time = 5.92 | CG iter. 16 -- res = 0.66398E+02, tol = 0.47571E+04, time = 5.62 | CG iter. 17 -- res = 0.31065E+02, tol = 0.47571E+04, time = 5.91 | CG iter. 18 -- res = 0.15158E+02, tol = 0.47571E+04, time = 5.50 | CG iter. 19 -- res = 0.82228E+01, tol = 0.47571E+04, time = 6.05 | CG iter. 20 -- res = 0.45356E+01, tol = 0.47571E+04, time = 5.48 | CG iter. 21 -- res = 0.24306E+01, tol = 0.47571E+04, time = 5.80 | CG iter. 22 -- res = 0.12796E+01, tol = 0.47571E+04, time = 5.75 | CG iter. 23 -- res = 0.64830E+00, tol = 0.47571E+04, time = 7.00 | CG iter. 24 -- res = 0.33378E+00, tol = 0.47571E+04, time = 5.97 | CG iter. 25 -- res = 0.18356E+00, tol = 0.47571E+04, time = 6.11 | CG iter. 26 -- res = 0.10504E+00, tol = 0.47571E+04, time = 5.67 | CG iter. 27 -- res = 0.59790E-01, tol = 0.47571E+04, time = 5.73 | CG iter. 28 -- res = 0.31777E-01, tol = 0.47571E+04, time = 5.57 | CG iter. 29 -- res = 0.16266E-01, tol = 0.47571E+04, time = 5.72 | CG iter. 30 -- res = 0.86006E-02, tol = 0.47571E+04, time = 5.71 | CG iter. 31 -- res = 0.47299E-02, tol = 0.47571E+04, time = 5.81 | CG iter. 32 -- res = 0.26582E-02, tol = 0.47571E+04, time = 5.72 | CG iter. 33 -- res = 0.14853E-02, tol = 0.47571E+04, time = 5.58 | CG iter. 34 -- res = 0.79849E-03, tol = 0.47571E+04, time = 5.71 | CG iter. 35 -- res = 0.41599E-03, tol = 0.47571E+04, time = 5.62 | Final CG iter 36 -- res = 0.41599E-03, tol = 0.47571E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.237 2.750 | New value 0.502 | Old value 3.237 | Difference -2.736 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.38613E+06, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.25408E+02, tol = 0.47627E+18, time = 2.69 | CG iter. 3 -- res = 0.67145E+00, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.88235E-04, tol = 0.47627E+18, time = 1.65 | Final CG iter 5 -- res = 0.13037E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7709576.137 | (Sampled value in CG: 7680572.983 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.488439 | New value = -3.622853 | poltype: 1 pol: 1 CPU time specind = 6.8271160E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.22291E+07, tol = 0.25662E+01, time = 2.12 | CG iter. 2 -- res = 0.75419E+06, tol = 0.25662E+01, time = 2.49 | CG iter. 3 -- res = 0.14264E+06, tol = 0.25662E+01, time = 2.25 | CG iter. 4 -- res = 0.59861E+05, tol = 0.25662E+01, time = 2.41 | CG iter. 5 -- res = 0.33236E+05, tol = 0.25662E+01, time = 2.22 | CG iter. 6 -- res = 0.17766E+05, tol = 0.25662E+01, time = 2.35 | CG iter. 7 -- res = 0.66688E+04, tol = 0.25662E+01, time = 2.21 | CG iter. 8 -- res = 0.28995E+04, tol = 0.25662E+01, time = 2.34 | CG iter. 9 -- res = 0.12455E+04, tol = 0.25662E+01, time = 2.31 | CG iter. 10 -- res = 0.49826E+03, tol = 0.25662E+01, time = 2.45 | CG iter. 11 -- res = 0.20404E+03, tol = 0.25662E+01, time = 2.38 | CG iter. 12 -- res = 0.10318E+03, tol = 0.25662E+01, time = 2.36 | CG iter. 13 -- res = 0.53797E+02, tol = 0.25662E+01, time = 2.40 | CG iter. 14 -- res = 0.25992E+02, tol = 0.25662E+01, time = 2.46 | CG iter. 15 -- res = 0.11423E+02, tol = 0.25662E+01, time = 2.38 | CG iter. 16 -- res = 0.50519E+01, tol = 0.25662E+01, time = 2.61 | CG iter. 17 -- res = 0.21494E+01, tol = 0.25662E+01, time = 2.37 | CG iter. 18 -- res = 0.98628E+00, tol = 0.25662E+01, time = 2.28 | CG iter. 19 -- res = 0.49551E+00, tol = 0.25662E+01, time = 2.29 | CG iter. 20 -- res = 0.26459E+00, tol = 0.25662E+01, time = 2.29 | CG iter. 21 -- res = 0.13158E+00, tol = 0.25662E+01, time = 2.48 | CG iter. 22 -- res = 0.57840E-01, tol = 0.25662E+01, time = 2.16 | CG iter. 23 -- res = 0.26313E-01, tol = 0.25662E+01, time = 2.47 | CG iter. 24 -- res = 0.12185E-01, tol = 0.25662E+01, time = 2.45 | CG iter. 25 -- res = 0.61795E-02, tol = 0.25662E+01, time = 2.32 | CG iter. 26 -- res = 0.31276E-02, tol = 0.25662E+01, time = 2.46 | CG iter. 27 -- res = 0.15310E-02, tol = 0.25662E+01, time = 2.26 | CG iter. 28 -- res = 0.71710E-03, tol = 0.25662E+01, time = 2.26 | CG iter. 29 -- res = 0.31768E-03, tol = 0.25662E+01, time = 2.15 | CG iter. 30 -- res = 0.15382E-03, tol = 0.25662E+01, time = 2.40 | CG iter. 31 -- res = 0.74174E-04, tol = 0.25662E+01, time = 2.57 | CG iter. 32 -- res = 0.37916E-04, tol = 0.25662E+01, time = 2.33 | CG iter. 33 -- res = 0.18432E-04, tol = 0.25662E+01, time = 2.53 | CG iter. 34 -- res = 0.87219E-05, tol = 0.25662E+01, time = 2.34 | CG iter. 35 -- res = 0.41680E-05, tol = 0.25662E+01, time = 2.54 | CG iter. 36 -- res = 0.19849E-05, tol = 0.25662E+01, time = 2.08 | CG iter. 37 -- res = 0.89287E-06, tol = 0.25662E+01, time = 2.44 | CG iter. 38 -- res = 0.45817E-06, tol = 0.25662E+01, time = 2.32 | CG iter. 39 -- res = 0.23084E-06, tol = 0.25662E+01, time = 2.42 | CG iter. 40 -- res = 0.10894E-06, tol = 0.25662E+01, time = 2.19 | CG iter. 41 -- res = 0.51790E-07, tol = 0.25662E+01, time = 2.14 | CG iter. 42 -- res = 0.24645E-07, tol = 0.25662E+01, time = 2.35 | CG iter. 43 -- res = 0.11010E-07, tol = 0.25662E+01, time = 2.34 | CG iter. 44 -- res = 0.54245E-08, tol = 0.25662E+01, time = 2.55 | CG iter. 45 -- res = 0.26960E-08, tol = 0.25662E+01, time = 2.28 | CG iter. 46 -- res = 0.13354E-08, tol = 0.25662E+01, time = 2.51 | CG iter. 47 -- res = 0.64037E-09, tol = 0.25662E+01, time = 2.22 | CG iter. 48 -- res = 0.27896E-09, tol = 0.25662E+01, time = 2.44 | CG iter. 49 -- res = 0.13302E-09, tol = 0.25662E+01, time = 2.42 | CG iter. 50 -- res = 0.62324E-10, tol = 0.25662E+01, time = 2.15 | Final CG iter 51 -- res = 0.62324E-10, tol = 0.25662E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.141 5.281 | New value -2.327 | Old value -8.141 | Difference 5.814 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.33412E+05, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.24120E+02, tol = 0.47627E+18, time = 1.74 | CG iter. 3 -- res = 0.85116E+00, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.17921E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.34738E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7709576.137 | (Sampled value in CG: 7688059.739 ) | CPU time specind = 1051.594 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.68359E+08, tol = 0.57729E+04, time = 10.05 | CG iter. 2 -- res = 0.58575E+08, tol = 0.57729E+04, time = 10.57 | CG iter. 3 -- res = 0.15165E+08, tol = 0.57729E+04, time = 10.46 | CG iter. 4 -- res = 0.64764E+07, tol = 0.57729E+04, time = 10.72 | CG iter. 5 -- res = 0.37817E+07, tol = 0.57729E+04, time = 10.53 | CG iter. 6 -- res = 0.21540E+07, tol = 0.57729E+04, time = 10.52 | CG iter. 7 -- res = 0.12817E+07, tol = 0.57729E+04, time = 11.19 | CG iter. 8 -- res = 0.85975E+06, tol = 0.57729E+04, time = 11.77 | CG iter. 9 -- res = 0.55733E+06, tol = 0.57729E+04, time = 10.58 | CG iter. 10 -- res = 0.32990E+06, tol = 0.57729E+04, time = 10.47 | CG iter. 11 -- res = 0.17769E+06, tol = 0.57729E+04, time = 10.78 | CG iter. 12 -- res = 0.94421E+05, tol = 0.57729E+04, time = 10.37 | CG iter. 13 -- res = 0.50803E+05, tol = 0.57729E+04, time = 10.08 | CG iter. 14 -- res = 0.29437E+05, tol = 0.57729E+04, time = 10.02 | CG iter. 15 -- res = 0.19310E+05, tol = 0.57729E+04, time = 10.20 | CG iter. 16 -- res = 0.13355E+05, tol = 0.57729E+04, time = 10.63 | CG iter. 17 -- res = 0.95373E+04, tol = 0.57729E+04, time = 10.52 | CG iter. 18 -- res = 0.67646E+04, tol = 0.57729E+04, time = 11.05 | CG iter. 19 -- res = 0.46425E+04, tol = 0.57729E+04, time = 10.10 | CG iter. 20 -- res = 0.32833E+04, tol = 0.57729E+04, time = 10.45 | CG iter. 21 -- res = 0.24280E+04, tol = 0.57729E+04, time = 10.69 | CG iter. 22 -- res = 0.20617E+04, tol = 0.57729E+04, time = 10.19 | CG iter. 23 -- res = 0.20339E+04, tol = 0.57729E+04, time = 10.54 | CG iter. 24 -- res = 0.21566E+04, tol = 0.57729E+04, time = 10.49 | CG iter. 25 -- res = 0.22906E+04, tol = 0.57729E+04, time = 10.26 | CG iter. 26 -- res = 0.23209E+04, tol = 0.57729E+04, time = 10.70 | CG iter. 27 -- res = 0.21270E+04, tol = 0.57729E+04, time = 16.66 | CG iter. 28 -- res = 0.18202E+04, tol = 0.57729E+04, time = 10.49 | CG iter. 29 -- res = 0.15593E+04, tol = 0.57729E+04, time = 10.16 | CG iter. 30 -- res = 0.13671E+04, tol = 0.57729E+04, time = 10.51 | CG iter. 31 -- res = 0.11974E+04, tol = 0.57729E+04, time = 10.38 | CG iter. 32 -- res = 0.10219E+04, tol = 0.57729E+04, time = 10.14 | CG iter. 33 -- res = 0.83637E+03, tol = 0.57729E+04, time = 10.71 | CG iter. 34 -- res = 0.64689E+03, tol = 0.57729E+04, time = 10.04 | CG iter. 35 -- res = 0.49437E+03, tol = 0.57729E+04, time = 11.62 | CG iter. 36 -- res = 0.40363E+03, tol = 0.57729E+04, time = 11.80 | CG iter. 37 -- res = 0.36454E+03, tol = 0.57729E+04, time = 10.54 | CG iter. 38 -- res = 0.34637E+03, tol = 0.57729E+04, time = 10.28 | CG iter. 39 -- res = 0.33135E+03, tol = 0.57729E+04, time = 10.34 | CG iter. 40 -- res = 0.30522E+03, tol = 0.57729E+04, time = 9.99 | CG iter. 41 -- res = 0.26677E+03, tol = 0.57729E+04, time = 10.72 | CG iter. 42 -- res = 0.23394E+03, tol = 0.57729E+04, time = 10.70 | CG iter. 43 -- res = 0.20327E+03, tol = 0.57729E+04, time = 10.28 | CG iter. 44 -- res = 0.18261E+03, tol = 0.57729E+04, time = 10.79 | CG iter. 45 -- res = 0.17041E+03, tol = 0.57729E+04, time = 10.12 | CG iter. 46 -- res = 0.15458E+03, tol = 0.57729E+04, time = 10.26 | CG iter. 47 -- res = 0.13629E+03, tol = 0.57729E+04, time = 10.67 | CG iter. 48 -- res = 0.11274E+03, tol = 0.57729E+04, time = 10.18 | CG iter. 49 -- res = 0.91178E+02, tol = 0.57729E+04, time = 10.28 | CG iter. 50 -- res = 0.76643E+02, tol = 0.57729E+04, time = 10.17 | CG iter. 51 -- res = 0.68776E+02, tol = 0.57729E+04, time = 10.57 | CG iter. 52 -- res = 0.66581E+02, tol = 0.57729E+04, time = 10.01 | CG iter. 53 -- res = 0.65587E+02, tol = 0.57729E+04, time = 10.32 | CG iter. 54 -- res = 0.61217E+02, tol = 0.57729E+04, time = 10.31 | CG iter. 55 -- res = 0.56483E+02, tol = 0.57729E+04, time = 17.11 | CG iter. 56 -- res = 0.51036E+02, tol = 0.57729E+04, time = 10.14 | CG iter. 57 -- res = 0.46284E+02, tol = 0.57729E+04, time = 10.54 | CG iter. 58 -- res = 0.44049E+02, tol = 0.57729E+04, time = 10.82 | CG iter. 59 -- res = 0.43111E+02, tol = 0.57729E+04, time = 10.39 | CG iter. 60 -- res = 0.42558E+02, tol = 0.57729E+04, time = 9.82 | Final CG iter 61 -- res = 0.42558E+02, tol = 0.57729E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.800 ( -229.694 -2228.827 2510.961 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7683681.103 | Old band monopole 7709609.298 | Change to band monopole -25928.195 | Change to component monopole 25928.083 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.498 2.721 | New value -1.224 | Old value 0.498 | Difference -1.722 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.476 ( 7.232 7.832 -6.617 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.470 5.500 | New value -4.086 | Old value 3.470 | Difference -7.556 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.15959E+06, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.20332E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.60559E+00, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.54838E-03, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.77088E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7683648.054 | (Sampled value in CG: 7656828.471 ) | Chain = 1 -- chisq = 0.81552488E+09 | Chain = 1 -- wall time = 16198.242 sec Available RAM: MemAvailable: 473203968 kB Available Swap: SwapFree: 1092922752 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 212 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445182 | --> Sampling calibration, mode = relcal | relcal = 1.3435087E-02 7.4508111E-04 -1.5993774E-03 -1.2580791E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1052723 0.1186557 9406986.13129083 | BP delta = 0.1052723 0.1165857 9406993.05814382 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632299 | --> Sampling calibration, mode = relcal | relcal = -2.8210811E-03 -7.0290692E-04 1.6795692E-03 1.6136271E-03 -4.0853862E-04 6.3933030E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5686204 15219820.0363407 | BP delta = 0.0000000E+00 -0.5675716 15219823.4809807 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18548734351027 | --> Sampling calibration, mode = relcal | relcal = -7.5159490E-02 -5.8873244E-02 9.2221163E-02 4.1811571E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9814839E-04 5.4195714E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2933E-05 | 2: delta_r/delta_0: 1.0305E-06 | 3: delta_s/delta_0: 1.8952E-07 | 4: delta_r/delta_0: 2.2187E-08 | 5: delta_s/delta_0: 7.4210E-09 | 6: delta_r/delta_0: 1.5969E-09 | 7: delta_s/delta_0: 3.6033E-10 | 8: delta_r/delta_0: 1.1352E-10 | 9: delta_s/delta_0: 2.5740E-10 | 10: delta_r/delta_0: 9.1865E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.029474407692730E-003 2.730702241059373E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2933E-05 | 2: delta_r/delta_0: 1.0305E-06 | 3: delta_s/delta_0: 1.8952E-07 | 4: delta_r/delta_0: 2.2187E-08 | 5: delta_s/delta_0: 7.4210E-09 | 6: delta_r/delta_0: 1.5969E-09 | 7: delta_s/delta_0: 3.6033E-10 | 8: delta_r/delta_0: 1.1352E-10 | 9: delta_s/delta_0: 2.5740E-10 | 10: delta_r/delta_0: 9.1865E-11 | Reached bicg-stab tolerance | BP delta = 4.5170337E-02 6.2138241E-02 3594584.43783835 | BP delta = 4.5170337E-02 6.2012553E-02 3594636.06250760 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02564802 | --> Sampling calibration, mode = relcal | relcal = -0.1066082 -9.5532738E-02 0.1448901 5.7250857E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1483211E-03 1.1875014E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.9763E-05 | 2: delta_r/delta_0: 2.0288E-06 | 3: delta_s/delta_0: 2.2302E-07 | 4: delta_r/delta_0: 4.1041E-08 | 5: delta_s/delta_0: 3.2223E-08 | 6: delta_r/delta_0: 6.3556E-09 | 7: delta_s/delta_0: 3.7441E-09 | 8: delta_r/delta_0: 1.7567E-09 | 9: delta_s/delta_0: 7.9766E-10 | 10: delta_r/delta_0: 5.8088E-10 | 11: delta_s/delta_0: 6.8172E-10 | 12: delta_r/delta_0: 1.2279E-10 | 13: delta_s/delta_0: 8.0898E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.018759018573316E-002 2.811775146897512E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.9763E-05 | 2: delta_r/delta_0: 2.0288E-06 | 3: delta_s/delta_0: 2.2302E-07 | 4: delta_r/delta_0: 4.1048E-08 | 5: delta_s/delta_0: 3.2216E-08 | 6: delta_r/delta_0: 6.3559E-09 | 7: delta_s/delta_0: 3.7437E-09 | 8: delta_r/delta_0: 1.7568E-09 | 9: delta_s/delta_0: 7.9769E-10 | 10: delta_r/delta_0: 5.8090E-10 | 11: delta_s/delta_0: 6.8170E-10 | 12: delta_r/delta_0: 1.2279E-10 | 13: delta_s/delta_0: 8.0899E-11 | Reached bicg-stab tolerance | BP delta = -0.2560342 -0.2337679 2841553.53049667 | BP delta = -0.2560342 -0.2391337 2841554.28810485 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81203853 | --> Sampling calibration, mode = relcal | relcal = 0.2954634 0.2248346 -0.2837453 -0.2365527 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.0211944E-04 5.8494220E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3195E-03 | 2: delta_r/delta_0: 7.7173E-05 | 3: delta_s/delta_0: 5.7747E-06 | 4: delta_r/delta_0: 8.2553E-07 | 5: delta_s/delta_0: 6.5124E-04 | 6: delta_r/delta_0: 2.6384E-05 | 7: delta_s/delta_0: 8.6976E-08 | 8: delta_r/delta_0: 2.7667E-08 | 9: delta_s/delta_0: 3.7957E-08 | 10: delta_r/delta_0: 7.0148E-09 | 11: delta_s/delta_0: 2.9141E-09 | 12: delta_r/delta_0: 5.5313E-10 | 13: delta_s/delta_0: 2.5948E-10 | 14: delta_r/delta_0: 1.8528E-10 | 15: delta_s/delta_0: 4.2577E-10 | 16: delta_r/delta_0: 2.4015E-10 | 17: delta_s/delta_0: 1.3769E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.002766248213897E-002 4.022816404468578E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3233E-03 | 2: delta_r/delta_0: 7.7261E-05 | 3: delta_s/delta_0: 5.7842E-06 | 4: delta_r/delta_0: 8.2429E-07 | 5: delta_s/delta_0: 6.4809E-04 | 6: delta_r/delta_0: 2.5994E-05 | 7: delta_s/delta_0: 8.7306E-08 | 8: delta_r/delta_0: 2.7592E-08 | 9: delta_s/delta_0: 3.7447E-08 | 10: delta_r/delta_0: 7.0138E-09 | 11: delta_s/delta_0: 2.9024E-09 | 12: delta_r/delta_0: 5.5349E-10 | 13: delta_s/delta_0: 2.5988E-10 | 14: delta_r/delta_0: 1.8547E-10 | 15: delta_s/delta_0: 4.2977E-10 | 16: delta_r/delta_0: 2.4345E-10 | 17: delta_s/delta_0: 1.3780E-11 | Reached bicg-stab tolerance | BP delta = -0.1152739 -0.1440827 2827519.64605171 | BP delta = -0.1152739 -0.1538397 2827666.05656846 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95885071 | --> Sampling calibration, mode = relcal | relcal = 0.1064628 0.1393844 -0.1101372 -0.1357100 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0005621E-02 1.3780070E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7894E-04 | 2: delta_r/delta_0: 4.7290E-06 | 3: delta_s/delta_0: 6.3799E-06 | 4: delta_r/delta_0: 9.1873E-07 | 5: delta_s/delta_0: 1.7060E-07 | 6: delta_r/delta_0: 1.0470E-07 | 7: delta_s/delta_0: 4.9921E-07 | 8: delta_r/delta_0: 2.4420E-08 | 9: delta_s/delta_0: 2.6878E-07 | 10: delta_r/delta_0: 8.4834E-08 | 11: delta_s/delta_0: 1.1619E-09 | 12: delta_r/delta_0: 8.4701E-10 | 13: delta_s/delta_0: 5.8279E-10 | 14: delta_r/delta_0: 2.1872E-10 | 15: delta_s/delta_0: 7.1592E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.878579523419737E-002 3.698269753044538E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7895E-04 | 2: delta_r/delta_0: 4.7290E-06 | 3: delta_s/delta_0: 6.3796E-06 | 4: delta_r/delta_0: 9.1865E-07 | 5: delta_s/delta_0: 1.7059E-07 | 6: delta_r/delta_0: 1.0468E-07 | 7: delta_s/delta_0: 4.9867E-07 | 8: delta_r/delta_0: 2.4421E-08 | 9: delta_s/delta_0: 2.7076E-07 | 10: delta_r/delta_0: 8.5282E-08 | 11: delta_s/delta_0: 1.1620E-09 | 12: delta_r/delta_0: 8.4725E-10 | 13: delta_s/delta_0: 5.8033E-10 | 14: delta_r/delta_0: 2.1921E-10 | 15: delta_s/delta_0: 7.1614E-11 | Reached bicg-stab tolerance | BP delta = 5.2758582E-02 0.1531756 3004160.25690372 | BP delta = 5.2758582E-02 0.1537465 3004158.44975543 | BP chisq diff = -1.8, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165703 | New value = -3.209260 | poltype: 2 pol: 1 CPU time specind = 2.0294189E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.247434 | New value = -3.191508 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137082 | New value = -3.084253 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124320 | New value = -3.109410 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.093044 | New value = -3.131261 | poltype: 2 pol: 2 CPU time specind = 5.7520866E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.13546E+08, tol = 0.87445E+01, time = 5.28 | CG iter. 2 -- res = 0.34802E+06, tol = 0.87445E+01, time = 5.14 | CG iter. 3 -- res = 0.50285E+05, tol = 0.87445E+01, time = 5.34 | CG iter. 4 -- res = 0.23448E+05, tol = 0.87445E+01, time = 5.20 | CG iter. 5 -- res = 0.13521E+05, tol = 0.87445E+01, time = 4.94 | CG iter. 6 -- res = 0.92611E+04, tol = 0.87445E+01, time = 5.45 | CG iter. 7 -- res = 0.83509E+04, tol = 0.87445E+01, time = 5.03 | CG iter. 8 -- res = 0.69746E+04, tol = 0.87445E+01, time = 5.25 | CG iter. 9 -- res = 0.64353E+04, tol = 0.87445E+01, time = 5.33 | CG iter. 10 -- res = 0.63533E+04, tol = 0.87445E+01, time = 5.28 | CG iter. 11 -- res = 0.53227E+04, tol = 0.87445E+01, time = 5.26 | CG iter. 12 -- res = 0.36772E+04, tol = 0.87445E+01, time = 5.13 | CG iter. 13 -- res = 0.26089E+04, tol = 0.87445E+01, time = 4.88 | CG iter. 14 -- res = 0.21598E+04, tol = 0.87445E+01, time = 5.45 | CG iter. 15 -- res = 0.19613E+04, tol = 0.87445E+01, time = 5.23 | CG iter. 16 -- res = 0.16463E+04, tol = 0.87445E+01, time = 5.09 | CG iter. 17 -- res = 0.12190E+04, tol = 0.87445E+01, time = 5.09 | CG iter. 18 -- res = 0.94639E+03, tol = 0.87445E+01, time = 11.66 | CG iter. 19 -- res = 0.79209E+03, tol = 0.87445E+01, time = 5.14 | CG iter. 20 -- res = 0.64627E+03, tol = 0.87445E+01, time = 5.41 | CG iter. 21 -- res = 0.47910E+03, tol = 0.87445E+01, time = 5.07 | CG iter. 22 -- res = 0.37707E+03, tol = 0.87445E+01, time = 5.13 | CG iter. 23 -- res = 0.32317E+03, tol = 0.87445E+01, time = 5.23 | CG iter. 24 -- res = 0.28659E+03, tol = 0.87445E+01, time = 5.12 | CG iter. 25 -- res = 0.23558E+03, tol = 0.87445E+01, time = 4.95 | CG iter. 26 -- res = 0.17943E+03, tol = 0.87445E+01, time = 5.35 | CG iter. 27 -- res = 0.14362E+03, tol = 0.87445E+01, time = 6.33 | CG iter. 28 -- res = 0.12245E+03, tol = 0.87445E+01, time = 5.11 | CG iter. 29 -- res = 0.10358E+03, tol = 0.87445E+01, time = 5.33 | CG iter. 30 -- res = 0.82631E+02, tol = 0.87445E+01, time = 5.30 | CG iter. 31 -- res = 0.68158E+02, tol = 0.87445E+01, time = 5.33 | CG iter. 32 -- res = 0.60793E+02, tol = 0.87445E+01, time = 5.37 | CG iter. 33 -- res = 0.52253E+02, tol = 0.87445E+01, time = 5.07 | CG iter. 34 -- res = 0.41145E+02, tol = 0.87445E+01, time = 6.28 | CG iter. 35 -- res = 0.32716E+02, tol = 0.87445E+01, time = 6.16 | CG iter. 36 -- res = 0.28546E+02, tol = 0.87445E+01, time = 5.63 | CG iter. 37 -- res = 0.26536E+02, tol = 0.87445E+01, time = 5.30 | CG iter. 38 -- res = 0.21406E+02, tol = 0.87445E+01, time = 5.22 | CG iter. 39 -- res = 0.17010E+02, tol = 0.87445E+01, time = 5.27 | CG iter. 40 -- res = 0.14664E+02, tol = 0.87445E+01, time = 5.15 | CG iter. 41 -- res = 0.13079E+02, tol = 0.87445E+01, time = 4.86 | CG iter. 42 -- res = 0.11303E+02, tol = 0.87445E+01, time = 5.12 | CG iter. 43 -- res = 0.94540E+01, tol = 0.87445E+01, time = 5.34 | CG iter. 44 -- res = 0.82465E+01, tol = 0.87445E+01, time = 5.31 | CG iter. 45 -- res = 0.72431E+01, tol = 0.87445E+01, time = 5.09 | CG iter. 46 -- res = 0.62908E+01, tol = 0.87445E+01, time = 5.26 | CG iter. 47 -- res = 0.53454E+01, tol = 0.87445E+01, time = 5.22 | CG iter. 48 -- res = 0.42228E+01, tol = 0.87445E+01, time = 5.14 | CG iter. 49 -- res = 0.36462E+01, tol = 0.87445E+01, time = 5.17 | CG iter. 50 -- res = 0.33513E+01, tol = 0.87445E+01, time = 5.14 | Final CG iter 51 -- res = 0.33513E+01, tol = 0.87445E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9554223.738 | Old band monopole 7683681.103 | Change to band monopole 1870542.635 | Change to component monopole -1870534.589 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.25054E+06, tol = 0.47627E+18, time = 1.61 | CG iter. 2 -- res = 0.81229E+02, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.34164E+01, tol = 0.47627E+18, time = 1.71 | CG iter. 4 -- res = 0.61617E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.33170E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9554182.643 | (Sampled value in CG: 9520947.777 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.478835 | New value = 1.477777 | poltype: 2 pol: 1 CPU time specind = 2.0591974E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.490460 | New value = 1.495896 | poltype: 2 pol: 2 CPU time specind = 4.4479370E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.23996E+08, tol = 0.47517E+04, time = 5.92 | CG iter. 2 -- res = 0.53080E+07, tol = 0.47517E+04, time = 5.91 | CG iter. 3 -- res = 0.84458E+06, tol = 0.47517E+04, time = 11.93 | CG iter. 4 -- res = 0.34511E+06, tol = 0.47517E+04, time = 6.03 | CG iter. 5 -- res = 0.14792E+06, tol = 0.47517E+04, time = 6.04 | CG iter. 6 -- res = 0.80366E+05, tol = 0.47517E+04, time = 5.76 | CG iter. 7 -- res = 0.43712E+05, tol = 0.47517E+04, time = 6.14 | CG iter. 8 -- res = 0.21053E+05, tol = 0.47517E+04, time = 6.03 | CG iter. 9 -- res = 0.92429E+04, tol = 0.47517E+04, time = 5.68 | CG iter. 10 -- res = 0.37902E+04, tol = 0.47517E+04, time = 6.02 | CG iter. 11 -- res = 0.16926E+04, tol = 0.47517E+04, time = 5.74 | CG iter. 12 -- res = 0.86472E+03, tol = 0.47517E+04, time = 5.67 | CG iter. 13 -- res = 0.48325E+03, tol = 0.47517E+04, time = 6.18 | CG iter. 14 -- res = 0.27847E+03, tol = 0.47517E+04, time = 5.74 | CG iter. 15 -- res = 0.14529E+03, tol = 0.47517E+04, time = 5.77 | CG iter. 16 -- res = 0.67704E+02, tol = 0.47517E+04, time = 6.05 | CG iter. 17 -- res = 0.31455E+02, tol = 0.47517E+04, time = 7.18 | CG iter. 18 -- res = 0.15726E+02, tol = 0.47517E+04, time = 6.53 | CG iter. 19 -- res = 0.86231E+01, tol = 0.47517E+04, time = 6.24 | CG iter. 20 -- res = 0.49564E+01, tol = 0.47517E+04, time = 5.87 | CG iter. 21 -- res = 0.27262E+01, tol = 0.47517E+04, time = 5.95 | CG iter. 22 -- res = 0.13716E+01, tol = 0.47517E+04, time = 5.95 | CG iter. 23 -- res = 0.65930E+00, tol = 0.47517E+04, time = 5.99 | CG iter. 24 -- res = 0.33210E+00, tol = 0.47517E+04, time = 6.06 | CG iter. 25 -- res = 0.18355E+00, tol = 0.47517E+04, time = 6.06 | CG iter. 26 -- res = 0.10567E+00, tol = 0.47517E+04, time = 6.30 | CG iter. 27 -- res = 0.60259E-01, tol = 0.47517E+04, time = 5.72 | CG iter. 28 -- res = 0.31895E-01, tol = 0.47517E+04, time = 6.26 | CG iter. 29 -- res = 0.16632E-01, tol = 0.47517E+04, time = 5.78 | CG iter. 30 -- res = 0.88381E-02, tol = 0.47517E+04, time = 5.94 | CG iter. 31 -- res = 0.46997E-02, tol = 0.47517E+04, time = 6.35 | CG iter. 32 -- res = 0.26400E-02, tol = 0.47517E+04, time = 5.72 | CG iter. 33 -- res = 0.14889E-02, tol = 0.47517E+04, time = 5.98 | CG iter. 34 -- res = 0.81135E-03, tol = 0.47517E+04, time = 6.01 | CG iter. 35 -- res = 0.42926E-03, tol = 0.47517E+04, time = 6.37 | Final CG iter 36 -- res = 0.42926E-03, tol = 0.47517E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.251 2.732 | New value 1.399 | Old value -1.251 | Difference 2.651 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.36437E+06, tol = 0.47627E+18, time = 1.59 | CG iter. 2 -- res = 0.26924E+02, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.80751E+00, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.11737E-03, tol = 0.47627E+18, time = 1.67 | Final CG iter 5 -- res = 0.12017E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9554182.643 | (Sampled value in CG: 9520120.396 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.622853 | New value = -3.642928 | poltype: 1 pol: 1 CPU time specind = 7.8728199E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.22158E+07, tol = 0.21742E+01, time = 2.26 | CG iter. 2 -- res = 0.77039E+06, tol = 0.21742E+01, time = 2.33 | CG iter. 3 -- res = 0.14366E+06, tol = 0.21742E+01, time = 2.56 | CG iter. 4 -- res = 0.57968E+05, tol = 0.21742E+01, time = 2.14 | CG iter. 5 -- res = 0.35697E+05, tol = 0.21742E+01, time = 2.48 | CG iter. 6 -- res = 0.18424E+05, tol = 0.21742E+01, time = 2.55 | CG iter. 7 -- res = 0.68023E+04, tol = 0.21742E+01, time = 2.70 | CG iter. 8 -- res = 0.28990E+04, tol = 0.21742E+01, time = 2.35 | CG iter. 9 -- res = 0.11960E+04, tol = 0.21742E+01, time = 2.59 | CG iter. 10 -- res = 0.48398E+03, tol = 0.21742E+01, time = 2.58 | CG iter. 11 -- res = 0.20501E+03, tol = 0.21742E+01, time = 2.63 | CG iter. 12 -- res = 0.10653E+03, tol = 0.21742E+01, time = 2.44 | CG iter. 13 -- res = 0.56305E+02, tol = 0.21742E+01, time = 2.65 | CG iter. 14 -- res = 0.26946E+02, tol = 0.21742E+01, time = 2.36 | CG iter. 15 -- res = 0.11880E+02, tol = 0.21742E+01, time = 2.33 | CG iter. 16 -- res = 0.49866E+01, tol = 0.21742E+01, time = 2.67 | CG iter. 17 -- res = 0.21711E+01, tol = 0.21742E+01, time = 2.42 | CG iter. 18 -- res = 0.10112E+01, tol = 0.21742E+01, time = 2.21 | CG iter. 19 -- res = 0.50741E+00, tol = 0.21742E+01, time = 2.32 | CG iter. 20 -- res = 0.25721E+00, tol = 0.21742E+01, time = 2.45 | CG iter. 21 -- res = 0.12483E+00, tol = 0.21742E+01, time = 2.50 | CG iter. 22 -- res = 0.55737E-01, tol = 0.21742E+01, time = 2.20 | CG iter. 23 -- res = 0.24764E-01, tol = 0.21742E+01, time = 2.56 | CG iter. 24 -- res = 0.11641E-01, tol = 0.21742E+01, time = 2.34 | CG iter. 25 -- res = 0.58987E-02, tol = 0.21742E+01, time = 2.58 | CG iter. 26 -- res = 0.30158E-02, tol = 0.21742E+01, time = 2.28 | CG iter. 27 -- res = 0.14610E-02, tol = 0.21742E+01, time = 2.42 | CG iter. 28 -- res = 0.68956E-03, tol = 0.21742E+01, time = 2.39 | CG iter. 29 -- res = 0.31240E-03, tol = 0.21742E+01, time = 2.47 | CG iter. 30 -- res = 0.14654E-03, tol = 0.21742E+01, time = 2.24 | CG iter. 31 -- res = 0.71286E-04, tol = 0.21742E+01, time = 2.74 | CG iter. 32 -- res = 0.36945E-04, tol = 0.21742E+01, time = 2.51 | CG iter. 33 -- res = 0.17759E-04, tol = 0.21742E+01, time = 2.58 | CG iter. 34 -- res = 0.81190E-05, tol = 0.21742E+01, time = 2.76 | CG iter. 35 -- res = 0.36133E-05, tol = 0.21742E+01, time = 2.44 | CG iter. 36 -- res = 0.17599E-05, tol = 0.21742E+01, time = 2.45 | CG iter. 37 -- res = 0.85073E-06, tol = 0.21742E+01, time = 2.49 | CG iter. 38 -- res = 0.43829E-06, tol = 0.21742E+01, time = 2.50 | CG iter. 39 -- res = 0.21672E-06, tol = 0.21742E+01, time = 2.51 | CG iter. 40 -- res = 0.99601E-07, tol = 0.21742E+01, time = 2.57 | CG iter. 41 -- res = 0.45826E-07, tol = 0.21742E+01, time = 2.65 | CG iter. 42 -- res = 0.21229E-07, tol = 0.21742E+01, time = 2.48 | CG iter. 43 -- res = 0.10509E-07, tol = 0.21742E+01, time = 2.61 | CG iter. 44 -- res = 0.53138E-08, tol = 0.21742E+01, time = 2.49 | CG iter. 45 -- res = 0.26059E-08, tol = 0.21742E+01, time = 2.53 | CG iter. 46 -- res = 0.12647E-08, tol = 0.21742E+01, time = 2.49 | CG iter. 47 -- res = 0.59679E-09, tol = 0.21742E+01, time = 2.50 | CG iter. 48 -- res = 0.27971E-09, tol = 0.21742E+01, time = 2.50 | CG iter. 49 -- res = 0.13556E-09, tol = 0.21742E+01, time = 2.44 | CG iter. 50 -- res = 0.64475E-10, tol = 0.21742E+01, time = 2.34 | Final CG iter 51 -- res = 0.64475E-10, tol = 0.21742E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.395 6.243 | New value -3.366 | Old value -7.395 | Difference 4.028 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.17532E+05, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.22549E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.71157E+00, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.13543E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.91076E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9554182.643 | (Sampled value in CG: 9528651.980 ) | CPU time specind = 1094.138 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.68122E+08, tol = 0.57788E+04, time = 12.39 | CG iter. 2 -- res = 0.58308E+08, tol = 0.57788E+04, time = 11.40 | CG iter. 3 -- res = 0.15102E+08, tol = 0.57788E+04, time = 11.06 | CG iter. 4 -- res = 0.63371E+07, tol = 0.57788E+04, time = 10.47 | CG iter. 5 -- res = 0.37110E+07, tol = 0.57788E+04, time = 10.89 | CG iter. 6 -- res = 0.21231E+07, tol = 0.57788E+04, time = 11.13 | CG iter. 7 -- res = 0.12614E+07, tol = 0.57788E+04, time = 10.98 | CG iter. 8 -- res = 0.81185E+06, tol = 0.57788E+04, time = 10.60 | CG iter. 9 -- res = 0.51809E+06, tol = 0.57788E+04, time = 10.85 | CG iter. 10 -- res = 0.30289E+06, tol = 0.57788E+04, time = 10.71 | CG iter. 11 -- res = 0.16096E+06, tol = 0.57788E+04, time = 11.83 | CG iter. 12 -- res = 0.86247E+05, tol = 0.57788E+04, time = 10.76 | CG iter. 13 -- res = 0.48499E+05, tol = 0.57788E+04, time = 10.60 | CG iter. 14 -- res = 0.28509E+05, tol = 0.57788E+04, time = 11.22 | CG iter. 15 -- res = 0.18628E+05, tol = 0.57788E+04, time = 10.53 | CG iter. 16 -- res = 0.13349E+05, tol = 0.57788E+04, time = 10.91 | CG iter. 17 -- res = 0.97136E+04, tol = 0.57788E+04, time = 10.71 | CG iter. 18 -- res = 0.70339E+04, tol = 0.57788E+04, time = 10.94 | CG iter. 19 -- res = 0.49367E+04, tol = 0.57788E+04, time = 10.48 | CG iter. 20 -- res = 0.34825E+04, tol = 0.57788E+04, time = 17.18 | CG iter. 21 -- res = 0.26409E+04, tol = 0.57788E+04, time = 10.80 | CG iter. 22 -- res = 0.23528E+04, tol = 0.57788E+04, time = 10.68 | CG iter. 23 -- res = 0.24238E+04, tol = 0.57788E+04, time = 10.67 | CG iter. 24 -- res = 0.26369E+04, tol = 0.57788E+04, time = 10.94 | CG iter. 25 -- res = 0.27590E+04, tol = 0.57788E+04, time = 10.24 | CG iter. 26 -- res = 0.26992E+04, tol = 0.57788E+04, time = 10.70 | CG iter. 27 -- res = 0.23750E+04, tol = 0.57788E+04, time = 10.82 | CG iter. 28 -- res = 0.20367E+04, tol = 0.57788E+04, time = 12.29 | CG iter. 29 -- res = 0.17418E+04, tol = 0.57788E+04, time = 11.64 | CG iter. 30 -- res = 0.15113E+04, tol = 0.57788E+04, time = 10.68 | CG iter. 31 -- res = 0.13131E+04, tol = 0.57788E+04, time = 10.65 | CG iter. 32 -- res = 0.10992E+04, tol = 0.57788E+04, time = 10.48 | CG iter. 33 -- res = 0.88666E+03, tol = 0.57788E+04, time = 10.76 | CG iter. 34 -- res = 0.70860E+03, tol = 0.57788E+04, time = 10.87 | CG iter. 35 -- res = 0.56748E+03, tol = 0.57788E+04, time = 11.06 | CG iter. 36 -- res = 0.47020E+03, tol = 0.57788E+04, time = 10.90 | CG iter. 37 -- res = 0.42484E+03, tol = 0.57788E+04, time = 10.79 | CG iter. 38 -- res = 0.41290E+03, tol = 0.57788E+04, time = 10.95 | CG iter. 39 -- res = 0.41472E+03, tol = 0.57788E+04, time = 10.86 | CG iter. 40 -- res = 0.39268E+03, tol = 0.57788E+04, time = 10.54 | CG iter. 41 -- res = 0.33612E+03, tol = 0.57788E+04, time = 10.57 | CG iter. 42 -- res = 0.28952E+03, tol = 0.57788E+04, time = 10.69 | CG iter. 43 -- res = 0.25600E+03, tol = 0.57788E+04, time = 10.49 | CG iter. 44 -- res = 0.23481E+03, tol = 0.57788E+04, time = 10.62 | CG iter. 45 -- res = 0.21695E+03, tol = 0.57788E+04, time = 10.38 | CG iter. 46 -- res = 0.19952E+03, tol = 0.57788E+04, time = 10.72 | CG iter. 47 -- res = 0.17806E+03, tol = 0.57788E+04, time = 14.88 | CG iter. 48 -- res = 0.15539E+03, tol = 0.57788E+04, time = 12.98 | CG iter. 49 -- res = 0.13195E+03, tol = 0.57788E+04, time = 11.01 | CG iter. 50 -- res = 0.11746E+03, tol = 0.57788E+04, time = 10.72 | CG iter. 51 -- res = 0.11051E+03, tol = 0.57788E+04, time = 10.46 | CG iter. 52 -- res = 0.10776E+03, tol = 0.57788E+04, time = 10.64 | CG iter. 53 -- res = 0.10699E+03, tol = 0.57788E+04, time = 10.72 | CG iter. 54 -- res = 0.10503E+03, tol = 0.57788E+04, time = 11.14 | CG iter. 55 -- res = 0.10007E+03, tol = 0.57788E+04, time = 11.78 | CG iter. 56 -- res = 0.89012E+02, tol = 0.57788E+04, time = 12.01 | CG iter. 57 -- res = 0.81285E+02, tol = 0.57788E+04, time = 10.66 | CG iter. 58 -- res = 0.76418E+02, tol = 0.57788E+04, time = 10.77 | CG iter. 59 -- res = 0.73807E+02, tol = 0.57788E+04, time = 10.85 | CG iter. 60 -- res = 0.71457E+02, tol = 0.57788E+04, time = 10.96 | Final CG iter 61 -- res = 0.71457E+02, tol = 0.57788E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.878 ( -229.720 -2228.779 2510.914 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9091305.134 | Old band monopole 9554223.738 | Change to band monopole -462918.604 | Change to component monopole 462916.613 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.401 2.742 | New value 3.040 | Old value 1.401 | Difference 1.639 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.391 ( 7.624 7.264 -5.540 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.342 5.828 | New value -0.127 | Old value 2.342 | Difference -2.469 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.15417E+06, tol = 0.47627E+18, time = 1.45 | CG iter. 2 -- res = 0.22960E+02, tol = 0.47627E+18, time = 1.66 | CG iter. 3 -- res = 0.75922E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.14587E-02, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.10767E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9091266.030 | (Sampled value in CG: 9067734.001 ) | Chain = 1 -- chisq = 0.81559298E+09 | Chain = 1 -- wall time = 6086.062 sec Available RAM: MemAvailable: 381281876 kB Available Swap: SwapFree: 1152587332 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 213 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445033 | --> Sampling calibration, mode = relcal | relcal = 1.3436212E-02 7.4608118E-04 -1.6020561E-03 -1.2580237E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1052723 0.1186557 97031249.2890875 | BP delta = 0.1153312 0.1287147 97031244.9973500 | BP chisq diff = -4.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632168 | --> Sampling calibration, mode = relcal | relcal = -2.8199244E-03 -7.0317037E-04 1.6785997E-03 1.6127964E-03 -4.0722851E-04 6.3892710E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5686204 15222288.5951350 | BP delta = 0.0000000E+00 -0.5720850 15222290.1316889 | BP chisq diff = 1.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18283229932289 | --> Sampling calibration, mode = relcal | relcal = -7.4059628E-02 -5.8029894E-02 9.0958126E-02 4.1131396E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2855253E-04 3.7632303E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7889E-04 | 2: delta_r/delta_0: 4.4977E-06 | 3: delta_s/delta_0: 2.0741E-07 | 4: delta_r/delta_0: 1.6978E-08 | 5: delta_s/delta_0: 7.6082E-09 | 6: delta_r/delta_0: 1.8175E-09 | 7: delta_s/delta_0: 1.0690E-09 | 8: delta_r/delta_0: 8.2419E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.110926970345272E-003 2.736987531491363E-005 | BP delta = 4.5170337E-02 6.2138241E-02 50480518.0180231 | BP delta = 4.4183541E-02 6.1151449E-02 50480517.5770466 | BP chisq diff = -0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02561379 | --> Sampling calibration, mode = relcal | relcal = -0.1066124 -9.5458984E-02 0.1447919 5.7279482E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8948172E-03 1.2830739E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7726E-05 | 2: delta_r/delta_0: 1.8106E-06 | 3: delta_s/delta_0: 2.2681E-07 | 4: delta_r/delta_0: 4.9680E-08 | 5: delta_s/delta_0: 2.6346E-08 | 6: delta_r/delta_0: 7.5845E-09 | 7: delta_s/delta_0: 6.5307E-09 | 8: delta_r/delta_0: 1.8212E-09 | 9: delta_s/delta_0: 8.6463E-10 | 10: delta_r/delta_0: 6.4395E-10 | 11: delta_s/delta_0: 3.7046E-09 | 12: delta_r/delta_0: 3.2040E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.028501651177175E-002 2.811874559390897E-005 | BP delta = -0.2560342 -0.2337679 57390911.0411258 | BP delta = -0.2440875 -0.2218211 57390913.2405243 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81191958 | --> Sampling calibration, mode = relcal | relcal = 0.2954294 0.2247663 -0.2836846 -0.2365111 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1231794E-04 4.8745805E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0210E-01 | 2: delta_r/delta_0: 2.4121E-03 | 3: delta_s/delta_0: 6.5103E-04 | 4: delta_r/delta_0: 5.6074E-05 | 5: delta_s/delta_0: 2.0046E-05 | 6: delta_r/delta_0: 3.2071E-06 | 7: delta_s/delta_0: 2.0059E-06 | 8: delta_r/delta_0: 9.1018E-07 | 9: delta_s/delta_0: 1.5095E-03 | 10: delta_r/delta_0: 4.2319E-06 | 11: delta_s/delta_0: 1.6464E-04 | 12: delta_r/delta_0: 7.3565E-06 | 13: delta_s/delta_0: 4.2539E-06 | 14: delta_r/delta_0: 1.3664E-06 | 15: delta_s/delta_0: 4.0405E-07 | 16: delta_r/delta_0: 1.0768E-07 | 17: delta_s/delta_0: 1.7874E-07 | 18: delta_r/delta_0: 3.0804E-08 | 19: delta_s/delta_0: 2.8345E-08 | 20: delta_r/delta_0: 1.3994E-08 | 21: delta_s/delta_0: 1.0627E-08 | 22: delta_r/delta_0: 6.5462E-09 | 23: delta_s/delta_0: 1.0731E-08 | 24: delta_r/delta_0: 6.0937E-09 | 25: delta_s/delta_0: 2.2065E-07 | 26: delta_r/delta_0: 7.5357E-08 | 27: delta_s/delta_0: 2.3249E-05 | 28: delta_r/delta_0: 1.0418E-05 | 29: delta_s/delta_0: 8.7495E-05 | 30: delta_r/delta_0: 7.3059E-05 | 31: delta_s/delta_0: 1.9373E-08 | 32: delta_r/delta_0: 1.0303E-08 | 33: delta_s/delta_0: 8.3092E-08 | 34: delta_r/delta_0: 8.1489E-10 | 35: delta_s/delta_0: 8.5042E-10 | 36: delta_r/delta_0: 7.4977E-10 | 37: delta_s/delta_0: 1.0541E-09 | 38: delta_r/delta_0: 6.4622E-10 | 39: delta_s/delta_0: 1.2896E-09 | 40: delta_r/delta_0: 1.1243E-09 | 41: delta_s/delta_0: 1.1722E-09 | 42: delta_r/delta_0: 9.4818E-10 | 43: delta_s/delta_0: 1.5273E-09 | 44: delta_r/delta_0: 9.6477E-10 | 45: delta_s/delta_0: 9.4902E-10 | 46: delta_r/delta_0: 7.7916E-10 | 47: delta_s/delta_0: 5.6784E-10 | 48: delta_r/delta_0: 5.0674E-10 | 49: delta_s/delta_0: 4.7911E-10 | 50: delta_r/delta_0: 3.0940E-10 | 51: delta_s/delta_0: 2.2332E-10 | 52: delta_r/delta_0: 1.2780E-10 | 53: delta_s/delta_0: 7.6724E-10 | 54: delta_r/delta_0: 4.5256E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.232844639088352 4.023328734443697E-005 | BP delta = -0.1152739 -0.1440827 72489268.2989359 | BP delta = -2.9889002E-02 -5.8697864E-02 72489272.0731536 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95863879 | --> Sampling calibration, mode = relcal | relcal = 0.1065477 0.1395104 -0.1102926 -0.1357656 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2867650E-03 1.2441859E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3254E-04 | 2: delta_r/delta_0: 5.9404E-06 | 3: delta_s/delta_0: 9.1704E-05 | 4: delta_r/delta_0: 5.7826E-06 | 5: delta_s/delta_0: 1.9499E-07 | 6: delta_r/delta_0: 1.0524E-07 | 7: delta_s/delta_0: 4.9730E-07 | 8: delta_r/delta_0: 2.6811E-08 | 9: delta_s/delta_0: 5.5117E-08 | 10: delta_r/delta_0: 5.7886E-09 | 11: delta_s/delta_0: 1.4622E-09 | 12: delta_r/delta_0: 8.0580E-10 | 13: delta_s/delta_0: 3.2162E-10 | 14: delta_r/delta_0: 6.4012E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.972267332924731E-002 3.699275055322578E-005 | BP delta = 5.2758582E-02 0.1537465 72793931.4903382 | BP delta = 5.0019592E-02 0.1510075 72793931.6469332 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.209260 | New value = -3.211349 | poltype: 2 pol: 1 CPU time specind = 1.4652967E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191508 | New value = -3.097936 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.084253 | New value = -3.123149 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109410 | New value = -3.037681 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131261 | New value = -3.188586 | poltype: 2 pol: 2 CPU time specind = 5.6018829E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.13534E+08, tol = 0.76378E+01, time = 5.18 | CG iter. 2 -- res = 0.30224E+06, tol = 0.76378E+01, time = 5.01 | CG iter. 3 -- res = 0.44214E+05, tol = 0.76378E+01, time = 5.22 | CG iter. 4 -- res = 0.19618E+05, tol = 0.76378E+01, time = 5.08 | CG iter. 5 -- res = 0.94967E+04, tol = 0.76378E+01, time = 5.40 | CG iter. 6 -- res = 0.49885E+04, tol = 0.76378E+01, time = 5.17 | CG iter. 7 -- res = 0.32921E+04, tol = 0.76378E+01, time = 5.04 | CG iter. 8 -- res = 0.23039E+04, tol = 0.76378E+01, time = 5.19 | CG iter. 9 -- res = 0.19877E+04, tol = 0.76378E+01, time = 5.51 | CG iter. 10 -- res = 0.22252E+04, tol = 0.76378E+01, time = 5.14 | CG iter. 11 -- res = 0.23040E+04, tol = 0.76378E+01, time = 5.01 | CG iter. 12 -- res = 0.18347E+04, tol = 0.76378E+01, time = 5.49 | CG iter. 13 -- res = 0.13534E+04, tol = 0.76378E+01, time = 5.28 | CG iter. 14 -- res = 0.10416E+04, tol = 0.76378E+01, time = 4.94 | CG iter. 15 -- res = 0.87268E+03, tol = 0.76378E+01, time = 5.15 | CG iter. 16 -- res = 0.71534E+03, tol = 0.76378E+01, time = 5.34 | CG iter. 17 -- res = 0.55318E+03, tol = 0.76378E+01, time = 5.60 | CG iter. 18 -- res = 0.44867E+03, tol = 0.76378E+01, time = 7.04 | CG iter. 19 -- res = 0.40695E+03, tol = 0.76378E+01, time = 9.99 | CG iter. 20 -- res = 0.34084E+03, tol = 0.76378E+01, time = 5.25 | CG iter. 21 -- res = 0.25395E+03, tol = 0.76378E+01, time = 5.14 | CG iter. 22 -- res = 0.18952E+03, tol = 0.76378E+01, time = 5.15 | CG iter. 23 -- res = 0.16141E+03, tol = 0.76378E+01, time = 5.01 | CG iter. 24 -- res = 0.15374E+03, tol = 0.76378E+01, time = 5.43 | CG iter. 25 -- res = 0.13112E+03, tol = 0.76378E+01, time = 4.95 | CG iter. 26 -- res = 0.10567E+03, tol = 0.76378E+01, time = 5.34 | CG iter. 27 -- res = 0.91508E+02, tol = 0.76378E+01, time = 5.08 | CG iter. 28 -- res = 0.82282E+02, tol = 0.76378E+01, time = 4.95 | CG iter. 29 -- res = 0.71717E+02, tol = 0.76378E+01, time = 5.52 | CG iter. 30 -- res = 0.60698E+02, tol = 0.76378E+01, time = 5.00 | CG iter. 31 -- res = 0.54369E+02, tol = 0.76378E+01, time = 5.13 | CG iter. 32 -- res = 0.53126E+02, tol = 0.76378E+01, time = 5.30 | CG iter. 33 -- res = 0.47936E+02, tol = 0.76378E+01, time = 5.37 | CG iter. 34 -- res = 0.39373E+02, tol = 0.76378E+01, time = 5.05 | CG iter. 35 -- res = 0.33695E+02, tol = 0.76378E+01, time = 6.51 | CG iter. 36 -- res = 0.30008E+02, tol = 0.76378E+01, time = 5.79 | CG iter. 37 -- res = 0.26506E+02, tol = 0.76378E+01, time = 5.47 | CG iter. 38 -- res = 0.21972E+02, tol = 0.76378E+01, time = 5.05 | CG iter. 39 -- res = 0.17143E+02, tol = 0.76378E+01, time = 5.25 | CG iter. 40 -- res = 0.14055E+02, tol = 0.76378E+01, time = 5.25 | CG iter. 41 -- res = 0.11627E+02, tol = 0.76378E+01, time = 5.30 | CG iter. 42 -- res = 0.89599E+01, tol = 0.76378E+01, time = 5.04 | CG iter. 43 -- res = 0.68380E+01, tol = 0.76378E+01, time = 5.16 | CG iter. 44 -- res = 0.52693E+01, tol = 0.76378E+01, time = 5.38 | CG iter. 45 -- res = 0.43575E+01, tol = 0.76378E+01, time = 4.84 | CG iter. 46 -- res = 0.34985E+01, tol = 0.76378E+01, time = 5.15 | CG iter. 47 -- res = 0.25560E+01, tol = 0.76378E+01, time = 5.44 | CG iter. 48 -- res = 0.19606E+01, tol = 0.76378E+01, time = 5.15 | CG iter. 49 -- res = 0.16175E+01, tol = 0.76378E+01, time = 5.37 | CG iter. 50 -- res = 0.13858E+01, tol = 0.76378E+01, time = 5.23 | Final CG iter 51 -- res = 0.13858E+01, tol = 0.76378E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8332054.226 | Old band monopole 9091305.134 | Change to band monopole -759250.908 | Change to component monopole 759247.642 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.32605E+04, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.16208E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.99011E-01, tol = 0.47627E+18, time = 1.91 | Final CG iter 4 -- res = 0.19290E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8332018.388 | (Sampled value in CG: 8330364.469 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477777 | New value = 1.553015 | poltype: 2 pol: 1 CPU time specind = 2.2008181E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495896 | New value = 1.447700 | poltype: 2 pol: 2 CPU time specind = 9.8640919E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.25217E+08, tol = 0.47719E+04, time = 6.11 | CG iter. 2 -- res = 0.52047E+07, tol = 0.47719E+04, time = 5.93 | CG iter. 3 -- res = 0.83551E+06, tol = 0.47719E+04, time = 5.90 | CG iter. 4 -- res = 0.34936E+06, tol = 0.47719E+04, time = 12.32 | CG iter. 5 -- res = 0.14940E+06, tol = 0.47719E+04, time = 5.95 | CG iter. 6 -- res = 0.80237E+05, tol = 0.47719E+04, time = 6.17 | CG iter. 7 -- res = 0.42872E+05, tol = 0.47719E+04, time = 6.00 | CG iter. 8 -- res = 0.20413E+05, tol = 0.47719E+04, time = 6.20 | CG iter. 9 -- res = 0.87991E+04, tol = 0.47719E+04, time = 6.17 | CG iter. 10 -- res = 0.36522E+04, tol = 0.47719E+04, time = 5.83 | CG iter. 11 -- res = 0.16653E+04, tol = 0.47719E+04, time = 6.06 | CG iter. 12 -- res = 0.86670E+03, tol = 0.47719E+04, time = 5.62 | CG iter. 13 -- res = 0.49908E+03, tol = 0.47719E+04, time = 6.30 | CG iter. 14 -- res = 0.28496E+03, tol = 0.47719E+04, time = 5.76 | CG iter. 15 -- res = 0.14424E+03, tol = 0.47719E+04, time = 6.04 | CG iter. 16 -- res = 0.67170E+02, tol = 0.47719E+04, time = 6.11 | CG iter. 17 -- res = 0.31352E+02, tol = 0.47719E+04, time = 5.80 | CG iter. 18 -- res = 0.15709E+02, tol = 0.47719E+04, time = 7.12 | CG iter. 19 -- res = 0.84801E+01, tol = 0.47719E+04, time = 6.37 | CG iter. 20 -- res = 0.47565E+01, tol = 0.47719E+04, time = 6.26 | CG iter. 21 -- res = 0.26435E+01, tol = 0.47719E+04, time = 5.93 | CG iter. 22 -- res = 0.13681E+01, tol = 0.47719E+04, time = 5.96 | CG iter. 23 -- res = 0.68778E+00, tol = 0.47719E+04, time = 5.57 | CG iter. 24 -- res = 0.35946E+00, tol = 0.47719E+04, time = 5.93 | CG iter. 25 -- res = 0.19537E+00, tol = 0.47719E+04, time = 5.70 | CG iter. 26 -- res = 0.10951E+00, tol = 0.47719E+04, time = 5.78 | CG iter. 27 -- res = 0.60619E-01, tol = 0.47719E+04, time = 5.70 | CG iter. 28 -- res = 0.31908E-01, tol = 0.47719E+04, time = 6.02 | CG iter. 29 -- res = 0.16725E-01, tol = 0.47719E+04, time = 6.10 | CG iter. 30 -- res = 0.90516E-02, tol = 0.47719E+04, time = 5.99 | CG iter. 31 -- res = 0.50264E-02, tol = 0.47719E+04, time = 5.94 | CG iter. 32 -- res = 0.28240E-02, tol = 0.47719E+04, time = 5.67 | CG iter. 33 -- res = 0.15809E-02, tol = 0.47719E+04, time = 6.12 | CG iter. 34 -- res = 0.85235E-03, tol = 0.47719E+04, time = 5.80 | CG iter. 35 -- res = 0.44018E-03, tol = 0.47719E+04, time = 5.93 | Final CG iter 36 -- res = 0.44018E-03, tol = 0.47719E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.074 2.761 | New value 0.449 | Old value 3.074 | Difference -2.626 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.36700E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.20956E+02, tol = 0.47627E+18, time = 1.70 | CG iter. 3 -- res = 0.68613E+00, tol = 0.47627E+18, time = 1.83 | Final CG iter 4 -- res = 0.42828E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8332018.388 | (Sampled value in CG: 8329685.789 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.642928 | New value = -3.541858 | poltype: 1 pol: 1 CPU time specind = 7.7059269E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.22487E+07, tol = 0.22066E+01, time = 2.24 | CG iter. 2 -- res = 0.79931E+06, tol = 0.22066E+01, time = 2.51 | CG iter. 3 -- res = 0.15302E+06, tol = 0.22066E+01, time = 2.60 | CG iter. 4 -- res = 0.61372E+05, tol = 0.22066E+01, time = 2.48 | CG iter. 5 -- res = 0.35871E+05, tol = 0.22066E+01, time = 2.60 | CG iter. 6 -- res = 0.17360E+05, tol = 0.22066E+01, time = 2.15 | CG iter. 7 -- res = 0.70942E+04, tol = 0.22066E+01, time = 2.51 | CG iter. 8 -- res = 0.34403E+04, tol = 0.22066E+01, time = 2.50 | CG iter. 9 -- res = 0.16117E+04, tol = 0.22066E+01, time = 2.59 | CG iter. 10 -- res = 0.64957E+03, tol = 0.22066E+01, time = 2.56 | CG iter. 11 -- res = 0.26095E+03, tol = 0.22066E+01, time = 2.47 | CG iter. 12 -- res = 0.12312E+03, tol = 0.22066E+01, time = 2.72 | CG iter. 13 -- res = 0.60087E+02, tol = 0.22066E+01, time = 2.35 | CG iter. 14 -- res = 0.30939E+02, tol = 0.22066E+01, time = 2.36 | CG iter. 15 -- res = 0.14365E+02, tol = 0.22066E+01, time = 2.54 | CG iter. 16 -- res = 0.63376E+01, tol = 0.22066E+01, time = 3.00 | CG iter. 17 -- res = 0.26722E+01, tol = 0.22066E+01, time = 2.41 | CG iter. 18 -- res = 0.11787E+01, tol = 0.22066E+01, time = 2.53 | CG iter. 19 -- res = 0.55740E+00, tol = 0.22066E+01, time = 2.45 | CG iter. 20 -- res = 0.28488E+00, tol = 0.22066E+01, time = 2.36 | CG iter. 21 -- res = 0.14486E+00, tol = 0.22066E+01, time = 2.17 | CG iter. 22 -- res = 0.68342E-01, tol = 0.22066E+01, time = 2.59 | CG iter. 23 -- res = 0.32344E-01, tol = 0.22066E+01, time = 2.70 | CG iter. 24 -- res = 0.14320E-01, tol = 0.22066E+01, time = 2.46 | CG iter. 25 -- res = 0.67012E-02, tol = 0.22066E+01, time = 2.61 | CG iter. 26 -- res = 0.34705E-02, tol = 0.22066E+01, time = 2.46 | CG iter. 27 -- res = 0.18476E-02, tol = 0.22066E+01, time = 2.55 | CG iter. 28 -- res = 0.93447E-03, tol = 0.22066E+01, time = 2.37 | CG iter. 29 -- res = 0.44443E-03, tol = 0.22066E+01, time = 2.47 | CG iter. 30 -- res = 0.20795E-03, tol = 0.22066E+01, time = 2.59 | CG iter. 31 -- res = 0.10026E-03, tol = 0.22066E+01, time = 2.42 | CG iter. 32 -- res = 0.48724E-04, tol = 0.22066E+01, time = 2.50 | CG iter. 33 -- res = 0.24682E-04, tol = 0.22066E+01, time = 2.64 | CG iter. 34 -- res = 0.12450E-04, tol = 0.22066E+01, time = 2.59 | CG iter. 35 -- res = 0.60992E-05, tol = 0.22066E+01, time = 2.40 | CG iter. 36 -- res = 0.28965E-05, tol = 0.22066E+01, time = 2.59 | CG iter. 37 -- res = 0.12766E-05, tol = 0.22066E+01, time = 2.35 | CG iter. 38 -- res = 0.62895E-06, tol = 0.22066E+01, time = 2.45 | CG iter. 39 -- res = 0.31164E-06, tol = 0.22066E+01, time = 2.72 | CG iter. 40 -- res = 0.15767E-06, tol = 0.22066E+01, time = 2.22 | CG iter. 41 -- res = 0.78985E-07, tol = 0.22066E+01, time = 2.44 | CG iter. 42 -- res = 0.36349E-07, tol = 0.22066E+01, time = 2.54 | CG iter. 43 -- res = 0.16617E-07, tol = 0.22066E+01, time = 2.51 | CG iter. 44 -- res = 0.77714E-08, tol = 0.22066E+01, time = 2.37 | CG iter. 45 -- res = 0.38046E-08, tol = 0.22066E+01, time = 2.66 | CG iter. 46 -- res = 0.18786E-08, tol = 0.22066E+01, time = 2.43 | CG iter. 47 -- res = 0.92213E-09, tol = 0.22066E+01, time = 2.33 | CG iter. 48 -- res = 0.43877E-09, tol = 0.22066E+01, time = 2.27 | CG iter. 49 -- res = 0.21050E-09, tol = 0.22066E+01, time = 2.29 | CG iter. 50 -- res = 0.91080E-10, tol = 0.22066E+01, time = 2.10 | Final CG iter 51 -- res = 0.91080E-10, tol = 0.22066E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.652 5.591 | New value 1.018 | Old value -0.652 | Difference 1.670 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.30653E+04, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.18793E+02, tol = 0.47627E+18, time = 1.68 | CG iter. 3 -- res = 0.94418E-01, tol = 0.47627E+18, time = 1.83 | Final CG iter 4 -- res = 0.35305E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8332018.388 | (Sampled value in CG: 8331343.411 ) | CPU time specind = 1077.491 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.71661E+08, tol = 0.57707E+04, time = 10.59 | CG iter. 2 -- res = 0.60200E+08, tol = 0.57707E+04, time = 10.82 | CG iter. 3 -- res = 0.16243E+08, tol = 0.57707E+04, time = 12.26 | CG iter. 4 -- res = 0.69271E+07, tol = 0.57707E+04, time = 11.19 | CG iter. 5 -- res = 0.41910E+07, tol = 0.57707E+04, time = 11.00 | CG iter. 6 -- res = 0.24749E+07, tol = 0.57707E+04, time = 10.75 | CG iter. 7 -- res = 0.14549E+07, tol = 0.57707E+04, time = 11.27 | CG iter. 8 -- res = 0.92980E+06, tol = 0.57707E+04, time = 10.93 | CG iter. 9 -- res = 0.58426E+06, tol = 0.57707E+04, time = 10.73 | CG iter. 10 -- res = 0.34209E+06, tol = 0.57707E+04, time = 10.89 | CG iter. 11 -- res = 0.18517E+06, tol = 0.57707E+04, time = 10.87 | CG iter. 12 -- res = 0.10148E+06, tol = 0.57707E+04, time = 10.68 | CG iter. 13 -- res = 0.55548E+05, tol = 0.57707E+04, time = 10.34 | CG iter. 14 -- res = 0.31046E+05, tol = 0.57707E+04, time = 10.89 | CG iter. 15 -- res = 0.19253E+05, tol = 0.57707E+04, time = 10.67 | CG iter. 16 -- res = 0.13003E+05, tol = 0.57707E+04, time = 10.72 | CG iter. 17 -- res = 0.91074E+04, tol = 0.57707E+04, time = 10.94 | CG iter. 18 -- res = 0.62573E+04, tol = 0.57707E+04, time = 10.55 | CG iter. 19 -- res = 0.41994E+04, tol = 0.57707E+04, time = 10.68 | CG iter. 20 -- res = 0.27906E+04, tol = 0.57707E+04, time = 10.55 | CG iter. 21 -- res = 0.19430E+04, tol = 0.57707E+04, time = 11.03 | CG iter. 22 -- res = 0.15494E+04, tol = 0.57707E+04, time = 18.19 | CG iter. 23 -- res = 0.14249E+04, tol = 0.57707E+04, time = 10.53 | CG iter. 24 -- res = 0.14647E+04, tol = 0.57707E+04, time = 11.02 | CG iter. 25 -- res = 0.15491E+04, tol = 0.57707E+04, time = 10.51 | CG iter. 26 -- res = 0.15988E+04, tol = 0.57707E+04, time = 10.56 | CG iter. 27 -- res = 0.15265E+04, tol = 0.57707E+04, time = 10.85 | CG iter. 28 -- res = 0.13911E+04, tol = 0.57707E+04, time = 10.60 | CG iter. 29 -- res = 0.12561E+04, tol = 0.57707E+04, time = 10.71 | CG iter. 30 -- res = 0.11660E+04, tol = 0.57707E+04, time = 12.40 | CG iter. 31 -- res = 0.10946E+04, tol = 0.57707E+04, time = 11.09 | CG iter. 32 -- res = 0.97702E+03, tol = 0.57707E+04, time = 10.69 | CG iter. 33 -- res = 0.80682E+03, tol = 0.57707E+04, time = 10.90 | CG iter. 34 -- res = 0.60630E+03, tol = 0.57707E+04, time = 10.72 | CG iter. 35 -- res = 0.44415E+03, tol = 0.57707E+04, time = 10.57 | CG iter. 36 -- res = 0.34267E+03, tol = 0.57707E+04, time = 11.11 | CG iter. 37 -- res = 0.28480E+03, tol = 0.57707E+04, time = 10.85 | CG iter. 38 -- res = 0.25564E+03, tol = 0.57707E+04, time = 10.78 | CG iter. 39 -- res = 0.23804E+03, tol = 0.57707E+04, time = 11.25 | CG iter. 40 -- res = 0.21692E+03, tol = 0.57707E+04, time = 11.23 | CG iter. 41 -- res = 0.18937E+03, tol = 0.57707E+04, time = 10.69 | CG iter. 42 -- res = 0.16742E+03, tol = 0.57707E+04, time = 11.17 | CG iter. 43 -- res = 0.15132E+03, tol = 0.57707E+04, time = 10.82 | CG iter. 44 -- res = 0.14086E+03, tol = 0.57707E+04, time = 10.58 | CG iter. 45 -- res = 0.13416E+03, tol = 0.57707E+04, time = 10.46 | CG iter. 46 -- res = 0.12470E+03, tol = 0.57707E+04, time = 10.74 | CG iter. 47 -- res = 0.11075E+03, tol = 0.57707E+04, time = 10.48 | CG iter. 48 -- res = 0.92215E+02, tol = 0.57707E+04, time = 10.75 | CG iter. 49 -- res = 0.75284E+02, tol = 0.57707E+04, time = 17.10 | CG iter. 50 -- res = 0.63152E+02, tol = 0.57707E+04, time = 10.50 | CG iter. 51 -- res = 0.54707E+02, tol = 0.57707E+04, time = 10.66 | CG iter. 52 -- res = 0.49916E+02, tol = 0.57707E+04, time = 10.69 | CG iter. 53 -- res = 0.47187E+02, tol = 0.57707E+04, time = 10.55 | CG iter. 54 -- res = 0.43837E+02, tol = 0.57707E+04, time = 10.58 | CG iter. 55 -- res = 0.40674E+02, tol = 0.57707E+04, time = 10.89 | CG iter. 56 -- res = 0.35783E+02, tol = 0.57707E+04, time = 12.12 | CG iter. 57 -- res = 0.32019E+02, tol = 0.57707E+04, time = 12.90 | CG iter. 58 -- res = 0.29423E+02, tol = 0.57707E+04, time = 10.90 | CG iter. 59 -- res = 0.28257E+02, tol = 0.57707E+04, time = 10.90 | CG iter. 60 -- res = 0.27463E+02, tol = 0.57707E+04, time = 10.47 | Final CG iter 61 -- res = 0.27463E+02, tol = 0.57707E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.898 ( -229.787 -2229.576 2512.021 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8426958.456 | Old band monopole 8332054.226 | Change to band monopole 94904.230 | Change to component monopole -94903.822 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.422 2.730 | New value -3.334 | Old value 0.422 | Difference -3.756 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.945 ( 7.162 9.283 -8.192 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.357 5.817 | New value 6.734 | Old value 1.357 | Difference 5.377 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.78913E+06, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.35991E+02, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.14634E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.19685E-02, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.19413E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8426922.210 | (Sampled value in CG: 8409889.142 ) | Chain = 1 -- chisq = 0.81502588E+09 | Chain = 1 -- wall time = 5683.277 sec Available RAM: MemAvailable: 381952688 kB Available Swap: SwapFree: 1153449788 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 214 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444863 | --> Sampling calibration, mode = relcal | relcal = 1.3424376E-02 7.5204595E-04 -1.5978420E-03 -1.2578580E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1153312 0.1287147 9403966.46780396 | BP delta = 0.1153312 0.1296127 9404000.63622763 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632272 | --> Sampling calibration, mode = relcal | relcal = -2.8201456E-03 -7.0375268E-04 1.6779741E-03 1.6129974E-03 -4.0821364E-04 6.4114039E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5720850 15215648.9234948 | BP delta = 0.0000000E+00 -0.5710596 15215649.5192449 | BP chisq diff = 0.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18180972381092 | --> Sampling calibration, mode = relcal | relcal = -7.4377775E-02 -5.8161750E-02 9.1222830E-02 4.1316696E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.1561214E-04 3.8569637E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8976E-05 | 2: delta_r/delta_0: 9.6804E-07 | 3: delta_s/delta_0: 2.3764E-07 | 4: delta_r/delta_0: 1.2964E-08 | 5: delta_s/delta_0: 3.2457E-09 | 6: delta_r/delta_0: 1.0487E-09 | 7: delta_s/delta_0: 7.9201E-09 | 8: delta_r/delta_0: 1.1440E-09 | 9: delta_s/delta_0: 4.1290E-10 | 10: delta_r/delta_0: 8.8247E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.056575193115320E-004 2.739269724014401E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.8974E-05 | 2: delta_r/delta_0: 9.6799E-07 | 3: delta_s/delta_0: 2.3764E-07 | 4: delta_r/delta_0: 1.2965E-08 | 5: delta_s/delta_0: 3.2458E-09 | 6: delta_r/delta_0: 1.0488E-09 | 7: delta_s/delta_0: 7.6324E-09 | 8: delta_r/delta_0: 1.1198E-09 | 9: delta_s/delta_0: 4.1272E-10 | 10: delta_r/delta_0: 8.8667E-11 | Reached bicg-stab tolerance | BP delta = 4.4183541E-02 6.1151449E-02 3664845.68373029 | BP delta = 4.4183541E-02 6.0961798E-02 3662860.04852281 | BP chisq diff = -1985.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02572715 | --> Sampling calibration, mode = relcal | relcal = -0.1066134 -9.5468581E-02 0.1448691 5.7212874E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1985492E-03 1.6589345E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5318E-05 | 2: delta_r/delta_0: 1.9465E-06 | 3: delta_s/delta_0: 2.2259E-07 | 4: delta_r/delta_0: 4.7038E-08 | 5: delta_s/delta_0: 2.8684E-08 | 6: delta_r/delta_0: 7.1912E-09 | 7: delta_s/delta_0: 5.4637E-09 | 8: delta_r/delta_0: 1.8181E-09 | 9: delta_s/delta_0: 8.4599E-10 | 10: delta_r/delta_0: 6.3269E-10 | 11: delta_s/delta_0: 9.2158E-10 | 12: delta_r/delta_0: 1.1545E-10 | 13: delta_s/delta_0: 8.2153E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.020600366897311E-002 2.811550579823691E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.5316E-05 | 2: delta_r/delta_0: 1.9463E-06 | 3: delta_s/delta_0: 2.2256E-07 | 4: delta_r/delta_0: 4.6983E-08 | 5: delta_s/delta_0: 2.8738E-08 | 6: delta_r/delta_0: 7.1887E-09 | 7: delta_s/delta_0: 5.4675E-09 | 8: delta_r/delta_0: 1.8174E-09 | 9: delta_s/delta_0: 8.4551E-10 | 10: delta_r/delta_0: 6.3236E-10 | 11: delta_s/delta_0: 9.2129E-10 | 12: delta_r/delta_0: 1.1537E-10 | 13: delta_s/delta_0: 8.2077E-11 | Reached bicg-stab tolerance | BP delta = -0.2560342 -0.2337679 2841748.37342204 | BP delta = -0.2560342 -0.2397469 2841835.53370410 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81201117 | --> Sampling calibration, mode = relcal | relcal = 0.2955002 0.2247569 -0.2837507 -0.2365064 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5865314E-03 5.7809590E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6729E-03 | 2: delta_r/delta_0: 8.5344E-05 | 3: delta_s/delta_0: 1.4723E-05 | 4: delta_r/delta_0: 1.2591E-06 | 5: delta_s/delta_0: 2.4200E-06 | 6: delta_r/delta_0: 1.5981E-07 | 7: delta_s/delta_0: 3.6328E-08 | 8: delta_r/delta_0: 1.4307E-08 | 9: delta_s/delta_0: 1.2656E-05 | 10: delta_r/delta_0: 6.9087E-07 | 11: delta_s/delta_0: 2.9949E-09 | 12: delta_r/delta_0: 1.1032E-09 | 13: delta_s/delta_0: 7.7366E-10 | 14: delta_r/delta_0: 1.0711E-10 | 15: delta_s/delta_0: 4.8136E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.376724110970556E-003 4.022919894280701E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6687E-03 | 2: delta_r/delta_0: 8.5246E-05 | 3: delta_s/delta_0: 1.4721E-05 | 4: delta_r/delta_0: 1.2596E-06 | 5: delta_s/delta_0: 2.4184E-06 | 6: delta_r/delta_0: 1.5961E-07 | 7: delta_s/delta_0: 3.6361E-08 | 8: delta_r/delta_0: 1.4343E-08 | 9: delta_s/delta_0: 1.2246E-05 | 10: delta_r/delta_0: 6.6370E-07 | 11: delta_s/delta_0: 2.9561E-09 | 12: delta_r/delta_0: 1.0922E-09 | 13: delta_s/delta_0: 7.7357E-10 | 14: delta_r/delta_0: 1.0723E-10 | 15: delta_s/delta_0: 4.7588E-11 | Reached bicg-stab tolerance | BP delta = -0.1152739 -0.1440827 2827243.79616443 | BP delta = -0.1152739 -0.1369537 2827324.37058935 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95892316 | --> Sampling calibration, mode = relcal | relcal = 0.1065219 0.1395204 -0.1102874 -0.1357548 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0026948E-02 1.4318109E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3209E-04 | 2: delta_r/delta_0: 3.8019E-06 | 3: delta_s/delta_0: 3.3964E-06 | 4: delta_r/delta_0: 7.2713E-07 | 5: delta_s/delta_0: 1.6651E-07 | 6: delta_r/delta_0: 1.0779E-07 | 7: delta_s/delta_0: 5.5002E-07 | 8: delta_r/delta_0: 2.1992E-08 | 9: delta_s/delta_0: 3.4916E-08 | 10: delta_r/delta_0: 2.2919E-08 | 11: delta_s/delta_0: 7.6954E-09 | 12: delta_r/delta_0: 3.7297E-09 | 13: delta_s/delta_0: 4.4439E-10 | 14: delta_r/delta_0: 1.6887E-10 | 15: delta_s/delta_0: 3.2910E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.807924823937242E-002 3.698127795414140E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3209E-04 | 2: delta_r/delta_0: 3.8019E-06 | 3: delta_s/delta_0: 3.3965E-06 | 4: delta_r/delta_0: 7.2714E-07 | 5: delta_s/delta_0: 1.6650E-07 | 6: delta_r/delta_0: 1.0779E-07 | 7: delta_s/delta_0: 5.5012E-07 | 8: delta_r/delta_0: 2.1991E-08 | 9: delta_s/delta_0: 3.4893E-08 | 10: delta_r/delta_0: 2.2904E-08 | 11: delta_s/delta_0: 7.6836E-09 | 12: delta_r/delta_0: 3.7227E-09 | 13: delta_s/delta_0: 4.4433E-10 | 14: delta_r/delta_0: 1.6888E-10 | 15: delta_s/delta_0: 3.2909E-11 | Reached bicg-stab tolerance | BP delta = 5.0019592E-02 0.1510075 3004232.00810625 | BP delta = 5.0019592E-02 0.1532389 3004215.42057858 | BP chisq diff = -16.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.211349 | New value = -3.093424 | poltype: 2 pol: 1 CPU time specind = 2.0524979E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.097936 | New value = -3.230905 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123149 | New value = -3.172513 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.037681 | New value = -3.193081 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188586 | New value = -3.095007 | poltype: 2 pol: 2 CPU time specind = 6.3049793E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.13821E+08, tol = 0.83295E+01, time = 5.55 | CG iter. 2 -- res = 0.47185E+06, tol = 0.83295E+01, time = 5.23 | CG iter. 3 -- res = 0.18643E+06, tol = 0.83295E+01, time = 4.87 | CG iter. 4 -- res = 0.29348E+06, tol = 0.83295E+01, time = 5.27 | CG iter. 5 -- res = 0.31452E+06, tol = 0.83295E+01, time = 5.07 | CG iter. 6 -- res = 0.26738E+06, tol = 0.83295E+01, time = 4.77 | CG iter. 7 -- res = 0.18761E+06, tol = 0.83295E+01, time = 4.94 | CG iter. 8 -- res = 0.12051E+06, tol = 0.83295E+01, time = 5.12 | CG iter. 9 -- res = 0.10053E+06, tol = 0.83295E+01, time = 5.02 | CG iter. 10 -- res = 0.82134E+05, tol = 0.83295E+01, time = 5.03 | CG iter. 11 -- res = 0.59831E+05, tol = 0.83295E+01, time = 5.16 | CG iter. 12 -- res = 0.43613E+05, tol = 0.83295E+01, time = 4.97 | CG iter. 13 -- res = 0.34211E+05, tol = 0.83295E+01, time = 5.18 | CG iter. 14 -- res = 0.28409E+05, tol = 0.83295E+01, time = 5.15 | CG iter. 15 -- res = 0.21651E+05, tol = 0.83295E+01, time = 5.36 | CG iter. 16 -- res = 0.14752E+05, tol = 0.83295E+01, time = 5.19 | CG iter. 17 -- res = 0.10858E+05, tol = 0.83295E+01, time = 4.99 | CG iter. 18 -- res = 0.92822E+04, tol = 0.83295E+01, time = 5.29 | CG iter. 19 -- res = 0.77900E+04, tol = 0.83295E+01, time = 4.99 | CG iter. 20 -- res = 0.56895E+04, tol = 0.83295E+01, time = 4.99 | CG iter. 21 -- res = 0.41918E+04, tol = 0.83295E+01, time = 4.93 | CG iter. 22 -- res = 0.34827E+04, tol = 0.83295E+01, time = 5.14 | CG iter. 23 -- res = 0.30492E+04, tol = 0.83295E+01, time = 5.07 | CG iter. 24 -- res = 0.23802E+04, tol = 0.83295E+01, time = 5.34 | CG iter. 25 -- res = 0.17718E+04, tol = 0.83295E+01, time = 5.16 | CG iter. 26 -- res = 0.14165E+04, tol = 0.83295E+01, time = 11.57 | CG iter. 27 -- res = 0.12675E+04, tol = 0.83295E+01, time = 5.12 | CG iter. 28 -- res = 0.10295E+04, tol = 0.83295E+01, time = 4.90 | CG iter. 29 -- res = 0.76041E+03, tol = 0.83295E+01, time = 5.34 | CG iter. 30 -- res = 0.58893E+03, tol = 0.83295E+01, time = 5.42 | CG iter. 31 -- res = 0.51143E+03, tol = 0.83295E+01, time = 4.85 | CG iter. 32 -- res = 0.41297E+03, tol = 0.83295E+01, time = 4.97 | CG iter. 33 -- res = 0.31784E+03, tol = 0.83295E+01, time = 5.08 | CG iter. 34 -- res = 0.22887E+03, tol = 0.83295E+01, time = 5.10 | CG iter. 35 -- res = 0.18111E+03, tol = 0.83295E+01, time = 4.99 | CG iter. 36 -- res = 0.15185E+03, tol = 0.83295E+01, time = 5.20 | CG iter. 37 -- res = 0.12182E+03, tol = 0.83295E+01, time = 5.13 | CG iter. 38 -- res = 0.88588E+02, tol = 0.83295E+01, time = 5.01 | CG iter. 39 -- res = 0.66740E+02, tol = 0.83295E+01, time = 5.29 | CG iter. 40 -- res = 0.53868E+02, tol = 0.83295E+01, time = 5.15 | CG iter. 41 -- res = 0.42924E+02, tol = 0.83295E+01, time = 5.28 | CG iter. 42 -- res = 0.32206E+02, tol = 0.83295E+01, time = 5.94 | CG iter. 43 -- res = 0.23593E+02, tol = 0.83295E+01, time = 6.05 | CG iter. 44 -- res = 0.18878E+02, tol = 0.83295E+01, time = 5.74 | CG iter. 45 -- res = 0.14853E+02, tol = 0.83295E+01, time = 5.61 | CG iter. 46 -- res = 0.11196E+02, tol = 0.83295E+01, time = 5.03 | CG iter. 47 -- res = 0.84622E+01, tol = 0.83295E+01, time = 5.08 | CG iter. 48 -- res = 0.64239E+01, tol = 0.83295E+01, time = 5.07 | CG iter. 49 -- res = 0.50700E+01, tol = 0.83295E+01, time = 5.04 | CG iter. 50 -- res = 0.37980E+01, tol = 0.83295E+01, time = 5.09 | Final CG iter 51 -- res = 0.37980E+01, tol = 0.83295E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8821317.173 | Old band monopole 8426958.456 | Change to band monopole 394358.717 | Change to component monopole -394357.021 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.70953E+06, tol = 0.47627E+18, time = 1.62 | CG iter. 2 -- res = 0.40415E+03, tol = 0.47627E+18, time = 1.73 | CG iter. 3 -- res = 0.38841E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.72102E-01, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.11223E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8821279.231 | (Sampled value in CG: 8964641.103 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.553015 | New value = 1.510504 | poltype: 2 pol: 1 CPU time specind = 7.1840286E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.447700 | New value = 1.542514 | poltype: 2 pol: 2 CPU time specind = 3.5779476E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.24430E+08, tol = 0.47531E+04, time = 5.90 | CG iter. 2 -- res = 0.53571E+07, tol = 0.47531E+04, time = 5.86 | CG iter. 3 -- res = 0.84371E+06, tol = 0.47531E+04, time = 5.91 | CG iter. 4 -- res = 0.35132E+06, tol = 0.47531E+04, time = 5.80 | CG iter. 5 -- res = 0.15108E+06, tol = 0.47531E+04, time = 5.77 | CG iter. 6 -- res = 0.80591E+05, tol = 0.47531E+04, time = 5.76 | CG iter. 7 -- res = 0.43308E+05, tol = 0.47531E+04, time = 5.80 | CG iter. 8 -- res = 0.20536E+05, tol = 0.47531E+04, time = 5.73 | CG iter. 9 -- res = 0.90316E+04, tol = 0.47531E+04, time = 5.50 | CG iter. 10 -- res = 0.37024E+04, tol = 0.47531E+04, time = 10.49 | CG iter. 11 -- res = 0.16903E+04, tol = 0.47531E+04, time = 7.51 | CG iter. 12 -- res = 0.87856E+03, tol = 0.47531E+04, time = 5.72 | CG iter. 13 -- res = 0.49850E+03, tol = 0.47531E+04, time = 6.10 | CG iter. 14 -- res = 0.28089E+03, tol = 0.47531E+04, time = 5.67 | CG iter. 15 -- res = 0.14529E+03, tol = 0.47531E+04, time = 5.84 | CG iter. 16 -- res = 0.68557E+02, tol = 0.47531E+04, time = 5.97 | CG iter. 17 -- res = 0.32254E+02, tol = 0.47531E+04, time = 6.01 | CG iter. 18 -- res = 0.16369E+02, tol = 0.47531E+04, time = 5.96 | CG iter. 19 -- res = 0.89104E+01, tol = 0.47531E+04, time = 5.58 | CG iter. 20 -- res = 0.50424E+01, tol = 0.47531E+04, time = 5.63 | CG iter. 21 -- res = 0.27823E+01, tol = 0.47531E+04, time = 5.69 | CG iter. 22 -- res = 0.14366E+01, tol = 0.47531E+04, time = 6.01 | CG iter. 23 -- res = 0.71300E+00, tol = 0.47531E+04, time = 5.87 | CG iter. 24 -- res = 0.36695E+00, tol = 0.47531E+04, time = 5.93 | CG iter. 25 -- res = 0.20146E+00, tol = 0.47531E+04, time = 7.33 | CG iter. 26 -- res = 0.11725E+00, tol = 0.47531E+04, time = 5.80 | CG iter. 27 -- res = 0.66996E-01, tol = 0.47531E+04, time = 6.15 | CG iter. 28 -- res = 0.35789E-01, tol = 0.47531E+04, time = 5.87 | CG iter. 29 -- res = 0.18657E-01, tol = 0.47531E+04, time = 5.75 | CG iter. 30 -- res = 0.96136E-02, tol = 0.47531E+04, time = 5.79 | CG iter. 31 -- res = 0.51637E-02, tol = 0.47531E+04, time = 5.85 | CG iter. 32 -- res = 0.29054E-02, tol = 0.47531E+04, time = 5.69 | CG iter. 33 -- res = 0.16538E-02, tol = 0.47531E+04, time = 6.00 | CG iter. 34 -- res = 0.90454E-03, tol = 0.47531E+04, time = 6.16 | CG iter. 35 -- res = 0.46660E-03, tol = 0.47531E+04, time = 5.94 | Final CG iter 36 -- res = 0.46660E-03, tol = 0.47531E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.335 2.728 | New value 4.790 | Old value -3.335 | Difference 8.124 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.34371E+07, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.25397E+03, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.20661E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.32957E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.40324E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8821279.231 | (Sampled value in CG: 8963668.151 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.541858 | New value = -3.674564 | poltype: 1 pol: 1 CPU time specind = 7.8251362E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.40441E+07, tol = 0.27126E+01, time = 2.41 | CG iter. 2 -- res = 0.18731E+07, tol = 0.27126E+01, time = 2.44 | CG iter. 3 -- res = 0.40445E+06, tol = 0.27126E+01, time = 2.62 | CG iter. 4 -- res = 0.18874E+06, tol = 0.27126E+01, time = 2.34 | CG iter. 5 -- res = 0.11358E+06, tol = 0.27126E+01, time = 2.53 | CG iter. 6 -- res = 0.48928E+05, tol = 0.27126E+01, time = 2.46 | CG iter. 7 -- res = 0.15131E+05, tol = 0.27126E+01, time = 2.66 | CG iter. 8 -- res = 0.60900E+04, tol = 0.27126E+01, time = 2.25 | CG iter. 9 -- res = 0.29827E+04, tol = 0.27126E+01, time = 2.51 | CG iter. 10 -- res = 0.12125E+04, tol = 0.27126E+01, time = 2.29 | CG iter. 11 -- res = 0.51480E+03, tol = 0.27126E+01, time = 2.45 | CG iter. 12 -- res = 0.26392E+03, tol = 0.27126E+01, time = 2.25 | CG iter. 13 -- res = 0.13224E+03, tol = 0.27126E+01, time = 2.23 | CG iter. 14 -- res = 0.60983E+02, tol = 0.27126E+01, time = 2.59 | CG iter. 15 -- res = 0.26823E+02, tol = 0.27126E+01, time = 2.49 | CG iter. 16 -- res = 0.11495E+02, tol = 0.27126E+01, time = 2.46 | CG iter. 17 -- res = 0.49105E+01, tol = 0.27126E+01, time = 2.51 | CG iter. 18 -- res = 0.24539E+01, tol = 0.27126E+01, time = 2.30 | CG iter. 19 -- res = 0.12650E+01, tol = 0.27126E+01, time = 2.71 | CG iter. 20 -- res = 0.60503E+00, tol = 0.27126E+01, time = 2.36 | CG iter. 21 -- res = 0.26734E+00, tol = 0.27126E+01, time = 2.40 | CG iter. 22 -- res = 0.11868E+00, tol = 0.27126E+01, time = 2.44 | CG iter. 23 -- res = 0.53010E-01, tol = 0.27126E+01, time = 2.40 | CG iter. 24 -- res = 0.25588E-01, tol = 0.27126E+01, time = 2.36 | CG iter. 25 -- res = 0.13148E-01, tol = 0.27126E+01, time = 2.63 | CG iter. 26 -- res = 0.66155E-02, tol = 0.27126E+01, time = 2.60 | CG iter. 27 -- res = 0.30619E-02, tol = 0.27126E+01, time = 2.36 | CG iter. 28 -- res = 0.14556E-02, tol = 0.27126E+01, time = 2.51 | CG iter. 29 -- res = 0.63280E-03, tol = 0.27126E+01, time = 2.54 | CG iter. 30 -- res = 0.31206E-03, tol = 0.27126E+01, time = 2.34 | CG iter. 31 -- res = 0.15604E-03, tol = 0.27126E+01, time = 2.43 | CG iter. 32 -- res = 0.80122E-04, tol = 0.27126E+01, time = 2.50 | CG iter. 33 -- res = 0.38028E-04, tol = 0.27126E+01, time = 2.32 | CG iter. 34 -- res = 0.17031E-04, tol = 0.27126E+01, time = 2.38 | CG iter. 35 -- res = 0.86577E-05, tol = 0.27126E+01, time = 2.37 | CG iter. 36 -- res = 0.40988E-05, tol = 0.27126E+01, time = 2.83 | CG iter. 37 -- res = 0.19506E-05, tol = 0.27126E+01, time = 2.43 | CG iter. 38 -- res = 0.10328E-05, tol = 0.27126E+01, time = 2.53 | CG iter. 39 -- res = 0.51230E-06, tol = 0.27126E+01, time = 2.57 | CG iter. 40 -- res = 0.23049E-06, tol = 0.27126E+01, time = 2.61 | CG iter. 41 -- res = 0.10793E-06, tol = 0.27126E+01, time = 2.36 | CG iter. 42 -- res = 0.52979E-07, tol = 0.27126E+01, time = 2.61 | CG iter. 43 -- res = 0.24866E-07, tol = 0.27126E+01, time = 2.29 | CG iter. 44 -- res = 0.12603E-07, tol = 0.27126E+01, time = 2.33 | CG iter. 45 -- res = 0.60995E-08, tol = 0.27126E+01, time = 2.66 | CG iter. 46 -- res = 0.27972E-08, tol = 0.27126E+01, time = 2.40 | CG iter. 47 -- res = 0.13345E-08, tol = 0.27126E+01, time = 2.52 | CG iter. 48 -- res = 0.63680E-09, tol = 0.27126E+01, time = 2.57 | CG iter. 49 -- res = 0.29989E-09, tol = 0.27126E+01, time = 2.57 | CG iter. 50 -- res = 0.14559E-09, tol = 0.27126E+01, time = 2.28 | Final CG iter 51 -- res = 0.14559E-09, tol = 0.27126E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 16.455 3.891 | New value 4.936 | Old value 16.455 | Difference -11.519 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.14487E+06, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.16492E+03, tol = 0.47627E+18, time = 1.69 | CG iter. 3 -- res = 0.25496E+01, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.19952E-01, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.70936E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8821279.231 | (Sampled value in CG: 8930044.869 ) | CPU time specind = 1066.142 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.69804E+08, tol = 0.57862E+04, time = 10.87 | CG iter. 2 -- res = 0.60199E+08, tol = 0.57862E+04, time = 10.53 | CG iter. 3 -- res = 0.16335E+08, tol = 0.57862E+04, time = 10.96 | CG iter. 4 -- res = 0.68689E+07, tol = 0.57862E+04, time = 10.86 | CG iter. 5 -- res = 0.41845E+07, tol = 0.57862E+04, time = 10.87 | CG iter. 6 -- res = 0.24817E+07, tol = 0.57862E+04, time = 10.59 | CG iter. 7 -- res = 0.14923E+07, tol = 0.57862E+04, time = 12.26 | CG iter. 8 -- res = 0.99905E+06, tol = 0.57862E+04, time = 11.24 | CG iter. 9 -- res = 0.67340E+06, tol = 0.57862E+04, time = 10.98 | CG iter. 10 -- res = 0.44329E+06, tol = 0.57862E+04, time = 10.68 | CG iter. 11 -- res = 0.26606E+06, tol = 0.57862E+04, time = 10.38 | CG iter. 12 -- res = 0.16235E+06, tol = 0.57862E+04, time = 10.66 | CG iter. 13 -- res = 0.10787E+06, tol = 0.57862E+04, time = 10.96 | CG iter. 14 -- res = 0.85751E+05, tol = 0.57862E+04, time = 10.63 | CG iter. 15 -- res = 0.80676E+05, tol = 0.57862E+04, time = 10.42 | CG iter. 16 -- res = 0.82168E+05, tol = 0.57862E+04, time = 10.37 | CG iter. 17 -- res = 0.84430E+05, tol = 0.57862E+04, time = 10.64 | CG iter. 18 -- res = 0.80464E+05, tol = 0.57862E+04, time = 10.72 | CG iter. 19 -- res = 0.71443E+05, tol = 0.57862E+04, time = 10.58 | CG iter. 20 -- res = 0.62846E+05, tol = 0.57862E+04, time = 10.92 | CG iter. 21 -- res = 0.55941E+05, tol = 0.57862E+04, time = 10.58 | CG iter. 22 -- res = 0.50890E+05, tol = 0.57862E+04, time = 10.67 | CG iter. 23 -- res = 0.45736E+05, tol = 0.57862E+04, time = 10.53 | CG iter. 24 -- res = 0.39426E+05, tol = 0.57862E+04, time = 10.35 | CG iter. 25 -- res = 0.31205E+05, tol = 0.57862E+04, time = 10.85 | CG iter. 26 -- res = 0.23734E+05, tol = 0.57862E+04, time = 17.05 | CG iter. 27 -- res = 0.18238E+05, tol = 0.57862E+04, time = 10.63 | CG iter. 28 -- res = 0.14629E+05, tol = 0.57862E+04, time = 10.48 | CG iter. 29 -- res = 0.12992E+05, tol = 0.57862E+04, time = 10.54 | CG iter. 30 -- res = 0.12704E+05, tol = 0.57862E+04, time = 10.73 | CG iter. 31 -- res = 0.12080E+05, tol = 0.57862E+04, time = 10.78 | CG iter. 32 -- res = 0.10859E+05, tol = 0.57862E+04, time = 10.68 | CG iter. 33 -- res = 0.93769E+04, tol = 0.57862E+04, time = 10.58 | CG iter. 34 -- res = 0.77483E+04, tol = 0.57862E+04, time = 11.64 | CG iter. 35 -- res = 0.65565E+04, tol = 0.57862E+04, time = 12.21 | CG iter. 36 -- res = 0.58935E+04, tol = 0.57862E+04, time = 10.59 | CG iter. 37 -- res = 0.52984E+04, tol = 0.57862E+04, time = 10.59 | CG iter. 38 -- res = 0.47580E+04, tol = 0.57862E+04, time = 10.54 | CG iter. 39 -- res = 0.41978E+04, tol = 0.57862E+04, time = 10.72 | CG iter. 40 -- res = 0.34515E+04, tol = 0.57862E+04, time = 10.45 | CG iter. 41 -- res = 0.27849E+04, tol = 0.57862E+04, time = 10.49 | CG iter. 42 -- res = 0.23175E+04, tol = 0.57862E+04, time = 10.75 | CG iter. 43 -- res = 0.21118E+04, tol = 0.57862E+04, time = 10.25 | CG iter. 44 -- res = 0.19861E+04, tol = 0.57862E+04, time = 11.45 | CG iter. 45 -- res = 0.19228E+04, tol = 0.57862E+04, time = 10.58 | CG iter. 46 -- res = 0.18291E+04, tol = 0.57862E+04, time = 10.52 | CG iter. 47 -- res = 0.16622E+04, tol = 0.57862E+04, time = 10.85 | CG iter. 48 -- res = 0.14674E+04, tol = 0.57862E+04, time = 10.74 | CG iter. 49 -- res = 0.12610E+04, tol = 0.57862E+04, time = 10.52 | CG iter. 50 -- res = 0.11115E+04, tol = 0.57862E+04, time = 10.34 | CG iter. 51 -- res = 0.10275E+04, tol = 0.57862E+04, time = 10.60 | CG iter. 52 -- res = 0.96169E+03, tol = 0.57862E+04, time = 10.59 | CG iter. 53 -- res = 0.87385E+03, tol = 0.57862E+04, time = 10.52 | CG iter. 54 -- res = 0.76192E+03, tol = 0.57862E+04, time = 16.19 | CG iter. 55 -- res = 0.65970E+03, tol = 0.57862E+04, time = 10.55 | CG iter. 56 -- res = 0.57429E+03, tol = 0.57862E+04, time = 10.37 | CG iter. 57 -- res = 0.52470E+03, tol = 0.57862E+04, time = 10.60 | CG iter. 58 -- res = 0.50986E+03, tol = 0.57862E+04, time = 10.43 | CG iter. 59 -- res = 0.48333E+03, tol = 0.57862E+04, time = 10.33 | CG iter. 60 -- res = 0.45958E+03, tol = 0.57862E+04, time = 10.77 | Final CG iter 61 -- res = 0.45958E+03, tol = 0.57862E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.691 ( -229.786 -2229.788 2512.146 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11562109.216 | Old band monopole 8821317.173 | Change to band monopole 2740792.043 | Change to component monopole -2740780.254 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.794 2.719 | New value 0.327 | Old value 4.794 | Difference -4.467 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.444 ( 6.634 9.330 -8.980 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.653 4.577 | New value -0.126 | Old value 7.653 | Difference -7.779 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.12932E+07, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.10120E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.33871E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.50383E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.91015E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11562059.485 | (Sampled value in CG: 11538335.856 ) | Chain = 1 -- chisq = 0.81483000E+09 | Chain = 1 -- wall time = 5943.578 sec Available RAM: MemAvailable: 381226920 kB Available Swap: SwapFree: 1154033188 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 215 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444741 | --> Sampling calibration, mode = relcal | relcal = 1.3432926E-02 7.4700441E-04 -1.6022457E-03 -1.2577685E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1153312 0.1287147 97048662.3441818 | BP delta = 9.0639077E-02 0.1040225 97048673.9992516 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632333 | --> Sampling calibration, mode = relcal | relcal = -2.8201768E-03 -7.0427213E-04 1.6792894E-03 1.6115572E-03 -4.0738613E-04 6.4098841E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5710596 15219668.0791143 | BP delta = 0.0000000E+00 -0.5703783 15219666.3281344 | BP chisq diff = -1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18264533981515 | --> Sampling calibration, mode = relcal | relcal = -7.5003959E-02 -5.8453448E-02 9.1825940E-02 4.1631464E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3078671E-04 4.7691879E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0813E-05 | 2: delta_r/delta_0: 8.8378E-07 | 3: delta_s/delta_0: 2.1688E-07 | 4: delta_r/delta_0: 1.9461E-08 | 5: delta_s/delta_0: 2.1286E-08 | 6: delta_r/delta_0: 1.0883E-09 | 7: delta_s/delta_0: 2.0916E-10 | 8: delta_r/delta_0: 1.0948E-10 | 9: delta_s/delta_0: 3.1241E-10 | 10: delta_r/delta_0: 1.1830E-10 | 11: delta_s/delta_0: 6.6711E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.216217199916652E-003 2.737269721596958E-005 | BP delta = 4.4183541E-02 6.0961798E-02 50481888.6608328 | BP delta = 4.5832686E-02 6.2610939E-02 50481888.1223842 | BP chisq diff = -0.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02582109 | --> Sampling calibration, mode = relcal | relcal = -0.1066831 -9.5510066E-02 0.1449422 5.7250995E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7446637E-03 1.7176243E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.0688E-05 | 2: delta_r/delta_0: 2.0567E-06 | 3: delta_s/delta_0: 2.2969E-07 | 4: delta_r/delta_0: 4.7447E-08 | 5: delta_s/delta_0: 3.6472E-08 | 6: delta_r/delta_0: 8.2713E-09 | 7: delta_s/delta_0: 7.1944E-09 | 8: delta_r/delta_0: 2.0154E-09 | 9: delta_s/delta_0: 8.9323E-10 | 10: delta_r/delta_0: 6.6896E-10 | 11: delta_s/delta_0: 1.4036E-08 | 12: delta_r/delta_0: 2.7690E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.015561157235953E-002 2.811328429347283E-005 | BP delta = -0.2560342 -0.2337679 57389369.9301458 | BP delta = -0.2675815 -0.2453151 57389369.2934440 | BP chisq diff = -0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81214605 | --> Sampling calibration, mode = relcal | relcal = 0.2954154 0.2247983 -0.2836635 -0.2365502 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.6943559E-04 4.9561518E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.1888E-03 | 2: delta_r/delta_0: 1.6776E-04 | 3: delta_s/delta_0: 8.8641E-05 | 4: delta_r/delta_0: 7.3825E-06 | 5: delta_s/delta_0: 8.3624E-06 | 6: delta_r/delta_0: 1.2821E-06 | 7: delta_s/delta_0: 1.0250E-07 | 8: delta_r/delta_0: 9.9209E-09 | 9: delta_s/delta_0: 7.5360E-09 | 10: delta_r/delta_0: 2.2149E-09 | 11: delta_s/delta_0: 8.9888E-09 | 12: delta_r/delta_0: 5.2705E-10 | 13: delta_s/delta_0: 1.2130E-07 | 14: delta_r/delta_0: 1.2369E-08 | 15: delta_s/delta_0: 1.5344E-10 | 16: delta_r/delta_0: 5.6234E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.920341922507607E-003 4.022035347615892E-005 | BP delta = -0.1152739 -0.1440827 72485958.9904906 | BP delta = -0.1530944 -0.1819033 72485958.9152034 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95895358 | --> Sampling calibration, mode = relcal | relcal = 0.1064900 0.1394558 -0.1102449 -0.1357009 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8216934E-03 1.2989120E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5729E-04 | 2: delta_r/delta_0: 6.5194E-06 | 3: delta_s/delta_0: 5.4996E-05 | 4: delta_r/delta_0: 2.4268E-06 | 5: delta_s/delta_0: 2.1082E-07 | 6: delta_r/delta_0: 1.0158E-07 | 7: delta_s/delta_0: 4.0619E-07 | 8: delta_r/delta_0: 2.7611E-08 | 9: delta_s/delta_0: 8.0774E-09 | 10: delta_r/delta_0: 3.6809E-09 | 11: delta_s/delta_0: 1.1706E-09 | 12: delta_r/delta_0: 9.0997E-10 | 13: delta_s/delta_0: 1.4744E-10 | 14: delta_r/delta_0: 1.1450E-10 | 15: delta_s/delta_0: 1.0234E-10 | 16: delta_r/delta_0: 8.5260E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.008547999425385E-002 3.697942522581119E-005 | BP delta = 5.0019592E-02 0.1532389 72777794.4241370 | BP delta = 4.5765668E-02 0.1489850 72777794.5597387 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.093424 | New value = -3.161706 | poltype: 2 pol: 1 CPU time specind = 7.7669621E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230905 | New value = -3.083087 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172513 | New value = -3.219656 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193081 | New value = -3.119576 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.095007 | New value = -3.157754 | poltype: 2 pol: 2 CPU time specind = 5.8920383E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.13573E+08, tol = 0.61501E+01, time = 5.34 | CG iter. 2 -- res = 0.35036E+06, tol = 0.61501E+01, time = 5.04 | CG iter. 3 -- res = 0.66787E+05, tol = 0.61501E+01, time = 5.37 | CG iter. 4 -- res = 0.57206E+05, tol = 0.61501E+01, time = 5.43 | CG iter. 5 -- res = 0.56718E+05, tol = 0.61501E+01, time = 5.24 | CG iter. 6 -- res = 0.52673E+05, tol = 0.61501E+01, time = 5.19 | CG iter. 7 -- res = 0.50932E+05, tol = 0.61501E+01, time = 5.18 | CG iter. 8 -- res = 0.39583E+05, tol = 0.61501E+01, time = 4.89 | CG iter. 9 -- res = 0.31978E+05, tol = 0.61501E+01, time = 5.17 | CG iter. 10 -- res = 0.25886E+05, tol = 0.61501E+01, time = 5.40 | CG iter. 11 -- res = 0.17781E+05, tol = 0.61501E+01, time = 4.95 | CG iter. 12 -- res = 0.12448E+05, tol = 0.61501E+01, time = 5.17 | CG iter. 13 -- res = 0.10545E+05, tol = 0.61501E+01, time = 5.39 | CG iter. 14 -- res = 0.94593E+04, tol = 0.61501E+01, time = 4.94 | CG iter. 15 -- res = 0.76393E+04, tol = 0.61501E+01, time = 5.36 | CG iter. 16 -- res = 0.55136E+04, tol = 0.61501E+01, time = 5.10 | CG iter. 17 -- res = 0.38473E+04, tol = 0.61501E+01, time = 5.30 | CG iter. 18 -- res = 0.33192E+04, tol = 0.61501E+01, time = 5.24 | CG iter. 19 -- res = 0.28761E+04, tol = 0.61501E+01, time = 5.29 | CG iter. 20 -- res = 0.22579E+04, tol = 0.61501E+01, time = 11.61 | CG iter. 21 -- res = 0.16583E+04, tol = 0.61501E+01, time = 5.06 | CG iter. 22 -- res = 0.13515E+04, tol = 0.61501E+01, time = 5.18 | CG iter. 23 -- res = 0.11885E+04, tol = 0.61501E+01, time = 5.78 | CG iter. 24 -- res = 0.95930E+03, tol = 0.61501E+01, time = 5.21 | CG iter. 25 -- res = 0.70437E+03, tol = 0.61501E+01, time = 5.40 | CG iter. 26 -- res = 0.54322E+03, tol = 0.61501E+01, time = 4.99 | CG iter. 27 -- res = 0.49422E+03, tol = 0.61501E+01, time = 5.23 | CG iter. 28 -- res = 0.44205E+03, tol = 0.61501E+01, time = 5.11 | CG iter. 29 -- res = 0.33860E+03, tol = 0.61501E+01, time = 5.23 | CG iter. 30 -- res = 0.26888E+03, tol = 0.61501E+01, time = 5.36 | CG iter. 31 -- res = 0.23663E+03, tol = 0.61501E+01, time = 5.10 | CG iter. 32 -- res = 0.20519E+03, tol = 0.61501E+01, time = 4.93 | CG iter. 33 -- res = 0.16593E+03, tol = 0.61501E+01, time = 5.28 | CG iter. 34 -- res = 0.12875E+03, tol = 0.61501E+01, time = 5.15 | CG iter. 35 -- res = 0.11031E+03, tol = 0.61501E+01, time = 5.05 | CG iter. 36 -- res = 0.10097E+03, tol = 0.61501E+01, time = 5.96 | CG iter. 37 -- res = 0.83962E+02, tol = 0.61501E+01, time = 6.37 | CG iter. 38 -- res = 0.65170E+02, tol = 0.61501E+01, time = 5.28 | CG iter. 39 -- res = 0.52969E+02, tol = 0.61501E+01, time = 5.43 | CG iter. 40 -- res = 0.47358E+02, tol = 0.61501E+01, time = 5.19 | CG iter. 41 -- res = 0.39989E+02, tol = 0.61501E+01, time = 5.12 | CG iter. 42 -- res = 0.31586E+02, tol = 0.61501E+01, time = 5.45 | CG iter. 43 -- res = 0.25262E+02, tol = 0.61501E+01, time = 5.17 | CG iter. 44 -- res = 0.21398E+02, tol = 0.61501E+01, time = 5.10 | CG iter. 45 -- res = 0.17761E+02, tol = 0.61501E+01, time = 5.07 | CG iter. 46 -- res = 0.13797E+02, tol = 0.61501E+01, time = 5.29 | CG iter. 47 -- res = 0.10873E+02, tol = 0.61501E+01, time = 5.05 | CG iter. 48 -- res = 0.90488E+01, tol = 0.61501E+01, time = 5.02 | CG iter. 49 -- res = 0.74257E+01, tol = 0.61501E+01, time = 5.31 | CG iter. 50 -- res = 0.61033E+01, tol = 0.61501E+01, time = 5.20 | Final CG iter 51 -- res = 0.61033E+01, tol = 0.61501E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8953784.477 | Old band monopole 11562109.216 | Change to band monopole -2608324.739 | Change to component monopole 2608313.520 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.54 | CG iter. 1 -- res = 0.29123E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.55531E+02, tol = 0.47627E+18, time = 2.55 | CG iter. 3 -- res = 0.19724E+01, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.41977E-02, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.43816E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8953745.965 | (Sampled value in CG: 8895833.504 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.510504 | New value = 1.528827 | poltype: 2 pol: 1 CPU time specind = 1.8783092E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.542514 | New value = 1.501647 | poltype: 2 pol: 2 CPU time specind = 4.2498112E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.24081E+08, tol = 0.47625E+04, time = 5.97 | CG iter. 2 -- res = 0.52096E+07, tol = 0.47625E+04, time = 6.08 | CG iter. 3 -- res = 0.81942E+06, tol = 0.47625E+04, time = 5.77 | CG iter. 4 -- res = 0.34563E+06, tol = 0.47625E+04, time = 5.86 | CG iter. 5 -- res = 0.14925E+06, tol = 0.47625E+04, time = 11.87 | CG iter. 6 -- res = 0.78060E+05, tol = 0.47625E+04, time = 6.07 | CG iter. 7 -- res = 0.42066E+05, tol = 0.47625E+04, time = 6.21 | CG iter. 8 -- res = 0.20438E+05, tol = 0.47625E+04, time = 5.70 | CG iter. 9 -- res = 0.90614E+04, tol = 0.47625E+04, time = 5.98 | CG iter. 10 -- res = 0.36889E+04, tol = 0.47625E+04, time = 6.18 | CG iter. 11 -- res = 0.16490E+04, tol = 0.47625E+04, time = 5.56 | CG iter. 12 -- res = 0.84276E+03, tol = 0.47625E+04, time = 5.60 | CG iter. 13 -- res = 0.47277E+03, tol = 0.47625E+04, time = 5.84 | CG iter. 14 -- res = 0.27011E+03, tol = 0.47625E+04, time = 5.84 | CG iter. 15 -- res = 0.14118E+03, tol = 0.47625E+04, time = 5.90 | CG iter. 16 -- res = 0.65449E+02, tol = 0.47625E+04, time = 5.96 | CG iter. 17 -- res = 0.30733E+02, tol = 0.47625E+04, time = 5.93 | CG iter. 18 -- res = 0.15677E+02, tol = 0.47625E+04, time = 6.36 | CG iter. 19 -- res = 0.85060E+01, tol = 0.47625E+04, time = 6.42 | CG iter. 20 -- res = 0.48256E+01, tol = 0.47625E+04, time = 7.04 | CG iter. 21 -- res = 0.26068E+01, tol = 0.47625E+04, time = 6.43 | CG iter. 22 -- res = 0.13637E+01, tol = 0.47625E+04, time = 6.21 | CG iter. 23 -- res = 0.69894E+00, tol = 0.47625E+04, time = 5.64 | CG iter. 24 -- res = 0.36641E+00, tol = 0.47625E+04, time = 6.06 | CG iter. 25 -- res = 0.20278E+00, tol = 0.47625E+04, time = 5.78 | CG iter. 26 -- res = 0.11541E+00, tol = 0.47625E+04, time = 5.79 | CG iter. 27 -- res = 0.65172E-01, tol = 0.47625E+04, time = 6.12 | CG iter. 28 -- res = 0.36026E-01, tol = 0.47625E+04, time = 5.81 | CG iter. 29 -- res = 0.18684E-01, tol = 0.47625E+04, time = 5.97 | CG iter. 30 -- res = 0.96401E-02, tol = 0.47625E+04, time = 5.86 | CG iter. 31 -- res = 0.52094E-02, tol = 0.47625E+04, time = 5.83 | CG iter. 32 -- res = 0.29355E-02, tol = 0.47625E+04, time = 5.78 | CG iter. 33 -- res = 0.16930E-02, tol = 0.47625E+04, time = 5.72 | CG iter. 34 -- res = 0.90566E-03, tol = 0.47625E+04, time = 5.90 | CG iter. 35 -- res = 0.46731E-03, tol = 0.47625E+04, time = 5.89 | Final CG iter 36 -- res = 0.46731E-03, tol = 0.47625E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.349 2.743 | New value 0.381 | Old value 0.349 | Difference 0.033 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.45055E+04, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.10440E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.36627E+00, tol = 0.47627E+18, time = 1.76 | CG iter. 4 -- res = 0.59784E-04, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.21091E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8953745.965 | (Sampled value in CG: 8894638.618 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.674564 | New value = -3.617938 | poltype: 1 pol: 1 CPU time specind = 7.6439381E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.29332E+07, tol = 0.24474E+01, time = 2.33 | CG iter. 2 -- res = 0.11558E+07, tol = 0.24474E+01, time = 2.81 | CG iter. 3 -- res = 0.23876E+06, tol = 0.24474E+01, time = 2.32 | CG iter. 4 -- res = 0.11103E+06, tol = 0.24474E+01, time = 2.19 | CG iter. 5 -- res = 0.66880E+05, tol = 0.24474E+01, time = 2.32 | CG iter. 6 -- res = 0.32286E+05, tol = 0.24474E+01, time = 2.27 | CG iter. 7 -- res = 0.10838E+05, tol = 0.24474E+01, time = 2.55 | CG iter. 8 -- res = 0.45200E+04, tol = 0.24474E+01, time = 2.44 | CG iter. 9 -- res = 0.20260E+04, tol = 0.24474E+01, time = 2.57 | CG iter. 10 -- res = 0.79352E+03, tol = 0.24474E+01, time = 2.28 | CG iter. 11 -- res = 0.33887E+03, tol = 0.24474E+01, time = 2.33 | CG iter. 12 -- res = 0.17237E+03, tol = 0.24474E+01, time = 2.35 | CG iter. 13 -- res = 0.88491E+02, tol = 0.24474E+01, time = 2.39 | CG iter. 14 -- res = 0.44117E+02, tol = 0.24474E+01, time = 2.47 | CG iter. 15 -- res = 0.19866E+02, tol = 0.24474E+01, time = 2.25 | CG iter. 16 -- res = 0.83574E+01, tol = 0.24474E+01, time = 2.24 | CG iter. 17 -- res = 0.35898E+01, tol = 0.24474E+01, time = 2.51 | CG iter. 18 -- res = 0.16862E+01, tol = 0.24474E+01, time = 2.42 | CG iter. 19 -- res = 0.83732E+00, tol = 0.24474E+01, time = 2.31 | CG iter. 20 -- res = 0.42384E+00, tol = 0.24474E+01, time = 2.65 | CG iter. 21 -- res = 0.20312E+00, tol = 0.24474E+01, time = 3.10 | CG iter. 22 -- res = 0.90501E-01, tol = 0.24474E+01, time = 2.25 | CG iter. 23 -- res = 0.41263E-01, tol = 0.24474E+01, time = 2.55 | CG iter. 24 -- res = 0.19847E-01, tol = 0.24474E+01, time = 2.42 | CG iter. 25 -- res = 0.95950E-02, tol = 0.24474E+01, time = 2.58 | CG iter. 26 -- res = 0.50441E-02, tol = 0.24474E+01, time = 2.22 | CG iter. 27 -- res = 0.26006E-02, tol = 0.24474E+01, time = 2.58 | CG iter. 28 -- res = 0.12400E-02, tol = 0.24474E+01, time = 2.24 | CG iter. 29 -- res = 0.54692E-03, tol = 0.24474E+01, time = 2.19 | CG iter. 30 -- res = 0.25952E-03, tol = 0.24474E+01, time = 2.49 | CG iter. 31 -- res = 0.12835E-03, tol = 0.24474E+01, time = 2.52 | CG iter. 32 -- res = 0.65704E-04, tol = 0.24474E+01, time = 2.23 | CG iter. 33 -- res = 0.31847E-04, tol = 0.24474E+01, time = 2.33 | CG iter. 34 -- res = 0.15031E-04, tol = 0.24474E+01, time = 2.35 | CG iter. 35 -- res = 0.72485E-05, tol = 0.24474E+01, time = 2.52 | CG iter. 36 -- res = 0.33642E-05, tol = 0.24474E+01, time = 2.20 | CG iter. 37 -- res = 0.15790E-05, tol = 0.24474E+01, time = 2.29 | CG iter. 38 -- res = 0.81163E-06, tol = 0.24474E+01, time = 2.59 | CG iter. 39 -- res = 0.39520E-06, tol = 0.24474E+01, time = 2.43 | CG iter. 40 -- res = 0.18537E-06, tol = 0.24474E+01, time = 2.47 | CG iter. 41 -- res = 0.85071E-07, tol = 0.24474E+01, time = 2.33 | CG iter. 42 -- res = 0.40011E-07, tol = 0.24474E+01, time = 2.64 | CG iter. 43 -- res = 0.18788E-07, tol = 0.24474E+01, time = 2.65 | CG iter. 44 -- res = 0.92702E-08, tol = 0.24474E+01, time = 2.63 | CG iter. 45 -- res = 0.44294E-08, tol = 0.24474E+01, time = 2.37 | CG iter. 46 -- res = 0.21511E-08, tol = 0.24474E+01, time = 2.49 | CG iter. 47 -- res = 0.10213E-08, tol = 0.24474E+01, time = 2.44 | CG iter. 48 -- res = 0.47224E-09, tol = 0.24474E+01, time = 2.35 | CG iter. 49 -- res = 0.22788E-09, tol = 0.24474E+01, time = 2.70 | CG iter. 50 -- res = 0.10839E-09, tol = 0.24474E+01, time = 2.37 | Final CG iter 51 -- res = 0.10839E-09, tol = 0.24474E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.950 5.910 | New value 4.631 | Old value -5.950 | Difference 10.581 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.11066E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.55660E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.20287E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.71260E-02, tol = 0.47627E+18, time = 1.72 | Final CG iter 5 -- res = 0.19524E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8953745.965 | (Sampled value in CG: 8914079.849 ) | CPU time specind = 1079.899 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.68406E+08, tol = 0.57763E+04, time = 10.54 | CG iter. 2 -- res = 0.58508E+08, tol = 0.57763E+04, time = 10.88 | CG iter. 3 -- res = 0.15341E+08, tol = 0.57763E+04, time = 12.54 | CG iter. 4 -- res = 0.64416E+07, tol = 0.57763E+04, time = 11.85 | CG iter. 5 -- res = 0.38666E+07, tol = 0.57763E+04, time = 11.10 | CG iter. 6 -- res = 0.22569E+07, tol = 0.57763E+04, time = 10.76 | CG iter. 7 -- res = 0.13273E+07, tol = 0.57763E+04, time = 10.67 | CG iter. 8 -- res = 0.88975E+06, tol = 0.57763E+04, time = 10.78 | CG iter. 9 -- res = 0.58286E+06, tol = 0.57763E+04, time = 10.70 | CG iter. 10 -- res = 0.35750E+06, tol = 0.57763E+04, time = 10.81 | CG iter. 11 -- res = 0.19601E+06, tol = 0.57763E+04, time = 10.71 | CG iter. 12 -- res = 0.10642E+06, tol = 0.57763E+04, time = 10.79 | CG iter. 13 -- res = 0.61621E+05, tol = 0.57763E+04, time = 10.71 | CG iter. 14 -- res = 0.39347E+05, tol = 0.57763E+04, time = 11.06 | CG iter. 15 -- res = 0.29666E+05, tol = 0.57763E+04, time = 10.48 | CG iter. 16 -- res = 0.25575E+05, tol = 0.57763E+04, time = 10.96 | CG iter. 17 -- res = 0.22447E+05, tol = 0.57763E+04, time = 10.57 | CG iter. 18 -- res = 0.19371E+05, tol = 0.57763E+04, time = 10.77 | CG iter. 19 -- res = 0.16771E+05, tol = 0.57763E+04, time = 10.54 | CG iter. 20 -- res = 0.15144E+05, tol = 0.57763E+04, time = 10.90 | CG iter. 21 -- res = 0.14637E+05, tol = 0.57763E+04, time = 10.83 | CG iter. 22 -- res = 0.14925E+05, tol = 0.57763E+04, time = 11.53 | CG iter. 23 -- res = 0.15361E+05, tol = 0.57763E+04, time = 16.67 | CG iter. 24 -- res = 0.15165E+05, tol = 0.57763E+04, time = 10.90 | CG iter. 25 -- res = 0.13472E+05, tol = 0.57763E+04, time = 10.86 | CG iter. 26 -- res = 0.10739E+05, tol = 0.57763E+04, time = 10.71 | CG iter. 27 -- res = 0.80417E+04, tol = 0.57763E+04, time = 10.55 | CG iter. 28 -- res = 0.58844E+04, tol = 0.57763E+04, time = 10.90 | CG iter. 29 -- res = 0.47597E+04, tol = 0.57763E+04, time = 10.79 | CG iter. 30 -- res = 0.41108E+04, tol = 0.57763E+04, time = 10.21 | CG iter. 31 -- res = 0.36153E+04, tol = 0.57763E+04, time = 12.29 | CG iter. 32 -- res = 0.31679E+04, tol = 0.57763E+04, time = 11.14 | CG iter. 33 -- res = 0.27161E+04, tol = 0.57763E+04, time = 11.13 | CG iter. 34 -- res = 0.22185E+04, tol = 0.57763E+04, time = 10.35 | CG iter. 35 -- res = 0.18632E+04, tol = 0.57763E+04, time = 10.57 | CG iter. 36 -- res = 0.17178E+04, tol = 0.57763E+04, time = 10.67 | CG iter. 37 -- res = 0.16151E+04, tol = 0.57763E+04, time = 10.25 | CG iter. 38 -- res = 0.15256E+04, tol = 0.57763E+04, time = 10.55 | CG iter. 39 -- res = 0.13911E+04, tol = 0.57763E+04, time = 10.67 | CG iter. 40 -- res = 0.11508E+04, tol = 0.57763E+04, time = 10.80 | CG iter. 41 -- res = 0.91486E+03, tol = 0.57763E+04, time = 11.27 | CG iter. 42 -- res = 0.74139E+03, tol = 0.57763E+04, time = 10.71 | CG iter. 43 -- res = 0.63990E+03, tol = 0.57763E+04, time = 10.46 | CG iter. 44 -- res = 0.56103E+03, tol = 0.57763E+04, time = 10.46 | CG iter. 45 -- res = 0.50134E+03, tol = 0.57763E+04, time = 10.68 | CG iter. 46 -- res = 0.45523E+03, tol = 0.57763E+04, time = 10.87 | CG iter. 47 -- res = 0.40139E+03, tol = 0.57763E+04, time = 10.75 | CG iter. 48 -- res = 0.35243E+03, tol = 0.57763E+04, time = 10.33 | CG iter. 49 -- res = 0.31306E+03, tol = 0.57763E+04, time = 10.77 | CG iter. 50 -- res = 0.28589E+03, tol = 0.57763E+04, time = 16.76 | CG iter. 51 -- res = 0.27660E+03, tol = 0.57763E+04, time = 10.58 | CG iter. 52 -- res = 0.25796E+03, tol = 0.57763E+04, time = 10.59 | CG iter. 53 -- res = 0.23308E+03, tol = 0.57763E+04, time = 10.48 | CG iter. 54 -- res = 0.20710E+03, tol = 0.57763E+04, time = 10.58 | CG iter. 55 -- res = 0.17743E+03, tol = 0.57763E+04, time = 11.03 | CG iter. 56 -- res = 0.15013E+03, tol = 0.57763E+04, time = 10.35 | CG iter. 57 -- res = 0.12894E+03, tol = 0.57763E+04, time = 10.63 | CG iter. 58 -- res = 0.11670E+03, tol = 0.57763E+04, time = 12.50 | CG iter. 59 -- res = 0.10900E+03, tol = 0.57763E+04, time = 10.96 | CG iter. 60 -- res = 0.10242E+03, tol = 0.57763E+04, time = 10.83 | Final CG iter 61 -- res = 0.10242E+03, tol = 0.57763E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.858 ( -230.027 -2229.448 2511.854 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9614679.665 | Old band monopole 8953784.477 | Change to band monopole 660895.189 | Change to component monopole -660892.346 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.388 2.754 | New value -0.343 | Old value 0.388 | Difference -0.732 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.222 ( 7.422 9.330 -8.417 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.853 5.454 | New value -2.035 | Old value 10.853 | Difference -12.888 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.15499E+06, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.54525E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.24546E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.28306E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.95625E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9614638.311 | (Sampled value in CG: 9594019.657 ) | Chain = 1 -- chisq = 0.81500149E+09 | Chain = 1 -- wall time = 5445.173 sec Available RAM: MemAvailable: 381802444 kB Available Swap: SwapFree: 1154656804 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 216 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445187 | --> Sampling calibration, mode = relcal | relcal = 1.3424598E-02 7.4385718E-04 -1.5898079E-03 -1.2578647E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1153312 0.1287147 9405822.11413443 | BP delta = 0.1153312 0.1226317 9405835.64307354 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632288 | --> Sampling calibration, mode = relcal | relcal = -2.8208075E-03 -7.0302392E-04 1.6775997E-03 1.6139135E-03 -4.0892154E-04 6.4123975E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5703783 15216081.1127043 | BP delta = 0.0000000E+00 -0.5639298 15216076.4500793 | BP chisq diff = -4.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103247 | --> Sampling calibration, mode = relcal | relcal = 3.7093088E-02 1.3716522E-02 5.7523460E-03 -7.1668327E-03 8.2537783E-03 2.3928822E-03 -7.6080943E-03 -7.1781510E-03 -1.5299774E-02 -1.4800826E-02 -3.0585129E-03 -1.2096425E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.188144 132205054.470924 | BP delta = 0.0000000E+00 -1.213581 132205057.678873 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17936705808091 | --> Sampling calibration, mode = relcal | relcal = -7.4073158E-02 -5.7770800E-02 9.0872638E-02 4.0971320E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4278482E-04 3.3557080E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9687E-03 | 2: delta_r/delta_0: 4.5533E-05 | 3: delta_s/delta_0: 1.9688E-07 | 4: delta_r/delta_0: 1.9909E-08 | 5: delta_s/delta_0: 7.7654E-09 | 6: delta_r/delta_0: 1.6041E-09 | 7: delta_s/delta_0: 1.3519E-09 | 8: delta_r/delta_0: 1.0131E-10 | 9: delta_s/delta_0: 7.8027E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.293073004449108E-003 2.744987416172129E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9683E-03 | 2: delta_r/delta_0: 4.5525E-05 | 3: delta_s/delta_0: 1.9688E-07 | 4: delta_r/delta_0: 1.9909E-08 | 5: delta_s/delta_0: 7.7653E-09 | 6: delta_r/delta_0: 1.6041E-09 | 7: delta_s/delta_0: 1.3526E-09 | 8: delta_r/delta_0: 1.0131E-10 | 9: delta_s/delta_0: 7.8030E-11 | Reached bicg-stab tolerance | BP delta = 4.5832686E-02 6.2610939E-02 3692128.83205799 | BP delta = 4.5832686E-02 6.2922828E-02 3691039.04048198 | BP chisq diff = -1089.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02582256 | --> Sampling calibration, mode = relcal | relcal = -0.1066666 -9.5595881E-02 0.1449733 5.7289243E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0619742E-03 1.5526271E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.8139E-05 | 2: delta_r/delta_0: 1.8196E-06 | 3: delta_s/delta_0: 2.3503E-07 | 4: delta_r/delta_0: 3.9958E-08 | 5: delta_s/delta_0: 3.2774E-08 | 6: delta_r/delta_0: 6.5461E-09 | 7: delta_s/delta_0: 4.6727E-09 | 8: delta_r/delta_0: 1.7094E-09 | 9: delta_s/delta_0: 7.9836E-10 | 10: delta_r/delta_0: 5.9931E-10 | 11: delta_s/delta_0: 1.1139E-09 | 12: delta_r/delta_0: 9.2013E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.027238236215004E-002 2.811344000803420E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.8139E-05 | 2: delta_r/delta_0: 1.8196E-06 | 3: delta_s/delta_0: 2.3503E-07 | 4: delta_r/delta_0: 3.9960E-08 | 5: delta_s/delta_0: 3.2772E-08 | 6: delta_r/delta_0: 6.5462E-09 | 7: delta_s/delta_0: 4.6727E-09 | 8: delta_r/delta_0: 1.7094E-09 | 9: delta_s/delta_0: 7.9838E-10 | 10: delta_r/delta_0: 5.9932E-10 | 11: delta_s/delta_0: 1.1139E-09 | 12: delta_r/delta_0: 9.2015E-11 | Reached bicg-stab tolerance | BP delta = -0.2675815 -0.2453151 2841437.95776020 | BP delta = -0.2675815 -0.2465319 2841440.72691384 | BP chisq diff = 2.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81206053 | --> Sampling calibration, mode = relcal | relcal = 0.2953840 0.2248519 -0.2837655 -0.2364704 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0571633E-03 5.1851678E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3668E-02 | 2: delta_r/delta_0: 3.1924E-04 | 3: delta_s/delta_0: 3.4130E-04 | 4: delta_r/delta_0: 5.0948E-05 | 5: delta_s/delta_0: 3.2590E-02 | 6: delta_r/delta_0: 3.2070E-03 | 7: delta_s/delta_0: 3.1865E-03 | 8: delta_r/delta_0: 9.2337E-04 | 9: delta_s/delta_0: 1.1111E-05 | 10: delta_r/delta_0: 3.6793E-06 | 11: delta_s/delta_0: 1.7206E-06 | 12: delta_r/delta_0: 3.8780E-07 | 13: delta_s/delta_0: 5.8715E-08 | 14: delta_r/delta_0: 2.6664E-08 | 15: delta_s/delta_0: 9.3123E-08 | 16: delta_r/delta_0: 6.7238E-09 | 17: delta_s/delta_0: 6.9719E-07 | 18: delta_r/delta_0: 3.3613E-08 | 19: delta_s/delta_0: 4.3340E-10 | 20: delta_r/delta_0: 2.7482E-10 | 21: delta_s/delta_0: 9.7866E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.334576636742021 4.022586997204608E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3668E-02 | 2: delta_r/delta_0: 3.1924E-04 | 3: delta_s/delta_0: 3.4131E-04 | 4: delta_r/delta_0: 5.0949E-05 | 5: delta_s/delta_0: 3.2583E-02 | 6: delta_r/delta_0: 3.2064E-03 | 7: delta_s/delta_0: 3.1859E-03 | 8: delta_r/delta_0: 9.2320E-04 | 9: delta_s/delta_0: 1.1111E-05 | 10: delta_r/delta_0: 3.6791E-06 | 11: delta_s/delta_0: 1.7206E-06 | 12: delta_r/delta_0: 3.8778E-07 | 13: delta_s/delta_0: 5.8712E-08 | 14: delta_r/delta_0: 2.6662E-08 | 15: delta_s/delta_0: 9.3095E-08 | 16: delta_r/delta_0: 6.7224E-09 | 17: delta_s/delta_0: 6.9633E-07 | 18: delta_r/delta_0: 3.3572E-08 | 19: delta_s/delta_0: 4.3337E-10 | 20: delta_r/delta_0: 2.7481E-10 | 21: delta_s/delta_0: 9.7859E-11 | Reached bicg-stab tolerance | BP delta = -0.1530944 -0.1819033 2827618.43230732 | BP delta = -0.1530944 -0.1665599 2827618.45123670 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95891986 | --> Sampling calibration, mode = relcal | relcal = 0.1065728 0.1394529 -0.1103182 -0.1357075 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0295433E-02 1.4225269E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6736E-04 | 2: delta_r/delta_0: 6.7495E-06 | 3: delta_s/delta_0: 2.1607E-05 | 4: delta_r/delta_0: 1.0320E-06 | 5: delta_s/delta_0: 2.2151E-07 | 6: delta_r/delta_0: 1.0512E-07 | 7: delta_s/delta_0: 2.7005E-07 | 8: delta_r/delta_0: 2.8884E-08 | 9: delta_s/delta_0: 7.0613E-09 | 10: delta_r/delta_0: 3.7542E-09 | 11: delta_s/delta_0: 2.6019E-09 | 12: delta_r/delta_0: 1.8453E-10 | 13: delta_s/delta_0: 2.3167E-10 | 14: delta_r/delta_0: 9.5836E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.012966151497777E-002 3.698131382731467E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6735E-04 | 2: delta_r/delta_0: 6.7493E-06 | 3: delta_s/delta_0: 2.1606E-05 | 4: delta_r/delta_0: 1.0325E-06 | 5: delta_s/delta_0: 2.2152E-07 | 6: delta_r/delta_0: 1.0512E-07 | 7: delta_s/delta_0: 2.7052E-07 | 8: delta_r/delta_0: 2.8884E-08 | 9: delta_s/delta_0: 7.0595E-09 | 10: delta_r/delta_0: 3.7516E-09 | 11: delta_s/delta_0: 2.6570E-09 | 12: delta_r/delta_0: 1.8137E-10 | 13: delta_s/delta_0: 2.3131E-10 | 14: delta_r/delta_0: 9.5474E-11 | Reached bicg-stab tolerance | BP delta = 4.5765668E-02 0.1489850 3003332.33629261 | BP delta = 4.5765668E-02 0.1483196 3003369.36585116 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52165027 | --> Sampling calibration, mode = relcal | relcal = -5.1090378E-02 -3.7512265E-03 2.7283322E-02 2.7558284E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0947129E-04 2.2786874E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8211E-05 | 2: delta_r/delta_0: 4.5607E-06 | 3: delta_s/delta_0: 9.5608E-07 | 4: delta_r/delta_0: 1.3116E-07 | 5: delta_s/delta_0: 1.2681E-07 | 6: delta_r/delta_0: 6.1998E-08 | 7: delta_s/delta_0: 1.9758E-08 | 8: delta_r/delta_0: 1.0953E-08 | 9: delta_s/delta_0: 4.6271E-07 | 10: delta_r/delta_0: 1.9718E-09 | 11: delta_s/delta_0: 6.3587E-09 | 12: delta_r/delta_0: 7.3671E-10 | 13: delta_s/delta_0: 9.2223E-10 | 14: delta_r/delta_0: 2.5385E-10 | 15: delta_s/delta_0: 3.2593E-10 | 16: delta_r/delta_0: 7.0864E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.165909941302636E-002 5.482543623150303E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8211E-05 | 2: delta_r/delta_0: 4.5607E-06 | 3: delta_s/delta_0: 9.5608E-07 | 4: delta_r/delta_0: 1.3116E-07 | 5: delta_s/delta_0: 1.2681E-07 | 6: delta_r/delta_0: 6.1998E-08 | 7: delta_s/delta_0: 1.9758E-08 | 8: delta_r/delta_0: 1.0953E-08 | 9: delta_s/delta_0: 4.6271E-07 | 10: delta_r/delta_0: 1.9717E-09 | 11: delta_s/delta_0: 6.3516E-09 | 12: delta_r/delta_0: 7.3561E-10 | 13: delta_s/delta_0: 9.2119E-10 | 14: delta_r/delta_0: 2.5355E-10 | 15: delta_s/delta_0: 3.2607E-10 | 16: delta_r/delta_0: 7.0754E-11 | Reached bicg-stab tolerance | BP delta = 6.4679936E-02 0.1708243 2435476.40907122 | BP delta = 6.4679936E-02 0.1706958 2435476.72088281 | BP chisq diff = 0.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42164022 | --> Sampling calibration, mode = relcal | relcal = 4.5550250E-02 3.9700009E-02 -2.8306950E-02 -5.6943309E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5092468E-03 4.1148714E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.1973E-05 | 2: delta_r/delta_0: 3.2110E-06 | 3: delta_s/delta_0: 1.8052E-06 | 4: delta_r/delta_0: 2.2342E-07 | 5: delta_s/delta_0: 7.0575E-08 | 6: delta_r/delta_0: 3.3747E-08 | 7: delta_s/delta_0: 1.1264E-05 | 8: delta_r/delta_0: 8.8704E-07 | 9: delta_s/delta_0: 2.9545E-09 | 10: delta_r/delta_0: 1.5960E-09 | 11: delta_s/delta_0: 4.8974E-04 | 12: delta_r/delta_0: 2.0392E-05 | 13: delta_s/delta_0: 2.5814E-05 | 14: delta_r/delta_0: 1.4320E-05 | 15: delta_s/delta_0: 2.2161E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.374020789287802E-002 4.994972108035723E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.1973E-05 | 2: delta_r/delta_0: 3.2109E-06 | 3: delta_s/delta_0: 1.8052E-06 | 4: delta_r/delta_0: 2.2342E-07 | 5: delta_s/delta_0: 7.0576E-08 | 6: delta_r/delta_0: 3.3747E-08 | 7: delta_s/delta_0: 1.1286E-05 | 8: delta_r/delta_0: 8.8857E-07 | 9: delta_s/delta_0: 2.9544E-09 | 10: delta_r/delta_0: 1.5960E-09 | 11: delta_s/delta_0: 2.0053E-04 | 12: delta_r/delta_0: 8.2984E-06 | 13: delta_s/delta_0: 1.0123E-05 | 14: delta_r/delta_0: 5.6103E-06 | 15: delta_s/delta_0: 2.2153E-11 | Reached bicg-stab tolerance | BP delta = 2.6616992E-02 -8.3917916E-02 2321854.25145668 | BP delta = 2.6616992E-02 -0.1111841 2321844.92861908 | BP chisq diff = -9.3, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28170574 | --> Sampling calibration, mode = relcal | relcal = 2.4193302E-02 4.5122299E-02 -2.3293145E-02 -4.6022456E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1812923E-02 5.2883001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0533E-04 | 2: delta_r/delta_0: 8.7172E-06 | 3: delta_s/delta_0: 1.4504E-06 | 4: delta_r/delta_0: 2.0313E-07 | 5: delta_s/delta_0: 8.1883E-08 | 6: delta_r/delta_0: 1.6879E-08 | 7: delta_s/delta_0: 7.8377E-09 | 8: delta_r/delta_0: 4.7377E-09 | 9: delta_s/delta_0: 8.3766E-08 | 10: delta_r/delta_0: 4.8172E-09 | 11: delta_s/delta_0: 1.3273E-09 | 12: delta_r/delta_0: 6.0957E-10 | 13: delta_s/delta_0: 1.0050E-09 | 14: delta_r/delta_0: 6.0386E-10 | 15: delta_s/delta_0: 5.9820E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.528639520453205E-003 7.841128650077245E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0533E-04 | 2: delta_r/delta_0: 8.7172E-06 | 3: delta_s/delta_0: 1.4504E-06 | 4: delta_r/delta_0: 2.0314E-07 | 5: delta_s/delta_0: 8.1885E-08 | 6: delta_r/delta_0: 1.6879E-08 | 7: delta_s/delta_0: 7.8377E-09 | 8: delta_r/delta_0: 4.7377E-09 | 9: delta_s/delta_0: 8.3765E-08 | 10: delta_r/delta_0: 4.8171E-09 | 11: delta_s/delta_0: 1.3273E-09 | 12: delta_r/delta_0: 6.0955E-10 | 13: delta_s/delta_0: 1.0049E-09 | 14: delta_r/delta_0: 6.0380E-10 | 15: delta_s/delta_0: 5.9819E-11 | Reached bicg-stab tolerance | BP delta = -0.1164539 -0.2443371 2490452.08842707 | BP delta = -0.1164539 -0.2504264 2490448.70765959 | BP chisq diff = -3.4, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29403866 | --> Sampling calibration, mode = relcal | relcal = 5.8798731E-04 1.0290411E-02 -3.8358476E-03 -7.0425505E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5982857E-02 1.6896728E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3036E-04 | 2: delta_r/delta_0: 1.1141E-05 | 3: delta_s/delta_0: 1.7197E-06 | 4: delta_r/delta_0: 3.5642E-07 | 5: delta_s/delta_0: 1.7606E-07 | 6: delta_r/delta_0: 2.4921E-08 | 7: delta_s/delta_0: 1.1312E-08 | 8: delta_r/delta_0: 7.3495E-09 | 9: delta_s/delta_0: 8.1949E-09 | 10: delta_r/delta_0: 4.5771E-09 | 11: delta_s/delta_0: 4.4597E-06 | 12: delta_r/delta_0: 1.7240E-06 | 13: delta_s/delta_0: 4.8144E-10 | 14: delta_r/delta_0: 3.0864E-10 | 15: delta_s/delta_0: 8.5392E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.090715605128011E-002 8.303613687523366E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3036E-04 | 2: delta_r/delta_0: 1.1141E-05 | 3: delta_s/delta_0: 1.7197E-06 | 4: delta_r/delta_0: 3.5642E-07 | 5: delta_s/delta_0: 1.7606E-07 | 6: delta_r/delta_0: 2.4921E-08 | 7: delta_s/delta_0: 1.1312E-08 | 8: delta_r/delta_0: 7.3495E-09 | 9: delta_s/delta_0: 8.1949E-09 | 10: delta_r/delta_0: 4.5771E-09 | 11: delta_s/delta_0: 4.4603E-06 | 12: delta_r/delta_0: 1.7243E-06 | 13: delta_s/delta_0: 4.8143E-10 | 14: delta_r/delta_0: 3.0864E-10 | 15: delta_s/delta_0: 8.5392E-11 | Reached bicg-stab tolerance | BP delta = -0.9177207 -0.8973768 2738161.12934033 | BP delta = -0.9177207 -0.9033315 2738160.91876011 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26520004 | --> Sampling calibration, mode = relcal | relcal = -5.5824528E-03 1.5003962E-02 -2.3431957E-03 -7.0783137E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3164577E-03 1.2760254E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4131E-04 | 2: delta_r/delta_0: 1.1751E-05 | 3: delta_s/delta_0: 1.8725E-06 | 4: delta_r/delta_0: 2.8801E-07 | 5: delta_s/delta_0: 1.0855E-07 | 6: delta_r/delta_0: 2.2735E-08 | 7: delta_s/delta_0: 9.5027E-09 | 8: delta_r/delta_0: 6.3497E-09 | 9: delta_s/delta_0: 5.9782E-09 | 10: delta_r/delta_0: 4.2559E-09 | 11: delta_s/delta_0: 1.2577E-07 | 12: delta_r/delta_0: 2.3457E-08 | 13: delta_s/delta_0: 1.8455E-09 | 14: delta_r/delta_0: 6.5136E-10 | 15: delta_s/delta_0: 6.7560E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.494151795531900E-003 9.149070004285048E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4131E-04 | 2: delta_r/delta_0: 1.1751E-05 | 3: delta_s/delta_0: 1.8725E-06 | 4: delta_r/delta_0: 2.8804E-07 | 5: delta_s/delta_0: 1.0853E-07 | 6: delta_r/delta_0: 2.2737E-08 | 7: delta_s/delta_0: 9.5037E-09 | 8: delta_r/delta_0: 6.3502E-09 | 9: delta_s/delta_0: 5.9787E-09 | 10: delta_r/delta_0: 4.2561E-09 | 11: delta_s/delta_0: 1.2578E-07 | 12: delta_r/delta_0: 2.3461E-08 | 13: delta_s/delta_0: 1.8457E-09 | 14: delta_r/delta_0: 6.5142E-10 | 15: delta_s/delta_0: 6.7562E-11 | Reached bicg-stab tolerance | BP delta = 0.3231032 0.3300700 2516649.70822747 | BP delta = 0.3231032 0.2970864 2516650.59207468 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25681832 | --> Sampling calibration, mode = relcal | relcal = -3.1735219E-02 -2.5926843E-02 3.6856871E-02 2.0805189E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1854410E-02 1.8215058E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4832E-04 | 2: delta_r/delta_0: 1.1279E-05 | 3: delta_s/delta_0: 2.7397E-06 | 4: delta_r/delta_0: 2.3938E-07 | 5: delta_s/delta_0: 1.5627E-07 | 6: delta_r/delta_0: 1.9385E-08 | 7: delta_s/delta_0: 1.5093E-08 | 8: delta_r/delta_0: 6.2852E-09 | 9: delta_s/delta_0: 9.6367E-09 | 10: delta_r/delta_0: 6.8241E-09 | 11: delta_s/delta_0: 4.1092E-08 | 12: delta_r/delta_0: 1.0987E-09 | 13: delta_s/delta_0: 1.2752E-09 | 14: delta_r/delta_0: 5.5001E-10 | 15: delta_s/delta_0: 1.8078E-10 | 16: delta_r/delta_0: 1.6564E-10 | 17: delta_s/delta_0: 1.5024E-10 | 18: delta_r/delta_0: 1.3625E-10 | 19: delta_s/delta_0: 1.1860E-10 | 20: delta_r/delta_0: 2.2059E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.074788978072247E-002 8.666200499138257E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4832E-04 | 2: delta_r/delta_0: 1.1279E-05 | 3: delta_s/delta_0: 2.7398E-06 | 4: delta_r/delta_0: 2.3938E-07 | 5: delta_s/delta_0: 1.5628E-07 | 6: delta_r/delta_0: 1.9385E-08 | 7: delta_s/delta_0: 1.5094E-08 | 8: delta_r/delta_0: 6.2852E-09 | 9: delta_s/delta_0: 9.6371E-09 | 10: delta_r/delta_0: 6.8243E-09 | 11: delta_s/delta_0: 4.1058E-08 | 12: delta_r/delta_0: 1.0960E-09 | 13: delta_s/delta_0: 1.2738E-09 | 14: delta_r/delta_0: 5.4897E-10 | 15: delta_s/delta_0: 1.8073E-10 | 16: delta_r/delta_0: 1.6560E-10 | 17: delta_s/delta_0: 1.5021E-10 | 18: delta_r/delta_0: 1.3622E-10 | 19: delta_s/delta_0: 1.1858E-10 | 20: delta_r/delta_0: 2.2041E-11 | Reached bicg-stab tolerance | BP delta = -0.7860345 -0.9191063 2705810.21900113 | BP delta = -0.7860345 -0.9269475 2705823.37967503 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161706 | New value = -3.127276 | poltype: 2 pol: 1 CPU time specind = 1.5659094E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.083087 | New value = -3.160946 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.219656 | New value = -3.216114 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119576 | New value = -3.161777 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157754 | New value = -3.095208 | poltype: 2 pol: 2 CPU time specind = 9.4189644E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.13578E+08, tol = 0.74345E+01, time = 4.96 | CG iter. 2 -- res = 0.32345E+06, tol = 0.74345E+01, time = 4.86 | CG iter. 3 -- res = 0.51534E+05, tol = 0.74345E+01, time = 4.90 | CG iter. 4 -- res = 0.26905E+05, tol = 0.74345E+01, time = 5.08 | CG iter. 5 -- res = 0.16577E+05, tol = 0.74345E+01, time = 4.91 | CG iter. 6 -- res = 0.12018E+05, tol = 0.74345E+01, time = 5.28 | CG iter. 7 -- res = 0.10619E+05, tol = 0.74345E+01, time = 4.87 | CG iter. 8 -- res = 0.86176E+04, tol = 0.74345E+01, time = 5.88 | CG iter. 9 -- res = 0.75713E+04, tol = 0.74345E+01, time = 5.77 | CG iter. 10 -- res = 0.70913E+04, tol = 0.74345E+01, time = 5.70 | CG iter. 11 -- res = 0.53677E+04, tol = 0.74345E+01, time = 5.24 | CG iter. 12 -- res = 0.35400E+04, tol = 0.74345E+01, time = 4.93 | CG iter. 13 -- res = 0.23878E+04, tol = 0.74345E+01, time = 5.17 | CG iter. 14 -- res = 0.19378E+04, tol = 0.74345E+01, time = 4.94 | CG iter. 15 -- res = 0.16824E+04, tol = 0.74345E+01, time = 4.94 | CG iter. 16 -- res = 0.13775E+04, tol = 0.74345E+01, time = 4.93 | CG iter. 17 -- res = 0.96016E+03, tol = 0.74345E+01, time = 5.43 | CG iter. 18 -- res = 0.69427E+03, tol = 0.74345E+01, time = 4.70 | CG iter. 19 -- res = 0.56101E+03, tol = 0.74345E+01, time = 5.05 | CG iter. 20 -- res = 0.44581E+03, tol = 0.74345E+01, time = 5.18 | CG iter. 21 -- res = 0.31132E+03, tol = 0.74345E+01, time = 5.09 | CG iter. 22 -- res = 0.22477E+03, tol = 0.74345E+01, time = 5.13 | CG iter. 23 -- res = 0.18412E+03, tol = 0.74345E+01, time = 4.93 | CG iter. 24 -- res = 0.15234E+03, tol = 0.74345E+01, time = 4.96 | CG iter. 25 -- res = 0.11346E+03, tol = 0.74345E+01, time = 5.13 | CG iter. 26 -- res = 0.77624E+02, tol = 0.74345E+01, time = 5.08 | CG iter. 27 -- res = 0.59145E+02, tol = 0.74345E+01, time = 5.17 | CG iter. 28 -- res = 0.47800E+02, tol = 0.74345E+01, time = 4.81 | CG iter. 29 -- res = 0.37130E+02, tol = 0.74345E+01, time = 4.93 | CG iter. 30 -- res = 0.26990E+02, tol = 0.74345E+01, time = 5.16 | CG iter. 31 -- res = 0.20421E+02, tol = 0.74345E+01, time = 4.84 | CG iter. 32 -- res = 0.17010E+02, tol = 0.74345E+01, time = 4.78 | CG iter. 33 -- res = 0.13778E+02, tol = 0.74345E+01, time = 5.37 | CG iter. 34 -- res = 0.99012E+01, tol = 0.74345E+01, time = 4.97 | CG iter. 35 -- res = 0.74505E+01, tol = 0.74345E+01, time = 4.97 | CG iter. 36 -- res = 0.58263E+01, tol = 0.74345E+01, time = 5.05 | CG iter. 37 -- res = 0.49841E+01, tol = 0.74345E+01, time = 5.18 | CG iter. 38 -- res = 0.38045E+01, tol = 0.74345E+01, time = 4.79 | CG iter. 39 -- res = 0.28082E+01, tol = 0.74345E+01, time = 4.76 | CG iter. 40 -- res = 0.23391E+01, tol = 0.74345E+01, time = 5.20 | CG iter. 41 -- res = 0.19428E+01, tol = 0.74345E+01, time = 5.15 | CG iter. 42 -- res = 0.15847E+01, tol = 0.74345E+01, time = 5.00 | CG iter. 43 -- res = 0.12298E+01, tol = 0.74345E+01, time = 5.03 | CG iter. 44 -- res = 0.94852E+00, tol = 0.74345E+01, time = 5.15 | CG iter. 45 -- res = 0.79515E+00, tol = 0.74345E+01, time = 5.08 | CG iter. 46 -- res = 0.65229E+00, tol = 0.74345E+01, time = 5.00 | CG iter. 47 -- res = 0.52370E+00, tol = 0.74345E+01, time = 4.98 | CG iter. 48 -- res = 0.41550E+00, tol = 0.74345E+01, time = 5.05 | CG iter. 49 -- res = 0.35831E+00, tol = 0.74345E+01, time = 11.34 | CG iter. 50 -- res = 0.31294E+00, tol = 0.74345E+01, time = 4.92 | Final CG iter 51 -- res = 0.31294E+00, tol = 0.74345E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10291656.591 | Old band monopole 9614679.665 | Change to band monopole 676976.925 | Change to component monopole -676974.013 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.24073E+05, tol = 0.47627E+18, time = 1.63 | CG iter. 2 -- res = 0.35188E+02, tol = 0.47627E+18, time = 1.63 | CG iter. 3 -- res = 0.13502E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.37349E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.12759E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10291612.324 | (Sampled value in CG: 10323839.574 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.528827 | New value = 1.482794 | poltype: 2 pol: 1 CPU time specind = 1.5667915E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501647 | New value = 1.485031 | poltype: 2 pol: 2 CPU time specind = 6.1810017E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.24444E+08, tol = 0.47519E+04, time = 5.57 | CG iter. 2 -- res = 0.53588E+07, tol = 0.47519E+04, time = 5.59 | CG iter. 3 -- res = 0.86820E+06, tol = 0.47519E+04, time = 5.76 | CG iter. 4 -- res = 0.36277E+06, tol = 0.47519E+04, time = 5.85 | CG iter. 5 -- res = 0.15310E+06, tol = 0.47519E+04, time = 5.75 | CG iter. 6 -- res = 0.80012E+05, tol = 0.47519E+04, time = 5.46 | CG iter. 7 -- res = 0.44036E+05, tol = 0.47519E+04, time = 5.48 | CG iter. 8 -- res = 0.21085E+05, tol = 0.47519E+04, time = 5.93 | CG iter. 9 -- res = 0.93498E+04, tol = 0.47519E+04, time = 5.88 | CG iter. 10 -- res = 0.37999E+04, tol = 0.47519E+04, time = 5.45 | CG iter. 11 -- res = 0.17007E+04, tol = 0.47519E+04, time = 5.93 | CG iter. 12 -- res = 0.87317E+03, tol = 0.47519E+04, time = 5.83 | CG iter. 13 -- res = 0.48599E+03, tol = 0.47519E+04, time = 5.58 | CG iter. 14 -- res = 0.27499E+03, tol = 0.47519E+04, time = 5.68 | CG iter. 15 -- res = 0.14255E+03, tol = 0.47519E+04, time = 6.36 | CG iter. 16 -- res = 0.69230E+02, tol = 0.47519E+04, time = 5.76 | CG iter. 17 -- res = 0.32108E+02, tol = 0.47519E+04, time = 5.63 | CG iter. 18 -- res = 0.15787E+02, tol = 0.47519E+04, time = 5.56 | CG iter. 19 -- res = 0.86521E+01, tol = 0.47519E+04, time = 6.06 | CG iter. 20 -- res = 0.48700E+01, tol = 0.47519E+04, time = 5.95 | CG iter. 21 -- res = 0.26773E+01, tol = 0.47519E+04, time = 5.53 | CG iter. 22 -- res = 0.14361E+01, tol = 0.47519E+04, time = 5.89 | CG iter. 23 -- res = 0.70397E+00, tol = 0.47519E+04, time = 5.51 | CG iter. 24 -- res = 0.35638E+00, tol = 0.47519E+04, time = 5.53 | CG iter. 25 -- res = 0.19784E+00, tol = 0.47519E+04, time = 5.56 | CG iter. 26 -- res = 0.11205E+00, tol = 0.47519E+04, time = 5.71 | CG iter. 27 -- res = 0.63302E-01, tol = 0.47519E+04, time = 5.63 | CG iter. 28 -- res = 0.34913E-01, tol = 0.47519E+04, time = 5.85 | CG iter. 29 -- res = 0.18238E-01, tol = 0.47519E+04, time = 5.63 | CG iter. 30 -- res = 0.93979E-02, tol = 0.47519E+04, time = 5.95 | CG iter. 31 -- res = 0.50901E-02, tol = 0.47519E+04, time = 5.56 | CG iter. 32 -- res = 0.28552E-02, tol = 0.47519E+04, time = 12.04 | CG iter. 33 -- res = 0.15923E-02, tol = 0.47519E+04, time = 5.67 | CG iter. 34 -- res = 0.87284E-03, tol = 0.47519E+04, time = 5.76 | CG iter. 35 -- res = 0.46007E-03, tol = 0.47519E+04, time = 5.50 | Final CG iter 36 -- res = 0.46007E-03, tol = 0.47519E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.365 2.739 | New value 2.710 | Old value -0.365 | Difference 3.075 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.49539E+06, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.32767E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.10727E+01, tol = 0.47627E+18, time = 1.60 | CG iter. 4 -- res = 0.17421E-02, tol = 0.47627E+18, time = 1.67 | Final CG iter 5 -- res = 0.51559E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10291612.324 | (Sampled value in CG: 10325339.717 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.617938 | New value = -3.580040 | poltype: 1 pol: 1 CPU time specind = 7.3540211E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.23554E+07, tol = 0.24974E+01, time = 2.40 | CG iter. 2 -- res = 0.82895E+06, tol = 0.24974E+01, time = 2.27 | CG iter. 3 -- res = 0.16661E+06, tol = 0.24974E+01, time = 2.29 | CG iter. 4 -- res = 0.68151E+05, tol = 0.24974E+01, time = 2.36 | CG iter. 5 -- res = 0.39936E+05, tol = 0.24974E+01, time = 2.29 | CG iter. 6 -- res = 0.20146E+05, tol = 0.24974E+01, time = 2.24 | CG iter. 7 -- res = 0.75659E+04, tol = 0.24974E+01, time = 2.43 | CG iter. 8 -- res = 0.34065E+04, tol = 0.24974E+01, time = 2.03 | CG iter. 9 -- res = 0.15007E+04, tol = 0.24974E+01, time = 2.47 | CG iter. 10 -- res = 0.60159E+03, tol = 0.24974E+01, time = 2.28 | CG iter. 11 -- res = 0.25993E+03, tol = 0.24974E+01, time = 2.44 | CG iter. 12 -- res = 0.12636E+03, tol = 0.24974E+01, time = 2.11 | CG iter. 13 -- res = 0.65387E+02, tol = 0.24974E+01, time = 3.31 | CG iter. 14 -- res = 0.32850E+02, tol = 0.24974E+01, time = 8.87 | CG iter. 15 -- res = 0.14722E+02, tol = 0.24974E+01, time = 2.47 | CG iter. 16 -- res = 0.63261E+01, tol = 0.24974E+01, time = 2.33 | CG iter. 17 -- res = 0.27072E+01, tol = 0.24974E+01, time = 2.49 | CG iter. 18 -- res = 0.12010E+01, tol = 0.24974E+01, time = 2.12 | CG iter. 19 -- res = 0.59070E+00, tol = 0.24974E+01, time = 2.43 | CG iter. 20 -- res = 0.31280E+00, tol = 0.24974E+01, time = 2.42 | CG iter. 21 -- res = 0.15584E+00, tol = 0.24974E+01, time = 2.22 | CG iter. 22 -- res = 0.72468E-01, tol = 0.24974E+01, time = 2.27 | CG iter. 23 -- res = 0.33055E-01, tol = 0.24974E+01, time = 2.55 | CG iter. 24 -- res = 0.14241E-01, tol = 0.24974E+01, time = 2.32 | CG iter. 25 -- res = 0.73503E-02, tol = 0.24974E+01, time = 2.24 | CG iter. 26 -- res = 0.36577E-02, tol = 0.24974E+01, time = 2.38 | CG iter. 27 -- res = 0.18224E-02, tol = 0.24974E+01, time = 2.47 | CG iter. 28 -- res = 0.91562E-03, tol = 0.24974E+01, time = 2.15 | CG iter. 29 -- res = 0.40682E-03, tol = 0.24974E+01, time = 2.42 | CG iter. 30 -- res = 0.18997E-03, tol = 0.24974E+01, time = 2.12 | CG iter. 31 -- res = 0.90949E-04, tol = 0.24974E+01, time = 2.28 | CG iter. 32 -- res = 0.44764E-04, tol = 0.24974E+01, time = 2.52 | CG iter. 33 -- res = 0.22613E-04, tol = 0.24974E+01, time = 2.25 | CG iter. 34 -- res = 0.11310E-04, tol = 0.24974E+01, time = 2.53 | CG iter. 35 -- res = 0.52695E-05, tol = 0.24974E+01, time = 2.29 | CG iter. 36 -- res = 0.24784E-05, tol = 0.24974E+01, time = 2.28 | CG iter. 37 -- res = 0.11260E-05, tol = 0.24974E+01, time = 2.38 | CG iter. 38 -- res = 0.57278E-06, tol = 0.24974E+01, time = 2.43 | CG iter. 39 -- res = 0.27974E-06, tol = 0.24974E+01, time = 2.54 | CG iter. 40 -- res = 0.13647E-06, tol = 0.24974E+01, time = 2.34 | CG iter. 41 -- res = 0.67102E-07, tol = 0.24974E+01, time = 2.28 | CG iter. 42 -- res = 0.31337E-07, tol = 0.24974E+01, time = 2.47 | CG iter. 43 -- res = 0.15049E-07, tol = 0.24974E+01, time = 2.26 | CG iter. 44 -- res = 0.68066E-08, tol = 0.24974E+01, time = 2.46 | CG iter. 45 -- res = 0.35008E-08, tol = 0.24974E+01, time = 2.17 | CG iter. 46 -- res = 0.17866E-08, tol = 0.24974E+01, time = 2.55 | CG iter. 47 -- res = 0.87248E-09, tol = 0.24974E+01, time = 2.41 | CG iter. 48 -- res = 0.40633E-09, tol = 0.24974E+01, time = 2.31 | CG iter. 49 -- res = 0.18289E-09, tol = 0.24974E+01, time = 3.12 | CG iter. 50 -- res = 0.85101E-10, tol = 0.24974E+01, time = 3.09 | Final CG iter 51 -- res = 0.85101E-10, tol = 0.24974E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.387 4.873 | New value -4.501 | Old value 1.387 | Difference -5.888 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.34360E+05, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.37011E+02, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.14547E+01, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.33533E-02, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.49651E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10291612.324 | (Sampled value in CG: 10318364.117 ) | CPU time specind = 1050.247 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.69731E+08, tol = 0.57642E+04, time = 10.09 | CG iter. 2 -- res = 0.59402E+08, tol = 0.57642E+04, time = 10.43 | CG iter. 3 -- res = 0.15614E+08, tol = 0.57642E+04, time = 10.63 | CG iter. 4 -- res = 0.65944E+07, tol = 0.57642E+04, time = 10.49 | CG iter. 5 -- res = 0.39780E+07, tol = 0.57642E+04, time = 10.46 | CG iter. 6 -- res = 0.23314E+07, tol = 0.57642E+04, time = 10.02 | CG iter. 7 -- res = 0.13695E+07, tol = 0.57642E+04, time = 10.55 | CG iter. 8 -- res = 0.89908E+06, tol = 0.57642E+04, time = 10.21 | CG iter. 9 -- res = 0.58326E+06, tol = 0.57642E+04, time = 10.02 | CG iter. 10 -- res = 0.35239E+06, tol = 0.57642E+04, time = 10.39 | CG iter. 11 -- res = 0.19086E+06, tol = 0.57642E+04, time = 10.35 | CG iter. 12 -- res = 0.99593E+05, tol = 0.57642E+04, time = 17.12 | CG iter. 13 -- res = 0.55156E+05, tol = 0.57642E+04, time = 10.42 | CG iter. 14 -- res = 0.31800E+05, tol = 0.57642E+04, time = 10.58 | CG iter. 15 -- res = 0.20365E+05, tol = 0.57642E+04, time = 10.26 | CG iter. 16 -- res = 0.14776E+05, tol = 0.57642E+04, time = 10.44 | CG iter. 17 -- res = 0.11256E+05, tol = 0.57642E+04, time = 10.16 | CG iter. 18 -- res = 0.85597E+04, tol = 0.57642E+04, time = 10.46 | CG iter. 19 -- res = 0.62375E+04, tol = 0.57642E+04, time = 10.40 | CG iter. 20 -- res = 0.46457E+04, tol = 0.57642E+04, time = 11.05 | CG iter. 21 -- res = 0.38021E+04, tol = 0.57642E+04, time = 12.80 | CG iter. 22 -- res = 0.35468E+04, tol = 0.57642E+04, time = 10.60 | CG iter. 23 -- res = 0.36858E+04, tol = 0.57642E+04, time = 10.36 | CG iter. 24 -- res = 0.39949E+04, tol = 0.57642E+04, time = 10.34 | CG iter. 25 -- res = 0.41926E+04, tol = 0.57642E+04, time = 10.37 | CG iter. 26 -- res = 0.39225E+04, tol = 0.57642E+04, time = 10.42 | CG iter. 27 -- res = 0.33417E+04, tol = 0.57642E+04, time = 10.39 | CG iter. 28 -- res = 0.26751E+04, tol = 0.57642E+04, time = 10.47 | CG iter. 29 -- res = 0.22241E+04, tol = 0.57642E+04, time = 10.34 | CG iter. 30 -- res = 0.19386E+04, tol = 0.57642E+04, time = 10.39 | CG iter. 31 -- res = 0.16583E+04, tol = 0.57642E+04, time = 10.62 | CG iter. 32 -- res = 0.13820E+04, tol = 0.57642E+04, time = 10.30 | CG iter. 33 -- res = 0.11319E+04, tol = 0.57642E+04, time = 10.15 | CG iter. 34 -- res = 0.89170E+03, tol = 0.57642E+04, time = 10.45 | CG iter. 35 -- res = 0.70579E+03, tol = 0.57642E+04, time = 10.29 | CG iter. 36 -- res = 0.60420E+03, tol = 0.57642E+04, time = 10.12 | CG iter. 37 -- res = 0.57513E+03, tol = 0.57642E+04, time = 10.43 | CG iter. 38 -- res = 0.56030E+03, tol = 0.57642E+04, time = 10.09 | CG iter. 39 -- res = 0.54482E+03, tol = 0.57642E+04, time = 10.73 | CG iter. 40 -- res = 0.49440E+03, tol = 0.57642E+04, time = 16.90 | CG iter. 41 -- res = 0.42098E+03, tol = 0.57642E+04, time = 10.27 | CG iter. 42 -- res = 0.35620E+03, tol = 0.57642E+04, time = 10.23 | CG iter. 43 -- res = 0.30110E+03, tol = 0.57642E+04, time = 10.00 | CG iter. 44 -- res = 0.26341E+03, tol = 0.57642E+04, time = 10.20 | CG iter. 45 -- res = 0.23721E+03, tol = 0.57642E+04, time = 10.33 | CG iter. 46 -- res = 0.21057E+03, tol = 0.57642E+04, time = 10.09 | CG iter. 47 -- res = 0.18085E+03, tol = 0.57642E+04, time = 10.45 | CG iter. 48 -- res = 0.15133E+03, tol = 0.57642E+04, time = 10.54 | CG iter. 49 -- res = 0.12259E+03, tol = 0.57642E+04, time = 12.01 | CG iter. 50 -- res = 0.10249E+03, tol = 0.57642E+04, time = 10.31 | CG iter. 51 -- res = 0.92112E+02, tol = 0.57642E+04, time = 10.32 | CG iter. 52 -- res = 0.87470E+02, tol = 0.57642E+04, time = 10.31 | CG iter. 53 -- res = 0.84780E+02, tol = 0.57642E+04, time = 10.15 | CG iter. 54 -- res = 0.79928E+02, tol = 0.57642E+04, time = 10.23 | CG iter. 55 -- res = 0.72670E+02, tol = 0.57642E+04, time = 10.17 | CG iter. 56 -- res = 0.64272E+02, tol = 0.57642E+04, time = 10.31 | CG iter. 57 -- res = 0.56366E+02, tol = 0.57642E+04, time = 10.19 | CG iter. 58 -- res = 0.50861E+02, tol = 0.57642E+04, time = 10.06 | CG iter. 59 -- res = 0.47173E+02, tol = 0.57642E+04, time = 11.22 | CG iter. 60 -- res = 0.44903E+02, tol = 0.57642E+04, time = 10.14 | Final CG iter 61 -- res = 0.44903E+02, tol = 0.57642E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.707 ( -229.826 -2230.825 2513.215 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8062848.658 | Old band monopole 10291656.591 | Change to band monopole -2228807.932 | Change to component monopole 2228798.346 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.702 2.738 | New value -1.378 | Old value 2.702 | Difference -4.080 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.460 ( 7.215 11.826 -11.538 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.488 3.810 | New value -4.866 | Old value 0.488 | Difference -5.354 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.94996E+06, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.56242E+02, tol = 0.47627E+18, time = 1.74 | CG iter. 3 -- res = 0.23486E+01, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.50865E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.77364E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8062813.978 | (Sampled value in CG: 8038148.348 ) | Chain = 1 -- chisq = 0.81531705E+09 | Chain = 1 -- wall time = 17795.426 sec Available RAM: MemAvailable: 496656520 kB Available Swap: SwapFree: 1055472560 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 217 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442618 | --> Sampling calibration, mode = relcal | relcal = 1.3427961E-02 7.4349745E-04 -1.5946210E-03 -1.2576837E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1153312 0.1287147 97042557.3078316 | BP delta = 0.1111736 0.1245570 97042558.8516327 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632533 | --> Sampling calibration, mode = relcal | relcal = -2.8207437E-03 -7.0320809E-04 1.6788179E-03 1.6134210E-03 -4.0874112E-04 6.4045412E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5639298 15216746.4696162 | BP delta = 0.0000000E+00 -0.5650796 15216747.1562343 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18303973571210 | --> Sampling calibration, mode = relcal | relcal = -7.5683199E-02 -5.8922533E-02 9.2631765E-02 4.1973967E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7969454E-04 5.5077365E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6132E-05 | 2: delta_r/delta_0: 1.2115E-06 | 3: delta_s/delta_0: 1.9210E-07 | 4: delta_r/delta_0: 2.8104E-08 | 5: delta_s/delta_0: 9.3579E-09 | 6: delta_r/delta_0: 2.5472E-09 | 7: delta_s/delta_0: 4.4007E-10 | 8: delta_r/delta_0: 1.6301E-10 | 9: delta_s/delta_0: 1.5604E-10 | 10: delta_r/delta_0: 7.1386E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.360996064111959E-003 2.736262349752409E-005 | BP delta = 4.5832686E-02 6.2922828E-02 50481279.8693608 | BP delta = 4.5283601E-02 6.2373742E-02 50481280.4192669 | BP chisq diff = 0.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599617 | --> Sampling calibration, mode = relcal | relcal = -0.1066425 -9.5537037E-02 0.1449548 5.7224751E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5651129E-03 1.8339038E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7374E-05 | 2: delta_r/delta_0: 1.4526E-06 | 3: delta_s/delta_0: 2.3601E-07 | 4: delta_r/delta_0: 5.1709E-08 | 5: delta_s/delta_0: 2.4185E-08 | 6: delta_r/delta_0: 7.3293E-09 | 7: delta_s/delta_0: 2.1755E-08 | 8: delta_r/delta_0: 9.5413E-10 | 9: delta_s/delta_0: 9.8154E-10 | 10: delta_r/delta_0: 1.7312E-10 | 11: delta_s/delta_0: 1.5134E-09 | 12: delta_r/delta_0: 2.7942E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.853595496906816E-003 2.810845768639413E-005 | BP delta = -0.2675815 -0.2465319 57386576.1674891 | BP delta = -0.2644569 -0.2434073 57386576.4382369 | BP chisq diff = 0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81233168 | --> Sampling calibration, mode = relcal | relcal = 0.2954746 0.2249223 -0.2838905 -0.2365064 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.7814492E-04 5.7442342E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9018E-03 | 2: delta_r/delta_0: 4.3921E-05 | 3: delta_s/delta_0: 1.0602E-05 | 4: delta_r/delta_0: 1.0564E-06 | 5: delta_s/delta_0: 8.4182E-07 | 6: delta_r/delta_0: 6.0567E-08 | 7: delta_s/delta_0: 4.5795E-08 | 8: delta_r/delta_0: 2.2960E-08 | 9: delta_s/delta_0: 1.0604E-06 | 10: delta_r/delta_0: 2.9401E-08 | 11: delta_s/delta_0: 1.9341E-09 | 12: delta_r/delta_0: 1.1767E-09 | 13: delta_s/delta_0: 4.3994E-10 | 14: delta_r/delta_0: 1.1289E-10 | 15: delta_s/delta_0: 2.4688E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.850929670352390E-002 4.021263195816870E-005 | BP delta = -0.1530944 -0.1665599 72487812.7013921 | BP delta = -0.1259999 -0.1394654 72487813.5211041 | BP chisq diff = 0.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95930553 | --> Sampling calibration, mode = relcal | relcal = 0.1065343 0.1395809 -0.1102933 -0.1358220 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9414289E-03 1.3891087E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3383E-04 | 2: delta_r/delta_0: 5.9760E-06 | 3: delta_s/delta_0: 1.5529E-05 | 4: delta_r/delta_0: 1.4458E-06 | 5: delta_s/delta_0: 1.9379E-07 | 6: delta_r/delta_0: 1.1156E-07 | 7: delta_s/delta_0: 5.4718E-07 | 8: delta_r/delta_0: 2.6534E-08 | 9: delta_s/delta_0: 2.3122E-07 | 10: delta_r/delta_0: 8.4599E-08 | 11: delta_s/delta_0: 1.2135E-09 | 12: delta_r/delta_0: 6.8116E-10 | 13: delta_s/delta_0: 2.6258E-08 | 14: delta_r/delta_0: 3.4243E-10 | 15: delta_s/delta_0: 4.9563E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.987007011734194E-002 3.696634271654907E-005 | BP delta = 4.5765668E-02 0.1489850 72783605.5862382 | BP delta = 1.5792398E-02 0.1190117 72783606.0817185 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127276 | New value = -3.079618 | poltype: 2 pol: 1 CPU time specind = 3.8868904E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160946 | New value = -3.238296 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216114 | New value = -3.102176 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161777 | New value = -3.228521 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.095208 | New value = -3.164281 | poltype: 2 pol: 2 CPU time specind = 1.1227846E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.13648E+08, tol = 0.87220E+01, time = 6.78 | CG iter. 2 -- res = 0.38688E+06, tol = 0.87220E+01, time = 5.74 | CG iter. 3 -- res = 0.95164E+05, tol = 0.87220E+01, time = 5.76 | CG iter. 4 -- res = 0.91531E+05, tol = 0.87220E+01, time = 5.48 | CG iter. 5 -- res = 0.96637E+05, tol = 0.87220E+01, time = 5.33 | CG iter. 6 -- res = 0.10005E+06, tol = 0.87220E+01, time = 5.51 | CG iter. 7 -- res = 0.85599E+05, tol = 0.87220E+01, time = 5.09 | CG iter. 8 -- res = 0.58263E+05, tol = 0.87220E+01, time = 5.23 | CG iter. 9 -- res = 0.44421E+05, tol = 0.87220E+01, time = 5.40 | CG iter. 10 -- res = 0.35056E+05, tol = 0.87220E+01, time = 5.42 | CG iter. 11 -- res = 0.25234E+05, tol = 0.87220E+01, time = 5.57 | CG iter. 12 -- res = 0.17887E+05, tol = 0.87220E+01, time = 5.59 | CG iter. 13 -- res = 0.13330E+05, tol = 0.87220E+01, time = 5.51 | CG iter. 14 -- res = 0.11193E+05, tol = 0.87220E+01, time = 5.22 | CG iter. 15 -- res = 0.93722E+04, tol = 0.87220E+01, time = 5.79 | CG iter. 16 -- res = 0.65020E+04, tol = 0.87220E+01, time = 5.13 | CG iter. 17 -- res = 0.43688E+04, tol = 0.87220E+01, time = 5.44 | CG iter. 18 -- res = 0.34226E+04, tol = 0.87220E+01, time = 5.48 | CG iter. 19 -- res = 0.29639E+04, tol = 0.87220E+01, time = 5.34 | CG iter. 20 -- res = 0.24611E+04, tol = 0.87220E+01, time = 5.34 | CG iter. 21 -- res = 0.17230E+04, tol = 0.87220E+01, time = 5.38 | CG iter. 22 -- res = 0.13354E+04, tol = 0.87220E+01, time = 5.68 | CG iter. 23 -- res = 0.11428E+04, tol = 0.87220E+01, time = 5.47 | CG iter. 24 -- res = 0.96544E+03, tol = 0.87220E+01, time = 5.43 | CG iter. 25 -- res = 0.71506E+03, tol = 0.87220E+01, time = 5.38 | CG iter. 26 -- res = 0.54490E+03, tol = 0.87220E+01, time = 5.43 | CG iter. 27 -- res = 0.47620E+03, tol = 0.87220E+01, time = 5.43 | CG iter. 28 -- res = 0.39985E+03, tol = 0.87220E+01, time = 5.47 | CG iter. 29 -- res = 0.30507E+03, tol = 0.87220E+01, time = 5.36 | CG iter. 30 -- res = 0.22168E+03, tol = 0.87220E+01, time = 5.27 | CG iter. 31 -- res = 0.17735E+03, tol = 0.87220E+01, time = 5.61 | CG iter. 32 -- res = 0.14699E+03, tol = 0.87220E+01, time = 5.00 | CG iter. 33 -- res = 0.11413E+03, tol = 0.87220E+01, time = 5.41 | CG iter. 34 -- res = 0.82036E+02, tol = 0.87220E+01, time = 5.59 | CG iter. 35 -- res = 0.62759E+02, tol = 0.87220E+01, time = 5.44 | CG iter. 36 -- res = 0.50344E+02, tol = 0.87220E+01, time = 5.55 | CG iter. 37 -- res = 0.39652E+02, tol = 0.87220E+01, time = 5.63 | CG iter. 38 -- res = 0.28358E+02, tol = 0.87220E+01, time = 5.11 | CG iter. 39 -- res = 0.20657E+02, tol = 0.87220E+01, time = 11.74 | CG iter. 40 -- res = 0.15751E+02, tol = 0.87220E+01, time = 5.41 | CG iter. 41 -- res = 0.12453E+02, tol = 0.87220E+01, time = 5.22 | CG iter. 42 -- res = 0.95649E+01, tol = 0.87220E+01, time = 5.24 | CG iter. 43 -- res = 0.68731E+01, tol = 0.87220E+01, time = 5.43 | CG iter. 44 -- res = 0.51887E+01, tol = 0.87220E+01, time = 5.48 | CG iter. 45 -- res = 0.42003E+01, tol = 0.87220E+01, time = 5.67 | CG iter. 46 -- res = 0.31192E+01, tol = 0.87220E+01, time = 5.61 | CG iter. 47 -- res = 0.22592E+01, tol = 0.87220E+01, time = 5.15 | CG iter. 48 -- res = 0.16046E+01, tol = 0.87220E+01, time = 5.43 | CG iter. 49 -- res = 0.12290E+01, tol = 0.87220E+01, time = 4.86 | CG iter. 50 -- res = 0.93207E+00, tol = 0.87220E+01, time = 5.47 | Final CG iter 51 -- res = 0.93207E+00, tol = 0.87220E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7999176.715 | Old band monopole 8062848.658 | Change to band monopole -63671.943 | Change to component monopole 63671.669 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.20586E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.12221E+03, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.35223E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.20094E-01, tol = 0.47627E+18, time = 1.75 | Final CG iter 5 -- res = 0.19064E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7999142.309 | (Sampled value in CG: 8075016.294 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.482794 | New value = 1.486704 | poltype: 2 pol: 1 CPU time specind = 1.8666029E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485031 | New value = 1.465494 | poltype: 2 pol: 2 CPU time specind = 1.8543005E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.24014E+08, tol = 0.47531E+04, time = 6.30 | CG iter. 2 -- res = 0.53539E+07, tol = 0.47531E+04, time = 6.15 | CG iter. 3 -- res = 0.86500E+06, tol = 0.47531E+04, time = 6.13 | CG iter. 4 -- res = 0.35396E+06, tol = 0.47531E+04, time = 6.91 | CG iter. 5 -- res = 0.15005E+06, tol = 0.47531E+04, time = 6.15 | CG iter. 6 -- res = 0.78950E+05, tol = 0.47531E+04, time = 6.13 | CG iter. 7 -- res = 0.43039E+05, tol = 0.47531E+04, time = 6.37 | CG iter. 8 -- res = 0.20525E+05, tol = 0.47531E+04, time = 5.84 | CG iter. 9 -- res = 0.89736E+04, tol = 0.47531E+04, time = 6.25 | CG iter. 10 -- res = 0.35893E+04, tol = 0.47531E+04, time = 6.31 | CG iter. 11 -- res = 0.16234E+04, tol = 0.47531E+04, time = 6.00 | CG iter. 12 -- res = 0.85368E+03, tol = 0.47531E+04, time = 6.19 | CG iter. 13 -- res = 0.49857E+03, tol = 0.47531E+04, time = 6.31 | CG iter. 14 -- res = 0.28292E+03, tol = 0.47531E+04, time = 5.92 | CG iter. 15 -- res = 0.13969E+03, tol = 0.47531E+04, time = 6.19 | CG iter. 16 -- res = 0.64305E+02, tol = 0.47531E+04, time = 6.04 | CG iter. 17 -- res = 0.30205E+02, tol = 0.47531E+04, time = 6.14 | CG iter. 18 -- res = 0.15218E+02, tol = 0.47531E+04, time = 5.98 | CG iter. 19 -- res = 0.83108E+01, tol = 0.47531E+04, time = 6.35 | CG iter. 20 -- res = 0.48311E+01, tol = 0.47531E+04, time = 12.77 | CG iter. 21 -- res = 0.26637E+01, tol = 0.47531E+04, time = 6.18 | CG iter. 22 -- res = 0.13255E+01, tol = 0.47531E+04, time = 6.42 | CG iter. 23 -- res = 0.66910E+00, tol = 0.47531E+04, time = 5.95 | CG iter. 24 -- res = 0.34600E+00, tol = 0.47531E+04, time = 6.32 | CG iter. 25 -- res = 0.18967E+00, tol = 0.47531E+04, time = 6.04 | CG iter. 26 -- res = 0.10731E+00, tol = 0.47531E+04, time = 6.29 | CG iter. 27 -- res = 0.60135E-01, tol = 0.47531E+04, time = 6.12 | CG iter. 28 -- res = 0.32799E-01, tol = 0.47531E+04, time = 5.86 | CG iter. 29 -- res = 0.16949E-01, tol = 0.47531E+04, time = 6.11 | CG iter. 30 -- res = 0.88163E-02, tol = 0.47531E+04, time = 6.08 | CG iter. 31 -- res = 0.47799E-02, tol = 0.47531E+04, time = 6.36 | CG iter. 32 -- res = 0.27001E-02, tol = 0.47531E+04, time = 7.74 | CG iter. 33 -- res = 0.14906E-02, tol = 0.47531E+04, time = 9.25 | CG iter. 34 -- res = 0.80661E-03, tol = 0.47531E+04, time = 6.76 | CG iter. 35 -- res = 0.41728E-03, tol = 0.47531E+04, time = 6.52 | Final CG iter 36 -- res = 0.41728E-03, tol = 0.47531E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.407 2.719 | New value -1.054 | Old value -1.407 | Difference 0.354 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.12868E+05, tol = 0.47627E+18, time = 3.20 | CG iter. 2 -- res = 0.43612E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.15698E+01, tol = 0.47627E+18, time = 1.92 | Final CG iter 4 -- res = 0.74763E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7999142.309 | (Sampled value in CG: 8074388.267 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.580040 | New value = -3.597107 | poltype: 1 pol: 1 CPU time specind = 8.7330341E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.25684E+07, tol = 0.22576E+01, time = 2.52 | CG iter. 2 -- res = 0.96057E+06, tol = 0.22576E+01, time = 2.61 | CG iter. 3 -- res = 0.18947E+06, tol = 0.22576E+01, time = 2.44 | CG iter. 4 -- res = 0.84979E+05, tol = 0.22576E+01, time = 3.62 | CG iter. 5 -- res = 0.51197E+05, tol = 0.22576E+01, time = 3.25 | CG iter. 6 -- res = 0.24684E+05, tol = 0.22576E+01, time = 3.23 | CG iter. 7 -- res = 0.86994E+04, tol = 0.22576E+01, time = 2.77 | CG iter. 8 -- res = 0.37894E+04, tol = 0.22576E+01, time = 2.64 | CG iter. 9 -- res = 0.16357E+04, tol = 0.22576E+01, time = 2.69 | CG iter. 10 -- res = 0.66530E+03, tol = 0.22576E+01, time = 2.69 | CG iter. 11 -- res = 0.27582E+03, tol = 0.22576E+01, time = 2.68 | CG iter. 12 -- res = 0.13544E+03, tol = 0.22576E+01, time = 2.65 | CG iter. 13 -- res = 0.69755E+02, tol = 0.22576E+01, time = 2.31 | CG iter. 14 -- res = 0.35471E+02, tol = 0.22576E+01, time = 2.35 | CG iter. 15 -- res = 0.15910E+02, tol = 0.22576E+01, time = 2.88 | CG iter. 16 -- res = 0.68607E+01, tol = 0.22576E+01, time = 2.76 | CG iter. 17 -- res = 0.28620E+01, tol = 0.22576E+01, time = 2.55 | CG iter. 18 -- res = 0.13546E+01, tol = 0.22576E+01, time = 2.42 | CG iter. 19 -- res = 0.66052E+00, tol = 0.22576E+01, time = 2.81 | CG iter. 20 -- res = 0.34183E+00, tol = 0.22576E+01, time = 2.61 | CG iter. 21 -- res = 0.16409E+00, tol = 0.22576E+01, time = 2.71 | CG iter. 22 -- res = 0.75759E-01, tol = 0.22576E+01, time = 2.73 | CG iter. 23 -- res = 0.33069E-01, tol = 0.22576E+01, time = 2.51 | CG iter. 24 -- res = 0.15399E-01, tol = 0.22576E+01, time = 2.45 | CG iter. 25 -- res = 0.76694E-02, tol = 0.22576E+01, time = 2.61 | CG iter. 26 -- res = 0.38450E-02, tol = 0.22576E+01, time = 2.52 | CG iter. 27 -- res = 0.19010E-02, tol = 0.22576E+01, time = 2.65 | CG iter. 28 -- res = 0.94416E-03, tol = 0.22576E+01, time = 2.72 | CG iter. 29 -- res = 0.42324E-03, tol = 0.22576E+01, time = 2.75 | CG iter. 30 -- res = 0.19929E-03, tol = 0.22576E+01, time = 2.64 | CG iter. 31 -- res = 0.94812E-04, tol = 0.22576E+01, time = 2.33 | CG iter. 32 -- res = 0.49034E-04, tol = 0.22576E+01, time = 2.40 | CG iter. 33 -- res = 0.24129E-04, tol = 0.22576E+01, time = 2.57 | CG iter. 34 -- res = 0.11625E-04, tol = 0.22576E+01, time = 2.81 | CG iter. 35 -- res = 0.55106E-05, tol = 0.22576E+01, time = 2.65 | CG iter. 36 -- res = 0.26324E-05, tol = 0.22576E+01, time = 2.62 | CG iter. 37 -- res = 0.12391E-05, tol = 0.22576E+01, time = 2.22 | CG iter. 38 -- res = 0.62074E-06, tol = 0.22576E+01, time = 2.72 | CG iter. 39 -- res = 0.29812E-06, tol = 0.22576E+01, time = 2.74 | CG iter. 40 -- res = 0.14511E-06, tol = 0.22576E+01, time = 2.72 | CG iter. 41 -- res = 0.67538E-07, tol = 0.22576E+01, time = 2.53 | CG iter. 42 -- res = 0.32108E-07, tol = 0.22576E+01, time = 2.36 | CG iter. 43 -- res = 0.14906E-07, tol = 0.22576E+01, time = 2.45 | CG iter. 44 -- res = 0.72520E-08, tol = 0.22576E+01, time = 2.60 | CG iter. 45 -- res = 0.34879E-08, tol = 0.22576E+01, time = 3.35 | CG iter. 46 -- res = 0.17060E-08, tol = 0.22576E+01, time = 2.78 | CG iter. 47 -- res = 0.82135E-09, tol = 0.22576E+01, time = 2.52 | CG iter. 48 -- res = 0.39217E-09, tol = 0.22576E+01, time = 2.29 | CG iter. 49 -- res = 0.17851E-09, tol = 0.22576E+01, time = 2.48 | CG iter. 50 -- res = 0.85134E-10, tol = 0.22576E+01, time = 2.60 | Final CG iter 51 -- res = 0.85134E-10, tol = 0.22576E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.155 3.233 | New value -4.020 | Old value -1.155 | Difference -2.865 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.12778E+05, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.43185E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.15668E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.11941E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.57460E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7999142.309 | (Sampled value in CG: 8059101.203 ) | CPU time specind = 1137.255 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.68301E+08, tol = 0.57658E+04, time = 16.98 | CG iter. 2 -- res = 0.59529E+08, tol = 0.57658E+04, time = 11.13 | CG iter. 3 -- res = 0.15791E+08, tol = 0.57658E+04, time = 11.40 | CG iter. 4 -- res = 0.64370E+07, tol = 0.57658E+04, time = 11.33 | CG iter. 5 -- res = 0.38181E+07, tol = 0.57658E+04, time = 10.75 | CG iter. 6 -- res = 0.22923E+07, tol = 0.57658E+04, time = 10.96 | CG iter. 7 -- res = 0.13962E+07, tol = 0.57658E+04, time = 11.63 | CG iter. 8 -- res = 0.92075E+06, tol = 0.57658E+04, time = 11.87 | CG iter. 9 -- res = 0.59780E+06, tol = 0.57658E+04, time = 12.44 | CG iter. 10 -- res = 0.36379E+06, tol = 0.57658E+04, time = 11.05 | CG iter. 11 -- res = 0.20526E+06, tol = 0.57658E+04, time = 11.34 | CG iter. 12 -- res = 0.11471E+06, tol = 0.57658E+04, time = 11.17 | CG iter. 13 -- res = 0.70057E+05, tol = 0.57658E+04, time = 11.03 | CG iter. 14 -- res = 0.48738E+05, tol = 0.57658E+04, time = 11.06 | CG iter. 15 -- res = 0.38873E+05, tol = 0.57658E+04, time = 11.30 | CG iter. 16 -- res = 0.35548E+05, tol = 0.57658E+04, time = 10.86 | CG iter. 17 -- res = 0.33656E+05, tol = 0.57658E+04, time = 10.97 | CG iter. 18 -- res = 0.31230E+05, tol = 0.57658E+04, time = 11.24 | CG iter. 19 -- res = 0.27905E+05, tol = 0.57658E+04, time = 10.90 | CG iter. 20 -- res = 0.25964E+05, tol = 0.57658E+04, time = 11.30 | CG iter. 21 -- res = 0.24648E+05, tol = 0.57658E+04, time = 11.09 | CG iter. 22 -- res = 0.24866E+05, tol = 0.57658E+04, time = 11.15 | CG iter. 23 -- res = 0.25004E+05, tol = 0.57658E+04, time = 11.11 | CG iter. 24 -- res = 0.23057E+05, tol = 0.57658E+04, time = 10.65 | CG iter. 25 -- res = 0.19378E+05, tol = 0.57658E+04, time = 11.60 | CG iter. 26 -- res = 0.14947E+05, tol = 0.57658E+04, time = 10.52 | CG iter. 27 -- res = 0.11151E+05, tol = 0.57658E+04, time = 17.63 | CG iter. 28 -- res = 0.84360E+04, tol = 0.57658E+04, time = 11.13 | CG iter. 29 -- res = 0.68447E+04, tol = 0.57658E+04, time = 11.11 | CG iter. 30 -- res = 0.60529E+04, tol = 0.57658E+04, time = 10.94 | CG iter. 31 -- res = 0.55783E+04, tol = 0.57658E+04, time = 11.21 | CG iter. 32 -- res = 0.50780E+04, tol = 0.57658E+04, time = 10.87 | CG iter. 33 -- res = 0.45377E+04, tol = 0.57658E+04, time = 10.88 | CG iter. 34 -- res = 0.38294E+04, tol = 0.57658E+04, time = 11.03 | CG iter. 35 -- res = 0.32890E+04, tol = 0.57658E+04, time = 12.79 | CG iter. 36 -- res = 0.29471E+04, tol = 0.57658E+04, time = 11.06 | CG iter. 37 -- res = 0.27719E+04, tol = 0.57658E+04, time = 10.86 | CG iter. 38 -- res = 0.26549E+04, tol = 0.57658E+04, time = 10.90 | CG iter. 39 -- res = 0.24517E+04, tol = 0.57658E+04, time = 11.14 | CG iter. 40 -- res = 0.20526E+04, tol = 0.57658E+04, time = 11.22 | CG iter. 41 -- res = 0.16260E+04, tol = 0.57658E+04, time = 10.88 | CG iter. 42 -- res = 0.12979E+04, tol = 0.57658E+04, time = 11.43 | CG iter. 43 -- res = 0.10967E+04, tol = 0.57658E+04, time = 11.10 | CG iter. 44 -- res = 0.98652E+03, tol = 0.57658E+04, time = 12.07 | CG iter. 45 -- res = 0.90763E+03, tol = 0.57658E+04, time = 11.17 | CG iter. 46 -- res = 0.83810E+03, tol = 0.57658E+04, time = 11.40 | CG iter. 47 -- res = 0.78068E+03, tol = 0.57658E+04, time = 11.12 | CG iter. 48 -- res = 0.70123E+03, tol = 0.57658E+04, time = 10.83 | CG iter. 49 -- res = 0.60756E+03, tol = 0.57658E+04, time = 11.30 | CG iter. 50 -- res = 0.54892E+03, tol = 0.57658E+04, time = 10.96 | CG iter. 51 -- res = 0.50977E+03, tol = 0.57658E+04, time = 10.95 | CG iter. 52 -- res = 0.47942E+03, tol = 0.57658E+04, time = 11.28 | CG iter. 53 -- res = 0.45055E+03, tol = 0.57658E+04, time = 17.38 | CG iter. 54 -- res = 0.40359E+03, tol = 0.57658E+04, time = 11.21 | CG iter. 55 -- res = 0.35135E+03, tol = 0.57658E+04, time = 11.22 | CG iter. 56 -- res = 0.30695E+03, tol = 0.57658E+04, time = 11.61 | CG iter. 57 -- res = 0.27131E+03, tol = 0.57658E+04, time = 11.24 | CG iter. 58 -- res = 0.24344E+03, tol = 0.57658E+04, time = 10.85 | CG iter. 59 -- res = 0.22789E+03, tol = 0.57658E+04, time = 11.27 | CG iter. 60 -- res = 0.22029E+03, tol = 0.57658E+04, time = 11.21 | Final CG iter 61 -- res = 0.22029E+03, tol = 0.57658E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.729 ( -229.692 -2229.143 2511.609 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10496825.959 | Old band monopole 7999176.715 | Change to band monopole 2497649.244 | Change to component monopole -2497638.501 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.029 2.731 | New value 0.665 | Old value -1.029 | Difference 1.694 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.162 ( 6.149 8.328 -8.445 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.463 4.257 | New value -9.213 | Old value -3.463 | Difference -5.750 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.37155E+06, tol = 0.47627E+18, time = 1.61 | CG iter. 2 -- res = 0.81351E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.35084E+01, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.24404E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.25849E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10496780.810 | (Sampled value in CG: 10479015.389 ) | Chain = 1 -- chisq = 0.81538447E+09 | Chain = 1 -- wall time = 5573.921 sec Available RAM: MemAvailable: 375441792 kB Available Swap: SwapFree: 1117753968 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 218 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444006 | --> Sampling calibration, mode = relcal | relcal = 1.3422429E-02 7.4621802E-04 -1.5883389E-03 -1.2580307E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1153312 0.1287147 9408123.18245999 | BP delta = 0.1153312 0.1252995 9408150.24277359 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632368 | --> Sampling calibration, mode = relcal | relcal = -2.8214226E-03 -7.0482603E-04 1.6803377E-03 1.6119978E-03 -4.0783011E-04 6.4174319E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5639298 15218611.8132757 | BP delta = 0.0000000E+00 -0.5723184 15218614.2124852 | BP chisq diff = 2.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18150316317838 | --> Sampling calibration, mode = relcal | relcal = -7.4592918E-02 -5.8139391E-02 9.1371164E-02 4.1361149E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.6109388E-05 4.2900215E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3838E-05 | 2: delta_r/delta_0: 8.5988E-07 | 3: delta_s/delta_0: 2.4383E-07 | 4: delta_r/delta_0: 1.1666E-08 | 5: delta_s/delta_0: 2.8849E-09 | 6: delta_r/delta_0: 8.1647E-10 | 7: delta_s/delta_0: 3.9348E-10 | 8: delta_r/delta_0: 1.3196E-10 | 9: delta_s/delta_0: 6.4992E-09 | 10: delta_r/delta_0: 5.7932E-10 | 11: delta_s/delta_0: 1.5389E-10 | 12: delta_r/delta_0: 3.5667E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.298265933697255E-004 2.739968109876808E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3837E-05 | 2: delta_r/delta_0: 8.5986E-07 | 3: delta_s/delta_0: 2.4383E-07 | 4: delta_r/delta_0: 1.1666E-08 | 5: delta_s/delta_0: 2.8849E-09 | 6: delta_r/delta_0: 8.1651E-10 | 7: delta_s/delta_0: 3.9346E-10 | 8: delta_r/delta_0: 1.3198E-10 | 9: delta_s/delta_0: 6.4935E-09 | 10: delta_r/delta_0: 5.7884E-10 | 11: delta_s/delta_0: 1.5393E-10 | 12: delta_r/delta_0: 3.5672E-11 | Reached bicg-stab tolerance | BP delta = 4.5283601E-02 6.2373742E-02 3639695.82831679 | BP delta = 4.5283601E-02 6.2542960E-02 3639050.33654752 | BP chisq diff = -645.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02580256 | --> Sampling calibration, mode = relcal | relcal = -0.1066494 -9.5501438E-02 0.1449228 5.7228085E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2255945E-03 1.5060268E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9248E-05 | 2: delta_r/delta_0: 1.3202E-06 | 3: delta_s/delta_0: 2.3521E-07 | 4: delta_r/delta_0: 5.3574E-08 | 5: delta_s/delta_0: 1.7164E-08 | 6: delta_r/delta_0: 6.8917E-09 | 7: delta_s/delta_0: 4.0812E-08 | 8: delta_r/delta_0: 1.5671E-09 | 9: delta_s/delta_0: 8.9861E-10 | 10: delta_r/delta_0: 2.4502E-10 | 11: delta_s/delta_0: 1.7937E-09 | 12: delta_r/delta_0: 2.5118E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.525628934279043E-003 2.811366272172158E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.9248E-05 | 2: delta_r/delta_0: 1.3202E-06 | 3: delta_s/delta_0: 2.3523E-07 | 4: delta_r/delta_0: 5.3599E-08 | 5: delta_s/delta_0: 1.7154E-08 | 6: delta_r/delta_0: 6.8941E-09 | 7: delta_s/delta_0: 4.0863E-08 | 8: delta_r/delta_0: 1.5688E-09 | 9: delta_s/delta_0: 8.9873E-10 | 10: delta_r/delta_0: 2.4532E-10 | 11: delta_s/delta_0: 1.7970E-09 | 12: delta_r/delta_0: 2.5142E-11 | Reached bicg-stab tolerance | BP delta = -0.2644569 -0.2434073 2841686.93172484 | BP delta = -0.2644569 -0.2413500 2841726.69352017 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81219044 | --> Sampling calibration, mode = relcal | relcal = 0.2952875 0.2248512 -0.2836815 -0.2364572 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6325203E-04 5.8511873E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1848E-02 | 2: delta_r/delta_0: 5.1833E-04 | 3: delta_s/delta_0: 4.3431E-03 | 4: delta_r/delta_0: 3.6643E-04 | 5: delta_s/delta_0: 2.1537E-05 | 6: delta_r/delta_0: 4.8775E-06 | 7: delta_s/delta_0: 2.5853E-04 | 8: delta_r/delta_0: 7.9948E-05 | 9: delta_s/delta_0: 7.5027E-06 | 10: delta_r/delta_0: 1.9212E-06 | 11: delta_s/delta_0: 1.2039E-07 | 12: delta_r/delta_0: 1.8457E-08 | 13: delta_s/delta_0: 2.7943E-08 | 14: delta_r/delta_0: 4.5041E-09 | 15: delta_s/delta_0: 6.2207E-10 | 16: delta_r/delta_0: 1.8644E-10 | 17: delta_s/delta_0: 2.4237E-10 | 18: delta_r/delta_0: 7.5751E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.431456188143589E-002 4.021728645054498E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1890E-02 | 2: delta_r/delta_0: 5.1934E-04 | 3: delta_s/delta_0: 4.3951E-03 | 4: delta_r/delta_0: 3.7083E-04 | 5: delta_s/delta_0: 2.1648E-05 | 6: delta_r/delta_0: 4.9087E-06 | 7: delta_s/delta_0: 2.6125E-04 | 8: delta_r/delta_0: 8.0857E-05 | 9: delta_s/delta_0: 7.5602E-06 | 10: delta_r/delta_0: 1.9289E-06 | 11: delta_s/delta_0: 1.2071E-07 | 12: delta_r/delta_0: 1.8389E-08 | 13: delta_s/delta_0: 2.7822E-08 | 14: delta_r/delta_0: 4.4872E-09 | 15: delta_s/delta_0: 6.2250E-10 | 16: delta_r/delta_0: 1.8644E-10 | 17: delta_s/delta_0: 2.4114E-10 | 18: delta_r/delta_0: 7.5401E-11 | Reached bicg-stab tolerance | BP delta = -0.1259999 -0.1394654 2827666.18441943 | BP delta = -0.1259999 -0.1308915 2827694.08429157 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95900352 | --> Sampling calibration, mode = relcal | relcal = 0.1066128 0.1394183 -0.1102553 -0.1357758 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0267439E-02 1.3694507E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4991E-04 | 2: delta_r/delta_0: 4.1478E-06 | 3: delta_s/delta_0: 6.9387E-06 | 4: delta_r/delta_0: 1.0757E-06 | 5: delta_s/delta_0: 1.6361E-07 | 6: delta_r/delta_0: 1.0898E-07 | 7: delta_s/delta_0: 7.5844E-07 | 8: delta_r/delta_0: 2.3208E-08 | 9: delta_s/delta_0: 2.2592E-07 | 10: delta_r/delta_0: 7.1526E-08 | 11: delta_s/delta_0: 1.4135E-09 | 12: delta_r/delta_0: 1.0311E-09 | 13: delta_s/delta_0: 3.9081E-10 | 14: delta_r/delta_0: 3.0379E-10 | 15: delta_s/delta_0: 6.5061E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.858670793228128E-002 3.697785679352232E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4991E-04 | 2: delta_r/delta_0: 4.1478E-06 | 3: delta_s/delta_0: 6.9393E-06 | 4: delta_r/delta_0: 1.0757E-06 | 5: delta_s/delta_0: 1.6359E-07 | 6: delta_r/delta_0: 1.0893E-07 | 7: delta_s/delta_0: 7.5780E-07 | 8: delta_r/delta_0: 2.3211E-08 | 9: delta_s/delta_0: 2.2310E-07 | 10: delta_r/delta_0: 7.0691E-08 | 11: delta_s/delta_0: 1.4086E-09 | 12: delta_r/delta_0: 1.0276E-09 | 13: delta_s/delta_0: 3.9042E-10 | 14: delta_r/delta_0: 3.0347E-10 | 15: delta_s/delta_0: 6.5230E-11 | Reached bicg-stab tolerance | BP delta = 1.5792398E-02 0.1190117 3003973.18440343 | BP delta = 1.5792398E-02 0.1098152 3004174.36176307 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.079618 | New value = -3.155121 | poltype: 2 pol: 1 CPU time specind = 1.8661022E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.238296 | New value = -3.147928 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.102176 | New value = -3.137652 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.228521 | New value = -3.207849 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164281 | New value = -3.034242 | poltype: 2 pol: 2 CPU time specind = 4.6839714E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.13602E+08, tol = 0.68653E+01, time = 5.32 | CG iter. 2 -- res = 0.35261E+06, tol = 0.68653E+01, time = 5.17 | CG iter. 3 -- res = 0.81056E+05, tol = 0.68653E+01, time = 5.30 | CG iter. 4 -- res = 0.84567E+05, tol = 0.68653E+01, time = 5.59 | CG iter. 5 -- res = 0.90917E+05, tol = 0.68653E+01, time = 6.79 | CG iter. 6 -- res = 0.89388E+05, tol = 0.68653E+01, time = 5.88 | CG iter. 7 -- res = 0.78453E+05, tol = 0.68653E+01, time = 5.60 | CG iter. 8 -- res = 0.57354E+05, tol = 0.68653E+01, time = 5.24 | CG iter. 9 -- res = 0.47360E+05, tol = 0.68653E+01, time = 5.62 | CG iter. 10 -- res = 0.37770E+05, tol = 0.68653E+01, time = 5.40 | CG iter. 11 -- res = 0.26691E+05, tol = 0.68653E+01, time = 5.27 | CG iter. 12 -- res = 0.20146E+05, tol = 0.68653E+01, time = 5.25 | CG iter. 13 -- res = 0.16863E+05, tol = 0.68653E+01, time = 5.29 | CG iter. 14 -- res = 0.14892E+05, tol = 0.68653E+01, time = 5.32 | CG iter. 15 -- res = 0.11622E+05, tol = 0.68653E+01, time = 5.49 | CG iter. 16 -- res = 0.80992E+04, tol = 0.68653E+01, time = 5.21 | CG iter. 17 -- res = 0.59578E+04, tol = 0.68653E+01, time = 5.37 | CG iter. 18 -- res = 0.49291E+04, tol = 0.68653E+01, time = 5.24 | CG iter. 19 -- res = 0.43331E+04, tol = 0.68653E+01, time = 4.95 | CG iter. 20 -- res = 0.34654E+04, tol = 0.68653E+01, time = 5.27 | CG iter. 21 -- res = 0.25898E+04, tol = 0.68653E+01, time = 5.16 | CG iter. 22 -- res = 0.21442E+04, tol = 0.68653E+01, time = 5.28 | CG iter. 23 -- res = 0.18968E+04, tol = 0.68653E+01, time = 5.27 | CG iter. 24 -- res = 0.15241E+04, tol = 0.68653E+01, time = 5.64 | CG iter. 25 -- res = 0.11389E+04, tol = 0.68653E+01, time = 5.19 | CG iter. 26 -- res = 0.94542E+03, tol = 0.68653E+01, time = 5.58 | CG iter. 27 -- res = 0.86461E+03, tol = 0.68653E+01, time = 5.22 | CG iter. 28 -- res = 0.77694E+03, tol = 0.68653E+01, time = 5.36 | CG iter. 29 -- res = 0.60492E+03, tol = 0.68653E+01, time = 5.40 | CG iter. 30 -- res = 0.48263E+03, tol = 0.68653E+01, time = 5.34 | CG iter. 31 -- res = 0.41875E+03, tol = 0.68653E+01, time = 5.41 | CG iter. 32 -- res = 0.37170E+03, tol = 0.68653E+01, time = 5.37 | CG iter. 33 -- res = 0.29426E+03, tol = 0.68653E+01, time = 5.54 | CG iter. 34 -- res = 0.23060E+03, tol = 0.68653E+01, time = 5.48 | CG iter. 35 -- res = 0.20059E+03, tol = 0.68653E+01, time = 5.21 | CG iter. 36 -- res = 0.18076E+03, tol = 0.68653E+01, time = 5.04 | CG iter. 37 -- res = 0.14815E+03, tol = 0.68653E+01, time = 5.08 | CG iter. 38 -- res = 0.11067E+03, tol = 0.68653E+01, time = 5.43 | CG iter. 39 -- res = 0.91633E+02, tol = 0.68653E+01, time = 5.18 | CG iter. 40 -- res = 0.77700E+02, tol = 0.68653E+01, time = 5.26 | CG iter. 41 -- res = 0.63572E+02, tol = 0.68653E+01, time = 5.39 | CG iter. 42 -- res = 0.49002E+02, tol = 0.68653E+01, time = 5.41 | CG iter. 43 -- res = 0.39376E+02, tol = 0.68653E+01, time = 9.11 | CG iter. 44 -- res = 0.32651E+02, tol = 0.68653E+01, time = 8.64 | CG iter. 45 -- res = 0.26614E+02, tol = 0.68653E+01, time = 5.41 | CG iter. 46 -- res = 0.20248E+02, tol = 0.68653E+01, time = 5.43 | CG iter. 47 -- res = 0.15706E+02, tol = 0.68653E+01, time = 4.89 | CG iter. 48 -- res = 0.12368E+02, tol = 0.68653E+01, time = 5.16 | CG iter. 49 -- res = 0.10313E+02, tol = 0.68653E+01, time = 5.47 | CG iter. 50 -- res = 0.83804E+01, tol = 0.68653E+01, time = 5.21 | Final CG iter 51 -- res = 0.83804E+01, tol = 0.68653E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10137221.674 | Old band monopole 10496825.959 | Change to band monopole -359604.285 | Change to component monopole 359602.738 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.29720E+06, tol = 0.47627E+18, time = 2.17 | CG iter. 2 -- res = 0.15599E+03, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.38630E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.25838E-01, tol = 0.47627E+18, time = 1.66 | Final CG iter 5 -- res = 0.61895E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10137178.072 | (Sampled value in CG: 10061968.674 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.486704 | New value = 1.525774 | poltype: 2 pol: 1 CPU time specind = 1.6268015E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.465494 | New value = 1.498856 | poltype: 2 pol: 2 CPU time specind = 4.5258999E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.24339E+08, tol = 0.47632E+04, time = 5.94 | CG iter. 2 -- res = 0.52842E+07, tol = 0.47632E+04, time = 6.14 | CG iter. 3 -- res = 0.82248E+06, tol = 0.47632E+04, time = 6.44 | CG iter. 4 -- res = 0.34137E+06, tol = 0.47632E+04, time = 6.26 | CG iter. 5 -- res = 0.14588E+06, tol = 0.47632E+04, time = 6.11 | CG iter. 6 -- res = 0.77845E+05, tol = 0.47632E+04, time = 6.10 | CG iter. 7 -- res = 0.43255E+05, tol = 0.47632E+04, time = 6.05 | CG iter. 8 -- res = 0.20731E+05, tol = 0.47632E+04, time = 6.86 | CG iter. 9 -- res = 0.89695E+04, tol = 0.47632E+04, time = 5.91 | CG iter. 10 -- res = 0.35876E+04, tol = 0.47632E+04, time = 5.82 | CG iter. 11 -- res = 0.16627E+04, tol = 0.47632E+04, time = 6.19 | CG iter. 12 -- res = 0.85572E+03, tol = 0.47632E+04, time = 6.25 | CG iter. 13 -- res = 0.47821E+03, tol = 0.47632E+04, time = 5.84 | CG iter. 14 -- res = 0.26581E+03, tol = 0.47632E+04, time = 6.01 | CG iter. 15 -- res = 0.13876E+03, tol = 0.47632E+04, time = 6.11 | CG iter. 16 -- res = 0.66770E+02, tol = 0.47632E+04, time = 6.23 | CG iter. 17 -- res = 0.31848E+02, tol = 0.47632E+04, time = 5.78 | CG iter. 18 -- res = 0.15785E+02, tol = 0.47632E+04, time = 6.13 | CG iter. 19 -- res = 0.84469E+01, tol = 0.47632E+04, time = 6.09 | CG iter. 20 -- res = 0.47381E+01, tol = 0.47632E+04, time = 5.96 | CG iter. 21 -- res = 0.25982E+01, tol = 0.47632E+04, time = 6.18 | CG iter. 22 -- res = 0.13617E+01, tol = 0.47632E+04, time = 5.96 | CG iter. 23 -- res = 0.67972E+00, tol = 0.47632E+04, time = 6.41 | CG iter. 24 -- res = 0.34285E+00, tol = 0.47632E+04, time = 12.05 | CG iter. 25 -- res = 0.18338E+00, tol = 0.47632E+04, time = 6.66 | CG iter. 26 -- res = 0.10206E+00, tol = 0.47632E+04, time = 6.19 | CG iter. 27 -- res = 0.56217E-01, tol = 0.47632E+04, time = 6.43 | CG iter. 28 -- res = 0.29507E-01, tol = 0.47632E+04, time = 6.06 | CG iter. 29 -- res = 0.15181E-01, tol = 0.47632E+04, time = 5.76 | CG iter. 30 -- res = 0.78770E-02, tol = 0.47632E+04, time = 6.01 | CG iter. 31 -- res = 0.43085E-02, tol = 0.47632E+04, time = 5.98 | CG iter. 32 -- res = 0.24169E-02, tol = 0.47632E+04, time = 5.78 | CG iter. 33 -- res = 0.13580E-02, tol = 0.47632E+04, time = 6.30 | CG iter. 34 -- res = 0.76053E-03, tol = 0.47632E+04, time = 6.34 | CG iter. 35 -- res = 0.40079E-03, tol = 0.47632E+04, time = 5.72 | Final CG iter 36 -- res = 0.40079E-03, tol = 0.47632E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.660 2.746 | New value -2.469 | Old value 0.660 | Difference -3.130 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.51514E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.86437E+02, tol = 0.47627E+18, time = 1.83 | CG iter. 3 -- res = 0.22977E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.15823E-02, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.20483E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10137178.072 | (Sampled value in CG: 10063003.802 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.597107 | New value = -3.731293 | poltype: 1 pol: 1 CPU time specind = 8.2430840E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.39859E+07, tol = 0.23091E+01, time = 2.51 | CG iter. 2 -- res = 0.12646E+07, tol = 0.23091E+01, time = 2.61 | CG iter. 3 -- res = 0.31149E+06, tol = 0.23091E+01, time = 2.88 | CG iter. 4 -- res = 0.17960E+06, tol = 0.23091E+01, time = 2.28 | CG iter. 5 -- res = 0.98933E+05, tol = 0.23091E+01, time = 2.50 | CG iter. 6 -- res = 0.35558E+05, tol = 0.23091E+01, time = 2.82 | CG iter. 7 -- res = 0.11376E+05, tol = 0.23091E+01, time = 2.48 | CG iter. 8 -- res = 0.49238E+04, tol = 0.23091E+01, time = 2.45 | CG iter. 9 -- res = 0.23431E+04, tol = 0.23091E+01, time = 2.65 | CG iter. 10 -- res = 0.92446E+03, tol = 0.23091E+01, time = 2.46 | CG iter. 11 -- res = 0.38311E+03, tol = 0.23091E+01, time = 2.39 | CG iter. 12 -- res = 0.19703E+03, tol = 0.23091E+01, time = 2.75 | CG iter. 13 -- res = 0.10351E+03, tol = 0.23091E+01, time = 2.63 | CG iter. 14 -- res = 0.46650E+02, tol = 0.23091E+01, time = 2.32 | CG iter. 15 -- res = 0.19255E+02, tol = 0.23091E+01, time = 2.74 | CG iter. 16 -- res = 0.80859E+01, tol = 0.23091E+01, time = 2.48 | CG iter. 17 -- res = 0.35643E+01, tol = 0.23091E+01, time = 2.62 | CG iter. 18 -- res = 0.17688E+01, tol = 0.23091E+01, time = 2.50 | CG iter. 19 -- res = 0.84770E+00, tol = 0.23091E+01, time = 2.82 | CG iter. 20 -- res = 0.39061E+00, tol = 0.23091E+01, time = 3.66 | CG iter. 21 -- res = 0.17082E+00, tol = 0.23091E+01, time = 2.72 | CG iter. 22 -- res = 0.80694E-01, tol = 0.23091E+01, time = 2.88 | CG iter. 23 -- res = 0.36234E-01, tol = 0.23091E+01, time = 3.01 | CG iter. 24 -- res = 0.18353E-01, tol = 0.23091E+01, time = 2.66 | CG iter. 25 -- res = 0.94384E-02, tol = 0.23091E+01, time = 2.44 | CG iter. 26 -- res = 0.46946E-02, tol = 0.23091E+01, time = 2.15 | CG iter. 27 -- res = 0.21873E-02, tol = 0.23091E+01, time = 2.40 | CG iter. 28 -- res = 0.97494E-03, tol = 0.23091E+01, time = 2.49 | CG iter. 29 -- res = 0.44386E-03, tol = 0.23091E+01, time = 2.65 | CG iter. 30 -- res = 0.22400E-03, tol = 0.23091E+01, time = 2.75 | CG iter. 31 -- res = 0.11005E-03, tol = 0.23091E+01, time = 2.60 | CG iter. 32 -- res = 0.55294E-04, tol = 0.23091E+01, time = 2.35 | CG iter. 33 -- res = 0.26045E-04, tol = 0.23091E+01, time = 2.42 | CG iter. 34 -- res = 0.11585E-04, tol = 0.23091E+01, time = 2.31 | CG iter. 35 -- res = 0.54848E-05, tol = 0.23091E+01, time = 2.54 | CG iter. 36 -- res = 0.27044E-05, tol = 0.23091E+01, time = 2.56 | CG iter. 37 -- res = 0.13625E-05, tol = 0.23091E+01, time = 2.48 | CG iter. 38 -- res = 0.65556E-06, tol = 0.23091E+01, time = 2.57 | CG iter. 39 -- res = 0.29806E-06, tol = 0.23091E+01, time = 2.46 | CG iter. 40 -- res = 0.13508E-06, tol = 0.23091E+01, time = 2.42 | CG iter. 41 -- res = 0.63172E-07, tol = 0.23091E+01, time = 2.54 | CG iter. 42 -- res = 0.31765E-07, tol = 0.23091E+01, time = 2.55 | CG iter. 43 -- res = 0.15097E-07, tol = 0.23091E+01, time = 2.69 | CG iter. 44 -- res = 0.75897E-08, tol = 0.23091E+01, time = 2.37 | CG iter. 45 -- res = 0.34471E-08, tol = 0.23091E+01, time = 2.72 | CG iter. 46 -- res = 0.15360E-08, tol = 0.23091E+01, time = 2.29 | CG iter. 47 -- res = 0.72897E-09, tol = 0.23091E+01, time = 2.67 | CG iter. 48 -- res = 0.35593E-09, tol = 0.23091E+01, time = 2.26 | CG iter. 49 -- res = 0.18055E-09, tol = 0.23091E+01, time = 2.70 | CG iter. 50 -- res = 0.83816E-10, tol = 0.23091E+01, time = 2.46 | Final CG iter 51 -- res = 0.83816E-10, tol = 0.23091E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -16.220 5.748 | New value -7.876 | Old value -16.220 | Difference 8.345 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.71403E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.67454E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.22939E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.76329E-02, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.22393E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10137178.072 | (Sampled value in CG: 10082593.564 ) | CPU time specind = 1102.892 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.69704E+08, tol = 0.57935E+04, time = 10.93 | CG iter. 2 -- res = 0.59314E+08, tol = 0.57935E+04, time = 11.23 | CG iter. 3 -- res = 0.15721E+08, tol = 0.57935E+04, time = 10.39 | CG iter. 4 -- res = 0.67158E+07, tol = 0.57935E+04, time = 11.01 | CG iter. 5 -- res = 0.40430E+07, tol = 0.57935E+04, time = 17.39 | CG iter. 6 -- res = 0.23056E+07, tol = 0.57935E+04, time = 10.99 | CG iter. 7 -- res = 0.13436E+07, tol = 0.57935E+04, time = 11.02 | CG iter. 8 -- res = 0.89959E+06, tol = 0.57935E+04, time = 10.77 | CG iter. 9 -- res = 0.58767E+06, tol = 0.57935E+04, time = 10.73 | CG iter. 10 -- res = 0.36264E+06, tol = 0.57935E+04, time = 11.43 | CG iter. 11 -- res = 0.20919E+06, tol = 0.57935E+04, time = 10.99 | CG iter. 12 -- res = 0.12052E+06, tol = 0.57935E+04, time = 11.07 | CG iter. 13 -- res = 0.71517E+05, tol = 0.57935E+04, time = 12.67 | CG iter. 14 -- res = 0.47907E+05, tol = 0.57935E+04, time = 11.27 | CG iter. 15 -- res = 0.38676E+05, tol = 0.57935E+04, time = 10.94 | CG iter. 16 -- res = 0.34654E+05, tol = 0.57935E+04, time = 10.91 | CG iter. 17 -- res = 0.32888E+05, tol = 0.57935E+04, time = 11.33 | CG iter. 18 -- res = 0.30921E+05, tol = 0.57935E+04, time = 11.44 | CG iter. 19 -- res = 0.27921E+05, tol = 0.57935E+04, time = 10.89 | CG iter. 20 -- res = 0.26104E+05, tol = 0.57935E+04, time = 11.31 | CG iter. 21 -- res = 0.24992E+05, tol = 0.57935E+04, time = 10.86 | CG iter. 22 -- res = 0.25015E+05, tol = 0.57935E+04, time = 10.94 | CG iter. 23 -- res = 0.24797E+05, tol = 0.57935E+04, time = 11.15 | CG iter. 24 -- res = 0.23017E+05, tol = 0.57935E+04, time = 10.94 | CG iter. 25 -- res = 0.19224E+05, tol = 0.57935E+04, time = 10.97 | CG iter. 26 -- res = 0.14557E+05, tol = 0.57935E+04, time = 10.74 | CG iter. 27 -- res = 0.10745E+05, tol = 0.57935E+04, time = 10.99 | CG iter. 28 -- res = 0.80845E+04, tol = 0.57935E+04, time = 10.76 | CG iter. 29 -- res = 0.65176E+04, tol = 0.57935E+04, time = 10.90 | CG iter. 30 -- res = 0.56408E+04, tol = 0.57935E+04, time = 10.94 | CG iter. 31 -- res = 0.51874E+04, tol = 0.57935E+04, time = 17.49 | CG iter. 32 -- res = 0.47085E+04, tol = 0.57935E+04, time = 10.92 | CG iter. 33 -- res = 0.41736E+04, tol = 0.57935E+04, time = 10.66 | CG iter. 34 -- res = 0.34896E+04, tol = 0.57935E+04, time = 10.99 | CG iter. 35 -- res = 0.29393E+04, tol = 0.57935E+04, time = 10.81 | CG iter. 36 -- res = 0.26636E+04, tol = 0.57935E+04, time = 11.04 | CG iter. 37 -- res = 0.25197E+04, tol = 0.57935E+04, time = 11.15 | CG iter. 38 -- res = 0.23642E+04, tol = 0.57935E+04, time = 10.99 | CG iter. 39 -- res = 0.20961E+04, tol = 0.57935E+04, time = 12.51 | CG iter. 40 -- res = 0.17270E+04, tol = 0.57935E+04, time = 11.71 | CG iter. 41 -- res = 0.13804E+04, tol = 0.57935E+04, time = 10.99 | CG iter. 42 -- res = 0.11058E+04, tol = 0.57935E+04, time = 11.00 | CG iter. 43 -- res = 0.94807E+03, tol = 0.57935E+04, time = 10.95 | CG iter. 44 -- res = 0.87158E+03, tol = 0.57935E+04, time = 10.79 | CG iter. 45 -- res = 0.81081E+03, tol = 0.57935E+04, time = 10.96 | CG iter. 46 -- res = 0.75082E+03, tol = 0.57935E+04, time = 10.69 | CG iter. 47 -- res = 0.67936E+03, tol = 0.57935E+04, time = 11.09 | CG iter. 48 -- res = 0.59216E+03, tol = 0.57935E+04, time = 10.68 | CG iter. 49 -- res = 0.51023E+03, tol = 0.57935E+04, time = 11.44 | CG iter. 50 -- res = 0.47049E+03, tol = 0.57935E+04, time = 11.17 | CG iter. 51 -- res = 0.45201E+03, tol = 0.57935E+04, time = 10.23 | CG iter. 52 -- res = 0.42530E+03, tol = 0.57935E+04, time = 10.74 | CG iter. 53 -- res = 0.38504E+03, tol = 0.57935E+04, time = 11.15 | CG iter. 54 -- res = 0.33483E+03, tol = 0.57935E+04, time = 10.96 | CG iter. 55 -- res = 0.28398E+03, tol = 0.57935E+04, time = 11.02 | CG iter. 56 -- res = 0.24277E+03, tol = 0.57935E+04, time = 10.62 | CG iter. 57 -- res = 0.21163E+03, tol = 0.57935E+04, time = 11.08 | CG iter. 58 -- res = 0.19454E+03, tol = 0.57935E+04, time = 16.91 | CG iter. 59 -- res = 0.18633E+03, tol = 0.57935E+04, time = 11.30 | CG iter. 60 -- res = 0.17688E+03, tol = 0.57935E+04, time = 10.78 | Final CG iter 61 -- res = 0.17688E+03, tol = 0.57935E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.691 ( -230.095 -2229.726 2512.095 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10131776.750 | Old band monopole 10137221.674 | Change to band monopole -5444.924 | Change to component monopole 5444.901 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.457 2.727 | New value -1.789 | Old value -2.457 | Difference 0.669 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.971 ( 7.534 9.844 -9.028 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.872 4.162 | New value 4.910 | Old value 0.872 | Difference 4.038 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.74882E+05, tol = 0.47627E+18, time = 1.61 | CG iter. 2 -- res = 0.33741E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.14208E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.20421E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.98195E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10131733.171 | (Sampled value in CG: 10114134.185 ) | Chain = 1 -- chisq = 0.81510677E+09 | Chain = 1 -- wall time = 5945.890 sec Available RAM: MemAvailable: 375812860 kB Available Swap: SwapFree: 1118551920 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 219 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443863 | --> Sampling calibration, mode = relcal | relcal = 1.3441582E-02 7.4150146E-04 -1.6021798E-03 -1.2580903E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1153312 0.1287147 97042232.1460675 | BP delta = 0.1098738 0.1232572 97042235.5205194 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632427 | --> Sampling calibration, mode = relcal | relcal = -2.8209276E-03 -7.0354686E-04 1.6793932E-03 1.6131871E-03 -4.0936071E-04 6.4125488E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5723184 15218023.5431850 | BP delta = 0.0000000E+00 -0.5724667 15218031.2218516 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18187888773056 | --> Sampling calibration, mode = relcal | relcal = -7.4958868E-02 -5.8446322E-02 9.1796145E-02 4.1609045E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.8733905E-04 4.7267089E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0998E-05 | 2: delta_r/delta_0: 8.3196E-07 | 3: delta_s/delta_0: 2.3994E-07 | 4: delta_r/delta_0: 1.4590E-08 | 5: delta_s/delta_0: 2.5954E-08 | 6: delta_r/delta_0: 1.2939E-09 | 7: delta_s/delta_0: 6.3345E-10 | 8: delta_r/delta_0: 1.4811E-10 | 9: delta_s/delta_0: 1.2918E-09 | 10: delta_r/delta_0: 5.2068E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.586871502841911E-004 2.739052859153281E-005 | BP delta = 4.5283601E-02 6.2542960E-02 50479327.4207839 | BP delta = 4.8612975E-02 6.5872334E-02 50479326.2732965 | BP chisq diff = -1.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583926 | --> Sampling calibration, mode = relcal | relcal = -0.1066786 -9.5524989E-02 0.1448969 5.7306696E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1782144E-03 1.4919869E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8796E-05 | 2: delta_r/delta_0: 1.6424E-06 | 3: delta_s/delta_0: 2.2863E-07 | 4: delta_r/delta_0: 4.4346E-08 | 5: delta_s/delta_0: 2.6443E-08 | 6: delta_r/delta_0: 6.6640E-09 | 7: delta_s/delta_0: 6.0627E-09 | 8: delta_r/delta_0: 1.5396E-09 | 9: delta_s/delta_0: 7.5883E-10 | 10: delta_r/delta_0: 5.6680E-10 | 11: delta_s/delta_0: 5.7810E-10 | 12: delta_r/delta_0: 1.0697E-10 | 13: delta_s/delta_0: 7.7074E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.887589917532483E-003 2.811239419089348E-005 | BP delta = -0.2644569 -0.2434073 57391829.7096688 | BP delta = -0.2660697 -0.2450201 57391829.5927707 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81219794 | --> Sampling calibration, mode = relcal | relcal = 0.2954176 0.2248655 -0.2837594 -0.2365237 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8192425E-03 4.9592503E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5360E-03 | 2: delta_r/delta_0: 1.7555E-04 | 3: delta_s/delta_0: 1.9239E-05 | 4: delta_r/delta_0: 2.4825E-06 | 5: delta_s/delta_0: 1.6172E-06 | 6: delta_r/delta_0: 3.0000E-07 | 7: delta_s/delta_0: 3.1469E-08 | 8: delta_r/delta_0: 1.5705E-08 | 9: delta_s/delta_0: 3.8749E-07 | 10: delta_r/delta_0: 1.6765E-08 | 11: delta_s/delta_0: 1.3243E-08 | 12: delta_r/delta_0: 1.9837E-09 | 13: delta_s/delta_0: 6.1623E-10 | 14: delta_r/delta_0: 3.2592E-10 | 15: delta_s/delta_0: 1.7101E-10 | 16: delta_r/delta_0: 8.4309E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.287076265773775E-002 4.021920624872765E-005 | BP delta = -0.1259999 -0.1394654 72488779.4272232 | BP delta = -0.1828745 -0.1963399 72488779.4212021 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95902375 | --> Sampling calibration, mode = relcal | relcal = 0.1064280 0.1395998 -0.1101660 -0.1358618 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0619354E-02 1.3650586E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9790E-04 | 2: delta_r/delta_0: 5.1562E-06 | 3: delta_s/delta_0: 6.1110E-05 | 4: delta_r/delta_0: 2.7476E-06 | 5: delta_s/delta_0: 1.9093E-07 | 6: delta_r/delta_0: 9.6128E-08 | 7: delta_s/delta_0: 4.1579E-07 | 8: delta_r/delta_0: 2.5901E-08 | 9: delta_s/delta_0: 7.6869E-09 | 10: delta_r/delta_0: 3.9850E-09 | 11: delta_s/delta_0: 1.1102E-09 | 12: delta_r/delta_0: 8.4971E-10 | 13: delta_s/delta_0: 2.0251E-10 | 14: delta_r/delta_0: 7.9558E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.934846395531136E-002 3.697725327713599E-005 | BP delta = 1.5792398E-02 0.1190117 72787421.8498675 | BP delta = 3.4009740E-02 0.1372290 72787420.3811423 | BP chisq diff = -1.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155121 | New value = -3.128385 | poltype: 2 pol: 1 CPU time specind = 1.3910055E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147928 | New value = -3.133390 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137652 | New value = -3.152130 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.207849 | New value = -3.131477 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.034242 | New value = -3.164771 | poltype: 2 pol: 2 CPU time specind = 2.1324873E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.13568E+08, tol = 0.70703E+01, time = 5.25 | CG iter. 2 -- res = 0.34854E+06, tol = 0.70703E+01, time = 5.19 | CG iter. 3 -- res = 0.53532E+05, tol = 0.70703E+01, time = 5.47 | CG iter. 4 -- res = 0.26528E+05, tol = 0.70703E+01, time = 5.49 | CG iter. 5 -- res = 0.16383E+05, tol = 0.70703E+01, time = 4.85 | CG iter. 6 -- res = 0.11923E+05, tol = 0.70703E+01, time = 5.57 | CG iter. 7 -- res = 0.10442E+05, tol = 0.70703E+01, time = 5.19 | CG iter. 8 -- res = 0.91561E+04, tol = 0.70703E+01, time = 5.47 | CG iter. 9 -- res = 0.81261E+04, tol = 0.70703E+01, time = 5.31 | CG iter. 10 -- res = 0.77921E+04, tol = 0.70703E+01, time = 5.25 | CG iter. 11 -- res = 0.62106E+04, tol = 0.70703E+01, time = 5.07 | CG iter. 12 -- res = 0.41231E+04, tol = 0.70703E+01, time = 5.80 | CG iter. 13 -- res = 0.28235E+04, tol = 0.70703E+01, time = 5.09 | CG iter. 14 -- res = 0.22832E+04, tol = 0.70703E+01, time = 5.24 | CG iter. 15 -- res = 0.20364E+04, tol = 0.70703E+01, time = 5.60 | CG iter. 16 -- res = 0.16717E+04, tol = 0.70703E+01, time = 5.42 | CG iter. 17 -- res = 0.11912E+04, tol = 0.70703E+01, time = 5.42 | CG iter. 18 -- res = 0.90741E+03, tol = 0.70703E+01, time = 5.31 | CG iter. 19 -- res = 0.77546E+03, tol = 0.70703E+01, time = 5.28 | CG iter. 20 -- res = 0.60670E+03, tol = 0.70703E+01, time = 5.31 | CG iter. 21 -- res = 0.44267E+03, tol = 0.70703E+01, time = 5.13 | CG iter. 22 -- res = 0.33944E+03, tol = 0.70703E+01, time = 5.17 | CG iter. 23 -- res = 0.28583E+03, tol = 0.70703E+01, time = 5.50 | CG iter. 24 -- res = 0.25437E+03, tol = 0.70703E+01, time = 5.13 | CG iter. 25 -- res = 0.19925E+03, tol = 0.70703E+01, time = 5.54 | CG iter. 26 -- res = 0.14734E+03, tol = 0.70703E+01, time = 5.52 | CG iter. 27 -- res = 0.12191E+03, tol = 0.70703E+01, time = 12.03 | CG iter. 28 -- res = 0.11090E+03, tol = 0.70703E+01, time = 5.11 | CG iter. 29 -- res = 0.90472E+02, tol = 0.70703E+01, time = 5.19 | CG iter. 30 -- res = 0.72347E+02, tol = 0.70703E+01, time = 5.26 | CG iter. 31 -- res = 0.61099E+02, tol = 0.70703E+01, time = 5.56 | CG iter. 32 -- res = 0.53433E+02, tol = 0.70703E+01, time = 5.00 | CG iter. 33 -- res = 0.43803E+02, tol = 0.70703E+01, time = 5.31 | CG iter. 34 -- res = 0.32740E+02, tol = 0.70703E+01, time = 5.54 | CG iter. 35 -- res = 0.25831E+02, tol = 0.70703E+01, time = 5.18 | CG iter. 36 -- res = 0.22261E+02, tol = 0.70703E+01, time = 5.32 | CG iter. 37 -- res = 0.19051E+02, tol = 0.70703E+01, time = 5.44 | CG iter. 38 -- res = 0.15139E+02, tol = 0.70703E+01, time = 5.28 | CG iter. 39 -- res = 0.11170E+02, tol = 0.70703E+01, time = 5.29 | CG iter. 40 -- res = 0.93783E+01, tol = 0.70703E+01, time = 5.20 | CG iter. 41 -- res = 0.75731E+01, tol = 0.70703E+01, time = 5.29 | CG iter. 42 -- res = 0.59398E+01, tol = 0.70703E+01, time = 5.27 | CG iter. 43 -- res = 0.44525E+01, tol = 0.70703E+01, time = 6.46 | CG iter. 44 -- res = 0.34873E+01, tol = 0.70703E+01, time = 5.99 | CG iter. 45 -- res = 0.28185E+01, tol = 0.70703E+01, time = 5.84 | CG iter. 46 -- res = 0.22883E+01, tol = 0.70703E+01, time = 5.21 | CG iter. 47 -- res = 0.16803E+01, tol = 0.70703E+01, time = 5.05 | CG iter. 48 -- res = 0.12657E+01, tol = 0.70703E+01, time = 5.32 | CG iter. 49 -- res = 0.10155E+01, tol = 0.70703E+01, time = 5.26 | CG iter. 50 -- res = 0.82898E+00, tol = 0.70703E+01, time = 5.20 | Final CG iter 51 -- res = 0.82898E+00, tol = 0.70703E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9156297.121 | Old band monopole 10131776.750 | Change to band monopole -975479.629 | Change to component monopole 975475.433 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.98203E+05, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.53544E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.24370E+01, tol = 0.47627E+18, time = 1.73 | CG iter. 4 -- res = 0.38152E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.14174E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9156257.738 | (Sampled value in CG: 9181022.003 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.525774 | New value = 1.500189 | poltype: 2 pol: 1 CPU time specind = 8.4269047E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498856 | New value = 1.487960 | poltype: 2 pol: 2 CPU time specind = 4.7340393E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.24141E+08, tol = 0.47538E+04, time = 6.07 | CG iter. 2 -- res = 0.53115E+07, tol = 0.47538E+04, time = 5.80 | CG iter. 3 -- res = 0.84950E+06, tol = 0.47538E+04, time = 6.54 | CG iter. 4 -- res = 0.34721E+06, tol = 0.47538E+04, time = 5.88 | CG iter. 5 -- res = 0.14996E+06, tol = 0.47538E+04, time = 6.23 | CG iter. 6 -- res = 0.79817E+05, tol = 0.47538E+04, time = 6.11 | CG iter. 7 -- res = 0.44056E+05, tol = 0.47538E+04, time = 5.99 | CG iter. 8 -- res = 0.21716E+05, tol = 0.47538E+04, time = 6.35 | CG iter. 9 -- res = 0.94562E+04, tol = 0.47538E+04, time = 5.86 | CG iter. 10 -- res = 0.37762E+04, tol = 0.47538E+04, time = 12.32 | CG iter. 11 -- res = 0.16858E+04, tol = 0.47538E+04, time = 6.08 | CG iter. 12 -- res = 0.86150E+03, tol = 0.47538E+04, time = 6.34 | CG iter. 13 -- res = 0.48184E+03, tol = 0.47538E+04, time = 5.73 | CG iter. 14 -- res = 0.27209E+03, tol = 0.47538E+04, time = 6.29 | CG iter. 15 -- res = 0.14191E+03, tol = 0.47538E+04, time = 5.90 | CG iter. 16 -- res = 0.67776E+02, tol = 0.47538E+04, time = 5.97 | CG iter. 17 -- res = 0.31607E+02, tol = 0.47538E+04, time = 6.02 | CG iter. 18 -- res = 0.15885E+02, tol = 0.47538E+04, time = 5.92 | CG iter. 19 -- res = 0.85060E+01, tol = 0.47538E+04, time = 6.15 | CG iter. 20 -- res = 0.48226E+01, tol = 0.47538E+04, time = 5.83 | CG iter. 21 -- res = 0.26318E+01, tol = 0.47538E+04, time = 6.17 | CG iter. 22 -- res = 0.13450E+01, tol = 0.47538E+04, time = 6.24 | CG iter. 23 -- res = 0.67664E+00, tol = 0.47538E+04, time = 6.51 | CG iter. 24 -- res = 0.35296E+00, tol = 0.47538E+04, time = 7.21 | CG iter. 25 -- res = 0.19266E+00, tol = 0.47538E+04, time = 6.62 | CG iter. 26 -- res = 0.10700E+00, tol = 0.47538E+04, time = 6.25 | CG iter. 27 -- res = 0.59488E-01, tol = 0.47538E+04, time = 5.96 | CG iter. 28 -- res = 0.31737E-01, tol = 0.47538E+04, time = 6.09 | CG iter. 29 -- res = 0.16209E-01, tol = 0.47538E+04, time = 6.07 | CG iter. 30 -- res = 0.86546E-02, tol = 0.47538E+04, time = 5.86 | CG iter. 31 -- res = 0.47546E-02, tol = 0.47538E+04, time = 5.92 | CG iter. 32 -- res = 0.27225E-02, tol = 0.47538E+04, time = 6.37 | CG iter. 33 -- res = 0.15613E-02, tol = 0.47538E+04, time = 5.87 | CG iter. 34 -- res = 0.84843E-03, tol = 0.47538E+04, time = 5.97 | CG iter. 35 -- res = 0.43990E-03, tol = 0.47538E+04, time = 6.20 | Final CG iter 36 -- res = 0.43990E-03, tol = 0.47538E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.770 2.750 | New value 4.413 | Old value -1.770 | Difference 6.183 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.19754E+07, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.27127E+02, tol = 0.47627E+18, time = 1.77 | CG iter. 3 -- res = 0.73614E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.11625E-02, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.25377E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9156257.738 | (Sampled value in CG: 9180531.642 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.731293 | New value = -3.543942 | poltype: 1 pol: 1 CPU time specind = 1.9207001E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.25179E+07, tol = 0.23318E+01, time = 2.68 | CG iter. 2 -- res = 0.83877E+06, tol = 0.23318E+01, time = 2.61 | CG iter. 3 -- res = 0.17709E+06, tol = 0.23318E+01, time = 2.48 | CG iter. 4 -- res = 0.79347E+05, tol = 0.23318E+01, time = 2.48 | CG iter. 5 -- res = 0.45842E+05, tol = 0.23318E+01, time = 2.28 | CG iter. 6 -- res = 0.21946E+05, tol = 0.23318E+01, time = 2.47 | CG iter. 7 -- res = 0.83350E+04, tol = 0.23318E+01, time = 2.52 | CG iter. 8 -- res = 0.39138E+04, tol = 0.23318E+01, time = 2.31 | CG iter. 9 -- res = 0.18022E+04, tol = 0.23318E+01, time = 2.40 | CG iter. 10 -- res = 0.71375E+03, tol = 0.23318E+01, time = 2.54 | CG iter. 11 -- res = 0.28455E+03, tol = 0.23318E+01, time = 2.60 | CG iter. 12 -- res = 0.13667E+03, tol = 0.23318E+01, time = 2.72 | CG iter. 13 -- res = 0.68834E+02, tol = 0.23318E+01, time = 2.53 | CG iter. 14 -- res = 0.36219E+02, tol = 0.23318E+01, time = 2.36 | CG iter. 15 -- res = 0.18061E+02, tol = 0.23318E+01, time = 2.49 | CG iter. 16 -- res = 0.81081E+01, tol = 0.23318E+01, time = 2.44 | CG iter. 17 -- res = 0.32985E+01, tol = 0.23318E+01, time = 2.37 | CG iter. 18 -- res = 0.14277E+01, tol = 0.23318E+01, time = 2.55 | CG iter. 19 -- res = 0.67154E+00, tol = 0.23318E+01, time = 2.64 | CG iter. 20 -- res = 0.34925E+00, tol = 0.23318E+01, time = 2.55 | CG iter. 21 -- res = 0.18375E+00, tol = 0.23318E+01, time = 2.41 | CG iter. 22 -- res = 0.86002E-01, tol = 0.23318E+01, time = 2.45 | CG iter. 23 -- res = 0.38961E-01, tol = 0.23318E+01, time = 2.48 | CG iter. 24 -- res = 0.17564E-01, tol = 0.23318E+01, time = 2.37 | CG iter. 25 -- res = 0.84985E-02, tol = 0.23318E+01, time = 2.67 | CG iter. 26 -- res = 0.42055E-02, tol = 0.23318E+01, time = 2.39 | CG iter. 27 -- res = 0.21727E-02, tol = 0.23318E+01, time = 2.68 | CG iter. 28 -- res = 0.10637E-02, tol = 0.23318E+01, time = 3.20 | CG iter. 29 -- res = 0.49666E-03, tol = 0.23318E+01, time = 2.40 | CG iter. 30 -- res = 0.22551E-03, tol = 0.23318E+01, time = 2.44 | CG iter. 31 -- res = 0.10793E-03, tol = 0.23318E+01, time = 2.73 | CG iter. 32 -- res = 0.52094E-04, tol = 0.23318E+01, time = 2.40 | CG iter. 33 -- res = 0.25817E-04, tol = 0.23318E+01, time = 2.40 | CG iter. 34 -- res = 0.12990E-04, tol = 0.23318E+01, time = 2.40 | CG iter. 35 -- res = 0.62622E-05, tol = 0.23318E+01, time = 2.80 | CG iter. 36 -- res = 0.28996E-05, tol = 0.23318E+01, time = 2.29 | CG iter. 37 -- res = 0.13216E-05, tol = 0.23318E+01, time = 2.45 | CG iter. 38 -- res = 0.63398E-06, tol = 0.23318E+01, time = 2.54 | CG iter. 39 -- res = 0.31743E-06, tol = 0.23318E+01, time = 2.76 | CG iter. 40 -- res = 0.15563E-06, tol = 0.23318E+01, time = 2.38 | CG iter. 41 -- res = 0.77658E-07, tol = 0.23318E+01, time = 2.37 | CG iter. 42 -- res = 0.37017E-07, tol = 0.23318E+01, time = 2.67 | CG iter. 43 -- res = 0.16768E-07, tol = 0.23318E+01, time = 2.62 | CG iter. 44 -- res = 0.74755E-08, tol = 0.23318E+01, time = 2.60 | CG iter. 45 -- res = 0.37781E-08, tol = 0.23318E+01, time = 2.47 | CG iter. 46 -- res = 0.19242E-08, tol = 0.23318E+01, time = 2.24 | CG iter. 47 -- res = 0.93329E-09, tol = 0.23318E+01, time = 2.71 | CG iter. 48 -- res = 0.45684E-09, tol = 0.23318E+01, time = 2.40 | CG iter. 49 -- res = 0.21235E-09, tol = 0.23318E+01, time = 2.74 | CG iter. 50 -- res = 0.94935E-10, tol = 0.23318E+01, time = 2.47 | Final CG iter 51 -- res = 0.94935E-10, tol = 0.23318E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.292 3.679 | New value -3.825 | Old value 7.292 | Difference -11.117 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.12300E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.49804E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.22074E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.27735E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.24009E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9156257.738 | (Sampled value in CG: 9176867.348 ) | CPU time specind = 1100.544 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.68832E+08, tol = 0.57659E+04, time = 10.85 | CG iter. 2 -- res = 0.59090E+08, tol = 0.57659E+04, time = 10.84 | CG iter. 3 -- res = 0.15736E+08, tol = 0.57659E+04, time = 10.89 | CG iter. 4 -- res = 0.65643E+07, tol = 0.57659E+04, time = 10.65 | CG iter. 5 -- res = 0.38060E+07, tol = 0.57659E+04, time = 12.78 | CG iter. 6 -- res = 0.22109E+07, tol = 0.57659E+04, time = 11.27 | CG iter. 7 -- res = 0.13136E+07, tol = 0.57659E+04, time = 11.02 | CG iter. 8 -- res = 0.85002E+06, tol = 0.57659E+04, time = 11.20 | CG iter. 9 -- res = 0.54365E+06, tol = 0.57659E+04, time = 10.90 | CG iter. 10 -- res = 0.32064E+06, tol = 0.57659E+04, time = 10.89 | CG iter. 11 -- res = 0.17232E+06, tol = 0.57659E+04, time = 11.31 | CG iter. 12 -- res = 0.92746E+05, tol = 0.57659E+04, time = 10.76 | CG iter. 13 -- res = 0.50202E+05, tol = 0.57659E+04, time = 11.06 | CG iter. 14 -- res = 0.29580E+05, tol = 0.57659E+04, time = 10.74 | CG iter. 15 -- res = 0.19418E+05, tol = 0.57659E+04, time = 11.05 | CG iter. 16 -- res = 0.13755E+05, tol = 0.57659E+04, time = 11.13 | CG iter. 17 -- res = 0.10185E+05, tol = 0.57659E+04, time = 11.02 | CG iter. 18 -- res = 0.75402E+04, tol = 0.57659E+04, time = 11.23 | CG iter. 19 -- res = 0.53342E+04, tol = 0.57659E+04, time = 11.01 | CG iter. 20 -- res = 0.38755E+04, tol = 0.57659E+04, time = 11.17 | CG iter. 21 -- res = 0.29888E+04, tol = 0.57659E+04, time = 10.98 | CG iter. 22 -- res = 0.26193E+04, tol = 0.57659E+04, time = 11.28 | CG iter. 23 -- res = 0.25761E+04, tol = 0.57659E+04, time = 16.98 | CG iter. 24 -- res = 0.27900E+04, tol = 0.57659E+04, time = 12.01 | CG iter. 25 -- res = 0.29754E+04, tol = 0.57659E+04, time = 11.12 | CG iter. 26 -- res = 0.29167E+04, tol = 0.57659E+04, time = 11.04 | CG iter. 27 -- res = 0.26291E+04, tol = 0.57659E+04, time = 10.85 | CG iter. 28 -- res = 0.22299E+04, tol = 0.57659E+04, time = 11.02 | CG iter. 29 -- res = 0.18456E+04, tol = 0.57659E+04, time = 11.23 | CG iter. 30 -- res = 0.15438E+04, tol = 0.57659E+04, time = 11.06 | CG iter. 31 -- res = 0.13248E+04, tol = 0.57659E+04, time = 12.89 | CG iter. 32 -- res = 0.11025E+04, tol = 0.57659E+04, time = 11.22 | CG iter. 33 -- res = 0.87913E+03, tol = 0.57659E+04, time = 11.25 | CG iter. 34 -- res = 0.68775E+03, tol = 0.57659E+04, time = 11.10 | CG iter. 35 -- res = 0.52797E+03, tol = 0.57659E+04, time = 10.83 | CG iter. 36 -- res = 0.42298E+03, tol = 0.57659E+04, time = 11.00 | CG iter. 37 -- res = 0.37080E+03, tol = 0.57659E+04, time = 10.93 | CG iter. 38 -- res = 0.34771E+03, tol = 0.57659E+04, time = 11.57 | CG iter. 39 -- res = 0.33650E+03, tol = 0.57659E+04, time = 10.99 | CG iter. 40 -- res = 0.30543E+03, tol = 0.57659E+04, time = 10.86 | CG iter. 41 -- res = 0.26032E+03, tol = 0.57659E+04, time = 11.79 | CG iter. 42 -- res = 0.22135E+03, tol = 0.57659E+04, time = 10.94 | CG iter. 43 -- res = 0.18693E+03, tol = 0.57659E+04, time = 11.11 | CG iter. 44 -- res = 0.16337E+03, tol = 0.57659E+04, time = 11.16 | CG iter. 45 -- res = 0.14706E+03, tol = 0.57659E+04, time = 10.96 | CG iter. 46 -- res = 0.13329E+03, tol = 0.57659E+04, time = 10.91 | CG iter. 47 -- res = 0.11483E+03, tol = 0.57659E+04, time = 11.30 | CG iter. 48 -- res = 0.95726E+02, tol = 0.57659E+04, time = 10.64 | CG iter. 49 -- res = 0.77799E+02, tol = 0.57659E+04, time = 11.20 | CG iter. 50 -- res = 0.63853E+02, tol = 0.57659E+04, time = 17.16 | CG iter. 51 -- res = 0.56887E+02, tol = 0.57659E+04, time = 11.22 | CG iter. 52 -- res = 0.52336E+02, tol = 0.57659E+04, time = 10.69 | CG iter. 53 -- res = 0.49916E+02, tol = 0.57659E+04, time = 11.13 | CG iter. 54 -- res = 0.47459E+02, tol = 0.57659E+04, time = 11.43 | CG iter. 55 -- res = 0.43970E+02, tol = 0.57659E+04, time = 10.97 | CG iter. 56 -- res = 0.38980E+02, tol = 0.57659E+04, time = 10.74 | CG iter. 57 -- res = 0.33730E+02, tol = 0.57659E+04, time = 11.36 | CG iter. 58 -- res = 0.30216E+02, tol = 0.57659E+04, time = 12.22 | CG iter. 59 -- res = 0.28511E+02, tol = 0.57659E+04, time = 11.05 | CG iter. 60 -- res = 0.27118E+02, tol = 0.57659E+04, time = 10.90 | Final CG iter 61 -- res = 0.27118E+02, tol = 0.57659E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.779 ( -229.544 -2229.787 2512.170 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9816785.469 | Old band monopole 9156297.121 | Change to band monopole 660488.348 | Change to component monopole -660485.507 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.459 2.785 | New value 3.773 | Old value 4.459 | Difference -0.686 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.374 ( 6.488 9.898 -9.517 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.953 4.699 | New value 2.406 | Old value -2.953 | Difference 5.360 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.79242E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.34205E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.14583E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.29610E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.90507E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9816743.245 | (Sampled value in CG: 9794005.981 ) | Chain = 1 -- chisq = 0.81544169E+09 | Chain = 1 -- wall time = 5491.313 sec Available RAM: MemAvailable: 375267520 kB Available Swap: SwapFree: 1119911908 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 220 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444603 | --> Sampling calibration, mode = relcal | relcal = 1.3434418E-02 7.4102217E-04 -1.5934728E-03 -1.2581967E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1153312 0.1287147 9410862.45078905 | BP delta = 0.1153312 0.1304169 9410905.36733249 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632393 | --> Sampling calibration, mode = relcal | relcal = -2.8209647E-03 -7.0382777E-04 1.6785717E-03 1.6141505E-03 -4.0895687E-04 6.4102712E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5723184 15216083.7728206 | BP delta = 0.0000000E+00 -0.5736951 15216082.6830839 | BP chisq diff = -1.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18110617721608 | --> Sampling calibration, mode = relcal | relcal = -7.4642487E-02 -5.8239538E-02 9.1492742E-02 4.1389290E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0743952E-04 3.7929474E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8047E-05 | 2: delta_r/delta_0: 7.7460E-07 | 3: delta_s/delta_0: 2.5134E-07 | 4: delta_r/delta_0: 1.1349E-08 | 5: delta_s/delta_0: 3.4680E-09 | 6: delta_r/delta_0: 6.7996E-10 | 7: delta_s/delta_0: 9.3741E-10 | 8: delta_r/delta_0: 1.2343E-10 | 9: delta_s/delta_0: 3.1336E-10 | 10: delta_r/delta_0: 1.5735E-10 | 11: delta_s/delta_0: 2.0425E-08 | 12: delta_r/delta_0: 3.6449E-10 | 13: delta_s/delta_0: 2.5076E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.928790486857630E-004 2.740899256503521E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8046E-05 | 2: delta_r/delta_0: 7.7458E-07 | 3: delta_s/delta_0: 2.5134E-07 | 4: delta_r/delta_0: 1.1350E-08 | 5: delta_s/delta_0: 3.4682E-09 | 6: delta_r/delta_0: 6.7999E-10 | 7: delta_s/delta_0: 9.3848E-10 | 8: delta_r/delta_0: 1.2340E-10 | 9: delta_s/delta_0: 3.1353E-10 | 10: delta_r/delta_0: 1.5743E-10 | 11: delta_s/delta_0: 2.0334E-08 | 12: delta_r/delta_0: 3.6319E-10 | 13: delta_s/delta_0: 2.5116E-11 | Reached bicg-stab tolerance | BP delta = 4.8612975E-02 6.5872334E-02 3635666.71132062 | BP delta = 4.8612975E-02 6.5991431E-02 3633461.50405759 | BP chisq diff = -2205.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583461 | --> Sampling calibration, mode = relcal | relcal = -0.1066462 -9.5455043E-02 0.1448772 5.7223976E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9112471E-03 1.2766123E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8807E-05 | 2: delta_r/delta_0: 1.6478E-06 | 3: delta_s/delta_0: 2.3237E-07 | 4: delta_r/delta_0: 5.2335E-08 | 5: delta_s/delta_0: 2.5713E-08 | 6: delta_r/delta_0: 7.7018E-09 | 7: delta_s/delta_0: 7.4694E-09 | 8: delta_r/delta_0: 1.6697E-09 | 9: delta_s/delta_0: 7.8839E-10 | 10: delta_r/delta_0: 5.8648E-10 | 11: delta_s/delta_0: 5.0740E-10 | 12: delta_r/delta_0: 1.1996E-10 | 13: delta_s/delta_0: 8.3492E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006919944422666E-002 2.811251207262765E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8808E-05 | 2: delta_r/delta_0: 1.6479E-06 | 3: delta_s/delta_0: 2.3240E-07 | 4: delta_r/delta_0: 5.2367E-08 | 5: delta_s/delta_0: 2.5681E-08 | 6: delta_r/delta_0: 7.7030E-09 | 7: delta_s/delta_0: 7.4649E-09 | 8: delta_r/delta_0: 1.6701E-09 | 9: delta_s/delta_0: 7.8862E-10 | 10: delta_r/delta_0: 5.8662E-10 | 11: delta_s/delta_0: 5.0768E-10 | 12: delta_r/delta_0: 1.1999E-10 | 13: delta_s/delta_0: 8.3550E-11 | Reached bicg-stab tolerance | BP delta = -0.2660697 -0.2450201 2841592.24069710 | BP delta = -0.2660697 -0.2453873 2841600.05958539 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224790 | --> Sampling calibration, mode = relcal | relcal = 0.2955168 0.2248278 -0.2837688 -0.2365759 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.7187264E-04 5.4546734E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5309E-03 | 2: delta_r/delta_0: 8.4007E-05 | 3: delta_s/delta_0: 1.2374E-04 | 4: delta_r/delta_0: 6.4630E-06 | 5: delta_s/delta_0: 7.4252E-07 | 6: delta_r/delta_0: 2.6391E-07 | 7: delta_s/delta_0: 6.8945E-07 | 8: delta_r/delta_0: 5.6332E-08 | 9: delta_s/delta_0: 9.1257E-05 | 10: delta_r/delta_0: 3.3713E-05 | 11: delta_s/delta_0: 3.1891E-09 | 12: delta_r/delta_0: 1.2077E-09 | 13: delta_s/delta_0: 2.4900E-08 | 14: delta_r/delta_0: 2.0060E-09 | 15: delta_s/delta_0: 8.6474E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.970586986078127E-002 4.021655930430845E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5334E-03 | 2: delta_r/delta_0: 8.4067E-05 | 3: delta_s/delta_0: 1.2381E-04 | 4: delta_r/delta_0: 6.4665E-06 | 5: delta_s/delta_0: 7.4275E-07 | 6: delta_r/delta_0: 2.6393E-07 | 7: delta_s/delta_0: 6.8883E-07 | 8: delta_r/delta_0: 5.6342E-08 | 9: delta_s/delta_0: 9.4347E-05 | 10: delta_r/delta_0: 3.4826E-05 | 11: delta_s/delta_0: 3.1895E-09 | 12: delta_r/delta_0: 1.2078E-09 | 13: delta_s/delta_0: 2.4877E-08 | 14: delta_r/delta_0: 2.0037E-09 | 15: delta_s/delta_0: 8.6478E-11 | Reached bicg-stab tolerance | BP delta = -0.1828745 -0.1963399 2827184.87461432 | BP delta = -0.1828745 -0.1962066 2827203.73536960 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95911989 | --> Sampling calibration, mode = relcal | relcal = 0.1064960 0.1394202 -0.1102737 -0.1356424 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0115002E-02 1.2736094E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7351E-04 | 2: delta_r/delta_0: 4.6284E-06 | 3: delta_s/delta_0: 6.6647E-06 | 4: delta_r/delta_0: 9.6512E-07 | 5: delta_s/delta_0: 1.7000E-07 | 6: delta_r/delta_0: 1.0278E-07 | 7: delta_s/delta_0: 4.6082E-07 | 8: delta_r/delta_0: 2.4922E-08 | 9: delta_s/delta_0: 5.5084E-08 | 10: delta_r/delta_0: 2.2865E-08 | 11: delta_s/delta_0: 1.0284E-09 | 12: delta_r/delta_0: 7.4602E-10 | 13: delta_s/delta_0: 8.7819E-10 | 14: delta_r/delta_0: 1.0189E-10 | 15: delta_s/delta_0: 1.0218E-10 | 16: delta_r/delta_0: 5.4418E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.905082097151859E-002 3.697292424520012E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7351E-04 | 2: delta_r/delta_0: 4.6284E-06 | 3: delta_s/delta_0: 6.6646E-06 | 4: delta_r/delta_0: 9.6511E-07 | 5: delta_s/delta_0: 1.7000E-07 | 6: delta_r/delta_0: 1.0278E-07 | 7: delta_s/delta_0: 4.6080E-07 | 8: delta_r/delta_0: 2.4922E-08 | 9: delta_s/delta_0: 5.5103E-08 | 10: delta_r/delta_0: 2.2870E-08 | 11: delta_s/delta_0: 1.0285E-09 | 12: delta_r/delta_0: 7.4606E-10 | 13: delta_s/delta_0: 8.7643E-10 | 14: delta_r/delta_0: 1.0208E-10 | 15: delta_s/delta_0: 1.0261E-10 | 16: delta_r/delta_0: 5.5298E-11 | Reached bicg-stab tolerance | BP delta = 3.4009740E-02 0.1372290 3003766.61105283 | BP delta = 3.4009740E-02 0.1459776 3003770.49412058 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.128385 | New value = -3.115709 | poltype: 2 pol: 1 CPU time specind = 2.0339966E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133390 | New value = -3.156954 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152130 | New value = -3.074667 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131477 | New value = -3.222764 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164771 | New value = -3.160909 | poltype: 2 pol: 2 CPU time specind = 1.1390924E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.13556E+08, tol = 0.73521E+01, time = 5.27 | CG iter. 2 -- res = 0.36718E+06, tol = 0.73521E+01, time = 4.96 | CG iter. 3 -- res = 0.51584E+05, tol = 0.73521E+01, time = 5.41 | CG iter. 4 -- res = 0.22001E+05, tol = 0.73521E+01, time = 5.22 | CG iter. 5 -- res = 0.10677E+05, tol = 0.73521E+01, time = 4.98 | CG iter. 6 -- res = 0.54530E+04, tol = 0.73521E+01, time = 5.30 | CG iter. 7 -- res = 0.36128E+04, tol = 0.73521E+01, time = 5.44 | CG iter. 8 -- res = 0.24502E+04, tol = 0.73521E+01, time = 5.16 | CG iter. 9 -- res = 0.19084E+04, tol = 0.73521E+01, time = 5.35 | CG iter. 10 -- res = 0.19021E+04, tol = 0.73521E+01, time = 5.30 | CG iter. 11 -- res = 0.18615E+04, tol = 0.73521E+01, time = 5.16 | CG iter. 12 -- res = 0.14376E+04, tol = 0.73521E+01, time = 5.17 | CG iter. 13 -- res = 0.97810E+03, tol = 0.73521E+01, time = 5.26 | CG iter. 14 -- res = 0.71347E+03, tol = 0.73521E+01, time = 5.07 | CG iter. 15 -- res = 0.58512E+03, tol = 0.73521E+01, time = 5.24 | CG iter. 16 -- res = 0.48898E+03, tol = 0.73521E+01, time = 5.25 | CG iter. 17 -- res = 0.35723E+03, tol = 0.73521E+01, time = 5.20 | CG iter. 18 -- res = 0.25858E+03, tol = 0.73521E+01, time = 4.91 | CG iter. 19 -- res = 0.21263E+03, tol = 0.73521E+01, time = 5.27 | CG iter. 20 -- res = 0.17571E+03, tol = 0.73521E+01, time = 5.32 | CG iter. 21 -- res = 0.12646E+03, tol = 0.73521E+01, time = 5.12 | CG iter. 22 -- res = 0.90266E+02, tol = 0.73521E+01, time = 5.12 | CG iter. 23 -- res = 0.73325E+02, tol = 0.73521E+01, time = 5.50 | CG iter. 24 -- res = 0.64034E+02, tol = 0.73521E+01, time = 5.19 | CG iter. 25 -- res = 0.55667E+02, tol = 0.73521E+01, time = 5.04 | CG iter. 26 -- res = 0.42800E+02, tol = 0.73521E+01, time = 5.32 | CG iter. 27 -- res = 0.33748E+02, tol = 0.73521E+01, time = 5.38 | CG iter. 28 -- res = 0.28592E+02, tol = 0.73521E+01, time = 5.32 | CG iter. 29 -- res = 0.24320E+02, tol = 0.73521E+01, time = 5.19 | CG iter. 30 -- res = 0.18999E+02, tol = 0.73521E+01, time = 5.18 | CG iter. 31 -- res = 0.14583E+02, tol = 0.73521E+01, time = 5.40 | CG iter. 32 -- res = 0.12590E+02, tol = 0.73521E+01, time = 5.04 | CG iter. 33 -- res = 0.10615E+02, tol = 0.73521E+01, time = 5.12 | CG iter. 34 -- res = 0.84310E+01, tol = 0.73521E+01, time = 5.28 | CG iter. 35 -- res = 0.62776E+01, tol = 0.73521E+01, time = 5.22 | CG iter. 36 -- res = 0.51441E+01, tol = 0.73521E+01, time = 5.31 | CG iter. 37 -- res = 0.42981E+01, tol = 0.73521E+01, time = 10.47 | CG iter. 38 -- res = 0.34093E+01, tol = 0.73521E+01, time = 6.69 | CG iter. 39 -- res = 0.26337E+01, tol = 0.73521E+01, time = 5.02 | CG iter. 40 -- res = 0.20717E+01, tol = 0.73521E+01, time = 5.10 | CG iter. 41 -- res = 0.17129E+01, tol = 0.73521E+01, time = 5.37 | CG iter. 42 -- res = 0.13842E+01, tol = 0.73521E+01, time = 5.43 | CG iter. 43 -- res = 0.10710E+01, tol = 0.73521E+01, time = 5.23 | CG iter. 44 -- res = 0.81137E+00, tol = 0.73521E+01, time = 4.83 | CG iter. 45 -- res = 0.65455E+00, tol = 0.73521E+01, time = 5.32 | CG iter. 46 -- res = 0.53098E+00, tol = 0.73521E+01, time = 5.39 | CG iter. 47 -- res = 0.40896E+00, tol = 0.73521E+01, time = 5.08 | CG iter. 48 -- res = 0.30234E+00, tol = 0.73521E+01, time = 5.15 | CG iter. 49 -- res = 0.23513E+00, tol = 0.73521E+01, time = 5.46 | CG iter. 50 -- res = 0.18688E+00, tol = 0.73521E+01, time = 4.94 | Final CG iter 51 -- res = 0.18688E+00, tol = 0.73521E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8192446.883 | Old band monopole 9816785.469 | Change to band monopole -1624338.586 | Change to component monopole 1624331.599 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.43 | CG iter. 1 -- res = 0.10675E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.45431E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.20727E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.99731E-03, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.20936E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8192411.646 | (Sampled value in CG: 8203932.382 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.500189 | New value = 1.493160 | poltype: 2 pol: 1 CPU time specind = 9.1838837E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487960 | New value = 1.547028 | poltype: 2 pol: 2 CPU time specind = 4.7340393E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.24040E+08, tol = 0.47598E+04, time = 5.99 | CG iter. 2 -- res = 0.54465E+07, tol = 0.47598E+04, time = 5.75 | CG iter. 3 -- res = 0.84062E+06, tol = 0.47598E+04, time = 6.82 | CG iter. 4 -- res = 0.34860E+06, tol = 0.47598E+04, time = 5.70 | CG iter. 5 -- res = 0.15129E+06, tol = 0.47598E+04, time = 5.96 | CG iter. 6 -- res = 0.81602E+05, tol = 0.47598E+04, time = 6.06 | CG iter. 7 -- res = 0.44460E+05, tol = 0.47598E+04, time = 5.61 | CG iter. 8 -- res = 0.21129E+05, tol = 0.47598E+04, time = 5.94 | CG iter. 9 -- res = 0.90931E+04, tol = 0.47598E+04, time = 5.88 | CG iter. 10 -- res = 0.36418E+04, tol = 0.47598E+04, time = 5.78 | CG iter. 11 -- res = 0.16754E+04, tol = 0.47598E+04, time = 6.40 | CG iter. 12 -- res = 0.84834E+03, tol = 0.47598E+04, time = 6.02 | CG iter. 13 -- res = 0.48245E+03, tol = 0.47598E+04, time = 5.99 | CG iter. 14 -- res = 0.27804E+03, tol = 0.47598E+04, time = 6.10 | CG iter. 15 -- res = 0.14337E+03, tol = 0.47598E+04, time = 5.64 | CG iter. 16 -- res = 0.68129E+02, tol = 0.47598E+04, time = 5.79 | CG iter. 17 -- res = 0.32334E+02, tol = 0.47598E+04, time = 6.15 | CG iter. 18 -- res = 0.16057E+02, tol = 0.47598E+04, time = 5.53 | CG iter. 19 -- res = 0.87695E+01, tol = 0.47598E+04, time = 6.20 | CG iter. 20 -- res = 0.50802E+01, tol = 0.47598E+04, time = 12.34 | CG iter. 21 -- res = 0.27512E+01, tol = 0.47598E+04, time = 6.08 | CG iter. 22 -- res = 0.13824E+01, tol = 0.47598E+04, time = 5.88 | CG iter. 23 -- res = 0.68424E+00, tol = 0.47598E+04, time = 5.98 | CG iter. 24 -- res = 0.34759E+00, tol = 0.47598E+04, time = 6.34 | CG iter. 25 -- res = 0.19335E+00, tol = 0.47598E+04, time = 5.94 | CG iter. 26 -- res = 0.11078E+00, tol = 0.47598E+04, time = 5.83 | CG iter. 27 -- res = 0.62418E-01, tol = 0.47598E+04, time = 6.11 | CG iter. 28 -- res = 0.33959E-01, tol = 0.47598E+04, time = 5.92 | CG iter. 29 -- res = 0.17889E-01, tol = 0.47598E+04, time = 5.67 | CG iter. 30 -- res = 0.94290E-02, tol = 0.47598E+04, time = 5.95 | CG iter. 31 -- res = 0.50784E-02, tol = 0.47598E+04, time = 5.95 | CG iter. 32 -- res = 0.28643E-02, tol = 0.47598E+04, time = 6.05 | CG iter. 33 -- res = 0.16438E-02, tol = 0.47598E+04, time = 6.06 | CG iter. 34 -- res = 0.90673E-03, tol = 0.47598E+04, time = 7.13 | CG iter. 35 -- res = 0.47731E-03, tol = 0.47598E+04, time = 6.51 | Final CG iter 36 -- res = 0.47731E-03, tol = 0.47598E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.736 2.754 | New value -2.061 | Old value 3.736 | Difference -5.796 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.17433E+07, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.15760E+02, tol = 0.47627E+18, time = 1.54 | CG iter. 3 -- res = 0.15619E+00, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.17156E-03, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.18519E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8192411.646 | (Sampled value in CG: 8203520.545 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.543942 | New value = -3.498037 | poltype: 1 pol: 1 CPU time specind = 1.1938095E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.20627E+07, tol = 0.25889E+01, time = 2.41 | CG iter. 2 -- res = 0.80360E+06, tol = 0.25889E+01, time = 2.64 | CG iter. 3 -- res = 0.14481E+06, tol = 0.25889E+01, time = 2.52 | CG iter. 4 -- res = 0.51891E+05, tol = 0.25889E+01, time = 2.51 | CG iter. 5 -- res = 0.26912E+05, tol = 0.25889E+01, time = 2.73 | CG iter. 6 -- res = 0.14813E+05, tol = 0.25889E+01, time = 2.21 | CG iter. 7 -- res = 0.66997E+04, tol = 0.25889E+01, time = 2.86 | CG iter. 8 -- res = 0.32173E+04, tol = 0.25889E+01, time = 2.47 | CG iter. 9 -- res = 0.13913E+04, tol = 0.25889E+01, time = 2.50 | CG iter. 10 -- res = 0.54129E+03, tol = 0.25889E+01, time = 2.47 | CG iter. 11 -- res = 0.21785E+03, tol = 0.25889E+01, time = 3.63 | CG iter. 12 -- res = 0.10495E+03, tol = 0.25889E+01, time = 2.93 | CG iter. 13 -- res = 0.54095E+02, tol = 0.25889E+01, time = 2.95 | CG iter. 14 -- res = 0.27539E+02, tol = 0.25889E+01, time = 2.79 | CG iter. 15 -- res = 0.13187E+02, tol = 0.25889E+01, time = 2.66 | CG iter. 16 -- res = 0.60068E+01, tol = 0.25889E+01, time = 2.72 | CG iter. 17 -- res = 0.25890E+01, tol = 0.25889E+01, time = 2.71 | CG iter. 18 -- res = 0.11176E+01, tol = 0.25889E+01, time = 2.63 | CG iter. 19 -- res = 0.52418E+00, tol = 0.25889E+01, time = 2.51 | CG iter. 20 -- res = 0.26395E+00, tol = 0.25889E+01, time = 2.51 | CG iter. 21 -- res = 0.14083E+00, tol = 0.25889E+01, time = 2.40 | CG iter. 22 -- res = 0.66353E-01, tol = 0.25889E+01, time = 2.50 | CG iter. 23 -- res = 0.31557E-01, tol = 0.25889E+01, time = 2.41 | CG iter. 24 -- res = 0.13927E-01, tol = 0.25889E+01, time = 2.46 | CG iter. 25 -- res = 0.66917E-02, tol = 0.25889E+01, time = 2.17 | CG iter. 26 -- res = 0.31772E-02, tol = 0.25889E+01, time = 2.67 | CG iter. 27 -- res = 0.16078E-02, tol = 0.25889E+01, time = 2.45 | CG iter. 28 -- res = 0.82820E-03, tol = 0.25889E+01, time = 2.33 | CG iter. 29 -- res = 0.39568E-03, tol = 0.25889E+01, time = 2.25 | CG iter. 30 -- res = 0.18336E-03, tol = 0.25889E+01, time = 2.61 | CG iter. 31 -- res = 0.85319E-04, tol = 0.25889E+01, time = 2.34 | CG iter. 32 -- res = 0.40916E-04, tol = 0.25889E+01, time = 2.58 | CG iter. 33 -- res = 0.19349E-04, tol = 0.25889E+01, time = 2.67 | CG iter. 34 -- res = 0.98624E-05, tol = 0.25889E+01, time = 2.50 | CG iter. 35 -- res = 0.49749E-05, tol = 0.25889E+01, time = 2.29 | CG iter. 36 -- res = 0.23950E-05, tol = 0.25889E+01, time = 2.40 | CG iter. 37 -- res = 0.10871E-05, tol = 0.25889E+01, time = 2.27 | CG iter. 38 -- res = 0.52289E-06, tol = 0.25889E+01, time = 2.24 | CG iter. 39 -- res = 0.25048E-06, tol = 0.25889E+01, time = 2.65 | CG iter. 40 -- res = 0.12482E-06, tol = 0.25889E+01, time = 2.52 | CG iter. 41 -- res = 0.65991E-07, tol = 0.25889E+01, time = 2.59 | CG iter. 42 -- res = 0.31869E-07, tol = 0.25889E+01, time = 2.45 | CG iter. 43 -- res = 0.14502E-07, tol = 0.25889E+01, time = 2.45 | CG iter. 44 -- res = 0.66271E-08, tol = 0.25889E+01, time = 2.57 | CG iter. 45 -- res = 0.30995E-08, tol = 0.25889E+01, time = 2.37 | CG iter. 46 -- res = 0.15286E-08, tol = 0.25889E+01, time = 2.40 | CG iter. 47 -- res = 0.81274E-09, tol = 0.25889E+01, time = 2.57 | CG iter. 48 -- res = 0.40272E-09, tol = 0.25889E+01, time = 2.48 | CG iter. 49 -- res = 0.18496E-09, tol = 0.25889E+01, time = 2.27 | CG iter. 50 -- res = 0.86858E-10, tol = 0.25889E+01, time = 2.19 | Final CG iter 51 -- res = 0.86858E-10, tol = 0.25889E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.785 4.443 | New value 3.157 | Old value 3.785 | Difference -0.628 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.69925E+03, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.11193E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.11694E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.65043E-04, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.97643E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8192411.646 | (Sampled value in CG: 8203283.096 ) | CPU time specind = 1084.805 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.68211E+08, tol = 0.57553E+04, time = 10.68 | CG iter. 2 -- res = 0.58831E+08, tol = 0.57553E+04, time = 11.04 | CG iter. 3 -- res = 0.15412E+08, tol = 0.57553E+04, time = 17.25 | CG iter. 4 -- res = 0.63546E+07, tol = 0.57553E+04, time = 11.23 | CG iter. 5 -- res = 0.36868E+07, tol = 0.57553E+04, time = 10.87 | CG iter. 6 -- res = 0.21193E+07, tol = 0.57553E+04, time = 10.63 | CG iter. 7 -- res = 0.12919E+07, tol = 0.57553E+04, time = 11.03 | CG iter. 8 -- res = 0.86661E+06, tol = 0.57553E+04, time = 10.78 | CG iter. 9 -- res = 0.55543E+06, tol = 0.57553E+04, time = 10.94 | CG iter. 10 -- res = 0.32642E+06, tol = 0.57553E+04, time = 10.65 | CG iter. 11 -- res = 0.17719E+06, tol = 0.57553E+04, time = 12.46 | CG iter. 12 -- res = 0.94460E+05, tol = 0.57553E+04, time = 10.88 | CG iter. 13 -- res = 0.49885E+05, tol = 0.57553E+04, time = 10.73 | CG iter. 14 -- res = 0.28271E+05, tol = 0.57553E+04, time = 11.07 | CG iter. 15 -- res = 0.17769E+05, tol = 0.57553E+04, time = 10.88 | CG iter. 16 -- res = 0.12051E+05, tol = 0.57553E+04, time = 10.32 | CG iter. 17 -- res = 0.82821E+04, tol = 0.57553E+04, time = 10.99 | CG iter. 18 -- res = 0.55425E+04, tol = 0.57553E+04, time = 10.79 | CG iter. 19 -- res = 0.35596E+04, tol = 0.57553E+04, time = 10.60 | CG iter. 20 -- res = 0.22947E+04, tol = 0.57553E+04, time = 11.07 | CG iter. 21 -- res = 0.15357E+04, tol = 0.57553E+04, time = 10.71 | CG iter. 22 -- res = 0.11455E+04, tol = 0.57553E+04, time = 10.52 | CG iter. 23 -- res = 0.95154E+03, tol = 0.57553E+04, time = 10.75 | CG iter. 24 -- res = 0.90148E+03, tol = 0.57553E+04, time = 11.38 | CG iter. 25 -- res = 0.90622E+03, tol = 0.57553E+04, time = 10.51 | CG iter. 26 -- res = 0.89456E+03, tol = 0.57553E+04, time = 11.05 | CG iter. 27 -- res = 0.86683E+03, tol = 0.57553E+04, time = 10.80 | CG iter. 28 -- res = 0.79132E+03, tol = 0.57553E+04, time = 10.97 | CG iter. 29 -- res = 0.71204E+03, tol = 0.57553E+04, time = 11.07 | CG iter. 30 -- res = 0.66687E+03, tol = 0.57553E+04, time = 16.79 | CG iter. 31 -- res = 0.65184E+03, tol = 0.57553E+04, time = 10.62 | CG iter. 32 -- res = 0.60493E+03, tol = 0.57553E+04, time = 10.77 | CG iter. 33 -- res = 0.51553E+03, tol = 0.57553E+04, time = 10.81 | CG iter. 34 -- res = 0.39888E+03, tol = 0.57553E+04, time = 11.14 | CG iter. 35 -- res = 0.29764E+03, tol = 0.57553E+04, time = 10.62 | CG iter. 36 -- res = 0.22739E+03, tol = 0.57553E+04, time = 10.58 | CG iter. 37 -- res = 0.18846E+03, tol = 0.57553E+04, time = 10.75 | CG iter. 38 -- res = 0.16816E+03, tol = 0.57553E+04, time = 12.58 | CG iter. 39 -- res = 0.15647E+03, tol = 0.57553E+04, time = 11.12 | CG iter. 40 -- res = 0.14575E+03, tol = 0.57553E+04, time = 10.76 | CG iter. 41 -- res = 0.13124E+03, tol = 0.57553E+04, time = 10.96 | CG iter. 42 -- res = 0.11756E+03, tol = 0.57553E+04, time = 10.55 | CG iter. 43 -- res = 0.10467E+03, tol = 0.57553E+04, time = 10.77 | CG iter. 44 -- res = 0.96124E+02, tol = 0.57553E+04, time = 10.70 | CG iter. 45 -- res = 0.92945E+02, tol = 0.57553E+04, time = 10.49 | CG iter. 46 -- res = 0.90428E+02, tol = 0.57553E+04, time = 10.92 | CG iter. 47 -- res = 0.83373E+02, tol = 0.57553E+04, time = 10.76 | CG iter. 48 -- res = 0.70645E+02, tol = 0.57553E+04, time = 11.64 | CG iter. 49 -- res = 0.58413E+02, tol = 0.57553E+04, time = 10.52 | CG iter. 50 -- res = 0.48099E+02, tol = 0.57553E+04, time = 10.71 | CG iter. 51 -- res = 0.41737E+02, tol = 0.57553E+04, time = 11.00 | CG iter. 52 -- res = 0.37360E+02, tol = 0.57553E+04, time = 10.83 | CG iter. 53 -- res = 0.34261E+02, tol = 0.57553E+04, time = 11.10 | CG iter. 54 -- res = 0.32087E+02, tol = 0.57553E+04, time = 11.15 | CG iter. 55 -- res = 0.29205E+02, tol = 0.57553E+04, time = 10.76 | CG iter. 56 -- res = 0.26025E+02, tol = 0.57553E+04, time = 10.67 | CG iter. 57 -- res = 0.23459E+02, tol = 0.57553E+04, time = 16.89 | CG iter. 58 -- res = 0.21944E+02, tol = 0.57553E+04, time = 10.81 | CG iter. 59 -- res = 0.21669E+02, tol = 0.57553E+04, time = 10.64 | CG iter. 60 -- res = 0.21033E+02, tol = 0.57553E+04, time = 10.67 | Final CG iter 61 -- res = 0.21033E+02, tol = 0.57553E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.887 ( -229.787 -2230.180 2512.623 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10523670.082 | Old band monopole 8192446.883 | Change to band monopole 2331223.198 | Change to component monopole -2331213.171 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.116 2.718 | New value -4.150 | Old value -2.116 | Difference -2.034 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.393 ( 6.394 10.769 -10.547 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.314 4.904 | New value -5.154 | Old value 6.314 | Difference -11.468 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.51964E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.10893E+03, tol = 0.47627E+18, time = 1.67 | CG iter. 3 -- res = 0.28311E+01, tol = 0.47627E+18, time = 1.70 | CG iter. 4 -- res = 0.49579E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.75878E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10523624.817 | (Sampled value in CG: 10500084.065 ) | Chain = 1 -- chisq = 0.81540988E+09 | Chain = 1 -- wall time = 5919.046 sec Available RAM: MemAvailable: 375503320 kB Available Swap: SwapFree: 1120581860 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 221 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443925 | --> Sampling calibration, mode = relcal | relcal = 1.3420113E-02 7.4661564E-04 -1.5854845E-03 -1.2581244E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1153312 0.1287147 97046542.8831975 | BP delta = 0.1172729 0.1306563 97046541.9145683 | BP chisq diff = -1.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632443 | --> Sampling calibration, mode = relcal | relcal = -2.8208008E-03 -7.0403656E-04 1.6786960E-03 1.6132896E-03 -4.0821667E-04 6.4106839E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5736951 15216907.7414437 | BP delta = 0.0000000E+00 -0.5727533 15216910.1859123 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103172 | --> Sampling calibration, mode = relcal | relcal = 3.7095297E-02 1.3713342E-02 5.7445662E-03 -7.1704346E-03 8.2456591E-03 2.3939209E-03 -7.5953859E-03 -7.1805757E-03 -1.5303331E-02 -1.4799058E-02 -3.0468393E-03 -1.2097159E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.188144 132206962.527644 | BP delta = 0.0000000E+00 -1.197180 132206970.845965 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18079446065781 | --> Sampling calibration, mode = relcal | relcal = -7.4864283E-02 -5.8241408E-02 9.1592349E-02 4.1513346E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6725982E-04 4.2710835E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3652E-05 | 2: delta_r/delta_0: 7.5282E-07 | 3: delta_s/delta_0: 2.5269E-07 | 4: delta_r/delta_0: 1.0543E-08 | 5: delta_s/delta_0: 8.5681E-09 | 6: delta_r/delta_0: 2.2338E-09 | 7: delta_s/delta_0: 2.4007E-10 | 8: delta_r/delta_0: 1.1127E-10 | 9: delta_s/delta_0: 3.7183E-09 | 10: delta_r/delta_0: 1.5956E-09 | 11: delta_s/delta_0: 6.3313E-10 | 12: delta_r/delta_0: 6.0703E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.297344356125137E-004 2.741562342304608E-005 | BP delta = 4.8612975E-02 6.5991431E-02 50480396.2302725 | BP delta = 3.5741538E-02 5.3119995E-02 50480396.7399216 | BP chisq diff = 0.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02586265 | --> Sampling calibration, mode = relcal | relcal = -0.1066961 -9.5499009E-02 0.1449304 5.7264730E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0485464E-03 1.7208277E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.4409E-05 | 2: delta_r/delta_0: 1.7437E-06 | 3: delta_s/delta_0: 2.2956E-07 | 4: delta_r/delta_0: 4.2750E-08 | 5: delta_s/delta_0: 3.1468E-08 | 6: delta_r/delta_0: 7.0126E-09 | 7: delta_s/delta_0: 7.1058E-09 | 8: delta_r/delta_0: 1.5677E-09 | 9: delta_s/delta_0: 7.4532E-10 | 10: delta_r/delta_0: 5.5752E-10 | 11: delta_s/delta_0: 9.5415E-10 | 12: delta_r/delta_0: 8.1451E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.013299971324000E-002 2.811185405246844E-005 | BP delta = -0.2660697 -0.2450201 57391576.3930774 | BP delta = -0.2634718 -0.2424222 57391576.4837396 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81228544 | --> Sampling calibration, mode = relcal | relcal = 0.2953745 0.2249154 -0.2838327 -0.2364571 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6370584E-03 5.1312437E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.1640E-03 | 2: delta_r/delta_0: 2.1713E-04 | 3: delta_s/delta_0: 2.0873E-04 | 4: delta_r/delta_0: 1.1930E-05 | 5: delta_s/delta_0: 1.1945E-06 | 6: delta_r/delta_0: 3.7989E-07 | 7: delta_s/delta_0: 7.8912E-07 | 8: delta_r/delta_0: 8.7647E-08 | 9: delta_s/delta_0: 2.5691E-06 | 10: delta_r/delta_0: 9.5954E-07 | 11: delta_s/delta_0: 4.2964E-09 | 12: delta_r/delta_0: 1.5470E-09 | 13: delta_s/delta_0: 2.8567E-07 | 14: delta_r/delta_0: 1.4949E-08 | 15: delta_s/delta_0: 1.1617E-10 | 16: delta_r/delta_0: 3.2757E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.600957946973422E-002 4.021320678959219E-005 | BP delta = -0.1828745 -0.1963399 72487238.9899112 | BP delta = -0.1565731 -0.1700386 72487239.6712589 | BP chisq diff = 0.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95918793 | --> Sampling calibration, mode = relcal | relcal = 0.1065565 0.1395400 -0.1102511 -0.1358453 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0781812E-02 1.2990765E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5833E-04 | 2: delta_r/delta_0: 6.5560E-06 | 3: delta_s/delta_0: 1.1653E-04 | 4: delta_r/delta_0: 7.1669E-06 | 5: delta_s/delta_0: 2.0765E-07 | 6: delta_r/delta_0: 1.1557E-07 | 7: delta_s/delta_0: 7.2191E-07 | 8: delta_r/delta_0: 2.7745E-08 | 9: delta_s/delta_0: 8.4108E-08 | 10: delta_r/delta_0: 1.1788E-08 | 11: delta_s/delta_0: 1.5381E-09 | 12: delta_r/delta_0: 7.5496E-10 | 13: delta_s/delta_0: 5.2888E-10 | 14: delta_r/delta_0: 6.6860E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.018579438819071E-002 3.697105700786387E-005 | BP delta = 3.4009740E-02 0.1372290 72789558.8691066 | BP delta = 2.5492255E-02 0.1287115 72789558.9267970 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52173753 | --> Sampling calibration, mode = relcal | relcal = -5.1063061E-02 -3.6674642E-03 2.7343018E-02 2.7387505E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7282912E-04 2.9126010E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7306E-05 | 2: delta_r/delta_0: 4.2103E-06 | 3: delta_s/delta_0: 2.6525E-06 | 4: delta_r/delta_0: 3.6584E-07 | 5: delta_s/delta_0: 4.9817E-08 | 6: delta_r/delta_0: 2.5497E-08 | 7: delta_s/delta_0: 1.9139E-07 | 8: delta_r/delta_0: 4.2085E-09 | 9: delta_s/delta_0: 3.5440E-09 | 10: delta_r/delta_0: 1.3430E-09 | 11: delta_s/delta_0: 5.8958E-09 | 12: delta_r/delta_0: 5.3528E-10 | 13: delta_s/delta_0: 3.8212E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.068671599706595E-002 5.481549745885727E-005 | BP delta = 6.4679936E-02 0.1706958 91262614.3756373 | BP delta = 7.0947826E-02 0.1769637 91262614.3033780 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42164368 | --> Sampling calibration, mode = relcal | relcal = 4.5626190E-02 3.9628591E-02 -2.8294984E-02 -5.6959797E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7531313E-03 2.5914782E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5458E-05 | 2: delta_r/delta_0: 3.1446E-06 | 3: delta_s/delta_0: 1.7617E-06 | 4: delta_r/delta_0: 2.0642E-07 | 5: delta_s/delta_0: 6.0155E-08 | 6: delta_r/delta_0: 3.0668E-08 | 7: delta_s/delta_0: 7.7108E-08 | 8: delta_r/delta_0: 4.5768E-09 | 9: delta_s/delta_0: 3.1457E-09 | 10: delta_r/delta_0: 1.7923E-09 | 11: delta_s/delta_0: 7.1690E-07 | 12: delta_r/delta_0: 7.3899E-08 | 13: delta_s/delta_0: 6.6930E-09 | 14: delta_r/delta_0: 2.3197E-09 | 15: delta_s/delta_0: 2.8601E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.383574567623193E-002 4.994872738637855E-005 | BP delta = 2.6616992E-02 -0.1111841 90177889.9406771 | BP delta = 5.2194573E-02 -8.5606471E-02 90177889.6452624 | BP chisq diff = -0.3, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28165778 | --> Sampling calibration, mode = relcal | relcal = 2.4127042E-02 4.5191046E-02 -2.3358760E-02 -4.5959327E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3133070E-02 4.8283301E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1006E-04 | 2: delta_r/delta_0: 8.8085E-06 | 3: delta_s/delta_0: 1.4673E-06 | 4: delta_r/delta_0: 2.1175E-07 | 5: delta_s/delta_0: 7.3478E-08 | 6: delta_r/delta_0: 1.9309E-08 | 7: delta_s/delta_0: 9.2989E-09 | 8: delta_r/delta_0: 5.6330E-09 | 9: delta_s/delta_0: 8.0446E-08 | 10: delta_r/delta_0: 5.3194E-09 | 11: delta_s/delta_0: 1.1460E-09 | 12: delta_r/delta_0: 4.0319E-10 | 13: delta_s/delta_0: 3.8290E-10 | 14: delta_r/delta_0: 2.2869E-10 | 15: delta_s/delta_0: 6.3023E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.581449627403349E-003 7.842565406263739E-005 | BP delta = -0.1164539 -0.2504264 160927610.112343 | BP delta = -9.2645906E-02 -0.2266184 160927610.387412 | BP chisq diff = 0.3, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29405080 | --> Sampling calibration, mode = relcal | relcal = 5.8173185E-04 1.0303752E-02 -3.8556631E-03 -7.0298216E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5305568E-02 1.4805938E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3018E-04 | 2: delta_r/delta_0: 1.0785E-05 | 3: delta_s/delta_0: 1.6679E-06 | 4: delta_r/delta_0: 2.8570E-07 | 5: delta_s/delta_0: 8.5776E-08 | 6: delta_r/delta_0: 2.2790E-08 | 7: delta_s/delta_0: 1.0643E-08 | 8: delta_r/delta_0: 7.1950E-09 | 9: delta_s/delta_0: 9.0956E-09 | 10: delta_r/delta_0: 5.1693E-09 | 11: delta_s/delta_0: 1.0389E-05 | 12: delta_r/delta_0: 3.4904E-06 | 13: delta_s/delta_0: 5.7409E-10 | 14: delta_r/delta_0: 2.5036E-10 | 15: delta_s/delta_0: 8.4874E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.991532547115194E-003 8.303079282596992E-005 | BP delta = -0.9177207 -0.9033315 157897398.636242 | BP delta = -0.8596361 -0.8452470 157897399.123302 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26515892 | --> Sampling calibration, mode = relcal | relcal = -5.6362213E-03 1.5097505E-02 -2.3719338E-03 -7.0893508E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.8880740E-03 1.3373792E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4025E-04 | 2: delta_r/delta_0: 1.1818E-05 | 3: delta_s/delta_0: 2.0958E-06 | 4: delta_r/delta_0: 2.0688E-07 | 5: delta_s/delta_0: 8.6459E-08 | 6: delta_r/delta_0: 1.6700E-08 | 7: delta_s/delta_0: 8.0070E-09 | 8: delta_r/delta_0: 4.6788E-09 | 9: delta_s/delta_0: 5.8510E-09 | 10: delta_r/delta_0: 4.0305E-09 | 11: delta_s/delta_0: 7.0356E-07 | 12: delta_r/delta_0: 5.1728E-08 | 13: delta_s/delta_0: 1.3383E-09 | 14: delta_r/delta_0: 8.9673E-10 | 15: delta_s/delta_0: 1.3613E-10 | 16: delta_r/delta_0: 6.1555E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.722449100250492E-003 9.150365129604635E-005 | BP delta = 0.3231032 0.3300700 157016501.200011 | BP delta = 0.3451627 0.3521295 157016501.286416 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25680090 | --> Sampling calibration, mode = relcal | relcal = -3.1758524E-02 -2.5977651E-02 3.7017308E-02 2.0718867E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2556657E-02 1.7105743E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4381E-04 | 2: delta_r/delta_0: 1.1665E-05 | 3: delta_s/delta_0: 1.7945E-06 | 4: delta_r/delta_0: 4.1385E-07 | 5: delta_s/delta_0: 1.1026E-07 | 6: delta_r/delta_0: 3.0656E-08 | 7: delta_s/delta_0: 1.3799E-08 | 8: delta_r/delta_0: 8.3300E-09 | 9: delta_s/delta_0: 3.3852E-08 | 10: delta_r/delta_0: 6.3470E-09 | 11: delta_s/delta_0: 3.4152E-09 | 12: delta_r/delta_0: 1.2986E-09 | 13: delta_s/delta_0: 1.3030E-09 | 14: delta_r/delta_0: 6.3880E-10 | 15: delta_s/delta_0: 1.4207E-10 | 16: delta_r/delta_0: 1.2080E-10 | 17: delta_s/delta_0: 1.0011E-10 | 18: delta_r/delta_0: 8.9376E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.881754040935466E-003 8.667093738507953E-005 | BP delta = -0.7860345 -0.9191063 158538354.334416 | BP delta = -0.7956009 -0.9286727 158538354.292972 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115709 | New value = -3.160234 | poltype: 2 pol: 1 CPU time specind = 3.2181978E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156954 | New value = -3.195773 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.074667 | New value = -3.159832 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.222764 | New value = -3.200043 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160909 | New value = -3.165849 | poltype: 2 pol: 2 CPU time specind = 3.7079811E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 25.78 | CG iter. 1 -- res = 0.13565E+08, tol = 0.68168E+01, time = 5.32 | CG iter. 2 -- res = 0.35648E+06, tol = 0.68168E+01, time = 5.02 | CG iter. 3 -- res = 0.54539E+05, tol = 0.68168E+01, time = 5.14 | CG iter. 4 -- res = 0.32393E+05, tol = 0.68168E+01, time = 5.44 | CG iter. 5 -- res = 0.24488E+05, tol = 0.68168E+01, time = 4.95 | CG iter. 6 -- res = 0.20035E+05, tol = 0.68168E+01, time = 5.12 | CG iter. 7 -- res = 0.19522E+05, tol = 0.68168E+01, time = 5.30 | CG iter. 8 -- res = 0.17686E+05, tol = 0.68168E+01, time = 5.18 | CG iter. 9 -- res = 0.15338E+05, tol = 0.68168E+01, time = 4.96 | CG iter. 10 -- res = 0.13828E+05, tol = 0.68168E+01, time = 5.37 | CG iter. 11 -- res = 0.10319E+05, tol = 0.68168E+01, time = 5.29 | CG iter. 12 -- res = 0.66326E+04, tol = 0.68168E+01, time = 5.10 | CG iter. 13 -- res = 0.48321E+04, tol = 0.68168E+01, time = 5.29 | CG iter. 14 -- res = 0.42434E+04, tol = 0.68168E+01, time = 5.50 | CG iter. 15 -- res = 0.37938E+04, tol = 0.68168E+01, time = 5.26 | CG iter. 16 -- res = 0.29769E+04, tol = 0.68168E+01, time = 5.39 | CG iter. 17 -- res = 0.21378E+04, tol = 0.68168E+01, time = 11.64 | CG iter. 18 -- res = 0.16075E+04, tol = 0.68168E+01, time = 5.51 | CG iter. 19 -- res = 0.13195E+04, tol = 0.68168E+01, time = 5.79 | CG iter. 20 -- res = 0.10784E+04, tol = 0.68168E+01, time = 5.20 | CG iter. 21 -- res = 0.79631E+03, tol = 0.68168E+01, time = 5.26 | CG iter. 22 -- res = 0.63098E+03, tol = 0.68168E+01, time = 5.37 | CG iter. 23 -- res = 0.54834E+03, tol = 0.68168E+01, time = 5.14 | CG iter. 24 -- res = 0.46845E+03, tol = 0.68168E+01, time = 5.19 | CG iter. 25 -- res = 0.35828E+03, tol = 0.68168E+01, time = 5.26 | CG iter. 26 -- res = 0.26285E+03, tol = 0.68168E+01, time = 5.38 | CG iter. 27 -- res = 0.21953E+03, tol = 0.68168E+01, time = 5.35 | CG iter. 28 -- res = 0.19192E+03, tol = 0.68168E+01, time = 5.18 | CG iter. 29 -- res = 0.16180E+03, tol = 0.68168E+01, time = 5.11 | CG iter. 30 -- res = 0.12615E+03, tol = 0.68168E+01, time = 5.43 | CG iter. 31 -- res = 0.10394E+03, tol = 0.68168E+01, time = 5.09 | CG iter. 32 -- res = 0.91221E+02, tol = 0.68168E+01, time = 5.33 | CG iter. 33 -- res = 0.76452E+02, tol = 0.68168E+01, time = 6.30 | CG iter. 34 -- res = 0.59246E+02, tol = 0.68168E+01, time = 5.65 | CG iter. 35 -- res = 0.48620E+02, tol = 0.68168E+01, time = 5.67 | CG iter. 36 -- res = 0.42893E+02, tol = 0.68168E+01, time = 5.14 | CG iter. 37 -- res = 0.37853E+02, tol = 0.68168E+01, time = 5.38 | CG iter. 38 -- res = 0.29899E+02, tol = 0.68168E+01, time = 5.35 | CG iter. 39 -- res = 0.24148E+02, tol = 0.68168E+01, time = 5.19 | CG iter. 40 -- res = 0.20747E+02, tol = 0.68168E+01, time = 4.94 | CG iter. 41 -- res = 0.18409E+02, tol = 0.68168E+01, time = 5.14 | CG iter. 42 -- res = 0.14996E+02, tol = 0.68168E+01, time = 4.84 | CG iter. 43 -- res = 0.12029E+02, tol = 0.68168E+01, time = 5.36 | CG iter. 44 -- res = 0.98144E+01, tol = 0.68168E+01, time = 5.23 | CG iter. 45 -- res = 0.83843E+01, tol = 0.68168E+01, time = 5.35 | CG iter. 46 -- res = 0.69329E+01, tol = 0.68168E+01, time = 5.48 | CG iter. 47 -- res = 0.53905E+01, tol = 0.68168E+01, time = 5.13 | CG iter. 48 -- res = 0.41722E+01, tol = 0.68168E+01, time = 5.06 | CG iter. 49 -- res = 0.35857E+01, tol = 0.68168E+01, time = 5.31 | CG iter. 50 -- res = 0.30326E+01, tol = 0.68168E+01, time = 5.39 | Final CG iter 51 -- res = 0.30326E+01, tol = 0.68168E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7216010.970 | Old band monopole 10523670.082 | Change to band monopole -3307659.112 | Change to component monopole 3307644.885 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.79431E+04, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.26852E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.96923E+00, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.13704E-02, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.46288E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7215979.932 | (Sampled value in CG: 7177033.800 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493160 | New value = 1.554550 | poltype: 2 pol: 1 CPU time specind = 1.7426968E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.547028 | New value = 1.530927 | poltype: 2 pol: 2 CPU time specind = 8.3990097E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.24833E+08, tol = 0.47633E+04, time = 7.22 | CG iter. 2 -- res = 0.53386E+07, tol = 0.47633E+04, time = 11.02 | CG iter. 3 -- res = 0.84776E+06, tol = 0.47633E+04, time = 6.17 | CG iter. 4 -- res = 0.34351E+06, tol = 0.47633E+04, time = 5.91 | CG iter. 5 -- res = 0.14436E+06, tol = 0.47633E+04, time = 6.15 | CG iter. 6 -- res = 0.78314E+05, tol = 0.47633E+04, time = 5.84 | CG iter. 7 -- res = 0.43375E+05, tol = 0.47633E+04, time = 5.83 | CG iter. 8 -- res = 0.20664E+05, tol = 0.47633E+04, time = 6.22 | CG iter. 9 -- res = 0.89655E+04, tol = 0.47633E+04, time = 5.74 | CG iter. 10 -- res = 0.35393E+04, tol = 0.47633E+04, time = 5.99 | CG iter. 11 -- res = 0.16348E+04, tol = 0.47633E+04, time = 5.90 | CG iter. 12 -- res = 0.89175E+03, tol = 0.47633E+04, time = 5.82 | CG iter. 13 -- res = 0.50107E+03, tol = 0.47633E+04, time = 5.92 | CG iter. 14 -- res = 0.27917E+03, tol = 0.47633E+04, time = 6.06 | CG iter. 15 -- res = 0.14075E+03, tol = 0.47633E+04, time = 6.25 | CG iter. 16 -- res = 0.66496E+02, tol = 0.47633E+04, time = 7.65 | CG iter. 17 -- res = 0.31431E+02, tol = 0.47633E+04, time = 6.25 | CG iter. 18 -- res = 0.15856E+02, tol = 0.47633E+04, time = 6.08 | CG iter. 19 -- res = 0.87151E+01, tol = 0.47633E+04, time = 6.17 | CG iter. 20 -- res = 0.50122E+01, tol = 0.47633E+04, time = 5.75 | CG iter. 21 -- res = 0.27507E+01, tol = 0.47633E+04, time = 5.99 | CG iter. 22 -- res = 0.14010E+01, tol = 0.47633E+04, time = 5.78 | CG iter. 23 -- res = 0.70326E+00, tol = 0.47633E+04, time = 5.86 | CG iter. 24 -- res = 0.36153E+00, tol = 0.47633E+04, time = 6.18 | CG iter. 25 -- res = 0.19829E+00, tol = 0.47633E+04, time = 5.91 | CG iter. 26 -- res = 0.11317E+00, tol = 0.47633E+04, time = 5.80 | CG iter. 27 -- res = 0.63159E-01, tol = 0.47633E+04, time = 5.72 | CG iter. 28 -- res = 0.34218E-01, tol = 0.47633E+04, time = 6.24 | CG iter. 29 -- res = 0.17912E-01, tol = 0.47633E+04, time = 5.94 | CG iter. 30 -- res = 0.95133E-02, tol = 0.47633E+04, time = 5.83 | CG iter. 31 -- res = 0.53039E-02, tol = 0.47633E+04, time = 6.02 | CG iter. 32 -- res = 0.29721E-02, tol = 0.47633E+04, time = 5.79 | CG iter. 33 -- res = 0.16615E-02, tol = 0.47633E+04, time = 6.00 | CG iter. 34 -- res = 0.89791E-03, tol = 0.47633E+04, time = 6.17 | CG iter. 35 -- res = 0.46954E-03, tol = 0.47633E+04, time = 6.09 | Final CG iter 36 -- res = 0.46954E-03, tol = 0.47633E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.132 2.719 | New value 0.231 | Old value -4.132 | Difference 4.363 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.99306E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.41544E+02, tol = 0.47627E+18, time = 1.71 | CG iter. 3 -- res = 0.12207E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.83024E-03, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.20168E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7215979.932 | (Sampled value in CG: 7177346.495 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.498037 | New value = -3.478236 | poltype: 1 pol: 1 CPU time specind = 9.9599361E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.26927E+07, tol = 0.28810E+01, time = 2.34 | CG iter. 2 -- res = 0.10713E+07, tol = 0.28810E+01, time = 2.68 | CG iter. 3 -- res = 0.22294E+06, tol = 0.28810E+01, time = 2.52 | CG iter. 4 -- res = 0.97771E+05, tol = 0.28810E+01, time = 2.34 | CG iter. 5 -- res = 0.56582E+05, tol = 0.28810E+01, time = 2.52 | CG iter. 6 -- res = 0.27455E+05, tol = 0.28810E+01, time = 2.51 | CG iter. 7 -- res = 0.10403E+05, tol = 0.28810E+01, time = 2.41 | CG iter. 8 -- res = 0.47362E+04, tol = 0.28810E+01, time = 2.25 | CG iter. 9 -- res = 0.20865E+04, tol = 0.28810E+01, time = 2.80 | CG iter. 10 -- res = 0.85434E+03, tol = 0.28810E+01, time = 2.93 | CG iter. 11 -- res = 0.35411E+03, tol = 0.28810E+01, time = 2.17 | CG iter. 12 -- res = 0.16121E+03, tol = 0.28810E+01, time = 2.42 | CG iter. 13 -- res = 0.77573E+02, tol = 0.28810E+01, time = 2.39 | CG iter. 14 -- res = 0.40856E+02, tol = 0.28810E+01, time = 2.50 | CG iter. 15 -- res = 0.20374E+02, tol = 0.28810E+01, time = 2.43 | CG iter. 16 -- res = 0.92926E+01, tol = 0.28810E+01, time = 2.59 | CG iter. 17 -- res = 0.41045E+01, tol = 0.28810E+01, time = 2.47 | CG iter. 18 -- res = 0.18160E+01, tol = 0.28810E+01, time = 2.41 | CG iter. 19 -- res = 0.83628E+00, tol = 0.28810E+01, time = 2.47 | CG iter. 20 -- res = 0.43528E+00, tol = 0.28810E+01, time = 2.15 | CG iter. 21 -- res = 0.22335E+00, tol = 0.28810E+01, time = 2.49 | CG iter. 22 -- res = 0.10794E+00, tol = 0.28810E+01, time = 2.73 | CG iter. 23 -- res = 0.49615E-01, tol = 0.28810E+01, time = 2.35 | CG iter. 24 -- res = 0.22190E-01, tol = 0.28810E+01, time = 2.42 | CG iter. 25 -- res = 0.10747E-01, tol = 0.28810E+01, time = 2.57 | CG iter. 26 -- res = 0.51685E-02, tol = 0.28810E+01, time = 2.57 | CG iter. 27 -- res = 0.25928E-02, tol = 0.28810E+01, time = 2.29 | CG iter. 28 -- res = 0.13857E-02, tol = 0.28810E+01, time = 2.54 | CG iter. 29 -- res = 0.68320E-03, tol = 0.28810E+01, time = 2.22 | CG iter. 30 -- res = 0.32360E-03, tol = 0.28810E+01, time = 2.56 | CG iter. 31 -- res = 0.15008E-03, tol = 0.28810E+01, time = 2.54 | CG iter. 32 -- res = 0.71321E-04, tol = 0.28810E+01, time = 2.44 | CG iter. 33 -- res = 0.35010E-04, tol = 0.28810E+01, time = 2.54 | CG iter. 34 -- res = 0.18232E-04, tol = 0.28810E+01, time = 2.32 | CG iter. 35 -- res = 0.94753E-05, tol = 0.28810E+01, time = 2.36 | CG iter. 36 -- res = 0.46254E-05, tol = 0.28810E+01, time = 2.39 | CG iter. 37 -- res = 0.20617E-05, tol = 0.28810E+01, time = 2.42 | CG iter. 38 -- res = 0.95960E-06, tol = 0.28810E+01, time = 2.45 | CG iter. 39 -- res = 0.47364E-06, tol = 0.28810E+01, time = 2.56 | CG iter. 40 -- res = 0.23662E-06, tol = 0.28810E+01, time = 2.48 | CG iter. 41 -- res = 0.12119E-06, tol = 0.28810E+01, time = 2.36 | CG iter. 42 -- res = 0.60803E-07, tol = 0.28810E+01, time = 2.39 | CG iter. 43 -- res = 0.26655E-07, tol = 0.28810E+01, time = 2.61 | CG iter. 44 -- res = 0.12159E-07, tol = 0.28810E+01, time = 2.13 | CG iter. 45 -- res = 0.59444E-08, tol = 0.28810E+01, time = 2.41 | CG iter. 46 -- res = 0.29094E-08, tol = 0.28810E+01, time = 2.55 | CG iter. 47 -- res = 0.15251E-08, tol = 0.28810E+01, time = 2.30 | CG iter. 48 -- res = 0.73121E-09, tol = 0.28810E+01, time = 2.50 | CG iter. 49 -- res = 0.34409E-09, tol = 0.28810E+01, time = 2.58 | CG iter. 50 -- res = 0.15686E-09, tol = 0.28810E+01, time = 4.05 | Final CG iter 51 -- res = 0.15686E-09, tol = 0.28810E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.037 5.518 | New value 1.993 | Old value -9.037 | Difference 11.030 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.12225E+06, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.59333E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.23512E+01, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.56765E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.99374E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7215979.932 | (Sampled value in CG: 7185479.254 ) | CPU time specind = 1099.188 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.70468E+08, tol = 0.57653E+04, time = 12.05 | CG iter. 2 -- res = 0.59257E+08, tol = 0.57653E+04, time = 11.16 | CG iter. 3 -- res = 0.15377E+08, tol = 0.57653E+04, time = 10.89 | CG iter. 4 -- res = 0.66676E+07, tol = 0.57653E+04, time = 10.67 | CG iter. 5 -- res = 0.40527E+07, tol = 0.57653E+04, time = 10.70 | CG iter. 6 -- res = 0.23447E+07, tol = 0.57653E+04, time = 10.24 | CG iter. 7 -- res = 0.13741E+07, tol = 0.57653E+04, time = 10.91 | CG iter. 8 -- res = 0.89529E+06, tol = 0.57653E+04, time = 10.98 | CG iter. 9 -- res = 0.57170E+06, tol = 0.57653E+04, time = 10.74 | CG iter. 10 -- res = 0.34329E+06, tol = 0.57653E+04, time = 10.87 | CG iter. 11 -- res = 0.19095E+06, tol = 0.57653E+04, time = 10.95 | CG iter. 12 -- res = 0.10541E+06, tol = 0.57653E+04, time = 10.91 | CG iter. 13 -- res = 0.56657E+05, tol = 0.57653E+04, time = 10.93 | CG iter. 14 -- res = 0.33091E+05, tol = 0.57653E+04, time = 10.92 | CG iter. 15 -- res = 0.22351E+05, tol = 0.57653E+04, time = 10.80 | CG iter. 16 -- res = 0.17006E+05, tol = 0.57653E+04, time = 10.52 | CG iter. 17 -- res = 0.13533E+05, tol = 0.57653E+04, time = 11.04 | CG iter. 18 -- res = 0.10600E+05, tol = 0.57653E+04, time = 10.59 | CG iter. 19 -- res = 0.82244E+04, tol = 0.57653E+04, time = 10.84 | CG iter. 20 -- res = 0.65904E+04, tol = 0.57653E+04, time = 18.18 | CG iter. 21 -- res = 0.57217E+04, tol = 0.57653E+04, time = 10.58 | CG iter. 22 -- res = 0.56483E+04, tol = 0.57653E+04, time = 10.72 | CG iter. 23 -- res = 0.61861E+04, tol = 0.57653E+04, time = 10.88 | CG iter. 24 -- res = 0.68329E+04, tol = 0.57653E+04, time = 10.85 | CG iter. 25 -- res = 0.67346E+04, tol = 0.57653E+04, time = 10.51 | CG iter. 26 -- res = 0.59381E+04, tol = 0.57653E+04, time = 10.51 | CG iter. 27 -- res = 0.48770E+04, tol = 0.57653E+04, time = 10.82 | CG iter. 28 -- res = 0.38399E+04, tol = 0.57653E+04, time = 12.64 | CG iter. 29 -- res = 0.30473E+04, tol = 0.57653E+04, time = 11.28 | CG iter. 30 -- res = 0.25100E+04, tol = 0.57653E+04, time = 10.69 | CG iter. 31 -- res = 0.21543E+04, tol = 0.57653E+04, time = 10.81 | CG iter. 32 -- res = 0.17995E+04, tol = 0.57653E+04, time = 10.44 | CG iter. 33 -- res = 0.14535E+04, tol = 0.57653E+04, time = 10.78 | CG iter. 34 -- res = 0.11880E+04, tol = 0.57653E+04, time = 10.73 | CG iter. 35 -- res = 0.99731E+03, tol = 0.57653E+04, time = 10.85 | CG iter. 36 -- res = 0.88311E+03, tol = 0.57653E+04, time = 10.68 | CG iter. 37 -- res = 0.83164E+03, tol = 0.57653E+04, time = 10.50 | CG iter. 38 -- res = 0.81993E+03, tol = 0.57653E+04, time = 11.12 | CG iter. 39 -- res = 0.78745E+03, tol = 0.57653E+04, time = 10.57 | CG iter. 40 -- res = 0.70865E+03, tol = 0.57653E+04, time = 10.61 | CG iter. 41 -- res = 0.60504E+03, tol = 0.57653E+04, time = 10.76 | CG iter. 42 -- res = 0.49661E+03, tol = 0.57653E+04, time = 10.81 | CG iter. 43 -- res = 0.42345E+03, tol = 0.57653E+04, time = 10.75 | CG iter. 44 -- res = 0.37806E+03, tol = 0.57653E+04, time = 10.75 | CG iter. 45 -- res = 0.34092E+03, tol = 0.57653E+04, time = 10.42 | CG iter. 46 -- res = 0.30766E+03, tol = 0.57653E+04, time = 10.90 | CG iter. 47 -- res = 0.26783E+03, tol = 0.57653E+04, time = 17.23 | CG iter. 48 -- res = 0.22805E+03, tol = 0.57653E+04, time = 10.73 | CG iter. 49 -- res = 0.19612E+03, tol = 0.57653E+04, time = 11.00 | CG iter. 50 -- res = 0.17071E+03, tol = 0.57653E+04, time = 10.63 | CG iter. 51 -- res = 0.15779E+03, tol = 0.57653E+04, time = 10.82 | CG iter. 52 -- res = 0.15508E+03, tol = 0.57653E+04, time = 10.92 | CG iter. 53 -- res = 0.15338E+03, tol = 0.57653E+04, time = 10.56 | CG iter. 54 -- res = 0.14644E+03, tol = 0.57653E+04, time = 10.88 | CG iter. 55 -- res = 0.12960E+03, tol = 0.57653E+04, time = 13.62 | CG iter. 56 -- res = 0.11004E+03, tol = 0.57653E+04, time = 10.99 | CG iter. 57 -- res = 0.95694E+02, tol = 0.57653E+04, time = 10.45 | CG iter. 58 -- res = 0.86596E+02, tol = 0.57653E+04, time = 10.60 | CG iter. 59 -- res = 0.81532E+02, tol = 0.57653E+04, time = 10.44 | CG iter. 60 -- res = 0.75842E+02, tol = 0.57653E+04, time = 10.42 | Final CG iter 61 -- res = 0.75842E+02, tol = 0.57653E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.747 ( -229.928 -2230.250 2512.702 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7798599.456 | Old band monopole 7216010.970 | Change to band monopole 582588.486 | Change to component monopole -582585.980 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.260 2.735 | New value 8.894 | Old value 0.260 | Difference 8.634 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.952 ( 6.863 11.367 -10.920 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.103 5.163 | New value 7.063 | Old value 7.103 | Difference -0.039 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.38588E+07, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.20413E+02, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.35026E+00, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.48252E-03, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.12966E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7798565.913 | (Sampled value in CG: 7781696.740 ) | Chain = 1 -- chisq = 0.81494550E+09 | Chain = 1 -- wall time = 16308.500 sec Available RAM: MemAvailable: 471736596 kB Available Swap: SwapFree: 1056959020 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 222 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442930 | --> Sampling calibration, mode = relcal | relcal = 1.3434480E-02 7.3724060E-04 -1.5890966E-03 -1.2582623E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1172729 0.1306563 9408178.80314792 | BP delta = 0.1172729 0.1273929 9408196.74620008 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632518 | --> Sampling calibration, mode = relcal | relcal = -2.8214627E-03 -7.0515572E-04 1.6796029E-03 1.6135981E-03 -4.0812397E-04 6.4154138E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5736951 15220169.9318253 | BP delta = 0.0000000E+00 -0.5798143 15220170.9807165 | BP chisq diff = 1.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18563329465404 | --> Sampling calibration, mode = relcal | relcal = -7.5962208E-02 -5.9363406E-02 9.3074434E-02 4.2251181E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4813821E-04 6.3569034E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0105E-05 | 2: delta_r/delta_0: 1.5404E-06 | 3: delta_s/delta_0: 2.0341E-07 | 4: delta_r/delta_0: 3.2098E-08 | 5: delta_s/delta_0: 9.9966E-09 | 6: delta_r/delta_0: 3.1268E-09 | 7: delta_s/delta_0: 6.4498E-10 | 8: delta_r/delta_0: 1.9063E-10 | 9: delta_s/delta_0: 1.6402E-10 | 10: delta_r/delta_0: 6.9194E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.360956230082135E-003 2.730260026810623E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0105E-05 | 2: delta_r/delta_0: 1.5404E-06 | 3: delta_s/delta_0: 2.0341E-07 | 4: delta_r/delta_0: 3.2098E-08 | 5: delta_s/delta_0: 9.9968E-09 | 6: delta_r/delta_0: 3.1268E-09 | 7: delta_s/delta_0: 6.4497E-10 | 8: delta_r/delta_0: 1.9064E-10 | 9: delta_s/delta_0: 1.6403E-10 | 10: delta_r/delta_0: 6.9198E-11 | Reached bicg-stab tolerance | BP delta = 3.5741538E-02 5.3119995E-02 3548279.62061798 | BP delta = 3.5741538E-02 5.2849378E-02 3547946.31290687 | BP chisq diff = -333.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02585959 | --> Sampling calibration, mode = relcal | relcal = -0.1065892 -9.5513836E-02 0.1448418 5.7261225E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1727750E-03 1.4341273E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0649E-04 | 2: delta_r/delta_0: 2.3520E-06 | 3: delta_s/delta_0: 2.2299E-07 | 4: delta_r/delta_0: 4.2525E-08 | 5: delta_s/delta_0: 3.9078E-08 | 6: delta_r/delta_0: 7.8241E-09 | 7: delta_s/delta_0: 5.6331E-09 | 8: delta_r/delta_0: 2.0821E-09 | 9: delta_s/delta_0: 8.9927E-10 | 10: delta_r/delta_0: 6.7081E-10 | 11: delta_s/delta_0: 1.5849E-09 | 12: delta_r/delta_0: 1.0731E-10 | 13: delta_s/delta_0: 1.0073E-10 | 14: delta_r/delta_0: 1.3756E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.043665880184862E-002 2.811193590283065E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0649E-04 | 2: delta_r/delta_0: 2.3520E-06 | 3: delta_s/delta_0: 2.2299E-07 | 4: delta_r/delta_0: 4.2530E-08 | 5: delta_s/delta_0: 3.9070E-08 | 6: delta_r/delta_0: 7.8241E-09 | 7: delta_s/delta_0: 5.6327E-09 | 8: delta_r/delta_0: 2.0822E-09 | 9: delta_s/delta_0: 8.9933E-10 | 10: delta_r/delta_0: 6.7085E-10 | 11: delta_s/delta_0: 1.5850E-09 | 12: delta_r/delta_0: 1.0731E-10 | 13: delta_s/delta_0: 1.0075E-10 | 14: delta_r/delta_0: 1.3750E-11 | Reached bicg-stab tolerance | BP delta = -0.2634718 -0.2424222 2841841.14850137 | BP delta = -0.2634718 -0.2392008 2841838.76360004 | BP chisq diff = -2.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81226148 | --> Sampling calibration, mode = relcal | relcal = 0.2954338 0.2249113 -0.2837800 -0.2365651 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.6637923E-04 4.8585753E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2810E-03 | 2: delta_r/delta_0: 1.4617E-04 | 3: delta_s/delta_0: 3.6382E-05 | 4: delta_r/delta_0: 3.8878E-06 | 5: delta_s/delta_0: 5.1997E-06 | 6: delta_r/delta_0: 1.2668E-06 | 7: delta_s/delta_0: 1.2739E-05 | 8: delta_r/delta_0: 3.4673E-06 | 9: delta_s/delta_0: 5.9694E-06 | 10: delta_r/delta_0: 1.3309E-06 | 11: delta_s/delta_0: 9.5449E-07 | 12: delta_r/delta_0: 1.1309E-08 | 13: delta_s/delta_0: 1.2055E-09 | 14: delta_r/delta_0: 6.4580E-10 | 15: delta_s/delta_0: 5.4705E-10 | 16: delta_r/delta_0: 3.4297E-10 | 17: delta_s/delta_0: 9.2050E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.916762585591923E-002 4.021608577404548E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2799E-03 | 2: delta_r/delta_0: 1.4615E-04 | 3: delta_s/delta_0: 3.6369E-05 | 4: delta_r/delta_0: 3.8858E-06 | 5: delta_s/delta_0: 5.1881E-06 | 6: delta_r/delta_0: 1.2643E-06 | 7: delta_s/delta_0: 1.2664E-05 | 8: delta_r/delta_0: 3.4513E-06 | 9: delta_s/delta_0: 5.9563E-06 | 10: delta_r/delta_0: 1.3268E-06 | 11: delta_s/delta_0: 9.5059E-07 | 12: delta_r/delta_0: 1.1314E-08 | 13: delta_s/delta_0: 1.2054E-09 | 14: delta_r/delta_0: 6.4535E-10 | 15: delta_s/delta_0: 5.5069E-10 | 16: delta_r/delta_0: 3.4349E-10 | 17: delta_s/delta_0: 9.2077E-11 | Reached bicg-stab tolerance | BP delta = -0.1565731 -0.1700386 2827431.72394377 | BP delta = -0.1565731 -0.1710507 2827434.72777545 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95925450 | --> Sampling calibration, mode = relcal | relcal = 0.1065340 0.1395453 -0.1102548 -0.1358245 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0620583E-02 1.2432939E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6232E-04 | 2: delta_r/delta_0: 4.4020E-06 | 3: delta_s/delta_0: 8.6512E-06 | 4: delta_r/delta_0: 1.2020E-06 | 5: delta_s/delta_0: 1.7078E-07 | 6: delta_r/delta_0: 1.1308E-07 | 7: delta_s/delta_0: 8.1401E-07 | 8: delta_r/delta_0: 2.3371E-08 | 9: delta_s/delta_0: 1.5069E-07 | 10: delta_r/delta_0: 6.3968E-08 | 11: delta_s/delta_0: 1.2534E-09 | 12: delta_r/delta_0: 8.8129E-10 | 13: delta_s/delta_0: 6.2675E-10 | 14: delta_r/delta_0: 2.2103E-10 | 15: delta_s/delta_0: 7.2221E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.900125005205212E-002 3.696848550363928E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6234E-04 | 2: delta_r/delta_0: 4.4022E-06 | 3: delta_s/delta_0: 8.6507E-06 | 4: delta_r/delta_0: 1.2015E-06 | 5: delta_s/delta_0: 1.7074E-07 | 6: delta_r/delta_0: 1.1301E-07 | 7: delta_s/delta_0: 8.1272E-07 | 8: delta_r/delta_0: 2.3373E-08 | 9: delta_s/delta_0: 1.5409E-07 | 10: delta_r/delta_0: 6.4941E-08 | 11: delta_s/delta_0: 1.2539E-09 | 12: delta_r/delta_0: 8.8263E-10 | 13: delta_s/delta_0: 6.1720E-10 | 14: delta_r/delta_0: 2.2273E-10 | 15: delta_s/delta_0: 7.2299E-11 | Reached bicg-stab tolerance | BP delta = 2.5492255E-02 0.1287115 3004534.37457618 | BP delta = 2.5492255E-02 0.1294356 3004819.59952948 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160234 | New value = -3.217808 | poltype: 2 pol: 1 CPU time specind = 2.3647070E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195773 | New value = -3.192757 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159832 | New value = -3.033302 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200043 | New value = -3.017281 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165849 | New value = -3.157219 | poltype: 2 pol: 2 CPU time specind = 4.3258667E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.13542E+08, tol = 0.87255E+01, time = 5.50 | CG iter. 2 -- res = 0.33765E+06, tol = 0.87255E+01, time = 5.28 | CG iter. 3 -- res = 0.51454E+05, tol = 0.87255E+01, time = 5.78 | CG iter. 4 -- res = 0.26068E+05, tol = 0.87255E+01, time = 5.71 | CG iter. 5 -- res = 0.16251E+05, tol = 0.87255E+01, time = 11.11 | CG iter. 6 -- res = 0.11807E+05, tol = 0.87255E+01, time = 5.91 | CG iter. 7 -- res = 0.10695E+05, tol = 0.87255E+01, time = 5.47 | CG iter. 8 -- res = 0.91654E+04, tol = 0.87255E+01, time = 5.46 | CG iter. 9 -- res = 0.87248E+04, tol = 0.87255E+01, time = 5.37 | CG iter. 10 -- res = 0.85813E+04, tol = 0.87255E+01, time = 5.59 | CG iter. 11 -- res = 0.66273E+04, tol = 0.87255E+01, time = 5.39 | CG iter. 12 -- res = 0.44749E+04, tol = 0.87255E+01, time = 5.72 | CG iter. 13 -- res = 0.32353E+04, tol = 0.87255E+01, time = 5.61 | CG iter. 14 -- res = 0.27752E+04, tol = 0.87255E+01, time = 5.32 | CG iter. 15 -- res = 0.26361E+04, tol = 0.87255E+01, time = 5.34 | CG iter. 16 -- res = 0.21444E+04, tol = 0.87255E+01, time = 5.37 | CG iter. 17 -- res = 0.15956E+04, tol = 0.87255E+01, time = 5.50 | CG iter. 18 -- res = 0.12675E+04, tol = 0.87255E+01, time = 5.56 | CG iter. 19 -- res = 0.10842E+04, tol = 0.87255E+01, time = 5.35 | CG iter. 20 -- res = 0.86667E+03, tol = 0.87255E+01, time = 5.40 | CG iter. 21 -- res = 0.65207E+03, tol = 0.87255E+01, time = 6.86 | CG iter. 22 -- res = 0.51347E+03, tol = 0.87255E+01, time = 5.98 | CG iter. 23 -- res = 0.46437E+03, tol = 0.87255E+01, time = 5.77 | CG iter. 24 -- res = 0.40500E+03, tol = 0.87255E+01, time = 5.63 | CG iter. 25 -- res = 0.32430E+03, tol = 0.87255E+01, time = 5.25 | CG iter. 26 -- res = 0.23696E+03, tol = 0.87255E+01, time = 5.28 | CG iter. 27 -- res = 0.19220E+03, tol = 0.87255E+01, time = 5.62 | CG iter. 28 -- res = 0.16687E+03, tol = 0.87255E+01, time = 5.24 | CG iter. 29 -- res = 0.13476E+03, tol = 0.87255E+01, time = 5.30 | CG iter. 30 -- res = 0.10428E+03, tol = 0.87255E+01, time = 5.56 | CG iter. 31 -- res = 0.85610E+02, tol = 0.87255E+01, time = 5.27 | CG iter. 32 -- res = 0.73527E+02, tol = 0.87255E+01, time = 5.31 | CG iter. 33 -- res = 0.60971E+02, tol = 0.87255E+01, time = 5.69 | CG iter. 34 -- res = 0.46085E+02, tol = 0.87255E+01, time = 5.41 | CG iter. 35 -- res = 0.36854E+02, tol = 0.87255E+01, time = 5.57 | CG iter. 36 -- res = 0.31484E+02, tol = 0.87255E+01, time = 5.62 | CG iter. 37 -- res = 0.27196E+02, tol = 0.87255E+01, time = 5.20 | CG iter. 38 -- res = 0.21538E+02, tol = 0.87255E+01, time = 5.42 | CG iter. 39 -- res = 0.16709E+02, tol = 0.87255E+01, time = 5.47 | CG iter. 40 -- res = 0.14270E+02, tol = 0.87255E+01, time = 5.55 | CG iter. 41 -- res = 0.12702E+02, tol = 0.87255E+01, time = 6.24 | CG iter. 42 -- res = 0.10543E+02, tol = 0.87255E+01, time = 5.42 | CG iter. 43 -- res = 0.88333E+01, tol = 0.87255E+01, time = 5.12 | CG iter. 44 -- res = 0.76147E+01, tol = 0.87255E+01, time = 5.53 | CG iter. 45 -- res = 0.67951E+01, tol = 0.87255E+01, time = 5.28 | CG iter. 46 -- res = 0.58712E+01, tol = 0.87255E+01, time = 5.25 | CG iter. 47 -- res = 0.48092E+01, tol = 0.87255E+01, time = 5.52 | CG iter. 48 -- res = 0.39601E+01, tol = 0.87255E+01, time = 5.18 | CG iter. 49 -- res = 0.35475E+01, tol = 0.87255E+01, time = 5.49 | CG iter. 50 -- res = 0.32100E+01, tol = 0.87255E+01, time = 5.24 | Final CG iter 51 -- res = 0.32100E+01, tol = 0.87255E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8837227.003 | Old band monopole 7798599.456 | Change to band monopole 1038627.547 | Change to component monopole -1038623.079 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.26299E+06, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.77207E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.26501E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.86613E-02, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.30375E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8837188.992 | (Sampled value in CG: 8796098.211 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.554550 | New value = 1.498374 | poltype: 2 pol: 1 CPU time specind = 2.1218061E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.530927 | New value = 1.526733 | poltype: 2 pol: 2 CPU time specind = 2.8140545E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.24707E+08, tol = 0.47654E+04, time = 5.89 | CG iter. 2 -- res = 0.53077E+07, tol = 0.47654E+04, time = 6.29 | CG iter. 3 -- res = 0.84996E+06, tol = 0.47654E+04, time = 6.25 | CG iter. 4 -- res = 0.36511E+06, tol = 0.47654E+04, time = 7.53 | CG iter. 5 -- res = 0.15778E+06, tol = 0.47654E+04, time = 6.73 | CG iter. 6 -- res = 0.81071E+05, tol = 0.47654E+04, time = 6.35 | CG iter. 7 -- res = 0.44155E+05, tol = 0.47654E+04, time = 6.11 | CG iter. 8 -- res = 0.21644E+05, tol = 0.47654E+04, time = 6.30 | CG iter. 9 -- res = 0.95484E+04, tol = 0.47654E+04, time = 6.05 | CG iter. 10 -- res = 0.38656E+04, tol = 0.47654E+04, time = 6.26 | CG iter. 11 -- res = 0.17460E+04, tol = 0.47654E+04, time = 6.18 | CG iter. 12 -- res = 0.89317E+03, tol = 0.47654E+04, time = 6.18 | CG iter. 13 -- res = 0.50408E+03, tol = 0.47654E+04, time = 6.32 | CG iter. 14 -- res = 0.28761E+03, tol = 0.47654E+04, time = 6.08 | CG iter. 15 -- res = 0.14723E+03, tol = 0.47654E+04, time = 6.39 | CG iter. 16 -- res = 0.69313E+02, tol = 0.47654E+04, time = 6.20 | CG iter. 17 -- res = 0.32234E+02, tol = 0.47654E+04, time = 6.07 | CG iter. 18 -- res = 0.16524E+02, tol = 0.47654E+04, time = 6.15 | CG iter. 19 -- res = 0.90948E+01, tol = 0.47654E+04, time = 5.94 | CG iter. 20 -- res = 0.51585E+01, tol = 0.47654E+04, time = 6.38 | CG iter. 21 -- res = 0.28499E+01, tol = 0.47654E+04, time = 6.39 | CG iter. 22 -- res = 0.14680E+01, tol = 0.47654E+04, time = 6.16 | CG iter. 23 -- res = 0.71229E+00, tol = 0.47654E+04, time = 6.58 | CG iter. 24 -- res = 0.37301E+00, tol = 0.47654E+04, time = 6.17 | CG iter. 25 -- res = 0.20861E+00, tol = 0.47654E+04, time = 6.15 | CG iter. 26 -- res = 0.11977E+00, tol = 0.47654E+04, time = 6.05 | CG iter. 27 -- res = 0.68834E-01, tol = 0.47654E+04, time = 6.10 | CG iter. 28 -- res = 0.37292E-01, tol = 0.47654E+04, time = 6.18 | CG iter. 29 -- res = 0.19471E-01, tol = 0.47654E+04, time = 5.62 | CG iter. 30 -- res = 0.10228E-01, tol = 0.47654E+04, time = 6.13 | CG iter. 31 -- res = 0.56517E-02, tol = 0.47654E+04, time = 6.09 | CG iter. 32 -- res = 0.31653E-02, tol = 0.47654E+04, time = 6.21 | CG iter. 33 -- res = 0.17784E-02, tol = 0.47654E+04, time = 6.34 | CG iter. 34 -- res = 0.96045E-03, tol = 0.47654E+04, time = 6.45 | CG iter. 35 -- res = 0.50243E-03, tol = 0.47654E+04, time = 6.34 | Final CG iter 36 -- res = 0.50243E-03, tol = 0.47654E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 8.928 2.756 | New value 0.539 | Old value 8.928 | Difference -8.388 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.36471E+07, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.37805E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.11441E+01, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.25233E-03, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.30934E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8837188.992 | (Sampled value in CG: 8796530.978 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.478236 | New value = -3.563839 | poltype: 1 pol: 1 CPU time specind = 7.5840950E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.23785E+07, tol = 0.34299E+01, time = 2.61 | CG iter. 2 -- res = 0.94599E+06, tol = 0.34299E+01, time = 2.90 | CG iter. 3 -- res = 0.18879E+06, tol = 0.34299E+01, time = 2.78 | CG iter. 4 -- res = 0.71830E+05, tol = 0.34299E+01, time = 2.54 | CG iter. 5 -- res = 0.41554E+05, tol = 0.34299E+01, time = 2.67 | CG iter. 6 -- res = 0.21982E+05, tol = 0.34299E+01, time = 2.52 | CG iter. 7 -- res = 0.86521E+04, tol = 0.34299E+01, time = 2.68 | CG iter. 8 -- res = 0.36344E+04, tol = 0.34299E+01, time = 2.64 | CG iter. 9 -- res = 0.15304E+04, tol = 0.34299E+01, time = 2.48 | CG iter. 10 -- res = 0.61413E+03, tol = 0.34299E+01, time = 2.44 | CG iter. 11 -- res = 0.24661E+03, tol = 0.34299E+01, time = 2.60 | CG iter. 12 -- res = 0.12201E+03, tol = 0.34299E+01, time = 2.27 | CG iter. 13 -- res = 0.65206E+02, tol = 0.34299E+01, time = 2.44 | CG iter. 14 -- res = 0.32267E+02, tol = 0.34299E+01, time = 4.10 | CG iter. 15 -- res = 0.15946E+02, tol = 0.34299E+01, time = 7.51 | CG iter. 16 -- res = 0.71061E+01, tol = 0.34299E+01, time = 2.61 | CG iter. 17 -- res = 0.28784E+01, tol = 0.34299E+01, time = 2.76 | CG iter. 18 -- res = 0.12375E+01, tol = 0.34299E+01, time = 2.99 | CG iter. 19 -- res = 0.59352E+00, tol = 0.34299E+01, time = 2.57 | CG iter. 20 -- res = 0.30547E+00, tol = 0.34299E+01, time = 2.73 | CG iter. 21 -- res = 0.15587E+00, tol = 0.34299E+01, time = 2.56 | CG iter. 22 -- res = 0.73403E-01, tol = 0.34299E+01, time = 2.51 | CG iter. 23 -- res = 0.32149E-01, tol = 0.34299E+01, time = 2.75 | CG iter. 24 -- res = 0.14125E-01, tol = 0.34299E+01, time = 2.55 | CG iter. 25 -- res = 0.69819E-02, tol = 0.34299E+01, time = 2.52 | CG iter. 26 -- res = 0.35724E-02, tol = 0.34299E+01, time = 2.60 | CG iter. 27 -- res = 0.17691E-02, tol = 0.34299E+01, time = 2.54 | CG iter. 28 -- res = 0.86908E-03, tol = 0.34299E+01, time = 2.49 | CG iter. 29 -- res = 0.39897E-03, tol = 0.34299E+01, time = 2.58 | CG iter. 30 -- res = 0.18819E-03, tol = 0.34299E+01, time = 2.60 | CG iter. 31 -- res = 0.89023E-04, tol = 0.34299E+01, time = 2.35 | CG iter. 32 -- res = 0.45229E-04, tol = 0.34299E+01, time = 2.63 | CG iter. 33 -- res = 0.22539E-04, tol = 0.34299E+01, time = 2.82 | CG iter. 34 -- res = 0.11208E-04, tol = 0.34299E+01, time = 2.52 | CG iter. 35 -- res = 0.53496E-05, tol = 0.34299E+01, time = 2.78 | CG iter. 36 -- res = 0.25189E-05, tol = 0.34299E+01, time = 2.43 | CG iter. 37 -- res = 0.11329E-05, tol = 0.34299E+01, time = 2.66 | CG iter. 38 -- res = 0.54726E-06, tol = 0.34299E+01, time = 2.54 | CG iter. 39 -- res = 0.27717E-06, tol = 0.34299E+01, time = 2.75 | CG iter. 40 -- res = 0.13834E-06, tol = 0.34299E+01, time = 2.61 | CG iter. 41 -- res = 0.67020E-07, tol = 0.34299E+01, time = 2.80 | CG iter. 42 -- res = 0.31511E-07, tol = 0.34299E+01, time = 2.46 | CG iter. 43 -- res = 0.13885E-07, tol = 0.34299E+01, time = 2.28 | CG iter. 44 -- res = 0.65002E-08, tol = 0.34299E+01, time = 2.82 | CG iter. 45 -- res = 0.33209E-08, tol = 0.34299E+01, time = 2.80 | CG iter. 46 -- res = 0.16402E-08, tol = 0.34299E+01, time = 2.48 | CG iter. 47 -- res = 0.80954E-09, tol = 0.34299E+01, time = 3.98 | CG iter. 48 -- res = 0.36748E-09, tol = 0.34299E+01, time = 3.03 | CG iter. 49 -- res = 0.16880E-09, tol = 0.34299E+01, time = 2.85 | CG iter. 50 -- res = 0.77789E-10, tol = 0.34299E+01, time = 2.88 | Final CG iter 51 -- res = 0.77789E-10, tol = 0.34299E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.987 6.439 | New value 3.596 | Old value 2.987 | Difference 0.609 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.23326E+04, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.18907E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.53950E+00, tol = 0.47627E+18, time = 2.00 | Final CG iter 4 -- res = 0.80913E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8837188.992 | (Sampled value in CG: 8804337.072 ) | CPU time specind = 1129.950 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.70139E+08, tol = 0.57683E+04, time = 11.23 | CG iter. 2 -- res = 0.58994E+08, tol = 0.57683E+04, time = 11.59 | CG iter. 3 -- res = 0.15476E+08, tol = 0.57683E+04, time = 10.78 | CG iter. 4 -- res = 0.66203E+07, tol = 0.57683E+04, time = 11.22 | CG iter. 5 -- res = 0.39317E+07, tol = 0.57683E+04, time = 11.64 | CG iter. 6 -- res = 0.22984E+07, tol = 0.57683E+04, time = 11.31 | CG iter. 7 -- res = 0.13853E+07, tol = 0.57683E+04, time = 11.77 | CG iter. 8 -- res = 0.90706E+06, tol = 0.57683E+04, time = 10.88 | CG iter. 9 -- res = 0.56854E+06, tol = 0.57683E+04, time = 11.40 | CG iter. 10 -- res = 0.33367E+06, tol = 0.57683E+04, time = 11.33 | CG iter. 11 -- res = 0.18000E+06, tol = 0.57683E+04, time = 18.03 | CG iter. 12 -- res = 0.97827E+05, tol = 0.57683E+04, time = 10.94 | CG iter. 13 -- res = 0.53499E+05, tol = 0.57683E+04, time = 11.31 | CG iter. 14 -- res = 0.31862E+05, tol = 0.57683E+04, time = 10.99 | CG iter. 15 -- res = 0.21197E+05, tol = 0.57683E+04, time = 11.16 | CG iter. 16 -- res = 0.15416E+05, tol = 0.57683E+04, time = 11.53 | CG iter. 17 -- res = 0.11937E+05, tol = 0.57683E+04, time = 11.17 | CG iter. 18 -- res = 0.90349E+04, tol = 0.57683E+04, time = 12.74 | CG iter. 19 -- res = 0.67281E+04, tol = 0.57683E+04, time = 12.33 | CG iter. 20 -- res = 0.52885E+04, tol = 0.57683E+04, time = 11.60 | CG iter. 21 -- res = 0.45455E+04, tol = 0.57683E+04, time = 11.59 | CG iter. 22 -- res = 0.44228E+04, tol = 0.57683E+04, time = 11.47 | CG iter. 23 -- res = 0.47389E+04, tol = 0.57683E+04, time = 11.26 | CG iter. 24 -- res = 0.52724E+04, tol = 0.57683E+04, time = 11.33 | CG iter. 25 -- res = 0.55410E+04, tol = 0.57683E+04, time = 11.48 | CG iter. 26 -- res = 0.51003E+04, tol = 0.57683E+04, time = 11.50 | CG iter. 27 -- res = 0.43471E+04, tol = 0.57683E+04, time = 11.31 | CG iter. 28 -- res = 0.35983E+04, tol = 0.57683E+04, time = 11.72 | CG iter. 29 -- res = 0.30853E+04, tol = 0.57683E+04, time = 11.51 | CG iter. 30 -- res = 0.26665E+04, tol = 0.57683E+04, time = 11.02 | CG iter. 31 -- res = 0.22927E+04, tol = 0.57683E+04, time = 11.85 | CG iter. 32 -- res = 0.19359E+04, tol = 0.57683E+04, time = 11.13 | CG iter. 33 -- res = 0.15672E+04, tol = 0.57683E+04, time = 11.58 | CG iter. 34 -- res = 0.12329E+04, tol = 0.57683E+04, time = 11.18 | CG iter. 35 -- res = 0.10169E+04, tol = 0.57683E+04, time = 10.88 | CG iter. 36 -- res = 0.89811E+03, tol = 0.57683E+04, time = 17.28 | CG iter. 37 -- res = 0.87654E+03, tol = 0.57683E+04, time = 11.41 | CG iter. 38 -- res = 0.90133E+03, tol = 0.57683E+04, time = 11.44 | CG iter. 39 -- res = 0.91438E+03, tol = 0.57683E+04, time = 11.50 | CG iter. 40 -- res = 0.87977E+03, tol = 0.57683E+04, time = 11.10 | CG iter. 41 -- res = 0.78363E+03, tol = 0.57683E+04, time = 11.10 | CG iter. 42 -- res = 0.67046E+03, tol = 0.57683E+04, time = 11.38 | CG iter. 43 -- res = 0.60914E+03, tol = 0.57683E+04, time = 11.05 | CG iter. 44 -- res = 0.58121E+03, tol = 0.57683E+04, time = 12.57 | CG iter. 45 -- res = 0.55645E+03, tol = 0.57683E+04, time = 11.52 | CG iter. 46 -- res = 0.53727E+03, tol = 0.57683E+04, time = 11.26 | CG iter. 47 -- res = 0.48359E+03, tol = 0.57683E+04, time = 11.54 | CG iter. 48 -- res = 0.42316E+03, tol = 0.57683E+04, time = 11.30 | CG iter. 49 -- res = 0.37585E+03, tol = 0.57683E+04, time = 11.45 | CG iter. 50 -- res = 0.34205E+03, tol = 0.57683E+04, time = 10.84 | CG iter. 51 -- res = 0.33111E+03, tol = 0.57683E+04, time = 11.38 | CG iter. 52 -- res = 0.33127E+03, tol = 0.57683E+04, time = 10.95 | CG iter. 53 -- res = 0.32762E+03, tol = 0.57683E+04, time = 11.01 | CG iter. 54 -- res = 0.31153E+03, tol = 0.57683E+04, time = 11.09 | CG iter. 55 -- res = 0.28857E+03, tol = 0.57683E+04, time = 11.13 | CG iter. 56 -- res = 0.25797E+03, tol = 0.57683E+04, time = 11.79 | CG iter. 57 -- res = 0.23547E+03, tol = 0.57683E+04, time = 11.02 | CG iter. 58 -- res = 0.22392E+03, tol = 0.57683E+04, time = 11.10 | CG iter. 59 -- res = 0.21656E+03, tol = 0.57683E+04, time = 11.48 | CG iter. 60 -- res = 0.20944E+03, tol = 0.57683E+04, time = 10.85 | Final CG iter 61 -- res = 0.20944E+03, tol = 0.57683E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.818 ( -229.738 -2228.627 2510.617 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8103703.948 | Old band monopole 8837227.003 | Change to band monopole -733523.055 | Change to component monopole 733519.900 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.489 2.742 | New value 3.299 | Old value 0.489 | Difference 2.810 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.637 ( 7.338 7.428 -5.746 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.733 6.856 | New value 12.870 | Old value 11.733 | Difference 1.137 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.49917E+06, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.48708E+02, tol = 0.47627E+18, time = 1.77 | CG iter. 3 -- res = 0.20120E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.38497E-02, tol = 0.47627E+18, time = 2.27 | Final CG iter 5 -- res = 0.50078E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8103669.092 | (Sampled value in CG: 8075224.568 ) | Chain = 1 -- chisq = 0.81565445E+09 | Chain = 1 -- wall time = 6126.447 sec Available RAM: MemAvailable: 374628780 kB Available Swap: SwapFree: 1129721740 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 223 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447367 | --> Sampling calibration, mode = relcal | relcal = 1.3431472E-02 7.2210410E-04 -1.5841919E-03 -1.2569384E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1172729 0.1306563 97041994.0901256 | BP delta = 0.1125392 0.1259226 97041994.2417025 | BP chisq diff = 0.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632251 | --> Sampling calibration, mode = relcal | relcal = -2.8204259E-03 -7.0293259E-04 1.6781552E-03 1.6133346E-03 -4.0823818E-04 6.4010703E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5798143 15215405.5695577 | BP delta = 0.0000000E+00 -0.5751723 15215404.3955367 | BP chisq diff = -1.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18193497551175 | --> Sampling calibration, mode = relcal | relcal = -7.4016161E-02 -5.7888601E-02 9.0836048E-02 4.1068714E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3690160E-04 3.7207804E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1006E-04 | 2: delta_r/delta_0: 1.4541E-05 | 3: delta_s/delta_0: 1.9742E-07 | 4: delta_r/delta_0: 2.1143E-08 | 5: delta_s/delta_0: 5.5261E-09 | 6: delta_r/delta_0: 1.4705E-09 | 7: delta_s/delta_0: 1.3271E-06 | 8: delta_r/delta_0: 3.3226E-08 | 9: delta_s/delta_0: 1.9183E-10 | 10: delta_r/delta_0: 3.4434E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.752401429522402E-004 2.739048045976019E-005 | BP delta = 3.5741538E-02 5.2849378E-02 50481480.2238290 | BP delta = 3.9672684E-02 5.6780528E-02 50481482.5327608 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02565480 | --> Sampling calibration, mode = relcal | relcal = -0.1066121 -9.5495783E-02 0.1448656 5.7242338E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4715773E-03 1.4353514E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0718E-05 | 2: delta_r/delta_0: 1.5099E-06 | 3: delta_s/delta_0: 2.3675E-07 | 4: delta_r/delta_0: 5.1198E-08 | 5: delta_s/delta_0: 2.2548E-08 | 6: delta_r/delta_0: 7.4547E-09 | 7: delta_s/delta_0: 6.7051E-09 | 8: delta_r/delta_0: 1.7008E-09 | 9: delta_s/delta_0: 8.6734E-10 | 10: delta_r/delta_0: 6.4667E-10 | 11: delta_s/delta_0: 6.1191E-10 | 12: delta_r/delta_0: 1.2624E-10 | 13: delta_s/delta_0: 9.6454E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.014842438848306E-002 2.811764756168911E-005 | BP delta = -0.2634718 -0.2392008 57392892.3391024 | BP delta = -0.2689552 -0.2446842 57392892.0097695 | BP chisq diff = -0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81201032 | --> Sampling calibration, mode = relcal | relcal = 0.2953361 0.2247942 -0.2836870 -0.2364432 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3660207E-04 5.2503380E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2647E-04 | 2: delta_r/delta_0: 8.0632E-06 | 3: delta_s/delta_0: 4.1089E-06 | 4: delta_r/delta_0: 6.0732E-07 | 5: delta_s/delta_0: 3.5437E-07 | 6: delta_r/delta_0: 1.3066E-07 | 7: delta_s/delta_0: 2.5652E-07 | 8: delta_r/delta_0: 2.7518E-08 | 9: delta_s/delta_0: 3.6162E-08 | 10: delta_r/delta_0: 2.5478E-08 | 11: delta_s/delta_0: 1.6960E-09 | 12: delta_r/delta_0: 1.0512E-09 | 13: delta_s/delta_0: 1.2778E-08 | 14: delta_r/delta_0: 2.8294E-09 | 15: delta_s/delta_0: 8.7832E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.008190223988731E-002 4.022733716980755E-005 | BP delta = -0.1565731 -0.1700386 72487470.7245456 | BP delta = -9.5589586E-02 -0.1090551 72487471.8490893 | BP chisq diff = 1.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95872253 | --> Sampling calibration, mode = relcal | relcal = 0.1064062 0.1394481 -0.1101364 -0.1357179 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0671545E-03 1.2844495E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5991E-04 | 2: delta_r/delta_0: 4.3388E-06 | 3: delta_s/delta_0: 1.2917E-05 | 4: delta_r/delta_0: 1.5323E-06 | 5: delta_s/delta_0: 1.6639E-07 | 6: delta_r/delta_0: 1.0144E-07 | 7: delta_s/delta_0: 5.7314E-07 | 8: delta_r/delta_0: 2.3866E-08 | 9: delta_s/delta_0: 1.9513E-07 | 10: delta_r/delta_0: 1.8999E-08 | 11: delta_s/delta_0: 9.7039E-10 | 12: delta_r/delta_0: 7.5096E-10 | 13: delta_s/delta_0: 4.7277E-10 | 14: delta_r/delta_0: 2.3729E-10 | 15: delta_s/delta_0: 6.0288E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.888709027742360E-002 3.698832446754943E-005 | BP delta = 2.5492255E-02 0.1287115 72785027.3891693 | BP delta = 1.0378652E-02 0.1135979 72785028.0962412 | BP chisq diff = 0.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.217808 | New value = -3.188644 | poltype: 2 pol: 1 CPU time specind = 2.4152994E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.192757 | New value = -3.131690 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.033302 | New value = -3.104241 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.017281 | New value = -3.169512 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157219 | New value = -3.124875 | poltype: 2 pol: 2 CPU time specind = 3.3615828E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.52 | CG iter. 1 -- res = 0.13555E+08, tol = 0.84186E+01, time = 5.36 | CG iter. 2 -- res = 0.31793E+06, tol = 0.84186E+01, time = 5.37 | CG iter. 3 -- res = 0.45789E+05, tol = 0.84186E+01, time = 7.43 | CG iter. 4 -- res = 0.20542E+05, tol = 0.84186E+01, time = 5.76 | CG iter. 5 -- res = 0.10075E+05, tol = 0.84186E+01, time = 5.48 | CG iter. 6 -- res = 0.55956E+04, tol = 0.84186E+01, time = 5.52 | CG iter. 7 -- res = 0.38505E+04, tol = 0.84186E+01, time = 5.33 | CG iter. 8 -- res = 0.28371E+04, tol = 0.84186E+01, time = 5.29 | CG iter. 9 -- res = 0.23976E+04, tol = 0.84186E+01, time = 5.94 | CG iter. 10 -- res = 0.24777E+04, tol = 0.84186E+01, time = 5.38 | CG iter. 11 -- res = 0.23186E+04, tol = 0.84186E+01, time = 5.25 | CG iter. 12 -- res = 0.17778E+04, tol = 0.84186E+01, time = 5.68 | CG iter. 13 -- res = 0.12351E+04, tol = 0.84186E+01, time = 5.48 | CG iter. 14 -- res = 0.95073E+03, tol = 0.84186E+01, time = 5.20 | CG iter. 15 -- res = 0.82203E+03, tol = 0.84186E+01, time = 5.30 | CG iter. 16 -- res = 0.69309E+03, tol = 0.84186E+01, time = 5.31 | CG iter. 17 -- res = 0.52975E+03, tol = 0.84186E+01, time = 5.39 | CG iter. 18 -- res = 0.41225E+03, tol = 0.84186E+01, time = 5.56 | CG iter. 19 -- res = 0.36069E+03, tol = 0.84186E+01, time = 5.62 | CG iter. 20 -- res = 0.29503E+03, tol = 0.84186E+01, time = 5.32 | CG iter. 21 -- res = 0.21301E+03, tol = 0.84186E+01, time = 5.67 | CG iter. 22 -- res = 0.15938E+03, tol = 0.84186E+01, time = 6.09 | CG iter. 23 -- res = 0.13563E+03, tol = 0.84186E+01, time = 5.20 | CG iter. 24 -- res = 0.11411E+03, tol = 0.84186E+01, time = 5.51 | CG iter. 25 -- res = 0.91051E+02, tol = 0.84186E+01, time = 5.42 | CG iter. 26 -- res = 0.65400E+02, tol = 0.84186E+01, time = 5.34 | CG iter. 27 -- res = 0.49958E+02, tol = 0.84186E+01, time = 5.15 | CG iter. 28 -- res = 0.39965E+02, tol = 0.84186E+01, time = 5.64 | CG iter. 29 -- res = 0.31195E+02, tol = 0.84186E+01, time = 5.67 | CG iter. 30 -- res = 0.22593E+02, tol = 0.84186E+01, time = 5.29 | CG iter. 31 -- res = 0.17082E+02, tol = 0.84186E+01, time = 5.33 | CG iter. 32 -- res = 0.14464E+02, tol = 0.84186E+01, time = 5.69 | CG iter. 33 -- res = 0.11903E+02, tol = 0.84186E+01, time = 5.58 | CG iter. 34 -- res = 0.89852E+01, tol = 0.84186E+01, time = 5.50 | CG iter. 35 -- res = 0.68009E+01, tol = 0.84186E+01, time = 5.08 | CG iter. 36 -- res = 0.56201E+01, tol = 0.84186E+01, time = 5.46 | CG iter. 37 -- res = 0.46197E+01, tol = 0.84186E+01, time = 5.63 | CG iter. 38 -- res = 0.36074E+01, tol = 0.84186E+01, time = 5.63 | CG iter. 39 -- res = 0.26622E+01, tol = 0.84186E+01, time = 5.26 | CG iter. 40 -- res = 0.21562E+01, tol = 0.84186E+01, time = 7.26 | CG iter. 41 -- res = 0.17828E+01, tol = 0.84186E+01, time = 10.22 | CG iter. 42 -- res = 0.14153E+01, tol = 0.84186E+01, time = 5.51 | CG iter. 43 -- res = 0.10845E+01, tol = 0.84186E+01, time = 5.12 | CG iter. 44 -- res = 0.85046E+00, tol = 0.84186E+01, time = 5.65 | CG iter. 45 -- res = 0.70926E+00, tol = 0.84186E+01, time = 5.64 | CG iter. 46 -- res = 0.59386E+00, tol = 0.84186E+01, time = 5.41 | CG iter. 47 -- res = 0.46891E+00, tol = 0.84186E+01, time = 5.53 | CG iter. 48 -- res = 0.37135E+00, tol = 0.84186E+01, time = 5.43 | CG iter. 49 -- res = 0.30641E+00, tol = 0.84186E+01, time = 5.35 | CG iter. 50 -- res = 0.25905E+00, tol = 0.84186E+01, time = 5.51 | Final CG iter 51 -- res = 0.25905E+00, tol = 0.84186E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8607650.717 | Old band monopole 8103703.948 | Change to band monopole 503946.770 | Change to component monopole -503944.602 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.23 | CG iter. 1 -- res = 0.17337E+05, tol = 0.47627E+18, time = 2.22 | CG iter. 2 -- res = 0.25314E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.76403E+00, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.15146E-02, tol = 0.47627E+18, time = 2.24 | Final CG iter 5 -- res = 0.25527E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8607613.694 | (Sampled value in CG: 8625887.092 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498374 | New value = 1.453011 | poltype: 2 pol: 1 CPU time specind = 1.1449814E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526733 | New value = 1.523409 | poltype: 2 pol: 2 CPU time specind = 2.2001982E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.24433E+08, tol = 0.47518E+04, time = 5.96 | CG iter. 2 -- res = 0.54404E+07, tol = 0.47518E+04, time = 6.23 | CG iter. 3 -- res = 0.84987E+06, tol = 0.47518E+04, time = 5.99 | CG iter. 4 -- res = 0.35196E+06, tol = 0.47518E+04, time = 6.21 | CG iter. 5 -- res = 0.15379E+06, tol = 0.47518E+04, time = 6.36 | CG iter. 6 -- res = 0.81682E+05, tol = 0.47518E+04, time = 6.01 | CG iter. 7 -- res = 0.44989E+05, tol = 0.47518E+04, time = 6.11 | CG iter. 8 -- res = 0.21582E+05, tol = 0.47518E+04, time = 5.87 | CG iter. 9 -- res = 0.94127E+04, tol = 0.47518E+04, time = 6.00 | CG iter. 10 -- res = 0.38071E+04, tol = 0.47518E+04, time = 6.25 | CG iter. 11 -- res = 0.17084E+04, tol = 0.47518E+04, time = 6.26 | CG iter. 12 -- res = 0.88074E+03, tol = 0.47518E+04, time = 6.11 | CG iter. 13 -- res = 0.49828E+03, tol = 0.47518E+04, time = 6.28 | CG iter. 14 -- res = 0.28312E+03, tol = 0.47518E+04, time = 6.34 | CG iter. 15 -- res = 0.14526E+03, tol = 0.47518E+04, time = 5.81 | CG iter. 16 -- res = 0.68446E+02, tol = 0.47518E+04, time = 6.27 | CG iter. 17 -- res = 0.31503E+02, tol = 0.47518E+04, time = 6.51 | CG iter. 18 -- res = 0.15768E+02, tol = 0.47518E+04, time = 6.05 | CG iter. 19 -- res = 0.85816E+01, tol = 0.47518E+04, time = 6.45 | CG iter. 20 -- res = 0.48966E+01, tol = 0.47518E+04, time = 6.41 | CG iter. 21 -- res = 0.27452E+01, tol = 0.47518E+04, time = 13.23 | CG iter. 22 -- res = 0.13973E+01, tol = 0.47518E+04, time = 6.35 | CG iter. 23 -- res = 0.68232E+00, tol = 0.47518E+04, time = 6.13 | CG iter. 24 -- res = 0.35575E+00, tol = 0.47518E+04, time = 6.14 | CG iter. 25 -- res = 0.19545E+00, tol = 0.47518E+04, time = 6.59 | CG iter. 26 -- res = 0.11098E+00, tol = 0.47518E+04, time = 5.89 | CG iter. 27 -- res = 0.63123E-01, tol = 0.47518E+04, time = 6.16 | CG iter. 28 -- res = 0.34794E-01, tol = 0.47518E+04, time = 6.18 | CG iter. 29 -- res = 0.18239E-01, tol = 0.47518E+04, time = 6.39 | CG iter. 30 -- res = 0.93709E-02, tol = 0.47518E+04, time = 5.92 | CG iter. 31 -- res = 0.50237E-02, tol = 0.47518E+04, time = 6.55 | CG iter. 32 -- res = 0.28038E-02, tol = 0.47518E+04, time = 6.10 | CG iter. 33 -- res = 0.15858E-02, tol = 0.47518E+04, time = 6.05 | CG iter. 34 -- res = 0.85977E-03, tol = 0.47518E+04, time = 7.11 | CG iter. 35 -- res = 0.45253E-03, tol = 0.47518E+04, time = 7.09 | Final CG iter 36 -- res = 0.45253E-03, tol = 0.47518E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.342 2.751 | New value 1.237 | Old value 3.342 | Difference -2.105 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.36 | CG iter. 1 -- res = 0.23499E+06, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.25382E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.48803E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.70958E-03, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.17463E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8607613.694 | (Sampled value in CG: 8626586.583 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.563839 | New value = -3.679494 | poltype: 1 pol: 1 CPU time specind = 7.5669289E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.21126E+07, tol = 0.22908E+01, time = 2.68 | CG iter. 2 -- res = 0.60994E+06, tol = 0.22908E+01, time = 2.73 | CG iter. 3 -- res = 0.11266E+06, tol = 0.22908E+01, time = 2.72 | CG iter. 4 -- res = 0.51313E+05, tol = 0.22908E+01, time = 2.47 | CG iter. 5 -- res = 0.31284E+05, tol = 0.22908E+01, time = 2.43 | CG iter. 6 -- res = 0.15323E+05, tol = 0.22908E+01, time = 3.43 | CG iter. 7 -- res = 0.60715E+04, tol = 0.22908E+01, time = 3.34 | CG iter. 8 -- res = 0.25681E+04, tol = 0.22908E+01, time = 3.95 | CG iter. 9 -- res = 0.10678E+04, tol = 0.22908E+01, time = 3.05 | CG iter. 10 -- res = 0.44409E+03, tol = 0.22908E+01, time = 2.73 | CG iter. 11 -- res = 0.19686E+03, tol = 0.22908E+01, time = 2.54 | CG iter. 12 -- res = 0.10284E+03, tol = 0.22908E+01, time = 2.69 | CG iter. 13 -- res = 0.50627E+02, tol = 0.22908E+01, time = 2.52 | CG iter. 14 -- res = 0.23559E+02, tol = 0.22908E+01, time = 2.54 | CG iter. 15 -- res = 0.10262E+02, tol = 0.22908E+01, time = 2.82 | CG iter. 16 -- res = 0.42611E+01, tol = 0.22908E+01, time = 2.44 | CG iter. 17 -- res = 0.17963E+01, tol = 0.22908E+01, time = 2.50 | CG iter. 18 -- res = 0.86431E+00, tol = 0.22908E+01, time = 2.52 | CG iter. 19 -- res = 0.44754E+00, tol = 0.22908E+01, time = 2.32 | CG iter. 20 -- res = 0.21724E+00, tol = 0.22908E+01, time = 2.83 | CG iter. 21 -- res = 0.98542E-01, tol = 0.22908E+01, time = 2.79 | CG iter. 22 -- res = 0.45356E-01, tol = 0.22908E+01, time = 2.59 | CG iter. 23 -- res = 0.21004E-01, tol = 0.22908E+01, time = 2.71 | CG iter. 24 -- res = 0.99451E-02, tol = 0.22908E+01, time = 2.53 | CG iter. 25 -- res = 0.52749E-02, tol = 0.22908E+01, time = 2.46 | CG iter. 26 -- res = 0.26099E-02, tol = 0.22908E+01, time = 2.69 | CG iter. 27 -- res = 0.12591E-02, tol = 0.22908E+01, time = 2.58 | CG iter. 28 -- res = 0.57704E-03, tol = 0.22908E+01, time = 2.75 | CG iter. 29 -- res = 0.24556E-03, tol = 0.22908E+01, time = 2.65 | CG iter. 30 -- res = 0.12200E-03, tol = 0.22908E+01, time = 2.47 | CG iter. 31 -- res = 0.62858E-04, tol = 0.22908E+01, time = 2.65 | CG iter. 32 -- res = 0.31276E-04, tol = 0.22908E+01, time = 2.63 | CG iter. 33 -- res = 0.15140E-04, tol = 0.22908E+01, time = 2.76 | CG iter. 34 -- res = 0.67678E-05, tol = 0.22908E+01, time = 2.65 | CG iter. 35 -- res = 0.31010E-05, tol = 0.22908E+01, time = 2.68 | CG iter. 36 -- res = 0.15730E-05, tol = 0.22908E+01, time = 2.53 | CG iter. 37 -- res = 0.75713E-06, tol = 0.22908E+01, time = 2.68 | CG iter. 38 -- res = 0.38979E-06, tol = 0.22908E+01, time = 2.78 | CG iter. 39 -- res = 0.18572E-06, tol = 0.22908E+01, time = 2.52 | CG iter. 40 -- res = 0.80245E-07, tol = 0.22908E+01, time = 2.76 | CG iter. 41 -- res = 0.37509E-07, tol = 0.22908E+01, time = 2.59 | CG iter. 42 -- res = 0.18118E-07, tol = 0.22908E+01, time = 2.92 | CG iter. 43 -- res = 0.91091E-08, tol = 0.22908E+01, time = 2.54 | CG iter. 44 -- res = 0.44158E-08, tol = 0.22908E+01, time = 2.64 | CG iter. 45 -- res = 0.21069E-08, tol = 0.22908E+01, time = 2.41 | CG iter. 46 -- res = 0.95652E-09, tol = 0.22908E+01, time = 2.66 | CG iter. 47 -- res = 0.44607E-09, tol = 0.22908E+01, time = 2.77 | CG iter. 48 -- res = 0.21153E-09, tol = 0.22908E+01, time = 2.47 | CG iter. 49 -- res = 0.10740E-09, tol = 0.22908E+01, time = 2.66 | CG iter. 50 -- res = 0.50786E-10, tol = 0.22908E+01, time = 2.65 | Final CG iter 51 -- res = 0.50786E-10, tol = 0.22908E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.895 6.190 | New value 0.565 | Old value 15.895 | Difference -15.330 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.22833E+06, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.88826E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.38301E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.16753E-02, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.84768E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8607613.694 | (Sampled value in CG: 8623045.918 ) | CPU time specind = 1133.173 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.69775E+08, tol = 0.57822E+04, time = 17.54 | CG iter. 2 -- res = 0.59484E+08, tol = 0.57822E+04, time = 11.27 | CG iter. 3 -- res = 0.15410E+08, tol = 0.57822E+04, time = 11.02 | CG iter. 4 -- res = 0.65564E+07, tol = 0.57822E+04, time = 11.38 | CG iter. 5 -- res = 0.39356E+07, tol = 0.57822E+04, time = 11.51 | CG iter. 6 -- res = 0.23045E+07, tol = 0.57822E+04, time = 11.06 | CG iter. 7 -- res = 0.13403E+07, tol = 0.57822E+04, time = 11.58 | CG iter. 8 -- res = 0.85226E+06, tol = 0.57822E+04, time = 10.88 | CG iter. 9 -- res = 0.53206E+06, tol = 0.57822E+04, time = 13.19 | CG iter. 10 -- res = 0.31877E+06, tol = 0.57822E+04, time = 11.72 | CG iter. 11 -- res = 0.17344E+06, tol = 0.57822E+04, time = 11.20 | CG iter. 12 -- res = 0.92770E+05, tol = 0.57822E+04, time = 11.56 | CG iter. 13 -- res = 0.50362E+05, tol = 0.57822E+04, time = 11.26 | CG iter. 14 -- res = 0.29444E+05, tol = 0.57822E+04, time = 11.30 | CG iter. 15 -- res = 0.19015E+05, tol = 0.57822E+04, time = 11.20 | CG iter. 16 -- res = 0.13403E+05, tol = 0.57822E+04, time = 11.44 | CG iter. 17 -- res = 0.98620E+04, tol = 0.57822E+04, time = 11.21 | CG iter. 18 -- res = 0.68562E+04, tol = 0.57822E+04, time = 11.59 | CG iter. 19 -- res = 0.46374E+04, tol = 0.57822E+04, time = 11.59 | CG iter. 20 -- res = 0.32964E+04, tol = 0.57822E+04, time = 11.21 | CG iter. 21 -- res = 0.25379E+04, tol = 0.57822E+04, time = 10.82 | CG iter. 22 -- res = 0.21433E+04, tol = 0.57822E+04, time = 11.54 | CG iter. 23 -- res = 0.20836E+04, tol = 0.57822E+04, time = 11.55 | CG iter. 24 -- res = 0.22908E+04, tol = 0.57822E+04, time = 11.57 | CG iter. 25 -- res = 0.24662E+04, tol = 0.57822E+04, time = 10.86 | CG iter. 26 -- res = 0.24474E+04, tol = 0.57822E+04, time = 11.50 | CG iter. 27 -- res = 0.22547E+04, tol = 0.57822E+04, time = 17.31 | CG iter. 28 -- res = 0.19685E+04, tol = 0.57822E+04, time = 11.12 | CG iter. 29 -- res = 0.17563E+04, tol = 0.57822E+04, time = 10.93 | CG iter. 30 -- res = 0.15714E+04, tol = 0.57822E+04, time = 10.98 | CG iter. 31 -- res = 0.13775E+04, tol = 0.57822E+04, time = 12.84 | CG iter. 32 -- res = 0.11804E+04, tol = 0.57822E+04, time = 11.30 | CG iter. 33 -- res = 0.96157E+03, tol = 0.57822E+04, time = 11.34 | CG iter. 34 -- res = 0.72167E+03, tol = 0.57822E+04, time = 12.85 | CG iter. 35 -- res = 0.55339E+03, tol = 0.57822E+04, time = 12.24 | CG iter. 36 -- res = 0.45612E+03, tol = 0.57822E+04, time = 11.74 | CG iter. 37 -- res = 0.40821E+03, tol = 0.57822E+04, time = 11.19 | CG iter. 38 -- res = 0.40166E+03, tol = 0.57822E+04, time = 10.83 | CG iter. 39 -- res = 0.39488E+03, tol = 0.57822E+04, time = 11.54 | CG iter. 40 -- res = 0.35387E+03, tol = 0.57822E+04, time = 11.82 | CG iter. 41 -- res = 0.30358E+03, tol = 0.57822E+04, time = 11.20 | CG iter. 42 -- res = 0.25913E+03, tol = 0.57822E+04, time = 11.64 | CG iter. 43 -- res = 0.22644E+03, tol = 0.57822E+04, time = 11.33 | CG iter. 44 -- res = 0.20393E+03, tol = 0.57822E+04, time = 11.09 | CG iter. 45 -- res = 0.18690E+03, tol = 0.57822E+04, time = 11.33 | CG iter. 46 -- res = 0.17011E+03, tol = 0.57822E+04, time = 11.20 | CG iter. 47 -- res = 0.14769E+03, tol = 0.57822E+04, time = 10.78 | CG iter. 48 -- res = 0.12069E+03, tol = 0.57822E+04, time = 11.46 | CG iter. 49 -- res = 0.97408E+02, tol = 0.57822E+04, time = 10.92 | CG iter. 50 -- res = 0.80399E+02, tol = 0.57822E+04, time = 11.76 | CG iter. 51 -- res = 0.69729E+02, tol = 0.57822E+04, time = 11.48 | CG iter. 52 -- res = 0.63711E+02, tol = 0.57822E+04, time = 12.79 | CG iter. 53 -- res = 0.60088E+02, tol = 0.57822E+04, time = 16.23 | CG iter. 54 -- res = 0.56230E+02, tol = 0.57822E+04, time = 11.08 | CG iter. 55 -- res = 0.51681E+02, tol = 0.57822E+04, time = 11.47 | CG iter. 56 -- res = 0.46987E+02, tol = 0.57822E+04, time = 11.57 | CG iter. 57 -- res = 0.43418E+02, tol = 0.57822E+04, time = 11.22 | CG iter. 58 -- res = 0.41603E+02, tol = 0.57822E+04, time = 11.32 | CG iter. 59 -- res = 0.40005E+02, tol = 0.57822E+04, time = 11.20 | CG iter. 60 -- res = 0.38385E+02, tol = 0.57822E+04, time = 13.22 | Final CG iter 61 -- res = 0.38385E+02, tol = 0.57822E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.740 ( -229.874 -2230.249 2512.524 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8190986.378 | Old band monopole 8607650.717 | Change to band monopole -416664.339 | Change to component monopole 416662.547 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.182 2.731 | New value 1.298 | Old value 1.182 | Difference 0.116 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.540 ( 8.015 10.056 -8.893 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.049 4.649 | New value -1.650 | Old value 8.049 | Difference -9.699 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.77755E+04, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.23572E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.67863E+00, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.73679E-03, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.45883E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8190951.147 | (Sampled value in CG: 8164066.029 ) | Chain = 1 -- chisq = 0.81556976E+09 | Chain = 1 -- wall time = 5519.490 sec Available RAM: MemAvailable: 374660764 kB Available Swap: SwapFree: 1130188960 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 224 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444729 | --> Sampling calibration, mode = relcal | relcal = 1.3434880E-02 7.3986349E-04 -1.5995912E-03 -1.2575153E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1125392 0.1259226 9406816.11896951 | BP delta = 0.1125392 0.1279762 9406845.06355329 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632306 | --> Sampling calibration, mode = relcal | relcal = -2.8206503E-03 -7.0402346E-04 1.6784674E-03 1.6134074E-03 -4.0835617E-04 6.4115517E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5751723 15218745.2299767 | BP delta = 0.0000000E+00 -0.5843937 15218746.3417546 | BP chisq diff = 1.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18058258689061 | --> Sampling calibration, mode = relcal | relcal = -7.4366726E-02 -5.8031805E-02 9.1100253E-02 4.1298281E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9821407E-04 4.0437770E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9843E-05 | 2: delta_r/delta_0: 1.6741E-06 | 3: delta_s/delta_0: 2.2153E-07 | 4: delta_r/delta_0: 1.6148E-08 | 5: delta_s/delta_0: 4.1615E-09 | 6: delta_r/delta_0: 1.0070E-09 | 7: delta_s/delta_0: 3.2664E-08 | 8: delta_r/delta_0: 2.2502E-10 | 9: delta_s/delta_0: 3.5676E-10 | 10: delta_r/delta_0: 7.1785E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.861295478979458E-004 2.742134550474303E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.9827E-05 | 2: delta_r/delta_0: 1.6738E-06 | 3: delta_s/delta_0: 2.2154E-07 | 4: delta_r/delta_0: 1.6150E-08 | 5: delta_s/delta_0: 4.1618E-09 | 6: delta_r/delta_0: 1.0071E-09 | 7: delta_s/delta_0: 3.2678E-08 | 8: delta_r/delta_0: 2.2486E-10 | 9: delta_s/delta_0: 3.5695E-10 | 10: delta_r/delta_0: 7.1799E-11 | Reached bicg-stab tolerance | BP delta = 3.5741538E-02 5.2849378E-02 3650738.57405899 | BP delta = 3.5741538E-02 5.3065620E-02 3646156.45092961 | BP chisq diff = -4582.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02586989 | --> Sampling calibration, mode = relcal | relcal = -0.1065696 -9.5582716E-02 0.1448718 5.7280447E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4187140E-03 1.3169765E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2475E-05 | 2: delta_r/delta_0: 1.5396E-06 | 3: delta_s/delta_0: 2.3947E-07 | 4: delta_r/delta_0: 4.0666E-08 | 5: delta_s/delta_0: 2.7353E-08 | 6: delta_r/delta_0: 6.5895E-09 | 7: delta_s/delta_0: 5.6510E-09 | 8: delta_r/delta_0: 1.5892E-09 | 9: delta_s/delta_0: 7.8146E-10 | 10: delta_r/delta_0: 5.8978E-10 | 11: delta_s/delta_0: 1.2080E-09 | 12: delta_r/delta_0: 8.1661E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.011342191231335E-002 2.811172438576326E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2476E-05 | 2: delta_r/delta_0: 1.5397E-06 | 3: delta_s/delta_0: 2.3949E-07 | 4: delta_r/delta_0: 4.0698E-08 | 5: delta_s/delta_0: 2.7328E-08 | 6: delta_r/delta_0: 6.5913E-09 | 7: delta_s/delta_0: 5.6519E-09 | 8: delta_r/delta_0: 1.5896E-09 | 9: delta_s/delta_0: 7.8172E-10 | 10: delta_r/delta_0: 5.8997E-10 | 11: delta_s/delta_0: 1.2097E-09 | 12: delta_r/delta_0: 8.1656E-11 | Reached bicg-stab tolerance | BP delta = -0.2689552 -0.2446842 2841135.82464930 | BP delta = -0.2689552 -0.2429409 2841159.10797100 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81208281 | --> Sampling calibration, mode = relcal | relcal = 0.2953902 0.2247826 -0.2837321 -0.2364407 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8645879E-04 5.1931380E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4117E-04 | 2: delta_r/delta_0: 1.4554E-05 | 3: delta_s/delta_0: 3.9237E-05 | 4: delta_r/delta_0: 3.7806E-06 | 5: delta_s/delta_0: 4.0299E-07 | 6: delta_r/delta_0: 8.6714E-08 | 7: delta_s/delta_0: 5.9593E-08 | 8: delta_r/delta_0: 3.2820E-08 | 9: delta_s/delta_0: 2.1983E-07 | 10: delta_r/delta_0: 2.2425E-09 | 11: delta_s/delta_0: 8.1095E-10 | 12: delta_r/delta_0: 4.5209E-10 | 13: delta_s/delta_0: 4.3894E-10 | 14: delta_r/delta_0: 4.8971E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.137372842937163E-002 4.022383568102193E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.4108E-04 | 2: delta_r/delta_0: 1.4552E-05 | 3: delta_s/delta_0: 3.9244E-05 | 4: delta_r/delta_0: 3.7813E-06 | 5: delta_s/delta_0: 4.0294E-07 | 6: delta_r/delta_0: 8.6711E-08 | 7: delta_s/delta_0: 5.9592E-08 | 8: delta_r/delta_0: 3.2818E-08 | 9: delta_s/delta_0: 2.1975E-07 | 10: delta_r/delta_0: 2.2426E-09 | 11: delta_s/delta_0: 8.1093E-10 | 12: delta_r/delta_0: 4.5213E-10 | 13: delta_s/delta_0: 4.3861E-10 | 14: delta_r/delta_0: 4.8971E-11 | Reached bicg-stab tolerance | BP delta = -9.5589586E-02 -0.1090551 2827333.08073392 | BP delta = -9.5589586E-02 -0.1078769 2827347.55244036 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95899796 | --> Sampling calibration, mode = relcal | relcal = 0.1064126 0.1394297 -0.1102667 -0.1355756 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4562108E-03 1.2966028E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3489E-04 | 2: delta_r/delta_0: 3.8400E-06 | 3: delta_s/delta_0: 4.1270E-06 | 4: delta_r/delta_0: 7.9895E-07 | 5: delta_s/delta_0: 1.5127E-07 | 6: delta_r/delta_0: 1.0073E-07 | 7: delta_s/delta_0: 6.8783E-07 | 8: delta_r/delta_0: 2.1844E-08 | 9: delta_s/delta_0: 2.1546E-08 | 10: delta_r/delta_0: 1.2662E-08 | 11: delta_s/delta_0: 1.3080E-09 | 12: delta_r/delta_0: 6.5850E-10 | 13: delta_s/delta_0: 2.4341E-10 | 14: delta_r/delta_0: 1.3309E-10 | 15: delta_s/delta_0: 6.2491E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.815766713309953E-002 3.697622405285347E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3488E-04 | 2: delta_r/delta_0: 3.8402E-06 | 3: delta_s/delta_0: 4.1275E-06 | 4: delta_r/delta_0: 7.9911E-07 | 5: delta_s/delta_0: 1.5131E-07 | 6: delta_r/delta_0: 1.0078E-07 | 7: delta_s/delta_0: 6.8957E-07 | 8: delta_r/delta_0: 2.1826E-08 | 9: delta_s/delta_0: 2.1507E-08 | 10: delta_r/delta_0: 1.2664E-08 | 11: delta_s/delta_0: 1.3064E-09 | 12: delta_r/delta_0: 6.5807E-10 | 13: delta_s/delta_0: 2.4454E-10 | 14: delta_r/delta_0: 1.3047E-10 | 15: delta_s/delta_0: 6.1548E-11 | Reached bicg-stab tolerance | BP delta = 1.0378652E-02 0.1135979 3004018.04060072 | BP delta = 1.0378652E-02 0.1019835 3004392.28490846 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188644 | New value = -3.154031 | poltype: 2 pol: 1 CPU time specind = 6.8330765E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131690 | New value = -3.101330 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.104241 | New value = -3.115134 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.169512 | New value = -3.176230 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124875 | New value = -3.094116 | poltype: 2 pol: 2 CPU time specind = 3.5889149E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.13544E+08, tol = 0.83825E+01, time = 5.72 | CG iter. 2 -- res = 0.32563E+06, tol = 0.83825E+01, time = 5.43 | CG iter. 3 -- res = 0.49495E+05, tol = 0.83825E+01, time = 5.44 | CG iter. 4 -- res = 0.24610E+05, tol = 0.83825E+01, time = 5.06 | CG iter. 5 -- res = 0.14647E+05, tol = 0.83825E+01, time = 5.28 | CG iter. 6 -- res = 0.98223E+04, tol = 0.83825E+01, time = 5.60 | CG iter. 7 -- res = 0.85281E+04, tol = 0.83825E+01, time = 5.07 | CG iter. 8 -- res = 0.71639E+04, tol = 0.83825E+01, time = 5.05 | CG iter. 9 -- res = 0.66268E+04, tol = 0.83825E+01, time = 5.18 | CG iter. 10 -- res = 0.65645E+04, tol = 0.83825E+01, time = 5.48 | CG iter. 11 -- res = 0.53032E+04, tol = 0.83825E+01, time = 5.19 | CG iter. 12 -- res = 0.34654E+04, tol = 0.83825E+01, time = 5.28 | CG iter. 13 -- res = 0.23982E+04, tol = 0.83825E+01, time = 5.18 | CG iter. 14 -- res = 0.19709E+04, tol = 0.83825E+01, time = 5.35 | CG iter. 15 -- res = 0.17811E+04, tol = 0.83825E+01, time = 5.46 | CG iter. 16 -- res = 0.14102E+04, tol = 0.83825E+01, time = 5.38 | CG iter. 17 -- res = 0.10701E+04, tol = 0.83825E+01, time = 5.31 | CG iter. 18 -- res = 0.82925E+03, tol = 0.83825E+01, time = 5.53 | CG iter. 19 -- res = 0.69525E+03, tol = 0.83825E+01, time = 5.67 | CG iter. 20 -- res = 0.57889E+03, tol = 0.83825E+01, time = 5.88 | CG iter. 21 -- res = 0.42312E+03, tol = 0.83825E+01, time = 5.19 | CG iter. 22 -- res = 0.33182E+03, tol = 0.83825E+01, time = 5.36 | CG iter. 23 -- res = 0.28805E+03, tol = 0.83825E+01, time = 5.79 | CG iter. 24 -- res = 0.25275E+03, tol = 0.83825E+01, time = 5.01 | CG iter. 25 -- res = 0.19726E+03, tol = 0.83825E+01, time = 5.50 | CG iter. 26 -- res = 0.14824E+03, tol = 0.83825E+01, time = 5.55 | CG iter. 27 -- res = 0.12240E+03, tol = 0.83825E+01, time = 5.34 | CG iter. 28 -- res = 0.11007E+03, tol = 0.83825E+01, time = 5.75 | CG iter. 29 -- res = 0.91159E+02, tol = 0.83825E+01, time = 5.46 | CG iter. 30 -- res = 0.72622E+02, tol = 0.83825E+01, time = 5.15 | CG iter. 31 -- res = 0.59810E+02, tol = 0.83825E+01, time = 5.56 | CG iter. 32 -- res = 0.54073E+02, tol = 0.83825E+01, time = 5.61 | CG iter. 33 -- res = 0.44020E+02, tol = 0.83825E+01, time = 5.09 | CG iter. 34 -- res = 0.34062E+02, tol = 0.83825E+01, time = 5.41 | CG iter. 35 -- res = 0.27624E+02, tol = 0.83825E+01, time = 5.38 | CG iter. 36 -- res = 0.24296E+02, tol = 0.83825E+01, time = 5.28 | CG iter. 37 -- res = 0.21050E+02, tol = 0.83825E+01, time = 5.46 | CG iter. 38 -- res = 0.16516E+02, tol = 0.83825E+01, time = 11.54 | CG iter. 39 -- res = 0.13308E+02, tol = 0.83825E+01, time = 5.43 | CG iter. 40 -- res = 0.11176E+02, tol = 0.83825E+01, time = 5.46 | CG iter. 41 -- res = 0.95800E+01, tol = 0.83825E+01, time = 5.13 | CG iter. 42 -- res = 0.77216E+01, tol = 0.83825E+01, time = 5.31 | CG iter. 43 -- res = 0.59464E+01, tol = 0.83825E+01, time = 5.76 | CG iter. 44 -- res = 0.48570E+01, tol = 0.83825E+01, time = 5.25 | CG iter. 45 -- res = 0.40980E+01, tol = 0.83825E+01, time = 5.17 | CG iter. 46 -- res = 0.33023E+01, tol = 0.83825E+01, time = 5.83 | CG iter. 47 -- res = 0.25500E+01, tol = 0.83825E+01, time = 5.10 | CG iter. 48 -- res = 0.20181E+01, tol = 0.83825E+01, time = 5.16 | CG iter. 49 -- res = 0.16284E+01, tol = 0.83825E+01, time = 5.46 | CG iter. 50 -- res = 0.13721E+01, tol = 0.83825E+01, time = 5.06 | Final CG iter 51 -- res = 0.13721E+01, tol = 0.83825E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9567836.224 | Old band monopole 8190986.378 | Change to band monopole 1376849.846 | Change to component monopole -1376843.924 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.66290E+04, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.26577E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.76296E+00, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.12199E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.20707E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9567795.071 | (Sampled value in CG: 9597927.685 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.453011 | New value = 1.468228 | poltype: 2 pol: 1 CPU time specind = 8.4731579E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.523409 | New value = 1.510995 | poltype: 2 pol: 2 CPU time specind = 9.3338490E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.24066E+08, tol = 0.47538E+04, time = 6.11 | CG iter. 2 -- res = 0.53666E+07, tol = 0.47538E+04, time = 6.10 | CG iter. 3 -- res = 0.82226E+06, tol = 0.47538E+04, time = 6.22 | CG iter. 4 -- res = 0.34008E+06, tol = 0.47538E+04, time = 6.28 | CG iter. 5 -- res = 0.14827E+06, tol = 0.47538E+04, time = 6.11 | CG iter. 6 -- res = 0.78065E+05, tol = 0.47538E+04, time = 6.16 | CG iter. 7 -- res = 0.42967E+05, tol = 0.47538E+04, time = 6.10 | CG iter. 8 -- res = 0.20757E+05, tol = 0.47538E+04, time = 6.30 | CG iter. 9 -- res = 0.91217E+04, tol = 0.47538E+04, time = 6.31 | CG iter. 10 -- res = 0.36452E+04, tol = 0.47538E+04, time = 6.17 | CG iter. 11 -- res = 0.16108E+04, tol = 0.47538E+04, time = 6.19 | CG iter. 12 -- res = 0.83045E+03, tol = 0.47538E+04, time = 6.03 | CG iter. 13 -- res = 0.48060E+03, tol = 0.47538E+04, time = 6.20 | CG iter. 14 -- res = 0.27329E+03, tol = 0.47538E+04, time = 5.79 | CG iter. 15 -- res = 0.14096E+03, tol = 0.47538E+04, time = 6.25 | CG iter. 16 -- res = 0.66287E+02, tol = 0.47538E+04, time = 5.99 | CG iter. 17 -- res = 0.30681E+02, tol = 0.47538E+04, time = 6.28 | CG iter. 18 -- res = 0.15412E+02, tol = 0.47538E+04, time = 6.62 | CG iter. 19 -- res = 0.83470E+01, tol = 0.47538E+04, time = 12.85 | CG iter. 20 -- res = 0.47158E+01, tol = 0.47538E+04, time = 6.30 | CG iter. 21 -- res = 0.26313E+01, tol = 0.47538E+04, time = 6.05 | CG iter. 22 -- res = 0.13752E+01, tol = 0.47538E+04, time = 5.83 | CG iter. 23 -- res = 0.68157E+00, tol = 0.47538E+04, time = 6.22 | CG iter. 24 -- res = 0.33898E+00, tol = 0.47538E+04, time = 6.01 | CG iter. 25 -- res = 0.18253E+00, tol = 0.47538E+04, time = 6.10 | CG iter. 26 -- res = 0.10276E+00, tol = 0.47538E+04, time = 6.00 | CG iter. 27 -- res = 0.57631E-01, tol = 0.47538E+04, time = 5.85 | CG iter. 28 -- res = 0.30609E-01, tol = 0.47538E+04, time = 6.23 | CG iter. 29 -- res = 0.15879E-01, tol = 0.47538E+04, time = 6.51 | CG iter. 30 -- res = 0.84043E-02, tol = 0.47538E+04, time = 6.06 | CG iter. 31 -- res = 0.46272E-02, tol = 0.47538E+04, time = 6.35 | CG iter. 32 -- res = 0.27050E-02, tol = 0.47538E+04, time = 5.88 | CG iter. 33 -- res = 0.15373E-02, tol = 0.47538E+04, time = 7.57 | CG iter. 34 -- res = 0.82674E-03, tol = 0.47538E+04, time = 6.40 | CG iter. 35 -- res = 0.43037E-03, tol = 0.47538E+04, time = 6.41 | Final CG iter 36 -- res = 0.43037E-03, tol = 0.47538E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.311 2.751 | New value -0.088 | Old value 1.311 | Difference -1.399 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.10278E+06, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.29230E+02, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.79274E+00, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.37084E-03, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.76364E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9567795.071 | (Sampled value in CG: 9598657.990 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.679494 | New value = -3.586635 | poltype: 1 pol: 1 CPU time specind = 7.7030659E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.21645E+07, tol = 0.18687E+01, time = 2.55 | CG iter. 2 -- res = 0.77163E+06, tol = 0.18687E+01, time = 2.59 | CG iter. 3 -- res = 0.14702E+06, tol = 0.18687E+01, time = 2.59 | CG iter. 4 -- res = 0.58302E+05, tol = 0.18687E+01, time = 2.57 | CG iter. 5 -- res = 0.32505E+05, tol = 0.18687E+01, time = 3.60 | CG iter. 6 -- res = 0.17625E+05, tol = 0.18687E+01, time = 3.17 | CG iter. 7 -- res = 0.72918E+04, tol = 0.18687E+01, time = 2.96 | CG iter. 8 -- res = 0.32164E+04, tol = 0.18687E+01, time = 2.77 | CG iter. 9 -- res = 0.13629E+04, tol = 0.18687E+01, time = 2.91 | CG iter. 10 -- res = 0.54388E+03, tol = 0.18687E+01, time = 2.73 | CG iter. 11 -- res = 0.21847E+03, tol = 0.18687E+01, time = 2.77 | CG iter. 12 -- res = 0.10685E+03, tol = 0.18687E+01, time = 2.53 | CG iter. 13 -- res = 0.54595E+02, tol = 0.18687E+01, time = 2.59 | CG iter. 14 -- res = 0.26985E+02, tol = 0.18687E+01, time = 2.72 | CG iter. 15 -- res = 0.12101E+02, tol = 0.18687E+01, time = 2.53 | CG iter. 16 -- res = 0.52120E+01, tol = 0.18687E+01, time = 2.59 | CG iter. 17 -- res = 0.21030E+01, tol = 0.18687E+01, time = 2.58 | CG iter. 18 -- res = 0.97575E+00, tol = 0.18687E+01, time = 2.60 | CG iter. 19 -- res = 0.50466E+00, tol = 0.18687E+01, time = 2.59 | CG iter. 20 -- res = 0.25851E+00, tol = 0.18687E+01, time = 2.40 | CG iter. 21 -- res = 0.12366E+00, tol = 0.18687E+01, time = 2.56 | CG iter. 22 -- res = 0.60759E-01, tol = 0.18687E+01, time = 2.55 | CG iter. 23 -- res = 0.28423E-01, tol = 0.18687E+01, time = 2.55 | CG iter. 24 -- res = 0.12963E-01, tol = 0.18687E+01, time = 2.40 | CG iter. 25 -- res = 0.67107E-02, tol = 0.18687E+01, time = 2.36 | CG iter. 26 -- res = 0.36667E-02, tol = 0.18687E+01, time = 2.76 | CG iter. 27 -- res = 0.17930E-02, tol = 0.18687E+01, time = 2.33 | CG iter. 28 -- res = 0.84526E-03, tol = 0.18687E+01, time = 2.42 | CG iter. 29 -- res = 0.37225E-03, tol = 0.18687E+01, time = 2.61 | CG iter. 30 -- res = 0.17508E-03, tol = 0.18687E+01, time = 2.48 | CG iter. 31 -- res = 0.88618E-04, tol = 0.18687E+01, time = 2.62 | CG iter. 32 -- res = 0.46214E-04, tol = 0.18687E+01, time = 2.75 | CG iter. 33 -- res = 0.22262E-04, tol = 0.18687E+01, time = 2.73 | CG iter. 34 -- res = 0.10387E-04, tol = 0.18687E+01, time = 2.34 | CG iter. 35 -- res = 0.49585E-05, tol = 0.18687E+01, time = 2.39 | CG iter. 36 -- res = 0.23135E-05, tol = 0.18687E+01, time = 2.46 | CG iter. 37 -- res = 0.11271E-05, tol = 0.18687E+01, time = 2.67 | CG iter. 38 -- res = 0.56980E-06, tol = 0.18687E+01, time = 2.90 | CG iter. 39 -- res = 0.27605E-06, tol = 0.18687E+01, time = 2.57 | CG iter. 40 -- res = 0.13145E-06, tol = 0.18687E+01, time = 2.70 | CG iter. 41 -- res = 0.63517E-07, tol = 0.18687E+01, time = 2.48 | CG iter. 42 -- res = 0.30372E-07, tol = 0.18687E+01, time = 2.47 | CG iter. 43 -- res = 0.13532E-07, tol = 0.18687E+01, time = 2.81 | CG iter. 44 -- res = 0.64028E-08, tol = 0.18687E+01, time = 2.72 | CG iter. 45 -- res = 0.32770E-08, tol = 0.18687E+01, time = 2.64 | CG iter. 46 -- res = 0.15794E-08, tol = 0.18687E+01, time = 2.58 | CG iter. 47 -- res = 0.73875E-09, tol = 0.18687E+01, time = 2.54 | CG iter. 48 -- res = 0.34357E-09, tol = 0.18687E+01, time = 2.52 | CG iter. 49 -- res = 0.15919E-09, tol = 0.18687E+01, time = 2.70 | CG iter. 50 -- res = 0.75679E-10, tol = 0.18687E+01, time = 2.61 | Final CG iter 51 -- res = 0.75679E-10, tol = 0.18687E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.637 4.105 | New value -6.280 | Old value 0.637 | Difference -6.917 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.48501E+05, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.31659E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.13366E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.31143E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.33287E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9567795.071 | (Sampled value in CG: 9591908.424 ) | CPU time specind = 1118.390 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.68352E+08, tol = 0.57619E+04, time = 17.33 | CG iter. 2 -- res = 0.58898E+08, tol = 0.57619E+04, time = 11.08 | CG iter. 3 -- res = 0.15364E+08, tol = 0.57619E+04, time = 11.44 | CG iter. 4 -- res = 0.63770E+07, tol = 0.57619E+04, time = 11.69 | CG iter. 5 -- res = 0.37783E+07, tol = 0.57619E+04, time = 10.87 | CG iter. 6 -- res = 0.22071E+07, tol = 0.57619E+04, time = 11.29 | CG iter. 7 -- res = 0.13076E+07, tol = 0.57619E+04, time = 11.25 | CG iter. 8 -- res = 0.85539E+06, tol = 0.57619E+04, time = 11.02 | CG iter. 9 -- res = 0.55181E+06, tol = 0.57619E+04, time = 12.59 | CG iter. 10 -- res = 0.33099E+06, tol = 0.57619E+04, time = 11.20 | CG iter. 11 -- res = 0.18055E+06, tol = 0.57619E+04, time = 11.16 | CG iter. 12 -- res = 0.97807E+05, tol = 0.57619E+04, time = 11.03 | CG iter. 13 -- res = 0.51673E+05, tol = 0.57619E+04, time = 11.20 | CG iter. 14 -- res = 0.29522E+05, tol = 0.57619E+04, time = 11.15 | CG iter. 15 -- res = 0.19005E+05, tol = 0.57619E+04, time = 10.80 | CG iter. 16 -- res = 0.13459E+05, tol = 0.57619E+04, time = 10.94 | CG iter. 17 -- res = 0.10101E+05, tol = 0.57619E+04, time = 11.22 | CG iter. 18 -- res = 0.73131E+04, tol = 0.57619E+04, time = 11.72 | CG iter. 19 -- res = 0.51022E+04, tol = 0.57619E+04, time = 10.92 | CG iter. 20 -- res = 0.35936E+04, tol = 0.57619E+04, time = 11.06 | CG iter. 21 -- res = 0.27556E+04, tol = 0.57619E+04, time = 11.28 | CG iter. 22 -- res = 0.24564E+04, tol = 0.57619E+04, time = 11.11 | CG iter. 23 -- res = 0.24575E+04, tol = 0.57619E+04, time = 10.51 | CG iter. 24 -- res = 0.26711E+04, tol = 0.57619E+04, time = 11.48 | CG iter. 25 -- res = 0.28449E+04, tol = 0.57619E+04, time = 10.71 | CG iter. 26 -- res = 0.27686E+04, tol = 0.57619E+04, time = 10.84 | CG iter. 27 -- res = 0.24884E+04, tol = 0.57619E+04, time = 17.19 | CG iter. 28 -- res = 0.21245E+04, tol = 0.57619E+04, time = 10.89 | CG iter. 29 -- res = 0.18003E+04, tol = 0.57619E+04, time = 11.43 | CG iter. 30 -- res = 0.15600E+04, tol = 0.57619E+04, time = 11.37 | CG iter. 31 -- res = 0.13553E+04, tol = 0.57619E+04, time = 11.15 | CG iter. 32 -- res = 0.11434E+04, tol = 0.57619E+04, time = 11.24 | CG iter. 33 -- res = 0.93218E+03, tol = 0.57619E+04, time = 11.08 | CG iter. 34 -- res = 0.72858E+03, tol = 0.57619E+04, time = 10.88 | CG iter. 35 -- res = 0.56699E+03, tol = 0.57619E+04, time = 13.07 | CG iter. 36 -- res = 0.45103E+03, tol = 0.57619E+04, time = 11.21 | CG iter. 37 -- res = 0.39252E+03, tol = 0.57619E+04, time = 11.04 | CG iter. 38 -- res = 0.37189E+03, tol = 0.57619E+04, time = 11.13 | CG iter. 39 -- res = 0.35819E+03, tol = 0.57619E+04, time = 10.83 | CG iter. 40 -- res = 0.32666E+03, tol = 0.57619E+04, time = 11.28 | CG iter. 41 -- res = 0.28423E+03, tol = 0.57619E+04, time = 10.91 | CG iter. 42 -- res = 0.24001E+03, tol = 0.57619E+04, time = 11.18 | CG iter. 43 -- res = 0.20716E+03, tol = 0.57619E+04, time = 11.45 | CG iter. 44 -- res = 0.18467E+03, tol = 0.57619E+04, time = 10.78 | CG iter. 45 -- res = 0.16941E+03, tol = 0.57619E+04, time = 10.91 | CG iter. 46 -- res = 0.15534E+03, tol = 0.57619E+04, time = 10.81 | CG iter. 47 -- res = 0.14206E+03, tol = 0.57619E+04, time = 11.10 | CG iter. 48 -- res = 0.12330E+03, tol = 0.57619E+04, time = 11.26 | CG iter. 49 -- res = 0.10321E+03, tol = 0.57619E+04, time = 11.19 | CG iter. 50 -- res = 0.88118E+02, tol = 0.57619E+04, time = 11.27 | CG iter. 51 -- res = 0.78598E+02, tol = 0.57619E+04, time = 11.22 | CG iter. 52 -- res = 0.74653E+02, tol = 0.57619E+04, time = 11.11 | CG iter. 53 -- res = 0.73230E+02, tol = 0.57619E+04, time = 11.84 | CG iter. 54 -- res = 0.69466E+02, tol = 0.57619E+04, time = 17.17 | CG iter. 55 -- res = 0.63901E+02, tol = 0.57619E+04, time = 10.99 | CG iter. 56 -- res = 0.57230E+02, tol = 0.57619E+04, time = 11.08 | CG iter. 57 -- res = 0.50936E+02, tol = 0.57619E+04, time = 11.10 | CG iter. 58 -- res = 0.45899E+02, tol = 0.57619E+04, time = 10.91 | CG iter. 59 -- res = 0.43861E+02, tol = 0.57619E+04, time = 11.10 | CG iter. 60 -- res = 0.43355E+02, tol = 0.57619E+04, time = 11.11 | Final CG iter 61 -- res = 0.43355E+02, tol = 0.57619E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.917 ( -229.872 -2230.784 2513.120 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8989151.904 | Old band monopole 9567836.224 | Change to band monopole -578684.320 | Change to component monopole 578681.831 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.081 2.731 | New value -0.464 | Old value -0.081 | Difference -0.382 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.383 ( 7.408 11.546 -10.899 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.427 4.356 | New value 0.015 | Old value -3.427 | Difference 3.442 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.11388E+06, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.62083E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.28300E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.35998E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.68651E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8989113.240 | (Sampled value in CG: 8966138.706 ) | Chain = 1 -- chisq = 0.81562255E+09 | Chain = 1 -- wall time = 5985.354 sec Available RAM: MemAvailable: 374194316 kB Available Swap: SwapFree: 1130631840 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 225 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443401 | --> Sampling calibration, mode = relcal | relcal = 1.3424011E-02 7.4659474E-04 -1.5940429E-03 -1.2576562E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1125392 0.1259226 97041174.7952123 | BP delta = 0.1082399 0.1216234 97041177.1614765 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632497 | --> Sampling calibration, mode = relcal | relcal = -2.8210324E-03 -7.0346246E-04 1.6787275E-03 1.6135750E-03 -4.0863128E-04 6.4082362E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5843937 15219697.1048213 | BP delta = 0.0000000E+00 -0.5802829 15219695.3265633 | BP chisq diff = -1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17756901887942 | --> Sampling calibration, mode = relcal | relcal = -7.4180327E-02 -5.7643529E-02 9.0837076E-02 4.0986780E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2111196E-04 3.0827234E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3934E-02 | 2: delta_r/delta_0: 3.0602E-04 | 3: delta_s/delta_0: 1.9148E-07 | 4: delta_r/delta_0: 2.1633E-08 | 5: delta_s/delta_0: 6.5759E-09 | 6: delta_r/delta_0: 9.8651E-10 | 7: delta_s/delta_0: 2.5938E-08 | 8: delta_r/delta_0: 3.7471E-10 | 9: delta_s/delta_0: 5.8824E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.282252207550440E-004 2.749151588552121E-005 | BP delta = 3.5741538E-02 5.3065620E-02 50480088.1300906 | BP delta = 3.4739215E-02 5.2063301E-02 50480087.1034793 | BP chisq diff = -1.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596890 | --> Sampling calibration, mode = relcal | relcal = -0.1066983 -9.5483005E-02 0.1449047 5.7276562E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9402187E-03 1.5439815E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9443E-05 | 2: delta_r/delta_0: 1.4886E-06 | 3: delta_s/delta_0: 2.3914E-07 | 4: delta_r/delta_0: 4.8358E-08 | 5: delta_s/delta_0: 2.5479E-08 | 6: delta_r/delta_0: 7.5538E-09 | 7: delta_s/delta_0: 7.3454E-09 | 8: delta_r/delta_0: 1.6911E-09 | 9: delta_s/delta_0: 8.3022E-10 | 10: delta_r/delta_0: 6.1540E-10 | 11: delta_s/delta_0: 9.4601E-10 | 12: delta_r/delta_0: 8.9599E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.010446245596191E-002 2.810912270078226E-005 | BP delta = -0.2689552 -0.2446842 57393396.4090287 | BP delta = -0.2677686 -0.2434976 57393396.4142866 | BP chisq diff = 0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81222856 | --> Sampling calibration, mode = relcal | relcal = 0.2954094 0.2248657 -0.2837563 -0.2365189 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.3532568E-04 5.7841213E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.4111E-04 | 2: delta_r/delta_0: 1.2250E-05 | 3: delta_s/delta_0: 1.5701E-05 | 4: delta_r/delta_0: 1.8606E-06 | 5: delta_s/delta_0: 2.1600E-07 | 6: delta_r/delta_0: 6.3764E-08 | 7: delta_s/delta_0: 5.1526E-08 | 8: delta_r/delta_0: 3.1073E-08 | 9: delta_s/delta_0: 1.1862E-07 | 10: delta_r/delta_0: 2.0236E-09 | 11: delta_s/delta_0: 6.6433E-10 | 12: delta_r/delta_0: 4.3905E-10 | 13: delta_s/delta_0: 2.3558E-10 | 14: delta_r/delta_0: 5.6967E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.173236395546890E-002 4.021694443444426E-005 | BP delta = -9.5589586E-02 -0.1090551 72486432.5445912 | BP delta = -6.6723831E-02 -8.0189317E-02 72486433.5380412 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95912855 | --> Sampling calibration, mode = relcal | relcal = 0.1064977 0.1395426 -0.1102831 -0.1357572 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0017850E-03 1.2871517E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4787E-04 | 2: delta_r/delta_0: 6.2990E-06 | 3: delta_s/delta_0: 2.0640E-05 | 4: delta_r/delta_0: 9.8705E-07 | 5: delta_s/delta_0: 2.1878E-07 | 6: delta_r/delta_0: 1.0546E-07 | 7: delta_s/delta_0: 2.8010E-07 | 8: delta_r/delta_0: 3.0243E-08 | 9: delta_s/delta_0: 7.9944E-09 | 10: delta_r/delta_0: 5.1476E-09 | 11: delta_s/delta_0: 1.4137E-09 | 12: delta_r/delta_0: 1.0369E-09 | 13: delta_s/delta_0: 1.9792E-10 | 14: delta_r/delta_0: 1.1440E-10 | 15: delta_s/delta_0: 2.0517E-10 | 16: delta_r/delta_0: 1.6346E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.025162451638636E-002 3.697304019743756E-005 | BP delta = 1.0378652E-02 0.1135979 72787514.8730380 | BP delta = -3.8750146E-02 6.4469144E-02 72787517.0389377 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154031 | New value = -3.150602 | poltype: 2 pol: 1 CPU time specind = 8.4550381E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.101330 | New value = -3.120892 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115134 | New value = -3.242564 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176230 | New value = -3.073883 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094116 | New value = -3.136583 | poltype: 2 pol: 2 CPU time specind = 2.6053190E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.13535E+08, tol = 0.78455E+01, time = 5.53 | CG iter. 2 -- res = 0.34914E+06, tol = 0.78455E+01, time = 5.15 | CG iter. 3 -- res = 0.48106E+05, tol = 0.78455E+01, time = 5.13 | CG iter. 4 -- res = 0.20215E+05, tol = 0.78455E+01, time = 6.12 | CG iter. 5 -- res = 0.98814E+04, tol = 0.78455E+01, time = 5.32 | CG iter. 6 -- res = 0.49611E+04, tol = 0.78455E+01, time = 5.19 | CG iter. 7 -- res = 0.32834E+04, tol = 0.78455E+01, time = 5.56 | CG iter. 8 -- res = 0.22179E+04, tol = 0.78455E+01, time = 5.55 | CG iter. 9 -- res = 0.17928E+04, tol = 0.78455E+01, time = 5.36 | CG iter. 10 -- res = 0.19453E+04, tol = 0.78455E+01, time = 5.46 | CG iter. 11 -- res = 0.19800E+04, tol = 0.78455E+01, time = 5.23 | CG iter. 12 -- res = 0.16521E+04, tol = 0.78455E+01, time = 5.34 | CG iter. 13 -- res = 0.12118E+04, tol = 0.78455E+01, time = 5.07 | CG iter. 14 -- res = 0.92160E+03, tol = 0.78455E+01, time = 5.20 | CG iter. 15 -- res = 0.80468E+03, tol = 0.78455E+01, time = 5.19 | CG iter. 16 -- res = 0.68856E+03, tol = 0.78455E+01, time = 5.44 | CG iter. 17 -- res = 0.56536E+03, tol = 0.78455E+01, time = 5.24 | CG iter. 18 -- res = 0.47388E+03, tol = 0.78455E+01, time = 5.39 | CG iter. 19 -- res = 0.44029E+03, tol = 0.78455E+01, time = 5.40 | CG iter. 20 -- res = 0.40007E+03, tol = 0.78455E+01, time = 5.19 | CG iter. 21 -- res = 0.30640E+03, tol = 0.78455E+01, time = 5.55 | CG iter. 22 -- res = 0.22899E+03, tol = 0.78455E+01, time = 11.74 | CG iter. 23 -- res = 0.19528E+03, tol = 0.78455E+01, time = 5.01 | CG iter. 24 -- res = 0.17619E+03, tol = 0.78455E+01, time = 5.71 | CG iter. 25 -- res = 0.14460E+03, tol = 0.78455E+01, time = 5.07 | CG iter. 26 -- res = 0.11025E+03, tol = 0.78455E+01, time = 5.15 | CG iter. 27 -- res = 0.88441E+02, tol = 0.78455E+01, time = 5.90 | CG iter. 28 -- res = 0.75491E+02, tol = 0.78455E+01, time = 5.24 | CG iter. 29 -- res = 0.62584E+02, tol = 0.78455E+01, time = 5.29 | CG iter. 30 -- res = 0.50096E+02, tol = 0.78455E+01, time = 5.56 | CG iter. 31 -- res = 0.41247E+02, tol = 0.78455E+01, time = 5.16 | CG iter. 32 -- res = 0.37397E+02, tol = 0.78455E+01, time = 5.26 | CG iter. 33 -- res = 0.33689E+02, tol = 0.78455E+01, time = 5.57 | CG iter. 34 -- res = 0.27725E+02, tol = 0.78455E+01, time = 5.40 | CG iter. 35 -- res = 0.21201E+02, tol = 0.78455E+01, time = 5.31 | CG iter. 36 -- res = 0.17979E+02, tol = 0.78455E+01, time = 5.68 | CG iter. 37 -- res = 0.15308E+02, tol = 0.78455E+01, time = 5.43 | CG iter. 38 -- res = 0.11318E+02, tol = 0.78455E+01, time = 6.76 | CG iter. 39 -- res = 0.79595E+01, tol = 0.78455E+01, time = 6.86 | CG iter. 40 -- res = 0.58864E+01, tol = 0.78455E+01, time = 5.53 | CG iter. 41 -- res = 0.44751E+01, tol = 0.78455E+01, time = 5.50 | CG iter. 42 -- res = 0.32253E+01, tol = 0.78455E+01, time = 5.53 | CG iter. 43 -- res = 0.22029E+01, tol = 0.78455E+01, time = 5.45 | CG iter. 44 -- res = 0.15269E+01, tol = 0.78455E+01, time = 5.36 | CG iter. 45 -- res = 0.11023E+01, tol = 0.78455E+01, time = 5.39 | CG iter. 46 -- res = 0.86412E+00, tol = 0.78455E+01, time = 5.19 | CG iter. 47 -- res = 0.65651E+00, tol = 0.78455E+01, time = 5.28 | CG iter. 48 -- res = 0.48252E+00, tol = 0.78455E+01, time = 5.43 | CG iter. 49 -- res = 0.39159E+00, tol = 0.78455E+01, time = 5.54 | CG iter. 50 -- res = 0.32954E+00, tol = 0.78455E+01, time = 5.27 | Final CG iter 51 -- res = 0.32954E+00, tol = 0.78455E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8632287.317 | Old band monopole 8989151.904 | Change to band monopole -356864.588 | Change to component monopole 356863.053 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.42731E+04, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.16941E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.20504E+00, tol = 0.47627E+18, time = 1.80 | Final CG iter 4 -- res = 0.25109E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8632250.188 | (Sampled value in CG: 8633861.252 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.468228 | New value = 1.515928 | poltype: 2 pol: 1 CPU time specind = 7.7960491E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.510995 | New value = 1.507792 | poltype: 2 pol: 2 CPU time specind = 1.5903950E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.24513E+08, tol = 0.47606E+04, time = 6.09 | CG iter. 2 -- res = 0.54162E+07, tol = 0.47606E+04, time = 5.99 | CG iter. 3 -- res = 0.83512E+06, tol = 0.47606E+04, time = 6.48 | CG iter. 4 -- res = 0.34389E+06, tol = 0.47606E+04, time = 6.22 | CG iter. 5 -- res = 0.14650E+06, tol = 0.47606E+04, time = 11.56 | CG iter. 6 -- res = 0.78009E+05, tol = 0.47606E+04, time = 6.48 | CG iter. 7 -- res = 0.42724E+05, tol = 0.47606E+04, time = 6.51 | CG iter. 8 -- res = 0.20268E+05, tol = 0.47606E+04, time = 6.27 | CG iter. 9 -- res = 0.86827E+04, tol = 0.47606E+04, time = 5.90 | CG iter. 10 -- res = 0.34946E+04, tol = 0.47606E+04, time = 6.31 | CG iter. 11 -- res = 0.15798E+04, tol = 0.47606E+04, time = 5.85 | CG iter. 12 -- res = 0.82342E+03, tol = 0.47606E+04, time = 6.03 | CG iter. 13 -- res = 0.47216E+03, tol = 0.47606E+04, time = 5.98 | CG iter. 14 -- res = 0.26524E+03, tol = 0.47606E+04, time = 5.97 | CG iter. 15 -- res = 0.13647E+03, tol = 0.47606E+04, time = 6.09 | CG iter. 16 -- res = 0.65400E+02, tol = 0.47606E+04, time = 6.29 | CG iter. 17 -- res = 0.31661E+02, tol = 0.47606E+04, time = 5.99 | CG iter. 18 -- res = 0.15847E+02, tol = 0.47606E+04, time = 6.03 | CG iter. 19 -- res = 0.85638E+01, tol = 0.47606E+04, time = 7.21 | CG iter. 20 -- res = 0.48799E+01, tol = 0.47606E+04, time = 6.98 | CG iter. 21 -- res = 0.26755E+01, tol = 0.47606E+04, time = 6.54 | CG iter. 22 -- res = 0.13590E+01, tol = 0.47606E+04, time = 6.22 | CG iter. 23 -- res = 0.67387E+00, tol = 0.47606E+04, time = 6.07 | CG iter. 24 -- res = 0.35105E+00, tol = 0.47606E+04, time = 6.43 | CG iter. 25 -- res = 0.19559E+00, tol = 0.47606E+04, time = 6.01 | CG iter. 26 -- res = 0.11202E+00, tol = 0.47606E+04, time = 6.16 | CG iter. 27 -- res = 0.62924E-01, tol = 0.47606E+04, time = 6.24 | CG iter. 28 -- res = 0.34140E-01, tol = 0.47606E+04, time = 6.08 | CG iter. 29 -- res = 0.18016E-01, tol = 0.47606E+04, time = 6.29 | CG iter. 30 -- res = 0.97286E-02, tol = 0.47606E+04, time = 5.96 | CG iter. 31 -- res = 0.54324E-02, tol = 0.47606E+04, time = 6.19 | CG iter. 32 -- res = 0.31062E-02, tol = 0.47606E+04, time = 5.78 | CG iter. 33 -- res = 0.17546E-02, tol = 0.47606E+04, time = 6.17 | CG iter. 34 -- res = 0.95298E-03, tol = 0.47606E+04, time = 6.12 | CG iter. 35 -- res = 0.50336E-03, tol = 0.47606E+04, time = 6.05 | Final CG iter 36 -- res = 0.50336E-03, tol = 0.47606E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.476 2.715 | New value -1.968 | Old value -0.476 | Difference -1.491 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.50 | CG iter. 1 -- res = 0.11954E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.21503E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.31353E+00, tol = 0.47627E+18, time = 1.78 | Final CG iter 4 -- res = 0.31308E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8632250.188 | (Sampled value in CG: 8634260.083 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.586635 | New value = -3.547868 | poltype: 1 pol: 1 CPU time specind = 9.4461441E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.21293E+07, tol = 0.22996E+01, time = 2.71 | CG iter. 2 -- res = 0.70084E+06, tol = 0.22996E+01, time = 2.57 | CG iter. 3 -- res = 0.13135E+06, tol = 0.22996E+01, time = 2.50 | CG iter. 4 -- res = 0.54862E+05, tol = 0.22996E+01, time = 2.65 | CG iter. 5 -- res = 0.29754E+05, tol = 0.22996E+01, time = 2.34 | CG iter. 6 -- res = 0.16107E+05, tol = 0.22996E+01, time = 2.48 | CG iter. 7 -- res = 0.68408E+04, tol = 0.22996E+01, time = 2.46 | CG iter. 8 -- res = 0.32051E+04, tol = 0.22996E+01, time = 2.58 | CG iter. 9 -- res = 0.13553E+04, tol = 0.22996E+01, time = 2.56 | CG iter. 10 -- res = 0.51937E+03, tol = 0.22996E+01, time = 2.26 | CG iter. 11 -- res = 0.22342E+03, tol = 0.22996E+01, time = 2.26 | CG iter. 12 -- res = 0.10986E+03, tol = 0.22996E+01, time = 2.32 | CG iter. 13 -- res = 0.54279E+02, tol = 0.22996E+01, time = 2.58 | CG iter. 14 -- res = 0.27524E+02, tol = 0.22996E+01, time = 2.49 | CG iter. 15 -- res = 0.13459E+02, tol = 0.22996E+01, time = 2.74 | CG iter. 16 -- res = 0.60479E+01, tol = 0.22996E+01, time = 2.64 | CG iter. 17 -- res = 0.24991E+01, tol = 0.22996E+01, time = 2.58 | CG iter. 18 -- res = 0.10923E+01, tol = 0.22996E+01, time = 2.54 | CG iter. 19 -- res = 0.50773E+00, tol = 0.22996E+01, time = 2.78 | CG iter. 20 -- res = 0.25491E+00, tol = 0.22996E+01, time = 2.56 | CG iter. 21 -- res = 0.13188E+00, tol = 0.22996E+01, time = 2.49 | CG iter. 22 -- res = 0.64079E-01, tol = 0.22996E+01, time = 2.72 | CG iter. 23 -- res = 0.29332E-01, tol = 0.22996E+01, time = 2.54 | CG iter. 24 -- res = 0.12891E-01, tol = 0.22996E+01, time = 2.62 | CG iter. 25 -- res = 0.58890E-02, tol = 0.22996E+01, time = 2.66 | CG iter. 26 -- res = 0.30716E-02, tol = 0.22996E+01, time = 2.52 | CG iter. 27 -- res = 0.16201E-02, tol = 0.22996E+01, time = 2.57 | CG iter. 28 -- res = 0.78692E-03, tol = 0.22996E+01, time = 2.71 | CG iter. 29 -- res = 0.36272E-03, tol = 0.22996E+01, time = 2.71 | CG iter. 30 -- res = 0.16974E-03, tol = 0.22996E+01, time = 2.47 | CG iter. 31 -- res = 0.81415E-04, tol = 0.22996E+01, time = 2.47 | CG iter. 32 -- res = 0.38769E-04, tol = 0.22996E+01, time = 2.74 | CG iter. 33 -- res = 0.20556E-04, tol = 0.22996E+01, time = 2.33 | CG iter. 34 -- res = 0.10067E-04, tol = 0.22996E+01, time = 2.40 | CG iter. 35 -- res = 0.48492E-05, tol = 0.22996E+01, time = 2.69 | CG iter. 36 -- res = 0.23266E-05, tol = 0.22996E+01, time = 2.77 | CG iter. 37 -- res = 0.10321E-05, tol = 0.22996E+01, time = 2.69 | CG iter. 38 -- res = 0.53041E-06, tol = 0.22996E+01, time = 2.62 | CG iter. 39 -- res = 0.25947E-06, tol = 0.22996E+01, time = 2.53 | CG iter. 40 -- res = 0.12703E-06, tol = 0.22996E+01, time = 2.59 | CG iter. 41 -- res = 0.62913E-07, tol = 0.22996E+01, time = 2.49 | CG iter. 42 -- res = 0.29864E-07, tol = 0.22996E+01, time = 2.57 | CG iter. 43 -- res = 0.13550E-07, tol = 0.22996E+01, time = 2.68 | CG iter. 44 -- res = 0.61143E-08, tol = 0.22996E+01, time = 2.48 | CG iter. 45 -- res = 0.32032E-08, tol = 0.22996E+01, time = 2.61 | CG iter. 46 -- res = 0.15775E-08, tol = 0.22996E+01, time = 2.67 | CG iter. 47 -- res = 0.75959E-09, tol = 0.22996E+01, time = 2.67 | CG iter. 48 -- res = 0.36155E-09, tol = 0.22996E+01, time = 2.62 | CG iter. 49 -- res = 0.17099E-09, tol = 0.22996E+01, time = 2.44 | CG iter. 50 -- res = 0.76886E-10, tol = 0.22996E+01, time = 2.81 | Final CG iter 51 -- res = 0.76886E-10, tol = 0.22996E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.303 4.182 | New value 2.381 | Old value 0.303 | Difference 2.078 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.40967E+04, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.12460E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.19139E+00, tol = 0.47627E+18, time = 1.86 | Final CG iter 4 -- res = 0.41245E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8632250.188 | (Sampled value in CG: 8634406.126 ) | CPU time specind = 1117.871 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.55 | CG iter. 1 -- res = 0.69767E+08, tol = 0.57606E+04, time = 12.89 | CG iter. 2 -- res = 0.59199E+08, tol = 0.57606E+04, time = 11.56 | CG iter. 3 -- res = 0.15149E+08, tol = 0.57606E+04, time = 11.61 | CG iter. 4 -- res = 0.64901E+07, tol = 0.57606E+04, time = 10.69 | CG iter. 5 -- res = 0.39508E+07, tol = 0.57606E+04, time = 11.21 | CG iter. 6 -- res = 0.23365E+07, tol = 0.57606E+04, time = 11.31 | CG iter. 7 -- res = 0.13771E+07, tol = 0.57606E+04, time = 11.08 | CG iter. 8 -- res = 0.88289E+06, tol = 0.57606E+04, time = 11.39 | CG iter. 9 -- res = 0.55920E+06, tol = 0.57606E+04, time = 11.39 | CG iter. 10 -- res = 0.33615E+06, tol = 0.57606E+04, time = 10.96 | CG iter. 11 -- res = 0.18288E+06, tol = 0.57606E+04, time = 11.43 | CG iter. 12 -- res = 0.98158E+05, tol = 0.57606E+04, time = 11.30 | CG iter. 13 -- res = 0.51037E+05, tol = 0.57606E+04, time = 11.93 | CG iter. 14 -- res = 0.28634E+05, tol = 0.57606E+04, time = 11.22 | CG iter. 15 -- res = 0.17962E+05, tol = 0.57606E+04, time = 10.72 | CG iter. 16 -- res = 0.12255E+05, tol = 0.57606E+04, time = 11.32 | CG iter. 17 -- res = 0.85289E+04, tol = 0.57606E+04, time = 11.41 | CG iter. 18 -- res = 0.57763E+04, tol = 0.57606E+04, time = 11.11 | CG iter. 19 -- res = 0.37334E+04, tol = 0.57606E+04, time = 11.35 | CG iter. 20 -- res = 0.24033E+04, tol = 0.57606E+04, time = 17.16 | CG iter. 21 -- res = 0.15849E+04, tol = 0.57606E+04, time = 11.22 | CG iter. 22 -- res = 0.11644E+04, tol = 0.57606E+04, time = 11.13 | CG iter. 23 -- res = 0.98853E+03, tol = 0.57606E+04, time = 11.05 | CG iter. 24 -- res = 0.96932E+03, tol = 0.57606E+04, time = 11.39 | CG iter. 25 -- res = 0.98556E+03, tol = 0.57606E+04, time = 10.73 | CG iter. 26 -- res = 0.99998E+03, tol = 0.57606E+04, time = 11.36 | CG iter. 27 -- res = 0.96580E+03, tol = 0.57606E+04, time = 12.91 | CG iter. 28 -- res = 0.87481E+03, tol = 0.57606E+04, time = 11.59 | CG iter. 29 -- res = 0.81457E+03, tol = 0.57606E+04, time = 11.04 | CG iter. 30 -- res = 0.78564E+03, tol = 0.57606E+04, time = 11.72 | CG iter. 31 -- res = 0.75816E+03, tol = 0.57606E+04, time = 10.69 | CG iter. 32 -- res = 0.69773E+03, tol = 0.57606E+04, time = 11.31 | CG iter. 33 -- res = 0.61135E+03, tol = 0.57606E+04, time = 11.06 | CG iter. 34 -- res = 0.49248E+03, tol = 0.57606E+04, time = 11.32 | CG iter. 35 -- res = 0.37412E+03, tol = 0.57606E+04, time = 11.65 | CG iter. 36 -- res = 0.29294E+03, tol = 0.57606E+04, time = 11.33 | CG iter. 37 -- res = 0.25153E+03, tol = 0.57606E+04, time = 11.58 | CG iter. 38 -- res = 0.23547E+03, tol = 0.57606E+04, time = 11.23 | CG iter. 39 -- res = 0.22497E+03, tol = 0.57606E+04, time = 11.36 | CG iter. 40 -- res = 0.21693E+03, tol = 0.57606E+04, time = 10.97 | CG iter. 41 -- res = 0.20341E+03, tol = 0.57606E+04, time = 10.89 | CG iter. 42 -- res = 0.18065E+03, tol = 0.57606E+04, time = 10.74 | CG iter. 43 -- res = 0.16217E+03, tol = 0.57606E+04, time = 11.25 | CG iter. 44 -- res = 0.15219E+03, tol = 0.57606E+04, time = 11.05 | CG iter. 45 -- res = 0.14917E+03, tol = 0.57606E+04, time = 12.03 | CG iter. 46 -- res = 0.14438E+03, tol = 0.57606E+04, time = 16.80 | CG iter. 47 -- res = 0.13625E+03, tol = 0.57606E+04, time = 11.46 | CG iter. 48 -- res = 0.11937E+03, tol = 0.57606E+04, time = 11.08 | CG iter. 49 -- res = 0.10038E+03, tol = 0.57606E+04, time = 11.03 | CG iter. 50 -- res = 0.86459E+02, tol = 0.57606E+04, time = 11.03 | CG iter. 51 -- res = 0.77405E+02, tol = 0.57606E+04, time = 11.08 | CG iter. 52 -- res = 0.72661E+02, tol = 0.57606E+04, time = 10.87 | CG iter. 53 -- res = 0.70530E+02, tol = 0.57606E+04, time = 12.75 | CG iter. 54 -- res = 0.66645E+02, tol = 0.57606E+04, time = 11.68 | CG iter. 55 -- res = 0.62430E+02, tol = 0.57606E+04, time = 11.42 | CG iter. 56 -- res = 0.56782E+02, tol = 0.57606E+04, time = 11.17 | CG iter. 57 -- res = 0.51839E+02, tol = 0.57606E+04, time = 11.22 | CG iter. 58 -- res = 0.47797E+02, tol = 0.57606E+04, time = 11.13 | CG iter. 59 -- res = 0.46203E+02, tol = 0.57606E+04, time = 11.63 | CG iter. 60 -- res = 0.45962E+02, tol = 0.57606E+04, time = 10.87 | Final CG iter 61 -- res = 0.45962E+02, tol = 0.57606E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.921 ( -229.996 -2231.551 2514.120 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8492461.876 | Old band monopole 8632287.317 | Change to band monopole -139825.441 | Change to component monopole 139824.839 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.970 2.731 | New value -1.797 | Old value -1.970 | Difference 0.172 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.120 ( 7.261 14.000 -13.936 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.843 4.040 | New value -1.110 | Old value 5.843 | Difference -6.953 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.11039E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.25536E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.68785E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.15830E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.28349E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8492425.348 | (Sampled value in CG: 8473298.557 ) | Chain = 1 -- chisq = 0.81528533E+09 | Chain = 1 -- wall time = 5490.242 sec Available RAM: MemAvailable: 374416224 kB Available Swap: SwapFree: 1131281056 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 226 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06440722 | --> Sampling calibration, mode = relcal | relcal = 1.3437588E-02 7.4114802E-04 -1.6009794E-03 -1.2577756E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1125392 0.1259226 9405974.20879284 | BP delta = 0.1125392 0.1247297 9405976.77918302 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632608 | --> Sampling calibration, mode = relcal | relcal = -2.8212529E-03 -7.0459669E-04 1.6808335E-03 1.6137107E-03 -4.0948202E-04 6.4078730E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5802829 15217245.6008888 | BP delta = 0.0000000E+00 -0.5744151 15217250.4384749 | BP chisq diff = 4.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102972 | --> Sampling calibration, mode = relcal | relcal = 3.7087366E-02 1.3720557E-02 5.7524140E-03 -7.1720774E-03 8.2517536E-03 2.3853120E-03 -7.5965459E-03 -7.1778330E-03 -1.5299588E-02 -1.4802616E-02 -3.0533436E-03 -1.2095395E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.188144 132207596.826220 | BP delta = 0.0000000E+00 -1.184937 132207590.996333 | BP chisq diff = -5.8, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18090229150140 | --> Sampling calibration, mode = relcal | relcal = -7.5775266E-02 -5.8888592E-02 9.2597790E-02 4.2066064E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.3260246E-05 5.1211324E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5020E-05 | 2: delta_r/delta_0: 1.1567E-06 | 3: delta_s/delta_0: 1.9224E-07 | 4: delta_r/delta_0: 2.4898E-08 | 5: delta_s/delta_0: 6.4902E-09 | 6: delta_r/delta_0: 2.4178E-09 | 7: delta_s/delta_0: 7.8622E-10 | 8: delta_r/delta_0: 1.5992E-10 | 9: delta_s/delta_0: 4.7098E-10 | 10: delta_r/delta_0: 1.2821E-10 | 11: delta_s/delta_0: 4.9873E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.052651916672016E-003 2.741184717007734E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5021E-05 | 2: delta_r/delta_0: 1.1567E-06 | 3: delta_s/delta_0: 1.9224E-07 | 4: delta_r/delta_0: 2.4896E-08 | 5: delta_s/delta_0: 6.4894E-09 | 6: delta_r/delta_0: 2.4176E-09 | 7: delta_s/delta_0: 7.8634E-10 | 8: delta_r/delta_0: 1.5990E-10 | 9: delta_s/delta_0: 4.7075E-10 | 10: delta_r/delta_0: 1.2813E-10 | 11: delta_s/delta_0: 4.9832E-11 | Reached bicg-stab tolerance | BP delta = 3.4739215E-02 5.2063301E-02 3552300.27903760 | BP delta = 3.4739215E-02 5.1755957E-02 3554678.85003688 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02614424 | --> Sampling calibration, mode = relcal | relcal = -0.1066874 -9.5574364E-02 0.1450070 5.7254758E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0724527E-03 1.5453083E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1828E-05 | 2: delta_r/delta_0: 1.5305E-06 | 3: delta_s/delta_0: 2.3514E-07 | 4: delta_r/delta_0: 5.2225E-08 | 5: delta_s/delta_0: 2.3152E-08 | 6: delta_r/delta_0: 7.4195E-09 | 7: delta_s/delta_0: 1.2433E-08 | 8: delta_r/delta_0: 1.1511E-09 | 9: delta_s/delta_0: 1.0427E-09 | 10: delta_r/delta_0: 2.6021E-10 | 11: delta_s/delta_0: 2.7990E-09 | 12: delta_r/delta_0: 2.5972E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.039243910070986E-002 2.810417637734529E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1830E-05 | 2: delta_r/delta_0: 1.5306E-06 | 3: delta_s/delta_0: 2.3518E-07 | 4: delta_r/delta_0: 5.2274E-08 | 5: delta_s/delta_0: 2.3116E-08 | 6: delta_r/delta_0: 7.4236E-09 | 7: delta_s/delta_0: 1.2450E-08 | 8: delta_r/delta_0: 1.1521E-09 | 9: delta_s/delta_0: 1.0430E-09 | 10: delta_r/delta_0: 2.6073E-10 | 11: delta_s/delta_0: 2.8053E-09 | 12: delta_r/delta_0: 2.6025E-11 | Reached bicg-stab tolerance | BP delta = -0.2677686 -0.2434976 2841536.16389503 | BP delta = -0.2677686 -0.2429216 2841626.06170061 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81252535 | --> Sampling calibration, mode = relcal | relcal = 0.2957154 0.2248016 -0.2838959 -0.2366211 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.9676264E-04 4.6928911E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1718E-04 | 2: delta_r/delta_0: 1.1699E-05 | 3: delta_s/delta_0: 1.8214E-05 | 4: delta_r/delta_0: 2.1187E-06 | 5: delta_s/delta_0: 2.2660E-07 | 6: delta_r/delta_0: 6.6293E-08 | 7: delta_s/delta_0: 5.3009E-08 | 8: delta_r/delta_0: 2.9658E-08 | 9: delta_s/delta_0: 1.0268E-07 | 10: delta_r/delta_0: 2.2615E-09 | 11: delta_s/delta_0: 7.2222E-10 | 12: delta_r/delta_0: 4.3741E-10 | 13: delta_s/delta_0: 2.1033E-10 | 14: delta_r/delta_0: 6.0151E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.217983326100201E-002 4.020253055142725E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1702E-04 | 2: delta_r/delta_0: 1.1695E-05 | 3: delta_s/delta_0: 1.8225E-05 | 4: delta_r/delta_0: 2.1198E-06 | 5: delta_s/delta_0: 2.2660E-07 | 6: delta_r/delta_0: 6.6302E-08 | 7: delta_s/delta_0: 5.3013E-08 | 8: delta_r/delta_0: 2.9663E-08 | 9: delta_s/delta_0: 1.0272E-07 | 10: delta_r/delta_0: 2.2613E-09 | 11: delta_s/delta_0: 7.2207E-10 | 12: delta_r/delta_0: 4.3731E-10 | 13: delta_s/delta_0: 2.1035E-10 | 14: delta_r/delta_0: 6.0158E-11 | Reached bicg-stab tolerance | BP delta = -9.5589586E-02 -0.1090551 2827263.95077734 | BP delta = -9.5589586E-02 -9.9887893E-02 2827335.42604496 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95957607 | --> Sampling calibration, mode = relcal | relcal = 0.1066273 0.1395401 -0.1102720 -0.1358954 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6761499E-03 1.2034324E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5653E-04 | 2: delta_r/delta_0: 4.3002E-06 | 3: delta_s/delta_0: 6.5862E-06 | 4: delta_r/delta_0: 1.0464E-06 | 5: delta_s/delta_0: 1.7391E-07 | 6: delta_r/delta_0: 1.1838E-07 | 7: delta_s/delta_0: 8.3835E-07 | 8: delta_r/delta_0: 2.3466E-08 | 9: delta_s/delta_0: 5.8064E-08 | 10: delta_r/delta_0: 3.2531E-08 | 11: delta_s/delta_0: 1.9323E-09 | 12: delta_r/delta_0: 1.3193E-09 | 13: delta_s/delta_0: 4.5217E-10 | 14: delta_r/delta_0: 3.2570E-10 | 15: delta_s/delta_0: 6.0507E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.927404658067952E-002 3.695561445439501E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5653E-04 | 2: delta_r/delta_0: 4.3002E-06 | 3: delta_s/delta_0: 6.5862E-06 | 4: delta_r/delta_0: 1.0464E-06 | 5: delta_s/delta_0: 1.7390E-07 | 6: delta_r/delta_0: 1.1837E-07 | 7: delta_s/delta_0: 8.3834E-07 | 8: delta_r/delta_0: 2.3466E-08 | 9: delta_s/delta_0: 5.8073E-08 | 10: delta_r/delta_0: 3.2533E-08 | 11: delta_s/delta_0: 1.9324E-09 | 12: delta_r/delta_0: 1.3194E-09 | 13: delta_s/delta_0: 4.5218E-10 | 14: delta_r/delta_0: 3.2569E-10 | 15: delta_s/delta_0: 6.0500E-11 | Reached bicg-stab tolerance | BP delta = 1.0378652E-02 0.1135979 3003910.33262294 | BP delta = 1.0378652E-02 0.1178881 3003909.17274951 | BP chisq diff = -1.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52173497 | --> Sampling calibration, mode = relcal | relcal = -5.1090136E-02 -3.7308226E-03 2.7309647E-02 2.7511314E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.7202927E-04 2.6327574E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4899E-05 | 2: delta_r/delta_0: 4.4715E-06 | 3: delta_s/delta_0: 5.9782E-06 | 4: delta_r/delta_0: 9.1215E-07 | 5: delta_s/delta_0: 4.5424E-08 | 6: delta_r/delta_0: 2.8524E-08 | 7: delta_s/delta_0: 1.0276E-07 | 8: delta_r/delta_0: 6.7154E-09 | 9: delta_s/delta_0: 2.4659E-09 | 10: delta_r/delta_0: 1.5960E-09 | 11: delta_s/delta_0: 5.7238E-10 | 12: delta_r/delta_0: 3.3235E-10 | 13: delta_s/delta_0: 9.1738E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.099246305126126E-002 5.481677850379895E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.4899E-05 | 2: delta_r/delta_0: 4.4715E-06 | 3: delta_s/delta_0: 5.9783E-06 | 4: delta_r/delta_0: 9.1217E-07 | 5: delta_s/delta_0: 4.5424E-08 | 6: delta_r/delta_0: 2.8524E-08 | 7: delta_s/delta_0: 1.0276E-07 | 8: delta_r/delta_0: 6.7153E-09 | 9: delta_s/delta_0: 2.4657E-09 | 10: delta_r/delta_0: 1.5960E-09 | 11: delta_s/delta_0: 5.7240E-10 | 12: delta_r/delta_0: 3.3238E-10 | 13: delta_s/delta_0: 9.1743E-11 | Reached bicg-stab tolerance | BP delta = 7.0947826E-02 0.1769637 2435342.77255410 | BP delta = 7.0947826E-02 0.1694180 2435348.06913711 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42162416 | --> Sampling calibration, mode = relcal | relcal = 4.5617916E-02 3.9660327E-02 -2.8319616E-02 -5.6958631E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4338758E-03 3.7722036E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0873E-05 | 2: delta_r/delta_0: 3.8186E-06 | 3: delta_s/delta_0: 3.0492E-06 | 4: delta_r/delta_0: 5.1532E-07 | 5: delta_s/delta_0: 6.1742E-08 | 6: delta_r/delta_0: 3.7798E-08 | 7: delta_s/delta_0: 4.6384E-08 | 8: delta_r/delta_0: 1.2962E-08 | 9: delta_s/delta_0: 2.0642E-09 | 10: delta_r/delta_0: 1.2422E-09 | 11: delta_s/delta_0: 1.0271E-09 | 12: delta_r/delta_0: 7.5710E-10 | 13: delta_s/delta_0: 7.4025E-10 | 14: delta_r/delta_0: 5.3269E-10 | 15: delta_s/delta_0: 3.3540E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.484540912848765E-002 4.995269978054414E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0873E-05 | 2: delta_r/delta_0: 3.8186E-06 | 3: delta_s/delta_0: 3.0492E-06 | 4: delta_r/delta_0: 5.1532E-07 | 5: delta_s/delta_0: 6.1741E-08 | 6: delta_r/delta_0: 3.7798E-08 | 7: delta_s/delta_0: 4.6381E-08 | 8: delta_r/delta_0: 1.2961E-08 | 9: delta_s/delta_0: 2.0643E-09 | 10: delta_r/delta_0: 1.2422E-09 | 11: delta_s/delta_0: 1.0270E-09 | 12: delta_r/delta_0: 7.5717E-10 | 13: delta_s/delta_0: 7.4044E-10 | 14: delta_r/delta_0: 5.3263E-10 | 15: delta_s/delta_0: 3.3547E-11 | Reached bicg-stab tolerance | BP delta = 5.2194573E-02 -8.5606471E-02 2321976.94613262 | BP delta = 5.2194573E-02 -7.9535864E-02 2321974.69958547 | BP chisq diff = -2.2, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28162093 | --> Sampling calibration, mode = relcal | relcal = 2.4202760E-02 4.5091596E-02 -2.3370359E-02 -4.5923997E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.5155284E-03 1.9853576E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0556E-04 | 2: delta_r/delta_0: 8.6657E-06 | 3: delta_s/delta_0: 1.3941E-06 | 4: delta_r/delta_0: 1.7180E-07 | 5: delta_s/delta_0: 6.5503E-08 | 6: delta_r/delta_0: 1.6305E-08 | 7: delta_s/delta_0: 8.4993E-09 | 8: delta_r/delta_0: 5.4065E-09 | 9: delta_s/delta_0: 1.4766E-07 | 10: delta_r/delta_0: 5.4830E-09 | 11: delta_s/delta_0: 1.6854E-09 | 12: delta_r/delta_0: 5.3452E-10 | 13: delta_s/delta_0: 8.5841E-08 | 14: delta_r/delta_0: 4.2705E-08 | 15: delta_s/delta_0: 8.7435E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.012853858863383E-002 7.843586839141589E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0556E-04 | 2: delta_r/delta_0: 8.6657E-06 | 3: delta_s/delta_0: 1.3941E-06 | 4: delta_r/delta_0: 1.7180E-07 | 5: delta_s/delta_0: 6.5503E-08 | 6: delta_r/delta_0: 1.6305E-08 | 7: delta_s/delta_0: 8.4993E-09 | 8: delta_r/delta_0: 5.4065E-09 | 9: delta_s/delta_0: 1.4766E-07 | 10: delta_r/delta_0: 5.4830E-09 | 11: delta_s/delta_0: 1.6854E-09 | 12: delta_r/delta_0: 5.3452E-10 | 13: delta_s/delta_0: 8.5828E-08 | 14: delta_r/delta_0: 4.2699E-08 | 15: delta_s/delta_0: 8.7435E-11 | Reached bicg-stab tolerance | BP delta = -9.2645906E-02 -0.2266184 2490126.44264496 | BP delta = -9.2645906E-02 -0.2357098 2490126.62556864 | BP chisq diff = 0.2, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29392331 | --> Sampling calibration, mode = relcal | relcal = 4.4066762E-04 1.0390654E-02 -3.8569036E-03 -6.9744182E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6266750E-02 1.8048638E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3014E-04 | 2: delta_r/delta_0: 1.0968E-05 | 3: delta_s/delta_0: 1.6883E-06 | 4: delta_r/delta_0: 2.9212E-07 | 5: delta_s/delta_0: 1.0241E-07 | 6: delta_r/delta_0: 2.2005E-08 | 7: delta_s/delta_0: 9.8461E-09 | 8: delta_r/delta_0: 6.5978E-09 | 9: delta_s/delta_0: 6.9773E-09 | 10: delta_r/delta_0: 4.4300E-09 | 11: delta_s/delta_0: 1.7582E-07 | 12: delta_r/delta_0: 9.6453E-09 | 13: delta_s/delta_0: 4.1234E-09 | 14: delta_r/delta_0: 2.8685E-09 | 15: delta_s/delta_0: 9.0762E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.012484880470209E-002 8.306709196482114E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3014E-04 | 2: delta_r/delta_0: 1.0968E-05 | 3: delta_s/delta_0: 1.6883E-06 | 4: delta_r/delta_0: 2.9210E-07 | 5: delta_s/delta_0: 1.0239E-07 | 6: delta_r/delta_0: 2.2004E-08 | 7: delta_s/delta_0: 9.8460E-09 | 8: delta_r/delta_0: 6.5977E-09 | 9: delta_s/delta_0: 6.9774E-09 | 10: delta_r/delta_0: 4.4299E-09 | 11: delta_s/delta_0: 1.7610E-07 | 12: delta_r/delta_0: 9.6784E-09 | 13: delta_s/delta_0: 3.9987E-09 | 14: delta_r/delta_0: 2.7854E-09 | 15: delta_s/delta_0: 9.0886E-11 | Reached bicg-stab tolerance | BP delta = -0.9177207 -0.9033315 2738065.49378746 | BP delta = -0.9177207 -0.9201337 2738076.60307453 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26501364 | --> Sampling calibration, mode = relcal | relcal = -5.5878279E-03 1.4970934E-02 -2.4055941E-03 -6.9775120E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4252132E-04 4.2815730E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4311E-04 | 2: delta_r/delta_0: 1.2167E-05 | 3: delta_s/delta_0: 2.0196E-06 | 4: delta_r/delta_0: 2.4012E-07 | 5: delta_s/delta_0: 8.6929E-08 | 6: delta_r/delta_0: 2.0388E-08 | 7: delta_s/delta_0: 9.3253E-09 | 8: delta_r/delta_0: 6.3171E-09 | 9: delta_s/delta_0: 5.7546E-09 | 10: delta_r/delta_0: 4.1870E-09 | 11: delta_s/delta_0: 3.8891E-04 | 12: delta_r/delta_0: 1.2030E-05 | 13: delta_s/delta_0: 5.1963E-10 | 14: delta_r/delta_0: 3.2384E-10 | 15: delta_s/delta_0: 9.0186E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.766212820890919E-003 9.155439497086778E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4311E-04 | 2: delta_r/delta_0: 1.2167E-05 | 3: delta_s/delta_0: 2.0196E-06 | 4: delta_r/delta_0: 2.4011E-07 | 5: delta_s/delta_0: 8.6933E-08 | 6: delta_r/delta_0: 2.0388E-08 | 7: delta_s/delta_0: 9.3252E-09 | 8: delta_r/delta_0: 6.3170E-09 | 9: delta_s/delta_0: 5.7545E-09 | 10: delta_r/delta_0: 4.1870E-09 | 11: delta_s/delta_0: 3.8727E-04 | 12: delta_r/delta_0: 1.1978E-05 | 13: delta_s/delta_0: 5.1975E-10 | 14: delta_r/delta_0: 3.2394E-10 | 15: delta_s/delta_0: 9.0186E-11 | Reached bicg-stab tolerance | BP delta = 0.3451627 0.3521295 2516517.39735847 | BP delta = 0.3451627 0.3376093 2516517.19141835 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25665874 | --> Sampling calibration, mode = relcal | relcal = -3.1648032E-02 -2.6052974E-02 3.6889840E-02 2.0811168E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4706423E-02 1.8398032E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4525E-04 | 2: delta_r/delta_0: 1.1902E-05 | 3: delta_s/delta_0: 1.7632E-06 | 4: delta_r/delta_0: 3.9055E-07 | 5: delta_s/delta_0: 1.0881E-07 | 6: delta_r/delta_0: 3.1522E-08 | 7: delta_s/delta_0: 1.5688E-08 | 8: delta_r/delta_0: 9.2511E-09 | 9: delta_s/delta_0: 4.0963E-08 | 10: delta_r/delta_0: 5.8989E-09 | 11: delta_s/delta_0: 1.3763E-08 | 12: delta_r/delta_0: 6.4915E-09 | 13: delta_s/delta_0: 2.8989E-10 | 14: delta_r/delta_0: 1.7058E-10 | 15: delta_s/delta_0: 1.3566E-10 | 16: delta_r/delta_0: 9.1608E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.226077330142947E-002 8.671284930879881E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4525E-04 | 2: delta_r/delta_0: 1.1902E-05 | 3: delta_s/delta_0: 1.7632E-06 | 4: delta_r/delta_0: 3.9055E-07 | 5: delta_s/delta_0: 1.0881E-07 | 6: delta_r/delta_0: 3.1522E-08 | 7: delta_s/delta_0: 1.5688E-08 | 8: delta_r/delta_0: 9.2511E-09 | 9: delta_s/delta_0: 4.0963E-08 | 10: delta_r/delta_0: 5.8989E-09 | 11: delta_s/delta_0: 1.3763E-08 | 12: delta_r/delta_0: 6.4915E-09 | 13: delta_s/delta_0: 2.8989E-10 | 14: delta_r/delta_0: 1.7058E-10 | 15: delta_s/delta_0: 1.3566E-10 | 16: delta_r/delta_0: 9.1608E-11 | Reached bicg-stab tolerance | BP delta = -0.7956009 -0.9286727 2706489.54510397 | BP delta = -0.7956009 -0.9258491 2706489.57089138 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150602 | New value = -3.066923 | poltype: 2 pol: 1 CPU time specind = 1.3641834E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120892 | New value = -3.205075 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.242564 | New value = -3.143473 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.073883 | New value = -3.152481 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136583 | New value = -3.178294 | poltype: 2 pol: 2 CPU time specind = 4.3106079E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.13839E+08, tol = 0.84151E+01, time = 5.39 | CG iter. 2 -- res = 0.44643E+06, tol = 0.84151E+01, time = 4.96 | CG iter. 3 -- res = 0.19057E+06, tol = 0.84151E+01, time = 5.31 | CG iter. 4 -- res = 0.29900E+06, tol = 0.84151E+01, time = 5.22 | CG iter. 5 -- res = 0.29969E+06, tol = 0.84151E+01, time = 5.24 | CG iter. 6 -- res = 0.25407E+06, tol = 0.84151E+01, time = 5.15 | CG iter. 7 -- res = 0.16345E+06, tol = 0.84151E+01, time = 5.08 | CG iter. 8 -- res = 0.11369E+06, tol = 0.84151E+01, time = 5.36 | CG iter. 9 -- res = 0.96935E+05, tol = 0.84151E+01, time = 5.46 | CG iter. 10 -- res = 0.75755E+05, tol = 0.84151E+01, time = 6.60 | CG iter. 11 -- res = 0.56193E+05, tol = 0.84151E+01, time = 5.35 | CG iter. 12 -- res = 0.41655E+05, tol = 0.84151E+01, time = 5.17 | CG iter. 13 -- res = 0.32157E+05, tol = 0.84151E+01, time = 5.18 | CG iter. 14 -- res = 0.26511E+05, tol = 0.84151E+01, time = 5.12 | CG iter. 15 -- res = 0.19447E+05, tol = 0.84151E+01, time = 5.05 | CG iter. 16 -- res = 0.12719E+05, tol = 0.84151E+01, time = 5.38 | CG iter. 17 -- res = 0.94273E+04, tol = 0.84151E+01, time = 5.17 | CG iter. 18 -- res = 0.78336E+04, tol = 0.84151E+01, time = 5.21 | CG iter. 19 -- res = 0.66977E+04, tol = 0.84151E+01, time = 5.28 | CG iter. 20 -- res = 0.49472E+04, tol = 0.84151E+01, time = 4.99 | CG iter. 21 -- res = 0.34863E+04, tol = 0.84151E+01, time = 5.19 | CG iter. 22 -- res = 0.28691E+04, tol = 0.84151E+01, time = 4.96 | CG iter. 23 -- res = 0.25151E+04, tol = 0.84151E+01, time = 5.13 | CG iter. 24 -- res = 0.18669E+04, tol = 0.84151E+01, time = 5.47 | CG iter. 25 -- res = 0.13821E+04, tol = 0.84151E+01, time = 5.19 | CG iter. 26 -- res = 0.10652E+04, tol = 0.84151E+01, time = 4.91 | CG iter. 27 -- res = 0.92562E+03, tol = 0.84151E+01, time = 5.27 | CG iter. 28 -- res = 0.75379E+03, tol = 0.84151E+01, time = 5.48 | CG iter. 29 -- res = 0.52967E+03, tol = 0.84151E+01, time = 4.91 | CG iter. 30 -- res = 0.39870E+03, tol = 0.84151E+01, time = 6.07 | CG iter. 31 -- res = 0.33242E+03, tol = 0.84151E+01, time = 4.94 | CG iter. 32 -- res = 0.27564E+03, tol = 0.84151E+01, time = 5.44 | CG iter. 33 -- res = 0.19714E+03, tol = 0.84151E+01, time = 5.19 | CG iter. 34 -- res = 0.14134E+03, tol = 0.84151E+01, time = 5.16 | CG iter. 35 -- res = 0.10868E+03, tol = 0.84151E+01, time = 4.91 | CG iter. 36 -- res = 0.88274E+02, tol = 0.84151E+01, time = 5.25 | CG iter. 37 -- res = 0.66776E+02, tol = 0.84151E+01, time = 5.18 | CG iter. 38 -- res = 0.46026E+02, tol = 0.84151E+01, time = 5.40 | CG iter. 39 -- res = 0.33229E+02, tol = 0.84151E+01, time = 5.13 | CG iter. 40 -- res = 0.25894E+02, tol = 0.84151E+01, time = 5.19 | CG iter. 41 -- res = 0.20456E+02, tol = 0.84151E+01, time = 4.98 | CG iter. 42 -- res = 0.14967E+02, tol = 0.84151E+01, time = 5.07 | CG iter. 43 -- res = 0.10811E+02, tol = 0.84151E+01, time = 5.08 | CG iter. 44 -- res = 0.83056E+01, tol = 0.84151E+01, time = 5.25 | CG iter. 45 -- res = 0.64059E+01, tol = 0.84151E+01, time = 4.93 | CG iter. 46 -- res = 0.47464E+01, tol = 0.84151E+01, time = 5.37 | CG iter. 47 -- res = 0.32782E+01, tol = 0.84151E+01, time = 5.29 | CG iter. 48 -- res = 0.24290E+01, tol = 0.84151E+01, time = 4.98 | CG iter. 49 -- res = 0.18315E+01, tol = 0.84151E+01, time = 8.90 | CG iter. 50 -- res = 0.12911E+01, tol = 0.84151E+01, time = 7.56 | Final CG iter 51 -- res = 0.12911E+01, tol = 0.84151E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7971940.547 | Old band monopole 8492461.876 | Change to band monopole -520521.329 | Change to component monopole 520519.090 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.70895E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.38157E+03, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.36296E+01, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.70313E-01, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.18648E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7971906.258 | (Sampled value in CG: 8105545.830 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.515928 | New value = 1.537548 | poltype: 2 pol: 1 CPU time specind = 2.3154020E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.507792 | New value = 1.475312 | poltype: 2 pol: 2 CPU time specind = 4.1530132E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.24114E+08, tol = 0.47617E+04, time = 6.03 | CG iter. 2 -- res = 0.53290E+07, tol = 0.47617E+04, time = 5.86 | CG iter. 3 -- res = 0.83548E+06, tol = 0.47617E+04, time = 6.16 | CG iter. 4 -- res = 0.34559E+06, tol = 0.47617E+04, time = 5.92 | CG iter. 5 -- res = 0.14849E+06, tol = 0.47617E+04, time = 5.96 | CG iter. 6 -- res = 0.77668E+05, tol = 0.47617E+04, time = 5.59 | CG iter. 7 -- res = 0.42942E+05, tol = 0.47617E+04, time = 6.00 | CG iter. 8 -- res = 0.20644E+05, tol = 0.47617E+04, time = 5.84 | CG iter. 9 -- res = 0.90387E+04, tol = 0.47617E+04, time = 5.82 | CG iter. 10 -- res = 0.37198E+04, tol = 0.47617E+04, time = 6.10 | CG iter. 11 -- res = 0.16753E+04, tol = 0.47617E+04, time = 6.09 | CG iter. 12 -- res = 0.85793E+03, tol = 0.47617E+04, time = 5.95 | CG iter. 13 -- res = 0.47749E+03, tol = 0.47617E+04, time = 5.81 | CG iter. 14 -- res = 0.26506E+03, tol = 0.47617E+04, time = 5.71 | CG iter. 15 -- res = 0.13674E+03, tol = 0.47617E+04, time = 5.91 | CG iter. 16 -- res = 0.66367E+02, tol = 0.47617E+04, time = 6.25 | CG iter. 17 -- res = 0.31137E+02, tol = 0.47617E+04, time = 5.76 | CG iter. 18 -- res = 0.15629E+02, tol = 0.47617E+04, time = 5.96 | CG iter. 19 -- res = 0.83972E+01, tol = 0.47617E+04, time = 5.63 | CG iter. 20 -- res = 0.46839E+01, tol = 0.47617E+04, time = 5.73 | CG iter. 21 -- res = 0.25149E+01, tol = 0.47617E+04, time = 6.06 | CG iter. 22 -- res = 0.13074E+01, tol = 0.47617E+04, time = 6.01 | CG iter. 23 -- res = 0.66602E+00, tol = 0.47617E+04, time = 5.78 | CG iter. 24 -- res = 0.34675E+00, tol = 0.47617E+04, time = 5.84 | CG iter. 25 -- res = 0.19117E+00, tol = 0.47617E+04, time = 5.84 | CG iter. 26 -- res = 0.10815E+00, tol = 0.47617E+04, time = 5.47 | CG iter. 27 -- res = 0.61017E-01, tol = 0.47617E+04, time = 6.13 | CG iter. 28 -- res = 0.32724E-01, tol = 0.47617E+04, time = 5.90 | CG iter. 29 -- res = 0.16447E-01, tol = 0.47617E+04, time = 5.72 | CG iter. 30 -- res = 0.85733E-02, tol = 0.47617E+04, time = 5.95 | CG iter. 31 -- res = 0.47102E-02, tol = 0.47617E+04, time = 12.05 | CG iter. 32 -- res = 0.27104E-02, tol = 0.47617E+04, time = 5.78 | CG iter. 33 -- res = 0.15551E-02, tol = 0.47617E+04, time = 5.82 | CG iter. 34 -- res = 0.84022E-03, tol = 0.47617E+04, time = 5.88 | CG iter. 35 -- res = 0.42917E-03, tol = 0.47617E+04, time = 5.70 | Final CG iter 36 -- res = 0.42917E-03, tol = 0.47617E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.748 2.726 | New value 3.784 | Old value -1.748 | Difference 5.532 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.16075E+07, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.22579E+03, tol = 0.47627E+18, time = 1.69 | CG iter. 3 -- res = 0.30104E+01, tol = 0.47627E+18, time = 1.79 | Final CG iter 4 -- res = 0.14897E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7971906.258 | (Sampled value in CG: 8105032.935 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.547868 | New value = -3.725679 | poltype: 1 pol: 1 CPU time specind = 1.3685942E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.30604E+07, tol = 0.25728E+01, time = 2.29 | CG iter. 2 -- res = 0.13669E+07, tol = 0.25728E+01, time = 2.40 | CG iter. 3 -- res = 0.27365E+06, tol = 0.25728E+01, time = 2.64 | CG iter. 4 -- res = 0.12216E+06, tol = 0.25728E+01, time = 7.44 | CG iter. 5 -- res = 0.76714E+05, tol = 0.25728E+01, time = 4.37 | CG iter. 6 -- res = 0.36203E+05, tol = 0.25728E+01, time = 2.29 | CG iter. 7 -- res = 0.11281E+05, tol = 0.25728E+01, time = 2.47 | CG iter. 8 -- res = 0.42278E+04, tol = 0.25728E+01, time = 2.49 | CG iter. 9 -- res = 0.19123E+04, tol = 0.25728E+01, time = 2.57 | CG iter. 10 -- res = 0.80801E+03, tol = 0.25728E+01, time = 2.00 | CG iter. 11 -- res = 0.35320E+03, tol = 0.25728E+01, time = 2.27 | CG iter. 12 -- res = 0.17895E+03, tol = 0.25728E+01, time = 2.54 | CG iter. 13 -- res = 0.90131E+02, tol = 0.25728E+01, time = 2.37 | CG iter. 14 -- res = 0.41303E+02, tol = 0.25728E+01, time = 2.66 | CG iter. 15 -- res = 0.17487E+02, tol = 0.25728E+01, time = 2.14 | CG iter. 16 -- res = 0.71926E+01, tol = 0.25728E+01, time = 2.48 | CG iter. 17 -- res = 0.32611E+01, tol = 0.25728E+01, time = 2.37 | CG iter. 18 -- res = 0.16538E+01, tol = 0.25728E+01, time = 2.28 | CG iter. 19 -- res = 0.82235E+00, tol = 0.25728E+01, time = 2.46 | CG iter. 20 -- res = 0.38898E+00, tol = 0.25728E+01, time = 2.33 | CG iter. 21 -- res = 0.17307E+00, tol = 0.25728E+01, time = 2.46 | CG iter. 22 -- res = 0.74447E-01, tol = 0.25728E+01, time = 2.40 | CG iter. 23 -- res = 0.33537E-01, tol = 0.25728E+01, time = 2.28 | CG iter. 24 -- res = 0.16463E-01, tol = 0.25728E+01, time = 2.32 | CG iter. 25 -- res = 0.86936E-02, tol = 0.25728E+01, time = 2.40 | CG iter. 26 -- res = 0.42703E-02, tol = 0.25728E+01, time = 2.52 | CG iter. 27 -- res = 0.19611E-02, tol = 0.25728E+01, time = 2.30 | CG iter. 28 -- res = 0.89129E-03, tol = 0.25728E+01, time = 2.54 | CG iter. 29 -- res = 0.39643E-03, tol = 0.25728E+01, time = 2.61 | CG iter. 30 -- res = 0.19570E-03, tol = 0.25728E+01, time = 2.43 | CG iter. 31 -- res = 0.10027E-03, tol = 0.25728E+01, time = 2.26 | CG iter. 32 -- res = 0.49747E-04, tol = 0.25728E+01, time = 2.36 | CG iter. 33 -- res = 0.22900E-04, tol = 0.25728E+01, time = 2.35 | CG iter. 34 -- res = 0.10348E-04, tol = 0.25728E+01, time = 2.37 | CG iter. 35 -- res = 0.49988E-05, tol = 0.25728E+01, time = 2.33 | CG iter. 36 -- res = 0.24348E-05, tol = 0.25728E+01, time = 2.28 | CG iter. 37 -- res = 0.12093E-05, tol = 0.25728E+01, time = 2.48 | CG iter. 38 -- res = 0.63511E-06, tol = 0.25728E+01, time = 2.21 | CG iter. 39 -- res = 0.28561E-06, tol = 0.25728E+01, time = 2.61 | CG iter. 40 -- res = 0.13196E-06, tol = 0.25728E+01, time = 3.43 | CG iter. 41 -- res = 0.59519E-07, tol = 0.25728E+01, time = 2.75 | CG iter. 42 -- res = 0.30057E-07, tol = 0.25728E+01, time = 2.52 | CG iter. 43 -- res = 0.14684E-07, tol = 0.25728E+01, time = 2.64 | CG iter. 44 -- res = 0.74097E-08, tol = 0.25728E+01, time = 2.80 | CG iter. 45 -- res = 0.33736E-08, tol = 0.25728E+01, time = 2.58 | CG iter. 46 -- res = 0.14988E-08, tol = 0.25728E+01, time = 2.58 | CG iter. 47 -- res = 0.72618E-09, tol = 0.25728E+01, time = 2.31 | CG iter. 48 -- res = 0.35519E-09, tol = 0.25728E+01, time = 2.32 | CG iter. 49 -- res = 0.17086E-09, tol = 0.25728E+01, time = 2.57 | CG iter. 50 -- res = 0.80833E-10, tol = 0.25728E+01, time = 2.53 | Final CG iter 51 -- res = 0.80833E-10, tol = 0.25728E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.613 3.139 | New value -3.705 | Old value 5.613 | Difference -9.319 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.98819E+05, tol = 0.47627E+18, time = 1.68 | CG iter. 2 -- res = 0.15124E+03, tol = 0.47627E+18, time = 1.66 | CG iter. 3 -- res = 0.34405E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.14706E-01, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.94322E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7971906.258 | (Sampled value in CG: 8076472.762 ) | CPU time specind = 1085.587 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.68979E+08, tol = 0.57975E+04, time = 10.60 | CG iter. 2 -- res = 0.60034E+08, tol = 0.57975E+04, time = 10.56 | CG iter. 3 -- res = 0.16102E+08, tol = 0.57975E+04, time = 10.55 | CG iter. 4 -- res = 0.67874E+07, tol = 0.57975E+04, time = 10.89 | CG iter. 5 -- res = 0.40914E+07, tol = 0.57975E+04, time = 10.39 | CG iter. 6 -- res = 0.24059E+07, tol = 0.57975E+04, time = 10.89 | CG iter. 7 -- res = 0.14496E+07, tol = 0.57975E+04, time = 10.15 | CG iter. 8 -- res = 0.10015E+07, tol = 0.57975E+04, time = 10.55 | CG iter. 9 -- res = 0.67332E+06, tol = 0.57975E+04, time = 10.18 | CG iter. 10 -- res = 0.43121E+06, tol = 0.57975E+04, time = 16.98 | CG iter. 11 -- res = 0.26502E+06, tol = 0.57975E+04, time = 10.47 | CG iter. 12 -- res = 0.16503E+06, tol = 0.57975E+04, time = 10.40 | CG iter. 13 -- res = 0.10994E+06, tol = 0.57975E+04, time = 10.78 | CG iter. 14 -- res = 0.88482E+05, tol = 0.57975E+04, time = 10.69 | CG iter. 15 -- res = 0.85106E+05, tol = 0.57975E+04, time = 10.64 | CG iter. 16 -- res = 0.87199E+05, tol = 0.57975E+04, time = 10.33 | CG iter. 17 -- res = 0.88796E+05, tol = 0.57975E+04, time = 10.84 | CG iter. 18 -- res = 0.86043E+05, tol = 0.57975E+04, time = 12.64 | CG iter. 19 -- res = 0.75993E+05, tol = 0.57975E+04, time = 10.58 | CG iter. 20 -- res = 0.67216E+05, tol = 0.57975E+04, time = 10.85 | CG iter. 21 -- res = 0.59756E+05, tol = 0.57975E+04, time = 10.91 | CG iter. 22 -- res = 0.54574E+05, tol = 0.57975E+04, time = 10.82 | CG iter. 23 -- res = 0.49147E+05, tol = 0.57975E+04, time = 10.74 | CG iter. 24 -- res = 0.41792E+05, tol = 0.57975E+04, time = 10.75 | CG iter. 25 -- res = 0.33330E+05, tol = 0.57975E+04, time = 10.73 | CG iter. 26 -- res = 0.25465E+05, tol = 0.57975E+04, time = 10.21 | CG iter. 27 -- res = 0.19284E+05, tol = 0.57975E+04, time = 10.37 | CG iter. 28 -- res = 0.15204E+05, tol = 0.57975E+04, time = 11.32 | CG iter. 29 -- res = 0.13452E+05, tol = 0.57975E+04, time = 10.40 | CG iter. 30 -- res = 0.12908E+05, tol = 0.57975E+04, time = 10.53 | CG iter. 31 -- res = 0.12668E+05, tol = 0.57975E+04, time = 10.43 | CG iter. 32 -- res = 0.11912E+05, tol = 0.57975E+04, time = 10.74 | CG iter. 33 -- res = 0.10100E+05, tol = 0.57975E+04, time = 10.15 | CG iter. 34 -- res = 0.82522E+04, tol = 0.57975E+04, time = 10.39 | CG iter. 35 -- res = 0.69435E+04, tol = 0.57975E+04, time = 10.75 | CG iter. 36 -- res = 0.60482E+04, tol = 0.57975E+04, time = 10.46 | CG iter. 37 -- res = 0.55048E+04, tol = 0.57975E+04, time = 17.24 | CG iter. 38 -- res = 0.50384E+04, tol = 0.57975E+04, time = 10.36 | CG iter. 39 -- res = 0.43779E+04, tol = 0.57975E+04, time = 11.15 | CG iter. 40 -- res = 0.35377E+04, tol = 0.57975E+04, time = 10.63 | CG iter. 41 -- res = 0.28389E+04, tol = 0.57975E+04, time = 10.73 | CG iter. 42 -- res = 0.23568E+04, tol = 0.57975E+04, time = 10.87 | CG iter. 43 -- res = 0.20797E+04, tol = 0.57975E+04, time = 10.71 | CG iter. 44 -- res = 0.19881E+04, tol = 0.57975E+04, time = 10.44 | CG iter. 45 -- res = 0.19345E+04, tol = 0.57975E+04, time = 12.16 | CG iter. 46 -- res = 0.18285E+04, tol = 0.57975E+04, time = 11.52 | CG iter. 47 -- res = 0.16709E+04, tol = 0.57975E+04, time = 10.55 | CG iter. 48 -- res = 0.14159E+04, tol = 0.57975E+04, time = 10.39 | CG iter. 49 -- res = 0.11868E+04, tol = 0.57975E+04, time = 10.51 | CG iter. 50 -- res = 0.10388E+04, tol = 0.57975E+04, time = 10.84 | CG iter. 51 -- res = 0.95167E+03, tol = 0.57975E+04, time = 10.46 | CG iter. 52 -- res = 0.87022E+03, tol = 0.57975E+04, time = 10.78 | CG iter. 53 -- res = 0.79961E+03, tol = 0.57975E+04, time = 10.56 | CG iter. 54 -- res = 0.69805E+03, tol = 0.57975E+04, time = 10.39 | CG iter. 55 -- res = 0.60747E+03, tol = 0.57975E+04, time = 10.34 | CG iter. 56 -- res = 0.52152E+03, tol = 0.57975E+04, time = 10.56 | CG iter. 57 -- res = 0.46353E+03, tol = 0.57975E+04, time = 10.69 | CG iter. 58 -- res = 0.43500E+03, tol = 0.57975E+04, time = 10.69 | CG iter. 59 -- res = 0.42488E+03, tol = 0.57975E+04, time = 10.46 | CG iter. 60 -- res = 0.40911E+03, tol = 0.57975E+04, time = 10.40 | Final CG iter 61 -- res = 0.40911E+03, tol = 0.57975E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.651 ( -229.809 -2230.024 2512.519 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9994197.073 | Old band monopole 7971940.547 | Change to band monopole 2022256.526 | Change to component monopole -2022247.828 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.789 2.732 | New value 6.339 | Old value 3.789 | Difference 2.550 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.975 ( 6.027 10.206 -10.689 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.975 4.335 | New value 7.049 | Old value -4.975 | Difference 12.023 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.35879E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.23950E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.63992E+00, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.17680E-02, tol = 0.47627E+18, time = 1.63 | Final CG iter 5 -- res = 0.77827E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9994154.086 | (Sampled value in CG: 9976767.526 ) | Chain = 1 -- chisq = 0.81488392E+09 | Chain = 1 -- wall time = 17782.654 sec Available RAM: MemAvailable: 496685172 kB Available Swap: SwapFree: 1059134348 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 227 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443211 | --> Sampling calibration, mode = relcal | relcal = 1.3424875E-02 7.4360182E-04 -1.5882700E-03 -1.2580208E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1125392 0.1259226 97043404.7848270 | BP delta = 0.1072377 0.1206212 97043402.0192831 | BP chisq diff = -2.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632448 | --> Sampling calibration, mode = relcal | relcal = -2.8207765E-03 -7.0357590E-04 1.6778677E-03 1.6144551E-03 -4.0797229E-04 6.4000185E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5744151 15217894.3537669 | BP delta = 0.0000000E+00 -0.5730141 15217895.0365914 | BP chisq diff = 0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18318225062660 | --> Sampling calibration, mode = relcal | relcal = -7.5690486E-02 -5.8959022E-02 9.2617147E-02 4.2032365E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.6185901E-05 5.4307207E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4844E-05 | 2: delta_r/delta_0: 1.1496E-06 | 3: delta_s/delta_0: 1.9060E-07 | 4: delta_r/delta_0: 2.3086E-08 | 5: delta_s/delta_0: 5.9711E-09 | 6: delta_r/delta_0: 2.1620E-09 | 7: delta_s/delta_0: 5.7362E-10 | 8: delta_r/delta_0: 1.5825E-10 | 9: delta_s/delta_0: 1.5460E-10 | 10: delta_r/delta_0: 6.5762E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.068983741750051E-003 2.735955673669150E-005 | BP delta = 3.4739215E-02 5.2063301E-02 50479147.8399845 | BP delta = 3.5998806E-02 5.3322893E-02 50479146.3549667 | BP chisq diff = -1.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02594757 | --> Sampling calibration, mode = relcal | relcal = -0.1067342 -9.5485486E-02 0.1449276 5.7292063E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0015742E-03 1.6802346E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.0996E-05 | 2: delta_r/delta_0: 1.8737E-06 | 3: delta_s/delta_0: 2.3555E-07 | 4: delta_r/delta_0: 4.2571E-08 | 5: delta_s/delta_0: 3.4287E-08 | 6: delta_r/delta_0: 7.7700E-09 | 7: delta_s/delta_0: 6.3016E-09 | 8: delta_r/delta_0: 2.0233E-09 | 9: delta_s/delta_0: 8.9789E-10 | 10: delta_r/delta_0: 6.7132E-10 | 11: delta_s/delta_0: 1.2654E-09 | 12: delta_r/delta_0: 1.2133E-10 | 13: delta_s/delta_0: 8.3938E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.043431772949856E-002 2.810976810758762E-005 | BP delta = -0.2677686 -0.2434976 57392467.6497626 | BP delta = -0.2661563 -0.2418852 57392467.7878763 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236077 | --> Sampling calibration, mode = relcal | relcal = 0.2956403 0.2247999 -0.2838418 -0.2365984 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.0830464E-04 5.4772059E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4541E-03 | 2: delta_r/delta_0: 8.0170E-05 | 3: delta_s/delta_0: 8.9192E-06 | 4: delta_r/delta_0: 8.1620E-07 | 5: delta_s/delta_0: 8.8933E-05 | 6: delta_r/delta_0: 7.8006E-06 | 7: delta_s/delta_0: 6.5593E-08 | 8: delta_r/delta_0: 2.2238E-08 | 9: delta_s/delta_0: 3.6781E-08 | 10: delta_r/delta_0: 5.1895E-09 | 11: delta_s/delta_0: 2.0861E-09 | 12: delta_r/delta_0: 4.8736E-10 | 13: delta_s/delta_0: 2.6432E-10 | 14: delta_r/delta_0: 1.4999E-10 | 15: delta_s/delta_0: 4.4157E-10 | 16: delta_r/delta_0: 2.5441E-10 | 17: delta_s/delta_0: 1.3594E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.844627366599127E-002 4.021139606203078E-005 | BP delta = -9.5589586E-02 -0.1090551 72486042.1390112 | BP delta = -5.2407801E-02 -6.5873288E-02 72486042.2700843 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95923465 | --> Sampling calibration, mode = relcal | relcal = 0.1064980 0.1396056 -0.1102221 -0.1358815 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0203538E-02 1.2820176E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6913E-04 | 2: delta_r/delta_0: 4.5265E-06 | 3: delta_s/delta_0: 1.2685E-03 | 4: delta_r/delta_0: 7.6247E-05 | 5: delta_s/delta_0: 1.7363E-07 | 6: delta_r/delta_0: 9.3667E-08 | 7: delta_s/delta_0: 4.9143E-07 | 8: delta_r/delta_0: 2.3209E-08 | 9: delta_s/delta_0: 1.2174E-08 | 10: delta_r/delta_0: 1.7755E-09 | 11: delta_s/delta_0: 8.7866E-10 | 12: delta_r/delta_0: 5.7489E-10 | 13: delta_s/delta_0: 2.4218E-08 | 14: delta_r/delta_0: 2.6307E-09 | 15: delta_s/delta_0: 4.7159E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.896042084790811E-002 3.696953113519882E-005 | BP delta = 1.0378652E-02 0.1178881 72791164.4444961 | BP delta = 1.9275421E-02 0.1267849 72791163.8362167 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.066923 | New value = -3.130778 | poltype: 2 pol: 1 CPU time specind = 7.3280334E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.205075 | New value = -3.231397 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143473 | New value = -3.168233 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152481 | New value = -3.227571 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178294 | New value = -3.205939 | poltype: 2 pol: 2 CPU time specind = 5.5940151E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.13607E+08, tol = 0.73083E+01, time = 5.49 | CG iter. 2 -- res = 0.35465E+06, tol = 0.73083E+01, time = 5.50 | CG iter. 3 -- res = 0.75411E+05, tol = 0.73083E+01, time = 5.59 | CG iter. 4 -- res = 0.72278E+05, tol = 0.73083E+01, time = 5.61 | CG iter. 5 -- res = 0.70978E+05, tol = 0.73083E+01, time = 5.60 | CG iter. 6 -- res = 0.70196E+05, tol = 0.73083E+01, time = 5.73 | CG iter. 7 -- res = 0.61500E+05, tol = 0.73083E+01, time = 5.60 | CG iter. 8 -- res = 0.44139E+05, tol = 0.73083E+01, time = 5.59 | CG iter. 9 -- res = 0.34121E+05, tol = 0.73083E+01, time = 6.45 | CG iter. 10 -- res = 0.27098E+05, tol = 0.73083E+01, time = 5.66 | CG iter. 11 -- res = 0.19277E+05, tol = 0.73083E+01, time = 5.66 | CG iter. 12 -- res = 0.13776E+05, tol = 0.73083E+01, time = 5.38 | CG iter. 13 -- res = 0.11057E+05, tol = 0.73083E+01, time = 5.59 | CG iter. 14 -- res = 0.95618E+04, tol = 0.73083E+01, time = 5.40 | CG iter. 15 -- res = 0.78831E+04, tol = 0.73083E+01, time = 5.50 | CG iter. 16 -- res = 0.55060E+04, tol = 0.73083E+01, time = 5.56 | CG iter. 17 -- res = 0.37277E+04, tol = 0.73083E+01, time = 5.70 | CG iter. 18 -- res = 0.29876E+04, tol = 0.73083E+01, time = 5.34 | CG iter. 19 -- res = 0.25818E+04, tol = 0.73083E+01, time = 5.89 | CG iter. 20 -- res = 0.20736E+04, tol = 0.73083E+01, time = 5.69 | CG iter. 21 -- res = 0.15190E+04, tol = 0.73083E+01, time = 5.29 | CG iter. 22 -- res = 0.11728E+04, tol = 0.73083E+01, time = 6.01 | CG iter. 23 -- res = 0.96636E+03, tol = 0.73083E+01, time = 5.78 | CG iter. 24 -- res = 0.76883E+03, tol = 0.73083E+01, time = 5.59 | CG iter. 25 -- res = 0.56339E+03, tol = 0.73083E+01, time = 5.67 | CG iter. 26 -- res = 0.42653E+03, tol = 0.73083E+01, time = 6.01 | CG iter. 27 -- res = 0.36800E+03, tol = 0.73083E+01, time = 11.50 | CG iter. 28 -- res = 0.32216E+03, tol = 0.73083E+01, time = 5.40 | CG iter. 29 -- res = 0.24171E+03, tol = 0.73083E+01, time = 5.57 | CG iter. 30 -- res = 0.18556E+03, tol = 0.73083E+01, time = 5.48 | CG iter. 31 -- res = 0.15140E+03, tol = 0.73083E+01, time = 5.42 | CG iter. 32 -- res = 0.13163E+03, tol = 0.73083E+01, time = 5.41 | CG iter. 33 -- res = 0.10791E+03, tol = 0.73083E+01, time = 5.78 | CG iter. 34 -- res = 0.84052E+02, tol = 0.73083E+01, time = 5.62 | CG iter. 35 -- res = 0.67993E+02, tol = 0.73083E+01, time = 5.81 | CG iter. 36 -- res = 0.59514E+02, tol = 0.73083E+01, time = 5.85 | CG iter. 37 -- res = 0.49455E+02, tol = 0.73083E+01, time = 5.43 | CG iter. 38 -- res = 0.39411E+02, tol = 0.73083E+01, time = 5.61 | CG iter. 39 -- res = 0.30645E+02, tol = 0.73083E+01, time = 5.94 | CG iter. 40 -- res = 0.26508E+02, tol = 0.73083E+01, time = 5.71 | CG iter. 41 -- res = 0.23045E+02, tol = 0.73083E+01, time = 5.38 | CG iter. 42 -- res = 0.18512E+02, tol = 0.73083E+01, time = 7.16 | CG iter. 43 -- res = 0.14372E+02, tol = 0.73083E+01, time = 5.98 | CG iter. 44 -- res = 0.12134E+02, tol = 0.73083E+01, time = 5.91 | CG iter. 45 -- res = 0.10239E+02, tol = 0.73083E+01, time = 5.41 | CG iter. 46 -- res = 0.79897E+01, tol = 0.73083E+01, time = 5.48 | CG iter. 47 -- res = 0.60297E+01, tol = 0.73083E+01, time = 5.59 | CG iter. 48 -- res = 0.48440E+01, tol = 0.73083E+01, time = 5.74 | CG iter. 49 -- res = 0.41480E+01, tol = 0.73083E+01, time = 5.69 | CG iter. 50 -- res = 0.34232E+01, tol = 0.73083E+01, time = 5.44 | Final CG iter 51 -- res = 0.34232E+01, tol = 0.73083E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9215025.132 | Old band monopole 9994197.073 | Change to band monopole -779171.941 | Change to component monopole 779168.590 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.21166E+06, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.12246E+03, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.30667E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.20138E-01, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.21158E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9214985.496 | (Sampled value in CG: 9137595.031 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.537548 | New value = 1.499541 | poltype: 2 pol: 1 CPU time specind = 2.3519039E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475312 | New value = 1.526956 | poltype: 2 pol: 2 CPU time specind = 3.6931038E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.29 | CG iter. 1 -- res = 0.24334E+08, tol = 0.47627E+04, time = 6.27 | CG iter. 2 -- res = 0.53538E+07, tol = 0.47627E+04, time = 6.38 | CG iter. 3 -- res = 0.83491E+06, tol = 0.47627E+04, time = 6.17 | CG iter. 4 -- res = 0.34972E+06, tol = 0.47627E+04, time = 6.21 | CG iter. 5 -- res = 0.15038E+06, tol = 0.47627E+04, time = 6.26 | CG iter. 6 -- res = 0.79617E+05, tol = 0.47627E+04, time = 6.02 | CG iter. 7 -- res = 0.43725E+05, tol = 0.47627E+04, time = 6.42 | CG iter. 8 -- res = 0.20781E+05, tol = 0.47627E+04, time = 12.74 | CG iter. 9 -- res = 0.89055E+04, tol = 0.47627E+04, time = 6.55 | CG iter. 10 -- res = 0.36484E+04, tol = 0.47627E+04, time = 6.35 | CG iter. 11 -- res = 0.17018E+04, tol = 0.47627E+04, time = 6.50 | CG iter. 12 -- res = 0.88182E+03, tol = 0.47627E+04, time = 6.22 | CG iter. 13 -- res = 0.49036E+03, tol = 0.47627E+04, time = 6.58 | CG iter. 14 -- res = 0.27702E+03, tol = 0.47627E+04, time = 6.43 | CG iter. 15 -- res = 0.14452E+03, tol = 0.47627E+04, time = 6.37 | CG iter. 16 -- res = 0.68771E+02, tol = 0.47627E+04, time = 6.19 | CG iter. 17 -- res = 0.31507E+02, tol = 0.47627E+04, time = 6.49 | CG iter. 18 -- res = 0.15769E+02, tol = 0.47627E+04, time = 6.14 | CG iter. 19 -- res = 0.86607E+01, tol = 0.47627E+04, time = 6.44 | CG iter. 20 -- res = 0.49368E+01, tol = 0.47627E+04, time = 6.43 | CG iter. 21 -- res = 0.26854E+01, tol = 0.47627E+04, time = 7.18 | CG iter. 22 -- res = 0.13737E+01, tol = 0.47627E+04, time = 7.08 | CG iter. 23 -- res = 0.66958E+00, tol = 0.47627E+04, time = 6.64 | CG iter. 24 -- res = 0.34344E+00, tol = 0.47627E+04, time = 6.02 | CG iter. 25 -- res = 0.18678E+00, tol = 0.47627E+04, time = 6.34 | CG iter. 26 -- res = 0.10602E+00, tol = 0.47627E+04, time = 6.19 | CG iter. 27 -- res = 0.60638E-01, tol = 0.47627E+04, time = 6.27 | CG iter. 28 -- res = 0.32178E-01, tol = 0.47627E+04, time = 6.45 | CG iter. 29 -- res = 0.16529E-01, tol = 0.47627E+04, time = 6.58 | CG iter. 30 -- res = 0.85453E-02, tol = 0.47627E+04, time = 6.54 | CG iter. 31 -- res = 0.45284E-02, tol = 0.47627E+04, time = 5.96 | CG iter. 32 -- res = 0.25160E-02, tol = 0.47627E+04, time = 6.02 | CG iter. 33 -- res = 0.14495E-02, tol = 0.47627E+04, time = 6.04 | CG iter. 34 -- res = 0.77694E-03, tol = 0.47627E+04, time = 6.24 | CG iter. 35 -- res = 0.40573E-03, tol = 0.47627E+04, time = 6.67 | Final CG iter 36 -- res = 0.40573E-03, tol = 0.47627E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 6.352 2.738 | New value 6.639 | Old value 6.352 | Difference 0.287 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.14155E+05, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.39771E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.13526E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.70697E-03, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.12219E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9214985.496 | (Sampled value in CG: 9138748.796 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.725679 | New value = -3.710011 | poltype: 1 pol: 1 CPU time specind = 1.4551878E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.26825E+07, tol = 0.24510E+01, time = 2.66 | CG iter. 2 -- res = 0.11202E+07, tol = 0.24510E+01, time = 2.85 | CG iter. 3 -- res = 0.23415E+06, tol = 0.24510E+01, time = 2.70 | CG iter. 4 -- res = 0.93846E+05, tol = 0.24510E+01, time = 2.70 | CG iter. 5 -- res = 0.58436E+05, tol = 0.24510E+01, time = 2.84 | CG iter. 6 -- res = 0.29256E+05, tol = 0.24510E+01, time = 2.92 | CG iter. 7 -- res = 0.95739E+04, tol = 0.24510E+01, time = 2.52 | CG iter. 8 -- res = 0.37361E+04, tol = 0.24510E+01, time = 2.96 | CG iter. 9 -- res = 0.15915E+04, tol = 0.24510E+01, time = 2.40 | CG iter. 10 -- res = 0.66120E+03, tol = 0.24510E+01, time = 2.52 | CG iter. 11 -- res = 0.29014E+03, tol = 0.24510E+01, time = 2.76 | CG iter. 12 -- res = 0.14846E+03, tol = 0.24510E+01, time = 2.89 | CG iter. 13 -- res = 0.74643E+02, tol = 0.24510E+01, time = 2.86 | CG iter. 14 -- res = 0.34654E+02, tol = 0.24510E+01, time = 2.59 | CG iter. 15 -- res = 0.14963E+02, tol = 0.24510E+01, time = 2.76 | CG iter. 16 -- res = 0.63866E+01, tol = 0.24510E+01, time = 2.73 | CG iter. 17 -- res = 0.27092E+01, tol = 0.24510E+01, time = 2.49 | CG iter. 18 -- res = 0.12953E+01, tol = 0.24510E+01, time = 2.56 | CG iter. 19 -- res = 0.68068E+00, tol = 0.24510E+01, time = 3.03 | CG iter. 20 -- res = 0.32155E+00, tol = 0.24510E+01, time = 2.69 | CG iter. 21 -- res = 0.14357E+00, tol = 0.24510E+01, time = 2.48 | CG iter. 22 -- res = 0.62589E-01, tol = 0.24510E+01, time = 2.79 | CG iter. 23 -- res = 0.27894E-01, tol = 0.24510E+01, time = 2.48 | CG iter. 24 -- res = 0.13951E-01, tol = 0.24510E+01, time = 2.58 | CG iter. 25 -- res = 0.72822E-02, tol = 0.24510E+01, time = 2.65 | CG iter. 26 -- res = 0.36212E-02, tol = 0.24510E+01, time = 2.72 | CG iter. 27 -- res = 0.16266E-02, tol = 0.24510E+01, time = 2.63 | CG iter. 28 -- res = 0.75374E-03, tol = 0.24510E+01, time = 2.62 | CG iter. 29 -- res = 0.32534E-03, tol = 0.24510E+01, time = 2.75 | CG iter. 30 -- res = 0.16138E-03, tol = 0.24510E+01, time = 2.75 | CG iter. 31 -- res = 0.80920E-04, tol = 0.24510E+01, time = 2.81 | CG iter. 32 -- res = 0.39528E-04, tol = 0.24510E+01, time = 2.75 | CG iter. 33 -- res = 0.18237E-04, tol = 0.24510E+01, time = 2.67 | CG iter. 34 -- res = 0.82273E-05, tol = 0.24510E+01, time = 2.53 | CG iter. 35 -- res = 0.39243E-05, tol = 0.24510E+01, time = 2.91 | CG iter. 36 -- res = 0.18780E-05, tol = 0.24510E+01, time = 2.76 | CG iter. 37 -- res = 0.90501E-06, tol = 0.24510E+01, time = 2.74 | CG iter. 38 -- res = 0.45192E-06, tol = 0.24510E+01, time = 2.72 | CG iter. 39 -- res = 0.21361E-06, tol = 0.24510E+01, time = 2.72 | CG iter. 40 -- res = 0.10103E-06, tol = 0.24510E+01, time = 2.64 | CG iter. 41 -- res = 0.45479E-07, tol = 0.24510E+01, time = 2.88 | CG iter. 42 -- res = 0.21362E-07, tol = 0.24510E+01, time = 2.76 | CG iter. 43 -- res = 0.10440E-07, tol = 0.24510E+01, time = 2.72 | CG iter. 44 -- res = 0.51783E-08, tol = 0.24510E+01, time = 2.75 | CG iter. 45 -- res = 0.24654E-08, tol = 0.24510E+01, time = 2.64 | CG iter. 46 -- res = 0.11112E-08, tol = 0.24510E+01, time = 2.28 | CG iter. 47 -- res = 0.54007E-09, tol = 0.24510E+01, time = 2.58 | CG iter. 48 -- res = 0.25368E-09, tol = 0.24510E+01, time = 3.79 | CG iter. 49 -- res = 0.11816E-09, tol = 0.24510E+01, time = 7.88 | CG iter. 50 -- res = 0.56817E-10, tol = 0.24510E+01, time = 2.41 | Final CG iter 51 -- res = 0.56817E-10, tol = 0.24510E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.933 5.794 | New value -5.473 | Old value 0.933 | Difference -6.406 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.40361E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.46946E+02, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.14831E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.51568E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.26819E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9214985.496 | (Sampled value in CG: 9161394.662 ) | CPU time specind = 1163.490 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.68971E+08, tol = 0.57958E+04, time = 12.28 | CG iter. 2 -- res = 0.58776E+08, tol = 0.57958E+04, time = 11.50 | CG iter. 3 -- res = 0.15364E+08, tol = 0.57958E+04, time = 11.73 | CG iter. 4 -- res = 0.65474E+07, tol = 0.57958E+04, time = 11.56 | CG iter. 5 -- res = 0.38821E+07, tol = 0.57958E+04, time = 11.48 | CG iter. 6 -- res = 0.22482E+07, tol = 0.57958E+04, time = 11.29 | CG iter. 7 -- res = 0.13478E+07, tol = 0.57958E+04, time = 11.87 | CG iter. 8 -- res = 0.89238E+06, tol = 0.57958E+04, time = 11.51 | CG iter. 9 -- res = 0.58018E+06, tol = 0.57958E+04, time = 12.28 | CG iter. 10 -- res = 0.34696E+06, tol = 0.57958E+04, time = 11.35 | CG iter. 11 -- res = 0.19178E+06, tol = 0.57958E+04, time = 11.70 | CG iter. 12 -- res = 0.10904E+06, tol = 0.57958E+04, time = 11.39 | CG iter. 13 -- res = 0.66160E+05, tol = 0.57958E+04, time = 11.31 | CG iter. 14 -- res = 0.44488E+05, tol = 0.57958E+04, time = 11.60 | CG iter. 15 -- res = 0.34938E+05, tol = 0.57958E+04, time = 11.52 | CG iter. 16 -- res = 0.30099E+05, tol = 0.57958E+04, time = 11.53 | CG iter. 17 -- res = 0.26899E+05, tol = 0.57958E+04, time = 11.33 | CG iter. 18 -- res = 0.24080E+05, tol = 0.57958E+04, time = 17.77 | CG iter. 19 -- res = 0.21286E+05, tol = 0.57958E+04, time = 11.52 | CG iter. 20 -- res = 0.18821E+05, tol = 0.57958E+04, time = 11.41 | CG iter. 21 -- res = 0.17840E+05, tol = 0.57958E+04, time = 11.94 | CG iter. 22 -- res = 0.18115E+05, tol = 0.57958E+04, time = 11.61 | CG iter. 23 -- res = 0.18101E+05, tol = 0.57958E+04, time = 11.50 | CG iter. 24 -- res = 0.17313E+05, tol = 0.57958E+04, time = 11.67 | CG iter. 25 -- res = 0.14809E+05, tol = 0.57958E+04, time = 13.03 | CG iter. 26 -- res = 0.11404E+05, tol = 0.57958E+04, time = 12.38 | CG iter. 27 -- res = 0.86398E+04, tol = 0.57958E+04, time = 11.39 | CG iter. 28 -- res = 0.64629E+04, tol = 0.57958E+04, time = 11.62 | CG iter. 29 -- res = 0.51141E+04, tol = 0.57958E+04, time = 11.56 | CG iter. 30 -- res = 0.44446E+04, tol = 0.57958E+04, time = 11.75 | CG iter. 31 -- res = 0.40169E+04, tol = 0.57958E+04, time = 11.69 | CG iter. 32 -- res = 0.36073E+04, tol = 0.57958E+04, time = 11.16 | CG iter. 33 -- res = 0.31572E+04, tol = 0.57958E+04, time = 12.00 | CG iter. 34 -- res = 0.25972E+04, tol = 0.57958E+04, time = 11.44 | CG iter. 35 -- res = 0.21716E+04, tol = 0.57958E+04, time = 11.58 | CG iter. 36 -- res = 0.19369E+04, tol = 0.57958E+04, time = 11.47 | CG iter. 37 -- res = 0.18312E+04, tol = 0.57958E+04, time = 11.13 | CG iter. 38 -- res = 0.17258E+04, tol = 0.57958E+04, time = 11.68 | CG iter. 39 -- res = 0.15460E+04, tol = 0.57958E+04, time = 11.43 | CG iter. 40 -- res = 0.12807E+04, tol = 0.57958E+04, time = 11.48 | CG iter. 41 -- res = 0.10177E+04, tol = 0.57958E+04, time = 11.45 | CG iter. 42 -- res = 0.81377E+03, tol = 0.57958E+04, time = 11.63 | CG iter. 43 -- res = 0.68786E+03, tol = 0.57958E+04, time = 18.72 | CG iter. 44 -- res = 0.62181E+03, tol = 0.57958E+04, time = 11.29 | CG iter. 45 -- res = 0.58004E+03, tol = 0.57958E+04, time = 11.15 | CG iter. 46 -- res = 0.52742E+03, tol = 0.57958E+04, time = 11.40 | CG iter. 47 -- res = 0.47154E+03, tol = 0.57958E+04, time = 11.83 | CG iter. 48 -- res = 0.41467E+03, tol = 0.57958E+04, time = 11.07 | CG iter. 49 -- res = 0.35945E+03, tol = 0.57958E+04, time = 11.89 | CG iter. 50 -- res = 0.32653E+03, tol = 0.57958E+04, time = 10.99 | CG iter. 51 -- res = 0.31291E+03, tol = 0.57958E+04, time = 13.00 | CG iter. 52 -- res = 0.29727E+03, tol = 0.57958E+04, time = 11.86 | CG iter. 53 -- res = 0.28100E+03, tol = 0.57958E+04, time = 11.38 | CG iter. 54 -- res = 0.25745E+03, tol = 0.57958E+04, time = 11.45 | CG iter. 55 -- res = 0.22290E+03, tol = 0.57958E+04, time = 11.49 | CG iter. 56 -- res = 0.19263E+03, tol = 0.57958E+04, time = 11.34 | CG iter. 57 -- res = 0.17154E+03, tol = 0.57958E+04, time = 11.36 | CG iter. 58 -- res = 0.15942E+03, tol = 0.57958E+04, time = 11.11 | CG iter. 59 -- res = 0.15059E+03, tol = 0.57958E+04, time = 11.28 | CG iter. 60 -- res = 0.14202E+03, tol = 0.57958E+04, time = 12.27 | Final CG iter 61 -- res = 0.14202E+03, tol = 0.57958E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.723 ( -229.637 -2229.700 2511.965 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9365050.805 | Old band monopole 9215025.132 | Change to band monopole 150025.673 | Change to component monopole -150025.028 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 6.647 2.738 | New value -1.506 | Old value 6.647 | Difference -8.153 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.401 ( 6.868 9.097 -8.402 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.800 5.704 | New value 0.711 | Old value 1.800 | Difference -1.088 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.34430E+07, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.32095E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.80931E+00, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.14607E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.32941E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9365010.524 | (Sampled value in CG: 9341376.031 ) | Chain = 1 -- chisq = 0.81531719E+09 | Chain = 1 -- wall time = 5648.730 sec Available RAM: MemAvailable: 377680076 kB Available Swap: SwapFree: 1127838604 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 228 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445334 | --> Sampling calibration, mode = relcal | relcal = 1.3414247E-02 7.5334485E-04 -1.5881166E-03 -1.2579476E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1072377 0.1206212 9405871.41649001 | BP delta = 0.1072377 0.1192727 9405912.50273417 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632277 | --> Sampling calibration, mode = relcal | relcal = -2.8203088E-03 -7.0386595E-04 1.6776872E-03 1.6143139E-03 -4.0828050E-04 6.4045429E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5730141 15218658.7732520 | BP delta = 0.0000000E+00 -0.5777860 15218660.5037799 | BP chisq diff = 1.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18645081253116 | --> Sampling calibration, mode = relcal | relcal = -7.5716287E-02 -5.9247684E-02 9.2822976E-02 4.2140990E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9229634E-05 6.2200367E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7743E-05 | 2: delta_r/delta_0: 1.3339E-06 | 3: delta_s/delta_0: 1.9443E-07 | 4: delta_r/delta_0: 2.6089E-08 | 5: delta_s/delta_0: 7.0825E-09 | 6: delta_r/delta_0: 2.5745E-09 | 7: delta_s/delta_0: 7.8062E-10 | 8: delta_r/delta_0: 1.5816E-10 | 9: delta_s/delta_0: 2.8691E-10 | 10: delta_r/delta_0: 8.1844E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.015045047608189E-003 2.728421217759783E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7741E-05 | 2: delta_r/delta_0: 1.3339E-06 | 3: delta_s/delta_0: 1.9443E-07 | 4: delta_r/delta_0: 2.6090E-08 | 5: delta_s/delta_0: 7.0835E-09 | 6: delta_r/delta_0: 2.5746E-09 | 7: delta_s/delta_0: 7.8047E-10 | 8: delta_r/delta_0: 1.5817E-10 | 9: delta_s/delta_0: 2.8704E-10 | 10: delta_r/delta_0: 8.1893E-11 | Reached bicg-stab tolerance | BP delta = 3.5998806E-02 5.3322893E-02 3556264.34696027 | BP delta = 3.5998806E-02 5.3576857E-02 3553278.51960634 | BP chisq diff = -2985.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02584059 | --> Sampling calibration, mode = relcal | relcal = -0.1066994 -9.5576487E-02 0.1449414 5.7334520E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3155426E-03 1.4581003E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9028E-05 | 2: delta_r/delta_0: 1.4821E-06 | 3: delta_s/delta_0: 2.3528E-07 | 4: delta_r/delta_0: 5.2132E-08 | 5: delta_s/delta_0: 1.9533E-08 | 6: delta_r/delta_0: 7.0750E-09 | 7: delta_s/delta_0: 6.4972E-09 | 8: delta_r/delta_0: 1.4177E-09 | 9: delta_s/delta_0: 1.3775E-09 | 10: delta_r/delta_0: 9.6210E-10 | 11: delta_s/delta_0: 3.7913E-10 | 12: delta_r/delta_0: 1.0305E-10 | 13: delta_s/delta_0: 1.0933E-10 | 14: delta_r/delta_0: 8.2353E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.012587948317409E-002 2.811269127870703E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.9027E-05 | 2: delta_r/delta_0: 1.4820E-06 | 3: delta_s/delta_0: 2.3525E-07 | 4: delta_r/delta_0: 5.2102E-08 | 5: delta_s/delta_0: 1.9548E-08 | 6: delta_r/delta_0: 7.0724E-09 | 7: delta_s/delta_0: 6.4900E-09 | 8: delta_r/delta_0: 1.4173E-09 | 9: delta_s/delta_0: 1.3777E-09 | 10: delta_r/delta_0: 9.6236E-10 | 11: delta_s/delta_0: 3.7851E-10 | 12: delta_r/delta_0: 1.0305E-10 | 13: delta_s/delta_0: 1.0973E-10 | 14: delta_r/delta_0: 8.2817E-11 | Reached bicg-stab tolerance | BP delta = -0.2661563 -0.2418852 2841814.60404356 | BP delta = -0.2661563 -0.2452623 2841780.21101450 | BP chisq diff = -34.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215365 | --> Sampling calibration, mode = relcal | relcal = 0.2955062 0.2247256 -0.2837245 -0.2365073 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.3881767E-04 4.0074573E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.1776E-04 | 2: delta_r/delta_0: 1.6341E-05 | 3: delta_s/delta_0: 2.3302E-06 | 4: delta_r/delta_0: 4.1904E-07 | 5: delta_s/delta_0: 1.1142E-06 | 6: delta_r/delta_0: 1.6871E-07 | 7: delta_s/delta_0: 6.5314E-08 | 8: delta_r/delta_0: 3.5537E-08 | 9: delta_s/delta_0: 1.8214E-06 | 10: delta_r/delta_0: 1.4304E-08 | 11: delta_s/delta_0: 2.8910E-09 | 12: delta_r/delta_0: 6.2839E-10 | 13: delta_s/delta_0: 1.1009E-08 | 14: delta_r/delta_0: 2.8171E-09 | 15: delta_s/delta_0: 3.9482E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.372648884569832E-002 4.022044485744179E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.1766E-04 | 2: delta_r/delta_0: 1.6339E-05 | 3: delta_s/delta_0: 2.3302E-06 | 4: delta_r/delta_0: 4.1900E-07 | 5: delta_s/delta_0: 1.1137E-06 | 6: delta_r/delta_0: 1.6871E-07 | 7: delta_s/delta_0: 6.5315E-08 | 8: delta_r/delta_0: 3.5531E-08 | 9: delta_s/delta_0: 1.8197E-06 | 10: delta_r/delta_0: 1.4309E-08 | 11: delta_s/delta_0: 2.8943E-09 | 12: delta_r/delta_0: 6.2842E-10 | 13: delta_s/delta_0: 1.1084E-08 | 14: delta_r/delta_0: 2.8390E-09 | 15: delta_s/delta_0: 3.9485E-11 | Reached bicg-stab tolerance | BP delta = -5.2407801E-02 -6.5873288E-02 2827348.26001591 | BP delta = -5.2407801E-02 -6.2293675E-02 2827359.05677672 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95894746 | --> Sampling calibration, mode = relcal | relcal = 0.1063472 0.1396370 -0.1102362 -0.1357480 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3778092E-03 1.2681559E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4856E-04 | 2: delta_r/delta_0: 4.1347E-06 | 3: delta_s/delta_0: 9.2136E-06 | 4: delta_r/delta_0: 1.3323E-06 | 5: delta_s/delta_0: 1.6778E-07 | 6: delta_r/delta_0: 1.1535E-07 | 7: delta_s/delta_0: 9.5188E-07 | 8: delta_r/delta_0: 2.2231E-08 | 9: delta_s/delta_0: 9.8807E-06 | 10: delta_r/delta_0: 2.8063E-06 | 11: delta_s/delta_0: 1.2123E-08 | 12: delta_r/delta_0: 8.5651E-09 | 13: delta_s/delta_0: 4.1708E-10 | 14: delta_r/delta_0: 1.7458E-10 | 15: delta_s/delta_0: 2.9566E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.862445929174922E-002 3.697966594447105E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4856E-04 | 2: delta_r/delta_0: 4.1347E-06 | 3: delta_s/delta_0: 9.2136E-06 | 4: delta_r/delta_0: 1.3323E-06 | 5: delta_s/delta_0: 1.6778E-07 | 6: delta_r/delta_0: 1.1535E-07 | 7: delta_s/delta_0: 9.5184E-07 | 8: delta_r/delta_0: 2.2231E-08 | 9: delta_s/delta_0: 1.0073E-05 | 10: delta_r/delta_0: 2.8589E-06 | 11: delta_s/delta_0: 1.2163E-08 | 12: delta_r/delta_0: 8.5935E-09 | 13: delta_s/delta_0: 4.1710E-10 | 14: delta_r/delta_0: 1.7455E-10 | 15: delta_s/delta_0: 2.9563E-11 | Reached bicg-stab tolerance | BP delta = 1.9275421E-02 0.1267849 3004199.24364310 | BP delta = 1.9275421E-02 0.1264890 3004198.00368496 | BP chisq diff = -1.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.130778 | New value = -3.170533 | poltype: 2 pol: 1 CPU time specind = 8.2890987E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.231397 | New value = -3.121045 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168233 | New value = -3.183277 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.227571 | New value = -3.163858 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.205939 | New value = -3.203144 | poltype: 2 pol: 2 CPU time specind = 4.5669079E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.13541E+08, tol = 0.75806E+01, time = 5.14 | CG iter. 2 -- res = 0.31744E+06, tol = 0.75806E+01, time = 5.70 | CG iter. 3 -- res = 0.46692E+05, tol = 0.75806E+01, time = 5.88 | CG iter. 4 -- res = 0.24404E+05, tol = 0.75806E+01, time = 5.47 | CG iter. 5 -- res = 0.15251E+05, tol = 0.75806E+01, time = 5.53 | CG iter. 6 -- res = 0.10904E+05, tol = 0.75806E+01, time = 5.72 | CG iter. 7 -- res = 0.99735E+04, tol = 0.75806E+01, time = 5.66 | CG iter. 8 -- res = 0.84617E+04, tol = 0.75806E+01, time = 8.08 | CG iter. 9 -- res = 0.77231E+04, tol = 0.75806E+01, time = 5.42 | CG iter. 10 -- res = 0.71957E+04, tol = 0.75806E+01, time = 5.47 | CG iter. 11 -- res = 0.53493E+04, tol = 0.75806E+01, time = 5.62 | CG iter. 12 -- res = 0.35625E+04, tol = 0.75806E+01, time = 5.44 | CG iter. 13 -- res = 0.26496E+04, tol = 0.75806E+01, time = 6.53 | CG iter. 14 -- res = 0.22794E+04, tol = 0.75806E+01, time = 7.68 | CG iter. 15 -- res = 0.20843E+04, tol = 0.75806E+01, time = 7.16 | CG iter. 16 -- res = 0.16621E+04, tol = 0.75806E+01, time = 7.93 | CG iter. 17 -- res = 0.11778E+04, tol = 0.75806E+01, time = 7.54 | CG iter. 18 -- res = 0.89219E+03, tol = 0.75806E+01, time = 7.90 | CG iter. 19 -- res = 0.72497E+03, tol = 0.75806E+01, time = 7.83 | CG iter. 20 -- res = 0.57253E+03, tol = 0.75806E+01, time = 7.76 | CG iter. 21 -- res = 0.41321E+03, tol = 0.75806E+01, time = 7.15 | CG iter. 22 -- res = 0.30798E+03, tol = 0.75806E+01, time = 13.73 | CG iter. 23 -- res = 0.26462E+03, tol = 0.75806E+01, time = 7.48 | CG iter. 24 -- res = 0.22601E+03, tol = 0.75806E+01, time = 7.45 | CG iter. 25 -- res = 0.16996E+03, tol = 0.75806E+01, time = 7.78 | CG iter. 26 -- res = 0.12395E+03, tol = 0.75806E+01, time = 7.67 | CG iter. 27 -- res = 0.98364E+02, tol = 0.75806E+01, time = 7.40 | CG iter. 28 -- res = 0.81594E+02, tol = 0.75806E+01, time = 7.55 | CG iter. 29 -- res = 0.62138E+02, tol = 0.75806E+01, time = 7.41 | CG iter. 30 -- res = 0.45814E+02, tol = 0.75806E+01, time = 6.03 | CG iter. 31 -- res = 0.37054E+02, tol = 0.75806E+01, time = 5.30 | CG iter. 32 -- res = 0.31549E+02, tol = 0.75806E+01, time = 5.30 | CG iter. 33 -- res = 0.25059E+02, tol = 0.75806E+01, time = 5.28 | CG iter. 34 -- res = 0.18496E+02, tol = 0.75806E+01, time = 5.80 | CG iter. 35 -- res = 0.13369E+02, tol = 0.75806E+01, time = 6.58 | CG iter. 36 -- res = 0.11154E+02, tol = 0.75806E+01, time = 6.06 | CG iter. 37 -- res = 0.92929E+01, tol = 0.75806E+01, time = 5.40 | CG iter. 38 -- res = 0.71266E+01, tol = 0.75806E+01, time = 5.75 | CG iter. 39 -- res = 0.54760E+01, tol = 0.75806E+01, time = 5.37 | CG iter. 40 -- res = 0.44632E+01, tol = 0.75806E+01, time = 5.52 | CG iter. 41 -- res = 0.37810E+01, tol = 0.75806E+01, time = 5.80 | CG iter. 42 -- res = 0.30197E+01, tol = 0.75806E+01, time = 5.60 | CG iter. 43 -- res = 0.24165E+01, tol = 0.75806E+01, time = 5.43 | CG iter. 44 -- res = 0.20231E+01, tol = 0.75806E+01, time = 5.57 | CG iter. 45 -- res = 0.17194E+01, tol = 0.75806E+01, time = 5.57 | CG iter. 46 -- res = 0.14591E+01, tol = 0.75806E+01, time = 5.46 | CG iter. 47 -- res = 0.11573E+01, tol = 0.75806E+01, time = 5.36 | CG iter. 48 -- res = 0.95113E+00, tol = 0.75806E+01, time = 5.52 | CG iter. 49 -- res = 0.82915E+00, tol = 0.75806E+01, time = 5.24 | CG iter. 50 -- res = 0.73188E+00, tol = 0.75806E+01, time = 5.64 | Final CG iter 51 -- res = 0.73188E+00, tol = 0.75806E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6922642.296 | Old band monopole 9365050.805 | Change to band monopole -2442408.509 | Change to component monopole 2442398.004 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.19274E+04, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.11976E+02, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.34131E+00, tol = 0.47627E+18, time = 1.91 | Final CG iter 4 -- res = 0.42069E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6922612.520 | (Sampled value in CG: 6887221.572 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499541 | New value = 1.514137 | poltype: 2 pol: 1 CPU time specind = 8.2249641E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526956 | New value = 1.452795 | poltype: 2 pol: 2 CPU time specind = 1.7577887E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.24036E+08, tol = 0.47578E+04, time = 6.09 | CG iter. 2 -- res = 0.51629E+07, tol = 0.47578E+04, time = 12.91 | CG iter. 3 -- res = 0.82279E+06, tol = 0.47578E+04, time = 6.57 | CG iter. 4 -- res = 0.34791E+06, tol = 0.47578E+04, time = 6.34 | CG iter. 5 -- res = 0.15121E+06, tol = 0.47578E+04, time = 5.99 | CG iter. 6 -- res = 0.79798E+05, tol = 0.47578E+04, time = 5.95 | CG iter. 7 -- res = 0.43151E+05, tol = 0.47578E+04, time = 6.25 | CG iter. 8 -- res = 0.20510E+05, tol = 0.47578E+04, time = 6.26 | CG iter. 9 -- res = 0.88694E+04, tol = 0.47578E+04, time = 6.53 | CG iter. 10 -- res = 0.36052E+04, tol = 0.47578E+04, time = 6.52 | CG iter. 11 -- res = 0.16634E+04, tol = 0.47578E+04, time = 6.23 | CG iter. 12 -- res = 0.85691E+03, tol = 0.47578E+04, time = 6.23 | CG iter. 13 -- res = 0.49133E+03, tol = 0.47578E+04, time = 6.34 | CG iter. 14 -- res = 0.28035E+03, tol = 0.47578E+04, time = 6.29 | CG iter. 15 -- res = 0.14265E+03, tol = 0.47578E+04, time = 6.52 | CG iter. 16 -- res = 0.67742E+02, tol = 0.47578E+04, time = 7.72 | CG iter. 17 -- res = 0.31545E+02, tol = 0.47578E+04, time = 6.72 | CG iter. 18 -- res = 0.15678E+02, tol = 0.47578E+04, time = 6.32 | CG iter. 19 -- res = 0.85040E+01, tol = 0.47578E+04, time = 5.85 | CG iter. 20 -- res = 0.48508E+01, tol = 0.47578E+04, time = 6.24 | CG iter. 21 -- res = 0.26410E+01, tol = 0.47578E+04, time = 6.30 | CG iter. 22 -- res = 0.13621E+01, tol = 0.47578E+04, time = 6.15 | CG iter. 23 -- res = 0.67533E+00, tol = 0.47578E+04, time = 6.36 | CG iter. 24 -- res = 0.34978E+00, tol = 0.47578E+04, time = 6.25 | CG iter. 25 -- res = 0.19483E+00, tol = 0.47578E+04, time = 6.31 | CG iter. 26 -- res = 0.10825E+00, tol = 0.47578E+04, time = 6.50 | CG iter. 27 -- res = 0.60138E-01, tol = 0.47578E+04, time = 6.32 | CG iter. 28 -- res = 0.32250E-01, tol = 0.47578E+04, time = 6.20 | CG iter. 29 -- res = 0.16634E-01, tol = 0.47578E+04, time = 6.29 | CG iter. 30 -- res = 0.86985E-02, tol = 0.47578E+04, time = 6.37 | CG iter. 31 -- res = 0.48130E-02, tol = 0.47578E+04, time = 6.21 | CG iter. 32 -- res = 0.27056E-02, tol = 0.47578E+04, time = 6.16 | CG iter. 33 -- res = 0.15041E-02, tol = 0.47578E+04, time = 6.86 | CG iter. 34 -- res = 0.80576E-03, tol = 0.47578E+04, time = 6.27 | CG iter. 35 -- res = 0.42192E-03, tol = 0.47578E+04, time = 6.16 | Final CG iter 36 -- res = 0.42192E-03, tol = 0.47578E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.556 2.719 | New value 0.825 | Old value -1.556 | Difference 2.382 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.29516E+06, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.29201E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.87562E+00, tol = 0.47627E+18, time = 2.08 | Final CG iter 4 -- res = 0.63400E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6922612.520 | (Sampled value in CG: 6886572.496 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.710011 | New value = -3.537960 | poltype: 1 pol: 1 CPU time specind = 8.2571507E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.22472E+07, tol = 0.22223E+01, time = 2.38 | CG iter. 2 -- res = 0.10084E+07, tol = 0.22223E+01, time = 2.55 | CG iter. 3 -- res = 0.18442E+06, tol = 0.22223E+01, time = 2.58 | CG iter. 4 -- res = 0.65906E+05, tol = 0.22223E+01, time = 2.34 | CG iter. 5 -- res = 0.35684E+05, tol = 0.22223E+01, time = 2.59 | CG iter. 6 -- res = 0.18797E+05, tol = 0.22223E+01, time = 2.38 | CG iter. 7 -- res = 0.78595E+04, tol = 0.22223E+01, time = 3.01 | CG iter. 8 -- res = 0.36403E+04, tol = 0.22223E+01, time = 2.49 | CG iter. 9 -- res = 0.15247E+04, tol = 0.22223E+01, time = 2.59 | CG iter. 10 -- res = 0.59157E+03, tol = 0.22223E+01, time = 2.76 | CG iter. 11 -- res = 0.26027E+03, tol = 0.22223E+01, time = 2.38 | CG iter. 12 -- res = 0.12510E+03, tol = 0.22223E+01, time = 2.83 | CG iter. 13 -- res = 0.63486E+02, tol = 0.22223E+01, time = 2.62 | CG iter. 14 -- res = 0.32933E+02, tol = 0.22223E+01, time = 2.37 | CG iter. 15 -- res = 0.15566E+02, tol = 0.22223E+01, time = 2.77 | CG iter. 16 -- res = 0.69551E+01, tol = 0.22223E+01, time = 2.39 | CG iter. 17 -- res = 0.27928E+01, tol = 0.22223E+01, time = 2.31 | CG iter. 18 -- res = 0.12409E+01, tol = 0.22223E+01, time = 2.58 | CG iter. 19 -- res = 0.58135E+00, tol = 0.22223E+01, time = 2.30 | CG iter. 20 -- res = 0.31136E+00, tol = 0.22223E+01, time = 2.88 | CG iter. 21 -- res = 0.16123E+00, tol = 0.22223E+01, time = 2.69 | CG iter. 22 -- res = 0.77924E-01, tol = 0.22223E+01, time = 2.63 | CG iter. 23 -- res = 0.35009E-01, tol = 0.22223E+01, time = 2.68 | CG iter. 24 -- res = 0.15386E-01, tol = 0.22223E+01, time = 2.74 | CG iter. 25 -- res = 0.74092E-02, tol = 0.22223E+01, time = 2.64 | CG iter. 26 -- res = 0.37074E-02, tol = 0.22223E+01, time = 2.42 | CG iter. 27 -- res = 0.18149E-02, tol = 0.22223E+01, time = 2.75 | CG iter. 28 -- res = 0.93805E-03, tol = 0.22223E+01, time = 2.67 | CG iter. 29 -- res = 0.43823E-03, tol = 0.22223E+01, time = 2.73 | CG iter. 30 -- res = 0.20116E-03, tol = 0.22223E+01, time = 2.61 | CG iter. 31 -- res = 0.88641E-04, tol = 0.22223E+01, time = 2.38 | CG iter. 32 -- res = 0.42500E-04, tol = 0.22223E+01, time = 2.84 | CG iter. 33 -- res = 0.21070E-04, tol = 0.22223E+01, time = 2.91 | CG iter. 34 -- res = 0.10401E-04, tol = 0.22223E+01, time = 2.32 | CG iter. 35 -- res = 0.50816E-05, tol = 0.22223E+01, time = 2.68 | CG iter. 36 -- res = 0.24509E-05, tol = 0.22223E+01, time = 2.70 | CG iter. 37 -- res = 0.10568E-05, tol = 0.22223E+01, time = 2.52 | CG iter. 38 -- res = 0.50695E-06, tol = 0.22223E+01, time = 2.47 | CG iter. 39 -- res = 0.25458E-06, tol = 0.22223E+01, time = 7.40 | CG iter. 40 -- res = 0.12993E-06, tol = 0.22223E+01, time = 4.30 | CG iter. 41 -- res = 0.63064E-07, tol = 0.22223E+01, time = 2.67 | CG iter. 42 -- res = 0.29229E-07, tol = 0.22223E+01, time = 2.67 | CG iter. 43 -- res = 0.13253E-07, tol = 0.22223E+01, time = 2.83 | CG iter. 44 -- res = 0.60855E-08, tol = 0.22223E+01, time = 2.30 | CG iter. 45 -- res = 0.29427E-08, tol = 0.22223E+01, time = 2.67 | CG iter. 46 -- res = 0.14930E-08, tol = 0.22223E+01, time = 2.45 | CG iter. 47 -- res = 0.75440E-09, tol = 0.22223E+01, time = 2.67 | CG iter. 48 -- res = 0.36035E-09, tol = 0.22223E+01, time = 2.61 | CG iter. 49 -- res = 0.16704E-09, tol = 0.22223E+01, time = 2.58 | CG iter. 50 -- res = 0.76978E-10, tol = 0.22223E+01, time = 2.49 | Final CG iter 51 -- res = 0.76978E-10, tol = 0.22223E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.237 6.568 | New value -4.297 | Old value -3.237 | Difference -1.060 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.21299E+04, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.12557E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.38617E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.90016E-04, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.13036E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6922612.520 | (Sampled value in CG: 6896139.633 ) | CPU time specind = 1178.777 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.68268E+08, tol = 0.57675E+04, time = 11.10 | CG iter. 2 -- res = 0.57850E+08, tol = 0.57675E+04, time = 11.48 | CG iter. 3 -- res = 0.14338E+08, tol = 0.57675E+04, time = 11.42 | CG iter. 4 -- res = 0.62508E+07, tol = 0.57675E+04, time = 11.38 | CG iter. 5 -- res = 0.37940E+07, tol = 0.57675E+04, time = 11.86 | CG iter. 6 -- res = 0.21991E+07, tol = 0.57675E+04, time = 11.83 | CG iter. 7 -- res = 0.13264E+07, tol = 0.57675E+04, time = 11.20 | CG iter. 8 -- res = 0.85538E+06, tol = 0.57675E+04, time = 12.36 | CG iter. 9 -- res = 0.54588E+06, tol = 0.57675E+04, time = 10.99 | CG iter. 10 -- res = 0.32514E+06, tol = 0.57675E+04, time = 11.16 | CG iter. 11 -- res = 0.17584E+06, tol = 0.57675E+04, time = 11.16 | CG iter. 12 -- res = 0.94138E+05, tol = 0.57675E+04, time = 10.95 | CG iter. 13 -- res = 0.50534E+05, tol = 0.57675E+04, time = 11.42 | CG iter. 14 -- res = 0.29191E+05, tol = 0.57675E+04, time = 11.69 | CG iter. 15 -- res = 0.19605E+05, tol = 0.57675E+04, time = 10.82 | CG iter. 16 -- res = 0.14134E+05, tol = 0.57675E+04, time = 17.83 | CG iter. 17 -- res = 0.10649E+05, tol = 0.57675E+04, time = 11.41 | CG iter. 18 -- res = 0.79521E+04, tol = 0.57675E+04, time = 11.43 | CG iter. 19 -- res = 0.58167E+04, tol = 0.57675E+04, time = 10.96 | CG iter. 20 -- res = 0.43975E+04, tol = 0.57675E+04, time = 11.77 | CG iter. 21 -- res = 0.36462E+04, tol = 0.57675E+04, time = 11.93 | CG iter. 22 -- res = 0.35272E+04, tol = 0.57675E+04, time = 11.35 | CG iter. 23 -- res = 0.37265E+04, tol = 0.57675E+04, time = 11.47 | CG iter. 24 -- res = 0.41376E+04, tol = 0.57675E+04, time = 12.51 | CG iter. 25 -- res = 0.43036E+04, tol = 0.57675E+04, time = 11.37 | CG iter. 26 -- res = 0.39040E+04, tol = 0.57675E+04, time = 11.49 | CG iter. 27 -- res = 0.33411E+04, tol = 0.57675E+04, time = 11.46 | CG iter. 28 -- res = 0.27728E+04, tol = 0.57675E+04, time = 11.22 | CG iter. 29 -- res = 0.23326E+04, tol = 0.57675E+04, time = 11.53 | CG iter. 30 -- res = 0.20304E+04, tol = 0.57675E+04, time = 11.24 | CG iter. 31 -- res = 0.17787E+04, tol = 0.57675E+04, time = 11.86 | CG iter. 32 -- res = 0.15070E+04, tol = 0.57675E+04, time = 11.05 | CG iter. 33 -- res = 0.12355E+04, tol = 0.57675E+04, time = 11.40 | CG iter. 34 -- res = 0.99462E+03, tol = 0.57675E+04, time = 11.34 | CG iter. 35 -- res = 0.81589E+03, tol = 0.57675E+04, time = 11.59 | CG iter. 36 -- res = 0.71755E+03, tol = 0.57675E+04, time = 11.22 | CG iter. 37 -- res = 0.68569E+03, tol = 0.57675E+04, time = 10.96 | CG iter. 38 -- res = 0.67760E+03, tol = 0.57675E+04, time = 11.84 | CG iter. 39 -- res = 0.66369E+03, tol = 0.57675E+04, time = 11.43 | CG iter. 40 -- res = 0.61846E+03, tol = 0.57675E+04, time = 11.25 | CG iter. 41 -- res = 0.56069E+03, tol = 0.57675E+04, time = 11.51 | CG iter. 42 -- res = 0.49027E+03, tol = 0.57675E+04, time = 16.97 | CG iter. 43 -- res = 0.43397E+03, tol = 0.57675E+04, time = 12.18 | CG iter. 44 -- res = 0.39819E+03, tol = 0.57675E+04, time = 11.23 | CG iter. 45 -- res = 0.36415E+03, tol = 0.57675E+04, time = 11.57 | CG iter. 46 -- res = 0.33616E+03, tol = 0.57675E+04, time = 11.44 | CG iter. 47 -- res = 0.30200E+03, tol = 0.57675E+04, time = 11.32 | CG iter. 48 -- res = 0.26046E+03, tol = 0.57675E+04, time = 11.62 | CG iter. 49 -- res = 0.22329E+03, tol = 0.57675E+04, time = 12.54 | CG iter. 50 -- res = 0.19966E+03, tol = 0.57675E+04, time = 12.41 | CG iter. 51 -- res = 0.19194E+03, tol = 0.57675E+04, time = 11.54 | CG iter. 52 -- res = 0.19616E+03, tol = 0.57675E+04, time = 11.29 | CG iter. 53 -- res = 0.20382E+03, tol = 0.57675E+04, time = 11.55 | CG iter. 54 -- res = 0.19931E+03, tol = 0.57675E+04, time = 11.31 | CG iter. 55 -- res = 0.18628E+03, tol = 0.57675E+04, time = 11.28 | CG iter. 56 -- res = 0.16717E+03, tol = 0.57675E+04, time = 11.17 | CG iter. 57 -- res = 0.14736E+03, tol = 0.57675E+04, time = 11.83 | CG iter. 58 -- res = 0.13513E+03, tol = 0.57675E+04, time = 11.04 | CG iter. 59 -- res = 0.12936E+03, tol = 0.57675E+04, time = 11.51 | CG iter. 60 -- res = 0.12302E+03, tol = 0.57675E+04, time = 11.49 | Final CG iter 61 -- res = 0.12302E+03, tol = 0.57675E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.843 ( -229.606 -2228.872 2511.113 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11144602.622 | Old band monopole 6922642.296 | Change to band monopole 4221960.326 | Change to component monopole -4221942.167 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.882 2.751 | New value 1.411 | Old value 0.882 | Difference 0.529 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.229 ( 6.439 7.016 -5.889 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.157 7.311 | New value -8.182 | Old value -1.157 | Difference -7.025 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.34909E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.74125E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.24188E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.23448E-02, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.58528E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11144554.687 | (Sampled value in CG: 11125172.714 ) | Chain = 1 -- chisq = 0.81570419E+09 | Chain = 1 -- wall time = 6014.950 sec Available RAM: MemAvailable: 377262904 kB Available Swap: SwapFree: 1128628876 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 229 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446945 | --> Sampling calibration, mode = relcal | relcal = 1.3434855E-02 7.4277725E-04 -1.5964395E-03 -1.2581193E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1072377 0.1206212 97041097.2575098 | BP delta = 0.1053573 0.1187408 97041097.6167729 | BP chisq diff = 0.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632127 | --> Sampling calibration, mode = relcal | relcal = -2.8196129E-03 -7.0385367E-04 1.6769947E-03 1.6133181E-03 -4.0807511E-04 6.4122881E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5777860 15222836.7807233 | BP delta = 0.0000000E+00 -0.5816010 15222838.5146043 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18181300075741 | --> Sampling calibration, mode = relcal | relcal = -7.3685780E-02 -5.7769746E-02 9.0590738E-02 4.0864784E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.0842522E-06 3.2454350E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2452E-03 | 2: delta_r/delta_0: 8.6765E-05 | 3: delta_s/delta_0: 1.8861E-07 | 4: delta_r/delta_0: 2.3544E-08 | 5: delta_s/delta_0: 7.2568E-09 | 6: delta_r/delta_0: 8.4956E-10 | 7: delta_s/delta_0: 2.6757E-08 | 8: delta_r/delta_0: 4.9142E-10 | 9: delta_s/delta_0: 4.3127E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.526080476467520E-004 2.739378224332113E-005 | BP delta = 3.5998806E-02 5.3576857E-02 50481266.4490703 | BP delta = 4.0270988E-02 5.7849038E-02 50481269.3379004 | BP chisq diff = 2.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02567108 | --> Sampling calibration, mode = relcal | relcal = -0.1066147 -9.5531389E-02 0.1448443 5.7301819E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3191824E-03 1.5779206E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.8778E-05 | 2: delta_r/delta_0: 1.4789E-06 | 3: delta_s/delta_0: 2.3435E-07 | 4: delta_r/delta_0: 5.4424E-08 | 5: delta_s/delta_0: 2.0169E-08 | 6: delta_r/delta_0: 7.2645E-09 | 7: delta_s/delta_0: 1.4268E-08 | 8: delta_r/delta_0: 1.0765E-09 | 9: delta_s/delta_0: 9.9844E-10 | 10: delta_r/delta_0: 2.3108E-10 | 11: delta_s/delta_0: 1.7560E-09 | 12: delta_r/delta_0: 2.3650E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.007477119096274E-002 2.811697593021328E-005 | BP delta = -0.2661563 -0.2452623 57387933.5314133 | BP delta = -0.2640448 -0.2431508 57387933.6315871 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81182673 | --> Sampling calibration, mode = relcal | relcal = 0.2953352 0.2246923 -0.2835784 -0.2364492 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.4544164E-04 5.7600727E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5536E-04 | 2: delta_r/delta_0: 1.7235E-05 | 3: delta_s/delta_0: 2.6908E-06 | 4: delta_r/delta_0: 3.9433E-07 | 5: delta_s/delta_0: 1.0599E-06 | 6: delta_r/delta_0: 1.8798E-07 | 7: delta_s/delta_0: 6.2016E-08 | 8: delta_r/delta_0: 4.2763E-08 | 9: delta_s/delta_0: 2.3137E-06 | 10: delta_r/delta_0: 7.4624E-09 | 11: delta_s/delta_0: 1.0481E-09 | 12: delta_r/delta_0: 7.1992E-10 | 13: delta_s/delta_0: 4.7754E-10 | 14: delta_r/delta_0: 7.9603E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.312609666674987E-002 4.023617632138510E-005 | BP delta = -5.2407801E-02 -6.5873288E-02 72486941.3027512 | BP delta = -1.6904065E-02 -3.0369550E-02 72486943.1190204 | BP chisq diff = 1.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95857822 | --> Sampling calibration, mode = relcal | relcal = 0.1062564 0.1395463 -0.1101555 -0.1356472 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0446897E-02 1.3277778E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1465E-04 | 2: delta_r/delta_0: 5.5490E-06 | 3: delta_s/delta_0: 1.0004E-05 | 4: delta_r/delta_0: 6.1984E-07 | 5: delta_s/delta_0: 2.1767E-07 | 6: delta_r/delta_0: 1.0764E-07 | 7: delta_s/delta_0: 2.7504E-07 | 8: delta_r/delta_0: 2.9874E-08 | 9: delta_s/delta_0: 7.9378E-09 | 10: delta_r/delta_0: 5.3728E-09 | 11: delta_s/delta_0: 1.4361E-09 | 12: delta_r/delta_0: 9.8321E-10 | 13: delta_s/delta_0: 2.1450E-10 | 14: delta_r/delta_0: 1.2569E-10 | 15: delta_s/delta_0: 5.3531E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.980724115348904E-002 3.699417311102222E-005 | BP delta = 1.9275421E-02 0.1264890 72786505.2378722 | BP delta = 2.4677532E-02 0.1318911 72786504.8004022 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170533 | New value = -3.214148 | poltype: 2 pol: 1 CPU time specind = 7.5511932E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121045 | New value = -3.184508 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183277 | New value = -3.056209 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163858 | New value = -3.134553 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203144 | New value = -3.081371 | poltype: 2 pol: 2 CPU time specind = 3.5920143E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.13553E+08, tol = 0.63183E+01, time = 5.32 | CG iter. 2 -- res = 0.35021E+06, tol = 0.63183E+01, time = 5.61 | CG iter. 3 -- res = 0.54550E+05, tol = 0.63183E+01, time = 5.40 | CG iter. 4 -- res = 0.30518E+05, tol = 0.63183E+01, time = 5.46 | CG iter. 5 -- res = 0.23555E+05, tol = 0.63183E+01, time = 5.30 | CG iter. 6 -- res = 0.19515E+05, tol = 0.63183E+01, time = 5.60 | CG iter. 7 -- res = 0.19677E+05, tol = 0.63183E+01, time = 5.53 | CG iter. 8 -- res = 0.18932E+05, tol = 0.63183E+01, time = 5.34 | CG iter. 9 -- res = 0.18290E+05, tol = 0.63183E+01, time = 6.90 | CG iter. 10 -- res = 0.17146E+05, tol = 0.63183E+01, time = 5.70 | CG iter. 11 -- res = 0.12334E+05, tol = 0.63183E+01, time = 5.97 | CG iter. 12 -- res = 0.80473E+04, tol = 0.63183E+01, time = 5.37 | CG iter. 13 -- res = 0.58704E+04, tol = 0.63183E+01, time = 5.16 | CG iter. 14 -- res = 0.51883E+04, tol = 0.63183E+01, time = 5.40 | CG iter. 15 -- res = 0.47231E+04, tol = 0.63183E+01, time = 5.80 | CG iter. 16 -- res = 0.37716E+04, tol = 0.63183E+01, time = 5.57 | CG iter. 17 -- res = 0.28460E+04, tol = 0.63183E+01, time = 5.24 | CG iter. 18 -- res = 0.22595E+04, tol = 0.63183E+01, time = 5.45 | CG iter. 19 -- res = 0.19549E+04, tol = 0.63183E+01, time = 5.96 | CG iter. 20 -- res = 0.16415E+04, tol = 0.63183E+01, time = 5.12 | CG iter. 21 -- res = 0.12675E+04, tol = 0.63183E+01, time = 5.67 | CG iter. 22 -- res = 0.10533E+04, tol = 0.63183E+01, time = 5.77 | CG iter. 23 -- res = 0.97595E+03, tol = 0.63183E+01, time = 5.76 | CG iter. 24 -- res = 0.88702E+03, tol = 0.63183E+01, time = 5.56 | CG iter. 25 -- res = 0.72082E+03, tol = 0.63183E+01, time = 5.36 | CG iter. 26 -- res = 0.58367E+03, tol = 0.63183E+01, time = 5.57 | CG iter. 27 -- res = 0.50957E+03, tol = 0.63183E+01, time = 5.57 | CG iter. 28 -- res = 0.48155E+03, tol = 0.63183E+01, time = 5.13 | CG iter. 29 -- res = 0.42832E+03, tol = 0.63183E+01, time = 5.57 | CG iter. 30 -- res = 0.34929E+03, tol = 0.63183E+01, time = 5.34 | CG iter. 31 -- res = 0.31556E+03, tol = 0.63183E+01, time = 5.18 | CG iter. 32 -- res = 0.29474E+03, tol = 0.63183E+01, time = 5.44 | CG iter. 33 -- res = 0.25156E+03, tol = 0.63183E+01, time = 5.54 | CG iter. 34 -- res = 0.20157E+03, tol = 0.63183E+01, time = 5.57 | CG iter. 35 -- res = 0.16168E+03, tol = 0.63183E+01, time = 5.81 | CG iter. 36 -- res = 0.15283E+03, tol = 0.63183E+01, time = 5.38 | CG iter. 37 -- res = 0.13803E+03, tol = 0.63183E+01, time = 5.38 | CG iter. 38 -- res = 0.11157E+03, tol = 0.63183E+01, time = 5.70 | CG iter. 39 -- res = 0.86391E+02, tol = 0.63183E+01, time = 5.49 | CG iter. 40 -- res = 0.72212E+02, tol = 0.63183E+01, time = 5.35 | CG iter. 41 -- res = 0.63508E+02, tol = 0.63183E+01, time = 5.66 | CG iter. 42 -- res = 0.49648E+02, tol = 0.63183E+01, time = 5.21 | CG iter. 43 -- res = 0.38639E+02, tol = 0.63183E+01, time = 5.38 | CG iter. 44 -- res = 0.32260E+02, tol = 0.63183E+01, time = 5.37 | CG iter. 45 -- res = 0.27852E+02, tol = 0.63183E+01, time = 5.31 | CG iter. 46 -- res = 0.22632E+02, tol = 0.63183E+01, time = 5.89 | CG iter. 47 -- res = 0.18020E+02, tol = 0.63183E+01, time = 10.83 | CG iter. 48 -- res = 0.14326E+02, tol = 0.63183E+01, time = 5.37 | CG iter. 49 -- res = 0.11624E+02, tol = 0.63183E+01, time = 5.58 | CG iter. 50 -- res = 0.94828E+01, tol = 0.63183E+01, time = 5.43 | Final CG iter 51 -- res = 0.94828E+01, tol = 0.63183E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8109078.676 | Old band monopole 11144602.622 | Change to band monopole -3035523.946 | Change to component monopole 3035510.889 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.38584E+04, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.20215E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.51848E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.62102E-03, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.66922E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8109043.798 | (Sampled value in CG: 8084112.744 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.514137 | New value = 1.490703 | poltype: 2 pol: 1 CPU time specind = 2.2408009E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.452795 | New value = 1.493587 | poltype: 2 pol: 2 CPU time specind = 1.2661219E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.24135E+08, tol = 0.47561E+04, time = 6.25 | CG iter. 2 -- res = 0.52374E+07, tol = 0.47561E+04, time = 6.06 | CG iter. 3 -- res = 0.85139E+06, tol = 0.47561E+04, time = 6.04 | CG iter. 4 -- res = 0.35189E+06, tol = 0.47561E+04, time = 6.33 | CG iter. 5 -- res = 0.15031E+06, tol = 0.47561E+04, time = 6.51 | CG iter. 6 -- res = 0.79934E+05, tol = 0.47561E+04, time = 6.40 | CG iter. 7 -- res = 0.43050E+05, tol = 0.47561E+04, time = 6.49 | CG iter. 8 -- res = 0.20638E+05, tol = 0.47561E+04, time = 6.07 | CG iter. 9 -- res = 0.90223E+04, tol = 0.47561E+04, time = 6.24 | CG iter. 10 -- res = 0.37055E+04, tol = 0.47561E+04, time = 6.79 | CG iter. 11 -- res = 0.16690E+04, tol = 0.47561E+04, time = 6.27 | CG iter. 12 -- res = 0.85820E+03, tol = 0.47561E+04, time = 6.47 | CG iter. 13 -- res = 0.49519E+03, tol = 0.47561E+04, time = 6.39 | CG iter. 14 -- res = 0.28079E+03, tol = 0.47561E+04, time = 6.24 | CG iter. 15 -- res = 0.14531E+03, tol = 0.47561E+04, time = 5.98 | CG iter. 16 -- res = 0.68166E+02, tol = 0.47561E+04, time = 6.34 | CG iter. 17 -- res = 0.31685E+02, tol = 0.47561E+04, time = 6.37 | CG iter. 18 -- res = 0.15704E+02, tol = 0.47561E+04, time = 6.21 | CG iter. 19 -- res = 0.85314E+01, tol = 0.47561E+04, time = 6.30 | CG iter. 20 -- res = 0.49208E+01, tol = 0.47561E+04, time = 5.75 | CG iter. 21 -- res = 0.27289E+01, tol = 0.47561E+04, time = 6.50 | CG iter. 22 -- res = 0.13840E+01, tol = 0.47561E+04, time = 6.18 | CG iter. 23 -- res = 0.68443E+00, tol = 0.47561E+04, time = 6.59 | CG iter. 24 -- res = 0.35314E+00, tol = 0.47561E+04, time = 6.20 | CG iter. 25 -- res = 0.19639E+00, tol = 0.47561E+04, time = 6.05 | CG iter. 26 -- res = 0.11119E+00, tol = 0.47561E+04, time = 12.58 | CG iter. 27 -- res = 0.62171E-01, tol = 0.47561E+04, time = 6.00 | CG iter. 28 -- res = 0.32692E-01, tol = 0.47561E+04, time = 6.31 | CG iter. 29 -- res = 0.17112E-01, tol = 0.47561E+04, time = 6.39 | CG iter. 30 -- res = 0.91987E-02, tol = 0.47561E+04, time = 6.36 | CG iter. 31 -- res = 0.50004E-02, tol = 0.47561E+04, time = 6.34 | CG iter. 32 -- res = 0.27650E-02, tol = 0.47561E+04, time = 6.49 | CG iter. 33 -- res = 0.15430E-02, tol = 0.47561E+04, time = 6.26 | CG iter. 34 -- res = 0.83578E-03, tol = 0.47561E+04, time = 6.38 | CG iter. 35 -- res = 0.43170E-03, tol = 0.47561E+04, time = 6.35 | Final CG iter 36 -- res = 0.43170E-03, tol = 0.47561E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.388 2.744 | New value -4.900 | Old value 1.388 | Difference -6.287 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.20402E+07, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.22352E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.52303E+00, tol = 0.47627E+18, time = 1.93 | Final CG iter 4 -- res = 0.25565E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8109043.798 | (Sampled value in CG: 8084033.502 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.537960 | New value = -3.602150 | poltype: 1 pol: 1 CPU time specind = 8.0521107E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.24155E+07, tol = 0.25313E+01, time = 2.40 | CG iter. 2 -- res = 0.84400E+06, tol = 0.25313E+01, time = 2.60 | CG iter. 3 -- res = 0.16545E+06, tol = 0.25313E+01, time = 2.62 | CG iter. 4 -- res = 0.72514E+05, tol = 0.25313E+01, time = 2.47 | CG iter. 5 -- res = 0.43529E+05, tol = 0.25313E+01, time = 2.49 | CG iter. 6 -- res = 0.21401E+05, tol = 0.25313E+01, time = 2.58 | CG iter. 7 -- res = 0.79837E+04, tol = 0.25313E+01, time = 2.52 | CG iter. 8 -- res = 0.35184E+04, tol = 0.25313E+01, time = 2.49 | CG iter. 9 -- res = 0.15331E+04, tol = 0.25313E+01, time = 2.59 | CG iter. 10 -- res = 0.58634E+03, tol = 0.25313E+01, time = 2.72 | CG iter. 11 -- res = 0.24305E+03, tol = 0.25313E+01, time = 2.64 | CG iter. 12 -- res = 0.11842E+03, tol = 0.25313E+01, time = 2.44 | CG iter. 13 -- res = 0.63006E+02, tol = 0.25313E+01, time = 2.67 | CG iter. 14 -- res = 0.30688E+02, tol = 0.25313E+01, time = 2.57 | CG iter. 15 -- res = 0.14086E+02, tol = 0.25313E+01, time = 2.90 | CG iter. 16 -- res = 0.58928E+01, tol = 0.25313E+01, time = 2.45 | CG iter. 17 -- res = 0.25082E+01, tol = 0.25313E+01, time = 2.75 | CG iter. 18 -- res = 0.11320E+01, tol = 0.25313E+01, time = 3.19 | CG iter. 19 -- res = 0.56563E+00, tol = 0.25313E+01, time = 3.60 | CG iter. 20 -- res = 0.28595E+00, tol = 0.25313E+01, time = 3.06 | CG iter. 21 -- res = 0.14668E+00, tol = 0.25313E+01, time = 2.78 | CG iter. 22 -- res = 0.68883E-01, tol = 0.25313E+01, time = 3.11 | CG iter. 23 -- res = 0.30123E-01, tol = 0.25313E+01, time = 2.58 | CG iter. 24 -- res = 0.14177E-01, tol = 0.25313E+01, time = 2.73 | CG iter. 25 -- res = 0.71979E-02, tol = 0.25313E+01, time = 2.73 | CG iter. 26 -- res = 0.37018E-02, tol = 0.25313E+01, time = 2.89 | CG iter. 27 -- res = 0.18780E-02, tol = 0.25313E+01, time = 2.58 | CG iter. 28 -- res = 0.90888E-03, tol = 0.25313E+01, time = 2.59 | CG iter. 29 -- res = 0.41588E-03, tol = 0.25313E+01, time = 2.46 | CG iter. 30 -- res = 0.18892E-03, tol = 0.25313E+01, time = 2.64 | CG iter. 31 -- res = 0.88658E-04, tol = 0.25313E+01, time = 2.54 | CG iter. 32 -- res = 0.45727E-04, tol = 0.25313E+01, time = 3.03 | CG iter. 33 -- res = 0.22713E-04, tol = 0.25313E+01, time = 2.65 | CG iter. 34 -- res = 0.10950E-04, tol = 0.25313E+01, time = 2.59 | CG iter. 35 -- res = 0.50215E-05, tol = 0.25313E+01, time = 2.56 | CG iter. 36 -- res = 0.22782E-05, tol = 0.25313E+01, time = 2.53 | CG iter. 37 -- res = 0.10948E-05, tol = 0.25313E+01, time = 2.73 | CG iter. 38 -- res = 0.52299E-06, tol = 0.25313E+01, time = 2.44 | CG iter. 39 -- res = 0.26502E-06, tol = 0.25313E+01, time = 2.80 | CG iter. 40 -- res = 0.12592E-06, tol = 0.25313E+01, time = 2.65 | CG iter. 41 -- res = 0.58729E-07, tol = 0.25313E+01, time = 2.51 | CG iter. 42 -- res = 0.28634E-07, tol = 0.25313E+01, time = 2.78 | CG iter. 43 -- res = 0.12944E-07, tol = 0.25313E+01, time = 2.61 | CG iter. 44 -- res = 0.61063E-08, tol = 0.25313E+01, time = 2.49 | CG iter. 45 -- res = 0.30325E-08, tol = 0.25313E+01, time = 2.46 | CG iter. 46 -- res = 0.15190E-08, tol = 0.25313E+01, time = 2.20 | CG iter. 47 -- res = 0.73456E-09, tol = 0.25313E+01, time = 2.90 | CG iter. 48 -- res = 0.34839E-09, tol = 0.25313E+01, time = 2.75 | CG iter. 49 -- res = 0.15856E-09, tol = 0.25313E+01, time = 2.67 | CG iter. 50 -- res = 0.74067E-10, tol = 0.25313E+01, time = 2.54 | Final CG iter 51 -- res = 0.74067E-10, tol = 0.25313E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.467 7.632 | New value 0.196 | Old value -10.467 | Difference 10.663 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.10956E+06, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.53846E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.24573E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.23160E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.30208E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8109043.798 | (Sampled value in CG: 8090207.328 ) | CPU time specind = 1140.803 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.68489E+08, tol = 0.57658E+04, time = 11.25 | CG iter. 2 -- res = 0.58300E+08, tol = 0.57658E+04, time = 11.44 | CG iter. 3 -- res = 0.14960E+08, tol = 0.57658E+04, time = 11.06 | CG iter. 4 -- res = 0.65051E+07, tol = 0.57658E+04, time = 17.95 | CG iter. 5 -- res = 0.39392E+07, tol = 0.57658E+04, time = 11.05 | CG iter. 6 -- res = 0.22996E+07, tol = 0.57658E+04, time = 11.13 | CG iter. 7 -- res = 0.13488E+07, tol = 0.57658E+04, time = 11.24 | CG iter. 8 -- res = 0.88210E+06, tol = 0.57658E+04, time = 11.57 | CG iter. 9 -- res = 0.56201E+06, tol = 0.57658E+04, time = 11.20 | CG iter. 10 -- res = 0.33192E+06, tol = 0.57658E+04, time = 11.42 | CG iter. 11 -- res = 0.17648E+06, tol = 0.57658E+04, time = 12.22 | CG iter. 12 -- res = 0.95692E+05, tol = 0.57658E+04, time = 13.35 | CG iter. 13 -- res = 0.53788E+05, tol = 0.57658E+04, time = 11.16 | CG iter. 14 -- res = 0.34118E+05, tol = 0.57658E+04, time = 11.47 | CG iter. 15 -- res = 0.24966E+05, tol = 0.57658E+04, time = 11.52 | CG iter. 16 -- res = 0.19438E+05, tol = 0.57658E+04, time = 11.44 | CG iter. 17 -- res = 0.16157E+05, tol = 0.57658E+04, time = 11.28 | CG iter. 18 -- res = 0.13256E+05, tol = 0.57658E+04, time = 11.40 | CG iter. 19 -- res = 0.11151E+05, tol = 0.57658E+04, time = 11.49 | CG iter. 20 -- res = 0.99841E+04, tol = 0.57658E+04, time = 11.23 | CG iter. 21 -- res = 0.95989E+04, tol = 0.57658E+04, time = 11.15 | CG iter. 22 -- res = 0.10077E+05, tol = 0.57658E+04, time = 11.32 | CG iter. 23 -- res = 0.11194E+05, tol = 0.57658E+04, time = 11.58 | CG iter. 24 -- res = 0.12067E+05, tol = 0.57658E+04, time = 11.42 | CG iter. 25 -- res = 0.11489E+05, tol = 0.57658E+04, time = 11.54 | CG iter. 26 -- res = 0.97909E+04, tol = 0.57658E+04, time = 11.48 | CG iter. 27 -- res = 0.77974E+04, tol = 0.57658E+04, time = 11.39 | CG iter. 28 -- res = 0.60706E+04, tol = 0.57658E+04, time = 11.32 | CG iter. 29 -- res = 0.48183E+04, tol = 0.57658E+04, time = 13.46 | CG iter. 30 -- res = 0.39660E+04, tol = 0.57658E+04, time = 16.59 | CG iter. 31 -- res = 0.33445E+04, tol = 0.57658E+04, time = 11.20 | CG iter. 32 -- res = 0.29059E+04, tol = 0.57658E+04, time = 11.39 | CG iter. 33 -- res = 0.23700E+04, tol = 0.57658E+04, time = 11.62 | CG iter. 34 -- res = 0.18570E+04, tol = 0.57658E+04, time = 11.25 | CG iter. 35 -- res = 0.15634E+04, tol = 0.57658E+04, time = 11.45 | CG iter. 36 -- res = 0.14162E+04, tol = 0.57658E+04, time = 11.80 | CG iter. 37 -- res = 0.13594E+04, tol = 0.57658E+04, time = 12.99 | CG iter. 38 -- res = 0.13607E+04, tol = 0.57658E+04, time = 11.40 | CG iter. 39 -- res = 0.13197E+04, tol = 0.57658E+04, time = 40.20 | CG iter. 40 -- res = 0.11822E+04, tol = 0.57658E+04, time = 11.33 | CG iter. 41 -- res = 0.10064E+04, tol = 0.57658E+04, time = 11.39 | CG iter. 42 -- res = 0.83913E+03, tol = 0.57658E+04, time = 11.09 | CG iter. 43 -- res = 0.70508E+03, tol = 0.57658E+04, time = 11.32 | CG iter. 44 -- res = 0.62817E+03, tol = 0.57658E+04, time = 12.20 | CG iter. 45 -- res = 0.57001E+03, tol = 0.57658E+04, time = 10.83 | CG iter. 46 -- res = 0.50276E+03, tol = 0.57658E+04, time = 11.69 | CG iter. 47 -- res = 0.43335E+03, tol = 0.57658E+04, time = 11.32 | CG iter. 48 -- res = 0.37538E+03, tol = 0.57658E+04, time = 11.76 | CG iter. 49 -- res = 0.32635E+03, tol = 0.57658E+04, time = 11.09 | CG iter. 50 -- res = 0.29717E+03, tol = 0.57658E+04, time = 11.39 | CG iter. 51 -- res = 0.27841E+03, tol = 0.57658E+04, time = 11.61 | CG iter. 52 -- res = 0.26817E+03, tol = 0.57658E+04, time = 12.25 | CG iter. 53 -- res = 0.25771E+03, tol = 0.57658E+04, time = 16.38 | CG iter. 54 -- res = 0.23853E+03, tol = 0.57658E+04, time = 11.30 | CG iter. 55 -- res = 0.21614E+03, tol = 0.57658E+04, time = 10.98 | CG iter. 56 -- res = 0.19153E+03, tol = 0.57658E+04, time = 11.08 | CG iter. 57 -- res = 0.16814E+03, tol = 0.57658E+04, time = 11.23 | CG iter. 58 -- res = 0.15385E+03, tol = 0.57658E+04, time = 11.37 | CG iter. 59 -- res = 0.14563E+03, tol = 0.57658E+04, time = 12.01 | CG iter. 60 -- res = 0.13637E+03, tol = 0.57658E+04, time = 12.95 | Final CG iter 61 -- res = 0.13637E+03, tol = 0.57658E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.844 ( -229.941 -2230.841 2513.300 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9455078.789 | Old band monopole 8109078.676 | Change to band monopole 1346000.112 | Change to component monopole -1345994.323 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.946 2.707 | New value 1.289 | Old value -4.946 | Difference 6.235 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.590 ( 7.739 10.831 -9.900 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.981 5.013 | New value -6.978 | Old value 10.981 | Difference -17.959 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.22661E+07, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.91359E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.22989E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.63595E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.11033E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9455038.120 | (Sampled value in CG: 9428030.101 ) | Chain = 1 -- chisq = 0.81561248E+09 | Chain = 1 -- wall time = 5578.549 sec Available RAM: MemAvailable: 377054416 kB Available Swap: SwapFree: 1129401740 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 230 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445544 | --> Sampling calibration, mode = relcal | relcal = 1.3431699E-02 7.4272091E-04 -1.5909119E-03 -1.2583508E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1053573 0.1187408 9406629.50758151 | BP delta = 0.1053573 0.1262272 9406639.29751553 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632262 | --> Sampling calibration, mode = relcal | relcal = -2.8197812E-03 -7.0394448E-04 1.6789084E-03 1.6122906E-03 -4.0798992E-04 6.4051669E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5777860 15219682.5364890 | BP delta = 0.0000000E+00 -0.5773224 15219684.4282215 | BP chisq diff = 1.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17966235403676 | --> Sampling calibration, mode = relcal | relcal = -7.4177854E-02 -5.7818823E-02 9.0962037E-02 4.1034635E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0524237E-04 3.4463806E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8536E-04 | 2: delta_r/delta_0: 1.1651E-05 | 3: delta_s/delta_0: 1.9976E-07 | 4: delta_r/delta_0: 2.0277E-08 | 5: delta_s/delta_0: 6.1257E-09 | 6: delta_r/delta_0: 1.0775E-09 | 7: delta_s/delta_0: 1.8147E-08 | 8: delta_r/delta_0: 2.1587E-10 | 9: delta_s/delta_0: 1.1033E-10 | 10: delta_r/delta_0: 3.8403E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.196020891356910E-004 2.744283349548152E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.8559E-04 | 2: delta_r/delta_0: 1.1656E-05 | 3: delta_s/delta_0: 1.9975E-07 | 4: delta_r/delta_0: 2.0274E-08 | 5: delta_s/delta_0: 6.1251E-09 | 6: delta_r/delta_0: 1.0774E-09 | 7: delta_s/delta_0: 1.8133E-08 | 8: delta_r/delta_0: 2.1590E-10 | 9: delta_s/delta_0: 1.1027E-10 | 10: delta_r/delta_0: 3.8391E-11 | Reached bicg-stab tolerance | BP delta = 4.0270988E-02 5.7849038E-02 3658943.37176514 | BP delta = 4.0270988E-02 5.7607476E-02 3663075.38059775 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583587 | --> Sampling calibration, mode = relcal | relcal = -0.1066760 -9.5557846E-02 0.1449685 5.7265393E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0875222E-03 1.3025610E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0057E-04 | 2: delta_r/delta_0: 2.2367E-06 | 3: delta_s/delta_0: 2.2583E-07 | 4: delta_r/delta_0: 4.1629E-08 | 5: delta_s/delta_0: 3.6449E-08 | 6: delta_r/delta_0: 7.7024E-09 | 7: delta_s/delta_0: 5.1722E-09 | 8: delta_r/delta_0: 2.1093E-09 | 9: delta_s/delta_0: 9.0812E-10 | 10: delta_r/delta_0: 6.7542E-10 | 11: delta_s/delta_0: 1.4034E-09 | 12: delta_r/delta_0: 1.2377E-10 | 13: delta_s/delta_0: 1.1612E-10 | 14: delta_r/delta_0: 1.0531E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.036235917364957E-002 2.811267809570904E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0057E-04 | 2: delta_r/delta_0: 2.2367E-06 | 3: delta_s/delta_0: 2.2582E-07 | 4: delta_r/delta_0: 4.1627E-08 | 5: delta_s/delta_0: 3.6451E-08 | 6: delta_r/delta_0: 7.7024E-09 | 7: delta_s/delta_0: 5.1723E-09 | 8: delta_r/delta_0: 2.1093E-09 | 9: delta_s/delta_0: 9.0811E-10 | 10: delta_r/delta_0: 6.7541E-10 | 11: delta_s/delta_0: 1.4033E-09 | 12: delta_r/delta_0: 1.2376E-10 | 13: delta_s/delta_0: 1.1611E-10 | 14: delta_r/delta_0: 1.0532E-11 | Reached bicg-stab tolerance | BP delta = -0.2640448 -0.2431508 2841638.92103724 | BP delta = -0.2640448 -0.2448914 2841641.40854530 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81200111 | --> Sampling calibration, mode = relcal | relcal = 0.2954766 0.2246865 -0.2837213 -0.2364419 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1526202E-03 5.0408794E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4014E-04 | 2: delta_r/delta_0: 5.4752E-06 | 3: delta_s/delta_0: 4.1383E-05 | 4: delta_r/delta_0: 2.9686E-06 | 5: delta_s/delta_0: 3.2876E-06 | 6: delta_r/delta_0: 5.9332E-07 | 7: delta_s/delta_0: 5.7992E-08 | 8: delta_r/delta_0: 4.2449E-08 | 9: delta_s/delta_0: 6.6218E-07 | 10: delta_r/delta_0: 3.9945E-09 | 11: delta_s/delta_0: 6.7425E-10 | 12: delta_r/delta_0: 5.0701E-10 | 13: delta_s/delta_0: 3.6086E-10 | 14: delta_r/delta_0: 7.1110E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.592487856105438E-002 4.022879939254012E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.4011E-04 | 2: delta_r/delta_0: 5.4747E-06 | 3: delta_s/delta_0: 4.1307E-05 | 4: delta_r/delta_0: 2.9624E-06 | 5: delta_s/delta_0: 3.2757E-06 | 6: delta_r/delta_0: 5.9105E-07 | 7: delta_s/delta_0: 5.7983E-08 | 8: delta_r/delta_0: 4.2431E-08 | 9: delta_s/delta_0: 6.6221E-07 | 10: delta_r/delta_0: 3.9945E-09 | 11: delta_s/delta_0: 6.7385E-10 | 12: delta_r/delta_0: 5.0655E-10 | 13: delta_s/delta_0: 3.5869E-10 | 14: delta_r/delta_0: 7.1272E-11 | Reached bicg-stab tolerance | BP delta = -1.6904065E-02 -3.0369550E-02 2827314.37252475 | BP delta = -1.6904065E-02 -2.8405752E-02 2827375.03997278 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95899009 | --> Sampling calibration, mode = relcal | relcal = 0.1065335 0.1395381 -0.1102188 -0.1358528 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4024232E-03 1.4638565E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9764E-04 | 2: delta_r/delta_0: 5.1823E-06 | 3: delta_s/delta_0: 8.7809E-05 | 4: delta_r/delta_0: 6.4660E-06 | 5: delta_s/delta_0: 1.8852E-07 | 6: delta_r/delta_0: 1.1205E-07 | 7: delta_s/delta_0: 8.9710E-07 | 8: delta_r/delta_0: 2.4742E-08 | 9: delta_s/delta_0: 2.7390E-07 | 10: delta_r/delta_0: 5.2658E-08 | 11: delta_s/delta_0: 1.2451E-09 | 12: delta_r/delta_0: 5.7836E-10 | 13: delta_s/delta_0: 1.2745E-09 | 14: delta_r/delta_0: 6.2073E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.952840514287395E-002 3.697921799883481E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9764E-04 | 2: delta_r/delta_0: 5.1823E-06 | 3: delta_s/delta_0: 8.7818E-05 | 4: delta_r/delta_0: 6.4669E-06 | 5: delta_s/delta_0: 1.8852E-07 | 6: delta_r/delta_0: 1.1206E-07 | 7: delta_s/delta_0: 8.9724E-07 | 8: delta_r/delta_0: 2.4742E-08 | 9: delta_s/delta_0: 2.7500E-07 | 10: delta_r/delta_0: 5.2931E-08 | 11: delta_s/delta_0: 1.2452E-09 | 12: delta_r/delta_0: 5.7832E-10 | 13: delta_s/delta_0: 1.2753E-09 | 14: delta_r/delta_0: 6.2105E-11 | Reached bicg-stab tolerance | BP delta = 2.4677532E-02 0.1318911 3003588.73275934 | BP delta = 2.4677532E-02 0.1309197 3003596.30820177 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.214148 | New value = -3.080840 | poltype: 2 pol: 1 CPU time specind = 1.5867949E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184508 | New value = -3.136995 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.056209 | New value = -3.095228 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134553 | New value = -3.222616 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.081371 | New value = -3.109739 | poltype: 2 pol: 2 CPU time specind = 4.9729347E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.32 | CG iter. 1 -- res = 0.13924E+08, tol = 0.75452E+01, time = 5.25 | CG iter. 2 -- res = 0.47233E+06, tol = 0.75452E+01, time = 5.61 | CG iter. 3 -- res = 0.24667E+06, tol = 0.75452E+01, time = 5.71 | CG iter. 4 -- res = 0.44077E+06, tol = 0.75452E+01, time = 5.24 | CG iter. 5 -- res = 0.40427E+06, tol = 0.75452E+01, time = 5.05 | CG iter. 6 -- res = 0.31840E+06, tol = 0.75452E+01, time = 5.40 | CG iter. 7 -- res = 0.20717E+06, tol = 0.75452E+01, time = 5.44 | CG iter. 8 -- res = 0.14557E+06, tol = 0.75452E+01, time = 5.64 | CG iter. 9 -- res = 0.12686E+06, tol = 0.75452E+01, time = 5.06 | CG iter. 10 -- res = 0.10168E+06, tol = 0.75452E+01, time = 6.34 | CG iter. 11 -- res = 0.69432E+05, tol = 0.75452E+01, time = 6.44 | CG iter. 12 -- res = 0.51409E+05, tol = 0.75452E+01, time = 5.96 | CG iter. 13 -- res = 0.40512E+05, tol = 0.75452E+01, time = 5.10 | CG iter. 14 -- res = 0.32087E+05, tol = 0.75452E+01, time = 5.52 | CG iter. 15 -- res = 0.24289E+05, tol = 0.75452E+01, time = 5.54 | CG iter. 16 -- res = 0.16141E+05, tol = 0.75452E+01, time = 5.62 | CG iter. 17 -- res = 0.11793E+05, tol = 0.75452E+01, time = 5.61 | CG iter. 18 -- res = 0.10347E+05, tol = 0.75452E+01, time = 5.41 | CG iter. 19 -- res = 0.82431E+04, tol = 0.75452E+01, time = 5.49 | CG iter. 20 -- res = 0.62516E+04, tol = 0.75452E+01, time = 5.50 | CG iter. 21 -- res = 0.44535E+04, tol = 0.75452E+01, time = 5.49 | CG iter. 22 -- res = 0.37050E+04, tol = 0.75452E+01, time = 5.57 | CG iter. 23 -- res = 0.31060E+04, tol = 0.75452E+01, time = 5.56 | CG iter. 24 -- res = 0.23255E+04, tol = 0.75452E+01, time = 5.53 | CG iter. 25 -- res = 0.16727E+04, tol = 0.75452E+01, time = 5.41 | CG iter. 26 -- res = 0.13776E+04, tol = 0.75452E+01, time = 5.34 | CG iter. 27 -- res = 0.12014E+04, tol = 0.75452E+01, time = 5.29 | CG iter. 28 -- res = 0.93891E+03, tol = 0.75452E+01, time = 5.61 | CG iter. 29 -- res = 0.66784E+03, tol = 0.75452E+01, time = 5.32 | CG iter. 30 -- res = 0.51301E+03, tol = 0.75452E+01, time = 5.66 | CG iter. 31 -- res = 0.43698E+03, tol = 0.75452E+01, time = 5.49 | CG iter. 32 -- res = 0.34890E+03, tol = 0.75452E+01, time = 5.42 | CG iter. 33 -- res = 0.25497E+03, tol = 0.75452E+01, time = 5.58 | CG iter. 34 -- res = 0.19917E+03, tol = 0.75452E+01, time = 5.44 | CG iter. 35 -- res = 0.16273E+03, tol = 0.75452E+01, time = 5.65 | CG iter. 36 -- res = 0.13317E+03, tol = 0.75452E+01, time = 5.27 | CG iter. 37 -- res = 0.98545E+02, tol = 0.75452E+01, time = 5.37 | CG iter. 38 -- res = 0.72687E+02, tol = 0.75452E+01, time = 5.42 | CG iter. 39 -- res = 0.56476E+02, tol = 0.75452E+01, time = 5.49 | CG iter. 40 -- res = 0.47024E+02, tol = 0.75452E+01, time = 5.54 | CG iter. 41 -- res = 0.35090E+02, tol = 0.75452E+01, time = 5.46 | CG iter. 42 -- res = 0.24801E+02, tol = 0.75452E+01, time = 5.35 | CG iter. 43 -- res = 0.19033E+02, tol = 0.75452E+01, time = 5.28 | CG iter. 44 -- res = 0.15278E+02, tol = 0.75452E+01, time = 5.40 | CG iter. 45 -- res = 0.11996E+02, tol = 0.75452E+01, time = 5.31 | CG iter. 46 -- res = 0.85589E+01, tol = 0.75452E+01, time = 5.41 | CG iter. 47 -- res = 0.62455E+01, tol = 0.75452E+01, time = 5.67 | CG iter. 48 -- res = 0.48556E+01, tol = 0.75452E+01, time = 11.98 | CG iter. 49 -- res = 0.37153E+01, tol = 0.75452E+01, time = 5.47 | CG iter. 50 -- res = 0.26028E+01, tol = 0.75452E+01, time = 5.59 | Final CG iter 51 -- res = 0.26028E+01, tol = 0.75452E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 5981022.366 | Old band monopole 9455078.789 | Change to band monopole -3474056.423 | Change to component monopole 3474041.480 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.23927E+07, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.10804E+04, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.68012E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.14148E+00, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.10476E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5980996.640 | (Sampled value in CG: 6142417.010 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.490703 | New value = 1.499669 | poltype: 2 pol: 1 CPU time specind = 8.5079670E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493587 | New value = 1.467646 | poltype: 2 pol: 2 CPU time specind = 3.4821033E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.32 | CG iter. 1 -- res = 0.24041E+08, tol = 0.47585E+04, time = 6.19 | CG iter. 2 -- res = 0.53180E+07, tol = 0.47585E+04, time = 6.15 | CG iter. 3 -- res = 0.83376E+06, tol = 0.47585E+04, time = 6.15 | CG iter. 4 -- res = 0.34665E+06, tol = 0.47585E+04, time = 6.49 | CG iter. 5 -- res = 0.14840E+06, tol = 0.47585E+04, time = 6.33 | CG iter. 6 -- res = 0.77685E+05, tol = 0.47585E+04, time = 6.11 | CG iter. 7 -- res = 0.42296E+05, tol = 0.47585E+04, time = 5.94 | CG iter. 8 -- res = 0.20272E+05, tol = 0.47585E+04, time = 6.46 | CG iter. 9 -- res = 0.88789E+04, tol = 0.47585E+04, time = 5.74 | CG iter. 10 -- res = 0.35945E+04, tol = 0.47585E+04, time = 6.57 | CG iter. 11 -- res = 0.16251E+04, tol = 0.47585E+04, time = 5.76 | CG iter. 12 -- res = 0.85128E+03, tol = 0.47585E+04, time = 7.02 | CG iter. 13 -- res = 0.48243E+03, tol = 0.47585E+04, time = 6.01 | CG iter. 14 -- res = 0.27495E+03, tol = 0.47585E+04, time = 5.81 | CG iter. 15 -- res = 0.14128E+03, tol = 0.47585E+04, time = 6.43 | CG iter. 16 -- res = 0.66095E+02, tol = 0.47585E+04, time = 6.30 | CG iter. 17 -- res = 0.31206E+02, tol = 0.47585E+04, time = 5.64 | CG iter. 18 -- res = 0.15503E+02, tol = 0.47585E+04, time = 6.05 | CG iter. 19 -- res = 0.83130E+01, tol = 0.47585E+04, time = 6.50 | CG iter. 20 -- res = 0.47250E+01, tol = 0.47585E+04, time = 6.21 | CG iter. 21 -- res = 0.26114E+01, tol = 0.47585E+04, time = 6.31 | CG iter. 22 -- res = 0.13582E+01, tol = 0.47585E+04, time = 6.12 | CG iter. 23 -- res = 0.68135E+00, tol = 0.47585E+04, time = 6.15 | CG iter. 24 -- res = 0.34189E+00, tol = 0.47585E+04, time = 6.14 | CG iter. 25 -- res = 0.18335E+00, tol = 0.47585E+04, time = 6.36 | CG iter. 26 -- res = 0.10356E+00, tol = 0.47585E+04, time = 6.08 | CG iter. 27 -- res = 0.58900E-01, tol = 0.47585E+04, time = 6.38 | CG iter. 28 -- res = 0.30752E-01, tol = 0.47585E+04, time = 12.10 | CG iter. 29 -- res = 0.15888E-01, tol = 0.47585E+04, time = 6.25 | CG iter. 30 -- res = 0.84810E-02, tol = 0.47585E+04, time = 6.45 | CG iter. 31 -- res = 0.46787E-02, tol = 0.47585E+04, time = 6.15 | CG iter. 32 -- res = 0.27081E-02, tol = 0.47585E+04, time = 6.35 | CG iter. 33 -- res = 0.15402E-02, tol = 0.47585E+04, time = 6.05 | CG iter. 34 -- res = 0.81516E-03, tol = 0.47585E+04, time = 6.37 | CG iter. 35 -- res = 0.42172E-03, tol = 0.47585E+04, time = 6.39 | Final CG iter 36 -- res = 0.42172E-03, tol = 0.47585E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.361 2.727 | New value 3.743 | Old value 1.361 | Difference 2.382 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.32111E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.29379E+03, tol = 0.47627E+18, time = 3.11 | CG iter. 3 -- res = 0.26740E+01, tol = 0.47627E+18, time = 2.46 | Final CG iter 4 -- res = 0.82251E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5980996.640 | (Sampled value in CG: 6143491.229 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.602150 | New value = -3.610085 | poltype: 1 pol: 1 CPU time specind = 8.1608295E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.44862E+07, tol = 0.20851E+01, time = 2.71 | CG iter. 2 -- res = 0.21577E+07, tol = 0.20851E+01, time = 2.52 | CG iter. 3 -- res = 0.48309E+06, tol = 0.20851E+01, time = 2.75 | CG iter. 4 -- res = 0.22059E+06, tol = 0.20851E+01, time = 2.44 | CG iter. 5 -- res = 0.12815E+06, tol = 0.20851E+01, time = 2.58 | CG iter. 6 -- res = 0.57269E+05, tol = 0.20851E+01, time = 2.69 | CG iter. 7 -- res = 0.17722E+05, tol = 0.20851E+01, time = 2.91 | CG iter. 8 -- res = 0.70624E+04, tol = 0.20851E+01, time = 2.32 | CG iter. 9 -- res = 0.34634E+04, tol = 0.20851E+01, time = 2.51 | CG iter. 10 -- res = 0.14366E+04, tol = 0.20851E+01, time = 2.19 | CG iter. 11 -- res = 0.56873E+03, tol = 0.20851E+01, time = 2.83 | CG iter. 12 -- res = 0.27884E+03, tol = 0.20851E+01, time = 2.36 | CG iter. 13 -- res = 0.14314E+03, tol = 0.20851E+01, time = 2.58 | CG iter. 14 -- res = 0.68726E+02, tol = 0.20851E+01, time = 2.70 | CG iter. 15 -- res = 0.31420E+02, tol = 0.20851E+01, time = 2.55 | CG iter. 16 -- res = 0.13641E+02, tol = 0.20851E+01, time = 2.45 | CG iter. 17 -- res = 0.58350E+01, tol = 0.20851E+01, time = 2.66 | CG iter. 18 -- res = 0.27850E+01, tol = 0.20851E+01, time = 2.66 | CG iter. 19 -- res = 0.13926E+01, tol = 0.20851E+01, time = 2.61 | CG iter. 20 -- res = 0.68342E+00, tol = 0.20851E+01, time = 2.58 | CG iter. 21 -- res = 0.31794E+00, tol = 0.20851E+01, time = 2.68 | CG iter. 22 -- res = 0.13929E+00, tol = 0.20851E+01, time = 2.47 | CG iter. 23 -- res = 0.61889E-01, tol = 0.20851E+01, time = 2.68 | CG iter. 24 -- res = 0.28998E-01, tol = 0.20851E+01, time = 2.49 | CG iter. 25 -- res = 0.14754E-01, tol = 0.20851E+01, time = 3.62 | CG iter. 26 -- res = 0.71741E-02, tol = 0.20851E+01, time = 3.37 | CG iter. 27 -- res = 0.35850E-02, tol = 0.20851E+01, time = 3.16 | CG iter. 28 -- res = 0.16996E-02, tol = 0.20851E+01, time = 2.72 | CG iter. 29 -- res = 0.75466E-03, tol = 0.20851E+01, time = 2.77 | CG iter. 30 -- res = 0.36860E-03, tol = 0.20851E+01, time = 2.42 | CG iter. 31 -- res = 0.17166E-03, tol = 0.20851E+01, time = 2.70 | CG iter. 32 -- res = 0.86837E-04, tol = 0.20851E+01, time = 2.55 | CG iter. 33 -- res = 0.43407E-04, tol = 0.20851E+01, time = 2.53 | CG iter. 34 -- res = 0.20583E-04, tol = 0.20851E+01, time = 2.54 | CG iter. 35 -- res = 0.97285E-05, tol = 0.20851E+01, time = 2.90 | CG iter. 36 -- res = 0.46709E-05, tol = 0.20851E+01, time = 2.64 | CG iter. 37 -- res = 0.21911E-05, tol = 0.20851E+01, time = 2.83 | CG iter. 38 -- res = 0.11175E-05, tol = 0.20851E+01, time = 2.88 | CG iter. 39 -- res = 0.55814E-06, tol = 0.20851E+01, time = 2.68 | CG iter. 40 -- res = 0.26977E-06, tol = 0.20851E+01, time = 2.38 | CG iter. 41 -- res = 0.12634E-06, tol = 0.20851E+01, time = 2.36 | CG iter. 42 -- res = 0.58183E-07, tol = 0.20851E+01, time = 2.55 | CG iter. 43 -- res = 0.26740E-07, tol = 0.20851E+01, time = 2.84 | CG iter. 44 -- res = 0.13280E-07, tol = 0.20851E+01, time = 2.55 | CG iter. 45 -- res = 0.66491E-08, tol = 0.20851E+01, time = 2.78 | CG iter. 46 -- res = 0.31202E-08, tol = 0.20851E+01, time = 2.36 | CG iter. 47 -- res = 0.15129E-08, tol = 0.20851E+01, time = 2.49 | CG iter. 48 -- res = 0.73410E-09, tol = 0.20851E+01, time = 2.64 | CG iter. 49 -- res = 0.32569E-09, tol = 0.20851E+01, time = 2.67 | CG iter. 50 -- res = 0.15502E-09, tol = 0.20851E+01, time = 2.50 | Final CG iter 51 -- res = 0.15502E-09, tol = 0.20851E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.200 2.891 | New value 0.398 | Old value 3.200 | Difference -2.802 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.27240E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.82207E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.23424E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.15660E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.24904E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5980996.640 | (Sampled value in CG: 6106219.493 ) | CPU time specind = 1131.786 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.68701E+08, tol = 0.57756E+04, time = 11.25 | CG iter. 2 -- res = 0.59653E+08, tol = 0.57756E+04, time = 11.26 | CG iter. 3 -- res = 0.15415E+08, tol = 0.57756E+04, time = 11.19 | CG iter. 4 -- res = 0.65153E+07, tol = 0.57756E+04, time = 11.25 | CG iter. 5 -- res = 0.40714E+07, tol = 0.57756E+04, time = 11.96 | CG iter. 6 -- res = 0.24232E+07, tol = 0.57756E+04, time = 17.23 | CG iter. 7 -- res = 0.14579E+07, tol = 0.57756E+04, time = 11.39 | CG iter. 8 -- res = 0.99895E+06, tol = 0.57756E+04, time = 11.57 | CG iter. 9 -- res = 0.69287E+06, tol = 0.57756E+04, time = 11.05 | CG iter. 10 -- res = 0.45080E+06, tol = 0.57756E+04, time = 11.61 | CG iter. 11 -- res = 0.26895E+06, tol = 0.57756E+04, time = 10.91 | CG iter. 12 -- res = 0.17124E+06, tol = 0.57756E+04, time = 11.14 | CG iter. 13 -- res = 0.12184E+06, tol = 0.57756E+04, time = 12.69 | CG iter. 14 -- res = 0.10280E+06, tol = 0.57756E+04, time = 11.61 | CG iter. 15 -- res = 0.10093E+06, tol = 0.57756E+04, time = 11.58 | CG iter. 16 -- res = 0.10597E+06, tol = 0.57756E+04, time = 11.41 | CG iter. 17 -- res = 0.10720E+06, tol = 0.57756E+04, time = 11.37 | CG iter. 18 -- res = 0.99190E+05, tol = 0.57756E+04, time = 10.88 | CG iter. 19 -- res = 0.86384E+05, tol = 0.57756E+04, time = 11.23 | CG iter. 20 -- res = 0.74361E+05, tol = 0.57756E+04, time = 11.23 | CG iter. 21 -- res = 0.65721E+05, tol = 0.57756E+04, time = 11.11 | CG iter. 22 -- res = 0.59132E+05, tol = 0.57756E+04, time = 11.11 | CG iter. 23 -- res = 0.52568E+05, tol = 0.57756E+04, time = 11.47 | CG iter. 24 -- res = 0.43952E+05, tol = 0.57756E+04, time = 10.96 | CG iter. 25 -- res = 0.34782E+05, tol = 0.57756E+04, time = 11.14 | CG iter. 26 -- res = 0.26520E+05, tol = 0.57756E+04, time = 11.45 | CG iter. 27 -- res = 0.20350E+05, tol = 0.57756E+04, time = 11.12 | CG iter. 28 -- res = 0.16592E+05, tol = 0.57756E+04, time = 11.26 | CG iter. 29 -- res = 0.15101E+05, tol = 0.57756E+04, time = 11.18 | CG iter. 30 -- res = 0.14506E+05, tol = 0.57756E+04, time = 10.75 | CG iter. 31 -- res = 0.13946E+05, tol = 0.57756E+04, time = 12.47 | CG iter. 32 -- res = 0.12751E+05, tol = 0.57756E+04, time = 16.17 | CG iter. 33 -- res = 0.11231E+05, tol = 0.57756E+04, time = 11.43 | CG iter. 34 -- res = 0.92770E+04, tol = 0.57756E+04, time = 11.30 | CG iter. 35 -- res = 0.75855E+04, tol = 0.57756E+04, time = 11.62 | CG iter. 36 -- res = 0.66556E+04, tol = 0.57756E+04, time = 11.03 | CG iter. 37 -- res = 0.59972E+04, tol = 0.57756E+04, time = 11.20 | CG iter. 38 -- res = 0.54782E+04, tol = 0.57756E+04, time = 11.27 | CG iter. 39 -- res = 0.46613E+04, tol = 0.57756E+04, time = 13.27 | CG iter. 40 -- res = 0.37585E+04, tol = 0.57756E+04, time = 11.45 | CG iter. 41 -- res = 0.30815E+04, tol = 0.57756E+04, time = 11.49 | CG iter. 42 -- res = 0.26634E+04, tol = 0.57756E+04, time = 10.87 | CG iter. 43 -- res = 0.24579E+04, tol = 0.57756E+04, time = 11.10 | CG iter. 44 -- res = 0.23679E+04, tol = 0.57756E+04, time = 11.14 | CG iter. 45 -- res = 0.22917E+04, tol = 0.57756E+04, time = 11.07 | CG iter. 46 -- res = 0.21236E+04, tol = 0.57756E+04, time = 11.10 | CG iter. 47 -- res = 0.19037E+04, tol = 0.57756E+04, time = 10.85 | CG iter. 48 -- res = 0.16362E+04, tol = 0.57756E+04, time = 11.34 | CG iter. 49 -- res = 0.14035E+04, tol = 0.57756E+04, time = 12.01 | CG iter. 50 -- res = 0.12598E+04, tol = 0.57756E+04, time = 11.25 | CG iter. 51 -- res = 0.11719E+04, tol = 0.57756E+04, time = 11.40 | CG iter. 52 -- res = 0.11117E+04, tol = 0.57756E+04, time = 11.21 | CG iter. 53 -- res = 0.10198E+04, tol = 0.57756E+04, time = 11.45 | CG iter. 54 -- res = 0.89717E+03, tol = 0.57756E+04, time = 11.27 | CG iter. 55 -- res = 0.76983E+03, tol = 0.57756E+04, time = 10.86 | CG iter. 56 -- res = 0.66555E+03, tol = 0.57756E+04, time = 11.16 | CG iter. 57 -- res = 0.60262E+03, tol = 0.57756E+04, time = 16.77 | CG iter. 58 -- res = 0.57125E+03, tol = 0.57756E+04, time = 11.93 | CG iter. 59 -- res = 0.55647E+03, tol = 0.57756E+04, time = 11.38 | CG iter. 60 -- res = 0.53556E+03, tol = 0.57756E+04, time = 11.36 | Final CG iter 61 -- res = 0.53556E+03, tol = 0.57756E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.744 ( -229.779 -2231.273 2513.776 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11023065.781 | Old band monopole 5981022.366 | Change to band monopole 5042043.416 | Change to component monopole -5042021.729 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.785 2.760 | New value -0.614 | Old value 3.785 | Difference -4.399 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.140 ( 6.299 11.834 -12.197 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.434 3.880 | New value 1.387 | Old value -1.434 | Difference 2.821 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.14343E+07, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.17351E+03, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.36208E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.62239E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.15934E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11023018.369 | (Sampled value in CG: 11003402.683 ) | Chain = 1 -- chisq = 0.81524613E+09 | Chain = 1 -- wall time = 5942.643 sec Available RAM: MemAvailable: 377551176 kB Available Swap: SwapFree: 1130293748 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 231 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443965 | --> Sampling calibration, mode = relcal | relcal = 1.3422029E-02 7.6382962E-04 -1.6071072E-03 -1.2578751E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1053573 0.1187408 97035223.3497011 | BP delta = 9.8693557E-02 0.1120770 97035224.0555436 | BP chisq diff = 0.7, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632392 | --> Sampling calibration, mode = relcal | relcal = -2.8210869E-03 -7.0380903E-04 1.6786513E-03 1.6133842E-03 -4.0785936E-04 6.4071972E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5773224 15217765.1835552 | BP delta = 0.0000000E+00 -0.5804772 15217765.3821022 | BP chisq diff = 0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102679 | --> Sampling calibration, mode = relcal | relcal = 3.7086640E-02 1.3708269E-02 5.7593342E-03 -7.1653738E-03 8.2396884E-03 2.3959354E-03 -7.6011685E-03 -7.1763941E-03 -1.5303381E-02 -1.4797620E-02 -3.0543681E-03 -1.2091560E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.184937 132208666.616618 | BP delta = 0.0000000E+00 -1.184498 132208663.780111 | BP chisq diff = -2.8, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18087555867993 | --> Sampling calibration, mode = relcal | relcal = -7.5161397E-02 -5.8446463E-02 9.1940314E-02 4.1667543E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1492990E-04 4.4224104E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0856E-05 | 2: delta_r/delta_0: 9.0097E-07 | 3: delta_s/delta_0: 2.1718E-07 | 4: delta_r/delta_0: 2.0249E-08 | 5: delta_s/delta_0: 5.8041E-09 | 6: delta_r/delta_0: 1.6435E-09 | 7: delta_s/delta_0: 3.6052E-10 | 8: delta_r/delta_0: 1.0339E-10 | 9: delta_s/delta_0: 6.3755E-09 | 10: delta_r/delta_0: 7.4966E-10 | 11: delta_s/delta_0: 2.6605E-09 | 12: delta_r/delta_0: 2.3372E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.220668625413126E-004 2.741336180370299E-005 | BP delta = 4.0270988E-02 5.7849038E-02 50479410.7313039 | BP delta = 4.0153153E-02 5.7731200E-02 50479410.7763115 | BP chisq diff = 0.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596880 | --> Sampling calibration, mode = relcal | relcal = -0.1066356 -9.5599510E-02 0.1449791 5.7256006E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0401791E-03 1.6024038E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0518E-04 | 2: delta_r/delta_0: 2.3320E-06 | 3: delta_s/delta_0: 2.3016E-07 | 4: delta_r/delta_0: 4.1618E-08 | 5: delta_s/delta_0: 4.0535E-08 | 6: delta_r/delta_0: 7.9022E-09 | 7: delta_s/delta_0: 5.9019E-09 | 8: delta_r/delta_0: 2.1015E-09 | 9: delta_s/delta_0: 9.0423E-10 | 10: delta_r/delta_0: 6.7565E-10 | 11: delta_s/delta_0: 1.1295E-09 | 12: delta_r/delta_0: 1.3643E-10 | 13: delta_s/delta_0: 9.6598E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.051881027550646E-002 2.810910254006994E-005 | BP delta = -0.2640448 -0.2431508 57387730.2788219 | BP delta = -0.2804200 -0.2595260 57387729.0793086 | BP chisq diff = -1.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231048 | --> Sampling calibration, mode = relcal | relcal = 0.2954839 0.2248990 -0.2837872 -0.2365957 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.6284667E-07 4.6083434E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2531E-04 | 2: delta_r/delta_0: 5.1724E-06 | 3: delta_s/delta_0: 1.2382E-04 | 4: delta_r/delta_0: 1.0612E-05 | 5: delta_s/delta_0: 1.9204E-05 | 6: delta_r/delta_0: 3.8323E-06 | 7: delta_s/delta_0: 6.6086E-08 | 8: delta_r/delta_0: 4.6104E-08 | 9: delta_s/delta_0: 4.7785E-07 | 10: delta_r/delta_0: 3.3612E-09 | 11: delta_s/delta_0: 8.0956E-10 | 12: delta_r/delta_0: 4.2841E-10 | 13: delta_s/delta_0: 3.2280E-10 | 14: delta_r/delta_0: 6.1738E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.682521501115010E-002 4.021330711512081E-005 | BP delta = -1.6904065E-02 -3.0369550E-02 72485119.4488230 | BP delta = -3.1824596E-02 -4.5290079E-02 72485118.5301039 | BP chisq diff = -0.9, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95924810 | --> Sampling calibration, mode = relcal | relcal = 0.1064516 0.1395562 -0.1102124 -0.1357954 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4393305E-03 1.2976230E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9902E-04 | 2: delta_r/delta_0: 5.1848E-06 | 3: delta_s/delta_0: 4.4628E-05 | 4: delta_r/delta_0: 3.3978E-06 | 5: delta_s/delta_0: 1.8305E-07 | 6: delta_r/delta_0: 1.0988E-07 | 7: delta_s/delta_0: 7.4945E-07 | 8: delta_r/delta_0: 2.4741E-08 | 9: delta_s/delta_0: 1.7967E-08 | 10: delta_r/delta_0: 1.4713E-09 | 11: delta_s/delta_0: 2.3686E-09 | 12: delta_r/delta_0: 7.9012E-10 | 13: delta_s/delta_0: 6.8536E-10 | 14: delta_r/delta_0: 3.5537E-10 | 15: delta_s/delta_0: 3.8124E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.964172181247314E-002 3.696782779091433E-005 | BP delta = 2.4677532E-02 0.1318911 72789450.2611544 | BP delta = 2.5586458E-02 0.1328000 72789450.2119878 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52162915 | --> Sampling calibration, mode = relcal | relcal = -5.1034637E-02 -3.7808034E-03 2.7292749E-02 2.7522692E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.7014904E-04 1.3627723E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6210E-05 | 2: delta_r/delta_0: 3.8661E-06 | 3: delta_s/delta_0: 2.0671E-06 | 4: delta_r/delta_0: 2.2276E-07 | 5: delta_s/delta_0: 6.8131E-08 | 6: delta_r/delta_0: 2.5763E-08 | 7: delta_s/delta_0: 1.3970E-07 | 8: delta_r/delta_0: 4.3384E-08 | 9: delta_s/delta_0: 3.5879E-09 | 10: delta_r/delta_0: 2.3652E-09 | 11: delta_s/delta_0: 6.9413E-08 | 12: delta_r/delta_0: 2.4405E-10 | 13: delta_s/delta_0: 7.3048E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.075984420194414E-002 5.482664144657913E-005 | BP delta = 7.0947826E-02 0.1769637 91256534.3731326 | BP delta = 8.1099957E-02 0.1871159 91256534.2538100 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42155555 | --> Sampling calibration, mode = relcal | relcal = 4.5561992E-02 3.9645750E-02 -2.8271215E-02 -5.6936529E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2803931E-03 5.7423473E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2309E-05 | 2: delta_r/delta_0: 3.6452E-06 | 3: delta_s/delta_0: 2.2912E-06 | 4: delta_r/delta_0: 3.6131E-07 | 5: delta_s/delta_0: 6.4360E-08 | 6: delta_r/delta_0: 3.7356E-08 | 7: delta_s/delta_0: 4.3711E-08 | 8: delta_r/delta_0: 1.2797E-08 | 9: delta_s/delta_0: 2.7298E-09 | 10: delta_r/delta_0: 1.8846E-09 | 11: delta_s/delta_0: 4.8563E-07 | 12: delta_r/delta_0: 2.9827E-08 | 13: delta_s/delta_0: 3.1522E-09 | 14: delta_r/delta_0: 9.9837E-10 | 15: delta_s/delta_0: 1.4417E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.447403322161176E-002 4.995984828131628E-005 | BP delta = 5.2194573E-02 -7.9535864E-02 90179759.9646907 | BP delta = 6.0376775E-02 -7.1353666E-02 90179759.8728195 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28160856 | --> Sampling calibration, mode = relcal | relcal = 2.4207227E-02 4.5210619E-02 -2.3402840E-02 -4.6015006E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0908690E-02 3.7991162E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0585E-04 | 2: delta_r/delta_0: 8.7300E-06 | 3: delta_s/delta_0: 1.4459E-06 | 4: delta_r/delta_0: 1.6303E-07 | 5: delta_s/delta_0: 5.9166E-08 | 6: delta_r/delta_0: 1.4060E-08 | 7: delta_s/delta_0: 6.8140E-09 | 8: delta_r/delta_0: 4.4997E-09 | 9: delta_s/delta_0: 1.4425E-08 | 10: delta_r/delta_0: 3.5621E-09 | 11: delta_s/delta_0: 8.1676E-09 | 12: delta_r/delta_0: 3.6130E-09 | 13: delta_s/delta_0: 1.8149E-10 | 14: delta_r/delta_0: 1.2461E-10 | 15: delta_s/delta_0: 5.5557E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.297237482227799E-003 7.844466020786254E-005 | BP delta = -9.2645906E-02 -0.2357098 160921755.339445 | BP delta = -0.1135634 -0.2566273 160921755.117435 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29393504 | --> Sampling calibration, mode = relcal | relcal = 6.0693704E-04 1.0265213E-02 -3.8438926E-03 -7.0282584E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5859254E-02 1.6183879E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3079E-04 | 2: delta_r/delta_0: 1.0909E-05 | 3: delta_s/delta_0: 1.7422E-06 | 4: delta_r/delta_0: 3.2129E-07 | 5: delta_s/delta_0: 1.0905E-07 | 6: delta_r/delta_0: 2.7170E-08 | 7: delta_s/delta_0: 1.3185E-08 | 8: delta_r/delta_0: 9.2960E-09 | 9: delta_s/delta_0: 8.7520E-09 | 10: delta_r/delta_0: 6.0513E-09 | 11: delta_s/delta_0: 6.2155E-07 | 12: delta_r/delta_0: 1.1162E-07 | 13: delta_s/delta_0: 3.3872E-10 | 14: delta_r/delta_0: 1.5203E-10 | 15: delta_s/delta_0: 1.1868E-10 | 16: delta_r/delta_0: 9.9622E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.099595540349023E-002 8.306344187508047E-005 | BP delta = -0.9177207 -0.9033315 157903718.818964 | BP delta = -0.8865855 -0.8721963 157903718.946046 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26502788 | --> Sampling calibration, mode = relcal | relcal = -5.5731651E-03 1.5026087E-02 -2.4028949E-03 -7.0500271E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -9.8354882E-04 3.6784646E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4029E-04 | 2: delta_r/delta_0: 1.1975E-05 | 3: delta_s/delta_0: 2.0290E-06 | 4: delta_r/delta_0: 2.9657E-07 | 5: delta_s/delta_0: 1.3514E-07 | 6: delta_r/delta_0: 2.3315E-08 | 7: delta_s/delta_0: 8.7939E-09 | 8: delta_r/delta_0: 5.7094E-09 | 9: delta_s/delta_0: 5.8938E-09 | 10: delta_r/delta_0: 4.0241E-09 | 11: delta_s/delta_0: 8.5783E-08 | 12: delta_r/delta_0: 2.9600E-10 | 13: delta_s/delta_0: 5.9591E-09 | 14: delta_r/delta_0: 1.2350E-09 | 15: delta_s/delta_0: 6.0512E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.452645725890591E-003 9.154843019986068E-005 | BP delta = 0.3451627 0.3376093 157021995.300265 | BP delta = 0.3073059 0.2997525 157021995.201137 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25656531 | --> Sampling calibration, mode = relcal | relcal = -3.1749342E-02 -2.6005581E-02 3.6889359E-02 2.0865565E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4553835E-02 2.2035262E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4479E-04 | 2: delta_r/delta_0: 1.2110E-05 | 3: delta_s/delta_0: 1.8703E-06 | 4: delta_r/delta_0: 3.8979E-07 | 5: delta_s/delta_0: 1.3709E-07 | 6: delta_r/delta_0: 3.1206E-08 | 7: delta_s/delta_0: 1.6857E-08 | 8: delta_r/delta_0: 7.3413E-09 | 9: delta_s/delta_0: 1.6199E-07 | 10: delta_r/delta_0: 6.3762E-09 | 11: delta_s/delta_0: 9.2034E-09 | 12: delta_r/delta_0: 4.8856E-09 | 13: delta_s/delta_0: 2.9510E-10 | 14: delta_r/delta_0: 2.4048E-10 | 15: delta_s/delta_0: 1.5426E-10 | 16: delta_r/delta_0: 1.3767E-10 | 17: delta_s/delta_0: 1.2853E-10 | 18: delta_r/delta_0: 1.0778E-10 | 19: delta_s/delta_0: 9.7921E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.128744288394008E-002 8.674676341937507E-005 | BP delta = -0.7956009 -0.9258491 158530213.065935 | BP delta = -0.8279545 -0.9582027 158530212.901679 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.080840 | New value = -3.178909 | poltype: 2 pol: 1 CPU time specind = 2.8812885E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136995 | New value = -3.229031 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.095228 | New value = -3.137487 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.222616 | New value = -3.159624 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109739 | New value = -3.111215 | poltype: 2 pol: 2 CPU time specind = 1.7815828E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.00 | CG iter. 1 -- res = 0.13616E+08, tol = 0.64846E+01, time = 5.20 | CG iter. 2 -- res = 0.34809E+06, tol = 0.64846E+01, time = 5.26 | CG iter. 3 -- res = 0.87059E+05, tol = 0.64846E+01, time = 5.22 | CG iter. 4 -- res = 0.96087E+05, tol = 0.64846E+01, time = 5.39 | CG iter. 5 -- res = 0.10079E+06, tol = 0.64846E+01, time = 5.46 | CG iter. 6 -- res = 0.98729E+05, tol = 0.64846E+01, time = 5.74 | CG iter. 7 -- res = 0.84271E+05, tol = 0.64846E+01, time = 5.45 | CG iter. 8 -- res = 0.61450E+05, tol = 0.64846E+01, time = 5.15 | CG iter. 9 -- res = 0.50209E+05, tol = 0.64846E+01, time = 5.56 | CG iter. 10 -- res = 0.41588E+05, tol = 0.64846E+01, time = 5.23 | CG iter. 11 -- res = 0.29986E+05, tol = 0.64846E+01, time = 5.31 | CG iter. 12 -- res = 0.22475E+05, tol = 0.64846E+01, time = 5.86 | CG iter. 13 -- res = 0.19083E+05, tol = 0.64846E+01, time = 5.13 | CG iter. 14 -- res = 0.16648E+05, tol = 0.64846E+01, time = 5.62 | CG iter. 15 -- res = 0.13211E+05, tol = 0.64846E+01, time = 6.88 | CG iter. 16 -- res = 0.91919E+04, tol = 0.64846E+01, time = 5.68 | CG iter. 17 -- res = 0.65521E+04, tol = 0.64846E+01, time = 5.49 | CG iter. 18 -- res = 0.55680E+04, tol = 0.64846E+01, time = 5.85 | CG iter. 19 -- res = 0.49201E+04, tol = 0.64846E+01, time = 5.20 | CG iter. 20 -- res = 0.38947E+04, tol = 0.64846E+01, time = 5.51 | CG iter. 21 -- res = 0.28993E+04, tol = 0.64846E+01, time = 5.62 | CG iter. 22 -- res = 0.23593E+04, tol = 0.64846E+01, time = 5.48 | CG iter. 23 -- res = 0.19577E+04, tol = 0.64846E+01, time = 5.56 | CG iter. 24 -- res = 0.15870E+04, tol = 0.64846E+01, time = 5.33 | CG iter. 25 -- res = 0.11989E+04, tol = 0.64846E+01, time = 5.35 | CG iter. 26 -- res = 0.93670E+03, tol = 0.64846E+01, time = 5.50 | CG iter. 27 -- res = 0.82715E+03, tol = 0.64846E+01, time = 5.51 | CG iter. 28 -- res = 0.70580E+03, tol = 0.64846E+01, time = 5.33 | CG iter. 29 -- res = 0.54610E+03, tol = 0.64846E+01, time = 5.33 | CG iter. 30 -- res = 0.42560E+03, tol = 0.64846E+01, time = 5.65 | CG iter. 31 -- res = 0.35730E+03, tol = 0.64846E+01, time = 5.27 | CG iter. 32 -- res = 0.31596E+03, tol = 0.64846E+01, time = 5.33 | CG iter. 33 -- res = 0.25741E+03, tol = 0.64846E+01, time = 5.28 | CG iter. 34 -- res = 0.19805E+03, tol = 0.64846E+01, time = 6.18 | CG iter. 35 -- res = 0.16703E+03, tol = 0.64846E+01, time = 5.16 | CG iter. 36 -- res = 0.15038E+03, tol = 0.64846E+01, time = 5.19 | CG iter. 37 -- res = 0.13054E+03, tol = 0.64846E+01, time = 5.30 | CG iter. 38 -- res = 0.10088E+03, tol = 0.64846E+01, time = 5.72 | CG iter. 39 -- res = 0.82559E+02, tol = 0.64846E+01, time = 5.25 | CG iter. 40 -- res = 0.74730E+02, tol = 0.64846E+01, time = 5.37 | CG iter. 41 -- res = 0.65494E+02, tol = 0.64846E+01, time = 5.47 | CG iter. 42 -- res = 0.53552E+02, tol = 0.64846E+01, time = 5.36 | CG iter. 43 -- res = 0.44698E+02, tol = 0.64846E+01, time = 5.23 | CG iter. 44 -- res = 0.37786E+02, tol = 0.64846E+01, time = 5.32 | CG iter. 45 -- res = 0.33517E+02, tol = 0.64846E+01, time = 5.25 | CG iter. 46 -- res = 0.27057E+02, tol = 0.64846E+01, time = 5.36 | CG iter. 47 -- res = 0.21374E+02, tol = 0.64846E+01, time = 5.50 | CG iter. 48 -- res = 0.17700E+02, tol = 0.64846E+01, time = 5.30 | CG iter. 49 -- res = 0.15857E+02, tol = 0.64846E+01, time = 5.08 | CG iter. 50 -- res = 0.13396E+02, tol = 0.64846E+01, time = 5.73 | Final CG iter 51 -- res = 0.13396E+02, tol = 0.64846E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10398484.672 | Old band monopole 11023065.781 | Change to band monopole -624581.109 | Change to component monopole 624578.423 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.39931E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.19709E+03, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.41382E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.31851E-01, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.11381E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10398439.946 | (Sampled value in CG: 10318686.652 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499669 | New value = 1.513910 | poltype: 2 pol: 1 CPU time specind = 3.6559105E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.467646 | New value = 1.481215 | poltype: 2 pol: 2 CPU time specind = 2.1270037E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.24034E+08, tol = 0.47587E+04, time = 7.38 | CG iter. 2 -- res = 0.53234E+07, tol = 0.47587E+04, time = 6.57 | CG iter. 3 -- res = 0.82346E+06, tol = 0.47587E+04, time = 5.89 | CG iter. 4 -- res = 0.33777E+06, tol = 0.47587E+04, time = 6.09 | CG iter. 5 -- res = 0.14783E+06, tol = 0.47587E+04, time = 6.51 | CG iter. 6 -- res = 0.78118E+05, tol = 0.47587E+04, time = 5.82 | CG iter. 7 -- res = 0.42285E+05, tol = 0.47587E+04, time = 6.20 | CG iter. 8 -- res = 0.20858E+05, tol = 0.47587E+04, time = 6.07 | CG iter. 9 -- res = 0.92169E+04, tol = 0.47587E+04, time = 6.08 | CG iter. 10 -- res = 0.37174E+04, tol = 0.47587E+04, time = 6.46 | CG iter. 11 -- res = 0.16738E+04, tol = 0.47587E+04, time = 5.96 | CG iter. 12 -- res = 0.86614E+03, tol = 0.47587E+04, time = 6.30 | CG iter. 13 -- res = 0.48811E+03, tol = 0.47587E+04, time = 6.20 | CG iter. 14 -- res = 0.27229E+03, tol = 0.47587E+04, time = 5.93 | CG iter. 15 -- res = 0.14053E+03, tol = 0.47587E+04, time = 6.32 | CG iter. 16 -- res = 0.67312E+02, tol = 0.47587E+04, time = 6.10 | CG iter. 17 -- res = 0.31606E+02, tol = 0.47587E+04, time = 6.20 | CG iter. 18 -- res = 0.15768E+02, tol = 0.47587E+04, time = 6.11 | CG iter. 19 -- res = 0.86143E+01, tol = 0.47587E+04, time = 6.01 | CG iter. 20 -- res = 0.49194E+01, tol = 0.47587E+04, time = 6.28 | CG iter. 21 -- res = 0.27065E+01, tol = 0.47587E+04, time = 6.31 | CG iter. 22 -- res = 0.13853E+01, tol = 0.47587E+04, time = 5.93 | CG iter. 23 -- res = 0.69177E+00, tol = 0.47587E+04, time = 6.03 | CG iter. 24 -- res = 0.36449E+00, tol = 0.47587E+04, time = 6.31 | CG iter. 25 -- res = 0.19912E+00, tol = 0.47587E+04, time = 5.96 | CG iter. 26 -- res = 0.11450E+00, tol = 0.47587E+04, time = 6.09 | CG iter. 27 -- res = 0.64157E-01, tol = 0.47587E+04, time = 5.98 | CG iter. 28 -- res = 0.34226E-01, tol = 0.47587E+04, time = 6.30 | CG iter. 29 -- res = 0.17924E-01, tol = 0.47587E+04, time = 6.17 | CG iter. 30 -- res = 0.95087E-02, tol = 0.47587E+04, time = 6.03 | CG iter. 31 -- res = 0.52296E-02, tol = 0.47587E+04, time = 6.22 | CG iter. 32 -- res = 0.29200E-02, tol = 0.47587E+04, time = 6.26 | CG iter. 33 -- res = 0.16543E-02, tol = 0.47587E+04, time = 12.23 | CG iter. 34 -- res = 0.88519E-03, tol = 0.47587E+04, time = 6.30 | CG iter. 35 -- res = 0.44708E-03, tol = 0.47587E+04, time = 6.06 | Final CG iter 36 -- res = 0.44708E-03, tol = 0.47587E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.713 2.706 | New value 0.896 | Old value -0.713 | Difference 1.609 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.14116E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.85797E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.20027E+01, tol = 0.47627E+18, time = 1.86 | Final CG iter 4 -- res = 0.38304E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10398439.946 | (Sampled value in CG: 10319172.583 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.610085 | New value = -3.557633 | poltype: 1 pol: 1 CPU time specind = 6.3038826E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.39469E+07, tol = 0.27264E+01, time = 2.54 | CG iter. 2 -- res = 0.19937E+07, tol = 0.27264E+01, time = 9.28 | CG iter. 3 -- res = 0.42267E+06, tol = 0.27264E+01, time = 2.37 | CG iter. 4 -- res = 0.18751E+06, tol = 0.27264E+01, time = 2.34 | CG iter. 5 -- res = 0.11376E+06, tol = 0.27264E+01, time = 2.75 | CG iter. 6 -- res = 0.52990E+05, tol = 0.27264E+01, time = 2.62 | CG iter. 7 -- res = 0.17967E+05, tol = 0.27264E+01, time = 2.57 | CG iter. 8 -- res = 0.71725E+04, tol = 0.27264E+01, time = 2.53 | CG iter. 9 -- res = 0.35066E+04, tol = 0.27264E+01, time = 2.68 | CG iter. 10 -- res = 0.13892E+04, tol = 0.27264E+01, time = 2.51 | CG iter. 11 -- res = 0.56209E+03, tol = 0.27264E+01, time = 2.60 | CG iter. 12 -- res = 0.26853E+03, tol = 0.27264E+01, time = 2.72 | CG iter. 13 -- res = 0.13221E+03, tol = 0.27264E+01, time = 2.39 | CG iter. 14 -- res = 0.68308E+02, tol = 0.27264E+01, time = 2.65 | CG iter. 15 -- res = 0.32285E+02, tol = 0.27264E+01, time = 2.40 | CG iter. 16 -- res = 0.14077E+02, tol = 0.27264E+01, time = 2.61 | CG iter. 17 -- res = 0.57480E+01, tol = 0.27264E+01, time = 2.38 | CG iter. 18 -- res = 0.27275E+01, tol = 0.27264E+01, time = 2.63 | CG iter. 19 -- res = 0.13102E+01, tol = 0.27264E+01, time = 2.46 | CG iter. 20 -- res = 0.66973E+00, tol = 0.27264E+01, time = 2.69 | CG iter. 21 -- res = 0.32119E+00, tol = 0.27264E+01, time = 2.27 | CG iter. 22 -- res = 0.14536E+00, tol = 0.27264E+01, time = 2.30 | CG iter. 23 -- res = 0.65787E-01, tol = 0.27264E+01, time = 2.76 | CG iter. 24 -- res = 0.30378E-01, tol = 0.27264E+01, time = 2.34 | CG iter. 25 -- res = 0.15434E-01, tol = 0.27264E+01, time = 2.78 | CG iter. 26 -- res = 0.73298E-02, tol = 0.27264E+01, time = 2.48 | CG iter. 27 -- res = 0.38548E-02, tol = 0.27264E+01, time = 2.67 | CG iter. 28 -- res = 0.19293E-02, tol = 0.27264E+01, time = 2.30 | CG iter. 29 -- res = 0.87478E-03, tol = 0.27264E+01, time = 2.55 | CG iter. 30 -- res = 0.42902E-03, tol = 0.27264E+01, time = 2.39 | CG iter. 31 -- res = 0.19945E-03, tol = 0.27264E+01, time = 2.80 | CG iter. 32 -- res = 0.95862E-04, tol = 0.27264E+01, time = 2.76 | CG iter. 33 -- res = 0.48290E-04, tol = 0.27264E+01, time = 2.25 | CG iter. 34 -- res = 0.24477E-04, tol = 0.27264E+01, time = 2.52 | CG iter. 35 -- res = 0.12149E-04, tol = 0.27264E+01, time = 3.26 | CG iter. 36 -- res = 0.57291E-05, tol = 0.27264E+01, time = 3.50 | CG iter. 37 -- res = 0.25379E-05, tol = 0.27264E+01, time = 2.92 | CG iter. 38 -- res = 0.12262E-05, tol = 0.27264E+01, time = 3.02 | CG iter. 39 -- res = 0.62420E-06, tol = 0.27264E+01, time = 2.78 | CG iter. 40 -- res = 0.31295E-06, tol = 0.27264E+01, time = 2.63 | CG iter. 41 -- res = 0.15119E-06, tol = 0.27264E+01, time = 2.50 | CG iter. 42 -- res = 0.73376E-07, tol = 0.27264E+01, time = 2.45 | CG iter. 43 -- res = 0.32834E-07, tol = 0.27264E+01, time = 2.43 | CG iter. 44 -- res = 0.14878E-07, tol = 0.27264E+01, time = 2.51 | CG iter. 45 -- res = 0.74005E-08, tol = 0.27264E+01, time = 2.62 | CG iter. 46 -- res = 0.37014E-08, tol = 0.27264E+01, time = 2.52 | CG iter. 47 -- res = 0.18696E-08, tol = 0.27264E+01, time = 2.69 | CG iter. 48 -- res = 0.91652E-09, tol = 0.27264E+01, time = 2.48 | CG iter. 49 -- res = 0.41720E-09, tol = 0.27264E+01, time = 2.42 | CG iter. 50 -- res = 0.18990E-09, tol = 0.27264E+01, time = 2.34 | Final CG iter 51 -- res = 0.18990E-09, tol = 0.27264E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.960 5.692 | New value -11.458 | Old value -6.960 | Difference -4.498 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.21975E+05, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.44164E+02, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.14996E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.39826E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.11067E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10398439.946 | (Sampled value in CG: 10343318.374 ) | CPU time specind = 1126.518 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.68336E+08, tol = 0.57643E+04, time = 11.60 | CG iter. 2 -- res = 0.58000E+08, tol = 0.57643E+04, time = 11.04 | CG iter. 3 -- res = 0.14620E+08, tol = 0.57643E+04, time = 11.10 | CG iter. 4 -- res = 0.60973E+07, tol = 0.57643E+04, time = 10.66 | CG iter. 5 -- res = 0.36381E+07, tol = 0.57643E+04, time = 10.83 | CG iter. 6 -- res = 0.21446E+07, tol = 0.57643E+04, time = 11.15 | CG iter. 7 -- res = 0.12850E+07, tol = 0.57643E+04, time = 11.04 | CG iter. 8 -- res = 0.84002E+06, tol = 0.57643E+04, time = 17.88 | CG iter. 9 -- res = 0.54552E+06, tol = 0.57643E+04, time = 10.66 | CG iter. 10 -- res = 0.33065E+06, tol = 0.57643E+04, time = 11.40 | CG iter. 11 -- res = 0.18901E+06, tol = 0.57643E+04, time = 10.51 | CG iter. 12 -- res = 0.11271E+06, tol = 0.57643E+04, time = 11.14 | CG iter. 13 -- res = 0.70567E+05, tol = 0.57643E+04, time = 11.28 | CG iter. 14 -- res = 0.50582E+05, tol = 0.57643E+04, time = 11.15 | CG iter. 15 -- res = 0.41086E+05, tol = 0.57643E+04, time = 11.00 | CG iter. 16 -- res = 0.38201E+05, tol = 0.57643E+04, time = 12.80 | CG iter. 17 -- res = 0.36983E+05, tol = 0.57643E+04, time = 11.22 | CG iter. 18 -- res = 0.34355E+05, tol = 0.57643E+04, time = 11.02 | CG iter. 19 -- res = 0.30858E+05, tol = 0.57643E+04, time = 11.23 | CG iter. 20 -- res = 0.28494E+05, tol = 0.57643E+04, time = 11.12 | CG iter. 21 -- res = 0.27283E+05, tol = 0.57643E+04, time = 11.22 | CG iter. 22 -- res = 0.26803E+05, tol = 0.57643E+04, time = 11.28 | CG iter. 23 -- res = 0.26125E+05, tol = 0.57643E+04, time = 10.89 | CG iter. 24 -- res = 0.23686E+05, tol = 0.57643E+04, time = 10.78 | CG iter. 25 -- res = 0.19348E+05, tol = 0.57643E+04, time = 11.96 | CG iter. 26 -- res = 0.14399E+05, tol = 0.57643E+04, time = 11.07 | CG iter. 27 -- res = 0.10499E+05, tol = 0.57643E+04, time = 11.15 | CG iter. 28 -- res = 0.81359E+04, tol = 0.57643E+04, time = 11.21 | CG iter. 29 -- res = 0.69630E+04, tol = 0.57643E+04, time = 10.98 | CG iter. 30 -- res = 0.62409E+04, tol = 0.57643E+04, time = 11.52 | CG iter. 31 -- res = 0.56205E+04, tol = 0.57643E+04, time = 11.24 | CG iter. 32 -- res = 0.49668E+04, tol = 0.57643E+04, time = 10.68 | CG iter. 33 -- res = 0.43236E+04, tol = 0.57643E+04, time = 11.38 | CG iter. 34 -- res = 0.37221E+04, tol = 0.57643E+04, time = 15.77 | CG iter. 35 -- res = 0.32419E+04, tol = 0.57643E+04, time = 12.07 | CG iter. 36 -- res = 0.29384E+04, tol = 0.57643E+04, time = 11.64 | CG iter. 37 -- res = 0.28061E+04, tol = 0.57643E+04, time = 11.28 | CG iter. 38 -- res = 0.25787E+04, tol = 0.57643E+04, time = 11.44 | CG iter. 39 -- res = 0.22322E+04, tol = 0.57643E+04, time = 11.03 | CG iter. 40 -- res = 0.18224E+04, tol = 0.57643E+04, time = 11.13 | CG iter. 41 -- res = 0.14657E+04, tol = 0.57643E+04, time = 10.95 | CG iter. 42 -- res = 0.11992E+04, tol = 0.57643E+04, time = 13.14 | CG iter. 43 -- res = 0.10361E+04, tol = 0.57643E+04, time = 11.72 | CG iter. 44 -- res = 0.95788E+03, tol = 0.57643E+04, time = 10.76 | CG iter. 45 -- res = 0.90941E+03, tol = 0.57643E+04, time = 11.25 | CG iter. 46 -- res = 0.83436E+03, tol = 0.57643E+04, time = 11.02 | CG iter. 47 -- res = 0.74317E+03, tol = 0.57643E+04, time = 11.06 | CG iter. 48 -- res = 0.63200E+03, tol = 0.57643E+04, time = 10.95 | CG iter. 49 -- res = 0.55409E+03, tol = 0.57643E+04, time = 11.04 | CG iter. 50 -- res = 0.50655E+03, tol = 0.57643E+04, time = 10.91 | CG iter. 51 -- res = 0.47482E+03, tol = 0.57643E+04, time = 11.23 | CG iter. 52 -- res = 0.44634E+03, tol = 0.57643E+04, time = 11.03 | CG iter. 53 -- res = 0.40546E+03, tol = 0.57643E+04, time = 10.76 | CG iter. 54 -- res = 0.35748E+03, tol = 0.57643E+04, time = 11.41 | CG iter. 55 -- res = 0.31570E+03, tol = 0.57643E+04, time = 11.30 | CG iter. 56 -- res = 0.27589E+03, tol = 0.57643E+04, time = 11.03 | CG iter. 57 -- res = 0.24500E+03, tol = 0.57643E+04, time = 10.93 | CG iter. 58 -- res = 0.22694E+03, tol = 0.57643E+04, time = 11.07 | CG iter. 59 -- res = 0.21584E+03, tol = 0.57643E+04, time = 11.10 | CG iter. 60 -- res = 0.20656E+03, tol = 0.57643E+04, time = 11.10 | Final CG iter 61 -- res = 0.20656E+03, tol = 0.57643E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.890 ( -229.791 -2231.016 2513.321 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8760521.184 | Old band monopole 10398484.672 | Change to band monopole -1637963.488 | Change to component monopole 1637956.443 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.989 2.740 | New value -1.074 | Old value 0.989 | Difference -2.063 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.462 ( 7.186 12.013 -11.215 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.293 4.490 | New value 3.242 | Old value -3.293 | Difference 6.535 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.52090E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.10803E+03, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.30019E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.54146E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.81006E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8760483.504 | (Sampled value in CG: 8736001.691 ) | Chain = 1 -- chisq = 0.81550479E+09 | Chain = 1 -- wall time = 16462.282 sec Available RAM: MemAvailable: 471903044 kB Available Swap: SwapFree: 1056010192 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 232 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444505 | --> Sampling calibration, mode = relcal | relcal = 1.3422015E-02 7.5269095E-04 -1.5965247E-03 -1.2578181E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.8693557E-02 0.1120770 9404458.95830841 | BP delta = 9.8693557E-02 0.1104104 9404465.31692130 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632475 | --> Sampling calibration, mode = relcal | relcal = -2.8206187E-03 -7.0420071E-04 1.6787688E-03 1.6138068E-03 -4.0856758E-04 6.4081140E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5804772 15217301.8110825 | BP delta = 0.0000000E+00 -0.5925374 15217308.4181410 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18025098095903 | --> Sampling calibration, mode = relcal | relcal = -7.4890248E-02 -5.8246963E-02 9.1669239E-02 4.1467968E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7908787E-04 4.3181209E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5325E-05 | 2: delta_r/delta_0: 7.4928E-07 | 3: delta_s/delta_0: 2.5229E-07 | 4: delta_r/delta_0: 1.0210E-08 | 5: delta_s/delta_0: 7.8710E-09 | 6: delta_r/delta_0: 1.9750E-09 | 7: delta_s/delta_0: 2.0960E-10 | 8: delta_r/delta_0: 6.1716E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.957105641428849E-004 2.742816232642032E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5325E-05 | 2: delta_r/delta_0: 7.4928E-07 | 3: delta_s/delta_0: 2.5229E-07 | 4: delta_r/delta_0: 1.0210E-08 | 5: delta_s/delta_0: 7.8715E-09 | 6: delta_r/delta_0: 1.9751E-09 | 7: delta_s/delta_0: 2.0957E-10 | 8: delta_r/delta_0: 6.1717E-11 | Reached bicg-stab tolerance | BP delta = 4.0153153E-02 5.7731200E-02 3611343.58712351 | BP delta = 4.0153153E-02 5.7744168E-02 3610831.67858728 | BP chisq diff = -511.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02594393 | --> Sampling calibration, mode = relcal | relcal = -0.1066118 -9.5598035E-02 0.1449115 5.7298310E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2726617E-03 1.6549130E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.9725E-05 | 2: delta_r/delta_0: 1.8487E-06 | 3: delta_s/delta_0: 2.3687E-07 | 4: delta_r/delta_0: 4.5720E-08 | 5: delta_s/delta_0: 3.6135E-08 | 6: delta_r/delta_0: 8.1970E-09 | 7: delta_s/delta_0: 7.7094E-09 | 8: delta_r/delta_0: 1.9510E-09 | 9: delta_s/delta_0: 9.0322E-10 | 10: delta_r/delta_0: 6.6541E-10 | 11: delta_s/delta_0: 1.0546E-09 | 12: delta_r/delta_0: 1.1857E-10 | 13: delta_s/delta_0: 8.0593E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.031356928095717E-002 2.810977106834285E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.9725E-05 | 2: delta_r/delta_0: 1.8486E-06 | 3: delta_s/delta_0: 2.3686E-07 | 4: delta_r/delta_0: 4.5702E-08 | 5: delta_s/delta_0: 3.6161E-08 | 6: delta_r/delta_0: 8.1976E-09 | 7: delta_s/delta_0: 7.7136E-09 | 8: delta_r/delta_0: 1.9508E-09 | 9: delta_s/delta_0: 9.0307E-10 | 10: delta_r/delta_0: 6.6528E-10 | 11: delta_s/delta_0: 1.0546E-09 | 12: delta_r/delta_0: 1.1854E-10 | 13: delta_s/delta_0: 8.0552E-11 | Reached bicg-stab tolerance | BP delta = -0.2804200 -0.2595260 2841696.56561742 | BP delta = -0.2804200 -0.2582161 2841786.47733911 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81226496 | --> Sampling calibration, mode = relcal | relcal = 0.2954849 0.2248886 -0.2838216 -0.2365519 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.9857592E-04 4.4045141E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3147E-04 | 2: delta_r/delta_0: 5.2871E-06 | 3: delta_s/delta_0: 2.1337E-04 | 4: delta_r/delta_0: 1.8528E-05 | 5: delta_s/delta_0: 3.6391E-06 | 6: delta_r/delta_0: 6.9386E-07 | 7: delta_s/delta_0: 6.1535E-08 | 8: delta_r/delta_0: 3.9759E-08 | 9: delta_s/delta_0: 4.0715E-07 | 10: delta_r/delta_0: 2.3734E-09 | 11: delta_s/delta_0: 7.4820E-10 | 12: delta_r/delta_0: 3.8063E-10 | 13: delta_s/delta_0: 4.3132E-10 | 14: delta_r/delta_0: 3.3072E-10 | 15: delta_s/delta_0: 3.0843E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.627484349751246E-002 4.021617263412063E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3141E-04 | 2: delta_r/delta_0: 5.2859E-06 | 3: delta_s/delta_0: 2.1241E-04 | 4: delta_r/delta_0: 1.8442E-05 | 5: delta_s/delta_0: 3.6588E-06 | 6: delta_r/delta_0: 6.9699E-07 | 7: delta_s/delta_0: 6.1525E-08 | 8: delta_r/delta_0: 3.9705E-08 | 9: delta_s/delta_0: 4.0506E-07 | 10: delta_r/delta_0: 2.3760E-09 | 11: delta_s/delta_0: 7.4938E-10 | 12: delta_r/delta_0: 3.8087E-10 | 13: delta_s/delta_0: 4.3399E-10 | 14: delta_r/delta_0: 3.3187E-10 | 15: delta_s/delta_0: 3.0853E-11 | Reached bicg-stab tolerance | BP delta = -3.1824596E-02 -4.5290079E-02 2827367.80924037 | BP delta = -3.1824596E-02 -3.4060620E-02 2827561.44945411 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95916665 | --> Sampling calibration, mode = relcal | relcal = 0.1065184 0.1395744 -0.1103105 -0.1357822 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0342618E-02 1.2108181E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5754E-04 | 2: delta_r/delta_0: 6.5304E-06 | 3: delta_s/delta_0: 3.4756E-01 | 4: delta_r/delta_0: 1.5971E-02 | 5: delta_s/delta_0: 2.1117E-07 | 6: delta_r/delta_0: 1.0633E-07 | 7: delta_s/delta_0: 3.0978E-07 | 8: delta_r/delta_0: 2.9149E-08 | 9: delta_s/delta_0: 1.0068E-08 | 10: delta_r/delta_0: 3.0753E-09 | 11: delta_s/delta_0: 1.2300E-09 | 12: delta_r/delta_0: 9.2548E-10 | 13: delta_s/delta_0: 1.3859E-09 | 14: delta_r/delta_0: 1.1262E-10 | 15: delta_s/delta_0: 7.2804E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.059248051539914E-002 3.697171951674531E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5754E-04 | 2: delta_r/delta_0: 6.5303E-06 | 3: delta_s/delta_0: 3.4746E-01 | 4: delta_r/delta_0: 1.5966E-02 | 5: delta_s/delta_0: 2.1117E-07 | 6: delta_r/delta_0: 1.0633E-07 | 7: delta_s/delta_0: 3.0981E-07 | 8: delta_r/delta_0: 2.9149E-08 | 9: delta_s/delta_0: 1.0068E-08 | 10: delta_r/delta_0: 3.0750E-09 | 11: delta_s/delta_0: 1.2299E-09 | 12: delta_r/delta_0: 9.2552E-10 | 13: delta_s/delta_0: 1.3855E-09 | 14: delta_r/delta_0: 1.1261E-10 | 15: delta_s/delta_0: 7.2822E-11 | Reached bicg-stab tolerance | BP delta = 2.5586458E-02 0.1328000 3003598.04361980 | BP delta = 2.5586458E-02 0.1239641 3003597.38845542 | BP chisq diff = -0.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178909 | New value = -3.224121 | poltype: 2 pol: 1 CPU time specind = 8.7540150E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.229031 | New value = -3.099008 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137487 | New value = -3.121503 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159624 | New value = -3.041937 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111215 | New value = -3.167790 | poltype: 2 pol: 2 CPU time specind = 4.9080849E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.13536E+08, tol = 0.79209E+01, time = 5.68 | CG iter. 2 -- res = 0.32851E+06, tol = 0.79209E+01, time = 5.30 | CG iter. 3 -- res = 0.47929E+05, tol = 0.79209E+01, time = 5.79 | CG iter. 4 -- res = 0.23705E+05, tol = 0.79209E+01, time = 5.89 | CG iter. 5 -- res = 0.14717E+05, tol = 0.79209E+01, time = 5.22 | CG iter. 6 -- res = 0.10793E+05, tol = 0.79209E+01, time = 5.57 | CG iter. 7 -- res = 0.94126E+04, tol = 0.79209E+01, time = 5.74 | CG iter. 8 -- res = 0.84801E+04, tol = 0.79209E+01, time = 5.19 | CG iter. 9 -- res = 0.82221E+04, tol = 0.79209E+01, time = 11.72 | CG iter. 10 -- res = 0.85265E+04, tol = 0.79209E+01, time = 5.45 | CG iter. 11 -- res = 0.69753E+04, tol = 0.79209E+01, time = 5.67 | CG iter. 12 -- res = 0.46934E+04, tol = 0.79209E+01, time = 5.60 | CG iter. 13 -- res = 0.33274E+04, tol = 0.79209E+01, time = 5.49 | CG iter. 14 -- res = 0.28267E+04, tol = 0.79209E+01, time = 5.52 | CG iter. 15 -- res = 0.24962E+04, tol = 0.79209E+01, time = 5.49 | CG iter. 16 -- res = 0.20511E+04, tol = 0.79209E+01, time = 5.65 | CG iter. 17 -- res = 0.14866E+04, tol = 0.79209E+01, time = 5.56 | CG iter. 18 -- res = 0.12171E+04, tol = 0.79209E+01, time = 5.75 | CG iter. 19 -- res = 0.10255E+04, tol = 0.79209E+01, time = 5.31 | CG iter. 20 -- res = 0.81829E+03, tol = 0.79209E+01, time = 5.60 | CG iter. 21 -- res = 0.61947E+03, tol = 0.79209E+01, time = 5.58 | CG iter. 22 -- res = 0.51255E+03, tol = 0.79209E+01, time = 5.44 | CG iter. 23 -- res = 0.46085E+03, tol = 0.79209E+01, time = 5.99 | CG iter. 24 -- res = 0.41140E+03, tol = 0.79209E+01, time = 6.89 | CG iter. 25 -- res = 0.33993E+03, tol = 0.79209E+01, time = 5.97 | CG iter. 26 -- res = 0.26313E+03, tol = 0.79209E+01, time = 5.84 | CG iter. 27 -- res = 0.22829E+03, tol = 0.79209E+01, time = 5.33 | CG iter. 28 -- res = 0.20752E+03, tol = 0.79209E+01, time = 5.46 | CG iter. 29 -- res = 0.17345E+03, tol = 0.79209E+01, time = 5.57 | CG iter. 30 -- res = 0.14390E+03, tol = 0.79209E+01, time = 5.48 | CG iter. 31 -- res = 0.12867E+03, tol = 0.79209E+01, time = 5.59 | CG iter. 32 -- res = 0.11733E+03, tol = 0.79209E+01, time = 5.55 | CG iter. 33 -- res = 0.10098E+03, tol = 0.79209E+01, time = 5.67 | CG iter. 34 -- res = 0.80134E+02, tol = 0.79209E+01, time = 5.91 | CG iter. 35 -- res = 0.67119E+02, tol = 0.79209E+01, time = 5.28 | CG iter. 36 -- res = 0.61301E+02, tol = 0.79209E+01, time = 5.24 | CG iter. 37 -- res = 0.55877E+02, tol = 0.79209E+01, time = 5.74 | CG iter. 38 -- res = 0.46379E+02, tol = 0.79209E+01, time = 5.66 | CG iter. 39 -- res = 0.37907E+02, tol = 0.79209E+01, time = 5.26 | CG iter. 40 -- res = 0.33059E+02, tol = 0.79209E+01, time = 5.70 | CG iter. 41 -- res = 0.29871E+02, tol = 0.79209E+01, time = 5.78 | CG iter. 42 -- res = 0.24295E+02, tol = 0.79209E+01, time = 5.73 | CG iter. 43 -- res = 0.19827E+02, tol = 0.79209E+01, time = 6.18 | CG iter. 44 -- res = 0.17257E+02, tol = 0.79209E+01, time = 5.52 | CG iter. 45 -- res = 0.15305E+02, tol = 0.79209E+01, time = 5.44 | CG iter. 46 -- res = 0.12715E+02, tol = 0.79209E+01, time = 5.61 | CG iter. 47 -- res = 0.10125E+02, tol = 0.79209E+01, time = 5.75 | CG iter. 48 -- res = 0.81679E+01, tol = 0.79209E+01, time = 5.51 | CG iter. 49 -- res = 0.70445E+01, tol = 0.79209E+01, time = 5.51 | CG iter. 50 -- res = 0.58284E+01, tol = 0.79209E+01, time = 5.55 | Final CG iter 51 -- res = 0.58284E+01, tol = 0.79209E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8463640.001 | Old band monopole 8760521.184 | Change to band monopole -296881.184 | Change to component monopole 296879.907 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.32 | CG iter. 1 -- res = 0.66355E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.42695E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.18619E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.43683E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.22375E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8463603.597 | (Sampled value in CG: 8436334.910 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.513910 | New value = 1.505377 | poltype: 2 pol: 1 CPU time specind = 2.2403002E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.481215 | New value = 1.504817 | poltype: 2 pol: 2 CPU time specind = 2.2560835E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.38 | CG iter. 1 -- res = 0.24026E+08, tol = 0.47561E+04, time = 6.15 | CG iter. 2 -- res = 0.53856E+07, tol = 0.47561E+04, time = 6.11 | CG iter. 3 -- res = 0.85449E+06, tol = 0.47561E+04, time = 6.44 | CG iter. 4 -- res = 0.35863E+06, tol = 0.47561E+04, time = 6.26 | CG iter. 5 -- res = 0.15541E+06, tol = 0.47561E+04, time = 6.49 | CG iter. 6 -- res = 0.79739E+05, tol = 0.47561E+04, time = 7.54 | CG iter. 7 -- res = 0.43977E+05, tol = 0.47561E+04, time = 7.14 | CG iter. 8 -- res = 0.21474E+05, tol = 0.47561E+04, time = 6.51 | CG iter. 9 -- res = 0.94336E+04, tol = 0.47561E+04, time = 6.25 | CG iter. 10 -- res = 0.37883E+04, tol = 0.47561E+04, time = 6.39 | CG iter. 11 -- res = 0.16742E+04, tol = 0.47561E+04, time = 6.07 | CG iter. 12 -- res = 0.85404E+03, tol = 0.47561E+04, time = 6.23 | CG iter. 13 -- res = 0.48300E+03, tol = 0.47561E+04, time = 6.24 | CG iter. 14 -- res = 0.27309E+03, tol = 0.47561E+04, time = 6.13 | CG iter. 15 -- res = 0.14317E+03, tol = 0.47561E+04, time = 6.40 | CG iter. 16 -- res = 0.67318E+02, tol = 0.47561E+04, time = 6.40 | CG iter. 17 -- res = 0.31373E+02, tol = 0.47561E+04, time = 6.16 | CG iter. 18 -- res = 0.15685E+02, tol = 0.47561E+04, time = 6.15 | CG iter. 19 -- res = 0.85302E+01, tol = 0.47561E+04, time = 6.58 | CG iter. 20 -- res = 0.48834E+01, tol = 0.47561E+04, time = 5.88 | CG iter. 21 -- res = 0.26872E+01, tol = 0.47561E+04, time = 6.67 | CG iter. 22 -- res = 0.13916E+01, tol = 0.47561E+04, time = 6.27 | CG iter. 23 -- res = 0.70195E+00, tol = 0.47561E+04, time = 6.06 | CG iter. 24 -- res = 0.36194E+00, tol = 0.47561E+04, time = 6.61 | CG iter. 25 -- res = 0.19841E+00, tol = 0.47561E+04, time = 6.29 | CG iter. 26 -- res = 0.11341E+00, tol = 0.47561E+04, time = 6.20 | CG iter. 27 -- res = 0.63914E-01, tol = 0.47561E+04, time = 6.95 | CG iter. 28 -- res = 0.34150E-01, tol = 0.47561E+04, time = 6.21 | CG iter. 29 -- res = 0.17883E-01, tol = 0.47561E+04, time = 6.04 | CG iter. 30 -- res = 0.93877E-02, tol = 0.47561E+04, time = 6.55 | CG iter. 31 -- res = 0.51499E-02, tol = 0.47561E+04, time = 6.30 | CG iter. 32 -- res = 0.29819E-02, tol = 0.47561E+04, time = 6.26 | CG iter. 33 -- res = 0.17042E-02, tol = 0.47561E+04, time = 6.40 | CG iter. 34 -- res = 0.91397E-03, tol = 0.47561E+04, time = 6.21 | CG iter. 35 -- res = 0.47206E-03, tol = 0.47561E+04, time = 6.52 | Final CG iter 36 -- res = 0.47206E-03, tol = 0.47561E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.107 2.742 | New value -3.683 | Old value -1.107 | Difference -2.577 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.34708E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.25690E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.59796E+00, tol = 0.47627E+18, time = 2.12 | Final CG iter 4 -- res = 0.90426E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8463603.597 | (Sampled value in CG: 8436794.016 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.557633 | New value = -3.602655 | poltype: 1 pol: 1 CPU time specind = 8.2979202E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.22873E+07, tol = 0.29203E+01, time = 2.55 | CG iter. 2 -- res = 0.82835E+06, tol = 0.29203E+01, time = 2.61 | CG iter. 3 -- res = 0.16775E+06, tol = 0.29203E+01, time = 2.78 | CG iter. 4 -- res = 0.66911E+05, tol = 0.29203E+01, time = 2.55 | CG iter. 5 -- res = 0.38432E+05, tol = 0.29203E+01, time = 2.51 | CG iter. 6 -- res = 0.20493E+05, tol = 0.29203E+01, time = 2.69 | CG iter. 7 -- res = 0.79777E+04, tol = 0.29203E+01, time = 2.53 | CG iter. 8 -- res = 0.33410E+04, tol = 0.29203E+01, time = 2.81 | CG iter. 9 -- res = 0.14570E+04, tol = 0.29203E+01, time = 2.54 | CG iter. 10 -- res = 0.56422E+03, tol = 0.29203E+01, time = 2.65 | CG iter. 11 -- res = 0.23289E+03, tol = 0.29203E+01, time = 2.54 | CG iter. 12 -- res = 0.11413E+03, tol = 0.29203E+01, time = 2.74 | CG iter. 13 -- res = 0.61975E+02, tol = 0.29203E+01, time = 3.98 | CG iter. 14 -- res = 0.29409E+02, tol = 0.29203E+01, time = 7.71 | CG iter. 15 -- res = 0.13228E+02, tol = 0.29203E+01, time = 2.80 | CG iter. 16 -- res = 0.57083E+01, tol = 0.29203E+01, time = 2.72 | CG iter. 17 -- res = 0.24684E+01, tol = 0.29203E+01, time = 2.87 | CG iter. 18 -- res = 0.10958E+01, tol = 0.29203E+01, time = 2.60 | CG iter. 19 -- res = 0.55970E+00, tol = 0.29203E+01, time = 2.30 | CG iter. 20 -- res = 0.27767E+00, tol = 0.29203E+01, time = 2.57 | CG iter. 21 -- res = 0.13952E+00, tol = 0.29203E+01, time = 2.90 | CG iter. 22 -- res = 0.63332E-01, tol = 0.29203E+01, time = 2.97 | CG iter. 23 -- res = 0.27503E-01, tol = 0.29203E+01, time = 2.72 | CG iter. 24 -- res = 0.12118E-01, tol = 0.29203E+01, time = 2.42 | CG iter. 25 -- res = 0.61328E-02, tol = 0.29203E+01, time = 2.57 | CG iter. 26 -- res = 0.31149E-02, tol = 0.29203E+01, time = 2.67 | CG iter. 27 -- res = 0.15681E-02, tol = 0.29203E+01, time = 3.01 | CG iter. 28 -- res = 0.73121E-03, tol = 0.29203E+01, time = 2.74 | CG iter. 29 -- res = 0.33732E-03, tol = 0.29203E+01, time = 2.37 | CG iter. 30 -- res = 0.15972E-03, tol = 0.29203E+01, time = 2.47 | CG iter. 31 -- res = 0.72360E-04, tol = 0.29203E+01, time = 2.64 | CG iter. 32 -- res = 0.37525E-04, tol = 0.29203E+01, time = 2.53 | CG iter. 33 -- res = 0.19024E-04, tol = 0.29203E+01, time = 2.58 | CG iter. 34 -- res = 0.91459E-05, tol = 0.29203E+01, time = 2.82 | CG iter. 35 -- res = 0.41556E-05, tol = 0.29203E+01, time = 2.69 | CG iter. 36 -- res = 0.20025E-05, tol = 0.29203E+01, time = 2.47 | CG iter. 37 -- res = 0.92296E-06, tol = 0.29203E+01, time = 2.61 | CG iter. 38 -- res = 0.45147E-06, tol = 0.29203E+01, time = 2.67 | CG iter. 39 -- res = 0.22768E-06, tol = 0.29203E+01, time = 2.84 | CG iter. 40 -- res = 0.10813E-06, tol = 0.29203E+01, time = 2.74 | CG iter. 41 -- res = 0.53622E-07, tol = 0.29203E+01, time = 2.52 | CG iter. 42 -- res = 0.25386E-07, tol = 0.29203E+01, time = 2.93 | CG iter. 43 -- res = 0.11656E-07, tol = 0.29203E+01, time = 2.78 | CG iter. 44 -- res = 0.56069E-08, tol = 0.29203E+01, time = 2.53 | CG iter. 45 -- res = 0.28474E-08, tol = 0.29203E+01, time = 3.04 | CG iter. 46 -- res = 0.13884E-08, tol = 0.29203E+01, time = 4.03 | CG iter. 47 -- res = 0.65858E-09, tol = 0.29203E+01, time = 3.15 | CG iter. 48 -- res = 0.32402E-09, tol = 0.29203E+01, time = 2.86 | CG iter. 49 -- res = 0.15368E-09, tol = 0.29203E+01, time = 2.85 | CG iter. 50 -- res = 0.70641E-10, tol = 0.29203E+01, time = 2.80 | Final CG iter 51 -- res = 0.70641E-10, tol = 0.29203E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.516 5.210 | New value 1.093 | Old value 0.516 | Difference 0.577 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.10039E+04, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.17521E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.27537E+00, tol = 0.47627E+18, time = 1.80 | Final CG iter 4 -- res = 0.18163E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8463603.597 | (Sampled value in CG: 8444626.615 ) | CPU time specind = 1154.935 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.68133E+08, tol = 0.57686E+04, time = 11.64 | CG iter. 2 -- res = 0.58332E+08, tol = 0.57686E+04, time = 11.14 | CG iter. 3 -- res = 0.14992E+08, tol = 0.57686E+04, time = 11.16 | CG iter. 4 -- res = 0.63318E+07, tol = 0.57686E+04, time = 11.94 | CG iter. 5 -- res = 0.36621E+07, tol = 0.57686E+04, time = 11.35 | CG iter. 6 -- res = 0.20701E+07, tol = 0.57686E+04, time = 11.95 | CG iter. 7 -- res = 0.12206E+07, tol = 0.57686E+04, time = 11.22 | CG iter. 8 -- res = 0.79589E+06, tol = 0.57686E+04, time = 11.44 | CG iter. 9 -- res = 0.51939E+06, tol = 0.57686E+04, time = 11.39 | CG iter. 10 -- res = 0.30686E+06, tol = 0.57686E+04, time = 18.62 | CG iter. 11 -- res = 0.16479E+06, tol = 0.57686E+04, time = 11.49 | CG iter. 12 -- res = 0.88600E+05, tol = 0.57686E+04, time = 11.78 | CG iter. 13 -- res = 0.48854E+05, tol = 0.57686E+04, time = 11.55 | CG iter. 14 -- res = 0.29447E+05, tol = 0.57686E+04, time = 11.07 | CG iter. 15 -- res = 0.19703E+05, tol = 0.57686E+04, time = 11.43 | CG iter. 16 -- res = 0.14374E+05, tol = 0.57686E+04, time = 11.37 | CG iter. 17 -- res = 0.10706E+05, tol = 0.57686E+04, time = 11.59 | CG iter. 18 -- res = 0.77985E+04, tol = 0.57686E+04, time = 13.35 | CG iter. 19 -- res = 0.56747E+04, tol = 0.57686E+04, time = 11.48 | CG iter. 20 -- res = 0.44315E+04, tol = 0.57686E+04, time = 11.18 | CG iter. 21 -- res = 0.37620E+04, tol = 0.57686E+04, time = 11.12 | CG iter. 22 -- res = 0.35664E+04, tol = 0.57686E+04, time = 12.01 | CG iter. 23 -- res = 0.38823E+04, tol = 0.57686E+04, time = 11.56 | CG iter. 24 -- res = 0.44078E+04, tol = 0.57686E+04, time = 11.36 | CG iter. 25 -- res = 0.46798E+04, tol = 0.57686E+04, time = 11.57 | CG iter. 26 -- res = 0.44820E+04, tol = 0.57686E+04, time = 11.66 | CG iter. 27 -- res = 0.39236E+04, tol = 0.57686E+04, time = 12.05 | CG iter. 28 -- res = 0.32569E+04, tol = 0.57686E+04, time = 12.05 | CG iter. 29 -- res = 0.27190E+04, tol = 0.57686E+04, time = 11.43 | CG iter. 30 -- res = 0.23075E+04, tol = 0.57686E+04, time = 11.56 | CG iter. 31 -- res = 0.20108E+04, tol = 0.57686E+04, time = 11.82 | CG iter. 32 -- res = 0.17098E+04, tol = 0.57686E+04, time = 11.32 | CG iter. 33 -- res = 0.13469E+04, tol = 0.57686E+04, time = 11.51 | CG iter. 34 -- res = 0.10221E+04, tol = 0.57686E+04, time = 11.53 | CG iter. 35 -- res = 0.81555E+03, tol = 0.57686E+04, time = 17.74 | CG iter. 36 -- res = 0.71081E+03, tol = 0.57686E+04, time = 11.81 | CG iter. 37 -- res = 0.68733E+03, tol = 0.57686E+04, time = 11.43 | CG iter. 38 -- res = 0.70812E+03, tol = 0.57686E+04, time = 11.25 | CG iter. 39 -- res = 0.72164E+03, tol = 0.57686E+04, time = 12.01 | CG iter. 40 -- res = 0.68133E+03, tol = 0.57686E+04, time = 11.06 | CG iter. 41 -- res = 0.60662E+03, tol = 0.57686E+04, time = 11.33 | CG iter. 42 -- res = 0.53110E+03, tol = 0.57686E+04, time = 11.81 | CG iter. 43 -- res = 0.47288E+03, tol = 0.57686E+04, time = 13.68 | CG iter. 44 -- res = 0.44934E+03, tol = 0.57686E+04, time = 11.36 | CG iter. 45 -- res = 0.42302E+03, tol = 0.57686E+04, time = 11.81 | CG iter. 46 -- res = 0.38659E+03, tol = 0.57686E+04, time = 11.74 | CG iter. 47 -- res = 0.33256E+03, tol = 0.57686E+04, time = 11.74 | CG iter. 48 -- res = 0.27703E+03, tol = 0.57686E+04, time = 11.21 | CG iter. 49 -- res = 0.23432E+03, tol = 0.57686E+04, time = 11.45 | CG iter. 50 -- res = 0.20512E+03, tol = 0.57686E+04, time = 11.50 | CG iter. 51 -- res = 0.18983E+03, tol = 0.57686E+04, time = 11.19 | CG iter. 52 -- res = 0.18729E+03, tol = 0.57686E+04, time = 11.61 | CG iter. 53 -- res = 0.18471E+03, tol = 0.57686E+04, time = 11.82 | CG iter. 54 -- res = 0.17780E+03, tol = 0.57686E+04, time = 11.51 | CG iter. 55 -- res = 0.16523E+03, tol = 0.57686E+04, time = 11.76 | CG iter. 56 -- res = 0.14995E+03, tol = 0.57686E+04, time = 11.75 | CG iter. 57 -- res = 0.13513E+03, tol = 0.57686E+04, time = 11.38 | CG iter. 58 -- res = 0.12491E+03, tol = 0.57686E+04, time = 11.54 | CG iter. 59 -- res = 0.11934E+03, tol = 0.57686E+04, time = 11.38 | CG iter. 60 -- res = 0.11249E+03, tol = 0.57686E+04, time = 11.38 | Final CG iter 61 -- res = 0.11249E+03, tol = 0.57686E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.799 ( -230.080 -2231.102 2513.658 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9081789.299 | Old band monopole 8463640.001 | Change to band monopole 618149.298 | Change to component monopole -618146.639 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.744 2.722 | New value 1.003 | Old value -3.744 | Difference 4.747 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.396 ( 8.028 12.292 -11.541 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.956 4.910 | New value -3.523 | Old value 7.956 | Difference -11.479 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.12275E+07, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.43485E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.18817E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.42922E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.47205E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9081750.236 | (Sampled value in CG: 9057681.799 ) | Chain = 1 -- chisq = 0.81564233E+09 | Chain = 1 -- wall time = 5999.186 sec Available RAM: MemAvailable: 392987516 kB Available Swap: SwapFree: 1121416400 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 233 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443609 | --> Sampling calibration, mode = relcal | relcal = 1.3418242E-02 7.5122877E-04 -1.5968172E-03 -1.2572654E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.8693557E-02 0.1120770 97045109.5384793 | BP delta = 9.2774682E-02 0.1061581 97045116.2510922 | BP chisq diff = 6.7, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632474 | --> Sampling calibration, mode = relcal | relcal = -2.8213176E-03 -7.0488430E-04 1.6782742E-03 1.6134258E-03 -4.0681800E-04 6.4132002E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5804772 15217118.4704885 | BP delta = 0.0000000E+00 -0.5790645 15217117.3081391 | BP chisq diff = -1.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18142619946387 | --> Sampling calibration, mode = relcal | relcal = -7.5170465E-02 -5.8607232E-02 9.2055567E-02 4.1722130E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.2033811E-05 4.7392016E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1330E-05 | 2: delta_r/delta_0: 9.4847E-07 | 3: delta_s/delta_0: 2.0360E-07 | 4: delta_r/delta_0: 2.2013E-08 | 5: delta_s/delta_0: 5.8124E-09 | 6: delta_r/delta_0: 1.8256E-09 | 7: delta_s/delta_0: 1.2642E-09 | 8: delta_r/delta_0: 2.6134E-10 | 9: delta_s/delta_0: 8.5869E-08 | 10: delta_r/delta_0: 1.8644E-08 | 11: delta_s/delta_0: 5.2987E-09 | 12: delta_r/delta_0: 2.0001E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.881350390757205E-004 2.740045316807639E-005 | BP delta = 4.0153153E-02 5.7744168E-02 50480412.1368349 | BP delta = 4.0873528E-02 5.8464542E-02 50480411.9168900 | BP chisq diff = -0.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599377 | --> Sampling calibration, mode = relcal | relcal = -0.1066642 -9.5543511E-02 0.1449211 5.7286628E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7060499E-03 1.3281383E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6696E-05 | 2: delta_r/delta_0: 1.6161E-06 | 3: delta_s/delta_0: 2.3683E-07 | 4: delta_r/delta_0: 4.9630E-08 | 5: delta_s/delta_0: 2.8055E-08 | 6: delta_r/delta_0: 7.6084E-09 | 7: delta_s/delta_0: 9.5258E-09 | 8: delta_r/delta_0: 1.4969E-09 | 9: delta_s/delta_0: 3.3617E-09 | 10: delta_r/delta_0: 2.2445E-09 | 11: delta_s/delta_0: 2.2921E-10 | 12: delta_r/delta_0: 1.7622E-10 | 13: delta_s/delta_0: 1.2092E-10 | 14: delta_r/delta_0: 6.2308E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.016737525299333E-002 2.810836828250628E-005 | BP delta = -0.2804200 -0.2595260 57389912.0937729 | BP delta = -0.2706486 -0.2497547 57389913.5169358 | BP chisq diff = 1.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81232320 | --> Sampling calibration, mode = relcal | relcal = 0.2954951 0.2247817 -0.2837492 -0.2365277 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8910043E-04 4.5352085E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2206E-04 | 2: delta_r/delta_0: 5.0883E-06 | 3: delta_s/delta_0: 8.1831E-02 | 4: delta_r/delta_0: 8.3608E-03 | 5: delta_s/delta_0: 2.4910E-07 | 6: delta_r/delta_0: 9.1320E-08 | 7: delta_s/delta_0: 6.4390E-08 | 8: delta_r/delta_0: 4.3903E-08 | 9: delta_s/delta_0: 1.7103E-07 | 10: delta_r/delta_0: 2.3504E-09 | 11: delta_s/delta_0: 7.8081E-10 | 12: delta_r/delta_0: 4.8450E-10 | 13: delta_s/delta_0: 1.9682E-10 | 14: delta_r/delta_0: 5.6010E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.658624198213969E-002 4.021166217252946E-005 | BP delta = -3.1824596E-02 -4.5290079E-02 72484984.1913020 | BP delta = 3.9309975E-02 2.5844488E-02 72484989.5420242 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95923855 | --> Sampling calibration, mode = relcal | relcal = 0.1065239 0.1395388 -0.1103008 -0.1357619 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3796551E-03 1.3267606E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5707E-04 | 2: delta_r/delta_0: 6.5301E-06 | 3: delta_s/delta_0: 4.7324E-03 | 4: delta_r/delta_0: 2.3602E-04 | 5: delta_s/delta_0: 2.1264E-07 | 6: delta_r/delta_0: 1.1016E-07 | 7: delta_s/delta_0: 4.8567E-07 | 8: delta_r/delta_0: 2.9684E-08 | 9: delta_s/delta_0: 8.4200E-09 | 10: delta_r/delta_0: 4.4211E-09 | 11: delta_s/delta_0: 1.3999E-09 | 12: delta_r/delta_0: 9.3434E-10 | 13: delta_s/delta_0: 4.4810E-10 | 14: delta_r/delta_0: 7.0741E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.044582165272387E-002 3.696888995523572E-005 | BP delta = 2.5586458E-02 0.1239641 72791928.9465742 | BP delta = 8.5326649E-02 0.1837043 72791928.7023797 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.224121 | New value = -3.077789 | poltype: 2 pol: 1 CPU time specind = 2.0066977E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.099008 | New value = -3.206811 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121503 | New value = -3.184653 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.041937 | New value = -3.129630 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167790 | New value = -3.155860 | poltype: 2 pol: 2 CPU time specind = 6.5310001E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.14044E+08, tol = 0.78003E+01, time = 5.19 | CG iter. 2 -- res = 0.55401E+06, tol = 0.78003E+01, time = 5.75 | CG iter. 3 -- res = 0.33530E+06, tol = 0.78003E+01, time = 5.56 | CG iter. 4 -- res = 0.64120E+06, tol = 0.78003E+01, time = 5.22 | CG iter. 5 -- res = 0.54242E+06, tol = 0.78003E+01, time = 5.39 | CG iter. 6 -- res = 0.40929E+06, tol = 0.78003E+01, time = 5.76 | CG iter. 7 -- res = 0.24902E+06, tol = 0.78003E+01, time = 5.44 | CG iter. 8 -- res = 0.17961E+06, tol = 0.78003E+01, time = 5.67 | CG iter. 9 -- res = 0.16786E+06, tol = 0.78003E+01, time = 6.20 | CG iter. 10 -- res = 0.12239E+06, tol = 0.78003E+01, time = 5.19 | CG iter. 11 -- res = 0.89831E+05, tol = 0.78003E+01, time = 5.81 | CG iter. 12 -- res = 0.67529E+05, tol = 0.78003E+01, time = 5.39 | CG iter. 13 -- res = 0.53423E+05, tol = 0.78003E+01, time = 6.30 | CG iter. 14 -- res = 0.43741E+05, tol = 0.78003E+01, time = 5.36 | CG iter. 15 -- res = 0.32311E+05, tol = 0.78003E+01, time = 5.43 | CG iter. 16 -- res = 0.21697E+05, tol = 0.78003E+01, time = 5.45 | CG iter. 17 -- res = 0.16056E+05, tol = 0.78003E+01, time = 5.83 | CG iter. 18 -- res = 0.14097E+05, tol = 0.78003E+01, time = 5.30 | CG iter. 19 -- res = 0.11015E+05, tol = 0.78003E+01, time = 5.81 | CG iter. 20 -- res = 0.80902E+04, tol = 0.78003E+01, time = 5.57 | CG iter. 21 -- res = 0.58752E+04, tol = 0.78003E+01, time = 5.69 | CG iter. 22 -- res = 0.49083E+04, tol = 0.78003E+01, time = 5.42 | CG iter. 23 -- res = 0.41981E+04, tol = 0.78003E+01, time = 5.73 | CG iter. 24 -- res = 0.31753E+04, tol = 0.78003E+01, time = 5.29 | CG iter. 25 -- res = 0.22992E+04, tol = 0.78003E+01, time = 5.35 | CG iter. 26 -- res = 0.18988E+04, tol = 0.78003E+01, time = 6.11 | CG iter. 27 -- res = 0.16358E+04, tol = 0.78003E+01, time = 5.63 | CG iter. 28 -- res = 0.13149E+04, tol = 0.78003E+01, time = 5.76 | CG iter. 29 -- res = 0.96071E+03, tol = 0.78003E+01, time = 5.88 | CG iter. 30 -- res = 0.72026E+03, tol = 0.78003E+01, time = 7.35 | CG iter. 31 -- res = 0.62028E+03, tol = 0.78003E+01, time = 10.70 | CG iter. 32 -- res = 0.51190E+03, tol = 0.78003E+01, time = 5.44 | CG iter. 33 -- res = 0.38027E+03, tol = 0.78003E+01, time = 5.33 | CG iter. 34 -- res = 0.27877E+03, tol = 0.78003E+01, time = 5.72 | CG iter. 35 -- res = 0.22021E+03, tol = 0.78003E+01, time = 5.32 | CG iter. 36 -- res = 0.18601E+03, tol = 0.78003E+01, time = 5.63 | CG iter. 37 -- res = 0.13961E+03, tol = 0.78003E+01, time = 5.93 | CG iter. 38 -- res = 0.99401E+02, tol = 0.78003E+01, time = 5.73 | CG iter. 39 -- res = 0.75341E+02, tol = 0.78003E+01, time = 6.25 | CG iter. 40 -- res = 0.61219E+02, tol = 0.78003E+01, time = 5.41 | CG iter. 41 -- res = 0.48063E+02, tol = 0.78003E+01, time = 5.73 | CG iter. 42 -- res = 0.34671E+02, tol = 0.78003E+01, time = 5.55 | CG iter. 43 -- res = 0.26042E+02, tol = 0.78003E+01, time = 5.16 | CG iter. 44 -- res = 0.20238E+02, tol = 0.78003E+01, time = 5.67 | CG iter. 45 -- res = 0.15690E+02, tol = 0.78003E+01, time = 5.27 | CG iter. 46 -- res = 0.11773E+02, tol = 0.78003E+01, time = 7.15 | CG iter. 47 -- res = 0.85275E+01, tol = 0.78003E+01, time = 5.97 | CG iter. 48 -- res = 0.61880E+01, tol = 0.78003E+01, time = 5.72 | CG iter. 49 -- res = 0.48611E+01, tol = 0.78003E+01, time = 5.48 | CG iter. 50 -- res = 0.35472E+01, tol = 0.78003E+01, time = 5.71 | Final CG iter 51 -- res = 0.35472E+01, tol = 0.78003E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10931319.333 | Old band monopole 9081789.299 | Change to band monopole 1849530.035 | Change to component monopole -1849522.079 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.60744E+06, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.49907E+03, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.39125E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.81842E-01, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.12607E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10931272.315 | (Sampled value in CG: 11116225.376 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505377 | New value = 1.515079 | poltype: 2 pol: 1 CPU time specind = 8.1100464E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504817 | New value = 1.494136 | poltype: 2 pol: 2 CPU time specind = 1.8621922E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.24052E+08, tol = 0.47608E+04, time = 6.59 | CG iter. 2 -- res = 0.53324E+07, tol = 0.47608E+04, time = 6.47 | CG iter. 3 -- res = 0.82797E+06, tol = 0.47608E+04, time = 6.44 | CG iter. 4 -- res = 0.34265E+06, tol = 0.47608E+04, time = 6.14 | CG iter. 5 -- res = 0.15017E+06, tol = 0.47608E+04, time = 6.17 | CG iter. 6 -- res = 0.80608E+05, tol = 0.47608E+04, time = 6.36 | CG iter. 7 -- res = 0.43566E+05, tol = 0.47608E+04, time = 6.34 | CG iter. 8 -- res = 0.20473E+05, tol = 0.47608E+04, time = 6.78 | CG iter. 9 -- res = 0.89399E+04, tol = 0.47608E+04, time = 6.42 | CG iter. 10 -- res = 0.36410E+04, tol = 0.47608E+04, time = 6.18 | CG iter. 11 -- res = 0.16867E+04, tol = 0.47608E+04, time = 12.86 | CG iter. 12 -- res = 0.86487E+03, tol = 0.47608E+04, time = 6.28 | CG iter. 13 -- res = 0.47822E+03, tol = 0.47608E+04, time = 6.53 | CG iter. 14 -- res = 0.26694E+03, tol = 0.47608E+04, time = 6.18 | CG iter. 15 -- res = 0.13671E+03, tol = 0.47608E+04, time = 6.12 | CG iter. 16 -- res = 0.64098E+02, tol = 0.47608E+04, time = 6.26 | CG iter. 17 -- res = 0.29885E+02, tol = 0.47608E+04, time = 6.67 | CG iter. 18 -- res = 0.14977E+02, tol = 0.47608E+04, time = 6.50 | CG iter. 19 -- res = 0.80661E+01, tol = 0.47608E+04, time = 6.48 | CG iter. 20 -- res = 0.46318E+01, tol = 0.47608E+04, time = 6.12 | CG iter. 21 -- res = 0.25179E+01, tol = 0.47608E+04, time = 6.35 | CG iter. 22 -- res = 0.12912E+01, tol = 0.47608E+04, time = 6.15 | CG iter. 23 -- res = 0.65357E+00, tol = 0.47608E+04, time = 6.31 | CG iter. 24 -- res = 0.34221E+00, tol = 0.47608E+04, time = 6.50 | CG iter. 25 -- res = 0.18581E+00, tol = 0.47608E+04, time = 7.84 | CG iter. 26 -- res = 0.10411E+00, tol = 0.47608E+04, time = 6.81 | CG iter. 27 -- res = 0.58935E-01, tol = 0.47608E+04, time = 6.38 | CG iter. 28 -- res = 0.31729E-01, tol = 0.47608E+04, time = 6.46 | CG iter. 29 -- res = 0.16700E-01, tol = 0.47608E+04, time = 6.27 | CG iter. 30 -- res = 0.87688E-02, tol = 0.47608E+04, time = 6.36 | CG iter. 31 -- res = 0.48080E-02, tol = 0.47608E+04, time = 6.04 | CG iter. 32 -- res = 0.26925E-02, tol = 0.47608E+04, time = 6.64 | CG iter. 33 -- res = 0.15059E-02, tol = 0.47608E+04, time = 6.46 | CG iter. 34 -- res = 0.83595E-03, tol = 0.47608E+04, time = 6.57 | CG iter. 35 -- res = 0.43519E-03, tol = 0.47608E+04, time = 6.11 | Final CG iter 36 -- res = 0.43519E-03, tol = 0.47608E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.041 2.729 | New value 3.671 | Old value 1.041 | Difference 2.630 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.39784E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.35913E+03, tol = 0.47627E+18, time = 2.73 | CG iter. 3 -- res = 0.11096E+01, tol = 0.47627E+18, time = 1.84 | Final CG iter 4 -- res = 0.10843E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10931272.315 | (Sampled value in CG: 11114819.208 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.602655 | New value = -3.628070 | poltype: 1 pol: 1 CPU time specind = 9.3460083E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.51200E+07, tol = 0.23262E+01, time = 2.92 | CG iter. 2 -- res = 0.26029E+07, tol = 0.23262E+01, time = 2.40 | CG iter. 3 -- res = 0.55732E+06, tol = 0.23262E+01, time = 2.84 | CG iter. 4 -- res = 0.26212E+06, tol = 0.23262E+01, time = 2.69 | CG iter. 5 -- res = 0.15731E+06, tol = 0.23262E+01, time = 2.64 | CG iter. 6 -- res = 0.66404E+05, tol = 0.23262E+01, time = 2.66 | CG iter. 7 -- res = 0.19832E+05, tol = 0.23262E+01, time = 2.74 | CG iter. 8 -- res = 0.80697E+04, tol = 0.23262E+01, time = 2.74 | CG iter. 9 -- res = 0.39753E+04, tol = 0.23262E+01, time = 2.86 | CG iter. 10 -- res = 0.16302E+04, tol = 0.23262E+01, time = 2.51 | CG iter. 11 -- res = 0.64298E+03, tol = 0.23262E+01, time = 2.62 | CG iter. 12 -- res = 0.31966E+03, tol = 0.23262E+01, time = 2.68 | CG iter. 13 -- res = 0.15879E+03, tol = 0.23262E+01, time = 2.70 | CG iter. 14 -- res = 0.78104E+02, tol = 0.23262E+01, time = 2.89 | CG iter. 15 -- res = 0.34825E+02, tol = 0.23262E+01, time = 2.49 | CG iter. 16 -- res = 0.15106E+02, tol = 0.23262E+01, time = 2.50 | CG iter. 17 -- res = 0.66638E+01, tol = 0.23262E+01, time = 2.71 | CG iter. 18 -- res = 0.32086E+01, tol = 0.23262E+01, time = 2.80 | CG iter. 19 -- res = 0.15715E+01, tol = 0.23262E+01, time = 2.46 | CG iter. 20 -- res = 0.77196E+00, tol = 0.23262E+01, time = 2.59 | CG iter. 21 -- res = 0.36146E+00, tol = 0.23262E+01, time = 2.80 | CG iter. 22 -- res = 0.15348E+00, tol = 0.23262E+01, time = 2.78 | CG iter. 23 -- res = 0.69015E-01, tol = 0.23262E+01, time = 2.81 | CG iter. 24 -- res = 0.32362E-01, tol = 0.23262E+01, time = 2.53 | CG iter. 25 -- res = 0.15877E-01, tol = 0.23262E+01, time = 2.86 | CG iter. 26 -- res = 0.78752E-02, tol = 0.23262E+01, time = 2.57 | CG iter. 27 -- res = 0.40390E-02, tol = 0.23262E+01, time = 2.85 | CG iter. 28 -- res = 0.19091E-02, tol = 0.23262E+01, time = 2.73 | CG iter. 29 -- res = 0.86018E-03, tol = 0.23262E+01, time = 2.54 | CG iter. 30 -- res = 0.42627E-03, tol = 0.23262E+01, time = 2.77 | CG iter. 31 -- res = 0.20282E-03, tol = 0.23262E+01, time = 2.64 | CG iter. 32 -- res = 0.10352E-03, tol = 0.23262E+01, time = 2.70 | CG iter. 33 -- res = 0.50620E-04, tol = 0.23262E+01, time = 2.62 | CG iter. 34 -- res = 0.23880E-04, tol = 0.23262E+01, time = 2.83 | CG iter. 35 -- res = 0.11542E-04, tol = 0.23262E+01, time = 2.71 | CG iter. 36 -- res = 0.55586E-05, tol = 0.23262E+01, time = 2.65 | CG iter. 37 -- res = 0.26221E-05, tol = 0.23262E+01, time = 2.56 | CG iter. 38 -- res = 0.13577E-05, tol = 0.23262E+01, time = 2.39 | CG iter. 39 -- res = 0.65506E-06, tol = 0.23262E+01, time = 2.65 | CG iter. 40 -- res = 0.31777E-06, tol = 0.23262E+01, time = 2.78 | CG iter. 41 -- res = 0.14727E-06, tol = 0.23262E+01, time = 2.54 | CG iter. 42 -- res = 0.67811E-07, tol = 0.23262E+01, time = 2.75 | CG iter. 43 -- res = 0.31759E-07, tol = 0.23262E+01, time = 2.61 | CG iter. 44 -- res = 0.15819E-07, tol = 0.23262E+01, time = 2.22 | CG iter. 45 -- res = 0.76211E-08, tol = 0.23262E+01, time = 2.98 | CG iter. 46 -- res = 0.36287E-08, tol = 0.23262E+01, time = 2.60 | CG iter. 47 -- res = 0.17724E-08, tol = 0.23262E+01, time = 2.69 | CG iter. 48 -- res = 0.80818E-09, tol = 0.23262E+01, time = 2.32 | CG iter. 49 -- res = 0.37043E-09, tol = 0.23262E+01, time = 2.70 | CG iter. 50 -- res = 0.17968E-09, tol = 0.23262E+01, time = 2.63 | Final CG iter 51 -- res = 0.17968E-09, tol = 0.23262E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.324 2.859 | New value -1.888 | Old value 7.324 | Difference -9.213 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.10620E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.19971E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.21599E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.13747E-01, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.59006E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10931272.315 | (Sampled value in CG: 11066806.594 ) | CPU time specind = 1164.466 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.68784E+08, tol = 0.57750E+04, time = 11.88 | CG iter. 2 -- res = 0.60632E+08, tol = 0.57750E+04, time = 13.15 | CG iter. 3 -- res = 0.16323E+08, tol = 0.57750E+04, time = 11.94 | CG iter. 4 -- res = 0.67778E+07, tol = 0.57750E+04, time = 11.29 | CG iter. 5 -- res = 0.41384E+07, tol = 0.57750E+04, time = 11.61 | CG iter. 6 -- res = 0.24751E+07, tol = 0.57750E+04, time = 11.61 | CG iter. 7 -- res = 0.15130E+07, tol = 0.57750E+04, time = 11.91 | CG iter. 8 -- res = 0.10780E+07, tol = 0.57750E+04, time = 11.46 | CG iter. 9 -- res = 0.75127E+06, tol = 0.57750E+04, time = 11.84 | CG iter. 10 -- res = 0.49197E+06, tol = 0.57750E+04, time = 11.71 | CG iter. 11 -- res = 0.31261E+06, tol = 0.57750E+04, time = 11.90 | CG iter. 12 -- res = 0.20885E+06, tol = 0.57750E+04, time = 11.53 | CG iter. 13 -- res = 0.15677E+06, tol = 0.57750E+04, time = 11.57 | CG iter. 14 -- res = 0.14051E+06, tol = 0.57750E+04, time = 11.87 | CG iter. 15 -- res = 0.14529E+06, tol = 0.57750E+04, time = 11.94 | CG iter. 16 -- res = 0.15475E+06, tol = 0.57750E+04, time = 11.08 | CG iter. 17 -- res = 0.15630E+06, tol = 0.57750E+04, time = 11.44 | CG iter. 18 -- res = 0.14325E+06, tol = 0.57750E+04, time = 11.15 | CG iter. 19 -- res = 0.12075E+06, tol = 0.57750E+04, time = 11.51 | CG iter. 20 -- res = 0.10097E+06, tol = 0.57750E+04, time = 17.88 | CG iter. 21 -- res = 0.86558E+05, tol = 0.57750E+04, time = 11.74 | CG iter. 22 -- res = 0.77409E+05, tol = 0.57750E+04, time = 11.59 | CG iter. 23 -- res = 0.68058E+05, tol = 0.57750E+04, time = 11.24 | CG iter. 24 -- res = 0.57423E+05, tol = 0.57750E+04, time = 12.12 | CG iter. 25 -- res = 0.44400E+05, tol = 0.57750E+04, time = 11.49 | CG iter. 26 -- res = 0.34155E+05, tol = 0.57750E+04, time = 11.50 | CG iter. 27 -- res = 0.27455E+05, tol = 0.57750E+04, time = 12.97 | CG iter. 28 -- res = 0.23158E+05, tol = 0.57750E+04, time = 12.17 | CG iter. 29 -- res = 0.21225E+05, tol = 0.57750E+04, time = 11.62 | CG iter. 30 -- res = 0.20588E+05, tol = 0.57750E+04, time = 11.75 | CG iter. 31 -- res = 0.20329E+05, tol = 0.57750E+04, time = 11.93 | CG iter. 32 -- res = 0.18813E+05, tol = 0.57750E+04, time = 11.75 | CG iter. 33 -- res = 0.15692E+05, tol = 0.57750E+04, time = 11.59 | CG iter. 34 -- res = 0.12714E+05, tol = 0.57750E+04, time = 11.72 | CG iter. 35 -- res = 0.10303E+05, tol = 0.57750E+04, time = 11.89 | CG iter. 36 -- res = 0.89474E+04, tol = 0.57750E+04, time = 11.47 | CG iter. 37 -- res = 0.79937E+04, tol = 0.57750E+04, time = 11.45 | CG iter. 38 -- res = 0.72606E+04, tol = 0.57750E+04, time = 11.51 | CG iter. 39 -- res = 0.63040E+04, tol = 0.57750E+04, time = 11.58 | CG iter. 40 -- res = 0.52080E+04, tol = 0.57750E+04, time = 11.64 | CG iter. 41 -- res = 0.43844E+04, tol = 0.57750E+04, time = 11.70 | CG iter. 42 -- res = 0.37666E+04, tol = 0.57750E+04, time = 11.50 | CG iter. 43 -- res = 0.34583E+04, tol = 0.57750E+04, time = 11.38 | CG iter. 44 -- res = 0.32899E+04, tol = 0.57750E+04, time = 11.49 | CG iter. 45 -- res = 0.31511E+04, tol = 0.57750E+04, time = 17.90 | CG iter. 46 -- res = 0.29921E+04, tol = 0.57750E+04, time = 11.84 | CG iter. 47 -- res = 0.27058E+04, tol = 0.57750E+04, time = 11.65 | CG iter. 48 -- res = 0.22703E+04, tol = 0.57750E+04, time = 11.45 | CG iter. 49 -- res = 0.18974E+04, tol = 0.57750E+04, time = 11.67 | CG iter. 50 -- res = 0.16603E+04, tol = 0.57750E+04, time = 11.54 | CG iter. 51 -- res = 0.15151E+04, tol = 0.57750E+04, time = 11.59 | CG iter. 52 -- res = 0.14424E+04, tol = 0.57750E+04, time = 12.88 | CG iter. 53 -- res = 0.13442E+04, tol = 0.57750E+04, time = 12.21 | CG iter. 54 -- res = 0.11657E+04, tol = 0.57750E+04, time = 11.45 | CG iter. 55 -- res = 0.10085E+04, tol = 0.57750E+04, time = 11.66 | CG iter. 56 -- res = 0.89313E+03, tol = 0.57750E+04, time = 11.77 | CG iter. 57 -- res = 0.80827E+03, tol = 0.57750E+04, time = 11.42 | CG iter. 58 -- res = 0.77008E+03, tol = 0.57750E+04, time = 11.41 | CG iter. 59 -- res = 0.74625E+03, tol = 0.57750E+04, time = 11.59 | CG iter. 60 -- res = 0.69949E+03, tol = 0.57750E+04, time = 11.65 | Final CG iter 61 -- res = 0.69949E+03, tol = 0.57750E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.789 ( -229.725 -2230.552 2513.094 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8057788.901 | Old band monopole 10931319.333 | Change to band monopole -2873530.432 | Change to component monopole 2873518.072 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.721 2.753 | New value -0.056 | Old value 3.721 | Difference -3.777 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.133 ( 5.958 10.559 -10.933 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.019 4.375 | New value -9.811 | Old value -6.019 | Difference -3.792 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.95832E+06, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.92760E+02, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.35758E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.38368E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.77280E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8057754.243 | (Sampled value in CG: 8037902.298 ) | Chain = 1 -- chisq = 0.81514450E+09 | Chain = 1 -- wall time = 5583.935 sec Available RAM: MemAvailable: 393217564 kB Available Swap: SwapFree: 1122134480 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 234 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444048 | --> Sampling calibration, mode = relcal | relcal = 1.3427907E-02 7.4261939E-04 -1.5989228E-03 -1.2571603E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.2774682E-02 0.1061581 9408053.82629158 | BP delta = 9.2774682E-02 9.8268501E-02 9408082.83999254 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632432 | --> Sampling calibration, mode = relcal | relcal = -2.8207265E-03 -7.0388755E-04 1.6797382E-03 1.6123203E-03 -4.0831807E-04 6.4087368E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5790645 15220894.9094537 | BP delta = 0.0000000E+00 -0.5764588 15220898.8004241 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17964547535527 | --> Sampling calibration, mode = relcal | relcal = -7.4598916E-02 -5.8135122E-02 9.1349758E-02 4.1384276E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7191348E-04 3.7960147E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9793E-05 | 2: delta_r/delta_0: 1.6451E-06 | 3: delta_s/delta_0: 2.2190E-07 | 4: delta_r/delta_0: 1.4456E-08 | 5: delta_s/delta_0: 6.1689E-09 | 6: delta_r/delta_0: 1.4853E-09 | 7: delta_s/delta_0: 9.1751E-10 | 8: delta_r/delta_0: 7.2679E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.051215736112238E-003 2.744257786068720E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.9774E-05 | 2: delta_r/delta_0: 1.6447E-06 | 3: delta_s/delta_0: 2.2191E-07 | 4: delta_r/delta_0: 1.4454E-08 | 5: delta_s/delta_0: 6.1694E-09 | 6: delta_r/delta_0: 1.4856E-09 | 7: delta_s/delta_0: 9.1644E-10 | 8: delta_r/delta_0: 7.2678E-11 | Reached bicg-stab tolerance | BP delta = 4.0873528E-02 5.8464542E-02 3626757.05779349 | BP delta = 4.0873528E-02 5.8890820E-02 3621470.17763097 | BP chisq diff = -5286.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595598 | --> Sampling calibration, mode = relcal | relcal = -0.1066513 -9.5568337E-02 0.1449485 5.7271153E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5640695E-03 1.2387605E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.9039E-05 | 2: delta_r/delta_0: 2.0157E-06 | 3: delta_s/delta_0: 2.2653E-07 | 4: delta_r/delta_0: 3.9718E-08 | 5: delta_s/delta_0: 3.7338E-08 | 6: delta_r/delta_0: 7.0466E-09 | 7: delta_s/delta_0: 5.8778E-09 | 8: delta_r/delta_0: 1.8113E-09 | 9: delta_s/delta_0: 8.4060E-10 | 10: delta_r/delta_0: 6.2960E-10 | 11: delta_s/delta_0: 1.1762E-09 | 12: delta_r/delta_0: 1.1236E-10 | 13: delta_s/delta_0: 8.9473E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.037113424340689E-002 2.810956467125239E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.9038E-05 | 2: delta_r/delta_0: 2.0156E-06 | 3: delta_s/delta_0: 2.2651E-07 | 4: delta_r/delta_0: 3.9682E-08 | 5: delta_s/delta_0: 3.7385E-08 | 6: delta_r/delta_0: 7.0462E-09 | 7: delta_s/delta_0: 5.8822E-09 | 8: delta_r/delta_0: 1.8108E-09 | 9: delta_s/delta_0: 8.4032E-10 | 10: delta_r/delta_0: 6.2935E-10 | 11: delta_s/delta_0: 1.1760E-09 | 12: delta_r/delta_0: 1.1230E-10 | 13: delta_s/delta_0: 8.9378E-11 | Reached bicg-stab tolerance | BP delta = -0.2706486 -0.2497547 2841401.95458197 | BP delta = -0.2706486 -0.2463641 2841488.77294666 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224316 | --> Sampling calibration, mode = relcal | relcal = 0.2954089 0.2248481 -0.2837555 -0.2365015 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.5399666E-04 4.7971453E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6135E-04 | 2: delta_r/delta_0: 5.9203E-06 | 3: delta_s/delta_0: 8.4559E-03 | 4: delta_r/delta_0: 7.4652E-04 | 5: delta_s/delta_0: 5.2528E-07 | 6: delta_r/delta_0: 1.3449E-07 | 7: delta_s/delta_0: 6.3367E-08 | 8: delta_r/delta_0: 3.8261E-08 | 9: delta_s/delta_0: 2.2776E-07 | 10: delta_r/delta_0: 2.1374E-09 | 11: delta_s/delta_0: 7.4604E-10 | 12: delta_r/delta_0: 4.7704E-10 | 13: delta_s/delta_0: 2.9865E-10 | 14: delta_r/delta_0: 5.9561E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.598941977717313E-002 4.021576755236253E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6141E-04 | 2: delta_r/delta_0: 5.9214E-06 | 3: delta_s/delta_0: 8.4566E-03 | 4: delta_r/delta_0: 7.4650E-04 | 5: delta_s/delta_0: 5.2589E-07 | 6: delta_r/delta_0: 1.3463E-07 | 7: delta_s/delta_0: 6.3373E-08 | 8: delta_r/delta_0: 3.8283E-08 | 9: delta_s/delta_0: 2.2829E-07 | 10: delta_r/delta_0: 2.1363E-09 | 11: delta_s/delta_0: 7.4580E-10 | 12: delta_r/delta_0: 4.7729E-10 | 13: delta_s/delta_0: 2.9814E-10 | 14: delta_r/delta_0: 5.9580E-11 | Reached bicg-stab tolerance | BP delta = -3.1824596E-02 -4.5290079E-02 2827460.82802046 | BP delta = -3.1824596E-02 -5.4356799E-02 2827460.86115010 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95916924 | --> Sampling calibration, mode = relcal | relcal = 0.1064636 0.1395728 -0.1102078 -0.1358286 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.2028564E-03 1.3022047E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2107E-04 | 2: delta_r/delta_0: 8.0092E-06 | 3: delta_s/delta_0: 2.3712E-05 | 4: delta_r/delta_0: 1.8144E-06 | 5: delta_s/delta_0: 2.2648E-07 | 6: delta_r/delta_0: 1.2818E-07 | 7: delta_s/delta_0: 6.3588E-07 | 8: delta_r/delta_0: 2.9957E-08 | 9: delta_s/delta_0: 9.5879E-09 | 10: delta_r/delta_0: 4.1055E-09 | 11: delta_s/delta_0: 1.6941E-09 | 12: delta_r/delta_0: 7.3676E-10 | 13: delta_s/delta_0: 2.3931E-09 | 14: delta_r/delta_0: 8.0874E-10 | 15: delta_s/delta_0: 5.4864E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.076852975726895E-002 3.697166123047845E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2117E-04 | 2: delta_r/delta_0: 8.0113E-06 | 3: delta_s/delta_0: 2.3706E-05 | 4: delta_r/delta_0: 1.8138E-06 | 5: delta_s/delta_0: 2.2653E-07 | 6: delta_r/delta_0: 1.2821E-07 | 7: delta_s/delta_0: 6.3595E-07 | 8: delta_r/delta_0: 2.9961E-08 | 9: delta_s/delta_0: 9.5712E-09 | 10: delta_r/delta_0: 4.1184E-09 | 11: delta_s/delta_0: 1.6940E-09 | 12: delta_r/delta_0: 7.3614E-10 | 13: delta_s/delta_0: 2.4072E-09 | 14: delta_r/delta_0: 8.1045E-10 | 15: delta_s/delta_0: 5.4817E-11 | Reached bicg-stab tolerance | BP delta = 8.5326649E-02 0.1837043 3004095.38064246 | BP delta = 8.5326649E-02 0.1857018 3004437.90506431 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.077789 | New value = -3.197495 | poltype: 2 pol: 1 CPU time specind = 1.6425848E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.206811 | New value = -3.156651 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184653 | New value = -3.111500 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129630 | New value = -3.097921 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155860 | New value = -3.136560 | poltype: 2 pol: 2 CPU time specind = 4.5139790E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.43 | CG iter. 1 -- res = 0.13655E+08, tol = 0.85646E+01, time = 6.80 | CG iter. 2 -- res = 0.38590E+06, tol = 0.85646E+01, time = 6.16 | CG iter. 3 -- res = 0.10847E+06, tol = 0.85646E+01, time = 5.80 | CG iter. 4 -- res = 0.14356E+06, tol = 0.85646E+01, time = 5.33 | CG iter. 5 -- res = 0.16273E+06, tol = 0.85646E+01, time = 5.58 | CG iter. 6 -- res = 0.15320E+06, tol = 0.85646E+01, time = 5.60 | CG iter. 7 -- res = 0.12514E+06, tol = 0.85646E+01, time = 5.58 | CG iter. 8 -- res = 0.90333E+05, tol = 0.85646E+01, time = 5.42 | CG iter. 9 -- res = 0.73449E+05, tol = 0.85646E+01, time = 5.70 | CG iter. 10 -- res = 0.59637E+05, tol = 0.85646E+01, time = 5.53 | CG iter. 11 -- res = 0.43723E+05, tol = 0.85646E+01, time = 5.76 | CG iter. 12 -- res = 0.34043E+05, tol = 0.85646E+01, time = 5.44 | CG iter. 13 -- res = 0.29004E+05, tol = 0.85646E+01, time = 5.29 | CG iter. 14 -- res = 0.25570E+05, tol = 0.85646E+01, time = 5.72 | CG iter. 15 -- res = 0.19767E+05, tol = 0.85646E+01, time = 5.58 | CG iter. 16 -- res = 0.13889E+05, tol = 0.85646E+01, time = 5.51 | CG iter. 17 -- res = 0.10835E+05, tol = 0.85646E+01, time = 5.88 | CG iter. 18 -- res = 0.94815E+04, tol = 0.85646E+01, time = 5.57 | CG iter. 19 -- res = 0.82291E+04, tol = 0.85646E+01, time = 5.92 | CG iter. 20 -- res = 0.65493E+04, tol = 0.85646E+01, time = 6.13 | CG iter. 21 -- res = 0.49600E+04, tol = 0.85646E+01, time = 5.40 | CG iter. 22 -- res = 0.41916E+04, tol = 0.85646E+01, time = 5.68 | CG iter. 23 -- res = 0.36040E+04, tol = 0.85646E+01, time = 5.58 | CG iter. 24 -- res = 0.29420E+04, tol = 0.85646E+01, time = 5.31 | CG iter. 25 -- res = 0.22434E+04, tol = 0.85646E+01, time = 5.64 | CG iter. 26 -- res = 0.18860E+04, tol = 0.85646E+01, time = 5.53 | CG iter. 27 -- res = 0.17174E+04, tol = 0.85646E+01, time = 5.39 | CG iter. 28 -- res = 0.14940E+04, tol = 0.85646E+01, time = 5.66 | CG iter. 29 -- res = 0.11876E+04, tol = 0.85646E+01, time = 4.96 | CG iter. 30 -- res = 0.99162E+03, tol = 0.85646E+01, time = 5.44 | CG iter. 31 -- res = 0.87376E+03, tol = 0.85646E+01, time = 5.60 | CG iter. 32 -- res = 0.78196E+03, tol = 0.85646E+01, time = 5.21 | CG iter. 33 -- res = 0.64462E+03, tol = 0.85646E+01, time = 5.31 | CG iter. 34 -- res = 0.52076E+03, tol = 0.85646E+01, time = 5.40 | CG iter. 35 -- res = 0.45738E+03, tol = 0.85646E+01, time = 5.32 | CG iter. 36 -- res = 0.42502E+03, tol = 0.85646E+01, time = 5.51 | CG iter. 37 -- res = 0.34777E+03, tol = 0.85646E+01, time = 5.69 | CG iter. 38 -- res = 0.27578E+03, tol = 0.85646E+01, time = 11.63 | CG iter. 39 -- res = 0.23379E+03, tol = 0.85646E+01, time = 5.74 | CG iter. 40 -- res = 0.21231E+03, tol = 0.85646E+01, time = 5.74 | CG iter. 41 -- res = 0.18294E+03, tol = 0.85646E+01, time = 5.91 | CG iter. 42 -- res = 0.14607E+03, tol = 0.85646E+01, time = 5.67 | CG iter. 43 -- res = 0.12292E+03, tol = 0.85646E+01, time = 5.41 | CG iter. 44 -- res = 0.10330E+03, tol = 0.85646E+01, time = 5.50 | CG iter. 45 -- res = 0.88204E+02, tol = 0.85646E+01, time = 5.68 | CG iter. 46 -- res = 0.69807E+02, tol = 0.85646E+01, time = 5.47 | CG iter. 47 -- res = 0.55832E+02, tol = 0.85646E+01, time = 5.61 | CG iter. 48 -- res = 0.47339E+02, tol = 0.85646E+01, time = 5.62 | CG iter. 49 -- res = 0.40424E+02, tol = 0.85646E+01, time = 5.64 | CG iter. 50 -- res = 0.33090E+02, tol = 0.85646E+01, time = 5.71 | Final CG iter 51 -- res = 0.33090E+02, tol = 0.85646E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9168605.074 | Old band monopole 8057788.901 | Change to band monopole 1110816.173 | Change to component monopole -1110811.395 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.12851E+07, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.54996E+03, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.42365E+01, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.68159E-01, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.59102E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9168565.638 | (Sampled value in CG: 9061203.436 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.515079 | New value = 1.515547 | poltype: 2 pol: 1 CPU time specind = 8.9960098E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.494136 | New value = 1.492663 | poltype: 2 pol: 2 CPU time specind = 3.8349628E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.24006E+08, tol = 0.47592E+04, time = 6.15 | CG iter. 2 -- res = 0.53210E+07, tol = 0.47592E+04, time = 6.20 | CG iter. 3 -- res = 0.83997E+06, tol = 0.47592E+04, time = 6.35 | CG iter. 4 -- res = 0.34660E+06, tol = 0.47592E+04, time = 6.02 | CG iter. 5 -- res = 0.15396E+06, tol = 0.47592E+04, time = 6.31 | CG iter. 6 -- res = 0.80457E+05, tol = 0.47592E+04, time = 6.06 | CG iter. 7 -- res = 0.43868E+05, tol = 0.47592E+04, time = 6.31 | CG iter. 8 -- res = 0.21089E+05, tol = 0.47592E+04, time = 6.41 | CG iter. 9 -- res = 0.91216E+04, tol = 0.47592E+04, time = 6.48 | CG iter. 10 -- res = 0.37307E+04, tol = 0.47592E+04, time = 6.55 | CG iter. 11 -- res = 0.16718E+04, tol = 0.47592E+04, time = 5.92 | CG iter. 12 -- res = 0.85975E+03, tol = 0.47592E+04, time = 6.34 | CG iter. 13 -- res = 0.48337E+03, tol = 0.47592E+04, time = 6.24 | CG iter. 14 -- res = 0.27391E+03, tol = 0.47592E+04, time = 6.07 | CG iter. 15 -- res = 0.13974E+03, tol = 0.47592E+04, time = 6.26 | CG iter. 16 -- res = 0.65691E+02, tol = 0.47592E+04, time = 6.68 | CG iter. 17 -- res = 0.30820E+02, tol = 0.47592E+04, time = 5.96 | CG iter. 18 -- res = 0.15692E+02, tol = 0.47592E+04, time = 6.74 | CG iter. 19 -- res = 0.86129E+01, tol = 0.47592E+04, time = 11.94 | CG iter. 20 -- res = 0.49638E+01, tol = 0.47592E+04, time = 6.14 | CG iter. 21 -- res = 0.27331E+01, tol = 0.47592E+04, time = 5.95 | CG iter. 22 -- res = 0.14133E+01, tol = 0.47592E+04, time = 6.21 | CG iter. 23 -- res = 0.69746E+00, tol = 0.47592E+04, time = 6.23 | CG iter. 24 -- res = 0.34974E+00, tol = 0.47592E+04, time = 6.04 | CG iter. 25 -- res = 0.19166E+00, tol = 0.47592E+04, time = 6.35 | CG iter. 26 -- res = 0.10937E+00, tol = 0.47592E+04, time = 6.11 | CG iter. 27 -- res = 0.62928E-01, tol = 0.47592E+04, time = 6.43 | CG iter. 28 -- res = 0.33592E-01, tol = 0.47592E+04, time = 6.04 | CG iter. 29 -- res = 0.17263E-01, tol = 0.47592E+04, time = 6.49 | CG iter. 30 -- res = 0.91458E-02, tol = 0.47592E+04, time = 6.56 | CG iter. 31 -- res = 0.51295E-02, tol = 0.47592E+04, time = 6.18 | CG iter. 32 -- res = 0.28979E-02, tol = 0.47592E+04, time = 6.81 | CG iter. 33 -- res = 0.16418E-02, tol = 0.47592E+04, time = 7.37 | CG iter. 34 -- res = 0.89976E-03, tol = 0.47592E+04, time = 6.51 | CG iter. 35 -- res = 0.46837E-03, tol = 0.47592E+04, time = 6.17 | Final CG iter 36 -- res = 0.46837E-03, tol = 0.47592E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.094 2.734 | New value 0.004 | Old value -0.094 | Difference 0.098 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.12396E+05, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.17734E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.51164E+00, tol = 0.47627E+18, time = 1.94 | Final CG iter 4 -- res = 0.77857E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9168565.638 | (Sampled value in CG: 9063989.914 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.628070 | New value = -3.571934 | poltype: 1 pol: 1 CPU time specind = 8.8241100E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.49054E+07, tol = 0.27815E+01, time = 3.05 | CG iter. 2 -- res = 0.23313E+07, tol = 0.27815E+01, time = 3.90 | CG iter. 3 -- res = 0.52914E+06, tol = 0.27815E+01, time = 2.63 | CG iter. 4 -- res = 0.25453E+06, tol = 0.27815E+01, time = 2.56 | CG iter. 5 -- res = 0.15134E+06, tol = 0.27815E+01, time = 2.62 | CG iter. 6 -- res = 0.66227E+05, tol = 0.27815E+01, time = 2.68 | CG iter. 7 -- res = 0.19753E+05, tol = 0.27815E+01, time = 2.54 | CG iter. 8 -- res = 0.85923E+04, tol = 0.27815E+01, time = 2.78 | CG iter. 9 -- res = 0.42297E+04, tol = 0.27815E+01, time = 2.67 | CG iter. 10 -- res = 0.16742E+04, tol = 0.27815E+01, time = 2.84 | CG iter. 11 -- res = 0.66578E+03, tol = 0.27815E+01, time = 2.86 | CG iter. 12 -- res = 0.32697E+03, tol = 0.27815E+01, time = 2.60 | CG iter. 13 -- res = 0.16643E+03, tol = 0.27815E+01, time = 2.23 | CG iter. 14 -- res = 0.83496E+02, tol = 0.27815E+01, time = 2.82 | CG iter. 15 -- res = 0.37361E+02, tol = 0.27815E+01, time = 2.86 | CG iter. 16 -- res = 0.16578E+02, tol = 0.27815E+01, time = 2.76 | CG iter. 17 -- res = 0.71342E+01, tol = 0.27815E+01, time = 2.43 | CG iter. 18 -- res = 0.33680E+01, tol = 0.27815E+01, time = 2.59 | CG iter. 19 -- res = 0.16034E+01, tol = 0.27815E+01, time = 2.55 | CG iter. 20 -- res = 0.80735E+00, tol = 0.27815E+01, time = 2.73 | CG iter. 21 -- res = 0.37646E+00, tol = 0.27815E+01, time = 2.59 | CG iter. 22 -- res = 0.16795E+00, tol = 0.27815E+01, time = 2.70 | CG iter. 23 -- res = 0.76061E-01, tol = 0.27815E+01, time = 2.60 | CG iter. 24 -- res = 0.36015E-01, tol = 0.27815E+01, time = 2.67 | CG iter. 25 -- res = 0.16925E-01, tol = 0.27815E+01, time = 2.88 | CG iter. 26 -- res = 0.82779E-02, tol = 0.27815E+01, time = 2.57 | CG iter. 27 -- res = 0.42208E-02, tol = 0.27815E+01, time = 2.60 | CG iter. 28 -- res = 0.20942E-02, tol = 0.27815E+01, time = 2.76 | CG iter. 29 -- res = 0.92208E-03, tol = 0.27815E+01, time = 2.60 | CG iter. 30 -- res = 0.45453E-03, tol = 0.27815E+01, time = 2.53 | CG iter. 31 -- res = 0.21419E-03, tol = 0.27815E+01, time = 2.80 | CG iter. 32 -- res = 0.10491E-03, tol = 0.27815E+01, time = 2.57 | CG iter. 33 -- res = 0.52760E-04, tol = 0.27815E+01, time = 2.30 | CG iter. 34 -- res = 0.25522E-04, tol = 0.27815E+01, time = 3.03 | CG iter. 35 -- res = 0.12912E-04, tol = 0.27815E+01, time = 2.53 | CG iter. 36 -- res = 0.61608E-05, tol = 0.27815E+01, time = 2.62 | CG iter. 37 -- res = 0.27940E-05, tol = 0.27815E+01, time = 2.85 | CG iter. 38 -- res = 0.13847E-05, tol = 0.27815E+01, time = 2.74 | CG iter. 39 -- res = 0.68365E-06, tol = 0.27815E+01, time = 2.42 | CG iter. 40 -- res = 0.34584E-06, tol = 0.27815E+01, time = 2.63 | CG iter. 41 -- res = 0.16590E-06, tol = 0.27815E+01, time = 2.55 | CG iter. 42 -- res = 0.78158E-07, tol = 0.27815E+01, time = 2.43 | CG iter. 43 -- res = 0.34993E-07, tol = 0.27815E+01, time = 2.71 | CG iter. 44 -- res = 0.16679E-07, tol = 0.27815E+01, time = 2.40 | CG iter. 45 -- res = 0.79937E-08, tol = 0.27815E+01, time = 2.78 | CG iter. 46 -- res = 0.40703E-08, tol = 0.27815E+01, time = 2.50 | CG iter. 47 -- res = 0.20726E-08, tol = 0.27815E+01, time = 2.56 | CG iter. 48 -- res = 0.94532E-09, tol = 0.27815E+01, time = 2.54 | CG iter. 49 -- res = 0.44708E-09, tol = 0.27815E+01, time = 2.54 | CG iter. 50 -- res = 0.20149E-09, tol = 0.27815E+01, time = 3.02 | Final CG iter 51 -- res = 0.20149E-09, tol = 0.27815E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -19.090 6.301 | New value 2.204 | Old value -19.090 | Difference 21.294 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.46160E+06, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.21990E+03, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.41453E+01, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.30036E-01, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.71804E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9168565.638 | (Sampled value in CG: 9095798.549 ) | CPU time specind = 1144.012 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.68338E+08, tol = 0.57673E+04, time = 11.56 | CG iter. 2 -- res = 0.58334E+08, tol = 0.57673E+04, time = 11.58 | CG iter. 3 -- res = 0.15296E+08, tol = 0.57673E+04, time = 11.44 | CG iter. 4 -- res = 0.66099E+07, tol = 0.57673E+04, time = 11.46 | CG iter. 5 -- res = 0.39030E+07, tol = 0.57673E+04, time = 11.86 | CG iter. 6 -- res = 0.22360E+07, tol = 0.57673E+04, time = 11.21 | CG iter. 7 -- res = 0.13246E+07, tol = 0.57673E+04, time = 13.01 | CG iter. 8 -- res = 0.88933E+06, tol = 0.57673E+04, time = 12.21 | CG iter. 9 -- res = 0.59465E+06, tol = 0.57673E+04, time = 11.42 | CG iter. 10 -- res = 0.36631E+06, tol = 0.57673E+04, time = 11.29 | CG iter. 11 -- res = 0.21222E+06, tol = 0.57673E+04, time = 11.73 | CG iter. 12 -- res = 0.12632E+06, tol = 0.57673E+04, time = 11.72 | CG iter. 13 -- res = 0.84448E+05, tol = 0.57673E+04, time = 11.52 | CG iter. 14 -- res = 0.66794E+05, tol = 0.57673E+04, time = 11.21 | CG iter. 15 -- res = 0.61972E+05, tol = 0.57673E+04, time = 11.07 | CG iter. 16 -- res = 0.61947E+05, tol = 0.57673E+04, time = 12.39 | CG iter. 17 -- res = 0.62816E+05, tol = 0.57673E+04, time = 11.21 | CG iter. 18 -- res = 0.60155E+05, tol = 0.57673E+04, time = 11.56 | CG iter. 19 -- res = 0.54803E+05, tol = 0.57673E+04, time = 11.33 | CG iter. 20 -- res = 0.49766E+05, tol = 0.57673E+04, time = 10.76 | CG iter. 21 -- res = 0.46558E+05, tol = 0.57673E+04, time = 11.67 | CG iter. 22 -- res = 0.45302E+05, tol = 0.57673E+04, time = 11.62 | CG iter. 23 -- res = 0.42471E+05, tol = 0.57673E+04, time = 11.47 | CG iter. 24 -- res = 0.36512E+05, tol = 0.57673E+04, time = 11.01 | CG iter. 25 -- res = 0.28403E+05, tol = 0.57673E+04, time = 17.23 | CG iter. 26 -- res = 0.20858E+05, tol = 0.57673E+04, time = 11.81 | CG iter. 27 -- res = 0.15403E+05, tol = 0.57673E+04, time = 11.07 | CG iter. 28 -- res = 0.11892E+05, tol = 0.57673E+04, time = 11.14 | CG iter. 29 -- res = 0.10450E+05, tol = 0.57673E+04, time = 11.46 | CG iter. 30 -- res = 0.98267E+04, tol = 0.57673E+04, time = 11.29 | CG iter. 31 -- res = 0.90276E+04, tol = 0.57673E+04, time = 11.54 | CG iter. 32 -- res = 0.81381E+04, tol = 0.57673E+04, time = 12.42 | CG iter. 33 -- res = 0.70839E+04, tol = 0.57673E+04, time = 12.05 | CG iter. 34 -- res = 0.60497E+04, tol = 0.57673E+04, time = 11.50 | CG iter. 35 -- res = 0.51775E+04, tol = 0.57673E+04, time = 11.08 | CG iter. 36 -- res = 0.46404E+04, tol = 0.57673E+04, time = 11.16 | CG iter. 37 -- res = 0.42550E+04, tol = 0.57673E+04, time = 11.04 | CG iter. 38 -- res = 0.38308E+04, tol = 0.57673E+04, time = 11.15 | CG iter. 39 -- res = 0.34117E+04, tol = 0.57673E+04, time = 11.30 | CG iter. 40 -- res = 0.28002E+04, tol = 0.57673E+04, time = 11.65 | CG iter. 41 -- res = 0.22301E+04, tol = 0.57673E+04, time = 11.40 | CG iter. 42 -- res = 0.18213E+04, tol = 0.57673E+04, time = 11.34 | CG iter. 43 -- res = 0.16244E+04, tol = 0.57673E+04, time = 11.09 | CG iter. 44 -- res = 0.15396E+04, tol = 0.57673E+04, time = 11.63 | CG iter. 45 -- res = 0.14800E+04, tol = 0.57673E+04, time = 11.23 | CG iter. 46 -- res = 0.13725E+04, tol = 0.57673E+04, time = 10.94 | CG iter. 47 -- res = 0.11981E+04, tol = 0.57673E+04, time = 11.11 | CG iter. 48 -- res = 0.10216E+04, tol = 0.57673E+04, time = 11.00 | CG iter. 49 -- res = 0.88056E+03, tol = 0.57673E+04, time = 11.20 | CG iter. 50 -- res = 0.79405E+03, tol = 0.57673E+04, time = 11.62 | CG iter. 51 -- res = 0.75340E+03, tol = 0.57673E+04, time = 17.11 | CG iter. 52 -- res = 0.70823E+03, tol = 0.57673E+04, time = 11.67 | CG iter. 53 -- res = 0.63897E+03, tol = 0.57673E+04, time = 11.07 | CG iter. 54 -- res = 0.54956E+03, tol = 0.57673E+04, time = 11.41 | CG iter. 55 -- res = 0.46719E+03, tol = 0.57673E+04, time = 11.70 | CG iter. 56 -- res = 0.40238E+03, tol = 0.57673E+04, time = 11.25 | CG iter. 57 -- res = 0.36033E+03, tol = 0.57673E+04, time = 11.18 | CG iter. 58 -- res = 0.33989E+03, tol = 0.57673E+04, time = 12.99 | CG iter. 59 -- res = 0.32753E+03, tol = 0.57673E+04, time = 12.32 | CG iter. 60 -- res = 0.31614E+03, tol = 0.57673E+04, time = 11.17 | Final CG iter 61 -- res = 0.31614E+03, tol = 0.57673E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.832 ( -230.056 -2231.460 2513.973 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8599701.063 | Old band monopole 9168605.074 | Change to band monopole -568904.011 | Change to component monopole 568901.564 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.002 2.747 | New value 0.012 | Old value 0.002 | Difference 0.010 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.483 ( 7.797 13.065 -12.404 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.595 4.358 | New value -5.436 | Old value 13.595 | Difference -19.031 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.13765E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.66358E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.27057E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.44462E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.12995E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8599664.074 | (Sampled value in CG: 8574355.167 ) | Chain = 1 -- chisq = 0.81552411E+09 | Chain = 1 -- wall time = 5931.686 sec Available RAM: MemAvailable: 393954820 kB Available Swap: SwapFree: 1121996132 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 235 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442311 | --> Sampling calibration, mode = relcal | relcal = 1.3430942E-02 7.4541464E-04 -1.6072489E-03 -1.2569108E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.2774682E-02 0.1061581 97037036.8310591 | BP delta = 0.1043504 0.1177338 97037033.6143257 | BP chisq diff = -3.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632457 | --> Sampling calibration, mode = relcal | relcal = -2.8211209E-03 -7.0387364E-04 1.6782297E-03 1.6139824E-03 -4.0775893E-04 6.4054137E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5790645 15219605.2465045 | BP delta = 0.0000000E+00 -0.5771866 15219607.4996410 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18045590200041 | --> Sampling calibration, mode = relcal | relcal = -7.5124353E-02 -5.8490250E-02 9.1958284E-02 4.1656312E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4995855E-04 4.6736444E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0797E-05 | 2: delta_r/delta_0: 8.8022E-07 | 3: delta_s/delta_0: 2.2146E-07 | 4: delta_r/delta_0: 1.7482E-08 | 5: delta_s/delta_0: 1.1586E-08 | 6: delta_r/delta_0: 1.0160E-09 | 7: delta_s/delta_0: 2.0805E-10 | 8: delta_r/delta_0: 8.7112E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.384164573035299E-004 2.742279739955131E-005 | BP delta = 4.0873528E-02 5.8890820E-02 50482024.7569646 | BP delta = 4.2773765E-02 6.0791057E-02 50482024.5409397 | BP chisq diff = -0.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02605162 | --> Sampling calibration, mode = relcal | relcal = -0.1066513 -9.5502600E-02 0.1448850 5.7268888E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3067788E-03 1.7806474E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.8727E-05 | 2: delta_r/delta_0: 1.8312E-06 | 3: delta_s/delta_0: 2.2826E-07 | 4: delta_r/delta_0: 5.1297E-08 | 5: delta_s/delta_0: 3.1010E-08 | 6: delta_r/delta_0: 8.0590E-09 | 7: delta_s/delta_0: 9.9993E-09 | 8: delta_r/delta_0: 1.6256E-09 | 9: delta_s/delta_0: 9.8782E-10 | 10: delta_r/delta_0: 1.1516E-10 | 11: delta_s/delta_0: 2.7928E-10 | 12: delta_r/delta_0: 2.6905E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.036696669280638E-002 2.810672102493220E-005 | BP delta = -0.2706486 -0.2497547 57391834.6254514 | BP delta = -0.2764758 -0.2555818 57391833.9541836 | BP chisq diff = -0.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81235570 | --> Sampling calibration, mode = relcal | relcal = 0.2955007 0.2247726 -0.2837343 -0.2365389 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0800520E-04 4.8043025E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2853E-04 | 2: delta_r/delta_0: 5.2368E-06 | 3: delta_s/delta_0: 1.4016E-02 | 4: delta_r/delta_0: 1.4204E-03 | 5: delta_s/delta_0: 2.3393E-07 | 6: delta_r/delta_0: 9.2417E-08 | 7: delta_s/delta_0: 6.7742E-08 | 8: delta_r/delta_0: 4.7102E-08 | 9: delta_s/delta_0: 1.7720E-07 | 10: delta_r/delta_0: 2.2291E-09 | 11: delta_s/delta_0: 8.3781E-10 | 12: delta_r/delta_0: 5.2939E-10 | 13: delta_s/delta_0: 1.7907E-10 | 14: delta_r/delta_0: 5.1424E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.688233466129537E-002 4.020917142165588E-005 | BP delta = -3.1824596E-02 -5.4356799E-02 72485797.1796575 | BP delta = -9.9528894E-02 -0.1220611 72485793.8042186 | BP chisq diff = -3.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95929255 | --> Sampling calibration, mode = relcal | relcal = 0.1064580 0.1396592 -0.1102946 -0.1358227 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9802855E-03 1.2114461E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6405E-04 | 2: delta_r/delta_0: 1.1395E-05 | 3: delta_s/delta_0: 1.2183E-04 | 4: delta_r/delta_0: 6.1901E-06 | 5: delta_s/delta_0: 2.6558E-07 | 6: delta_r/delta_0: 1.3299E-07 | 7: delta_s/delta_0: 5.7705E-07 | 8: delta_r/delta_0: 3.4123E-08 | 9: delta_s/delta_0: 9.9233E-09 | 10: delta_r/delta_0: 4.2307E-09 | 11: delta_s/delta_0: 1.8374E-09 | 12: delta_r/delta_0: 8.1187E-10 | 13: delta_s/delta_0: 2.0461E-08 | 14: delta_r/delta_0: 1.5956E-09 | 15: delta_s/delta_0: 5.3044E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.216631487803189E-002 3.696692372443199E-005 | BP delta = 8.5326649E-02 0.1837043 72789669.9232852 | BP delta = 8.1098139E-02 0.1794758 72789670.0440606 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197495 | New value = -3.145669 | poltype: 2 pol: 1 CPU time specind = 8.7292194E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156651 | New value = -3.076466 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111500 | New value = -3.197222 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.097921 | New value = -3.115867 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136560 | New value = -3.131472 | poltype: 2 pol: 2 CPU time specind = 3.8635015E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.13575E+08, tol = 0.80887E+01, time = 5.66 | CG iter. 2 -- res = 0.31979E+06, tol = 0.80887E+01, time = 5.34 | CG iter. 3 -- res = 0.55522E+05, tol = 0.80887E+01, time = 5.90 | CG iter. 4 -- res = 0.36993E+05, tol = 0.80887E+01, time = 5.94 | CG iter. 5 -- res = 0.28532E+05, tol = 0.80887E+01, time = 5.64 | CG iter. 6 -- res = 0.25873E+05, tol = 0.80887E+01, time = 5.14 | CG iter. 7 -- res = 0.26061E+05, tol = 0.80887E+01, time = 5.55 | CG iter. 8 -- res = 0.22135E+05, tol = 0.80887E+01, time = 5.62 | CG iter. 9 -- res = 0.19248E+05, tol = 0.80887E+01, time = 5.52 | CG iter. 10 -- res = 0.16289E+05, tol = 0.80887E+01, time = 5.39 | CG iter. 11 -- res = 0.11490E+05, tol = 0.80887E+01, time = 5.75 | CG iter. 12 -- res = 0.76859E+04, tol = 0.80887E+01, time = 5.26 | CG iter. 13 -- res = 0.58259E+04, tol = 0.80887E+01, time = 5.45 | CG iter. 14 -- res = 0.50629E+04, tol = 0.80887E+01, time = 5.78 | CG iter. 15 -- res = 0.45698E+04, tol = 0.80887E+01, time = 5.63 | CG iter. 16 -- res = 0.32487E+04, tol = 0.80887E+01, time = 5.53 | CG iter. 17 -- res = 0.22760E+04, tol = 0.80887E+01, time = 11.85 | CG iter. 18 -- res = 0.18036E+04, tol = 0.80887E+01, time = 5.39 | CG iter. 19 -- res = 0.15189E+04, tol = 0.80887E+01, time = 5.40 | CG iter. 20 -- res = 0.12190E+04, tol = 0.80887E+01, time = 5.46 | CG iter. 21 -- res = 0.91818E+03, tol = 0.80887E+01, time = 5.61 | CG iter. 22 -- res = 0.74789E+03, tol = 0.80887E+01, time = 5.46 | CG iter. 23 -- res = 0.64017E+03, tol = 0.80887E+01, time = 5.16 | CG iter. 24 -- res = 0.51029E+03, tol = 0.80887E+01, time = 5.55 | CG iter. 25 -- res = 0.37464E+03, tol = 0.80887E+01, time = 5.44 | CG iter. 26 -- res = 0.29124E+03, tol = 0.80887E+01, time = 5.46 | CG iter. 27 -- res = 0.25500E+03, tol = 0.80887E+01, time = 5.63 | CG iter. 28 -- res = 0.22123E+03, tol = 0.80887E+01, time = 5.54 | CG iter. 29 -- res = 0.17801E+03, tol = 0.80887E+01, time = 5.58 | CG iter. 30 -- res = 0.14108E+03, tol = 0.80887E+01, time = 5.47 | CG iter. 31 -- res = 0.12140E+03, tol = 0.80887E+01, time = 5.34 | CG iter. 32 -- res = 0.10849E+03, tol = 0.80887E+01, time = 5.81 | CG iter. 33 -- res = 0.86958E+02, tol = 0.80887E+01, time = 6.66 | CG iter. 34 -- res = 0.66348E+02, tol = 0.80887E+01, time = 6.08 | CG iter. 35 -- res = 0.55297E+02, tol = 0.80887E+01, time = 5.87 | CG iter. 36 -- res = 0.49658E+02, tol = 0.80887E+01, time = 5.47 | CG iter. 37 -- res = 0.42551E+02, tol = 0.80887E+01, time = 5.49 | CG iter. 38 -- res = 0.32143E+02, tol = 0.80887E+01, time = 5.70 | CG iter. 39 -- res = 0.25945E+02, tol = 0.80887E+01, time = 5.29 | CG iter. 40 -- res = 0.22743E+02, tol = 0.80887E+01, time = 5.34 | CG iter. 41 -- res = 0.18582E+02, tol = 0.80887E+01, time = 5.86 | CG iter. 42 -- res = 0.14380E+02, tol = 0.80887E+01, time = 5.11 | CG iter. 43 -- res = 0.11219E+02, tol = 0.80887E+01, time = 5.50 | CG iter. 44 -- res = 0.94308E+01, tol = 0.80887E+01, time = 5.54 | CG iter. 45 -- res = 0.78514E+01, tol = 0.80887E+01, time = 5.61 | CG iter. 46 -- res = 0.60279E+01, tol = 0.80887E+01, time = 5.85 | CG iter. 47 -- res = 0.46122E+01, tol = 0.80887E+01, time = 5.16 | CG iter. 48 -- res = 0.37004E+01, tol = 0.80887E+01, time = 5.42 | CG iter. 49 -- res = 0.30174E+01, tol = 0.80887E+01, time = 5.26 | CG iter. 50 -- res = 0.24240E+01, tol = 0.80887E+01, time = 5.47 | Final CG iter 51 -- res = 0.24240E+01, tol = 0.80887E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6478590.449 | Old band monopole 8599701.063 | Change to band monopole -2121110.614 | Change to component monopole 2121101.491 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.38738E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.14658E+03, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.30408E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.13539E-01, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.11795E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6478562.583 | (Sampled value in CG: 6523326.161 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.515547 | New value = 1.473725 | poltype: 2 pol: 1 CPU time specind = 1.6088963E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492663 | New value = 1.499634 | poltype: 2 pol: 2 CPU time specind = 5.8898926E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.24377E+08, tol = 0.47511E+04, time = 6.29 | CG iter. 2 -- res = 0.53697E+07, tol = 0.47511E+04, time = 6.09 | CG iter. 3 -- res = 0.84109E+06, tol = 0.47511E+04, time = 6.25 | CG iter. 4 -- res = 0.35328E+06, tol = 0.47511E+04, time = 6.08 | CG iter. 5 -- res = 0.15303E+06, tol = 0.47511E+04, time = 6.35 | CG iter. 6 -- res = 0.80209E+05, tol = 0.47511E+04, time = 5.93 | CG iter. 7 -- res = 0.43826E+05, tol = 0.47511E+04, time = 6.28 | CG iter. 8 -- res = 0.21151E+05, tol = 0.47511E+04, time = 6.32 | CG iter. 9 -- res = 0.93304E+04, tol = 0.47511E+04, time = 6.32 | CG iter. 10 -- res = 0.38246E+04, tol = 0.47511E+04, time = 6.15 | CG iter. 11 -- res = 0.17339E+04, tol = 0.47511E+04, time = 6.31 | CG iter. 12 -- res = 0.88889E+03, tol = 0.47511E+04, time = 6.23 | CG iter. 13 -- res = 0.49431E+03, tol = 0.47511E+04, time = 7.01 | CG iter. 14 -- res = 0.28148E+03, tol = 0.47511E+04, time = 7.66 | CG iter. 15 -- res = 0.14255E+03, tol = 0.47511E+04, time = 6.46 | CG iter. 16 -- res = 0.66028E+02, tol = 0.47511E+04, time = 6.40 | CG iter. 17 -- res = 0.30380E+02, tol = 0.47511E+04, time = 6.31 | CG iter. 18 -- res = 0.15134E+02, tol = 0.47511E+04, time = 6.15 | CG iter. 19 -- res = 0.83001E+01, tol = 0.47511E+04, time = 6.28 | CG iter. 20 -- res = 0.46831E+01, tol = 0.47511E+04, time = 6.34 | CG iter. 21 -- res = 0.26041E+01, tol = 0.47511E+04, time = 6.62 | CG iter. 22 -- res = 0.13569E+01, tol = 0.47511E+04, time = 6.15 | CG iter. 23 -- res = 0.66685E+00, tol = 0.47511E+04, time = 6.62 | CG iter. 24 -- res = 0.34619E+00, tol = 0.47511E+04, time = 6.27 | CG iter. 25 -- res = 0.19060E+00, tol = 0.47511E+04, time = 6.21 | CG iter. 26 -- res = 0.10961E+00, tol = 0.47511E+04, time = 6.46 | CG iter. 27 -- res = 0.63427E-01, tol = 0.47511E+04, time = 6.31 | CG iter. 28 -- res = 0.34297E-01, tol = 0.47511E+04, time = 6.31 | CG iter. 29 -- res = 0.17972E-01, tol = 0.47511E+04, time = 6.50 | CG iter. 30 -- res = 0.93161E-02, tol = 0.47511E+04, time = 7.07 | CG iter. 31 -- res = 0.50797E-02, tol = 0.47511E+04, time = 6.16 | CG iter. 32 -- res = 0.28770E-02, tol = 0.47511E+04, time = 6.39 | CG iter. 33 -- res = 0.16298E-02, tol = 0.47511E+04, time = 6.37 | CG iter. 34 -- res = 0.87344E-03, tol = 0.47511E+04, time = 6.24 | CG iter. 35 -- res = 0.44650E-03, tol = 0.47511E+04, time = 6.46 | Final CG iter 36 -- res = 0.44650E-03, tol = 0.47511E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.009 2.715 | New value 2.050 | Old value 0.009 | Difference 2.041 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.22210E+06, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.38957E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.12213E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.14864E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.30224E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6478562.583 | (Sampled value in CG: 6523674.731 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.571934 | New value = -3.773258 | poltype: 1 pol: 1 CPU time specind = 1.4001131E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.23223E+07, tol = 0.25531E+01, time = 2.58 | CG iter. 2 -- res = 0.71877E+06, tol = 0.25531E+01, time = 2.57 | CG iter. 3 -- res = 0.14593E+06, tol = 0.25531E+01, time = 2.49 | CG iter. 4 -- res = 0.69953E+05, tol = 0.25531E+01, time = 2.44 | CG iter. 5 -- res = 0.46167E+05, tol = 0.25531E+01, time = 2.74 | CG iter. 6 -- res = 0.22478E+05, tol = 0.25531E+01, time = 2.64 | CG iter. 7 -- res = 0.74046E+04, tol = 0.25531E+01, time = 2.70 | CG iter. 8 -- res = 0.29897E+04, tol = 0.25531E+01, time = 2.81 | CG iter. 9 -- res = 0.12547E+04, tol = 0.25531E+01, time = 2.45 | CG iter. 10 -- res = 0.53269E+03, tol = 0.25531E+01, time = 2.50 | CG iter. 11 -- res = 0.24824E+03, tol = 0.25531E+01, time = 2.53 | CG iter. 12 -- res = 0.13202E+03, tol = 0.25531E+01, time = 2.84 | CG iter. 13 -- res = 0.62542E+02, tol = 0.25531E+01, time = 2.78 | CG iter. 14 -- res = 0.27799E+02, tol = 0.25531E+01, time = 2.69 | CG iter. 15 -- res = 0.11442E+02, tol = 0.25531E+01, time = 2.81 | CG iter. 16 -- res = 0.50182E+01, tol = 0.25531E+01, time = 2.48 | CG iter. 17 -- res = 0.22604E+01, tol = 0.25531E+01, time = 2.68 | CG iter. 18 -- res = 0.11191E+01, tol = 0.25531E+01, time = 2.81 | CG iter. 19 -- res = 0.56189E+00, tol = 0.25531E+01, time = 2.60 | CG iter. 20 -- res = 0.25483E+00, tol = 0.25531E+01, time = 2.54 | CG iter. 21 -- res = 0.11184E+00, tol = 0.25531E+01, time = 2.57 | CG iter. 22 -- res = 0.48692E-01, tol = 0.25531E+01, time = 2.46 | CG iter. 23 -- res = 0.22442E-01, tol = 0.25531E+01, time = 2.56 | CG iter. 24 -- res = 0.11501E-01, tol = 0.25531E+01, time = 2.70 | CG iter. 25 -- res = 0.59245E-02, tol = 0.25531E+01, time = 2.62 | CG iter. 26 -- res = 0.27187E-02, tol = 0.25531E+01, time = 2.60 | CG iter. 27 -- res = 0.12075E-02, tol = 0.25531E+01, time = 2.70 | CG iter. 28 -- res = 0.52867E-03, tol = 0.25531E+01, time = 2.61 | CG iter. 29 -- res = 0.24945E-03, tol = 0.25531E+01, time = 2.38 | CG iter. 30 -- res = 0.12380E-03, tol = 0.25531E+01, time = 6.94 | CG iter. 31 -- res = 0.63578E-04, tol = 0.25531E+01, time = 5.27 | CG iter. 32 -- res = 0.29959E-04, tol = 0.25531E+01, time = 2.63 | CG iter. 33 -- res = 0.13014E-04, tol = 0.25531E+01, time = 2.61 | CG iter. 34 -- res = 0.58838E-05, tol = 0.25531E+01, time = 2.64 | CG iter. 35 -- res = 0.29991E-05, tol = 0.25531E+01, time = 2.63 | CG iter. 36 -- res = 0.14996E-05, tol = 0.25531E+01, time = 2.68 | CG iter. 37 -- res = 0.72437E-06, tol = 0.25531E+01, time = 2.57 | CG iter. 38 -- res = 0.35164E-06, tol = 0.25531E+01, time = 2.43 | CG iter. 39 -- res = 0.15354E-06, tol = 0.25531E+01, time = 2.58 | CG iter. 40 -- res = 0.70421E-07, tol = 0.25531E+01, time = 2.61 | CG iter. 41 -- res = 0.34481E-07, tol = 0.25531E+01, time = 2.83 | CG iter. 42 -- res = 0.16718E-07, tol = 0.25531E+01, time = 2.63 | CG iter. 43 -- res = 0.81716E-08, tol = 0.25531E+01, time = 2.77 | CG iter. 44 -- res = 0.37967E-08, tol = 0.25531E+01, time = 2.41 | CG iter. 45 -- res = 0.17425E-08, tol = 0.25531E+01, time = 2.58 | CG iter. 46 -- res = 0.77582E-09, tol = 0.25531E+01, time = 2.52 | CG iter. 47 -- res = 0.36680E-09, tol = 0.25531E+01, time = 2.50 | CG iter. 48 -- res = 0.18699E-09, tol = 0.25531E+01, time = 3.00 | CG iter. 49 -- res = 0.90035E-10, tol = 0.25531E+01, time = 2.80 | CG iter. 50 -- res = 0.39662E-10, tol = 0.25531E+01, time = 2.54 | Final CG iter 51 -- res = 0.39662E-10, tol = 0.25531E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.037 3.887 | New value 0.817 | Old value -2.037 | Difference 2.854 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.82932E+04, tol = 0.47627E+18, time = 2.45 | CG iter. 2 -- res = 0.27345E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.96522E+00, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.10533E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.75742E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6478562.583 | (Sampled value in CG: 6515319.685 ) | CPU time specind = 1155.034 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.69691E+08, tol = 0.58053E+04, time = 11.45 | CG iter. 2 -- res = 0.59375E+08, tol = 0.58053E+04, time = 11.44 | CG iter. 3 -- res = 0.15722E+08, tol = 0.58053E+04, time = 11.72 | CG iter. 4 -- res = 0.67717E+07, tol = 0.58053E+04, time = 11.62 | CG iter. 5 -- res = 0.41674E+07, tol = 0.58053E+04, time = 12.08 | CG iter. 6 -- res = 0.24421E+07, tol = 0.58053E+04, time = 11.62 | CG iter. 7 -- res = 0.14129E+07, tol = 0.58053E+04, time = 10.89 | CG iter. 8 -- res = 0.90474E+06, tol = 0.58053E+04, time = 11.39 | CG iter. 9 -- res = 0.58963E+06, tol = 0.58053E+04, time = 11.72 | CG iter. 10 -- res = 0.35264E+06, tol = 0.58053E+04, time = 11.55 | CG iter. 11 -- res = 0.18941E+06, tol = 0.58053E+04, time = 11.21 | CG iter. 12 -- res = 0.10267E+06, tol = 0.58053E+04, time = 11.55 | CG iter. 13 -- res = 0.56499E+05, tol = 0.58053E+04, time = 11.49 | CG iter. 14 -- res = 0.34038E+05, tol = 0.58053E+04, time = 17.46 | CG iter. 15 -- res = 0.23044E+05, tol = 0.58053E+04, time = 11.34 | CG iter. 16 -- res = 0.17331E+05, tol = 0.58053E+04, time = 11.57 | CG iter. 17 -- res = 0.14026E+05, tol = 0.58053E+04, time = 11.65 | CG iter. 18 -- res = 0.11093E+05, tol = 0.58053E+04, time = 11.53 | CG iter. 19 -- res = 0.88256E+04, tol = 0.58053E+04, time = 11.24 | CG iter. 20 -- res = 0.74046E+04, tol = 0.58053E+04, time = 11.65 | CG iter. 21 -- res = 0.65095E+04, tol = 0.58053E+04, time = 12.77 | CG iter. 22 -- res = 0.64183E+04, tol = 0.58053E+04, time = 12.40 | CG iter. 23 -- res = 0.69947E+04, tol = 0.58053E+04, time = 11.28 | CG iter. 24 -- res = 0.74741E+04, tol = 0.58053E+04, time = 11.31 | CG iter. 25 -- res = 0.73552E+04, tol = 0.58053E+04, time = 11.71 | CG iter. 26 -- res = 0.65819E+04, tol = 0.58053E+04, time = 11.34 | CG iter. 27 -- res = 0.53438E+04, tol = 0.58053E+04, time = 11.33 | CG iter. 28 -- res = 0.40441E+04, tol = 0.58053E+04, time = 11.89 | CG iter. 29 -- res = 0.32318E+04, tol = 0.58053E+04, time = 12.10 | CG iter. 30 -- res = 0.27022E+04, tol = 0.58053E+04, time = 11.49 | CG iter. 31 -- res = 0.23569E+04, tol = 0.58053E+04, time = 11.32 | CG iter. 32 -- res = 0.20010E+04, tol = 0.58053E+04, time = 11.26 | CG iter. 33 -- res = 0.16235E+04, tol = 0.58053E+04, time = 11.70 | CG iter. 34 -- res = 0.12796E+04, tol = 0.58053E+04, time = 11.45 | CG iter. 35 -- res = 0.10298E+04, tol = 0.58053E+04, time = 11.32 | CG iter. 36 -- res = 0.88445E+03, tol = 0.58053E+04, time = 11.21 | CG iter. 37 -- res = 0.81521E+03, tol = 0.58053E+04, time = 11.20 | CG iter. 38 -- res = 0.80502E+03, tol = 0.58053E+04, time = 11.42 | CG iter. 39 -- res = 0.76874E+03, tol = 0.58053E+04, time = 17.55 | CG iter. 40 -- res = 0.67338E+03, tol = 0.58053E+04, time = 11.85 | CG iter. 41 -- res = 0.56157E+03, tol = 0.58053E+04, time = 11.28 | CG iter. 42 -- res = 0.45257E+03, tol = 0.58053E+04, time = 11.35 | CG iter. 43 -- res = 0.37193E+03, tol = 0.58053E+04, time = 11.29 | CG iter. 44 -- res = 0.32144E+03, tol = 0.58053E+04, time = 11.67 | CG iter. 45 -- res = 0.28850E+03, tol = 0.58053E+04, time = 11.15 | CG iter. 46 -- res = 0.26239E+03, tol = 0.58053E+04, time = 11.20 | CG iter. 47 -- res = 0.23164E+03, tol = 0.58053E+04, time = 12.95 | CG iter. 48 -- res = 0.19505E+03, tol = 0.58053E+04, time = 11.67 | CG iter. 49 -- res = 0.16495E+03, tol = 0.58053E+04, time = 11.12 | CG iter. 50 -- res = 0.14550E+03, tol = 0.58053E+04, time = 11.56 | CG iter. 51 -- res = 0.13540E+03, tol = 0.58053E+04, time = 11.38 | CG iter. 52 -- res = 0.12904E+03, tol = 0.58053E+04, time = 11.74 | CG iter. 53 -- res = 0.12163E+03, tol = 0.58053E+04, time = 11.43 | CG iter. 54 -- res = 0.11054E+03, tol = 0.58053E+04, time = 11.68 | CG iter. 55 -- res = 0.96561E+02, tol = 0.58053E+04, time = 11.26 | CG iter. 56 -- res = 0.82909E+02, tol = 0.58053E+04, time = 12.07 | CG iter. 57 -- res = 0.70834E+02, tol = 0.58053E+04, time = 11.80 | CG iter. 58 -- res = 0.62479E+02, tol = 0.58053E+04, time = 11.22 | CG iter. 59 -- res = 0.57787E+02, tol = 0.58053E+04, time = 11.49 | CG iter. 60 -- res = 0.54306E+02, tol = 0.58053E+04, time = 11.49 | Final CG iter 61 -- res = 0.54306E+02, tol = 0.58053E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.652 ( -229.912 -2230.927 2513.280 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11629806.983 | Old band monopole 6478590.449 | Change to band monopole 5151216.534 | Change to component monopole -5151194.378 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.043 2.740 | New value -1.120 | Old value 2.043 | Difference -3.163 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.437 ( 7.764 11.500 -10.776 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.495 4.114 | New value -0.176 | Old value 6.495 | Difference -6.671 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.10073E+07, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.17657E+03, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.48939E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.57322E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.13402E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11629756.960 | (Sampled value in CG: 11608472.716 ) | Chain = 1 -- chisq = 0.81531494E+09 | Chain = 1 -- wall time = 5535.951 sec Available RAM: MemAvailable: 394153652 kB Available Swap: SwapFree: 1122635108 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 236 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443377 | --> Sampling calibration, mode = relcal | relcal = 1.3423173E-02 7.5041538E-04 -1.5958574E-03 -1.2577730E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1043504 0.1177338 9405327.36778239 | BP delta = 0.1043504 0.1277081 9405347.57998054 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632470 | --> Sampling calibration, mode = relcal | relcal = -2.8209719E-03 -7.0487836E-04 1.6794759E-03 1.6143634E-03 -4.0819449E-04 6.4020534E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5790645 15217202.2681306 | BP delta = 0.0000000E+00 -0.5704668 15217202.9655546 | BP chisq diff = 0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102714 | --> Sampling calibration, mode = relcal | relcal = 3.7080865E-02 1.3721487E-02 5.7562124E-03 -7.1685426E-03 8.2470328E-03 2.3940760E-03 -7.6057333E-03 -7.1806205E-03 -1.5298268E-02 -1.4798863E-02 -3.0531930E-03 -1.2094452E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.184498 132209076.178900 | BP delta = 0.0000000E+00 -1.194707 132209073.490887 | BP chisq diff = -2.7, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18091048105031 | --> Sampling calibration, mode = relcal | relcal = -7.5132757E-02 -5.8481112E-02 9.1908365E-02 4.1705500E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8603443E-04 4.3781600E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0783E-05 | 2: delta_r/delta_0: 8.7573E-07 | 3: delta_s/delta_0: 2.1453E-07 | 4: delta_r/delta_0: 1.6025E-08 | 5: delta_s/delta_0: 2.1015E-08 | 6: delta_r/delta_0: 1.1553E-09 | 7: delta_s/delta_0: 3.7283E-10 | 8: delta_r/delta_0: 1.0140E-10 | 9: delta_s/delta_0: 3.2072E-10 | 10: delta_r/delta_0: 6.5155E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.180196652693161E-003 2.741262019121802E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0782E-05 | 2: delta_r/delta_0: 8.7571E-07 | 3: delta_s/delta_0: 2.1453E-07 | 4: delta_r/delta_0: 1.6025E-08 | 5: delta_s/delta_0: 2.1019E-08 | 6: delta_r/delta_0: 1.1553E-09 | 7: delta_s/delta_0: 3.7288E-10 | 8: delta_r/delta_0: 1.0140E-10 | 9: delta_s/delta_0: 3.2075E-10 | 10: delta_r/delta_0: 6.5163E-11 | Reached bicg-stab tolerance | BP delta = 4.2773765E-02 6.0791057E-02 3590796.25307042 | BP delta = 4.2773765E-02 6.1229482E-02 3587539.21826729 | BP chisq diff = -3257.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02601742 | --> Sampling calibration, mode = relcal | relcal = -0.1065951 -9.5588923E-02 0.1449605 5.7223532E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9885902E-03 1.1659664E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3521E-05 | 2: delta_r/delta_0: 1.3957E-06 | 3: delta_s/delta_0: 2.4115E-07 | 4: delta_r/delta_0: 4.8814E-08 | 5: delta_s/delta_0: 2.3348E-08 | 6: delta_r/delta_0: 7.0691E-09 | 7: delta_s/delta_0: 1.0558E-08 | 8: delta_r/delta_0: 1.2024E-09 | 9: delta_s/delta_0: 1.0380E-09 | 10: delta_r/delta_0: 1.8411E-10 | 11: delta_s/delta_0: 1.9182E-09 | 12: delta_r/delta_0: 2.0462E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.005982587854900E-002 2.810766635172529E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.3521E-05 | 2: delta_r/delta_0: 1.3957E-06 | 3: delta_s/delta_0: 2.4115E-07 | 4: delta_r/delta_0: 4.8812E-08 | 5: delta_s/delta_0: 2.3349E-08 | 6: delta_r/delta_0: 7.0690E-09 | 7: delta_s/delta_0: 1.0558E-08 | 8: delta_r/delta_0: 1.2024E-09 | 9: delta_s/delta_0: 1.0380E-09 | 10: delta_r/delta_0: 1.8410E-10 | 11: delta_s/delta_0: 1.9182E-09 | 12: delta_r/delta_0: 2.0462E-11 | Reached bicg-stab tolerance | BP delta = -0.2764758 -0.2555818 2841512.98909407 | BP delta = -0.2764758 -0.2557991 2841516.92661055 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224631 | --> Sampling calibration, mode = relcal | relcal = 0.2954099 0.2248909 -0.2837310 -0.2365697 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2593906E-03 5.3371922E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2872E-04 | 2: delta_r/delta_0: 1.6564E-05 | 3: delta_s/delta_0: 2.7588E-05 | 4: delta_r/delta_0: 2.7989E-06 | 5: delta_s/delta_0: 3.9944E-07 | 6: delta_r/delta_0: 7.9835E-08 | 7: delta_s/delta_0: 5.8599E-08 | 8: delta_r/delta_0: 3.1285E-08 | 9: delta_s/delta_0: 1.9988E-07 | 10: delta_r/delta_0: 2.1145E-09 | 11: delta_s/delta_0: 7.7510E-10 | 12: delta_r/delta_0: 4.7715E-10 | 13: delta_s/delta_0: 3.4768E-10 | 14: delta_r/delta_0: 4.2598E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.063231044568066E-002 4.021589111927273E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.2837E-04 | 2: delta_r/delta_0: 1.6556E-05 | 3: delta_s/delta_0: 2.7604E-05 | 4: delta_r/delta_0: 2.8003E-06 | 5: delta_s/delta_0: 3.9923E-07 | 6: delta_r/delta_0: 7.9818E-08 | 7: delta_s/delta_0: 5.8597E-08 | 8: delta_r/delta_0: 3.1266E-08 | 9: delta_s/delta_0: 1.9925E-07 | 10: delta_r/delta_0: 2.1160E-09 | 11: delta_s/delta_0: 7.7535E-10 | 12: delta_r/delta_0: 4.7720E-10 | 13: delta_s/delta_0: 3.4645E-10 | 14: delta_r/delta_0: 4.2577E-11 | Reached bicg-stab tolerance | BP delta = -9.9528894E-02 -0.1220611 2827355.83019942 | BP delta = -9.9528894E-02 -0.1094761 2827319.40761219 | BP chisq diff = -36.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95922893 | --> Sampling calibration, mode = relcal | relcal = 0.1064048 0.1397232 -0.1102266 -0.1359014 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0956992E-02 1.2601929E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0680E-04 | 2: delta_r/delta_0: 7.6959E-06 | 3: delta_s/delta_0: 2.0207E-05 | 4: delta_r/delta_0: 1.6900E-06 | 5: delta_s/delta_0: 2.2907E-07 | 6: delta_r/delta_0: 1.3429E-07 | 7: delta_s/delta_0: 7.1586E-07 | 8: delta_r/delta_0: 2.9501E-08 | 9: delta_s/delta_0: 3.2224E-08 | 10: delta_r/delta_0: 4.4832E-09 | 11: delta_s/delta_0: 1.8785E-09 | 12: delta_r/delta_0: 7.6719E-10 | 13: delta_s/delta_0: 7.4703E-10 | 14: delta_r/delta_0: 2.4176E-10 | 15: delta_s/delta_0: 5.4494E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.070575341822332E-002 3.696968119322685E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.0682E-04 | 2: delta_r/delta_0: 7.6963E-06 | 3: delta_s/delta_0: 2.0207E-05 | 4: delta_r/delta_0: 1.6897E-06 | 5: delta_s/delta_0: 2.2905E-07 | 6: delta_r/delta_0: 1.3427E-07 | 7: delta_s/delta_0: 7.1557E-07 | 8: delta_r/delta_0: 2.9501E-08 | 9: delta_s/delta_0: 3.2073E-08 | 10: delta_r/delta_0: 4.4438E-09 | 11: delta_s/delta_0: 1.8777E-09 | 12: delta_r/delta_0: 7.6785E-10 | 13: delta_s/delta_0: 7.4697E-10 | 14: delta_r/delta_0: 2.4243E-10 | 15: delta_s/delta_0: 5.4488E-11 | Reached bicg-stab tolerance | BP delta = 8.1098139E-02 0.1794758 3003861.06223699 | BP delta = 8.1098139E-02 0.1741583 3003899.88838188 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52158779 | --> Sampling calibration, mode = relcal | relcal = -5.1092863E-02 -3.7506951E-03 2.7327022E-02 2.7516536E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7941308E-04 2.6389121E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6110E-05 | 2: delta_r/delta_0: 4.5776E-06 | 3: delta_s/delta_0: 4.3454E-06 | 4: delta_r/delta_0: 2.5221E-07 | 5: delta_s/delta_0: 5.2774E-08 | 6: delta_r/delta_0: 2.5698E-08 | 7: delta_s/delta_0: 3.3169E-08 | 8: delta_r/delta_0: 8.1386E-09 | 9: delta_s/delta_0: 3.1954E-09 | 10: delta_r/delta_0: 1.1193E-09 | 11: delta_s/delta_0: 2.0878E-09 | 12: delta_r/delta_0: 1.1337E-10 | 13: delta_s/delta_0: 1.3091E-10 | 14: delta_r/delta_0: 4.6822E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.156859041901192E-002 5.483144835699193E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6110E-05 | 2: delta_r/delta_0: 4.5776E-06 | 3: delta_s/delta_0: 4.3457E-06 | 4: delta_r/delta_0: 2.5224E-07 | 5: delta_s/delta_0: 5.2774E-08 | 6: delta_r/delta_0: 2.5698E-08 | 7: delta_s/delta_0: 3.3164E-08 | 8: delta_r/delta_0: 8.1389E-09 | 9: delta_s/delta_0: 3.1956E-09 | 10: delta_r/delta_0: 1.1193E-09 | 11: delta_s/delta_0: 2.0991E-09 | 12: delta_r/delta_0: 1.1340E-10 | 13: delta_s/delta_0: 1.3085E-10 | 14: delta_r/delta_0: 4.7126E-11 | Reached bicg-stab tolerance | BP delta = 8.1099957E-02 0.1871159 2435731.74210697 | BP delta = 8.1099957E-02 0.1929306 2435740.07485948 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42158001 | --> Sampling calibration, mode = relcal | relcal = 4.5655664E-02 3.9656870E-02 -2.8343474E-02 -5.6969058E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5027073E-03 4.8832651E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3483E-05 | 2: delta_r/delta_0: 3.5017E-06 | 3: delta_s/delta_0: 2.1073E-06 | 4: delta_r/delta_0: 3.0745E-07 | 5: delta_s/delta_0: 6.4648E-08 | 6: delta_r/delta_0: 3.4805E-08 | 7: delta_s/delta_0: 9.8083E-08 | 8: delta_r/delta_0: 7.1770E-09 | 9: delta_s/delta_0: 3.0476E-09 | 10: delta_r/delta_0: 1.3949E-09 | 11: delta_s/delta_0: 5.2644E-09 | 12: delta_r/delta_0: 2.5198E-10 | 13: delta_s/delta_0: 1.6902E-08 | 14: delta_r/delta_0: 7.7241E-09 | 15: delta_s/delta_0: 2.2405E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.411644757680384E-002 4.995819724646301E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3483E-05 | 2: delta_r/delta_0: 3.5017E-06 | 3: delta_s/delta_0: 2.1073E-06 | 4: delta_r/delta_0: 3.0745E-07 | 5: delta_s/delta_0: 6.4645E-08 | 6: delta_r/delta_0: 3.4804E-08 | 7: delta_s/delta_0: 9.8081E-08 | 8: delta_r/delta_0: 7.1767E-09 | 9: delta_s/delta_0: 3.0475E-09 | 10: delta_r/delta_0: 1.3951E-09 | 11: delta_s/delta_0: 5.2723E-09 | 12: delta_r/delta_0: 2.5207E-10 | 13: delta_s/delta_0: 1.6882E-08 | 14: delta_r/delta_0: 7.7153E-09 | 15: delta_s/delta_0: 2.2407E-11 | Reached bicg-stab tolerance | BP delta = 6.0376775E-02 -7.1353666E-02 2321890.21796658 | BP delta = 6.0376775E-02 -5.1312644E-02 2321894.36675873 | BP chisq diff = 4.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28166403 | --> Sampling calibration, mode = relcal | relcal = 2.4184406E-02 4.5104403E-02 -2.3290757E-02 -4.5998048E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3786638E-02 1.6638739E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0595E-04 | 2: delta_r/delta_0: 8.7036E-06 | 3: delta_s/delta_0: 1.5362E-06 | 4: delta_r/delta_0: 1.8713E-07 | 5: delta_s/delta_0: 7.1339E-08 | 6: delta_r/delta_0: 1.6414E-08 | 7: delta_s/delta_0: 8.1563E-09 | 8: delta_r/delta_0: 5.3533E-09 | 9: delta_s/delta_0: 1.3234E-07 | 10: delta_r/delta_0: 6.4814E-09 | 11: delta_s/delta_0: 5.2736E-09 | 12: delta_r/delta_0: 3.1115E-09 | 13: delta_s/delta_0: 1.1363E-10 | 14: delta_r/delta_0: 8.0800E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.688575855127586E-003 7.842232805051532E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0595E-04 | 2: delta_r/delta_0: 8.7036E-06 | 3: delta_s/delta_0: 1.5362E-06 | 4: delta_r/delta_0: 1.8713E-07 | 5: delta_s/delta_0: 7.1339E-08 | 6: delta_r/delta_0: 1.6414E-08 | 7: delta_s/delta_0: 8.1563E-09 | 8: delta_r/delta_0: 5.3533E-09 | 9: delta_s/delta_0: 1.3233E-07 | 10: delta_r/delta_0: 6.4814E-09 | 11: delta_s/delta_0: 5.2735E-09 | 12: delta_r/delta_0: 3.1115E-09 | 13: delta_s/delta_0: 1.1363E-10 | 14: delta_r/delta_0: 8.0800E-11 | Reached bicg-stab tolerance | BP delta = -0.1135634 -0.2566273 2489667.73176345 | BP delta = -0.1135634 -0.2621358 2489665.87647771 | BP chisq diff = -1.9, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29396164 | --> Sampling calibration, mode = relcal | relcal = 6.1219046E-04 1.0280415E-02 -3.8156887E-03 -7.0769177E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3371001E-02 1.6016401E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3010E-04 | 2: delta_r/delta_0: 1.1072E-05 | 3: delta_s/delta_0: 1.8029E-06 | 4: delta_r/delta_0: 2.5326E-07 | 5: delta_s/delta_0: 9.8323E-08 | 6: delta_r/delta_0: 2.3162E-08 | 7: delta_s/delta_0: 1.1599E-08 | 8: delta_r/delta_0: 8.1498E-09 | 9: delta_s/delta_0: 8.9193E-09 | 10: delta_r/delta_0: 5.5100E-09 | 11: delta_s/delta_0: 1.0947E-06 | 12: delta_r/delta_0: 1.6972E-07 | 13: delta_s/delta_0: 3.8405E-10 | 14: delta_r/delta_0: 1.9733E-10 | 15: delta_s/delta_0: 1.0303E-10 | 16: delta_r/delta_0: 8.8161E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.046462392140465E-002 8.305481080051854E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3010E-04 | 2: delta_r/delta_0: 1.1072E-05 | 3: delta_s/delta_0: 1.8029E-06 | 4: delta_r/delta_0: 2.5325E-07 | 5: delta_s/delta_0: 9.8322E-08 | 6: delta_r/delta_0: 2.3161E-08 | 7: delta_s/delta_0: 1.1598E-08 | 8: delta_r/delta_0: 8.1496E-09 | 9: delta_s/delta_0: 8.9191E-09 | 10: delta_r/delta_0: 5.5099E-09 | 11: delta_s/delta_0: 1.0937E-06 | 12: delta_r/delta_0: 1.6956E-07 | 13: delta_s/delta_0: 3.8401E-10 | 14: delta_r/delta_0: 1.9733E-10 | 15: delta_s/delta_0: 1.0303E-10 | 16: delta_r/delta_0: 8.8163E-11 | Reached bicg-stab tolerance | BP delta = -0.8865855 -0.8721963 2738284.47665025 | BP delta = -0.8865855 -0.8413480 2738282.55953185 | BP chisq diff = -1.9, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26503323 | --> Sampling calibration, mode = relcal | relcal = -5.5470830E-03 1.5047555E-02 -2.3727429E-03 -7.1277288E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1134880E-03 3.6222246E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4526E-04 | 2: delta_r/delta_0: 1.2225E-05 | 3: delta_s/delta_0: 2.0923E-06 | 4: delta_r/delta_0: 2.7622E-07 | 5: delta_s/delta_0: 8.7640E-08 | 6: delta_r/delta_0: 2.2946E-08 | 7: delta_s/delta_0: 1.0132E-08 | 8: delta_r/delta_0: 6.6307E-09 | 9: delta_s/delta_0: 8.0106E-09 | 10: delta_r/delta_0: 4.9062E-09 | 11: delta_s/delta_0: 8.4451E-07 | 12: delta_r/delta_0: 8.9877E-08 | 13: delta_s/delta_0: 3.0005E-10 | 14: delta_r/delta_0: 2.0094E-10 | 15: delta_s/delta_0: 1.9005E-10 | 16: delta_r/delta_0: 1.2335E-10 | 17: delta_s/delta_0: 5.5998E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.830150965423911E-003 9.154837819573157E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4526E-04 | 2: delta_r/delta_0: 1.2225E-05 | 3: delta_s/delta_0: 2.0923E-06 | 4: delta_r/delta_0: 2.7622E-07 | 5: delta_s/delta_0: 8.7642E-08 | 6: delta_r/delta_0: 2.2946E-08 | 7: delta_s/delta_0: 1.0132E-08 | 8: delta_r/delta_0: 6.6306E-09 | 9: delta_s/delta_0: 8.0103E-09 | 10: delta_r/delta_0: 4.9061E-09 | 11: delta_s/delta_0: 8.4480E-07 | 12: delta_r/delta_0: 8.9907E-08 | 13: delta_s/delta_0: 3.0023E-10 | 14: delta_r/delta_0: 2.0108E-10 | 15: delta_s/delta_0: 1.9013E-10 | 16: delta_r/delta_0: 1.2356E-10 | 17: delta_s/delta_0: 5.6074E-11 | Reached bicg-stab tolerance | BP delta = 0.3073059 0.2997525 2516482.38324651 | BP delta = 0.3073059 0.3156196 2516482.22642563 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25657257 | --> Sampling calibration, mode = relcal | relcal = -3.1776633E-02 -2.5803728E-02 3.6913425E-02 2.0666936E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5883354E-02 1.8735116E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4736E-04 | 2: delta_r/delta_0: 1.2427E-05 | 3: delta_s/delta_0: 1.9651E-06 | 4: delta_r/delta_0: 4.2866E-07 | 5: delta_s/delta_0: 1.8506E-07 | 6: delta_r/delta_0: 3.4903E-08 | 7: delta_s/delta_0: 1.6926E-08 | 8: delta_r/delta_0: 9.5617E-09 | 9: delta_s/delta_0: 3.1093E-08 | 10: delta_r/delta_0: 5.7269E-09 | 11: delta_s/delta_0: 3.5903E-09 | 12: delta_r/delta_0: 4.3464E-10 | 13: delta_s/delta_0: 9.9117E-10 | 14: delta_r/delta_0: 5.7366E-10 | 15: delta_s/delta_0: 1.4855E-10 | 16: delta_r/delta_0: 1.2337E-10 | 17: delta_s/delta_0: 1.0662E-10 | 18: delta_r/delta_0: 8.8586E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.182670222724170E-002 8.674450288680167E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4736E-04 | 2: delta_r/delta_0: 1.2427E-05 | 3: delta_s/delta_0: 1.9651E-06 | 4: delta_r/delta_0: 4.2866E-07 | 5: delta_s/delta_0: 1.8505E-07 | 6: delta_r/delta_0: 3.4902E-08 | 7: delta_s/delta_0: 1.6926E-08 | 8: delta_r/delta_0: 9.5617E-09 | 9: delta_s/delta_0: 3.1093E-08 | 10: delta_r/delta_0: 5.7269E-09 | 11: delta_s/delta_0: 3.5906E-09 | 12: delta_r/delta_0: 4.3468E-10 | 13: delta_s/delta_0: 9.9119E-10 | 14: delta_r/delta_0: 5.7367E-10 | 15: delta_s/delta_0: 1.4855E-10 | 16: delta_r/delta_0: 1.2337E-10 | 17: delta_s/delta_0: 1.0662E-10 | 18: delta_r/delta_0: 8.8588E-11 | Reached bicg-stab tolerance | BP delta = -0.8279545 -0.9582027 2705794.45131608 | BP delta = -0.8279545 -0.9659002 2705791.62751738 | BP chisq diff = -2.8, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145669 | New value = -3.129214 | poltype: 2 pol: 1 CPU time specind = 0.2921939 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.076466 | New value = -3.160222 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197222 | New value = -3.149361 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115867 | New value = -3.076963 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131472 | New value = -3.209925 | poltype: 2 pol: 2 CPU time specind = 2.3855925E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.87 | CG iter. 1 -- res = 0.13558E+08, tol = 0.60459E+01, time = 5.22 | CG iter. 2 -- res = 0.35781E+06, tol = 0.60459E+01, time = 5.28 | CG iter. 3 -- res = 0.48915E+05, tol = 0.60459E+01, time = 5.11 | CG iter. 4 -- res = 0.21665E+05, tol = 0.60459E+01, time = 5.55 | CG iter. 5 -- res = 0.10917E+05, tol = 0.60459E+01, time = 5.37 | CG iter. 6 -- res = 0.64169E+04, tol = 0.60459E+01, time = 5.52 | CG iter. 7 -- res = 0.49670E+04, tol = 0.60459E+01, time = 5.46 | CG iter. 8 -- res = 0.40226E+04, tol = 0.60459E+01, time = 6.55 | CG iter. 9 -- res = 0.37895E+04, tol = 0.60459E+01, time = 5.79 | CG iter. 10 -- res = 0.40753E+04, tol = 0.60459E+01, time = 5.54 | CG iter. 11 -- res = 0.36680E+04, tol = 0.60459E+01, time = 5.36 | CG iter. 12 -- res = 0.26461E+04, tol = 0.60459E+01, time = 5.52 | CG iter. 13 -- res = 0.18529E+04, tol = 0.60459E+01, time = 5.50 | CG iter. 14 -- res = 0.14545E+04, tol = 0.60459E+01, time = 5.19 | CG iter. 15 -- res = 0.12323E+04, tol = 0.60459E+01, time = 5.49 | CG iter. 16 -- res = 0.10218E+04, tol = 0.60459E+01, time = 5.59 | CG iter. 17 -- res = 0.76432E+03, tol = 0.60459E+01, time = 5.52 | CG iter. 18 -- res = 0.58160E+03, tol = 0.60459E+01, time = 5.78 | CG iter. 19 -- res = 0.50021E+03, tol = 0.60459E+01, time = 5.31 | CG iter. 20 -- res = 0.43360E+03, tol = 0.60459E+01, time = 5.24 | CG iter. 21 -- res = 0.33266E+03, tol = 0.60459E+01, time = 5.19 | CG iter. 22 -- res = 0.25128E+03, tol = 0.60459E+01, time = 5.59 | CG iter. 23 -- res = 0.21594E+03, tol = 0.60459E+01, time = 5.25 | CG iter. 24 -- res = 0.20746E+03, tol = 0.60459E+01, time = 5.27 | CG iter. 25 -- res = 0.17355E+03, tol = 0.60459E+01, time = 5.39 | CG iter. 26 -- res = 0.13412E+03, tol = 0.60459E+01, time = 5.23 | CG iter. 27 -- res = 0.10769E+03, tol = 0.60459E+01, time = 5.43 | CG iter. 28 -- res = 0.95485E+02, tol = 0.60459E+01, time = 5.86 | CG iter. 29 -- res = 0.80161E+02, tol = 0.60459E+01, time = 5.16 | CG iter. 30 -- res = 0.61768E+02, tol = 0.60459E+01, time = 5.15 | CG iter. 31 -- res = 0.49261E+02, tol = 0.60459E+01, time = 5.26 | CG iter. 32 -- res = 0.42171E+02, tol = 0.60459E+01, time = 5.62 | CG iter. 33 -- res = 0.35752E+02, tol = 0.60459E+01, time = 5.29 | CG iter. 34 -- res = 0.26238E+02, tol = 0.60459E+01, time = 5.34 | CG iter. 35 -- res = 0.19804E+02, tol = 0.60459E+01, time = 5.50 | CG iter. 36 -- res = 0.16274E+02, tol = 0.60459E+01, time = 5.15 | CG iter. 37 -- res = 0.13518E+02, tol = 0.60459E+01, time = 5.79 | CG iter. 38 -- res = 0.10401E+02, tol = 0.60459E+01, time = 5.42 | CG iter. 39 -- res = 0.75118E+01, tol = 0.60459E+01, time = 5.40 | CG iter. 40 -- res = 0.59879E+01, tol = 0.60459E+01, time = 5.40 | CG iter. 41 -- res = 0.46529E+01, tol = 0.60459E+01, time = 5.53 | CG iter. 42 -- res = 0.36319E+01, tol = 0.60459E+01, time = 5.14 | CG iter. 43 -- res = 0.27589E+01, tol = 0.60459E+01, time = 5.54 | CG iter. 44 -- res = 0.20902E+01, tol = 0.60459E+01, time = 5.66 | CG iter. 45 -- res = 0.16614E+01, tol = 0.60459E+01, time = 5.49 | CG iter. 46 -- res = 0.13207E+01, tol = 0.60459E+01, time = 11.65 | CG iter. 47 -- res = 0.98691E+00, tol = 0.60459E+01, time = 5.00 | CG iter. 48 -- res = 0.74063E+00, tol = 0.60459E+01, time = 5.32 | CG iter. 49 -- res = 0.56045E+00, tol = 0.60459E+01, time = 5.31 | CG iter. 50 -- res = 0.44919E+00, tol = 0.60459E+01, time = 5.48 | Final CG iter 51 -- res = 0.44919E+00, tol = 0.60459E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10548239.879 | Old band monopole 11629806.983 | Change to band monopole -1081567.103 | Change to component monopole 1081562.451 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.60227E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.35046E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.16332E+01, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.11326E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.14220E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10548194.509 | (Sampled value in CG: 10560711.579 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473725 | New value = 1.525574 | poltype: 2 pol: 1 CPU time specind = 1.8929005E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499634 | New value = 1.503254 | poltype: 2 pol: 2 CPU time specind = 2.6878119E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.24583E+08, tol = 0.47614E+04, time = 5.83 | CG iter. 2 -- res = 0.52531E+07, tol = 0.47614E+04, time = 5.88 | CG iter. 3 -- res = 0.83556E+06, tol = 0.47614E+04, time = 6.32 | CG iter. 4 -- res = 0.34833E+06, tol = 0.47614E+04, time = 5.93 | CG iter. 5 -- res = 0.14806E+06, tol = 0.47614E+04, time = 6.11 | CG iter. 6 -- res = 0.80004E+05, tol = 0.47614E+04, time = 5.89 | CG iter. 7 -- res = 0.43202E+05, tol = 0.47614E+04, time = 6.13 | CG iter. 8 -- res = 0.20751E+05, tol = 0.47614E+04, time = 5.92 | CG iter. 9 -- res = 0.89340E+04, tol = 0.47614E+04, time = 6.01 | CG iter. 10 -- res = 0.35865E+04, tol = 0.47614E+04, time = 5.96 | CG iter. 11 -- res = 0.16187E+04, tol = 0.47614E+04, time = 5.68 | CG iter. 12 -- res = 0.84422E+03, tol = 0.47614E+04, time = 6.35 | CG iter. 13 -- res = 0.48476E+03, tol = 0.47614E+04, time = 6.04 | CG iter. 14 -- res = 0.27388E+03, tol = 0.47614E+04, time = 5.99 | CG iter. 15 -- res = 0.14332E+03, tol = 0.47614E+04, time = 6.10 | CG iter. 16 -- res = 0.66753E+02, tol = 0.47614E+04, time = 6.04 | CG iter. 17 -- res = 0.31020E+02, tol = 0.47614E+04, time = 6.11 | CG iter. 18 -- res = 0.15477E+02, tol = 0.47614E+04, time = 6.03 | CG iter. 19 -- res = 0.85361E+01, tol = 0.47614E+04, time = 6.21 | CG iter. 20 -- res = 0.47830E+01, tol = 0.47614E+04, time = 6.25 | CG iter. 21 -- res = 0.25930E+01, tol = 0.47614E+04, time = 6.12 | CG iter. 22 -- res = 0.13694E+01, tol = 0.47614E+04, time = 6.11 | CG iter. 23 -- res = 0.70094E+00, tol = 0.47614E+04, time = 5.87 | CG iter. 24 -- res = 0.36117E+00, tol = 0.47614E+04, time = 6.13 | CG iter. 25 -- res = 0.19540E+00, tol = 0.47614E+04, time = 6.26 | CG iter. 26 -- res = 0.10993E+00, tol = 0.47614E+04, time = 6.06 | CG iter. 27 -- res = 0.62913E-01, tol = 0.47614E+04, time = 12.39 | CG iter. 28 -- res = 0.33490E-01, tol = 0.47614E+04, time = 5.96 | CG iter. 29 -- res = 0.17400E-01, tol = 0.47614E+04, time = 6.00 | CG iter. 30 -- res = 0.92710E-02, tol = 0.47614E+04, time = 6.12 | CG iter. 31 -- res = 0.50900E-02, tol = 0.47614E+04, time = 6.47 | CG iter. 32 -- res = 0.28774E-02, tol = 0.47614E+04, time = 6.08 | CG iter. 33 -- res = 0.16637E-02, tol = 0.47614E+04, time = 6.29 | CG iter. 34 -- res = 0.89464E-03, tol = 0.47614E+04, time = 6.02 | CG iter. 35 -- res = 0.46521E-03, tol = 0.47614E+04, time = 5.93 | Final CG iter 36 -- res = 0.46521E-03, tol = 0.47614E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.128 2.731 | New value -2.269 | Old value -1.128 | Difference -1.141 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.71664E+05, tol = 0.47627E+18, time = 2.34 | CG iter. 2 -- res = 0.16310E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.42224E+00, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.67314E-03, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.28696E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10548194.509 | (Sampled value in CG: 10560812.353 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.773258 | New value = -3.610947 | poltype: 1 pol: 1 CPU time specind = 8.1739426E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.21052E+07, tol = 0.19719E+01, time = 2.54 | CG iter. 2 -- res = 0.73220E+06, tol = 0.19719E+01, time = 2.55 | CG iter. 3 -- res = 0.13111E+06, tol = 0.19719E+01, time = 2.28 | CG iter. 4 -- res = 0.51878E+05, tol = 0.19719E+01, time = 2.60 | CG iter. 5 -- res = 0.30098E+05, tol = 0.19719E+01, time = 2.53 | CG iter. 6 -- res = 0.15589E+05, tol = 0.19719E+01, time = 2.47 | CG iter. 7 -- res = 0.65635E+04, tol = 0.19719E+01, time = 2.38 | CG iter. 8 -- res = 0.30348E+04, tol = 0.19719E+01, time = 2.52 | CG iter. 9 -- res = 0.12108E+04, tol = 0.19719E+01, time = 2.60 | CG iter. 10 -- res = 0.48543E+03, tol = 0.19719E+01, time = 2.75 | CG iter. 11 -- res = 0.20897E+03, tol = 0.19719E+01, time = 2.63 | CG iter. 12 -- res = 0.10415E+03, tol = 0.19719E+01, time = 2.49 | CG iter. 13 -- res = 0.55519E+02, tol = 0.19719E+01, time = 2.50 | CG iter. 14 -- res = 0.26981E+02, tol = 0.19719E+01, time = 2.53 | CG iter. 15 -- res = 0.12437E+02, tol = 0.19719E+01, time = 2.30 | CG iter. 16 -- res = 0.53998E+01, tol = 0.19719E+01, time = 2.50 | CG iter. 17 -- res = 0.23739E+01, tol = 0.19719E+01, time = 2.87 | CG iter. 18 -- res = 0.10715E+01, tol = 0.19719E+01, time = 2.60 | CG iter. 19 -- res = 0.51742E+00, tol = 0.19719E+01, time = 2.42 | CG iter. 20 -- res = 0.26073E+00, tol = 0.19719E+01, time = 2.59 | CG iter. 21 -- res = 0.13166E+00, tol = 0.19719E+01, time = 2.66 | CG iter. 22 -- res = 0.61402E-01, tol = 0.19719E+01, time = 2.31 | CG iter. 23 -- res = 0.26607E-01, tol = 0.19719E+01, time = 3.90 | CG iter. 24 -- res = 0.12221E-01, tol = 0.19719E+01, time = 3.12 | CG iter. 25 -- res = 0.62620E-02, tol = 0.19719E+01, time = 2.91 | CG iter. 26 -- res = 0.31729E-02, tol = 0.19719E+01, time = 2.72 | CG iter. 27 -- res = 0.16239E-02, tol = 0.19719E+01, time = 2.76 | CG iter. 28 -- res = 0.76724E-03, tol = 0.19719E+01, time = 2.82 | CG iter. 29 -- res = 0.34182E-03, tol = 0.19719E+01, time = 2.28 | CG iter. 30 -- res = 0.16425E-03, tol = 0.19719E+01, time = 2.38 | CG iter. 31 -- res = 0.80293E-04, tol = 0.19719E+01, time = 2.76 | CG iter. 32 -- res = 0.41052E-04, tol = 0.19719E+01, time = 2.50 | CG iter. 33 -- res = 0.20357E-04, tol = 0.19719E+01, time = 2.85 | CG iter. 34 -- res = 0.94603E-05, tol = 0.19719E+01, time = 2.64 | CG iter. 35 -- res = 0.45654E-05, tol = 0.19719E+01, time = 2.62 | CG iter. 36 -- res = 0.21668E-05, tol = 0.19719E+01, time = 2.64 | CG iter. 37 -- res = 0.10309E-05, tol = 0.19719E+01, time = 2.69 | CG iter. 38 -- res = 0.52167E-06, tol = 0.19719E+01, time = 2.79 | CG iter. 39 -- res = 0.24839E-06, tol = 0.19719E+01, time = 2.73 | CG iter. 40 -- res = 0.12158E-06, tol = 0.19719E+01, time = 2.75 | CG iter. 41 -- res = 0.58288E-07, tol = 0.19719E+01, time = 2.34 | CG iter. 42 -- res = 0.27245E-07, tol = 0.19719E+01, time = 2.56 | CG iter. 43 -- res = 0.12760E-07, tol = 0.19719E+01, time = 2.57 | CG iter. 44 -- res = 0.59789E-08, tol = 0.19719E+01, time = 2.58 | CG iter. 45 -- res = 0.29954E-08, tol = 0.19719E+01, time = 2.59 | CG iter. 46 -- res = 0.15146E-08, tol = 0.19719E+01, time = 2.46 | CG iter. 47 -- res = 0.71916E-09, tol = 0.19719E+01, time = 2.56 | CG iter. 48 -- res = 0.33052E-09, tol = 0.19719E+01, time = 2.40 | CG iter. 49 -- res = 0.15520E-09, tol = 0.19719E+01, time = 2.42 | CG iter. 50 -- res = 0.73802E-10, tol = 0.19719E+01, time = 2.65 | Final CG iter 51 -- res = 0.73802E-10, tol = 0.19719E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.975 3.661 | New value 5.641 | Old value 0.975 | Difference 4.666 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.20915E+05, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.18661E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.73062E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.10709E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.27940E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10548194.509 | (Sampled value in CG: 10561407.049 ) | CPU time specind = 1125.209 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.69909E+08, tol = 0.57680E+04, time = 10.96 | CG iter. 2 -- res = 0.59328E+08, tol = 0.57680E+04, time = 10.95 | CG iter. 3 -- res = 0.15446E+08, tol = 0.57680E+04, time = 10.62 | CG iter. 4 -- res = 0.67484E+07, tol = 0.57680E+04, time = 10.90 | CG iter. 5 -- res = 0.40514E+07, tol = 0.57680E+04, time = 17.17 | CG iter. 6 -- res = 0.23838E+07, tol = 0.57680E+04, time = 11.28 | CG iter. 7 -- res = 0.14285E+07, tol = 0.57680E+04, time = 10.66 | CG iter. 8 -- res = 0.92064E+06, tol = 0.57680E+04, time = 10.83 | CG iter. 9 -- res = 0.56748E+06, tol = 0.57680E+04, time = 11.28 | CG iter. 10 -- res = 0.33997E+06, tol = 0.57680E+04, time = 11.15 | CG iter. 11 -- res = 0.18250E+06, tol = 0.57680E+04, time = 10.81 | CG iter. 12 -- res = 0.98759E+05, tol = 0.57680E+04, time = 11.25 | CG iter. 13 -- res = 0.53884E+05, tol = 0.57680E+04, time = 12.70 | CG iter. 14 -- res = 0.31052E+05, tol = 0.57680E+04, time = 11.39 | CG iter. 15 -- res = 0.19615E+05, tol = 0.57680E+04, time = 11.15 | CG iter. 16 -- res = 0.13840E+05, tol = 0.57680E+04, time = 10.88 | CG iter. 17 -- res = 0.10155E+05, tol = 0.57680E+04, time = 10.87 | CG iter. 18 -- res = 0.73194E+04, tol = 0.57680E+04, time = 10.96 | CG iter. 19 -- res = 0.53713E+04, tol = 0.57680E+04, time = 11.18 | CG iter. 20 -- res = 0.39906E+04, tol = 0.57680E+04, time = 10.84 | CG iter. 21 -- res = 0.31223E+04, tol = 0.57680E+04, time = 10.85 | CG iter. 22 -- res = 0.28175E+04, tol = 0.57680E+04, time = 11.49 | CG iter. 23 -- res = 0.29064E+04, tol = 0.57680E+04, time = 11.21 | CG iter. 24 -- res = 0.31521E+04, tol = 0.57680E+04, time = 11.05 | CG iter. 25 -- res = 0.34246E+04, tol = 0.57680E+04, time = 10.80 | CG iter. 26 -- res = 0.34454E+04, tol = 0.57680E+04, time = 11.26 | CG iter. 27 -- res = 0.31549E+04, tol = 0.57680E+04, time = 11.26 | CG iter. 28 -- res = 0.26606E+04, tol = 0.57680E+04, time = 10.81 | CG iter. 29 -- res = 0.22623E+04, tol = 0.57680E+04, time = 10.99 | CG iter. 30 -- res = 0.19283E+04, tol = 0.57680E+04, time = 10.77 | CG iter. 31 -- res = 0.16681E+04, tol = 0.57680E+04, time = 10.96 | CG iter. 32 -- res = 0.14085E+04, tol = 0.57680E+04, time = 17.34 | CG iter. 33 -- res = 0.11252E+04, tol = 0.57680E+04, time = 10.97 | CG iter. 34 -- res = 0.83605E+03, tol = 0.57680E+04, time = 10.74 | CG iter. 35 -- res = 0.62694E+03, tol = 0.57680E+04, time = 10.78 | CG iter. 36 -- res = 0.49755E+03, tol = 0.57680E+04, time = 10.61 | CG iter. 37 -- res = 0.43100E+03, tol = 0.57680E+04, time = 10.54 | CG iter. 38 -- res = 0.41375E+03, tol = 0.57680E+04, time = 10.73 | CG iter. 39 -- res = 0.40487E+03, tol = 0.57680E+04, time = 10.69 | CG iter. 40 -- res = 0.37541E+03, tol = 0.57680E+04, time = 12.64 | CG iter. 41 -- res = 0.33406E+03, tol = 0.57680E+04, time = 11.06 | CG iter. 42 -- res = 0.28990E+03, tol = 0.57680E+04, time = 10.87 | CG iter. 43 -- res = 0.25147E+03, tol = 0.57680E+04, time = 10.87 | CG iter. 44 -- res = 0.22682E+03, tol = 0.57680E+04, time = 10.77 | CG iter. 45 -- res = 0.20637E+03, tol = 0.57680E+04, time = 10.44 | CG iter. 46 -- res = 0.19519E+03, tol = 0.57680E+04, time = 11.62 | CG iter. 47 -- res = 0.16698E+03, tol = 0.57680E+04, time = 10.71 | CG iter. 48 -- res = 0.13509E+03, tol = 0.57680E+04, time = 11.20 | CG iter. 49 -- res = 0.10989E+03, tol = 0.57680E+04, time = 10.69 | CG iter. 50 -- res = 0.90815E+02, tol = 0.57680E+04, time = 10.66 | CG iter. 51 -- res = 0.79665E+02, tol = 0.57680E+04, time = 10.95 | CG iter. 52 -- res = 0.74607E+02, tol = 0.57680E+04, time = 11.11 | CG iter. 53 -- res = 0.70262E+02, tol = 0.57680E+04, time = 11.00 | CG iter. 54 -- res = 0.66992E+02, tol = 0.57680E+04, time = 11.00 | CG iter. 55 -- res = 0.62747E+02, tol = 0.57680E+04, time = 10.75 | CG iter. 56 -- res = 0.56583E+02, tol = 0.57680E+04, time = 10.51 | CG iter. 57 -- res = 0.51244E+02, tol = 0.57680E+04, time = 10.60 | CG iter. 58 -- res = 0.46623E+02, tol = 0.57680E+04, time = 10.72 | CG iter. 59 -- res = 0.44806E+02, tol = 0.57680E+04, time = 16.73 | CG iter. 60 -- res = 0.43388E+02, tol = 0.57680E+04, time = 10.88 | Final CG iter 61 -- res = 0.43388E+02, tol = 0.57680E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.903 ( -229.879 -2230.841 2513.284 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11282796.607 | Old band monopole 10548239.879 | Change to band monopole 734556.728 | Change to component monopole -734553.568 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.268 2.724 | New value -1.011 | Old value -2.268 | Difference 1.257 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.971 ( 6.871 11.531 -11.183 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.153 4.445 | New value -2.898 | Old value 4.153 | Difference -7.051 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.13724E+06, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.34239E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.15438E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.19326E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.21386E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11282748.077 | (Sampled value in CG: 11266932.688 ) | Chain = 1 -- chisq = 0.81521228E+09 | Chain = 1 -- wall time = 17769.357 sec Available RAM: MemAvailable: 489003464 kB Available Swap: SwapFree: 1055497524 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 237 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443671 | --> Sampling calibration, mode = relcal | relcal = 1.3411829E-02 7.5017771E-04 -1.5882849E-03 -1.2573722E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1043504 0.1177338 97037761.7794847 | BP delta = 9.9747702E-02 0.1131311 97037761.2854155 | BP chisq diff = -0.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632448 | --> Sampling calibration, mode = relcal | relcal = -2.8212846E-03 -7.0570875E-04 1.6786698E-03 1.6131427E-03 -4.0543987E-04 6.4062054E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5704668 15217695.4344959 | BP delta = 0.0000000E+00 -0.5745392 15217693.5114367 | BP chisq diff = -1.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18185156973775 | --> Sampling calibration, mode = relcal | relcal = -7.5156190E-02 -5.8640301E-02 9.2054002E-02 4.1742489E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3470971E-04 4.9085030E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1186E-05 | 2: delta_r/delta_0: 9.3389E-07 | 3: delta_s/delta_0: 2.0202E-07 | 4: delta_r/delta_0: 2.0129E-08 | 5: delta_s/delta_0: 1.7185E-08 | 6: delta_r/delta_0: 1.1737E-09 | 7: delta_s/delta_0: 2.5538E-10 | 8: delta_r/delta_0: 1.2391E-10 | 9: delta_s/delta_0: 2.5951E-10 | 10: delta_r/delta_0: 7.8118E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.468996420016638E-003 2.739076512530266E-005 | BP delta = 4.2773765E-02 6.1229482E-02 50481596.4714541 | BP delta = 4.8434783E-02 6.6890500E-02 50481594.8571787 | BP chisq diff = -1.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595017 | --> Sampling calibration, mode = relcal | relcal = -0.1066948 -9.5564924E-02 0.1449281 5.7331584E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9843659E-03 1.4808165E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.8558E-05 | 2: delta_r/delta_0: 1.8217E-06 | 3: delta_s/delta_0: 2.3660E-07 | 4: delta_r/delta_0: 3.5215E-08 | 5: delta_s/delta_0: 3.4216E-08 | 6: delta_r/delta_0: 6.4074E-09 | 7: delta_s/delta_0: 5.3001E-09 | 8: delta_r/delta_0: 1.6637E-09 | 9: delta_s/delta_0: 7.6653E-10 | 10: delta_r/delta_0: 5.7652E-10 | 11: delta_s/delta_0: 1.1378E-09 | 12: delta_r/delta_0: 9.6670E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.009740968132633E-002 2.810961160857390E-005 | BP delta = -0.2764758 -0.2555818 57392889.9488797 | BP delta = -0.2713940 -0.2505000 57392890.3612386 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81229528 | --> Sampling calibration, mode = relcal | relcal = 0.2955392 0.2248439 -0.2838409 -0.2365422 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1036680E-04 4.8813475E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0832E-03 | 2: delta_r/delta_0: 2.4803E-05 | 3: delta_s/delta_0: 2.0026E-01 | 4: delta_r/delta_0: 1.0038E-02 | 5: delta_s/delta_0: 2.1811E+00 | 6: delta_r/delta_0: 3.4352E-01 | 7: delta_s/delta_0: 5.8532E-08 | 8: delta_r/delta_0: 3.8392E-08 | 9: delta_s/delta_0: 4.9143E-07 | 10: delta_r/delta_0: 4.1788E-09 | 11: delta_s/delta_0: 1.2709E-09 | 12: delta_r/delta_0: 5.8875E-10 | 13: delta_s/delta_0: 1.5831E-09 | 14: delta_r/delta_0: 7.3262E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.932187420958211E-002 4.021444245178825E-005 | BP delta = -9.9528894E-02 -0.1094761 72485600.5162190 | BP delta = -0.1426423 -0.1525896 72485599.9150885 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95923410 | --> Sampling calibration, mode = relcal | relcal = 0.1064637 0.1396765 -0.1103076 -0.1358326 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0542803E-02 1.3223855E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4214E-04 | 2: delta_r/delta_0: 6.1883E-06 | 3: delta_s/delta_0: 8.4410E-06 | 4: delta_r/delta_0: 1.0200E-06 | 5: delta_s/delta_0: 2.0625E-07 | 6: delta_r/delta_0: 1.2361E-07 | 7: delta_s/delta_0: 5.7607E-07 | 8: delta_r/delta_0: 2.7896E-08 | 9: delta_s/delta_0: 4.4088E-07 | 10: delta_r/delta_0: 1.6762E-07 | 11: delta_s/delta_0: 1.5562E-09 | 12: delta_r/delta_0: 7.4957E-10 | 13: delta_s/delta_0: 5.4256E-09 | 14: delta_r/delta_0: 5.0342E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.058445927842502E-002 3.696912066351228E-005 | BP delta = 8.1098139E-02 0.1794758 72783445.4129451 | BP delta = 0.1322175 0.2305951 72783445.3676687 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129214 | New value = -3.054166 | poltype: 2 pol: 1 CPU time specind = 2.1205902E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160222 | New value = -3.151512 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149361 | New value = -3.143543 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.076963 | New value = -3.136308 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.209925 | New value = -3.189371 | poltype: 2 pol: 2 CPU time specind = 4.4564009E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.13781E+08, tol = 0.64560E+01, time = 5.72 | CG iter. 2 -- res = 0.44054E+06, tol = 0.64560E+01, time = 5.92 | CG iter. 3 -- res = 0.16614E+06, tol = 0.64560E+01, time = 5.66 | CG iter. 4 -- res = 0.23759E+06, tol = 0.64560E+01, time = 5.81 | CG iter. 5 -- res = 0.24249E+06, tol = 0.64560E+01, time = 5.94 | CG iter. 6 -- res = 0.20659E+06, tol = 0.64560E+01, time = 5.87 | CG iter. 7 -- res = 0.13984E+06, tol = 0.64560E+01, time = 5.37 | CG iter. 8 -- res = 0.89878E+05, tol = 0.64560E+01, time = 5.76 | CG iter. 9 -- res = 0.73656E+05, tol = 0.64560E+01, time = 5.40 | CG iter. 10 -- res = 0.59720E+05, tol = 0.64560E+01, time = 5.69 | CG iter. 11 -- res = 0.43986E+05, tol = 0.64560E+01, time = 5.75 | CG iter. 12 -- res = 0.30399E+05, tol = 0.64560E+01, time = 5.42 | CG iter. 13 -- res = 0.22519E+05, tol = 0.64560E+01, time = 5.58 | CG iter. 14 -- res = 0.18152E+05, tol = 0.64560E+01, time = 5.48 | CG iter. 15 -- res = 0.13911E+05, tol = 0.64560E+01, time = 5.80 | CG iter. 16 -- res = 0.90163E+04, tol = 0.64560E+01, time = 5.60 | CG iter. 17 -- res = 0.61302E+04, tol = 0.64560E+01, time = 7.13 | CG iter. 18 -- res = 0.51105E+04, tol = 0.64560E+01, time = 10.69 | CG iter. 19 -- res = 0.43772E+04, tol = 0.64560E+01, time = 5.72 | CG iter. 20 -- res = 0.31958E+04, tol = 0.64560E+01, time = 5.62 | CG iter. 21 -- res = 0.21549E+04, tol = 0.64560E+01, time = 6.01 | CG iter. 22 -- res = 0.17006E+04, tol = 0.64560E+01, time = 5.73 | CG iter. 23 -- res = 0.14657E+04, tol = 0.64560E+01, time = 5.93 | CG iter. 24 -- res = 0.11249E+04, tol = 0.64560E+01, time = 5.89 | CG iter. 25 -- res = 0.80429E+03, tol = 0.64560E+01, time = 5.38 | CG iter. 26 -- res = 0.60672E+03, tol = 0.64560E+01, time = 5.79 | CG iter. 27 -- res = 0.50357E+03, tol = 0.64560E+01, time = 5.52 | CG iter. 28 -- res = 0.40225E+03, tol = 0.64560E+01, time = 5.47 | CG iter. 29 -- res = 0.29341E+03, tol = 0.64560E+01, time = 5.98 | CG iter. 30 -- res = 0.21647E+03, tol = 0.64560E+01, time = 6.07 | CG iter. 31 -- res = 0.17380E+03, tol = 0.64560E+01, time = 5.63 | CG iter. 32 -- res = 0.14084E+03, tol = 0.64560E+01, time = 6.69 | CG iter. 33 -- res = 0.10148E+03, tol = 0.64560E+01, time = 6.54 | CG iter. 34 -- res = 0.72757E+02, tol = 0.64560E+01, time = 6.18 | CG iter. 35 -- res = 0.56107E+02, tol = 0.64560E+01, time = 6.01 | CG iter. 36 -- res = 0.45096E+02, tol = 0.64560E+01, time = 5.34 | CG iter. 37 -- res = 0.33769E+02, tol = 0.64560E+01, time = 6.10 | CG iter. 38 -- res = 0.24148E+02, tol = 0.64560E+01, time = 5.52 | CG iter. 39 -- res = 0.16805E+02, tol = 0.64560E+01, time = 5.31 | CG iter. 40 -- res = 0.13573E+02, tol = 0.64560E+01, time = 5.99 | CG iter. 41 -- res = 0.10444E+02, tol = 0.64560E+01, time = 5.41 | CG iter. 42 -- res = 0.73941E+01, tol = 0.64560E+01, time = 5.87 | CG iter. 43 -- res = 0.53898E+01, tol = 0.64560E+01, time = 6.00 | CG iter. 44 -- res = 0.41616E+01, tol = 0.64560E+01, time = 5.41 | CG iter. 45 -- res = 0.31378E+01, tol = 0.64560E+01, time = 5.44 | CG iter. 46 -- res = 0.22707E+01, tol = 0.64560E+01, time = 5.76 | CG iter. 47 -- res = 0.15868E+01, tol = 0.64560E+01, time = 6.00 | CG iter. 48 -- res = 0.11348E+01, tol = 0.64560E+01, time = 5.68 | CG iter. 49 -- res = 0.85035E+00, tol = 0.64560E+01, time = 5.80 | CG iter. 50 -- res = 0.62681E+00, tol = 0.64560E+01, time = 5.75 | Final CG iter 51 -- res = 0.62681E+00, tol = 0.64560E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8278121.786 | Old band monopole 11282796.607 | Change to band monopole -3004674.821 | Change to component monopole 3004661.897 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.13011E+07, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.48414E+03, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.49855E+01, tol = 0.47627E+18, time = 2.33 | CG iter. 4 -- res = 0.65909E-01, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.20671E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8278086.180 | (Sampled value in CG: 8388774.330 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.525574 | New value = 1.503591 | poltype: 2 pol: 1 CPU time specind = 1.7482042E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.503254 | New value = 1.474115 | poltype: 2 pol: 2 CPU time specind = 1.6443014E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.24093E+08, tol = 0.47553E+04, time = 6.72 | CG iter. 2 -- res = 0.52578E+07, tol = 0.47553E+04, time = 6.56 | CG iter. 3 -- res = 0.83305E+06, tol = 0.47553E+04, time = 6.35 | CG iter. 4 -- res = 0.34670E+06, tol = 0.47553E+04, time = 6.48 | CG iter. 5 -- res = 0.15111E+06, tol = 0.47553E+04, time = 6.67 | CG iter. 6 -- res = 0.80798E+05, tol = 0.47553E+04, time = 6.70 | CG iter. 7 -- res = 0.43905E+05, tol = 0.47553E+04, time = 6.25 | CG iter. 8 -- res = 0.20449E+05, tol = 0.47553E+04, time = 6.61 | CG iter. 9 -- res = 0.89835E+04, tol = 0.47553E+04, time = 6.27 | CG iter. 10 -- res = 0.36728E+04, tol = 0.47553E+04, time = 5.87 | CG iter. 11 -- res = 0.16351E+04, tol = 0.47553E+04, time = 7.05 | CG iter. 12 -- res = 0.84789E+03, tol = 0.47553E+04, time = 7.69 | CG iter. 13 -- res = 0.49207E+03, tol = 0.47553E+04, time = 6.83 | CG iter. 14 -- res = 0.27573E+03, tol = 0.47553E+04, time = 6.78 | CG iter. 15 -- res = 0.14020E+03, tol = 0.47553E+04, time = 6.62 | CG iter. 16 -- res = 0.66713E+02, tol = 0.47553E+04, time = 6.39 | CG iter. 17 -- res = 0.31283E+02, tol = 0.47553E+04, time = 6.56 | CG iter. 18 -- res = 0.15400E+02, tol = 0.47553E+04, time = 6.17 | CG iter. 19 -- res = 0.82588E+01, tol = 0.47553E+04, time = 6.44 | CG iter. 20 -- res = 0.47385E+01, tol = 0.47553E+04, time = 6.34 | CG iter. 21 -- res = 0.25622E+01, tol = 0.47553E+04, time = 6.78 | CG iter. 22 -- res = 0.13502E+01, tol = 0.47553E+04, time = 6.27 | CG iter. 23 -- res = 0.68308E+00, tol = 0.47553E+04, time = 6.21 | CG iter. 24 -- res = 0.35157E+00, tol = 0.47553E+04, time = 6.38 | CG iter. 25 -- res = 0.18915E+00, tol = 0.47553E+04, time = 6.64 | CG iter. 26 -- res = 0.10750E+00, tol = 0.47553E+04, time = 6.31 | CG iter. 27 -- res = 0.60050E-01, tol = 0.47553E+04, time = 6.86 | CG iter. 28 -- res = 0.32062E-01, tol = 0.47553E+04, time = 6.33 | CG iter. 29 -- res = 0.16515E-01, tol = 0.47553E+04, time = 7.11 | CG iter. 30 -- res = 0.85899E-02, tol = 0.47553E+04, time = 6.46 | CG iter. 31 -- res = 0.47338E-02, tol = 0.47553E+04, time = 6.43 | CG iter. 32 -- res = 0.27300E-02, tol = 0.47553E+04, time = 6.79 | CG iter. 33 -- res = 0.15516E-02, tol = 0.47553E+04, time = 6.70 | CG iter. 34 -- res = 0.82976E-03, tol = 0.47553E+04, time = 6.82 | CG iter. 35 -- res = 0.42731E-03, tol = 0.47553E+04, time = 6.55 | Final CG iter 36 -- res = 0.42731E-03, tol = 0.47553E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.968 2.743 | New value -2.924 | Old value -0.968 | Difference -1.956 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.21154E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.14472E+03, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.20649E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.10222E-03, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.13662E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8278086.180 | (Sampled value in CG: 8387726.144 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.610947 | New value = -3.506810 | poltype: 1 pol: 1 CPU time specind = 8.8150501E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.39375E+07, tol = 0.24520E+01, time = 2.82 | CG iter. 2 -- res = 0.16283E+07, tol = 0.24520E+01, time = 2.87 | CG iter. 3 -- res = 0.36965E+06, tol = 0.24520E+01, time = 2.70 | CG iter. 4 -- res = 0.17987E+06, tol = 0.24520E+01, time = 2.49 | CG iter. 5 -- res = 0.10396E+06, tol = 0.24520E+01, time = 2.90 | CG iter. 6 -- res = 0.43262E+05, tol = 0.24520E+01, time = 2.75 | CG iter. 7 -- res = 0.14642E+05, tol = 0.24520E+01, time = 2.79 | CG iter. 8 -- res = 0.66920E+04, tol = 0.24520E+01, time = 2.65 | CG iter. 9 -- res = 0.31956E+04, tol = 0.24520E+01, time = 2.65 | CG iter. 10 -- res = 0.12903E+04, tol = 0.24520E+01, time = 2.73 | CG iter. 11 -- res = 0.51123E+03, tol = 0.24520E+01, time = 2.65 | CG iter. 12 -- res = 0.23156E+03, tol = 0.24520E+01, time = 2.76 | CG iter. 13 -- res = 0.11560E+03, tol = 0.24520E+01, time = 2.77 | CG iter. 14 -- res = 0.58465E+02, tol = 0.24520E+01, time = 2.35 | CG iter. 15 -- res = 0.29055E+02, tol = 0.24520E+01, time = 2.78 | CG iter. 16 -- res = 0.13683E+02, tol = 0.24520E+01, time = 2.67 | CG iter. 17 -- res = 0.55274E+01, tol = 0.24520E+01, time = 3.00 | CG iter. 18 -- res = 0.25578E+01, tol = 0.24520E+01, time = 8.98 | CG iter. 19 -- res = 0.12383E+01, tol = 0.24520E+01, time = 2.80 | CG iter. 20 -- res = 0.62457E+00, tol = 0.24520E+01, time = 2.59 | CG iter. 21 -- res = 0.30459E+00, tol = 0.24520E+01, time = 2.51 | CG iter. 22 -- res = 0.14551E+00, tol = 0.24520E+01, time = 2.93 | CG iter. 23 -- res = 0.66222E-01, tol = 0.24520E+01, time = 2.97 | CG iter. 24 -- res = 0.30928E-01, tol = 0.24520E+01, time = 2.34 | CG iter. 25 -- res = 0.14436E-01, tol = 0.24520E+01, time = 2.38 | CG iter. 26 -- res = 0.69405E-02, tol = 0.24520E+01, time = 2.74 | CG iter. 27 -- res = 0.35326E-02, tol = 0.24520E+01, time = 2.98 | CG iter. 28 -- res = 0.18659E-02, tol = 0.24520E+01, time = 3.11 | CG iter. 29 -- res = 0.90065E-03, tol = 0.24520E+01, time = 2.72 | CG iter. 30 -- res = 0.43466E-03, tol = 0.24520E+01, time = 2.67 | CG iter. 31 -- res = 0.20116E-03, tol = 0.24520E+01, time = 2.53 | CG iter. 32 -- res = 0.91681E-04, tol = 0.24520E+01, time = 2.74 | CG iter. 33 -- res = 0.45432E-04, tol = 0.24520E+01, time = 2.70 | CG iter. 34 -- res = 0.23597E-04, tol = 0.24520E+01, time = 2.98 | CG iter. 35 -- res = 0.12243E-04, tol = 0.24520E+01, time = 3.02 | CG iter. 36 -- res = 0.60032E-05, tol = 0.24520E+01, time = 3.01 | CG iter. 37 -- res = 0.26835E-05, tol = 0.24520E+01, time = 2.70 | CG iter. 38 -- res = 0.12288E-05, tol = 0.24520E+01, time = 2.64 | CG iter. 39 -- res = 0.60195E-06, tol = 0.24520E+01, time = 2.76 | CG iter. 40 -- res = 0.30138E-06, tol = 0.24520E+01, time = 2.74 | CG iter. 41 -- res = 0.15265E-06, tol = 0.24520E+01, time = 2.72 | CG iter. 42 -- res = 0.77413E-07, tol = 0.24520E+01, time = 2.62 | CG iter. 43 -- res = 0.33568E-07, tol = 0.24520E+01, time = 2.69 | CG iter. 44 -- res = 0.15650E-07, tol = 0.24520E+01, time = 2.69 | CG iter. 45 -- res = 0.74832E-08, tol = 0.24520E+01, time = 2.58 | CG iter. 46 -- res = 0.35914E-08, tol = 0.24520E+01, time = 2.73 | CG iter. 47 -- res = 0.18320E-08, tol = 0.24520E+01, time = 2.74 | CG iter. 48 -- res = 0.93672E-09, tol = 0.24520E+01, time = 2.55 | CG iter. 49 -- res = 0.43172E-09, tol = 0.24520E+01, time = 2.96 | CG iter. 50 -- res = 0.19596E-09, tol = 0.24520E+01, time = 4.08 | Final CG iter 51 -- res = 0.19596E-09, tol = 0.24520E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.388 3.093 | New value -1.432 | Old value 4.388 | Difference -5.820 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.45785E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.87972E+02, tol = 0.47627E+18, time = 2.35 | CG iter. 3 -- res = 0.18613E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.53628E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.94808E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8278086.180 | (Sampled value in CG: 8362874.686 ) | CPU time specind = 1199.448 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.68953E+08, tol = 0.57593E+04, time = 12.04 | CG iter. 2 -- res = 0.59875E+08, tol = 0.57593E+04, time = 12.42 | CG iter. 3 -- res = 0.15973E+08, tol = 0.57593E+04, time = 12.22 | CG iter. 4 -- res = 0.67971E+07, tol = 0.57593E+04, time = 11.76 | CG iter. 5 -- res = 0.40179E+07, tol = 0.57593E+04, time = 11.98 | CG iter. 6 -- res = 0.22728E+07, tol = 0.57593E+04, time = 11.92 | CG iter. 7 -- res = 0.13575E+07, tol = 0.57593E+04, time = 11.83 | CG iter. 8 -- res = 0.94573E+06, tol = 0.57593E+04, time = 11.93 | CG iter. 9 -- res = 0.63353E+06, tol = 0.57593E+04, time = 12.06 | CG iter. 10 -- res = 0.39779E+06, tol = 0.57593E+04, time = 18.54 | CG iter. 11 -- res = 0.23684E+06, tol = 0.57593E+04, time = 12.08 | CG iter. 12 -- res = 0.14548E+06, tol = 0.57593E+04, time = 11.55 | CG iter. 13 -- res = 0.10266E+06, tol = 0.57593E+04, time = 11.54 | CG iter. 14 -- res = 0.80099E+05, tol = 0.57593E+04, time = 11.93 | CG iter. 15 -- res = 0.72509E+05, tol = 0.57593E+04, time = 12.04 | CG iter. 16 -- res = 0.72952E+05, tol = 0.57593E+04, time = 11.61 | CG iter. 17 -- res = 0.73378E+05, tol = 0.57593E+04, time = 11.71 | CG iter. 18 -- res = 0.68697E+05, tol = 0.57593E+04, time = 13.59 | CG iter. 19 -- res = 0.61284E+05, tol = 0.57593E+04, time = 11.77 | CG iter. 20 -- res = 0.53708E+05, tol = 0.57593E+04, time = 11.79 | CG iter. 21 -- res = 0.49239E+05, tol = 0.57593E+04, time = 11.92 | CG iter. 22 -- res = 0.46041E+05, tol = 0.57593E+04, time = 11.92 | CG iter. 23 -- res = 0.41838E+05, tol = 0.57593E+04, time = 11.87 | CG iter. 24 -- res = 0.36502E+05, tol = 0.57593E+04, time = 11.83 | CG iter. 25 -- res = 0.29055E+05, tol = 0.57593E+04, time = 11.97 | CG iter. 26 -- res = 0.21790E+05, tol = 0.57593E+04, time = 11.94 | CG iter. 27 -- res = 0.16582E+05, tol = 0.57593E+04, time = 11.57 | CG iter. 28 -- res = 0.13322E+05, tol = 0.57593E+04, time = 12.21 | CG iter. 29 -- res = 0.11464E+05, tol = 0.57593E+04, time = 11.78 | CG iter. 30 -- res = 0.10774E+05, tol = 0.57593E+04, time = 11.68 | CG iter. 31 -- res = 0.10208E+05, tol = 0.57593E+04, time = 11.36 | CG iter. 32 -- res = 0.94981E+04, tol = 0.57593E+04, time = 12.04 | CG iter. 33 -- res = 0.87390E+04, tol = 0.57593E+04, time = 11.61 | CG iter. 34 -- res = 0.75999E+04, tol = 0.57593E+04, time = 11.98 | CG iter. 35 -- res = 0.63059E+04, tol = 0.57593E+04, time = 18.45 | CG iter. 36 -- res = 0.54132E+04, tol = 0.57593E+04, time = 11.39 | CG iter. 37 -- res = 0.48628E+04, tol = 0.57593E+04, time = 12.18 | CG iter. 38 -- res = 0.45165E+04, tol = 0.57593E+04, time = 11.59 | CG iter. 39 -- res = 0.39894E+04, tol = 0.57593E+04, time = 11.41 | CG iter. 40 -- res = 0.33225E+04, tol = 0.57593E+04, time = 11.75 | CG iter. 41 -- res = 0.26797E+04, tol = 0.57593E+04, time = 12.58 | CG iter. 42 -- res = 0.22509E+04, tol = 0.57593E+04, time = 13.34 | CG iter. 43 -- res = 0.20056E+04, tol = 0.57593E+04, time = 12.38 | CG iter. 44 -- res = 0.18675E+04, tol = 0.57593E+04, time = 11.46 | CG iter. 45 -- res = 0.18074E+04, tol = 0.57593E+04, time = 11.76 | CG iter. 46 -- res = 0.17185E+04, tol = 0.57593E+04, time = 12.01 | CG iter. 47 -- res = 0.15830E+04, tol = 0.57593E+04, time = 11.83 | CG iter. 48 -- res = 0.13698E+04, tol = 0.57593E+04, time = 12.22 | CG iter. 49 -- res = 0.11779E+04, tol = 0.57593E+04, time = 11.86 | CG iter. 50 -- res = 0.10596E+04, tol = 0.57593E+04, time = 11.44 | CG iter. 51 -- res = 0.96925E+03, tol = 0.57593E+04, time = 12.42 | CG iter. 52 -- res = 0.91295E+03, tol = 0.57593E+04, time = 11.65 | CG iter. 53 -- res = 0.83771E+03, tol = 0.57593E+04, time = 11.71 | CG iter. 54 -- res = 0.74362E+03, tol = 0.57593E+04, time = 11.71 | CG iter. 55 -- res = 0.64758E+03, tol = 0.57593E+04, time = 11.96 | CG iter. 56 -- res = 0.57959E+03, tol = 0.57593E+04, time = 11.32 | CG iter. 57 -- res = 0.51753E+03, tol = 0.57593E+04, time = 12.00 | CG iter. 58 -- res = 0.46863E+03, tol = 0.57593E+04, time = 12.14 | CG iter. 59 -- res = 0.45204E+03, tol = 0.57593E+04, time = 11.49 | CG iter. 60 -- res = 0.43197E+03, tol = 0.57593E+04, time = 18.41 | Final CG iter 61 -- res = 0.43197E+03, tol = 0.57593E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.838 ( -229.657 -2230.622 2513.262 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6147517.405 | Old band monopole 8278121.786 | Change to band monopole -2130604.381 | Change to component monopole 2130595.217 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.967 2.731 | New value 2.872 | Old value -2.967 | Difference 5.839 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.355 ( 5.231 10.531 -11.362 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.106 3.988 | New value -5.474 | Old value -1.106 | Difference -4.368 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.19273E+07, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.75414E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.29364E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.38609E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.61638E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6147490.963 | (Sampled value in CG: 6125683.606 ) | Chain = 1 -- chisq = 0.81523486E+09 | Chain = 1 -- wall time = 5691.902 sec Available RAM: MemAvailable: 383491120 kB Available Swap: SwapFree: 1125116192 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 238 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443896 | --> Sampling calibration, mode = relcal | relcal = 1.3418460E-02 7.4580754E-04 -1.5850973E-03 -1.2579170E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9747702E-02 0.1131311 9406195.91699609 | BP delta = 9.9747702E-02 0.1237144 9406292.52942030 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632427 | --> Sampling calibration, mode = relcal | relcal = -2.8212555E-03 -7.0438517E-04 1.6796687E-03 1.6141704E-03 -4.0792659E-04 6.3972827E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5745392 15216183.0577330 | BP delta = 0.0000000E+00 -0.5784106 15216183.3494893 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17854134453810 | --> Sampling calibration, mode = relcal | relcal = -7.4151687E-02 -5.7803761E-02 9.0857618E-02 4.1097827E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -9.3650096E-06 3.2043059E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6186E-02 | 2: delta_r/delta_0: 5.5331E-04 | 3: delta_s/delta_0: 1.9679E-07 | 4: delta_r/delta_0: 2.0430E-08 | 5: delta_s/delta_0: 9.9963E-09 | 6: delta_r/delta_0: 2.3984E-09 | 7: delta_s/delta_0: 9.4391E-10 | 8: delta_r/delta_0: 1.0595E-10 | 9: delta_s/delta_0: 9.1543E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.515355209414613E-003 2.746914366863369E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6162E-02 | 2: delta_r/delta_0: 5.5283E-04 | 3: delta_s/delta_0: 1.9679E-07 | 4: delta_r/delta_0: 2.0431E-08 | 5: delta_s/delta_0: 9.9966E-09 | 6: delta_r/delta_0: 2.3985E-09 | 7: delta_s/delta_0: 9.4436E-10 | 8: delta_r/delta_0: 1.0596E-10 | 9: delta_s/delta_0: 9.1552E-11 | Reached bicg-stab tolerance | BP delta = 4.8434783E-02 6.6890500E-02 3648949.07477947 | BP delta = 4.8434783E-02 6.7100018E-02 3647321.38944213 | BP chisq diff = -1627.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02591576 | --> Sampling calibration, mode = relcal | relcal = -0.1066857 -9.5568866E-02 0.1449796 5.7274938E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5897419E-03 1.5399450E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.2769E-05 | 2: delta_r/delta_0: 1.9051E-06 | 3: delta_s/delta_0: 2.3643E-07 | 4: delta_r/delta_0: 4.1326E-08 | 5: delta_s/delta_0: 3.3617E-08 | 6: delta_r/delta_0: 7.2746E-09 | 7: delta_s/delta_0: 5.1927E-09 | 8: delta_r/delta_0: 1.9632E-09 | 9: delta_s/delta_0: 8.6865E-10 | 10: delta_r/delta_0: 6.5292E-10 | 11: delta_s/delta_0: 1.9409E-09 | 12: delta_r/delta_0: 9.2336E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.030934030010312E-002 2.811091140889060E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.2770E-05 | 2: delta_r/delta_0: 1.9052E-06 | 3: delta_s/delta_0: 2.3644E-07 | 4: delta_r/delta_0: 4.1357E-08 | 5: delta_s/delta_0: 3.3588E-08 | 6: delta_r/delta_0: 7.2759E-09 | 7: delta_s/delta_0: 5.1921E-09 | 8: delta_r/delta_0: 1.9637E-09 | 9: delta_s/delta_0: 8.6897E-10 | 10: delta_r/delta_0: 6.5315E-10 | 11: delta_s/delta_0: 1.9422E-09 | 12: delta_r/delta_0: 9.2358E-11 | Reached bicg-stab tolerance | BP delta = -0.2764758 -0.2555818 2841672.05853538 | BP delta = -0.2764758 -0.2518750 2841653.04216707 | BP chisq diff = -19.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81223103 | --> Sampling calibration, mode = relcal | relcal = 0.2954078 0.2248666 -0.2838141 -0.2364604 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8890678E-04 5.1763160E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7020E-03 | 2: delta_r/delta_0: 8.6114E-05 | 3: delta_s/delta_0: 4.5418E-04 | 4: delta_r/delta_0: 1.3017E-05 | 5: delta_s/delta_0: 1.5997E-05 | 6: delta_r/delta_0: 1.6695E-06 | 7: delta_s/delta_0: 8.8428E-08 | 8: delta_r/delta_0: 2.0891E-08 | 9: delta_s/delta_0: 3.3359E-08 | 10: delta_r/delta_0: 4.2354E-09 | 11: delta_s/delta_0: 2.6262E-09 | 12: delta_r/delta_0: 4.8782E-10 | 13: delta_s/delta_0: 9.9138E-08 | 14: delta_r/delta_0: 1.4158E-08 | 15: delta_s/delta_0: 1.1041E-09 | 16: delta_r/delta_0: 6.9846E-10 | 17: delta_s/delta_0: 1.3273E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.641202833422186E-002 4.021677605214638E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6984E-03 | 2: delta_r/delta_0: 8.6030E-05 | 3: delta_s/delta_0: 4.5950E-04 | 4: delta_r/delta_0: 1.3200E-05 | 5: delta_s/delta_0: 1.6016E-05 | 6: delta_r/delta_0: 1.6733E-06 | 7: delta_s/delta_0: 8.8164E-08 | 8: delta_r/delta_0: 2.0916E-08 | 9: delta_s/delta_0: 3.3536E-08 | 10: delta_r/delta_0: 4.2353E-09 | 11: delta_s/delta_0: 2.6258E-09 | 12: delta_r/delta_0: 4.8763E-10 | 13: delta_s/delta_0: 9.9165E-08 | 14: delta_r/delta_0: 1.4186E-08 | 15: delta_s/delta_0: 1.1108E-09 | 16: delta_r/delta_0: 7.0306E-10 | 17: delta_s/delta_0: 1.3278E-11 | Reached bicg-stab tolerance | BP delta = -0.1426423 -0.1525896 2827505.49594124 | BP delta = -0.1426423 -0.1514690 2827572.25726200 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95906598 | --> Sampling calibration, mode = relcal | relcal = 0.1065355 0.1395862 -0.1102672 -0.1358545 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6910968E-03 1.3607545E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5535E-03 | 2: delta_r/delta_0: 1.0938E-04 | 3: delta_s/delta_0: 6.2667E-04 | 4: delta_r/delta_0: 2.3234E-05 | 5: delta_s/delta_0: 7.0948E-07 | 6: delta_r/delta_0: 2.5058E-07 | 7: delta_s/delta_0: 3.6719E-07 | 8: delta_r/delta_0: 6.1615E-08 | 9: delta_s/delta_0: 2.0493E-08 | 10: delta_r/delta_0: 7.3095E-09 | 11: delta_s/delta_0: 2.9505E-09 | 12: delta_r/delta_0: 1.7309E-09 | 13: delta_s/delta_0: 3.2979E-10 | 14: delta_r/delta_0: 1.3574E-10 | 15: delta_s/delta_0: 1.2717E-10 | 16: delta_r/delta_0: 1.0014E-10 | 17: delta_s/delta_0: 2.3747E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.088303494910718E-002 3.697605336831863E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5642E-03 | 2: delta_r/delta_0: 1.0963E-04 | 3: delta_s/delta_0: 6.2835E-04 | 4: delta_r/delta_0: 2.3285E-05 | 5: delta_s/delta_0: 7.1016E-07 | 6: delta_r/delta_0: 2.5077E-07 | 7: delta_s/delta_0: 3.6690E-07 | 8: delta_r/delta_0: 6.1651E-08 | 9: delta_s/delta_0: 2.0509E-08 | 10: delta_r/delta_0: 7.3250E-09 | 11: delta_s/delta_0: 2.9565E-09 | 12: delta_r/delta_0: 1.7288E-09 | 13: delta_s/delta_0: 3.3067E-10 | 14: delta_r/delta_0: 1.3539E-10 | 15: delta_s/delta_0: 1.2682E-10 | 16: delta_r/delta_0: 9.9918E-11 | Reached bicg-stab tolerance | BP delta = 0.1322175 0.2305951 3004209.24739991 | BP delta = 0.1322175 0.2449946 3004790.00552999 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.054166 | New value = -3.196795 | poltype: 2 pol: 1 CPU time specind = 9.6480846E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.151512 | New value = -3.218421 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143543 | New value = -3.193948 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136308 | New value = -3.167241 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189371 | New value = -3.165181 | poltype: 2 pol: 2 CPU time specind = 2.0577908E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.13741E+08, tol = 0.10205E+02, time = 5.57 | CG iter. 2 -- res = 0.43322E+06, tol = 0.10205E+02, time = 5.24 | CG iter. 3 -- res = 0.15870E+06, tol = 0.10205E+02, time = 5.56 | CG iter. 4 -- res = 0.26111E+06, tol = 0.10205E+02, time = 5.61 | CG iter. 5 -- res = 0.29279E+06, tol = 0.10205E+02, time = 5.56 | CG iter. 6 -- res = 0.23576E+06, tol = 0.10205E+02, time = 5.90 | CG iter. 7 -- res = 0.17600E+06, tol = 0.10205E+02, time = 5.64 | CG iter. 8 -- res = 0.12454E+06, tol = 0.10205E+02, time = 5.22 | CG iter. 9 -- res = 0.11107E+06, tol = 0.10205E+02, time = 5.72 | CG iter. 10 -- res = 0.94257E+05, tol = 0.10205E+02, time = 5.91 | CG iter. 11 -- res = 0.69996E+05, tol = 0.10205E+02, time = 5.49 | CG iter. 12 -- res = 0.54224E+05, tol = 0.10205E+02, time = 5.50 | CG iter. 13 -- res = 0.48637E+05, tol = 0.10205E+02, time = 7.43 | CG iter. 14 -- res = 0.40424E+05, tol = 0.10205E+02, time = 5.94 | CG iter. 15 -- res = 0.31287E+05, tol = 0.10205E+02, time = 5.67 | CG iter. 16 -- res = 0.21683E+05, tol = 0.10205E+02, time = 5.70 | CG iter. 17 -- res = 0.16699E+05, tol = 0.10205E+02, time = 5.60 | CG iter. 18 -- res = 0.15166E+05, tol = 0.10205E+02, time = 5.27 | CG iter. 19 -- res = 0.13233E+05, tol = 0.10205E+02, time = 5.84 | CG iter. 20 -- res = 0.10337E+05, tol = 0.10205E+02, time = 5.59 | CG iter. 21 -- res = 0.78268E+04, tol = 0.10205E+02, time = 5.24 | CG iter. 22 -- res = 0.68169E+04, tol = 0.10205E+02, time = 5.54 | CG iter. 23 -- res = 0.58520E+04, tol = 0.10205E+02, time = 5.57 | CG iter. 24 -- res = 0.47143E+04, tol = 0.10205E+02, time = 5.56 | CG iter. 25 -- res = 0.37043E+04, tol = 0.10205E+02, time = 5.70 | CG iter. 26 -- res = 0.31191E+04, tol = 0.10205E+02, time = 5.47 | CG iter. 27 -- res = 0.28772E+04, tol = 0.10205E+02, time = 5.64 | CG iter. 28 -- res = 0.24930E+04, tol = 0.10205E+02, time = 5.52 | CG iter. 29 -- res = 0.19572E+04, tol = 0.10205E+02, time = 5.63 | CG iter. 30 -- res = 0.16243E+04, tol = 0.10205E+02, time = 5.80 | CG iter. 31 -- res = 0.14859E+04, tol = 0.10205E+02, time = 5.42 | CG iter. 32 -- res = 0.13525E+04, tol = 0.10205E+02, time = 5.66 | CG iter. 33 -- res = 0.10638E+04, tol = 0.10205E+02, time = 5.64 | CG iter. 34 -- res = 0.86353E+03, tol = 0.10205E+02, time = 6.02 | CG iter. 35 -- res = 0.74935E+03, tol = 0.10205E+02, time = 5.66 | CG iter. 36 -- res = 0.69980E+03, tol = 0.10205E+02, time = 5.60 | CG iter. 37 -- res = 0.57966E+03, tol = 0.10205E+02, time = 5.80 | CG iter. 38 -- res = 0.47275E+03, tol = 0.10205E+02, time = 5.71 | CG iter. 39 -- res = 0.39048E+03, tol = 0.10205E+02, time = 5.42 | CG iter. 40 -- res = 0.35481E+03, tol = 0.10205E+02, time = 5.46 | CG iter. 41 -- res = 0.29971E+03, tol = 0.10205E+02, time = 5.64 | CG iter. 42 -- res = 0.23800E+03, tol = 0.10205E+02, time = 5.66 | CG iter. 43 -- res = 0.19631E+03, tol = 0.10205E+02, time = 5.42 | CG iter. 44 -- res = 0.17200E+03, tol = 0.10205E+02, time = 5.58 | CG iter. 45 -- res = 0.14640E+03, tol = 0.10205E+02, time = 5.40 | CG iter. 46 -- res = 0.11474E+03, tol = 0.10205E+02, time = 5.49 | CG iter. 47 -- res = 0.90135E+02, tol = 0.10205E+02, time = 5.47 | CG iter. 48 -- res = 0.76041E+02, tol = 0.10205E+02, time = 5.80 | CG iter. 49 -- res = 0.65043E+02, tol = 0.10205E+02, time = 6.25 | CG iter. 50 -- res = 0.54086E+02, tol = 0.10205E+02, time = 11.06 | Final CG iter 51 -- res = 0.54086E+02, tol = 0.10205E+02 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8306637.916 | Old band monopole 6147517.405 | Change to band monopole 2159120.512 | Change to component monopole -2159111.225 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.27445E+07, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.12300E+04, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.45154E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.12480E+00, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.18755E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8306602.188 | (Sampled value in CG: 8156804.924 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.503591 | New value = 1.524025 | poltype: 2 pol: 1 CPU time specind = 9.7241402E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.474115 | New value = 1.483541 | poltype: 2 pol: 2 CPU time specind = 1.4252901E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.24093E+08, tol = 0.47649E+04, time = 6.27 | CG iter. 2 -- res = 0.52443E+07, tol = 0.47649E+04, time = 6.35 | CG iter. 3 -- res = 0.82854E+06, tol = 0.47649E+04, time = 6.28 | CG iter. 4 -- res = 0.34860E+06, tol = 0.47649E+04, time = 6.42 | CG iter. 5 -- res = 0.15023E+06, tol = 0.47649E+04, time = 6.47 | CG iter. 6 -- res = 0.80424E+05, tol = 0.47649E+04, time = 6.86 | CG iter. 7 -- res = 0.44057E+05, tol = 0.47649E+04, time = 6.20 | CG iter. 8 -- res = 0.21359E+05, tol = 0.47649E+04, time = 6.20 | CG iter. 9 -- res = 0.91988E+04, tol = 0.47649E+04, time = 6.66 | CG iter. 10 -- res = 0.37451E+04, tol = 0.47649E+04, time = 6.49 | CG iter. 11 -- res = 0.16698E+04, tol = 0.47649E+04, time = 6.40 | CG iter. 12 -- res = 0.86145E+03, tol = 0.47649E+04, time = 6.43 | CG iter. 13 -- res = 0.49070E+03, tol = 0.47649E+04, time = 7.41 | CG iter. 14 -- res = 0.28051E+03, tol = 0.47649E+04, time = 6.41 | CG iter. 15 -- res = 0.14566E+03, tol = 0.47649E+04, time = 6.33 | CG iter. 16 -- res = 0.68256E+02, tol = 0.47649E+04, time = 6.53 | CG iter. 17 -- res = 0.31625E+02, tol = 0.47649E+04, time = 6.44 | CG iter. 18 -- res = 0.15957E+02, tol = 0.47649E+04, time = 6.38 | CG iter. 19 -- res = 0.87029E+01, tol = 0.47649E+04, time = 6.17 | CG iter. 20 -- res = 0.49547E+01, tol = 0.47649E+04, time = 6.48 | CG iter. 21 -- res = 0.27233E+01, tol = 0.47649E+04, time = 6.57 | CG iter. 22 -- res = 0.13748E+01, tol = 0.47649E+04, time = 6.47 | CG iter. 23 -- res = 0.68374E+00, tol = 0.47649E+04, time = 6.40 | CG iter. 24 -- res = 0.34631E+00, tol = 0.47649E+04, time = 6.12 | CG iter. 25 -- res = 0.18995E+00, tol = 0.47649E+04, time = 6.44 | CG iter. 26 -- res = 0.10718E+00, tol = 0.47649E+04, time = 6.23 | CG iter. 27 -- res = 0.58998E-01, tol = 0.47649E+04, time = 6.54 | CG iter. 28 -- res = 0.31082E-01, tol = 0.47649E+04, time = 12.30 | CG iter. 29 -- res = 0.15845E-01, tol = 0.47649E+04, time = 6.81 | CG iter. 30 -- res = 0.82691E-02, tol = 0.47649E+04, time = 6.33 | CG iter. 31 -- res = 0.45766E-02, tol = 0.47649E+04, time = 6.28 | CG iter. 32 -- res = 0.25868E-02, tol = 0.47649E+04, time = 6.07 | CG iter. 33 -- res = 0.14331E-02, tol = 0.47649E+04, time = 6.40 | CG iter. 34 -- res = 0.75917E-03, tol = 0.47649E+04, time = 6.42 | CG iter. 35 -- res = 0.38848E-03, tol = 0.47649E+04, time = 6.36 | Final CG iter 36 -- res = 0.38848E-03, tol = 0.47649E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.895 2.729 | New value 0.157 | Old value 2.895 | Difference -2.739 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.41375E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.26419E+03, tol = 0.47627E+18, time = 3.06 | CG iter. 3 -- res = 0.24007E+01, tol = 0.47627E+18, time = 2.73 | CG iter. 4 -- res = 0.67598E-03, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.12762E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8306602.188 | (Sampled value in CG: 8155563.042 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.506810 | New value = -3.485704 | poltype: 1 pol: 1 CPU time specind = 9.3569756E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.74184E+07, tol = 0.31502E+01, time = 2.86 | CG iter. 2 -- res = 0.37574E+07, tol = 0.31502E+01, time = 2.58 | CG iter. 3 -- res = 0.89869E+06, tol = 0.31502E+01, time = 2.60 | CG iter. 4 -- res = 0.44392E+06, tol = 0.31502E+01, time = 2.40 | CG iter. 5 -- res = 0.26118E+06, tol = 0.31502E+01, time = 2.88 | CG iter. 6 -- res = 0.10635E+06, tol = 0.31502E+01, time = 2.36 | CG iter. 7 -- res = 0.32372E+05, tol = 0.31502E+01, time = 2.83 | CG iter. 8 -- res = 0.14147E+05, tol = 0.31502E+01, time = 2.58 | CG iter. 9 -- res = 0.73225E+04, tol = 0.31502E+01, time = 2.83 | CG iter. 10 -- res = 0.31184E+04, tol = 0.31502E+01, time = 2.89 | CG iter. 11 -- res = 0.11933E+04, tol = 0.31502E+01, time = 2.76 | CG iter. 12 -- res = 0.53920E+03, tol = 0.31502E+01, time = 2.63 | CG iter. 13 -- res = 0.27108E+03, tol = 0.31502E+01, time = 2.52 | CG iter. 14 -- res = 0.13801E+03, tol = 0.31502E+01, time = 2.49 | CG iter. 15 -- res = 0.64497E+02, tol = 0.31502E+01, time = 2.70 | CG iter. 16 -- res = 0.29506E+02, tol = 0.31502E+01, time = 3.70 | CG iter. 17 -- res = 0.12729E+02, tol = 0.31502E+01, time = 3.15 | CG iter. 18 -- res = 0.60174E+01, tol = 0.31502E+01, time = 3.14 | CG iter. 19 -- res = 0.28559E+01, tol = 0.31502E+01, time = 2.90 | CG iter. 20 -- res = 0.13846E+01, tol = 0.31502E+01, time = 2.90 | CG iter. 21 -- res = 0.66104E+00, tol = 0.31502E+01, time = 2.71 | CG iter. 22 -- res = 0.30444E+00, tol = 0.31502E+01, time = 2.70 | CG iter. 23 -- res = 0.13991E+00, tol = 0.31502E+01, time = 2.62 | CG iter. 24 -- res = 0.65363E-01, tol = 0.31502E+01, time = 2.68 | CG iter. 25 -- res = 0.30338E-01, tol = 0.31502E+01, time = 2.69 | CG iter. 26 -- res = 0.14878E-01, tol = 0.31502E+01, time = 2.69 | CG iter. 27 -- res = 0.73544E-02, tol = 0.31502E+01, time = 2.85 | CG iter. 28 -- res = 0.37096E-02, tol = 0.31502E+01, time = 3.09 | CG iter. 29 -- res = 0.17842E-02, tol = 0.31502E+01, time = 2.82 | CG iter. 30 -- res = 0.89326E-03, tol = 0.31502E+01, time = 2.76 | CG iter. 31 -- res = 0.41366E-03, tol = 0.31502E+01, time = 2.63 | CG iter. 32 -- res = 0.19119E-03, tol = 0.31502E+01, time = 2.59 | CG iter. 33 -- res = 0.94003E-04, tol = 0.31502E+01, time = 2.55 | CG iter. 34 -- res = 0.46848E-04, tol = 0.31502E+01, time = 2.99 | CG iter. 35 -- res = 0.25239E-04, tol = 0.31502E+01, time = 2.82 | CG iter. 36 -- res = 0.12426E-04, tol = 0.31502E+01, time = 2.71 | CG iter. 37 -- res = 0.56942E-05, tol = 0.31502E+01, time = 2.73 | CG iter. 38 -- res = 0.26353E-05, tol = 0.31502E+01, time = 2.79 | CG iter. 39 -- res = 0.12833E-05, tol = 0.31502E+01, time = 2.70 | CG iter. 40 -- res = 0.65045E-06, tol = 0.31502E+01, time = 2.71 | CG iter. 41 -- res = 0.33082E-06, tol = 0.31502E+01, time = 2.68 | CG iter. 42 -- res = 0.16429E-06, tol = 0.31502E+01, time = 2.65 | CG iter. 43 -- res = 0.74686E-07, tol = 0.31502E+01, time = 2.89 | CG iter. 44 -- res = 0.34469E-07, tol = 0.31502E+01, time = 2.72 | CG iter. 45 -- res = 0.16137E-07, tol = 0.31502E+01, time = 2.46 | CG iter. 46 -- res = 0.80781E-08, tol = 0.31502E+01, time = 2.74 | CG iter. 47 -- res = 0.41284E-08, tol = 0.31502E+01, time = 2.92 | CG iter. 48 -- res = 0.20447E-08, tol = 0.31502E+01, time = 2.76 | CG iter. 49 -- res = 0.97772E-09, tol = 0.31502E+01, time = 2.36 | CG iter. 50 -- res = 0.45348E-09, tol = 0.31502E+01, time = 2.65 | Final CG iter 51 -- res = 0.45348E-09, tol = 0.31502E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -17.402 6.340 | New value -0.300 | Old value -17.402 | Difference 17.101 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.31850E+06, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.26712E+03, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.38874E+01, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.44461E-01, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.88988E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8306602.188 | (Sampled value in CG: 8193414.919 ) | CPU time specind = 1169.085 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.68861E+08, tol = 0.57594E+04, time = 11.59 | CG iter. 2 -- res = 0.58531E+08, tol = 0.57594E+04, time = 11.44 | CG iter. 3 -- res = 0.15192E+08, tol = 0.57594E+04, time = 17.95 | CG iter. 4 -- res = 0.65495E+07, tol = 0.57594E+04, time = 11.44 | CG iter. 5 -- res = 0.38916E+07, tol = 0.57594E+04, time = 11.94 | CG iter. 6 -- res = 0.22312E+07, tol = 0.57594E+04, time = 11.90 | CG iter. 7 -- res = 0.13557E+07, tol = 0.57594E+04, time = 12.06 | CG iter. 8 -- res = 0.94508E+06, tol = 0.57594E+04, time = 11.81 | CG iter. 9 -- res = 0.62641E+06, tol = 0.57594E+04, time = 11.35 | CG iter. 10 -- res = 0.38876E+06, tol = 0.57594E+04, time = 12.94 | CG iter. 11 -- res = 0.23533E+06, tol = 0.57594E+04, time = 12.05 | CG iter. 12 -- res = 0.15345E+06, tol = 0.57594E+04, time = 11.79 | CG iter. 13 -- res = 0.11808E+06, tol = 0.57594E+04, time = 11.51 | CG iter. 14 -- res = 0.10500E+06, tol = 0.57594E+04, time = 11.65 | CG iter. 15 -- res = 0.10408E+06, tol = 0.57594E+04, time = 11.62 | CG iter. 16 -- res = 0.11002E+06, tol = 0.57594E+04, time = 11.44 | CG iter. 17 -- res = 0.11534E+06, tol = 0.57594E+04, time = 11.74 | CG iter. 18 -- res = 0.10777E+06, tol = 0.57594E+04, time = 11.43 | CG iter. 19 -- res = 0.92986E+05, tol = 0.57594E+04, time = 11.97 | CG iter. 20 -- res = 0.82699E+05, tol = 0.57594E+04, time = 11.48 | CG iter. 21 -- res = 0.75226E+05, tol = 0.57594E+04, time = 11.67 | CG iter. 22 -- res = 0.68827E+05, tol = 0.57594E+04, time = 11.44 | CG iter. 23 -- res = 0.60843E+05, tol = 0.57594E+04, time = 11.68 | CG iter. 24 -- res = 0.50177E+05, tol = 0.57594E+04, time = 11.39 | CG iter. 25 -- res = 0.38705E+05, tol = 0.57594E+04, time = 11.88 | CG iter. 26 -- res = 0.28345E+05, tol = 0.57594E+04, time = 11.85 | CG iter. 27 -- res = 0.21794E+05, tol = 0.57594E+04, time = 11.71 | CG iter. 28 -- res = 0.18271E+05, tol = 0.57594E+04, time = 18.47 | CG iter. 29 -- res = 0.16879E+05, tol = 0.57594E+04, time = 11.85 | CG iter. 30 -- res = 0.16214E+05, tol = 0.57594E+04, time = 11.88 | CG iter. 31 -- res = 0.15199E+05, tol = 0.57594E+04, time = 11.57 | CG iter. 32 -- res = 0.13758E+05, tol = 0.57594E+04, time = 11.77 | CG iter. 33 -- res = 0.11653E+05, tol = 0.57594E+04, time = 11.65 | CG iter. 34 -- res = 0.96138E+04, tol = 0.57594E+04, time = 11.37 | CG iter. 35 -- res = 0.83004E+04, tol = 0.57594E+04, time = 13.32 | CG iter. 36 -- res = 0.75476E+04, tol = 0.57594E+04, time = 11.73 | CG iter. 37 -- res = 0.69210E+04, tol = 0.57594E+04, time = 11.77 | CG iter. 38 -- res = 0.62493E+04, tol = 0.57594E+04, time = 11.76 | CG iter. 39 -- res = 0.52179E+04, tol = 0.57594E+04, time = 11.39 | CG iter. 40 -- res = 0.42808E+04, tol = 0.57594E+04, time = 11.52 | CG iter. 41 -- res = 0.34827E+04, tol = 0.57594E+04, time = 11.52 | CG iter. 42 -- res = 0.29584E+04, tol = 0.57594E+04, time = 11.58 | CG iter. 43 -- res = 0.27847E+04, tol = 0.57594E+04, time = 11.70 | CG iter. 44 -- res = 0.26955E+04, tol = 0.57594E+04, time = 12.11 | CG iter. 45 -- res = 0.25819E+04, tol = 0.57594E+04, time = 11.57 | CG iter. 46 -- res = 0.23702E+04, tol = 0.57594E+04, time = 11.90 | CG iter. 47 -- res = 0.20261E+04, tol = 0.57594E+04, time = 11.44 | CG iter. 48 -- res = 0.17079E+04, tol = 0.57594E+04, time = 11.67 | CG iter. 49 -- res = 0.14752E+04, tol = 0.57594E+04, time = 11.39 | CG iter. 50 -- res = 0.13207E+04, tol = 0.57594E+04, time = 11.65 | CG iter. 51 -- res = 0.12438E+04, tol = 0.57594E+04, time = 11.40 | CG iter. 52 -- res = 0.11502E+04, tol = 0.57594E+04, time = 11.00 | CG iter. 53 -- res = 0.10587E+04, tol = 0.57594E+04, time = 18.30 | CG iter. 54 -- res = 0.95050E+03, tol = 0.57594E+04, time = 11.64 | CG iter. 55 -- res = 0.82173E+03, tol = 0.57594E+04, time = 11.47 | CG iter. 56 -- res = 0.71803E+03, tol = 0.57594E+04, time = 11.45 | CG iter. 57 -- res = 0.64606E+03, tol = 0.57594E+04, time = 11.43 | CG iter. 58 -- res = 0.61265E+03, tol = 0.57594E+04, time = 11.55 | CG iter. 59 -- res = 0.59945E+03, tol = 0.57594E+04, time = 11.17 | CG iter. 60 -- res = 0.56421E+03, tol = 0.57594E+04, time = 13.17 | Final CG iter 61 -- res = 0.56421E+03, tol = 0.57594E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.904 ( -229.835 -2231.822 2514.593 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8022239.824 | Old band monopole 8306637.916 | Change to band monopole -284398.093 | Change to component monopole 284396.869 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.159 2.725 | New value 5.705 | Old value 0.159 | Difference 5.546 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.449 ( 7.185 14.119 -13.989 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.547 4.082 | New value 2.736 | Old value 11.547 | Difference -8.812 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.15966E+07, tol = 0.47627E+18, time = 1.68 | CG iter. 2 -- res = 0.27490E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.69837E+00, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.17200E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.89805E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8022205.319 | (Sampled value in CG: 8000133.373 ) | Chain = 1 -- chisq = 0.81561119E+09 | Chain = 1 -- wall time = 6078.167 sec Available RAM: MemAvailable: 383643020 kB Available Swap: SwapFree: 1125961504 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 239 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06440906 | --> Sampling calibration, mode = relcal | relcal = 1.3419455E-02 7.4789260E-04 -1.6009937E-03 -1.2566353E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9747702E-02 0.1131311 97048395.4643216 | BP delta = 8.5150994E-02 9.8534442E-02 97048406.0156269 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632570 | --> Sampling calibration, mode = relcal | relcal = -2.8217831E-03 -7.0484995E-04 1.6798119E-03 1.6149845E-03 -4.0937113E-04 6.4120797E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5745392 15216666.1767248 | BP delta = 0.0000000E+00 -0.5634675 15216666.5347821 | BP chisq diff = 0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18562034741138 | --> Sampling calibration, mode = relcal | relcal = -7.6572627E-02 -5.9568185E-02 9.3614720E-02 4.2526096E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.6621026E-04 7.1910727E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5449E-05 | 2: delta_r/delta_0: 1.9348E-06 | 3: delta_s/delta_0: 2.1402E-07 | 4: delta_r/delta_0: 3.5765E-08 | 5: delta_s/delta_0: 1.0975E-08 | 6: delta_r/delta_0: 3.7627E-09 | 7: delta_s/delta_0: 9.4657E-10 | 8: delta_r/delta_0: 2.4500E-10 | 9: delta_s/delta_0: 1.8039E-10 | 10: delta_r/delta_0: 7.7276E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.443171760237898E-003 2.730217618079272E-005 | BP delta = 4.8434783E-02 6.7100018E-02 50482201.3318399 | BP delta = 5.1786344E-02 7.0451580E-02 50482193.7472714 | BP chisq diff = -7.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02610391 | --> Sampling calibration, mode = relcal | relcal = -0.1066502 -9.5618203E-02 0.1450042 5.7264164E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0159343E-03 1.7141809E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5503E-05 | 2: delta_r/delta_0: 1.5938E-06 | 3: delta_s/delta_0: 2.3326E-07 | 4: delta_r/delta_0: 4.7867E-08 | 5: delta_s/delta_0: 2.8144E-08 | 6: delta_r/delta_0: 6.9540E-09 | 7: delta_s/delta_0: 2.0089E-08 | 8: delta_r/delta_0: 8.7301E-10 | 9: delta_s/delta_0: 9.6525E-10 | 10: delta_r/delta_0: 1.6663E-10 | 11: delta_s/delta_0: 1.0578E-09 | 12: delta_r/delta_0: 2.1254E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.022738276908179E-002 2.810548060500723E-005 | BP delta = -0.2764758 -0.2518750 57396845.6543216 | BP delta = -0.2666534 -0.2420527 57396846.4487968 | BP chisq diff = 0.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81242686 | --> Sampling calibration, mode = relcal | relcal = 0.2956464 0.2248549 -0.2838576 -0.2366437 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2337671E-04 5.0055138E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0298E-03 | 2: delta_r/delta_0: 2.3560E-05 | 3: delta_s/delta_0: 1.1984E-05 | 4: delta_r/delta_0: 1.3719E-06 | 5: delta_s/delta_0: 3.6908E-07 | 6: delta_r/delta_0: 6.3437E-08 | 7: delta_s/delta_0: 5.5117E-08 | 8: delta_r/delta_0: 3.4330E-08 | 9: delta_s/delta_0: 1.2243E-07 | 10: delta_r/delta_0: 2.3358E-09 | 11: delta_s/delta_0: 1.5191E-09 | 12: delta_r/delta_0: 4.4268E-10 | 13: delta_s/delta_0: 9.1468E-10 | 14: delta_r/delta_0: 5.5505E-10 | 15: delta_s/delta_0: 2.7770E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.728349373400934E-002 4.020800186606928E-005 | BP delta = -0.1426423 -0.1525896 72488194.1253961 | BP delta = -0.1526875 -0.1626347 72488193.7950656 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95939546 | --> Sampling calibration, mode = relcal | relcal = 0.1064265 0.1395908 -0.1101754 -0.1358420 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2636347E-03 1.4922062E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0537E-02 | 2: delta_r/delta_0: 7.2988E-04 | 3: delta_s/delta_0: 9.5657E-05 | 4: delta_r/delta_0: 3.1464E-06 | 5: delta_s/delta_0: 1.3079E-06 | 6: delta_r/delta_0: 5.5232E-07 | 7: delta_s/delta_0: 2.5669E-07 | 8: delta_r/delta_0: 1.1970E-07 | 9: delta_s/delta_0: 1.7126E-07 | 10: delta_r/delta_0: 1.0840E-08 | 11: delta_s/delta_0: 5.1342E-09 | 12: delta_r/delta_0: 2.0909E-09 | 13: delta_s/delta_0: 3.1135E-10 | 14: delta_r/delta_0: 1.9012E-10 | 15: delta_s/delta_0: 1.7977E-10 | 16: delta_r/delta_0: 1.4792E-10 | 17: delta_s/delta_0: 4.1281E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.014480952682994E-002 3.696277915279258E-005 | BP delta = 0.1322175 0.2305951 72780125.0863060 | BP delta = 0.1473582 0.2457358 72780125.6061619 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.196795 | New value = -3.082818 | poltype: 2 pol: 1 CPU time specind = 1.6366005E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218421 | New value = -3.183329 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193948 | New value = -3.158374 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167241 | New value = -3.193279 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165181 | New value = -3.122301 | poltype: 2 pol: 2 CPU time specind = 1.7280102E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.13936E+08, tol = 0.86451E+01, time = 5.34 | CG iter. 2 -- res = 0.47698E+06, tol = 0.86451E+01, time = 5.51 | CG iter. 3 -- res = 0.27578E+06, tol = 0.86451E+01, time = 5.59 | CG iter. 4 -- res = 0.51407E+06, tol = 0.86451E+01, time = 5.31 | CG iter. 5 -- res = 0.48735E+06, tol = 0.86451E+01, time = 5.73 | CG iter. 6 -- res = 0.38557E+06, tol = 0.86451E+01, time = 5.67 | CG iter. 7 -- res = 0.24942E+06, tol = 0.86451E+01, time = 5.15 | CG iter. 8 -- res = 0.16751E+06, tol = 0.86451E+01, time = 5.70 | CG iter. 9 -- res = 0.15084E+06, tol = 0.86451E+01, time = 5.75 | CG iter. 10 -- res = 0.12261E+06, tol = 0.86451E+01, time = 5.39 | CG iter. 11 -- res = 0.87586E+05, tol = 0.86451E+01, time = 5.40 | CG iter. 12 -- res = 0.65580E+05, tol = 0.86451E+01, time = 5.76 | CG iter. 13 -- res = 0.52062E+05, tol = 0.86451E+01, time = 7.40 | CG iter. 14 -- res = 0.42086E+05, tol = 0.86451E+01, time = 9.72 | CG iter. 15 -- res = 0.31415E+05, tol = 0.86451E+01, time = 5.39 | CG iter. 16 -- res = 0.20344E+05, tol = 0.86451E+01, time = 5.55 | CG iter. 17 -- res = 0.16145E+05, tol = 0.86451E+01, time = 5.73 | CG iter. 18 -- res = 0.14202E+05, tol = 0.86451E+01, time = 5.93 | CG iter. 19 -- res = 0.11689E+05, tol = 0.86451E+01, time = 5.48 | CG iter. 20 -- res = 0.83977E+04, tol = 0.86451E+01, time = 5.62 | CG iter. 21 -- res = 0.60057E+04, tol = 0.86451E+01, time = 5.74 | CG iter. 22 -- res = 0.50462E+04, tol = 0.86451E+01, time = 5.68 | CG iter. 23 -- res = 0.43879E+04, tol = 0.86451E+01, time = 5.71 | CG iter. 24 -- res = 0.34224E+04, tol = 0.86451E+01, time = 5.62 | CG iter. 25 -- res = 0.24571E+04, tol = 0.86451E+01, time = 5.84 | CG iter. 26 -- res = 0.21023E+04, tol = 0.86451E+01, time = 5.55 | CG iter. 27 -- res = 0.18703E+04, tol = 0.86451E+01, time = 5.82 | CG iter. 28 -- res = 0.14852E+04, tol = 0.86451E+01, time = 6.55 | CG iter. 29 -- res = 0.10645E+04, tol = 0.86451E+01, time = 6.87 | CG iter. 30 -- res = 0.81133E+03, tol = 0.86451E+01, time = 6.05 | CG iter. 31 -- res = 0.68607E+03, tol = 0.86451E+01, time = 5.82 | CG iter. 32 -- res = 0.55710E+03, tol = 0.86451E+01, time = 5.29 | CG iter. 33 -- res = 0.40171E+03, tol = 0.86451E+01, time = 5.64 | CG iter. 34 -- res = 0.29233E+03, tol = 0.86451E+01, time = 5.77 | CG iter. 35 -- res = 0.23514E+03, tol = 0.86451E+01, time = 5.58 | CG iter. 36 -- res = 0.19010E+03, tol = 0.86451E+01, time = 5.70 | CG iter. 37 -- res = 0.13931E+03, tol = 0.86451E+01, time = 5.78 | CG iter. 38 -- res = 0.99771E+02, tol = 0.86451E+01, time = 5.49 | CG iter. 39 -- res = 0.74254E+02, tol = 0.86451E+01, time = 5.92 | CG iter. 40 -- res = 0.59615E+02, tol = 0.86451E+01, time = 5.50 | CG iter. 41 -- res = 0.46957E+02, tol = 0.86451E+01, time = 5.46 | CG iter. 42 -- res = 0.33697E+02, tol = 0.86451E+01, time = 5.82 | CG iter. 43 -- res = 0.25459E+02, tol = 0.86451E+01, time = 5.86 | CG iter. 44 -- res = 0.20316E+02, tol = 0.86451E+01, time = 6.13 | CG iter. 45 -- res = 0.15575E+02, tol = 0.86451E+01, time = 5.37 | CG iter. 46 -- res = 0.11050E+02, tol = 0.86451E+01, time = 5.65 | CG iter. 47 -- res = 0.80074E+01, tol = 0.86451E+01, time = 6.13 | CG iter. 48 -- res = 0.61327E+01, tol = 0.86451E+01, time = 7.24 | CG iter. 49 -- res = 0.45848E+01, tol = 0.86451E+01, time = 5.62 | CG iter. 50 -- res = 0.32705E+01, tol = 0.86451E+01, time = 5.63 | Final CG iter 51 -- res = 0.32705E+01, tol = 0.86451E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8273303.483 | Old band monopole 8022239.824 | Change to band monopole 251063.659 | Change to component monopole -251062.579 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.79897E+06, tol = 0.47627E+18, time = 2.94 | CG iter. 2 -- res = 0.37542E+03, tol = 0.47627E+18, time = 2.74 | CG iter. 3 -- res = 0.44309E+01, tol = 0.47627E+18, time = 3.09 | CG iter. 4 -- res = 0.63367E-01, tol = 0.47627E+18, time = 2.97 | Final CG iter 5 -- res = 0.84486E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8273267.897 | (Sampled value in CG: 8428739.940 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.524025 | New value = 1.530315 | poltype: 2 pol: 1 CPU time specind = 3.6345959E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.483541 | New value = 1.482910 | poltype: 2 pol: 2 CPU time specind = 5.0699711E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.24010E+08, tol = 0.47689E+04, time = 6.83 | CG iter. 2 -- res = 0.51873E+07, tol = 0.47689E+04, time = 6.49 | CG iter. 3 -- res = 0.82072E+06, tol = 0.47689E+04, time = 6.51 | CG iter. 4 -- res = 0.34440E+06, tol = 0.47689E+04, time = 6.48 | CG iter. 5 -- res = 0.15002E+06, tol = 0.47689E+04, time = 6.83 | CG iter. 6 -- res = 0.78735E+05, tol = 0.47689E+04, time = 7.69 | CG iter. 7 -- res = 0.42868E+05, tol = 0.47689E+04, time = 6.75 | CG iter. 8 -- res = 0.20719E+05, tol = 0.47689E+04, time = 6.30 | CG iter. 9 -- res = 0.92356E+04, tol = 0.47689E+04, time = 6.34 | CG iter. 10 -- res = 0.37618E+04, tol = 0.47689E+04, time = 6.30 | CG iter. 11 -- res = 0.16625E+04, tol = 0.47689E+04, time = 5.93 | CG iter. 12 -- res = 0.85316E+03, tol = 0.47689E+04, time = 6.34 | CG iter. 13 -- res = 0.48192E+03, tol = 0.47689E+04, time = 6.41 | CG iter. 14 -- res = 0.27251E+03, tol = 0.47689E+04, time = 6.13 | CG iter. 15 -- res = 0.14151E+03, tol = 0.47689E+04, time = 6.55 | CG iter. 16 -- res = 0.67598E+02, tol = 0.47689E+04, time = 5.96 | CG iter. 17 -- res = 0.31657E+02, tol = 0.47689E+04, time = 6.86 | CG iter. 18 -- res = 0.15755E+02, tol = 0.47689E+04, time = 6.36 | CG iter. 19 -- res = 0.86258E+01, tol = 0.47689E+04, time = 6.08 | CG iter. 20 -- res = 0.48613E+01, tol = 0.47689E+04, time = 6.70 | CG iter. 21 -- res = 0.26652E+01, tol = 0.47689E+04, time = 6.32 | CG iter. 22 -- res = 0.13757E+01, tol = 0.47689E+04, time = 6.63 | CG iter. 23 -- res = 0.67382E+00, tol = 0.47689E+04, time = 6.03 | CG iter. 24 -- res = 0.34590E+00, tol = 0.47689E+04, time = 6.52 | CG iter. 25 -- res = 0.19224E+00, tol = 0.47689E+04, time = 6.79 | CG iter. 26 -- res = 0.11061E+00, tol = 0.47689E+04, time = 6.44 | CG iter. 27 -- res = 0.62006E-01, tol = 0.47689E+04, time = 6.73 | CG iter. 28 -- res = 0.33393E-01, tol = 0.47689E+04, time = 6.52 | CG iter. 29 -- res = 0.17584E-01, tol = 0.47689E+04, time = 6.17 | CG iter. 30 -- res = 0.93276E-02, tol = 0.47689E+04, time = 6.45 | CG iter. 31 -- res = 0.51181E-02, tol = 0.47689E+04, time = 6.22 | CG iter. 32 -- res = 0.29818E-02, tol = 0.47689E+04, time = 6.59 | CG iter. 33 -- res = 0.17060E-02, tol = 0.47689E+04, time = 6.72 | CG iter. 34 -- res = 0.91128E-03, tol = 0.47689E+04, time = 6.14 | CG iter. 35 -- res = 0.47622E-03, tol = 0.47689E+04, time = 6.16 | Final CG iter 36 -- res = 0.47622E-03, tol = 0.47689E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.691 2.725 | New value 0.669 | Old value 5.691 | Difference -5.022 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.13311E+07, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.28496E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.19964E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.48166E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.43864E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8273267.897 | (Sampled value in CG: 8427226.066 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.485704 | New value = -3.392983 | poltype: 1 pol: 1 CPU time specind = 9.7889900E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.52691E+07, tol = 0.31176E+01, time = 2.73 | CG iter. 2 -- res = 0.24098E+07, tol = 0.31176E+01, time = 2.81 | CG iter. 3 -- res = 0.55704E+06, tol = 0.31176E+01, time = 2.60 | CG iter. 4 -- res = 0.28373E+06, tol = 0.31176E+01, time = 2.41 | CG iter. 5 -- res = 0.16841E+06, tol = 0.31176E+01, time = 2.83 | CG iter. 6 -- res = 0.67491E+05, tol = 0.31176E+01, time = 2.62 | CG iter. 7 -- res = 0.21792E+05, tol = 0.31176E+01, time = 2.64 | CG iter. 8 -- res = 0.98002E+04, tol = 0.31176E+01, time = 2.98 | CG iter. 9 -- res = 0.52869E+04, tol = 0.31176E+01, time = 8.80 | CG iter. 10 -- res = 0.22146E+04, tol = 0.31176E+01, time = 2.82 | CG iter. 11 -- res = 0.82226E+03, tol = 0.31176E+01, time = 3.04 | CG iter. 12 -- res = 0.36900E+03, tol = 0.31176E+01, time = 2.92 | CG iter. 13 -- res = 0.17892E+03, tol = 0.31176E+01, time = 2.41 | CG iter. 14 -- res = 0.92243E+02, tol = 0.31176E+01, time = 2.45 | CG iter. 15 -- res = 0.46298E+02, tol = 0.31176E+01, time = 2.66 | CG iter. 16 -- res = 0.21932E+02, tol = 0.31176E+01, time = 2.62 | CG iter. 17 -- res = 0.95730E+01, tol = 0.31176E+01, time = 2.81 | CG iter. 18 -- res = 0.43724E+01, tol = 0.31176E+01, time = 2.80 | CG iter. 19 -- res = 0.20630E+01, tol = 0.31176E+01, time = 2.86 | CG iter. 20 -- res = 0.97715E+00, tol = 0.31176E+01, time = 2.71 | CG iter. 21 -- res = 0.47003E+00, tol = 0.31176E+01, time = 2.87 | CG iter. 22 -- res = 0.23564E+00, tol = 0.31176E+01, time = 2.73 | CG iter. 23 -- res = 0.10989E+00, tol = 0.31176E+01, time = 2.51 | CG iter. 24 -- res = 0.52378E-01, tol = 0.31176E+01, time = 2.60 | CG iter. 25 -- res = 0.23914E-01, tol = 0.31176E+01, time = 2.59 | CG iter. 26 -- res = 0.11151E-01, tol = 0.31176E+01, time = 2.50 | CG iter. 27 -- res = 0.54311E-02, tol = 0.31176E+01, time = 2.55 | CG iter. 28 -- res = 0.27863E-02, tol = 0.31176E+01, time = 2.95 | CG iter. 29 -- res = 0.13805E-02, tol = 0.31176E+01, time = 2.82 | CG iter. 30 -- res = 0.70159E-03, tol = 0.31176E+01, time = 2.60 | CG iter. 31 -- res = 0.34525E-03, tol = 0.31176E+01, time = 2.61 | CG iter. 32 -- res = 0.16166E-03, tol = 0.31176E+01, time = 2.61 | CG iter. 33 -- res = 0.76652E-04, tol = 0.31176E+01, time = 2.82 | CG iter. 34 -- res = 0.36877E-04, tol = 0.31176E+01, time = 2.43 | CG iter. 35 -- res = 0.19320E-04, tol = 0.31176E+01, time = 2.86 | CG iter. 36 -- res = 0.10349E-04, tol = 0.31176E+01, time = 2.85 | CG iter. 37 -- res = 0.50874E-05, tol = 0.31176E+01, time = 2.80 | CG iter. 38 -- res = 0.24575E-05, tol = 0.31176E+01, time = 2.82 | CG iter. 39 -- res = 0.11205E-05, tol = 0.31176E+01, time = 2.67 | CG iter. 40 -- res = 0.53675E-06, tol = 0.31176E+01, time = 3.13 | CG iter. 41 -- res = 0.26216E-06, tol = 0.31176E+01, time = 3.62 | CG iter. 42 -- res = 0.13617E-06, tol = 0.31176E+01, time = 3.17 | CG iter. 43 -- res = 0.67732E-07, tol = 0.31176E+01, time = 2.83 | CG iter. 44 -- res = 0.32386E-07, tol = 0.31176E+01, time = 2.92 | CG iter. 45 -- res = 0.14694E-07, tol = 0.31176E+01, time = 2.60 | CG iter. 46 -- res = 0.67634E-08, tol = 0.31176E+01, time = 2.50 | CG iter. 47 -- res = 0.32532E-08, tol = 0.31176E+01, time = 2.79 | CG iter. 48 -- res = 0.16227E-08, tol = 0.31176E+01, time = 2.70 | CG iter. 49 -- res = 0.85111E-09, tol = 0.31176E+01, time = 2.81 | CG iter. 50 -- res = 0.41614E-09, tol = 0.31176E+01, time = 2.66 | Final CG iter 51 -- res = 0.41614E-09, tol = 0.31176E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.036 3.034 | New value 1.716 | Old value 10.036 | Difference -8.320 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.90500E+05, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.14404E+03, tol = 0.47627E+18, time = 2.32 | CG iter. 3 -- res = 0.22259E+01, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.72160E-02, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.29632E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8273267.897 | (Sampled value in CG: 8391747.406 ) | CPU time specind = 1196.582 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.68620E+08, tol = 0.57664E+04, time = 11.76 | CG iter. 2 -- res = 0.59496E+08, tol = 0.57664E+04, time = 11.39 | CG iter. 3 -- res = 0.16008E+08, tol = 0.57664E+04, time = 11.03 | CG iter. 4 -- res = 0.66345E+07, tol = 0.57664E+04, time = 11.71 | CG iter. 5 -- res = 0.39472E+07, tol = 0.57664E+04, time = 11.84 | CG iter. 6 -- res = 0.23376E+07, tol = 0.57664E+04, time = 11.61 | CG iter. 7 -- res = 0.14469E+07, tol = 0.57664E+04, time = 11.31 | CG iter. 8 -- res = 0.99066E+06, tol = 0.57664E+04, time = 12.18 | CG iter. 9 -- res = 0.66964E+06, tol = 0.57664E+04, time = 17.72 | CG iter. 10 -- res = 0.44815E+06, tol = 0.57664E+04, time = 11.63 | CG iter. 11 -- res = 0.28739E+06, tol = 0.57664E+04, time = 11.68 | CG iter. 12 -- res = 0.18688E+06, tol = 0.57664E+04, time = 11.57 | CG iter. 13 -- res = 0.13609E+06, tol = 0.57664E+04, time = 11.44 | CG iter. 14 -- res = 0.11736E+06, tol = 0.57664E+04, time = 11.67 | CG iter. 15 -- res = 0.11826E+06, tol = 0.57664E+04, time = 11.18 | CG iter. 16 -- res = 0.12684E+06, tol = 0.57664E+04, time = 12.83 | CG iter. 17 -- res = 0.13243E+06, tol = 0.57664E+04, time = 12.17 | CG iter. 18 -- res = 0.12357E+06, tol = 0.57664E+04, time = 11.74 | CG iter. 19 -- res = 0.10526E+06, tol = 0.57664E+04, time = 11.63 | CG iter. 20 -- res = 0.92365E+05, tol = 0.57664E+04, time = 11.32 | CG iter. 21 -- res = 0.81863E+05, tol = 0.57664E+04, time = 11.76 | CG iter. 22 -- res = 0.73485E+05, tol = 0.57664E+04, time = 11.94 | CG iter. 23 -- res = 0.65103E+05, tol = 0.57664E+04, time = 11.58 | CG iter. 24 -- res = 0.53948E+05, tol = 0.57664E+04, time = 11.61 | CG iter. 25 -- res = 0.42165E+05, tol = 0.57664E+04, time = 12.70 | CG iter. 26 -- res = 0.32053E+05, tol = 0.57664E+04, time = 11.70 | CG iter. 27 -- res = 0.25135E+05, tol = 0.57664E+04, time = 11.72 | CG iter. 28 -- res = 0.20755E+05, tol = 0.57664E+04, time = 11.41 | CG iter. 29 -- res = 0.19038E+05, tol = 0.57664E+04, time = 12.20 | CG iter. 30 -- res = 0.18613E+05, tol = 0.57664E+04, time = 11.22 | CG iter. 31 -- res = 0.17906E+05, tol = 0.57664E+04, time = 11.27 | CG iter. 32 -- res = 0.16475E+05, tol = 0.57664E+04, time = 11.52 | CG iter. 33 -- res = 0.13716E+05, tol = 0.57664E+04, time = 11.45 | CG iter. 34 -- res = 0.11059E+05, tol = 0.57664E+04, time = 17.75 | CG iter. 35 -- res = 0.92003E+04, tol = 0.57664E+04, time = 11.64 | CG iter. 36 -- res = 0.79827E+04, tol = 0.57664E+04, time = 11.45 | CG iter. 37 -- res = 0.71112E+04, tol = 0.57664E+04, time = 11.79 | CG iter. 38 -- res = 0.63247E+04, tol = 0.57664E+04, time = 11.58 | CG iter. 39 -- res = 0.54252E+04, tol = 0.57664E+04, time = 11.13 | CG iter. 40 -- res = 0.44375E+04, tol = 0.57664E+04, time = 11.34 | CG iter. 41 -- res = 0.35571E+04, tol = 0.57664E+04, time = 13.85 | CG iter. 42 -- res = 0.29891E+04, tol = 0.57664E+04, time = 11.86 | CG iter. 43 -- res = 0.26943E+04, tol = 0.57664E+04, time = 11.39 | CG iter. 44 -- res = 0.25629E+04, tol = 0.57664E+04, time = 11.56 | CG iter. 45 -- res = 0.24543E+04, tol = 0.57664E+04, time = 11.82 | CG iter. 46 -- res = 0.22662E+04, tol = 0.57664E+04, time = 11.98 | CG iter. 47 -- res = 0.19665E+04, tol = 0.57664E+04, time = 11.54 | CG iter. 48 -- res = 0.16446E+04, tol = 0.57664E+04, time = 11.35 | CG iter. 49 -- res = 0.14003E+04, tol = 0.57664E+04, time = 11.36 | CG iter. 50 -- res = 0.12370E+04, tol = 0.57664E+04, time = 11.93 | CG iter. 51 -- res = 0.11363E+04, tol = 0.57664E+04, time = 11.51 | CG iter. 52 -- res = 0.10392E+04, tol = 0.57664E+04, time = 11.45 | CG iter. 53 -- res = 0.90748E+03, tol = 0.57664E+04, time = 12.02 | CG iter. 54 -- res = 0.77424E+03, tol = 0.57664E+04, time = 11.54 | CG iter. 55 -- res = 0.65967E+03, tol = 0.57664E+04, time = 11.41 | CG iter. 56 -- res = 0.57919E+03, tol = 0.57664E+04, time = 11.56 | CG iter. 57 -- res = 0.51516E+03, tol = 0.57664E+04, time = 11.39 | CG iter. 58 -- res = 0.47817E+03, tol = 0.57664E+04, time = 11.70 | CG iter. 59 -- res = 0.45233E+03, tol = 0.57664E+04, time = 17.37 | CG iter. 60 -- res = 0.42006E+03, tol = 0.57664E+04, time = 11.54 | Final CG iter 61 -- res = 0.42006E+03, tol = 0.57664E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.850 ( -229.290 -2229.098 2511.547 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10522905.735 | Old band monopole 8273303.483 | Change to band monopole 2249602.252 | Change to component monopole -2249592.576 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.686 2.721 | New value 1.253 | Old value 0.686 | Difference 0.567 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.304 ( 4.764 7.771 -7.861 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.356 4.991 | New value 3.547 | Old value -2.356 | Difference 5.903 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.23823E+05, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.17747E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.52123E+00, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.92241E-03, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.54346E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10522860.474 | (Sampled value in CG: 10501412.756 ) | Chain = 1 -- chisq = 0.81543113E+09 | Chain = 1 -- wall time = 5628.827 sec Available RAM: MemAvailable: 382994156 kB Available Swap: SwapFree: 1126305580 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 240 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446150 | --> Sampling calibration, mode = relcal | relcal = 1.3433605E-02 7.3820521E-04 -1.5973072E-03 -1.2574502E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9747702E-02 0.1131311 9406026.37609624 | BP delta = 9.9747702E-02 0.1181586 9406025.94395256 | BP chisq diff = -0.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632339 | --> Sampling calibration, mode = relcal | relcal = -2.8207568E-03 -7.0335297E-04 1.6784170E-03 1.6128151E-03 -4.0701739E-04 6.3989515E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5634675 15215839.9356107 | BP delta = 0.0000000E+00 -0.5538430 15215840.5032410 | BP chisq diff = 0.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18345507818647 | --> Sampling calibration, mode = relcal | relcal = -7.4456036E-02 -5.8321882E-02 9.1385588E-02 4.1392334E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8197494E-06 3.7195182E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6161E-05 | 2: delta_r/delta_0: 9.0047E-07 | 3: delta_s/delta_0: 2.4035E-07 | 4: delta_r/delta_0: 1.5439E-08 | 5: delta_s/delta_0: 8.3611E-09 | 6: delta_r/delta_0: 2.4770E-09 | 7: delta_s/delta_0: 1.1376E-09 | 8: delta_r/delta_0: 8.2568E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.754751055540344E-004 2.735481354907788E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6161E-05 | 2: delta_r/delta_0: 9.0047E-07 | 3: delta_s/delta_0: 2.4035E-07 | 4: delta_r/delta_0: 1.5439E-08 | 5: delta_s/delta_0: 8.3612E-09 | 6: delta_r/delta_0: 2.4770E-09 | 7: delta_s/delta_0: 1.1376E-09 | 8: delta_r/delta_0: 8.2568E-11 | Reached bicg-stab tolerance | BP delta = 5.1786344E-02 7.0451580E-02 3618588.45350860 | BP delta = 5.1786344E-02 7.0511624E-02 3618491.73471693 | BP chisq diff = -96.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02571588 | --> Sampling calibration, mode = relcal | relcal = -0.1066086 -9.5552392E-02 0.1448956 5.7265364E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3648836E-03 1.4964129E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7209E-05 | 2: delta_r/delta_0: 1.8000E-06 | 3: delta_s/delta_0: 2.2820E-07 | 4: delta_r/delta_0: 4.9766E-08 | 5: delta_s/delta_0: 2.8874E-08 | 6: delta_r/delta_0: 7.5988E-09 | 7: delta_s/delta_0: 7.8363E-09 | 8: delta_r/delta_0: 1.6697E-09 | 9: delta_s/delta_0: 7.7949E-10 | 10: delta_r/delta_0: 5.7868E-10 | 11: delta_s/delta_0: 4.0189E-10 | 12: delta_r/delta_0: 1.5274E-10 | 13: delta_s/delta_0: 9.7126E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.026569391260869E-002 2.811615738666629E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.7212E-05 | 2: delta_r/delta_0: 1.8002E-06 | 3: delta_s/delta_0: 2.2823E-07 | 4: delta_r/delta_0: 4.9807E-08 | 5: delta_s/delta_0: 2.8828E-08 | 6: delta_r/delta_0: 7.6001E-09 | 7: delta_s/delta_0: 7.8294E-09 | 8: delta_r/delta_0: 1.6702E-09 | 9: delta_s/delta_0: 7.7980E-10 | 10: delta_r/delta_0: 5.7886E-10 | 11: delta_s/delta_0: 4.0225E-10 | 12: delta_r/delta_0: 1.5282E-10 | 13: delta_s/delta_0: 9.7257E-11 | Reached bicg-stab tolerance | BP delta = -0.2666534 -0.2420527 2841731.34839753 | BP delta = -0.2666534 -0.2375972 2841803.59125345 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81203513 | --> Sampling calibration, mode = relcal | relcal = 0.2954556 0.2247826 -0.2836958 -0.2365424 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.6984713E-04 4.9968641E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6452E-03 | 2: delta_r/delta_0: 3.9308E-05 | 3: delta_s/delta_0: 2.0486E-05 | 4: delta_r/delta_0: 1.7771E-06 | 5: delta_s/delta_0: 1.0665E-06 | 6: delta_r/delta_0: 2.8199E-07 | 7: delta_s/delta_0: 4.8852E-07 | 8: delta_r/delta_0: 5.5513E-08 | 9: delta_s/delta_0: 3.2271E-06 | 10: delta_r/delta_0: 9.5358E-07 | 11: delta_s/delta_0: 3.7999E-09 | 12: delta_r/delta_0: 2.2032E-09 | 13: delta_s/delta_0: 1.1929E-09 | 14: delta_r/delta_0: 7.2074E-10 | 15: delta_s/delta_0: 1.2084E-10 | 16: delta_r/delta_0: 6.7650E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.791726938070403E-002 4.022734701034465E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6481E-03 | 2: delta_r/delta_0: 3.9378E-05 | 3: delta_s/delta_0: 2.0527E-05 | 4: delta_r/delta_0: 1.7803E-06 | 5: delta_s/delta_0: 1.0680E-06 | 6: delta_r/delta_0: 2.8214E-07 | 7: delta_s/delta_0: 4.8822E-07 | 8: delta_r/delta_0: 5.5581E-08 | 9: delta_s/delta_0: 3.1526E-06 | 10: delta_r/delta_0: 9.2906E-07 | 11: delta_s/delta_0: 3.8021E-09 | 12: delta_r/delta_0: 2.2060E-09 | 13: delta_s/delta_0: 1.1966E-09 | 14: delta_r/delta_0: 7.2142E-10 | 15: delta_s/delta_0: 1.2044E-10 | 16: delta_r/delta_0: 6.7740E-11 | Reached bicg-stab tolerance | BP delta = -0.1526875 -0.1626347 2827405.50255213 | BP delta = -0.1526875 -0.1615479 2827597.24631518 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95884019 | --> Sampling calibration, mode = relcal | relcal = 0.1064497 0.1394571 -0.1101872 -0.1357196 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0267342E-02 1.3667045E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2775E-04 | 2: delta_r/delta_0: 5.8359E-06 | 3: delta_s/delta_0: 3.2052E-06 | 4: delta_r/delta_0: 5.8032E-07 | 5: delta_s/delta_0: 2.8209E-07 | 6: delta_r/delta_0: 1.2411E-07 | 7: delta_s/delta_0: 3.5735E-07 | 8: delta_r/delta_0: 2.5143E-08 | 9: delta_s/delta_0: 3.0525E-08 | 10: delta_r/delta_0: 2.3165E-08 | 11: delta_s/delta_0: 2.0258E-09 | 12: delta_r/delta_0: 1.0788E-09 | 13: delta_s/delta_0: 4.2858E-10 | 14: delta_r/delta_0: 3.2656E-10 | 15: delta_s/delta_0: 7.6795E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.990619577139611E-002 3.698377999144134E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2776E-04 | 2: delta_r/delta_0: 5.8360E-06 | 3: delta_s/delta_0: 3.2052E-06 | 4: delta_r/delta_0: 5.8032E-07 | 5: delta_s/delta_0: 2.8209E-07 | 6: delta_r/delta_0: 1.2411E-07 | 7: delta_s/delta_0: 3.5734E-07 | 8: delta_r/delta_0: 2.5143E-08 | 9: delta_s/delta_0: 3.0529E-08 | 10: delta_r/delta_0: 2.3168E-08 | 11: delta_s/delta_0: 2.0261E-09 | 12: delta_r/delta_0: 1.0791E-09 | 13: delta_s/delta_0: 4.2868E-10 | 14: delta_r/delta_0: 3.2664E-10 | 15: delta_s/delta_0: 7.6778E-11 | Reached bicg-stab tolerance | BP delta = 0.1322175 0.2305951 3004230.36954594 | BP delta = 0.1322175 0.2239252 3004248.34817808 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.082818 | New value = -3.119329 | poltype: 2 pol: 1 CPU time specind = 9.3438625E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183329 | New value = -3.158944 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158374 | New value = -3.222069 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193279 | New value = -3.128578 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.122301 | New value = -3.200301 | poltype: 2 pol: 2 CPU time specind = 1.4062881E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.13581E+08, tol = 0.69148E+01, time = 5.09 | CG iter. 2 -- res = 0.35259E+06, tol = 0.69148E+01, time = 5.72 | CG iter. 3 -- res = 0.62028E+05, tol = 0.69148E+01, time = 5.50 | CG iter. 4 -- res = 0.40956E+05, tol = 0.69148E+01, time = 5.94 | CG iter. 5 -- res = 0.33157E+05, tol = 0.69148E+01, time = 5.52 | CG iter. 6 -- res = 0.31776E+05, tol = 0.69148E+01, time = 5.27 | CG iter. 7 -- res = 0.32184E+05, tol = 0.69148E+01, time = 5.65 | CG iter. 8 -- res = 0.26370E+05, tol = 0.69148E+01, time = 5.46 | CG iter. 9 -- res = 0.22070E+05, tol = 0.69148E+01, time = 5.33 | CG iter. 10 -- res = 0.17863E+05, tol = 0.69148E+01, time = 5.61 | CG iter. 11 -- res = 0.12271E+05, tol = 0.69148E+01, time = 5.68 | CG iter. 12 -- res = 0.80585E+04, tol = 0.69148E+01, time = 5.50 | CG iter. 13 -- res = 0.63048E+04, tol = 0.69148E+01, time = 5.41 | CG iter. 14 -- res = 0.57839E+04, tol = 0.69148E+01, time = 5.49 | CG iter. 15 -- res = 0.51042E+04, tol = 0.69148E+01, time = 6.76 | CG iter. 16 -- res = 0.38437E+04, tol = 0.69148E+01, time = 6.08 | CG iter. 17 -- res = 0.26650E+04, tol = 0.69148E+01, time = 6.34 | CG iter. 18 -- res = 0.19926E+04, tol = 0.69148E+01, time = 5.34 | CG iter. 19 -- res = 0.17432E+04, tol = 0.69148E+01, time = 5.52 | CG iter. 20 -- res = 0.13950E+04, tol = 0.69148E+01, time = 5.55 | CG iter. 21 -- res = 0.10390E+04, tol = 0.69148E+01, time = 5.64 | CG iter. 22 -- res = 0.84214E+03, tol = 0.69148E+01, time = 5.51 | CG iter. 23 -- res = 0.73403E+03, tol = 0.69148E+01, time = 5.33 | CG iter. 24 -- res = 0.61449E+03, tol = 0.69148E+01, time = 5.62 | CG iter. 25 -- res = 0.45716E+03, tol = 0.69148E+01, time = 5.53 | CG iter. 26 -- res = 0.35674E+03, tol = 0.69148E+01, time = 5.53 | CG iter. 27 -- res = 0.31081E+03, tol = 0.69148E+01, time = 5.65 | CG iter. 28 -- res = 0.27908E+03, tol = 0.69148E+01, time = 5.26 | CG iter. 29 -- res = 0.22414E+03, tol = 0.69148E+01, time = 5.69 | CG iter. 30 -- res = 0.16769E+03, tol = 0.69148E+01, time = 5.29 | CG iter. 31 -- res = 0.14327E+03, tol = 0.69148E+01, time = 5.27 | CG iter. 32 -- res = 0.12777E+03, tol = 0.69148E+01, time = 5.37 | CG iter. 33 -- res = 0.10115E+03, tol = 0.69148E+01, time = 5.46 | CG iter. 34 -- res = 0.75396E+02, tol = 0.69148E+01, time = 5.68 | CG iter. 35 -- res = 0.60678E+02, tol = 0.69148E+01, time = 6.42 | CG iter. 36 -- res = 0.51453E+02, tol = 0.69148E+01, time = 5.56 | CG iter. 37 -- res = 0.42995E+02, tol = 0.69148E+01, time = 5.49 | CG iter. 38 -- res = 0.32149E+02, tol = 0.69148E+01, time = 5.46 | CG iter. 39 -- res = 0.23431E+02, tol = 0.69148E+01, time = 5.65 | CG iter. 40 -- res = 0.18943E+02, tol = 0.69148E+01, time = 5.31 | CG iter. 41 -- res = 0.15131E+02, tol = 0.69148E+01, time = 5.60 | CG iter. 42 -- res = 0.11880E+02, tol = 0.69148E+01, time = 5.20 | CG iter. 43 -- res = 0.88527E+01, tol = 0.69148E+01, time = 5.64 | CG iter. 44 -- res = 0.71844E+01, tol = 0.69148E+01, time = 5.85 | CG iter. 45 -- res = 0.56590E+01, tol = 0.69148E+01, time = 5.39 | CG iter. 46 -- res = 0.44205E+01, tol = 0.69148E+01, time = 5.42 | CG iter. 47 -- res = 0.32490E+01, tol = 0.69148E+01, time = 5.26 | CG iter. 48 -- res = 0.24705E+01, tol = 0.69148E+01, time = 5.52 | CG iter. 49 -- res = 0.19224E+01, tol = 0.69148E+01, time = 5.38 | CG iter. 50 -- res = 0.15451E+01, tol = 0.69148E+01, time = 5.40 | Final CG iter 51 -- res = 0.15451E+01, tol = 0.69148E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10195344.035 | Old band monopole 10522905.735 | Change to band monopole -327561.701 | Change to component monopole 327560.292 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.69020E+05, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.46197E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.16590E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.66166E-02, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.66753E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10195300.182 | (Sampled value in CG: 10151654.537 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.530315 | New value = 1.518298 | poltype: 2 pol: 1 CPU time specind = 1.0068893E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.482910 | New value = 1.548905 | poltype: 2 pol: 2 CPU time specind = 2.0508051E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.51 | CG iter. 1 -- res = 0.24053E+08, tol = 0.47609E+04, time = 6.57 | CG iter. 2 -- res = 0.54203E+07, tol = 0.47609E+04, time = 6.09 | CG iter. 3 -- res = 0.85997E+06, tol = 0.47609E+04, time = 6.20 | CG iter. 4 -- res = 0.35570E+06, tol = 0.47609E+04, time = 6.31 | CG iter. 5 -- res = 0.15418E+06, tol = 0.47609E+04, time = 6.29 | CG iter. 6 -- res = 0.80576E+05, tol = 0.47609E+04, time = 6.28 | CG iter. 7 -- res = 0.43308E+05, tol = 0.47609E+04, time = 6.77 | CG iter. 8 -- res = 0.20915E+05, tol = 0.47609E+04, time = 6.29 | CG iter. 9 -- res = 0.89567E+04, tol = 0.47609E+04, time = 6.22 | CG iter. 10 -- res = 0.36713E+04, tol = 0.47609E+04, time = 6.29 | CG iter. 11 -- res = 0.16744E+04, tol = 0.47609E+04, time = 6.28 | CG iter. 12 -- res = 0.85482E+03, tol = 0.47609E+04, time = 6.92 | CG iter. 13 -- res = 0.48859E+03, tol = 0.47609E+04, time = 5.96 | CG iter. 14 -- res = 0.27968E+03, tol = 0.47609E+04, time = 6.39 | CG iter. 15 -- res = 0.14424E+03, tol = 0.47609E+04, time = 6.08 | CG iter. 16 -- res = 0.67877E+02, tol = 0.47609E+04, time = 6.11 | CG iter. 17 -- res = 0.31200E+02, tol = 0.47609E+04, time = 6.04 | CG iter. 18 -- res = 0.15176E+02, tol = 0.47609E+04, time = 6.50 | CG iter. 19 -- res = 0.82821E+01, tol = 0.47609E+04, time = 6.31 | CG iter. 20 -- res = 0.46875E+01, tol = 0.47609E+04, time = 6.38 | CG iter. 21 -- res = 0.26154E+01, tol = 0.47609E+04, time = 6.33 | CG iter. 22 -- res = 0.13474E+01, tol = 0.47609E+04, time = 6.70 | CG iter. 23 -- res = 0.67240E+00, tol = 0.47609E+04, time = 6.36 | CG iter. 24 -- res = 0.35277E+00, tol = 0.47609E+04, time = 6.47 | CG iter. 25 -- res = 0.19213E+00, tol = 0.47609E+04, time = 6.16 | CG iter. 26 -- res = 0.10949E+00, tol = 0.47609E+04, time = 6.19 | CG iter. 27 -- res = 0.62647E-01, tol = 0.47609E+04, time = 6.46 | CG iter. 28 -- res = 0.34325E-01, tol = 0.47609E+04, time = 6.41 | CG iter. 29 -- res = 0.18064E-01, tol = 0.47609E+04, time = 6.49 | CG iter. 30 -- res = 0.95555E-02, tol = 0.47609E+04, time = 6.20 | CG iter. 31 -- res = 0.50936E-02, tol = 0.47609E+04, time = 6.56 | CG iter. 32 -- res = 0.28053E-02, tol = 0.47609E+04, time = 13.48 | CG iter. 33 -- res = 0.15807E-02, tol = 0.47609E+04, time = 6.24 | CG iter. 34 -- res = 0.85228E-03, tol = 0.47609E+04, time = 6.18 | CG iter. 35 -- res = 0.44446E-03, tol = 0.47609E+04, time = 6.31 | Final CG iter 36 -- res = 0.44446E-03, tol = 0.47609E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.265 2.757 | New value 0.868 | Old value 1.265 | Difference -0.397 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.10619E+05, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.35178E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.11278E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.72960E-04, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.95447E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10195300.182 | (Sampled value in CG: 10152300.858 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.392983 | New value = -3.486890 | poltype: 1 pol: 1 CPU time specind = 1.0761023E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.25090E+07, tol = 0.32430E+01, time = 2.76 | CG iter. 2 -- res = 0.11052E+07, tol = 0.32430E+01, time = 2.79 | CG iter. 3 -- res = 0.21157E+06, tol = 0.32430E+01, time = 2.68 | CG iter. 4 -- res = 0.83269E+05, tol = 0.32430E+01, time = 2.77 | CG iter. 5 -- res = 0.47807E+05, tol = 0.32430E+01, time = 2.50 | CG iter. 6 -- res = 0.24133E+05, tol = 0.32430E+01, time = 2.20 | CG iter. 7 -- res = 0.96609E+04, tol = 0.32430E+01, time = 3.00 | CG iter. 8 -- res = 0.44149E+04, tol = 0.32430E+01, time = 2.80 | CG iter. 9 -- res = 0.19643E+04, tol = 0.32430E+01, time = 2.82 | CG iter. 10 -- res = 0.77306E+03, tol = 0.32430E+01, time = 2.47 | CG iter. 11 -- res = 0.30515E+03, tol = 0.32430E+01, time = 2.64 | CG iter. 12 -- res = 0.14093E+03, tol = 0.32430E+01, time = 2.49 | CG iter. 13 -- res = 0.69156E+02, tol = 0.32430E+01, time = 2.79 | CG iter. 14 -- res = 0.37232E+02, tol = 0.32430E+01, time = 2.64 | CG iter. 15 -- res = 0.18915E+02, tol = 0.32430E+01, time = 2.70 | CG iter. 16 -- res = 0.88282E+01, tol = 0.32430E+01, time = 2.78 | CG iter. 17 -- res = 0.36350E+01, tol = 0.32430E+01, time = 2.78 | CG iter. 18 -- res = 0.15677E+01, tol = 0.32430E+01, time = 2.67 | CG iter. 19 -- res = 0.69657E+00, tol = 0.32430E+01, time = 2.80 | CG iter. 20 -- res = 0.35755E+00, tol = 0.32430E+01, time = 2.81 | CG iter. 21 -- res = 0.18455E+00, tol = 0.32430E+01, time = 2.45 | CG iter. 22 -- res = 0.89071E-01, tol = 0.32430E+01, time = 2.88 | CG iter. 23 -- res = 0.40866E-01, tol = 0.32430E+01, time = 2.70 | CG iter. 24 -- res = 0.18863E-01, tol = 0.32430E+01, time = 2.79 | CG iter. 25 -- res = 0.88424E-02, tol = 0.32430E+01, time = 2.67 | CG iter. 26 -- res = 0.42576E-02, tol = 0.32430E+01, time = 3.51 | CG iter. 27 -- res = 0.21582E-02, tol = 0.32430E+01, time = 3.49 | CG iter. 28 -- res = 0.11105E-02, tol = 0.32430E+01, time = 3.02 | CG iter. 29 -- res = 0.54535E-03, tol = 0.32430E+01, time = 3.07 | CG iter. 30 -- res = 0.26234E-03, tol = 0.32430E+01, time = 3.10 | CG iter. 31 -- res = 0.12203E-03, tol = 0.32430E+01, time = 2.66 | CG iter. 32 -- res = 0.57064E-04, tol = 0.32430E+01, time = 2.40 | CG iter. 33 -- res = 0.27715E-04, tol = 0.32430E+01, time = 2.59 | CG iter. 34 -- res = 0.13851E-04, tol = 0.32430E+01, time = 2.87 | CG iter. 35 -- res = 0.72956E-05, tol = 0.32430E+01, time = 2.62 | CG iter. 36 -- res = 0.35982E-05, tol = 0.32430E+01, time = 2.66 | CG iter. 37 -- res = 0.16706E-05, tol = 0.32430E+01, time = 2.49 | CG iter. 38 -- res = 0.77229E-06, tol = 0.32430E+01, time = 2.75 | CG iter. 39 -- res = 0.36899E-06, tol = 0.32430E+01, time = 2.77 | CG iter. 40 -- res = 0.17984E-06, tol = 0.32430E+01, time = 2.64 | CG iter. 41 -- res = 0.95258E-07, tol = 0.32430E+01, time = 2.53 | CG iter. 42 -- res = 0.47188E-07, tol = 0.32430E+01, time = 2.98 | CG iter. 43 -- res = 0.21972E-07, tol = 0.32430E+01, time = 2.49 | CG iter. 44 -- res = 0.99632E-08, tol = 0.32430E+01, time = 2.62 | CG iter. 45 -- res = 0.46381E-08, tol = 0.32430E+01, time = 2.69 | CG iter. 46 -- res = 0.22892E-08, tol = 0.32430E+01, time = 2.92 | CG iter. 47 -- res = 0.11543E-08, tol = 0.32430E+01, time = 2.28 | CG iter. 48 -- res = 0.57944E-09, tol = 0.32430E+01, time = 2.72 | CG iter. 49 -- res = 0.28137E-09, tol = 0.32430E+01, time = 2.49 | CG iter. 50 -- res = 0.12614E-09, tol = 0.32430E+01, time = 2.59 | Final CG iter 51 -- res = 0.12614E-09, tol = 0.32430E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.374 5.698 | New value 2.384 | Old value 0.374 | Difference 2.010 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.56560E+04, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.24650E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.64265E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.38697E-03, tol = 0.47627E+18, time = 2.25 | Final CG iter 5 -- res = 0.16283E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10195300.182 | (Sampled value in CG: 10168001.222 ) | CPU time specind = 1155.836 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.68176E+08, tol = 0.57601E+04, time = 11.26 | CG iter. 2 -- res = 0.58488E+08, tol = 0.57601E+04, time = 11.38 | CG iter. 3 -- res = 0.15378E+08, tol = 0.57601E+04, time = 11.58 | CG iter. 4 -- res = 0.64569E+07, tol = 0.57601E+04, time = 11.31 | CG iter. 5 -- res = 0.38319E+07, tol = 0.57601E+04, time = 12.00 | CG iter. 6 -- res = 0.21938E+07, tol = 0.57601E+04, time = 17.10 | CG iter. 7 -- res = 0.13137E+07, tol = 0.57601E+04, time = 11.17 | CG iter. 8 -- res = 0.88122E+06, tol = 0.57601E+04, time = 11.55 | CG iter. 9 -- res = 0.56380E+06, tol = 0.57601E+04, time = 11.88 | CG iter. 10 -- res = 0.33848E+06, tol = 0.57601E+04, time = 11.42 | CG iter. 11 -- res = 0.18590E+06, tol = 0.57601E+04, time = 11.22 | CG iter. 12 -- res = 0.10267E+06, tol = 0.57601E+04, time = 11.58 | CG iter. 13 -- res = 0.58701E+05, tol = 0.57601E+04, time = 13.48 | CG iter. 14 -- res = 0.36235E+05, tol = 0.57601E+04, time = 11.64 | CG iter. 15 -- res = 0.25688E+05, tol = 0.57601E+04, time = 11.55 | CG iter. 16 -- res = 0.19898E+05, tol = 0.57601E+04, time = 11.23 | CG iter. 17 -- res = 0.16728E+05, tol = 0.57601E+04, time = 11.56 | CG iter. 18 -- res = 0.13756E+05, tol = 0.57601E+04, time = 11.20 | CG iter. 19 -- res = 0.11203E+05, tol = 0.57601E+04, time = 11.56 | CG iter. 20 -- res = 0.95476E+04, tol = 0.57601E+04, time = 11.16 | CG iter. 21 -- res = 0.88254E+04, tol = 0.57601E+04, time = 11.79 | CG iter. 22 -- res = 0.89587E+04, tol = 0.57601E+04, time = 11.37 | CG iter. 23 -- res = 0.96345E+04, tol = 0.57601E+04, time = 12.27 | CG iter. 24 -- res = 0.10092E+05, tol = 0.57601E+04, time = 11.05 | CG iter. 25 -- res = 0.95649E+04, tol = 0.57601E+04, time = 11.40 | CG iter. 26 -- res = 0.80624E+04, tol = 0.57601E+04, time = 11.55 | CG iter. 27 -- res = 0.63293E+04, tol = 0.57601E+04, time = 11.04 | CG iter. 28 -- res = 0.48394E+04, tol = 0.57601E+04, time = 10.98 | CG iter. 29 -- res = 0.38233E+04, tol = 0.57601E+04, time = 11.43 | CG iter. 30 -- res = 0.31800E+04, tol = 0.57601E+04, time = 11.71 | CG iter. 31 -- res = 0.26815E+04, tol = 0.57601E+04, time = 17.70 | CG iter. 32 -- res = 0.22703E+04, tol = 0.57601E+04, time = 11.50 | CG iter. 33 -- res = 0.19346E+04, tol = 0.57601E+04, time = 10.97 | CG iter. 34 -- res = 0.16109E+04, tol = 0.57601E+04, time = 11.68 | CG iter. 35 -- res = 0.13049E+04, tol = 0.57601E+04, time = 11.32 | CG iter. 36 -- res = 0.11396E+04, tol = 0.57601E+04, time = 11.35 | CG iter. 37 -- res = 0.10548E+04, tol = 0.57601E+04, time = 11.23 | CG iter. 38 -- res = 0.10124E+04, tol = 0.57601E+04, time = 11.39 | CG iter. 39 -- res = 0.95033E+03, tol = 0.57601E+04, time = 13.23 | CG iter. 40 -- res = 0.83708E+03, tol = 0.57601E+04, time = 11.86 | CG iter. 41 -- res = 0.68617E+03, tol = 0.57601E+04, time = 11.54 | CG iter. 42 -- res = 0.54999E+03, tol = 0.57601E+04, time = 11.52 | CG iter. 43 -- res = 0.44627E+03, tol = 0.57601E+04, time = 11.44 | CG iter. 44 -- res = 0.37898E+03, tol = 0.57601E+04, time = 10.99 | CG iter. 45 -- res = 0.33406E+03, tol = 0.57601E+04, time = 11.22 | CG iter. 46 -- res = 0.29385E+03, tol = 0.57601E+04, time = 11.83 | CG iter. 47 -- res = 0.25754E+03, tol = 0.57601E+04, time = 11.61 | CG iter. 48 -- res = 0.21844E+03, tol = 0.57601E+04, time = 11.51 | CG iter. 49 -- res = 0.18408E+03, tol = 0.57601E+04, time = 10.96 | CG iter. 50 -- res = 0.15941E+03, tol = 0.57601E+04, time = 11.11 | CG iter. 51 -- res = 0.14713E+03, tol = 0.57601E+04, time = 11.25 | CG iter. 52 -- res = 0.13938E+03, tol = 0.57601E+04, time = 11.73 | CG iter. 53 -- res = 0.13333E+03, tol = 0.57601E+04, time = 11.76 | CG iter. 54 -- res = 0.12069E+03, tol = 0.57601E+04, time = 11.63 | CG iter. 55 -- res = 0.10533E+03, tol = 0.57601E+04, time = 11.35 | CG iter. 56 -- res = 0.90445E+02, tol = 0.57601E+04, time = 11.77 | CG iter. 57 -- res = 0.73628E+02, tol = 0.57601E+04, time = 17.41 | CG iter. 58 -- res = 0.62036E+02, tol = 0.57601E+04, time = 11.43 | CG iter. 59 -- res = 0.56093E+02, tol = 0.57601E+04, time = 11.13 | CG iter. 60 -- res = 0.51803E+02, tol = 0.57601E+04, time = 11.48 | Final CG iter 61 -- res = 0.51803E+02, tol = 0.57601E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.878 ( -229.598 -2230.259 2512.753 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8721268.276 | Old band monopole 10195344.035 | Change to band monopole -1474075.758 | Change to component monopole 1474069.418 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.860 2.719 | New value 2.588 | Old value 0.860 | Difference 1.728 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.725 ( 6.071 9.650 -9.391 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.300 5.210 | New value 5.108 | Old value 11.300 | Difference -6.192 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.48 | CG iter. 1 -- res = 0.20372E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.38713E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.15707E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.35535E-02, tol = 0.47627E+18, time = 2.68 | Final CG iter 5 -- res = 0.97855E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8721230.764 | (Sampled value in CG: 8693108.513 ) | Chain = 1 -- chisq = 0.81542503E+09 | Chain = 1 -- wall time = 6025.679 sec Available RAM: MemAvailable: 383377016 kB Available Swap: SwapFree: 1127082028 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 241 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445274 | --> Sampling calibration, mode = relcal | relcal = 1.3434057E-02 7.4498222E-04 -1.6069559E-03 -1.2572084E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9747702E-02 0.1181586 97042321.3543448 | BP delta = 8.6270221E-02 0.1046811 97042332.3851593 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632251 | --> Sampling calibration, mode = relcal | relcal = -2.8203027E-03 -7.0523040E-04 1.6787567E-03 1.6128749E-03 -4.0789315E-04 6.4179470E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5538430 15218713.9858679 | BP delta = 0.0000000E+00 -0.5439655 15218716.4053932 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102782 | --> Sampling calibration, mode = relcal | relcal = 3.7072100E-02 1.3721387E-02 5.7595214E-03 -7.1679610E-03 8.2449326E-03 2.3934939E-03 -7.5991061E-03 -7.1780025E-03 -1.5300336E-02 -1.4796878E-02 -3.0538116E-03 -1.2095340E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.194707 132205101.930163 | BP delta = 0.0000000E+00 -1.162051 132205102.382630 | BP chisq diff = 0.5, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18345350323670 | --> Sampling calibration, mode = relcal | relcal = -7.4641883E-02 -5.8391657E-02 9.1594696E-02 4.1438840E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.5299816E-04 4.3581855E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1723E-05 | 2: delta_r/delta_0: 7.9182E-07 | 3: delta_s/delta_0: 2.4850E-07 | 4: delta_r/delta_0: 1.3264E-08 | 5: delta_s/delta_0: 3.6121E-08 | 6: delta_r/delta_0: 9.1342E-10 | 7: delta_s/delta_0: 5.9169E-10 | 8: delta_r/delta_0: 1.6627E-10 | 9: delta_s/delta_0: 7.2745E-10 | 10: delta_r/delta_0: 1.4258E-10 | 11: delta_s/delta_0: 1.2167E-10 | 12: delta_r/delta_0: 1.8870E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.083972234066922E-003 2.735460817000714E-005 | BP delta = 5.1786344E-02 7.0511624E-02 50483613.6270599 | BP delta = 5.6228306E-02 7.4953586E-02 50483614.3726990 | BP chisq diff = 0.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583907 | --> Sampling calibration, mode = relcal | relcal = -0.1066766 -9.5461361E-02 0.1449048 5.7233088E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0685863E-03 1.4562216E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.9934E-05 | 2: delta_r/delta_0: 1.8485E-06 | 3: delta_s/delta_0: 2.2637E-07 | 4: delta_r/delta_0: 4.6947E-08 | 5: delta_s/delta_0: 3.0816E-08 | 6: delta_r/delta_0: 7.2199E-09 | 7: delta_s/delta_0: 7.3066E-09 | 8: delta_r/delta_0: 1.6089E-09 | 9: delta_s/delta_0: 7.6000E-10 | 10: delta_r/delta_0: 5.3292E-10 | 11: delta_s/delta_0: 2.7473E-09 | 12: delta_r/delta_0: 7.3916E-10 | 13: delta_s/delta_0: 1.1915E-10 | 14: delta_r/delta_0: 1.2827E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.032514735960853E-002 2.811271548643158E-005 | BP delta = -0.2666534 -0.2420527 57397140.2060436 | BP delta = -0.2791080 -0.2545073 57397139.2146371 | BP chisq diff = -1.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81206065 | --> Sampling calibration, mode = relcal | relcal = 0.2954436 0.2248033 -0.2837403 -0.2365067 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.4059696E-04 4.5885341E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.9598E-01 | 2: delta_r/delta_0: 1.8766E-02 | 3: delta_s/delta_0: 8.6958E-02 | 4: delta_r/delta_0: 6.4942E-03 | 5: delta_s/delta_0: 1.6659E-05 | 6: delta_r/delta_0: 4.7187E-06 | 7: delta_s/delta_0: 2.3049E-05 | 8: delta_r/delta_0: 6.5939E-06 | 9: delta_s/delta_0: 3.0436E-06 | 10: delta_r/delta_0: 1.8842E-07 | 11: delta_s/delta_0: 8.1629E-07 | 12: delta_r/delta_0: 2.5271E-08 | 13: delta_s/delta_0: 9.4420E-09 | 14: delta_r/delta_0: 1.6618E-09 | 15: delta_s/delta_0: 9.7039E-10 | 16: delta_r/delta_0: 3.2729E-10 | 17: delta_s/delta_0: 1.5058E-10 | 18: delta_r/delta_0: 6.1971E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.106980064152732 4.022600503332658E-005 | BP delta = -0.1526875 -0.1626347 72489230.4995053 | BP delta = -0.1428540 -0.1528012 72489230.6518754 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95883992 | --> Sampling calibration, mode = relcal | relcal = 0.1064320 0.1394653 -0.1103355 -0.1355618 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9611077E-03 1.3346727E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.1085E-04 | 2: delta_r/delta_0: 2.2128E-05 | 3: delta_s/delta_0: 2.2774E-05 | 4: delta_r/delta_0: 1.5852E-06 | 5: delta_s/delta_0: 4.0317E-07 | 6: delta_r/delta_0: 1.6963E-07 | 7: delta_s/delta_0: 3.4739E-07 | 8: delta_r/delta_0: 4.1521E-08 | 9: delta_s/delta_0: 3.6071E-08 | 10: delta_r/delta_0: 3.5569E-09 | 11: delta_s/delta_0: 2.3370E-09 | 12: delta_r/delta_0: 1.2574E-09 | 13: delta_s/delta_0: 1.3668E-09 | 14: delta_r/delta_0: 5.0891E-10 | 15: delta_s/delta_0: 7.6228E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.483663209449541E-002 3.698331185323624E-005 | BP delta = 0.1322175 0.2305951 72782149.7066424 | BP delta = 0.1362991 0.2346767 72782149.7700346 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52156140 | --> Sampling calibration, mode = relcal | relcal = -5.1036589E-02 -3.6869929E-03 2.7309453E-02 2.7414130E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1918298E-04 2.3527138E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6403E-05 | 2: delta_r/delta_0: 4.3803E-06 | 3: delta_s/delta_0: 3.4088E-06 | 4: delta_r/delta_0: 5.3339E-07 | 5: delta_s/delta_0: 5.5341E-08 | 6: delta_r/delta_0: 2.9641E-08 | 7: delta_s/delta_0: 6.0143E-07 | 8: delta_r/delta_0: 1.2700E-08 | 9: delta_s/delta_0: 3.8031E-09 | 10: delta_r/delta_0: 1.3828E-09 | 11: delta_s/delta_0: 5.8738E-09 | 12: delta_r/delta_0: 2.6735E-10 | 13: delta_s/delta_0: 6.9136E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.127920261731374E-002 5.483373525995619E-005 | BP delta = 8.1099957E-02 0.1871159 91254717.4185252 | BP delta = 8.7005593E-02 0.1930215 91254717.3765263 | BP chisq diff = -0.0, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42153732 | --> Sampling calibration, mode = relcal | relcal = 4.5619924E-02 3.9616212E-02 -2.8312480E-02 -5.6923654E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3414625E-03 1.9956161E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1451E-05 | 2: delta_r/delta_0: 3.7278E-06 | 3: delta_s/delta_0: 2.4722E-06 | 4: delta_r/delta_0: 4.0613E-07 | 5: delta_s/delta_0: 6.2499E-08 | 6: delta_r/delta_0: 3.6627E-08 | 7: delta_s/delta_0: 3.7434E-08 | 8: delta_r/delta_0: 1.1772E-08 | 9: delta_s/delta_0: 2.0393E-09 | 10: delta_r/delta_0: 1.2276E-09 | 11: delta_s/delta_0: 1.0118E-09 | 12: delta_r/delta_0: 6.7520E-10 | 13: delta_s/delta_0: 5.7650E-08 | 14: delta_r/delta_0: 4.6729E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.465443052480432E-002 4.996270375395726E-005 | BP delta = 6.0376775E-02 -5.1312644E-02 90178378.1021807 | BP delta = 7.5310171E-02 -3.6379252E-02 90178377.8404383 | BP chisq diff = -0.3, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28164783 | --> Sampling calibration, mode = relcal | relcal = 2.4166422E-02 4.5169160E-02 -2.3363229E-02 -4.5972351E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9867918E-03 4.0402757E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0670E-04 | 2: delta_r/delta_0: 8.7784E-06 | 3: delta_s/delta_0: 1.4242E-06 | 4: delta_r/delta_0: 1.9775E-07 | 5: delta_s/delta_0: 7.6609E-08 | 6: delta_r/delta_0: 1.6834E-08 | 7: delta_s/delta_0: 7.9077E-09 | 8: delta_r/delta_0: 5.0107E-09 | 9: delta_s/delta_0: 3.0591E-08 | 10: delta_r/delta_0: 4.1442E-09 | 11: delta_s/delta_0: 3.6467E-09 | 12: delta_r/delta_0: 1.7594E-09 | 13: delta_s/delta_0: 1.8716E-10 | 14: delta_r/delta_0: 1.3546E-10 | 15: delta_s/delta_0: 9.3033E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.005879534061797E-002 7.843057570074250E-005 | BP delta = -0.1135634 -0.2621358 160921169.076497 | BP delta = -0.1835148 -0.3320872 160921168.557529 | BP chisq diff = -0.5, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29400070 | --> Sampling calibration, mode = relcal | relcal = 4.4880583E-04 1.0281754E-02 -3.7133018E-03 -7.0172581E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6214948E-02 1.2773391E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3175E-04 | 2: delta_r/delta_0: 1.0622E-05 | 3: delta_s/delta_0: 1.4921E-06 | 4: delta_r/delta_0: 3.8349E-07 | 5: delta_s/delta_0: 9.2018E-08 | 6: delta_r/delta_0: 3.1194E-08 | 7: delta_s/delta_0: 1.3395E-08 | 8: delta_r/delta_0: 8.7825E-09 | 9: delta_s/delta_0: 1.0163E-08 | 10: delta_r/delta_0: 5.8299E-09 | 11: delta_s/delta_0: 4.5411E-07 | 12: delta_r/delta_0: 1.0520E-07 | 13: delta_s/delta_0: 2.4604E-10 | 14: delta_r/delta_0: 1.6274E-10 | 15: delta_s/delta_0: 1.8186E-10 | 16: delta_r/delta_0: 1.4410E-10 | 17: delta_s/delta_0: 1.3510E-10 | 18: delta_r/delta_0: 8.4312E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.058266218029819E-002 8.304499292921602E-005 | BP delta = -0.8865855 -0.8413480 157894999.478797 | BP delta = -0.9072370 -0.8619995 157894999.360312 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26508050 | --> Sampling calibration, mode = relcal | relcal = -5.5696084E-03 1.4951602E-02 -2.3538270E-03 -7.0281657E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.0812447E-03 3.9399001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4173E-04 | 2: delta_r/delta_0: 1.2146E-05 | 3: delta_s/delta_0: 2.0503E-06 | 4: delta_r/delta_0: 2.4271E-07 | 5: delta_s/delta_0: 9.4813E-08 | 6: delta_r/delta_0: 2.0243E-08 | 7: delta_s/delta_0: 8.6960E-09 | 8: delta_r/delta_0: 5.6848E-09 | 9: delta_s/delta_0: 4.3308E-09 | 10: delta_r/delta_0: 2.2565E-09 | 11: delta_s/delta_0: 4.2085E-06 | 12: delta_r/delta_0: 6.7385E-09 | 13: delta_s/delta_0: 8.2494E-10 | 14: delta_r/delta_0: 4.2184E-10 | 15: delta_s/delta_0: 6.6480E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.125984606736951E-003 9.153111527304826E-005 | BP delta = 0.3073059 0.3156196 157019132.092240 | BP delta = 0.2722552 0.2805688 157019132.024888 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25666410 | --> Sampling calibration, mode = relcal | relcal = -3.1656280E-02 -2.5926797E-02 3.6870819E-02 2.0712258E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9272761E-02 2.1743394E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4617E-04 | 2: delta_r/delta_0: 1.1966E-05 | 3: delta_s/delta_0: 1.7427E-06 | 4: delta_r/delta_0: 4.1137E-07 | 5: delta_s/delta_0: 1.3607E-07 | 6: delta_r/delta_0: 3.0805E-08 | 7: delta_s/delta_0: 1.5404E-08 | 8: delta_r/delta_0: 8.8535E-09 | 9: delta_s/delta_0: 1.2459E-07 | 10: delta_r/delta_0: 7.3803E-09 | 11: delta_s/delta_0: 1.3303E-09 | 12: delta_r/delta_0: 4.2081E-10 | 13: delta_s/delta_0: 8.5424E-10 | 14: delta_r/delta_0: 2.7731E-10 | 15: delta_s/delta_0: 1.0792E-10 | 16: delta_r/delta_0: 8.3151E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.103313447104842E-002 8.671117041050731E-005 | BP delta = -0.8279545 -0.9659002 158516705.962991 | BP delta = -0.8418388 -0.9797845 158516705.955103 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119329 | New value = -3.208673 | poltype: 2 pol: 1 CPU time specind = 1.4945030E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158944 | New value = -3.230739 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.222069 | New value = -3.142483 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.128578 | New value = -3.101154 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200301 | New value = -3.118061 | poltype: 2 pol: 2 CPU time specind = 4.2636871E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.13581E+08, tol = 0.80013E+01, time = 5.42 | CG iter. 2 -- res = 0.36926E+06, tol = 0.80013E+01, time = 5.50 | CG iter. 3 -- res = 0.69456E+05, tol = 0.80013E+01, time = 5.26 | CG iter. 4 -- res = 0.55544E+05, tol = 0.80013E+01, time = 5.77 | CG iter. 5 -- res = 0.54554E+05, tol = 0.80013E+01, time = 5.32 | CG iter. 6 -- res = 0.54150E+05, tol = 0.80013E+01, time = 5.24 | CG iter. 7 -- res = 0.52011E+05, tol = 0.80013E+01, time = 5.24 | CG iter. 8 -- res = 0.40082E+05, tol = 0.80013E+01, time = 5.43 | CG iter. 9 -- res = 0.35089E+05, tol = 0.80013E+01, time = 5.70 | CG iter. 10 -- res = 0.28559E+05, tol = 0.80013E+01, time = 6.00 | CG iter. 11 -- res = 0.20996E+05, tol = 0.80013E+01, time = 5.31 | CG iter. 12 -- res = 0.14852E+05, tol = 0.80013E+01, time = 5.43 | CG iter. 13 -- res = 0.12199E+05, tol = 0.80013E+01, time = 5.22 | CG iter. 14 -- res = 0.11135E+05, tol = 0.80013E+01, time = 5.30 | CG iter. 15 -- res = 0.94945E+04, tol = 0.80013E+01, time = 5.54 | CG iter. 16 -- res = 0.70209E+04, tol = 0.80013E+01, time = 5.56 | CG iter. 17 -- res = 0.49171E+04, tol = 0.80013E+01, time = 5.48 | CG iter. 18 -- res = 0.39183E+04, tol = 0.80013E+01, time = 5.44 | CG iter. 19 -- res = 0.33989E+04, tol = 0.80013E+01, time = 5.39 | CG iter. 20 -- res = 0.29300E+04, tol = 0.80013E+01, time = 5.71 | CG iter. 21 -- res = 0.22283E+04, tol = 0.80013E+01, time = 5.49 | CG iter. 22 -- res = 0.18260E+04, tol = 0.80013E+01, time = 5.66 | CG iter. 23 -- res = 0.15659E+04, tol = 0.80013E+01, time = 5.38 | CG iter. 24 -- res = 0.13141E+04, tol = 0.80013E+01, time = 5.89 | CG iter. 25 -- res = 0.10326E+04, tol = 0.80013E+01, time = 5.10 | CG iter. 26 -- res = 0.80447E+03, tol = 0.80013E+01, time = 5.34 | CG iter. 27 -- res = 0.70123E+03, tol = 0.80013E+01, time = 5.64 | CG iter. 28 -- res = 0.62153E+03, tol = 0.80013E+01, time = 11.67 | CG iter. 29 -- res = 0.51072E+03, tol = 0.80013E+01, time = 5.44 | CG iter. 30 -- res = 0.39819E+03, tol = 0.80013E+01, time = 5.37 | CG iter. 31 -- res = 0.34534E+03, tol = 0.80013E+01, time = 5.45 | CG iter. 32 -- res = 0.31152E+03, tol = 0.80013E+01, time = 5.27 | CG iter. 33 -- res = 0.25765E+03, tol = 0.80013E+01, time = 5.56 | CG iter. 34 -- res = 0.20323E+03, tol = 0.80013E+01, time = 5.53 | CG iter. 35 -- res = 0.17227E+03, tol = 0.80013E+01, time = 5.23 | CG iter. 36 -- res = 0.15644E+03, tol = 0.80013E+01, time = 5.46 | CG iter. 37 -- res = 0.13751E+03, tol = 0.80013E+01, time = 5.68 | CG iter. 38 -- res = 0.11407E+03, tol = 0.80013E+01, time = 5.36 | CG iter. 39 -- res = 0.93962E+02, tol = 0.80013E+01, time = 5.65 | CG iter. 40 -- res = 0.81894E+02, tol = 0.80013E+01, time = 5.52 | CG iter. 41 -- res = 0.74426E+02, tol = 0.80013E+01, time = 5.34 | CG iter. 42 -- res = 0.62727E+02, tol = 0.80013E+01, time = 5.61 | CG iter. 43 -- res = 0.51006E+02, tol = 0.80013E+01, time = 6.13 | CG iter. 44 -- res = 0.44781E+02, tol = 0.80013E+01, time = 6.55 | CG iter. 45 -- res = 0.40349E+02, tol = 0.80013E+01, time = 6.14 | CG iter. 46 -- res = 0.34090E+02, tol = 0.80013E+01, time = 5.34 | CG iter. 47 -- res = 0.27415E+02, tol = 0.80013E+01, time = 5.56 | CG iter. 48 -- res = 0.22529E+02, tol = 0.80013E+01, time = 5.69 | CG iter. 49 -- res = 0.19575E+02, tol = 0.80013E+01, time = 5.71 | CG iter. 50 -- res = 0.16872E+02, tol = 0.80013E+01, time = 5.43 | Final CG iter 51 -- res = 0.16872E+02, tol = 0.80013E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7766808.721 | Old band monopole 8721268.276 | Change to band monopole -954459.556 | Change to component monopole 954455.450 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.32105E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.13529E+03, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.37084E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.20086E-01, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.27208E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7766775.314 | (Sampled value in CG: 7701020.136 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518298 | New value = 1.504924 | poltype: 2 pol: 1 CPU time specind = 1.5051126E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.548905 | New value = 1.543796 | poltype: 2 pol: 2 CPU time specind = 1.4199018E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.24065E+08, tol = 0.47604E+04, time = 5.87 | CG iter. 2 -- res = 0.54449E+07, tol = 0.47604E+04, time = 6.21 | CG iter. 3 -- res = 0.86231E+06, tol = 0.47604E+04, time = 6.52 | CG iter. 4 -- res = 0.35782E+06, tol = 0.47604E+04, time = 6.19 | CG iter. 5 -- res = 0.15283E+06, tol = 0.47604E+04, time = 6.29 | CG iter. 6 -- res = 0.79753E+05, tol = 0.47604E+04, time = 5.82 | CG iter. 7 -- res = 0.44894E+05, tol = 0.47604E+04, time = 6.57 | CG iter. 8 -- res = 0.21577E+05, tol = 0.47604E+04, time = 6.17 | CG iter. 9 -- res = 0.94123E+04, tol = 0.47604E+04, time = 7.70 | CG iter. 10 -- res = 0.38217E+04, tol = 0.47604E+04, time = 11.16 | CG iter. 11 -- res = 0.17346E+04, tol = 0.47604E+04, time = 6.28 | CG iter. 12 -- res = 0.89219E+03, tol = 0.47604E+04, time = 6.18 | CG iter. 13 -- res = 0.49970E+03, tol = 0.47604E+04, time = 6.42 | CG iter. 14 -- res = 0.28352E+03, tol = 0.47604E+04, time = 6.06 | CG iter. 15 -- res = 0.14966E+03, tol = 0.47604E+04, time = 6.48 | CG iter. 16 -- res = 0.70197E+02, tol = 0.47604E+04, time = 6.54 | CG iter. 17 -- res = 0.32481E+02, tol = 0.47604E+04, time = 6.61 | CG iter. 18 -- res = 0.16219E+02, tol = 0.47604E+04, time = 6.24 | CG iter. 19 -- res = 0.88355E+01, tol = 0.47604E+04, time = 6.33 | CG iter. 20 -- res = 0.50051E+01, tol = 0.47604E+04, time = 6.32 | CG iter. 21 -- res = 0.27907E+01, tol = 0.47604E+04, time = 6.38 | CG iter. 22 -- res = 0.14367E+01, tol = 0.47604E+04, time = 6.13 | CG iter. 23 -- res = 0.71209E+00, tol = 0.47604E+04, time = 7.70 | CG iter. 24 -- res = 0.36048E+00, tol = 0.47604E+04, time = 6.72 | CG iter. 25 -- res = 0.19917E+00, tol = 0.47604E+04, time = 6.13 | CG iter. 26 -- res = 0.11337E+00, tol = 0.47604E+04, time = 6.53 | CG iter. 27 -- res = 0.64244E-01, tol = 0.47604E+04, time = 6.36 | CG iter. 28 -- res = 0.35048E-01, tol = 0.47604E+04, time = 6.29 | CG iter. 29 -- res = 0.18341E-01, tol = 0.47604E+04, time = 6.35 | CG iter. 30 -- res = 0.94956E-02, tol = 0.47604E+04, time = 6.23 | CG iter. 31 -- res = 0.51005E-02, tol = 0.47604E+04, time = 6.80 | CG iter. 32 -- res = 0.28875E-02, tol = 0.47604E+04, time = 6.12 | CG iter. 33 -- res = 0.16406E-02, tol = 0.47604E+04, time = 6.09 | CG iter. 34 -- res = 0.89299E-03, tol = 0.47604E+04, time = 6.61 | CG iter. 35 -- res = 0.46369E-03, tol = 0.47604E+04, time = 6.30 | Final CG iter 36 -- res = 0.46369E-03, tol = 0.47604E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.582 2.748 | New value -2.853 | Old value 2.582 | Difference -5.435 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.15375E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.67565E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.17315E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.86303E-04, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.90904E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7766775.314 | (Sampled value in CG: 7700270.133 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.486890 | New value = -3.639638 | poltype: 1 pol: 1 CPU time specind = 1.6380072E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.36490E+07, tol = 0.30586E+01, time = 2.44 | CG iter. 2 -- res = 0.12954E+07, tol = 0.30586E+01, time = 2.72 | CG iter. 3 -- res = 0.29875E+06, tol = 0.30586E+01, time = 2.85 | CG iter. 4 -- res = 0.15584E+06, tol = 0.30586E+01, time = 2.63 | CG iter. 5 -- res = 0.90016E+05, tol = 0.30586E+01, time = 2.74 | CG iter. 6 -- res = 0.36780E+05, tol = 0.30586E+01, time = 2.62 | CG iter. 7 -- res = 0.11483E+05, tol = 0.30586E+01, time = 2.31 | CG iter. 8 -- res = 0.51628E+04, tol = 0.30586E+01, time = 2.75 | CG iter. 9 -- res = 0.23840E+04, tol = 0.30586E+01, time = 3.25 | CG iter. 10 -- res = 0.93911E+03, tol = 0.30586E+01, time = 5.69 | CG iter. 11 -- res = 0.38911E+03, tol = 0.30586E+01, time = 3.17 | CG iter. 12 -- res = 0.19350E+03, tol = 0.30586E+01, time = 2.63 | CG iter. 13 -- res = 0.97526E+02, tol = 0.30586E+01, time = 2.72 | CG iter. 14 -- res = 0.48029E+02, tol = 0.30586E+01, time = 2.58 | CG iter. 15 -- res = 0.22046E+02, tol = 0.30586E+01, time = 3.85 | CG iter. 16 -- res = 0.94652E+01, tol = 0.30586E+01, time = 2.46 | CG iter. 17 -- res = 0.38960E+01, tol = 0.30586E+01, time = 2.53 | CG iter. 18 -- res = 0.19245E+01, tol = 0.30586E+01, time = 2.44 | CG iter. 19 -- res = 0.95237E+00, tol = 0.30586E+01, time = 2.43 | CG iter. 20 -- res = 0.46811E+00, tol = 0.30586E+01, time = 2.79 | CG iter. 21 -- res = 0.22511E+00, tol = 0.30586E+01, time = 2.41 | CG iter. 22 -- res = 0.10097E+00, tol = 0.30586E+01, time = 2.49 | CG iter. 23 -- res = 0.43900E-01, tol = 0.30586E+01, time = 2.64 | CG iter. 24 -- res = 0.20351E-01, tol = 0.30586E+01, time = 2.69 | CG iter. 25 -- res = 0.10339E-01, tol = 0.30586E+01, time = 2.81 | CG iter. 26 -- res = 0.51894E-02, tol = 0.30586E+01, time = 2.74 | CG iter. 27 -- res = 0.25837E-02, tol = 0.30586E+01, time = 2.74 | CG iter. 28 -- res = 0.12228E-02, tol = 0.30586E+01, time = 2.79 | CG iter. 29 -- res = 0.53724E-03, tol = 0.30586E+01, time = 2.25 | CG iter. 30 -- res = 0.25300E-03, tol = 0.30586E+01, time = 2.70 | CG iter. 31 -- res = 0.12403E-03, tol = 0.30586E+01, time = 2.62 | CG iter. 32 -- res = 0.64935E-04, tol = 0.30586E+01, time = 2.69 | CG iter. 33 -- res = 0.31916E-04, tol = 0.30586E+01, time = 2.47 | CG iter. 34 -- res = 0.15092E-04, tol = 0.30586E+01, time = 2.62 | CG iter. 35 -- res = 0.70639E-05, tol = 0.30586E+01, time = 2.60 | CG iter. 36 -- res = 0.33738E-05, tol = 0.30586E+01, time = 2.68 | CG iter. 37 -- res = 0.15660E-05, tol = 0.30586E+01, time = 2.52 | CG iter. 38 -- res = 0.79277E-06, tol = 0.30586E+01, time = 2.52 | CG iter. 39 -- res = 0.40446E-06, tol = 0.30586E+01, time = 2.58 | CG iter. 40 -- res = 0.18918E-06, tol = 0.30586E+01, time = 2.55 | CG iter. 41 -- res = 0.87447E-07, tol = 0.30586E+01, time = 2.62 | CG iter. 42 -- res = 0.40730E-07, tol = 0.30586E+01, time = 2.22 | CG iter. 43 -- res = 0.18714E-07, tol = 0.30586E+01, time = 2.88 | CG iter. 44 -- res = 0.89861E-08, tol = 0.30586E+01, time = 2.64 | CG iter. 45 -- res = 0.45261E-08, tol = 0.30586E+01, time = 2.57 | CG iter. 46 -- res = 0.21940E-08, tol = 0.30586E+01, time = 2.89 | CG iter. 47 -- res = 0.10752E-08, tol = 0.30586E+01, time = 2.36 | CG iter. 48 -- res = 0.49271E-09, tol = 0.30586E+01, time = 2.84 | CG iter. 49 -- res = 0.22524E-09, tol = 0.30586E+01, time = 2.84 | CG iter. 50 -- res = 0.10988E-09, tol = 0.30586E+01, time = 2.51 | Final CG iter 51 -- res = 0.10988E-09, tol = 0.30586E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.027 6.603 | New value 5.425 | Old value -1.027 | Difference 6.451 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.45738E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.48724E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.16524E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.39872E-02, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.65799E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7766775.314 | (Sampled value in CG: 7717723.690 ) | CPU time specind = 1154.155 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.68423E+08, tol = 0.57770E+04, time = 12.58 | CG iter. 2 -- res = 0.58237E+08, tol = 0.57770E+04, time = 12.00 | CG iter. 3 -- res = 0.14837E+08, tol = 0.57770E+04, time = 11.23 | CG iter. 4 -- res = 0.63337E+07, tol = 0.57770E+04, time = 11.11 | CG iter. 5 -- res = 0.37431E+07, tol = 0.57770E+04, time = 11.43 | CG iter. 6 -- res = 0.21694E+07, tol = 0.57770E+04, time = 11.41 | CG iter. 7 -- res = 0.12986E+07, tol = 0.57770E+04, time = 11.53 | CG iter. 8 -- res = 0.85367E+06, tol = 0.57770E+04, time = 11.14 | CG iter. 9 -- res = 0.55909E+06, tol = 0.57770E+04, time = 11.16 | CG iter. 10 -- res = 0.33984E+06, tol = 0.57770E+04, time = 11.01 | CG iter. 11 -- res = 0.19233E+06, tol = 0.57770E+04, time = 12.07 | CG iter. 12 -- res = 0.10610E+06, tol = 0.57770E+04, time = 11.60 | CG iter. 13 -- res = 0.61341E+05, tol = 0.57770E+04, time = 11.44 | CG iter. 14 -- res = 0.40726E+05, tol = 0.57770E+04, time = 11.01 | CG iter. 15 -- res = 0.31398E+05, tol = 0.57770E+04, time = 11.13 | CG iter. 16 -- res = 0.27073E+05, tol = 0.57770E+04, time = 11.11 | CG iter. 17 -- res = 0.24670E+05, tol = 0.57770E+04, time = 11.07 | CG iter. 18 -- res = 0.21967E+05, tol = 0.57770E+04, time = 11.40 | CG iter. 19 -- res = 0.19227E+05, tol = 0.57770E+04, time = 12.18 | CG iter. 20 -- res = 0.17380E+05, tol = 0.57770E+04, time = 16.56 | CG iter. 21 -- res = 0.16867E+05, tol = 0.57770E+04, time = 11.30 | CG iter. 22 -- res = 0.17371E+05, tol = 0.57770E+04, time = 11.27 | CG iter. 23 -- res = 0.18226E+05, tol = 0.57770E+04, time = 11.27 | CG iter. 24 -- res = 0.18133E+05, tol = 0.57770E+04, time = 11.15 | CG iter. 25 -- res = 0.15614E+05, tol = 0.57770E+04, time = 11.61 | CG iter. 26 -- res = 0.12002E+05, tol = 0.57770E+04, time = 10.84 | CG iter. 27 -- res = 0.89600E+04, tol = 0.57770E+04, time = 13.19 | CG iter. 28 -- res = 0.67226E+04, tol = 0.57770E+04, time = 12.33 | CG iter. 29 -- res = 0.53860E+04, tol = 0.57770E+04, time = 11.10 | CG iter. 30 -- res = 0.46377E+04, tol = 0.57770E+04, time = 11.35 | CG iter. 31 -- res = 0.41339E+04, tol = 0.57770E+04, time = 11.29 | CG iter. 32 -- res = 0.36477E+04, tol = 0.57770E+04, time = 11.07 | CG iter. 33 -- res = 0.32021E+04, tol = 0.57770E+04, time = 11.30 | CG iter. 34 -- res = 0.27588E+04, tol = 0.57770E+04, time = 10.99 | CG iter. 35 -- res = 0.24280E+04, tol = 0.57770E+04, time = 11.59 | CG iter. 36 -- res = 0.22775E+04, tol = 0.57770E+04, time = 11.26 | CG iter. 37 -- res = 0.22180E+04, tol = 0.57770E+04, time = 11.01 | CG iter. 38 -- res = 0.21332E+04, tol = 0.57770E+04, time = 11.20 | CG iter. 39 -- res = 0.19599E+04, tol = 0.57770E+04, time = 11.06 | CG iter. 40 -- res = 0.16536E+04, tol = 0.57770E+04, time = 11.63 | CG iter. 41 -- res = 0.13272E+04, tol = 0.57770E+04, time = 11.18 | CG iter. 42 -- res = 0.10934E+04, tol = 0.57770E+04, time = 10.89 | CG iter. 43 -- res = 0.94923E+03, tol = 0.57770E+04, time = 11.25 | CG iter. 44 -- res = 0.86958E+03, tol = 0.57770E+04, time = 11.50 | CG iter. 45 -- res = 0.81870E+03, tol = 0.57770E+04, time = 12.58 | CG iter. 46 -- res = 0.75752E+03, tol = 0.57770E+04, time = 15.93 | CG iter. 47 -- res = 0.68318E+03, tol = 0.57770E+04, time = 11.39 | CG iter. 48 -- res = 0.59897E+03, tol = 0.57770E+04, time = 10.97 | CG iter. 49 -- res = 0.54263E+03, tol = 0.57770E+04, time = 10.84 | CG iter. 50 -- res = 0.50402E+03, tol = 0.57770E+04, time = 10.75 | CG iter. 51 -- res = 0.48767E+03, tol = 0.57770E+04, time = 11.18 | CG iter. 52 -- res = 0.47896E+03, tol = 0.57770E+04, time = 11.27 | CG iter. 53 -- res = 0.45496E+03, tol = 0.57770E+04, time = 12.75 | CG iter. 54 -- res = 0.40971E+03, tol = 0.57770E+04, time = 11.78 | CG iter. 55 -- res = 0.36164E+03, tol = 0.57770E+04, time = 11.61 | CG iter. 56 -- res = 0.31423E+03, tol = 0.57770E+04, time = 10.96 | CG iter. 57 -- res = 0.27901E+03, tol = 0.57770E+04, time = 11.61 | CG iter. 58 -- res = 0.25634E+03, tol = 0.57770E+04, time = 11.34 | CG iter. 59 -- res = 0.24317E+03, tol = 0.57770E+04, time = 11.23 | CG iter. 60 -- res = 0.23311E+03, tol = 0.57770E+04, time = 11.66 | Final CG iter 61 -- res = 0.23311E+03, tol = 0.57770E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.757 ( -229.847 -2230.125 2512.582 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7698042.192 | Old band monopole 7766808.721 | Change to band monopole -68766.529 | Change to component monopole 68766.233 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.876 2.731 | New value 0.210 | Old value -2.876 | Difference 3.086 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.341 ( 7.554 9.614 -8.556 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 16.985 5.536 | New value -3.972 | Old value 16.985 | Difference -20.956 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.73074E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.78799E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.29991E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.38666E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.42378E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7698009.081 | (Sampled value in CG: 7674986.117 ) | Chain = 1 -- chisq = 0.81542570E+09 | Chain = 1 -- wall time = 16327.165 sec Available RAM: MemAvailable: 479444996 kB Available Swap: SwapFree: 1056199180 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 242 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445760 | --> Sampling calibration, mode = relcal | relcal = 1.3431197E-02 7.4831827E-04 -1.6018243E-03 -1.2577691E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9747702E-02 0.1181586 9402290.56168094 | BP delta = 9.9747702E-02 0.1208256 9402291.96937340 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632240 | --> Sampling calibration, mode = relcal | relcal = -2.8202466E-03 -7.0409646E-04 1.6778919E-03 1.6135039E-03 -4.0792415E-04 6.4087141E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5538430 15223466.0803411 | BP delta = 0.0000000E+00 -0.5537254 15223465.6876231 | BP chisq diff = -0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18195795222050 | --> Sampling calibration, mode = relcal | relcal = -7.4434444E-02 -5.8123875E-02 9.1252714E-02 4.1305609E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4838608E-04 4.1566859E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2007E-05 | 2: delta_r/delta_0: 1.2425E-06 | 3: delta_s/delta_0: 2.3082E-07 | 4: delta_r/delta_0: 1.3753E-08 | 5: delta_s/delta_0: 1.0207E-08 | 6: delta_r/delta_0: 2.5222E-09 | 7: delta_s/delta_0: 5.0518E-10 | 8: delta_r/delta_0: 8.1693E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.179246502329140E-003 2.738932266866903E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2016E-05 | 2: delta_r/delta_0: 1.2427E-06 | 3: delta_s/delta_0: 2.3081E-07 | 4: delta_r/delta_0: 1.3752E-08 | 5: delta_s/delta_0: 1.0204E-08 | 6: delta_r/delta_0: 2.5212E-09 | 7: delta_s/delta_0: 5.0497E-10 | 8: delta_r/delta_0: 8.1678E-11 | Reached bicg-stab tolerance | BP delta = 5.6228306E-02 7.4953586E-02 3636580.66179552 | BP delta = 5.6228306E-02 7.5259551E-02 3640704.10009375 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583483 | --> Sampling calibration, mode = relcal | relcal = -0.1066548 -9.5504716E-02 0.1449073 5.7252206E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2053909E-03 1.5808452E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3660E-05 | 2: delta_r/delta_0: 1.5617E-06 | 3: delta_s/delta_0: 2.3606E-07 | 4: delta_r/delta_0: 5.1949E-08 | 5: delta_s/delta_0: 2.3016E-08 | 6: delta_r/delta_0: 7.6298E-09 | 7: delta_s/delta_0: 6.8281E-09 | 8: delta_r/delta_0: 1.7088E-09 | 9: delta_s/delta_0: 8.2546E-10 | 10: delta_r/delta_0: 6.0788E-10 | 11: delta_s/delta_0: 8.3214E-10 | 12: delta_r/delta_0: 1.0847E-10 | 13: delta_s/delta_0: 1.1463E-10 | 14: delta_r/delta_0: 1.2399E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.031934354077729E-002 2.811285466407218E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3661E-05 | 2: delta_r/delta_0: 1.5618E-06 | 3: delta_s/delta_0: 2.3607E-07 | 4: delta_r/delta_0: 5.1961E-08 | 5: delta_s/delta_0: 2.3007E-08 | 6: delta_r/delta_0: 7.6307E-09 | 7: delta_s/delta_0: 6.8284E-09 | 8: delta_r/delta_0: 1.7089E-09 | 9: delta_s/delta_0: 8.2552E-10 | 10: delta_r/delta_0: 6.0791E-10 | 11: delta_s/delta_0: 8.3384E-10 | 12: delta_r/delta_0: 1.0835E-10 | 13: delta_s/delta_0: 1.1469E-10 | 14: delta_r/delta_0: 1.2390E-11 | Reached bicg-stab tolerance | BP delta = -0.2791080 -0.2545073 2841768.96284131 | BP delta = -0.2791080 -0.2533903 2841761.11791541 | BP chisq diff = -7.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81200922 | --> Sampling calibration, mode = relcal | relcal = 0.2953663 0.2248443 -0.2837410 -0.2364697 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.3972275E-05 5.0001936E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3489E-03 | 2: delta_r/delta_0: 1.0108E-04 | 3: delta_s/delta_0: 1.5394E-05 | 4: delta_r/delta_0: 1.2507E-06 | 5: delta_s/delta_0: 4.5518E-06 | 6: delta_r/delta_0: 2.7156E-07 | 7: delta_s/delta_0: 3.3841E-08 | 8: delta_r/delta_0: 1.0535E-08 | 9: delta_s/delta_0: 1.1448E-07 | 10: delta_r/delta_0: 6.9411E-09 | 11: delta_s/delta_0: 1.1803E-08 | 12: delta_r/delta_0: 9.5395E-10 | 13: delta_s/delta_0: 2.0326E-10 | 14: delta_r/delta_0: 7.9469E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.723105849461409E-003 4.022871152738246E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3537E-03 | 2: delta_r/delta_0: 1.0119E-04 | 3: delta_s/delta_0: 1.5388E-05 | 4: delta_r/delta_0: 1.2491E-06 | 5: delta_s/delta_0: 4.5541E-06 | 6: delta_r/delta_0: 2.7151E-07 | 7: delta_s/delta_0: 3.3813E-08 | 8: delta_r/delta_0: 1.0495E-08 | 9: delta_s/delta_0: 1.1350E-07 | 10: delta_r/delta_0: 6.9189E-09 | 11: delta_s/delta_0: 1.1835E-08 | 12: delta_r/delta_0: 9.5860E-10 | 13: delta_s/delta_0: 2.0310E-10 | 14: delta_r/delta_0: 7.9344E-11 | Reached bicg-stab tolerance | BP delta = -0.1428540 -0.1528012 2827579.95163397 | BP delta = -0.1428540 -0.1681024 2827615.85647923 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95879146 | --> Sampling calibration, mode = relcal | relcal = 0.1064338 0.1393636 -0.1101372 -0.1356601 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5402980E-03 1.4679035E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1139E-03 | 2: delta_r/delta_0: 7.4934E-05 | 3: delta_s/delta_0: 3.8671E-04 | 4: delta_r/delta_0: 1.4748E-05 | 5: delta_s/delta_0: 6.2009E-07 | 6: delta_r/delta_0: 2.1984E-07 | 7: delta_s/delta_0: 4.1066E-07 | 8: delta_r/delta_0: 5.6307E-08 | 9: delta_s/delta_0: 1.6384E-08 | 10: delta_r/delta_0: 8.6650E-09 | 11: delta_s/delta_0: 2.9257E-09 | 12: delta_r/delta_0: 1.5512E-09 | 13: delta_s/delta_0: 2.3710E-10 | 14: delta_r/delta_0: 1.1693E-10 | 15: delta_s/delta_0: 1.0927E-10 | 16: delta_r/delta_0: 8.9955E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.902262320125902E-002 3.698503632240077E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.1152E-03 | 2: delta_r/delta_0: 7.4965E-05 | 3: delta_s/delta_0: 3.8694E-04 | 4: delta_r/delta_0: 1.4759E-05 | 5: delta_s/delta_0: 6.2021E-07 | 6: delta_r/delta_0: 2.1986E-07 | 7: delta_s/delta_0: 4.1145E-07 | 8: delta_r/delta_0: 5.6311E-08 | 9: delta_s/delta_0: 1.6376E-08 | 10: delta_r/delta_0: 8.6680E-09 | 11: delta_s/delta_0: 2.9258E-09 | 12: delta_r/delta_0: 1.5513E-09 | 13: delta_s/delta_0: 2.3701E-10 | 14: delta_r/delta_0: 1.1694E-10 | 15: delta_s/delta_0: 1.0927E-10 | 16: delta_r/delta_0: 8.9964E-11 | Reached bicg-stab tolerance | BP delta = 0.1362991 0.2346767 3003945.62951999 | BP delta = 0.1362991 0.2422878 3004029.35767680 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208673 | New value = -3.106544 | poltype: 2 pol: 1 CPU time specind = 1.8309116E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230739 | New value = -3.172371 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142483 | New value = -3.119573 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.101154 | New value = -3.063318 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118061 | New value = -3.134267 | poltype: 2 pol: 2 CPU time specind = 5.1119328E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.13742E+08, tol = 0.88043E+01, time = 5.37 | CG iter. 2 -- res = 0.41094E+06, tol = 0.88043E+01, time = 5.44 | CG iter. 3 -- res = 0.12417E+06, tol = 0.88043E+01, time = 6.08 | CG iter. 4 -- res = 0.16470E+06, tol = 0.88043E+01, time = 5.24 | CG iter. 5 -- res = 0.17112E+06, tol = 0.88043E+01, time = 5.45 | CG iter. 6 -- res = 0.15026E+06, tol = 0.88043E+01, time = 5.76 | CG iter. 7 -- res = 0.11802E+06, tol = 0.88043E+01, time = 5.85 | CG iter. 8 -- res = 0.78236E+05, tol = 0.88043E+01, time = 5.85 | CG iter. 9 -- res = 0.64208E+05, tol = 0.88043E+01, time = 5.69 | CG iter. 10 -- res = 0.53939E+05, tol = 0.88043E+01, time = 5.62 | CG iter. 11 -- res = 0.38505E+05, tol = 0.88043E+01, time = 5.96 | CG iter. 12 -- res = 0.28912E+05, tol = 0.88043E+01, time = 5.64 | CG iter. 13 -- res = 0.23205E+05, tol = 0.88043E+01, time = 5.64 | CG iter. 14 -- res = 0.18812E+05, tol = 0.88043E+01, time = 5.55 | CG iter. 15 -- res = 0.14580E+05, tol = 0.88043E+01, time = 5.67 | CG iter. 16 -- res = 0.99831E+04, tol = 0.88043E+01, time = 5.47 | CG iter. 17 -- res = 0.71287E+04, tol = 0.88043E+01, time = 5.75 | CG iter. 18 -- res = 0.59089E+04, tol = 0.88043E+01, time = 6.07 | CG iter. 19 -- res = 0.50514E+04, tol = 0.88043E+01, time = 5.61 | CG iter. 20 -- res = 0.38582E+04, tol = 0.88043E+01, time = 5.85 | CG iter. 21 -- res = 0.28013E+04, tol = 0.88043E+01, time = 5.75 | CG iter. 22 -- res = 0.21706E+04, tol = 0.88043E+01, time = 5.61 | CG iter. 23 -- res = 0.19271E+04, tol = 0.88043E+01, time = 6.29 | CG iter. 24 -- res = 0.15314E+04, tol = 0.88043E+01, time = 5.79 | CG iter. 25 -- res = 0.11169E+04, tol = 0.88043E+01, time = 12.38 | CG iter. 26 -- res = 0.87136E+03, tol = 0.88043E+01, time = 5.71 | CG iter. 27 -- res = 0.76843E+03, tol = 0.88043E+01, time = 5.28 | CG iter. 28 -- res = 0.65080E+03, tol = 0.88043E+01, time = 5.97 | CG iter. 29 -- res = 0.49521E+03, tol = 0.88043E+01, time = 5.51 | CG iter. 30 -- res = 0.37868E+03, tol = 0.88043E+01, time = 5.47 | CG iter. 31 -- res = 0.32302E+03, tol = 0.88043E+01, time = 6.18 | CG iter. 32 -- res = 0.26978E+03, tol = 0.88043E+01, time = 5.56 | CG iter. 33 -- res = 0.20986E+03, tol = 0.88043E+01, time = 5.81 | CG iter. 34 -- res = 0.16091E+03, tol = 0.88043E+01, time = 5.69 | CG iter. 35 -- res = 0.13314E+03, tol = 0.88043E+01, time = 5.75 | CG iter. 36 -- res = 0.11463E+03, tol = 0.88043E+01, time = 5.51 | CG iter. 37 -- res = 0.91206E+02, tol = 0.88043E+01, time = 5.66 | CG iter. 38 -- res = 0.66659E+02, tol = 0.88043E+01, time = 5.93 | CG iter. 39 -- res = 0.51949E+02, tol = 0.88043E+01, time = 5.66 | CG iter. 40 -- res = 0.44017E+02, tol = 0.88043E+01, time = 6.51 | CG iter. 41 -- res = 0.35171E+02, tol = 0.88043E+01, time = 6.31 | CG iter. 42 -- res = 0.26392E+02, tol = 0.88043E+01, time = 5.79 | CG iter. 43 -- res = 0.20385E+02, tol = 0.88043E+01, time = 5.79 | CG iter. 44 -- res = 0.15833E+02, tol = 0.88043E+01, time = 5.78 | CG iter. 45 -- res = 0.12993E+02, tol = 0.88043E+01, time = 5.86 | CG iter. 46 -- res = 0.99623E+01, tol = 0.88043E+01, time = 5.51 | CG iter. 47 -- res = 0.74683E+01, tol = 0.88043E+01, time = 5.95 | CG iter. 48 -- res = 0.58026E+01, tol = 0.88043E+01, time = 5.92 | CG iter. 49 -- res = 0.46846E+01, tol = 0.88043E+01, time = 5.75 | CG iter. 50 -- res = 0.35910E+01, tol = 0.88043E+01, time = 5.96 | Final CG iter 51 -- res = 0.35910E+01, tol = 0.88043E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7764295.854 | Old band monopole 7698042.192 | Change to band monopole 66253.662 | Change to component monopole -66253.377 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.63024E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.33721E+03, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.49746E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.59549E-01, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.94759E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7764262.458 | (Sampled value in CG: 7887024.998 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504924 | New value = 1.509304 | poltype: 2 pol: 1 CPU time specind = 8.1751347E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.543796 | New value = 1.460450 | poltype: 2 pol: 2 CPU time specind = 2.6948452E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.24000E+08, tol = 0.47588E+04, time = 6.61 | CG iter. 2 -- res = 0.53271E+07, tol = 0.47588E+04, time = 6.11 | CG iter. 3 -- res = 0.86324E+06, tol = 0.47588E+04, time = 6.38 | CG iter. 4 -- res = 0.36010E+06, tol = 0.47588E+04, time = 6.07 | CG iter. 5 -- res = 0.15713E+06, tol = 0.47588E+04, time = 6.26 | CG iter. 6 -- res = 0.82599E+05, tol = 0.47588E+04, time = 12.84 | CG iter. 7 -- res = 0.44784E+05, tol = 0.47588E+04, time = 6.37 | CG iter. 8 -- res = 0.21594E+05, tol = 0.47588E+04, time = 6.19 | CG iter. 9 -- res = 0.95024E+04, tol = 0.47588E+04, time = 6.24 | CG iter. 10 -- res = 0.39149E+04, tol = 0.47588E+04, time = 6.54 | CG iter. 11 -- res = 0.17609E+04, tol = 0.47588E+04, time = 6.84 | CG iter. 12 -- res = 0.90747E+03, tol = 0.47588E+04, time = 6.34 | CG iter. 13 -- res = 0.50866E+03, tol = 0.47588E+04, time = 6.49 | CG iter. 14 -- res = 0.29061E+03, tol = 0.47588E+04, time = 6.55 | CG iter. 15 -- res = 0.14881E+03, tol = 0.47588E+04, time = 6.67 | CG iter. 16 -- res = 0.69379E+02, tol = 0.47588E+04, time = 6.60 | CG iter. 17 -- res = 0.32332E+02, tol = 0.47588E+04, time = 6.59 | CG iter. 18 -- res = 0.16089E+02, tol = 0.47588E+04, time = 6.31 | CG iter. 19 -- res = 0.87930E+01, tol = 0.47588E+04, time = 7.77 | CG iter. 20 -- res = 0.49042E+01, tol = 0.47588E+04, time = 7.13 | CG iter. 21 -- res = 0.26924E+01, tol = 0.47588E+04, time = 6.67 | CG iter. 22 -- res = 0.13825E+01, tol = 0.47588E+04, time = 6.38 | CG iter. 23 -- res = 0.68458E+00, tol = 0.47588E+04, time = 6.85 | CG iter. 24 -- res = 0.35860E+00, tol = 0.47588E+04, time = 6.64 | CG iter. 25 -- res = 0.19681E+00, tol = 0.47588E+04, time = 6.30 | CG iter. 26 -- res = 0.11328E+00, tol = 0.47588E+04, time = 6.11 | CG iter. 27 -- res = 0.64712E-01, tol = 0.47588E+04, time = 6.58 | CG iter. 28 -- res = 0.34055E-01, tol = 0.47588E+04, time = 6.34 | CG iter. 29 -- res = 0.17901E-01, tol = 0.47588E+04, time = 6.48 | CG iter. 30 -- res = 0.94235E-02, tol = 0.47588E+04, time = 6.30 | CG iter. 31 -- res = 0.50278E-02, tol = 0.47588E+04, time = 6.50 | CG iter. 32 -- res = 0.28104E-02, tol = 0.47588E+04, time = 6.33 | CG iter. 33 -- res = 0.16134E-02, tol = 0.47588E+04, time = 6.34 | CG iter. 34 -- res = 0.86397E-03, tol = 0.47588E+04, time = 6.60 | CG iter. 35 -- res = 0.44695E-03, tol = 0.47588E+04, time = 7.06 | Final CG iter 36 -- res = 0.44695E-03, tol = 0.47588E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.199 2.698 | New value 0.330 | Old value 0.199 | Difference 0.131 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.17015E+05, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.15962E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.74465E+00, tol = 0.47627E+18, time = 2.18 | Final CG iter 4 -- res = 0.12349E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7764262.458 | (Sampled value in CG: 7886117.600 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.639638 | New value = -3.609252 | poltype: 1 pol: 1 CPU time specind = 2.5671005E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.34637E+07, tol = 0.22400E+01, time = 2.38 | CG iter. 2 -- res = 0.15350E+07, tol = 0.22400E+01, time = 2.49 | CG iter. 3 -- res = 0.33453E+06, tol = 0.22400E+01, time = 2.77 | CG iter. 4 -- res = 0.15106E+06, tol = 0.22400E+01, time = 2.73 | CG iter. 5 -- res = 0.88681E+05, tol = 0.22400E+01, time = 2.99 | CG iter. 6 -- res = 0.40050E+05, tol = 0.22400E+01, time = 3.11 | CG iter. 7 -- res = 0.13146E+05, tol = 0.22400E+01, time = 2.86 | CG iter. 8 -- res = 0.53958E+04, tol = 0.22400E+01, time = 2.70 | CG iter. 9 -- res = 0.24939E+04, tol = 0.22400E+01, time = 2.56 | CG iter. 10 -- res = 0.10165E+04, tol = 0.22400E+01, time = 2.59 | CG iter. 11 -- res = 0.40455E+03, tol = 0.22400E+01, time = 2.72 | CG iter. 12 -- res = 0.20060E+03, tol = 0.22400E+01, time = 3.23 | CG iter. 13 -- res = 0.10459E+03, tol = 0.22400E+01, time = 2.70 | CG iter. 14 -- res = 0.52055E+02, tol = 0.22400E+01, time = 2.64 | CG iter. 15 -- res = 0.22921E+02, tol = 0.22400E+01, time = 2.66 | CG iter. 16 -- res = 0.95431E+01, tol = 0.22400E+01, time = 3.04 | CG iter. 17 -- res = 0.39975E+01, tol = 0.22400E+01, time = 2.64 | CG iter. 18 -- res = 0.18155E+01, tol = 0.22400E+01, time = 2.90 | CG iter. 19 -- res = 0.91110E+00, tol = 0.22400E+01, time = 2.55 | CG iter. 20 -- res = 0.47684E+00, tol = 0.22400E+01, time = 2.56 | CG iter. 21 -- res = 0.23342E+00, tol = 0.22400E+01, time = 2.84 | CG iter. 22 -- res = 0.10486E+00, tol = 0.22400E+01, time = 2.78 | CG iter. 23 -- res = 0.47508E-01, tol = 0.22400E+01, time = 3.01 | CG iter. 24 -- res = 0.21472E-01, tol = 0.22400E+01, time = 2.49 | CG iter. 25 -- res = 0.10737E-01, tol = 0.22400E+01, time = 2.76 | CG iter. 26 -- res = 0.54037E-02, tol = 0.22400E+01, time = 2.60 | CG iter. 27 -- res = 0.27877E-02, tol = 0.22400E+01, time = 2.79 | CG iter. 28 -- res = 0.12656E-02, tol = 0.22400E+01, time = 2.63 | CG iter. 29 -- res = 0.56590E-03, tol = 0.22400E+01, time = 2.78 | CG iter. 30 -- res = 0.27290E-03, tol = 0.22400E+01, time = 2.54 | CG iter. 31 -- res = 0.12760E-03, tol = 0.22400E+01, time = 2.85 | CG iter. 32 -- res = 0.64823E-04, tol = 0.22400E+01, time = 2.84 | CG iter. 33 -- res = 0.32493E-04, tol = 0.22400E+01, time = 2.80 | CG iter. 34 -- res = 0.15201E-04, tol = 0.22400E+01, time = 2.93 | CG iter. 35 -- res = 0.73185E-05, tol = 0.22400E+01, time = 3.42 | CG iter. 36 -- res = 0.34371E-05, tol = 0.22400E+01, time = 8.67 | CG iter. 37 -- res = 0.15714E-05, tol = 0.22400E+01, time = 2.58 | CG iter. 38 -- res = 0.79226E-06, tol = 0.22400E+01, time = 2.97 | CG iter. 39 -- res = 0.39215E-06, tol = 0.22400E+01, time = 2.80 | CG iter. 40 -- res = 0.19177E-06, tol = 0.22400E+01, time = 2.60 | CG iter. 41 -- res = 0.91179E-07, tol = 0.22400E+01, time = 2.74 | CG iter. 42 -- res = 0.42494E-07, tol = 0.22400E+01, time = 3.01 | CG iter. 43 -- res = 0.19172E-07, tol = 0.22400E+01, time = 2.36 | CG iter. 44 -- res = 0.93842E-08, tol = 0.22400E+01, time = 2.79 | CG iter. 45 -- res = 0.46118E-08, tol = 0.22400E+01, time = 2.72 | CG iter. 46 -- res = 0.23040E-08, tol = 0.22400E+01, time = 2.74 | CG iter. 47 -- res = 0.11414E-08, tol = 0.22400E+01, time = 2.84 | CG iter. 48 -- res = 0.52538E-09, tol = 0.22400E+01, time = 2.77 | CG iter. 49 -- res = 0.23921E-09, tol = 0.22400E+01, time = 2.57 | CG iter. 50 -- res = 0.11483E-09, tol = 0.22400E+01, time = 3.24 | Final CG iter 51 -- res = 0.11483E-09, tol = 0.22400E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.673 3.857 | New value 2.743 | Old value 3.673 | Difference -0.930 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.11299E+05, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.21754E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.10689E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.49302E-04, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.91108E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7764262.458 | (Sampled value in CG: 7859513.001 ) | CPU time specind = 1193.104 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.68472E+08, tol = 0.57710E+04, time = 12.56 | CG iter. 2 -- res = 0.59236E+08, tol = 0.57710E+04, time = 11.68 | CG iter. 3 -- res = 0.15701E+08, tol = 0.57710E+04, time = 11.58 | CG iter. 4 -- res = 0.69225E+07, tol = 0.57710E+04, time = 11.93 | CG iter. 5 -- res = 0.41693E+07, tol = 0.57710E+04, time = 12.11 | CG iter. 6 -- res = 0.24321E+07, tol = 0.57710E+04, time = 12.29 | CG iter. 7 -- res = 0.14274E+07, tol = 0.57710E+04, time = 12.12 | CG iter. 8 -- res = 0.93486E+06, tol = 0.57710E+04, time = 11.82 | CG iter. 9 -- res = 0.61980E+06, tol = 0.57710E+04, time = 11.50 | CG iter. 10 -- res = 0.38903E+06, tol = 0.57710E+04, time = 11.47 | CG iter. 11 -- res = 0.22314E+06, tol = 0.57710E+04, time = 11.51 | CG iter. 12 -- res = 0.13183E+06, tol = 0.57710E+04, time = 11.76 | CG iter. 13 -- res = 0.82821E+05, tol = 0.57710E+04, time = 11.64 | CG iter. 14 -- res = 0.60422E+05, tol = 0.57710E+04, time = 12.84 | CG iter. 15 -- res = 0.50943E+05, tol = 0.57710E+04, time = 17.86 | CG iter. 16 -- res = 0.48791E+05, tol = 0.57710E+04, time = 11.23 | CG iter. 17 -- res = 0.48165E+05, tol = 0.57710E+04, time = 11.70 | CG iter. 18 -- res = 0.44741E+05, tol = 0.57710E+04, time = 11.93 | CG iter. 19 -- res = 0.40043E+05, tol = 0.57710E+04, time = 11.70 | CG iter. 20 -- res = 0.35907E+05, tol = 0.57710E+04, time = 11.47 | CG iter. 21 -- res = 0.33806E+05, tol = 0.57710E+04, time = 11.46 | CG iter. 22 -- res = 0.32855E+05, tol = 0.57710E+04, time = 13.16 | CG iter. 23 -- res = 0.31281E+05, tol = 0.57710E+04, time = 11.71 | CG iter. 24 -- res = 0.28014E+05, tol = 0.57710E+04, time = 12.08 | CG iter. 25 -- res = 0.23106E+05, tol = 0.57710E+04, time = 12.12 | CG iter. 26 -- res = 0.17504E+05, tol = 0.57710E+04, time = 11.72 | CG iter. 27 -- res = 0.12949E+05, tol = 0.57710E+04, time = 12.04 | CG iter. 28 -- res = 0.99174E+04, tol = 0.57710E+04, time = 11.30 | CG iter. 29 -- res = 0.82264E+04, tol = 0.57710E+04, time = 11.55 | CG iter. 30 -- res = 0.75310E+04, tol = 0.57710E+04, time = 12.05 | CG iter. 31 -- res = 0.68662E+04, tol = 0.57710E+04, time = 12.00 | CG iter. 32 -- res = 0.62433E+04, tol = 0.57710E+04, time = 12.00 | CG iter. 33 -- res = 0.53884E+04, tol = 0.57710E+04, time = 11.97 | CG iter. 34 -- res = 0.45605E+04, tol = 0.57710E+04, time = 11.48 | CG iter. 35 -- res = 0.39302E+04, tol = 0.57710E+04, time = 11.57 | CG iter. 36 -- res = 0.34263E+04, tol = 0.57710E+04, time = 11.67 | CG iter. 37 -- res = 0.31690E+04, tol = 0.57710E+04, time = 11.68 | CG iter. 38 -- res = 0.29148E+04, tol = 0.57710E+04, time = 12.01 | CG iter. 39 -- res = 0.25584E+04, tol = 0.57710E+04, time = 18.40 | CG iter. 40 -- res = 0.21625E+04, tol = 0.57710E+04, time = 11.72 | CG iter. 41 -- res = 0.17569E+04, tol = 0.57710E+04, time = 11.92 | CG iter. 42 -- res = 0.14332E+04, tol = 0.57710E+04, time = 11.66 | CG iter. 43 -- res = 0.12366E+04, tol = 0.57710E+04, time = 11.42 | CG iter. 44 -- res = 0.11381E+04, tol = 0.57710E+04, time = 11.65 | CG iter. 45 -- res = 0.10776E+04, tol = 0.57710E+04, time = 11.91 | CG iter. 46 -- res = 0.10215E+04, tol = 0.57710E+04, time = 11.11 | CG iter. 47 -- res = 0.90310E+03, tol = 0.57710E+04, time = 13.34 | CG iter. 48 -- res = 0.77108E+03, tol = 0.57710E+04, time = 12.10 | CG iter. 49 -- res = 0.67281E+03, tol = 0.57710E+04, time = 12.04 | CG iter. 50 -- res = 0.60500E+03, tol = 0.57710E+04, time = 11.80 | CG iter. 51 -- res = 0.56286E+03, tol = 0.57710E+04, time = 11.68 | CG iter. 52 -- res = 0.53447E+03, tol = 0.57710E+04, time = 11.83 | CG iter. 53 -- res = 0.48988E+03, tol = 0.57710E+04, time = 11.55 | CG iter. 54 -- res = 0.42921E+03, tol = 0.57710E+04, time = 11.69 | CG iter. 55 -- res = 0.36656E+03, tol = 0.57710E+04, time = 11.27 | CG iter. 56 -- res = 0.31587E+03, tol = 0.57710E+04, time = 12.04 | CG iter. 57 -- res = 0.28460E+03, tol = 0.57710E+04, time = 11.94 | CG iter. 58 -- res = 0.26835E+03, tol = 0.57710E+04, time = 11.85 | CG iter. 59 -- res = 0.25804E+03, tol = 0.57710E+04, time = 11.54 | CG iter. 60 -- res = 0.24259E+03, tol = 0.57710E+04, time = 11.68 | Final CG iter 61 -- res = 0.24259E+03, tol = 0.57710E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.808 ( -229.729 -2230.570 2513.206 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7574243.087 | Old band monopole 7764295.854 | Change to band monopole -190052.766 | Change to component monopole 190051.949 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.362 2.731 | New value -0.456 | Old value 0.362 | Difference -0.818 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.182 ( 6.371 10.308 -10.345 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.010 3.939 | New value -2.580 | Old value 2.010 | Difference -4.590 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.35120E+05, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.16396E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.32069E+00, tol = 0.47627E+18, time = 2.07 | Final CG iter 4 -- res = 0.20265E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7574210.509 | (Sampled value in CG: 7555096.694 ) | Chain = 1 -- chisq = 0.81524825E+09 | Chain = 1 -- wall time = 6080.286 sec Available RAM: MemAvailable: 390031300 kB Available Swap: SwapFree: 1107370764 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 243 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445044 | --> Sampling calibration, mode = relcal | relcal = 1.3443604E-02 7.4253167E-04 -1.5942905E-03 -1.2591845E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.9747702E-02 0.1181586 97051540.2377343 | BP delta = 0.1073012 0.1257121 97051536.1940486 | BP chisq diff = -4.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632350 | --> Sampling calibration, mode = relcal | relcal = -2.8203786E-03 -7.0355891E-04 1.6797006E-03 1.6130713E-03 -4.0831655E-04 6.3948217E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5537254 15217786.4212126 | BP delta = 0.0000000E+00 -0.5494130 15217786.4387725 | BP chisq diff = 0.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18143743941676 | --> Sampling calibration, mode = relcal | relcal = -7.4668296E-02 -5.8282964E-02 9.1546021E-02 4.1405242E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5674605E-04 3.9815288E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8263E-05 | 2: delta_r/delta_0: 7.7301E-07 | 3: delta_s/delta_0: 2.5138E-07 | 4: delta_r/delta_0: 1.0950E-08 | 5: delta_s/delta_0: 2.8628E-09 | 6: delta_r/delta_0: 8.5279E-10 | 7: delta_s/delta_0: 5.0750E-10 | 8: delta_r/delta_0: 1.2017E-10 | 9: delta_s/delta_0: 3.6665E-10 | 10: delta_r/delta_0: 1.7366E-10 | 11: delta_s/delta_0: 8.0642E-10 | 12: delta_r/delta_0: 1.7961E-10 | 13: delta_s/delta_0: 9.1807E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.453897515630935E-004 2.740112200459612E-005 | BP delta = 5.6228306E-02 7.4953586E-02 50483777.9608719 | BP delta = 6.0344528E-02 7.9069808E-02 50483778.7786278 | BP chisq diff = 0.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02589443 | --> Sampling calibration, mode = relcal | relcal = -0.1066272 -9.5523030E-02 0.1448559 5.7294331E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0649509E-03 1.3377533E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0033E-05 | 2: delta_r/delta_0: 1.6731E-06 | 3: delta_s/delta_0: 2.3394E-07 | 4: delta_r/delta_0: 4.8291E-08 | 5: delta_s/delta_0: 2.7575E-08 | 6: delta_r/delta_0: 7.4623E-09 | 7: delta_s/delta_0: 6.5997E-09 | 8: delta_r/delta_0: 1.7849E-09 | 9: delta_s/delta_0: 8.5542E-10 | 10: delta_r/delta_0: 6.3056E-10 | 11: delta_s/delta_0: 9.9430E-10 | 12: delta_r/delta_0: 1.0742E-10 | 13: delta_s/delta_0: 7.7464E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.016748349595095E-002 2.811117735307785E-005 | BP delta = -0.2791080 -0.2533903 57397035.1853470 | BP delta = -0.2557847 -0.2300669 57397037.9776022 | BP chisq diff = 2.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81214719 | --> Sampling calibration, mode = relcal | relcal = 0.2953684 0.2249128 -0.2837023 -0.2365790 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6798222E-04 5.6747058E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2947E-03 | 2: delta_r/delta_0: 7.6481E-05 | 3: delta_s/delta_0: 2.3199E-05 | 4: delta_r/delta_0: 2.2831E-06 | 5: delta_s/delta_0: 5.4262E-06 | 6: delta_r/delta_0: 5.5542E-07 | 7: delta_s/delta_0: 6.7966E-08 | 8: delta_r/delta_0: 2.8069E-08 | 9: delta_s/delta_0: 2.4500E-07 | 10: delta_r/delta_0: 5.6767E-09 | 11: delta_s/delta_0: 5.5894E-09 | 12: delta_r/delta_0: 4.3209E-10 | 13: delta_s/delta_0: 4.1288E-10 | 14: delta_r/delta_0: 1.7414E-10 | 15: delta_s/delta_0: 4.0120E-10 | 16: delta_r/delta_0: 1.0551E-10 | 17: delta_s/delta_0: 7.8284E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.567520309764354E-002 4.022165816398500E-005 | BP delta = -0.1428540 -0.1528012 72489674.8445944 | BP delta = -0.1403776 -0.1503248 72489674.9185694 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95897960 | --> Sampling calibration, mode = relcal | relcal = 0.1065109 0.1394888 -0.1101492 -0.1358505 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1219116E-03 1.3757585E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2614E-03 | 2: delta_r/delta_0: 1.0229E-04 | 3: delta_s/delta_0: 7.3449E-04 | 4: delta_r/delta_0: 2.6711E-05 | 5: delta_s/delta_0: 7.1687E-07 | 6: delta_r/delta_0: 2.4857E-07 | 7: delta_s/delta_0: 2.6160E-07 | 8: delta_r/delta_0: 5.9935E-08 | 9: delta_s/delta_0: 2.5400E-08 | 10: delta_r/delta_0: 6.4638E-09 | 11: delta_s/delta_0: 2.5895E-09 | 12: delta_r/delta_0: 1.5854E-09 | 13: delta_s/delta_0: 3.6124E-10 | 14: delta_r/delta_0: 1.2726E-10 | 15: delta_s/delta_0: 1.2181E-10 | 16: delta_r/delta_0: 8.5530E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.077977943581444E-002 3.697917850483290E-005 | BP delta = 0.1362991 0.2346767 72777149.4374600 | BP delta = 0.1072180 0.2055956 72777149.3408627 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106544 | New value = -3.122663 | poltype: 2 pol: 1 CPU time specind = 2.0860910E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172371 | New value = -3.076236 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119573 | New value = -3.211169 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.063318 | New value = -3.163615 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134267 | New value = -3.240169 | poltype: 2 pol: 2 CPU time specind = 5.5608749E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.13552E+08, tol = 0.90335E+01, time = 5.68 | CG iter. 2 -- res = 0.33859E+06, tol = 0.90335E+01, time = 5.76 | CG iter. 3 -- res = 0.48187E+05, tol = 0.90335E+01, time = 5.66 | CG iter. 4 -- res = 0.24240E+05, tol = 0.90335E+01, time = 5.62 | CG iter. 5 -- res = 0.13491E+05, tol = 0.90335E+01, time = 5.73 | CG iter. 6 -- res = 0.90517E+04, tol = 0.90335E+01, time = 5.81 | CG iter. 7 -- res = 0.82943E+04, tol = 0.90335E+01, time = 5.47 | CG iter. 8 -- res = 0.74052E+04, tol = 0.90335E+01, time = 5.73 | CG iter. 9 -- res = 0.72005E+04, tol = 0.90335E+01, time = 5.71 | CG iter. 10 -- res = 0.72531E+04, tol = 0.90335E+01, time = 5.80 | CG iter. 11 -- res = 0.55909E+04, tol = 0.90335E+01, time = 5.76 | CG iter. 12 -- res = 0.36054E+04, tol = 0.90335E+01, time = 5.85 | CG iter. 13 -- res = 0.23982E+04, tol = 0.90335E+01, time = 5.43 | CG iter. 14 -- res = 0.18686E+04, tol = 0.90335E+01, time = 6.04 | CG iter. 15 -- res = 0.15498E+04, tol = 0.90335E+01, time = 5.62 | CG iter. 16 -- res = 0.13349E+04, tol = 0.90335E+01, time = 5.56 | CG iter. 17 -- res = 0.99062E+03, tol = 0.90335E+01, time = 6.01 | CG iter. 18 -- res = 0.77897E+03, tol = 0.90335E+01, time = 5.58 | CG iter. 19 -- res = 0.67103E+03, tol = 0.90335E+01, time = 5.70 | CG iter. 20 -- res = 0.55005E+03, tol = 0.90335E+01, time = 5.86 | CG iter. 21 -- res = 0.38620E+03, tol = 0.90335E+01, time = 5.56 | CG iter. 22 -- res = 0.28457E+03, tol = 0.90335E+01, time = 5.96 | CG iter. 23 -- res = 0.24740E+03, tol = 0.90335E+01, time = 5.93 | CG iter. 24 -- res = 0.21812E+03, tol = 0.90335E+01, time = 5.60 | CG iter. 25 -- res = 0.17371E+03, tol = 0.90335E+01, time = 5.55 | CG iter. 26 -- res = 0.12869E+03, tol = 0.90335E+01, time = 5.77 | CG iter. 27 -- res = 0.10701E+03, tol = 0.90335E+01, time = 5.97 | CG iter. 28 -- res = 0.96535E+02, tol = 0.90335E+01, time = 5.43 | CG iter. 29 -- res = 0.80618E+02, tol = 0.90335E+01, time = 5.56 | CG iter. 30 -- res = 0.63501E+02, tol = 0.90335E+01, time = 7.52 | CG iter. 31 -- res = 0.54702E+02, tol = 0.90335E+01, time = 11.00 | CG iter. 32 -- res = 0.48726E+02, tol = 0.90335E+01, time = 6.20 | CG iter. 33 -- res = 0.40431E+02, tol = 0.90335E+01, time = 5.92 | CG iter. 34 -- res = 0.30643E+02, tol = 0.90335E+01, time = 5.84 | CG iter. 35 -- res = 0.23067E+02, tol = 0.90335E+01, time = 5.36 | CG iter. 36 -- res = 0.19641E+02, tol = 0.90335E+01, time = 5.66 | CG iter. 37 -- res = 0.15858E+02, tol = 0.90335E+01, time = 6.00 | CG iter. 38 -- res = 0.11979E+02, tol = 0.90335E+01, time = 5.64 | CG iter. 39 -- res = 0.86747E+01, tol = 0.90335E+01, time = 6.00 | CG iter. 40 -- res = 0.68294E+01, tol = 0.90335E+01, time = 5.51 | CG iter. 41 -- res = 0.55416E+01, tol = 0.90335E+01, time = 5.80 | CG iter. 42 -- res = 0.41763E+01, tol = 0.90335E+01, time = 5.64 | CG iter. 43 -- res = 0.30970E+01, tol = 0.90335E+01, time = 5.44 | CG iter. 44 -- res = 0.24141E+01, tol = 0.90335E+01, time = 5.79 | CG iter. 45 -- res = 0.19074E+01, tol = 0.90335E+01, time = 6.24 | CG iter. 46 -- res = 0.15160E+01, tol = 0.90335E+01, time = 6.56 | CG iter. 47 -- res = 0.11468E+01, tol = 0.90335E+01, time = 6.26 | CG iter. 48 -- res = 0.86990E+00, tol = 0.90335E+01, time = 5.50 | CG iter. 49 -- res = 0.68077E+00, tol = 0.90335E+01, time = 5.43 | CG iter. 50 -- res = 0.54379E+00, tol = 0.90335E+01, time = 5.68 | Final CG iter 51 -- res = 0.54379E+00, tol = 0.90335E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7895060.616 | Old band monopole 7574243.087 | Change to band monopole 320817.528 | Change to component monopole -320816.148 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.43465E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.36098E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.14716E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.27509E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.87722E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7895026.657 | (Sampled value in CG: 7872672.418 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509304 | New value = 1.476657 | poltype: 2 pol: 1 CPU time specind = 8.4450245E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.460450 | New value = 1.522461 | poltype: 2 pol: 2 CPU time specind = 3.1690598E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.24251E+08, tol = 0.47514E+04, time = 6.74 | CG iter. 2 -- res = 0.53537E+07, tol = 0.47514E+04, time = 6.41 | CG iter. 3 -- res = 0.82725E+06, tol = 0.47514E+04, time = 6.48 | CG iter. 4 -- res = 0.34801E+06, tol = 0.47514E+04, time = 6.53 | CG iter. 5 -- res = 0.15151E+06, tol = 0.47514E+04, time = 6.22 | CG iter. 6 -- res = 0.79583E+05, tol = 0.47514E+04, time = 6.27 | CG iter. 7 -- res = 0.44105E+05, tol = 0.47514E+04, time = 6.73 | CG iter. 8 -- res = 0.21238E+05, tol = 0.47514E+04, time = 6.16 | CG iter. 9 -- res = 0.91662E+04, tol = 0.47514E+04, time = 6.24 | CG iter. 10 -- res = 0.37559E+04, tol = 0.47514E+04, time = 6.75 | CG iter. 11 -- res = 0.16767E+04, tol = 0.47514E+04, time = 12.93 | CG iter. 12 -- res = 0.88271E+03, tol = 0.47514E+04, time = 6.36 | CG iter. 13 -- res = 0.49522E+03, tol = 0.47514E+04, time = 6.43 | CG iter. 14 -- res = 0.28060E+03, tol = 0.47514E+04, time = 6.21 | CG iter. 15 -- res = 0.14457E+03, tol = 0.47514E+04, time = 6.46 | CG iter. 16 -- res = 0.68535E+02, tol = 0.47514E+04, time = 6.31 | CG iter. 17 -- res = 0.32334E+02, tol = 0.47514E+04, time = 6.72 | CG iter. 18 -- res = 0.15980E+02, tol = 0.47514E+04, time = 6.54 | CG iter. 19 -- res = 0.87918E+01, tol = 0.47514E+04, time = 6.20 | CG iter. 20 -- res = 0.50754E+01, tol = 0.47514E+04, time = 6.44 | CG iter. 21 -- res = 0.27540E+01, tol = 0.47514E+04, time = 6.17 | CG iter. 22 -- res = 0.14108E+01, tol = 0.47514E+04, time = 6.54 | CG iter. 23 -- res = 0.68822E+00, tol = 0.47514E+04, time = 6.38 | CG iter. 24 -- res = 0.34965E+00, tol = 0.47514E+04, time = 7.67 | CG iter. 25 -- res = 0.19027E+00, tol = 0.47514E+04, time = 7.27 | CG iter. 26 -- res = 0.10733E+00, tol = 0.47514E+04, time = 7.14 | CG iter. 27 -- res = 0.59786E-01, tol = 0.47514E+04, time = 6.84 | CG iter. 28 -- res = 0.32087E-01, tol = 0.47514E+04, time = 6.65 | CG iter. 29 -- res = 0.16755E-01, tol = 0.47514E+04, time = 6.92 | CG iter. 30 -- res = 0.89969E-02, tol = 0.47514E+04, time = 6.29 | CG iter. 31 -- res = 0.49566E-02, tol = 0.47514E+04, time = 6.60 | CG iter. 32 -- res = 0.27842E-02, tol = 0.47514E+04, time = 6.44 | CG iter. 33 -- res = 0.15654E-02, tol = 0.47514E+04, time = 6.26 | CG iter. 34 -- res = 0.83263E-03, tol = 0.47514E+04, time = 6.19 | CG iter. 35 -- res = 0.43825E-03, tol = 0.47514E+04, time = 6.42 | Final CG iter 36 -- res = 0.43825E-03, tol = 0.47514E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.486 2.733 | New value -0.822 | Old value -0.486 | Difference -0.335 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.90620E+04, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.20232E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.44929E+00, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.47160E-03, tol = 0.47627E+18, time = 2.31 | Final CG iter 5 -- res = 0.12592E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7895026.657 | (Sampled value in CG: 7872823.491 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.609252 | New value = -3.691206 | poltype: 1 pol: 1 CPU time specind = 8.4400177E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.20431E+07, tol = 0.24773E+01, time = 2.95 | CG iter. 2 -- res = 0.63337E+06, tol = 0.24773E+01, time = 2.61 | CG iter. 3 -- res = 0.11821E+06, tol = 0.24773E+01, time = 2.97 | CG iter. 4 -- res = 0.48262E+05, tol = 0.24773E+01, time = 2.94 | CG iter. 5 -- res = 0.29490E+05, tol = 0.24773E+01, time = 2.55 | CG iter. 6 -- res = 0.15533E+05, tol = 0.24773E+01, time = 3.08 | CG iter. 7 -- res = 0.61082E+04, tol = 0.24773E+01, time = 2.94 | CG iter. 8 -- res = 0.25714E+04, tol = 0.24773E+01, time = 2.82 | CG iter. 9 -- res = 0.10378E+04, tol = 0.24773E+01, time = 2.64 | CG iter. 10 -- res = 0.41511E+03, tol = 0.24773E+01, time = 2.67 | CG iter. 11 -- res = 0.18410E+03, tol = 0.24773E+01, time = 3.36 | CG iter. 12 -- res = 0.96151E+02, tol = 0.24773E+01, time = 2.75 | CG iter. 13 -- res = 0.50742E+02, tol = 0.24773E+01, time = 2.75 | CG iter. 14 -- res = 0.23849E+02, tol = 0.24773E+01, time = 2.88 | CG iter. 15 -- res = 0.10232E+02, tol = 0.24773E+01, time = 2.77 | CG iter. 16 -- res = 0.42272E+01, tol = 0.24773E+01, time = 2.52 | CG iter. 17 -- res = 0.18187E+01, tol = 0.24773E+01, time = 2.62 | CG iter. 18 -- res = 0.89677E+00, tol = 0.24773E+01, time = 2.79 | CG iter. 19 -- res = 0.43488E+00, tol = 0.24773E+01, time = 2.65 | CG iter. 20 -- res = 0.21705E+00, tol = 0.24773E+01, time = 2.70 | CG iter. 21 -- res = 0.98623E-01, tol = 0.24773E+01, time = 2.53 | CG iter. 22 -- res = 0.45183E-01, tol = 0.24773E+01, time = 2.63 | CG iter. 23 -- res = 0.20316E-01, tol = 0.24773E+01, time = 2.70 | CG iter. 24 -- res = 0.10115E-01, tol = 0.24773E+01, time = 3.05 | CG iter. 25 -- res = 0.50969E-02, tol = 0.24773E+01, time = 2.93 | CG iter. 26 -- res = 0.24562E-02, tol = 0.24773E+01, time = 3.00 | CG iter. 27 -- res = 0.11761E-02, tol = 0.24773E+01, time = 2.46 | CG iter. 28 -- res = 0.56683E-03, tol = 0.24773E+01, time = 2.71 | CG iter. 29 -- res = 0.26290E-03, tol = 0.24773E+01, time = 2.60 | CG iter. 30 -- res = 0.12752E-03, tol = 0.24773E+01, time = 2.67 | CG iter. 31 -- res = 0.66312E-04, tol = 0.24773E+01, time = 2.74 | CG iter. 32 -- res = 0.33634E-04, tol = 0.24773E+01, time = 2.82 | CG iter. 33 -- res = 0.16023E-04, tol = 0.24773E+01, time = 2.78 | CG iter. 34 -- res = 0.75429E-05, tol = 0.24773E+01, time = 2.48 | CG iter. 35 -- res = 0.35135E-05, tol = 0.24773E+01, time = 2.52 | CG iter. 36 -- res = 0.16913E-05, tol = 0.24773E+01, time = 2.77 | CG iter. 37 -- res = 0.86301E-06, tol = 0.24773E+01, time = 3.06 | CG iter. 38 -- res = 0.43476E-06, tol = 0.24773E+01, time = 2.67 | CG iter. 39 -- res = 0.20879E-06, tol = 0.24773E+01, time = 2.61 | CG iter. 40 -- res = 0.95248E-07, tol = 0.24773E+01, time = 2.81 | CG iter. 41 -- res = 0.43670E-07, tol = 0.24773E+01, time = 2.64 | CG iter. 42 -- res = 0.21566E-07, tol = 0.24773E+01, time = 2.89 | CG iter. 43 -- res = 0.10749E-07, tol = 0.24773E+01, time = 2.80 | CG iter. 44 -- res = 0.53628E-08, tol = 0.24773E+01, time = 2.81 | CG iter. 45 -- res = 0.25000E-08, tol = 0.24773E+01, time = 3.01 | CG iter. 46 -- res = 0.11231E-08, tol = 0.24773E+01, time = 2.95 | CG iter. 47 -- res = 0.52730E-09, tol = 0.24773E+01, time = 9.27 | CG iter. 48 -- res = 0.24986E-09, tol = 0.24773E+01, time = 2.77 | CG iter. 49 -- res = 0.12478E-09, tol = 0.24773E+01, time = 2.56 | CG iter. 50 -- res = 0.58249E-10, tol = 0.24773E+01, time = 2.75 | Final CG iter 51 -- res = 0.58249E-10, tol = 0.24773E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.551 4.247 | New value -1.696 | Old value -3.551 | Difference 1.855 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.38225E+04, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.14601E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.23689E+00, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.36809E-03, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.71451E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7895026.657 | (Sampled value in CG: 7882363.865 ) | CPU time specind = 1195.166 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.68888E+08, tol = 0.57803E+04, time = 12.00 | CG iter. 2 -- res = 0.59250E+08, tol = 0.57803E+04, time = 12.00 | CG iter. 3 -- res = 0.16045E+08, tol = 0.57803E+04, time = 11.85 | CG iter. 4 -- res = 0.67611E+07, tol = 0.57803E+04, time = 11.49 | CG iter. 5 -- res = 0.39439E+07, tol = 0.57803E+04, time = 12.05 | CG iter. 6 -- res = 0.22368E+07, tol = 0.57803E+04, time = 12.09 | CG iter. 7 -- res = 0.13023E+07, tol = 0.57803E+04, time = 11.88 | CG iter. 8 -- res = 0.85238E+06, tol = 0.57803E+04, time = 11.44 | CG iter. 9 -- res = 0.54872E+06, tol = 0.57803E+04, time = 12.00 | CG iter. 10 -- res = 0.32403E+06, tol = 0.57803E+04, time = 11.58 | CG iter. 11 -- res = 0.17258E+06, tol = 0.57803E+04, time = 11.60 | CG iter. 12 -- res = 0.91896E+05, tol = 0.57803E+04, time = 11.63 | CG iter. 13 -- res = 0.51352E+05, tol = 0.57803E+04, time = 12.01 | CG iter. 14 -- res = 0.29936E+05, tol = 0.57803E+04, time = 11.91 | CG iter. 15 -- res = 0.19417E+05, tol = 0.57803E+04, time = 11.82 | CG iter. 16 -- res = 0.13725E+05, tol = 0.57803E+04, time = 11.83 | CG iter. 17 -- res = 0.99828E+04, tol = 0.57803E+04, time = 18.70 | CG iter. 18 -- res = 0.73006E+04, tol = 0.57803E+04, time = 11.35 | CG iter. 19 -- res = 0.52927E+04, tol = 0.57803E+04, time = 11.90 | CG iter. 20 -- res = 0.38816E+04, tol = 0.57803E+04, time = 11.48 | CG iter. 21 -- res = 0.31859E+04, tol = 0.57803E+04, time = 11.73 | CG iter. 22 -- res = 0.29247E+04, tol = 0.57803E+04, time = 11.50 | CG iter. 23 -- res = 0.30054E+04, tol = 0.57803E+04, time = 11.75 | CG iter. 24 -- res = 0.32763E+04, tol = 0.57803E+04, time = 12.68 | CG iter. 25 -- res = 0.34878E+04, tol = 0.57803E+04, time = 13.12 | CG iter. 26 -- res = 0.33651E+04, tol = 0.57803E+04, time = 12.13 | CG iter. 27 -- res = 0.29737E+04, tol = 0.57803E+04, time = 11.87 | CG iter. 28 -- res = 0.25764E+04, tol = 0.57803E+04, time = 11.67 | CG iter. 29 -- res = 0.21584E+04, tol = 0.57803E+04, time = 11.87 | CG iter. 30 -- res = 0.18064E+04, tol = 0.57803E+04, time = 11.82 | CG iter. 31 -- res = 0.15351E+04, tol = 0.57803E+04, time = 11.96 | CG iter. 32 -- res = 0.12664E+04, tol = 0.57803E+04, time = 11.65 | CG iter. 33 -- res = 0.10070E+04, tol = 0.57803E+04, time = 12.67 | CG iter. 34 -- res = 0.77125E+03, tol = 0.57803E+04, time = 11.87 | CG iter. 35 -- res = 0.59446E+03, tol = 0.57803E+04, time = 11.73 | CG iter. 36 -- res = 0.48014E+03, tol = 0.57803E+04, time = 11.57 | CG iter. 37 -- res = 0.42603E+03, tol = 0.57803E+04, time = 11.58 | CG iter. 38 -- res = 0.40100E+03, tol = 0.57803E+04, time = 11.74 | CG iter. 39 -- res = 0.38011E+03, tol = 0.57803E+04, time = 11.44 | CG iter. 40 -- res = 0.35226E+03, tol = 0.57803E+04, time = 11.62 | CG iter. 41 -- res = 0.31964E+03, tol = 0.57803E+04, time = 11.95 | CG iter. 42 -- res = 0.27487E+03, tol = 0.57803E+04, time = 17.91 | CG iter. 43 -- res = 0.23346E+03, tol = 0.57803E+04, time = 11.61 | CG iter. 44 -- res = 0.20296E+03, tol = 0.57803E+04, time = 11.22 | CG iter. 45 -- res = 0.18124E+03, tol = 0.57803E+04, time = 12.11 | CG iter. 46 -- res = 0.16544E+03, tol = 0.57803E+04, time = 11.65 | CG iter. 47 -- res = 0.14564E+03, tol = 0.57803E+04, time = 11.47 | CG iter. 48 -- res = 0.11663E+03, tol = 0.57803E+04, time = 12.03 | CG iter. 49 -- res = 0.91052E+02, tol = 0.57803E+04, time = 13.35 | CG iter. 50 -- res = 0.73456E+02, tol = 0.57803E+04, time = 12.25 | CG iter. 51 -- res = 0.63346E+02, tol = 0.57803E+04, time = 11.83 | CG iter. 52 -- res = 0.59091E+02, tol = 0.57803E+04, time = 11.26 | CG iter. 53 -- res = 0.55931E+02, tol = 0.57803E+04, time = 12.18 | CG iter. 54 -- res = 0.51893E+02, tol = 0.57803E+04, time = 11.89 | CG iter. 55 -- res = 0.46456E+02, tol = 0.57803E+04, time = 12.09 | CG iter. 56 -- res = 0.40286E+02, tol = 0.57803E+04, time = 11.84 | CG iter. 57 -- res = 0.34493E+02, tol = 0.57803E+04, time = 11.57 | CG iter. 58 -- res = 0.30717E+02, tol = 0.57803E+04, time = 11.69 | CG iter. 59 -- res = 0.28048E+02, tol = 0.57803E+04, time = 11.98 | CG iter. 60 -- res = 0.24822E+02, tol = 0.57803E+04, time = 13.11 | Final CG iter 61 -- res = 0.24822E+02, tol = 0.57803E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.691 ( -229.684 -2230.687 2513.261 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9958655.000 | Old band monopole 7895060.616 | Change to band monopole 2063594.384 | Change to component monopole -2063585.508 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.836 2.730 | New value -1.217 | Old value -0.836 | Difference -0.381 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.384 ( 6.991 10.511 -10.383 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.734 3.547 | New value 1.792 | Old value 6.734 | Difference -4.941 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.86143E+05, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.40386E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.16895E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.38912E-02, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.55648E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9958612.165 | (Sampled value in CG: 9933113.004 ) | Chain = 1 -- chisq = 0.81539853E+09 | Chain = 1 -- wall time = 5671.701 sec Available RAM: MemAvailable: 390096408 kB Available Swap: SwapFree: 1107853420 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 244 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445407 | --> Sampling calibration, mode = relcal | relcal = 1.3430178E-02 7.3665415E-04 -1.5911966E-03 -1.2575636E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1073012 0.1257121 9408458.97544561 | BP delta = 0.1073012 0.1199123 9408470.46117756 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632373 | --> Sampling calibration, mode = relcal | relcal = -2.8210301E-03 -7.0400431E-04 1.6791007E-03 1.6151518E-03 -4.0898882E-04 6.3977070E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5494130 15217327.5313230 | BP delta = 0.0000000E+00 -0.5424867 15217328.0544361 | BP chisq diff = 0.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17937567601445 | --> Sampling calibration, mode = relcal | relcal = -7.4391179E-02 -5.7919983E-02 9.1151454E-02 4.1159712E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5613135E-04 3.1575714E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8126E-04 | 2: delta_r/delta_0: 4.5168E-06 | 3: delta_s/delta_0: 2.0802E-07 | 4: delta_r/delta_0: 1.8739E-08 | 5: delta_s/delta_0: 7.4032E-09 | 6: delta_r/delta_0: 1.7838E-09 | 7: delta_s/delta_0: 2.9589E-09 | 8: delta_r/delta_0: 8.7201E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.107165243038774E-003 2.744929086928887E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8127E-04 | 2: delta_r/delta_0: 4.5170E-06 | 3: delta_s/delta_0: 2.0802E-07 | 4: delta_r/delta_0: 1.8739E-08 | 5: delta_s/delta_0: 7.4032E-09 | 6: delta_r/delta_0: 1.7838E-09 | 7: delta_s/delta_0: 2.9588E-09 | 8: delta_r/delta_0: 8.7201E-11 | Reached bicg-stab tolerance | BP delta = 6.0344528E-02 7.9069808E-02 3640862.38285613 | BP delta = 6.0344528E-02 7.9447046E-02 3641359.47509720 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02591680 | --> Sampling calibration, mode = relcal | relcal = -0.1066708 -9.5495187E-02 0.1449452 5.7220843E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6953797E-03 1.5196163E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.1737E-05 | 2: delta_r/delta_0: 2.0667E-06 | 3: delta_s/delta_0: 2.2115E-07 | 4: delta_r/delta_0: 4.1673E-08 | 5: delta_s/delta_0: 3.5723E-08 | 6: delta_r/delta_0: 6.8817E-09 | 7: delta_s/delta_0: 5.6848E-09 | 8: delta_r/delta_0: 1.7012E-09 | 9: delta_s/delta_0: 7.8280E-10 | 10: delta_r/delta_0: 5.8552E-10 | 11: delta_s/delta_0: 1.0601E-09 | 12: delta_r/delta_0: 9.6731E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.032618938243087E-002 2.811061680669122E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.1746E-05 | 2: delta_r/delta_0: 2.0671E-06 | 3: delta_s/delta_0: 2.2119E-07 | 4: delta_r/delta_0: 4.1772E-08 | 5: delta_s/delta_0: 3.5606E-08 | 6: delta_r/delta_0: 6.8847E-09 | 7: delta_s/delta_0: 5.6763E-09 | 8: delta_r/delta_0: 1.7024E-09 | 9: delta_s/delta_0: 7.8355E-10 | 10: delta_r/delta_0: 5.8606E-10 | 11: delta_s/delta_0: 1.0611E-09 | 12: delta_r/delta_0: 9.6821E-11 | Reached bicg-stab tolerance | BP delta = -0.2557847 -0.2300669 2841576.81143384 | BP delta = -0.2557847 -0.2267342 2841788.90392552 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81218884 | --> Sampling calibration, mode = relcal | relcal = 0.2954184 0.2248985 -0.2837328 -0.2365841 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7469482E-04 5.0779376E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1758E-03 | 2: delta_r/delta_0: 7.3670E-05 | 3: delta_s/delta_0: 2.7294E-05 | 4: delta_r/delta_0: 2.6558E-06 | 5: delta_s/delta_0: 6.0092E-06 | 6: delta_r/delta_0: 7.2180E-07 | 7: delta_s/delta_0: 7.8421E-08 | 8: delta_r/delta_0: 3.0422E-08 | 9: delta_s/delta_0: 1.9238E-07 | 10: delta_r/delta_0: 5.3950E-09 | 11: delta_s/delta_0: 5.5365E-09 | 12: delta_r/delta_0: 4.5119E-10 | 13: delta_s/delta_0: 9.0275E-10 | 14: delta_r/delta_0: 4.8140E-10 | 15: delta_s/delta_0: 5.0544E-10 | 16: delta_r/delta_0: 3.0713E-10 | 17: delta_s/delta_0: 1.0755E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.663896969562004E-002 4.021966054773308E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.1769E-03 | 2: delta_r/delta_0: 7.3695E-05 | 3: delta_s/delta_0: 2.7280E-05 | 4: delta_r/delta_0: 2.6546E-06 | 5: delta_s/delta_0: 6.0111E-06 | 6: delta_r/delta_0: 7.2179E-07 | 7: delta_s/delta_0: 7.8461E-08 | 8: delta_r/delta_0: 3.0414E-08 | 9: delta_s/delta_0: 1.9192E-07 | 10: delta_r/delta_0: 5.3948E-09 | 11: delta_s/delta_0: 5.5407E-09 | 12: delta_r/delta_0: 4.5122E-10 | 13: delta_s/delta_0: 9.0165E-10 | 14: delta_r/delta_0: 4.8063E-10 | 15: delta_s/delta_0: 5.0460E-10 | 16: delta_r/delta_0: 3.0666E-10 | 17: delta_s/delta_0: 1.0750E-11 | Reached bicg-stab tolerance | BP delta = -0.1403776 -0.1503248 2827460.00485029 | BP delta = -0.1403776 -0.1479534 2827460.12315589 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95910453 | --> Sampling calibration, mode = relcal | relcal = 0.1065566 0.1394945 -0.1102203 -0.1358309 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8370630E-03 1.1867472E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6883E-04 | 2: delta_r/delta_0: 9.1208E-06 | 3: delta_s/delta_0: 7.9835E-06 | 4: delta_r/delta_0: 8.7514E-07 | 5: delta_s/delta_0: 2.6409E-07 | 6: delta_r/delta_0: 1.3626E-07 | 7: delta_s/delta_0: 4.1784E-07 | 8: delta_r/delta_0: 3.1860E-08 | 9: delta_s/delta_0: 2.7768E-08 | 10: delta_r/delta_0: 2.7628E-09 | 11: delta_s/delta_0: 1.0786E-07 | 12: delta_r/delta_0: 3.2453E-08 | 13: delta_s/delta_0: 9.9080E-10 | 14: delta_r/delta_0: 3.7339E-10 | 15: delta_s/delta_0: 4.6088E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.148880075040250E-002 3.697398902300756E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6893E-04 | 2: delta_r/delta_0: 9.1229E-06 | 3: delta_s/delta_0: 7.9842E-06 | 4: delta_r/delta_0: 8.7516E-07 | 5: delta_s/delta_0: 2.6419E-07 | 6: delta_r/delta_0: 1.3632E-07 | 7: delta_s/delta_0: 4.1812E-07 | 8: delta_r/delta_0: 3.1863E-08 | 9: delta_s/delta_0: 2.7470E-08 | 10: delta_r/delta_0: 2.7526E-09 | 11: delta_s/delta_0: 6.2123E-08 | 12: delta_r/delta_0: 1.8370E-08 | 13: delta_s/delta_0: 9.9048E-10 | 14: delta_r/delta_0: 3.7414E-10 | 15: delta_s/delta_0: 4.6031E-11 | Reached bicg-stab tolerance | BP delta = 0.1072180 0.2055956 3004191.47886939 | BP delta = 0.1072180 0.2001479 3004318.09754939 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.122663 | New value = -3.086232 | poltype: 2 pol: 1 CPU time specind = 8.6898804E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.076236 | New value = -3.118417 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.211169 | New value = -3.177848 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163615 | New value = -3.008730 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.240169 | New value = -3.195017 | poltype: 2 pol: 2 CPU time specind = 4.6720505E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.13574E+08, tol = 0.72479E+01, time = 5.33 | CG iter. 2 -- res = 0.33841E+06, tol = 0.72479E+01, time = 5.77 | CG iter. 3 -- res = 0.60736E+05, tol = 0.72479E+01, time = 5.75 | CG iter. 4 -- res = 0.38535E+05, tol = 0.72479E+01, time = 5.40 | CG iter. 5 -- res = 0.27295E+05, tol = 0.72479E+01, time = 5.57 | CG iter. 6 -- res = 0.23634E+05, tol = 0.72479E+01, time = 5.94 | CG iter. 7 -- res = 0.22750E+05, tol = 0.72479E+01, time = 5.31 | CG iter. 8 -- res = 0.17620E+05, tol = 0.72479E+01, time = 5.20 | CG iter. 9 -- res = 0.14252E+05, tol = 0.72479E+01, time = 5.38 | CG iter. 10 -- res = 0.11905E+05, tol = 0.72479E+01, time = 5.59 | CG iter. 11 -- res = 0.82652E+04, tol = 0.72479E+01, time = 5.57 | CG iter. 12 -- res = 0.54143E+04, tol = 0.72479E+01, time = 5.55 | CG iter. 13 -- res = 0.37276E+04, tol = 0.72479E+01, time = 5.38 | CG iter. 14 -- res = 0.30979E+04, tol = 0.72479E+01, time = 5.74 | CG iter. 15 -- res = 0.27312E+04, tol = 0.72479E+01, time = 5.46 | CG iter. 16 -- res = 0.19551E+04, tol = 0.72479E+01, time = 5.91 | CG iter. 17 -- res = 0.12725E+04, tol = 0.72479E+01, time = 5.65 | CG iter. 18 -- res = 0.97443E+03, tol = 0.72479E+01, time = 5.66 | CG iter. 19 -- res = 0.78090E+03, tol = 0.72479E+01, time = 5.56 | CG iter. 20 -- res = 0.62279E+03, tol = 0.72479E+01, time = 5.49 | CG iter. 21 -- res = 0.43702E+03, tol = 0.72479E+01, time = 5.49 | CG iter. 22 -- res = 0.31831E+03, tol = 0.72479E+01, time = 7.27 | CG iter. 23 -- res = 0.26985E+03, tol = 0.72479E+01, time = 10.27 | CG iter. 24 -- res = 0.21958E+03, tol = 0.72479E+01, time = 5.90 | CG iter. 25 -- res = 0.16329E+03, tol = 0.72479E+01, time = 5.78 | CG iter. 26 -- res = 0.12061E+03, tol = 0.72479E+01, time = 5.79 | CG iter. 27 -- res = 0.95722E+02, tol = 0.72479E+01, time = 5.71 | CG iter. 28 -- res = 0.81445E+02, tol = 0.72479E+01, time = 5.37 | CG iter. 29 -- res = 0.61947E+02, tol = 0.72479E+01, time = 5.73 | CG iter. 30 -- res = 0.46779E+02, tol = 0.72479E+01, time = 5.57 | CG iter. 31 -- res = 0.38322E+02, tol = 0.72479E+01, time = 5.71 | CG iter. 32 -- res = 0.32668E+02, tol = 0.72479E+01, time = 5.51 | CG iter. 33 -- res = 0.25261E+02, tol = 0.72479E+01, time = 5.63 | CG iter. 34 -- res = 0.18681E+02, tol = 0.72479E+01, time = 5.48 | CG iter. 35 -- res = 0.14313E+02, tol = 0.72479E+01, time = 5.58 | CG iter. 36 -- res = 0.11740E+02, tol = 0.72479E+01, time = 5.71 | CG iter. 37 -- res = 0.99954E+01, tol = 0.72479E+01, time = 5.81 | CG iter. 38 -- res = 0.74602E+01, tol = 0.72479E+01, time = 6.86 | CG iter. 39 -- res = 0.55211E+01, tol = 0.72479E+01, time = 6.03 | CG iter. 40 -- res = 0.45582E+01, tol = 0.72479E+01, time = 5.95 | CG iter. 41 -- res = 0.37687E+01, tol = 0.72479E+01, time = 5.42 | CG iter. 42 -- res = 0.28263E+01, tol = 0.72479E+01, time = 5.40 | CG iter. 43 -- res = 0.21126E+01, tol = 0.72479E+01, time = 5.56 | CG iter. 44 -- res = 0.16276E+01, tol = 0.72479E+01, time = 5.76 | CG iter. 45 -- res = 0.13131E+01, tol = 0.72479E+01, time = 5.62 | CG iter. 46 -- res = 0.10253E+01, tol = 0.72479E+01, time = 5.91 | CG iter. 47 -- res = 0.76449E+00, tol = 0.72479E+01, time = 5.56 | CG iter. 48 -- res = 0.57329E+00, tol = 0.72479E+01, time = 5.31 | CG iter. 49 -- res = 0.45794E+00, tol = 0.72479E+01, time = 5.69 | CG iter. 50 -- res = 0.35795E+00, tol = 0.72479E+01, time = 5.22 | Final CG iter 51 -- res = 0.35795E+00, tol = 0.72479E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8677615.822 | Old band monopole 9958655.000 | Change to band monopole -1281039.177 | Change to component monopole 1281033.667 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.25547E+06, tol = 0.47627E+18, time = 2.80 | CG iter. 2 -- res = 0.13150E+03, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.42205E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.14976E-01, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.12942E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8677578.498 | (Sampled value in CG: 8725990.751 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.476657 | New value = 1.491288 | poltype: 2 pol: 1 CPU time specind = 2.3065805E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.522461 | New value = 1.483875 | poltype: 2 pol: 2 CPU time specind = 1.6909122E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.24051E+08, tol = 0.47544E+04, time = 6.01 | CG iter. 2 -- res = 0.52825E+07, tol = 0.47544E+04, time = 6.22 | CG iter. 3 -- res = 0.82764E+06, tol = 0.47544E+04, time = 6.42 | CG iter. 4 -- res = 0.34518E+06, tol = 0.47544E+04, time = 12.70 | CG iter. 5 -- res = 0.14961E+06, tol = 0.47544E+04, time = 6.27 | CG iter. 6 -- res = 0.77938E+05, tol = 0.47544E+04, time = 6.53 | CG iter. 7 -- res = 0.42412E+05, tol = 0.47544E+04, time = 6.43 | CG iter. 8 -- res = 0.20177E+05, tol = 0.47544E+04, time = 6.49 | CG iter. 9 -- res = 0.88712E+04, tol = 0.47544E+04, time = 6.27 | CG iter. 10 -- res = 0.35828E+04, tol = 0.47544E+04, time = 6.17 | CG iter. 11 -- res = 0.16181E+04, tol = 0.47544E+04, time = 6.53 | CG iter. 12 -- res = 0.85100E+03, tol = 0.47544E+04, time = 6.82 | CG iter. 13 -- res = 0.48359E+03, tol = 0.47544E+04, time = 6.30 | CG iter. 14 -- res = 0.27138E+03, tol = 0.47544E+04, time = 6.35 | CG iter. 15 -- res = 0.13964E+03, tol = 0.47544E+04, time = 6.37 | CG iter. 16 -- res = 0.66913E+02, tol = 0.47544E+04, time = 6.29 | CG iter. 17 -- res = 0.30989E+02, tol = 0.47544E+04, time = 7.88 | CG iter. 18 -- res = 0.15357E+02, tol = 0.47544E+04, time = 6.72 | CG iter. 19 -- res = 0.81571E+01, tol = 0.47544E+04, time = 6.51 | CG iter. 20 -- res = 0.46055E+01, tol = 0.47544E+04, time = 6.85 | CG iter. 21 -- res = 0.24808E+01, tol = 0.47544E+04, time = 6.52 | CG iter. 22 -- res = 0.13117E+01, tol = 0.47544E+04, time = 6.52 | CG iter. 23 -- res = 0.67630E+00, tol = 0.47544E+04, time = 6.55 | CG iter. 24 -- res = 0.34436E+00, tol = 0.47544E+04, time = 6.55 | CG iter. 25 -- res = 0.18779E+00, tol = 0.47544E+04, time = 6.27 | CG iter. 26 -- res = 0.10862E+00, tol = 0.47544E+04, time = 6.30 | CG iter. 27 -- res = 0.61217E-01, tol = 0.47544E+04, time = 6.45 | CG iter. 28 -- res = 0.32842E-01, tol = 0.47544E+04, time = 6.41 | CG iter. 29 -- res = 0.17092E-01, tol = 0.47544E+04, time = 6.25 | CG iter. 30 -- res = 0.89208E-02, tol = 0.47544E+04, time = 6.54 | CG iter. 31 -- res = 0.49104E-02, tol = 0.47544E+04, time = 6.75 | CG iter. 32 -- res = 0.28529E-02, tol = 0.47544E+04, time = 6.27 | CG iter. 33 -- res = 0.15742E-02, tol = 0.47544E+04, time = 6.37 | CG iter. 34 -- res = 0.84075E-03, tol = 0.47544E+04, time = 6.46 | CG iter. 35 -- res = 0.44087E-03, tol = 0.47544E+04, time = 6.46 | Final CG iter 36 -- res = 0.44087E-03, tol = 0.47544E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.161 2.752 | New value 1.009 | Old value -1.161 | Difference 2.170 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.24637E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.42286E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.12851E+01, tol = 0.47627E+18, time = 2.07 | Final CG iter 4 -- res = 0.18111E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8677578.498 | (Sampled value in CG: 8725372.907 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.691206 | New value = -3.633081 | poltype: 1 pol: 1 CPU time specind = 8.5160732E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.22280E+07, tol = 0.20332E+01, time = 2.76 | CG iter. 2 -- res = 0.78145E+06, tol = 0.20332E+01, time = 2.66 | CG iter. 3 -- res = 0.15460E+06, tol = 0.20332E+01, time = 2.82 | CG iter. 4 -- res = 0.61651E+05, tol = 0.20332E+01, time = 2.49 | CG iter. 5 -- res = 0.35285E+05, tol = 0.20332E+01, time = 2.55 | CG iter. 6 -- res = 0.18776E+05, tol = 0.20332E+01, time = 2.40 | CG iter. 7 -- res = 0.74278E+04, tol = 0.20332E+01, time = 2.68 | CG iter. 8 -- res = 0.31491E+04, tol = 0.20332E+01, time = 2.90 | CG iter. 9 -- res = 0.12842E+04, tol = 0.20332E+01, time = 2.80 | CG iter. 10 -- res = 0.50836E+03, tol = 0.20332E+01, time = 2.56 | CG iter. 11 -- res = 0.21917E+03, tol = 0.20332E+01, time = 2.62 | CG iter. 12 -- res = 0.11587E+03, tol = 0.20332E+01, time = 2.88 | CG iter. 13 -- res = 0.59093E+02, tol = 0.20332E+01, time = 2.74 | CG iter. 14 -- res = 0.28366E+02, tol = 0.20332E+01, time = 2.85 | CG iter. 15 -- res = 0.12468E+02, tol = 0.20332E+01, time = 2.63 | CG iter. 16 -- res = 0.55900E+01, tol = 0.20332E+01, time = 2.62 | CG iter. 17 -- res = 0.23126E+01, tol = 0.20332E+01, time = 2.69 | CG iter. 18 -- res = 0.10974E+01, tol = 0.20332E+01, time = 2.91 | CG iter. 19 -- res = 0.55600E+00, tol = 0.20332E+01, time = 2.88 | CG iter. 20 -- res = 0.28779E+00, tol = 0.20332E+01, time = 2.74 | CG iter. 21 -- res = 0.13972E+00, tol = 0.20332E+01, time = 2.68 | CG iter. 22 -- res = 0.62154E-01, tol = 0.20332E+01, time = 2.69 | CG iter. 23 -- res = 0.27590E-01, tol = 0.20332E+01, time = 2.77 | CG iter. 24 -- res = 0.13459E-01, tol = 0.20332E+01, time = 2.80 | CG iter. 25 -- res = 0.67842E-02, tol = 0.20332E+01, time = 2.61 | CG iter. 26 -- res = 0.33556E-02, tol = 0.20332E+01, time = 2.60 | CG iter. 27 -- res = 0.16859E-02, tol = 0.20332E+01, time = 2.75 | CG iter. 28 -- res = 0.78869E-03, tol = 0.20332E+01, time = 2.38 | CG iter. 29 -- res = 0.34548E-03, tol = 0.20332E+01, time = 2.38 | CG iter. 30 -- res = 0.16462E-03, tol = 0.20332E+01, time = 2.80 | CG iter. 31 -- res = 0.81058E-04, tol = 0.20332E+01, time = 2.67 | CG iter. 32 -- res = 0.41660E-04, tol = 0.20332E+01, time = 2.51 | CG iter. 33 -- res = 0.20032E-04, tol = 0.20332E+01, time = 2.48 | CG iter. 34 -- res = 0.94043E-05, tol = 0.20332E+01, time = 2.60 | CG iter. 35 -- res = 0.44322E-05, tol = 0.20332E+01, time = 4.42 | CG iter. 36 -- res = 0.21229E-05, tol = 0.20332E+01, time = 7.19 | CG iter. 37 -- res = 0.98645E-06, tol = 0.20332E+01, time = 2.72 | CG iter. 38 -- res = 0.51673E-06, tol = 0.20332E+01, time = 2.62 | CG iter. 39 -- res = 0.24934E-06, tol = 0.20332E+01, time = 2.41 | CG iter. 40 -- res = 0.12016E-06, tol = 0.20332E+01, time = 2.67 | CG iter. 41 -- res = 0.57769E-07, tol = 0.20332E+01, time = 2.42 | CG iter. 42 -- res = 0.26963E-07, tol = 0.20332E+01, time = 2.89 | CG iter. 43 -- res = 0.12487E-07, tol = 0.20332E+01, time = 2.46 | CG iter. 44 -- res = 0.62830E-08, tol = 0.20332E+01, time = 2.81 | CG iter. 45 -- res = 0.32485E-08, tol = 0.20332E+01, time = 2.72 | CG iter. 46 -- res = 0.15083E-08, tol = 0.20332E+01, time = 2.52 | CG iter. 47 -- res = 0.69657E-09, tol = 0.20332E+01, time = 2.88 | CG iter. 48 -- res = 0.32775E-09, tol = 0.20332E+01, time = 2.70 | CG iter. 49 -- res = 0.15415E-09, tol = 0.20332E+01, time = 2.53 | CG iter. 50 -- res = 0.74444E-10, tol = 0.20332E+01, time = 2.85 | Final CG iter 51 -- res = 0.74444E-10, tol = 0.20332E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.026 2.886 | New value -0.651 | Old value 5.026 | Difference -5.676 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.35163E+05, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.41575E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.14968E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.48970E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.45772E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8677578.498 | (Sampled value in CG: 8718331.531 ) | CPU time specind = 1170.882 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.68386E+08, tol = 0.57710E+04, time = 10.98 | CG iter. 2 -- res = 0.59319E+08, tol = 0.57710E+04, time = 12.06 | CG iter. 3 -- res = 0.15657E+08, tol = 0.57710E+04, time = 12.18 | CG iter. 4 -- res = 0.64514E+07, tol = 0.57710E+04, time = 11.36 | CG iter. 5 -- res = 0.37827E+07, tol = 0.57710E+04, time = 11.51 | CG iter. 6 -- res = 0.21589E+07, tol = 0.57710E+04, time = 11.62 | CG iter. 7 -- res = 0.12494E+07, tol = 0.57710E+04, time = 11.60 | CG iter. 8 -- res = 0.84541E+06, tol = 0.57710E+04, time = 11.69 | CG iter. 9 -- res = 0.55637E+06, tol = 0.57710E+04, time = 11.68 | CG iter. 10 -- res = 0.32707E+06, tol = 0.57710E+04, time = 11.38 | CG iter. 11 -- res = 0.17642E+06, tol = 0.57710E+04, time = 12.01 | CG iter. 12 -- res = 0.93713E+05, tol = 0.57710E+04, time = 11.53 | CG iter. 13 -- res = 0.53190E+05, tol = 0.57710E+04, time = 11.89 | CG iter. 14 -- res = 0.32806E+05, tol = 0.57710E+04, time = 11.54 | CG iter. 15 -- res = 0.22604E+05, tol = 0.57710E+04, time = 17.69 | CG iter. 16 -- res = 0.17496E+05, tol = 0.57710E+04, time = 11.92 | CG iter. 17 -- res = 0.14258E+05, tol = 0.57710E+04, time = 11.17 | CG iter. 18 -- res = 0.11235E+05, tol = 0.57710E+04, time = 11.66 | CG iter. 19 -- res = 0.87930E+04, tol = 0.57710E+04, time = 11.49 | CG iter. 20 -- res = 0.73350E+04, tol = 0.57710E+04, time = 11.86 | CG iter. 21 -- res = 0.66426E+04, tol = 0.57710E+04, time = 11.82 | CG iter. 22 -- res = 0.64880E+04, tol = 0.57710E+04, time = 13.36 | CG iter. 23 -- res = 0.66914E+04, tol = 0.57710E+04, time = 12.23 | CG iter. 24 -- res = 0.70175E+04, tol = 0.57710E+04, time = 11.80 | CG iter. 25 -- res = 0.68808E+04, tol = 0.57710E+04, time = 11.75 | CG iter. 26 -- res = 0.60531E+04, tol = 0.57710E+04, time = 11.76 | CG iter. 27 -- res = 0.49436E+04, tol = 0.57710E+04, time = 11.75 | CG iter. 28 -- res = 0.38871E+04, tol = 0.57710E+04, time = 11.41 | CG iter. 29 -- res = 0.30685E+04, tol = 0.57710E+04, time = 11.26 | CG iter. 30 -- res = 0.25086E+04, tol = 0.57710E+04, time = 11.59 | CG iter. 31 -- res = 0.21111E+04, tol = 0.57710E+04, time = 12.19 | CG iter. 32 -- res = 0.18067E+04, tol = 0.57710E+04, time = 11.91 | CG iter. 33 -- res = 0.15059E+04, tol = 0.57710E+04, time = 11.67 | CG iter. 34 -- res = 0.12491E+04, tol = 0.57710E+04, time = 11.85 | CG iter. 35 -- res = 0.10482E+04, tol = 0.57710E+04, time = 11.40 | CG iter. 36 -- res = 0.90246E+03, tol = 0.57710E+04, time = 12.08 | CG iter. 37 -- res = 0.83576E+03, tol = 0.57710E+04, time = 11.68 | CG iter. 38 -- res = 0.82464E+03, tol = 0.57710E+04, time = 11.41 | CG iter. 39 -- res = 0.79900E+03, tol = 0.57710E+04, time = 11.27 | CG iter. 40 -- res = 0.71023E+03, tol = 0.57710E+04, time = 17.85 | CG iter. 41 -- res = 0.60281E+03, tol = 0.57710E+04, time = 11.69 | CG iter. 42 -- res = 0.51409E+03, tol = 0.57710E+04, time = 11.77 | CG iter. 43 -- res = 0.44941E+03, tol = 0.57710E+04, time = 11.59 | CG iter. 44 -- res = 0.39853E+03, tol = 0.57710E+04, time = 11.88 | CG iter. 45 -- res = 0.35587E+03, tol = 0.57710E+04, time = 11.69 | CG iter. 46 -- res = 0.32309E+03, tol = 0.57710E+04, time = 11.78 | CG iter. 47 -- res = 0.29420E+03, tol = 0.57710E+04, time = 13.38 | CG iter. 48 -- res = 0.26013E+03, tol = 0.57710E+04, time = 12.20 | CG iter. 49 -- res = 0.22823E+03, tol = 0.57710E+04, time = 11.69 | CG iter. 50 -- res = 0.20037E+03, tol = 0.57710E+04, time = 11.27 | CG iter. 51 -- res = 0.18588E+03, tol = 0.57710E+04, time = 11.50 | CG iter. 52 -- res = 0.18141E+03, tol = 0.57710E+04, time = 11.85 | CG iter. 53 -- res = 0.17864E+03, tol = 0.57710E+04, time = 11.62 | CG iter. 54 -- res = 0.16711E+03, tol = 0.57710E+04, time = 11.46 | CG iter. 55 -- res = 0.14992E+03, tol = 0.57710E+04, time = 11.79 | CG iter. 56 -- res = 0.13008E+03, tol = 0.57710E+04, time = 11.43 | CG iter. 57 -- res = 0.11122E+03, tol = 0.57710E+04, time = 11.47 | CG iter. 58 -- res = 0.98572E+02, tol = 0.57710E+04, time = 11.67 | CG iter. 59 -- res = 0.92211E+02, tol = 0.57710E+04, time = 11.32 | CG iter. 60 -- res = 0.87194E+02, tol = 0.57710E+04, time = 12.06 | Final CG iter 61 -- res = 0.87194E+02, tol = 0.57710E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.776 ( -229.603 -2231.493 2514.079 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9367095.219 | Old band monopole 8677615.822 | Change to band monopole 689479.396 | Change to component monopole -689476.431 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.005 2.746 | New value 2.512 | Old value 1.005 | Difference 1.507 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.141 ( 6.096 12.418 -12.738 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.379 3.558 | New value -0.351 | Old value 0.379 | Difference -0.730 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.11897E+06, tol = 0.47627E+18, time = 1.69 | CG iter. 2 -- res = 0.24358E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.35651E+00, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.18051E-03, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.13332E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9367054.929 | (Sampled value in CG: 9348309.572 ) | Chain = 1 -- chisq = 0.81545534E+09 | Chain = 1 -- wall time = 6023.590 sec Available RAM: MemAvailable: 389667860 kB Available Swap: SwapFree: 1108344724 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 245 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443049 | --> Sampling calibration, mode = relcal | relcal = 1.3421612E-02 7.4047735E-04 -1.5841931E-03 -1.2577896E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1073012 0.1257121 97045764.8603170 | BP delta = 0.1203773 0.1387881 97045766.3876411 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632496 | --> Sampling calibration, mode = relcal | relcal = -2.8219288E-03 -7.0502696E-04 1.6791403E-03 1.6139415E-03 -4.0795119E-04 6.4182520E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5424867 15219460.6781075 | BP delta = 0.0000000E+00 -0.5375887 15219462.0870949 | BP chisq diff = 1.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18453946082599 | --> Sampling calibration, mode = relcal | relcal = -7.6140039E-02 -5.9309807E-02 9.3163416E-02 4.2286430E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1617783E-04 6.2507037E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1188E-05 | 2: delta_r/delta_0: 1.5430E-06 | 3: delta_s/delta_0: 2.0035E-07 | 4: delta_r/delta_0: 3.1770E-08 | 5: delta_s/delta_0: 9.8993E-09 | 6: delta_r/delta_0: 3.2018E-09 | 7: delta_s/delta_0: 7.0634E-10 | 8: delta_r/delta_0: 1.7344E-10 | 9: delta_s/delta_0: 1.9222E-10 | 10: delta_r/delta_0: 6.6213E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.404796813380919E-003 2.732746866642811E-005 | BP delta = 6.0344528E-02 7.9069808E-02 50485335.0291159 | BP delta = 6.4462014E-02 8.3187297E-02 50485328.5063520 | BP chisq diff = -6.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02607828 | --> Sampling calibration, mode = relcal | relcal = -0.1066280 -9.5505029E-02 0.1448745 5.7258453E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4251872E-03 1.6533226E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.7137E-05 | 2: delta_r/delta_0: 2.1754E-06 | 3: delta_s/delta_0: 2.1960E-07 | 4: delta_r/delta_0: 4.4731E-08 | 5: delta_s/delta_0: 4.0081E-08 | 6: delta_r/delta_0: 7.4410E-09 | 7: delta_s/delta_0: 1.1073E-08 | 8: delta_r/delta_0: 1.3785E-09 | 9: delta_s/delta_0: 1.2860E-09 | 10: delta_r/delta_0: 6.8331E-10 | 11: delta_s/delta_0: 3.4620E-10 | 12: delta_r/delta_0: 5.7605E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.049425292980361E-002 2.810595191461597E-005 | BP delta = -0.2557847 -0.2300669 57399082.1018746 | BP delta = -0.2471140 -0.2213963 57399083.5791570 | BP chisq diff = 1.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236144 | --> Sampling calibration, mode = relcal | relcal = 0.2954677 0.2248734 -0.2837767 -0.2365645 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3434510E-04 6.1481735E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4959E-03 | 2: delta_r/delta_0: 3.4402E-05 | 3: delta_s/delta_0: 1.8252E-05 | 4: delta_r/delta_0: 1.9102E-06 | 5: delta_s/delta_0: 7.2391E-07 | 6: delta_r/delta_0: 7.3585E-08 | 7: delta_s/delta_0: 5.8316E-08 | 8: delta_r/delta_0: 3.0369E-08 | 9: delta_s/delta_0: 3.3555E-07 | 10: delta_r/delta_0: 1.9551E-09 | 11: delta_s/delta_0: 1.0035E-09 | 12: delta_r/delta_0: 3.5390E-10 | 13: delta_s/delta_0: 4.8647E-09 | 14: delta_r/delta_0: 1.2089E-09 | 15: delta_s/delta_0: 1.0093E-10 | 16: delta_r/delta_0: 4.5739E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.465204212306153E-002 4.020992412784463E-005 | BP delta = -0.1403776 -0.1479534 72488173.4991622 | BP delta = -0.1002013 -0.1077771 72488175.0994166 | BP chisq diff = 1.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95930604 | --> Sampling calibration, mode = relcal | relcal = 0.1065395 0.1395707 -0.1102793 -0.1358310 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6537266E-03 1.2471189E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.8475E-04 | 2: delta_r/delta_0: 2.1487E-05 | 3: delta_s/delta_0: 6.2535E-05 | 4: delta_r/delta_0: 3.4213E-06 | 5: delta_s/delta_0: 3.7177E-07 | 6: delta_r/delta_0: 1.7486E-07 | 7: delta_s/delta_0: 6.4457E-07 | 8: delta_r/delta_0: 4.1588E-08 | 9: delta_s/delta_0: 1.2188E-08 | 10: delta_r/delta_0: 4.9399E-09 | 11: delta_s/delta_0: 2.5779E-09 | 12: delta_r/delta_0: 1.0030E-09 | 13: delta_s/delta_0: 9.4947E-09 | 14: delta_r/delta_0: 2.3882E-09 | 15: delta_s/delta_0: 7.2914E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.448667632602196E-002 3.696619116052498E-005 | BP delta = 0.1072180 0.2055956 72780515.1100661 | BP delta = 3.3902772E-02 0.1322804 72780516.9543561 | BP chisq diff = 1.8, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.086232 | New value = -3.186106 | poltype: 2 pol: 1 CPU time specind = 2.0449162E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118417 | New value = -3.077191 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177848 | New value = -3.078848 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.008730 | New value = -3.194775 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195017 | New value = -3.184784 | poltype: 2 pol: 2 CPU time specind = 4.3380022E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.13608E+08, tol = 0.75719E+01, time = 6.02 | CG iter. 2 -- res = 0.33905E+06, tol = 0.75719E+01, time = 6.83 | CG iter. 3 -- res = 0.78405E+05, tol = 0.75719E+01, time = 6.34 | CG iter. 4 -- res = 0.82533E+05, tol = 0.75719E+01, time = 5.56 | CG iter. 5 -- res = 0.83745E+05, tol = 0.75719E+01, time = 5.65 | CG iter. 6 -- res = 0.76611E+05, tol = 0.75719E+01, time = 5.71 | CG iter. 7 -- res = 0.67850E+05, tol = 0.75719E+01, time = 5.73 | CG iter. 8 -- res = 0.52447E+05, tol = 0.75719E+01, time = 5.26 | CG iter. 9 -- res = 0.41860E+05, tol = 0.75719E+01, time = 5.29 | CG iter. 10 -- res = 0.33137E+05, tol = 0.75719E+01, time = 6.03 | CG iter. 11 -- res = 0.23641E+05, tol = 0.75719E+01, time = 5.54 | CG iter. 12 -- res = 0.17810E+05, tol = 0.75719E+01, time = 5.23 | CG iter. 13 -- res = 0.15440E+05, tol = 0.75719E+01, time = 5.42 | CG iter. 14 -- res = 0.13721E+05, tol = 0.75719E+01, time = 5.57 | CG iter. 15 -- res = 0.10693E+05, tol = 0.75719E+01, time = 5.41 | CG iter. 16 -- res = 0.75202E+04, tol = 0.75719E+01, time = 5.85 | CG iter. 17 -- res = 0.54608E+04, tol = 0.75719E+01, time = 5.81 | CG iter. 18 -- res = 0.46591E+04, tol = 0.75719E+01, time = 5.51 | CG iter. 19 -- res = 0.40239E+04, tol = 0.75719E+01, time = 5.94 | CG iter. 20 -- res = 0.31517E+04, tol = 0.75719E+01, time = 5.77 | CG iter. 21 -- res = 0.23630E+04, tol = 0.75719E+01, time = 6.00 | CG iter. 22 -- res = 0.19282E+04, tol = 0.75719E+01, time = 5.55 | CG iter. 23 -- res = 0.16866E+04, tol = 0.75719E+01, time = 5.67 | CG iter. 24 -- res = 0.12823E+04, tol = 0.75719E+01, time = 5.45 | CG iter. 25 -- res = 0.93652E+03, tol = 0.75719E+01, time = 5.44 | CG iter. 26 -- res = 0.75996E+03, tol = 0.75719E+01, time = 5.90 | CG iter. 27 -- res = 0.66632E+03, tol = 0.75719E+01, time = 5.36 | CG iter. 28 -- res = 0.56117E+03, tol = 0.75719E+01, time = 5.71 | CG iter. 29 -- res = 0.43486E+03, tol = 0.75719E+01, time = 5.90 | CG iter. 30 -- res = 0.33356E+03, tol = 0.75719E+01, time = 5.59 | CG iter. 31 -- res = 0.29493E+03, tol = 0.75719E+01, time = 5.31 | CG iter. 32 -- res = 0.25202E+03, tol = 0.75719E+01, time = 5.45 | CG iter. 33 -- res = 0.19610E+03, tol = 0.75719E+01, time = 5.66 | CG iter. 34 -- res = 0.15045E+03, tol = 0.75719E+01, time = 5.54 | CG iter. 35 -- res = 0.13152E+03, tol = 0.75719E+01, time = 5.43 | CG iter. 36 -- res = 0.11473E+03, tol = 0.75719E+01, time = 5.42 | CG iter. 37 -- res = 0.94549E+02, tol = 0.75719E+01, time = 5.74 | CG iter. 38 -- res = 0.74960E+02, tol = 0.75719E+01, time = 10.46 | CG iter. 39 -- res = 0.62145E+02, tol = 0.75719E+01, time = 8.25 | CG iter. 40 -- res = 0.57789E+02, tol = 0.75719E+01, time = 5.55 | CG iter. 41 -- res = 0.48317E+02, tol = 0.75719E+01, time = 6.47 | CG iter. 42 -- res = 0.39150E+02, tol = 0.75719E+01, time = 5.46 | CG iter. 43 -- res = 0.33464E+02, tol = 0.75719E+01, time = 5.57 | CG iter. 44 -- res = 0.30322E+02, tol = 0.75719E+01, time = 5.40 | CG iter. 45 -- res = 0.25544E+02, tol = 0.75719E+01, time = 5.84 | CG iter. 46 -- res = 0.20420E+02, tol = 0.75719E+01, time = 5.53 | CG iter. 47 -- res = 0.16946E+02, tol = 0.75719E+01, time = 5.44 | CG iter. 48 -- res = 0.14548E+02, tol = 0.75719E+01, time = 5.55 | CG iter. 49 -- res = 0.12924E+02, tol = 0.75719E+01, time = 5.22 | CG iter. 50 -- res = 0.10547E+02, tol = 0.75719E+01, time = 5.67 | Final CG iter 51 -- res = 0.10547E+02, tol = 0.75719E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9849895.908 | Old band monopole 9367095.219 | Change to band monopole 482800.690 | Change to component monopole -482798.613 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.71274E+06, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.22593E+03, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.26128E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.34449E-01, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.52098E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9849853.542 | (Sampled value in CG: 9762220.196 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.491288 | New value = 1.499219 | poltype: 2 pol: 1 CPU time specind = 2.0910978E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.483875 | New value = 1.509481 | poltype: 2 pol: 2 CPU time specind = 2.7718544E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.24023E+08, tol = 0.47599E+04, time = 6.46 | CG iter. 2 -- res = 0.53541E+07, tol = 0.47599E+04, time = 6.17 | CG iter. 3 -- res = 0.85850E+06, tol = 0.47599E+04, time = 6.25 | CG iter. 4 -- res = 0.35755E+06, tol = 0.47599E+04, time = 6.61 | CG iter. 5 -- res = 0.15591E+06, tol = 0.47599E+04, time = 6.28 | CG iter. 6 -- res = 0.80940E+05, tol = 0.47599E+04, time = 6.46 | CG iter. 7 -- res = 0.43472E+05, tol = 0.47599E+04, time = 6.58 | CG iter. 8 -- res = 0.20444E+05, tol = 0.47599E+04, time = 6.59 | CG iter. 9 -- res = 0.88914E+04, tol = 0.47599E+04, time = 6.47 | CG iter. 10 -- res = 0.36534E+04, tol = 0.47599E+04, time = 6.74 | CG iter. 11 -- res = 0.16784E+04, tol = 0.47599E+04, time = 6.39 | CG iter. 12 -- res = 0.87652E+03, tol = 0.47599E+04, time = 6.45 | CG iter. 13 -- res = 0.50013E+03, tol = 0.47599E+04, time = 6.81 | CG iter. 14 -- res = 0.28294E+03, tol = 0.47599E+04, time = 6.38 | CG iter. 15 -- res = 0.14635E+03, tol = 0.47599E+04, time = 6.46 | CG iter. 16 -- res = 0.69438E+02, tol = 0.47599E+04, time = 6.47 | CG iter. 17 -- res = 0.32164E+02, tol = 0.47599E+04, time = 6.47 | CG iter. 18 -- res = 0.15907E+02, tol = 0.47599E+04, time = 13.50 | CG iter. 19 -- res = 0.87148E+01, tol = 0.47599E+04, time = 6.47 | CG iter. 20 -- res = 0.51572E+01, tol = 0.47599E+04, time = 6.41 | CG iter. 21 -- res = 0.27576E+01, tol = 0.47599E+04, time = 6.36 | CG iter. 22 -- res = 0.14111E+01, tol = 0.47599E+04, time = 6.30 | CG iter. 23 -- res = 0.70267E+00, tol = 0.47599E+04, time = 6.27 | CG iter. 24 -- res = 0.36821E+00, tol = 0.47599E+04, time = 6.82 | CG iter. 25 -- res = 0.20393E+00, tol = 0.47599E+04, time = 6.20 | CG iter. 26 -- res = 0.11715E+00, tol = 0.47599E+04, time = 6.45 | CG iter. 27 -- res = 0.66806E-01, tol = 0.47599E+04, time = 6.44 | CG iter. 28 -- res = 0.36521E-01, tol = 0.47599E+04, time = 6.56 | CG iter. 29 -- res = 0.18939E-01, tol = 0.47599E+04, time = 6.20 | CG iter. 30 -- res = 0.98881E-02, tol = 0.47599E+04, time = 6.42 | CG iter. 31 -- res = 0.52769E-02, tol = 0.47599E+04, time = 7.64 | CG iter. 32 -- res = 0.29430E-02, tol = 0.47599E+04, time = 6.81 | CG iter. 33 -- res = 0.16840E-02, tol = 0.47599E+04, time = 6.45 | CG iter. 34 -- res = 0.92170E-03, tol = 0.47599E+04, time = 6.45 | CG iter. 35 -- res = 0.48486E-03, tol = 0.47599E+04, time = 6.08 | Final CG iter 36 -- res = 0.48486E-03, tol = 0.47599E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.451 2.715 | New value -0.318 | Old value 2.451 | Difference -2.769 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.40587E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.99765E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.18270E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.26753E-03, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.22448E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9849853.542 | (Sampled value in CG: 9763256.518 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.633081 | New value = -3.788079 | poltype: 1 pol: 1 CPU time specind = 8.4829330E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.41011E+07, tol = 0.25565E+01, time = 2.76 | CG iter. 2 -- res = 0.15244E+07, tol = 0.25565E+01, time = 2.57 | CG iter. 3 -- res = 0.35246E+06, tol = 0.25565E+01, time = 2.71 | CG iter. 4 -- res = 0.18313E+06, tol = 0.25565E+01, time = 2.45 | CG iter. 5 -- res = 0.10705E+06, tol = 0.25565E+01, time = 2.57 | CG iter. 6 -- res = 0.40595E+05, tol = 0.25565E+01, time = 2.46 | CG iter. 7 -- res = 0.11691E+05, tol = 0.25565E+01, time = 2.67 | CG iter. 8 -- res = 0.48697E+04, tol = 0.25565E+01, time = 2.66 | CG iter. 9 -- res = 0.22642E+04, tol = 0.25565E+01, time = 2.71 | CG iter. 10 -- res = 0.89858E+03, tol = 0.25565E+01, time = 2.38 | CG iter. 11 -- res = 0.39117E+03, tol = 0.25565E+01, time = 2.54 | CG iter. 12 -- res = 0.20590E+03, tol = 0.25565E+01, time = 2.81 | CG iter. 13 -- res = 0.10259E+03, tol = 0.25565E+01, time = 2.53 | CG iter. 14 -- res = 0.44492E+02, tol = 0.25565E+01, time = 2.46 | CG iter. 15 -- res = 0.18579E+02, tol = 0.25565E+01, time = 2.70 | CG iter. 16 -- res = 0.81107E+01, tol = 0.25565E+01, time = 2.48 | CG iter. 17 -- res = 0.37371E+01, tol = 0.25565E+01, time = 2.96 | CG iter. 18 -- res = 0.18219E+01, tol = 0.25565E+01, time = 2.94 | CG iter. 19 -- res = 0.90154E+00, tol = 0.25565E+01, time = 2.79 | CG iter. 20 -- res = 0.43085E+00, tol = 0.25565E+01, time = 2.85 | CG iter. 21 -- res = 0.18866E+00, tol = 0.25565E+01, time = 2.65 | CG iter. 22 -- res = 0.80907E-01, tol = 0.25565E+01, time = 2.40 | CG iter. 23 -- res = 0.37939E-01, tol = 0.25565E+01, time = 2.85 | CG iter. 24 -- res = 0.19078E-01, tol = 0.25565E+01, time = 2.89 | CG iter. 25 -- res = 0.97369E-02, tol = 0.25565E+01, time = 2.36 | CG iter. 26 -- res = 0.45796E-02, tol = 0.25565E+01, time = 2.83 | CG iter. 27 -- res = 0.20162E-02, tol = 0.25565E+01, time = 2.57 | CG iter. 28 -- res = 0.93034E-03, tol = 0.25565E+01, time = 2.57 | CG iter. 29 -- res = 0.44157E-03, tol = 0.25565E+01, time = 2.71 | CG iter. 30 -- res = 0.22221E-03, tol = 0.25565E+01, time = 2.60 | CG iter. 31 -- res = 0.11187E-03, tol = 0.25565E+01, time = 2.93 | CG iter. 32 -- res = 0.55542E-04, tol = 0.25565E+01, time = 2.72 | CG iter. 33 -- res = 0.25165E-04, tol = 0.25565E+01, time = 2.42 | CG iter. 34 -- res = 0.11287E-04, tol = 0.25565E+01, time = 2.83 | CG iter. 35 -- res = 0.56386E-05, tol = 0.25565E+01, time = 2.47 | CG iter. 36 -- res = 0.28668E-05, tol = 0.25565E+01, time = 2.66 | CG iter. 37 -- res = 0.13982E-05, tol = 0.25565E+01, time = 2.74 | CG iter. 38 -- res = 0.64871E-06, tol = 0.25565E+01, time = 2.81 | CG iter. 39 -- res = 0.29503E-06, tol = 0.25565E+01, time = 2.87 | CG iter. 40 -- res = 0.13901E-06, tol = 0.25565E+01, time = 2.78 | CG iter. 41 -- res = 0.65871E-07, tol = 0.25565E+01, time = 2.61 | CG iter. 42 -- res = 0.32431E-07, tol = 0.25565E+01, time = 2.43 | CG iter. 43 -- res = 0.15391E-07, tol = 0.25565E+01, time = 2.64 | CG iter. 44 -- res = 0.72901E-08, tol = 0.25565E+01, time = 2.90 | CG iter. 45 -- res = 0.33056E-08, tol = 0.25565E+01, time = 2.91 | CG iter. 46 -- res = 0.14941E-08, tol = 0.25565E+01, time = 2.74 | CG iter. 47 -- res = 0.74721E-09, tol = 0.25565E+01, time = 2.75 | CG iter. 48 -- res = 0.36261E-09, tol = 0.25565E+01, time = 2.62 | CG iter. 49 -- res = 0.17152E-09, tol = 0.25565E+01, time = 2.80 | CG iter. 50 -- res = 0.77845E-10, tol = 0.25565E+01, time = 2.45 | Final CG iter 51 -- res = 0.77845E-10, tol = 0.25565E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.363 5.525 | New value 3.756 | Old value -9.363 | Difference 13.119 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.17097E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.82303E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.19494E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.11568E-01, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.18675E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9849853.542 | (Sampled value in CG: 9785650.887 ) | CPU time specind = 1167.819 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.29 | CG iter. 1 -- res = 0.69038E+08, tol = 0.58122E+04, time = 11.79 | CG iter. 2 -- res = 0.58498E+08, tol = 0.58122E+04, time = 11.79 | CG iter. 3 -- res = 0.15099E+08, tol = 0.58122E+04, time = 11.36 | CG iter. 4 -- res = 0.63935E+07, tol = 0.58122E+04, time = 11.67 | CG iter. 5 -- res = 0.37711E+07, tol = 0.58122E+04, time = 11.66 | CG iter. 6 -- res = 0.21538E+07, tol = 0.58122E+04, time = 13.39 | CG iter. 7 -- res = 0.12828E+07, tol = 0.58122E+04, time = 11.83 | CG iter. 8 -- res = 0.84235E+06, tol = 0.58122E+04, time = 11.78 | CG iter. 9 -- res = 0.54618E+06, tol = 0.58122E+04, time = 11.92 | CG iter. 10 -- res = 0.33210E+06, tol = 0.58122E+04, time = 11.80 | CG iter. 11 -- res = 0.18533E+06, tol = 0.58122E+04, time = 11.77 | CG iter. 12 -- res = 0.10377E+06, tol = 0.58122E+04, time = 11.45 | CG iter. 13 -- res = 0.65346E+05, tol = 0.58122E+04, time = 11.89 | CG iter. 14 -- res = 0.47482E+05, tol = 0.58122E+04, time = 11.35 | CG iter. 15 -- res = 0.38699E+05, tol = 0.58122E+04, time = 12.63 | CG iter. 16 -- res = 0.35032E+05, tol = 0.58122E+04, time = 11.53 | CG iter. 17 -- res = 0.32304E+05, tol = 0.58122E+04, time = 12.08 | CG iter. 18 -- res = 0.29555E+05, tol = 0.58122E+04, time = 11.21 | CG iter. 19 -- res = 0.26957E+05, tol = 0.58122E+04, time = 11.73 | CG iter. 20 -- res = 0.24638E+05, tol = 0.58122E+04, time = 11.25 | CG iter. 21 -- res = 0.23301E+05, tol = 0.58122E+04, time = 11.58 | CG iter. 22 -- res = 0.23540E+05, tol = 0.58122E+04, time = 11.67 | CG iter. 23 -- res = 0.23024E+05, tol = 0.58122E+04, time = 17.73 | CG iter. 24 -- res = 0.21657E+05, tol = 0.58122E+04, time = 11.79 | CG iter. 25 -- res = 0.18123E+05, tol = 0.58122E+04, time = 11.21 | CG iter. 26 -- res = 0.13727E+05, tol = 0.58122E+04, time = 11.80 | CG iter. 27 -- res = 0.10155E+05, tol = 0.58122E+04, time = 11.33 | CG iter. 28 -- res = 0.76767E+04, tol = 0.58122E+04, time = 11.32 | CG iter. 29 -- res = 0.63953E+04, tol = 0.58122E+04, time = 11.27 | CG iter. 30 -- res = 0.56528E+04, tol = 0.58122E+04, time = 12.12 | CG iter. 31 -- res = 0.51295E+04, tol = 0.58122E+04, time = 13.49 | CG iter. 32 -- res = 0.46557E+04, tol = 0.58122E+04, time = 11.51 | CG iter. 33 -- res = 0.40611E+04, tol = 0.58122E+04, time = 11.69 | CG iter. 34 -- res = 0.34582E+04, tol = 0.58122E+04, time = 11.90 | CG iter. 35 -- res = 0.30281E+04, tol = 0.58122E+04, time = 11.11 | CG iter. 36 -- res = 0.27553E+04, tol = 0.58122E+04, time = 11.40 | CG iter. 37 -- res = 0.26156E+04, tol = 0.58122E+04, time = 11.40 | CG iter. 38 -- res = 0.24948E+04, tol = 0.58122E+04, time = 11.83 | CG iter. 39 -- res = 0.22680E+04, tol = 0.58122E+04, time = 12.05 | CG iter. 40 -- res = 0.18828E+04, tol = 0.58122E+04, time = 11.72 | CG iter. 41 -- res = 0.15071E+04, tol = 0.58122E+04, time = 11.08 | CG iter. 42 -- res = 0.12379E+04, tol = 0.58122E+04, time = 11.80 | CG iter. 43 -- res = 0.11172E+04, tol = 0.58122E+04, time = 11.53 | CG iter. 44 -- res = 0.10422E+04, tol = 0.58122E+04, time = 12.23 | CG iter. 45 -- res = 0.97261E+03, tol = 0.58122E+04, time = 11.44 | CG iter. 46 -- res = 0.91154E+03, tol = 0.58122E+04, time = 11.69 | CG iter. 47 -- res = 0.82625E+03, tol = 0.58122E+04, time = 11.59 | CG iter. 48 -- res = 0.74514E+03, tol = 0.58122E+04, time = 18.52 | CG iter. 49 -- res = 0.66666E+03, tol = 0.58122E+04, time = 11.39 | CG iter. 50 -- res = 0.60864E+03, tol = 0.58122E+04, time = 11.27 | CG iter. 51 -- res = 0.57834E+03, tol = 0.58122E+04, time = 11.65 | CG iter. 52 -- res = 0.56406E+03, tol = 0.58122E+04, time = 11.49 | CG iter. 53 -- res = 0.53655E+03, tol = 0.58122E+04, time = 11.67 | CG iter. 54 -- res = 0.48513E+03, tol = 0.58122E+04, time = 11.49 | CG iter. 55 -- res = 0.43101E+03, tol = 0.58122E+04, time = 11.44 | CG iter. 56 -- res = 0.37656E+03, tol = 0.58122E+04, time = 13.52 | CG iter. 57 -- res = 0.33715E+03, tol = 0.58122E+04, time = 12.15 | CG iter. 58 -- res = 0.31708E+03, tol = 0.58122E+04, time = 11.27 | CG iter. 59 -- res = 0.31472E+03, tol = 0.58122E+04, time = 11.62 | CG iter. 60 -- res = 0.31319E+03, tol = 0.58122E+04, time = 11.52 | Final CG iter 61 -- res = 0.31319E+03, tol = 0.58122E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.709 ( -229.850 -2229.434 2511.604 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7215495.111 | Old band monopole 9849895.908 | Change to band monopole -2634400.797 | Change to component monopole 2634389.466 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.283 2.737 | New value 2.262 | Old value -0.283 | Difference 2.545 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.229 ( 7.605 8.473 -7.186 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.470 5.454 | New value 2.928 | Old value 12.470 | Difference -9.542 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.35711E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.27795E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.10006E+01, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.16939E-02, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.22627E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7215464.076 | (Sampled value in CG: 7195701.824 ) | Chain = 1 -- chisq = 0.81561093E+09 | Chain = 1 -- wall time = 5597.454 sec Available RAM: MemAvailable: 389870552 kB Available Swap: SwapFree: 1108660656 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 246 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445561 | --> Sampling calibration, mode = relcal | relcal = 1.3443468E-02 7.4412220E-04 -1.6101777E-03 -1.2577413E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1073012 0.1257121 9406171.47580379 | BP delta = 0.1073012 0.1274120 9406179.07363639 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632290 | --> Sampling calibration, mode = relcal | relcal = -2.8202240E-03 -7.0396892E-04 1.6789017E-03 1.6134132E-03 -4.0762458E-04 6.3950248E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5375887 15218007.3423629 | BP delta = 0.0000000E+00 -0.5353596 15218004.1635248 | BP chisq diff = -3.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103019 | --> Sampling calibration, mode = relcal | relcal = 3.7085816E-02 1.3721257E-02 5.7611717E-03 -7.1682916E-03 8.2444055E-03 2.3941635E-03 -7.5962790E-03 -7.1887695E-03 -1.5299103E-02 -1.4797804E-02 -3.0566731E-03 -1.2099892E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.162051 132213869.051899 | BP delta = 0.0000000E+00 -1.168352 132213864.678403 | BP chisq diff = -4.4, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18430567980046 | --> Sampling calibration, mode = relcal | relcal = -7.4906178E-02 -5.8591668E-02 9.1847561E-02 4.1650288E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.9883851E-04 4.9856286E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0794E-05 | 2: delta_r/delta_0: 8.6961E-07 | 3: delta_s/delta_0: 2.1635E-07 | 4: delta_r/delta_0: 1.2284E-08 | 5: delta_s/delta_0: 9.5073E-09 | 6: delta_r/delta_0: 7.5250E-10 | 7: delta_s/delta_0: 1.2298E-08 | 8: delta_r/delta_0: 7.4780E-10 | 9: delta_s/delta_0: 2.3636E-08 | 10: delta_r/delta_0: 6.1543E-09 | 11: delta_s/delta_0: 2.4195E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.144715703263499E-003 2.733464196998945E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0794E-05 | 2: delta_r/delta_0: 8.6963E-07 | 3: delta_s/delta_0: 2.1635E-07 | 4: delta_r/delta_0: 1.2285E-08 | 5: delta_s/delta_0: 9.5101E-09 | 6: delta_r/delta_0: 7.5260E-10 | 7: delta_s/delta_0: 1.2301E-08 | 8: delta_r/delta_0: 7.4840E-10 | 9: delta_s/delta_0: 2.3669E-08 | 10: delta_r/delta_0: 6.1632E-09 | 11: delta_s/delta_0: 2.4207E-11 | Reached bicg-stab tolerance | BP delta = 6.4462014E-02 8.3187297E-02 3610343.00439804 | BP delta = 6.4462014E-02 8.3039001E-02 3612546.50007753 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02579572 | --> Sampling calibration, mode = relcal | relcal = -0.1066350 -9.5523156E-02 0.1449190 5.7239179E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2791030E-03 1.5830781E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1203E-04 | 2: delta_r/delta_0: 2.4561E-06 | 3: delta_s/delta_0: 2.1053E-07 | 4: delta_r/delta_0: 4.7280E-08 | 5: delta_s/delta_0: 3.6677E-08 | 6: delta_r/delta_0: 7.8016E-09 | 7: delta_s/delta_0: 6.1106E-09 | 8: delta_r/delta_0: 1.9961E-09 | 9: delta_s/delta_0: 9.1869E-10 | 10: delta_r/delta_0: 6.8931E-10 | 11: delta_s/delta_0: 1.0050E-09 | 12: delta_r/delta_0: 1.3679E-10 | 13: delta_s/delta_0: 9.3652E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.070269580706545E-002 2.811396343039478E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1204E-04 | 2: delta_r/delta_0: 2.4562E-06 | 3: delta_s/delta_0: 2.1053E-07 | 4: delta_r/delta_0: 4.7293E-08 | 5: delta_s/delta_0: 3.6658E-08 | 6: delta_r/delta_0: 7.8022E-09 | 7: delta_s/delta_0: 6.1097E-09 | 8: delta_r/delta_0: 1.9963E-09 | 9: delta_s/delta_0: 9.1883E-10 | 10: delta_r/delta_0: 6.8941E-10 | 11: delta_s/delta_0: 1.0052E-09 | 12: delta_r/delta_0: 1.3681E-10 | 13: delta_s/delta_0: 9.3643E-11 | Reached bicg-stab tolerance | BP delta = -0.2471140 -0.2213963 2841689.48756002 | BP delta = -0.2471140 -0.2228189 2841707.79013438 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81203921 | --> Sampling calibration, mode = relcal | relcal = 0.2953703 0.2248280 -0.2837024 -0.2364960 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.2266952E-04 5.0453176E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0511E-02 | 2: delta_r/delta_0: 2.4580E-04 | 3: delta_s/delta_0: 1.8039E-05 | 4: delta_r/delta_0: 1.5167E-06 | 5: delta_s/delta_0: 2.4793E-04 | 6: delta_r/delta_0: 1.0076E-05 | 7: delta_s/delta_0: 8.0073E-08 | 8: delta_r/delta_0: 2.6281E-08 | 9: delta_s/delta_0: 4.3571E-08 | 10: delta_r/delta_0: 8.2848E-09 | 11: delta_s/delta_0: 3.9380E-09 | 12: delta_r/delta_0: 7.2122E-10 | 13: delta_s/delta_0: 3.5786E-10 | 14: delta_r/delta_0: 2.4785E-10 | 15: delta_s/delta_0: 1.4585E-09 | 16: delta_r/delta_0: 9.0353E-10 | 17: delta_s/delta_0: 1.6258E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.734193088913469E-002 4.022620008541689E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0520E-02 | 2: delta_r/delta_0: 2.4600E-04 | 3: delta_s/delta_0: 1.8051E-05 | 4: delta_r/delta_0: 1.5178E-06 | 5: delta_s/delta_0: 2.4864E-04 | 6: delta_r/delta_0: 1.0112E-05 | 7: delta_s/delta_0: 8.0172E-08 | 8: delta_r/delta_0: 2.6277E-08 | 9: delta_s/delta_0: 4.3483E-08 | 10: delta_r/delta_0: 8.2865E-09 | 11: delta_s/delta_0: 3.9411E-09 | 12: delta_r/delta_0: 7.2159E-10 | 13: delta_s/delta_0: 3.5805E-10 | 14: delta_r/delta_0: 2.4797E-10 | 15: delta_s/delta_0: 1.4675E-09 | 16: delta_r/delta_0: 9.0919E-10 | 17: delta_s/delta_0: 1.6262E-11 | Reached bicg-stab tolerance | BP delta = -0.1002013 -0.1077771 2827530.24385021 | BP delta = -0.1002013 -0.1179056 2827539.11748002 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95883398 | --> Sampling calibration, mode = relcal | relcal = 0.1064010 0.1394945 -0.1102244 -0.1356712 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9489829E-03 1.3841862E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2597E-04 | 2: delta_r/delta_0: 5.7844E-06 | 3: delta_s/delta_0: 1.0492E-04 | 4: delta_r/delta_0: 4.1736E-06 | 5: delta_s/delta_0: 1.9819E-07 | 6: delta_r/delta_0: 9.7203E-08 | 7: delta_s/delta_0: 1.3793E-07 | 8: delta_r/delta_0: 2.6123E-08 | 9: delta_s/delta_0: 1.0464E-08 | 10: delta_r/delta_0: 2.6321E-09 | 11: delta_s/delta_0: 6.5690E-08 | 12: delta_r/delta_0: 1.9044E-08 | 13: delta_s/delta_0: 2.4345E-10 | 14: delta_r/delta_0: 1.9687E-10 | 15: delta_s/delta_0: 8.6641E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.999115496023863E-002 3.698432469757687E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2597E-04 | 2: delta_r/delta_0: 5.7843E-06 | 3: delta_s/delta_0: 1.0492E-04 | 4: delta_r/delta_0: 4.1737E-06 | 5: delta_s/delta_0: 1.9819E-07 | 6: delta_r/delta_0: 9.7204E-08 | 7: delta_s/delta_0: 1.3803E-07 | 8: delta_r/delta_0: 2.6124E-08 | 9: delta_s/delta_0: 1.0463E-08 | 10: delta_r/delta_0: 2.6316E-09 | 11: delta_s/delta_0: 6.9710E-08 | 12: delta_r/delta_0: 2.0347E-08 | 13: delta_s/delta_0: 2.4231E-10 | 14: delta_r/delta_0: 1.9601E-10 | 15: delta_s/delta_0: 8.6517E-11 | Reached bicg-stab tolerance | BP delta = 3.3902772E-02 0.1322804 3003812.87984352 | BP delta = 3.3902772E-02 0.1426706 3003807.77437192 | BP chisq diff = -5.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52161400 | --> Sampling calibration, mode = relcal | relcal = -5.1082764E-02 -3.7582999E-03 2.7261876E-02 2.7579186E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2738334E-03 2.1276814E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6888E-05 | 2: delta_r/delta_0: 4.5893E-06 | 3: delta_s/delta_0: 2.7417E-06 | 4: delta_r/delta_0: 1.6113E-07 | 5: delta_s/delta_0: 5.7699E-08 | 6: delta_r/delta_0: 3.1344E-08 | 7: delta_s/delta_0: 2.5026E-08 | 8: delta_r/delta_0: 9.7870E-09 | 9: delta_s/delta_0: 5.3848E-09 | 10: delta_r/delta_0: 8.4981E-10 | 11: delta_s/delta_0: 7.9727E-10 | 12: delta_r/delta_0: 4.9967E-10 | 13: delta_s/delta_0: 1.4450E-09 | 14: delta_r/delta_0: 4.0023E-10 | 15: delta_s/delta_0: 3.3314E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.193200040888937E-002 5.482893837744254E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6888E-05 | 2: delta_r/delta_0: 4.5893E-06 | 3: delta_s/delta_0: 2.7418E-06 | 4: delta_r/delta_0: 1.6114E-07 | 5: delta_s/delta_0: 5.7700E-08 | 6: delta_r/delta_0: 3.1343E-08 | 7: delta_s/delta_0: 2.5025E-08 | 8: delta_r/delta_0: 9.7871E-09 | 9: delta_s/delta_0: 5.3852E-09 | 10: delta_r/delta_0: 8.4980E-10 | 11: delta_s/delta_0: 7.9723E-10 | 12: delta_r/delta_0: 4.9961E-10 | 13: delta_s/delta_0: 1.4453E-09 | 14: delta_r/delta_0: 4.0007E-10 | 15: delta_s/delta_0: 3.3306E-11 | Reached bicg-stab tolerance | BP delta = 8.7005593E-02 0.1930215 2435307.22412896 | BP delta = 8.7005593E-02 0.1988733 2435310.07311234 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42160776 | --> Sampling calibration, mode = relcal | relcal = 4.5600496E-02 3.9688148E-02 -2.8343474E-02 -5.6945167E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3589511E-03 4.8084846E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.1107E-05 | 2: delta_r/delta_0: 3.1465E-06 | 3: delta_s/delta_0: 1.7110E-06 | 4: delta_r/delta_0: 2.0647E-07 | 5: delta_s/delta_0: 7.5654E-08 | 6: delta_r/delta_0: 3.6723E-08 | 7: delta_s/delta_0: 1.7685E-03 | 8: delta_r/delta_0: 1.0155E-04 | 9: delta_s/delta_0: 3.2683E-09 | 10: delta_r/delta_0: 1.6710E-09 | 11: delta_s/delta_0: 1.4456E-08 | 12: delta_r/delta_0: 2.8400E-09 | 13: delta_s/delta_0: 7.3210E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.450689655950482E-002 4.995445821117131E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.1107E-05 | 2: delta_r/delta_0: 3.1465E-06 | 3: delta_s/delta_0: 1.7110E-06 | 4: delta_r/delta_0: 2.0647E-07 | 5: delta_s/delta_0: 7.5654E-08 | 6: delta_r/delta_0: 3.6723E-08 | 7: delta_s/delta_0: 1.7659E-03 | 8: delta_r/delta_0: 1.0140E-04 | 9: delta_s/delta_0: 3.2683E-09 | 10: delta_r/delta_0: 1.6710E-09 | 11: delta_s/delta_0: 1.4458E-08 | 12: delta_r/delta_0: 2.8402E-09 | 13: delta_s/delta_0: 7.3207E-11 | Reached bicg-stab tolerance | BP delta = 7.5310171E-02 -3.6379252E-02 2322616.38424124 | BP delta = 7.5310171E-02 -3.2524977E-02 2322615.30533156 | BP chisq diff = -1.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28176815 | --> Sampling calibration, mode = relcal | relcal = 2.4266832E-02 4.5146253E-02 -2.3403388E-02 -4.6009697E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1232390E-02 2.0983850E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0546E-04 | 2: delta_r/delta_0: 8.6053E-06 | 3: delta_s/delta_0: 1.3913E-06 | 4: delta_r/delta_0: 1.5304E-07 | 5: delta_s/delta_0: 6.0728E-08 | 6: delta_r/delta_0: 1.3200E-08 | 7: delta_s/delta_0: 6.3474E-09 | 8: delta_r/delta_0: 4.3001E-09 | 9: delta_s/delta_0: 1.2297E-08 | 10: delta_r/delta_0: 3.6994E-09 | 11: delta_s/delta_0: 3.1133E-09 | 12: delta_r/delta_0: 5.6701E-10 | 13: delta_s/delta_0: 5.5374E-10 | 14: delta_r/delta_0: 2.0281E-10 | 15: delta_s/delta_0: 7.0559E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.964976251694404E-003 7.839839948287329E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0546E-04 | 2: delta_r/delta_0: 8.6053E-06 | 3: delta_s/delta_0: 1.3913E-06 | 4: delta_r/delta_0: 1.5304E-07 | 5: delta_s/delta_0: 6.0728E-08 | 6: delta_r/delta_0: 1.3200E-08 | 7: delta_s/delta_0: 6.3474E-09 | 8: delta_r/delta_0: 4.3001E-09 | 9: delta_s/delta_0: 1.2297E-08 | 10: delta_r/delta_0: 3.6994E-09 | 11: delta_s/delta_0: 3.1132E-09 | 12: delta_r/delta_0: 5.6707E-10 | 13: delta_s/delta_0: 5.5379E-10 | 14: delta_r/delta_0: 2.0285E-10 | 15: delta_s/delta_0: 7.0560E-11 | Reached bicg-stab tolerance | BP delta = -0.1835148 -0.3320872 2489705.75604500 | BP delta = -0.1835148 -0.3392761 2489708.84996748 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29405148 | --> Sampling calibration, mode = relcal | relcal = 5.9239654E-04 1.0269981E-02 -3.8142183E-03 -7.0481589E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7306656E-02 1.6327534E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3131E-04 | 2: delta_r/delta_0: 1.1198E-05 | 3: delta_s/delta_0: 1.7692E-06 | 4: delta_r/delta_0: 2.8449E-07 | 5: delta_s/delta_0: 1.3158E-07 | 6: delta_r/delta_0: 2.4764E-08 | 7: delta_s/delta_0: 1.1681E-08 | 8: delta_r/delta_0: 8.1430E-09 | 9: delta_s/delta_0: 7.1635E-09 | 10: delta_r/delta_0: 5.0941E-09 | 11: delta_s/delta_0: 2.4004E-05 | 12: delta_r/delta_0: 1.0414E-06 | 13: delta_s/delta_0: 2.8998E-10 | 14: delta_r/delta_0: 1.8625E-10 | 15: delta_s/delta_0: 8.3105E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.133485195929896E-002 8.303061859558606E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3131E-04 | 2: delta_r/delta_0: 1.1198E-05 | 3: delta_s/delta_0: 1.7692E-06 | 4: delta_r/delta_0: 2.8448E-07 | 5: delta_s/delta_0: 1.3158E-07 | 6: delta_r/delta_0: 2.4764E-08 | 7: delta_s/delta_0: 1.1681E-08 | 8: delta_r/delta_0: 8.1430E-09 | 9: delta_s/delta_0: 7.1636E-09 | 10: delta_r/delta_0: 5.0941E-09 | 11: delta_s/delta_0: 2.4108E-05 | 12: delta_r/delta_0: 1.0464E-06 | 13: delta_s/delta_0: 2.9021E-10 | 14: delta_r/delta_0: 1.8636E-10 | 15: delta_s/delta_0: 8.3085E-11 | Reached bicg-stab tolerance | BP delta = -0.9072370 -0.8619995 2738330.10303837 | BP delta = -0.9072370 -0.8745886 2738333.70944064 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26517212 | --> Sampling calibration, mode = relcal | relcal = -5.5758837E-03 1.4951865E-02 -2.3618771E-03 -7.0141042E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1414207E-03 3.7101235E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4090E-04 | 2: delta_r/delta_0: 1.1841E-05 | 3: delta_s/delta_0: 2.0606E-06 | 4: delta_r/delta_0: 2.3233E-07 | 5: delta_s/delta_0: 9.9297E-08 | 6: delta_r/delta_0: 2.1297E-08 | 7: delta_s/delta_0: 9.8086E-09 | 8: delta_r/delta_0: 6.3035E-09 | 9: delta_s/delta_0: 9.6941E-09 | 10: delta_r/delta_0: 5.7534E-09 | 11: delta_s/delta_0: 4.9067E-08 | 12: delta_r/delta_0: 2.7264E-09 | 13: delta_s/delta_0: 4.2242E-09 | 14: delta_r/delta_0: 9.8946E-10 | 15: delta_s/delta_0: 5.6059E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.311282693760664E-003 9.149653252869718E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4090E-04 | 2: delta_r/delta_0: 1.1841E-05 | 3: delta_s/delta_0: 2.0606E-06 | 4: delta_r/delta_0: 2.3233E-07 | 5: delta_s/delta_0: 9.9298E-08 | 6: delta_r/delta_0: 2.1297E-08 | 7: delta_s/delta_0: 9.8085E-09 | 8: delta_r/delta_0: 6.3035E-09 | 9: delta_s/delta_0: 9.6940E-09 | 10: delta_r/delta_0: 5.7534E-09 | 11: delta_s/delta_0: 4.9070E-08 | 12: delta_r/delta_0: 2.7267E-09 | 13: delta_s/delta_0: 4.2242E-09 | 14: delta_r/delta_0: 9.8950E-10 | 15: delta_s/delta_0: 5.6059E-11 | Reached bicg-stab tolerance | BP delta = 0.2722552 0.2805688 2516775.47618568 | BP delta = 0.2722552 0.2887532 2516775.48135806 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25670320 | --> Sampling calibration, mode = relcal | relcal = -3.1811792E-02 -2.5867173E-02 3.6967658E-02 2.0711308E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7401378E-02 1.7658636E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4452E-04 | 2: delta_r/delta_0: 1.2287E-05 | 3: delta_s/delta_0: 1.9057E-06 | 4: delta_r/delta_0: 4.4613E-07 | 5: delta_s/delta_0: 1.7750E-07 | 6: delta_r/delta_0: 3.3473E-08 | 7: delta_s/delta_0: 1.8043E-08 | 8: delta_r/delta_0: 7.0052E-09 | 9: delta_s/delta_0: 5.6888E-07 | 10: delta_r/delta_0: 9.4279E-09 | 11: delta_s/delta_0: 2.9853E-09 | 12: delta_r/delta_0: 9.6700E-10 | 13: delta_s/delta_0: 3.3175E-10 | 14: delta_r/delta_0: 2.0933E-10 | 15: delta_s/delta_0: 1.1934E-10 | 16: delta_r/delta_0: 1.0418E-10 | 17: delta_s/delta_0: 9.1994E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.088547858163607E-002 8.670226106728659E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4452E-04 | 2: delta_r/delta_0: 1.2287E-05 | 3: delta_s/delta_0: 1.9057E-06 | 4: delta_r/delta_0: 4.4613E-07 | 5: delta_s/delta_0: 1.7750E-07 | 6: delta_r/delta_0: 3.3473E-08 | 7: delta_s/delta_0: 1.8044E-08 | 8: delta_r/delta_0: 7.0052E-09 | 9: delta_s/delta_0: 5.6888E-07 | 10: delta_r/delta_0: 9.4280E-09 | 11: delta_s/delta_0: 2.9853E-09 | 12: delta_r/delta_0: 9.6704E-10 | 13: delta_s/delta_0: 3.3175E-10 | 14: delta_r/delta_0: 2.0933E-10 | 15: delta_s/delta_0: 1.1934E-10 | 16: delta_r/delta_0: 1.0418E-10 | 17: delta_s/delta_0: 9.1994E-11 | Reached bicg-stab tolerance | BP delta = -0.8418388 -0.9797845 2707091.12202388 | BP delta = -0.8418388 -0.9812534 2707092.33094989 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.186106 | New value = -3.111026 | poltype: 2 pol: 1 CPU time specind = 3.4858942E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.077191 | New value = -3.161471 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.078848 | New value = -3.155789 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194775 | New value = -3.179555 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184784 | New value = -3.109773 | poltype: 2 pol: 2 CPU time specind = 2.3840904E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.83 | CG iter. 1 -- res = 0.13672E+08, tol = 0.92021E+01, time = 5.36 | CG iter. 2 -- res = 0.38459E+06, tol = 0.92021E+01, time = 5.10 | CG iter. 3 -- res = 0.92656E+05, tol = 0.92021E+01, time = 5.66 | CG iter. 4 -- res = 0.96866E+05, tol = 0.92021E+01, time = 5.46 | CG iter. 5 -- res = 0.99173E+05, tol = 0.92021E+01, time = 5.21 | CG iter. 6 -- res = 0.99314E+05, tol = 0.92021E+01, time = 5.42 | CG iter. 7 -- res = 0.87036E+05, tol = 0.92021E+01, time = 5.34 | CG iter. 8 -- res = 0.60171E+05, tol = 0.92021E+01, time = 5.21 | CG iter. 9 -- res = 0.46402E+05, tol = 0.92021E+01, time = 5.67 | CG iter. 10 -- res = 0.37278E+05, tol = 0.92021E+01, time = 5.13 | CG iter. 11 -- res = 0.25905E+05, tol = 0.92021E+01, time = 5.18 | CG iter. 12 -- res = 0.19093E+05, tol = 0.92021E+01, time = 10.07 | CG iter. 13 -- res = 0.15525E+05, tol = 0.92021E+01, time = 7.90 | CG iter. 14 -- res = 0.13031E+05, tol = 0.92021E+01, time = 5.24 | CG iter. 15 -- res = 0.10365E+05, tol = 0.92021E+01, time = 5.68 | CG iter. 16 -- res = 0.72534E+04, tol = 0.92021E+01, time = 5.40 | CG iter. 17 -- res = 0.49572E+04, tol = 0.92021E+01, time = 5.50 | CG iter. 18 -- res = 0.40886E+04, tol = 0.92021E+01, time = 5.23 | CG iter. 19 -- res = 0.35608E+04, tol = 0.92021E+01, time = 5.18 | CG iter. 20 -- res = 0.27345E+04, tol = 0.92021E+01, time = 5.38 | CG iter. 21 -- res = 0.19456E+04, tol = 0.92021E+01, time = 5.30 | CG iter. 22 -- res = 0.15632E+04, tol = 0.92021E+01, time = 5.34 | CG iter. 23 -- res = 0.13379E+04, tol = 0.92021E+01, time = 5.36 | CG iter. 24 -- res = 0.10805E+04, tol = 0.92021E+01, time = 5.31 | CG iter. 25 -- res = 0.80519E+03, tol = 0.92021E+01, time = 5.50 | CG iter. 26 -- res = 0.62178E+03, tol = 0.92021E+01, time = 5.24 | CG iter. 27 -- res = 0.54612E+03, tol = 0.92021E+01, time = 5.64 | CG iter. 28 -- res = 0.47262E+03, tol = 0.92021E+01, time = 6.84 | CG iter. 29 -- res = 0.36927E+03, tol = 0.92021E+01, time = 5.57 | CG iter. 30 -- res = 0.27854E+03, tol = 0.92021E+01, time = 5.52 | CG iter. 31 -- res = 0.23267E+03, tol = 0.92021E+01, time = 5.25 | CG iter. 32 -- res = 0.20014E+03, tol = 0.92021E+01, time = 5.23 | CG iter. 33 -- res = 0.16120E+03, tol = 0.92021E+01, time = 5.17 | CG iter. 34 -- res = 0.12152E+03, tol = 0.92021E+01, time = 5.32 | CG iter. 35 -- res = 0.99869E+02, tol = 0.92021E+01, time = 5.43 | CG iter. 36 -- res = 0.84361E+02, tol = 0.92021E+01, time = 5.19 | CG iter. 37 -- res = 0.68474E+02, tol = 0.92021E+01, time = 5.14 | CG iter. 38 -- res = 0.51973E+02, tol = 0.92021E+01, time = 5.48 | CG iter. 39 -- res = 0.40016E+02, tol = 0.92021E+01, time = 5.18 | CG iter. 40 -- res = 0.32520E+02, tol = 0.92021E+01, time = 5.12 | CG iter. 41 -- res = 0.26790E+02, tol = 0.92021E+01, time = 5.40 | CG iter. 42 -- res = 0.20089E+02, tol = 0.92021E+01, time = 5.34 | CG iter. 43 -- res = 0.15546E+02, tol = 0.92021E+01, time = 5.33 | CG iter. 44 -- res = 0.12118E+02, tol = 0.92021E+01, time = 5.57 | CG iter. 45 -- res = 0.98221E+01, tol = 0.92021E+01, time = 5.26 | CG iter. 46 -- res = 0.77279E+01, tol = 0.92021E+01, time = 5.26 | CG iter. 47 -- res = 0.57798E+01, tol = 0.92021E+01, time = 5.44 | CG iter. 48 -- res = 0.43808E+01, tol = 0.92021E+01, time = 6.24 | CG iter. 49 -- res = 0.35237E+01, tol = 0.92021E+01, time = 5.17 | CG iter. 50 -- res = 0.27515E+01, tol = 0.92021E+01, time = 5.26 | Final CG iter 51 -- res = 0.27515E+01, tol = 0.92021E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6742367.312 | Old band monopole 7215495.111 | Change to band monopole -473127.799 | Change to component monopole 473125.764 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.48176E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.19971E+03, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.34417E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.33496E-01, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.38326E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6742338.312 | (Sampled value in CG: 6834512.316 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499219 | New value = 1.529975 | poltype: 2 pol: 1 CPU time specind = 3.6589861E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509481 | New value = 1.486456 | poltype: 2 pol: 2 CPU time specind = 2.1815062E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.51 | CG iter. 1 -- res = 0.24223E+08, tol = 0.47655E+04, time = 5.87 | CG iter. 2 -- res = 0.53092E+07, tol = 0.47655E+04, time = 5.66 | CG iter. 3 -- res = 0.85001E+06, tol = 0.47655E+04, time = 6.21 | CG iter. 4 -- res = 0.36012E+06, tol = 0.47655E+04, time = 6.02 | CG iter. 5 -- res = 0.15856E+06, tol = 0.47655E+04, time = 6.17 | CG iter. 6 -- res = 0.81030E+05, tol = 0.47655E+04, time = 6.77 | CG iter. 7 -- res = 0.44175E+05, tol = 0.47655E+04, time = 5.73 | CG iter. 8 -- res = 0.21544E+05, tol = 0.47655E+04, time = 5.99 | CG iter. 9 -- res = 0.94763E+04, tol = 0.47655E+04, time = 6.02 | CG iter. 10 -- res = 0.38637E+04, tol = 0.47655E+04, time = 5.74 | CG iter. 11 -- res = 0.17101E+04, tol = 0.47655E+04, time = 6.49 | CG iter. 12 -- res = 0.88275E+03, tol = 0.47655E+04, time = 7.26 | CG iter. 13 -- res = 0.50904E+03, tol = 0.47655E+04, time = 6.88 | CG iter. 14 -- res = 0.28581E+03, tol = 0.47655E+04, time = 6.06 | CG iter. 15 -- res = 0.14531E+03, tol = 0.47655E+04, time = 6.29 | CG iter. 16 -- res = 0.69036E+02, tol = 0.47655E+04, time = 6.18 | CG iter. 17 -- res = 0.32059E+02, tol = 0.47655E+04, time = 5.68 | CG iter. 18 -- res = 0.16083E+02, tol = 0.47655E+04, time = 6.15 | CG iter. 19 -- res = 0.89271E+01, tol = 0.47655E+04, time = 6.12 | CG iter. 20 -- res = 0.51169E+01, tol = 0.47655E+04, time = 6.14 | CG iter. 21 -- res = 0.27866E+01, tol = 0.47655E+04, time = 6.21 | CG iter. 22 -- res = 0.14014E+01, tol = 0.47655E+04, time = 5.57 | CG iter. 23 -- res = 0.69619E+00, tol = 0.47655E+04, time = 6.25 | CG iter. 24 -- res = 0.35488E+00, tol = 0.47655E+04, time = 5.76 | CG iter. 25 -- res = 0.19224E+00, tol = 0.47655E+04, time = 6.32 | CG iter. 26 -- res = 0.10854E+00, tol = 0.47655E+04, time = 6.03 | CG iter. 27 -- res = 0.60749E-01, tol = 0.47655E+04, time = 6.39 | CG iter. 28 -- res = 0.33077E-01, tol = 0.47655E+04, time = 5.94 | CG iter. 29 -- res = 0.17198E-01, tol = 0.47655E+04, time = 6.41 | CG iter. 30 -- res = 0.90110E-02, tol = 0.47655E+04, time = 5.93 | CG iter. 31 -- res = 0.47951E-02, tol = 0.47655E+04, time = 6.25 | CG iter. 32 -- res = 0.27058E-02, tol = 0.47655E+04, time = 5.92 | CG iter. 33 -- res = 0.15442E-02, tol = 0.47655E+04, time = 6.21 | CG iter. 34 -- res = 0.81815E-03, tol = 0.47655E+04, time = 6.35 | CG iter. 35 -- res = 0.42475E-03, tol = 0.47655E+04, time = 6.26 | Final CG iter 36 -- res = 0.42475E-03, tol = 0.47655E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.272 2.734 | New value -3.644 | Old value 2.272 | Difference -5.916 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.47 | CG iter. 1 -- res = 0.18205E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.11843E+03, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.19973E+01, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.17083E-02, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.17060E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6742338.312 | (Sampled value in CG: 6835669.009 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.788079 | New value = -3.634810 | poltype: 1 pol: 1 CPU time specind = 1.7763853E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.29945E+07, tol = 0.19354E+01, time = 2.41 | CG iter. 2 -- res = 0.11043E+07, tol = 0.19354E+01, time = 2.04 | CG iter. 3 -- res = 0.23478E+06, tol = 0.19354E+01, time = 2.26 | CG iter. 4 -- res = 0.11361E+06, tol = 0.19354E+01, time = 2.58 | CG iter. 5 -- res = 0.67587E+05, tol = 0.19354E+01, time = 2.54 | CG iter. 6 -- res = 0.29487E+05, tol = 0.19354E+01, time = 2.73 | CG iter. 7 -- res = 0.10466E+05, tol = 0.19354E+01, time = 2.27 | CG iter. 8 -- res = 0.44379E+04, tol = 0.19354E+01, time = 2.15 | CG iter. 9 -- res = 0.19607E+04, tol = 0.19354E+01, time = 2.40 | CG iter. 10 -- res = 0.76217E+03, tol = 0.19354E+01, time = 2.45 | CG iter. 11 -- res = 0.32524E+03, tol = 0.19354E+01, time = 2.52 | CG iter. 12 -- res = 0.16368E+03, tol = 0.19354E+01, time = 2.63 | CG iter. 13 -- res = 0.88078E+02, tol = 0.19354E+01, time = 2.47 | CG iter. 14 -- res = 0.41408E+02, tol = 0.19354E+01, time = 2.45 | CG iter. 15 -- res = 0.18958E+02, tol = 0.19354E+01, time = 2.60 | CG iter. 16 -- res = 0.81708E+01, tol = 0.19354E+01, time = 2.43 | CG iter. 17 -- res = 0.34725E+01, tol = 0.19354E+01, time = 2.46 | CG iter. 18 -- res = 0.16360E+01, tol = 0.19354E+01, time = 2.40 | CG iter. 19 -- res = 0.78427E+00, tol = 0.19354E+01, time = 2.78 | CG iter. 20 -- res = 0.40938E+00, tol = 0.19354E+01, time = 2.49 | CG iter. 21 -- res = 0.19264E+00, tol = 0.19354E+01, time = 2.45 | CG iter. 22 -- res = 0.82359E-01, tol = 0.19354E+01, time = 2.70 | CG iter. 23 -- res = 0.36687E-01, tol = 0.19354E+01, time = 2.36 | CG iter. 24 -- res = 0.17684E-01, tol = 0.19354E+01, time = 2.27 | CG iter. 25 -- res = 0.88131E-02, tol = 0.19354E+01, time = 2.48 | CG iter. 26 -- res = 0.44120E-02, tol = 0.19354E+01, time = 2.60 | CG iter. 27 -- res = 0.22909E-02, tol = 0.19354E+01, time = 2.48 | CG iter. 28 -- res = 0.10748E-02, tol = 0.19354E+01, time = 2.72 | CG iter. 29 -- res = 0.46859E-03, tol = 0.19354E+01, time = 2.64 | CG iter. 30 -- res = 0.22738E-03, tol = 0.19354E+01, time = 2.34 | CG iter. 31 -- res = 0.11258E-03, tol = 0.19354E+01, time = 2.36 | CG iter. 32 -- res = 0.57147E-04, tol = 0.19354E+01, time = 2.51 | CG iter. 33 -- res = 0.28051E-04, tol = 0.19354E+01, time = 7.97 | CG iter. 34 -- res = 0.13286E-04, tol = 0.19354E+01, time = 3.55 | CG iter. 35 -- res = 0.61880E-05, tol = 0.19354E+01, time = 2.42 | CG iter. 36 -- res = 0.29380E-05, tol = 0.19354E+01, time = 2.32 | CG iter. 37 -- res = 0.13787E-05, tol = 0.19354E+01, time = 2.52 | CG iter. 38 -- res = 0.68948E-06, tol = 0.19354E+01, time = 2.54 | CG iter. 39 -- res = 0.34309E-06, tol = 0.19354E+01, time = 2.60 | CG iter. 40 -- res = 0.16131E-06, tol = 0.19354E+01, time = 2.46 | CG iter. 41 -- res = 0.76991E-07, tol = 0.19354E+01, time = 2.68 | CG iter. 42 -- res = 0.36188E-07, tol = 0.19354E+01, time = 2.42 | CG iter. 43 -- res = 0.16865E-07, tol = 0.19354E+01, time = 2.39 | CG iter. 44 -- res = 0.82438E-08, tol = 0.19354E+01, time = 2.72 | CG iter. 45 -- res = 0.41757E-08, tol = 0.19354E+01, time = 2.54 | CG iter. 46 -- res = 0.20046E-08, tol = 0.19354E+01, time = 2.70 | CG iter. 47 -- res = 0.98305E-09, tol = 0.19354E+01, time = 2.30 | CG iter. 48 -- res = 0.45414E-09, tol = 0.19354E+01, time = 2.38 | CG iter. 49 -- res = 0.21469E-09, tol = 0.19354E+01, time = 2.46 | CG iter. 50 -- res = 0.10273E-09, tol = 0.19354E+01, time = 2.34 | Final CG iter 51 -- res = 0.10273E-09, tol = 0.19354E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.256 4.148 | New value -8.900 | Old value 8.256 | Difference -17.155 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.46 | CG iter. 1 -- res = 0.29695E+06, tol = 0.47627E+18, time = 1.64 | CG iter. 2 -- res = 0.12521E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.28575E+01, tol = 0.47627E+18, time = 1.73 | CG iter. 4 -- res = 0.18646E-01, tol = 0.47627E+18, time = 1.72 | Final CG iter 5 -- res = 0.41717E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6742338.312 | (Sampled value in CG: 6814535.164 ) | CPU time specind = 1119.554 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.68917E+08, tol = 0.57742E+04, time = 10.72 | CG iter. 2 -- res = 0.59194E+08, tol = 0.57742E+04, time = 11.24 | CG iter. 3 -- res = 0.15159E+08, tol = 0.57742E+04, time = 11.01 | CG iter. 4 -- res = 0.64676E+07, tol = 0.57742E+04, time = 10.59 | CG iter. 5 -- res = 0.39357E+07, tol = 0.57742E+04, time = 10.80 | CG iter. 6 -- res = 0.22923E+07, tol = 0.57742E+04, time = 10.62 | CG iter. 7 -- res = 0.13391E+07, tol = 0.57742E+04, time = 10.93 | CG iter. 8 -- res = 0.89339E+06, tol = 0.57742E+04, time = 11.10 | CG iter. 9 -- res = 0.57494E+06, tol = 0.57742E+04, time = 10.93 | CG iter. 10 -- res = 0.34553E+06, tol = 0.57742E+04, time = 10.71 | CG iter. 11 -- res = 0.19515E+06, tol = 0.57742E+04, time = 10.92 | CG iter. 12 -- res = 0.11096E+06, tol = 0.57742E+04, time = 10.69 | CG iter. 13 -- res = 0.69193E+05, tol = 0.57742E+04, time = 11.26 | CG iter. 14 -- res = 0.47979E+05, tol = 0.57742E+04, time = 10.98 | CG iter. 15 -- res = 0.39041E+05, tol = 0.57742E+04, time = 10.89 | CG iter. 16 -- res = 0.35818E+05, tol = 0.57742E+04, time = 16.55 | CG iter. 17 -- res = 0.33654E+05, tol = 0.57742E+04, time = 10.80 | CG iter. 18 -- res = 0.31522E+05, tol = 0.57742E+04, time = 10.65 | CG iter. 19 -- res = 0.27687E+05, tol = 0.57742E+04, time = 10.68 | CG iter. 20 -- res = 0.24811E+05, tol = 0.57742E+04, time = 11.06 | CG iter. 21 -- res = 0.23748E+05, tol = 0.57742E+04, time = 16.13 | CG iter. 22 -- res = 0.23775E+05, tol = 0.57742E+04, time = 15.32 | CG iter. 23 -- res = 0.23567E+05, tol = 0.57742E+04, time = 12.51 | CG iter. 24 -- res = 0.22090E+05, tol = 0.57742E+04, time = 11.12 | CG iter. 25 -- res = 0.18558E+05, tol = 0.57742E+04, time = 11.04 | CG iter. 26 -- res = 0.14186E+05, tol = 0.57742E+04, time = 10.89 | CG iter. 27 -- res = 0.10488E+05, tol = 0.57742E+04, time = 10.69 | CG iter. 28 -- res = 0.78425E+04, tol = 0.57742E+04, time = 10.67 | CG iter. 29 -- res = 0.63487E+04, tol = 0.57742E+04, time = 10.91 | CG iter. 30 -- res = 0.55599E+04, tol = 0.57742E+04, time = 10.71 | CG iter. 31 -- res = 0.50093E+04, tol = 0.57742E+04, time = 10.71 | CG iter. 32 -- res = 0.45718E+04, tol = 0.57742E+04, time = 10.71 | CG iter. 33 -- res = 0.40201E+04, tol = 0.57742E+04, time = 11.17 | CG iter. 34 -- res = 0.34587E+04, tol = 0.57742E+04, time = 10.82 | CG iter. 35 -- res = 0.29528E+04, tol = 0.57742E+04, time = 11.10 | CG iter. 36 -- res = 0.26137E+04, tol = 0.57742E+04, time = 11.09 | CG iter. 37 -- res = 0.24523E+04, tol = 0.57742E+04, time = 11.02 | CG iter. 38 -- res = 0.22967E+04, tol = 0.57742E+04, time = 10.95 | CG iter. 39 -- res = 0.20270E+04, tol = 0.57742E+04, time = 11.22 | CG iter. 40 -- res = 0.16844E+04, tol = 0.57742E+04, time = 10.86 | CG iter. 41 -- res = 0.13338E+04, tol = 0.57742E+04, time = 10.87 | CG iter. 42 -- res = 0.10630E+04, tol = 0.57742E+04, time = 18.35 | CG iter. 43 -- res = 0.88709E+03, tol = 0.57742E+04, time = 12.55 | CG iter. 44 -- res = 0.79660E+03, tol = 0.57742E+04, time = 10.88 | CG iter. 45 -- res = 0.73345E+03, tol = 0.57742E+04, time = 10.78 | CG iter. 46 -- res = 0.68399E+03, tol = 0.57742E+04, time = 10.48 | CG iter. 47 -- res = 0.62342E+03, tol = 0.57742E+04, time = 10.75 | CG iter. 48 -- res = 0.55100E+03, tol = 0.57742E+04, time = 11.08 | CG iter. 49 -- res = 0.46761E+03, tol = 0.57742E+04, time = 12.33 | CG iter. 50 -- res = 0.41466E+03, tol = 0.57742E+04, time = 11.51 | CG iter. 51 -- res = 0.38848E+03, tol = 0.57742E+04, time = 11.00 | CG iter. 52 -- res = 0.37131E+03, tol = 0.57742E+04, time = 10.74 | CG iter. 53 -- res = 0.34408E+03, tol = 0.57742E+04, time = 10.88 | CG iter. 54 -- res = 0.29965E+03, tol = 0.57742E+04, time = 11.05 | CG iter. 55 -- res = 0.25582E+03, tol = 0.57742E+04, time = 10.96 | CG iter. 56 -- res = 0.21668E+03, tol = 0.57742E+04, time = 10.89 | CG iter. 57 -- res = 0.18925E+03, tol = 0.57742E+04, time = 10.66 | CG iter. 58 -- res = 0.17182E+03, tol = 0.57742E+04, time = 10.95 | CG iter. 59 -- res = 0.16002E+03, tol = 0.57742E+04, time = 11.29 | CG iter. 60 -- res = 0.14724E+03, tol = 0.57742E+04, time = 11.00 | Final CG iter 61 -- res = 0.14724E+03, tol = 0.57742E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.949 ( -229.793 -2229.131 2511.570 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9388409.066 | Old band monopole 6742367.312 | Change to band monopole 2646041.754 | Change to component monopole -2646030.372 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.640 2.747 | New value -2.198 | Old value -3.640 | Difference 1.441 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.163 ( 6.221 7.794 -7.469 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -11.860 5.579 | New value 1.733 | Old value -11.860 | Difference 13.593 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.56 | CG iter. 1 -- res = 0.13798E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.23693E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.72052E+00, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.14685E-02, tol = 0.47627E+18, time = 1.70 | Final CG iter 5 -- res = 0.41087E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9388368.684 | (Sampled value in CG: 9368190.835 ) | Chain = 1 -- chisq = 0.81524424E+09 | Chain = 1 -- wall time = 18369.925 sec Available RAM: MemAvailable: 494227580 kB Available Swap: SwapFree: 1056796048 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 247 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446264 | --> Sampling calibration, mode = relcal | relcal = 1.3433521E-02 7.3911529E-04 -1.5950353E-03 -1.2577601E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1073012 0.1257121 97047444.2383331 | BP delta = 0.1159932 0.1344041 97047444.5069822 | BP chisq diff = 0.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632235 | --> Sampling calibration, mode = relcal | relcal = -2.8205279E-03 -7.0395169E-04 1.6774619E-03 1.6135144E-03 -4.0817549E-04 6.4167875E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5353596 15217086.2879160 | BP delta = 0.0000000E+00 -0.5307979 15217092.2026668 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18259619224984 | --> Sampling calibration, mode = relcal | relcal = -7.4265234E-02 -5.8165804E-02 9.1236673E-02 4.1194361E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3409480E-04 3.9941049E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6038E-05 | 2: delta_r/delta_0: 1.3393E-06 | 3: delta_s/delta_0: 2.2850E-07 | 4: delta_r/delta_0: 1.4405E-08 | 5: delta_s/delta_0: 9.7627E-09 | 6: delta_r/delta_0: 2.5309E-09 | 7: delta_s/delta_0: 7.8414E-10 | 8: delta_r/delta_0: 8.7780E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.144541972179914E-003 2.737474659530384E-005 | BP delta = 6.4462014E-02 8.3187297E-02 50481718.0698929 | BP delta = 7.2959751E-02 9.1685034E-02 50481721.8138891 | BP chisq diff = 3.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02576003 | --> Sampling calibration, mode = relcal | relcal = -0.1065608 -9.5607929E-02 0.1450030 5.7165653E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3051043E-03 1.5951793E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4014E-04 | 2: delta_r/delta_0: 3.0038E-06 | 3: delta_s/delta_0: 1.9793E-07 | 4: delta_r/delta_0: 4.8001E-08 | 5: delta_s/delta_0: 3.7655E-08 | 6: delta_r/delta_0: 7.8803E-09 | 7: delta_s/delta_0: 5.6648E-09 | 8: delta_r/delta_0: 2.0681E-09 | 9: delta_s/delta_0: 9.5696E-10 | 10: delta_r/delta_0: 7.0840E-10 | 11: delta_s/delta_0: 1.1531E-09 | 12: delta_r/delta_0: 1.4660E-10 | 13: delta_s/delta_0: 1.4264E-10 | 14: delta_r/delta_0: 1.4765E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.069896747151539E-002 2.811476571104355E-005 | BP delta = -0.2471140 -0.2213963 57401162.3592309 | BP delta = -0.2627501 -0.2370324 57401160.1551118 | BP chisq diff = -2.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81193033 | --> Sampling calibration, mode = relcal | relcal = 0.2953195 0.2247239 -0.2836856 -0.2363578 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4534981E-04 5.4961815E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4022E-03 | 2: delta_r/delta_0: 3.2238E-05 | 3: delta_s/delta_0: 2.1015E-03 | 4: delta_r/delta_0: 1.1220E-04 | 5: delta_s/delta_0: 8.7002E-05 | 6: delta_r/delta_0: 1.4238E-05 | 7: delta_s/delta_0: 5.9278E-08 | 8: delta_r/delta_0: 3.6582E-08 | 9: delta_s/delta_0: 4.3600E-07 | 10: delta_r/delta_0: 3.6152E-09 | 11: delta_s/delta_0: 1.4307E-09 | 12: delta_r/delta_0: 5.8995E-10 | 13: delta_s/delta_0: 1.9334E-09 | 14: delta_r/delta_0: 6.3055E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.718245371799689E-002 4.023056190587639E-005 | BP delta = -0.1002013 -0.1077771 72490802.1462227 | BP delta = -8.0917940E-02 -8.8493749E-02 72490802.6713674 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95883109 | --> Sampling calibration, mode = relcal | relcal = 0.1063915 0.1394700 -0.1101351 -0.1357264 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0022353E-02 1.2750127E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6438E-04 | 2: delta_r/delta_0: 4.4313E-06 | 3: delta_s/delta_0: 9.1653E-06 | 4: delta_r/delta_0: 1.2211E-06 | 5: delta_s/delta_0: 1.6818E-07 | 6: delta_r/delta_0: 1.1031E-07 | 7: delta_s/delta_0: 9.3137E-07 | 8: delta_r/delta_0: 2.1358E-08 | 9: delta_s/delta_0: 2.7589E-08 | 10: delta_r/delta_0: 1.6521E-08 | 11: delta_s/delta_0: 1.0742E-09 | 12: delta_r/delta_0: 7.0269E-10 | 13: delta_s/delta_0: 4.0608E-10 | 14: delta_r/delta_0: 1.4555E-10 | 15: delta_s/delta_0: 7.2490E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.893800199533992E-002 3.698413894603258E-005 | BP delta = 3.3902772E-02 0.1426706 72776815.4560344 | BP delta = 5.1502451E-02 0.1602703 72776814.7834248 | BP chisq diff = -0.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111026 | New value = -3.160566 | poltype: 2 pol: 1 CPU time specind = 9.2110634E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161471 | New value = -3.222214 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155789 | New value = -3.126274 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179555 | New value = -3.078246 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109773 | New value = -3.187088 | poltype: 2 pol: 2 CPU time specind = 5.5918694E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.13568E+08, tol = 0.75779E+01, time = 5.51 | CG iter. 2 -- res = 0.35902E+06, tol = 0.75779E+01, time = 6.02 | CG iter. 3 -- res = 0.62858E+05, tol = 0.75779E+01, time = 5.76 | CG iter. 4 -- res = 0.44602E+05, tol = 0.75779E+01, time = 5.54 | CG iter. 5 -- res = 0.40478E+05, tol = 0.75779E+01, time = 5.82 | CG iter. 6 -- res = 0.42863E+05, tol = 0.75779E+01, time = 5.56 | CG iter. 7 -- res = 0.42131E+05, tol = 0.75779E+01, time = 5.66 | CG iter. 8 -- res = 0.36591E+05, tol = 0.75779E+01, time = 6.31 | CG iter. 9 -- res = 0.29974E+05, tol = 0.75779E+01, time = 5.95 | CG iter. 10 -- res = 0.24326E+05, tol = 0.75779E+01, time = 5.56 | CG iter. 11 -- res = 0.17120E+05, tol = 0.75779E+01, time = 6.19 | CG iter. 12 -- res = 0.11632E+05, tol = 0.75779E+01, time = 5.43 | CG iter. 13 -- res = 0.92538E+04, tol = 0.75779E+01, time = 6.22 | CG iter. 14 -- res = 0.83751E+04, tol = 0.75779E+01, time = 5.74 | CG iter. 15 -- res = 0.73123E+04, tol = 0.75779E+01, time = 5.25 | CG iter. 16 -- res = 0.53863E+04, tol = 0.75779E+01, time = 5.74 | CG iter. 17 -- res = 0.39305E+04, tol = 0.75779E+01, time = 5.56 | CG iter. 18 -- res = 0.30185E+04, tol = 0.75779E+01, time = 5.70 | CG iter. 19 -- res = 0.26700E+04, tol = 0.75779E+01, time = 5.76 | CG iter. 20 -- res = 0.22079E+04, tol = 0.75779E+01, time = 5.32 | CG iter. 21 -- res = 0.16810E+04, tol = 0.75779E+01, time = 5.56 | CG iter. 22 -- res = 0.13446E+04, tol = 0.75779E+01, time = 5.87 | CG iter. 23 -- res = 0.11756E+04, tol = 0.75779E+01, time = 5.85 | CG iter. 24 -- res = 0.10029E+04, tol = 0.75779E+01, time = 5.98 | CG iter. 25 -- res = 0.78125E+03, tol = 0.75779E+01, time = 6.75 | CG iter. 26 -- res = 0.60495E+03, tol = 0.75779E+01, time = 10.63 | CG iter. 27 -- res = 0.54064E+03, tol = 0.75779E+01, time = 5.76 | CG iter. 28 -- res = 0.50878E+03, tol = 0.75779E+01, time = 5.69 | CG iter. 29 -- res = 0.42412E+03, tol = 0.75779E+01, time = 5.59 | CG iter. 30 -- res = 0.34385E+03, tol = 0.75779E+01, time = 5.48 | CG iter. 31 -- res = 0.29820E+03, tol = 0.75779E+01, time = 5.67 | CG iter. 32 -- res = 0.26083E+03, tol = 0.75779E+01, time = 5.76 | CG iter. 33 -- res = 0.21949E+03, tol = 0.75779E+01, time = 5.73 | CG iter. 34 -- res = 0.16972E+03, tol = 0.75779E+01, time = 5.61 | CG iter. 35 -- res = 0.14083E+03, tol = 0.75779E+01, time = 5.85 | CG iter. 36 -- res = 0.12917E+03, tol = 0.75779E+01, time = 5.68 | CG iter. 37 -- res = 0.11026E+03, tol = 0.75779E+01, time = 5.57 | CG iter. 38 -- res = 0.86781E+02, tol = 0.75779E+01, time = 5.77 | CG iter. 39 -- res = 0.65581E+02, tol = 0.75779E+01, time = 5.18 | CG iter. 40 -- res = 0.55351E+02, tol = 0.75779E+01, time = 5.64 | CG iter. 41 -- res = 0.46032E+02, tol = 0.75779E+01, time = 7.51 | CG iter. 42 -- res = 0.35979E+02, tol = 0.75779E+01, time = 6.31 | CG iter. 43 -- res = 0.26990E+02, tol = 0.75779E+01, time = 5.99 | CG iter. 44 -- res = 0.21654E+02, tol = 0.75779E+01, time = 5.82 | CG iter. 45 -- res = 0.17505E+02, tol = 0.75779E+01, time = 5.67 | CG iter. 46 -- res = 0.14211E+02, tol = 0.75779E+01, time = 5.61 | CG iter. 47 -- res = 0.11152E+02, tol = 0.75779E+01, time = 5.45 | CG iter. 48 -- res = 0.86157E+01, tol = 0.75779E+01, time = 5.86 | CG iter. 49 -- res = 0.69560E+01, tol = 0.75779E+01, time = 5.74 | CG iter. 50 -- res = 0.56499E+01, tol = 0.75779E+01, time = 5.69 | Final CG iter 51 -- res = 0.56499E+01, tol = 0.75779E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9517015.391 | Old band monopole 9388409.066 | Change to band monopole 128606.325 | Change to component monopole -128605.772 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.16581E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.85621E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.32996E+01, tol = 0.47627E+18, time = 2.23 | CG iter. 4 -- res = 0.10728E-01, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.20626E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9516974.456 | (Sampled value in CG: 9470423.843 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.529975 | New value = 1.453848 | poltype: 2 pol: 1 CPU time specind = 9.1400146E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.486456 | New value = 1.474771 | poltype: 2 pol: 2 CPU time specind = 3.8781166E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.25167E+08, tol = 0.47441E+04, time = 6.09 | CG iter. 2 -- res = 0.52972E+07, tol = 0.47441E+04, time = 6.49 | CG iter. 3 -- res = 0.83527E+06, tol = 0.47441E+04, time = 6.17 | CG iter. 4 -- res = 0.34608E+06, tol = 0.47441E+04, time = 6.33 | CG iter. 5 -- res = 0.14923E+06, tol = 0.47441E+04, time = 6.05 | CG iter. 6 -- res = 0.78682E+05, tol = 0.47441E+04, time = 13.01 | CG iter. 7 -- res = 0.43053E+05, tol = 0.47441E+04, time = 6.42 | CG iter. 8 -- res = 0.20465E+05, tol = 0.47441E+04, time = 6.60 | CG iter. 9 -- res = 0.91765E+04, tol = 0.47441E+04, time = 6.52 | CG iter. 10 -- res = 0.38035E+04, tol = 0.47441E+04, time = 6.40 | CG iter. 11 -- res = 0.17035E+04, tol = 0.47441E+04, time = 6.36 | CG iter. 12 -- res = 0.85734E+03, tol = 0.47441E+04, time = 6.09 | CG iter. 13 -- res = 0.48495E+03, tol = 0.47441E+04, time = 6.67 | CG iter. 14 -- res = 0.27983E+03, tol = 0.47441E+04, time = 6.64 | CG iter. 15 -- res = 0.14268E+03, tol = 0.47441E+04, time = 6.18 | CG iter. 16 -- res = 0.66171E+02, tol = 0.47441E+04, time = 6.28 | CG iter. 17 -- res = 0.31293E+02, tol = 0.47441E+04, time = 6.37 | CG iter. 18 -- res = 0.16094E+02, tol = 0.47441E+04, time = 6.50 | CG iter. 19 -- res = 0.86832E+01, tol = 0.47441E+04, time = 6.88 | CG iter. 20 -- res = 0.49013E+01, tol = 0.47441E+04, time = 7.52 | CG iter. 21 -- res = 0.26729E+01, tol = 0.47441E+04, time = 7.17 | CG iter. 22 -- res = 0.13727E+01, tol = 0.47441E+04, time = 6.46 | CG iter. 23 -- res = 0.69358E+00, tol = 0.47441E+04, time = 6.88 | CG iter. 24 -- res = 0.35134E+00, tol = 0.47441E+04, time = 6.54 | CG iter. 25 -- res = 0.19030E+00, tol = 0.47441E+04, time = 6.48 | CG iter. 26 -- res = 0.10757E+00, tol = 0.47441E+04, time = 6.72 | CG iter. 27 -- res = 0.60171E-01, tol = 0.47441E+04, time = 6.40 | CG iter. 28 -- res = 0.31820E-01, tol = 0.47441E+04, time = 6.82 | CG iter. 29 -- res = 0.16965E-01, tol = 0.47441E+04, time = 6.64 | CG iter. 30 -- res = 0.90578E-02, tol = 0.47441E+04, time = 6.44 | CG iter. 31 -- res = 0.49060E-02, tol = 0.47441E+04, time = 6.55 | CG iter. 32 -- res = 0.27276E-02, tol = 0.47441E+04, time = 6.53 | CG iter. 33 -- res = 0.15050E-02, tol = 0.47441E+04, time = 6.09 | CG iter. 34 -- res = 0.80469E-03, tol = 0.47441E+04, time = 6.89 | CG iter. 35 -- res = 0.41929E-03, tol = 0.47441E+04, time = 6.21 | Final CG iter 36 -- res = 0.41929E-03, tol = 0.47441E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.237 2.747 | New value -4.696 | Old value -2.237 | Difference -2.459 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.32850E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.45070E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.14563E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.20542E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.40632E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9516974.456 | (Sampled value in CG: 9470526.090 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.634810 | New value = -3.650328 | poltype: 1 pol: 1 CPU time specind = 9.0651512E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.23246E+07, tol = 0.25695E+01, time = 2.75 | CG iter. 2 -- res = 0.95925E+06, tol = 0.25695E+01, time = 2.71 | CG iter. 3 -- res = 0.18526E+06, tol = 0.25695E+01, time = 2.83 | CG iter. 4 -- res = 0.71330E+05, tol = 0.25695E+01, time = 2.55 | CG iter. 5 -- res = 0.42217E+05, tol = 0.25695E+01, time = 2.62 | CG iter. 6 -- res = 0.22540E+05, tol = 0.25695E+01, time = 3.08 | CG iter. 7 -- res = 0.85939E+04, tol = 0.25695E+01, time = 2.76 | CG iter. 8 -- res = 0.34694E+04, tol = 0.25695E+01, time = 2.67 | CG iter. 9 -- res = 0.14443E+04, tol = 0.25695E+01, time = 3.03 | CG iter. 10 -- res = 0.56990E+03, tol = 0.25695E+01, time = 2.63 | CG iter. 11 -- res = 0.23742E+03, tol = 0.25695E+01, time = 2.76 | CG iter. 12 -- res = 0.12802E+03, tol = 0.25695E+01, time = 2.48 | CG iter. 13 -- res = 0.66488E+02, tol = 0.25695E+01, time = 2.93 | CG iter. 14 -- res = 0.31917E+02, tol = 0.25695E+01, time = 2.59 | CG iter. 15 -- res = 0.13849E+02, tol = 0.25695E+01, time = 3.03 | CG iter. 16 -- res = 0.58843E+01, tol = 0.25695E+01, time = 2.75 | CG iter. 17 -- res = 0.25473E+01, tol = 0.25695E+01, time = 2.64 | CG iter. 18 -- res = 0.12108E+01, tol = 0.25695E+01, time = 2.97 | CG iter. 19 -- res = 0.59773E+00, tol = 0.25695E+01, time = 2.88 | CG iter. 20 -- res = 0.31280E+00, tol = 0.25695E+01, time = 2.59 | CG iter. 21 -- res = 0.13984E+00, tol = 0.25695E+01, time = 2.72 | CG iter. 22 -- res = 0.61361E-01, tol = 0.25695E+01, time = 2.73 | CG iter. 23 -- res = 0.27225E-01, tol = 0.25695E+01, time = 2.85 | CG iter. 24 -- res = 0.13383E-01, tol = 0.25695E+01, time = 2.72 | CG iter. 25 -- res = 0.69141E-02, tol = 0.25695E+01, time = 2.73 | CG iter. 26 -- res = 0.34813E-02, tol = 0.25695E+01, time = 2.52 | CG iter. 27 -- res = 0.16667E-02, tol = 0.25695E+01, time = 2.85 | CG iter. 28 -- res = 0.76188E-03, tol = 0.25695E+01, time = 2.92 | CG iter. 29 -- res = 0.33759E-03, tol = 0.25695E+01, time = 2.89 | CG iter. 30 -- res = 0.16102E-03, tol = 0.25695E+01, time = 2.74 | CG iter. 31 -- res = 0.82153E-04, tol = 0.25695E+01, time = 2.91 | CG iter. 32 -- res = 0.41753E-04, tol = 0.25695E+01, time = 2.96 | CG iter. 33 -- res = 0.19916E-04, tol = 0.25695E+01, time = 2.67 | CG iter. 34 -- res = 0.95367E-05, tol = 0.25695E+01, time = 2.78 | CG iter. 35 -- res = 0.43391E-05, tol = 0.25695E+01, time = 2.67 | CG iter. 36 -- res = 0.20800E-05, tol = 0.25695E+01, time = 8.73 | CG iter. 37 -- res = 0.10134E-05, tol = 0.25695E+01, time = 3.22 | CG iter. 38 -- res = 0.51092E-06, tol = 0.25695E+01, time = 2.72 | CG iter. 39 -- res = 0.25146E-06, tol = 0.25695E+01, time = 2.80 | CG iter. 40 -- res = 0.11704E-06, tol = 0.25695E+01, time = 2.82 | CG iter. 41 -- res = 0.54206E-07, tol = 0.25695E+01, time = 2.66 | CG iter. 42 -- res = 0.25057E-07, tol = 0.25695E+01, time = 2.50 | CG iter. 43 -- res = 0.12274E-07, tol = 0.25695E+01, time = 2.69 | CG iter. 44 -- res = 0.58567E-08, tol = 0.25695E+01, time = 2.75 | CG iter. 45 -- res = 0.29225E-08, tol = 0.25695E+01, time = 2.67 | CG iter. 46 -- res = 0.13747E-08, tol = 0.25695E+01, time = 2.77 | CG iter. 47 -- res = 0.66087E-09, tol = 0.25695E+01, time = 2.74 | CG iter. 48 -- res = 0.29986E-09, tol = 0.25695E+01, time = 2.86 | CG iter. 49 -- res = 0.14208E-09, tol = 0.25695E+01, time = 2.61 | CG iter. 50 -- res = 0.66139E-10, tol = 0.25695E+01, time = 2.66 | Final CG iter 51 -- res = 0.66139E-10, tol = 0.25695E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.230 6.172 | New value 10.618 | Old value -1.230 | Difference 11.848 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.13907E+06, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.54228E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.18836E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.54161E-02, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.22027E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9516974.456 | (Sampled value in CG: 9485697.872 ) | CPU time specind = 1195.170 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.72087E+08, tol = 0.57666E+04, time = 11.52 | CG iter. 2 -- res = 0.59825E+08, tol = 0.57666E+04, time = 11.77 | CG iter. 3 -- res = 0.15817E+08, tol = 0.57666E+04, time = 12.03 | CG iter. 4 -- res = 0.70590E+07, tol = 0.57666E+04, time = 12.41 | CG iter. 5 -- res = 0.44482E+07, tol = 0.57666E+04, time = 11.68 | CG iter. 6 -- res = 0.25857E+07, tol = 0.57666E+04, time = 13.00 | CG iter. 7 -- res = 0.14830E+07, tol = 0.57666E+04, time = 11.30 | CG iter. 8 -- res = 0.96731E+06, tol = 0.57666E+04, time = 11.98 | CG iter. 9 -- res = 0.61699E+06, tol = 0.57666E+04, time = 11.50 | CG iter. 10 -- res = 0.38114E+06, tol = 0.57666E+04, time = 11.45 | CG iter. 11 -- res = 0.21317E+06, tol = 0.57666E+04, time = 11.70 | CG iter. 12 -- res = 0.12000E+06, tol = 0.57666E+04, time = 11.82 | CG iter. 13 -- res = 0.67854E+05, tol = 0.57666E+04, time = 11.58 | CG iter. 14 -- res = 0.43099E+05, tol = 0.57666E+04, time = 11.78 | CG iter. 15 -- res = 0.32498E+05, tol = 0.57666E+04, time = 17.47 | CG iter. 16 -- res = 0.27733E+05, tol = 0.57666E+04, time = 11.61 | CG iter. 17 -- res = 0.24979E+05, tol = 0.57666E+04, time = 11.67 | CG iter. 18 -- res = 0.22780E+05, tol = 0.57666E+04, time = 11.81 | CG iter. 19 -- res = 0.19761E+05, tol = 0.57666E+04, time = 11.66 | CG iter. 20 -- res = 0.17894E+05, tol = 0.57666E+04, time = 12.17 | CG iter. 21 -- res = 0.17556E+05, tol = 0.57666E+04, time = 11.53 | CG iter. 22 -- res = 0.18108E+05, tol = 0.57666E+04, time = 13.78 | CG iter. 23 -- res = 0.19172E+05, tol = 0.57666E+04, time = 12.31 | CG iter. 24 -- res = 0.19309E+05, tol = 0.57666E+04, time = 11.78 | CG iter. 25 -- res = 0.17386E+05, tol = 0.57666E+04, time = 11.68 | CG iter. 26 -- res = 0.13730E+05, tol = 0.57666E+04, time = 11.72 | CG iter. 27 -- res = 0.10146E+05, tol = 0.57666E+04, time = 11.53 | CG iter. 28 -- res = 0.75744E+04, tol = 0.57666E+04, time = 11.70 | CG iter. 29 -- res = 0.61269E+04, tol = 0.57666E+04, time = 11.69 | CG iter. 30 -- res = 0.53312E+04, tol = 0.57666E+04, time = 11.67 | CG iter. 31 -- res = 0.46667E+04, tol = 0.57666E+04, time = 11.50 | CG iter. 32 -- res = 0.39950E+04, tol = 0.57666E+04, time = 11.85 | CG iter. 33 -- res = 0.33452E+04, tol = 0.57666E+04, time = 11.49 | CG iter. 34 -- res = 0.27480E+04, tol = 0.57666E+04, time = 11.95 | CG iter. 35 -- res = 0.23631E+04, tol = 0.57666E+04, time = 12.05 | CG iter. 36 -- res = 0.22030E+04, tol = 0.57666E+04, time = 11.79 | CG iter. 37 -- res = 0.21294E+04, tol = 0.57666E+04, time = 11.62 | CG iter. 38 -- res = 0.20021E+04, tol = 0.57666E+04, time = 11.65 | CG iter. 39 -- res = 0.18160E+04, tol = 0.57666E+04, time = 11.56 | CG iter. 40 -- res = 0.15119E+04, tol = 0.57666E+04, time = 18.41 | CG iter. 41 -- res = 0.12349E+04, tol = 0.57666E+04, time = 11.62 | CG iter. 42 -- res = 0.99324E+03, tol = 0.57666E+04, time = 11.63 | CG iter. 43 -- res = 0.82575E+03, tol = 0.57666E+04, time = 11.92 | CG iter. 44 -- res = 0.71487E+03, tol = 0.57666E+04, time = 11.90 | CG iter. 45 -- res = 0.63568E+03, tol = 0.57666E+04, time = 11.92 | CG iter. 46 -- res = 0.56473E+03, tol = 0.57666E+04, time = 11.78 | CG iter. 47 -- res = 0.49979E+03, tol = 0.57666E+04, time = 13.33 | CG iter. 48 -- res = 0.43797E+03, tol = 0.57666E+04, time = 12.31 | CG iter. 49 -- res = 0.37703E+03, tol = 0.57666E+04, time = 11.79 | CG iter. 50 -- res = 0.33024E+03, tol = 0.57666E+04, time = 11.62 | CG iter. 51 -- res = 0.29775E+03, tol = 0.57666E+04, time = 11.53 | CG iter. 52 -- res = 0.27239E+03, tol = 0.57666E+04, time = 11.43 | CG iter. 53 -- res = 0.25176E+03, tol = 0.57666E+04, time = 11.90 | CG iter. 54 -- res = 0.22579E+03, tol = 0.57666E+04, time = 11.82 | CG iter. 55 -- res = 0.19622E+03, tol = 0.57666E+04, time = 11.96 | CG iter. 56 -- res = 0.16865E+03, tol = 0.57666E+04, time = 12.12 | CG iter. 57 -- res = 0.14345E+03, tol = 0.57666E+04, time = 11.56 | CG iter. 58 -- res = 0.12289E+03, tol = 0.57666E+04, time = 11.60 | CG iter. 59 -- res = 0.10856E+03, tol = 0.57666E+04, time = 11.39 | CG iter. 60 -- res = 0.97737E+02, tol = 0.57666E+04, time = 11.97 | Final CG iter 61 -- res = 0.97737E+02, tol = 0.57666E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.840 ( -229.731 -2230.173 2512.426 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10688478.965 | Old band monopole 9517015.391 | Change to band monopole 1171463.574 | Change to component monopole -1171458.536 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.742 2.727 | New value -0.300 | Old value -4.742 | Difference 4.443 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.894 ( 7.328 9.677 -8.699 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 21.841 4.963 | New value 6.470 | Old value 21.841 | Difference -15.371 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.11639E+07, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.62967E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.22616E+01, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.63607E-02, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.53637E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10688432.992 | (Sampled value in CG: 10656502.825 ) | Chain = 1 -- chisq = 0.81576252E+09 | Chain = 1 -- wall time = 5738.111 sec Available RAM: MemAvailable: 378968512 kB Available Swap: SwapFree: 1136972688 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 248 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445342 | --> Sampling calibration, mode = relcal | relcal = 1.3428176E-02 7.5300690E-04 -1.6006206E-03 -1.2580562E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1159932 0.1344041 9402281.62395407 | BP delta = 0.1159932 0.1340080 9402301.75608285 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632325 | --> Sampling calibration, mode = relcal | relcal = -2.8202173E-03 -7.0451538E-04 1.6777699E-03 1.6147043E-03 -4.0844912E-04 6.4070756E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5353596 15224609.2477118 | BP delta = 0.0000000E+00 -0.5269840 15224612.0612305 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18628183153464 | --> Sampling calibration, mode = relcal | relcal = -7.5511731E-02 -5.9092924E-02 9.2652656E-02 4.1951999E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1719489E-05 5.7104910E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7288E-05 | 2: delta_r/delta_0: 1.2676E-06 | 3: delta_s/delta_0: 1.9331E-07 | 4: delta_r/delta_0: 3.2868E-08 | 5: delta_s/delta_0: 1.1566E-08 | 6: delta_r/delta_0: 3.0375E-09 | 7: delta_s/delta_0: 5.2196E-10 | 8: delta_r/delta_0: 1.2949E-10 | 9: delta_s/delta_0: 2.9659E-10 | 10: delta_r/delta_0: 8.4260E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.222758035826394E-003 2.728822856691955E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7287E-05 | 2: delta_r/delta_0: 1.2676E-06 | 3: delta_s/delta_0: 1.9331E-07 | 4: delta_r/delta_0: 3.2870E-08 | 5: delta_s/delta_0: 1.1567E-08 | 6: delta_r/delta_0: 3.0376E-09 | 7: delta_s/delta_0: 5.2196E-10 | 8: delta_r/delta_0: 1.2950E-10 | 9: delta_s/delta_0: 2.9663E-10 | 10: delta_r/delta_0: 8.4277E-11 | Reached bicg-stab tolerance | BP delta = 7.2959751E-02 9.1685034E-02 3562281.60877893 | BP delta = 7.2959751E-02 9.1843188E-02 3561086.85806008 | BP chisq diff = -1194.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02586036 | --> Sampling calibration, mode = relcal | relcal = -0.1065829 -9.5557787E-02 0.1448883 5.7252411E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3017991E-03 1.6846190E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0218E-05 | 2: delta_r/delta_0: 1.5026E-06 | 3: delta_s/delta_0: 2.3464E-07 | 4: delta_r/delta_0: 4.8561E-08 | 5: delta_s/delta_0: 2.3887E-08 | 6: delta_r/delta_0: 7.0353E-09 | 7: delta_s/delta_0: 9.7990E-09 | 8: delta_r/delta_0: 1.2744E-09 | 9: delta_s/delta_0: 1.1058E-09 | 10: delta_r/delta_0: 2.9845E-10 | 11: delta_s/delta_0: 1.4959E-09 | 12: delta_r/delta_0: 2.5236E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.004202205732601E-002 2.811190141849524E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0217E-05 | 2: delta_r/delta_0: 1.5025E-06 | 3: delta_s/delta_0: 2.3462E-07 | 4: delta_r/delta_0: 4.8534E-08 | 5: delta_s/delta_0: 2.3907E-08 | 6: delta_r/delta_0: 7.0335E-09 | 7: delta_s/delta_0: 9.7975E-09 | 8: delta_r/delta_0: 1.2741E-09 | 9: delta_s/delta_0: 1.1056E-09 | 10: delta_r/delta_0: 2.9853E-10 | 11: delta_s/delta_0: 1.4950E-09 | 12: delta_r/delta_0: 2.5244E-11 | Reached bicg-stab tolerance | BP delta = -0.2627501 -0.2370324 2841526.64897155 | BP delta = -0.2627501 -0.2367841 2841540.89099447 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81199196 | --> Sampling calibration, mode = relcal | relcal = 0.2953146 0.2248155 -0.2836745 -0.2364556 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8741803E-03 5.1068407E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6708E-04 | 2: delta_r/delta_0: 8.2821E-06 | 3: delta_s/delta_0: 4.5666E-05 | 4: delta_r/delta_0: 4.9173E-06 | 5: delta_s/delta_0: 2.7439E-07 | 6: delta_r/delta_0: 8.0626E-08 | 7: delta_s/delta_0: 5.5720E-08 | 8: delta_r/delta_0: 2.9513E-08 | 9: delta_s/delta_0: 7.9673E-08 | 10: delta_r/delta_0: 2.5226E-09 | 11: delta_s/delta_0: 7.6951E-10 | 12: delta_r/delta_0: 4.2519E-10 | 13: delta_s/delta_0: 6.3974E-10 | 14: delta_r/delta_0: 3.5355E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.415881013135739E-002 4.022844114872041E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6716E-04 | 2: delta_r/delta_0: 8.2840E-06 | 3: delta_s/delta_0: 4.5602E-05 | 4: delta_r/delta_0: 4.9111E-06 | 5: delta_s/delta_0: 2.7428E-07 | 6: delta_r/delta_0: 8.0608E-08 | 7: delta_s/delta_0: 5.5717E-08 | 8: delta_r/delta_0: 2.9523E-08 | 9: delta_s/delta_0: 7.9901E-08 | 10: delta_r/delta_0: 2.5217E-09 | 11: delta_s/delta_0: 7.6902E-10 | 12: delta_r/delta_0: 4.2497E-10 | 13: delta_s/delta_0: 6.3956E-10 | 14: delta_r/delta_0: 3.5309E-11 | Reached bicg-stab tolerance | BP delta = -8.0917940E-02 -8.8493749E-02 2827612.48298780 | BP delta = -8.0917940E-02 -0.1016977 2827732.39042139 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95894179 | --> Sampling calibration, mode = relcal | relcal = 0.1064535 0.1395053 -0.1102593 -0.1356995 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9710627E-03 1.3091016E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3174E-04 | 2: delta_r/delta_0: 5.9211E-06 | 3: delta_s/delta_0: 1.0029E-05 | 4: delta_r/delta_0: 1.1076E-06 | 5: delta_s/delta_0: 1.9555E-07 | 6: delta_r/delta_0: 1.1434E-07 | 7: delta_s/delta_0: 5.2688E-07 | 8: delta_r/delta_0: 2.7045E-08 | 9: delta_s/delta_0: 2.7147E-07 | 10: delta_r/delta_0: 9.2726E-08 | 11: delta_s/delta_0: 1.3317E-09 | 12: delta_r/delta_0: 9.0397E-10 | 13: delta_s/delta_0: 3.2769E-09 | 14: delta_r/delta_0: 1.0625E-10 | 15: delta_s/delta_0: 3.6557E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.011513985640781E-002 3.697969455956234E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3174E-04 | 2: delta_r/delta_0: 5.9211E-06 | 3: delta_s/delta_0: 1.0029E-05 | 4: delta_r/delta_0: 1.1076E-06 | 5: delta_s/delta_0: 1.9555E-07 | 6: delta_r/delta_0: 1.1434E-07 | 7: delta_s/delta_0: 5.2685E-07 | 8: delta_r/delta_0: 2.7045E-08 | 9: delta_s/delta_0: 2.7153E-07 | 10: delta_r/delta_0: 9.2741E-08 | 11: delta_s/delta_0: 1.3317E-09 | 12: delta_r/delta_0: 9.0398E-10 | 13: delta_s/delta_0: 3.2761E-09 | 14: delta_r/delta_0: 1.0627E-10 | 15: delta_s/delta_0: 3.6658E-11 | Reached bicg-stab tolerance | BP delta = 5.1502451E-02 0.1602703 3003812.81632806 | BP delta = 5.1502451E-02 0.1627571 3003812.46107532 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160566 | New value = -3.155116 | poltype: 2 pol: 1 CPU time specind = 1.8990040E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.222214 | New value = -3.105333 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126274 | New value = -3.145382 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.078246 | New value = -3.175237 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187088 | New value = -3.111047 | poltype: 2 pol: 2 CPU time specind = 5.4500103E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.47 | CG iter. 1 -- res = 0.13545E+08, tol = 0.65897E+01, time = 5.54 | CG iter. 2 -- res = 0.31675E+06, tol = 0.65897E+01, time = 5.35 | CG iter. 3 -- res = 0.46386E+05, tol = 0.65897E+01, time = 5.45 | CG iter. 4 -- res = 0.21016E+05, tol = 0.65897E+01, time = 5.64 | CG iter. 5 -- res = 0.10978E+05, tol = 0.65897E+01, time = 5.57 | CG iter. 6 -- res = 0.65132E+04, tol = 0.65897E+01, time = 5.61 | CG iter. 7 -- res = 0.52332E+04, tol = 0.65897E+01, time = 5.46 | CG iter. 8 -- res = 0.45798E+04, tol = 0.65897E+01, time = 5.47 | CG iter. 9 -- res = 0.46192E+04, tol = 0.65897E+01, time = 5.98 | CG iter. 10 -- res = 0.53094E+04, tol = 0.65897E+01, time = 5.73 | CG iter. 11 -- res = 0.48600E+04, tol = 0.65897E+01, time = 5.66 | CG iter. 12 -- res = 0.33800E+04, tol = 0.65897E+01, time = 5.39 | CG iter. 13 -- res = 0.21400E+04, tol = 0.65897E+01, time = 5.61 | CG iter. 14 -- res = 0.15615E+04, tol = 0.65897E+01, time = 5.50 | CG iter. 15 -- res = 0.12852E+04, tol = 0.65897E+01, time = 5.50 | CG iter. 16 -- res = 0.10313E+04, tol = 0.65897E+01, time = 5.37 | CG iter. 17 -- res = 0.79276E+03, tol = 0.65897E+01, time = 5.71 | CG iter. 18 -- res = 0.62169E+03, tol = 0.65897E+01, time = 10.69 | CG iter. 19 -- res = 0.54701E+03, tol = 0.65897E+01, time = 7.12 | CG iter. 20 -- res = 0.44156E+03, tol = 0.65897E+01, time = 5.59 | CG iter. 21 -- res = 0.32205E+03, tol = 0.65897E+01, time = 5.91 | CG iter. 22 -- res = 0.24490E+03, tol = 0.65897E+01, time = 5.73 | CG iter. 23 -- res = 0.20465E+03, tol = 0.65897E+01, time = 5.42 | CG iter. 24 -- res = 0.18021E+03, tol = 0.65897E+01, time = 5.97 | CG iter. 25 -- res = 0.14280E+03, tol = 0.65897E+01, time = 5.59 | CG iter. 26 -- res = 0.11230E+03, tol = 0.65897E+01, time = 5.41 | CG iter. 27 -- res = 0.97508E+02, tol = 0.65897E+01, time = 6.28 | CG iter. 28 -- res = 0.92749E+02, tol = 0.65897E+01, time = 5.62 | CG iter. 29 -- res = 0.80531E+02, tol = 0.65897E+01, time = 5.89 | CG iter. 30 -- res = 0.68462E+02, tol = 0.65897E+01, time = 5.83 | CG iter. 31 -- res = 0.60901E+02, tol = 0.65897E+01, time = 5.40 | CG iter. 32 -- res = 0.56910E+02, tol = 0.65897E+01, time = 5.55 | CG iter. 33 -- res = 0.49521E+02, tol = 0.65897E+01, time = 6.63 | CG iter. 34 -- res = 0.38060E+02, tol = 0.65897E+01, time = 6.66 | CG iter. 35 -- res = 0.30395E+02, tol = 0.65897E+01, time = 6.07 | CG iter. 36 -- res = 0.25921E+02, tol = 0.65897E+01, time = 5.45 | CG iter. 37 -- res = 0.21770E+02, tol = 0.65897E+01, time = 5.69 | CG iter. 38 -- res = 0.16284E+02, tol = 0.65897E+01, time = 5.36 | CG iter. 39 -- res = 0.12233E+02, tol = 0.65897E+01, time = 6.07 | CG iter. 40 -- res = 0.97852E+01, tol = 0.65897E+01, time = 5.47 | CG iter. 41 -- res = 0.79163E+01, tol = 0.65897E+01, time = 5.45 | CG iter. 42 -- res = 0.59603E+01, tol = 0.65897E+01, time = 5.58 | CG iter. 43 -- res = 0.42841E+01, tol = 0.65897E+01, time = 5.34 | CG iter. 44 -- res = 0.33164E+01, tol = 0.65897E+01, time = 5.55 | CG iter. 45 -- res = 0.25847E+01, tol = 0.65897E+01, time = 5.35 | CG iter. 46 -- res = 0.20330E+01, tol = 0.65897E+01, time = 5.70 | CG iter. 47 -- res = 0.15441E+01, tol = 0.65897E+01, time = 5.37 | CG iter. 48 -- res = 0.11615E+01, tol = 0.65897E+01, time = 5.86 | CG iter. 49 -- res = 0.92601E+00, tol = 0.65897E+01, time = 5.57 | CG iter. 50 -- res = 0.76129E+00, tol = 0.65897E+01, time = 5.58 | Final CG iter 51 -- res = 0.76129E+00, tol = 0.65897E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8247043.294 | Old band monopole 10688478.965 | Change to band monopole -2441435.671 | Change to component monopole 2441425.170 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.10294E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.36245E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.16679E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.51948E-04, tol = 0.47627E+18, time = 2.31 | Final CG iter 5 -- res = 0.11934E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8247007.822 | (Sampled value in CG: 8249334.390 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.453848 | New value = 1.548984 | poltype: 2 pol: 1 CPU time specind = 1.2156963E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.474771 | New value = 1.512699 | poltype: 2 pol: 2 CPU time specind = 3.6120415E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.25948E+08, tol = 0.47680E+04, time = 6.13 | CG iter. 2 -- res = 0.54353E+07, tol = 0.47680E+04, time = 6.64 | CG iter. 3 -- res = 0.84410E+06, tol = 0.47680E+04, time = 6.22 | CG iter. 4 -- res = 0.34332E+06, tol = 0.47680E+04, time = 6.63 | CG iter. 5 -- res = 0.14608E+06, tol = 0.47680E+04, time = 6.23 | CG iter. 6 -- res = 0.78655E+05, tol = 0.47680E+04, time = 6.44 | CG iter. 7 -- res = 0.42981E+05, tol = 0.47680E+04, time = 6.64 | CG iter. 8 -- res = 0.20300E+05, tol = 0.47680E+04, time = 6.54 | CG iter. 9 -- res = 0.90114E+04, tol = 0.47680E+04, time = 6.49 | CG iter. 10 -- res = 0.36731E+04, tol = 0.47680E+04, time = 6.60 | CG iter. 11 -- res = 0.16683E+04, tol = 0.47680E+04, time = 6.28 | CG iter. 12 -- res = 0.86062E+03, tol = 0.47680E+04, time = 6.52 | CG iter. 13 -- res = 0.48325E+03, tol = 0.47680E+04, time = 7.31 | CG iter. 14 -- res = 0.26629E+03, tol = 0.47680E+04, time = 7.17 | CG iter. 15 -- res = 0.13816E+03, tol = 0.47680E+04, time = 6.88 | CG iter. 16 -- res = 0.66815E+02, tol = 0.47680E+04, time = 6.03 | CG iter. 17 -- res = 0.31652E+02, tol = 0.47680E+04, time = 6.70 | CG iter. 18 -- res = 0.15775E+02, tol = 0.47680E+04, time = 6.84 | CG iter. 19 -- res = 0.83825E+01, tol = 0.47680E+04, time = 6.64 | CG iter. 20 -- res = 0.46895E+01, tol = 0.47680E+04, time = 6.30 | CG iter. 21 -- res = 0.25332E+01, tol = 0.47680E+04, time = 6.54 | CG iter. 22 -- res = 0.13283E+01, tol = 0.47680E+04, time = 6.49 | CG iter. 23 -- res = 0.69009E+00, tol = 0.47680E+04, time = 6.14 | CG iter. 24 -- res = 0.34646E+00, tol = 0.47680E+04, time = 6.56 | CG iter. 25 -- res = 0.18512E+00, tol = 0.47680E+04, time = 6.30 | CG iter. 26 -- res = 0.10472E+00, tol = 0.47680E+04, time = 6.15 | CG iter. 27 -- res = 0.58787E-01, tol = 0.47680E+04, time = 6.51 | CG iter. 28 -- res = 0.31409E-01, tol = 0.47680E+04, time = 6.67 | CG iter. 29 -- res = 0.16299E-01, tol = 0.47680E+04, time = 6.65 | CG iter. 30 -- res = 0.84916E-02, tol = 0.47680E+04, time = 6.93 | CG iter. 31 -- res = 0.46198E-02, tol = 0.47680E+04, time = 6.19 | CG iter. 32 -- res = 0.26909E-02, tol = 0.47680E+04, time = 6.60 | CG iter. 33 -- res = 0.15361E-02, tol = 0.47680E+04, time = 6.43 | CG iter. 34 -- res = 0.84030E-03, tol = 0.47680E+04, time = 6.32 | CG iter. 35 -- res = 0.43922E-03, tol = 0.47680E+04, time = 6.53 | Final CG iter 36 -- res = 0.43922E-03, tol = 0.47680E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.234 2.762 | New value -0.158 | Old value -0.234 | Difference 0.076 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.19774E+05, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.13630E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.15375E+00, tol = 0.47627E+18, time = 1.84 | Final CG iter 4 -- res = 0.37734E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8247007.822 | (Sampled value in CG: 8249229.629 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.650328 | New value = -3.387896 | poltype: 1 pol: 1 CPU time specind = 9.7432137E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.39 | CG iter. 1 -- res = 0.23457E+07, tol = 0.22647E+01, time = 2.59 | CG iter. 2 -- res = 0.10911E+07, tol = 0.22647E+01, time = 2.77 | CG iter. 3 -- res = 0.20634E+06, tol = 0.22647E+01, time = 2.66 | CG iter. 4 -- res = 0.77747E+05, tol = 0.22647E+01, time = 2.45 | CG iter. 5 -- res = 0.42526E+05, tol = 0.22647E+01, time = 2.72 | CG iter. 6 -- res = 0.21237E+05, tol = 0.22647E+01, time = 2.72 | CG iter. 7 -- res = 0.90558E+04, tol = 0.22647E+01, time = 2.99 | CG iter. 8 -- res = 0.45500E+04, tol = 0.22647E+01, time = 2.54 | CG iter. 9 -- res = 0.23617E+04, tol = 0.22647E+01, time = 2.77 | CG iter. 10 -- res = 0.10011E+04, tol = 0.22647E+01, time = 2.73 | CG iter. 11 -- res = 0.38272E+03, tol = 0.22647E+01, time = 2.82 | CG iter. 12 -- res = 0.17121E+03, tol = 0.22647E+01, time = 2.89 | CG iter. 13 -- res = 0.78521E+02, tol = 0.22647E+01, time = 3.02 | CG iter. 14 -- res = 0.39635E+02, tol = 0.22647E+01, time = 2.38 | CG iter. 15 -- res = 0.20586E+02, tol = 0.22647E+01, time = 2.53 | CG iter. 16 -- res = 0.10197E+02, tol = 0.22647E+01, time = 2.86 | CG iter. 17 -- res = 0.46091E+01, tol = 0.22647E+01, time = 2.98 | CG iter. 18 -- res = 0.18872E+01, tol = 0.22647E+01, time = 2.86 | CG iter. 19 -- res = 0.82605E+00, tol = 0.22647E+01, time = 2.56 | CG iter. 20 -- res = 0.40873E+00, tol = 0.22647E+01, time = 2.51 | CG iter. 21 -- res = 0.22147E+00, tol = 0.22647E+01, time = 2.49 | CG iter. 22 -- res = 0.11398E+00, tol = 0.22647E+01, time = 2.50 | CG iter. 23 -- res = 0.54569E-01, tol = 0.22647E+01, time = 3.06 | CG iter. 24 -- res = 0.26306E-01, tol = 0.22647E+01, time = 2.87 | CG iter. 25 -- res = 0.12678E-01, tol = 0.22647E+01, time = 8.85 | CG iter. 26 -- res = 0.57138E-02, tol = 0.22647E+01, time = 3.45 | CG iter. 27 -- res = 0.28559E-02, tol = 0.22647E+01, time = 2.73 | CG iter. 28 -- res = 0.15428E-02, tol = 0.22647E+01, time = 2.80 | CG iter. 29 -- res = 0.75095E-03, tol = 0.22647E+01, time = 2.50 | CG iter. 30 -- res = 0.39826E-03, tol = 0.22647E+01, time = 2.39 | CG iter. 31 -- res = 0.19458E-03, tol = 0.22647E+01, time = 2.76 | CG iter. 32 -- res = 0.90291E-04, tol = 0.22647E+01, time = 2.83 | CG iter. 33 -- res = 0.42627E-04, tol = 0.22647E+01, time = 3.01 | CG iter. 34 -- res = 0.21904E-04, tol = 0.22647E+01, time = 2.78 | CG iter. 35 -- res = 0.11493E-04, tol = 0.22647E+01, time = 2.53 | CG iter. 36 -- res = 0.60531E-05, tol = 0.22647E+01, time = 2.77 | CG iter. 37 -- res = 0.29592E-05, tol = 0.22647E+01, time = 2.87 | CG iter. 38 -- res = 0.14439E-05, tol = 0.22647E+01, time = 3.11 | CG iter. 39 -- res = 0.65103E-06, tol = 0.22647E+01, time = 3.16 | CG iter. 40 -- res = 0.31226E-06, tol = 0.22647E+01, time = 2.68 | CG iter. 41 -- res = 0.15763E-06, tol = 0.22647E+01, time = 2.76 | CG iter. 42 -- res = 0.80461E-07, tol = 0.22647E+01, time = 2.80 | CG iter. 43 -- res = 0.39927E-07, tol = 0.22647E+01, time = 2.66 | CG iter. 44 -- res = 0.18399E-07, tol = 0.22647E+01, time = 2.61 | CG iter. 45 -- res = 0.87526E-08, tol = 0.22647E+01, time = 2.72 | CG iter. 46 -- res = 0.43345E-08, tol = 0.22647E+01, time = 2.88 | CG iter. 47 -- res = 0.20216E-08, tol = 0.22647E+01, time = 2.92 | CG iter. 48 -- res = 0.99281E-09, tol = 0.22647E+01, time = 2.66 | CG iter. 49 -- res = 0.50110E-09, tol = 0.22647E+01, time = 2.79 | CG iter. 50 -- res = 0.24636E-09, tol = 0.22647E+01, time = 2.70 | Final CG iter 51 -- res = 0.24636E-09, tol = 0.22647E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.277 5.044 | New value 11.347 | Old value 5.277 | Difference 6.070 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.38689E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.24772E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.78576E+00, tol = 0.47627E+18, time = 2.29 | CG iter. 4 -- res = 0.15165E-03, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.64128E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8247007.822 | (Sampled value in CG: 8251791.348 ) | CPU time specind = 1181.694 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.74061E+08, tol = 0.57629E+04, time = 11.58 | CG iter. 2 -- res = 0.60827E+08, tol = 0.57629E+04, time = 11.96 | CG iter. 3 -- res = 0.16158E+08, tol = 0.57629E+04, time = 11.85 | CG iter. 4 -- res = 0.72024E+07, tol = 0.57629E+04, time = 12.27 | CG iter. 5 -- res = 0.45319E+07, tol = 0.57629E+04, time = 11.57 | CG iter. 6 -- res = 0.26989E+07, tol = 0.57629E+04, time = 11.79 | CG iter. 7 -- res = 0.15533E+07, tol = 0.57629E+04, time = 11.43 | CG iter. 8 -- res = 0.97734E+06, tol = 0.57629E+04, time = 12.27 | CG iter. 9 -- res = 0.62515E+06, tol = 0.57629E+04, time = 11.80 | CG iter. 10 -- res = 0.38153E+06, tol = 0.57629E+04, time = 12.08 | CG iter. 11 -- res = 0.20989E+06, tol = 0.57629E+04, time = 11.42 | CG iter. 12 -- res = 0.11512E+06, tol = 0.57629E+04, time = 18.01 | CG iter. 13 -- res = 0.63035E+05, tol = 0.57629E+04, time = 11.59 | CG iter. 14 -- res = 0.37544E+05, tol = 0.57629E+04, time = 11.45 | CG iter. 15 -- res = 0.26008E+05, tol = 0.57629E+04, time = 11.75 | CG iter. 16 -- res = 0.20111E+05, tol = 0.57629E+04, time = 11.30 | CG iter. 17 -- res = 0.16674E+05, tol = 0.57629E+04, time = 12.06 | CG iter. 18 -- res = 0.13870E+05, tol = 0.57629E+04, time = 11.54 | CG iter. 19 -- res = 0.11201E+05, tol = 0.57629E+04, time = 11.94 | CG iter. 20 -- res = 0.95147E+04, tol = 0.57629E+04, time = 13.33 | CG iter. 21 -- res = 0.88962E+04, tol = 0.57629E+04, time = 11.46 | CG iter. 22 -- res = 0.92317E+04, tol = 0.57629E+04, time = 12.03 | CG iter. 23 -- res = 0.10126E+05, tol = 0.57629E+04, time = 11.93 | CG iter. 24 -- res = 0.11143E+05, tol = 0.57629E+04, time = 11.37 | CG iter. 25 -- res = 0.11117E+05, tol = 0.57629E+04, time = 11.73 | CG iter. 26 -- res = 0.97802E+04, tol = 0.57629E+04, time = 11.37 | CG iter. 27 -- res = 0.77649E+04, tol = 0.57629E+04, time = 11.28 | CG iter. 28 -- res = 0.60037E+04, tol = 0.57629E+04, time = 11.93 | CG iter. 29 -- res = 0.48908E+04, tol = 0.57629E+04, time = 11.62 | CG iter. 30 -- res = 0.41473E+04, tol = 0.57629E+04, time = 11.59 | CG iter. 31 -- res = 0.35599E+04, tol = 0.57629E+04, time = 11.60 | CG iter. 32 -- res = 0.30013E+04, tol = 0.57629E+04, time = 11.51 | CG iter. 33 -- res = 0.24133E+04, tol = 0.57629E+04, time = 11.80 | CG iter. 34 -- res = 0.19125E+04, tol = 0.57629E+04, time = 12.02 | CG iter. 35 -- res = 0.15911E+04, tol = 0.57629E+04, time = 11.61 | CG iter. 36 -- res = 0.14627E+04, tol = 0.57629E+04, time = 11.54 | CG iter. 37 -- res = 0.14615E+04, tol = 0.57629E+04, time = 17.79 | CG iter. 38 -- res = 0.14185E+04, tol = 0.57629E+04, time = 11.92 | CG iter. 39 -- res = 0.13577E+04, tol = 0.57629E+04, time = 11.74 | CG iter. 40 -- res = 0.12009E+04, tol = 0.57629E+04, time = 11.66 | CG iter. 41 -- res = 0.10351E+04, tol = 0.57629E+04, time = 11.62 | CG iter. 42 -- res = 0.87844E+03, tol = 0.57629E+04, time = 11.63 | CG iter. 43 -- res = 0.74954E+03, tol = 0.57629E+04, time = 11.85 | CG iter. 44 -- res = 0.66247E+03, tol = 0.57629E+04, time = 12.16 | CG iter. 45 -- res = 0.58686E+03, tol = 0.57629E+04, time = 13.01 | CG iter. 46 -- res = 0.50165E+03, tol = 0.57629E+04, time = 11.86 | CG iter. 47 -- res = 0.42012E+03, tol = 0.57629E+04, time = 11.72 | CG iter. 48 -- res = 0.34748E+03, tol = 0.57629E+04, time = 11.57 | CG iter. 49 -- res = 0.28681E+03, tol = 0.57629E+04, time = 11.64 | CG iter. 50 -- res = 0.25101E+03, tol = 0.57629E+04, time = 11.55 | CG iter. 51 -- res = 0.23182E+03, tol = 0.57629E+04, time = 11.78 | CG iter. 52 -- res = 0.22237E+03, tol = 0.57629E+04, time = 11.72 | CG iter. 53 -- res = 0.21238E+03, tol = 0.57629E+04, time = 11.96 | CG iter. 54 -- res = 0.19181E+03, tol = 0.57629E+04, time = 12.45 | CG iter. 55 -- res = 0.17244E+03, tol = 0.57629E+04, time = 11.64 | CG iter. 56 -- res = 0.15370E+03, tol = 0.57629E+04, time = 11.45 | CG iter. 57 -- res = 0.13605E+03, tol = 0.57629E+04, time = 11.78 | CG iter. 58 -- res = 0.12115E+03, tol = 0.57629E+04, time = 11.10 | CG iter. 59 -- res = 0.11109E+03, tol = 0.57629E+04, time = 11.07 | CG iter. 60 -- res = 0.10224E+03, tol = 0.57629E+04, time = 11.64 | Final CG iter 61 -- res = 0.10224E+03, tol = 0.57629E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.974 ( -229.487 -2228.437 2510.821 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7771981.670 | Old band monopole 8247043.294 | Change to band monopole -475061.624 | Change to component monopole 475059.580 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.169 2.738 | New value -2.801 | Old value -0.169 | Difference -2.633 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.812 ( 5.819 6.694 -5.984 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.446 6.438 | New value -0.765 | Old value 6.446 | Difference -7.211 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.45 | CG iter. 1 -- res = 0.37482E+06, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.23917E+02, tol = 0.47627E+18, time = 1.74 | CG iter. 3 -- res = 0.66750E+00, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.90231E-03, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.88907E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7771948.241 | (Sampled value in CG: 7757733.959 ) | Chain = 1 -- chisq = 0.81519731E+09 | Chain = 1 -- wall time = 6023.448 sec Available RAM: MemAvailable: 379184132 kB Available Swap: SwapFree: 1137828844 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 249 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447109 | --> Sampling calibration, mode = relcal | relcal = 1.3429778E-02 7.4994582E-04 -1.6036301E-03 -1.2576093E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1159932 0.1344041 97032462.4310127 | BP delta = 0.1143260 0.1327369 97032463.5372138 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632146 | --> Sampling calibration, mode = relcal | relcal = -2.8193421E-03 -7.0338143E-04 1.6780318E-03 1.6131701E-03 -4.0865960E-04 6.4018124E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5353596 15217910.8396735 | BP delta = 0.0000000E+00 -0.5365791 15217913.3744383 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18031151762751 | --> Sampling calibration, mode = relcal | relcal = -7.3327988E-02 -5.7462133E-02 9.0202518E-02 4.0587604E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2561758E-04 2.4589768E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8736E-04 | 2: delta_r/delta_0: 4.6322E-06 | 3: delta_s/delta_0: 1.6571E-07 | 4: delta_r/delta_0: 3.0297E-08 | 5: delta_s/delta_0: 1.0522E-08 | 6: delta_r/delta_0: 3.6140E-09 | 7: delta_s/delta_0: 7.6589E-10 | 8: delta_r/delta_0: 1.8659E-10 | 9: delta_s/delta_0: 7.3425E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.151645915160077E-006 2.742930336574006E-005 | BP delta = 7.2959751E-02 9.1843188E-02 50481071.6185640 | BP delta = 7.6580368E-02 9.5463805E-02 50481076.4636630 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02569321 | --> Sampling calibration, mode = relcal | relcal = -0.1065451 -9.5616154E-02 0.1448832 5.7278015E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3991465E-03 1.5986350E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5347E-05 | 2: delta_r/delta_0: 1.7685E-06 | 3: delta_s/delta_0: 2.2936E-07 | 4: delta_r/delta_0: 5.0930E-08 | 5: delta_s/delta_0: 2.8735E-08 | 6: delta_r/delta_0: 7.7680E-09 | 7: delta_s/delta_0: 9.1192E-09 | 8: delta_r/delta_0: 1.5922E-09 | 9: delta_s/delta_0: 7.6447E-10 | 10: delta_r/delta_0: 1.6896E-10 | 11: delta_s/delta_0: 2.9125E-10 | 12: delta_r/delta_0: 2.5577E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.041997741971213E-002 2.811684498171646E-005 | BP delta = -0.2627501 -0.2370324 57394305.2503342 | BP delta = -0.2701324 -0.2444146 57394304.5291828 | BP chisq diff = -0.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81186119 | --> Sampling calibration, mode = relcal | relcal = 0.2953367 0.2246802 -0.2835713 -0.2364456 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.6344842E-04 5.3168330E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.7823E-04 | 2: delta_r/delta_0: 2.2435E-05 | 3: delta_s/delta_0: 2.6192E-06 | 4: delta_r/delta_0: 4.8165E-07 | 5: delta_s/delta_0: 2.0991E-06 | 6: delta_r/delta_0: 2.2789E-07 | 7: delta_s/delta_0: 6.5541E-08 | 8: delta_r/delta_0: 4.2601E-08 | 9: delta_s/delta_0: 1.7301E-06 | 10: delta_r/delta_0: 7.7462E-09 | 11: delta_s/delta_0: 1.0675E-09 | 12: delta_r/delta_0: 7.6719E-10 | 13: delta_s/delta_0: 4.1308E-10 | 14: delta_r/delta_0: 1.3194E-10 | 15: delta_s/delta_0: 3.6606E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.251172517859280E-002 4.023413300235131E-005 | BP delta = -8.0917940E-02 -8.8493749E-02 72490983.4120077 | BP delta = -7.5395055E-02 -8.2970873E-02 72490983.6397328 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95863905 | --> Sampling calibration, mode = relcal | relcal = 0.1063720 0.1394916 -0.1101710 -0.1356926 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6048405E-03 1.3250480E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7171E-04 | 2: delta_r/delta_0: 4.5891E-06 | 3: delta_s/delta_0: 5.4537E-06 | 4: delta_r/delta_0: 8.6682E-07 | 5: delta_s/delta_0: 1.7161E-07 | 6: delta_r/delta_0: 1.0847E-07 | 7: delta_s/delta_0: 6.2285E-07 | 8: delta_r/delta_0: 2.3443E-08 | 9: delta_s/delta_0: 4.5043E-08 | 10: delta_r/delta_0: 2.3742E-08 | 11: delta_s/delta_0: 1.4232E-09 | 12: delta_r/delta_0: 9.8092E-10 | 13: delta_s/delta_0: 4.0599E-10 | 14: delta_r/delta_0: 2.9747E-10 | 15: delta_s/delta_0: 7.8290E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.904441257537664E-002 3.699100960919859E-005 | BP delta = 5.1502451E-02 0.1627571 72779752.2629054 | BP delta = 6.8083227E-02 0.1793379 72779752.1450908 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155116 | New value = -3.165139 | poltype: 2 pol: 1 CPU time specind = 2.1776199E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105333 | New value = -3.174262 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145382 | New value = -3.105302 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175237 | New value = -3.214093 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111047 | New value = -3.188202 | poltype: 2 pol: 2 CPU time specind = 1.4033079E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.13569E+08, tol = 0.87948E+01, time = 5.44 | CG iter. 2 -- res = 0.35564E+06, tol = 0.87948E+01, time = 5.26 | CG iter. 3 -- res = 0.51032E+05, tol = 0.87948E+01, time = 6.53 | CG iter. 4 -- res = 0.25229E+05, tol = 0.87948E+01, time = 6.78 | CG iter. 5 -- res = 0.15379E+05, tol = 0.87948E+01, time = 6.05 | CG iter. 6 -- res = 0.11081E+05, tol = 0.87948E+01, time = 5.37 | CG iter. 7 -- res = 0.10535E+05, tol = 0.87948E+01, time = 5.68 | CG iter. 8 -- res = 0.99800E+04, tol = 0.87948E+01, time = 5.74 | CG iter. 9 -- res = 0.97181E+04, tol = 0.87948E+01, time = 5.31 | CG iter. 10 -- res = 0.10149E+05, tol = 0.87948E+01, time = 5.54 | CG iter. 11 -- res = 0.82394E+04, tol = 0.87948E+01, time = 5.73 | CG iter. 12 -- res = 0.51833E+04, tol = 0.87948E+01, time = 5.53 | CG iter. 13 -- res = 0.33644E+04, tol = 0.87948E+01, time = 5.43 | CG iter. 14 -- res = 0.25222E+04, tol = 0.87948E+01, time = 6.06 | CG iter. 15 -- res = 0.21984E+04, tol = 0.87948E+01, time = 5.69 | CG iter. 16 -- res = 0.18465E+04, tol = 0.87948E+01, time = 5.55 | CG iter. 17 -- res = 0.14413E+04, tol = 0.87948E+01, time = 5.63 | CG iter. 18 -- res = 0.11216E+04, tol = 0.87948E+01, time = 5.47 | CG iter. 19 -- res = 0.98616E+03, tol = 0.87948E+01, time = 6.16 | CG iter. 20 -- res = 0.79029E+03, tol = 0.87948E+01, time = 5.59 | CG iter. 21 -- res = 0.55560E+03, tol = 0.87948E+01, time = 5.37 | CG iter. 22 -- res = 0.42362E+03, tol = 0.87948E+01, time = 5.69 | CG iter. 23 -- res = 0.35201E+03, tol = 0.87948E+01, time = 6.04 | CG iter. 24 -- res = 0.31887E+03, tol = 0.87948E+01, time = 5.74 | CG iter. 25 -- res = 0.25373E+03, tol = 0.87948E+01, time = 5.45 | CG iter. 26 -- res = 0.19567E+03, tol = 0.87948E+01, time = 5.89 | CG iter. 27 -- res = 0.16448E+03, tol = 0.87948E+01, time = 5.56 | CG iter. 28 -- res = 0.15450E+03, tol = 0.87948E+01, time = 5.76 | CG iter. 29 -- res = 0.13574E+03, tol = 0.87948E+01, time = 6.09 | CG iter. 30 -- res = 0.11431E+03, tol = 0.87948E+01, time = 5.55 | CG iter. 31 -- res = 0.10232E+03, tol = 0.87948E+01, time = 5.87 | CG iter. 32 -- res = 0.94101E+02, tol = 0.87948E+01, time = 5.66 | CG iter. 33 -- res = 0.82319E+02, tol = 0.87948E+01, time = 5.34 | CG iter. 34 -- res = 0.65741E+02, tol = 0.87948E+01, time = 5.79 | CG iter. 35 -- res = 0.54012E+02, tol = 0.87948E+01, time = 5.57 | CG iter. 36 -- res = 0.47264E+02, tol = 0.87948E+01, time = 5.73 | CG iter. 37 -- res = 0.40946E+02, tol = 0.87948E+01, time = 5.78 | CG iter. 38 -- res = 0.32606E+02, tol = 0.87948E+01, time = 5.80 | CG iter. 39 -- res = 0.24359E+02, tol = 0.87948E+01, time = 5.77 | CG iter. 40 -- res = 0.19744E+02, tol = 0.87948E+01, time = 12.12 | CG iter. 41 -- res = 0.15930E+02, tol = 0.87948E+01, time = 5.54 | CG iter. 42 -- res = 0.12221E+02, tol = 0.87948E+01, time = 5.59 | CG iter. 43 -- res = 0.88642E+01, tol = 0.87948E+01, time = 5.66 | CG iter. 44 -- res = 0.69197E+01, tol = 0.87948E+01, time = 5.64 | CG iter. 45 -- res = 0.55926E+01, tol = 0.87948E+01, time = 5.64 | CG iter. 46 -- res = 0.45905E+01, tol = 0.87948E+01, time = 5.36 | CG iter. 47 -- res = 0.36177E+01, tol = 0.87948E+01, time = 5.57 | CG iter. 48 -- res = 0.28779E+01, tol = 0.87948E+01, time = 5.64 | CG iter. 49 -- res = 0.24078E+01, tol = 0.87948E+01, time = 5.72 | CG iter. 50 -- res = 0.19642E+01, tol = 0.87948E+01, time = 5.66 | Final CG iter 51 -- res = 0.19642E+01, tol = 0.87948E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11323358.267 | Old band monopole 7771981.670 | Change to band monopole 3551376.597 | Change to component monopole -3551361.322 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.24169E+06, tol = 0.47627E+18, time = 2.14 | CG iter. 2 -- res = 0.95025E+02, tol = 0.47627E+18, time = 2.34 | CG iter. 3 -- res = 0.32171E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.62237E-03, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.68854E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11323309.563 | (Sampled value in CG: 11314892.046 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.548984 | New value = 1.477056 | poltype: 2 pol: 1 CPU time specind = 1.8518925E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.512699 | New value = 1.551746 | poltype: 2 pol: 2 CPU time specind = 4.3189526E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.25115E+08, tol = 0.47473E+04, time = 5.80 | CG iter. 2 -- res = 0.53677E+07, tol = 0.47473E+04, time = 6.96 | CG iter. 3 -- res = 0.83643E+06, tol = 0.47473E+04, time = 6.10 | CG iter. 4 -- res = 0.35477E+06, tol = 0.47473E+04, time = 6.98 | CG iter. 5 -- res = 0.15464E+06, tol = 0.47473E+04, time = 6.59 | CG iter. 6 -- res = 0.80453E+05, tol = 0.47473E+04, time = 6.41 | CG iter. 7 -- res = 0.44031E+05, tol = 0.47473E+04, time = 6.86 | CG iter. 8 -- res = 0.21515E+05, tol = 0.47473E+04, time = 6.55 | CG iter. 9 -- res = 0.92847E+04, tol = 0.47473E+04, time = 6.36 | CG iter. 10 -- res = 0.36772E+04, tol = 0.47473E+04, time = 7.08 | CG iter. 11 -- res = 0.16837E+04, tol = 0.47473E+04, time = 6.43 | CG iter. 12 -- res = 0.88623E+03, tol = 0.47473E+04, time = 6.41 | CG iter. 13 -- res = 0.50689E+03, tol = 0.47473E+04, time = 6.72 | CG iter. 14 -- res = 0.28078E+03, tol = 0.47473E+04, time = 6.42 | CG iter. 15 -- res = 0.14446E+03, tol = 0.47473E+04, time = 6.82 | CG iter. 16 -- res = 0.68390E+02, tol = 0.47473E+04, time = 6.26 | CG iter. 17 -- res = 0.31766E+02, tol = 0.47473E+04, time = 6.56 | CG iter. 18 -- res = 0.15864E+02, tol = 0.47473E+04, time = 6.42 | CG iter. 19 -- res = 0.87376E+01, tol = 0.47473E+04, time = 12.56 | CG iter. 20 -- res = 0.49645E+01, tol = 0.47473E+04, time = 6.94 | CG iter. 21 -- res = 0.27140E+01, tol = 0.47473E+04, time = 6.89 | CG iter. 22 -- res = 0.14015E+01, tol = 0.47473E+04, time = 6.15 | CG iter. 23 -- res = 0.69196E+00, tol = 0.47473E+04, time = 6.44 | CG iter. 24 -- res = 0.34400E+00, tol = 0.47473E+04, time = 6.01 | CG iter. 25 -- res = 0.18589E+00, tol = 0.47473E+04, time = 6.34 | CG iter. 26 -- res = 0.10394E+00, tol = 0.47473E+04, time = 6.43 | CG iter. 27 -- res = 0.58527E-01, tol = 0.47473E+04, time = 6.36 | CG iter. 28 -- res = 0.31897E-01, tol = 0.47473E+04, time = 6.29 | CG iter. 29 -- res = 0.16837E-01, tol = 0.47473E+04, time = 6.44 | CG iter. 30 -- res = 0.87386E-02, tol = 0.47473E+04, time = 6.58 | CG iter. 31 -- res = 0.46701E-02, tol = 0.47473E+04, time = 6.42 | CG iter. 32 -- res = 0.26525E-02, tol = 0.47473E+04, time = 7.89 | CG iter. 33 -- res = 0.15019E-02, tol = 0.47473E+04, time = 6.81 | CG iter. 34 -- res = 0.81155E-03, tol = 0.47473E+04, time = 6.82 | CG iter. 35 -- res = 0.43628E-03, tol = 0.47473E+04, time = 6.02 | Final CG iter 36 -- res = 0.43628E-03, tol = 0.47473E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.793 2.757 | New value -1.204 | Old value -2.793 | Difference 1.589 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.39 | CG iter. 1 -- res = 0.14047E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.18165E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.58350E+00, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.39115E-03, tol = 0.47627E+18, time = 2.22 | Final CG iter 5 -- res = 0.67140E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11323309.563 | (Sampled value in CG: 11315171.763 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.387896 | New value = -3.777674 | poltype: 1 pol: 1 CPU time specind = 9.7987652E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.26740E+07, tol = 0.32980E+01, time = 2.95 | CG iter. 2 -- res = 0.74653E+06, tol = 0.32980E+01, time = 2.55 | CG iter. 3 -- res = 0.15830E+06, tol = 0.32980E+01, time = 2.77 | CG iter. 4 -- res = 0.81937E+05, tol = 0.32980E+01, time = 2.52 | CG iter. 5 -- res = 0.50475E+05, tol = 0.32980E+01, time = 2.55 | CG iter. 6 -- res = 0.20291E+05, tol = 0.32980E+01, time = 2.60 | CG iter. 7 -- res = 0.68339E+04, tol = 0.32980E+01, time = 2.89 | CG iter. 8 -- res = 0.31853E+04, tol = 0.32980E+01, time = 2.78 | CG iter. 9 -- res = 0.14986E+04, tol = 0.32980E+01, time = 2.46 | CG iter. 10 -- res = 0.60071E+03, tol = 0.32980E+01, time = 2.67 | CG iter. 11 -- res = 0.24324E+03, tol = 0.32980E+01, time = 2.87 | CG iter. 12 -- res = 0.13101E+03, tol = 0.32980E+01, time = 2.82 | CG iter. 13 -- res = 0.67403E+02, tol = 0.32980E+01, time = 2.81 | CG iter. 14 -- res = 0.32341E+02, tol = 0.32980E+01, time = 3.02 | CG iter. 15 -- res = 0.13205E+02, tol = 0.32980E+01, time = 2.65 | CG iter. 16 -- res = 0.53955E+01, tol = 0.32980E+01, time = 2.39 | CG iter. 17 -- res = 0.24573E+01, tol = 0.32980E+01, time = 2.83 | CG iter. 18 -- res = 0.12659E+01, tol = 0.32980E+01, time = 2.83 | CG iter. 19 -- res = 0.61409E+00, tol = 0.32980E+01, time = 3.03 | CG iter. 20 -- res = 0.27895E+00, tol = 0.32980E+01, time = 2.60 | CG iter. 21 -- res = 0.12457E+00, tol = 0.32980E+01, time = 2.39 | CG iter. 22 -- res = 0.54727E-01, tol = 0.32980E+01, time = 2.54 | CG iter. 23 -- res = 0.25257E-01, tol = 0.32980E+01, time = 2.64 | CG iter. 24 -- res = 0.11927E-01, tol = 0.32980E+01, time = 2.82 | CG iter. 25 -- res = 0.60449E-02, tol = 0.32980E+01, time = 2.55 | CG iter. 26 -- res = 0.28397E-02, tol = 0.32980E+01, time = 2.71 | CG iter. 27 -- res = 0.13481E-02, tol = 0.32980E+01, time = 2.50 | CG iter. 28 -- res = 0.58923E-03, tol = 0.32980E+01, time = 2.80 | CG iter. 29 -- res = 0.26752E-03, tol = 0.32980E+01, time = 2.74 | CG iter. 30 -- res = 0.13690E-03, tol = 0.32980E+01, time = 2.67 | CG iter. 31 -- res = 0.71210E-04, tol = 0.32980E+01, time = 2.68 | CG iter. 32 -- res = 0.33241E-04, tol = 0.32980E+01, time = 2.68 | CG iter. 33 -- res = 0.15550E-04, tol = 0.32980E+01, time = 2.57 | CG iter. 34 -- res = 0.64795E-05, tol = 0.32980E+01, time = 3.38 | CG iter. 35 -- res = 0.31228E-05, tol = 0.32980E+01, time = 2.72 | CG iter. 36 -- res = 0.15867E-05, tol = 0.32980E+01, time = 2.68 | CG iter. 37 -- res = 0.81567E-06, tol = 0.32980E+01, time = 2.70 | CG iter. 38 -- res = 0.38401E-06, tol = 0.32980E+01, time = 2.64 | CG iter. 39 -- res = 0.17097E-06, tol = 0.32980E+01, time = 2.49 | CG iter. 40 -- res = 0.79129E-07, tol = 0.32980E+01, time = 2.81 | CG iter. 41 -- res = 0.39528E-07, tol = 0.32980E+01, time = 2.36 | CG iter. 42 -- res = 0.19867E-07, tol = 0.32980E+01, time = 2.75 | CG iter. 43 -- res = 0.91611E-08, tol = 0.32980E+01, time = 2.73 | CG iter. 44 -- res = 0.42427E-08, tol = 0.32980E+01, time = 2.65 | CG iter. 45 -- res = 0.19316E-08, tol = 0.32980E+01, time = 2.57 | CG iter. 46 -- res = 0.89992E-09, tol = 0.32980E+01, time = 2.66 | CG iter. 47 -- res = 0.43753E-09, tol = 0.32980E+01, time = 2.76 | CG iter. 48 -- res = 0.22251E-09, tol = 0.32980E+01, time = 2.81 | CG iter. 49 -- res = 0.10421E-09, tol = 0.32980E+01, time = 2.87 | CG iter. 50 -- res = 0.48295E-10, tol = 0.32980E+01, time = 2.82 | Final CG iter 51 -- res = 0.48295E-10, tol = 0.32980E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.097 6.415 | New value -3.317 | Old value -0.097 | Difference -3.220 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.36 | CG iter. 1 -- res = 0.13168E+05, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.17100E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.39318E+00, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.33252E-03, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.59435E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11323309.563 | (Sampled value in CG: 11316274.666 ) | CPU time specind = 1174.240 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.71762E+08, tol = 0.58013E+04, time = 11.30 | CG iter. 2 -- res = 0.59952E+08, tol = 0.58013E+04, time = 11.78 | CG iter. 3 -- res = 0.15773E+08, tol = 0.58013E+04, time = 11.63 | CG iter. 4 -- res = 0.69446E+07, tol = 0.58013E+04, time = 12.10 | CG iter. 5 -- res = 0.42191E+07, tol = 0.58013E+04, time = 11.85 | CG iter. 6 -- res = 0.24506E+07, tol = 0.58013E+04, time = 12.77 | CG iter. 7 -- res = 0.14063E+07, tol = 0.58013E+04, time = 12.03 | CG iter. 8 -- res = 0.91735E+06, tol = 0.58013E+04, time = 12.12 | CG iter. 9 -- res = 0.60212E+06, tol = 0.58013E+04, time = 12.10 | CG iter. 10 -- res = 0.36628E+06, tol = 0.58013E+04, time = 11.52 | CG iter. 11 -- res = 0.19802E+06, tol = 0.58013E+04, time = 11.62 | CG iter. 12 -- res = 0.10832E+06, tol = 0.58013E+04, time = 11.93 | CG iter. 13 -- res = 0.59637E+05, tol = 0.58013E+04, time = 11.32 | CG iter. 14 -- res = 0.34753E+05, tol = 0.58013E+04, time = 11.62 | CG iter. 15 -- res = 0.23451E+05, tol = 0.58013E+04, time = 11.86 | CG iter. 16 -- res = 0.17623E+05, tol = 0.58013E+04, time = 11.27 | CG iter. 17 -- res = 0.14337E+05, tol = 0.58013E+04, time = 11.55 | CG iter. 18 -- res = 0.12031E+05, tol = 0.58013E+04, time = 11.95 | CG iter. 19 -- res = 0.98612E+04, tol = 0.58013E+04, time = 12.01 | CG iter. 20 -- res = 0.82600E+04, tol = 0.58013E+04, time = 11.32 | CG iter. 21 -- res = 0.74318E+04, tol = 0.58013E+04, time = 11.43 | CG iter. 22 -- res = 0.76520E+04, tol = 0.58013E+04, time = 11.89 | CG iter. 23 -- res = 0.86459E+04, tol = 0.58013E+04, time = 18.12 | CG iter. 24 -- res = 0.95742E+04, tol = 0.58013E+04, time = 11.25 | CG iter. 25 -- res = 0.96050E+04, tol = 0.58013E+04, time = 11.90 | CG iter. 26 -- res = 0.85905E+04, tol = 0.58013E+04, time = 11.57 | CG iter. 27 -- res = 0.67977E+04, tol = 0.58013E+04, time = 11.62 | CG iter. 28 -- res = 0.51940E+04, tol = 0.58013E+04, time = 11.77 | CG iter. 29 -- res = 0.41758E+04, tol = 0.58013E+04, time = 11.97 | CG iter. 30 -- res = 0.34715E+04, tol = 0.58013E+04, time = 11.56 | CG iter. 31 -- res = 0.29535E+04, tol = 0.58013E+04, time = 12.95 | CG iter. 32 -- res = 0.24845E+04, tol = 0.58013E+04, time = 11.92 | CG iter. 33 -- res = 0.20847E+04, tol = 0.58013E+04, time = 12.07 | CG iter. 34 -- res = 0.16647E+04, tol = 0.58013E+04, time = 11.77 | CG iter. 35 -- res = 0.13041E+04, tol = 0.58013E+04, time = 11.48 | CG iter. 36 -- res = 0.11423E+04, tol = 0.58013E+04, time = 11.69 | CG iter. 37 -- res = 0.11202E+04, tol = 0.58013E+04, time = 11.72 | CG iter. 38 -- res = 0.11176E+04, tol = 0.58013E+04, time = 11.36 | CG iter. 39 -- res = 0.10768E+04, tol = 0.58013E+04, time = 11.47 | CG iter. 40 -- res = 0.95119E+03, tol = 0.58013E+04, time = 12.21 | CG iter. 41 -- res = 0.79903E+03, tol = 0.58013E+04, time = 11.69 | CG iter. 42 -- res = 0.65034E+03, tol = 0.58013E+04, time = 11.71 | CG iter. 43 -- res = 0.53666E+03, tol = 0.58013E+04, time = 11.70 | CG iter. 44 -- res = 0.45636E+03, tol = 0.58013E+04, time = 11.64 | CG iter. 45 -- res = 0.38901E+03, tol = 0.58013E+04, time = 11.72 | CG iter. 46 -- res = 0.33772E+03, tol = 0.58013E+04, time = 11.42 | CG iter. 47 -- res = 0.28785E+03, tol = 0.58013E+04, time = 12.12 | CG iter. 48 -- res = 0.23526E+03, tol = 0.58013E+04, time = 18.58 | CG iter. 49 -- res = 0.19115E+03, tol = 0.58013E+04, time = 11.78 | CG iter. 50 -- res = 0.16347E+03, tol = 0.58013E+04, time = 11.80 | CG iter. 51 -- res = 0.14676E+03, tol = 0.58013E+04, time = 11.40 | CG iter. 52 -- res = 0.14122E+03, tol = 0.58013E+04, time = 11.71 | CG iter. 53 -- res = 0.13768E+03, tol = 0.58013E+04, time = 11.73 | CG iter. 54 -- res = 0.12534E+03, tol = 0.58013E+04, time = 11.37 | CG iter. 55 -- res = 0.10881E+03, tol = 0.58013E+04, time = 11.10 | CG iter. 56 -- res = 0.94065E+02, tol = 0.58013E+04, time = 13.60 | CG iter. 57 -- res = 0.80527E+02, tol = 0.58013E+04, time = 11.66 | CG iter. 58 -- res = 0.70462E+02, tol = 0.58013E+04, time = 11.89 | CG iter. 59 -- res = 0.64840E+02, tol = 0.58013E+04, time = 11.41 | CG iter. 60 -- res = 0.59536E+02, tol = 0.58013E+04, time = 11.55 | Final CG iter 61 -- res = 0.59536E+02, tol = 0.58013E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.660 ( -230.024 -2230.835 2513.220 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8017473.802 | Old band monopole 11323358.267 | Change to band monopole -3305884.465 | Change to component monopole 3305870.245 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.243 2.723 | New value -0.639 | Old value -1.243 | Difference 0.604 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.751 ( 7.949 11.228 -10.400 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.484 4.261 | New value 8.441 | Old value 12.484 | Difference -4.043 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.25769E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.10307E+03, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.35316E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.54566E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.24033E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8017439.317 | (Sampled value in CG: 7990237.251 ) | Chain = 1 -- chisq = 0.81496249E+09 | Chain = 1 -- wall time = 5572.334 sec Available RAM: MemAvailable: 378711124 kB Available Swap: SwapFree: 1138682092 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 250 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444524 | --> Sampling calibration, mode = relcal | relcal = 1.3423283E-02 7.5244869E-04 -1.6022483E-03 -1.2573483E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1159932 0.1344041 9405411.05843523 | BP delta = 0.1159932 0.1302770 9405411.28534380 | BP chisq diff = 0.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632318 | --> Sampling calibration, mode = relcal | relcal = -2.8202788E-03 -7.0435647E-04 1.6792774E-03 1.6134691E-03 -4.0908693E-04 6.4097572E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5353596 15217700.6499508 | BP delta = 0.0000000E+00 -0.5341483 15217699.0045890 | BP chisq diff = -1.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17597478967121 | --> Sampling calibration, mode = relcal | relcal = -7.3757224E-02 -5.7284936E-02 9.0281747E-02 4.0760413E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4681766E-04 2.1880523E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3232E-04 | 2: delta_r/delta_0: 5.5960E-06 | 3: delta_s/delta_0: 1.6428E-07 | 4: delta_r/delta_0: 2.8934E-08 | 5: delta_s/delta_0: 9.7828E-09 | 6: delta_r/delta_0: 3.4121E-09 | 7: delta_s/delta_0: 5.7459E-10 | 8: delta_r/delta_0: 1.7910E-10 | 9: delta_s/delta_0: 7.2787E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.557286267506094E-005 2.752932499398911E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3232E-04 | 2: delta_r/delta_0: 5.5959E-06 | 3: delta_s/delta_0: 1.6428E-07 | 4: delta_r/delta_0: 2.8934E-08 | 5: delta_s/delta_0: 9.7826E-09 | 6: delta_r/delta_0: 3.4120E-09 | 7: delta_s/delta_0: 5.7460E-10 | 8: delta_r/delta_0: 1.7910E-10 | 9: delta_s/delta_0: 7.2788E-11 | Reached bicg-stab tolerance | BP delta = 7.2959751E-02 9.1843188E-02 3700818.51401253 | BP delta = 7.2959751E-02 9.2118911E-02 3701421.04462419 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02603985 | --> Sampling calibration, mode = relcal | relcal = -0.1066909 -9.5531538E-02 0.1449567 5.7265691E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1719452E-03 1.3299570E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3535E-05 | 2: delta_r/delta_0: 1.5641E-06 | 3: delta_s/delta_0: 2.3926E-07 | 4: delta_r/delta_0: 5.2537E-08 | 5: delta_s/delta_0: 2.7226E-08 | 6: delta_r/delta_0: 8.1850E-09 | 7: delta_s/delta_0: 8.4737E-09 | 8: delta_r/delta_0: 1.8176E-09 | 9: delta_s/delta_0: 8.6287E-10 | 10: delta_r/delta_0: 6.4701E-10 | 11: delta_s/delta_0: 8.1123E-08 | 12: delta_r/delta_0: 4.1596E-09 | 13: delta_s/delta_0: 1.0748E-10 | 14: delta_r/delta_0: 1.0045E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.028804479733196E-002 2.810739051822213E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3537E-05 | 2: delta_r/delta_0: 1.5642E-06 | 3: delta_s/delta_0: 2.3929E-07 | 4: delta_r/delta_0: 5.2576E-08 | 5: delta_s/delta_0: 2.7199E-08 | 6: delta_r/delta_0: 8.1869E-09 | 7: delta_s/delta_0: 8.4698E-09 | 8: delta_r/delta_0: 1.8181E-09 | 9: delta_s/delta_0: 8.6321E-10 | 10: delta_r/delta_0: 6.4723E-10 | 11: delta_s/delta_0: 7.8048E-08 | 12: delta_r/delta_0: 4.0405E-09 | 13: delta_s/delta_0: 1.0760E-10 | 14: delta_r/delta_0: 1.0040E-11 | Reached bicg-stab tolerance | BP delta = -0.2701324 -0.2444146 2841726.95359641 | BP delta = -0.2701324 -0.2455730 2841802.92340316 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81213580 | --> Sampling calibration, mode = relcal | relcal = 0.2953002 0.2249273 -0.2837117 -0.2365158 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6480537E-04 4.7104405E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5645E-04 | 2: delta_r/delta_0: 8.0244E-06 | 3: delta_s/delta_0: 3.3621E-05 | 4: delta_r/delta_0: 3.8094E-06 | 5: delta_s/delta_0: 2.7382E-07 | 6: delta_r/delta_0: 7.8265E-08 | 7: delta_s/delta_0: 5.2727E-08 | 8: delta_r/delta_0: 3.1266E-08 | 9: delta_s/delta_0: 1.2043E-07 | 10: delta_r/delta_0: 2.4546E-09 | 11: delta_s/delta_0: 6.2736E-10 | 12: delta_r/delta_0: 4.0880E-10 | 13: delta_s/delta_0: 3.3009E-10 | 14: delta_r/delta_0: 5.4964E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.370689857361741E-002 4.022139632971557E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5644E-04 | 2: delta_r/delta_0: 8.0240E-06 | 3: delta_s/delta_0: 3.3632E-05 | 4: delta_r/delta_0: 3.8105E-06 | 5: delta_s/delta_0: 2.7385E-07 | 6: delta_r/delta_0: 7.8271E-08 | 7: delta_s/delta_0: 5.2728E-08 | 8: delta_r/delta_0: 3.1267E-08 | 9: delta_s/delta_0: 1.2046E-07 | 10: delta_r/delta_0: 2.4548E-09 | 11: delta_s/delta_0: 6.2739E-10 | 12: delta_r/delta_0: 4.0883E-10 | 13: delta_s/delta_0: 3.2996E-10 | 14: delta_r/delta_0: 5.4985E-11 | Reached bicg-stab tolerance | BP delta = -7.5395055E-02 -8.2970873E-02 2827356.83013313 | BP delta = -7.5395055E-02 -7.2196871E-02 2827362.47641152 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95906144 | --> Sampling calibration, mode = relcal | relcal = 0.1063861 0.1396331 -0.1103431 -0.1356761 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0181096E-02 1.2871493E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.6969E-04 | 2: delta_r/delta_0: 2.3474E-05 | 3: delta_s/delta_0: 3.6015E-06 | 4: delta_r/delta_0: 5.2408E-07 | 5: delta_s/delta_0: 1.2681E-06 | 6: delta_r/delta_0: 8.6858E-08 | 7: delta_s/delta_0: 8.7600E-08 | 8: delta_r/delta_0: 5.0790E-08 | 9: delta_s/delta_0: 5.1617E-08 | 10: delta_r/delta_0: 1.1285E-08 | 11: delta_s/delta_0: 1.5756E-08 | 12: delta_r/delta_0: 4.4523E-10 | 13: delta_s/delta_0: 4.2214E-10 | 14: delta_r/delta_0: 2.1393E-10 | 15: delta_s/delta_0: 6.7294E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.422170648601196E-002 3.697564687913965E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.6992E-04 | 2: delta_r/delta_0: 2.3479E-05 | 3: delta_s/delta_0: 3.6014E-06 | 4: delta_r/delta_0: 5.2403E-07 | 5: delta_s/delta_0: 1.2665E-06 | 6: delta_r/delta_0: 8.6863E-08 | 7: delta_s/delta_0: 8.7604E-08 | 8: delta_r/delta_0: 5.0794E-08 | 9: delta_s/delta_0: 5.1615E-08 | 10: delta_r/delta_0: 1.1282E-08 | 11: delta_s/delta_0: 1.5663E-08 | 12: delta_r/delta_0: 4.4702E-10 | 13: delta_s/delta_0: 4.2344E-10 | 14: delta_r/delta_0: 2.1461E-10 | 15: delta_s/delta_0: 6.7285E-11 | Reached bicg-stab tolerance | BP delta = 6.8083227E-02 0.1793379 3003311.39451439 | BP delta = 6.8083227E-02 0.1809726 3003368.01521739 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165139 | New value = -3.173149 | poltype: 2 pol: 1 CPU time specind = 1.9477129E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174262 | New value = -3.153813 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105302 | New value = -3.148920 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.214093 | New value = -3.212510 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188202 | New value = -3.135880 | poltype: 2 pol: 2 CPU time specind = 4.9421787E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.59 | CG iter. 1 -- res = 0.13535E+08, tol = 0.84984E+01, time = 5.49 | CG iter. 2 -- res = 0.34587E+06, tol = 0.84984E+01, time = 5.64 | CG iter. 3 -- res = 0.47032E+05, tol = 0.84984E+01, time = 5.73 | CG iter. 4 -- res = 0.22689E+05, tol = 0.84984E+01, time = 5.52 | CG iter. 5 -- res = 0.13095E+05, tol = 0.84984E+01, time = 5.63 | CG iter. 6 -- res = 0.88485E+04, tol = 0.84984E+01, time = 5.29 | CG iter. 7 -- res = 0.75028E+04, tol = 0.84984E+01, time = 5.54 | CG iter. 8 -- res = 0.69060E+04, tol = 0.84984E+01, time = 5.47 | CG iter. 9 -- res = 0.69576E+04, tol = 0.84984E+01, time = 5.44 | CG iter. 10 -- res = 0.76784E+04, tol = 0.84984E+01, time = 5.17 | CG iter. 11 -- res = 0.67578E+04, tol = 0.84984E+01, time = 5.55 | CG iter. 12 -- res = 0.45226E+04, tol = 0.84984E+01, time = 5.37 | CG iter. 13 -- res = 0.29440E+04, tol = 0.84984E+01, time = 5.75 | CG iter. 14 -- res = 0.22766E+04, tol = 0.84984E+01, time = 5.87 | CG iter. 15 -- res = 0.19867E+04, tol = 0.84984E+01, time = 5.51 | CG iter. 16 -- res = 0.16963E+04, tol = 0.84984E+01, time = 5.51 | CG iter. 17 -- res = 0.13410E+04, tol = 0.84984E+01, time = 5.73 | CG iter. 18 -- res = 0.11266E+04, tol = 0.84984E+01, time = 5.54 | CG iter. 19 -- res = 0.98766E+03, tol = 0.84984E+01, time = 5.82 | CG iter. 20 -- res = 0.82090E+03, tol = 0.84984E+01, time = 5.29 | CG iter. 21 -- res = 0.61091E+03, tol = 0.84984E+01, time = 5.38 | CG iter. 22 -- res = 0.47941E+03, tol = 0.84984E+01, time = 5.41 | CG iter. 23 -- res = 0.41963E+03, tol = 0.84984E+01, time = 5.56 | CG iter. 24 -- res = 0.38753E+03, tol = 0.84984E+01, time = 5.38 | CG iter. 25 -- res = 0.32397E+03, tol = 0.84984E+01, time = 5.73 | CG iter. 26 -- res = 0.25609E+03, tol = 0.84984E+01, time = 5.73 | CG iter. 27 -- res = 0.22935E+03, tol = 0.84984E+01, time = 5.51 | CG iter. 28 -- res = 0.21452E+03, tol = 0.84984E+01, time = 5.75 | CG iter. 29 -- res = 0.18570E+03, tol = 0.84984E+01, time = 5.69 | CG iter. 30 -- res = 0.15723E+03, tol = 0.84984E+01, time = 5.65 | CG iter. 31 -- res = 0.13880E+03, tol = 0.84984E+01, time = 5.67 | CG iter. 32 -- res = 0.12644E+03, tol = 0.84984E+01, time = 5.65 | CG iter. 33 -- res = 0.10725E+03, tol = 0.84984E+01, time = 5.68 | CG iter. 34 -- res = 0.81703E+02, tol = 0.84984E+01, time = 5.52 | CG iter. 35 -- res = 0.64906E+02, tol = 0.84984E+01, time = 5.43 | CG iter. 36 -- res = 0.54265E+02, tol = 0.84984E+01, time = 11.93 | CG iter. 37 -- res = 0.47517E+02, tol = 0.84984E+01, time = 5.56 | CG iter. 38 -- res = 0.35825E+02, tol = 0.84984E+01, time = 5.46 | CG iter. 39 -- res = 0.26661E+02, tol = 0.84984E+01, time = 5.62 | CG iter. 40 -- res = 0.21306E+02, tol = 0.84984E+01, time = 5.53 | CG iter. 41 -- res = 0.16442E+02, tol = 0.84984E+01, time = 5.45 | CG iter. 42 -- res = 0.12297E+02, tol = 0.84984E+01, time = 5.52 | CG iter. 43 -- res = 0.89272E+01, tol = 0.84984E+01, time = 5.57 | CG iter. 44 -- res = 0.66639E+01, tol = 0.84984E+01, time = 5.68 | CG iter. 45 -- res = 0.55977E+01, tol = 0.84984E+01, time = 5.97 | CG iter. 46 -- res = 0.44845E+01, tol = 0.84984E+01, time = 5.57 | CG iter. 47 -- res = 0.34638E+01, tol = 0.84984E+01, time = 5.65 | CG iter. 48 -- res = 0.26781E+01, tol = 0.84984E+01, time = 5.48 | CG iter. 49 -- res = 0.21809E+01, tol = 0.84984E+01, time = 5.97 | CG iter. 50 -- res = 0.18195E+01, tol = 0.84984E+01, time = 5.49 | Final CG iter 51 -- res = 0.18195E+01, tol = 0.84984E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8127424.054 | Old band monopole 8017473.802 | Change to band monopole 109950.252 | Change to component monopole -109949.779 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.55496E+04, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.18270E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.33704E+00, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.43631E-03, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.93379E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8127389.096 | (Sampled value in CG: 8119713.918 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477056 | New value = 1.524720 | poltype: 2 pol: 1 CPU time specind = 2.0597935E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.551746 | New value = 1.538820 | poltype: 2 pol: 2 CPU time specind = 1.2109995E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.50 | CG iter. 1 -- res = 0.24496E+08, tol = 0.47620E+04, time = 6.08 | CG iter. 2 -- res = 0.53714E+07, tol = 0.47620E+04, time = 6.14 | CG iter. 3 -- res = 0.84531E+06, tol = 0.47620E+04, time = 6.13 | CG iter. 4 -- res = 0.34444E+06, tol = 0.47620E+04, time = 6.43 | CG iter. 5 -- res = 0.14420E+06, tol = 0.47620E+04, time = 6.27 | CG iter. 6 -- res = 0.76361E+05, tol = 0.47620E+04, time = 6.04 | CG iter. 7 -- res = 0.42194E+05, tol = 0.47620E+04, time = 6.12 | CG iter. 8 -- res = 0.20300E+05, tol = 0.47620E+04, time = 6.67 | CG iter. 9 -- res = 0.88963E+04, tol = 0.47620E+04, time = 6.20 | CG iter. 10 -- res = 0.36683E+04, tol = 0.47620E+04, time = 6.43 | CG iter. 11 -- res = 0.16816E+04, tol = 0.47620E+04, time = 6.21 | CG iter. 12 -- res = 0.84844E+03, tol = 0.47620E+04, time = 6.45 | CG iter. 13 -- res = 0.47406E+03, tol = 0.47620E+04, time = 6.05 | CG iter. 14 -- res = 0.26622E+03, tol = 0.47620E+04, time = 6.35 | CG iter. 15 -- res = 0.13909E+03, tol = 0.47620E+04, time = 6.77 | CG iter. 16 -- res = 0.67846E+02, tol = 0.47620E+04, time = 12.95 | CG iter. 17 -- res = 0.31576E+02, tol = 0.47620E+04, time = 6.31 | CG iter. 18 -- res = 0.15609E+02, tol = 0.47620E+04, time = 6.53 | CG iter. 19 -- res = 0.84590E+01, tol = 0.47620E+04, time = 6.37 | CG iter. 20 -- res = 0.48098E+01, tol = 0.47620E+04, time = 6.33 | CG iter. 21 -- res = 0.26413E+01, tol = 0.47620E+04, time = 6.26 | CG iter. 22 -- res = 0.13529E+01, tol = 0.47620E+04, time = 6.23 | CG iter. 23 -- res = 0.69469E+00, tol = 0.47620E+04, time = 6.17 | CG iter. 24 -- res = 0.35644E+00, tol = 0.47620E+04, time = 6.68 | CG iter. 25 -- res = 0.19682E+00, tol = 0.47620E+04, time = 6.40 | CG iter. 26 -- res = 0.11142E+00, tol = 0.47620E+04, time = 6.42 | CG iter. 27 -- res = 0.61996E-01, tol = 0.47620E+04, time = 6.33 | CG iter. 28 -- res = 0.32725E-01, tol = 0.47620E+04, time = 6.66 | CG iter. 29 -- res = 0.17169E-01, tol = 0.47620E+04, time = 7.13 | CG iter. 30 -- res = 0.90668E-02, tol = 0.47620E+04, time = 7.44 | CG iter. 31 -- res = 0.49661E-02, tol = 0.47620E+04, time = 6.57 | CG iter. 32 -- res = 0.28186E-02, tol = 0.47620E+04, time = 6.85 | CG iter. 33 -- res = 0.16017E-02, tol = 0.47620E+04, time = 6.46 | CG iter. 34 -- res = 0.86981E-03, tol = 0.47620E+04, time = 6.11 | CG iter. 35 -- res = 0.45948E-03, tol = 0.47620E+04, time = 6.27 | Final CG iter 36 -- res = 0.45948E-03, tol = 0.47620E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.634 2.747 | New value -2.534 | Old value -0.634 | Difference -1.900 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.39 | CG iter. 1 -- res = 0.19145E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.19669E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.35510E+00, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.32994E-03, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.83973E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8127389.096 | (Sampled value in CG: 8119640.728 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.777674 | New value = -3.650771 | poltype: 1 pol: 1 CPU time specind = 1.0382891E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.21979E+07, tol = 0.22437E+01, time = 2.68 | CG iter. 2 -- res = 0.68498E+06, tol = 0.22437E+01, time = 2.56 | CG iter. 3 -- res = 0.13387E+06, tol = 0.22437E+01, time = 2.51 | CG iter. 4 -- res = 0.56726E+05, tol = 0.22437E+01, time = 2.73 | CG iter. 5 -- res = 0.34998E+05, tol = 0.22437E+01, time = 2.48 | CG iter. 6 -- res = 0.17606E+05, tol = 0.22437E+01, time = 2.64 | CG iter. 7 -- res = 0.68179E+04, tol = 0.22437E+01, time = 2.69 | CG iter. 8 -- res = 0.30464E+04, tol = 0.22437E+01, time = 2.57 | CG iter. 9 -- res = 0.12776E+04, tol = 0.22437E+01, time = 2.23 | CG iter. 10 -- res = 0.51036E+03, tol = 0.22437E+01, time = 2.50 | CG iter. 11 -- res = 0.22432E+03, tol = 0.22437E+01, time = 2.78 | CG iter. 12 -- res = 0.11123E+03, tol = 0.22437E+01, time = 2.45 | CG iter. 13 -- res = 0.57838E+02, tol = 0.22437E+01, time = 2.70 | CG iter. 14 -- res = 0.29426E+02, tol = 0.22437E+01, time = 2.70 | CG iter. 15 -- res = 0.12336E+02, tol = 0.22437E+01, time = 2.69 | CG iter. 16 -- res = 0.53921E+01, tol = 0.22437E+01, time = 2.76 | CG iter. 17 -- res = 0.22897E+01, tol = 0.22437E+01, time = 2.71 | CG iter. 18 -- res = 0.10768E+01, tol = 0.22437E+01, time = 2.44 | CG iter. 19 -- res = 0.55717E+00, tol = 0.22437E+01, time = 2.82 | CG iter. 20 -- res = 0.27371E+00, tol = 0.22437E+01, time = 2.78 | CG iter. 21 -- res = 0.13336E+00, tol = 0.22437E+01, time = 2.46 | CG iter. 22 -- res = 0.60531E-01, tol = 0.22437E+01, time = 2.74 | CG iter. 23 -- res = 0.25901E-01, tol = 0.22437E+01, time = 2.64 | CG iter. 24 -- res = 0.12441E-01, tol = 0.22437E+01, time = 2.67 | CG iter. 25 -- res = 0.61960E-02, tol = 0.22437E+01, time = 2.75 | CG iter. 26 -- res = 0.31321E-02, tol = 0.22437E+01, time = 2.73 | CG iter. 27 -- res = 0.15371E-02, tol = 0.22437E+01, time = 2.51 | CG iter. 28 -- res = 0.73352E-03, tol = 0.22437E+01, time = 3.22 | CG iter. 29 -- res = 0.31618E-03, tol = 0.22437E+01, time = 2.65 | CG iter. 30 -- res = 0.14824E-03, tol = 0.22437E+01, time = 2.47 | CG iter. 31 -- res = 0.77673E-04, tol = 0.22437E+01, time = 2.71 | CG iter. 32 -- res = 0.38255E-04, tol = 0.22437E+01, time = 2.48 | CG iter. 33 -- res = 0.18541E-04, tol = 0.22437E+01, time = 2.85 | CG iter. 34 -- res = 0.87460E-05, tol = 0.22437E+01, time = 2.68 | CG iter. 35 -- res = 0.39357E-05, tol = 0.22437E+01, time = 2.37 | CG iter. 36 -- res = 0.18579E-05, tol = 0.22437E+01, time = 2.84 | CG iter. 37 -- res = 0.92294E-06, tol = 0.22437E+01, time = 2.48 | CG iter. 38 -- res = 0.46512E-06, tol = 0.22437E+01, time = 2.82 | CG iter. 39 -- res = 0.23172E-06, tol = 0.22437E+01, time = 2.64 | CG iter. 40 -- res = 0.10626E-06, tol = 0.22437E+01, time = 2.70 | CG iter. 41 -- res = 0.50022E-07, tol = 0.22437E+01, time = 2.65 | CG iter. 42 -- res = 0.24030E-07, tol = 0.22437E+01, time = 2.68 | CG iter. 43 -- res = 0.11661E-07, tol = 0.22437E+01, time = 2.48 | CG iter. 44 -- res = 0.58112E-08, tol = 0.22437E+01, time = 2.65 | CG iter. 45 -- res = 0.27077E-08, tol = 0.22437E+01, time = 2.63 | CG iter. 46 -- res = 0.13168E-08, tol = 0.22437E+01, time = 2.66 | CG iter. 47 -- res = 0.62182E-09, tol = 0.22437E+01, time = 2.43 | CG iter. 48 -- res = 0.28829E-09, tol = 0.22437E+01, time = 2.56 | CG iter. 49 -- res = 0.13823E-09, tol = 0.22437E+01, time = 2.63 | CG iter. 50 -- res = 0.67904E-10, tol = 0.22437E+01, time = 2.52 | Final CG iter 51 -- res = 0.67904E-10, tol = 0.22437E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.037 4.075 | New value -0.891 | Old value 8.037 | Difference -8.928 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.75775E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.43068E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.19070E+01, tol = 0.47627E+18, time = 3.59 | CG iter. 4 -- res = 0.26680E-03, tol = 0.47627E+18, time = 6.53 | Final CG iter 5 -- res = 0.23814E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8127389.096 | (Sampled value in CG: 8122183.873 ) | CPU time specind = 1168.607 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.69853E+08, tol = 0.57767E+04, time = 11.42 | CG iter. 2 -- res = 0.58901E+08, tol = 0.57767E+04, time = 11.61 | CG iter. 3 -- res = 0.15165E+08, tol = 0.57767E+04, time = 11.39 | CG iter. 4 -- res = 0.66551E+07, tol = 0.57767E+04, time = 13.13 | CG iter. 5 -- res = 0.40374E+07, tol = 0.57767E+04, time = 11.82 | CG iter. 6 -- res = 0.22921E+07, tol = 0.57767E+04, time = 11.76 | CG iter. 7 -- res = 0.13278E+07, tol = 0.57767E+04, time = 11.31 | CG iter. 8 -- res = 0.86472E+06, tol = 0.57767E+04, time = 11.77 | CG iter. 9 -- res = 0.55474E+06, tol = 0.57767E+04, time = 11.79 | CG iter. 10 -- res = 0.33121E+06, tol = 0.57767E+04, time = 11.32 | CG iter. 11 -- res = 0.18677E+06, tol = 0.57767E+04, time = 11.66 | CG iter. 12 -- res = 0.98784E+05, tol = 0.57767E+04, time = 11.32 | CG iter. 13 -- res = 0.51511E+05, tol = 0.57767E+04, time = 11.63 | CG iter. 14 -- res = 0.29300E+05, tol = 0.57767E+04, time = 11.53 | CG iter. 15 -- res = 0.18881E+05, tol = 0.57767E+04, time = 11.33 | CG iter. 16 -- res = 0.13385E+05, tol = 0.57767E+04, time = 11.31 | CG iter. 17 -- res = 0.97304E+04, tol = 0.57767E+04, time = 11.52 | CG iter. 18 -- res = 0.69280E+04, tol = 0.57767E+04, time = 11.66 | CG iter. 19 -- res = 0.47276E+04, tol = 0.57767E+04, time = 11.56 | CG iter. 20 -- res = 0.32737E+04, tol = 0.57767E+04, time = 11.32 | CG iter. 21 -- res = 0.24778E+04, tol = 0.57767E+04, time = 12.02 | CG iter. 22 -- res = 0.22212E+04, tol = 0.57767E+04, time = 17.44 | CG iter. 23 -- res = 0.22730E+04, tol = 0.57767E+04, time = 11.43 | CG iter. 24 -- res = 0.25100E+04, tol = 0.57767E+04, time = 10.95 | CG iter. 25 -- res = 0.26795E+04, tol = 0.57767E+04, time = 11.68 | CG iter. 26 -- res = 0.27323E+04, tol = 0.57767E+04, time = 11.16 | CG iter. 27 -- res = 0.25589E+04, tol = 0.57767E+04, time = 11.07 | CG iter. 28 -- res = 0.22781E+04, tol = 0.57767E+04, time = 11.58 | CG iter. 29 -- res = 0.20231E+04, tol = 0.57767E+04, time = 11.69 | CG iter. 30 -- res = 0.18492E+04, tol = 0.57767E+04, time = 12.80 | CG iter. 31 -- res = 0.16352E+04, tol = 0.57767E+04, time = 11.55 | CG iter. 32 -- res = 0.13563E+04, tol = 0.57767E+04, time = 11.22 | CG iter. 33 -- res = 0.10849E+04, tol = 0.57767E+04, time = 11.48 | CG iter. 34 -- res = 0.80510E+03, tol = 0.57767E+04, time = 11.65 | CG iter. 35 -- res = 0.59748E+03, tol = 0.57767E+04, time = 11.45 | CG iter. 36 -- res = 0.46974E+03, tol = 0.57767E+04, time = 11.42 | CG iter. 37 -- res = 0.40716E+03, tol = 0.57767E+04, time = 11.53 | CG iter. 38 -- res = 0.38526E+03, tol = 0.57767E+04, time = 11.25 | CG iter. 39 -- res = 0.37427E+03, tol = 0.57767E+04, time = 11.96 | CG iter. 40 -- res = 0.35195E+03, tol = 0.57767E+04, time = 11.67 | CG iter. 41 -- res = 0.32578E+03, tol = 0.57767E+04, time = 11.32 | CG iter. 42 -- res = 0.28268E+03, tol = 0.57767E+04, time = 11.79 | CG iter. 43 -- res = 0.24559E+03, tol = 0.57767E+04, time = 11.32 | CG iter. 44 -- res = 0.22343E+03, tol = 0.57767E+04, time = 11.64 | CG iter. 45 -- res = 0.20653E+03, tol = 0.57767E+04, time = 11.50 | CG iter. 46 -- res = 0.19121E+03, tol = 0.57767E+04, time = 11.60 | CG iter. 47 -- res = 0.17212E+03, tol = 0.57767E+04, time = 16.85 | CG iter. 48 -- res = 0.14377E+03, tol = 0.57767E+04, time = 13.03 | CG iter. 49 -- res = 0.11586E+03, tol = 0.57767E+04, time = 11.61 | CG iter. 50 -- res = 0.96759E+02, tol = 0.57767E+04, time = 16.18 | CG iter. 51 -- res = 0.88090E+02, tol = 0.57767E+04, time = 12.03 | CG iter. 52 -- res = 0.85063E+02, tol = 0.57767E+04, time = 11.33 | CG iter. 53 -- res = 0.81346E+02, tol = 0.57767E+04, time = 12.12 | CG iter. 54 -- res = 0.77457E+02, tol = 0.57767E+04, time = 13.40 | CG iter. 55 -- res = 0.71958E+02, tol = 0.57767E+04, time = 11.52 | CG iter. 56 -- res = 0.65912E+02, tol = 0.57767E+04, time = 11.39 | CG iter. 57 -- res = 0.60676E+02, tol = 0.57767E+04, time = 11.58 | CG iter. 58 -- res = 0.57581E+02, tol = 0.57767E+04, time = 11.56 | CG iter. 59 -- res = 0.56860E+02, tol = 0.57767E+04, time = 11.51 | CG iter. 60 -- res = 0.55984E+02, tol = 0.57767E+04, time = 11.33 | Final CG iter 61 -- res = 0.55984E+02, tol = 0.57767E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.885 ( -230.025 -2232.066 2514.702 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9519452.274 | Old band monopole 8127424.054 | Change to band monopole 1392028.220 | Change to component monopole -1392022.232 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.546 2.743 | New value 2.243 | Old value -2.546 | Difference 4.789 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.088 ( 7.707 15.085 -14.897 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.768 3.791 | New value -1.080 | Old value 2.768 | Difference -3.848 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.12091E+07, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.26810E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.12006E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.30053E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.45680E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9519411.329 | (Sampled value in CG: 9501982.005 ) | Chain = 1 -- chisq = 0.81506019E+09 | Chain = 1 -- wall time = 6012.095 sec Available RAM: MemAvailable: 378573740 kB Available Swap: SwapFree: 1139196140 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 251 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06440953 | --> Sampling calibration, mode = relcal | relcal = 1.3426130E-02 7.3804456E-04 -1.5814415E-03 -1.2582732E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1159932 0.1302770 97034634.9476140 | BP delta = 0.1122942 0.1265780 97034635.4405036 | BP chisq diff = 0.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632654 | --> Sampling calibration, mode = relcal | relcal = -2.8217549E-03 -7.0370256E-04 1.6780127E-03 1.6129848E-03 -4.0896176E-04 6.4342190E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5341483 15220800.0177361 | BP delta = 0.0000000E+00 -0.5266320 15220801.5275834 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102503 | --> Sampling calibration, mode = relcal | relcal = 3.7082743E-02 1.3717102E-02 5.7571544E-03 -7.1678632E-03 8.2431780E-03 2.3942993E-03 -7.6010814E-03 -7.1803583E-03 -1.5297471E-02 -1.4798970E-02 -3.0572433E-03 -1.2091490E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.168352 132213350.730577 | BP delta = 0.0000000E+00 -1.165330 132213352.517905 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17894097010718 | --> Sampling calibration, mode = relcal | relcal = -7.5770222E-02 -5.8658145E-02 9.2407778E-02 4.2020589E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.3029896E-05 4.7477782E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3378E-05 | 2: delta_r/delta_0: 1.0516E-06 | 3: delta_s/delta_0: 1.9096E-07 | 4: delta_r/delta_0: 2.6658E-08 | 5: delta_s/delta_0: 8.7828E-09 | 6: delta_r/delta_0: 2.2375E-09 | 7: delta_s/delta_0: 3.5991E-10 | 8: delta_r/delta_0: 1.3527E-10 | 9: delta_s/delta_0: 2.5537E-10 | 10: delta_r/delta_0: 9.9809E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.255212451957485E-003 2.745736512137214E-005 | BP delta = 7.2959751E-02 9.1843188E-02 50482262.1153186 | BP delta = 7.7475786E-02 9.6359231E-02 50482258.6180359 | BP chisq diff = -3.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02627276 | --> Sampling calibration, mode = relcal | relcal = -0.1067435 -9.5598876E-02 0.1450019 5.7340425E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8443311E-03 1.4841662E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.1273E-05 | 2: delta_r/delta_0: 1.6947E-06 | 3: delta_s/delta_0: 2.3136E-07 | 4: delta_r/delta_0: 4.7378E-08 | 5: delta_s/delta_0: 2.9379E-08 | 6: delta_r/delta_0: 7.4423E-09 | 7: delta_s/delta_0: 8.9456E-09 | 8: delta_r/delta_0: 1.5521E-09 | 9: delta_s/delta_0: 6.7559E-10 | 10: delta_r/delta_0: 3.5342E-10 | 11: delta_s/delta_0: 3.3152E-10 | 12: delta_r/delta_0: 1.3942E-10 | 13: delta_s/delta_0: 2.3802E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.031323248635100E-002 2.810108482994067E-005 | BP delta = -0.2701324 -0.2444146 57393734.2627292 | BP delta = -0.2635595 -0.2378418 57393734.9047595 | BP chisq diff = 0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81260530 | --> Sampling calibration, mode = relcal | relcal = 0.2956204 0.2249541 -0.2838799 -0.2366946 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0758494E-03 4.6708337E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1681E-04 | 2: delta_r/delta_0: 7.1457E-06 | 3: delta_s/delta_0: 1.1058E-04 | 4: delta_r/delta_0: 1.1356E-05 | 5: delta_s/delta_0: 5.2000E-07 | 6: delta_r/delta_0: 1.2932E-07 | 7: delta_s/delta_0: 5.7424E-08 | 8: delta_r/delta_0: 4.0536E-08 | 9: delta_s/delta_0: 2.5198E-07 | 10: delta_r/delta_0: 3.8554E-09 | 11: delta_s/delta_0: 7.8587E-10 | 12: delta_r/delta_0: 4.7669E-10 | 13: delta_s/delta_0: 1.8321E-10 | 14: delta_r/delta_0: 8.1175E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.437559737131127E-002 4.019899169286078E-005 | BP delta = -7.5395055E-02 -8.2970873E-02 72489312.1189778 | BP delta = -0.1318609 -0.1394367 72489309.2739784 | BP chisq diff = -2.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95965777 | --> Sampling calibration, mode = relcal | relcal = 0.1064865 0.1395968 -0.1102396 -0.1358438 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7237220E-03 1.2911896E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3307E-04 | 2: delta_r/delta_0: 1.3028E-05 | 3: delta_s/delta_0: 3.3026E-03 | 4: delta_r/delta_0: 1.2619E-04 | 5: delta_s/delta_0: 2.8172E-07 | 6: delta_r/delta_0: 1.2553E-07 | 7: delta_s/delta_0: 3.5701E-07 | 8: delta_r/delta_0: 3.5327E-08 | 9: delta_s/delta_0: 1.0548E-08 | 10: delta_r/delta_0: 3.2174E-09 | 11: delta_s/delta_0: 7.1382E-09 | 12: delta_r/delta_0: 4.1335E-09 | 13: delta_s/delta_0: 2.0702E-09 | 14: delta_r/delta_0: 1.3383E-09 | 15: delta_s/delta_0: 1.1654E-10 | 16: delta_r/delta_0: 3.7528E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.263808861430874E-002 3.695206844887508E-005 | BP delta = 6.8083227E-02 0.1793379 72775860.5202041 | BP delta = 0.1141720 0.2254267 72775860.0959213 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52164596 | --> Sampling calibration, mode = relcal | relcal = -5.1074758E-02 -3.7269124E-03 2.7300330E-02 2.7501339E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.8259482E-04 1.4679549E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5954E-05 | 2: delta_r/delta_0: 4.4821E-06 | 3: delta_s/delta_0: 5.9365E-06 | 4: delta_r/delta_0: 9.2335E-07 | 5: delta_s/delta_0: 5.0002E-08 | 6: delta_r/delta_0: 3.1441E-08 | 7: delta_s/delta_0: 4.3956E-07 | 8: delta_r/delta_0: 5.5457E-09 | 9: delta_s/delta_0: 3.7970E-09 | 10: delta_r/delta_0: 1.4095E-09 | 11: delta_s/delta_0: 1.9955E-09 | 12: delta_r/delta_0: 2.8190E-10 | 13: delta_s/delta_0: 9.6968E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.161998718290579E-002 5.482410256650130E-005 | BP delta = 8.7005593E-02 0.1930215 91251155.6636107 | BP delta = 0.1182643 0.2242803 91251155.2484720 | BP chisq diff = -0.4, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42156476 | --> Sampling calibration, mode = relcal | relcal = 4.5541674E-02 3.9684650E-02 -2.8274935E-02 -5.6951389E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4367789E-03 4.1916287E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2489E-05 | 2: delta_r/delta_0: 3.8342E-06 | 3: delta_s/delta_0: 1.1060E-05 | 4: delta_r/delta_0: 1.4870E-06 | 5: delta_s/delta_0: 5.7018E-08 | 6: delta_r/delta_0: 3.7340E-08 | 7: delta_s/delta_0: 3.1206E-08 | 8: delta_r/delta_0: 1.3847E-08 | 9: delta_s/delta_0: 7.1718E-09 | 10: delta_r/delta_0: 3.5641E-10 | 11: delta_s/delta_0: 7.7147E-10 | 12: delta_r/delta_0: 5.5405E-10 | 13: delta_s/delta_0: 2.0559E-10 | 14: delta_r/delta_0: 1.3763E-10 | 15: delta_s/delta_0: 2.1901E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.493235640316773E-002 4.995873569922687E-005 | BP delta = 7.5310171E-02 -3.2524977E-02 90182926.1092648 | BP delta = 6.9755107E-02 -3.8080040E-02 90182926.2053506 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28159673 | --> Sampling calibration, mode = relcal | relcal = 2.4137923E-02 4.5136411E-02 -2.3388376E-02 -4.5885954E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3419946E-02 4.2248145E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0693E-04 | 2: delta_r/delta_0: 8.4279E-06 | 3: delta_s/delta_0: 1.2001E-06 | 4: delta_r/delta_0: 2.3906E-07 | 5: delta_s/delta_0: 5.8849E-08 | 6: delta_r/delta_0: 1.9424E-08 | 7: delta_s/delta_0: 9.7386E-09 | 8: delta_r/delta_0: 5.8763E-09 | 9: delta_s/delta_0: 3.3689E-07 | 10: delta_r/delta_0: 7.1719E-09 | 11: delta_s/delta_0: 1.9037E-09 | 12: delta_r/delta_0: 1.1177E-09 | 13: delta_s/delta_0: 1.4988E-10 | 14: delta_r/delta_0: 1.2166E-10 | 15: delta_s/delta_0: 8.8227E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.035512364143816E-002 7.844205251064466E-005 | BP delta = -0.1835148 -0.3320872 160928043.206415 | BP delta = -0.2076587 -0.3562311 160928043.067450 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29387153 | --> Sampling calibration, mode = relcal | relcal = 6.0669566E-04 1.0338713E-02 -3.8441012E-03 -7.1013081E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7539354E-02 1.5767992E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3054E-04 | 2: delta_r/delta_0: 1.1119E-05 | 3: delta_s/delta_0: 1.7425E-06 | 4: delta_r/delta_0: 2.7679E-07 | 5: delta_s/delta_0: 1.0797E-07 | 6: delta_r/delta_0: 2.2443E-08 | 7: delta_s/delta_0: 1.0378E-08 | 8: delta_r/delta_0: 7.2278E-09 | 9: delta_s/delta_0: 5.3885E-09 | 10: delta_r/delta_0: 4.1162E-09 | 11: delta_s/delta_0: 5.8083E-06 | 12: delta_r/delta_0: 3.2226E-08 | 13: delta_s/delta_0: 3.9423E-10 | 14: delta_r/delta_0: 2.2881E-10 | 15: delta_s/delta_0: 1.2977E-10 | 16: delta_r/delta_0: 7.0225E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.092281841196781E-002 8.308028657109774E-005 | BP delta = -0.9072370 -0.8619995 157886769.403417 | BP delta = -0.8569568 -0.8117194 157886769.643990 | BP chisq diff = 0.2, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26497718 | --> Sampling calibration, mode = relcal | relcal = -5.6164409E-03 1.4943616E-02 -2.3510908E-03 -6.9760852E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3264158E-03 2.9369150E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4112E-04 | 2: delta_r/delta_0: 1.2108E-05 | 3: delta_s/delta_0: 2.0162E-06 | 4: delta_r/delta_0: 2.4134E-07 | 5: delta_s/delta_0: 9.5136E-08 | 6: delta_r/delta_0: 1.9961E-08 | 7: delta_s/delta_0: 8.5201E-09 | 8: delta_r/delta_0: 5.6222E-09 | 9: delta_s/delta_0: 5.0267E-09 | 10: delta_r/delta_0: 3.6774E-09 | 11: delta_s/delta_0: 6.7656E-06 | 12: delta_r/delta_0: 1.4275E-07 | 13: delta_s/delta_0: 8.3860E-10 | 14: delta_r/delta_0: 5.6754E-10 | 15: delta_s/delta_0: 1.1474E-10 | 16: delta_r/delta_0: 7.2126E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.318798117587969E-003 9.156447594755042E-005 | BP delta = 0.2722552 0.2887532 157021450.681114 | BP delta = 0.3043938 0.3208919 157021450.726425 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25658849 | --> Sampling calibration, mode = relcal | relcal = -3.1747933E-02 -2.5775250E-02 3.6871016E-02 2.0652166E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7469816E-02 1.9613279E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4435E-04 | 2: delta_r/delta_0: 1.1927E-05 | 3: delta_s/delta_0: 1.7969E-06 | 4: delta_r/delta_0: 3.3822E-07 | 5: delta_s/delta_0: 1.1359E-07 | 6: delta_r/delta_0: 2.5742E-08 | 7: delta_s/delta_0: 1.2642E-08 | 8: delta_r/delta_0: 6.8342E-09 | 9: delta_s/delta_0: 4.0666E-08 | 10: delta_r/delta_0: 4.7071E-09 | 11: delta_s/delta_0: 1.4735E-08 | 12: delta_r/delta_0: 9.4169E-09 | 13: delta_s/delta_0: 3.2012E-10 | 14: delta_r/delta_0: 2.5138E-10 | 15: delta_s/delta_0: 1.5205E-10 | 16: delta_r/delta_0: 1.1904E-10 | 17: delta_s/delta_0: 1.0770E-10 | 18: delta_r/delta_0: 8.3604E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.040035726402207E-002 8.673534062399189E-005 | BP delta = -0.8418388 -0.9797845 158527577.681874 | BP delta = -0.8280308 -0.9659766 158527577.729412 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173149 | New value = -3.239831 | poltype: 2 pol: 1 CPU time specind = 1.7836809E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153813 | New value = -3.186802 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148920 | New value = -3.152670 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.212510 | New value = -3.139934 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135880 | New value = -3.263716 | poltype: 2 pol: 2 CPU time specind = 7.3490143E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.74 | CG iter. 1 -- res = 0.13571E+08, tol = 0.73557E+01, time = 5.47 | CG iter. 2 -- res = 0.33622E+06, tol = 0.73557E+01, time = 5.21 | CG iter. 3 -- res = 0.51335E+05, tol = 0.73557E+01, time = 5.54 | CG iter. 4 -- res = 0.26629E+05, tol = 0.73557E+01, time = 5.23 | CG iter. 5 -- res = 0.17036E+05, tol = 0.73557E+01, time = 5.33 | CG iter. 6 -- res = 0.13317E+05, tol = 0.73557E+01, time = 5.48 | CG iter. 7 -- res = 0.12483E+05, tol = 0.73557E+01, time = 5.94 | CG iter. 8 -- res = 0.11464E+05, tol = 0.73557E+01, time = 5.76 | CG iter. 9 -- res = 0.11344E+05, tol = 0.73557E+01, time = 5.31 | CG iter. 10 -- res = 0.11090E+05, tol = 0.73557E+01, time = 5.52 | CG iter. 11 -- res = 0.85690E+04, tol = 0.73557E+01, time = 5.62 | CG iter. 12 -- res = 0.58233E+04, tol = 0.73557E+01, time = 5.90 | CG iter. 13 -- res = 0.43425E+04, tol = 0.73557E+01, time = 5.49 | CG iter. 14 -- res = 0.38316E+04, tol = 0.73557E+01, time = 5.42 | CG iter. 15 -- res = 0.34354E+04, tol = 0.73557E+01, time = 5.92 | CG iter. 16 -- res = 0.28646E+04, tol = 0.73557E+01, time = 5.66 | CG iter. 17 -- res = 0.20734E+04, tol = 0.73557E+01, time = 5.39 | CG iter. 18 -- res = 0.16636E+04, tol = 0.73557E+01, time = 5.31 | CG iter. 19 -- res = 0.14387E+04, tol = 0.73557E+01, time = 5.54 | CG iter. 20 -- res = 0.11689E+04, tol = 0.73557E+01, time = 5.61 | CG iter. 21 -- res = 0.90939E+03, tol = 0.73557E+01, time = 5.44 | CG iter. 22 -- res = 0.74811E+03, tol = 0.73557E+01, time = 5.56 | CG iter. 23 -- res = 0.68667E+03, tol = 0.73557E+01, time = 5.63 | CG iter. 24 -- res = 0.60631E+03, tol = 0.73557E+01, time = 5.67 | CG iter. 25 -- res = 0.48064E+03, tol = 0.73557E+01, time = 5.41 | CG iter. 26 -- res = 0.36344E+03, tol = 0.73557E+01, time = 5.63 | CG iter. 27 -- res = 0.31650E+03, tol = 0.73557E+01, time = 5.44 | CG iter. 28 -- res = 0.28067E+03, tol = 0.73557E+01, time = 5.51 | CG iter. 29 -- res = 0.23251E+03, tol = 0.73557E+01, time = 5.37 | CG iter. 30 -- res = 0.18766E+03, tol = 0.73557E+01, time = 5.38 | CG iter. 31 -- res = 0.16029E+03, tol = 0.73557E+01, time = 5.36 | CG iter. 32 -- res = 0.14263E+03, tol = 0.73557E+01, time = 5.08 | CG iter. 33 -- res = 0.12111E+03, tol = 0.73557E+01, time = 6.67 | CG iter. 34 -- res = 0.96288E+02, tol = 0.73557E+01, time = 10.71 | CG iter. 35 -- res = 0.79560E+02, tol = 0.73557E+01, time = 5.67 | CG iter. 36 -- res = 0.71072E+02, tol = 0.73557E+01, time = 5.41 | CG iter. 37 -- res = 0.63456E+02, tol = 0.73557E+01, time = 5.50 | CG iter. 38 -- res = 0.52783E+02, tol = 0.73557E+01, time = 5.69 | CG iter. 39 -- res = 0.42816E+02, tol = 0.73557E+01, time = 5.50 | CG iter. 40 -- res = 0.38782E+02, tol = 0.73557E+01, time = 5.91 | CG iter. 41 -- res = 0.35189E+02, tol = 0.73557E+01, time = 5.36 | CG iter. 42 -- res = 0.29135E+02, tol = 0.73557E+01, time = 5.46 | CG iter. 43 -- res = 0.24576E+02, tol = 0.73557E+01, time = 5.49 | CG iter. 44 -- res = 0.21356E+02, tol = 0.73557E+01, time = 5.47 | CG iter. 45 -- res = 0.19342E+02, tol = 0.73557E+01, time = 5.53 | CG iter. 46 -- res = 0.17208E+02, tol = 0.73557E+01, time = 5.25 | CG iter. 47 -- res = 0.13894E+02, tol = 0.73557E+01, time = 5.60 | CG iter. 48 -- res = 0.11724E+02, tol = 0.73557E+01, time = 5.56 | CG iter. 49 -- res = 0.10288E+02, tol = 0.73557E+01, time = 6.88 | CG iter. 50 -- res = 0.91680E+01, tol = 0.73557E+01, time = 5.70 | Final CG iter 51 -- res = 0.91680E+01, tol = 0.73557E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10836871.918 | Old band monopole 9519452.274 | Change to band monopole 1317419.644 | Change to component monopole -1317413.977 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.25525E+06, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.11295E+03, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.36792E+01, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.84227E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.13711E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10836825.306 | (Sampled value in CG: 10803324.453 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.524720 | New value = 1.477585 | poltype: 2 pol: 1 CPU time specind = 2.4054050E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.538820 | New value = 1.491348 | poltype: 2 pol: 2 CPU time specind = 6.7088604E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.24451E+08, tol = 0.47545E+04, time = 6.38 | CG iter. 2 -- res = 0.52920E+07, tol = 0.47545E+04, time = 6.63 | CG iter. 3 -- res = 0.83098E+06, tol = 0.47545E+04, time = 5.94 | CG iter. 4 -- res = 0.35632E+06, tol = 0.47545E+04, time = 6.50 | CG iter. 5 -- res = 0.15529E+06, tol = 0.47545E+04, time = 6.47 | CG iter. 6 -- res = 0.80702E+05, tol = 0.47545E+04, time = 6.19 | CG iter. 7 -- res = 0.43716E+05, tol = 0.47545E+04, time = 6.36 | CG iter. 8 -- res = 0.21202E+05, tol = 0.47545E+04, time = 6.05 | CG iter. 9 -- res = 0.93590E+04, tol = 0.47545E+04, time = 6.60 | CG iter. 10 -- res = 0.37610E+04, tol = 0.47545E+04, time = 6.10 | CG iter. 11 -- res = 0.17112E+04, tol = 0.47545E+04, time = 6.28 | CG iter. 12 -- res = 0.86427E+03, tol = 0.47545E+04, time = 6.27 | CG iter. 13 -- res = 0.48607E+03, tol = 0.47545E+04, time = 6.23 | CG iter. 14 -- res = 0.27982E+03, tol = 0.47545E+04, time = 10.62 | CG iter. 15 -- res = 0.14666E+03, tol = 0.47545E+04, time = 8.14 | CG iter. 16 -- res = 0.68858E+02, tol = 0.47545E+04, time = 6.76 | CG iter. 17 -- res = 0.32716E+02, tol = 0.47545E+04, time = 5.73 | CG iter. 18 -- res = 0.16533E+02, tol = 0.47545E+04, time = 6.05 | CG iter. 19 -- res = 0.90501E+01, tol = 0.47545E+04, time = 6.26 | CG iter. 20 -- res = 0.51279E+01, tol = 0.47545E+04, time = 6.31 | CG iter. 21 -- res = 0.28472E+01, tol = 0.47545E+04, time = 6.07 | CG iter. 22 -- res = 0.14817E+01, tol = 0.47545E+04, time = 6.25 | CG iter. 23 -- res = 0.73276E+00, tol = 0.47545E+04, time = 6.22 | CG iter. 24 -- res = 0.37188E+00, tol = 0.47545E+04, time = 6.12 | CG iter. 25 -- res = 0.20213E+00, tol = 0.47545E+04, time = 6.04 | CG iter. 26 -- res = 0.11626E+00, tol = 0.47545E+04, time = 6.00 | CG iter. 27 -- res = 0.65899E-01, tol = 0.47545E+04, time = 6.09 | CG iter. 28 -- res = 0.35310E-01, tol = 0.47545E+04, time = 7.83 | CG iter. 29 -- res = 0.18504E-01, tol = 0.47545E+04, time = 6.82 | CG iter. 30 -- res = 0.96886E-02, tol = 0.47545E+04, time = 6.66 | CG iter. 31 -- res = 0.52519E-02, tol = 0.47545E+04, time = 6.24 | CG iter. 32 -- res = 0.29790E-02, tol = 0.47545E+04, time = 6.39 | CG iter. 33 -- res = 0.16971E-02, tol = 0.47545E+04, time = 6.00 | CG iter. 34 -- res = 0.93189E-03, tol = 0.47545E+04, time = 6.47 | CG iter. 35 -- res = 0.47585E-03, tol = 0.47545E+04, time = 6.09 | Final CG iter 36 -- res = 0.47585E-03, tol = 0.47545E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.282 2.746 | New value -0.146 | Old value 2.282 | Difference -2.427 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.30846E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.28767E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.86090E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.70889E-03, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.25412E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10836825.306 | (Sampled value in CG: 10804542.401 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.650771 | New value = -3.578433 | poltype: 1 pol: 1 CPU time specind = 1.3702154E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.36 | CG iter. 1 -- res = 0.23069E+07, tol = 0.31665E+01, time = 2.48 | CG iter. 2 -- res = 0.10396E+07, tol = 0.31665E+01, time = 2.75 | CG iter. 3 -- res = 0.20682E+06, tol = 0.31665E+01, time = 2.81 | CG iter. 4 -- res = 0.71776E+05, tol = 0.31665E+01, time = 2.63 | CG iter. 5 -- res = 0.39257E+05, tol = 0.31665E+01, time = 2.50 | CG iter. 6 -- res = 0.21671E+05, tol = 0.31665E+01, time = 2.56 | CG iter. 7 -- res = 0.84896E+04, tol = 0.31665E+01, time = 2.90 | CG iter. 8 -- res = 0.34864E+04, tol = 0.31665E+01, time = 2.65 | CG iter. 9 -- res = 0.15396E+04, tol = 0.31665E+01, time = 2.58 | CG iter. 10 -- res = 0.60912E+03, tol = 0.31665E+01, time = 2.45 | CG iter. 11 -- res = 0.26125E+03, tol = 0.31665E+01, time = 2.83 | CG iter. 12 -- res = 0.13085E+03, tol = 0.31665E+01, time = 2.90 | CG iter. 13 -- res = 0.67143E+02, tol = 0.31665E+01, time = 2.30 | CG iter. 14 -- res = 0.34134E+02, tol = 0.31665E+01, time = 2.60 | CG iter. 15 -- res = 0.15797E+02, tol = 0.31665E+01, time = 2.81 | CG iter. 16 -- res = 0.65429E+01, tol = 0.31665E+01, time = 2.55 | CG iter. 17 -- res = 0.27573E+01, tol = 0.31665E+01, time = 2.73 | CG iter. 18 -- res = 0.12784E+01, tol = 0.31665E+01, time = 2.34 | CG iter. 19 -- res = 0.61304E+00, tol = 0.31665E+01, time = 2.41 | CG iter. 20 -- res = 0.31915E+00, tol = 0.31665E+01, time = 2.75 | CG iter. 21 -- res = 0.16176E+00, tol = 0.31665E+01, time = 2.53 | CG iter. 22 -- res = 0.77426E-01, tol = 0.31665E+01, time = 2.51 | CG iter. 23 -- res = 0.35068E-01, tol = 0.31665E+01, time = 2.53 | CG iter. 24 -- res = 0.16228E-01, tol = 0.31665E+01, time = 2.63 | CG iter. 25 -- res = 0.81936E-02, tol = 0.31665E+01, time = 2.59 | CG iter. 26 -- res = 0.41190E-02, tol = 0.31665E+01, time = 2.39 | CG iter. 27 -- res = 0.21172E-02, tol = 0.31665E+01, time = 2.74 | CG iter. 28 -- res = 0.10327E-02, tol = 0.31665E+01, time = 2.75 | CG iter. 29 -- res = 0.47594E-03, tol = 0.31665E+01, time = 2.58 | CG iter. 30 -- res = 0.22067E-03, tol = 0.31665E+01, time = 2.38 | CG iter. 31 -- res = 0.10367E-03, tol = 0.31665E+01, time = 2.59 | CG iter. 32 -- res = 0.50261E-04, tol = 0.31665E+01, time = 2.73 | CG iter. 33 -- res = 0.25926E-04, tol = 0.31665E+01, time = 2.80 | CG iter. 34 -- res = 0.12802E-04, tol = 0.31665E+01, time = 2.72 | CG iter. 35 -- res = 0.61726E-05, tol = 0.31665E+01, time = 2.60 | CG iter. 36 -- res = 0.27792E-05, tol = 0.31665E+01, time = 2.41 | CG iter. 37 -- res = 0.12565E-05, tol = 0.31665E+01, time = 2.49 | CG iter. 38 -- res = 0.64575E-06, tol = 0.31665E+01, time = 2.41 | CG iter. 39 -- res = 0.31985E-06, tol = 0.31665E+01, time = 2.65 | CG iter. 40 -- res = 0.16078E-06, tol = 0.31665E+01, time = 2.56 | CG iter. 41 -- res = 0.78299E-07, tol = 0.31665E+01, time = 2.47 | CG iter. 42 -- res = 0.35264E-07, tol = 0.31665E+01, time = 2.61 | CG iter. 43 -- res = 0.15962E-07, tol = 0.31665E+01, time = 2.13 | CG iter. 44 -- res = 0.78874E-08, tol = 0.31665E+01, time = 2.43 | CG iter. 45 -- res = 0.39400E-08, tol = 0.31665E+01, time = 2.73 | CG iter. 46 -- res = 0.19910E-08, tol = 0.31665E+01, time = 2.49 | CG iter. 47 -- res = 0.95384E-09, tol = 0.31665E+01, time = 2.76 | CG iter. 48 -- res = 0.44185E-09, tol = 0.31665E+01, time = 2.55 | CG iter. 49 -- res = 0.20065E-09, tol = 0.31665E+01, time = 2.62 | CG iter. 50 -- res = 0.94499E-10, tol = 0.31665E+01, time = 2.39 | Final CG iter 51 -- res = 0.94499E-10, tol = 0.31665E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.901 4.551 | New value -1.825 | Old value -4.901 | Difference 3.076 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.10616E+05, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.24988E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.79525E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.16920E-02, tol = 0.47627E+18, time = 1.63 | Final CG iter 5 -- res = 0.42601E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10836825.306 | (Sampled value in CG: 10811764.562 ) | CPU time specind = 1139.153 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.69534E+08, tol = 0.57629E+04, time = 11.23 | CG iter. 2 -- res = 0.58511E+08, tol = 0.57629E+04, time = 10.85 | CG iter. 3 -- res = 0.15151E+08, tol = 0.57629E+04, time = 11.83 | CG iter. 4 -- res = 0.65587E+07, tol = 0.57629E+04, time = 11.14 | CG iter. 5 -- res = 0.39528E+07, tol = 0.57629E+04, time = 12.84 | CG iter. 6 -- res = 0.22424E+07, tol = 0.57629E+04, time = 12.50 | CG iter. 7 -- res = 0.13240E+07, tol = 0.57629E+04, time = 11.11 | CG iter. 8 -- res = 0.86688E+06, tol = 0.57629E+04, time = 11.46 | CG iter. 9 -- res = 0.54622E+06, tol = 0.57629E+04, time = 11.42 | CG iter. 10 -- res = 0.31990E+06, tol = 0.57629E+04, time = 11.51 | CG iter. 11 -- res = 0.17379E+06, tol = 0.57629E+04, time = 10.96 | CG iter. 12 -- res = 0.93475E+05, tol = 0.57629E+04, time = 11.02 | CG iter. 13 -- res = 0.52116E+05, tol = 0.57629E+04, time = 10.85 | CG iter. 14 -- res = 0.32134E+05, tol = 0.57629E+04, time = 10.77 | CG iter. 15 -- res = 0.22094E+05, tol = 0.57629E+04, time = 11.83 | CG iter. 16 -- res = 0.16725E+05, tol = 0.57629E+04, time = 11.21 | CG iter. 17 -- res = 0.13602E+05, tol = 0.57629E+04, time = 10.93 | CG iter. 18 -- res = 0.10952E+05, tol = 0.57629E+04, time = 11.13 | CG iter. 19 -- res = 0.84662E+04, tol = 0.57629E+04, time = 11.03 | CG iter. 20 -- res = 0.69699E+04, tol = 0.57629E+04, time = 11.05 | CG iter. 21 -- res = 0.62661E+04, tol = 0.57629E+04, time = 11.38 | CG iter. 22 -- res = 0.64574E+04, tol = 0.57629E+04, time = 10.90 | CG iter. 23 -- res = 0.71357E+04, tol = 0.57629E+04, time = 11.23 | CG iter. 24 -- res = 0.79500E+04, tol = 0.57629E+04, time = 16.98 | CG iter. 25 -- res = 0.80459E+04, tol = 0.57629E+04, time = 11.09 | CG iter. 26 -- res = 0.72357E+04, tol = 0.57629E+04, time = 10.88 | CG iter. 27 -- res = 0.59275E+04, tol = 0.57629E+04, time = 11.22 | CG iter. 28 -- res = 0.46784E+04, tol = 0.57629E+04, time = 11.05 | CG iter. 29 -- res = 0.37082E+04, tol = 0.57629E+04, time = 11.28 | CG iter. 30 -- res = 0.31231E+04, tol = 0.57629E+04, time = 11.37 | CG iter. 31 -- res = 0.26667E+04, tol = 0.57629E+04, time = 11.17 | CG iter. 32 -- res = 0.22255E+04, tol = 0.57629E+04, time = 12.88 | CG iter. 33 -- res = 0.18003E+04, tol = 0.57629E+04, time = 11.40 | CG iter. 34 -- res = 0.14056E+04, tol = 0.57629E+04, time = 11.39 | CG iter. 35 -- res = 0.11597E+04, tol = 0.57629E+04, time = 10.96 | CG iter. 36 -- res = 0.10442E+04, tol = 0.57629E+04, time = 10.97 | CG iter. 37 -- res = 0.10294E+04, tol = 0.57629E+04, time = 11.30 | CG iter. 38 -- res = 0.10453E+04, tol = 0.57629E+04, time = 11.05 | CG iter. 39 -- res = 0.10428E+04, tol = 0.57629E+04, time = 11.31 | CG iter. 40 -- res = 0.95508E+03, tol = 0.57629E+04, time = 11.52 | CG iter. 41 -- res = 0.84489E+03, tol = 0.57629E+04, time = 11.12 | CG iter. 42 -- res = 0.72753E+03, tol = 0.57629E+04, time = 11.28 | CG iter. 43 -- res = 0.63177E+03, tol = 0.57629E+04, time = 11.45 | CG iter. 44 -- res = 0.58256E+03, tol = 0.57629E+04, time = 11.20 | CG iter. 45 -- res = 0.54906E+03, tol = 0.57629E+04, time = 11.43 | CG iter. 46 -- res = 0.50315E+03, tol = 0.57629E+04, time = 10.75 | CG iter. 47 -- res = 0.44532E+03, tol = 0.57629E+04, time = 11.43 | CG iter. 48 -- res = 0.37622E+03, tol = 0.57629E+04, time = 10.95 | CG iter. 49 -- res = 0.32679E+03, tol = 0.57629E+04, time = 11.03 | CG iter. 50 -- res = 0.30505E+03, tol = 0.57629E+04, time = 17.42 | CG iter. 51 -- res = 0.29771E+03, tol = 0.57629E+04, time = 11.29 | CG iter. 52 -- res = 0.29314E+03, tol = 0.57629E+04, time = 11.32 | CG iter. 53 -- res = 0.28428E+03, tol = 0.57629E+04, time = 11.66 | CG iter. 54 -- res = 0.26695E+03, tol = 0.57629E+04, time = 11.41 | CG iter. 55 -- res = 0.24118E+03, tol = 0.57629E+04, time = 11.32 | CG iter. 56 -- res = 0.21430E+03, tol = 0.57629E+04, time = 10.70 | CG iter. 57 -- res = 0.19604E+03, tol = 0.57629E+04, time = 11.29 | CG iter. 58 -- res = 0.18578E+03, tol = 0.57629E+04, time = 12.51 | CG iter. 59 -- res = 0.17980E+03, tol = 0.57629E+04, time = 11.07 | CG iter. 60 -- res = 0.16767E+03, tol = 0.57629E+04, time = 11.47 | Final CG iter 61 -- res = 0.16767E+03, tol = 0.57629E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.830 ( -229.897 -2231.767 2514.181 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6390917.802 | Old band monopole 10836871.918 | Change to band monopole -4445954.116 | Change to component monopole 4445934.993 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.180 2.737 | New value -0.148 | Old value -0.180 | Difference 0.033 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.597 ( 8.054 14.185 -13.373 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.098 5.061 | New value -0.266 | Old value 5.098 | Difference -5.364 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.16116E+06, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.79711E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.33491E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.52188E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.83594E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6390890.314 | (Sampled value in CG: 6364628.779 ) | Chain = 1 -- chisq = 0.81555357E+09 | Chain = 1 -- wall time = 17060.064 sec Available RAM: MemAvailable: 476033392 kB Available Swap: SwapFree: 1054269276 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 252 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442007 | --> Sampling calibration, mode = relcal | relcal = 1.3419421E-02 7.4659940E-04 -1.5885944E-03 -1.2577427E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1122942 0.1265780 9401699.91656829 | BP delta = 0.1122942 0.1202140 9401719.01513809 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632625 | --> Sampling calibration, mode = relcal | relcal = -2.8213013E-03 -7.0356223E-04 1.6787896E-03 1.6146011E-03 -4.0788073E-04 6.3935359E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5341483 15218644.5630688 | BP delta = 0.0000000E+00 -0.5390319 15218644.5851647 | BP chisq diff = 0.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17868049525046 | --> Sampling calibration, mode = relcal | relcal = -7.5148731E-02 -5.8352683E-02 9.1864057E-02 4.1637361E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.5959216E-05 4.1904412E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1426E-05 | 2: delta_r/delta_0: 8.0463E-07 | 3: delta_s/delta_0: 2.6185E-07 | 4: delta_r/delta_0: 1.5038E-08 | 5: delta_s/delta_0: 1.3402E-06 | 6: delta_r/delta_0: 8.9038E-08 | 7: delta_s/delta_0: 2.3647E-10 | 8: delta_r/delta_0: 9.9329E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.739107228130044E-004 2.746407369277165E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1425E-05 | 2: delta_r/delta_0: 8.0462E-07 | 3: delta_s/delta_0: 2.6185E-07 | 4: delta_r/delta_0: 1.5042E-08 | 5: delta_s/delta_0: 1.3360E-06 | 6: delta_r/delta_0: 8.8685E-08 | 7: delta_s/delta_0: 2.3653E-10 | 8: delta_r/delta_0: 9.9337E-11 | Reached bicg-stab tolerance | BP delta = 7.7475786E-02 9.6359231E-02 3574242.65262716 | BP delta = 7.7475786E-02 9.6746147E-02 3570348.76009987 | BP chisq diff = -3893.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02613648 | --> Sampling calibration, mode = relcal | relcal = -0.1067201 -9.5571287E-02 0.1449890 5.7302367E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1424658E-03 1.6438253E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0733E-05 | 2: delta_r/delta_0: 1.6808E-06 | 3: delta_s/delta_0: 2.2974E-07 | 4: delta_r/delta_0: 4.3994E-08 | 5: delta_s/delta_0: 2.5489E-08 | 6: delta_r/delta_0: 6.6291E-09 | 7: delta_s/delta_0: 4.4614E-09 | 8: delta_r/delta_0: 1.7168E-09 | 9: delta_s/delta_0: 8.2442E-10 | 10: delta_r/delta_0: 6.1353E-10 | 11: delta_s/delta_0: 6.4698E-10 | 12: delta_r/delta_0: 1.3228E-10 | 13: delta_s/delta_0: 9.1713E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.020294351448144E-002 2.810490618202658E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.0735E-05 | 2: delta_r/delta_0: 1.6810E-06 | 3: delta_s/delta_0: 2.2977E-07 | 4: delta_r/delta_0: 4.4043E-08 | 5: delta_s/delta_0: 2.5447E-08 | 6: delta_r/delta_0: 6.6315E-09 | 7: delta_s/delta_0: 4.4579E-09 | 8: delta_r/delta_0: 1.7174E-09 | 9: delta_s/delta_0: 8.2475E-10 | 10: delta_r/delta_0: 6.1371E-10 | 11: delta_s/delta_0: 6.4682E-10 | 12: delta_r/delta_0: 1.3234E-10 | 13: delta_s/delta_0: 9.1785E-11 | Reached bicg-stab tolerance | BP delta = -0.2635595 -0.2378418 2841584.50327965 | BP delta = -0.2635595 -0.2398782 2841692.34328814 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81259093 | --> Sampling calibration, mode = relcal | relcal = 0.2956796 0.2249595 -0.2839315 -0.2367076 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.3386589E-04 5.0380197E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0609E-03 | 2: delta_r/delta_0: 2.4332E-05 | 3: delta_s/delta_0: 6.1421E-05 | 4: delta_r/delta_0: 1.6831E-06 | 5: delta_s/delta_0: 1.6786E-05 | 6: delta_r/delta_0: 1.7580E-06 | 7: delta_s/delta_0: 5.3737E-08 | 8: delta_r/delta_0: 3.7516E-08 | 9: delta_s/delta_0: 3.6737E-07 | 10: delta_r/delta_0: 4.6008E-09 | 11: delta_s/delta_0: 1.3452E-09 | 12: delta_r/delta_0: 5.3147E-10 | 13: delta_s/delta_0: 3.9893E-10 | 14: delta_r/delta_0: 8.8082E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.983984647284110E-002 4.020039647092583E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0611E-03 | 2: delta_r/delta_0: 2.4337E-05 | 3: delta_s/delta_0: 6.1387E-05 | 4: delta_r/delta_0: 1.6818E-06 | 5: delta_s/delta_0: 1.6794E-05 | 6: delta_r/delta_0: 1.7586E-06 | 7: delta_s/delta_0: 5.3744E-08 | 8: delta_r/delta_0: 3.7515E-08 | 9: delta_s/delta_0: 3.6689E-07 | 10: delta_r/delta_0: 4.6021E-09 | 11: delta_s/delta_0: 1.3459E-09 | 12: delta_r/delta_0: 5.3136E-10 | 13: delta_s/delta_0: 3.9775E-10 | 14: delta_r/delta_0: 8.8078E-11 | Reached bicg-stab tolerance | BP delta = -0.1318609 -0.1394367 2827269.08572206 | BP delta = -0.1318609 -0.1436398 2827304.77148407 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95948164 | --> Sampling calibration, mode = relcal | relcal = 0.1065773 0.1395947 -0.1103565 -0.1358156 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0214800E-02 1.1596659E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6025E-03 | 2: delta_r/delta_0: 3.8711E-05 | 3: delta_s/delta_0: 3.9781E-05 | 4: delta_r/delta_0: 2.4880E-06 | 5: delta_s/delta_0: 5.4021E-07 | 6: delta_r/delta_0: 2.1703E-07 | 7: delta_s/delta_0: 4.7752E-07 | 8: delta_r/delta_0: 5.0660E-08 | 9: delta_s/delta_0: 2.3890E-08 | 10: delta_r/delta_0: 4.9383E-09 | 11: delta_s/delta_0: 4.5353E-09 | 12: delta_r/delta_0: 2.2789E-09 | 13: delta_s/delta_0: 2.0285E-09 | 14: delta_r/delta_0: 1.3583E-09 | 15: delta_s/delta_0: 1.1029E-10 | 16: delta_r/delta_0: 3.7762E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.723917468255050E-002 3.695935523248991E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6035E-03 | 2: delta_r/delta_0: 3.8735E-05 | 3: delta_s/delta_0: 3.9794E-05 | 4: delta_r/delta_0: 2.4887E-06 | 5: delta_s/delta_0: 5.4037E-07 | 6: delta_r/delta_0: 2.1701E-07 | 7: delta_s/delta_0: 4.7685E-07 | 8: delta_r/delta_0: 5.0665E-08 | 9: delta_s/delta_0: 2.3870E-08 | 10: delta_r/delta_0: 4.9401E-09 | 11: delta_s/delta_0: 4.4344E-09 | 12: delta_r/delta_0: 2.2201E-09 | 13: delta_s/delta_0: 2.0357E-09 | 14: delta_r/delta_0: 1.3435E-09 | 15: delta_s/delta_0: 1.0993E-10 | 16: delta_r/delta_0: 3.6315E-11 | Reached bicg-stab tolerance | BP delta = 0.1141720 0.2254267 3003893.19681734 | BP delta = 0.1141720 0.2186614 3003996.30242538 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.239831 | New value = -3.131531 | poltype: 2 pol: 1 CPU time specind = 9.9029541E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.186802 | New value = -3.054482 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152670 | New value = -3.130693 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139934 | New value = -3.178533 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.263716 | New value = -3.110688 | poltype: 2 pol: 2 CPU time specind = 6.3438416E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.42 | CG iter. 1 -- res = 0.13677E+08, tol = 0.98177E+01, time = 6.35 | CG iter. 2 -- res = 0.36732E+06, tol = 0.98177E+01, time = 5.74 | CG iter. 3 -- res = 0.10594E+06, tol = 0.98177E+01, time = 6.04 | CG iter. 4 -- res = 0.13660E+06, tol = 0.98177E+01, time = 5.54 | CG iter. 5 -- res = 0.13943E+06, tol = 0.98177E+01, time = 5.70 | CG iter. 6 -- res = 0.12372E+06, tol = 0.98177E+01, time = 5.78 | CG iter. 7 -- res = 0.10150E+06, tol = 0.98177E+01, time = 5.61 | CG iter. 8 -- res = 0.72667E+05, tol = 0.98177E+01, time = 5.31 | CG iter. 9 -- res = 0.61065E+05, tol = 0.98177E+01, time = 5.65 | CG iter. 10 -- res = 0.49395E+05, tol = 0.98177E+01, time = 5.70 | CG iter. 11 -- res = 0.35433E+05, tol = 0.98177E+01, time = 5.60 | CG iter. 12 -- res = 0.26843E+05, tol = 0.98177E+01, time = 5.88 | CG iter. 13 -- res = 0.23203E+05, tol = 0.98177E+01, time = 5.94 | CG iter. 14 -- res = 0.20028E+05, tol = 0.98177E+01, time = 9.70 | CG iter. 15 -- res = 0.15068E+05, tol = 0.98177E+01, time = 6.08 | CG iter. 16 -- res = 0.10844E+05, tol = 0.98177E+01, time = 5.44 | CG iter. 17 -- res = 0.77326E+04, tol = 0.98177E+01, time = 5.70 | CG iter. 18 -- res = 0.65738E+04, tol = 0.98177E+01, time = 6.69 | CG iter. 19 -- res = 0.56620E+04, tol = 0.98177E+01, time = 6.25 | CG iter. 20 -- res = 0.43838E+04, tol = 0.98177E+01, time = 5.76 | CG iter. 21 -- res = 0.32673E+04, tol = 0.98177E+01, time = 5.45 | CG iter. 22 -- res = 0.27518E+04, tol = 0.98177E+01, time = 5.74 | CG iter. 23 -- res = 0.24134E+04, tol = 0.98177E+01, time = 6.12 | CG iter. 24 -- res = 0.19211E+04, tol = 0.98177E+01, time = 6.14 | CG iter. 25 -- res = 0.14392E+04, tol = 0.98177E+01, time = 5.51 | CG iter. 26 -- res = 0.12301E+04, tol = 0.98177E+01, time = 5.53 | CG iter. 27 -- res = 0.10878E+04, tol = 0.98177E+01, time = 5.86 | CG iter. 28 -- res = 0.90567E+03, tol = 0.98177E+01, time = 5.63 | CG iter. 29 -- res = 0.68141E+03, tol = 0.98177E+01, time = 5.54 | CG iter. 30 -- res = 0.54878E+03, tol = 0.98177E+01, time = 5.84 | CG iter. 31 -- res = 0.48914E+03, tol = 0.98177E+01, time = 5.97 | CG iter. 32 -- res = 0.41932E+03, tol = 0.98177E+01, time = 5.42 | CG iter. 33 -- res = 0.30933E+03, tol = 0.98177E+01, time = 5.72 | CG iter. 34 -- res = 0.24035E+03, tol = 0.98177E+01, time = 6.09 | CG iter. 35 -- res = 0.21424E+03, tol = 0.98177E+01, time = 5.78 | CG iter. 36 -- res = 0.17981E+03, tol = 0.98177E+01, time = 12.91 | CG iter. 37 -- res = 0.14330E+03, tol = 0.98177E+01, time = 5.56 | CG iter. 38 -- res = 0.10780E+03, tol = 0.98177E+01, time = 7.02 | CG iter. 39 -- res = 0.85922E+02, tol = 0.98177E+01, time = 5.83 | CG iter. 40 -- res = 0.73181E+02, tol = 0.98177E+01, time = 5.64 | CG iter. 41 -- res = 0.57629E+02, tol = 0.98177E+01, time = 5.47 | CG iter. 42 -- res = 0.42151E+02, tol = 0.98177E+01, time = 5.62 | CG iter. 43 -- res = 0.33340E+02, tol = 0.98177E+01, time = 5.35 | CG iter. 44 -- res = 0.27046E+02, tol = 0.98177E+01, time = 5.72 | CG iter. 45 -- res = 0.20974E+02, tol = 0.98177E+01, time = 5.76 | CG iter. 46 -- res = 0.15691E+02, tol = 0.98177E+01, time = 5.37 | CG iter. 47 -- res = 0.12155E+02, tol = 0.98177E+01, time = 5.71 | CG iter. 48 -- res = 0.10217E+02, tol = 0.98177E+01, time = 5.48 | CG iter. 49 -- res = 0.81020E+01, tol = 0.98177E+01, time = 5.62 | CG iter. 50 -- res = 0.61001E+01, tol = 0.98177E+01, time = 7.49 | Final CG iter 51 -- res = 0.61001E+01, tol = 0.98177E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7146968.288 | Old band monopole 6390917.802 | Change to band monopole 756050.486 | Change to component monopole -756047.234 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.51644E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.32386E+03, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.48178E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.60247E-01, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.33112E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7146937.548 | (Sampled value in CG: 7259525.622 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477585 | New value = 1.536319 | poltype: 2 pol: 1 CPU time specind = 1.1069775E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.491348 | New value = 1.500148 | poltype: 2 pol: 2 CPU time specind = 4.5888424E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.49 | CG iter. 1 -- res = 0.24758E+08, tol = 0.47651E+04, time = 6.43 | CG iter. 2 -- res = 0.53718E+07, tol = 0.47651E+04, time = 6.54 | CG iter. 3 -- res = 0.84301E+06, tol = 0.47651E+04, time = 6.79 | CG iter. 4 -- res = 0.35219E+06, tol = 0.47651E+04, time = 6.98 | CG iter. 5 -- res = 0.15248E+06, tol = 0.47651E+04, time = 6.73 | CG iter. 6 -- res = 0.78244E+05, tol = 0.47651E+04, time = 6.32 | CG iter. 7 -- res = 0.42382E+05, tol = 0.47651E+04, time = 6.54 | CG iter. 8 -- res = 0.20340E+05, tol = 0.47651E+04, time = 6.52 | CG iter. 9 -- res = 0.88629E+04, tol = 0.47651E+04, time = 6.71 | CG iter. 10 -- res = 0.36222E+04, tol = 0.47651E+04, time = 6.44 | CG iter. 11 -- res = 0.16486E+04, tol = 0.47651E+04, time = 6.90 | CG iter. 12 -- res = 0.86338E+03, tol = 0.47651E+04, time = 6.61 | CG iter. 13 -- res = 0.49475E+03, tol = 0.47651E+04, time = 6.51 | CG iter. 14 -- res = 0.27734E+03, tol = 0.47651E+04, time = 13.70 | CG iter. 15 -- res = 0.14272E+03, tol = 0.47651E+04, time = 6.72 | CG iter. 16 -- res = 0.68134E+02, tol = 0.47651E+04, time = 6.29 | CG iter. 17 -- res = 0.31295E+02, tol = 0.47651E+04, time = 6.35 | CG iter. 18 -- res = 0.15477E+02, tol = 0.47651E+04, time = 6.92 | CG iter. 19 -- res = 0.82828E+01, tol = 0.47651E+04, time = 5.92 | CG iter. 20 -- res = 0.46997E+01, tol = 0.47651E+04, time = 6.80 | CG iter. 21 -- res = 0.26064E+01, tol = 0.47651E+04, time = 6.63 | CG iter. 22 -- res = 0.13362E+01, tol = 0.47651E+04, time = 6.46 | CG iter. 23 -- res = 0.64619E+00, tol = 0.47651E+04, time = 6.72 | CG iter. 24 -- res = 0.32486E+00, tol = 0.47651E+04, time = 5.95 | CG iter. 25 -- res = 0.17856E+00, tol = 0.47651E+04, time = 7.00 | CG iter. 26 -- res = 0.10241E+00, tol = 0.47651E+04, time = 6.59 | CG iter. 27 -- res = 0.58801E-01, tol = 0.47651E+04, time = 7.67 | CG iter. 28 -- res = 0.31791E-01, tol = 0.47651E+04, time = 6.93 | CG iter. 29 -- res = 0.16637E-01, tol = 0.47651E+04, time = 6.57 | CG iter. 30 -- res = 0.86323E-02, tol = 0.47651E+04, time = 6.80 | CG iter. 31 -- res = 0.46549E-02, tol = 0.47651E+04, time = 6.53 | CG iter. 32 -- res = 0.26290E-02, tol = 0.47651E+04, time = 6.62 | CG iter. 33 -- res = 0.14756E-02, tol = 0.47651E+04, time = 6.53 | CG iter. 34 -- res = 0.77985E-03, tol = 0.47651E+04, time = 6.16 | CG iter. 35 -- res = 0.40129E-03, tol = 0.47651E+04, time = 6.69 | Final CG iter 36 -- res = 0.40129E-03, tol = 0.47651E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.109 2.738 | New value -0.378 | Old value -0.109 | Difference -0.269 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.53 | CG iter. 1 -- res = 0.24634E+05, tol = 0.47627E+18, time = 2.26 | CG iter. 2 -- res = 0.58634E+02, tol = 0.47627E+18, time = 1.83 | CG iter. 3 -- res = 0.19172E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.11779E-02, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.62119E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7146937.548 | (Sampled value in CG: 7259433.593 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.578433 | New value = -3.573173 | poltype: 1 pol: 1 CPU time specind = 9.6859932E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.32 | CG iter. 1 -- res = 0.30408E+07, tol = 0.26041E+01, time = 2.89 | CG iter. 2 -- res = 0.15553E+07, tol = 0.26041E+01, time = 2.59 | CG iter. 3 -- res = 0.30950E+06, tol = 0.26041E+01, time = 2.57 | CG iter. 4 -- res = 0.12576E+06, tol = 0.26041E+01, time = 2.63 | CG iter. 5 -- res = 0.75225E+05, tol = 0.26041E+01, time = 2.38 | CG iter. 6 -- res = 0.37849E+05, tol = 0.26041E+01, time = 2.70 | CG iter. 7 -- res = 0.12896E+05, tol = 0.26041E+01, time = 2.90 | CG iter. 8 -- res = 0.50713E+04, tol = 0.26041E+01, time = 2.74 | CG iter. 9 -- res = 0.22999E+04, tol = 0.26041E+01, time = 2.82 | CG iter. 10 -- res = 0.95907E+03, tol = 0.26041E+01, time = 2.59 | CG iter. 11 -- res = 0.37910E+03, tol = 0.26041E+01, time = 2.68 | CG iter. 12 -- res = 0.19345E+03, tol = 0.26041E+01, time = 2.82 | CG iter. 13 -- res = 0.99219E+02, tol = 0.26041E+01, time = 2.68 | CG iter. 14 -- res = 0.48895E+02, tol = 0.26041E+01, time = 2.65 | CG iter. 15 -- res = 0.22490E+02, tol = 0.26041E+01, time = 2.79 | CG iter. 16 -- res = 0.94739E+01, tol = 0.26041E+01, time = 2.89 | CG iter. 17 -- res = 0.38928E+01, tol = 0.26041E+01, time = 2.52 | CG iter. 18 -- res = 0.18867E+01, tol = 0.26041E+01, time = 2.91 | CG iter. 19 -- res = 0.92353E+00, tol = 0.26041E+01, time = 3.04 | CG iter. 20 -- res = 0.48704E+00, tol = 0.26041E+01, time = 2.54 | CG iter. 21 -- res = 0.23643E+00, tol = 0.26041E+01, time = 2.96 | CG iter. 22 -- res = 0.10479E+00, tol = 0.26041E+01, time = 2.67 | CG iter. 23 -- res = 0.45058E-01, tol = 0.26041E+01, time = 2.90 | CG iter. 24 -- res = 0.21183E-01, tol = 0.26041E+01, time = 2.64 | CG iter. 25 -- res = 0.10727E-01, tol = 0.26041E+01, time = 2.84 | CG iter. 26 -- res = 0.54534E-02, tol = 0.26041E+01, time = 2.62 | CG iter. 27 -- res = 0.27319E-02, tol = 0.26041E+01, time = 2.77 | CG iter. 28 -- res = 0.13331E-02, tol = 0.26041E+01, time = 2.66 | CG iter. 29 -- res = 0.58728E-03, tol = 0.26041E+01, time = 2.72 | CG iter. 30 -- res = 0.28024E-03, tol = 0.26041E+01, time = 2.90 | CG iter. 31 -- res = 0.13537E-03, tol = 0.26041E+01, time = 2.97 | CG iter. 32 -- res = 0.65088E-04, tol = 0.26041E+01, time = 2.81 | CG iter. 33 -- res = 0.33354E-04, tol = 0.26041E+01, time = 2.67 | CG iter. 34 -- res = 0.15505E-04, tol = 0.26041E+01, time = 2.79 | CG iter. 35 -- res = 0.73149E-05, tol = 0.26041E+01, time = 2.96 | CG iter. 36 -- res = 0.34927E-05, tol = 0.26041E+01, time = 2.37 | CG iter. 37 -- res = 0.15879E-05, tol = 0.26041E+01, time = 2.81 | CG iter. 38 -- res = 0.78826E-06, tol = 0.26041E+01, time = 2.89 | CG iter. 39 -- res = 0.39741E-06, tol = 0.26041E+01, time = 2.89 | CG iter. 40 -- res = 0.19477E-06, tol = 0.26041E+01, time = 2.83 | CG iter. 41 -- res = 0.90045E-07, tol = 0.26041E+01, time = 2.94 | CG iter. 42 -- res = 0.43228E-07, tol = 0.26041E+01, time = 2.69 | CG iter. 43 -- res = 0.19621E-07, tol = 0.26041E+01, time = 2.71 | CG iter. 44 -- res = 0.93002E-08, tol = 0.26041E+01, time = 2.91 | CG iter. 45 -- res = 0.45837E-08, tol = 0.26041E+01, time = 2.58 | CG iter. 46 -- res = 0.22620E-08, tol = 0.26041E+01, time = 2.69 | CG iter. 47 -- res = 0.11141E-08, tol = 0.26041E+01, time = 2.77 | CG iter. 48 -- res = 0.53792E-09, tol = 0.26041E+01, time = 2.76 | CG iter. 49 -- res = 0.24400E-09, tol = 0.26041E+01, time = 2.63 | CG iter. 50 -- res = 0.11193E-09, tol = 0.26041E+01, time = 2.67 | Final CG iter 51 -- res = 0.11193E-09, tol = 0.26041E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.454 3.726 | New value -3.925 | Old value 6.454 | Difference -10.379 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.60 | CG iter. 1 -- res = 0.11572E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.13847E+03, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.34563E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.18839E-01, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.26342E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7146937.548 | (Sampled value in CG: 7233552.939 ) | CPU time specind = 1203.197 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.70440E+08, tol = 0.57679E+04, time = 11.92 | CG iter. 2 -- res = 0.59717E+08, tol = 0.57679E+04, time = 13.56 | CG iter. 3 -- res = 0.15451E+08, tol = 0.57679E+04, time = 11.91 | CG iter. 4 -- res = 0.66115E+07, tol = 0.57679E+04, time = 11.73 | CG iter. 5 -- res = 0.40407E+07, tol = 0.57679E+04, time = 11.83 | CG iter. 6 -- res = 0.23641E+07, tol = 0.57679E+04, time = 11.47 | CG iter. 7 -- res = 0.13986E+07, tol = 0.57679E+04, time = 11.73 | CG iter. 8 -- res = 0.92559E+06, tol = 0.57679E+04, time = 12.09 | CG iter. 9 -- res = 0.60696E+06, tol = 0.57679E+04, time = 11.67 | CG iter. 10 -- res = 0.37067E+06, tol = 0.57679E+04, time = 12.05 | CG iter. 11 -- res = 0.20840E+06, tol = 0.57679E+04, time = 12.52 | CG iter. 12 -- res = 0.12327E+06, tol = 0.57679E+04, time = 11.92 | CG iter. 13 -- res = 0.80097E+05, tol = 0.57679E+04, time = 12.22 | CG iter. 14 -- res = 0.58699E+05, tol = 0.57679E+04, time = 11.96 | CG iter. 15 -- res = 0.50459E+05, tol = 0.57679E+04, time = 12.15 | CG iter. 16 -- res = 0.48481E+05, tol = 0.57679E+04, time = 11.51 | CG iter. 17 -- res = 0.48269E+05, tol = 0.57679E+04, time = 11.37 | CG iter. 18 -- res = 0.45472E+05, tol = 0.57679E+04, time = 11.83 | CG iter. 19 -- res = 0.41453E+05, tol = 0.57679E+04, time = 18.53 | CG iter. 20 -- res = 0.38136E+05, tol = 0.57679E+04, time = 11.79 | CG iter. 21 -- res = 0.36602E+05, tol = 0.57679E+04, time = 11.78 | CG iter. 22 -- res = 0.36478E+05, tol = 0.57679E+04, time = 11.77 | CG iter. 23 -- res = 0.35793E+05, tol = 0.57679E+04, time = 13.42 | CG iter. 24 -- res = 0.31315E+05, tol = 0.57679E+04, time = 11.45 | CG iter. 25 -- res = 0.24912E+05, tol = 0.57679E+04, time = 12.11 | CG iter. 26 -- res = 0.18455E+05, tol = 0.57679E+04, time = 12.81 | CG iter. 27 -- res = 0.13770E+05, tol = 0.57679E+04, time = 12.41 | CG iter. 28 -- res = 0.10775E+05, tol = 0.57679E+04, time = 11.36 | CG iter. 29 -- res = 0.90837E+04, tol = 0.57679E+04, time = 11.97 | CG iter. 30 -- res = 0.81242E+04, tol = 0.57679E+04, time = 12.39 | CG iter. 31 -- res = 0.75305E+04, tol = 0.57679E+04, time = 11.52 | CG iter. 32 -- res = 0.68268E+04, tol = 0.57679E+04, time = 12.18 | CG iter. 33 -- res = 0.59440E+04, tol = 0.57679E+04, time = 11.84 | CG iter. 34 -- res = 0.51509E+04, tol = 0.57679E+04, time = 11.98 | CG iter. 35 -- res = 0.45322E+04, tol = 0.57679E+04, time = 12.00 | CG iter. 36 -- res = 0.41416E+04, tol = 0.57679E+04, time = 11.82 | CG iter. 37 -- res = 0.38406E+04, tol = 0.57679E+04, time = 11.89 | CG iter. 38 -- res = 0.34395E+04, tol = 0.57679E+04, time = 11.62 | CG iter. 39 -- res = 0.30067E+04, tol = 0.57679E+04, time = 11.88 | CG iter. 40 -- res = 0.24976E+04, tol = 0.57679E+04, time = 12.22 | CG iter. 41 -- res = 0.20502E+04, tol = 0.57679E+04, time = 11.54 | CG iter. 42 -- res = 0.17015E+04, tol = 0.57679E+04, time = 11.76 | CG iter. 43 -- res = 0.14731E+04, tol = 0.57679E+04, time = 11.69 | CG iter. 44 -- res = 0.13898E+04, tol = 0.57679E+04, time = 17.58 | CG iter. 45 -- res = 0.13491E+04, tol = 0.57679E+04, time = 12.16 | CG iter. 46 -- res = 0.12420E+04, tol = 0.57679E+04, time = 11.93 | CG iter. 47 -- res = 0.11205E+04, tol = 0.57679E+04, time = 12.02 | CG iter. 48 -- res = 0.99205E+03, tol = 0.57679E+04, time = 11.86 | CG iter. 49 -- res = 0.87627E+03, tol = 0.57679E+04, time = 12.03 | CG iter. 50 -- res = 0.80156E+03, tol = 0.57679E+04, time = 11.93 | CG iter. 51 -- res = 0.74524E+03, tol = 0.57679E+04, time = 13.39 | CG iter. 52 -- res = 0.69804E+03, tol = 0.57679E+04, time = 12.10 | CG iter. 53 -- res = 0.63353E+03, tol = 0.57679E+04, time = 11.77 | CG iter. 54 -- res = 0.55622E+03, tol = 0.57679E+04, time = 11.99 | CG iter. 55 -- res = 0.49222E+03, tol = 0.57679E+04, time = 11.89 | CG iter. 56 -- res = 0.43950E+03, tol = 0.57679E+04, time = 12.10 | CG iter. 57 -- res = 0.40893E+03, tol = 0.57679E+04, time = 11.59 | CG iter. 58 -- res = 0.39476E+03, tol = 0.57679E+04, time = 11.66 | CG iter. 59 -- res = 0.38096E+03, tol = 0.57679E+04, time = 12.04 | CG iter. 60 -- res = 0.35191E+03, tol = 0.57679E+04, time = 12.42 | Final CG iter 61 -- res = 0.35191E+03, tol = 0.57679E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.823 ( -229.906 -2231.547 2514.323 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7039622.230 | Old band monopole 7146968.288 | Change to band monopole -107346.058 | Change to component monopole 107345.596 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.398 2.752 | New value 2.462 | Old value -0.398 | Difference 2.860 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.936 ( 6.652 13.731 -14.033 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.534 4.738 | New value 0.998 | Old value -6.534 | Difference 7.532 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.53512E+06, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.56133E+02, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.25418E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.33722E-02, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.70763E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7039591.951 | (Sampled value in CG: 7024174.184 ) | Chain = 1 -- chisq = 0.81490094E+09 | Chain = 1 -- wall time = 6082.418 sec Available RAM: MemAvailable: 379370812 kB Available Swap: SwapFree: 1110198876 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 253 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441832 | --> Sampling calibration, mode = relcal | relcal = 1.3421590E-02 7.4608106E-04 -1.5928224E-03 -1.2574849E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1122942 0.1265780 97045486.6032834 | BP delta = 9.8560505E-02 0.1128443 97045492.9837992 | BP chisq diff = 6.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632618 | --> Sampling calibration, mode = relcal | relcal = -2.8217589E-03 -7.0464844E-04 1.6789993E-03 1.6145994E-03 -4.0741818E-04 6.4022676E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5390319 15218864.5248411 | BP delta = 0.0000000E+00 -0.5322468 15218866.7550325 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18138619203307 | --> Sampling calibration, mode = relcal | relcal = -7.5799227E-02 -5.8891285E-02 9.2656001E-02 4.2034511E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3496183E-04 5.2125617E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5566E-05 | 2: delta_r/delta_0: 1.1416E-06 | 3: delta_s/delta_0: 1.8618E-07 | 4: delta_r/delta_0: 2.1113E-08 | 5: delta_s/delta_0: 4.6914E-09 | 6: delta_r/delta_0: 1.7192E-09 | 7: delta_s/delta_0: 3.9940E-10 | 8: delta_r/delta_0: 1.1359E-10 | 9: delta_s/delta_0: 1.6080E-10 | 10: delta_r/delta_0: 6.2010E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.169242551170753E-003 2.740041943969154E-005 | BP delta = 7.7475786E-02 9.6746147E-02 50479943.1508266 | BP delta = 7.3801331E-02 9.3071692E-02 50479946.5856016 | BP chisq diff = 3.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02617385 | --> Sampling calibration, mode = relcal | relcal = -0.1066966 -9.5583096E-02 0.1450330 5.7246782E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5258546E-03 1.8294904E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6030E-05 | 2: delta_r/delta_0: 1.5993E-06 | 3: delta_s/delta_0: 2.3444E-07 | 4: delta_r/delta_0: 5.9724E-08 | 5: delta_s/delta_0: 1.9844E-08 | 6: delta_r/delta_0: 8.4249E-09 | 7: delta_s/delta_0: 3.4016E-08 | 8: delta_r/delta_0: 1.2000E-09 | 9: delta_s/delta_0: 1.1045E-09 | 10: delta_r/delta_0: 2.1505E-10 | 11: delta_s/delta_0: 7.5162E-10 | 12: delta_r/delta_0: 2.7503E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.027393499641821E-002 2.810361039393681E-005 | BP delta = -0.2635595 -0.2378418 57392998.4145910 | BP delta = -0.2537309 -0.2280131 57393000.0094846 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81257475 | --> Sampling calibration, mode = relcal | relcal = 0.2955674 0.2249923 -0.2839255 -0.2366342 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.0033006E-04 4.9584699E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8834E-03 | 2: delta_r/delta_0: 4.3527E-05 | 3: delta_s/delta_0: 1.2726E-05 | 4: delta_r/delta_0: 3.7934E-07 | 5: delta_s/delta_0: 7.5714E-05 | 6: delta_r/delta_0: 5.6454E-06 | 7: delta_s/delta_0: 5.6622E-08 | 8: delta_r/delta_0: 3.2059E-08 | 9: delta_s/delta_0: 1.6629E-07 | 10: delta_r/delta_0: 4.4172E-09 | 11: delta_s/delta_0: 1.6112E-09 | 12: delta_r/delta_0: 5.0732E-10 | 13: delta_s/delta_0: 2.0160E-10 | 14: delta_r/delta_0: 7.7643E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.581183787074851E-002 4.019999341689830E-005 | BP delta = -0.1318609 -0.1394367 72490998.0992843 | BP delta = -0.1767862 -0.1843620 72490997.3327811 | BP chisq diff = -0.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95945453 | --> Sampling calibration, mode = relcal | relcal = 0.1065610 0.1395817 -0.1103556 -0.1357871 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0594722E-02 1.3286724E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0175E-03 | 2: delta_r/delta_0: 2.4661E-05 | 3: delta_s/delta_0: 3.9574E-05 | 4: delta_r/delta_0: 2.3250E-06 | 5: delta_s/delta_0: 4.0046E-07 | 6: delta_r/delta_0: 1.6954E-07 | 7: delta_s/delta_0: 4.0308E-07 | 8: delta_r/delta_0: 4.2003E-08 | 9: delta_s/delta_0: 4.1283E-08 | 10: delta_r/delta_0: 4.0636E-09 | 11: delta_s/delta_0: 2.4452E-09 | 12: delta_r/delta_0: 1.0149E-09 | 13: delta_s/delta_0: 2.0066E-09 | 14: delta_r/delta_0: 1.1716E-10 | 15: delta_s/delta_0: 6.1522E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.477119899358994E-002 3.696029842569011E-005 | BP delta = 0.1141720 0.2254267 72778577.2009014 | BP delta = 0.1278632 0.2391179 72778577.2576197 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131531 | New value = -3.126789 | poltype: 2 pol: 1 CPU time specind = 1.0159016E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.054482 | New value = -3.098320 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.130693 | New value = -3.176018 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178533 | New value = -3.141178 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.110688 | New value = -3.134489 | poltype: 2 pol: 2 CPU time specind = 6.5271854E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.13560E+08, tol = 0.94605E+01, time = 5.37 | CG iter. 2 -- res = 0.32004E+06, tol = 0.94605E+01, time = 5.54 | CG iter. 3 -- res = 0.47314E+05, tol = 0.94605E+01, time = 5.75 | CG iter. 4 -- res = 0.23781E+05, tol = 0.94605E+01, time = 5.31 | CG iter. 5 -- res = 0.13431E+05, tol = 0.94605E+01, time = 5.77 | CG iter. 6 -- res = 0.93473E+04, tol = 0.94605E+01, time = 6.09 | CG iter. 7 -- res = 0.84239E+04, tol = 0.94605E+01, time = 5.72 | CG iter. 8 -- res = 0.78375E+04, tol = 0.94605E+01, time = 5.86 | CG iter. 9 -- res = 0.76697E+04, tol = 0.94605E+01, time = 5.88 | CG iter. 10 -- res = 0.80426E+04, tol = 0.94605E+01, time = 5.58 | CG iter. 11 -- res = 0.64909E+04, tol = 0.94605E+01, time = 5.66 | CG iter. 12 -- res = 0.41165E+04, tol = 0.94605E+01, time = 5.57 | CG iter. 13 -- res = 0.26541E+04, tol = 0.94605E+01, time = 6.61 | CG iter. 14 -- res = 0.20889E+04, tol = 0.94605E+01, time = 6.57 | CG iter. 15 -- res = 0.18527E+04, tol = 0.94605E+01, time = 6.21 | CG iter. 16 -- res = 0.15220E+04, tol = 0.94605E+01, time = 5.53 | CG iter. 17 -- res = 0.11984E+04, tol = 0.94605E+01, time = 5.97 | CG iter. 18 -- res = 0.94775E+03, tol = 0.94605E+01, time = 5.55 | CG iter. 19 -- res = 0.81843E+03, tol = 0.94605E+01, time = 5.59 | CG iter. 20 -- res = 0.65024E+03, tol = 0.94605E+01, time = 5.79 | CG iter. 21 -- res = 0.45583E+03, tol = 0.94605E+01, time = 5.79 | CG iter. 22 -- res = 0.33206E+03, tol = 0.94605E+01, time = 5.74 | CG iter. 23 -- res = 0.28613E+03, tol = 0.94605E+01, time = 5.61 | CG iter. 24 -- res = 0.25270E+03, tol = 0.94605E+01, time = 5.83 | CG iter. 25 -- res = 0.20127E+03, tol = 0.94605E+01, time = 5.70 | CG iter. 26 -- res = 0.15643E+03, tol = 0.94605E+01, time = 5.60 | CG iter. 27 -- res = 0.13701E+03, tol = 0.94605E+01, time = 6.02 | CG iter. 28 -- res = 0.12765E+03, tol = 0.94605E+01, time = 5.65 | CG iter. 29 -- res = 0.10685E+03, tol = 0.94605E+01, time = 5.94 | CG iter. 30 -- res = 0.85548E+02, tol = 0.94605E+01, time = 5.55 | CG iter. 31 -- res = 0.72422E+02, tol = 0.94605E+01, time = 5.50 | CG iter. 32 -- res = 0.65165E+02, tol = 0.94605E+01, time = 5.94 | CG iter. 33 -- res = 0.54369E+02, tol = 0.94605E+01, time = 5.47 | CG iter. 34 -- res = 0.40422E+02, tol = 0.94605E+01, time = 5.37 | CG iter. 35 -- res = 0.31232E+02, tol = 0.94605E+01, time = 5.77 | CG iter. 36 -- res = 0.25518E+02, tol = 0.94605E+01, time = 5.79 | CG iter. 37 -- res = 0.20703E+02, tol = 0.94605E+01, time = 5.47 | CG iter. 38 -- res = 0.14836E+02, tol = 0.94605E+01, time = 6.04 | CG iter. 39 -- res = 0.10573E+02, tol = 0.94605E+01, time = 6.14 | CG iter. 40 -- res = 0.80080E+01, tol = 0.94605E+01, time = 5.57 | CG iter. 41 -- res = 0.61536E+01, tol = 0.94605E+01, time = 5.78 | CG iter. 42 -- res = 0.45091E+01, tol = 0.94605E+01, time = 5.50 | CG iter. 43 -- res = 0.33481E+01, tol = 0.94605E+01, time = 5.95 | CG iter. 44 -- res = 0.25034E+01, tol = 0.94605E+01, time = 6.00 | CG iter. 45 -- res = 0.20686E+01, tol = 0.94605E+01, time = 5.97 | CG iter. 46 -- res = 0.16181E+01, tol = 0.94605E+01, time = 5.89 | CG iter. 47 -- res = 0.12646E+01, tol = 0.94605E+01, time = 5.71 | CG iter. 48 -- res = 0.94611E+00, tol = 0.94605E+01, time = 5.74 | CG iter. 49 -- res = 0.75827E+00, tol = 0.94605E+01, time = 12.25 | CG iter. 50 -- res = 0.59210E+00, tol = 0.94605E+01, time = 5.81 | Final CG iter 51 -- res = 0.59210E+00, tol = 0.94605E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6507681.190 | Old band monopole 7039622.230 | Change to band monopole -531941.041 | Change to component monopole 531938.753 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.12178E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.27186E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.40289E+00, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.12441E-03, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.24613E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6507653.199 | (Sampled value in CG: 6511727.429 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.536319 | New value = 1.518202 | poltype: 2 pol: 1 CPU time specind = 1.0014057E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.500148 | New value = 1.448313 | poltype: 2 pol: 2 CPU time specind = 4.9569607E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.24043E+08, tol = 0.47622E+04, time = 6.53 | CG iter. 2 -- res = 0.52316E+07, tol = 0.47622E+04, time = 6.32 | CG iter. 3 -- res = 0.81529E+06, tol = 0.47622E+04, time = 6.44 | CG iter. 4 -- res = 0.33734E+06, tol = 0.47622E+04, time = 6.59 | CG iter. 5 -- res = 0.14645E+06, tol = 0.47622E+04, time = 6.12 | CG iter. 6 -- res = 0.78400E+05, tol = 0.47622E+04, time = 6.41 | CG iter. 7 -- res = 0.44046E+05, tol = 0.47622E+04, time = 6.88 | CG iter. 8 -- res = 0.20576E+05, tol = 0.47622E+04, time = 6.29 | CG iter. 9 -- res = 0.88325E+04, tol = 0.47622E+04, time = 6.62 | CG iter. 10 -- res = 0.35964E+04, tol = 0.47622E+04, time = 6.39 | CG iter. 11 -- res = 0.16479E+04, tol = 0.47622E+04, time = 6.53 | CG iter. 12 -- res = 0.86955E+03, tol = 0.47622E+04, time = 7.14 | CG iter. 13 -- res = 0.49324E+03, tol = 0.47622E+04, time = 6.36 | CG iter. 14 -- res = 0.27486E+03, tol = 0.47622E+04, time = 6.93 | CG iter. 15 -- res = 0.14034E+03, tol = 0.47622E+04, time = 6.55 | CG iter. 16 -- res = 0.66345E+02, tol = 0.47622E+04, time = 6.57 | CG iter. 17 -- res = 0.30881E+02, tol = 0.47622E+04, time = 6.62 | CG iter. 18 -- res = 0.15595E+02, tol = 0.47622E+04, time = 6.22 | CG iter. 19 -- res = 0.85793E+01, tol = 0.47622E+04, time = 6.86 | CG iter. 20 -- res = 0.48687E+01, tol = 0.47622E+04, time = 6.16 | CG iter. 21 -- res = 0.26426E+01, tol = 0.47622E+04, time = 6.49 | CG iter. 22 -- res = 0.13397E+01, tol = 0.47622E+04, time = 6.85 | CG iter. 23 -- res = 0.66633E+00, tol = 0.47622E+04, time = 6.41 | CG iter. 24 -- res = 0.33665E+00, tol = 0.47622E+04, time = 6.58 | CG iter. 25 -- res = 0.18440E+00, tol = 0.47622E+04, time = 6.32 | CG iter. 26 -- res = 0.10590E+00, tol = 0.47622E+04, time = 6.23 | CG iter. 27 -- res = 0.59748E-01, tol = 0.47622E+04, time = 12.53 | CG iter. 28 -- res = 0.31779E-01, tol = 0.47622E+04, time = 6.74 | CG iter. 29 -- res = 0.16251E-01, tol = 0.47622E+04, time = 6.34 | CG iter. 30 -- res = 0.85343E-02, tol = 0.47622E+04, time = 6.35 | CG iter. 31 -- res = 0.46990E-02, tol = 0.47622E+04, time = 6.22 | CG iter. 32 -- res = 0.26514E-02, tol = 0.47622E+04, time = 6.70 | CG iter. 33 -- res = 0.14946E-02, tol = 0.47622E+04, time = 6.54 | CG iter. 34 -- res = 0.79370E-03, tol = 0.47622E+04, time = 6.86 | CG iter. 35 -- res = 0.40579E-03, tol = 0.47622E+04, time = 6.72 | Final CG iter 36 -- res = 0.40579E-03, tol = 0.47622E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.472 2.747 | New value 4.055 | Old value 2.472 | Difference 1.583 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.13170E+06, tol = 0.47627E+18, time = 2.17 | CG iter. 2 -- res = 0.18858E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.72260E-01, tol = 0.47627E+18, time = 2.40 | CG iter. 4 -- res = 0.75624E-04, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.39539E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6507653.199 | (Sampled value in CG: 6511520.732 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.573173 | New value = -3.565378 | poltype: 1 pol: 1 CPU time specind = 2.3512840E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.20932E+07, tol = 0.32014E+01, time = 2.68 | CG iter. 2 -- res = 0.70962E+06, tol = 0.32014E+01, time = 2.86 | CG iter. 3 -- res = 0.12907E+06, tol = 0.32014E+01, time = 2.82 | CG iter. 4 -- res = 0.50724E+05, tol = 0.32014E+01, time = 2.68 | CG iter. 5 -- res = 0.28617E+05, tol = 0.32014E+01, time = 2.85 | CG iter. 6 -- res = 0.15246E+05, tol = 0.32014E+01, time = 3.02 | CG iter. 7 -- res = 0.62343E+04, tol = 0.32014E+01, time = 2.69 | CG iter. 8 -- res = 0.27940E+04, tol = 0.32014E+01, time = 2.99 | CG iter. 9 -- res = 0.12347E+04, tol = 0.32014E+01, time = 2.90 | CG iter. 10 -- res = 0.50724E+03, tol = 0.32014E+01, time = 2.95 | CG iter. 11 -- res = 0.20394E+03, tol = 0.32014E+01, time = 4.16 | CG iter. 12 -- res = 0.96770E+02, tol = 0.32014E+01, time = 3.30 | CG iter. 13 -- res = 0.50268E+02, tol = 0.32014E+01, time = 2.55 | CG iter. 14 -- res = 0.26237E+02, tol = 0.32014E+01, time = 3.08 | CG iter. 15 -- res = 0.11504E+02, tol = 0.32014E+01, time = 2.76 | CG iter. 16 -- res = 0.49790E+01, tol = 0.32014E+01, time = 2.55 | CG iter. 17 -- res = 0.21118E+01, tol = 0.32014E+01, time = 2.70 | CG iter. 18 -- res = 0.91445E+00, tol = 0.32014E+01, time = 2.83 | CG iter. 19 -- res = 0.47682E+00, tol = 0.32014E+01, time = 2.48 | CG iter. 20 -- res = 0.25985E+00, tol = 0.32014E+01, time = 3.00 | CG iter. 21 -- res = 0.13040E+00, tol = 0.32014E+01, time = 2.70 | CG iter. 22 -- res = 0.63046E-01, tol = 0.32014E+01, time = 2.48 | CG iter. 23 -- res = 0.29369E-01, tol = 0.32014E+01, time = 2.75 | CG iter. 24 -- res = 0.13850E-01, tol = 0.32014E+01, time = 2.84 | CG iter. 25 -- res = 0.65081E-02, tol = 0.32014E+01, time = 2.60 | CG iter. 26 -- res = 0.31894E-02, tol = 0.32014E+01, time = 2.96 | CG iter. 27 -- res = 0.17575E-02, tol = 0.32014E+01, time = 2.71 | CG iter. 28 -- res = 0.90482E-03, tol = 0.32014E+01, time = 2.77 | CG iter. 29 -- res = 0.40299E-03, tol = 0.32014E+01, time = 2.84 | CG iter. 30 -- res = 0.18444E-03, tol = 0.32014E+01, time = 2.63 | CG iter. 31 -- res = 0.87789E-04, tol = 0.32014E+01, time = 2.55 | CG iter. 32 -- res = 0.44967E-04, tol = 0.32014E+01, time = 2.80 | CG iter. 33 -- res = 0.22716E-04, tol = 0.32014E+01, time = 2.53 | CG iter. 34 -- res = 0.11253E-04, tol = 0.32014E+01, time = 2.90 | CG iter. 35 -- res = 0.53337E-05, tol = 0.32014E+01, time = 2.65 | CG iter. 36 -- res = 0.25082E-05, tol = 0.32014E+01, time = 2.72 | CG iter. 37 -- res = 0.11183E-05, tol = 0.32014E+01, time = 2.49 | CG iter. 38 -- res = 0.58066E-06, tol = 0.32014E+01, time = 2.86 | CG iter. 39 -- res = 0.29160E-06, tol = 0.32014E+01, time = 2.65 | CG iter. 40 -- res = 0.14090E-06, tol = 0.32014E+01, time = 2.47 | CG iter. 41 -- res = 0.65192E-07, tol = 0.32014E+01, time = 2.96 | CG iter. 42 -- res = 0.30786E-07, tol = 0.32014E+01, time = 2.71 | CG iter. 43 -- res = 0.15086E-07, tol = 0.32014E+01, time = 2.82 | CG iter. 44 -- res = 0.71167E-08, tol = 0.32014E+01, time = 2.69 | CG iter. 45 -- res = 0.34369E-08, tol = 0.32014E+01, time = 2.83 | CG iter. 46 -- res = 0.16925E-08, tol = 0.32014E+01, time = 2.73 | CG iter. 47 -- res = 0.81472E-09, tol = 0.32014E+01, time = 2.88 | CG iter. 48 -- res = 0.38849E-09, tol = 0.32014E+01, time = 2.92 | CG iter. 49 -- res = 0.18429E-09, tol = 0.32014E+01, time = 2.68 | CG iter. 50 -- res = 0.88219E-10, tol = 0.32014E+01, time = 3.26 | Final CG iter 51 -- res = 0.88219E-10, tol = 0.32014E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.419 4.718 | New value 2.639 | Old value 1.419 | Difference 1.220 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.16011E+04, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.14548E+02, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.10393E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.17805E-03, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.15154E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6507653.199 | (Sampled value in CG: 6515681.793 ) | CPU time specind = 1189.968 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.68274E+08, tol = 0.57723E+04, time = 13.01 | CG iter. 2 -- res = 0.58480E+08, tol = 0.57723E+04, time = 17.24 | CG iter. 3 -- res = 0.15197E+08, tol = 0.57723E+04, time = 11.33 | CG iter. 4 -- res = 0.64217E+07, tol = 0.57723E+04, time = 11.78 | CG iter. 5 -- res = 0.38081E+07, tol = 0.57723E+04, time = 12.09 | CG iter. 6 -- res = 0.21930E+07, tol = 0.57723E+04, time = 12.14 | CG iter. 7 -- res = 0.13026E+07, tol = 0.57723E+04, time = 11.45 | CG iter. 8 -- res = 0.86356E+06, tol = 0.57723E+04, time = 11.47 | CG iter. 9 -- res = 0.55870E+06, tol = 0.57723E+04, time = 13.37 | CG iter. 10 -- res = 0.33546E+06, tol = 0.57723E+04, time = 12.20 | CG iter. 11 -- res = 0.18125E+06, tol = 0.57723E+04, time = 11.68 | CG iter. 12 -- res = 0.96087E+05, tol = 0.57723E+04, time = 11.49 | CG iter. 13 -- res = 0.52289E+05, tol = 0.57723E+04, time = 12.29 | CG iter. 14 -- res = 0.29893E+05, tol = 0.57723E+04, time = 11.69 | CG iter. 15 -- res = 0.19178E+05, tol = 0.57723E+04, time = 11.59 | CG iter. 16 -- res = 0.13756E+05, tol = 0.57723E+04, time = 11.93 | CG iter. 17 -- res = 0.10145E+05, tol = 0.57723E+04, time = 11.77 | CG iter. 18 -- res = 0.72795E+04, tol = 0.57723E+04, time = 12.03 | CG iter. 19 -- res = 0.51544E+04, tol = 0.57723E+04, time = 11.76 | CG iter. 20 -- res = 0.36289E+04, tol = 0.57723E+04, time = 11.85 | CG iter. 21 -- res = 0.28012E+04, tol = 0.57723E+04, time = 11.43 | CG iter. 22 -- res = 0.25377E+04, tol = 0.57723E+04, time = 11.73 | CG iter. 23 -- res = 0.26388E+04, tol = 0.57723E+04, time = 11.86 | CG iter. 24 -- res = 0.29567E+04, tol = 0.57723E+04, time = 11.55 | CG iter. 25 -- res = 0.32317E+04, tol = 0.57723E+04, time = 11.76 | CG iter. 26 -- res = 0.33078E+04, tol = 0.57723E+04, time = 18.39 | CG iter. 27 -- res = 0.31121E+04, tol = 0.57723E+04, time = 12.11 | CG iter. 28 -- res = 0.27059E+04, tol = 0.57723E+04, time = 11.89 | CG iter. 29 -- res = 0.23214E+04, tol = 0.57723E+04, time = 11.43 | CG iter. 30 -- res = 0.20681E+04, tol = 0.57723E+04, time = 12.08 | CG iter. 31 -- res = 0.18158E+04, tol = 0.57723E+04, time = 11.69 | CG iter. 32 -- res = 0.15384E+04, tol = 0.57723E+04, time = 11.44 | CG iter. 33 -- res = 0.12290E+04, tol = 0.57723E+04, time = 12.52 | CG iter. 34 -- res = 0.93017E+03, tol = 0.57723E+04, time = 13.75 | CG iter. 35 -- res = 0.69150E+03, tol = 0.57723E+04, time = 11.87 | CG iter. 36 -- res = 0.55808E+03, tol = 0.57723E+04, time = 11.69 | CG iter. 37 -- res = 0.49156E+03, tol = 0.57723E+04, time = 11.66 | CG iter. 38 -- res = 0.46949E+03, tol = 0.57723E+04, time = 12.05 | CG iter. 39 -- res = 0.46690E+03, tol = 0.57723E+04, time = 12.09 | CG iter. 40 -- res = 0.45568E+03, tol = 0.57723E+04, time = 11.67 | CG iter. 41 -- res = 0.42011E+03, tol = 0.57723E+04, time = 11.80 | CG iter. 42 -- res = 0.37131E+03, tol = 0.57723E+04, time = 12.61 | CG iter. 43 -- res = 0.33584E+03, tol = 0.57723E+04, time = 11.20 | CG iter. 44 -- res = 0.31409E+03, tol = 0.57723E+04, time = 11.73 | CG iter. 45 -- res = 0.29832E+03, tol = 0.57723E+04, time = 11.80 | CG iter. 46 -- res = 0.27850E+03, tol = 0.57723E+04, time = 11.90 | CG iter. 47 -- res = 0.24940E+03, tol = 0.57723E+04, time = 11.46 | CG iter. 48 -- res = 0.21376E+03, tol = 0.57723E+04, time = 11.83 | CG iter. 49 -- res = 0.17507E+03, tol = 0.57723E+04, time = 11.29 | CG iter. 50 -- res = 0.14673E+03, tol = 0.57723E+04, time = 11.72 | CG iter. 51 -- res = 0.13036E+03, tol = 0.57723E+04, time = 18.12 | CG iter. 52 -- res = 0.12328E+03, tol = 0.57723E+04, time = 12.20 | CG iter. 53 -- res = 0.11675E+03, tol = 0.57723E+04, time = 11.85 | CG iter. 54 -- res = 0.11131E+03, tol = 0.57723E+04, time = 11.85 | CG iter. 55 -- res = 0.10430E+03, tol = 0.57723E+04, time = 12.19 | CG iter. 56 -- res = 0.97652E+02, tol = 0.57723E+04, time = 11.97 | CG iter. 57 -- res = 0.90673E+02, tol = 0.57723E+04, time = 12.26 | CG iter. 58 -- res = 0.84851E+02, tol = 0.57723E+04, time = 13.57 | CG iter. 59 -- res = 0.79468E+02, tol = 0.57723E+04, time = 12.04 | CG iter. 60 -- res = 0.76190E+02, tol = 0.57723E+04, time = 11.83 | Final CG iter 61 -- res = 0.76190E+02, tol = 0.57723E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.723 ( -229.788 -2230.697 2513.207 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7950292.706 | Old band monopole 6507681.190 | Change to band monopole 1442611.516 | Change to component monopole -1442605.312 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.053 2.731 | New value -6.310 | Old value 4.053 | Difference -10.362 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.269 ( 6.406 11.553 -11.439 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.581 4.947 | New value 6.889 | Old value 6.581 | Difference 0.308 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.55520E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.26067E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.76974E+00, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.14202E-02, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.16450E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7950258.510 | (Sampled value in CG: 7929543.673 ) | Chain = 1 -- chisq = 0.81503062E+09 | Chain = 1 -- wall time = 5615.628 sec Available RAM: MemAvailable: 379539856 kB Available Swap: SwapFree: 1110729308 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 254 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443353 | --> Sampling calibration, mode = relcal | relcal = 1.3428252E-02 7.4957276E-04 -1.6018655E-03 -1.2575959E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.8560505E-02 0.1128443 9408154.00901303 | BP delta = 9.8560505E-02 0.1166788 9408124.13453418 | BP chisq diff = -29.9, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632514 | --> Sampling calibration, mode = relcal | relcal = -2.8213186E-03 -7.0419320E-04 1.6791527E-03 1.6134980E-03 -4.0657414E-04 6.3943525E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5390319 15216732.6628808 | BP delta = 0.0000000E+00 -0.5428891 15216733.6595945 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18647228342471 | --> Sampling calibration, mode = relcal | relcal = -7.6250441E-02 -5.9503578E-02 9.3346991E-02 4.2407032E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.4989817E-05 6.7784423E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3354E-05 | 2: delta_r/delta_0: 1.6893E-06 | 3: delta_s/delta_0: 2.0197E-07 | 4: delta_r/delta_0: 3.0271E-08 | 5: delta_s/delta_0: 8.5893E-09 | 6: delta_r/delta_0: 3.1273E-09 | 7: delta_s/delta_0: 9.1285E-10 | 8: delta_r/delta_0: 2.2502E-10 | 9: delta_s/delta_0: 1.3965E-10 | 10: delta_r/delta_0: 6.2102E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.176357401250859E-003 2.728248985877548E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3356E-05 | 2: delta_r/delta_0: 1.6893E-06 | 3: delta_s/delta_0: 2.0197E-07 | 4: delta_r/delta_0: 3.0269E-08 | 5: delta_s/delta_0: 8.5882E-09 | 6: delta_r/delta_0: 3.1270E-09 | 7: delta_s/delta_0: 9.1289E-10 | 8: delta_r/delta_0: 2.2501E-10 | 9: delta_s/delta_0: 1.3958E-10 | 10: delta_r/delta_0: 6.2081E-11 | Reached bicg-stab tolerance | BP delta = 7.3801331E-02 9.3071692E-02 3519022.49407723 | BP delta = 7.3801331E-02 9.3061432E-02 3521437.58139380 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02601343 | --> Sampling calibration, mode = relcal | relcal = -0.1066878 -9.5565505E-02 0.1449229 5.7330400E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2308251E-03 1.4368623E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.4041E-05 | 2: delta_r/delta_0: 2.1082E-06 | 3: delta_s/delta_0: 2.1455E-07 | 4: delta_r/delta_0: 4.8476E-08 | 5: delta_s/delta_0: 2.9928E-08 | 6: delta_r/delta_0: 7.3088E-09 | 7: delta_s/delta_0: 7.1099E-09 | 8: delta_r/delta_0: 1.6346E-09 | 9: delta_s/delta_0: 8.4326E-10 | 10: delta_r/delta_0: 2.8218E-10 | 11: delta_s/delta_0: 3.5448E-10 | 12: delta_r/delta_0: 3.4065E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.046197816314717E-002 2.810797440019574E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.4043E-05 | 2: delta_r/delta_0: 2.1083E-06 | 3: delta_s/delta_0: 2.1456E-07 | 4: delta_r/delta_0: 4.8494E-08 | 5: delta_s/delta_0: 2.9907E-08 | 6: delta_r/delta_0: 7.3103E-09 | 7: delta_s/delta_0: 7.1108E-09 | 8: delta_r/delta_0: 1.6349E-09 | 9: delta_s/delta_0: 8.4355E-10 | 10: delta_r/delta_0: 2.8207E-10 | 11: delta_s/delta_0: 3.5455E-10 | 12: delta_r/delta_0: 3.4046E-11 | Reached bicg-stab tolerance | BP delta = -0.2635595 -0.2378418 2841464.93308871 | BP delta = -0.2635595 -0.2387643 2841492.49061614 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236200 | --> Sampling calibration, mode = relcal | relcal = 0.2955356 0.2249442 -0.2838681 -0.2366117 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0702427E-04 5.5578123E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5592E-01 | 2: delta_r/delta_0: 3.6683E-03 | 3: delta_s/delta_0: 4.8579E-03 | 4: delta_r/delta_0: 2.8381E-04 | 5: delta_s/delta_0: 7.8427E-02 | 6: delta_r/delta_0: 3.2850E-02 | 7: delta_s/delta_0: 7.8137E-05 | 8: delta_r/delta_0: 1.7461E-05 | 9: delta_s/delta_0: 6.2511E-06 | 10: delta_r/delta_0: 3.7436E-07 | 11: delta_s/delta_0: 1.3465E-06 | 12: delta_r/delta_0: 4.7691E-08 | 13: delta_s/delta_0: 1.2508E-08 | 14: delta_r/delta_0: 2.6961E-09 | 15: delta_s/delta_0: 1.8263E-09 | 16: delta_r/delta_0: 9.8409E-10 | 17: delta_s/delta_0: 4.3853E-10 | 18: delta_r/delta_0: 1.7521E-10 | 19: delta_s/delta_0: 1.0782E-07 | 20: delta_r/delta_0: 9.5420E-09 | 21: delta_s/delta_0: 6.3786E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.170651577584898 4.021163532375775E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5614E-01 | 2: delta_r/delta_0: 3.6735E-03 | 3: delta_s/delta_0: 4.8650E-03 | 4: delta_r/delta_0: 2.8422E-04 | 5: delta_s/delta_0: 9.6837E-02 | 6: delta_r/delta_0: 4.0566E-02 | 7: delta_s/delta_0: 7.8063E-05 | 8: delta_r/delta_0: 1.7440E-05 | 9: delta_s/delta_0: 6.2336E-06 | 10: delta_r/delta_0: 3.7486E-07 | 11: delta_s/delta_0: 1.3484E-06 | 12: delta_r/delta_0: 4.7705E-08 | 13: delta_s/delta_0: 1.2540E-08 | 14: delta_r/delta_0: 2.6928E-09 | 15: delta_s/delta_0: 1.8216E-09 | 16: delta_r/delta_0: 9.8665E-10 | 17: delta_s/delta_0: 4.3682E-10 | 18: delta_r/delta_0: 1.7550E-10 | 19: delta_s/delta_0: 6.5242E-08 | 20: delta_r/delta_0: 6.0512E-09 | 21: delta_s/delta_0: 6.4040E-11 | Reached bicg-stab tolerance | BP delta = -0.1767862 -0.1843620 2827295.50297001 | BP delta = -0.1767862 -0.1892091 2827310.67213342 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95921191 | --> Sampling calibration, mode = relcal | relcal = 0.1064646 0.1394909 -0.1101919 -0.1357636 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6737957E-03 1.3879619E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1972E-03 | 2: delta_r/delta_0: 2.9021E-05 | 3: delta_s/delta_0: 1.8508E-05 | 4: delta_r/delta_0: 1.4655E-06 | 5: delta_s/delta_0: 5.6149E-07 | 6: delta_r/delta_0: 2.1076E-07 | 7: delta_s/delta_0: 4.4192E-07 | 8: delta_r/delta_0: 4.4403E-08 | 9: delta_s/delta_0: 6.5876E-07 | 10: delta_r/delta_0: 1.8681E-07 | 11: delta_s/delta_0: 2.9786E-09 | 12: delta_r/delta_0: 1.4656E-09 | 13: delta_s/delta_0: 1.4800E-09 | 14: delta_r/delta_0: 3.7567E-10 | 15: delta_s/delta_0: 1.0100E-10 | 16: delta_r/delta_0: 2.7867E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.608791342034969E-002 3.696893785312689E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1978E-03 | 2: delta_r/delta_0: 2.9035E-05 | 3: delta_s/delta_0: 1.8514E-05 | 4: delta_r/delta_0: 1.4660E-06 | 5: delta_s/delta_0: 5.6182E-07 | 6: delta_r/delta_0: 2.1088E-07 | 7: delta_s/delta_0: 4.4246E-07 | 8: delta_r/delta_0: 4.4413E-08 | 9: delta_s/delta_0: 6.4913E-07 | 10: delta_r/delta_0: 1.8395E-07 | 11: delta_s/delta_0: 2.9802E-09 | 12: delta_r/delta_0: 1.4677E-09 | 13: delta_s/delta_0: 1.4716E-09 | 14: delta_r/delta_0: 3.7715E-10 | 15: delta_s/delta_0: 1.0106E-10 | 16: delta_r/delta_0: 2.7865E-11 | Reached bicg-stab tolerance | BP delta = 0.1278632 0.2391179 3003985.03771264 | BP delta = 0.1278632 0.2445745 3004132.15392320 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126789 | New value = -3.159338 | poltype: 2 pol: 1 CPU time specind = 1.7709970E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.098320 | New value = -3.109484 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176018 | New value = -3.112522 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141178 | New value = -3.175199 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134489 | New value = -3.094098 | poltype: 2 pol: 2 CPU time specind = 1.3456106E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.45 | CG iter. 1 -- res = 0.13551E+08, tol = 0.86679E+01, time = 5.41 | CG iter. 2 -- res = 0.33301E+06, tol = 0.86679E+01, time = 5.72 | CG iter. 3 -- res = 0.47326E+05, tol = 0.86679E+01, time = 5.60 | CG iter. 4 -- res = 0.23659E+05, tol = 0.86679E+01, time = 5.59 | CG iter. 5 -- res = 0.14002E+05, tol = 0.86679E+01, time = 5.56 | CG iter. 6 -- res = 0.95008E+04, tol = 0.86679E+01, time = 5.50 | CG iter. 7 -- res = 0.80832E+04, tol = 0.86679E+01, time = 5.16 | CG iter. 8 -- res = 0.67419E+04, tol = 0.86679E+01, time = 5.73 | CG iter. 9 -- res = 0.61118E+04, tol = 0.86679E+01, time = 5.70 | CG iter. 10 -- res = 0.61122E+04, tol = 0.86679E+01, time = 5.63 | CG iter. 11 -- res = 0.46796E+04, tol = 0.86679E+01, time = 5.60 | CG iter. 12 -- res = 0.30687E+04, tol = 0.86679E+01, time = 5.76 | CG iter. 13 -- res = 0.21441E+04, tol = 0.86679E+01, time = 5.78 | CG iter. 14 -- res = 0.17778E+04, tol = 0.86679E+01, time = 5.58 | CG iter. 15 -- res = 0.15953E+04, tol = 0.86679E+01, time = 5.76 | CG iter. 16 -- res = 0.13347E+04, tol = 0.86679E+01, time = 5.74 | CG iter. 17 -- res = 0.99501E+03, tol = 0.86679E+01, time = 5.51 | CG iter. 18 -- res = 0.80330E+03, tol = 0.86679E+01, time = 5.63 | CG iter. 19 -- res = 0.66190E+03, tol = 0.86679E+01, time = 5.89 | CG iter. 20 -- res = 0.51012E+03, tol = 0.86679E+01, time = 5.56 | CG iter. 21 -- res = 0.36152E+03, tol = 0.86679E+01, time = 5.61 | CG iter. 22 -- res = 0.26980E+03, tol = 0.86679E+01, time = 5.80 | CG iter. 23 -- res = 0.23199E+03, tol = 0.86679E+01, time = 5.73 | CG iter. 24 -- res = 0.19479E+03, tol = 0.86679E+01, time = 5.65 | CG iter. 25 -- res = 0.14611E+03, tol = 0.86679E+01, time = 5.41 | CG iter. 26 -- res = 0.10234E+03, tol = 0.86679E+01, time = 5.53 | CG iter. 27 -- res = 0.78541E+02, tol = 0.86679E+01, time = 12.61 | CG iter. 28 -- res = 0.64731E+02, tol = 0.86679E+01, time = 5.62 | CG iter. 29 -- res = 0.50812E+02, tol = 0.86679E+01, time = 5.58 | CG iter. 30 -- res = 0.37993E+02, tol = 0.86679E+01, time = 5.85 | CG iter. 31 -- res = 0.30578E+02, tol = 0.86679E+01, time = 5.34 | CG iter. 32 -- res = 0.27117E+02, tol = 0.86679E+01, time = 5.77 | CG iter. 33 -- res = 0.22800E+02, tol = 0.86679E+01, time = 5.81 | CG iter. 34 -- res = 0.16801E+02, tol = 0.86679E+01, time = 6.04 | CG iter. 35 -- res = 0.13367E+02, tol = 0.86679E+01, time = 5.47 | CG iter. 36 -- res = 0.11843E+02, tol = 0.86679E+01, time = 5.83 | CG iter. 37 -- res = 0.10210E+02, tol = 0.86679E+01, time = 6.01 | CG iter. 38 -- res = 0.80992E+01, tol = 0.86679E+01, time = 5.59 | CG iter. 39 -- res = 0.62668E+01, tol = 0.86679E+01, time = 6.05 | CG iter. 40 -- res = 0.53362E+01, tol = 0.86679E+01, time = 5.82 | CG iter. 41 -- res = 0.46065E+01, tol = 0.86679E+01, time = 5.41 | CG iter. 42 -- res = 0.37066E+01, tol = 0.86679E+01, time = 7.24 | CG iter. 43 -- res = 0.29467E+01, tol = 0.86679E+01, time = 6.28 | CG iter. 44 -- res = 0.24829E+01, tol = 0.86679E+01, time = 5.72 | CG iter. 45 -- res = 0.20744E+01, tol = 0.86679E+01, time = 5.42 | CG iter. 46 -- res = 0.17521E+01, tol = 0.86679E+01, time = 5.72 | CG iter. 47 -- res = 0.14058E+01, tol = 0.86679E+01, time = 5.72 | CG iter. 48 -- res = 0.11318E+01, tol = 0.86679E+01, time = 5.75 | CG iter. 49 -- res = 0.98942E+00, tol = 0.86679E+01, time = 5.62 | CG iter. 50 -- res = 0.89319E+00, tol = 0.86679E+01, time = 5.64 | Final CG iter 51 -- res = 0.89319E+00, tol = 0.86679E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9350961.063 | Old band monopole 7950292.706 | Change to band monopole 1400668.357 | Change to component monopole -1400662.332 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.20620E+06, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.66191E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.28483E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.58138E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.32951E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9350920.842 | (Sampled value in CG: 9317236.125 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518202 | New value = 1.505260 | poltype: 2 pol: 1 CPU time specind = 2.0584106E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.448313 | New value = 1.443716 | poltype: 2 pol: 2 CPU time specind = 5.9418678E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.24037E+08, tol = 0.47500E+04, time = 6.49 | CG iter. 2 -- res = 0.52009E+07, tol = 0.47500E+04, time = 6.43 | CG iter. 3 -- res = 0.82133E+06, tol = 0.47500E+04, time = 6.35 | CG iter. 4 -- res = 0.34210E+06, tol = 0.47500E+04, time = 6.56 | CG iter. 5 -- res = 0.14819E+06, tol = 0.47500E+04, time = 6.94 | CG iter. 6 -- res = 0.78849E+05, tol = 0.47500E+04, time = 6.26 | CG iter. 7 -- res = 0.43352E+05, tol = 0.47500E+04, time = 11.93 | CG iter. 8 -- res = 0.20747E+05, tol = 0.47500E+04, time = 7.35 | CG iter. 9 -- res = 0.90286E+04, tol = 0.47500E+04, time = 6.82 | CG iter. 10 -- res = 0.36660E+04, tol = 0.47500E+04, time = 6.57 | CG iter. 11 -- res = 0.16733E+04, tol = 0.47500E+04, time = 6.58 | CG iter. 12 -- res = 0.87294E+03, tol = 0.47500E+04, time = 6.31 | CG iter. 13 -- res = 0.49054E+03, tol = 0.47500E+04, time = 6.33 | CG iter. 14 -- res = 0.28092E+03, tol = 0.47500E+04, time = 6.49 | CG iter. 15 -- res = 0.14525E+03, tol = 0.47500E+04, time = 6.79 | CG iter. 16 -- res = 0.66828E+02, tol = 0.47500E+04, time = 6.61 | CG iter. 17 -- res = 0.31081E+02, tol = 0.47500E+04, time = 6.57 | CG iter. 18 -- res = 0.15663E+02, tol = 0.47500E+04, time = 6.36 | CG iter. 19 -- res = 0.86739E+01, tol = 0.47500E+04, time = 6.60 | CG iter. 20 -- res = 0.49778E+01, tol = 0.47500E+04, time = 7.07 | CG iter. 21 -- res = 0.26779E+01, tol = 0.47500E+04, time = 7.40 | CG iter. 22 -- res = 0.13673E+01, tol = 0.47500E+04, time = 6.68 | CG iter. 23 -- res = 0.67960E+00, tol = 0.47500E+04, time = 6.57 | CG iter. 24 -- res = 0.34866E+00, tol = 0.47500E+04, time = 6.38 | CG iter. 25 -- res = 0.19491E+00, tol = 0.47500E+04, time = 6.75 | CG iter. 26 -- res = 0.11097E+00, tol = 0.47500E+04, time = 6.42 | CG iter. 27 -- res = 0.61441E-01, tol = 0.47500E+04, time = 6.17 | CG iter. 28 -- res = 0.32076E-01, tol = 0.47500E+04, time = 6.55 | CG iter. 29 -- res = 0.16773E-01, tol = 0.47500E+04, time = 7.02 | CG iter. 30 -- res = 0.89729E-02, tol = 0.47500E+04, time = 6.50 | CG iter. 31 -- res = 0.49549E-02, tol = 0.47500E+04, time = 6.41 | CG iter. 32 -- res = 0.28160E-02, tol = 0.47500E+04, time = 6.30 | CG iter. 33 -- res = 0.15520E-02, tol = 0.47500E+04, time = 6.31 | CG iter. 34 -- res = 0.83592E-03, tol = 0.47500E+04, time = 6.49 | CG iter. 35 -- res = 0.43412E-03, tol = 0.47500E+04, time = 6.48 | Final CG iter 36 -- res = 0.43412E-03, tol = 0.47500E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.366 2.717 | New value -1.149 | Old value -6.366 | Difference 5.217 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.14048E+07, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.35125E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.98749E+00, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.68413E-03, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.71071E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9350920.842 | (Sampled value in CG: 9317013.805 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.565378 | New value = -3.530904 | poltype: 1 pol: 1 CPU time specind = 9.6387863E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.21826E+07, tol = 0.30739E+01, time = 2.52 | CG iter. 2 -- res = 0.92733E+06, tol = 0.30739E+01, time = 2.72 | CG iter. 3 -- res = 0.16377E+06, tol = 0.30739E+01, time = 3.14 | CG iter. 4 -- res = 0.59863E+05, tol = 0.30739E+01, time = 2.57 | CG iter. 5 -- res = 0.32477E+05, tol = 0.30739E+01, time = 2.70 | CG iter. 6 -- res = 0.16921E+05, tol = 0.30739E+01, time = 2.57 | CG iter. 7 -- res = 0.68997E+04, tol = 0.30739E+01, time = 2.66 | CG iter. 8 -- res = 0.31327E+04, tol = 0.30739E+01, time = 2.49 | CG iter. 9 -- res = 0.13965E+04, tol = 0.30739E+01, time = 2.58 | CG iter. 10 -- res = 0.55909E+03, tol = 0.30739E+01, time = 2.81 | CG iter. 11 -- res = 0.23531E+03, tol = 0.30739E+01, time = 2.65 | CG iter. 12 -- res = 0.11186E+03, tol = 0.30739E+01, time = 3.06 | CG iter. 13 -- res = 0.59838E+02, tol = 0.30739E+01, time = 2.65 | CG iter. 14 -- res = 0.29676E+02, tol = 0.30739E+01, time = 2.77 | CG iter. 15 -- res = 0.14016E+02, tol = 0.30739E+01, time = 2.59 | CG iter. 16 -- res = 0.61493E+01, tol = 0.30739E+01, time = 2.80 | CG iter. 17 -- res = 0.25761E+01, tol = 0.30739E+01, time = 2.48 | CG iter. 18 -- res = 0.11538E+01, tol = 0.30739E+01, time = 2.71 | CG iter. 19 -- res = 0.53095E+00, tol = 0.30739E+01, time = 2.86 | CG iter. 20 -- res = 0.27347E+00, tol = 0.30739E+01, time = 2.77 | CG iter. 21 -- res = 0.14422E+00, tol = 0.30739E+01, time = 2.42 | CG iter. 22 -- res = 0.72288E-01, tol = 0.30739E+01, time = 2.45 | CG iter. 23 -- res = 0.33197E-01, tol = 0.30739E+01, time = 2.91 | CG iter. 24 -- res = 0.15208E-01, tol = 0.30739E+01, time = 2.81 | CG iter. 25 -- res = 0.70790E-02, tol = 0.30739E+01, time = 3.07 | CG iter. 26 -- res = 0.35992E-02, tol = 0.30739E+01, time = 2.77 | CG iter. 27 -- res = 0.18677E-02, tol = 0.30739E+01, time = 2.41 | CG iter. 28 -- res = 0.95079E-03, tol = 0.30739E+01, time = 2.47 | CG iter. 29 -- res = 0.44944E-03, tol = 0.30739E+01, time = 2.60 | CG iter. 30 -- res = 0.20852E-03, tol = 0.30739E+01, time = 2.84 | CG iter. 31 -- res = 0.95289E-04, tol = 0.30739E+01, time = 2.39 | CG iter. 32 -- res = 0.46704E-04, tol = 0.30739E+01, time = 2.73 | CG iter. 33 -- res = 0.22933E-04, tol = 0.30739E+01, time = 2.85 | CG iter. 34 -- res = 0.11473E-04, tol = 0.30739E+01, time = 2.69 | CG iter. 35 -- res = 0.57501E-05, tol = 0.30739E+01, time = 2.53 | CG iter. 36 -- res = 0.27493E-05, tol = 0.30739E+01, time = 2.55 | CG iter. 37 -- res = 0.12229E-05, tol = 0.30739E+01, time = 2.75 | CG iter. 38 -- res = 0.58849E-06, tol = 0.30739E+01, time = 2.49 | CG iter. 39 -- res = 0.29304E-06, tol = 0.30739E+01, time = 3.06 | CG iter. 40 -- res = 0.14200E-06, tol = 0.30739E+01, time = 9.06 | CG iter. 41 -- res = 0.70773E-07, tol = 0.30739E+01, time = 2.57 | CG iter. 42 -- res = 0.34623E-07, tol = 0.30739E+01, time = 2.95 | CG iter. 43 -- res = 0.15411E-07, tol = 0.30739E+01, time = 2.74 | CG iter. 44 -- res = 0.72325E-08, tol = 0.30739E+01, time = 2.63 | CG iter. 45 -- res = 0.34559E-08, tol = 0.30739E+01, time = 2.76 | CG iter. 46 -- res = 0.17707E-08, tol = 0.30739E+01, time = 2.33 | CG iter. 47 -- res = 0.88568E-09, tol = 0.30739E+01, time = 2.83 | CG iter. 48 -- res = 0.43741E-09, tol = 0.30739E+01, time = 2.31 | CG iter. 49 -- res = 0.20230E-09, tol = 0.30739E+01, time = 2.68 | CG iter. 50 -- res = 0.91967E-10, tol = 0.30739E+01, time = 2.83 | Final CG iter 51 -- res = 0.91967E-10, tol = 0.30739E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.624 5.837 | New value 2.544 | Old value 3.624 | Difference -1.081 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.29 | CG iter. 1 -- res = 0.16974E+04, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.16245E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.31192E+00, tol = 0.47627E+18, time = 2.33 | CG iter. 4 -- res = 0.12306E-03, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.23134E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9350920.842 | (Sampled value in CG: 9326843.492 ) | CPU time specind = 1191.534 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.66 | CG iter. 1 -- res = 0.68227E+08, tol = 0.57603E+04, time = 11.53 | CG iter. 2 -- res = 0.58546E+08, tol = 0.57603E+04, time = 11.94 | CG iter. 3 -- res = 0.15189E+08, tol = 0.57603E+04, time = 11.61 | CG iter. 4 -- res = 0.63711E+07, tol = 0.57603E+04, time = 11.82 | CG iter. 5 -- res = 0.37000E+07, tol = 0.57603E+04, time = 12.27 | CG iter. 6 -- res = 0.21178E+07, tol = 0.57603E+04, time = 11.49 | CG iter. 7 -- res = 0.12612E+07, tol = 0.57603E+04, time = 11.75 | CG iter. 8 -- res = 0.81903E+06, tol = 0.57603E+04, time = 11.87 | CG iter. 9 -- res = 0.51734E+06, tol = 0.57603E+04, time = 11.52 | CG iter. 10 -- res = 0.30421E+06, tol = 0.57603E+04, time = 11.39 | CG iter. 11 -- res = 0.16487E+06, tol = 0.57603E+04, time = 11.82 | CG iter. 12 -- res = 0.85719E+05, tol = 0.57603E+04, time = 11.71 | CG iter. 13 -- res = 0.47336E+05, tol = 0.57603E+04, time = 11.94 | CG iter. 14 -- res = 0.28507E+05, tol = 0.57603E+04, time = 11.38 | CG iter. 15 -- res = 0.18924E+05, tol = 0.57603E+04, time = 11.77 | CG iter. 16 -- res = 0.13486E+05, tol = 0.57603E+04, time = 17.99 | CG iter. 17 -- res = 0.97952E+04, tol = 0.57603E+04, time = 11.98 | CG iter. 18 -- res = 0.69593E+04, tol = 0.57603E+04, time = 11.86 | CG iter. 19 -- res = 0.50655E+04, tol = 0.57603E+04, time = 11.80 | CG iter. 20 -- res = 0.38002E+04, tol = 0.57603E+04, time = 11.56 | CG iter. 21 -- res = 0.29391E+04, tol = 0.57603E+04, time = 11.35 | CG iter. 22 -- res = 0.25954E+04, tol = 0.57603E+04, time = 11.52 | CG iter. 23 -- res = 0.26495E+04, tol = 0.57603E+04, time = 13.27 | CG iter. 24 -- res = 0.28932E+04, tol = 0.57603E+04, time = 12.29 | CG iter. 25 -- res = 0.30351E+04, tol = 0.57603E+04, time = 11.63 | CG iter. 26 -- res = 0.29842E+04, tol = 0.57603E+04, time = 11.56 | CG iter. 27 -- res = 0.27134E+04, tol = 0.57603E+04, time = 11.73 | CG iter. 28 -- res = 0.23002E+04, tol = 0.57603E+04, time = 11.74 | CG iter. 29 -- res = 0.19416E+04, tol = 0.57603E+04, time = 11.42 | CG iter. 30 -- res = 0.16864E+04, tol = 0.57603E+04, time = 11.64 | CG iter. 31 -- res = 0.14881E+04, tol = 0.57603E+04, time = 11.54 | CG iter. 32 -- res = 0.12747E+04, tol = 0.57603E+04, time = 12.57 | CG iter. 33 -- res = 0.10328E+04, tol = 0.57603E+04, time = 11.40 | CG iter. 34 -- res = 0.81106E+03, tol = 0.57603E+04, time = 11.69 | CG iter. 35 -- res = 0.66334E+03, tol = 0.57603E+04, time = 11.60 | CG iter. 36 -- res = 0.58833E+03, tol = 0.57603E+04, time = 11.30 | CG iter. 37 -- res = 0.55327E+03, tol = 0.57603E+04, time = 11.67 | CG iter. 38 -- res = 0.54879E+03, tol = 0.57603E+04, time = 11.49 | CG iter. 39 -- res = 0.52846E+03, tol = 0.57603E+04, time = 11.50 | CG iter. 40 -- res = 0.49502E+03, tol = 0.57603E+04, time = 11.81 | CG iter. 41 -- res = 0.45882E+03, tol = 0.57603E+04, time = 17.88 | CG iter. 42 -- res = 0.39257E+03, tol = 0.57603E+04, time = 11.48 | CG iter. 43 -- res = 0.33847E+03, tol = 0.57603E+04, time = 11.27 | CG iter. 44 -- res = 0.30587E+03, tol = 0.57603E+04, time = 11.51 | CG iter. 45 -- res = 0.28361E+03, tol = 0.57603E+04, time = 11.47 | CG iter. 46 -- res = 0.26202E+03, tol = 0.57603E+04, time = 11.39 | CG iter. 47 -- res = 0.23405E+03, tol = 0.57603E+04, time = 11.92 | CG iter. 48 -- res = 0.20414E+03, tol = 0.57603E+04, time = 13.49 | CG iter. 49 -- res = 0.17536E+03, tol = 0.57603E+04, time = 12.06 | CG iter. 50 -- res = 0.15320E+03, tol = 0.57603E+04, time = 11.79 | CG iter. 51 -- res = 0.14460E+03, tol = 0.57603E+04, time = 11.48 | CG iter. 52 -- res = 0.14368E+03, tol = 0.57603E+04, time = 11.74 | CG iter. 53 -- res = 0.14469E+03, tol = 0.57603E+04, time = 11.59 | CG iter. 54 -- res = 0.14062E+03, tol = 0.57603E+04, time = 11.85 | CG iter. 55 -- res = 0.13214E+03, tol = 0.57603E+04, time = 11.54 | CG iter. 56 -- res = 0.11971E+03, tol = 0.57603E+04, time = 11.83 | CG iter. 57 -- res = 0.11064E+03, tol = 0.57603E+04, time = 11.88 | CG iter. 58 -- res = 0.10530E+03, tol = 0.57603E+04, time = 10.72 | CG iter. 59 -- res = 0.10187E+03, tol = 0.57603E+04, time = 11.84 | CG iter. 60 -- res = 0.98063E+02, tol = 0.57603E+04, time = 11.37 | Final CG iter 61 -- res = 0.98063E+02, tol = 0.57603E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.850 ( -229.596 -2229.220 2511.538 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8681339.363 | Old band monopole 9350961.063 | Change to band monopole -669621.700 | Change to component monopole 669618.820 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.133 2.735 | New value -0.043 | Old value -1.133 | Difference 1.089 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.440 ( 6.306 7.680 -6.734 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.379 7.060 | New value -2.543 | Old value 7.379 | Difference -9.922 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.38 | CG iter. 1 -- res = 0.67640E+05, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.26702E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.57414E+00, tol = 0.47627E+18, time = 1.72 | CG iter. 4 -- res = 0.44235E-03, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.74028E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8681302.023 | (Sampled value in CG: 8657285.846 ) | Chain = 1 -- chisq = 0.81531195E+09 | Chain = 1 -- wall time = 6117.962 sec Available RAM: MemAvailable: 378870064 kB Available Swap: SwapFree: 1111506012 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 255 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447168 | --> Sampling calibration, mode = relcal | relcal = 1.3440611E-02 7.4401015E-04 -1.6091246E-03 -1.2575496E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 9.8560505E-02 0.1166788 97040195.7312030 | BP delta = 0.1135051 0.1316234 97040186.2217658 | BP chisq diff = -9.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632180 | --> Sampling calibration, mode = relcal | relcal = -2.8201430E-03 -7.0396852E-04 1.6770526E-03 1.6142179E-03 -4.0714975E-04 6.3999079E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5390319 15221096.6234131 | BP delta = 0.0000000E+00 -0.5371097 15221098.2657344 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17948252622244 | --> Sampling calibration, mode = relcal | relcal = -7.3253244E-02 -5.7373691E-02 9.0077356E-02 4.0549576E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3876380E-04 2.4626213E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6047E-04 | 2: delta_r/delta_0: 2.3401E-06 | 3: delta_s/delta_0: 1.6746E-07 | 4: delta_r/delta_0: 2.9844E-08 | 5: delta_s/delta_0: 1.3516E-08 | 6: delta_r/delta_0: 3.6488E-09 | 7: delta_s/delta_0: 1.6167E-09 | 8: delta_r/delta_0: 2.6348E-10 | 9: delta_s/delta_0: 1.3142E-10 | 10: delta_r/delta_0: 3.5190E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.226632092359506E-004 2.744835346720882E-005 | BP delta = 7.3801331E-02 9.3071692E-02 50482326.2877090 | BP delta = 7.1074404E-02 9.0344764E-02 50482322.4363030 | BP chisq diff = -3.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02580096 | --> Sampling calibration, mode = relcal | relcal = -0.1065964 -9.5567979E-02 0.1448661 5.7298288E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0618960E-03 1.7846798E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5529E-05 | 2: delta_r/delta_0: 1.5828E-06 | 3: delta_s/delta_0: 2.3900E-07 | 4: delta_r/delta_0: 5.5914E-08 | 5: delta_s/delta_0: 1.7863E-08 | 6: delta_r/delta_0: 7.5439E-09 | 7: delta_s/delta_0: 2.5344E-08 | 8: delta_r/delta_0: 1.5259E-09 | 9: delta_s/delta_0: 9.3808E-10 | 10: delta_r/delta_0: 4.1664E-10 | 11: delta_s/delta_0: 3.7815E-09 | 12: delta_r/delta_0: 3.9714E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.017683717673908E-002 2.811393192275333E-005 | BP delta = -0.2635595 -0.2378418 57392970.2211555 | BP delta = -0.2693985 -0.2436808 57392970.0660147 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81197737 | --> Sampling calibration, mode = relcal | relcal = 0.2954010 0.2248179 -0.2837721 -0.2364468 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2309242E-04 5.2107102E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0325E-04 | 2: delta_r/delta_0: 1.2239E-05 | 3: delta_s/delta_0: 6.1307E-06 | 4: delta_r/delta_0: 7.3813E-07 | 5: delta_s/delta_0: 5.5977E-07 | 6: delta_r/delta_0: 1.8035E-07 | 7: delta_s/delta_0: 3.5923E-07 | 8: delta_r/delta_0: 3.2413E-08 | 9: delta_s/delta_0: 6.5124E-08 | 10: delta_r/delta_0: 4.5971E-08 | 11: delta_s/delta_0: 2.0843E-09 | 12: delta_r/delta_0: 1.1984E-09 | 13: delta_s/delta_0: 1.1176E-07 | 14: delta_r/delta_0: 7.9587E-09 | 15: delta_s/delta_0: 9.6899E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.211543384328902E-002 4.023045377150810E-005 | BP delta = -0.1767862 -0.1843620 72489419.6190939 | BP delta = -0.1394228 -0.1469987 72489420.3524482 | BP chisq diff = 0.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95869078 | --> Sampling calibration, mode = relcal | relcal = 0.1065407 0.1394630 -0.1102882 -0.1357155 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8338127E-03 1.2328148E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7315E-04 | 2: delta_r/delta_0: 1.8785E-05 | 3: delta_s/delta_0: 1.4673E-05 | 4: delta_r/delta_0: 1.1905E-06 | 5: delta_s/delta_0: 3.8730E-07 | 6: delta_r/delta_0: 1.5891E-07 | 7: delta_s/delta_0: 2.3379E-07 | 8: delta_r/delta_0: 4.0449E-08 | 9: delta_s/delta_0: 5.9257E-08 | 10: delta_r/delta_0: 4.3582E-09 | 11: delta_s/delta_0: 2.2575E-09 | 12: delta_r/delta_0: 1.2131E-09 | 13: delta_s/delta_0: 1.0808E-09 | 14: delta_r/delta_0: 4.3708E-10 | 15: delta_s/delta_0: 7.2262E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.431742331499254E-002 3.699039939477980E-005 | BP delta = 0.1278632 0.2391179 72779181.4479330 | BP delta = 0.1043967 0.2156514 72779181.3366613 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159338 | New value = -3.159925 | poltype: 2 pol: 1 CPU time specind = 1.9351006E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109484 | New value = -3.197385 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112522 | New value = -3.194112 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175199 | New value = -3.174838 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094098 | New value = -3.146710 | poltype: 2 pol: 2 CPU time specind = 1.4008999E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.13569E+08, tol = 0.80608E+01, time = 5.78 | CG iter. 2 -- res = 0.33775E+06, tol = 0.80608E+01, time = 5.68 | CG iter. 3 -- res = 0.49924E+05, tol = 0.80608E+01, time = 5.38 | CG iter. 4 -- res = 0.26175E+05, tol = 0.80608E+01, time = 5.84 | CG iter. 5 -- res = 0.15682E+05, tol = 0.80608E+01, time = 5.65 | CG iter. 6 -- res = 0.11681E+05, tol = 0.80608E+01, time = 5.37 | CG iter. 7 -- res = 0.11808E+05, tol = 0.80608E+01, time = 7.02 | CG iter. 8 -- res = 0.11811E+05, tol = 0.80608E+01, time = 6.02 | CG iter. 9 -- res = 0.12095E+05, tol = 0.80608E+01, time = 5.66 | CG iter. 10 -- res = 0.11928E+05, tol = 0.80608E+01, time = 5.57 | CG iter. 11 -- res = 0.90751E+04, tol = 0.80608E+01, time = 5.89 | CG iter. 12 -- res = 0.58974E+04, tol = 0.80608E+01, time = 5.79 | CG iter. 13 -- res = 0.40683E+04, tol = 0.80608E+01, time = 5.74 | CG iter. 14 -- res = 0.33321E+04, tol = 0.80608E+01, time = 5.47 | CG iter. 15 -- res = 0.30606E+04, tol = 0.80608E+01, time = 6.26 | CG iter. 16 -- res = 0.27871E+04, tol = 0.80608E+01, time = 5.97 | CG iter. 17 -- res = 0.22099E+04, tol = 0.80608E+01, time = 5.03 | CG iter. 18 -- res = 0.18709E+04, tol = 0.80608E+01, time = 5.67 | CG iter. 19 -- res = 0.16004E+04, tol = 0.80608E+01, time = 5.69 | CG iter. 20 -- res = 0.13116E+04, tol = 0.80608E+01, time = 5.79 | CG iter. 21 -- res = 0.93637E+03, tol = 0.80608E+01, time = 5.81 | CG iter. 22 -- res = 0.73073E+03, tol = 0.80608E+01, time = 5.49 | CG iter. 23 -- res = 0.63722E+03, tol = 0.80608E+01, time = 5.56 | CG iter. 24 -- res = 0.57901E+03, tol = 0.80608E+01, time = 5.38 | CG iter. 25 -- res = 0.48457E+03, tol = 0.80608E+01, time = 5.44 | CG iter. 26 -- res = 0.38382E+03, tol = 0.80608E+01, time = 6.24 | CG iter. 27 -- res = 0.33620E+03, tol = 0.80608E+01, time = 5.56 | CG iter. 28 -- res = 0.32212E+03, tol = 0.80608E+01, time = 5.45 | CG iter. 29 -- res = 0.27945E+03, tol = 0.80608E+01, time = 5.30 | CG iter. 30 -- res = 0.22762E+03, tol = 0.80608E+01, time = 5.66 | CG iter. 31 -- res = 0.19632E+03, tol = 0.80608E+01, time = 5.39 | CG iter. 32 -- res = 0.17179E+03, tol = 0.80608E+01, time = 5.61 | CG iter. 33 -- res = 0.14777E+03, tol = 0.80608E+01, time = 5.81 | CG iter. 34 -- res = 0.11422E+03, tol = 0.80608E+01, time = 5.24 | CG iter. 35 -- res = 0.87699E+02, tol = 0.80608E+01, time = 5.64 | CG iter. 36 -- res = 0.75039E+02, tol = 0.80608E+01, time = 5.58 | CG iter. 37 -- res = 0.62343E+02, tol = 0.80608E+01, time = 5.87 | CG iter. 38 -- res = 0.45620E+02, tol = 0.80608E+01, time = 5.32 | CG iter. 39 -- res = 0.31762E+02, tol = 0.80608E+01, time = 5.72 | CG iter. 40 -- res = 0.24219E+02, tol = 0.80608E+01, time = 5.62 | CG iter. 41 -- res = 0.18743E+02, tol = 0.80608E+01, time = 5.32 | CG iter. 42 -- res = 0.13691E+02, tol = 0.80608E+01, time = 5.63 | CG iter. 43 -- res = 0.97089E+01, tol = 0.80608E+01, time = 9.85 | CG iter. 44 -- res = 0.71469E+01, tol = 0.80608E+01, time = 7.87 | CG iter. 45 -- res = 0.58207E+01, tol = 0.80608E+01, time = 5.70 | CG iter. 46 -- res = 0.47216E+01, tol = 0.80608E+01, time = 5.77 | CG iter. 47 -- res = 0.37284E+01, tol = 0.80608E+01, time = 5.81 | CG iter. 48 -- res = 0.28959E+01, tol = 0.80608E+01, time = 5.63 | CG iter. 49 -- res = 0.23628E+01, tol = 0.80608E+01, time = 5.69 | CG iter. 50 -- res = 0.19515E+01, tol = 0.80608E+01, time = 5.38 | Final CG iter 51 -- res = 0.19515E+01, tol = 0.80608E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8311449.454 | Old band monopole 8681339.363 | Change to band monopole -369889.909 | Change to component monopole 369888.318 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.16366E+04, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.12456E+02, tol = 0.47627E+18, time = 2.32 | CG iter. 3 -- res = 0.59443E-01, tol = 0.47627E+18, time = 1.84 | Final CG iter 4 -- res = 0.37150E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8311413.705 | (Sampled value in CG: 8313681.047 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505260 | New value = 1.480162 | poltype: 2 pol: 1 CPU time specind = 2.4265051E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.443716 | New value = 1.527447 | poltype: 2 pol: 2 CPU time specind = 4.7349930E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.24158E+08, tol = 0.47527E+04, time = 6.26 | CG iter. 2 -- res = 0.53787E+07, tol = 0.47527E+04, time = 6.32 | CG iter. 3 -- res = 0.86598E+06, tol = 0.47527E+04, time = 6.75 | CG iter. 4 -- res = 0.35597E+06, tol = 0.47527E+04, time = 6.23 | CG iter. 5 -- res = 0.15313E+06, tol = 0.47527E+04, time = 6.74 | CG iter. 6 -- res = 0.82596E+05, tol = 0.47527E+04, time = 6.51 | CG iter. 7 -- res = 0.44855E+05, tol = 0.47527E+04, time = 6.54 | CG iter. 8 -- res = 0.21617E+05, tol = 0.47527E+04, time = 6.55 | CG iter. 9 -- res = 0.94929E+04, tol = 0.47527E+04, time = 6.19 | CG iter. 10 -- res = 0.38215E+04, tol = 0.47527E+04, time = 6.35 | CG iter. 11 -- res = 0.17107E+04, tol = 0.47527E+04, time = 6.56 | CG iter. 12 -- res = 0.86516E+03, tol = 0.47527E+04, time = 6.26 | CG iter. 13 -- res = 0.48165E+03, tol = 0.47527E+04, time = 6.68 | CG iter. 14 -- res = 0.27786E+03, tol = 0.47527E+04, time = 6.55 | CG iter. 15 -- res = 0.14795E+03, tol = 0.47527E+04, time = 6.37 | CG iter. 16 -- res = 0.71222E+02, tol = 0.47527E+04, time = 6.71 | CG iter. 17 -- res = 0.32956E+02, tol = 0.47527E+04, time = 6.37 | CG iter. 18 -- res = 0.16247E+02, tol = 0.47527E+04, time = 6.47 | CG iter. 19 -- res = 0.87468E+01, tol = 0.47527E+04, time = 6.29 | CG iter. 20 -- res = 0.49648E+01, tol = 0.47527E+04, time = 6.24 | CG iter. 21 -- res = 0.27030E+01, tol = 0.47527E+04, time = 6.54 | CG iter. 22 -- res = 0.14094E+01, tol = 0.47527E+04, time = 12.83 | CG iter. 23 -- res = 0.71059E+00, tol = 0.47527E+04, time = 6.42 | CG iter. 24 -- res = 0.35491E+00, tol = 0.47527E+04, time = 6.63 | CG iter. 25 -- res = 0.19246E+00, tol = 0.47527E+04, time = 6.93 | CG iter. 26 -- res = 0.10821E+00, tol = 0.47527E+04, time = 6.44 | CG iter. 27 -- res = 0.61734E-01, tol = 0.47527E+04, time = 6.58 | CG iter. 28 -- res = 0.32930E-01, tol = 0.47527E+04, time = 6.15 | CG iter. 29 -- res = 0.16986E-01, tol = 0.47527E+04, time = 6.37 | CG iter. 30 -- res = 0.88181E-02, tol = 0.47527E+04, time = 6.61 | CG iter. 31 -- res = 0.48318E-02, tol = 0.47527E+04, time = 6.69 | CG iter. 32 -- res = 0.27442E-02, tol = 0.47527E+04, time = 6.37 | CG iter. 33 -- res = 0.15411E-02, tol = 0.47527E+04, time = 6.20 | CG iter. 34 -- res = 0.84194E-03, tol = 0.47527E+04, time = 6.19 | CG iter. 35 -- res = 0.43277E-03, tol = 0.47527E+04, time = 7.08 | Final CG iter 36 -- res = 0.43277E-03, tol = 0.47527E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.001 2.763 | New value -0.384 | Old value 0.001 | Difference -0.385 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.92413E+04, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.24483E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.54412E-01, tol = 0.47627E+18, time = 2.00 | Final CG iter 4 -- res = 0.67863E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8311413.705 | (Sampled value in CG: 8312354.843 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.530904 | New value = -3.521532 | poltype: 1 pol: 1 CPU time specind = 1.2829065E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.20901E+07, tol = 0.26962E+01, time = 2.91 | CG iter. 2 -- res = 0.73541E+06, tol = 0.26962E+01, time = 3.85 | CG iter. 3 -- res = 0.13076E+06, tol = 0.26962E+01, time = 3.17 | CG iter. 4 -- res = 0.51567E+05, tol = 0.26962E+01, time = 2.70 | CG iter. 5 -- res = 0.28319E+05, tol = 0.26962E+01, time = 2.98 | CG iter. 6 -- res = 0.15164E+05, tol = 0.26962E+01, time = 3.05 | CG iter. 7 -- res = 0.64922E+04, tol = 0.26962E+01, time = 2.51 | CG iter. 8 -- res = 0.31116E+04, tol = 0.26962E+01, time = 2.78 | CG iter. 9 -- res = 0.13410E+04, tol = 0.26962E+01, time = 2.84 | CG iter. 10 -- res = 0.53391E+03, tol = 0.26962E+01, time = 2.85 | CG iter. 11 -- res = 0.21864E+03, tol = 0.26962E+01, time = 2.65 | CG iter. 12 -- res = 0.10342E+03, tol = 0.26962E+01, time = 2.73 | CG iter. 13 -- res = 0.54348E+02, tol = 0.26962E+01, time = 2.79 | CG iter. 14 -- res = 0.28467E+02, tol = 0.26962E+01, time = 2.43 | CG iter. 15 -- res = 0.13208E+02, tol = 0.26962E+01, time = 2.53 | CG iter. 16 -- res = 0.60323E+01, tol = 0.26962E+01, time = 2.74 | CG iter. 17 -- res = 0.25392E+01, tol = 0.26962E+01, time = 2.62 | CG iter. 18 -- res = 0.11448E+01, tol = 0.26962E+01, time = 2.51 | CG iter. 19 -- res = 0.51493E+00, tol = 0.26962E+01, time = 2.85 | CG iter. 20 -- res = 0.25653E+00, tol = 0.26962E+01, time = 2.45 | CG iter. 21 -- res = 0.13166E+00, tol = 0.26962E+01, time = 2.61 | CG iter. 22 -- res = 0.66320E-01, tol = 0.26962E+01, time = 2.62 | CG iter. 23 -- res = 0.30939E-01, tol = 0.26962E+01, time = 2.69 | CG iter. 24 -- res = 0.14061E-01, tol = 0.26962E+01, time = 2.67 | CG iter. 25 -- res = 0.66068E-02, tol = 0.26962E+01, time = 2.65 | CG iter. 26 -- res = 0.32573E-02, tol = 0.26962E+01, time = 2.62 | CG iter. 27 -- res = 0.17065E-02, tol = 0.26962E+01, time = 2.77 | CG iter. 28 -- res = 0.87847E-03, tol = 0.26962E+01, time = 2.50 | CG iter. 29 -- res = 0.41842E-03, tol = 0.26962E+01, time = 2.68 | CG iter. 30 -- res = 0.19026E-03, tol = 0.26962E+01, time = 2.83 | CG iter. 31 -- res = 0.91695E-04, tol = 0.26962E+01, time = 2.99 | CG iter. 32 -- res = 0.45097E-04, tol = 0.26962E+01, time = 2.57 | CG iter. 33 -- res = 0.23004E-04, tol = 0.26962E+01, time = 2.62 | CG iter. 34 -- res = 0.11852E-04, tol = 0.26962E+01, time = 2.60 | CG iter. 35 -- res = 0.56660E-05, tol = 0.26962E+01, time = 2.53 | CG iter. 36 -- res = 0.26808E-05, tol = 0.26962E+01, time = 3.10 | CG iter. 37 -- res = 0.12881E-05, tol = 0.26962E+01, time = 2.87 | CG iter. 38 -- res = 0.61160E-06, tol = 0.26962E+01, time = 2.56 | CG iter. 39 -- res = 0.30678E-06, tol = 0.26962E+01, time = 2.72 | CG iter. 40 -- res = 0.15284E-06, tol = 0.26962E+01, time = 2.61 | CG iter. 41 -- res = 0.76120E-07, tol = 0.26962E+01, time = 2.79 | CG iter. 42 -- res = 0.37328E-07, tol = 0.26962E+01, time = 2.66 | CG iter. 43 -- res = 0.16994E-07, tol = 0.26962E+01, time = 2.46 | CG iter. 44 -- res = 0.79469E-08, tol = 0.26962E+01, time = 2.69 | CG iter. 45 -- res = 0.40061E-08, tol = 0.26962E+01, time = 2.65 | CG iter. 46 -- res = 0.19581E-08, tol = 0.26962E+01, time = 2.80 | CG iter. 47 -- res = 0.95646E-09, tol = 0.26962E+01, time = 2.58 | CG iter. 48 -- res = 0.49350E-09, tol = 0.26962E+01, time = 2.67 | CG iter. 49 -- res = 0.22697E-09, tol = 0.26962E+01, time = 2.72 | CG iter. 50 -- res = 0.10233E-09, tol = 0.26962E+01, time = 2.75 | Final CG iter 51 -- res = 0.10233E-09, tol = 0.26962E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.093 6.278 | New value -1.315 | Old value -1.093 | Difference -0.222 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.13965E+03, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.60693E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.88136E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 4 -- res = 0.14307E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8311413.705 | (Sampled value in CG: 8314259.351 ) | CPU time specind = 1174.753 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.68699E+08, tol = 0.57556E+04, time = 11.48 | CG iter. 2 -- res = 0.58640E+08, tol = 0.57556E+04, time = 11.71 | CG iter. 3 -- res = 0.15447E+08, tol = 0.57556E+04, time = 11.49 | CG iter. 4 -- res = 0.65433E+07, tol = 0.57556E+04, time = 11.37 | CG iter. 5 -- res = 0.39659E+07, tol = 0.57556E+04, time = 11.63 | CG iter. 6 -- res = 0.23504E+07, tol = 0.57556E+04, time = 11.74 | CG iter. 7 -- res = 0.13552E+07, tol = 0.57556E+04, time = 13.15 | CG iter. 8 -- res = 0.88110E+06, tol = 0.57556E+04, time = 12.01 | CG iter. 9 -- res = 0.56517E+06, tol = 0.57556E+04, time = 12.04 | CG iter. 10 -- res = 0.33970E+06, tol = 0.57556E+04, time = 11.88 | CG iter. 11 -- res = 0.18416E+06, tol = 0.57556E+04, time = 11.52 | CG iter. 12 -- res = 0.97970E+05, tol = 0.57556E+04, time = 11.53 | CG iter. 13 -- res = 0.54071E+05, tol = 0.57556E+04, time = 11.86 | CG iter. 14 -- res = 0.32161E+05, tol = 0.57556E+04, time = 11.91 | CG iter. 15 -- res = 0.21847E+05, tol = 0.57556E+04, time = 11.33 | CG iter. 16 -- res = 0.16327E+05, tol = 0.57556E+04, time = 12.57 | CG iter. 17 -- res = 0.12740E+05, tol = 0.57556E+04, time = 11.73 | CG iter. 18 -- res = 0.10053E+05, tol = 0.57556E+04, time = 11.60 | CG iter. 19 -- res = 0.79944E+04, tol = 0.57556E+04, time = 11.83 | CG iter. 20 -- res = 0.65816E+04, tol = 0.57556E+04, time = 11.78 | CG iter. 21 -- res = 0.58642E+04, tol = 0.57556E+04, time = 11.93 | CG iter. 22 -- res = 0.58542E+04, tol = 0.57556E+04, time = 11.59 | CG iter. 23 -- res = 0.65090E+04, tol = 0.57556E+04, time = 11.72 | CG iter. 24 -- res = 0.73181E+04, tol = 0.57556E+04, time = 11.49 | CG iter. 25 -- res = 0.75237E+04, tol = 0.57556E+04, time = 17.70 | CG iter. 26 -- res = 0.70537E+04, tol = 0.57556E+04, time = 11.78 | CG iter. 27 -- res = 0.59753E+04, tol = 0.57556E+04, time = 11.60 | CG iter. 28 -- res = 0.46756E+04, tol = 0.57556E+04, time = 11.64 | CG iter. 29 -- res = 0.37220E+04, tol = 0.57556E+04, time = 11.57 | CG iter. 30 -- res = 0.31213E+04, tol = 0.57556E+04, time = 11.41 | CG iter. 31 -- res = 0.26835E+04, tol = 0.57556E+04, time = 11.68 | CG iter. 32 -- res = 0.22210E+04, tol = 0.57556E+04, time = 13.20 | CG iter. 33 -- res = 0.17360E+04, tol = 0.57556E+04, time = 11.95 | CG iter. 34 -- res = 0.13346E+04, tol = 0.57556E+04, time = 11.69 | CG iter. 35 -- res = 0.10668E+04, tol = 0.57556E+04, time = 11.78 | CG iter. 36 -- res = 0.93645E+03, tol = 0.57556E+04, time = 11.99 | CG iter. 37 -- res = 0.89046E+03, tol = 0.57556E+04, time = 11.72 | CG iter. 38 -- res = 0.89821E+03, tol = 0.57556E+04, time = 11.60 | CG iter. 39 -- res = 0.86615E+03, tol = 0.57556E+04, time = 11.34 | CG iter. 40 -- res = 0.80565E+03, tol = 0.57556E+04, time = 11.43 | CG iter. 41 -- res = 0.68690E+03, tol = 0.57556E+04, time = 11.52 | CG iter. 42 -- res = 0.55731E+03, tol = 0.57556E+04, time = 12.02 | CG iter. 43 -- res = 0.47033E+03, tol = 0.57556E+04, time = 11.87 | CG iter. 44 -- res = 0.41713E+03, tol = 0.57556E+04, time = 11.36 | CG iter. 45 -- res = 0.37118E+03, tol = 0.57556E+04, time = 11.57 | CG iter. 46 -- res = 0.32451E+03, tol = 0.57556E+04, time = 11.61 | CG iter. 47 -- res = 0.26626E+03, tol = 0.57556E+04, time = 11.62 | CG iter. 48 -- res = 0.20844E+03, tol = 0.57556E+04, time = 11.44 | CG iter. 49 -- res = 0.16399E+03, tol = 0.57556E+04, time = 11.70 | CG iter. 50 -- res = 0.13570E+03, tol = 0.57556E+04, time = 17.73 | CG iter. 51 -- res = 0.12234E+03, tol = 0.57556E+04, time = 12.06 | CG iter. 52 -- res = 0.11291E+03, tol = 0.57556E+04, time = 11.71 | CG iter. 53 -- res = 0.10626E+03, tol = 0.57556E+04, time = 11.30 | CG iter. 54 -- res = 0.97642E+02, tol = 0.57556E+04, time = 11.48 | CG iter. 55 -- res = 0.86750E+02, tol = 0.57556E+04, time = 11.70 | CG iter. 56 -- res = 0.76250E+02, tol = 0.57556E+04, time = 12.52 | CG iter. 57 -- res = 0.67204E+02, tol = 0.57556E+04, time = 13.28 | CG iter. 58 -- res = 0.60775E+02, tol = 0.57556E+04, time = 12.44 | CG iter. 59 -- res = 0.56473E+02, tol = 0.57556E+04, time = 12.00 | CG iter. 60 -- res = 0.50257E+02, tol = 0.57556E+04, time = 11.67 | Final CG iter 61 -- res = 0.50257E+02, tol = 0.57556E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.896 ( -229.805 -2232.234 2514.845 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10436490.910 | Old band monopole 8311449.454 | Change to band monopole 2125041.456 | Change to component monopole -2125032.315 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.424 2.739 | New value -1.070 | Old value -0.424 | Difference -0.645 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.712 ( 6.884 13.727 -13.380 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.506 4.916 | New value 8.214 | Old value 5.506 | Difference 2.708 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.24128E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.20658E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.57988E+00, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.41422E-03, tol = 0.47627E+18, time = 1.67 | Final CG iter 5 -- res = 0.12738E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10436446.020 | (Sampled value in CG: 10409842.197 ) | Chain = 1 -- chisq = 0.81542239E+09 | Chain = 1 -- wall time = 5593.117 sec Available RAM: MemAvailable: 379106016 kB Available Swap: SwapFree: 1112619868 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 256 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444018 | --> Sampling calibration, mode = relcal | relcal = 1.3423516E-02 7.4644689E-04 -1.5932943E-03 -1.2576669E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1135051 0.1316234 9407551.66845161 | BP delta = 0.1135051 0.1317468 9407588.48144025 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632398 | --> Sampling calibration, mode = relcal | relcal = -2.8208909E-03 -7.0393458E-04 1.6783621E-03 1.6137774E-03 -4.0783218E-04 6.4051809E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5390319 15215549.5303384 | BP delta = 0.0000000E+00 -0.5530288 15215572.6201528 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03101895 | --> Sampling calibration, mode = relcal | relcal = 3.7074838E-02 1.3710497E-02 5.7413257E-03 -7.1654385E-03 8.2481159E-03 2.3931379E-03 -7.5955396E-03 -7.1825907E-03 -1.5296948E-02 -1.4794499E-02 -3.0448500E-03 -1.2088048E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.168352 132207000.010334 | BP delta = 0.0000000E+00 -1.178430 132207000.327305 | BP chisq diff = 0.3, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18101127578625 | --> Sampling calibration, mode = relcal | relcal = -7.5095013E-02 -5.8504865E-02 9.1957092E-02 4.1642789E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.6036477E-04 4.4089309E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0820E-05 | 2: delta_r/delta_0: 8.9076E-07 | 3: delta_s/delta_0: 2.2747E-07 | 4: delta_r/delta_0: 1.8452E-08 | 5: delta_s/delta_0: 4.3828E-09 | 6: delta_r/delta_0: 1.5142E-09 | 7: delta_s/delta_0: 5.0181E-10 | 8: delta_r/delta_0: 8.7887E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.996816151920087E-004 2.741027136212649E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0819E-05 | 2: delta_r/delta_0: 8.9075E-07 | 3: delta_s/delta_0: 2.2747E-07 | 4: delta_r/delta_0: 1.8456E-08 | 5: delta_s/delta_0: 4.3858E-09 | 6: delta_r/delta_0: 1.5143E-09 | 7: delta_s/delta_0: 5.0133E-10 | 8: delta_r/delta_0: 8.7911E-11 | Reached bicg-stab tolerance | BP delta = 7.1074404E-02 9.0344764E-02 3581179.32006764 | BP delta = 7.1074404E-02 9.0962753E-02 3576430.16558547 | BP chisq diff = -4749.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02610764 | --> Sampling calibration, mode = relcal | relcal = -0.1066433 -9.5546246E-02 0.1449620 5.7227522E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9296454E-03 1.5048501E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.2836E-05 | 2: delta_r/delta_0: 1.9062E-06 | 3: delta_s/delta_0: 2.3998E-07 | 4: delta_r/delta_0: 4.1051E-08 | 5: delta_s/delta_0: 3.7067E-08 | 6: delta_r/delta_0: 7.7182E-09 | 7: delta_s/delta_0: 6.8416E-09 | 8: delta_r/delta_0: 1.9321E-09 | 9: delta_s/delta_0: 8.5854E-10 | 10: delta_r/delta_0: 6.4002E-10 | 11: delta_s/delta_0: 2.0294E-09 | 12: delta_r/delta_0: 8.3066E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.038955313560999E-002 2.810555838864613E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.2836E-05 | 2: delta_r/delta_0: 1.9062E-06 | 3: delta_s/delta_0: 2.3998E-07 | 4: delta_r/delta_0: 4.1053E-08 | 5: delta_s/delta_0: 3.7066E-08 | 6: delta_r/delta_0: 7.7182E-09 | 7: delta_s/delta_0: 6.8415E-09 | 8: delta_r/delta_0: 1.9322E-09 | 9: delta_s/delta_0: 8.5856E-10 | 10: delta_r/delta_0: 6.4003E-10 | 11: delta_s/delta_0: 2.0295E-09 | 12: delta_r/delta_0: 8.3068E-11 | Reached bicg-stab tolerance | BP delta = -0.2693985 -0.2436808 2841236.85401804 | BP delta = -0.2693985 -0.2445640 2841236.02727407 | BP chisq diff = -0.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81227405 | --> Sampling calibration, mode = relcal | relcal = 0.2954625 0.2248130 -0.2837412 -0.2365342 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6336057E-03 5.4497528E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3135E-04 | 2: delta_r/delta_0: 1.4320E-05 | 3: delta_s/delta_0: 8.8479E-06 | 4: delta_r/delta_0: 1.1215E-06 | 5: delta_s/delta_0: 2.2620E-07 | 6: delta_r/delta_0: 5.6673E-08 | 7: delta_s/delta_0: 4.5071E-08 | 8: delta_r/delta_0: 2.9932E-08 | 9: delta_s/delta_0: 7.2503E-08 | 10: delta_r/delta_0: 1.7010E-09 | 11: delta_s/delta_0: 6.5093E-10 | 12: delta_r/delta_0: 4.5523E-10 | 13: delta_s/delta_0: 2.4821E-10 | 14: delta_r/delta_0: 4.1399E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.029493314931802E-002 4.021447265520549E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3106E-04 | 2: delta_r/delta_0: 1.4313E-05 | 3: delta_s/delta_0: 8.8516E-06 | 4: delta_r/delta_0: 1.1220E-06 | 5: delta_s/delta_0: 2.2612E-07 | 6: delta_r/delta_0: 5.6680E-08 | 7: delta_s/delta_0: 4.5076E-08 | 8: delta_r/delta_0: 2.9924E-08 | 9: delta_s/delta_0: 7.2500E-08 | 10: delta_r/delta_0: 1.7013E-09 | 11: delta_s/delta_0: 6.5041E-10 | 12: delta_r/delta_0: 4.5515E-10 | 13: delta_s/delta_0: 2.4565E-10 | 14: delta_r/delta_0: 4.1538E-11 | Reached bicg-stab tolerance | BP delta = -0.1394228 -0.1469987 2827515.12579701 | BP delta = -0.1394228 -0.1315073 2827689.75930938 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95925031 | --> Sampling calibration, mode = relcal | relcal = 0.1064299 0.1396482 -0.1103078 -0.1357702 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3801953E-03 1.2099976E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3779E-03 | 2: delta_r/delta_0: 5.7184E-05 | 3: delta_s/delta_0: 2.1303E-03 | 4: delta_r/delta_0: 8.4488E-05 | 5: delta_s/delta_0: 5.5436E-07 | 6: delta_r/delta_0: 2.0302E-07 | 7: delta_s/delta_0: 3.4657E-07 | 8: delta_r/delta_0: 5.2699E-08 | 9: delta_s/delta_0: 1.9896E-08 | 10: delta_r/delta_0: 5.4106E-09 | 11: delta_s/delta_0: 2.6362E-09 | 12: delta_r/delta_0: 1.2699E-09 | 13: delta_s/delta_0: 1.9137E-08 | 14: delta_r/delta_0: 2.0518E-09 | 15: delta_s/delta_0: 8.1543E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.866756180414818E-002 3.696855765406297E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3790E-03 | 2: delta_r/delta_0: 5.7209E-05 | 3: delta_s/delta_0: 2.1293E-03 | 4: delta_r/delta_0: 8.4440E-05 | 5: delta_s/delta_0: 5.5448E-07 | 6: delta_r/delta_0: 2.0304E-07 | 7: delta_s/delta_0: 3.4592E-07 | 8: delta_r/delta_0: 5.2703E-08 | 9: delta_s/delta_0: 1.9899E-08 | 10: delta_r/delta_0: 5.4159E-09 | 11: delta_s/delta_0: 2.6371E-09 | 12: delta_r/delta_0: 1.2693E-09 | 13: delta_s/delta_0: 1.8961E-08 | 14: delta_r/delta_0: 2.0336E-09 | 15: delta_s/delta_0: 8.1516E-11 | Reached bicg-stab tolerance | BP delta = 0.1043967 0.2156514 3003599.04539466 | BP delta = 0.1043967 0.2193347 3003660.63329898 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52146638 | --> Sampling calibration, mode = relcal | relcal = -5.1074337E-02 -3.6560174E-03 2.7354129E-02 2.7376227E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.8697590E-04 2.2138976E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8481E-05 | 2: delta_r/delta_0: 4.5248E-06 | 3: delta_s/delta_0: 5.3224E-07 | 4: delta_r/delta_0: 1.5920E-07 | 5: delta_s/delta_0: 1.8488E-07 | 6: delta_r/delta_0: 2.8192E-08 | 7: delta_s/delta_0: 2.2845E-08 | 8: delta_r/delta_0: 8.1324E-09 | 9: delta_s/delta_0: 2.5723E-08 | 10: delta_r/delta_0: 3.2895E-09 | 11: delta_s/delta_0: 9.1826E-09 | 12: delta_r/delta_0: 1.0553E-09 | 13: delta_s/delta_0: 2.3820E-10 | 14: delta_r/delta_0: 5.6988E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.196840474946701E-002 5.484328829046517E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8481E-05 | 2: delta_r/delta_0: 4.5248E-06 | 3: delta_s/delta_0: 5.3224E-07 | 4: delta_r/delta_0: 1.5920E-07 | 5: delta_s/delta_0: 1.8487E-07 | 6: delta_r/delta_0: 2.8191E-08 | 7: delta_s/delta_0: 2.2845E-08 | 8: delta_r/delta_0: 8.1325E-09 | 9: delta_s/delta_0: 2.5723E-08 | 10: delta_r/delta_0: 3.2894E-09 | 11: delta_s/delta_0: 9.1661E-09 | 12: delta_r/delta_0: 1.0526E-09 | 13: delta_s/delta_0: 2.3813E-10 | 14: delta_r/delta_0: 5.6972E-11 | Reached bicg-stab tolerance | BP delta = 0.1182643 0.2242803 2435100.18514789 | BP delta = 0.1182643 0.2173218 2435097.87803135 | BP chisq diff = -2.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42149136 | --> Sampling calibration, mode = relcal | relcal = 4.5617741E-02 3.9617699E-02 -2.8295128E-02 -5.6940313E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2320295E-03 3.8065948E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3171E-05 | 2: delta_r/delta_0: 3.5411E-06 | 3: delta_s/delta_0: 2.1657E-06 | 4: delta_r/delta_0: 3.2680E-07 | 5: delta_s/delta_0: 6.8685E-08 | 6: delta_r/delta_0: 3.6378E-08 | 7: delta_s/delta_0: 9.7158E-08 | 8: delta_r/delta_0: 7.9902E-09 | 9: delta_s/delta_0: 3.2169E-09 | 10: delta_r/delta_0: 1.3566E-09 | 11: delta_s/delta_0: 1.3488E-09 | 12: delta_r/delta_0: 2.2684E-10 | 13: delta_s/delta_0: 2.1789E-08 | 14: delta_r/delta_0: 1.0681E-08 | 15: delta_s/delta_0: 2.4237E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.427692793829533E-002 4.996783909289786E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3171E-05 | 2: delta_r/delta_0: 3.5412E-06 | 3: delta_s/delta_0: 2.1657E-06 | 4: delta_r/delta_0: 3.2681E-07 | 5: delta_s/delta_0: 6.8682E-08 | 6: delta_r/delta_0: 3.6378E-08 | 7: delta_s/delta_0: 9.7153E-08 | 8: delta_r/delta_0: 7.9903E-09 | 9: delta_s/delta_0: 3.2170E-09 | 10: delta_r/delta_0: 1.3567E-09 | 11: delta_s/delta_0: 1.3487E-09 | 12: delta_r/delta_0: 2.2682E-10 | 13: delta_s/delta_0: 2.1700E-08 | 14: delta_r/delta_0: 1.0635E-08 | 15: delta_s/delta_0: 2.4236E-11 | Reached bicg-stab tolerance | BP delta = 6.9755107E-02 -3.8080040E-02 2321912.80429439 | BP delta = 6.9755107E-02 -1.4079937E-02 2321936.60746683 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28156376 | --> Sampling calibration, mode = relcal | relcal = 2.4205441E-02 4.5081891E-02 -2.3351129E-02 -4.5936201E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3461001E-02 4.8583481E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0592E-04 | 2: delta_r/delta_0: 8.5857E-06 | 3: delta_s/delta_0: 1.4414E-06 | 4: delta_r/delta_0: 1.9227E-07 | 5: delta_s/delta_0: 7.1201E-08 | 6: delta_r/delta_0: 1.6634E-08 | 7: delta_s/delta_0: 8.1009E-09 | 8: delta_r/delta_0: 5.4609E-09 | 9: delta_s/delta_0: 6.0465E-08 | 10: delta_r/delta_0: 7.7513E-09 | 11: delta_s/delta_0: 1.5814E-08 | 12: delta_r/delta_0: 8.4917E-09 | 13: delta_s/delta_0: 1.1613E-10 | 14: delta_r/delta_0: 8.2377E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.401384394561858E-003 7.845086129132950E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0592E-04 | 2: delta_r/delta_0: 8.5857E-06 | 3: delta_s/delta_0: 1.4414E-06 | 4: delta_r/delta_0: 1.9227E-07 | 5: delta_s/delta_0: 7.1204E-08 | 6: delta_r/delta_0: 1.6634E-08 | 7: delta_s/delta_0: 8.1008E-09 | 8: delta_r/delta_0: 5.4609E-09 | 9: delta_s/delta_0: 6.0458E-08 | 10: delta_r/delta_0: 7.7513E-09 | 11: delta_s/delta_0: 1.5813E-08 | 12: delta_r/delta_0: 8.4919E-09 | 13: delta_s/delta_0: 1.1615E-10 | 14: delta_r/delta_0: 8.2386E-11 | Reached bicg-stab tolerance | BP delta = -0.2076587 -0.3562311 2490202.80462226 | BP delta = -0.2076587 -0.3641191 2490191.75767306 | BP chisq diff = -11.0, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29386695 | --> Sampling calibration, mode = relcal | relcal = 4.7265814E-04 1.0316180E-02 -3.8098663E-03 -6.9789719E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5546654E-02 1.3688216E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3048E-04 | 2: delta_r/delta_0: 1.0781E-05 | 3: delta_s/delta_0: 1.6644E-06 | 4: delta_r/delta_0: 3.2134E-07 | 5: delta_s/delta_0: 8.9503E-08 | 6: delta_r/delta_0: 2.5455E-08 | 7: delta_s/delta_0: 1.2262E-08 | 8: delta_r/delta_0: 8.2263E-09 | 9: delta_s/delta_0: 3.3679E-08 | 10: delta_r/delta_0: 7.2454E-09 | 11: delta_s/delta_0: 1.7975E-08 | 12: delta_r/delta_0: 1.0656E-08 | 13: delta_s/delta_0: 3.6494E-10 | 14: delta_r/delta_0: 2.1892E-10 | 15: delta_s/delta_0: 9.3632E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.005971331405984E-002 8.308159604431192E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3048E-04 | 2: delta_r/delta_0: 1.0781E-05 | 3: delta_s/delta_0: 1.6644E-06 | 4: delta_r/delta_0: 3.2133E-07 | 5: delta_s/delta_0: 8.9487E-08 | 6: delta_r/delta_0: 2.5455E-08 | 7: delta_s/delta_0: 1.2263E-08 | 8: delta_r/delta_0: 8.2264E-09 | 9: delta_s/delta_0: 3.3675E-08 | 10: delta_r/delta_0: 7.2453E-09 | 11: delta_s/delta_0: 1.7994E-08 | 12: delta_r/delta_0: 1.0669E-08 | 13: delta_s/delta_0: 3.6503E-10 | 14: delta_r/delta_0: 2.1901E-10 | 15: delta_s/delta_0: 9.3631E-11 | Reached bicg-stab tolerance | BP delta = -0.8569568 -0.8117194 2737946.51532958 | BP delta = -0.8569568 -0.8348061 2737955.70933107 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26496800 | --> Sampling calibration, mode = relcal | relcal = -5.6079589E-03 1.5047064E-02 -2.4117159E-03 -7.0273890E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1247936E-03 2.7095778E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4009E-04 | 2: delta_r/delta_0: 1.2028E-05 | 3: delta_s/delta_0: 2.1651E-06 | 4: delta_r/delta_0: 2.7892E-07 | 5: delta_s/delta_0: 1.1994E-07 | 6: delta_r/delta_0: 2.2246E-08 | 7: delta_s/delta_0: 8.5424E-09 | 8: delta_r/delta_0: 5.1282E-09 | 9: delta_s/delta_0: 5.3165E-09 | 10: delta_r/delta_0: 3.6613E-09 | 11: delta_s/delta_0: 9.7561E-07 | 12: delta_r/delta_0: 1.4025E-08 | 13: delta_s/delta_0: 1.3897E-08 | 14: delta_r/delta_0: 3.8433E-09 | 15: delta_s/delta_0: 5.4827E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.694913823649997E-003 9.156888610654198E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4009E-04 | 2: delta_r/delta_0: 1.2028E-05 | 3: delta_s/delta_0: 2.1651E-06 | 4: delta_r/delta_0: 2.7890E-07 | 5: delta_s/delta_0: 1.1995E-07 | 6: delta_r/delta_0: 2.2246E-08 | 7: delta_s/delta_0: 8.5422E-09 | 8: delta_r/delta_0: 5.1281E-09 | 9: delta_s/delta_0: 5.3163E-09 | 10: delta_r/delta_0: 3.6612E-09 | 11: delta_s/delta_0: 9.7620E-07 | 12: delta_r/delta_0: 1.4034E-08 | 13: delta_s/delta_0: 1.3906E-08 | 14: delta_r/delta_0: 3.8465E-09 | 15: delta_s/delta_0: 5.4829E-11 | Reached bicg-stab tolerance | BP delta = 0.3043938 0.3208919 2516736.27307926 | BP delta = 0.3043938 0.3462982 2516736.19070088 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25660434 | --> Sampling calibration, mode = relcal | relcal = -3.1769652E-02 -2.5873130E-02 3.6900658E-02 2.0742124E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6905194E-02 1.9357281E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4480E-04 | 2: delta_r/delta_0: 1.1818E-05 | 3: delta_s/delta_0: 1.8078E-06 | 4: delta_r/delta_0: 3.9651E-07 | 5: delta_s/delta_0: 1.1445E-07 | 6: delta_r/delta_0: 2.9685E-08 | 7: delta_s/delta_0: 1.2942E-08 | 8: delta_r/delta_0: 8.1836E-09 | 9: delta_s/delta_0: 1.9213E-08 | 10: delta_r/delta_0: 5.9823E-09 | 11: delta_s/delta_0: 9.3588E-09 | 12: delta_r/delta_0: 1.5890E-09 | 13: delta_s/delta_0: 2.2887E-09 | 14: delta_r/delta_0: 6.3119E-10 | 15: delta_s/delta_0: 1.1371E-10 | 16: delta_r/delta_0: 9.8454E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.010779187456018E-002 8.673264829730821E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4480E-04 | 2: delta_r/delta_0: 1.1818E-05 | 3: delta_s/delta_0: 1.8078E-06 | 4: delta_r/delta_0: 3.9645E-07 | 5: delta_s/delta_0: 1.1443E-07 | 6: delta_r/delta_0: 2.9682E-08 | 7: delta_s/delta_0: 1.2941E-08 | 8: delta_r/delta_0: 8.1833E-09 | 9: delta_s/delta_0: 1.9207E-08 | 10: delta_r/delta_0: 5.9820E-09 | 11: delta_s/delta_0: 9.3768E-09 | 12: delta_r/delta_0: 1.5943E-09 | 13: delta_s/delta_0: 2.2909E-09 | 14: delta_r/delta_0: 6.3257E-10 | 15: delta_s/delta_0: 1.1373E-10 | 16: delta_r/delta_0: 9.8481E-11 | Reached bicg-stab tolerance | BP delta = -0.8280308 -0.9659766 2706112.34328757 | BP delta = -0.8280308 -0.9710964 2706084.75029524 | BP chisq diff = -27.6, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159925 | New value = -3.107511 | poltype: 2 pol: 1 CPU time specind = 0.1550701 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197385 | New value = -3.067516 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194112 | New value = -3.142976 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174838 | New value = -3.137738 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146710 | New value = -3.160156 | poltype: 2 pol: 2 CPU time specind = 6.8674088E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.69 | CG iter. 1 -- res = 0.13601E+08, tol = 0.68695E+01, time = 5.54 | CG iter. 2 -- res = 0.34393E+06, tol = 0.68695E+01, time = 5.50 | CG iter. 3 -- res = 0.71348E+05, tol = 0.68695E+01, time = 5.28 | CG iter. 4 -- res = 0.59428E+05, tol = 0.68695E+01, time = 5.48 | CG iter. 5 -- res = 0.55735E+05, tol = 0.68695E+01, time = 5.28 | CG iter. 6 -- res = 0.53925E+05, tol = 0.68695E+01, time = 5.29 | CG iter. 7 -- res = 0.51038E+05, tol = 0.68695E+01, time = 5.53 | CG iter. 8 -- res = 0.39866E+05, tol = 0.68695E+01, time = 6.93 | CG iter. 9 -- res = 0.33108E+05, tol = 0.68695E+01, time = 5.72 | CG iter. 10 -- res = 0.25842E+05, tol = 0.68695E+01, time = 5.36 | CG iter. 11 -- res = 0.17339E+05, tol = 0.68695E+01, time = 5.62 | CG iter. 12 -- res = 0.12511E+05, tol = 0.68695E+01, time = 5.16 | CG iter. 13 -- res = 0.97764E+04, tol = 0.68695E+01, time = 5.25 | CG iter. 14 -- res = 0.85368E+04, tol = 0.68695E+01, time = 5.23 | CG iter. 15 -- res = 0.71324E+04, tol = 0.68695E+01, time = 5.13 | CG iter. 16 -- res = 0.51169E+04, tol = 0.68695E+01, time = 5.40 | CG iter. 17 -- res = 0.34892E+04, tol = 0.68695E+01, time = 5.51 | CG iter. 18 -- res = 0.28504E+04, tol = 0.68695E+01, time = 5.14 | CG iter. 19 -- res = 0.25087E+04, tol = 0.68695E+01, time = 5.54 | CG iter. 20 -- res = 0.19693E+04, tol = 0.68695E+01, time = 5.48 | CG iter. 21 -- res = 0.14543E+04, tol = 0.68695E+01, time = 5.49 | CG iter. 22 -- res = 0.12158E+04, tol = 0.68695E+01, time = 5.48 | CG iter. 23 -- res = 0.10697E+04, tol = 0.68695E+01, time = 5.27 | CG iter. 24 -- res = 0.84832E+03, tol = 0.68695E+01, time = 5.40 | CG iter. 25 -- res = 0.63024E+03, tol = 0.68695E+01, time = 5.40 | CG iter. 26 -- res = 0.49892E+03, tol = 0.68695E+01, time = 5.49 | CG iter. 27 -- res = 0.43760E+03, tol = 0.68695E+01, time = 5.26 | CG iter. 28 -- res = 0.37628E+03, tol = 0.68695E+01, time = 5.34 | CG iter. 29 -- res = 0.28907E+03, tol = 0.68695E+01, time = 5.88 | CG iter. 30 -- res = 0.21931E+03, tol = 0.68695E+01, time = 5.33 | CG iter. 31 -- res = 0.18481E+03, tol = 0.68695E+01, time = 5.41 | CG iter. 32 -- res = 0.15970E+03, tol = 0.68695E+01, time = 5.61 | CG iter. 33 -- res = 0.12184E+03, tol = 0.68695E+01, time = 5.35 | CG iter. 34 -- res = 0.89671E+02, tol = 0.68695E+01, time = 5.27 | CG iter. 35 -- res = 0.72895E+02, tol = 0.68695E+01, time = 5.40 | CG iter. 36 -- res = 0.62256E+02, tol = 0.68695E+01, time = 4.95 | CG iter. 37 -- res = 0.48559E+02, tol = 0.68695E+01, time = 5.18 | CG iter. 38 -- res = 0.33970E+02, tol = 0.68695E+01, time = 5.43 | CG iter. 39 -- res = 0.26028E+02, tol = 0.68695E+01, time = 5.46 | CG iter. 40 -- res = 0.21241E+02, tol = 0.68695E+01, time = 5.25 | CG iter. 41 -- res = 0.16366E+02, tol = 0.68695E+01, time = 5.79 | CG iter. 42 -- res = 0.11973E+02, tol = 0.68695E+01, time = 5.36 | CG iter. 43 -- res = 0.88612E+01, tol = 0.68695E+01, time = 5.57 | CG iter. 44 -- res = 0.72321E+01, tol = 0.68695E+01, time = 5.30 | CG iter. 45 -- res = 0.56344E+01, tol = 0.68695E+01, time = 4.99 | CG iter. 46 -- res = 0.41867E+01, tol = 0.68695E+01, time = 11.86 | CG iter. 47 -- res = 0.31259E+01, tol = 0.68695E+01, time = 5.29 | CG iter. 48 -- res = 0.24076E+01, tol = 0.68695E+01, time = 5.44 | CG iter. 49 -- res = 0.19355E+01, tol = 0.68695E+01, time = 5.44 | CG iter. 50 -- res = 0.14340E+01, tol = 0.68695E+01, time = 5.29 | Final CG iter 51 -- res = 0.14340E+01, tol = 0.68695E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9591495.182 | Old band monopole 10436490.910 | Change to band monopole -844995.728 | Change to component monopole 844992.094 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.24038E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.11509E+03, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.30766E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.16941E-01, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.63011E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9591453.927 | (Sampled value in CG: 9647705.600 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.480162 | New value = 1.494662 | poltype: 2 pol: 1 CPU time specind = 9.8650455E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.527447 | New value = 1.517250 | poltype: 2 pol: 2 CPU time specind = 6.0880184E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.24057E+08, tol = 0.47553E+04, time = 5.91 | CG iter. 2 -- res = 0.54120E+07, tol = 0.47553E+04, time = 6.35 | CG iter. 3 -- res = 0.84386E+06, tol = 0.47553E+04, time = 6.44 | CG iter. 4 -- res = 0.34977E+06, tol = 0.47553E+04, time = 5.92 | CG iter. 5 -- res = 0.15275E+06, tol = 0.47553E+04, time = 6.23 | CG iter. 6 -- res = 0.79523E+05, tol = 0.47553E+04, time = 6.28 | CG iter. 7 -- res = 0.44343E+05, tol = 0.47553E+04, time = 6.22 | CG iter. 8 -- res = 0.21343E+05, tol = 0.47553E+04, time = 6.28 | CG iter. 9 -- res = 0.92826E+04, tol = 0.47553E+04, time = 6.17 | CG iter. 10 -- res = 0.37654E+04, tol = 0.47553E+04, time = 6.66 | CG iter. 11 -- res = 0.16960E+04, tol = 0.47553E+04, time = 6.14 | CG iter. 12 -- res = 0.87759E+03, tol = 0.47553E+04, time = 6.43 | CG iter. 13 -- res = 0.50180E+03, tol = 0.47553E+04, time = 6.31 | CG iter. 14 -- res = 0.27912E+03, tol = 0.47553E+04, time = 6.58 | CG iter. 15 -- res = 0.14076E+03, tol = 0.47553E+04, time = 5.96 | CG iter. 16 -- res = 0.67356E+02, tol = 0.47553E+04, time = 6.41 | CG iter. 17 -- res = 0.31098E+02, tol = 0.47553E+04, time = 6.31 | CG iter. 18 -- res = 0.15329E+02, tol = 0.47553E+04, time = 5.84 | CG iter. 19 -- res = 0.82889E+01, tol = 0.47553E+04, time = 6.35 | CG iter. 20 -- res = 0.46902E+01, tol = 0.47553E+04, time = 6.15 | CG iter. 21 -- res = 0.25862E+01, tol = 0.47553E+04, time = 6.12 | CG iter. 22 -- res = 0.13424E+01, tol = 0.47553E+04, time = 6.34 | CG iter. 23 -- res = 0.65792E+00, tol = 0.47553E+04, time = 6.12 | CG iter. 24 -- res = 0.33725E+00, tol = 0.47553E+04, time = 5.87 | CG iter. 25 -- res = 0.18069E+00, tol = 0.47553E+04, time = 6.05 | CG iter. 26 -- res = 0.10383E+00, tol = 0.47553E+04, time = 12.35 | CG iter. 27 -- res = 0.59858E-01, tol = 0.47553E+04, time = 6.30 | CG iter. 28 -- res = 0.31773E-01, tol = 0.47553E+04, time = 6.24 | CG iter. 29 -- res = 0.16555E-01, tol = 0.47553E+04, time = 6.08 | CG iter. 30 -- res = 0.86768E-02, tol = 0.47553E+04, time = 5.97 | CG iter. 31 -- res = 0.46204E-02, tol = 0.47553E+04, time = 6.08 | CG iter. 32 -- res = 0.25799E-02, tol = 0.47553E+04, time = 6.11 | CG iter. 33 -- res = 0.14698E-02, tol = 0.47553E+04, time = 6.11 | CG iter. 34 -- res = 0.78372E-03, tol = 0.47553E+04, time = 6.00 | CG iter. 35 -- res = 0.41477E-03, tol = 0.47553E+04, time = 6.11 | Final CG iter 36 -- res = 0.41477E-03, tol = 0.47553E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.056 2.732 | New value -1.329 | Old value -1.056 | Difference -0.273 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.77818E+04, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.32854E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.12499E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.14638E-03, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.22175E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9591453.927 | (Sampled value in CG: 9647578.837 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.521532 | New value = -3.594533 | poltype: 1 pol: 1 CPU time specind = 1.7297029E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.23462E+07, tol = 0.26697E+01, time = 2.39 | CG iter. 2 -- res = 0.93783E+06, tol = 0.26697E+01, time = 2.45 | CG iter. 3 -- res = 0.17615E+06, tol = 0.26697E+01, time = 2.53 | CG iter. 4 -- res = 0.73088E+05, tol = 0.26697E+01, time = 2.51 | CG iter. 5 -- res = 0.42460E+05, tol = 0.26697E+01, time = 2.63 | CG iter. 6 -- res = 0.22991E+05, tol = 0.26697E+01, time = 2.60 | CG iter. 7 -- res = 0.90310E+04, tol = 0.26697E+01, time = 2.53 | CG iter. 8 -- res = 0.36173E+04, tol = 0.26697E+01, time = 2.81 | CG iter. 9 -- res = 0.15311E+04, tol = 0.26697E+01, time = 2.54 | CG iter. 10 -- res = 0.60783E+03, tol = 0.26697E+01, time = 2.52 | CG iter. 11 -- res = 0.24588E+03, tol = 0.26697E+01, time = 2.41 | CG iter. 12 -- res = 0.12534E+03, tol = 0.26697E+01, time = 2.50 | CG iter. 13 -- res = 0.65215E+02, tol = 0.26697E+01, time = 2.90 | CG iter. 14 -- res = 0.33578E+02, tol = 0.26697E+01, time = 2.83 | CG iter. 15 -- res = 0.14761E+02, tol = 0.26697E+01, time = 2.44 | CG iter. 16 -- res = 0.63747E+01, tol = 0.26697E+01, time = 2.29 | CG iter. 17 -- res = 0.26849E+01, tol = 0.26697E+01, time = 2.65 | CG iter. 18 -- res = 0.12322E+01, tol = 0.26697E+01, time = 2.58 | CG iter. 19 -- res = 0.62532E+00, tol = 0.26697E+01, time = 2.83 | CG iter. 20 -- res = 0.31080E+00, tol = 0.26697E+01, time = 2.96 | CG iter. 21 -- res = 0.15467E+00, tol = 0.26697E+01, time = 3.49 | CG iter. 22 -- res = 0.69447E-01, tol = 0.26697E+01, time = 2.98 | CG iter. 23 -- res = 0.29421E-01, tol = 0.26697E+01, time = 2.51 | CG iter. 24 -- res = 0.13647E-01, tol = 0.26697E+01, time = 3.15 | CG iter. 25 -- res = 0.68445E-02, tol = 0.26697E+01, time = 2.69 | CG iter. 26 -- res = 0.36242E-02, tol = 0.26697E+01, time = 2.52 | CG iter. 27 -- res = 0.18125E-02, tol = 0.26697E+01, time = 2.43 | CG iter. 28 -- res = 0.84959E-03, tol = 0.26697E+01, time = 2.61 | CG iter. 29 -- res = 0.37361E-03, tol = 0.26697E+01, time = 2.27 | CG iter. 30 -- res = 0.17190E-03, tol = 0.26697E+01, time = 2.77 | CG iter. 31 -- res = 0.87941E-04, tol = 0.26697E+01, time = 2.57 | CG iter. 32 -- res = 0.46132E-04, tol = 0.26697E+01, time = 2.45 | CG iter. 33 -- res = 0.22910E-04, tol = 0.26697E+01, time = 2.35 | CG iter. 34 -- res = 0.10520E-04, tol = 0.26697E+01, time = 2.80 | CG iter. 35 -- res = 0.50147E-05, tol = 0.26697E+01, time = 2.40 | CG iter. 36 -- res = 0.24832E-05, tol = 0.26697E+01, time = 2.55 | CG iter. 37 -- res = 0.11591E-05, tol = 0.26697E+01, time = 2.47 | CG iter. 38 -- res = 0.58191E-06, tol = 0.26697E+01, time = 2.56 | CG iter. 39 -- res = 0.28546E-06, tol = 0.26697E+01, time = 2.55 | CG iter. 40 -- res = 0.13587E-06, tol = 0.26697E+01, time = 2.36 | CG iter. 41 -- res = 0.64107E-07, tol = 0.26697E+01, time = 2.36 | CG iter. 42 -- res = 0.30832E-07, tol = 0.26697E+01, time = 2.52 | CG iter. 43 -- res = 0.14171E-07, tol = 0.26697E+01, time = 2.76 | CG iter. 44 -- res = 0.68881E-08, tol = 0.26697E+01, time = 2.37 | CG iter. 45 -- res = 0.34922E-08, tol = 0.26697E+01, time = 2.66 | CG iter. 46 -- res = 0.16834E-08, tol = 0.26697E+01, time = 2.23 | CG iter. 47 -- res = 0.80733E-09, tol = 0.26697E+01, time = 2.43 | CG iter. 48 -- res = 0.37511E-09, tol = 0.26697E+01, time = 2.29 | CG iter. 49 -- res = 0.17093E-09, tol = 0.26697E+01, time = 2.89 | CG iter. 50 -- res = 0.78419E-10, tol = 0.26697E+01, time = 2.71 | Final CG iter 51 -- res = 0.78419E-10, tol = 0.26697E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.318 4.156 | New value -3.124 | Old value 12.318 | Difference -15.442 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.23747E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.10475E+03, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.32261E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.12040E-01, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.19848E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9591453.927 | (Sampled value in CG: 9636887.197 ) | CPU time specind = 1126.997 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.68376E+08, tol = 0.57629E+04, time = 11.06 | CG iter. 2 -- res = 0.59236E+08, tol = 0.57629E+04, time = 11.00 | CG iter. 3 -- res = 0.15828E+08, tol = 0.57629E+04, time = 11.30 | CG iter. 4 -- res = 0.66565E+07, tol = 0.57629E+04, time = 10.90 | CG iter. 5 -- res = 0.40740E+07, tol = 0.57629E+04, time = 17.41 | CG iter. 6 -- res = 0.24218E+07, tol = 0.57629E+04, time = 10.55 | CG iter. 7 -- res = 0.13830E+07, tol = 0.57629E+04, time = 11.27 | CG iter. 8 -- res = 0.89606E+06, tol = 0.57629E+04, time = 11.10 | CG iter. 9 -- res = 0.57733E+06, tol = 0.57629E+04, time = 10.79 | CG iter. 10 -- res = 0.34635E+06, tol = 0.57629E+04, time = 11.16 | CG iter. 11 -- res = 0.18923E+06, tol = 0.57629E+04, time = 11.20 | CG iter. 12 -- res = 0.10404E+06, tol = 0.57629E+04, time = 11.89 | CG iter. 13 -- res = 0.60252E+05, tol = 0.57629E+04, time = 12.58 | CG iter. 14 -- res = 0.39553E+05, tol = 0.57629E+04, time = 10.64 | CG iter. 15 -- res = 0.30851E+05, tol = 0.57629E+04, time = 10.75 | CG iter. 16 -- res = 0.26133E+05, tol = 0.57629E+04, time = 11.16 | CG iter. 17 -- res = 0.23347E+05, tol = 0.57629E+04, time = 11.29 | CG iter. 18 -- res = 0.20263E+05, tol = 0.57629E+04, time = 11.24 | CG iter. 19 -- res = 0.17551E+05, tol = 0.57629E+04, time = 11.03 | CG iter. 20 -- res = 0.16075E+05, tol = 0.57629E+04, time = 10.64 | CG iter. 21 -- res = 0.15720E+05, tol = 0.57629E+04, time = 11.20 | CG iter. 22 -- res = 0.16258E+05, tol = 0.57629E+04, time = 11.57 | CG iter. 23 -- res = 0.17148E+05, tol = 0.57629E+04, time = 10.88 | CG iter. 24 -- res = 0.16860E+05, tol = 0.57629E+04, time = 10.96 | CG iter. 25 -- res = 0.14916E+05, tol = 0.57629E+04, time = 10.88 | CG iter. 26 -- res = 0.12332E+05, tol = 0.57629E+04, time = 11.11 | CG iter. 27 -- res = 0.93844E+04, tol = 0.57629E+04, time = 10.86 | CG iter. 28 -- res = 0.68841E+04, tol = 0.57629E+04, time = 11.55 | CG iter. 29 -- res = 0.53866E+04, tol = 0.57629E+04, time = 11.09 | CG iter. 30 -- res = 0.45579E+04, tol = 0.57629E+04, time = 10.68 | CG iter. 31 -- res = 0.40110E+04, tol = 0.57629E+04, time = 18.26 | CG iter. 32 -- res = 0.35930E+04, tol = 0.57629E+04, time = 10.98 | CG iter. 33 -- res = 0.30774E+04, tol = 0.57629E+04, time = 10.97 | CG iter. 34 -- res = 0.25664E+04, tol = 0.57629E+04, time = 11.10 | CG iter. 35 -- res = 0.21735E+04, tol = 0.57629E+04, time = 11.11 | CG iter. 36 -- res = 0.19847E+04, tol = 0.57629E+04, time = 11.17 | CG iter. 37 -- res = 0.19227E+04, tol = 0.57629E+04, time = 11.12 | CG iter. 38 -- res = 0.19052E+04, tol = 0.57629E+04, time = 11.14 | CG iter. 39 -- res = 0.17607E+04, tol = 0.57629E+04, time = 12.41 | CG iter. 40 -- res = 0.15212E+04, tol = 0.57629E+04, time = 11.49 | CG iter. 41 -- res = 0.12473E+04, tol = 0.57629E+04, time = 11.22 | CG iter. 42 -- res = 0.10126E+04, tol = 0.57629E+04, time = 10.98 | CG iter. 43 -- res = 0.86544E+03, tol = 0.57629E+04, time = 10.71 | CG iter. 44 -- res = 0.77953E+03, tol = 0.57629E+04, time = 11.32 | CG iter. 45 -- res = 0.71336E+03, tol = 0.57629E+04, time = 11.28 | CG iter. 46 -- res = 0.65828E+03, tol = 0.57629E+04, time = 10.95 | CG iter. 47 -- res = 0.62027E+03, tol = 0.57629E+04, time = 10.90 | CG iter. 48 -- res = 0.55126E+03, tol = 0.57629E+04, time = 10.72 | CG iter. 49 -- res = 0.46658E+03, tol = 0.57629E+04, time = 11.82 | CG iter. 50 -- res = 0.40941E+03, tol = 0.57629E+04, time = 11.14 | CG iter. 51 -- res = 0.38904E+03, tol = 0.57629E+04, time = 10.88 | CG iter. 52 -- res = 0.37395E+03, tol = 0.57629E+04, time = 10.97 | CG iter. 53 -- res = 0.35974E+03, tol = 0.57629E+04, time = 11.42 | CG iter. 54 -- res = 0.32726E+03, tol = 0.57629E+04, time = 11.02 | CG iter. 55 -- res = 0.28765E+03, tol = 0.57629E+04, time = 11.24 | CG iter. 56 -- res = 0.24586E+03, tol = 0.57629E+04, time = 11.00 | CG iter. 57 -- res = 0.21434E+03, tol = 0.57629E+04, time = 17.71 | CG iter. 58 -- res = 0.19328E+03, tol = 0.57629E+04, time = 10.87 | CG iter. 59 -- res = 0.18080E+03, tol = 0.57629E+04, time = 10.88 | CG iter. 60 -- res = 0.17285E+03, tol = 0.57629E+04, time = 11.11 | Final CG iter 61 -- res = 0.17285E+03, tol = 0.57629E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.746 ( -229.815 -2231.654 2514.357 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9572841.692 | Old band monopole 9591495.182 | Change to band monopole -18653.490 | Change to component monopole 18653.410 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.326 2.729 | New value 3.345 | Old value -1.326 | Difference 4.670 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.142 ( 6.436 12.404 -12.554 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.124 3.984 | New value 2.279 | Old value -0.124 | Difference 2.402 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.32 | CG iter. 1 -- res = 0.11721E+07, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.41544E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.15271E+01, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.25602E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.26458E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9572800.517 | (Sampled value in CG: 9553597.796 ) | Chain = 1 -- chisq = 0.81519077E+09 | Chain = 1 -- wall time = 17606.084 sec Available RAM: MemAvailable: 492529352 kB Available Swap: SwapFree: 1056610388 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 257 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443922 | --> Sampling calibration, mode = relcal | relcal = 1.3433838E-02 7.4207486E-04 -1.5999204E-03 -1.2575992E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1135051 0.1316234 97042434.9509511 | BP delta = 0.1146949 0.1328132 97042434.9550703 | BP chisq diff = 0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632378 | --> Sampling calibration, mode = relcal | relcal = -2.8207742E-03 -7.0417149E-04 1.6787748E-03 1.6131892E-03 -4.0830226E-04 6.4128387E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5390319 15215583.4558823 | BP delta = 0.0000000E+00 -0.5397334 15215585.3537497 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18013882421711 | --> Sampling calibration, mode = relcal | relcal = -7.4839175E-02 -5.8196206E-02 9.1517761E-02 4.1517615E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.2891385E-06 4.1613383E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9694E-05 | 2: delta_r/delta_0: 7.8978E-07 | 3: delta_s/delta_0: 2.4955E-07 | 4: delta_r/delta_0: 1.2457E-08 | 5: delta_s/delta_0: 4.6399E-09 | 6: delta_r/delta_0: 1.1128E-09 | 7: delta_s/delta_0: 1.6719E-09 | 8: delta_r/delta_0: 1.3145E-10 | 9: delta_s/delta_0: 1.0429E-09 | 10: delta_r/delta_0: 4.7146E-10 | 11: delta_s/delta_0: 1.1024E-09 | 12: delta_r/delta_0: 5.2956E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.167800103898044E-004 2.743107080504498E-005 | BP delta = 7.1074404E-02 9.0962753E-02 50482321.6231692 | BP delta = 7.8513853E-02 9.8402195E-02 50482324.1862910 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02609678 | --> Sampling calibration, mode = relcal | relcal = -0.1066295 -9.5578700E-02 0.1449204 5.7287831E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2887026E-03 1.5553061E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9482E-05 | 2: delta_r/delta_0: 1.4908E-06 | 3: delta_s/delta_0: 2.3471E-07 | 4: delta_r/delta_0: 5.1657E-08 | 5: delta_s/delta_0: 2.3136E-08 | 6: delta_r/delta_0: 7.3411E-09 | 7: delta_s/delta_0: 1.5494E-08 | 8: delta_r/delta_0: 1.0481E-09 | 9: delta_s/delta_0: 1.0284E-09 | 10: delta_r/delta_0: 2.3870E-10 | 11: delta_s/delta_0: 2.0478E-09 | 12: delta_r/delta_0: 2.3835E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.038686378939502E-002 2.810561769064994E-005 | BP delta = -0.2693985 -0.2445640 57393180.4831042 | BP delta = -0.2714375 -0.2466031 57393180.3766318 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81233514 | --> Sampling calibration, mode = relcal | relcal = 0.2954075 0.2248439 -0.2837534 -0.2364980 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.4053445E-04 5.3100483E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7624E-02 | 2: delta_r/delta_0: 6.4872E-04 | 3: delta_s/delta_0: 3.5450E-05 | 4: delta_r/delta_0: 3.0911E-06 | 5: delta_s/delta_0: 1.6255E-03 | 6: delta_r/delta_0: 1.0571E-04 | 7: delta_s/delta_0: 1.0774E-07 | 8: delta_r/delta_0: 2.0333E-08 | 9: delta_s/delta_0: 3.7295E-08 | 10: delta_r/delta_0: 5.0964E-09 | 11: delta_s/delta_0: 8.3057E-09 | 12: delta_r/delta_0: 1.1643E-09 | 13: delta_s/delta_0: 5.4901E-10 | 14: delta_r/delta_0: 3.4347E-10 | 15: delta_s/delta_0: 7.6585E-09 | 16: delta_r/delta_0: 1.5146E-09 | 17: delta_s/delta_0: 1.6843E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.896098243535168E-003 4.020996000576335E-005 | BP delta = -0.1394228 -0.1469987 72489193.2211765 | BP delta = -0.1514283 -0.1590041 72489192.9234982 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95915883 | --> Sampling calibration, mode = relcal | relcal = 0.1064666 0.1395258 -0.1102453 -0.1357471 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.0065625E-03 1.2604411E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1422E-03 | 2: delta_r/delta_0: 2.7600E-05 | 3: delta_s/delta_0: 6.9134E-04 | 4: delta_r/delta_0: 2.8387E-05 | 5: delta_s/delta_0: 3.9219E-07 | 6: delta_r/delta_0: 1.5898E-07 | 7: delta_s/delta_0: 3.2768E-07 | 8: delta_r/delta_0: 4.4927E-08 | 9: delta_s/delta_0: 1.3404E-08 | 10: delta_r/delta_0: 5.6691E-09 | 11: delta_s/delta_0: 2.2337E-09 | 12: delta_r/delta_0: 1.2347E-09 | 13: delta_s/delta_0: 7.6049E-10 | 14: delta_r/delta_0: 9.0935E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.522027589029143E-002 3.697140954317262E-005 | BP delta = 0.1043967 0.2156514 72778018.6353367 | BP delta = 0.1493591 0.2606138 72778019.9219029 | BP chisq diff = 1.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.107511 | New value = -3.093809 | poltype: 2 pol: 1 CPU time specind = 1.6149998E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.067516 | New value = -3.080834 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142976 | New value = -3.074025 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137738 | New value = -3.142453 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160156 | New value = -3.203952 | poltype: 2 pol: 2 CPU time specind = 5.0661564E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.13554E+08, tol = 0.75825E+01, time = 5.53 | CG iter. 2 -- res = 0.31179E+06, tol = 0.75825E+01, time = 5.56 | CG iter. 3 -- res = 0.47055E+05, tol = 0.75825E+01, time = 5.79 | CG iter. 4 -- res = 0.21391E+05, tol = 0.75825E+01, time = 5.85 | CG iter. 5 -- res = 0.10185E+05, tol = 0.75825E+01, time = 5.34 | CG iter. 6 -- res = 0.58909E+04, tol = 0.75825E+01, time = 6.13 | CG iter. 7 -- res = 0.41141E+04, tol = 0.75825E+01, time = 5.48 | CG iter. 8 -- res = 0.29661E+04, tol = 0.75825E+01, time = 5.93 | CG iter. 9 -- res = 0.25358E+04, tol = 0.75825E+01, time = 12.01 | CG iter. 10 -- res = 0.25655E+04, tol = 0.75825E+01, time = 5.70 | CG iter. 11 -- res = 0.22962E+04, tol = 0.75825E+01, time = 6.10 | CG iter. 12 -- res = 0.16116E+04, tol = 0.75825E+01, time = 5.83 | CG iter. 13 -- res = 0.10308E+04, tol = 0.75825E+01, time = 5.76 | CG iter. 14 -- res = 0.73092E+03, tol = 0.75825E+01, time = 5.79 | CG iter. 15 -- res = 0.59043E+03, tol = 0.75825E+01, time = 5.69 | CG iter. 16 -- res = 0.46243E+03, tol = 0.75825E+01, time = 5.78 | CG iter. 17 -- res = 0.32553E+03, tol = 0.75825E+01, time = 5.71 | CG iter. 18 -- res = 0.23412E+03, tol = 0.75825E+01, time = 5.94 | CG iter. 19 -- res = 0.18667E+03, tol = 0.75825E+01, time = 5.94 | CG iter. 20 -- res = 0.13982E+03, tol = 0.75825E+01, time = 5.74 | CG iter. 21 -- res = 0.94803E+02, tol = 0.75825E+01, time = 5.60 | CG iter. 22 -- res = 0.63414E+02, tol = 0.75825E+01, time = 5.55 | CG iter. 23 -- res = 0.47404E+02, tol = 0.75825E+01, time = 5.76 | CG iter. 24 -- res = 0.39903E+02, tol = 0.75825E+01, time = 7.69 | CG iter. 25 -- res = 0.29868E+02, tol = 0.75825E+01, time = 6.25 | CG iter. 26 -- res = 0.20830E+02, tol = 0.75825E+01, time = 5.72 | CG iter. 27 -- res = 0.15489E+02, tol = 0.75825E+01, time = 5.71 | CG iter. 28 -- res = 0.12434E+02, tol = 0.75825E+01, time = 5.94 | CG iter. 29 -- res = 0.93207E+01, tol = 0.75825E+01, time = 5.88 | CG iter. 30 -- res = 0.64206E+01, tol = 0.75825E+01, time = 5.88 | CG iter. 31 -- res = 0.47185E+01, tol = 0.75825E+01, time = 5.92 | CG iter. 32 -- res = 0.39077E+01, tol = 0.75825E+01, time = 5.92 | CG iter. 33 -- res = 0.30824E+01, tol = 0.75825E+01, time = 5.68 | CG iter. 34 -- res = 0.21589E+01, tol = 0.75825E+01, time = 5.96 | CG iter. 35 -- res = 0.15038E+01, tol = 0.75825E+01, time = 5.82 | CG iter. 36 -- res = 0.11585E+01, tol = 0.75825E+01, time = 6.03 | CG iter. 37 -- res = 0.89965E+00, tol = 0.75825E+01, time = 5.78 | CG iter. 38 -- res = 0.67785E+00, tol = 0.75825E+01, time = 5.55 | CG iter. 39 -- res = 0.47623E+00, tol = 0.75825E+01, time = 5.83 | CG iter. 40 -- res = 0.36302E+00, tol = 0.75825E+01, time = 5.88 | CG iter. 41 -- res = 0.28692E+00, tol = 0.75825E+01, time = 5.38 | CG iter. 42 -- res = 0.21800E+00, tol = 0.75825E+01, time = 6.16 | CG iter. 43 -- res = 0.15723E+00, tol = 0.75825E+01, time = 5.57 | CG iter. 44 -- res = 0.11420E+00, tol = 0.75825E+01, time = 5.81 | CG iter. 45 -- res = 0.89001E-01, tol = 0.75825E+01, time = 5.97 | CG iter. 46 -- res = 0.70166E-01, tol = 0.75825E+01, time = 5.60 | CG iter. 47 -- res = 0.52174E-01, tol = 0.75825E+01, time = 5.67 | CG iter. 48 -- res = 0.39500E-01, tol = 0.75825E+01, time = 5.91 | CG iter. 49 -- res = 0.30147E-01, tol = 0.75825E+01, time = 5.77 | CG iter. 50 -- res = 0.24604E-01, tol = 0.75825E+01, time = 5.69 | Final CG iter 51 -- res = 0.24604E-01, tol = 0.75825E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6027405.145 | Old band monopole 9572841.692 | Change to band monopole -3545436.547 | Change to component monopole 3545421.297 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.44657E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.15867E+03, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.38260E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.30459E-02, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.14730E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6027379.220 | (Sampled value in CG: 6046743.115 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.494662 | New value = 1.491596 | poltype: 2 pol: 1 CPU time specind = 2.2773981E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.517250 | New value = 1.500268 | poltype: 2 pol: 2 CPU time specind = 1.2608051E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.24020E+08, tol = 0.47593E+04, time = 6.23 | CG iter. 2 -- res = 0.53573E+07, tol = 0.47593E+04, time = 6.86 | CG iter. 3 -- res = 0.83763E+06, tol = 0.47593E+04, time = 6.38 | CG iter. 4 -- res = 0.34622E+06, tol = 0.47593E+04, time = 7.05 | CG iter. 5 -- res = 0.15369E+06, tol = 0.47593E+04, time = 7.64 | CG iter. 6 -- res = 0.81877E+05, tol = 0.47593E+04, time = 6.81 | CG iter. 7 -- res = 0.43836E+05, tol = 0.47593E+04, time = 6.62 | CG iter. 8 -- res = 0.20996E+05, tol = 0.47593E+04, time = 6.32 | CG iter. 9 -- res = 0.89269E+04, tol = 0.47593E+04, time = 6.37 | CG iter. 10 -- res = 0.36671E+04, tol = 0.47593E+04, time = 6.97 | CG iter. 11 -- res = 0.16885E+04, tol = 0.47593E+04, time = 6.42 | CG iter. 12 -- res = 0.87816E+03, tol = 0.47593E+04, time = 6.95 | CG iter. 13 -- res = 0.50795E+03, tol = 0.47593E+04, time = 6.33 | CG iter. 14 -- res = 0.28038E+03, tol = 0.47593E+04, time = 6.39 | CG iter. 15 -- res = 0.14047E+03, tol = 0.47593E+04, time = 6.97 | CG iter. 16 -- res = 0.67229E+02, tol = 0.47593E+04, time = 6.31 | CG iter. 17 -- res = 0.31804E+02, tol = 0.47593E+04, time = 6.54 | CG iter. 18 -- res = 0.16086E+02, tol = 0.47593E+04, time = 6.30 | CG iter. 19 -- res = 0.89029E+01, tol = 0.47593E+04, time = 6.18 | CG iter. 20 -- res = 0.50751E+01, tol = 0.47593E+04, time = 6.83 | CG iter. 21 -- res = 0.27649E+01, tol = 0.47593E+04, time = 6.34 | CG iter. 22 -- res = 0.13967E+01, tol = 0.47593E+04, time = 6.65 | CG iter. 23 -- res = 0.68357E+00, tol = 0.47593E+04, time = 6.40 | CG iter. 24 -- res = 0.35059E+00, tol = 0.47593E+04, time = 6.88 | CG iter. 25 -- res = 0.19177E+00, tol = 0.47593E+04, time = 6.64 | CG iter. 26 -- res = 0.11062E+00, tol = 0.47593E+04, time = 6.27 | CG iter. 27 -- res = 0.62082E-01, tol = 0.47593E+04, time = 6.83 | CG iter. 28 -- res = 0.33298E-01, tol = 0.47593E+04, time = 6.18 | CG iter. 29 -- res = 0.17226E-01, tol = 0.47593E+04, time = 6.79 | CG iter. 30 -- res = 0.88961E-02, tol = 0.47593E+04, time = 6.85 | CG iter. 31 -- res = 0.47709E-02, tol = 0.47593E+04, time = 6.45 | CG iter. 32 -- res = 0.27146E-02, tol = 0.47593E+04, time = 6.71 | CG iter. 33 -- res = 0.15388E-02, tol = 0.47593E+04, time = 6.45 | CG iter. 34 -- res = 0.81913E-03, tol = 0.47593E+04, time = 6.58 | CG iter. 35 -- res = 0.42970E-03, tol = 0.47593E+04, time = 6.67 | Final CG iter 36 -- res = 0.42970E-03, tol = 0.47593E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.415 2.763 | New value -0.336 | Old value 3.415 | Difference -3.751 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.72511E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.22119E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.34068E+00, tol = 0.47627E+18, time = 2.22 | CG iter. 4 -- res = 0.11318E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.95849E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6027379.220 | (Sampled value in CG: 6046105.176 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.594533 | New value = -3.556888 | poltype: 1 pol: 1 CPU time specind = 1.0466814E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.20487E+07, tol = 0.25451E+01, time = 2.81 | CG iter. 2 -- res = 0.70647E+06, tol = 0.25451E+01, time = 2.56 | CG iter. 3 -- res = 0.12194E+06, tol = 0.25451E+01, time = 2.74 | CG iter. 4 -- res = 0.49225E+05, tol = 0.25451E+01, time = 2.52 | CG iter. 5 -- res = 0.27451E+05, tol = 0.25451E+01, time = 2.98 | CG iter. 6 -- res = 0.15295E+05, tol = 0.25451E+01, time = 2.71 | CG iter. 7 -- res = 0.66299E+04, tol = 0.25451E+01, time = 3.00 | CG iter. 8 -- res = 0.28990E+04, tol = 0.25451E+01, time = 2.64 | CG iter. 9 -- res = 0.12287E+04, tol = 0.25451E+01, time = 2.58 | CG iter. 10 -- res = 0.46978E+03, tol = 0.25451E+01, time = 2.66 | CG iter. 11 -- res = 0.19705E+03, tol = 0.25451E+01, time = 2.58 | CG iter. 12 -- res = 0.96841E+02, tol = 0.25451E+01, time = 2.77 | CG iter. 13 -- res = 0.51857E+02, tol = 0.25451E+01, time = 3.04 | CG iter. 14 -- res = 0.26742E+02, tol = 0.25451E+01, time = 2.77 | CG iter. 15 -- res = 0.11968E+02, tol = 0.25451E+01, time = 2.75 | CG iter. 16 -- res = 0.51736E+01, tol = 0.25451E+01, time = 3.02 | CG iter. 17 -- res = 0.21726E+01, tol = 0.25451E+01, time = 2.60 | CG iter. 18 -- res = 0.10271E+01, tol = 0.25451E+01, time = 3.00 | CG iter. 19 -- res = 0.49431E+00, tol = 0.25451E+01, time = 2.92 | CG iter. 20 -- res = 0.25462E+00, tol = 0.25451E+01, time = 2.66 | CG iter. 21 -- res = 0.12636E+00, tol = 0.25451E+01, time = 2.66 | CG iter. 22 -- res = 0.60729E-01, tol = 0.25451E+01, time = 2.75 | CG iter. 23 -- res = 0.28655E-01, tol = 0.25451E+01, time = 2.60 | CG iter. 24 -- res = 0.12925E-01, tol = 0.25451E+01, time = 3.06 | CG iter. 25 -- res = 0.61943E-02, tol = 0.25451E+01, time = 3.17 | CG iter. 26 -- res = 0.31447E-02, tol = 0.25451E+01, time = 2.81 | CG iter. 27 -- res = 0.15892E-02, tol = 0.25451E+01, time = 2.34 | CG iter. 28 -- res = 0.76290E-03, tol = 0.25451E+01, time = 2.97 | CG iter. 29 -- res = 0.36149E-03, tol = 0.25451E+01, time = 2.83 | CG iter. 30 -- res = 0.16226E-03, tol = 0.25451E+01, time = 3.55 | CG iter. 31 -- res = 0.79930E-04, tol = 0.25451E+01, time = 3.90 | CG iter. 32 -- res = 0.40572E-04, tol = 0.25451E+01, time = 2.85 | CG iter. 33 -- res = 0.20841E-04, tol = 0.25451E+01, time = 2.89 | CG iter. 34 -- res = 0.99488E-05, tol = 0.25451E+01, time = 2.91 | CG iter. 35 -- res = 0.44812E-05, tol = 0.25451E+01, time = 2.77 | CG iter. 36 -- res = 0.21119E-05, tol = 0.25451E+01, time = 2.72 | CG iter. 37 -- res = 0.99690E-06, tol = 0.25451E+01, time = 3.00 | CG iter. 38 -- res = 0.49300E-06, tol = 0.25451E+01, time = 2.76 | CG iter. 39 -- res = 0.25200E-06, tol = 0.25451E+01, time = 2.64 | CG iter. 40 -- res = 0.12282E-06, tol = 0.25451E+01, time = 2.62 | CG iter. 41 -- res = 0.59225E-07, tol = 0.25451E+01, time = 2.72 | CG iter. 42 -- res = 0.27830E-07, tol = 0.25451E+01, time = 2.67 | CG iter. 43 -- res = 0.12931E-07, tol = 0.25451E+01, time = 2.90 | CG iter. 44 -- res = 0.63466E-08, tol = 0.25451E+01, time = 2.75 | CG iter. 45 -- res = 0.32163E-08, tol = 0.25451E+01, time = 2.84 | CG iter. 46 -- res = 0.15689E-08, tol = 0.25451E+01, time = 2.58 | CG iter. 47 -- res = 0.76222E-09, tol = 0.25451E+01, time = 3.20 | CG iter. 48 -- res = 0.35673E-09, tol = 0.25451E+01, time = 3.34 | CG iter. 49 -- res = 0.17262E-09, tol = 0.25451E+01, time = 2.68 | CG iter. 50 -- res = 0.82088E-10, tol = 0.25451E+01, time = 2.55 | Final CG iter 51 -- res = 0.82088E-10, tol = 0.25451E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.612 3.825 | New value -0.962 | Old value 3.612 | Difference -4.574 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.22036E+05, tol = 0.47627E+18, time = 2.10 | CG iter. 2 -- res = 0.21339E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.84430E+00, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.18469E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.23312E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6027379.220 | (Sampled value in CG: 6046600.534 ) | CPU time specind = 1203.766 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.68153E+08, tol = 0.57628E+04, time = 11.68 | CG iter. 2 -- res = 0.58901E+08, tol = 0.57628E+04, time = 11.81 | CG iter. 3 -- res = 0.15476E+08, tol = 0.57628E+04, time = 12.10 | CG iter. 4 -- res = 0.63786E+07, tol = 0.57628E+04, time = 12.02 | CG iter. 5 -- res = 0.37104E+07, tol = 0.57628E+04, time = 11.97 | CG iter. 6 -- res = 0.20859E+07, tol = 0.57628E+04, time = 19.66 | CG iter. 7 -- res = 0.12721E+07, tol = 0.57628E+04, time = 13.16 | CG iter. 8 -- res = 0.85790E+06, tol = 0.57628E+04, time = 12.23 | CG iter. 9 -- res = 0.55001E+06, tol = 0.57628E+04, time = 11.93 | CG iter. 10 -- res = 0.32169E+06, tol = 0.57628E+04, time = 11.51 | CG iter. 11 -- res = 0.17799E+06, tol = 0.57628E+04, time = 11.62 | CG iter. 12 -- res = 0.95153E+05, tol = 0.57628E+04, time = 11.97 | CG iter. 13 -- res = 0.50910E+05, tol = 0.57628E+04, time = 13.25 | CG iter. 14 -- res = 0.29586E+05, tol = 0.57628E+04, time = 12.35 | CG iter. 15 -- res = 0.18537E+05, tol = 0.57628E+04, time = 11.41 | CG iter. 16 -- res = 0.12727E+05, tol = 0.57628E+04, time = 11.68 | CG iter. 17 -- res = 0.91888E+04, tol = 0.57628E+04, time = 11.88 | CG iter. 18 -- res = 0.63165E+04, tol = 0.57628E+04, time = 11.43 | CG iter. 19 -- res = 0.42074E+04, tol = 0.57628E+04, time = 11.29 | CG iter. 20 -- res = 0.28091E+04, tol = 0.57628E+04, time = 11.88 | CG iter. 21 -- res = 0.19935E+04, tol = 0.57628E+04, time = 11.77 | CG iter. 22 -- res = 0.15641E+04, tol = 0.57628E+04, time = 12.29 | CG iter. 23 -- res = 0.14067E+04, tol = 0.57628E+04, time = 11.62 | CG iter. 24 -- res = 0.14296E+04, tol = 0.57628E+04, time = 11.67 | CG iter. 25 -- res = 0.14934E+04, tol = 0.57628E+04, time = 11.92 | CG iter. 26 -- res = 0.15320E+04, tol = 0.57628E+04, time = 12.10 | CG iter. 27 -- res = 0.14479E+04, tol = 0.57628E+04, time = 11.99 | CG iter. 28 -- res = 0.12944E+04, tol = 0.57628E+04, time = 11.71 | CG iter. 29 -- res = 0.11738E+04, tol = 0.57628E+04, time = 11.92 | CG iter. 30 -- res = 0.10531E+04, tol = 0.57628E+04, time = 11.97 | CG iter. 31 -- res = 0.96622E+03, tol = 0.57628E+04, time = 17.49 | CG iter. 32 -- res = 0.89012E+03, tol = 0.57628E+04, time = 11.71 | CG iter. 33 -- res = 0.75008E+03, tol = 0.57628E+04, time = 11.83 | CG iter. 34 -- res = 0.56943E+03, tol = 0.57628E+04, time = 11.54 | CG iter. 35 -- res = 0.42663E+03, tol = 0.57628E+04, time = 11.75 | CG iter. 36 -- res = 0.34232E+03, tol = 0.57628E+04, time = 11.65 | CG iter. 37 -- res = 0.29905E+03, tol = 0.57628E+04, time = 11.40 | CG iter. 38 -- res = 0.28831E+03, tol = 0.57628E+04, time = 13.49 | CG iter. 39 -- res = 0.27889E+03, tol = 0.57628E+04, time = 12.29 | CG iter. 40 -- res = 0.26592E+03, tol = 0.57628E+04, time = 13.66 | CG iter. 41 -- res = 0.24616E+03, tol = 0.57628E+04, time = 11.52 | CG iter. 42 -- res = 0.22315E+03, tol = 0.57628E+04, time = 11.77 | CG iter. 43 -- res = 0.20314E+03, tol = 0.57628E+04, time = 11.60 | CG iter. 44 -- res = 0.18983E+03, tol = 0.57628E+04, time = 12.03 | CG iter. 45 -- res = 0.18527E+03, tol = 0.57628E+04, time = 11.56 | CG iter. 46 -- res = 0.17819E+03, tol = 0.57628E+04, time = 11.66 | CG iter. 47 -- res = 0.16662E+03, tol = 0.57628E+04, time = 11.55 | CG iter. 48 -- res = 0.14330E+03, tol = 0.57628E+04, time = 11.92 | CG iter. 49 -- res = 0.12182E+03, tol = 0.57628E+04, time = 11.77 | CG iter. 50 -- res = 0.10485E+03, tol = 0.57628E+04, time = 11.56 | CG iter. 51 -- res = 0.93204E+02, tol = 0.57628E+04, time = 11.61 | CG iter. 52 -- res = 0.86205E+02, tol = 0.57628E+04, time = 11.60 | CG iter. 53 -- res = 0.81713E+02, tol = 0.57628E+04, time = 11.54 | CG iter. 54 -- res = 0.77458E+02, tol = 0.57628E+04, time = 11.36 | CG iter. 55 -- res = 0.74460E+02, tol = 0.57628E+04, time = 18.60 | CG iter. 56 -- res = 0.69680E+02, tol = 0.57628E+04, time = 11.51 | CG iter. 57 -- res = 0.65512E+02, tol = 0.57628E+04, time = 11.34 | CG iter. 58 -- res = 0.60188E+02, tol = 0.57628E+04, time = 12.15 | CG iter. 59 -- res = 0.56201E+02, tol = 0.57628E+04, time = 12.09 | CG iter. 60 -- res = 0.53598E+02, tol = 0.57628E+04, time = 11.58 | Final CG iter 61 -- res = 0.53598E+02, tol = 0.57628E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.818 ( -229.661 -2232.065 2514.899 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10673024.080 | Old band monopole 6027405.145 | Change to band monopole 4645618.935 | Change to component monopole -4645598.953 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.420 2.726 | New value -1.158 | Old value -0.420 | Difference -0.738 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.254 ( 6.011 13.011 -13.636 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.408 3.842 | New value -1.351 | Old value 3.408 | Difference -4.759 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.59503E+06, tol = 0.47627E+18, time = 2.29 | CG iter. 2 -- res = 0.19734E+03, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.38310E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.44146E-02, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.39717E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10672978.173 | (Sampled value in CG: 10650292.758 ) | Chain = 1 -- chisq = 0.81523013E+09 | Chain = 1 -- wall time = 5727.020 sec Available RAM: MemAvailable: 391097656 kB Available Swap: SwapFree: 1116003924 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 258 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444321 | --> Sampling calibration, mode = relcal | relcal = 1.3416118E-02 7.6488487E-04 -1.5978047E-03 -1.2583198E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1146949 0.1328132 9406043.15937691 | BP delta = 0.1146949 0.1212680 9406061.90082103 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632463 | --> Sampling calibration, mode = relcal | relcal = -2.8207882E-03 -7.0490513E-04 1.6781371E-03 1.6146865E-03 -4.0717842E-04 6.4004818E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5390319 15212797.2592021 | BP delta = 0.0000000E+00 -0.5349883 15212795.4564851 | BP chisq diff = -1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18593077816216 | --> Sampling calibration, mode = relcal | relcal = -7.6366171E-02 -5.9476063E-02 9.3329377E-02 4.2512856E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.2078572E-05 6.5337210E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3456E-05 | 2: delta_r/delta_0: 1.7297E-06 | 3: delta_s/delta_0: 2.0479E-07 | 4: delta_r/delta_0: 3.1231E-08 | 5: delta_s/delta_0: 9.0070E-09 | 6: delta_r/delta_0: 3.1601E-09 | 7: delta_s/delta_0: 7.8585E-10 | 8: delta_r/delta_0: 2.0084E-10 | 9: delta_s/delta_0: 1.3607E-10 | 10: delta_r/delta_0: 5.9846E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.307233427400716E-003 2.729524348402368E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3454E-05 | 2: delta_r/delta_0: 1.7297E-06 | 3: delta_s/delta_0: 2.0480E-07 | 4: delta_r/delta_0: 3.1235E-08 | 5: delta_s/delta_0: 9.0087E-09 | 6: delta_r/delta_0: 3.1604E-09 | 7: delta_s/delta_0: 7.8587E-10 | 8: delta_r/delta_0: 2.0087E-10 | 9: delta_s/delta_0: 1.3612E-10 | 10: delta_r/delta_0: 5.9871E-11 | Reached bicg-stab tolerance | BP delta = 7.1074404E-02 9.0962753E-02 3506166.83636045 | BP delta = 7.1074404E-02 9.0714000E-02 3503952.92758683 | BP chisq diff = -2213.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02609332 | --> Sampling calibration, mode = relcal | relcal = -0.1066726 -9.5607579E-02 0.1449511 5.7329066E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7785755E-03 1.4044858E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6048E-05 | 2: delta_r/delta_0: 1.5991E-06 | 3: delta_s/delta_0: 2.3771E-07 | 4: delta_r/delta_0: 3.9801E-08 | 5: delta_s/delta_0: 2.8530E-08 | 6: delta_r/delta_0: 6.3867E-09 | 7: delta_s/delta_0: 4.3528E-09 | 8: delta_r/delta_0: 1.6496E-09 | 9: delta_s/delta_0: 8.1512E-10 | 10: delta_r/delta_0: 6.0809E-10 | 11: delta_s/delta_0: 6.4911E-10 | 12: delta_r/delta_0: 1.2393E-10 | 13: delta_s/delta_0: 9.1798E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.036930179503533E-002 2.810589192271515E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6046E-05 | 2: delta_r/delta_0: 1.5989E-06 | 3: delta_s/delta_0: 2.3767E-07 | 4: delta_r/delta_0: 3.9721E-08 | 5: delta_s/delta_0: 2.8601E-08 | 6: delta_r/delta_0: 6.3838E-09 | 7: delta_s/delta_0: 4.3598E-09 | 8: delta_r/delta_0: 1.6489E-09 | 9: delta_s/delta_0: 8.1464E-10 | 10: delta_r/delta_0: 6.0785E-10 | 11: delta_s/delta_0: 6.4966E-10 | 12: delta_r/delta_0: 1.2383E-10 | 13: delta_s/delta_0: 9.1665E-11 | Reached bicg-stab tolerance | BP delta = -0.2714375 -0.2466031 2841264.87715074 | BP delta = -0.2714375 -0.2521422 2841311.60727587 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231062 | --> Sampling calibration, mode = relcal | relcal = 0.2953281 0.2250357 -0.2838793 -0.2364845 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.1590837E-04 5.4746307E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8635E-03 | 2: delta_r/delta_0: 4.3035E-05 | 3: delta_s/delta_0: 1.4525E-05 | 4: delta_r/delta_0: 1.5270E-06 | 5: delta_s/delta_0: 1.0576E-06 | 6: delta_r/delta_0: 8.3527E-08 | 7: delta_s/delta_0: 5.3327E-08 | 8: delta_r/delta_0: 2.7811E-08 | 9: delta_s/delta_0: 4.3100E-07 | 10: delta_r/delta_0: 2.4652E-09 | 11: delta_s/delta_0: 1.6485E-09 | 12: delta_r/delta_0: 4.1334E-10 | 13: delta_s/delta_0: 3.2912E-10 | 14: delta_r/delta_0: 2.2572E-10 | 15: delta_s/delta_0: 1.4912E-10 | 16: delta_r/delta_0: 2.1074E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.158018483663739E-002 4.021277150680351E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8620E-03 | 2: delta_r/delta_0: 4.3001E-05 | 3: delta_s/delta_0: 1.4529E-05 | 4: delta_r/delta_0: 1.5275E-06 | 5: delta_s/delta_0: 1.0560E-06 | 6: delta_r/delta_0: 8.3383E-08 | 7: delta_s/delta_0: 5.3316E-08 | 8: delta_r/delta_0: 2.7796E-08 | 9: delta_s/delta_0: 4.3105E-07 | 10: delta_r/delta_0: 2.4546E-09 | 11: delta_s/delta_0: 1.6391E-09 | 12: delta_r/delta_0: 4.1415E-10 | 13: delta_s/delta_0: 3.2988E-10 | 14: delta_r/delta_0: 2.2617E-10 | 15: delta_s/delta_0: 1.4795E-10 | 16: delta_r/delta_0: 2.1111E-11 | Reached bicg-stab tolerance | BP delta = -0.1514283 -0.1590041 2827405.79303418 | BP delta = -0.1514283 -0.1621354 2827444.52673403 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95924418 | --> Sampling calibration, mode = relcal | relcal = 0.1065976 0.1395130 -0.1102446 -0.1358660 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6339555E-03 1.2612550E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9673E-01 | 2: delta_r/delta_0: 1.4228E-02 | 3: delta_s/delta_0: 4.4393E-03 | 4: delta_r/delta_0: 1.8248E-04 | 5: delta_s/delta_0: 2.1915E-06 | 6: delta_r/delta_0: 9.6229E-07 | 7: delta_s/delta_0: 2.2537E-06 | 8: delta_r/delta_0: 2.9015E-07 | 9: delta_s/delta_0: 2.0207E-07 | 10: delta_r/delta_0: 1.6943E-08 | 11: delta_s/delta_0: 9.2498E-09 | 12: delta_r/delta_0: 4.0584E-09 | 13: delta_s/delta_0: 1.1917E-09 | 14: delta_r/delta_0: 2.5874E-10 | 15: delta_s/delta_0: 2.4239E-10 | 16: delta_r/delta_0: 1.4563E-10 | 17: delta_s/delta_0: 6.3005E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.647906906018768E-002 3.696914325438279E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0047E-01 | 2: delta_r/delta_0: 1.4317E-02 | 3: delta_s/delta_0: 4.4417E-03 | 4: delta_r/delta_0: 1.8255E-04 | 5: delta_s/delta_0: 2.1935E-06 | 6: delta_r/delta_0: 9.6332E-07 | 7: delta_s/delta_0: 2.2512E-06 | 8: delta_r/delta_0: 2.9059E-07 | 9: delta_s/delta_0: 2.0251E-07 | 10: delta_r/delta_0: 1.6928E-08 | 11: delta_s/delta_0: 9.2575E-09 | 12: delta_r/delta_0: 4.0611E-09 | 13: delta_s/delta_0: 1.1916E-09 | 14: delta_r/delta_0: 2.5903E-10 | 15: delta_s/delta_0: 2.4257E-10 | 16: delta_r/delta_0: 1.4572E-10 | 17: delta_s/delta_0: 6.3015E-11 | Reached bicg-stab tolerance | BP delta = 0.1493591 0.2606138 3003864.44161543 | BP delta = 0.1493591 0.2458485 3003922.68706960 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.093809 | New value = -3.035384 | poltype: 2 pol: 1 CPU time specind = 2.1384954E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.080834 | New value = -3.113117 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.074025 | New value = -3.104574 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142453 | New value = -3.193360 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203952 | New value = -3.081185 | poltype: 2 pol: 2 CPU time specind = 7.2779655E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.13815E+08, tol = 0.69796E+01, time = 5.71 | CG iter. 2 -- res = 0.45729E+06, tol = 0.69796E+01, time = 5.71 | CG iter. 3 -- res = 0.19016E+06, tol = 0.69796E+01, time = 5.48 | CG iter. 4 -- res = 0.29000E+06, tol = 0.69796E+01, time = 5.13 | CG iter. 5 -- res = 0.29899E+06, tol = 0.69796E+01, time = 5.68 | CG iter. 6 -- res = 0.24626E+06, tol = 0.69796E+01, time = 6.79 | CG iter. 7 -- res = 0.16431E+06, tol = 0.69796E+01, time = 5.89 | CG iter. 8 -- res = 0.10743E+06, tol = 0.69796E+01, time = 5.92 | CG iter. 9 -- res = 0.83344E+05, tol = 0.69796E+01, time = 5.62 | CG iter. 10 -- res = 0.65013E+05, tol = 0.69796E+01, time = 5.91 | CG iter. 11 -- res = 0.46504E+05, tol = 0.69796E+01, time = 5.63 | CG iter. 12 -- res = 0.30652E+05, tol = 0.69796E+01, time = 5.43 | CG iter. 13 -- res = 0.23314E+05, tol = 0.69796E+01, time = 5.50 | CG iter. 14 -- res = 0.18950E+05, tol = 0.69796E+01, time = 5.65 | CG iter. 15 -- res = 0.13276E+05, tol = 0.69796E+01, time = 5.41 | CG iter. 16 -- res = 0.83879E+04, tol = 0.69796E+01, time = 5.34 | CG iter. 17 -- res = 0.60305E+04, tol = 0.69796E+01, time = 5.75 | CG iter. 18 -- res = 0.49591E+04, tol = 0.69796E+01, time = 5.86 | CG iter. 19 -- res = 0.40181E+04, tol = 0.69796E+01, time = 5.67 | CG iter. 20 -- res = 0.27128E+04, tol = 0.69796E+01, time = 5.67 | CG iter. 21 -- res = 0.19447E+04, tol = 0.69796E+01, time = 5.76 | CG iter. 22 -- res = 0.15689E+04, tol = 0.69796E+01, time = 5.36 | CG iter. 23 -- res = 0.12910E+04, tol = 0.69796E+01, time = 5.20 | CG iter. 24 -- res = 0.96505E+03, tol = 0.69796E+01, time = 5.65 | CG iter. 25 -- res = 0.68325E+03, tol = 0.69796E+01, time = 6.02 | CG iter. 26 -- res = 0.52540E+03, tol = 0.69796E+01, time = 5.59 | CG iter. 27 -- res = 0.43887E+03, tol = 0.69796E+01, time = 5.76 | CG iter. 28 -- res = 0.33900E+03, tol = 0.69796E+01, time = 5.40 | CG iter. 29 -- res = 0.24017E+03, tol = 0.69796E+01, time = 5.55 | CG iter. 30 -- res = 0.17101E+03, tol = 0.69796E+01, time = 5.38 | CG iter. 31 -- res = 0.13816E+03, tol = 0.69796E+01, time = 5.61 | CG iter. 32 -- res = 0.10501E+03, tol = 0.69796E+01, time = 5.88 | CG iter. 33 -- res = 0.73900E+02, tol = 0.69796E+01, time = 5.48 | CG iter. 34 -- res = 0.50660E+02, tol = 0.69796E+01, time = 5.69 | CG iter. 35 -- res = 0.37665E+02, tol = 0.69796E+01, time = 5.48 | CG iter. 36 -- res = 0.29862E+02, tol = 0.69796E+01, time = 5.53 | CG iter. 37 -- res = 0.21520E+02, tol = 0.69796E+01, time = 5.72 | CG iter. 38 -- res = 0.14545E+02, tol = 0.69796E+01, time = 5.73 | CG iter. 39 -- res = 0.10438E+02, tol = 0.69796E+01, time = 5.81 | CG iter. 40 -- res = 0.83444E+01, tol = 0.69796E+01, time = 5.52 | CG iter. 41 -- res = 0.62808E+01, tol = 0.69796E+01, time = 5.57 | CG iter. 42 -- res = 0.44412E+01, tol = 0.69796E+01, time = 7.26 | CG iter. 43 -- res = 0.30800E+01, tol = 0.69796E+01, time = 10.48 | CG iter. 44 -- res = 0.23002E+01, tol = 0.69796E+01, time = 5.44 | CG iter. 45 -- res = 0.16512E+01, tol = 0.69796E+01, time = 5.77 | CG iter. 46 -- res = 0.11540E+01, tol = 0.69796E+01, time = 5.56 | CG iter. 47 -- res = 0.78398E+00, tol = 0.69796E+01, time = 5.67 | CG iter. 48 -- res = 0.54618E+00, tol = 0.69796E+01, time = 5.43 | CG iter. 49 -- res = 0.40858E+00, tol = 0.69796E+01, time = 5.19 | CG iter. 50 -- res = 0.29368E+00, tol = 0.69796E+01, time = 5.55 | Final CG iter 51 -- res = 0.29368E+00, tol = 0.69796E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9063993.908 | Old band monopole 10673024.080 | Change to band monopole -1609030.172 | Change to component monopole 1609023.251 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.71364E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.24354E+03, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.39146E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.40840E-01, tol = 0.47627E+18, time = 2.75 | Final CG iter 5 -- res = 0.93078E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9063954.922 | (Sampled value in CG: 9167982.168 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.491596 | New value = 1.515431 | poltype: 2 pol: 1 CPU time specind = 2.1512985E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.500268 | New value = 1.447838 | poltype: 2 pol: 2 CPU time specind = 1.6165972E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.24111E+08, tol = 0.47588E+04, time = 6.09 | CG iter. 2 -- res = 0.52137E+07, tol = 0.47588E+04, time = 6.79 | CG iter. 3 -- res = 0.83132E+06, tol = 0.47588E+04, time = 6.24 | CG iter. 4 -- res = 0.34336E+06, tol = 0.47588E+04, time = 6.38 | CG iter. 5 -- res = 0.14765E+06, tol = 0.47588E+04, time = 6.38 | CG iter. 6 -- res = 0.79142E+05, tol = 0.47588E+04, time = 6.08 | CG iter. 7 -- res = 0.43659E+05, tol = 0.47588E+04, time = 6.51 | CG iter. 8 -- res = 0.20901E+05, tol = 0.47588E+04, time = 6.55 | CG iter. 9 -- res = 0.90448E+04, tol = 0.47588E+04, time = 5.84 | CG iter. 10 -- res = 0.36770E+04, tol = 0.47588E+04, time = 6.92 | CG iter. 11 -- res = 0.16406E+04, tol = 0.47588E+04, time = 6.27 | CG iter. 12 -- res = 0.85205E+03, tol = 0.47588E+04, time = 6.49 | CG iter. 13 -- res = 0.48674E+03, tol = 0.47588E+04, time = 6.59 | CG iter. 14 -- res = 0.27317E+03, tol = 0.47588E+04, time = 6.48 | CG iter. 15 -- res = 0.14257E+03, tol = 0.47588E+04, time = 6.61 | CG iter. 16 -- res = 0.67417E+02, tol = 0.47588E+04, time = 6.12 | CG iter. 17 -- res = 0.31711E+02, tol = 0.47588E+04, time = 6.07 | CG iter. 18 -- res = 0.15938E+02, tol = 0.47588E+04, time = 6.46 | CG iter. 19 -- res = 0.87775E+01, tol = 0.47588E+04, time = 6.29 | CG iter. 20 -- res = 0.49701E+01, tol = 0.47588E+04, time = 6.72 | CG iter. 21 -- res = 0.27429E+01, tol = 0.47588E+04, time = 8.73 | CG iter. 22 -- res = 0.13857E+01, tol = 0.47588E+04, time = 11.37 | CG iter. 23 -- res = 0.69413E+00, tol = 0.47588E+04, time = 6.48 | CG iter. 24 -- res = 0.35869E+00, tol = 0.47588E+04, time = 6.49 | CG iter. 25 -- res = 0.19586E+00, tol = 0.47588E+04, time = 6.27 | CG iter. 26 -- res = 0.10950E+00, tol = 0.47588E+04, time = 6.48 | CG iter. 27 -- res = 0.61584E-01, tol = 0.47588E+04, time = 6.18 | CG iter. 28 -- res = 0.32632E-01, tol = 0.47588E+04, time = 6.59 | CG iter. 29 -- res = 0.16918E-01, tol = 0.47588E+04, time = 6.19 | CG iter. 30 -- res = 0.89016E-02, tol = 0.47588E+04, time = 6.49 | CG iter. 31 -- res = 0.48446E-02, tol = 0.47588E+04, time = 6.24 | CG iter. 32 -- res = 0.27103E-02, tol = 0.47588E+04, time = 6.61 | CG iter. 33 -- res = 0.15493E-02, tol = 0.47588E+04, time = 6.28 | CG iter. 34 -- res = 0.83413E-03, tol = 0.47588E+04, time = 6.32 | CG iter. 35 -- res = 0.43938E-03, tol = 0.47588E+04, time = 7.88 | Final CG iter 36 -- res = 0.43938E-03, tol = 0.47588E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.134 2.748 | New value 2.134 | Old value -1.134 | Difference 3.268 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.56482E+06, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.14244E+03, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.26008E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.89106E-04, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.93415E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9063954.922 | (Sampled value in CG: 9167618.603 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.556888 | New value = -3.707943 | poltype: 1 pol: 1 CPU time specind = 1.0658026E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.28211E+07, tol = 0.23602E+01, time = 3.03 | CG iter. 2 -- res = 0.11792E+07, tol = 0.23602E+01, time = 3.00 | CG iter. 3 -- res = 0.23674E+06, tol = 0.23602E+01, time = 2.77 | CG iter. 4 -- res = 0.10380E+06, tol = 0.23602E+01, time = 2.49 | CG iter. 5 -- res = 0.63316E+05, tol = 0.23602E+01, time = 2.55 | CG iter. 6 -- res = 0.28746E+05, tol = 0.23602E+01, time = 2.57 | CG iter. 7 -- res = 0.92557E+04, tol = 0.23602E+01, time = 2.60 | CG iter. 8 -- res = 0.35868E+04, tol = 0.23602E+01, time = 2.84 | CG iter. 9 -- res = 0.16016E+04, tol = 0.23602E+01, time = 2.37 | CG iter. 10 -- res = 0.65366E+03, tol = 0.23602E+01, time = 2.64 | CG iter. 11 -- res = 0.29441E+03, tol = 0.23602E+01, time = 2.67 | CG iter. 12 -- res = 0.15444E+03, tol = 0.23602E+01, time = 2.96 | CG iter. 13 -- res = 0.77500E+02, tol = 0.23602E+01, time = 2.82 | CG iter. 14 -- res = 0.36085E+02, tol = 0.23602E+01, time = 2.58 | CG iter. 15 -- res = 0.15241E+02, tol = 0.23602E+01, time = 2.51 | CG iter. 16 -- res = 0.63993E+01, tol = 0.23602E+01, time = 2.37 | CG iter. 17 -- res = 0.28000E+01, tol = 0.23602E+01, time = 2.82 | CG iter. 18 -- res = 0.13969E+01, tol = 0.23602E+01, time = 2.90 | CG iter. 19 -- res = 0.72230E+00, tol = 0.23602E+01, time = 2.57 | CG iter. 20 -- res = 0.34562E+00, tol = 0.23602E+01, time = 2.38 | CG iter. 21 -- res = 0.15289E+00, tol = 0.23602E+01, time = 2.90 | CG iter. 22 -- res = 0.64640E-01, tol = 0.23602E+01, time = 2.54 | CG iter. 23 -- res = 0.29567E-01, tol = 0.23602E+01, time = 2.50 | CG iter. 24 -- res = 0.14960E-01, tol = 0.23602E+01, time = 2.77 | CG iter. 25 -- res = 0.78717E-02, tol = 0.23602E+01, time = 2.75 | CG iter. 26 -- res = 0.36820E-02, tol = 0.23602E+01, time = 2.48 | CG iter. 27 -- res = 0.16937E-02, tol = 0.23602E+01, time = 2.70 | CG iter. 28 -- res = 0.78797E-03, tol = 0.23602E+01, time = 2.57 | CG iter. 29 -- res = 0.34166E-03, tol = 0.23602E+01, time = 2.83 | CG iter. 30 -- res = 0.17165E-03, tol = 0.23602E+01, time = 2.74 | CG iter. 31 -- res = 0.83443E-04, tol = 0.23602E+01, time = 2.79 | CG iter. 32 -- res = 0.42050E-04, tol = 0.23602E+01, time = 2.83 | CG iter. 33 -- res = 0.19353E-04, tol = 0.23602E+01, time = 2.54 | CG iter. 34 -- res = 0.87214E-05, tol = 0.23602E+01, time = 2.76 | CG iter. 35 -- res = 0.42659E-05, tol = 0.23602E+01, time = 2.56 | CG iter. 36 -- res = 0.19700E-05, tol = 0.23602E+01, time = 2.69 | CG iter. 37 -- res = 0.96615E-06, tol = 0.23602E+01, time = 2.64 | CG iter. 38 -- res = 0.48687E-06, tol = 0.23602E+01, time = 2.69 | CG iter. 39 -- res = 0.22743E-06, tol = 0.23602E+01, time = 2.41 | CG iter. 40 -- res = 0.10301E-06, tol = 0.23602E+01, time = 2.71 | CG iter. 41 -- res = 0.48117E-07, tol = 0.23602E+01, time = 2.55 | CG iter. 42 -- res = 0.22665E-07, tol = 0.23602E+01, time = 2.83 | CG iter. 43 -- res = 0.10899E-07, tol = 0.23602E+01, time = 2.69 | CG iter. 44 -- res = 0.54558E-08, tol = 0.23602E+01, time = 2.69 | CG iter. 45 -- res = 0.26005E-08, tol = 0.23602E+01, time = 2.47 | CG iter. 46 -- res = 0.11707E-08, tol = 0.23602E+01, time = 2.58 | CG iter. 47 -- res = 0.56102E-09, tol = 0.23602E+01, time = 2.94 | CG iter. 48 -- res = 0.26909E-09, tol = 0.23602E+01, time = 2.71 | CG iter. 49 -- res = 0.13206E-09, tol = 0.23602E+01, time = 2.74 | CG iter. 50 -- res = 0.62491E-10, tol = 0.23602E+01, time = 2.69 | Final CG iter 51 -- res = 0.62491E-10, tol = 0.23602E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.645 3.001 | New value 5.996 | Old value 3.645 | Difference 2.351 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.12092E+05, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.31311E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.11627E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.60352E-03, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.22518E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9063954.922 | (Sampled value in CG: 9147251.047 ) | CPU time specind = 1179.266 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.69099E+08, tol = 0.57898E+04, time = 11.83 | CG iter. 2 -- res = 0.60201E+08, tol = 0.57898E+04, time = 11.88 | CG iter. 3 -- res = 0.16253E+08, tol = 0.57898E+04, time = 11.71 | CG iter. 4 -- res = 0.68480E+07, tol = 0.57898E+04, time = 11.43 | CG iter. 5 -- res = 0.41319E+07, tol = 0.57898E+04, time = 11.39 | CG iter. 6 -- res = 0.24221E+07, tol = 0.57898E+04, time = 12.09 | CG iter. 7 -- res = 0.14620E+07, tol = 0.57898E+04, time = 14.49 | CG iter. 8 -- res = 0.10098E+07, tol = 0.57898E+04, time = 11.76 | CG iter. 9 -- res = 0.69919E+06, tol = 0.57898E+04, time = 11.64 | CG iter. 10 -- res = 0.45334E+06, tol = 0.57898E+04, time = 11.37 | CG iter. 11 -- res = 0.27494E+06, tol = 0.57898E+04, time = 11.87 | CG iter. 12 -- res = 0.17067E+06, tol = 0.57898E+04, time = 11.80 | CG iter. 13 -- res = 0.11464E+06, tol = 0.57898E+04, time = 11.75 | CG iter. 14 -- res = 0.92163E+05, tol = 0.57898E+04, time = 11.68 | CG iter. 15 -- res = 0.89250E+05, tol = 0.57898E+04, time = 11.15 | CG iter. 16 -- res = 0.93601E+05, tol = 0.57898E+04, time = 14.01 | CG iter. 17 -- res = 0.97738E+05, tol = 0.57898E+04, time = 11.86 | CG iter. 18 -- res = 0.91925E+05, tol = 0.57898E+04, time = 11.72 | CG iter. 19 -- res = 0.82864E+05, tol = 0.57898E+04, time = 11.33 | CG iter. 20 -- res = 0.73700E+05, tol = 0.57898E+04, time = 11.98 | CG iter. 21 -- res = 0.66204E+05, tol = 0.57898E+04, time = 11.52 | CG iter. 22 -- res = 0.60760E+05, tol = 0.57898E+04, time = 11.65 | CG iter. 23 -- res = 0.54272E+05, tol = 0.57898E+04, time = 11.70 | CG iter. 24 -- res = 0.46480E+05, tol = 0.57898E+04, time = 18.36 | CG iter. 25 -- res = 0.37879E+05, tol = 0.57898E+04, time = 11.97 | CG iter. 26 -- res = 0.29004E+05, tol = 0.57898E+04, time = 12.01 | CG iter. 27 -- res = 0.22368E+05, tol = 0.57898E+04, time = 12.11 | CG iter. 28 -- res = 0.17963E+05, tol = 0.57898E+04, time = 11.47 | CG iter. 29 -- res = 0.15853E+05, tol = 0.57898E+04, time = 11.90 | CG iter. 30 -- res = 0.14948E+05, tol = 0.57898E+04, time = 11.76 | CG iter. 31 -- res = 0.14485E+05, tol = 0.57898E+04, time = 12.72 | CG iter. 32 -- res = 0.13723E+05, tol = 0.57898E+04, time = 12.13 | CG iter. 33 -- res = 0.12106E+05, tol = 0.57898E+04, time = 11.61 | CG iter. 34 -- res = 0.10148E+05, tol = 0.57898E+04, time = 11.75 | CG iter. 35 -- res = 0.84147E+04, tol = 0.57898E+04, time = 11.92 | CG iter. 36 -- res = 0.74033E+04, tol = 0.57898E+04, time = 11.55 | CG iter. 37 -- res = 0.68506E+04, tol = 0.57898E+04, time = 11.42 | CG iter. 38 -- res = 0.62341E+04, tol = 0.57898E+04, time = 12.02 | CG iter. 39 -- res = 0.53547E+04, tol = 0.57898E+04, time = 11.45 | CG iter. 40 -- res = 0.44540E+04, tol = 0.57898E+04, time = 11.28 | CG iter. 41 -- res = 0.36725E+04, tol = 0.57898E+04, time = 11.38 | CG iter. 42 -- res = 0.30972E+04, tol = 0.57898E+04, time = 11.54 | CG iter. 43 -- res = 0.27826E+04, tol = 0.57898E+04, time = 11.57 | CG iter. 44 -- res = 0.26897E+04, tol = 0.57898E+04, time = 11.23 | CG iter. 45 -- res = 0.26294E+04, tol = 0.57898E+04, time = 11.55 | CG iter. 46 -- res = 0.24962E+04, tol = 0.57898E+04, time = 11.71 | CG iter. 47 -- res = 0.22275E+04, tol = 0.57898E+04, time = 11.56 | CG iter. 48 -- res = 0.19118E+04, tol = 0.57898E+04, time = 11.40 | CG iter. 49 -- res = 0.16816E+04, tol = 0.57898E+04, time = 18.38 | CG iter. 50 -- res = 0.14606E+04, tol = 0.57898E+04, time = 11.71 | CG iter. 51 -- res = 0.13061E+04, tol = 0.57898E+04, time = 11.38 | CG iter. 52 -- res = 0.12213E+04, tol = 0.57898E+04, time = 11.46 | CG iter. 53 -- res = 0.11297E+04, tol = 0.57898E+04, time = 11.77 | CG iter. 54 -- res = 0.10275E+04, tol = 0.57898E+04, time = 11.51 | CG iter. 55 -- res = 0.91032E+03, tol = 0.57898E+04, time = 12.10 | CG iter. 56 -- res = 0.78999E+03, tol = 0.57898E+04, time = 13.20 | CG iter. 57 -- res = 0.71281E+03, tol = 0.57898E+04, time = 12.91 | CG iter. 58 -- res = 0.67703E+03, tol = 0.57898E+04, time = 11.54 | CG iter. 59 -- res = 0.64176E+03, tol = 0.57898E+04, time = 11.69 | CG iter. 60 -- res = 0.60488E+03, tol = 0.57898E+04, time = 11.70 | Final CG iter 61 -- res = 0.60488E+03, tol = 0.57898E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.605 ( -229.478 -2229.606 2512.210 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7330185.308 | Old band monopole 9063993.908 | Change to band monopole -1733808.600 | Change to component monopole 1733801.142 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.139 2.758 | New value -1.767 | Old value 2.139 | Difference -3.906 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.944 ( 4.716 7.264 -7.999 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.062 5.275 | New value -3.745 | Old value 3.062 | Difference -6.807 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.84210E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.28126E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.12269E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.10837E-02, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.25511E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7330153.780 | (Sampled value in CG: 7316386.983 ) | Chain = 1 -- chisq = 0.81501161E+09 | Chain = 1 -- wall time = 6074.475 sec Available RAM: MemAvailable: 391562724 kB Available Swap: SwapFree: 1116762964 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 259 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447196 | --> Sampling calibration, mode = relcal | relcal = 1.3455911E-02 7.2759023E-04 -1.6067026E-03 -1.2576798E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1146949 0.1328132 97037066.7258468 | BP delta = 0.1144696 0.1325879 97037066.8258401 | BP chisq diff = 0.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632176 | --> Sampling calibration, mode = relcal | relcal = -2.8197516E-03 -7.0421142E-04 1.6777331E-03 1.6131679E-03 -4.0687775E-04 6.3993962E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5349883 15221263.8127046 | BP delta = 0.0000000E+00 -0.5215005 15221257.9212715 | BP chisq diff = -5.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17982618813177 | --> Sampling calibration, mode = relcal | relcal = -7.3456407E-02 -5.7454824E-02 9.0255775E-02 4.0655456E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0569197E-04 2.7597966E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9868E-04 | 2: delta_r/delta_0: 4.9384E-06 | 3: delta_s/delta_0: 1.6552E-07 | 4: delta_r/delta_0: 2.9358E-08 | 5: delta_s/delta_0: 1.0026E-08 | 6: delta_r/delta_0: 3.3584E-09 | 7: delta_s/delta_0: 6.7149E-10 | 8: delta_r/delta_0: 1.8295E-10 | 9: delta_s/delta_0: 8.0180E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.152842390961377E-006 2.744023414907912E-005 | BP delta = 7.1074404E-02 9.0714000E-02 50484131.3222764 | BP delta = 7.5268202E-02 9.4907798E-02 50484135.7576875 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02578433 | --> Sampling calibration, mode = relcal | relcal = -0.1066321 -9.5538177E-02 0.1449462 5.7224076E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8838192E-03 1.4874839E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4372E-05 | 2: delta_r/delta_0: 1.5690E-06 | 3: delta_s/delta_0: 2.3669E-07 | 4: delta_r/delta_0: 3.7962E-08 | 5: delta_s/delta_0: 2.6714E-08 | 6: delta_r/delta_0: 6.1084E-09 | 7: delta_s/delta_0: 4.1427E-09 | 8: delta_r/delta_0: 1.6284E-09 | 9: delta_s/delta_0: 7.8242E-10 | 10: delta_r/delta_0: 5.8517E-10 | 11: delta_s/delta_0: 8.4922E-10 | 12: delta_r/delta_0: 1.0523E-10 | 13: delta_s/delta_0: 1.0091E-10 | 14: delta_r/delta_0: 3.9459E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.008394145428746E-002 2.811438424558566E-005 | BP delta = -0.2714375 -0.2466031 57390385.9877858 | BP delta = -0.2748566 -0.2500221 57390385.9434273 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81187144 | --> Sampling calibration, mode = relcal | relcal = 0.2954298 0.2247616 -0.2836981 -0.2364934 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.9345003E-04 4.3945503E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0416E-01 | 2: delta_r/delta_0: 7.1627E-03 | 3: delta_s/delta_0: 8.3734E-05 | 4: delta_r/delta_0: 2.6898E-06 | 5: delta_s/delta_0: 2.1230E-06 | 6: delta_r/delta_0: 9.4371E-07 | 7: delta_s/delta_0: 5.1771E-07 | 8: delta_r/delta_0: 2.1891E-07 | 9: delta_s/delta_0: 1.3113E-06 | 10: delta_r/delta_0: 1.1318E-08 | 11: delta_s/delta_0: 9.7538E-09 | 12: delta_r/delta_0: 5.7468E-09 | 13: delta_s/delta_0: 6.1038E-10 | 14: delta_r/delta_0: 3.7208E-10 | 15: delta_s/delta_0: 2.3050E-09 | 16: delta_r/delta_0: 7.9383E-10 | 17: delta_s/delta_0: 5.8589E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.738762506887701E-002 4.023613796185974E-005 | BP delta = -0.1514283 -0.1590041 72488968.3881806 | BP delta = -0.1658751 -0.1734509 72488968.2731188 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95873544 | --> Sampling calibration, mode = relcal | relcal = 0.1063677 0.1395939 -0.1102095 -0.1357520 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0149520E-02 1.3044689E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5043E-04 | 2: delta_r/delta_0: 1.3485E-05 | 3: delta_s/delta_0: 1.1769E-05 | 4: delta_r/delta_0: 1.0604E-06 | 5: delta_s/delta_0: 3.3115E-07 | 6: delta_r/delta_0: 1.5791E-07 | 7: delta_s/delta_0: 4.4638E-07 | 8: delta_r/delta_0: 3.6131E-08 | 9: delta_s/delta_0: 8.8622E-08 | 10: delta_r/delta_0: 1.7772E-08 | 11: delta_s/delta_0: 2.3286E-09 | 12: delta_r/delta_0: 1.0272E-09 | 13: delta_s/delta_0: 1.3275E-09 | 14: delta_r/delta_0: 2.6767E-10 | 15: delta_s/delta_0: 7.2149E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.284880046779391E-002 3.698869721667829E-005 | BP delta = 0.1493591 0.2606138 72775897.4821730 | BP delta = 0.1379107 0.2491654 72775897.4339924 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.035384 | New value = -3.182058 | poltype: 2 pol: 1 CPU time specind = 2.3921013E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.113117 | New value = -3.274618 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.104574 | New value = -3.137765 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193360 | New value = -3.150784 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.081185 | New value = -3.116891 | poltype: 2 pol: 2 CPU time specind = 3.9547920E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.84 | CG iter. 1 -- res = 0.13838E+08, tol = 0.92696E+01, time = 5.16 | CG iter. 2 -- res = 0.46586E+06, tol = 0.92696E+01, time = 6.00 | CG iter. 3 -- res = 0.21962E+06, tol = 0.92696E+01, time = 5.58 | CG iter. 4 -- res = 0.41582E+06, tol = 0.92696E+01, time = 6.17 | CG iter. 5 -- res = 0.44159E+06, tol = 0.92696E+01, time = 5.85 | CG iter. 6 -- res = 0.33718E+06, tol = 0.92696E+01, time = 5.51 | CG iter. 7 -- res = 0.25156E+06, tol = 0.92696E+01, time = 5.64 | CG iter. 8 -- res = 0.17653E+06, tol = 0.92696E+01, time = 5.42 | CG iter. 9 -- res = 0.14821E+06, tol = 0.92696E+01, time = 5.28 | CG iter. 10 -- res = 0.12639E+06, tol = 0.92696E+01, time = 5.69 | CG iter. 11 -- res = 0.91882E+05, tol = 0.92696E+01, time = 5.55 | CG iter. 12 -- res = 0.71038E+05, tol = 0.92696E+01, time = 5.61 | CG iter. 13 -- res = 0.62668E+05, tol = 0.92696E+01, time = 5.73 | CG iter. 14 -- res = 0.52304E+05, tol = 0.92696E+01, time = 6.73 | CG iter. 15 -- res = 0.38558E+05, tol = 0.92696E+01, time = 6.18 | CG iter. 16 -- res = 0.27582E+05, tol = 0.92696E+01, time = 5.63 | CG iter. 17 -- res = 0.22227E+05, tol = 0.92696E+01, time = 5.46 | CG iter. 18 -- res = 0.19861E+05, tol = 0.92696E+01, time = 5.77 | CG iter. 19 -- res = 0.16697E+05, tol = 0.92696E+01, time = 5.58 | CG iter. 20 -- res = 0.12481E+05, tol = 0.92696E+01, time = 6.07 | CG iter. 21 -- res = 0.97709E+04, tol = 0.92696E+01, time = 5.45 | CG iter. 22 -- res = 0.85491E+04, tol = 0.92696E+01, time = 5.70 | CG iter. 23 -- res = 0.73089E+04, tol = 0.92696E+01, time = 5.30 | CG iter. 24 -- res = 0.57572E+04, tol = 0.92696E+01, time = 5.80 | CG iter. 25 -- res = 0.44722E+04, tol = 0.92696E+01, time = 5.80 | CG iter. 26 -- res = 0.38469E+04, tol = 0.92696E+01, time = 5.70 | CG iter. 27 -- res = 0.35581E+04, tol = 0.92696E+01, time = 5.62 | CG iter. 28 -- res = 0.30228E+04, tol = 0.92696E+01, time = 5.23 | CG iter. 29 -- res = 0.24190E+04, tol = 0.92696E+01, time = 6.08 | CG iter. 30 -- res = 0.19689E+04, tol = 0.92696E+01, time = 5.29 | CG iter. 31 -- res = 0.17980E+04, tol = 0.92696E+01, time = 5.91 | CG iter. 32 -- res = 0.15778E+04, tol = 0.92696E+01, time = 5.58 | CG iter. 33 -- res = 0.12557E+04, tol = 0.92696E+01, time = 5.52 | CG iter. 34 -- res = 0.10118E+04, tol = 0.92696E+01, time = 5.54 | CG iter. 35 -- res = 0.90283E+03, tol = 0.92696E+01, time = 5.94 | CG iter. 36 -- res = 0.82478E+03, tol = 0.92696E+01, time = 5.73 | CG iter. 37 -- res = 0.68108E+03, tol = 0.92696E+01, time = 5.39 | CG iter. 38 -- res = 0.53062E+03, tol = 0.92696E+01, time = 5.40 | CG iter. 39 -- res = 0.43986E+03, tol = 0.92696E+01, time = 5.45 | CG iter. 40 -- res = 0.40302E+03, tol = 0.92696E+01, time = 5.14 | CG iter. 41 -- res = 0.34190E+03, tol = 0.92696E+01, time = 5.39 | CG iter. 42 -- res = 0.27322E+03, tol = 0.92696E+01, time = 5.50 | CG iter. 43 -- res = 0.21358E+03, tol = 0.92696E+01, time = 5.66 | CG iter. 44 -- res = 0.18519E+03, tol = 0.92696E+01, time = 5.79 | CG iter. 45 -- res = 0.15897E+03, tol = 0.92696E+01, time = 5.31 | CG iter. 46 -- res = 0.12244E+03, tol = 0.92696E+01, time = 5.72 | CG iter. 47 -- res = 0.95859E+02, tol = 0.92696E+01, time = 5.50 | CG iter. 48 -- res = 0.80935E+02, tol = 0.92696E+01, time = 5.55 | CG iter. 49 -- res = 0.69192E+02, tol = 0.92696E+01, time = 5.67 | CG iter. 50 -- res = 0.56125E+02, tol = 0.92696E+01, time = 5.72 | Final CG iter 51 -- res = 0.56125E+02, tol = 0.92696E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7895823.751 | Old band monopole 7330185.308 | Change to band monopole 565638.442 | Change to component monopole -565636.009 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.23470E+07, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.10761E+04, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.53933E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.13572E+00, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.10991E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7895789.789 | (Sampled value in CG: 7732060.778 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.515431 | New value = 1.509183 | poltype: 2 pol: 1 CPU time specind = 2.0388842E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.447838 | New value = 1.505996 | poltype: 2 pol: 2 CPU time specind = 4.2331219E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.51 | CG iter. 1 -- res = 0.24022E+08, tol = 0.47559E+04, time = 6.19 | CG iter. 2 -- res = 0.53167E+07, tol = 0.47559E+04, time = 6.42 | CG iter. 3 -- res = 0.83558E+06, tol = 0.47559E+04, time = 6.44 | CG iter. 4 -- res = 0.35631E+06, tol = 0.47559E+04, time = 6.55 | CG iter. 5 -- res = 0.15392E+06, tol = 0.47559E+04, time = 6.38 | CG iter. 6 -- res = 0.80194E+05, tol = 0.47559E+04, time = 6.26 | CG iter. 7 -- res = 0.44301E+05, tol = 0.47559E+04, time = 6.58 | CG iter. 8 -- res = 0.21409E+05, tol = 0.47559E+04, time = 6.41 | CG iter. 9 -- res = 0.91962E+04, tol = 0.47559E+04, time = 6.46 | CG iter. 10 -- res = 0.36760E+04, tol = 0.47559E+04, time = 6.56 | CG iter. 11 -- res = 0.16802E+04, tol = 0.47559E+04, time = 6.38 | CG iter. 12 -- res = 0.86172E+03, tol = 0.47559E+04, time = 6.56 | CG iter. 13 -- res = 0.49213E+03, tol = 0.47559E+04, time = 6.12 | CG iter. 14 -- res = 0.27404E+03, tol = 0.47559E+04, time = 7.14 | CG iter. 15 -- res = 0.13834E+03, tol = 0.47559E+04, time = 6.17 | CG iter. 16 -- res = 0.64597E+02, tol = 0.47559E+04, time = 6.48 | CG iter. 17 -- res = 0.30315E+02, tol = 0.47559E+04, time = 6.63 | CG iter. 18 -- res = 0.15229E+02, tol = 0.47559E+04, time = 6.52 | CG iter. 19 -- res = 0.82164E+01, tol = 0.47559E+04, time = 6.65 | CG iter. 20 -- res = 0.46861E+01, tol = 0.47559E+04, time = 6.67 | CG iter. 21 -- res = 0.25626E+01, tol = 0.47559E+04, time = 6.31 | CG iter. 22 -- res = 0.13384E+01, tol = 0.47559E+04, time = 6.74 | CG iter. 23 -- res = 0.68700E+00, tol = 0.47559E+04, time = 6.13 | CG iter. 24 -- res = 0.34911E+00, tol = 0.47559E+04, time = 6.16 | CG iter. 25 -- res = 0.19167E+00, tol = 0.47559E+04, time = 6.55 | CG iter. 26 -- res = 0.11071E+00, tol = 0.47559E+04, time = 6.32 | CG iter. 27 -- res = 0.64796E-01, tol = 0.47559E+04, time = 6.20 | CG iter. 28 -- res = 0.35317E-01, tol = 0.47559E+04, time = 6.46 | CG iter. 29 -- res = 0.18058E-01, tol = 0.47559E+04, time = 13.00 | CG iter. 30 -- res = 0.94967E-02, tol = 0.47559E+04, time = 6.42 | CG iter. 31 -- res = 0.52908E-02, tol = 0.47559E+04, time = 5.85 | CG iter. 32 -- res = 0.30118E-02, tol = 0.47559E+04, time = 6.17 | CG iter. 33 -- res = 0.16905E-02, tol = 0.47559E+04, time = 6.22 | CG iter. 34 -- res = 0.92211E-03, tol = 0.47559E+04, time = 6.10 | CG iter. 35 -- res = 0.49180E-03, tol = 0.47559E+04, time = 6.43 | Final CG iter 36 -- res = 0.49180E-03, tol = 0.47559E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.779 2.775 | New value -4.673 | Old value -1.779 | Difference -2.894 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.46093E+06, tol = 0.47627E+18, time = 2.16 | CG iter. 2 -- res = 0.30256E+03, tol = 0.47627E+18, time = 2.50 | CG iter. 3 -- res = 0.27221E+01, tol = 0.47627E+18, time = 2.09 | Final CG iter 4 -- res = 0.28589E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7895789.789 | (Sampled value in CG: 7733794.610 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.707943 | New value = -3.569505 | poltype: 1 pol: 1 CPU time specind = 2.5711060E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.75290E+07, tol = 0.25994E+01, time = 2.69 | CG iter. 2 -- res = 0.40821E+07, tol = 0.25994E+01, time = 2.90 | CG iter. 3 -- res = 0.92231E+06, tol = 0.25994E+01, time = 2.71 | CG iter. 4 -- res = 0.44051E+06, tol = 0.25994E+01, time = 2.41 | CG iter. 5 -- res = 0.25883E+06, tol = 0.25994E+01, time = 2.74 | CG iter. 6 -- res = 0.10776E+06, tol = 0.25994E+01, time = 2.69 | CG iter. 7 -- res = 0.31447E+05, tol = 0.25994E+01, time = 2.49 | CG iter. 8 -- res = 0.13134E+05, tol = 0.25994E+01, time = 2.66 | CG iter. 9 -- res = 0.67844E+04, tol = 0.25994E+01, time = 2.64 | CG iter. 10 -- res = 0.28395E+04, tol = 0.25994E+01, time = 2.69 | CG iter. 11 -- res = 0.11256E+04, tol = 0.25994E+01, time = 2.77 | CG iter. 12 -- res = 0.53663E+03, tol = 0.25994E+01, time = 2.89 | CG iter. 13 -- res = 0.26407E+03, tol = 0.25994E+01, time = 2.87 | CG iter. 14 -- res = 0.13052E+03, tol = 0.25994E+01, time = 2.95 | CG iter. 15 -- res = 0.60052E+02, tol = 0.25994E+01, time = 2.43 | CG iter. 16 -- res = 0.26344E+02, tol = 0.25994E+01, time = 2.56 | CG iter. 17 -- res = 0.10892E+02, tol = 0.25994E+01, time = 2.66 | CG iter. 18 -- res = 0.54217E+01, tol = 0.25994E+01, time = 2.91 | CG iter. 19 -- res = 0.27074E+01, tol = 0.25994E+01, time = 3.63 | CG iter. 20 -- res = 0.12917E+01, tol = 0.25994E+01, time = 3.21 | CG iter. 21 -- res = 0.59718E+00, tol = 0.25994E+01, time = 2.88 | CG iter. 22 -- res = 0.25694E+00, tol = 0.25994E+01, time = 2.80 | CG iter. 23 -- res = 0.11527E+00, tol = 0.25994E+01, time = 2.70 | CG iter. 24 -- res = 0.53451E-01, tol = 0.25994E+01, time = 2.79 | CG iter. 25 -- res = 0.25749E-01, tol = 0.25994E+01, time = 2.68 | CG iter. 26 -- res = 0.12382E-01, tol = 0.25994E+01, time = 2.56 | CG iter. 27 -- res = 0.60902E-02, tol = 0.25994E+01, time = 2.54 | CG iter. 28 -- res = 0.30374E-02, tol = 0.25994E+01, time = 2.76 | CG iter. 29 -- res = 0.13830E-02, tol = 0.25994E+01, time = 2.88 | CG iter. 30 -- res = 0.65466E-03, tol = 0.25994E+01, time = 2.85 | CG iter. 31 -- res = 0.31269E-03, tol = 0.25994E+01, time = 2.59 | CG iter. 32 -- res = 0.15436E-03, tol = 0.25994E+01, time = 2.88 | CG iter. 33 -- res = 0.77144E-04, tol = 0.25994E+01, time = 2.65 | CG iter. 34 -- res = 0.36669E-04, tol = 0.25994E+01, time = 2.45 | CG iter. 35 -- res = 0.18461E-04, tol = 0.25994E+01, time = 2.75 | CG iter. 36 -- res = 0.93139E-05, tol = 0.25994E+01, time = 2.42 | CG iter. 37 -- res = 0.42895E-05, tol = 0.25994E+01, time = 2.65 | CG iter. 38 -- res = 0.21743E-05, tol = 0.25994E+01, time = 2.51 | CG iter. 39 -- res = 0.10852E-05, tol = 0.25994E+01, time = 2.64 | CG iter. 40 -- res = 0.55507E-06, tol = 0.25994E+01, time = 2.81 | CG iter. 41 -- res = 0.26755E-06, tol = 0.25994E+01, time = 2.53 | CG iter. 42 -- res = 0.13032E-06, tol = 0.25994E+01, time = 2.42 | CG iter. 43 -- res = 0.57877E-07, tol = 0.25994E+01, time = 2.81 | CG iter. 44 -- res = 0.28042E-07, tol = 0.25994E+01, time = 2.76 | CG iter. 45 -- res = 0.13789E-07, tol = 0.25994E+01, time = 2.67 | CG iter. 46 -- res = 0.68183E-08, tol = 0.25994E+01, time = 2.83 | CG iter. 47 -- res = 0.33122E-08, tol = 0.25994E+01, time = 2.61 | CG iter. 48 -- res = 0.15748E-08, tol = 0.25994E+01, time = 2.54 | CG iter. 49 -- res = 0.70727E-09, tol = 0.25994E+01, time = 2.89 | CG iter. 50 -- res = 0.32541E-09, tol = 0.25994E+01, time = 2.65 | Final CG iter 51 -- res = 0.32541E-09, tol = 0.25994E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -16.136 7.514 | New value -11.061 | Old value -16.136 | Difference 5.075 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.45969E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.13682E+03, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.30501E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.57386E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.77179E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7895789.789 | (Sampled value in CG: 7772036.507 ) | CPU time specind = 1174.268 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.68737E+08, tol = 0.57601E+04, time = 11.78 | CG iter. 2 -- res = 0.58458E+08, tol = 0.57601E+04, time = 11.47 | CG iter. 3 -- res = 0.15357E+08, tol = 0.57601E+04, time = 11.87 | CG iter. 4 -- res = 0.66470E+07, tol = 0.57601E+04, time = 17.96 | CG iter. 5 -- res = 0.39394E+07, tol = 0.57601E+04, time = 11.84 | CG iter. 6 -- res = 0.23082E+07, tol = 0.57601E+04, time = 11.19 | CG iter. 7 -- res = 0.14443E+07, tol = 0.57601E+04, time = 11.61 | CG iter. 8 -- res = 0.10119E+07, tol = 0.57601E+04, time = 11.51 | CG iter. 9 -- res = 0.70582E+06, tol = 0.57601E+04, time = 11.65 | CG iter. 10 -- res = 0.46649E+06, tol = 0.57601E+04, time = 11.19 | CG iter. 11 -- res = 0.29352E+06, tol = 0.57601E+04, time = 13.34 | CG iter. 12 -- res = 0.20851E+06, tol = 0.57601E+04, time = 11.55 | CG iter. 13 -- res = 0.16352E+06, tol = 0.57601E+04, time = 11.18 | CG iter. 14 -- res = 0.14800E+06, tol = 0.57601E+04, time = 11.78 | CG iter. 15 -- res = 0.15787E+06, tol = 0.57601E+04, time = 11.32 | CG iter. 16 -- res = 0.17634E+06, tol = 0.57601E+04, time = 11.89 | CG iter. 17 -- res = 0.18113E+06, tol = 0.57601E+04, time = 11.50 | CG iter. 18 -- res = 0.16251E+06, tol = 0.57601E+04, time = 11.51 | CG iter. 19 -- res = 0.13809E+06, tol = 0.57601E+04, time = 11.57 | CG iter. 20 -- res = 0.11764E+06, tol = 0.57601E+04, time = 11.75 | CG iter. 21 -- res = 0.10181E+06, tol = 0.57601E+04, time = 11.57 | CG iter. 22 -- res = 0.91884E+05, tol = 0.57601E+04, time = 11.42 | CG iter. 23 -- res = 0.81151E+05, tol = 0.57601E+04, time = 11.55 | CG iter. 24 -- res = 0.66022E+05, tol = 0.57601E+04, time = 11.57 | CG iter. 25 -- res = 0.50061E+05, tol = 0.57601E+04, time = 11.51 | CG iter. 26 -- res = 0.37087E+05, tol = 0.57601E+04, time = 11.81 | CG iter. 27 -- res = 0.29440E+05, tol = 0.57601E+04, time = 11.97 | CG iter. 28 -- res = 0.25689E+05, tol = 0.57601E+04, time = 11.09 | CG iter. 29 -- res = 0.24859E+05, tol = 0.57601E+04, time = 17.77 | CG iter. 30 -- res = 0.24566E+05, tol = 0.57601E+04, time = 11.52 | CG iter. 31 -- res = 0.23009E+05, tol = 0.57601E+04, time = 11.48 | CG iter. 32 -- res = 0.20137E+05, tol = 0.57601E+04, time = 11.60 | CG iter. 33 -- res = 0.17151E+05, tol = 0.57601E+04, time = 11.52 | CG iter. 34 -- res = 0.14403E+05, tol = 0.57601E+04, time = 11.49 | CG iter. 35 -- res = 0.12603E+05, tol = 0.57601E+04, time = 11.24 | CG iter. 36 -- res = 0.11217E+05, tol = 0.57601E+04, time = 13.01 | CG iter. 37 -- res = 0.99164E+04, tol = 0.57601E+04, time = 11.89 | CG iter. 38 -- res = 0.88023E+04, tol = 0.57601E+04, time = 11.69 | CG iter. 39 -- res = 0.74203E+04, tol = 0.57601E+04, time = 11.44 | CG iter. 40 -- res = 0.61566E+04, tol = 0.57601E+04, time = 11.62 | CG iter. 41 -- res = 0.52136E+04, tol = 0.57601E+04, time = 11.45 | CG iter. 42 -- res = 0.46027E+04, tol = 0.57601E+04, time = 11.58 | CG iter. 43 -- res = 0.44026E+04, tol = 0.57601E+04, time = 11.38 | CG iter. 44 -- res = 0.43545E+04, tol = 0.57601E+04, time = 12.15 | CG iter. 45 -- res = 0.41896E+04, tol = 0.57601E+04, time = 11.41 | CG iter. 46 -- res = 0.37314E+04, tol = 0.57601E+04, time = 11.86 | CG iter. 47 -- res = 0.31869E+04, tol = 0.57601E+04, time = 11.47 | CG iter. 48 -- res = 0.26638E+04, tol = 0.57601E+04, time = 11.39 | CG iter. 49 -- res = 0.22940E+04, tol = 0.57601E+04, time = 11.15 | CG iter. 50 -- res = 0.21240E+04, tol = 0.57601E+04, time = 11.03 | CG iter. 51 -- res = 0.20283E+04, tol = 0.57601E+04, time = 12.13 | CG iter. 52 -- res = 0.19129E+04, tol = 0.57601E+04, time = 11.38 | CG iter. 53 -- res = 0.17936E+04, tol = 0.57601E+04, time = 11.26 | CG iter. 54 -- res = 0.15937E+04, tol = 0.57601E+04, time = 18.82 | CG iter. 55 -- res = 0.13778E+04, tol = 0.57601E+04, time = 11.11 | CG iter. 56 -- res = 0.12306E+04, tol = 0.57601E+04, time = 11.67 | CG iter. 57 -- res = 0.11592E+04, tol = 0.57601E+04, time = 11.16 | CG iter. 58 -- res = 0.11414E+04, tol = 0.57601E+04, time = 11.67 | CG iter. 59 -- res = 0.11204E+04, tol = 0.57601E+04, time = 11.63 | CG iter. 60 -- res = 0.10328E+04, tol = 0.57601E+04, time = 11.79 | Final CG iter 61 -- res = 0.10328E+04, tol = 0.57601E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.993 ( -229.927 -2232.425 2515.227 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9309224.011 | Old band monopole 7895823.751 | Change to band monopole 1413400.260 | Change to component monopole -1413394.181 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.707 2.740 | New value -3.552 | Old value -4.707 | Difference 1.155 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.741 ( 7.264 13.606 -13.348 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.052 4.481 | New value 4.032 | Old value 3.052 | Difference 0.980 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.40 | CG iter. 1 -- res = 0.77540E+05, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.29361E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.88439E+00, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.16361E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.66771E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9309183.970 | (Sampled value in CG: 9279659.645 ) | Chain = 1 -- chisq = 0.81542132E+09 | Chain = 1 -- wall time = 5636.693 sec Available RAM: MemAvailable: 390914356 kB Available Swap: SwapFree: 1117571412 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 260 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444039 | --> Sampling calibration, mode = relcal | relcal = 1.3424352E-02 7.5220340E-04 -1.5920185E-03 -1.2584536E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1144696 0.1325879 9409326.30589494 | BP delta = 0.1144696 0.1309093 9409329.82293840 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632330 | --> Sampling calibration, mode = relcal | relcal = -2.8202168E-03 -7.0380664E-04 1.6781720E-03 1.6128215E-03 -4.0739024E-04 6.4042013E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5215005 15221598.9298390 | BP delta = 0.0000000E+00 -0.5228988 15221596.5539198 | BP chisq diff = -2.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18540252019646 | --> Sampling calibration, mode = relcal | relcal = -7.6114908E-02 -5.9319668E-02 9.3062364E-02 4.2372212E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.9099183E-04 6.0136556E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0765E-05 | 2: delta_r/delta_0: 1.5388E-06 | 3: delta_s/delta_0: 2.0152E-07 | 4: delta_r/delta_0: 3.2871E-08 | 5: delta_s/delta_0: 1.0586E-08 | 6: delta_r/delta_0: 3.2646E-09 | 7: delta_s/delta_0: 6.8217E-10 | 8: delta_r/delta_0: 1.7934E-10 | 9: delta_s/delta_0: 2.1767E-10 | 10: delta_r/delta_0: 7.4331E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.360571744019116E-003 2.730770110312705E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0765E-05 | 2: delta_r/delta_0: 1.5388E-06 | 3: delta_s/delta_0: 2.0152E-07 | 4: delta_r/delta_0: 3.2872E-08 | 5: delta_s/delta_0: 1.0587E-08 | 6: delta_r/delta_0: 3.2647E-09 | 7: delta_s/delta_0: 6.8216E-10 | 8: delta_r/delta_0: 1.7935E-10 | 9: delta_s/delta_0: 2.1770E-10 | 10: delta_r/delta_0: 7.4344E-11 | Reached bicg-stab tolerance | BP delta = 7.1074404E-02 9.0714000E-02 3523711.19051991 | BP delta = 7.1074404E-02 9.0815574E-02 3522690.84296931 | BP chisq diff = -1020.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02608802 | --> Sampling calibration, mode = relcal | relcal = -0.1067072 -9.5516860E-02 0.1449192 5.7304874E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7503313E-03 1.7274789E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7467E-05 | 2: delta_r/delta_0: 1.6260E-06 | 3: delta_s/delta_0: 2.3517E-07 | 4: delta_r/delta_0: 4.4372E-08 | 5: delta_s/delta_0: 2.6867E-08 | 6: delta_r/delta_0: 6.8790E-09 | 7: delta_s/delta_0: 6.2226E-09 | 8: delta_r/delta_0: 1.6484E-09 | 9: delta_s/delta_0: 8.0420E-10 | 10: delta_r/delta_0: 6.0342E-10 | 11: delta_s/delta_0: 6.3461E-10 | 12: delta_r/delta_0: 1.2132E-10 | 13: delta_s/delta_0: 8.0554E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.011571213995930E-002 2.810602677887897E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7469E-05 | 2: delta_r/delta_0: 1.6262E-06 | 3: delta_s/delta_0: 2.3519E-07 | 4: delta_r/delta_0: 4.4407E-08 | 5: delta_s/delta_0: 2.6831E-08 | 6: delta_r/delta_0: 6.8794E-09 | 7: delta_s/delta_0: 6.2163E-09 | 8: delta_r/delta_0: 1.6488E-09 | 9: delta_s/delta_0: 8.0446E-10 | 10: delta_r/delta_0: 6.0363E-10 | 11: delta_s/delta_0: 6.3455E-10 | 12: delta_r/delta_0: 1.2141E-10 | 13: delta_s/delta_0: 8.0637E-11 | Reached bicg-stab tolerance | BP delta = -0.2748566 -0.2500221 2841341.58353395 | BP delta = -0.2748566 -0.2494308 2841429.55330917 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81223341 | --> Sampling calibration, mode = relcal | relcal = 0.2955472 0.2247759 -0.2838361 -0.2364870 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.7341388E-04 5.3734272E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7686E-03 | 2: delta_r/delta_0: 6.4146E-05 | 3: delta_s/delta_0: 1.2849E-05 | 4: delta_r/delta_0: 1.1797E-06 | 5: delta_s/delta_0: 1.5439E-06 | 6: delta_r/delta_0: 9.5931E-08 | 7: delta_s/delta_0: 4.3806E-08 | 8: delta_r/delta_0: 1.8622E-08 | 9: delta_s/delta_0: 4.1889E-06 | 10: delta_r/delta_0: 1.3003E-07 | 11: delta_s/delta_0: 1.9671E-08 | 12: delta_r/delta_0: 7.9375E-09 | 13: delta_s/delta_0: 3.8996E-10 | 14: delta_r/delta_0: 9.5365E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.266975693927354E-002 4.021707357423377E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7672E-03 | 2: delta_r/delta_0: 6.4114E-05 | 3: delta_s/delta_0: 1.2847E-05 | 4: delta_r/delta_0: 1.1798E-06 | 5: delta_s/delta_0: 1.5424E-06 | 6: delta_r/delta_0: 9.5850E-08 | 7: delta_s/delta_0: 4.3815E-08 | 8: delta_r/delta_0: 1.8634E-08 | 9: delta_s/delta_0: 4.1657E-06 | 10: delta_r/delta_0: 1.2911E-07 | 11: delta_s/delta_0: 1.9525E-08 | 12: delta_r/delta_0: 7.8878E-09 | 13: delta_s/delta_0: 3.9029E-10 | 14: delta_r/delta_0: 9.5453E-11 | Reached bicg-stab tolerance | BP delta = -0.1658751 -0.1734509 2827479.00144512 | BP delta = -0.1658751 -0.1725462 2827490.35075284 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95921307 | --> Sampling calibration, mode = relcal | relcal = 0.1065736 0.1395595 -0.1103081 -0.1358250 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0026164E-02 1.3258926E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1653E-03 | 2: delta_r/delta_0: 5.2213E-05 | 3: delta_s/delta_0: 3.9462E-05 | 4: delta_r/delta_0: 2.6352E-06 | 5: delta_s/delta_0: 7.0939E-07 | 6: delta_r/delta_0: 2.5952E-07 | 7: delta_s/delta_0: 5.9791E-07 | 8: delta_r/delta_0: 5.4582E-08 | 9: delta_s/delta_0: 2.9438E-08 | 10: delta_r/delta_0: 6.7365E-09 | 11: delta_s/delta_0: 4.9155E-09 | 12: delta_r/delta_0: 1.7765E-09 | 13: delta_s/delta_0: 1.4611E-09 | 14: delta_r/delta_0: 1.0062E-09 | 15: delta_s/delta_0: 1.1125E-10 | 16: delta_r/delta_0: 4.7339E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.873399929562083E-002 3.697048909279021E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1651E-03 | 2: delta_r/delta_0: 5.2210E-05 | 3: delta_s/delta_0: 3.9461E-05 | 4: delta_r/delta_0: 2.6351E-06 | 5: delta_s/delta_0: 7.0936E-07 | 6: delta_r/delta_0: 2.5951E-07 | 7: delta_s/delta_0: 5.9790E-07 | 8: delta_r/delta_0: 5.4580E-08 | 9: delta_s/delta_0: 2.9446E-08 | 10: delta_r/delta_0: 6.7365E-09 | 11: delta_s/delta_0: 4.9166E-09 | 12: delta_r/delta_0: 1.7774E-09 | 13: delta_s/delta_0: 1.4611E-09 | 14: delta_r/delta_0: 1.0064E-09 | 15: delta_s/delta_0: 1.1126E-10 | 16: delta_r/delta_0: 4.7367E-11 | Reached bicg-stab tolerance | BP delta = 0.1379107 0.2491654 3003778.20186969 | BP delta = 0.1379107 0.2516250 3003773.27975904 | BP chisq diff = -4.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182058 | New value = -3.127832 | poltype: 2 pol: 1 CPU time specind = 1.4495850E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.274618 | New value = -3.134431 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137765 | New value = -3.190579 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150784 | New value = -3.139651 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116891 | New value = -3.156922 | poltype: 2 pol: 2 CPU time specind = 4.3051243E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.36 | CG iter. 1 -- res = 0.13609E+08, tol = 0.76179E+01, time = 6.00 | CG iter. 2 -- res = 0.35829E+06, tol = 0.76179E+01, time = 5.14 | CG iter. 3 -- res = 0.76413E+05, tol = 0.76179E+01, time = 5.50 | CG iter. 4 -- res = 0.70283E+05, tol = 0.76179E+01, time = 5.41 | CG iter. 5 -- res = 0.71476E+05, tol = 0.76179E+01, time = 5.45 | CG iter. 6 -- res = 0.75449E+05, tol = 0.76179E+01, time = 5.60 | CG iter. 7 -- res = 0.73119E+05, tol = 0.76179E+01, time = 5.54 | CG iter. 8 -- res = 0.55013E+05, tol = 0.76179E+01, time = 5.26 | CG iter. 9 -- res = 0.44773E+05, tol = 0.76179E+01, time = 7.24 | CG iter. 10 -- res = 0.35450E+05, tol = 0.76179E+01, time = 6.02 | CG iter. 11 -- res = 0.24594E+05, tol = 0.76179E+01, time = 5.62 | CG iter. 12 -- res = 0.17327E+05, tol = 0.76179E+01, time = 5.64 | CG iter. 13 -- res = 0.14222E+05, tol = 0.76179E+01, time = 5.49 | CG iter. 14 -- res = 0.12882E+05, tol = 0.76179E+01, time = 5.12 | CG iter. 15 -- res = 0.10364E+05, tol = 0.76179E+01, time = 5.69 | CG iter. 16 -- res = 0.75904E+04, tol = 0.76179E+01, time = 5.26 | CG iter. 17 -- res = 0.52986E+04, tol = 0.76179E+01, time = 5.36 | CG iter. 18 -- res = 0.43744E+04, tol = 0.76179E+01, time = 5.88 | CG iter. 19 -- res = 0.39647E+04, tol = 0.76179E+01, time = 5.58 | CG iter. 20 -- res = 0.31688E+04, tol = 0.76179E+01, time = 5.75 | CG iter. 21 -- res = 0.23097E+04, tol = 0.76179E+01, time = 5.77 | CG iter. 22 -- res = 0.18945E+04, tol = 0.76179E+01, time = 5.54 | CG iter. 23 -- res = 0.16453E+04, tol = 0.76179E+01, time = 5.69 | CG iter. 24 -- res = 0.13448E+04, tol = 0.76179E+01, time = 5.19 | CG iter. 25 -- res = 0.10239E+04, tol = 0.76179E+01, time = 5.39 | CG iter. 26 -- res = 0.82649E+03, tol = 0.76179E+01, time = 5.87 | CG iter. 27 -- res = 0.75686E+03, tol = 0.76179E+01, time = 5.20 | CG iter. 28 -- res = 0.66157E+03, tol = 0.76179E+01, time = 5.72 | CG iter. 29 -- res = 0.52731E+03, tol = 0.76179E+01, time = 5.66 | CG iter. 30 -- res = 0.41615E+03, tol = 0.76179E+01, time = 5.29 | CG iter. 31 -- res = 0.35402E+03, tol = 0.76179E+01, time = 5.61 | CG iter. 32 -- res = 0.30958E+03, tol = 0.76179E+01, time = 5.45 | CG iter. 33 -- res = 0.23684E+03, tol = 0.76179E+01, time = 5.36 | CG iter. 34 -- res = 0.17869E+03, tol = 0.76179E+01, time = 5.65 | CG iter. 35 -- res = 0.14582E+03, tol = 0.76179E+01, time = 5.32 | CG iter. 36 -- res = 0.12380E+03, tol = 0.76179E+01, time = 5.33 | CG iter. 37 -- res = 0.97636E+02, tol = 0.76179E+01, time = 5.67 | CG iter. 38 -- res = 0.72981E+02, tol = 0.76179E+01, time = 5.49 | CG iter. 39 -- res = 0.54814E+02, tol = 0.76179E+01, time = 5.35 | CG iter. 40 -- res = 0.44536E+02, tol = 0.76179E+01, time = 5.47 | CG iter. 41 -- res = 0.36004E+02, tol = 0.76179E+01, time = 5.47 | CG iter. 42 -- res = 0.26178E+02, tol = 0.76179E+01, time = 5.24 | CG iter. 43 -- res = 0.20310E+02, tol = 0.76179E+01, time = 5.61 | CG iter. 44 -- res = 0.16569E+02, tol = 0.76179E+01, time = 5.63 | CG iter. 45 -- res = 0.13401E+02, tol = 0.76179E+01, time = 5.18 | CG iter. 46 -- res = 0.10159E+02, tol = 0.76179E+01, time = 11.32 | CG iter. 47 -- res = 0.76209E+01, tol = 0.76179E+01, time = 6.13 | CG iter. 48 -- res = 0.58379E+01, tol = 0.76179E+01, time = 5.74 | CG iter. 49 -- res = 0.47192E+01, tol = 0.76179E+01, time = 5.52 | CG iter. 50 -- res = 0.36173E+01, tol = 0.76179E+01, time = 5.50 | Final CG iter 51 -- res = 0.36173E+01, tol = 0.76179E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8195378.266 | Old band monopole 9309224.011 | Change to band monopole -1113845.744 | Change to component monopole 1113840.953 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.27886E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.93509E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.29178E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.12788E-01, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.27247E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8195343.016 | (Sampled value in CG: 8247774.534 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509183 | New value = 1.494032 | poltype: 2 pol: 1 CPU time specind = 1.0487795E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505996 | New value = 1.501285 | poltype: 2 pol: 2 CPU time specind = 1.6489029E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.24051E+08, tol = 0.47513E+04, time = 6.02 | CG iter. 2 -- res = 0.52395E+07, tol = 0.47513E+04, time = 6.45 | CG iter. 3 -- res = 0.81956E+06, tol = 0.47513E+04, time = 6.57 | CG iter. 4 -- res = 0.34209E+06, tol = 0.47513E+04, time = 6.34 | CG iter. 5 -- res = 0.15333E+06, tol = 0.47513E+04, time = 6.21 | CG iter. 6 -- res = 0.82243E+05, tol = 0.47513E+04, time = 6.25 | CG iter. 7 -- res = 0.43785E+05, tol = 0.47513E+04, time = 6.39 | CG iter. 8 -- res = 0.20624E+05, tol = 0.47513E+04, time = 6.42 | CG iter. 9 -- res = 0.88619E+04, tol = 0.47513E+04, time = 6.57 | CG iter. 10 -- res = 0.36254E+04, tol = 0.47513E+04, time = 7.18 | CG iter. 11 -- res = 0.16793E+04, tol = 0.47513E+04, time = 6.14 | CG iter. 12 -- res = 0.87916E+03, tol = 0.47513E+04, time = 5.84 | CG iter. 13 -- res = 0.49674E+03, tol = 0.47513E+04, time = 6.30 | CG iter. 14 -- res = 0.27828E+03, tol = 0.47513E+04, time = 6.17 | CG iter. 15 -- res = 0.14451E+03, tol = 0.47513E+04, time = 6.36 | CG iter. 16 -- res = 0.69256E+02, tol = 0.47513E+04, time = 6.53 | CG iter. 17 -- res = 0.32086E+02, tol = 0.47513E+04, time = 6.17 | CG iter. 18 -- res = 0.16128E+02, tol = 0.47513E+04, time = 6.45 | CG iter. 19 -- res = 0.89670E+01, tol = 0.47513E+04, time = 6.12 | CG iter. 20 -- res = 0.51531E+01, tol = 0.47513E+04, time = 6.65 | CG iter. 21 -- res = 0.28132E+01, tol = 0.47513E+04, time = 6.02 | CG iter. 22 -- res = 0.14210E+01, tol = 0.47513E+04, time = 6.58 | CG iter. 23 -- res = 0.69077E+00, tol = 0.47513E+04, time = 6.40 | CG iter. 24 -- res = 0.35293E+00, tol = 0.47513E+04, time = 6.28 | CG iter. 25 -- res = 0.19500E+00, tol = 0.47513E+04, time = 12.80 | CG iter. 26 -- res = 0.11241E+00, tol = 0.47513E+04, time = 6.64 | CG iter. 27 -- res = 0.63901E-01, tol = 0.47513E+04, time = 6.58 | CG iter. 28 -- res = 0.33733E-01, tol = 0.47513E+04, time = 6.66 | CG iter. 29 -- res = 0.17699E-01, tol = 0.47513E+04, time = 6.33 | CG iter. 30 -- res = 0.92884E-02, tol = 0.47513E+04, time = 6.20 | CG iter. 31 -- res = 0.50996E-02, tol = 0.47513E+04, time = 6.28 | CG iter. 32 -- res = 0.28343E-02, tol = 0.47513E+04, time = 6.05 | CG iter. 33 -- res = 0.16061E-02, tol = 0.47513E+04, time = 6.53 | CG iter. 34 -- res = 0.86238E-03, tol = 0.47513E+04, time = 6.13 | CG iter. 35 -- res = 0.45676E-03, tol = 0.47513E+04, time = 6.30 | Final CG iter 36 -- res = 0.45676E-03, tol = 0.47513E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.531 2.722 | New value -2.750 | Old value -3.531 | Difference 0.781 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.56 | CG iter. 1 -- res = 0.34711E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.50272E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.16096E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.18447E-03, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.15201E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8195343.016 | (Sampled value in CG: 8249520.680 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.569505 | New value = -3.689351 | poltype: 1 pol: 1 CPU time specind = 8.4168911E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.25509E+07, tol = 0.26976E+01, time = 2.76 | CG iter. 2 -- res = 0.82698E+06, tol = 0.26976E+01, time = 2.67 | CG iter. 3 -- res = 0.17203E+06, tol = 0.26976E+01, time = 2.64 | CG iter. 4 -- res = 0.86202E+05, tol = 0.26976E+01, time = 2.83 | CG iter. 5 -- res = 0.54255E+05, tol = 0.26976E+01, time = 2.74 | CG iter. 6 -- res = 0.25026E+05, tol = 0.26976E+01, time = 2.67 | CG iter. 7 -- res = 0.81450E+04, tol = 0.26976E+01, time = 2.76 | CG iter. 8 -- res = 0.35104E+04, tol = 0.26976E+01, time = 2.74 | CG iter. 9 -- res = 0.15404E+04, tol = 0.26976E+01, time = 2.64 | CG iter. 10 -- res = 0.64858E+03, tol = 0.26976E+01, time = 2.64 | CG iter. 11 -- res = 0.28028E+03, tol = 0.26976E+01, time = 3.86 | CG iter. 12 -- res = 0.14812E+03, tol = 0.26976E+01, time = 3.33 | CG iter. 13 -- res = 0.73789E+02, tol = 0.26976E+01, time = 2.93 | CG iter. 14 -- res = 0.35706E+02, tol = 0.26976E+01, time = 3.08 | CG iter. 15 -- res = 0.14970E+02, tol = 0.26976E+01, time = 2.93 | CG iter. 16 -- res = 0.61099E+01, tol = 0.26976E+01, time = 2.58 | CG iter. 17 -- res = 0.27243E+01, tol = 0.26976E+01, time = 2.60 | CG iter. 18 -- res = 0.13862E+01, tol = 0.26976E+01, time = 2.64 | CG iter. 19 -- res = 0.69481E+00, tol = 0.26976E+01, time = 2.44 | CG iter. 20 -- res = 0.33521E+00, tol = 0.26976E+01, time = 2.47 | CG iter. 21 -- res = 0.15354E+00, tol = 0.26976E+01, time = 2.90 | CG iter. 22 -- res = 0.67249E-01, tol = 0.26976E+01, time = 2.74 | CG iter. 23 -- res = 0.30330E-01, tol = 0.26976E+01, time = 3.01 | CG iter. 24 -- res = 0.14583E-01, tol = 0.26976E+01, time = 2.36 | CG iter. 25 -- res = 0.75268E-02, tol = 0.26976E+01, time = 2.50 | CG iter. 26 -- res = 0.38099E-02, tol = 0.26976E+01, time = 2.71 | CG iter. 27 -- res = 0.17932E-02, tol = 0.26976E+01, time = 2.62 | CG iter. 28 -- res = 0.79930E-03, tol = 0.26976E+01, time = 2.57 | CG iter. 29 -- res = 0.34825E-03, tol = 0.26976E+01, time = 2.89 | CG iter. 30 -- res = 0.17259E-03, tol = 0.26976E+01, time = 2.68 | CG iter. 31 -- res = 0.87312E-04, tol = 0.26976E+01, time = 2.46 | CG iter. 32 -- res = 0.44414E-04, tol = 0.26976E+01, time = 2.78 | CG iter. 33 -- res = 0.20889E-04, tol = 0.26976E+01, time = 2.63 | CG iter. 34 -- res = 0.93568E-05, tol = 0.26976E+01, time = 2.86 | CG iter. 35 -- res = 0.44609E-05, tol = 0.26976E+01, time = 2.74 | CG iter. 36 -- res = 0.21807E-05, tol = 0.26976E+01, time = 2.72 | CG iter. 37 -- res = 0.10712E-05, tol = 0.26976E+01, time = 2.75 | CG iter. 38 -- res = 0.52716E-06, tol = 0.26976E+01, time = 2.65 | CG iter. 39 -- res = 0.25043E-06, tol = 0.26976E+01, time = 2.59 | CG iter. 40 -- res = 0.11491E-06, tol = 0.26976E+01, time = 2.82 | CG iter. 41 -- res = 0.52932E-07, tol = 0.26976E+01, time = 2.66 | CG iter. 42 -- res = 0.26031E-07, tol = 0.26976E+01, time = 2.60 | CG iter. 43 -- res = 0.12573E-07, tol = 0.26976E+01, time = 2.89 | CG iter. 44 -- res = 0.62231E-08, tol = 0.26976E+01, time = 2.62 | CG iter. 45 -- res = 0.30376E-08, tol = 0.26976E+01, time = 2.61 | CG iter. 46 -- res = 0.13482E-08, tol = 0.26976E+01, time = 2.68 | CG iter. 47 -- res = 0.59708E-09, tol = 0.26976E+01, time = 2.51 | CG iter. 48 -- res = 0.29329E-09, tol = 0.26976E+01, time = 2.83 | CG iter. 49 -- res = 0.15262E-09, tol = 0.26976E+01, time = 3.00 | CG iter. 50 -- res = 0.71718E-10, tol = 0.26976E+01, time = 2.62 | Final CG iter 51 -- res = 0.71718E-10, tol = 0.26976E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.629 3.984 | New value -0.316 | Old value 7.629 | Difference -7.945 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.36 | CG iter. 1 -- res = 0.64547E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.37328E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.12993E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.48506E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.30230E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8195343.016 | (Sampled value in CG: 8236249.241 ) | CPU time specind = 1164.536 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.68704E+08, tol = 0.57804E+04, time = 11.71 | CG iter. 2 -- res = 0.58699E+08, tol = 0.57804E+04, time = 17.58 | CG iter. 3 -- res = 0.15623E+08, tol = 0.57804E+04, time = 11.09 | CG iter. 4 -- res = 0.66303E+07, tol = 0.57804E+04, time = 11.60 | CG iter. 5 -- res = 0.39526E+07, tol = 0.57804E+04, time = 11.62 | CG iter. 6 -- res = 0.22990E+07, tol = 0.57804E+04, time = 11.73 | CG iter. 7 -- res = 0.13665E+07, tol = 0.57804E+04, time = 11.51 | CG iter. 8 -- res = 0.90986E+06, tol = 0.57804E+04, time = 11.49 | CG iter. 9 -- res = 0.58942E+06, tol = 0.57804E+04, time = 12.72 | CG iter. 10 -- res = 0.35789E+06, tol = 0.57804E+04, time = 12.34 | CG iter. 11 -- res = 0.20204E+06, tol = 0.57804E+04, time = 11.85 | CG iter. 12 -- res = 0.11367E+06, tol = 0.57804E+04, time = 11.50 | CG iter. 13 -- res = 0.66035E+05, tol = 0.57804E+04, time = 11.53 | CG iter. 14 -- res = 0.43417E+05, tol = 0.57804E+04, time = 11.59 | CG iter. 15 -- res = 0.33669E+05, tol = 0.57804E+04, time = 11.43 | CG iter. 16 -- res = 0.29522E+05, tol = 0.57804E+04, time = 11.82 | CG iter. 17 -- res = 0.27256E+05, tol = 0.57804E+04, time = 11.45 | CG iter. 18 -- res = 0.24556E+05, tol = 0.57804E+04, time = 11.32 | CG iter. 19 -- res = 0.21772E+05, tol = 0.57804E+04, time = 11.44 | CG iter. 20 -- res = 0.20128E+05, tol = 0.57804E+04, time = 11.41 | CG iter. 21 -- res = 0.19575E+05, tol = 0.57804E+04, time = 11.45 | CG iter. 22 -- res = 0.20115E+05, tol = 0.57804E+04, time = 11.37 | CG iter. 23 -- res = 0.20951E+05, tol = 0.57804E+04, time = 11.20 | CG iter. 24 -- res = 0.20783E+05, tol = 0.57804E+04, time = 11.34 | CG iter. 25 -- res = 0.18235E+05, tol = 0.57804E+04, time = 11.35 | CG iter. 26 -- res = 0.14061E+05, tol = 0.57804E+04, time = 11.24 | CG iter. 27 -- res = 0.10360E+05, tol = 0.57804E+04, time = 17.73 | CG iter. 28 -- res = 0.76726E+04, tol = 0.57804E+04, time = 11.51 | CG iter. 29 -- res = 0.61369E+04, tol = 0.57804E+04, time = 11.71 | CG iter. 30 -- res = 0.52651E+04, tol = 0.57804E+04, time = 11.12 | CG iter. 31 -- res = 0.46213E+04, tol = 0.57804E+04, time = 11.18 | CG iter. 32 -- res = 0.41178E+04, tol = 0.57804E+04, time = 11.37 | CG iter. 33 -- res = 0.35116E+04, tol = 0.57804E+04, time = 11.74 | CG iter. 34 -- res = 0.28125E+04, tol = 0.57804E+04, time = 11.30 | CG iter. 35 -- res = 0.23973E+04, tol = 0.57804E+04, time = 13.73 | CG iter. 36 -- res = 0.22079E+04, tol = 0.57804E+04, time = 11.19 | CG iter. 37 -- res = 0.20984E+04, tol = 0.57804E+04, time = 11.61 | CG iter. 38 -- res = 0.20184E+04, tol = 0.57804E+04, time = 11.65 | CG iter. 39 -- res = 0.18530E+04, tol = 0.57804E+04, time = 11.38 | CG iter. 40 -- res = 0.15638E+04, tol = 0.57804E+04, time = 11.61 | CG iter. 41 -- res = 0.12410E+04, tol = 0.57804E+04, time = 11.81 | CG iter. 42 -- res = 0.97015E+03, tol = 0.57804E+04, time = 11.57 | CG iter. 43 -- res = 0.79419E+03, tol = 0.57804E+04, time = 11.52 | CG iter. 44 -- res = 0.69752E+03, tol = 0.57804E+04, time = 12.12 | CG iter. 45 -- res = 0.63317E+03, tol = 0.57804E+04, time = 11.29 | CG iter. 46 -- res = 0.57933E+03, tol = 0.57804E+04, time = 12.02 | CG iter. 47 -- res = 0.52143E+03, tol = 0.57804E+04, time = 11.23 | CG iter. 48 -- res = 0.43519E+03, tol = 0.57804E+04, time = 11.71 | CG iter. 49 -- res = 0.36306E+03, tol = 0.57804E+04, time = 11.91 | CG iter. 50 -- res = 0.32366E+03, tol = 0.57804E+04, time = 11.18 | CG iter. 51 -- res = 0.30465E+03, tol = 0.57804E+04, time = 11.44 | CG iter. 52 -- res = 0.28313E+03, tol = 0.57804E+04, time = 11.82 | CG iter. 53 -- res = 0.26183E+03, tol = 0.57804E+04, time = 17.91 | CG iter. 54 -- res = 0.23574E+03, tol = 0.57804E+04, time = 11.49 | CG iter. 55 -- res = 0.20319E+03, tol = 0.57804E+04, time = 11.52 | CG iter. 56 -- res = 0.17017E+03, tol = 0.57804E+04, time = 11.49 | CG iter. 57 -- res = 0.14281E+03, tol = 0.57804E+04, time = 11.48 | CG iter. 58 -- res = 0.12873E+03, tol = 0.57804E+04, time = 11.54 | CG iter. 59 -- res = 0.11962E+03, tol = 0.57804E+04, time = 11.19 | CG iter. 60 -- res = 0.10832E+03, tol = 0.57804E+04, time = 13.22 | Final CG iter 61 -- res = 0.10832E+03, tol = 0.57804E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.692 ( -229.732 -2230.123 2512.592 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9476935.150 | Old band monopole 8195378.266 | Change to band monopole 1281556.884 | Change to component monopole -1281551.372 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.790 2.722 | New value 2.839 | Old value -2.790 | Difference 5.628 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.215 ( 6.589 8.576 -8.069 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.466 5.264 | New value -0.956 | Old value 1.466 | Difference -2.422 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.39 | CG iter. 1 -- res = 0.16471E+07, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.27565E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.74627E+00, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.12982E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.90690E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9476894.388 | (Sampled value in CG: 9455543.672 ) | Chain = 1 -- chisq = 0.81546478E+09 | Chain = 1 -- wall time = 6020.281 sec Available RAM: MemAvailable: 390932992 kB Available Swap: SwapFree: 1118448980 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 261 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06448075 | --> Sampling calibration, mode = relcal | relcal = 1.3432220E-02 7.4900221E-04 -1.5974288E-03 -1.2583793E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1144696 0.1325879 97039615.5552069 | BP delta = 0.1217614 0.1398797 97039616.0887431 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632157 | --> Sampling calibration, mode = relcal | relcal = -2.8195586E-03 -7.0402556E-04 1.6777706E-03 1.6144629E-03 -4.0843998E-04 6.3979055E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5228988 15219879.8470988 | BP delta = 0.0000000E+00 -0.5314623 15219874.9798050 | BP chisq diff = -4.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102253 | --> Sampling calibration, mode = relcal | relcal = 3.7086174E-02 1.3714951E-02 5.7508447E-03 -7.1643260E-03 8.2388939E-03 2.3824163E-03 -7.5966618E-03 -7.1762651E-03 -1.5297096E-02 -1.4794976E-02 -3.0489550E-03 -1.2095002E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.178430 132210299.068980 | BP delta = 0.0000000E+00 -1.190739 132210299.450390 | BP chisq diff = 0.4, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18269682258229 | --> Sampling calibration, mode = relcal | relcal = -7.4278571E-02 -5.8143646E-02 9.1266379E-02 4.1155837E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2244056E-04 3.6280800E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0645E-04 | 2: delta_r/delta_0: 2.7507E-06 | 3: delta_s/delta_0: 2.1244E-07 | 4: delta_r/delta_0: 1.8120E-08 | 5: delta_s/delta_0: 5.6382E-09 | 6: delta_r/delta_0: 1.1496E-09 | 7: delta_s/delta_0: 1.3684E-08 | 8: delta_r/delta_0: 1.3505E-10 | 9: delta_s/delta_0: 2.0506E-10 | 10: delta_r/delta_0: 6.0542E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.283382891281058E-004 2.737255237301389E-005 | BP delta = 7.1074404E-02 9.0815574E-02 50482268.9659361 | BP delta = 7.0838429E-02 9.0579599E-02 50482268.8702755 | BP chisq diff = -0.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02581060 | --> Sampling calibration, mode = relcal | relcal = -0.1066123 -9.5505834E-02 0.1448245 5.7293616E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2934931E-03 1.5080186E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3405E-05 | 2: delta_r/delta_0: 1.3913E-06 | 3: delta_s/delta_0: 2.3815E-07 | 4: delta_r/delta_0: 5.4059E-08 | 5: delta_s/delta_0: 2.0741E-08 | 6: delta_r/delta_0: 7.9801E-09 | 7: delta_s/delta_0: 9.2387E-09 | 8: delta_r/delta_0: 1.5741E-09 | 9: delta_s/delta_0: 3.3662E-09 | 10: delta_r/delta_0: 2.2992E-09 | 11: delta_s/delta_0: 2.0609E-10 | 12: delta_r/delta_0: 1.3481E-10 | 13: delta_s/delta_0: 5.2219E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.009689210895057E-002 2.811354418847657E-005 | BP delta = -0.2748566 -0.2500221 57390983.0540639 | BP delta = -0.2854532 -0.2606188 57390982.7698481 | BP chisq diff = -0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81194789 | --> Sampling calibration, mode = relcal | relcal = 0.2954680 0.2247611 -0.2836820 -0.2365471 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0869488E-03 5.3793881E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5474E-03 | 2: delta_r/delta_0: 6.0619E-05 | 3: delta_s/delta_0: 4.6945E-05 | 4: delta_r/delta_0: 2.9661E-06 | 5: delta_s/delta_0: 7.2673E-07 | 6: delta_r/delta_0: 2.4759E-07 | 7: delta_s/delta_0: 4.4166E-07 | 8: delta_r/delta_0: 5.2636E-08 | 9: delta_s/delta_0: 2.2621E-06 | 10: delta_r/delta_0: 6.1712E-07 | 11: delta_s/delta_0: 3.2783E-09 | 12: delta_r/delta_0: 1.2118E-09 | 13: delta_s/delta_0: 6.4064E-09 | 14: delta_r/delta_0: 3.9718E-10 | 15: delta_s/delta_0: 9.6464E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.890515224230599E-002 4.023223690778501E-005 | BP delta = -0.1658751 -0.1734509 72490228.6538773 | BP delta = -9.9836767E-02 -0.1074126 72490229.7678999 | BP chisq diff = 1.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95872646 | --> Sampling calibration, mode = relcal | relcal = 0.1064654 0.1396030 -0.1102101 -0.1358583 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5926607E-03 1.2973982E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7115E-04 | 2: delta_r/delta_0: 1.3967E-05 | 3: delta_s/delta_0: 1.1834E-05 | 4: delta_r/delta_0: 1.0640E-06 | 5: delta_s/delta_0: 3.3488E-07 | 6: delta_r/delta_0: 1.5514E-07 | 7: delta_s/delta_0: 3.6789E-07 | 8: delta_r/delta_0: 3.7253E-08 | 9: delta_s/delta_0: 4.4765E-08 | 10: delta_r/delta_0: 4.7856E-09 | 11: delta_s/delta_0: 2.2777E-09 | 12: delta_r/delta_0: 1.5491E-09 | 13: delta_s/delta_0: 7.4151E-10 | 14: delta_r/delta_0: 5.3424E-10 | 15: delta_s/delta_0: 8.2306E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.333663609512826E-002 3.698939434382397E-005 | BP delta = 0.1379107 0.2516250 72777799.0009644 | BP delta = 0.1337536 0.2474679 72777799.0133153 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52145848 | --> Sampling calibration, mode = relcal | relcal = -5.0987113E-02 -3.7442623E-03 2.7252626E-02 2.7478751E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4196896E-04 3.4696816E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9626E-05 | 2: delta_r/delta_0: 4.5414E-06 | 3: delta_s/delta_0: 5.3983E-07 | 4: delta_r/delta_0: 1.8603E-07 | 5: delta_s/delta_0: 7.9892E-08 | 6: delta_r/delta_0: 3.2022E-08 | 7: delta_s/delta_0: 2.3092E-08 | 8: delta_r/delta_0: 9.6726E-09 | 9: delta_s/delta_0: 3.2764E-09 | 10: delta_r/delta_0: 1.6789E-09 | 11: delta_s/delta_0: 5.9679E-10 | 12: delta_r/delta_0: 4.4427E-10 | 13: delta_s/delta_0: 1.9088E-09 | 14: delta_r/delta_0: 1.4768E-09 | 15: delta_s/delta_0: 1.9972E-10 | 16: delta_r/delta_0: 1.4372E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.229848406662334E-002 5.484432392587415E-005 | BP delta = 0.1182643 0.2173218 91252320.3481883 | BP delta = 0.1056655 0.2047229 91252320.4576411 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42147487 | --> Sampling calibration, mode = relcal | relcal = 4.5596860E-02 3.9605957E-02 -2.8192779E-02 -5.7010040E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5558574E-03 2.7022355E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0462E-05 | 2: delta_r/delta_0: 3.7100E-06 | 3: delta_s/delta_0: 2.5953E-06 | 4: delta_r/delta_0: 4.2569E-07 | 5: delta_s/delta_0: 5.8821E-08 | 6: delta_r/delta_0: 3.4223E-08 | 7: delta_s/delta_0: 5.9606E-08 | 8: delta_r/delta_0: 8.1547E-09 | 9: delta_s/delta_0: 1.9850E-09 | 10: delta_r/delta_0: 1.2108E-09 | 11: delta_s/delta_0: 9.1589E-10 | 12: delta_r/delta_0: 6.9343E-10 | 13: delta_s/delta_0: 2.0259E-08 | 14: delta_r/delta_0: 1.5687E-10 | 15: delta_s/delta_0: 1.8485E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.427853698835348E-002 4.996913609169780E-005 | BP delta = 6.9755107E-02 -3.8080040E-02 90181692.6333057 | BP delta = 0.1433970 3.5561889E-02 90181691.9351985 | BP chisq diff = -0.7, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28166262 | --> Sampling calibration, mode = relcal | relcal = 2.4200073E-02 4.5190137E-02 -2.3414804E-02 -4.5975406E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1798680E-02 5.0919205E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0618E-04 | 2: delta_r/delta_0: 8.7050E-06 | 3: delta_s/delta_0: 1.4435E-06 | 4: delta_r/delta_0: 1.6570E-07 | 5: delta_s/delta_0: 6.3159E-08 | 6: delta_r/delta_0: 1.5250E-08 | 7: delta_s/delta_0: 7.7895E-09 | 8: delta_r/delta_0: 5.0170E-09 | 9: delta_s/delta_0: 8.4648E-08 | 10: delta_r/delta_0: 4.7940E-09 | 11: delta_s/delta_0: 1.6228E-09 | 12: delta_r/delta_0: 6.7048E-10 | 13: delta_s/delta_0: 1.3524E-10 | 14: delta_r/delta_0: 7.7278E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.028303773373106E-002 7.842778831134898E-005 | BP delta = -0.2076587 -0.3641191 160923801.460802 | BP delta = -0.1570031 -0.3134635 160923802.006207 | BP chisq diff = 0.5, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29394133 | --> Sampling calibration, mode = relcal | relcal = 5.9369416E-04 1.0251839E-02 -3.8464309E-03 -6.9991024E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5313507E-02 1.5006169E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3206E-04 | 2: delta_r/delta_0: 1.1277E-05 | 3: delta_s/delta_0: 1.8356E-06 | 4: delta_r/delta_0: 2.8317E-07 | 5: delta_s/delta_0: 1.1076E-07 | 6: delta_r/delta_0: 2.3089E-08 | 7: delta_s/delta_0: 1.0037E-08 | 8: delta_r/delta_0: 6.8826E-09 | 9: delta_s/delta_0: 4.5030E-09 | 10: delta_r/delta_0: 3.3736E-09 | 11: delta_s/delta_0: 2.2549E-05 | 12: delta_r/delta_0: 2.4039E-08 | 13: delta_s/delta_0: 2.7911E-08 | 14: delta_r/delta_0: 1.6225E-08 | 15: delta_s/delta_0: 2.9647E-10 | 16: delta_r/delta_0: 1.0876E-10 | 17: delta_s/delta_0: 4.7950E-10 | 18: delta_r/delta_0: 4.0446E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.021800480491046E-002 8.306420449618582E-005 | BP delta = -0.8569568 -0.8117194 157870584.719054 | BP delta = -0.8276260 -0.7823886 157870584.806811 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26504615 | --> Sampling calibration, mode = relcal | relcal = -5.5922996E-03 1.5059715E-02 -2.4029061E-03 -7.0645097E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.6535793E-04 4.1338797E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4390E-04 | 2: delta_r/delta_0: 1.2235E-05 | 3: delta_s/delta_0: 2.1166E-06 | 4: delta_r/delta_0: 2.8067E-07 | 5: delta_s/delta_0: 9.7711E-08 | 6: delta_r/delta_0: 2.3600E-08 | 7: delta_s/delta_0: 1.0154E-08 | 8: delta_r/delta_0: 6.6479E-09 | 9: delta_s/delta_0: 6.7682E-09 | 10: delta_r/delta_0: 4.6281E-09 | 11: delta_s/delta_0: 2.6403E-06 | 12: delta_r/delta_0: 2.4538E-07 | 13: delta_s/delta_0: 1.6140E-09 | 14: delta_r/delta_0: 6.3869E-10 | 15: delta_s/delta_0: 6.9270E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.152618006610207E-003 9.154465023462540E-005 | BP delta = 0.3043938 0.3462982 157025290.442721 | BP delta = 0.3100115 0.3519158 157025290.455955 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25661663 | --> Sampling calibration, mode = relcal | relcal = -3.1722192E-02 -2.5863249E-02 3.6859140E-02 2.0726299E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4382366E-02 2.0299362E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4522E-04 | 2: delta_r/delta_0: 1.2208E-05 | 3: delta_s/delta_0: 1.9422E-06 | 4: delta_r/delta_0: 3.8963E-07 | 5: delta_s/delta_0: 1.4100E-07 | 6: delta_r/delta_0: 3.3422E-08 | 7: delta_s/delta_0: 1.8638E-08 | 8: delta_r/delta_0: 8.3639E-09 | 9: delta_s/delta_0: 2.1324E-07 | 10: delta_r/delta_0: 7.4325E-09 | 11: delta_s/delta_0: 5.9885E-09 | 12: delta_r/delta_0: 2.3352E-09 | 13: delta_s/delta_0: 2.4844E-10 | 14: delta_r/delta_0: 1.8288E-10 | 15: delta_s/delta_0: 1.1957E-10 | 16: delta_r/delta_0: 9.6120E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.204802510016794E-002 8.672497406484925E-005 | BP delta = -0.8280308 -0.9710964 158524262.997058 | BP delta = -0.8458026 -0.9888681 158524262.874820 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127832 | New value = -3.211600 | poltype: 2 pol: 1 CPU time specind = 2.3895025E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134431 | New value = -3.154995 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190579 | New value = -3.156984 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139651 | New value = -3.146236 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156922 | New value = -3.138996 | poltype: 2 pol: 2 CPU time specind = 8.2569122E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.58 | CG iter. 1 -- res = 0.13576E+08, tol = 0.74282E+01, time = 5.74 | CG iter. 2 -- res = 0.35594E+06, tol = 0.74282E+01, time = 11.95 | CG iter. 3 -- res = 0.65535E+05, tol = 0.74282E+01, time = 5.51 | CG iter. 4 -- res = 0.50942E+05, tol = 0.74282E+01, time = 5.32 | CG iter. 5 -- res = 0.50339E+05, tol = 0.74282E+01, time = 5.69 | CG iter. 6 -- res = 0.48100E+05, tol = 0.74282E+01, time = 5.30 | CG iter. 7 -- res = 0.48776E+05, tol = 0.74282E+01, time = 5.60 | CG iter. 8 -- res = 0.40905E+05, tol = 0.74282E+01, time = 5.57 | CG iter. 9 -- res = 0.35585E+05, tol = 0.74282E+01, time = 5.46 | CG iter. 10 -- res = 0.30660E+05, tol = 0.74282E+01, time = 5.33 | CG iter. 11 -- res = 0.20768E+05, tol = 0.74282E+01, time = 5.29 | CG iter. 12 -- res = 0.14901E+05, tol = 0.74282E+01, time = 5.36 | CG iter. 13 -- res = 0.12539E+05, tol = 0.74282E+01, time = 5.18 | CG iter. 14 -- res = 0.11997E+05, tol = 0.74282E+01, time = 5.61 | CG iter. 15 -- res = 0.10146E+05, tol = 0.74282E+01, time = 5.35 | CG iter. 16 -- res = 0.74144E+04, tol = 0.74282E+01, time = 5.28 | CG iter. 17 -- res = 0.53789E+04, tol = 0.74282E+01, time = 6.41 | CG iter. 18 -- res = 0.45642E+04, tol = 0.74282E+01, time = 6.09 | CG iter. 19 -- res = 0.39500E+04, tol = 0.74282E+01, time = 6.09 | CG iter. 20 -- res = 0.31488E+04, tol = 0.74282E+01, time = 5.24 | CG iter. 21 -- res = 0.24498E+04, tol = 0.74282E+01, time = 5.73 | CG iter. 22 -- res = 0.21134E+04, tol = 0.74282E+01, time = 5.46 | CG iter. 23 -- res = 0.18671E+04, tol = 0.74282E+01, time = 5.43 | CG iter. 24 -- res = 0.15827E+04, tol = 0.74282E+01, time = 5.32 | CG iter. 25 -- res = 0.12128E+04, tol = 0.74282E+01, time = 5.67 | CG iter. 26 -- res = 0.99756E+03, tol = 0.74282E+01, time = 5.63 | CG iter. 27 -- res = 0.95549E+03, tol = 0.74282E+01, time = 5.50 | CG iter. 28 -- res = 0.82702E+03, tol = 0.74282E+01, time = 5.69 | CG iter. 29 -- res = 0.69150E+03, tol = 0.74282E+01, time = 5.47 | CG iter. 30 -- res = 0.57209E+03, tol = 0.74282E+01, time = 5.33 | CG iter. 31 -- res = 0.51217E+03, tol = 0.74282E+01, time = 5.67 | CG iter. 32 -- res = 0.46185E+03, tol = 0.74282E+01, time = 5.19 | CG iter. 33 -- res = 0.37069E+03, tol = 0.74282E+01, time = 5.15 | CG iter. 34 -- res = 0.29970E+03, tol = 0.74282E+01, time = 5.56 | CG iter. 35 -- res = 0.25861E+03, tol = 0.74282E+01, time = 5.50 | CG iter. 36 -- res = 0.23592E+03, tol = 0.74282E+01, time = 5.85 | CG iter. 37 -- res = 0.20813E+03, tol = 0.74282E+01, time = 6.00 | CG iter. 38 -- res = 0.16501E+03, tol = 0.74282E+01, time = 5.53 | CG iter. 39 -- res = 0.13368E+03, tol = 0.74282E+01, time = 5.43 | CG iter. 40 -- res = 0.12597E+03, tol = 0.74282E+01, time = 5.49 | CG iter. 41 -- res = 0.10727E+03, tol = 0.74282E+01, time = 5.39 | CG iter. 42 -- res = 0.85145E+02, tol = 0.74282E+01, time = 5.62 | CG iter. 43 -- res = 0.70533E+02, tol = 0.74282E+01, time = 5.43 | CG iter. 44 -- res = 0.61659E+02, tol = 0.74282E+01, time = 5.65 | CG iter. 45 -- res = 0.53756E+02, tol = 0.74282E+01, time = 5.43 | CG iter. 46 -- res = 0.42712E+02, tol = 0.74282E+01, time = 5.48 | CG iter. 47 -- res = 0.33910E+02, tol = 0.74282E+01, time = 5.55 | CG iter. 48 -- res = 0.28649E+02, tol = 0.74282E+01, time = 5.55 | CG iter. 49 -- res = 0.24343E+02, tol = 0.74282E+01, time = 5.64 | CG iter. 50 -- res = 0.20081E+02, tol = 0.74282E+01, time = 5.31 | Final CG iter 51 -- res = 0.20081E+02, tol = 0.74282E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8379532.895 | Old band monopole 9476935.150 | Change to band monopole -1097402.256 | Change to component monopole 1097397.535 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.32 | CG iter. 1 -- res = 0.21516E+06, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.10808E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.34562E+01, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.15368E-01, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.30078E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8379496.853 | (Sampled value in CG: 8321891.276 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.494032 | New value = 1.512169 | poltype: 2 pol: 1 CPU time specind = 1.8220186E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501285 | New value = 1.468137 | poltype: 2 pol: 2 CPU time specind = 8.9149475E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.70 | CG iter. 1 -- res = 0.24062E+08, tol = 0.47629E+04, time = 7.52 | CG iter. 2 -- res = 0.52706E+07, tol = 0.47629E+04, time = 6.55 | CG iter. 3 -- res = 0.83281E+06, tol = 0.47629E+04, time = 6.45 | CG iter. 4 -- res = 0.35236E+06, tol = 0.47629E+04, time = 6.14 | CG iter. 5 -- res = 0.15274E+06, tol = 0.47629E+04, time = 6.50 | CG iter. 6 -- res = 0.79904E+05, tol = 0.47629E+04, time = 5.79 | CG iter. 7 -- res = 0.43913E+05, tol = 0.47629E+04, time = 6.28 | CG iter. 8 -- res = 0.21126E+05, tol = 0.47629E+04, time = 6.40 | CG iter. 9 -- res = 0.91681E+04, tol = 0.47629E+04, time = 6.11 | CG iter. 10 -- res = 0.37626E+04, tol = 0.47629E+04, time = 6.62 | CG iter. 11 -- res = 0.16899E+04, tol = 0.47629E+04, time = 6.02 | CG iter. 12 -- res = 0.86898E+03, tol = 0.47629E+04, time = 6.78 | CG iter. 13 -- res = 0.49752E+03, tol = 0.47629E+04, time = 6.49 | CG iter. 14 -- res = 0.28300E+03, tol = 0.47629E+04, time = 6.04 | CG iter. 15 -- res = 0.14677E+03, tol = 0.47629E+04, time = 6.71 | CG iter. 16 -- res = 0.68862E+02, tol = 0.47629E+04, time = 6.11 | CG iter. 17 -- res = 0.32313E+02, tol = 0.47629E+04, time = 6.12 | CG iter. 18 -- res = 0.16170E+02, tol = 0.47629E+04, time = 6.18 | CG iter. 19 -- res = 0.88320E+01, tol = 0.47629E+04, time = 6.06 | CG iter. 20 -- res = 0.50794E+01, tol = 0.47629E+04, time = 6.28 | CG iter. 21 -- res = 0.28102E+01, tol = 0.47629E+04, time = 6.27 | CG iter. 22 -- res = 0.14677E+01, tol = 0.47629E+04, time = 5.92 | CG iter. 23 -- res = 0.72477E+00, tol = 0.47629E+04, time = 6.45 | CG iter. 24 -- res = 0.36855E+00, tol = 0.47629E+04, time = 6.36 | CG iter. 25 -- res = 0.20088E+00, tol = 0.47629E+04, time = 6.13 | CG iter. 26 -- res = 0.11388E+00, tol = 0.47629E+04, time = 6.36 | CG iter. 27 -- res = 0.64673E-01, tol = 0.47629E+04, time = 6.16 | CG iter. 28 -- res = 0.34453E-01, tol = 0.47629E+04, time = 6.15 | CG iter. 29 -- res = 0.18093E-01, tol = 0.47629E+04, time = 6.02 | CG iter. 30 -- res = 0.97234E-02, tol = 0.47629E+04, time = 5.97 | CG iter. 31 -- res = 0.53513E-02, tol = 0.47629E+04, time = 6.30 | CG iter. 32 -- res = 0.30430E-02, tol = 0.47629E+04, time = 6.06 | CG iter. 33 -- res = 0.17221E-02, tol = 0.47629E+04, time = 6.85 | CG iter. 34 -- res = 0.94142E-03, tol = 0.47629E+04, time = 11.93 | CG iter. 35 -- res = 0.48633E-03, tol = 0.47629E+04, time = 5.96 | Final CG iter 36 -- res = 0.48633E-03, tol = 0.47629E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.908 2.736 | New value -2.484 | Old value 2.908 | Difference -5.392 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.49 | CG iter. 1 -- res = 0.15062E+07, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.55704E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.16617E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.10187E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.14841E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8379496.853 | (Sampled value in CG: 8323672.297 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.689351 | New value = -3.450759 | poltype: 1 pol: 1 CPU time specind = 1.3260126E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.32 | CG iter. 1 -- res = 0.30597E+07, tol = 0.24678E+01, time = 2.86 | CG iter. 2 -- res = 0.16534E+07, tol = 0.24678E+01, time = 9.41 | CG iter. 3 -- res = 0.35806E+06, tol = 0.24678E+01, time = 2.39 | CG iter. 4 -- res = 0.13567E+06, tol = 0.24678E+01, time = 2.44 | CG iter. 5 -- res = 0.79941E+05, tol = 0.24678E+01, time = 2.76 | CG iter. 6 -- res = 0.42264E+05, tol = 0.24678E+01, time = 2.96 | CG iter. 7 -- res = 0.15934E+05, tol = 0.24678E+01, time = 2.60 | CG iter. 8 -- res = 0.65837E+04, tol = 0.24678E+01, time = 2.49 | CG iter. 9 -- res = 0.31133E+04, tol = 0.24678E+01, time = 2.33 | CG iter. 10 -- res = 0.12762E+04, tol = 0.24678E+01, time = 2.30 | CG iter. 11 -- res = 0.51272E+03, tol = 0.24678E+01, time = 2.72 | CG iter. 12 -- res = 0.23940E+03, tol = 0.24678E+01, time = 2.70 | CG iter. 13 -- res = 0.11655E+03, tol = 0.24678E+01, time = 2.77 | CG iter. 14 -- res = 0.62235E+02, tol = 0.24678E+01, time = 2.56 | CG iter. 15 -- res = 0.31108E+02, tol = 0.24678E+01, time = 2.54 | CG iter. 16 -- res = 0.14744E+02, tol = 0.24678E+01, time = 2.39 | CG iter. 17 -- res = 0.61427E+01, tol = 0.24678E+01, time = 2.70 | CG iter. 18 -- res = 0.26676E+01, tol = 0.24678E+01, time = 2.70 | CG iter. 19 -- res = 0.12315E+01, tol = 0.24678E+01, time = 2.90 | CG iter. 20 -- res = 0.60397E+00, tol = 0.24678E+01, time = 2.64 | CG iter. 21 -- res = 0.29735E+00, tol = 0.24678E+01, time = 2.53 | CG iter. 22 -- res = 0.14603E+00, tol = 0.24678E+01, time = 2.61 | CG iter. 23 -- res = 0.71316E-01, tol = 0.24678E+01, time = 2.42 | CG iter. 24 -- res = 0.31177E-01, tol = 0.24678E+01, time = 2.25 | CG iter. 25 -- res = 0.14554E-01, tol = 0.24678E+01, time = 2.50 | CG iter. 26 -- res = 0.68585E-02, tol = 0.24678E+01, time = 2.49 | CG iter. 27 -- res = 0.33804E-02, tol = 0.24678E+01, time = 2.62 | CG iter. 28 -- res = 0.17478E-02, tol = 0.24678E+01, time = 2.40 | CG iter. 29 -- res = 0.85079E-03, tol = 0.24678E+01, time = 2.65 | CG iter. 30 -- res = 0.41328E-03, tol = 0.24678E+01, time = 2.79 | CG iter. 31 -- res = 0.19335E-03, tol = 0.24678E+01, time = 2.52 | CG iter. 32 -- res = 0.88224E-04, tol = 0.24678E+01, time = 2.67 | CG iter. 33 -- res = 0.43327E-04, tol = 0.24678E+01, time = 2.50 | CG iter. 34 -- res = 0.21519E-04, tol = 0.24678E+01, time = 3.47 | CG iter. 35 -- res = 0.11234E-04, tol = 0.24678E+01, time = 3.49 | CG iter. 36 -- res = 0.58882E-05, tol = 0.24678E+01, time = 3.02 | CG iter. 37 -- res = 0.25678E-05, tol = 0.24678E+01, time = 2.75 | CG iter. 38 -- res = 0.12055E-05, tol = 0.24678E+01, time = 2.78 | CG iter. 39 -- res = 0.56826E-06, tol = 0.24678E+01, time = 2.56 | CG iter. 40 -- res = 0.28325E-06, tol = 0.24678E+01, time = 2.61 | CG iter. 41 -- res = 0.15127E-06, tol = 0.24678E+01, time = 2.61 | CG iter. 42 -- res = 0.75251E-07, tol = 0.24678E+01, time = 2.50 | CG iter. 43 -- res = 0.35464E-07, tol = 0.24678E+01, time = 2.63 | CG iter. 44 -- res = 0.16262E-07, tol = 0.24678E+01, time = 2.49 | CG iter. 45 -- res = 0.73340E-08, tol = 0.24678E+01, time = 2.47 | CG iter. 46 -- res = 0.36196E-08, tol = 0.24678E+01, time = 2.53 | CG iter. 47 -- res = 0.18468E-08, tol = 0.24678E+01, time = 2.66 | CG iter. 48 -- res = 0.92199E-09, tol = 0.24678E+01, time = 2.63 | CG iter. 49 -- res = 0.45350E-09, tol = 0.24678E+01, time = 2.61 | CG iter. 50 -- res = 0.21066E-09, tol = 0.24678E+01, time = 2.41 | Final CG iter 51 -- res = 0.21066E-09, tol = 0.24678E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.597 6.224 | New value -4.175 | Old value -6.597 | Difference 2.422 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.65 | CG iter. 1 -- res = 0.88523E+04, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.26709E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.98081E+00, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.13058E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.93932E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8379496.853 | (Sampled value in CG: 8335154.286 ) | CPU time specind = 1146.254 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.68510E+08, tol = 0.57532E+04, time = 11.36 | CG iter. 2 -- res = 0.58424E+08, tol = 0.57532E+04, time = 11.27 | CG iter. 3 -- res = 0.15152E+08, tol = 0.57532E+04, time = 11.40 | CG iter. 4 -- res = 0.63511E+07, tol = 0.57532E+04, time = 11.50 | CG iter. 5 -- res = 0.37993E+07, tol = 0.57532E+04, time = 11.15 | CG iter. 6 -- res = 0.22006E+07, tol = 0.57532E+04, time = 11.22 | CG iter. 7 -- res = 0.13531E+07, tol = 0.57532E+04, time = 11.43 | CG iter. 8 -- res = 0.89989E+06, tol = 0.57532E+04, time = 17.87 | CG iter. 9 -- res = 0.56399E+06, tol = 0.57532E+04, time = 11.07 | CG iter. 10 -- res = 0.33787E+06, tol = 0.57532E+04, time = 11.12 | CG iter. 11 -- res = 0.18707E+06, tol = 0.57532E+04, time = 11.57 | CG iter. 12 -- res = 0.10315E+06, tol = 0.57532E+04, time = 10.91 | CG iter. 13 -- res = 0.60053E+05, tol = 0.57532E+04, time = 11.13 | CG iter. 14 -- res = 0.40371E+05, tol = 0.57532E+04, time = 10.90 | CG iter. 15 -- res = 0.31285E+05, tol = 0.57532E+04, time = 12.75 | CG iter. 16 -- res = 0.26498E+05, tol = 0.57532E+04, time = 12.01 | CG iter. 17 -- res = 0.23387E+05, tol = 0.57532E+04, time = 11.21 | CG iter. 18 -- res = 0.20683E+05, tol = 0.57532E+04, time = 11.37 | CG iter. 19 -- res = 0.18478E+05, tol = 0.57532E+04, time = 11.10 | CG iter. 20 -- res = 0.16937E+05, tol = 0.57532E+04, time = 11.25 | CG iter. 21 -- res = 0.16692E+05, tol = 0.57532E+04, time = 11.45 | CG iter. 22 -- res = 0.17553E+05, tol = 0.57532E+04, time = 11.26 | CG iter. 23 -- res = 0.18234E+05, tol = 0.57532E+04, time = 11.24 | CG iter. 24 -- res = 0.18239E+05, tol = 0.57532E+04, time = 10.76 | CG iter. 25 -- res = 0.15866E+05, tol = 0.57532E+04, time = 11.91 | CG iter. 26 -- res = 0.12359E+05, tol = 0.57532E+04, time = 11.57 | CG iter. 27 -- res = 0.95765E+04, tol = 0.57532E+04, time = 11.21 | CG iter. 28 -- res = 0.73250E+04, tol = 0.57532E+04, time = 11.21 | CG iter. 29 -- res = 0.58283E+04, tol = 0.57532E+04, time = 11.44 | CG iter. 30 -- res = 0.49648E+04, tol = 0.57532E+04, time = 11.57 | CG iter. 31 -- res = 0.44252E+04, tol = 0.57532E+04, time = 11.19 | CG iter. 32 -- res = 0.39148E+04, tol = 0.57532E+04, time = 11.42 | CG iter. 33 -- res = 0.33481E+04, tol = 0.57532E+04, time = 13.21 | CG iter. 34 -- res = 0.27182E+04, tol = 0.57532E+04, time = 16.06 | CG iter. 35 -- res = 0.23729E+04, tol = 0.57532E+04, time = 11.25 | CG iter. 36 -- res = 0.22310E+04, tol = 0.57532E+04, time = 11.19 | CG iter. 37 -- res = 0.21835E+04, tol = 0.57532E+04, time = 11.59 | CG iter. 38 -- res = 0.21477E+04, tol = 0.57532E+04, time = 11.15 | CG iter. 39 -- res = 0.19840E+04, tol = 0.57532E+04, time = 11.34 | CG iter. 40 -- res = 0.16799E+04, tol = 0.57532E+04, time = 11.52 | CG iter. 41 -- res = 0.13724E+04, tol = 0.57532E+04, time = 12.61 | CG iter. 42 -- res = 0.11356E+04, tol = 0.57532E+04, time = 11.55 | CG iter. 43 -- res = 0.97499E+03, tol = 0.57532E+04, time = 11.24 | CG iter. 44 -- res = 0.90267E+03, tol = 0.57532E+04, time = 11.12 | CG iter. 45 -- res = 0.85160E+03, tol = 0.57532E+04, time = 11.48 | CG iter. 46 -- res = 0.78522E+03, tol = 0.57532E+04, time = 11.08 | CG iter. 47 -- res = 0.71107E+03, tol = 0.57532E+04, time = 10.66 | CG iter. 48 -- res = 0.63141E+03, tol = 0.57532E+04, time = 11.22 | CG iter. 49 -- res = 0.56529E+03, tol = 0.57532E+04, time = 11.72 | CG iter. 50 -- res = 0.52879E+03, tol = 0.57532E+04, time = 11.15 | CG iter. 51 -- res = 0.50914E+03, tol = 0.57532E+04, time = 11.30 | CG iter. 52 -- res = 0.49735E+03, tol = 0.57532E+04, time = 11.16 | CG iter. 53 -- res = 0.47314E+03, tol = 0.57532E+04, time = 11.65 | CG iter. 54 -- res = 0.42951E+03, tol = 0.57532E+04, time = 11.16 | CG iter. 55 -- res = 0.37145E+03, tol = 0.57532E+04, time = 11.28 | CG iter. 56 -- res = 0.32760E+03, tol = 0.57532E+04, time = 11.07 | CG iter. 57 -- res = 0.29618E+03, tol = 0.57532E+04, time = 11.01 | CG iter. 58 -- res = 0.27539E+03, tol = 0.57532E+04, time = 11.35 | CG iter. 59 -- res = 0.26399E+03, tol = 0.57532E+04, time = 12.66 | CG iter. 60 -- res = 0.24728E+03, tol = 0.57532E+04, time = 15.97 | Final CG iter 61 -- res = 0.24728E+03, tol = 0.57532E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.072 ( -229.754 -2231.063 2513.753 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9319975.607 | Old band monopole 8379532.895 | Change to band monopole 940442.712 | Change to component monopole -940438.667 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.522 2.736 | New value 1.794 | Old value -2.522 | Difference 4.316 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.542 ( 6.861 11.204 -10.581 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.332 4.693 | New value -2.958 | Old value 2.332 | Difference -5.290 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.47 | CG iter. 1 -- res = 0.96992E+06, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.29233E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.74527E+00, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.12035E-02, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.31814E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9319935.520 | (Sampled value in CG: 9295611.159 ) | Chain = 1 -- chisq = 0.81571753E+09 | Chain = 1 -- wall time = 16418.024 sec Available RAM: MemAvailable: 484287708 kB Available Swap: SwapFree: 1057753952 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 262 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445736 | --> Sampling calibration, mode = relcal | relcal = 1.3430635E-02 7.4346177E-04 -1.5906711E-03 -1.2583425E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1144696 0.1325879 9403944.58348536 | BP delta = 0.1144696 0.1362179 9403962.15122253 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632281 | --> Sampling calibration, mode = relcal | relcal = -2.8203963E-03 -7.0395734E-04 1.6787394E-03 1.6123861E-03 -4.0756480E-04 6.4079289E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5314623 15219328.3073387 | BP delta = 0.0000000E+00 -0.5341687 15219328.0294398 | BP chisq diff = -0.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18054001069866 | --> Sampling calibration, mode = relcal | relcal = -7.4139200E-02 -5.7890348E-02 9.0938613E-02 4.1090939E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6941038E-04 3.0436015E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0056E-04 | 2: delta_r/delta_0: 9.5456E-06 | 3: delta_s/delta_0: 2.0055E-07 | 4: delta_r/delta_0: 1.8236E-08 | 5: delta_s/delta_0: 6.6319E-09 | 6: delta_r/delta_0: 1.3859E-09 | 7: delta_s/delta_0: 2.8327E-09 | 8: delta_r/delta_0: 1.1426E-10 | 9: delta_s/delta_0: 9.2450E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.035562429488793E-003 2.742282844747818E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.0042E-04 | 2: delta_r/delta_0: 9.5432E-06 | 3: delta_s/delta_0: 2.0056E-07 | 4: delta_r/delta_0: 1.8236E-08 | 5: delta_s/delta_0: 6.6320E-09 | 6: delta_r/delta_0: 1.3860E-09 | 7: delta_s/delta_0: 2.8301E-09 | 8: delta_r/delta_0: 1.1423E-10 | 9: delta_s/delta_0: 9.2460E-11 | Reached bicg-stab tolerance | BP delta = 7.0838429E-02 9.0579599E-02 3640701.05411369 | BP delta = 7.0838429E-02 9.0568893E-02 3637641.93435742 | BP chisq diff = -3059.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02590422 | --> Sampling calibration, mode = relcal | relcal = -0.1066442 -9.5528170E-02 0.1449116 5.7260778E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8203756E-03 1.7035663E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.6184E-05 | 2: delta_r/delta_0: 1.4342E-06 | 3: delta_s/delta_0: 2.4353E-07 | 4: delta_r/delta_0: 4.5944E-08 | 5: delta_s/delta_0: 2.4116E-08 | 6: delta_r/delta_0: 7.2106E-09 | 7: delta_s/delta_0: 6.3086E-09 | 8: delta_r/delta_0: 1.7400E-09 | 9: delta_s/delta_0: 8.4000E-10 | 10: delta_r/delta_0: 6.3113E-10 | 11: delta_s/delta_0: 3.1509E-09 | 12: delta_r/delta_0: 4.7813E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.012219629725623E-002 2.811110252365204E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.6183E-05 | 2: delta_r/delta_0: 1.4342E-06 | 3: delta_s/delta_0: 2.4353E-07 | 4: delta_r/delta_0: 4.5940E-08 | 5: delta_s/delta_0: 2.4118E-08 | 6: delta_r/delta_0: 7.2104E-09 | 7: delta_s/delta_0: 6.3086E-09 | 8: delta_r/delta_0: 1.7400E-09 | 9: delta_s/delta_0: 8.3997E-10 | 10: delta_r/delta_0: 6.3110E-10 | 11: delta_s/delta_0: 3.1498E-09 | 12: delta_r/delta_0: 4.7825E-11 | Reached bicg-stab tolerance | BP delta = -0.2854532 -0.2606188 2841178.48839752 | BP delta = -0.2854532 -0.2637337 2841178.89089312 | BP chisq diff = 0.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81205444 | --> Sampling calibration, mode = relcal | relcal = 0.2954199 0.2247993 -0.2837860 -0.2364333 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6667082E-03 4.8048305E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5204E-04 | 2: delta_r/delta_0: 1.2515E-05 | 3: delta_s/delta_0: 1.0801E-04 | 4: delta_r/delta_0: 9.1517E-06 | 5: delta_s/delta_0: 1.1799E-06 | 6: delta_r/delta_0: 2.2047E-07 | 7: delta_s/delta_0: 6.0889E-08 | 8: delta_r/delta_0: 2.9831E-08 | 9: delta_s/delta_0: 1.4136E-07 | 10: delta_r/delta_0: 3.2702E-09 | 11: delta_s/delta_0: 1.0052E-09 | 12: delta_r/delta_0: 5.5280E-10 | 13: delta_s/delta_0: 4.0435E-10 | 14: delta_r/delta_0: 5.6945E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.269003496088339E-002 4.022662877546376E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.5213E-04 | 2: delta_r/delta_0: 1.2517E-05 | 3: delta_s/delta_0: 1.0798E-04 | 4: delta_r/delta_0: 9.1492E-06 | 5: delta_s/delta_0: 1.1804E-06 | 6: delta_r/delta_0: 2.2055E-07 | 7: delta_s/delta_0: 6.0888E-08 | 8: delta_r/delta_0: 2.9834E-08 | 9: delta_s/delta_0: 1.4156E-07 | 10: delta_r/delta_0: 3.2701E-09 | 11: delta_s/delta_0: 1.0050E-09 | 12: delta_r/delta_0: 5.5275E-10 | 13: delta_s/delta_0: 4.0433E-10 | 14: delta_r/delta_0: 5.6966E-11 | Reached bicg-stab tolerance | BP delta = -9.9836767E-02 -0.1074126 2827252.00399074 | BP delta = -9.9836767E-02 -0.1123267 2827275.73639198 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95890642 | --> Sampling calibration, mode = relcal | relcal = 0.1065542 0.1395712 -0.1102882 -0.1358373 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0399266E-02 1.4476996E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5796E-03 | 2: delta_r/delta_0: 6.2308E-05 | 3: delta_s/delta_0: 7.4014E-05 | 4: delta_r/delta_0: 4.2025E-06 | 5: delta_s/delta_0: 6.3813E-07 | 6: delta_r/delta_0: 2.3706E-07 | 7: delta_s/delta_0: 3.9198E-07 | 8: delta_r/delta_0: 5.6830E-08 | 9: delta_s/delta_0: 3.5950E-08 | 10: delta_r/delta_0: 5.1779E-09 | 11: delta_s/delta_0: 3.2008E-09 | 12: delta_r/delta_0: 1.3609E-09 | 13: delta_s/delta_0: 4.8002E-09 | 14: delta_r/delta_0: 9.7774E-10 | 15: delta_s/delta_0: 9.4087E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.954313933967879E-002 3.698239899786724E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5824E-03 | 2: delta_r/delta_0: 6.2374E-05 | 3: delta_s/delta_0: 7.4042E-05 | 4: delta_r/delta_0: 4.2042E-06 | 5: delta_s/delta_0: 6.3860E-07 | 6: delta_r/delta_0: 2.3723E-07 | 7: delta_s/delta_0: 3.9287E-07 | 8: delta_r/delta_0: 5.6854E-08 | 9: delta_s/delta_0: 3.5806E-08 | 10: delta_r/delta_0: 5.1846E-09 | 11: delta_s/delta_0: 3.1943E-09 | 12: delta_r/delta_0: 1.3674E-09 | 13: delta_s/delta_0: 4.8123E-09 | 14: delta_r/delta_0: 9.8757E-10 | 15: delta_s/delta_0: 9.4188E-11 | Reached bicg-stab tolerance | BP delta = 0.1337536 0.2474679 3003884.04057250 | BP delta = 0.1337536 0.2442068 3004075.84358858 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.211600 | New value = -3.225150 | poltype: 2 pol: 1 CPU time specind = 1.2242079E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154995 | New value = -3.054993 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156984 | New value = -3.096229 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146236 | New value = -3.207980 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138996 | New value = -3.119277 | poltype: 2 pol: 2 CPU time specind = 4.2591095E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.13528E+08, tol = 0.74964E+01, time = 5.53 | CG iter. 2 -- res = 0.31333E+06, tol = 0.74964E+01, time = 5.62 | CG iter. 3 -- res = 0.44023E+05, tol = 0.74964E+01, time = 6.09 | CG iter. 4 -- res = 0.20099E+05, tol = 0.74964E+01, time = 5.74 | CG iter. 5 -- res = 0.10410E+05, tol = 0.74964E+01, time = 5.65 | CG iter. 6 -- res = 0.55495E+04, tol = 0.74964E+01, time = 5.79 | CG iter. 7 -- res = 0.35210E+04, tol = 0.74964E+01, time = 5.71 | CG iter. 8 -- res = 0.24970E+04, tol = 0.74964E+01, time = 5.75 | CG iter. 9 -- res = 0.21964E+04, tol = 0.74964E+01, time = 5.54 | CG iter. 10 -- res = 0.25394E+04, tol = 0.74964E+01, time = 5.62 | CG iter. 11 -- res = 0.26142E+04, tol = 0.74964E+01, time = 5.44 | CG iter. 12 -- res = 0.20848E+04, tol = 0.74964E+01, time = 6.13 | CG iter. 13 -- res = 0.15110E+04, tol = 0.74964E+01, time = 7.12 | CG iter. 14 -- res = 0.11516E+04, tol = 0.74964E+01, time = 6.14 | CG iter. 15 -- res = 0.95425E+03, tol = 0.74964E+01, time = 6.17 | CG iter. 16 -- res = 0.74964E+03, tol = 0.74964E+01, time = 5.61 | CG iter. 17 -- res = 0.55066E+03, tol = 0.74964E+01, time = 6.01 | CG iter. 18 -- res = 0.43330E+03, tol = 0.74964E+01, time = 5.72 | CG iter. 19 -- res = 0.37289E+03, tol = 0.74964E+01, time = 5.26 | CG iter. 20 -- res = 0.29234E+03, tol = 0.74964E+01, time = 6.00 | CG iter. 21 -- res = 0.21545E+03, tol = 0.74964E+01, time = 5.62 | CG iter. 22 -- res = 0.15956E+03, tol = 0.74964E+01, time = 5.66 | CG iter. 23 -- res = 0.13770E+03, tol = 0.74964E+01, time = 6.05 | CG iter. 24 -- res = 0.12755E+03, tol = 0.74964E+01, time = 5.53 | CG iter. 25 -- res = 0.10656E+03, tol = 0.74964E+01, time = 5.50 | CG iter. 26 -- res = 0.88232E+02, tol = 0.74964E+01, time = 5.94 | CG iter. 27 -- res = 0.76550E+02, tol = 0.74964E+01, time = 5.75 | CG iter. 28 -- res = 0.70996E+02, tol = 0.74964E+01, time = 5.67 | CG iter. 29 -- res = 0.60611E+02, tol = 0.74964E+01, time = 5.71 | CG iter. 30 -- res = 0.49164E+02, tol = 0.74964E+01, time = 5.63 | CG iter. 31 -- res = 0.44090E+02, tol = 0.74964E+01, time = 5.32 | CG iter. 32 -- res = 0.42336E+02, tol = 0.74964E+01, time = 6.54 | CG iter. 33 -- res = 0.39465E+02, tol = 0.74964E+01, time = 5.79 | CG iter. 34 -- res = 0.32710E+02, tol = 0.74964E+01, time = 5.48 | CG iter. 35 -- res = 0.28210E+02, tol = 0.74964E+01, time = 5.74 | CG iter. 36 -- res = 0.26381E+02, tol = 0.74964E+01, time = 5.97 | CG iter. 37 -- res = 0.24105E+02, tol = 0.74964E+01, time = 5.78 | CG iter. 38 -- res = 0.19798E+02, tol = 0.74964E+01, time = 5.36 | CG iter. 39 -- res = 0.16424E+02, tol = 0.74964E+01, time = 5.40 | CG iter. 40 -- res = 0.14257E+02, tol = 0.74964E+01, time = 5.99 | CG iter. 41 -- res = 0.12142E+02, tol = 0.74964E+01, time = 5.42 | CG iter. 42 -- res = 0.93872E+01, tol = 0.74964E+01, time = 5.96 | CG iter. 43 -- res = 0.72086E+01, tol = 0.74964E+01, time = 5.77 | CG iter. 44 -- res = 0.57463E+01, tol = 0.74964E+01, time = 5.47 | CG iter. 45 -- res = 0.49702E+01, tol = 0.74964E+01, time = 5.46 | CG iter. 46 -- res = 0.40065E+01, tol = 0.74964E+01, time = 5.58 | CG iter. 47 -- res = 0.32021E+01, tol = 0.74964E+01, time = 6.17 | CG iter. 48 -- res = 0.25672E+01, tol = 0.74964E+01, time = 5.63 | CG iter. 49 -- res = 0.22320E+01, tol = 0.74964E+01, time = 6.85 | CG iter. 50 -- res = 0.18239E+01, tol = 0.74964E+01, time = 10.90 | Final CG iter 51 -- res = 0.18239E+01, tol = 0.74964E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7631199.505 | Old band monopole 9319975.607 | Change to band monopole -1688776.102 | Change to component monopole 1688768.838 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.41 | CG iter. 1 -- res = 0.61479E+04, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.17242E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.29731E+00, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.46721E-03, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.10795E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7631166.682 | (Sampled value in CG: 7621845.377 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.512169 | New value = 1.485039 | poltype: 2 pol: 1 CPU time specind = 2.3897886E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.468137 | New value = 1.518754 | poltype: 2 pol: 2 CPU time specind = 3.0229092E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.24155E+08, tol = 0.47557E+04, time = 6.23 | CG iter. 2 -- res = 0.53432E+07, tol = 0.47557E+04, time = 6.80 | CG iter. 3 -- res = 0.84534E+06, tol = 0.47557E+04, time = 6.46 | CG iter. 4 -- res = 0.35899E+06, tol = 0.47557E+04, time = 6.49 | CG iter. 5 -- res = 0.15576E+06, tol = 0.47557E+04, time = 6.10 | CG iter. 6 -- res = 0.81334E+05, tol = 0.47557E+04, time = 6.72 | CG iter. 7 -- res = 0.44002E+05, tol = 0.47557E+04, time = 6.64 | CG iter. 8 -- res = 0.21107E+05, tol = 0.47557E+04, time = 6.46 | CG iter. 9 -- res = 0.92119E+04, tol = 0.47557E+04, time = 6.63 | CG iter. 10 -- res = 0.37660E+04, tol = 0.47557E+04, time = 6.43 | CG iter. 11 -- res = 0.16918E+04, tol = 0.47557E+04, time = 6.36 | CG iter. 12 -- res = 0.86912E+03, tol = 0.47557E+04, time = 6.57 | CG iter. 13 -- res = 0.50023E+03, tol = 0.47557E+04, time = 6.54 | CG iter. 14 -- res = 0.28243E+03, tol = 0.47557E+04, time = 6.63 | CG iter. 15 -- res = 0.14444E+03, tol = 0.47557E+04, time = 6.95 | CG iter. 16 -- res = 0.68264E+02, tol = 0.47557E+04, time = 6.35 | CG iter. 17 -- res = 0.31638E+02, tol = 0.47557E+04, time = 6.54 | CG iter. 18 -- res = 0.15892E+02, tol = 0.47557E+04, time = 6.51 | CG iter. 19 -- res = 0.87440E+01, tol = 0.47557E+04, time = 6.52 | CG iter. 20 -- res = 0.48640E+01, tol = 0.47557E+04, time = 6.43 | CG iter. 21 -- res = 0.26223E+01, tol = 0.47557E+04, time = 6.52 | CG iter. 22 -- res = 0.13603E+01, tol = 0.47557E+04, time = 6.83 | CG iter. 23 -- res = 0.70042E+00, tol = 0.47557E+04, time = 6.30 | CG iter. 24 -- res = 0.36828E+00, tol = 0.47557E+04, time = 6.29 | CG iter. 25 -- res = 0.20567E+00, tol = 0.47557E+04, time = 6.22 | CG iter. 26 -- res = 0.11744E+00, tol = 0.47557E+04, time = 6.52 | CG iter. 27 -- res = 0.66542E-01, tol = 0.47557E+04, time = 13.00 | CG iter. 28 -- res = 0.36866E-01, tol = 0.47557E+04, time = 6.28 | CG iter. 29 -- res = 0.19452E-01, tol = 0.47557E+04, time = 6.76 | CG iter. 30 -- res = 0.10157E-01, tol = 0.47557E+04, time = 6.20 | CG iter. 31 -- res = 0.53991E-02, tol = 0.47557E+04, time = 7.05 | CG iter. 32 -- res = 0.30196E-02, tol = 0.47557E+04, time = 6.64 | CG iter. 33 -- res = 0.16984E-02, tol = 0.47557E+04, time = 6.00 | CG iter. 34 -- res = 0.92251E-03, tol = 0.47557E+04, time = 6.45 | CG iter. 35 -- res = 0.48521E-03, tol = 0.47557E+04, time = 6.63 | Final CG iter 36 -- res = 0.48521E-03, tol = 0.47557E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.838 2.753 | New value 0.589 | Old value 1.838 | Difference -1.248 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.81124E+05, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.14143E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.11842E+00, tol = 0.47627E+18, time = 2.23 | CG iter. 4 -- res = 0.17419E-03, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.28350E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7631166.682 | (Sampled value in CG: 7622587.344 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.450759 | New value = -3.823277 | poltype: 1 pol: 1 CPU time specind = 2.2992134E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.29 | CG iter. 1 -- res = 0.25704E+07, tol = 0.30096E+01, time = 2.52 | CG iter. 2 -- res = 0.66794E+06, tol = 0.30096E+01, time = 2.55 | CG iter. 3 -- res = 0.13743E+06, tol = 0.30096E+01, time = 2.65 | CG iter. 4 -- res = 0.75202E+05, tol = 0.30096E+01, time = 2.64 | CG iter. 5 -- res = 0.46866E+05, tol = 0.30096E+01, time = 2.98 | CG iter. 6 -- res = 0.18309E+05, tol = 0.30096E+01, time = 2.58 | CG iter. 7 -- res = 0.60002E+04, tol = 0.30096E+01, time = 2.75 | CG iter. 8 -- res = 0.27748E+04, tol = 0.30096E+01, time = 2.73 | CG iter. 9 -- res = 0.12723E+04, tol = 0.30096E+01, time = 2.74 | CG iter. 10 -- res = 0.52424E+03, tol = 0.30096E+01, time = 3.27 | CG iter. 11 -- res = 0.22211E+03, tol = 0.30096E+01, time = 3.65 | CG iter. 12 -- res = 0.11603E+03, tol = 0.30096E+01, time = 3.01 | CG iter. 13 -- res = 0.56557E+02, tol = 0.30096E+01, time = 2.99 | CG iter. 14 -- res = 0.26060E+02, tol = 0.30096E+01, time = 3.04 | CG iter. 15 -- res = 0.10435E+02, tol = 0.30096E+01, time = 2.97 | CG iter. 16 -- res = 0.44601E+01, tol = 0.30096E+01, time = 2.52 | CG iter. 17 -- res = 0.20613E+01, tol = 0.30096E+01, time = 2.79 | CG iter. 18 -- res = 0.10725E+01, tol = 0.30096E+01, time = 2.80 | CG iter. 19 -- res = 0.50096E+00, tol = 0.30096E+01, time = 2.64 | CG iter. 20 -- res = 0.23340E+00, tol = 0.30096E+01, time = 2.77 | CG iter. 21 -- res = 0.10002E+00, tol = 0.30096E+01, time = 2.78 | CG iter. 22 -- res = 0.43395E-01, tol = 0.30096E+01, time = 2.83 | CG iter. 23 -- res = 0.20371E-01, tol = 0.30096E+01, time = 2.75 | CG iter. 24 -- res = 0.99314E-02, tol = 0.30096E+01, time = 2.50 | CG iter. 25 -- res = 0.49426E-02, tol = 0.30096E+01, time = 2.59 | CG iter. 26 -- res = 0.22519E-02, tol = 0.30096E+01, time = 2.96 | CG iter. 27 -- res = 0.98113E-03, tol = 0.30096E+01, time = 2.77 | CG iter. 28 -- res = 0.45293E-03, tol = 0.30096E+01, time = 2.33 | CG iter. 29 -- res = 0.20884E-03, tol = 0.30096E+01, time = 2.30 | CG iter. 30 -- res = 0.10826E-03, tol = 0.30096E+01, time = 2.76 | CG iter. 31 -- res = 0.53962E-04, tol = 0.30096E+01, time = 2.85 | CG iter. 32 -- res = 0.25631E-04, tol = 0.30096E+01, time = 2.81 | CG iter. 33 -- res = 0.11695E-04, tol = 0.30096E+01, time = 3.12 | CG iter. 34 -- res = 0.49403E-05, tol = 0.30096E+01, time = 2.50 | CG iter. 35 -- res = 0.25585E-05, tol = 0.30096E+01, time = 2.55 | CG iter. 36 -- res = 0.13676E-05, tol = 0.30096E+01, time = 2.88 | CG iter. 37 -- res = 0.67137E-06, tol = 0.30096E+01, time = 2.94 | CG iter. 38 -- res = 0.30279E-06, tol = 0.30096E+01, time = 3.03 | CG iter. 39 -- res = 0.12744E-06, tol = 0.30096E+01, time = 2.50 | CG iter. 40 -- res = 0.62335E-07, tol = 0.30096E+01, time = 2.47 | CG iter. 41 -- res = 0.31309E-07, tol = 0.30096E+01, time = 2.85 | CG iter. 42 -- res = 0.15657E-07, tol = 0.30096E+01, time = 2.77 | CG iter. 43 -- res = 0.69072E-08, tol = 0.30096E+01, time = 2.79 | CG iter. 44 -- res = 0.31089E-08, tol = 0.30096E+01, time = 2.89 | CG iter. 45 -- res = 0.14009E-08, tol = 0.30096E+01, time = 2.53 | CG iter. 46 -- res = 0.67112E-09, tol = 0.30096E+01, time = 2.87 | CG iter. 47 -- res = 0.32869E-09, tol = 0.30096E+01, time = 2.58 | CG iter. 48 -- res = 0.15764E-09, tol = 0.30096E+01, time = 2.81 | CG iter. 49 -- res = 0.70417E-10, tol = 0.30096E+01, time = 2.61 | CG iter. 50 -- res = 0.32272E-10, tol = 0.30096E+01, time = 2.86 | Final CG iter 51 -- res = 0.32272E-10, tol = 0.30096E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.526 4.878 | New value -3.388 | Old value -3.526 | Difference 0.138 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.23129E+04, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.13532E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.11476E+00, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.20790E-03, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.19773E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7631166.682 | (Sampled value in CG: 7624505.427 ) | CPU time specind = 1191.047 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.46 | CG iter. 1 -- res = 0.69343E+08, tol = 0.58267E+04, time = 13.10 | CG iter. 2 -- res = 0.58776E+08, tol = 0.58267E+04, time = 17.00 | CG iter. 3 -- res = 0.15594E+08, tol = 0.58267E+04, time = 12.55 | CG iter. 4 -- res = 0.67641E+07, tol = 0.58267E+04, time = 11.65 | CG iter. 5 -- res = 0.40882E+07, tol = 0.58267E+04, time = 11.83 | CG iter. 6 -- res = 0.23474E+07, tol = 0.58267E+04, time = 11.99 | CG iter. 7 -- res = 0.13441E+07, tol = 0.58267E+04, time = 12.12 | CG iter. 8 -- res = 0.87327E+06, tol = 0.58267E+04, time = 11.31 | CG iter. 9 -- res = 0.57147E+06, tol = 0.58267E+04, time = 14.03 | CG iter. 10 -- res = 0.34550E+06, tol = 0.58267E+04, time = 11.64 | CG iter. 11 -- res = 0.18431E+06, tol = 0.58267E+04, time = 11.56 | CG iter. 12 -- res = 0.94860E+05, tol = 0.58267E+04, time = 11.80 | CG iter. 13 -- res = 0.49813E+05, tol = 0.58267E+04, time = 12.01 | CG iter. 14 -- res = 0.28555E+05, tol = 0.58267E+04, time = 11.40 | CG iter. 15 -- res = 0.18201E+05, tol = 0.58267E+04, time = 11.77 | CG iter. 16 -- res = 0.12691E+05, tol = 0.58267E+04, time = 12.09 | CG iter. 17 -- res = 0.90868E+04, tol = 0.58267E+04, time = 12.38 | CG iter. 18 -- res = 0.64272E+04, tol = 0.58267E+04, time = 12.69 | CG iter. 19 -- res = 0.44315E+04, tol = 0.58267E+04, time = 11.70 | CG iter. 20 -- res = 0.31042E+04, tol = 0.58267E+04, time = 11.54 | CG iter. 21 -- res = 0.23498E+04, tol = 0.58267E+04, time = 11.32 | CG iter. 22 -- res = 0.20525E+04, tol = 0.58267E+04, time = 12.15 | CG iter. 23 -- res = 0.20424E+04, tol = 0.58267E+04, time = 11.63 | CG iter. 24 -- res = 0.22360E+04, tol = 0.58267E+04, time = 12.05 | CG iter. 25 -- res = 0.24513E+04, tol = 0.58267E+04, time = 11.66 | CG iter. 26 -- res = 0.25004E+04, tol = 0.58267E+04, time = 18.67 | CG iter. 27 -- res = 0.23915E+04, tol = 0.58267E+04, time = 12.05 | CG iter. 28 -- res = 0.21021E+04, tol = 0.58267E+04, time = 11.77 | CG iter. 29 -- res = 0.18596E+04, tol = 0.58267E+04, time = 11.50 | CG iter. 30 -- res = 0.16650E+04, tol = 0.58267E+04, time = 11.93 | CG iter. 31 -- res = 0.14869E+04, tol = 0.58267E+04, time = 11.88 | CG iter. 32 -- res = 0.13139E+04, tol = 0.58267E+04, time = 11.63 | CG iter. 33 -- res = 0.10568E+04, tol = 0.58267E+04, time = 13.30 | CG iter. 34 -- res = 0.76820E+03, tol = 0.58267E+04, time = 12.04 | CG iter. 35 -- res = 0.56904E+03, tol = 0.58267E+04, time = 11.59 | CG iter. 36 -- res = 0.44716E+03, tol = 0.58267E+04, time = 12.10 | CG iter. 37 -- res = 0.39626E+03, tol = 0.58267E+04, time = 11.61 | CG iter. 38 -- res = 0.37788E+03, tol = 0.58267E+04, time = 11.89 | CG iter. 39 -- res = 0.35889E+03, tol = 0.58267E+04, time = 12.39 | CG iter. 40 -- res = 0.33552E+03, tol = 0.58267E+04, time = 11.93 | CG iter. 41 -- res = 0.30036E+03, tol = 0.58267E+04, time = 12.17 | CG iter. 42 -- res = 0.26708E+03, tol = 0.58267E+04, time = 12.01 | CG iter. 43 -- res = 0.24191E+03, tol = 0.58267E+04, time = 11.57 | CG iter. 44 -- res = 0.22763E+03, tol = 0.58267E+04, time = 11.95 | CG iter. 45 -- res = 0.21232E+03, tol = 0.58267E+04, time = 11.64 | CG iter. 46 -- res = 0.19515E+03, tol = 0.58267E+04, time = 12.12 | CG iter. 47 -- res = 0.17390E+03, tol = 0.58267E+04, time = 11.90 | CG iter. 48 -- res = 0.14674E+03, tol = 0.58267E+04, time = 12.79 | CG iter. 49 -- res = 0.12095E+03, tol = 0.58267E+04, time = 11.83 | CG iter. 50 -- res = 0.10394E+03, tol = 0.58267E+04, time = 13.34 | CG iter. 51 -- res = 0.92920E+02, tol = 0.58267E+04, time = 17.15 | CG iter. 52 -- res = 0.85667E+02, tol = 0.58267E+04, time = 11.42 | CG iter. 53 -- res = 0.79914E+02, tol = 0.58267E+04, time = 11.82 | CG iter. 54 -- res = 0.74043E+02, tol = 0.58267E+04, time = 11.68 | CG iter. 55 -- res = 0.67329E+02, tol = 0.58267E+04, time = 11.37 | CG iter. 56 -- res = 0.60921E+02, tol = 0.58267E+04, time = 11.52 | CG iter. 57 -- res = 0.55011E+02, tol = 0.58267E+04, time = 11.64 | CG iter. 58 -- res = 0.51824E+02, tol = 0.58267E+04, time = 13.66 | CG iter. 59 -- res = 0.50317E+02, tol = 0.58267E+04, time = 12.10 | CG iter. 60 -- res = 0.48602E+02, tol = 0.58267E+04, time = 12.07 | Final CG iter 61 -- res = 0.48602E+02, tol = 0.58267E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.628 ( -230.086 -2231.461 2513.810 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11581312.835 | Old band monopole 7631199.505 | Change to band monopole 3950113.330 | Change to component monopole -3950096.340 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.588 2.757 | New value -0.673 | Old value 0.588 | Difference -1.261 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.407 ( 8.530 12.057 -10.800 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.354 4.376 | New value 0.746 | Old value 7.354 | Difference -6.608 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.43 | CG iter. 1 -- res = 0.23838E+06, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.70615E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.27114E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.42032E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.44062E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11581263.022 | (Sampled value in CG: 11558327.984 ) | Chain = 1 -- chisq = 0.81537862E+09 | Chain = 1 -- wall time = 6108.202 sec Available RAM: MemAvailable: 389693708 kB Available Swap: SwapFree: 1117856352 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 263 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444949 | --> Sampling calibration, mode = relcal | relcal = 1.3432058E-02 7.3648273E-04 -1.5994770E-03 -1.2569063E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1144696 0.1325879 97040783.0464380 | BP delta = 0.1060007 0.1241190 97040784.8453680 | BP chisq diff = 1.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632364 | --> Sampling calibration, mode = relcal | relcal = -2.8207900E-03 -7.0362614E-04 1.6786278E-03 1.6123164E-03 -4.0781623E-04 6.4128824E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5341687 15218753.9987719 | BP delta = 0.0000000E+00 -0.5350728 15218750.7436648 | BP chisq diff = -3.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17910082127456 | --> Sampling calibration, mode = relcal | relcal = -7.4530251E-02 -5.7996161E-02 9.1264963E-02 4.1261453E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0621841E-04 3.5573191E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2206E-05 | 2: delta_r/delta_0: 1.9544E-06 | 3: delta_s/delta_0: 2.2059E-07 | 4: delta_r/delta_0: 1.5093E-08 | 5: delta_s/delta_0: 5.1949E-09 | 6: delta_r/delta_0: 1.1529E-09 | 7: delta_s/delta_0: 1.5284E-09 | 8: delta_r/delta_0: 9.2267E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.061150080861782E-003 2.745549846165860E-005 | BP delta = 7.0838429E-02 9.0568893E-02 50485697.4997025 | BP delta = 7.5032443E-02 9.4762906E-02 50485698.9839636 | BP chisq diff = 1.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02606614 | --> Sampling calibration, mode = relcal | relcal = -0.1066746 -9.5545173E-02 0.1449366 5.7283193E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9693185E-03 1.4334110E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0419E-05 | 2: delta_r/delta_0: 1.2087E-06 | 3: delta_s/delta_0: 2.4967E-07 | 4: delta_r/delta_0: 5.6681E-08 | 5: delta_s/delta_0: 1.5410E-08 | 6: delta_r/delta_0: 7.3764E-09 | 7: delta_s/delta_0: 6.3227E-08 | 8: delta_r/delta_0: 2.5025E-09 | 9: delta_s/delta_0: 7.9454E-10 | 10: delta_r/delta_0: 5.2698E-10 | 11: delta_s/delta_0: 5.7867E-09 | 12: delta_r/delta_0: 5.7140E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.792973375453921E-003 2.810648440229063E-005 | BP delta = -0.2854532 -0.2637337 57391961.7756132 | BP delta = -0.2841377 -0.2624182 57391961.8318073 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81220265 | --> Sampling calibration, mode = relcal | relcal = 0.2954932 0.2247405 -0.2836927 -0.2365409 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2668221E-04 4.6881251E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5362E-04 | 2: delta_r/delta_0: 1.9453E-05 | 3: delta_s/delta_0: 4.7390E-04 | 4: delta_r/delta_0: 2.0691E-05 | 5: delta_s/delta_0: 3.4080E-05 | 6: delta_r/delta_0: 4.7197E-06 | 7: delta_s/delta_0: 5.4037E-08 | 8: delta_r/delta_0: 3.7013E-08 | 9: delta_s/delta_0: 7.1902E-07 | 10: delta_r/delta_0: 4.1652E-09 | 11: delta_s/delta_0: 8.6690E-10 | 12: delta_r/delta_0: 6.4437E-10 | 13: delta_s/delta_0: 4.3321E-10 | 14: delta_r/delta_0: 8.6356E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.088442899051472E-002 4.021731721877516E-005 | BP delta = -9.9836767E-02 -0.1074126 72488527.8343828 | BP delta = -4.6890400E-02 -5.4466214E-02 72488529.7537179 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95909350 | --> Sampling calibration, mode = relcal | relcal = 0.1064377 0.1396801 -0.1104080 -0.1357098 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9800238E-03 1.3202367E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7800E-03 | 2: delta_r/delta_0: 4.2809E-05 | 3: delta_s/delta_0: 4.2348E-04 | 4: delta_r/delta_0: 1.7406E-05 | 5: delta_s/delta_0: 4.7388E-07 | 6: delta_r/delta_0: 1.7603E-07 | 7: delta_s/delta_0: 1.7378E-07 | 8: delta_r/delta_0: 4.7466E-08 | 9: delta_s/delta_0: 2.8474E-08 | 10: delta_r/delta_0: 3.9116E-09 | 11: delta_s/delta_0: 3.7638E-09 | 12: delta_r/delta_0: 2.2578E-09 | 13: delta_s/delta_0: 3.0575E-10 | 14: delta_r/delta_0: 1.3778E-10 | 15: delta_s/delta_0: 1.7756E-10 | 16: delta_r/delta_0: 1.4117E-10 | 17: delta_s/delta_0: 2.7335E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.680170690008172E-002 3.697522909777909E-005 | BP delta = 0.1337536 0.2474679 72777323.1107411 | BP delta = 0.1424283 0.2561426 72777323.1964865 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.225150 | New value = -3.254952 | poltype: 2 pol: 1 CPU time specind = 9.8669529E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.054993 | New value = -3.236261 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.096229 | New value = -3.184442 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.207980 | New value = -3.105409 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119277 | New value = -3.167823 | poltype: 2 pol: 2 CPU time specind = 4.8334122E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.13540E+08, tol = 0.59301E+01, time = 5.38 | CG iter. 2 -- res = 0.34521E+06, tol = 0.59301E+01, time = 5.77 | CG iter. 3 -- res = 0.50715E+05, tol = 0.59301E+01, time = 5.54 | CG iter. 4 -- res = 0.21137E+05, tol = 0.59301E+01, time = 5.86 | CG iter. 5 -- res = 0.10768E+05, tol = 0.59301E+01, time = 5.79 | CG iter. 6 -- res = 0.57702E+04, tol = 0.59301E+01, time = 6.13 | CG iter. 7 -- res = 0.39510E+04, tol = 0.59301E+01, time = 5.70 | CG iter. 8 -- res = 0.29485E+04, tol = 0.59301E+01, time = 5.75 | CG iter. 9 -- res = 0.24702E+04, tol = 0.59301E+01, time = 5.59 | CG iter. 10 -- res = 0.27184E+04, tol = 0.59301E+01, time = 7.30 | CG iter. 11 -- res = 0.28818E+04, tol = 0.59301E+01, time = 10.64 | CG iter. 12 -- res = 0.23275E+04, tol = 0.59301E+01, time = 5.70 | CG iter. 13 -- res = 0.16934E+04, tol = 0.59301E+01, time = 5.97 | CG iter. 14 -- res = 0.12715E+04, tol = 0.59301E+01, time = 5.36 | CG iter. 15 -- res = 0.10947E+04, tol = 0.59301E+01, time = 5.59 | CG iter. 16 -- res = 0.92570E+03, tol = 0.59301E+01, time = 5.66 | CG iter. 17 -- res = 0.71747E+03, tol = 0.59301E+01, time = 5.65 | CG iter. 18 -- res = 0.58382E+03, tol = 0.59301E+01, time = 5.64 | CG iter. 19 -- res = 0.50824E+03, tol = 0.59301E+01, time = 5.85 | CG iter. 20 -- res = 0.43026E+03, tol = 0.59301E+01, time = 5.43 | CG iter. 21 -- res = 0.33468E+03, tol = 0.59301E+01, time = 5.47 | CG iter. 22 -- res = 0.24972E+03, tol = 0.59301E+01, time = 5.65 | CG iter. 23 -- res = 0.21689E+03, tol = 0.59301E+01, time = 5.72 | CG iter. 24 -- res = 0.20618E+03, tol = 0.59301E+01, time = 5.59 | CG iter. 25 -- res = 0.18021E+03, tol = 0.59301E+01, time = 6.13 | CG iter. 26 -- res = 0.15081E+03, tol = 0.59301E+01, time = 6.78 | CG iter. 27 -- res = 0.12755E+03, tol = 0.59301E+01, time = 6.39 | CG iter. 28 -- res = 0.11670E+03, tol = 0.59301E+01, time = 5.81 | CG iter. 29 -- res = 0.10320E+03, tol = 0.59301E+01, time = 5.52 | CG iter. 30 -- res = 0.85726E+02, tol = 0.59301E+01, time = 5.66 | CG iter. 31 -- res = 0.71133E+02, tol = 0.59301E+01, time = 6.13 | CG iter. 32 -- res = 0.66335E+02, tol = 0.59301E+01, time = 5.51 | CG iter. 33 -- res = 0.62089E+02, tol = 0.59301E+01, time = 5.65 | CG iter. 34 -- res = 0.53093E+02, tol = 0.59301E+01, time = 5.41 | CG iter. 35 -- res = 0.43863E+02, tol = 0.59301E+01, time = 5.52 | CG iter. 36 -- res = 0.38541E+02, tol = 0.59301E+01, time = 5.80 | CG iter. 37 -- res = 0.35770E+02, tol = 0.59301E+01, time = 5.99 | CG iter. 38 -- res = 0.30450E+02, tol = 0.59301E+01, time = 5.30 | CG iter. 39 -- res = 0.25327E+02, tol = 0.59301E+01, time = 6.17 | CG iter. 40 -- res = 0.21492E+02, tol = 0.59301E+01, time = 5.44 | CG iter. 41 -- res = 0.20140E+02, tol = 0.59301E+01, time = 5.38 | CG iter. 42 -- res = 0.17160E+02, tol = 0.59301E+01, time = 5.60 | CG iter. 43 -- res = 0.14146E+02, tol = 0.59301E+01, time = 5.59 | CG iter. 44 -- res = 0.11627E+02, tol = 0.59301E+01, time = 5.52 | CG iter. 45 -- res = 0.10188E+02, tol = 0.59301E+01, time = 5.82 | CG iter. 46 -- res = 0.91311E+01, tol = 0.59301E+01, time = 5.35 | CG iter. 47 -- res = 0.78252E+01, tol = 0.59301E+01, time = 5.70 | CG iter. 48 -- res = 0.62323E+01, tol = 0.59301E+01, time = 5.77 | CG iter. 49 -- res = 0.52276E+01, tol = 0.59301E+01, time = 5.68 | CG iter. 50 -- res = 0.44635E+01, tol = 0.59301E+01, time = 5.85 | Final CG iter 51 -- res = 0.44635E+01, tol = 0.59301E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7159632.574 | Old band monopole 11581312.835 | Change to band monopole -4421680.261 | Change to component monopole 4421661.242 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.41 | CG iter. 1 -- res = 0.51729E+05, tol = 0.47627E+18, time = 1.65 | CG iter. 2 -- res = 0.34143E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.16238E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.11249E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.20589E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7159601.779 | (Sampled value in CG: 7147489.557 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485039 | New value = 1.493016 | poltype: 2 pol: 1 CPU time specind = 1.4403105E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518754 | New value = 1.446504 | poltype: 2 pol: 2 CPU time specind = 1.0182858E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.23993E+08, tol = 0.47553E+04, time = 6.34 | CG iter. 2 -- res = 0.52200E+07, tol = 0.47553E+04, time = 6.45 | CG iter. 3 -- res = 0.83722E+06, tol = 0.47553E+04, time = 6.43 | CG iter. 4 -- res = 0.35850E+06, tol = 0.47553E+04, time = 6.24 | CG iter. 5 -- res = 0.15770E+06, tol = 0.47553E+04, time = 7.09 | CG iter. 6 -- res = 0.82110E+05, tol = 0.47553E+04, time = 7.70 | CG iter. 7 -- res = 0.44490E+05, tol = 0.47553E+04, time = 6.98 | CG iter. 8 -- res = 0.21538E+05, tol = 0.47553E+04, time = 6.63 | CG iter. 9 -- res = 0.95025E+04, tol = 0.47553E+04, time = 6.57 | CG iter. 10 -- res = 0.38801E+04, tol = 0.47553E+04, time = 6.64 | CG iter. 11 -- res = 0.17508E+04, tol = 0.47553E+04, time = 6.47 | CG iter. 12 -- res = 0.89327E+03, tol = 0.47553E+04, time = 6.36 | CG iter. 13 -- res = 0.50523E+03, tol = 0.47553E+04, time = 6.77 | CG iter. 14 -- res = 0.28428E+03, tol = 0.47553E+04, time = 6.70 | CG iter. 15 -- res = 0.14677E+03, tol = 0.47553E+04, time = 6.13 | CG iter. 16 -- res = 0.68505E+02, tol = 0.47553E+04, time = 6.63 | CG iter. 17 -- res = 0.32126E+02, tol = 0.47553E+04, time = 6.54 | CG iter. 18 -- res = 0.15968E+02, tol = 0.47553E+04, time = 6.36 | CG iter. 19 -- res = 0.89047E+01, tol = 0.47553E+04, time = 6.46 | CG iter. 20 -- res = 0.51456E+01, tol = 0.47553E+04, time = 6.46 | CG iter. 21 -- res = 0.28156E+01, tol = 0.47553E+04, time = 6.11 | CG iter. 22 -- res = 0.14152E+01, tol = 0.47553E+04, time = 6.65 | CG iter. 23 -- res = 0.71101E+00, tol = 0.47553E+04, time = 7.15 | CG iter. 24 -- res = 0.37462E+00, tol = 0.47553E+04, time = 6.40 | CG iter. 25 -- res = 0.21022E+00, tol = 0.47553E+04, time = 6.48 | CG iter. 26 -- res = 0.12105E+00, tol = 0.47553E+04, time = 6.42 | CG iter. 27 -- res = 0.69818E-01, tol = 0.47553E+04, time = 6.95 | CG iter. 28 -- res = 0.37668E-01, tol = 0.47553E+04, time = 6.44 | CG iter. 29 -- res = 0.19489E-01, tol = 0.47553E+04, time = 6.55 | CG iter. 30 -- res = 0.10276E-01, tol = 0.47553E+04, time = 6.92 | CG iter. 31 -- res = 0.56574E-02, tol = 0.47553E+04, time = 6.27 | CG iter. 32 -- res = 0.32560E-02, tol = 0.47553E+04, time = 6.35 | CG iter. 33 -- res = 0.18168E-02, tol = 0.47553E+04, time = 6.56 | CG iter. 34 -- res = 0.95958E-03, tol = 0.47553E+04, time = 6.47 | CG iter. 35 -- res = 0.49716E-03, tol = 0.47553E+04, time = 6.52 | Final CG iter 36 -- res = 0.49716E-03, tol = 0.47553E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.694 2.747 | New value -5.411 | Old value -0.694 | Difference -4.717 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.11488E+07, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.24227E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.22272E+00, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.32867E-03, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.11375E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7159601.779 | (Sampled value in CG: 7147832.397 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.823277 | New value = -3.628927 | poltype: 1 pol: 1 CPU time specind = 9.5448494E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.38 | CG iter. 1 -- res = 0.20846E+07, tol = 0.22267E+01, time = 2.64 | CG iter. 2 -- res = 0.75932E+06, tol = 0.22267E+01, time = 2.60 | CG iter. 3 -- res = 0.13979E+06, tol = 0.22267E+01, time = 2.99 | CG iter. 4 -- res = 0.50554E+05, tol = 0.22267E+01, time = 2.73 | CG iter. 5 -- res = 0.29741E+05, tol = 0.22267E+01, time = 2.83 | CG iter. 6 -- res = 0.16889E+05, tol = 0.22267E+01, time = 3.86 | CG iter. 7 -- res = 0.68779E+04, tol = 0.22267E+01, time = 7.98 | CG iter. 8 -- res = 0.29546E+04, tol = 0.22267E+01, time = 2.91 | CG iter. 9 -- res = 0.12417E+04, tol = 0.22267E+01, time = 2.72 | CG iter. 10 -- res = 0.50046E+03, tol = 0.22267E+01, time = 2.76 | CG iter. 11 -- res = 0.21536E+03, tol = 0.22267E+01, time = 2.77 | CG iter. 12 -- res = 0.11112E+03, tol = 0.22267E+01, time = 2.72 | CG iter. 13 -- res = 0.56420E+02, tol = 0.22267E+01, time = 2.67 | CG iter. 14 -- res = 0.27997E+02, tol = 0.22267E+01, time = 2.92 | CG iter. 15 -- res = 0.12245E+02, tol = 0.22267E+01, time = 2.78 | CG iter. 16 -- res = 0.52497E+01, tol = 0.22267E+01, time = 2.93 | CG iter. 17 -- res = 0.21963E+01, tol = 0.22267E+01, time = 2.50 | CG iter. 18 -- res = 0.10629E+01, tol = 0.22267E+01, time = 2.64 | CG iter. 19 -- res = 0.52656E+00, tol = 0.22267E+01, time = 2.82 | CG iter. 20 -- res = 0.28166E+00, tol = 0.22267E+01, time = 2.76 | CG iter. 21 -- res = 0.13421E+00, tol = 0.22267E+01, time = 2.91 | CG iter. 22 -- res = 0.62597E-01, tol = 0.22267E+01, time = 2.95 | CG iter. 23 -- res = 0.26975E-01, tol = 0.22267E+01, time = 2.76 | CG iter. 24 -- res = 0.12236E-01, tol = 0.22267E+01, time = 2.54 | CG iter. 25 -- res = 0.64589E-02, tol = 0.22267E+01, time = 2.81 | CG iter. 26 -- res = 0.32566E-02, tol = 0.22267E+01, time = 2.61 | CG iter. 27 -- res = 0.15834E-02, tol = 0.22267E+01, time = 2.74 | CG iter. 28 -- res = 0.72969E-03, tol = 0.22267E+01, time = 2.62 | CG iter. 29 -- res = 0.32733E-03, tol = 0.22267E+01, time = 2.50 | CG iter. 30 -- res = 0.15647E-03, tol = 0.22267E+01, time = 2.88 | CG iter. 31 -- res = 0.78717E-04, tol = 0.22267E+01, time = 2.68 | CG iter. 32 -- res = 0.40253E-04, tol = 0.22267E+01, time = 2.74 | CG iter. 33 -- res = 0.19737E-04, tol = 0.22267E+01, time = 2.56 | CG iter. 34 -- res = 0.90303E-05, tol = 0.22267E+01, time = 2.59 | CG iter. 35 -- res = 0.41538E-05, tol = 0.22267E+01, time = 2.76 | CG iter. 36 -- res = 0.20274E-05, tol = 0.22267E+01, time = 2.87 | CG iter. 37 -- res = 0.98149E-06, tol = 0.22267E+01, time = 3.72 | CG iter. 38 -- res = 0.49879E-06, tol = 0.22267E+01, time = 3.89 | CG iter. 39 -- res = 0.23721E-06, tol = 0.22267E+01, time = 3.85 | CG iter. 40 -- res = 0.11470E-06, tol = 0.22267E+01, time = 2.97 | CG iter. 41 -- res = 0.53845E-07, tol = 0.22267E+01, time = 3.00 | CG iter. 42 -- res = 0.25765E-07, tol = 0.22267E+01, time = 2.92 | CG iter. 43 -- res = 0.12151E-07, tol = 0.22267E+01, time = 2.64 | CG iter. 44 -- res = 0.60539E-08, tol = 0.22267E+01, time = 2.80 | CG iter. 45 -- res = 0.30327E-08, tol = 0.22267E+01, time = 2.74 | CG iter. 46 -- res = 0.14571E-08, tol = 0.22267E+01, time = 2.66 | CG iter. 47 -- res = 0.67945E-09, tol = 0.22267E+01, time = 2.97 | CG iter. 48 -- res = 0.32211E-09, tol = 0.22267E+01, time = 2.87 | CG iter. 49 -- res = 0.15507E-09, tol = 0.22267E+01, time = 2.94 | CG iter. 50 -- res = 0.74030E-10, tol = 0.22267E+01, time = 2.68 | Final CG iter 51 -- res = 0.74030E-10, tol = 0.22267E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.728 4.505 | New value 0.538 | Old value -0.728 | Difference 1.265 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.18424E+04, tol = 0.47627E+18, time = 2.18 | CG iter. 2 -- res = 0.13104E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.11993E+00, tol = 0.47627E+18, time = 2.37 | CG iter. 4 -- res = 0.27183E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.15405E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7159601.779 | (Sampled value in CG: 7150961.991 ) | CPU time specind = 1194.827 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.51 | CG iter. 1 -- res = 0.68324E+08, tol = 0.57717E+04, time = 11.76 | CG iter. 2 -- res = 0.58256E+08, tol = 0.57717E+04, time = 11.71 | CG iter. 3 -- res = 0.15289E+08, tol = 0.57717E+04, time = 11.84 | CG iter. 4 -- res = 0.64639E+07, tol = 0.57717E+04, time = 12.10 | CG iter. 5 -- res = 0.37589E+07, tol = 0.57717E+04, time = 12.01 | CG iter. 6 -- res = 0.21893E+07, tol = 0.57717E+04, time = 12.39 | CG iter. 7 -- res = 0.12745E+07, tol = 0.57717E+04, time = 13.14 | CG iter. 8 -- res = 0.82846E+06, tol = 0.57717E+04, time = 17.17 | CG iter. 9 -- res = 0.53922E+06, tol = 0.57717E+04, time = 11.79 | CG iter. 10 -- res = 0.32361E+06, tol = 0.57717E+04, time = 11.77 | CG iter. 11 -- res = 0.16927E+06, tol = 0.57717E+04, time = 11.67 | CG iter. 12 -- res = 0.89702E+05, tol = 0.57717E+04, time = 11.90 | CG iter. 13 -- res = 0.49080E+05, tol = 0.57717E+04, time = 12.02 | CG iter. 14 -- res = 0.28587E+05, tol = 0.57717E+04, time = 11.60 | CG iter. 15 -- res = 0.18040E+05, tol = 0.57717E+04, time = 13.81 | CG iter. 16 -- res = 0.12331E+05, tol = 0.57717E+04, time = 11.63 | CG iter. 17 -- res = 0.88115E+04, tol = 0.57717E+04, time = 11.74 | CG iter. 18 -- res = 0.59868E+04, tol = 0.57717E+04, time = 11.76 | CG iter. 19 -- res = 0.38002E+04, tol = 0.57717E+04, time = 11.65 | CG iter. 20 -- res = 0.25340E+04, tol = 0.57717E+04, time = 11.92 | CG iter. 21 -- res = 0.17984E+04, tol = 0.57717E+04, time = 11.64 | CG iter. 22 -- res = 0.14196E+04, tol = 0.57717E+04, time = 11.63 | CG iter. 23 -- res = 0.13057E+04, tol = 0.57717E+04, time = 12.10 | CG iter. 24 -- res = 0.13538E+04, tol = 0.57717E+04, time = 11.79 | CG iter. 25 -- res = 0.14330E+04, tol = 0.57717E+04, time = 11.61 | CG iter. 26 -- res = 0.14627E+04, tol = 0.57717E+04, time = 11.87 | CG iter. 27 -- res = 0.14008E+04, tol = 0.57717E+04, time = 11.67 | CG iter. 28 -- res = 0.12996E+04, tol = 0.57717E+04, time = 11.45 | CG iter. 29 -- res = 0.12208E+04, tol = 0.57717E+04, time = 11.82 | CG iter. 30 -- res = 0.11607E+04, tol = 0.57717E+04, time = 11.61 | CG iter. 31 -- res = 0.10782E+04, tol = 0.57717E+04, time = 12.24 | CG iter. 32 -- res = 0.95908E+03, tol = 0.57717E+04, time = 17.96 | CG iter. 33 -- res = 0.79588E+03, tol = 0.57717E+04, time = 11.72 | CG iter. 34 -- res = 0.60086E+03, tol = 0.57717E+04, time = 11.34 | CG iter. 35 -- res = 0.44898E+03, tol = 0.57717E+04, time = 12.01 | CG iter. 36 -- res = 0.35657E+03, tol = 0.57717E+04, time = 11.86 | CG iter. 37 -- res = 0.31946E+03, tol = 0.57717E+04, time = 11.37 | CG iter. 38 -- res = 0.30105E+03, tol = 0.57717E+04, time = 11.66 | CG iter. 39 -- res = 0.28314E+03, tol = 0.57717E+04, time = 12.04 | CG iter. 40 -- res = 0.25899E+03, tol = 0.57717E+04, time = 13.41 | CG iter. 41 -- res = 0.23750E+03, tol = 0.57717E+04, time = 11.47 | CG iter. 42 -- res = 0.21511E+03, tol = 0.57717E+04, time = 12.01 | CG iter. 43 -- res = 0.19604E+03, tol = 0.57717E+04, time = 11.90 | CG iter. 44 -- res = 0.18650E+03, tol = 0.57717E+04, time = 11.89 | CG iter. 45 -- res = 0.17862E+03, tol = 0.57717E+04, time = 11.66 | CG iter. 46 -- res = 0.17082E+03, tol = 0.57717E+04, time = 11.97 | CG iter. 47 -- res = 0.15580E+03, tol = 0.57717E+04, time = 11.82 | CG iter. 48 -- res = 0.13450E+03, tol = 0.57717E+04, time = 12.04 | CG iter. 49 -- res = 0.11379E+03, tol = 0.57717E+04, time = 12.65 | CG iter. 50 -- res = 0.98361E+02, tol = 0.57717E+04, time = 11.27 | CG iter. 51 -- res = 0.90683E+02, tol = 0.57717E+04, time = 11.66 | CG iter. 52 -- res = 0.85584E+02, tol = 0.57717E+04, time = 11.95 | CG iter. 53 -- res = 0.79836E+02, tol = 0.57717E+04, time = 12.13 | CG iter. 54 -- res = 0.74064E+02, tol = 0.57717E+04, time = 11.69 | CG iter. 55 -- res = 0.67868E+02, tol = 0.57717E+04, time = 12.12 | CG iter. 56 -- res = 0.61982E+02, tol = 0.57717E+04, time = 11.97 | CG iter. 57 -- res = 0.56416E+02, tol = 0.57717E+04, time = 18.36 | CG iter. 58 -- res = 0.54554E+02, tol = 0.57717E+04, time = 11.72 | CG iter. 59 -- res = 0.54637E+02, tol = 0.57717E+04, time = 11.57 | CG iter. 60 -- res = 0.53835E+02, tol = 0.57717E+04, time = 11.59 | Final CG iter 61 -- res = 0.53835E+02, tol = 0.57717E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.948 ( -230.121 -2232.046 2514.810 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6183089.765 | Old band monopole 7159632.574 | Change to band monopole -976542.809 | Change to component monopole 976538.609 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.411 2.740 | New value -0.778 | Old value -5.411 | Difference 4.633 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.349 ( 8.391 14.077 -13.308 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.627 4.635 | New value -4.213 | Old value 3.627 | Difference -7.840 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.11084E+07, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.28749E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.52558E+00, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.44140E-03, tol = 0.47627E+18, time = 3.13 | Final CG iter 5 -- res = 0.15696E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6183063.170 | (Sampled value in CG: 6160294.222 ) | Chain = 1 -- chisq = 0.81557537E+09 | Chain = 1 -- wall time = 5624.158 sec Available RAM: MemAvailable: 389748860 kB Available Swap: SwapFree: 1118677088 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 264 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442986 | --> Sampling calibration, mode = relcal | relcal = 1.3420318E-02 7.5545820E-04 -1.6001628E-03 -1.2575614E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1060007 0.1241190 9407688.18783160 | BP delta = 0.1060007 0.1342525 9407751.41968308 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632453 | --> Sampling calibration, mode = relcal | relcal = -2.8211521E-03 -7.0485356E-04 1.6805385E-03 1.6121265E-03 -4.0805762E-04 6.4139819E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5350728 15220797.1942701 | BP delta = 0.0000000E+00 -0.5401217 15220797.3294518 | BP chisq diff = 0.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18599489310194 | --> Sampling calibration, mode = relcal | relcal = -7.6596379E-02 -5.9656352E-02 9.3668044E-02 4.2584687E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5738554E-05 6.8226755E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5674E-05 | 2: delta_r/delta_0: 1.9266E-06 | 3: delta_s/delta_0: 2.1175E-07 | 4: delta_r/delta_0: 3.4901E-08 | 5: delta_s/delta_0: 1.0564E-08 | 6: delta_r/delta_0: 3.7152E-09 | 7: delta_s/delta_0: 9.6802E-10 | 8: delta_r/delta_0: 2.5356E-10 | 9: delta_s/delta_0: 1.5063E-10 | 10: delta_r/delta_0: 7.1999E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.326930389783297E-003 2.729351498412845E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5673E-05 | 2: delta_r/delta_0: 1.9266E-06 | 3: delta_s/delta_0: 2.1175E-07 | 4: delta_r/delta_0: 3.4901E-08 | 5: delta_s/delta_0: 1.0564E-08 | 6: delta_r/delta_0: 3.7153E-09 | 7: delta_s/delta_0: 9.6801E-10 | 8: delta_r/delta_0: 2.5357E-10 | 9: delta_s/delta_0: 1.5064E-10 | 10: delta_r/delta_0: 7.2003E-11 | Reached bicg-stab tolerance | BP delta = 7.5032443E-02 9.4762906E-02 3491747.72914303 | BP delta = 7.5032443E-02 9.5039748E-02 3491237.85706652 | BP chisq diff = -509.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02613716 | --> Sampling calibration, mode = relcal | relcal = -0.1067140 -9.5559679E-02 0.1449956 5.7278182E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2394407E-03 1.6497927E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2477E-05 | 2: delta_r/delta_0: 1.5445E-06 | 3: delta_s/delta_0: 2.4084E-07 | 4: delta_r/delta_0: 5.3675E-08 | 5: delta_s/delta_0: 2.6219E-08 | 6: delta_r/delta_0: 7.9439E-09 | 7: delta_s/delta_0: 5.5534E-09 | 8: delta_r/delta_0: 2.0562E-09 | 9: delta_s/delta_0: 9.6107E-10 | 10: delta_r/delta_0: 7.1675E-10 | 11: delta_s/delta_0: 1.0721E-08 | 12: delta_r/delta_0: 2.0014E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.010191082890521E-002 2.810473420329179E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2476E-05 | 2: delta_r/delta_0: 1.5445E-06 | 3: delta_s/delta_0: 2.4082E-07 | 4: delta_r/delta_0: 5.3652E-08 | 5: delta_s/delta_0: 2.6227E-08 | 6: delta_r/delta_0: 7.9429E-09 | 7: delta_s/delta_0: 5.5547E-09 | 8: delta_r/delta_0: 2.0558E-09 | 9: delta_s/delta_0: 9.6082E-10 | 10: delta_r/delta_0: 7.1658E-10 | 11: delta_s/delta_0: 1.0695E-08 | 12: delta_r/delta_0: 2.0000E-11 | Reached bicg-stab tolerance | BP delta = -0.2841377 -0.2624182 2841534.47509769 | BP delta = -0.2841377 -0.2596871 2841553.72302121 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81237031 | --> Sampling calibration, mode = relcal | relcal = 0.2955869 0.2247911 -0.2838016 -0.2365765 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.0917478E-04 5.5389656E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9307E-04 | 2: delta_r/delta_0: 8.8719E-06 | 3: delta_s/delta_0: 5.3143E-05 | 4: delta_r/delta_0: 5.4727E-06 | 5: delta_s/delta_0: 2.7551E-07 | 6: delta_r/delta_0: 8.0731E-08 | 7: delta_s/delta_0: 5.7139E-08 | 8: delta_r/delta_0: 3.0191E-08 | 9: delta_s/delta_0: 9.3911E-08 | 10: delta_r/delta_0: 2.4680E-09 | 11: delta_s/delta_0: 7.6908E-10 | 12: delta_r/delta_0: 4.2627E-10 | 13: delta_s/delta_0: 2.1501E-08 | 14: delta_r/delta_0: 1.4719E-09 | 15: delta_s/delta_0: 2.9241E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.385003440798041E-002 4.020991247119904E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.9302E-04 | 2: delta_r/delta_0: 8.8707E-06 | 3: delta_s/delta_0: 5.3176E-05 | 4: delta_r/delta_0: 5.4758E-06 | 5: delta_s/delta_0: 2.7554E-07 | 6: delta_r/delta_0: 8.0736E-08 | 7: delta_s/delta_0: 5.7140E-08 | 8: delta_r/delta_0: 3.0184E-08 | 9: delta_s/delta_0: 9.3748E-08 | 10: delta_r/delta_0: 2.4685E-09 | 11: delta_s/delta_0: 7.6937E-10 | 12: delta_r/delta_0: 4.2636E-10 | 13: delta_s/delta_0: 2.1559E-08 | 14: delta_r/delta_0: 1.4759E-09 | 15: delta_s/delta_0: 2.9237E-11 | Reached bicg-stab tolerance | BP delta = -9.9836767E-02 -0.1074126 2827395.12036012 | BP delta = -9.9836767E-02 -0.1012463 2827435.80116529 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95940547 | --> Sampling calibration, mode = relcal | relcal = 0.1065509 0.1395686 -0.1102298 -0.1358897 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9264737E-03 1.4988197E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6126E-03 | 2: delta_r/delta_0: 3.9034E-05 | 3: delta_s/delta_0: 2.0429E-05 | 4: delta_r/delta_0: 1.7434E-06 | 5: delta_s/delta_0: 1.0109E-06 | 6: delta_r/delta_0: 2.8398E-07 | 7: delta_s/delta_0: 5.9641E-07 | 8: delta_r/delta_0: 5.2119E-08 | 9: delta_s/delta_0: 4.8682E-07 | 10: delta_r/delta_0: 2.2750E-07 | 11: delta_s/delta_0: 4.4039E-09 | 12: delta_r/delta_0: 2.2828E-09 | 13: delta_s/delta_0: 1.2049E-09 | 14: delta_r/delta_0: 5.2168E-10 | 15: delta_s/delta_0: 8.7992E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.812299225488294E-002 3.696260266102145E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6136E-03 | 2: delta_r/delta_0: 3.9057E-05 | 3: delta_s/delta_0: 2.0441E-05 | 4: delta_r/delta_0: 1.7444E-06 | 5: delta_s/delta_0: 1.0115E-06 | 6: delta_r/delta_0: 2.8406E-07 | 7: delta_s/delta_0: 5.9643E-07 | 8: delta_r/delta_0: 5.2142E-08 | 9: delta_s/delta_0: 4.9007E-07 | 10: delta_r/delta_0: 2.2881E-07 | 11: delta_s/delta_0: 4.4120E-09 | 12: delta_r/delta_0: 2.2854E-09 | 13: delta_s/delta_0: 1.2069E-09 | 14: delta_r/delta_0: 5.2051E-10 | 15: delta_s/delta_0: 8.7875E-11 | Reached bicg-stab tolerance | BP delta = 0.1424283 0.2561426 3004078.18974245 | BP delta = 0.1424283 0.2568085 3004192.52191532 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.254952 | New value = -3.218733 | poltype: 2 pol: 1 CPU time specind = 9.6848011E-03 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.236261 | New value = -3.198334 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184442 | New value = -3.117046 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105409 | New value = -3.197050 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167823 | New value = -3.178489 | poltype: 2 pol: 2 CPU time specind = 1.7235994E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.53 | CG iter. 1 -- res = 0.13548E+08, tol = 0.99062E+01, time = 5.63 | CG iter. 2 -- res = 0.33740E+06, tol = 0.99062E+01, time = 5.28 | CG iter. 3 -- res = 0.51430E+05, tol = 0.99062E+01, time = 5.68 | CG iter. 4 -- res = 0.28492E+05, tol = 0.99062E+01, time = 5.49 | CG iter. 5 -- res = 0.20095E+05, tol = 0.99062E+01, time = 5.40 | CG iter. 6 -- res = 0.17541E+05, tol = 0.99062E+01, time = 5.52 | CG iter. 7 -- res = 0.18501E+05, tol = 0.99062E+01, time = 5.76 | CG iter. 8 -- res = 0.18209E+05, tol = 0.99062E+01, time = 5.46 | CG iter. 9 -- res = 0.17781E+05, tol = 0.99062E+01, time = 5.82 | CG iter. 10 -- res = 0.17007E+05, tol = 0.99062E+01, time = 5.63 | CG iter. 11 -- res = 0.12798E+05, tol = 0.99062E+01, time = 5.80 | CG iter. 12 -- res = 0.79893E+04, tol = 0.99062E+01, time = 5.65 | CG iter. 13 -- res = 0.56236E+04, tol = 0.99062E+01, time = 6.39 | CG iter. 14 -- res = 0.47971E+04, tol = 0.99062E+01, time = 6.71 | CG iter. 15 -- res = 0.45419E+04, tol = 0.99062E+01, time = 6.14 | CG iter. 16 -- res = 0.38378E+04, tol = 0.99062E+01, time = 5.71 | CG iter. 17 -- res = 0.30093E+04, tol = 0.99062E+01, time = 5.39 | CG iter. 18 -- res = 0.24349E+04, tol = 0.99062E+01, time = 5.59 | CG iter. 19 -- res = 0.21479E+04, tol = 0.99062E+01, time = 5.42 | CG iter. 20 -- res = 0.17906E+04, tol = 0.99062E+01, time = 5.88 | CG iter. 21 -- res = 0.13728E+04, tol = 0.99062E+01, time = 5.79 | CG iter. 22 -- res = 0.11448E+04, tol = 0.99062E+01, time = 6.31 | CG iter. 23 -- res = 0.10322E+04, tol = 0.99062E+01, time = 5.72 | CG iter. 24 -- res = 0.96013E+03, tol = 0.99062E+01, time = 5.82 | CG iter. 25 -- res = 0.79891E+03, tol = 0.99062E+01, time = 5.52 | CG iter. 26 -- res = 0.65580E+03, tol = 0.99062E+01, time = 5.78 | CG iter. 27 -- res = 0.59953E+03, tol = 0.99062E+01, time = 5.37 | CG iter. 28 -- res = 0.58071E+03, tol = 0.99062E+01, time = 5.68 | CG iter. 29 -- res = 0.50966E+03, tol = 0.99062E+01, time = 5.52 | CG iter. 30 -- res = 0.42479E+03, tol = 0.99062E+01, time = 5.16 | CG iter. 31 -- res = 0.37846E+03, tol = 0.99062E+01, time = 6.05 | CG iter. 32 -- res = 0.34829E+03, tol = 0.99062E+01, time = 5.55 | CG iter. 33 -- res = 0.31230E+03, tol = 0.99062E+01, time = 5.86 | CG iter. 34 -- res = 0.24633E+03, tol = 0.99062E+01, time = 5.93 | CG iter. 35 -- res = 0.20292E+03, tol = 0.99062E+01, time = 5.83 | CG iter. 36 -- res = 0.18639E+03, tol = 0.99062E+01, time = 5.62 | CG iter. 37 -- res = 0.16296E+03, tol = 0.99062E+01, time = 5.39 | CG iter. 38 -- res = 0.13050E+03, tol = 0.99062E+01, time = 5.83 | CG iter. 39 -- res = 0.10009E+03, tol = 0.99062E+01, time = 5.23 | CG iter. 40 -- res = 0.83594E+02, tol = 0.99062E+01, time = 5.73 | CG iter. 41 -- res = 0.70514E+02, tol = 0.99062E+01, time = 5.67 | CG iter. 42 -- res = 0.55087E+02, tol = 0.99062E+01, time = 5.48 | CG iter. 43 -- res = 0.42133E+02, tol = 0.99062E+01, time = 5.39 | CG iter. 44 -- res = 0.33607E+02, tol = 0.99062E+01, time = 5.54 | CG iter. 45 -- res = 0.27659E+02, tol = 0.99062E+01, time = 5.44 | CG iter. 46 -- res = 0.22756E+02, tol = 0.99062E+01, time = 5.16 | CG iter. 47 -- res = 0.17524E+02, tol = 0.99062E+01, time = 5.45 | CG iter. 48 -- res = 0.13640E+02, tol = 0.99062E+01, time = 5.91 | CG iter. 49 -- res = 0.11570E+02, tol = 0.99062E+01, time = 5.60 | CG iter. 50 -- res = 0.96529E+01, tol = 0.99062E+01, time = 12.27 | Final CG iter 51 -- res = 0.96529E+01, tol = 0.99062E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9616033.202 | Old band monopole 6183089.765 | Change to band monopole 3432943.437 | Change to component monopole -3432928.672 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.45 | CG iter. 1 -- res = 0.13200E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.15585E+02, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.44826E+00, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.90581E-03, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.87529E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9615991.842 | (Sampled value in CG: 9634446.373 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493016 | New value = 1.498413 | poltype: 2 pol: 1 CPU time specind = 2.1747112E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.446504 | New value = 1.482992 | poltype: 2 pol: 2 CPU time specind = 2.1761179E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.48 | CG iter. 1 -- res = 0.24022E+08, tol = 0.47560E+04, time = 6.48 | CG iter. 2 -- res = 0.52420E+07, tol = 0.47560E+04, time = 6.20 | CG iter. 3 -- res = 0.84991E+06, tol = 0.47560E+04, time = 6.49 | CG iter. 4 -- res = 0.35223E+06, tol = 0.47560E+04, time = 6.17 | CG iter. 5 -- res = 0.15063E+06, tol = 0.47560E+04, time = 6.31 | CG iter. 6 -- res = 0.79167E+05, tol = 0.47560E+04, time = 6.55 | CG iter. 7 -- res = 0.42242E+05, tol = 0.47560E+04, time = 6.24 | CG iter. 8 -- res = 0.20131E+05, tol = 0.47560E+04, time = 6.53 | CG iter. 9 -- res = 0.89663E+04, tol = 0.47560E+04, time = 6.35 | CG iter. 10 -- res = 0.37545E+04, tol = 0.47560E+04, time = 6.26 | CG iter. 11 -- res = 0.16741E+04, tol = 0.47560E+04, time = 6.57 | CG iter. 12 -- res = 0.84651E+03, tol = 0.47560E+04, time = 6.56 | CG iter. 13 -- res = 0.47218E+03, tol = 0.47560E+04, time = 7.07 | CG iter. 14 -- res = 0.26493E+03, tol = 0.47560E+04, time = 6.71 | CG iter. 15 -- res = 0.14049E+03, tol = 0.47560E+04, time = 6.54 | CG iter. 16 -- res = 0.66765E+02, tol = 0.47560E+04, time = 6.45 | CG iter. 17 -- res = 0.31418E+02, tol = 0.47560E+04, time = 6.53 | CG iter. 18 -- res = 0.15689E+02, tol = 0.47560E+04, time = 6.30 | CG iter. 19 -- res = 0.84287E+01, tol = 0.47560E+04, time = 5.97 | CG iter. 20 -- res = 0.47073E+01, tol = 0.47560E+04, time = 6.32 | CG iter. 21 -- res = 0.25582E+01, tol = 0.47560E+04, time = 6.50 | CG iter. 22 -- res = 0.13226E+01, tol = 0.47560E+04, time = 6.39 | CG iter. 23 -- res = 0.65911E+00, tol = 0.47560E+04, time = 6.30 | CG iter. 24 -- res = 0.35195E+00, tol = 0.47560E+04, time = 6.71 | CG iter. 25 -- res = 0.19914E+00, tol = 0.47560E+04, time = 6.42 | CG iter. 26 -- res = 0.11354E+00, tol = 0.47560E+04, time = 6.41 | CG iter. 27 -- res = 0.64075E-01, tol = 0.47560E+04, time = 6.33 | CG iter. 28 -- res = 0.33991E-01, tol = 0.47560E+04, time = 13.02 | CG iter. 29 -- res = 0.17301E-01, tol = 0.47560E+04, time = 6.58 | CG iter. 30 -- res = 0.91866E-02, tol = 0.47560E+04, time = 5.96 | CG iter. 31 -- res = 0.51092E-02, tol = 0.47560E+04, time = 6.38 | CG iter. 32 -- res = 0.29518E-02, tol = 0.47560E+04, time = 6.79 | CG iter. 33 -- res = 0.16611E-02, tol = 0.47560E+04, time = 6.54 | CG iter. 34 -- res = 0.89694E-03, tol = 0.47560E+04, time = 6.56 | CG iter. 35 -- res = 0.45797E-03, tol = 0.47560E+04, time = 6.21 | Final CG iter 36 -- res = 0.45797E-03, tol = 0.47560E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.761 2.736 | New value 4.745 | Old value -0.761 | Difference 5.506 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.53 | CG iter. 1 -- res = 0.15681E+07, tol = 0.47627E+18, time = 2.36 | CG iter. 2 -- res = 0.19632E+02, tol = 0.47627E+18, time = 2.96 | CG iter. 3 -- res = 0.34896E+00, tol = 0.47627E+18, time = 2.40 | CG iter. 4 -- res = 0.21278E-03, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.23989E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9615991.842 | (Sampled value in CG: 9634586.894 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.628927 | New value = -3.623574 | poltype: 1 pol: 1 CPU time specind = 9.0808868E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.45 | CG iter. 1 -- res = 0.23395E+07, tol = 0.26722E+01, time = 2.86 | CG iter. 2 -- res = 0.72524E+06, tol = 0.26722E+01, time = 2.60 | CG iter. 3 -- res = 0.14955E+06, tol = 0.26722E+01, time = 2.81 | CG iter. 4 -- res = 0.68675E+05, tol = 0.26722E+01, time = 2.86 | CG iter. 5 -- res = 0.41190E+05, tol = 0.26722E+01, time = 2.51 | CG iter. 6 -- res = 0.19391E+05, tol = 0.26722E+01, time = 2.96 | CG iter. 7 -- res = 0.74101E+04, tol = 0.26722E+01, time = 2.75 | CG iter. 8 -- res = 0.33381E+04, tol = 0.26722E+01, time = 2.66 | CG iter. 9 -- res = 0.14196E+04, tol = 0.26722E+01, time = 2.58 | CG iter. 10 -- res = 0.56588E+03, tol = 0.26722E+01, time = 2.49 | CG iter. 11 -- res = 0.24558E+03, tol = 0.26722E+01, time = 2.50 | CG iter. 12 -- res = 0.12022E+03, tol = 0.26722E+01, time = 2.67 | CG iter. 13 -- res = 0.62850E+02, tol = 0.26722E+01, time = 3.03 | CG iter. 14 -- res = 0.31654E+02, tol = 0.26722E+01, time = 2.52 | CG iter. 15 -- res = 0.14194E+02, tol = 0.26722E+01, time = 2.67 | CG iter. 16 -- res = 0.60610E+01, tol = 0.26722E+01, time = 2.47 | CG iter. 17 -- res = 0.25363E+01, tol = 0.26722E+01, time = 2.63 | CG iter. 18 -- res = 0.11769E+01, tol = 0.26722E+01, time = 4.03 | CG iter. 19 -- res = 0.58842E+00, tol = 0.26722E+01, time = 3.04 | CG iter. 20 -- res = 0.29808E+00, tol = 0.26722E+01, time = 2.90 | CG iter. 21 -- res = 0.15119E+00, tol = 0.26722E+01, time = 3.23 | CG iter. 22 -- res = 0.66775E-01, tol = 0.26722E+01, time = 2.57 | CG iter. 23 -- res = 0.29685E-01, tol = 0.26722E+01, time = 2.95 | CG iter. 24 -- res = 0.13395E-01, tol = 0.26722E+01, time = 2.79 | CG iter. 25 -- res = 0.67132E-02, tol = 0.26722E+01, time = 2.98 | CG iter. 26 -- res = 0.34278E-02, tol = 0.26722E+01, time = 2.69 | CG iter. 27 -- res = 0.17507E-02, tol = 0.26722E+01, time = 2.53 | CG iter. 28 -- res = 0.84075E-03, tol = 0.26722E+01, time = 2.77 | CG iter. 29 -- res = 0.37674E-03, tol = 0.26722E+01, time = 2.75 | CG iter. 30 -- res = 0.17694E-03, tol = 0.26722E+01, time = 2.54 | CG iter. 31 -- res = 0.87220E-04, tol = 0.26722E+01, time = 2.76 | CG iter. 32 -- res = 0.45500E-04, tol = 0.26722E+01, time = 2.92 | CG iter. 33 -- res = 0.21986E-04, tol = 0.26722E+01, time = 2.53 | CG iter. 34 -- res = 0.10284E-04, tol = 0.26722E+01, time = 2.49 | CG iter. 35 -- res = 0.48179E-05, tol = 0.26722E+01, time = 2.63 | CG iter. 36 -- res = 0.22600E-05, tol = 0.26722E+01, time = 2.77 | CG iter. 37 -- res = 0.10621E-05, tol = 0.26722E+01, time = 2.85 | CG iter. 38 -- res = 0.54241E-06, tol = 0.26722E+01, time = 2.67 | CG iter. 39 -- res = 0.26935E-06, tol = 0.26722E+01, time = 2.41 | CG iter. 40 -- res = 0.12257E-06, tol = 0.26722E+01, time = 2.48 | CG iter. 41 -- res = 0.56037E-07, tol = 0.26722E+01, time = 2.73 | CG iter. 42 -- res = 0.26595E-07, tol = 0.26722E+01, time = 2.73 | CG iter. 43 -- res = 0.13080E-07, tol = 0.26722E+01, time = 2.84 | CG iter. 44 -- res = 0.62889E-08, tol = 0.26722E+01, time = 2.94 | CG iter. 45 -- res = 0.30229E-08, tol = 0.26722E+01, time = 2.68 | CG iter. 46 -- res = 0.14397E-08, tol = 0.26722E+01, time = 2.64 | CG iter. 47 -- res = 0.69302E-09, tol = 0.26722E+01, time = 2.75 | CG iter. 48 -- res = 0.31767E-09, tol = 0.26722E+01, time = 3.03 | CG iter. 49 -- res = 0.14591E-09, tol = 0.26722E+01, time = 2.82 | CG iter. 50 -- res = 0.71711E-10, tol = 0.26722E+01, time = 2.72 | Final CG iter 51 -- res = 0.71711E-10, tol = 0.26722E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.491 4.802 | New value 2.829 | Old value -3.491 | Difference 6.319 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.51 | CG iter. 1 -- res = 0.39191E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.22951E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.78205E+00, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.10268E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.19921E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9615991.842 | (Sampled value in CG: 9630071.857 ) | CPU time specind = 1169.031 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.51 | CG iter. 1 -- res = 0.68350E+08, tol = 0.57812E+04, time = 11.48 | CG iter. 2 -- res = 0.58364E+08, tol = 0.57812E+04, time = 11.55 | CG iter. 3 -- res = 0.15378E+08, tol = 0.57812E+04, time = 17.92 | CG iter. 4 -- res = 0.64203E+07, tol = 0.57812E+04, time = 11.60 | CG iter. 5 -- res = 0.36963E+07, tol = 0.57812E+04, time = 11.55 | CG iter. 6 -- res = 0.21111E+07, tol = 0.57812E+04, time = 11.75 | CG iter. 7 -- res = 0.12803E+07, tol = 0.57812E+04, time = 11.75 | CG iter. 8 -- res = 0.86081E+06, tol = 0.57812E+04, time = 11.53 | CG iter. 9 -- res = 0.56260E+06, tol = 0.57812E+04, time = 11.46 | CG iter. 10 -- res = 0.33343E+06, tol = 0.57812E+04, time = 12.21 | CG iter. 11 -- res = 0.17755E+06, tol = 0.57812E+04, time = 13.20 | CG iter. 12 -- res = 0.95748E+05, tol = 0.57812E+04, time = 11.22 | CG iter. 13 -- res = 0.54693E+05, tol = 0.57812E+04, time = 11.80 | CG iter. 14 -- res = 0.33888E+05, tol = 0.57812E+04, time = 11.86 | CG iter. 15 -- res = 0.23891E+05, tol = 0.57812E+04, time = 11.54 | CG iter. 16 -- res = 0.18953E+05, tol = 0.57812E+04, time = 11.62 | CG iter. 17 -- res = 0.15652E+05, tol = 0.57812E+04, time = 11.68 | CG iter. 18 -- res = 0.13079E+05, tol = 0.57812E+04, time = 11.73 | CG iter. 19 -- res = 0.10669E+05, tol = 0.57812E+04, time = 11.73 | CG iter. 20 -- res = 0.93092E+04, tol = 0.57812E+04, time = 11.80 | CG iter. 21 -- res = 0.88461E+04, tol = 0.57812E+04, time = 11.77 | CG iter. 22 -- res = 0.93457E+04, tol = 0.57812E+04, time = 11.91 | CG iter. 23 -- res = 0.10445E+05, tol = 0.57812E+04, time = 11.83 | CG iter. 24 -- res = 0.11434E+05, tol = 0.57812E+04, time = 11.80 | CG iter. 25 -- res = 0.11095E+05, tol = 0.57812E+04, time = 11.98 | CG iter. 26 -- res = 0.92309E+04, tol = 0.57812E+04, time = 11.92 | CG iter. 27 -- res = 0.72675E+04, tol = 0.57812E+04, time = 11.86 | CG iter. 28 -- res = 0.56374E+04, tol = 0.57812E+04, time = 19.43 | CG iter. 29 -- res = 0.45580E+04, tol = 0.57812E+04, time = 12.10 | CG iter. 30 -- res = 0.38136E+04, tol = 0.57812E+04, time = 11.85 | CG iter. 31 -- res = 0.31511E+04, tol = 0.57812E+04, time = 11.70 | CG iter. 32 -- res = 0.26002E+04, tol = 0.57812E+04, time = 11.79 | CG iter. 33 -- res = 0.21120E+04, tol = 0.57812E+04, time = 11.93 | CG iter. 34 -- res = 0.17122E+04, tol = 0.57812E+04, time = 11.90 | CG iter. 35 -- res = 0.14354E+04, tol = 0.57812E+04, time = 13.03 | CG iter. 36 -- res = 0.13020E+04, tol = 0.57812E+04, time = 12.24 | CG iter. 37 -- res = 0.12750E+04, tol = 0.57812E+04, time = 11.51 | CG iter. 38 -- res = 0.12360E+04, tol = 0.57812E+04, time = 11.82 | CG iter. 39 -- res = 0.11886E+04, tol = 0.57812E+04, time = 11.82 | CG iter. 40 -- res = 0.10507E+04, tol = 0.57812E+04, time = 11.60 | CG iter. 41 -- res = 0.88707E+03, tol = 0.57812E+04, time = 11.71 | CG iter. 42 -- res = 0.72394E+03, tol = 0.57812E+04, time = 12.27 | CG iter. 43 -- res = 0.59969E+03, tol = 0.57812E+04, time = 11.55 | CG iter. 44 -- res = 0.51963E+03, tol = 0.57812E+04, time = 12.24 | CG iter. 45 -- res = 0.46413E+03, tol = 0.57812E+04, time = 11.70 | CG iter. 46 -- res = 0.40658E+03, tol = 0.57812E+04, time = 11.79 | CG iter. 47 -- res = 0.34680E+03, tol = 0.57812E+04, time = 12.03 | CG iter. 48 -- res = 0.28762E+03, tol = 0.57812E+04, time = 11.42 | CG iter. 49 -- res = 0.24507E+03, tol = 0.57812E+04, time = 11.26 | CG iter. 50 -- res = 0.21311E+03, tol = 0.57812E+04, time = 11.80 | CG iter. 51 -- res = 0.20013E+03, tol = 0.57812E+04, time = 11.59 | CG iter. 52 -- res = 0.19483E+03, tol = 0.57812E+04, time = 11.46 | CG iter. 53 -- res = 0.18675E+03, tol = 0.57812E+04, time = 17.63 | CG iter. 54 -- res = 0.17086E+03, tol = 0.57812E+04, time = 11.46 | CG iter. 55 -- res = 0.15411E+03, tol = 0.57812E+04, time = 11.69 | CG iter. 56 -- res = 0.14005E+03, tol = 0.57812E+04, time = 11.60 | CG iter. 57 -- res = 0.12631E+03, tol = 0.57812E+04, time = 11.49 | CG iter. 58 -- res = 0.11583E+03, tol = 0.57812E+04, time = 11.86 | CG iter. 59 -- res = 0.10727E+03, tol = 0.57812E+04, time = 11.72 | CG iter. 60 -- res = 0.99291E+02, tol = 0.57812E+04, time = 12.87 | Final CG iter 61 -- res = 0.99291E+02, tol = 0.57812E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.728 ( -229.662 -2229.423 2511.686 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9243781.654 | Old band monopole 9616033.202 | Change to band monopole -372251.548 | Change to component monopole 372249.947 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.792 2.734 | New value 1.151 | Old value 4.792 | Difference -3.641 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.104 ( 7.323 8.262 -6.866 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.374 6.145 | New value -3.086 | Old value 3.374 | Difference -6.460 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.50 | CG iter. 1 -- res = 0.68888E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.20792E+02, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.41087E+00, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.46061E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.17835E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9243741.895 | (Sampled value in CG: 9224858.537 ) | Chain = 1 -- chisq = 0.81565571E+09 | Chain = 1 -- wall time = 6047.478 sec Available RAM: MemAvailable: 389422116 kB Available Swap: SwapFree: 1119812704 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 265 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446946 | --> Sampling calibration, mode = relcal | relcal = 1.3424885E-02 7.4318191E-04 -1.5996826E-03 -1.2568384E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1060007 0.1241190 97048045.1766766 | BP delta = 9.0258189E-02 0.1083765 97048068.0700161 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632219 | --> Sampling calibration, mode = relcal | relcal = -2.8207914E-03 -7.0306601E-04 1.6779050E-03 1.6133551E-03 -4.0804045E-04 6.4063794E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5401217 15219120.8274542 | BP delta = 0.0000000E+00 -0.5405097 15219118.5280663 | BP chisq diff = -2.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18208883641224 | --> Sampling calibration, mode = relcal | relcal = -7.3951483E-02 -5.8056436E-02 9.0999007E-02 4.1008912E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8771683E-04 3.6083651E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0308E-03 | 2: delta_r/delta_0: 8.7031E-05 | 3: delta_s/delta_0: 1.9493E-07 | 4: delta_r/delta_0: 2.2202E-08 | 5: delta_s/delta_0: 8.2140E-09 | 6: delta_r/delta_0: 1.6355E-09 | 7: delta_s/delta_0: 8.8359E-09 | 8: delta_r/delta_0: 1.2520E-10 | 9: delta_s/delta_0: 7.9143E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.067909767597286E-003 2.738706253773654E-005 | BP delta = 7.5032443E-02 9.5039748E-02 50487201.8550939 | BP delta = 7.5352699E-02 9.5360011E-02 50487202.1186051 | BP chisq diff = 0.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02579362 | --> Sampling calibration, mode = relcal | relcal = -0.1065758 -9.5548548E-02 0.1448396 5.7284776E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9593355E-03 1.7903590E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3701E-05 | 2: delta_r/delta_0: 1.2446E-06 | 3: delta_s/delta_0: 2.4036E-07 | 4: delta_r/delta_0: 5.4973E-08 | 5: delta_s/delta_0: 1.4943E-08 | 6: delta_r/delta_0: 7.3257E-09 | 7: delta_s/delta_0: 1.5415E-08 | 8: delta_r/delta_0: 1.2823E-09 | 9: delta_s/delta_0: 9.0229E-10 | 10: delta_r/delta_0: 3.8052E-10 | 11: delta_s/delta_0: 4.5016E-09 | 12: delta_r/delta_0: 3.9872E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.801170908236248E-003 2.811411601256172E-005 | BP delta = -0.2841377 -0.2624182 57390183.4817306 | BP delta = -0.2873394 -0.2656199 57390183.4803087 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81200182 | --> Sampling calibration, mode = relcal | relcal = 0.2952837 0.2248430 -0.2836491 -0.2364777 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0498952E-04 5.0239251E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3494E-02 | 2: delta_r/delta_0: 5.5208E-04 | 3: delta_s/delta_0: 1.5897E-05 | 4: delta_r/delta_0: 1.4002E-06 | 5: delta_s/delta_0: 3.0392E-05 | 6: delta_r/delta_0: 1.5575E-06 | 7: delta_s/delta_0: 1.3486E-07 | 8: delta_r/delta_0: 4.6337E-08 | 9: delta_s/delta_0: 5.6801E-08 | 10: delta_r/delta_0: 1.9117E-08 | 11: delta_s/delta_0: 4.3572E-09 | 12: delta_r/delta_0: 1.7164E-09 | 13: delta_s/delta_0: 6.9381E-10 | 14: delta_r/delta_0: 4.8287E-10 | 15: delta_s/delta_0: 5.5857E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.586395612680144E-002 4.022784988058657E-005 | BP delta = -9.9836767E-02 -0.1074126 72488099.0376679 | BP delta = -0.1101605 -0.1177363 72488098.7410149 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95872134 | --> Sampling calibration, mode = relcal | relcal = 0.1064185 0.1395039 -0.1102046 -0.1357178 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0513113E-02 1.2442918E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2133E-03 | 2: delta_r/delta_0: 2.9336E-05 | 3: delta_s/delta_0: 3.4972E-05 | 4: delta_r/delta_0: 2.1428E-06 | 5: delta_s/delta_0: 4.5042E-07 | 6: delta_r/delta_0: 1.8173E-07 | 7: delta_s/delta_0: 3.1776E-07 | 8: delta_r/delta_0: 4.5651E-08 | 9: delta_s/delta_0: 2.9045E-08 | 10: delta_r/delta_0: 3.6446E-09 | 11: delta_s/delta_0: 2.6825E-09 | 12: delta_r/delta_0: 1.1312E-09 | 13: delta_s/delta_0: 2.9867E-09 | 14: delta_r/delta_0: 3.5757E-10 | 15: delta_s/delta_0: 7.5531E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.586829033420226E-002 3.698903787282233E-005 | BP delta = 0.1424283 0.2561426 72783800.9965613 | BP delta = 9.7702846E-02 0.2114172 72783801.4732843 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218733 | New value = -3.134745 | poltype: 2 pol: 1 CPU time specind = 2.3064852E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.198334 | New value = -3.145070 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117046 | New value = -3.130575 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197050 | New value = -3.201181 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178489 | New value = -3.140401 | poltype: 2 pol: 2 CPU time specind = 4.0140152E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.68 | CG iter. 1 -- res = 0.13629E+08, tol = 0.76082E+01, time = 5.81 | CG iter. 2 -- res = 0.34439E+06, tol = 0.76082E+01, time = 5.52 | CG iter. 3 -- res = 0.74968E+05, tol = 0.76082E+01, time = 5.80 | CG iter. 4 -- res = 0.67858E+05, tol = 0.76082E+01, time = 5.96 | CG iter. 5 -- res = 0.66088E+05, tol = 0.76082E+01, time = 5.62 | CG iter. 6 -- res = 0.63196E+05, tol = 0.76082E+01, time = 5.71 | CG iter. 7 -- res = 0.57081E+05, tol = 0.76082E+01, time = 5.46 | CG iter. 8 -- res = 0.43877E+05, tol = 0.76082E+01, time = 5.85 | CG iter. 9 -- res = 0.34044E+05, tol = 0.76082E+01, time = 5.71 | CG iter. 10 -- res = 0.28482E+05, tol = 0.76082E+01, time = 5.44 | CG iter. 11 -- res = 0.20382E+05, tol = 0.76082E+01, time = 5.76 | CG iter. 12 -- res = 0.14278E+05, tol = 0.76082E+01, time = 5.74 | CG iter. 13 -- res = 0.11878E+05, tol = 0.76082E+01, time = 5.55 | CG iter. 14 -- res = 0.10148E+05, tol = 0.76082E+01, time = 5.64 | CG iter. 15 -- res = 0.82625E+04, tol = 0.76082E+01, time = 5.40 | CG iter. 16 -- res = 0.58723E+04, tol = 0.76082E+01, time = 5.90 | CG iter. 17 -- res = 0.40039E+04, tol = 0.76082E+01, time = 5.58 | CG iter. 18 -- res = 0.32194E+04, tol = 0.76082E+01, time = 11.85 | CG iter. 19 -- res = 0.26813E+04, tol = 0.76082E+01, time = 5.66 | CG iter. 20 -- res = 0.21184E+04, tol = 0.76082E+01, time = 5.94 | CG iter. 21 -- res = 0.15096E+04, tol = 0.76082E+01, time = 5.52 | CG iter. 22 -- res = 0.12460E+04, tol = 0.76082E+01, time = 5.31 | CG iter. 23 -- res = 0.10832E+04, tol = 0.76082E+01, time = 5.60 | CG iter. 24 -- res = 0.86436E+03, tol = 0.76082E+01, time = 5.47 | CG iter. 25 -- res = 0.61902E+03, tol = 0.76082E+01, time = 5.69 | CG iter. 26 -- res = 0.48687E+03, tol = 0.76082E+01, time = 5.64 | CG iter. 27 -- res = 0.42781E+03, tol = 0.76082E+01, time = 5.57 | CG iter. 28 -- res = 0.36646E+03, tol = 0.76082E+01, time = 5.91 | CG iter. 29 -- res = 0.27799E+03, tol = 0.76082E+01, time = 5.39 | CG iter. 30 -- res = 0.21539E+03, tol = 0.76082E+01, time = 5.50 | CG iter. 31 -- res = 0.18610E+03, tol = 0.76082E+01, time = 5.80 | CG iter. 32 -- res = 0.16430E+03, tol = 0.76082E+01, time = 5.51 | CG iter. 33 -- res = 0.12656E+03, tol = 0.76082E+01, time = 7.07 | CG iter. 34 -- res = 0.99109E+02, tol = 0.76082E+01, time = 6.80 | CG iter. 35 -- res = 0.81434E+02, tol = 0.76082E+01, time = 6.12 | CG iter. 36 -- res = 0.71771E+02, tol = 0.76082E+01, time = 5.97 | CG iter. 37 -- res = 0.59573E+02, tol = 0.76082E+01, time = 5.49 | CG iter. 38 -- res = 0.45363E+02, tol = 0.76082E+01, time = 5.46 | CG iter. 39 -- res = 0.36942E+02, tol = 0.76082E+01, time = 5.75 | CG iter. 40 -- res = 0.32860E+02, tol = 0.76082E+01, time = 5.33 | CG iter. 41 -- res = 0.27458E+02, tol = 0.76082E+01, time = 5.26 | CG iter. 42 -- res = 0.21020E+02, tol = 0.76082E+01, time = 5.64 | CG iter. 43 -- res = 0.16902E+02, tol = 0.76082E+01, time = 5.27 | CG iter. 44 -- res = 0.13946E+02, tol = 0.76082E+01, time = 5.46 | CG iter. 45 -- res = 0.11526E+02, tol = 0.76082E+01, time = 5.76 | CG iter. 46 -- res = 0.89867E+01, tol = 0.76082E+01, time = 5.48 | CG iter. 47 -- res = 0.69089E+01, tol = 0.76082E+01, time = 5.65 | CG iter. 48 -- res = 0.56097E+01, tol = 0.76082E+01, time = 5.72 | CG iter. 49 -- res = 0.46938E+01, tol = 0.76082E+01, time = 5.86 | CG iter. 50 -- res = 0.38132E+01, tol = 0.76082E+01, time = 5.82 | Final CG iter 51 -- res = 0.38132E+01, tol = 0.76082E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7627014.408 | Old band monopole 9243781.654 | Change to band monopole -1616767.246 | Change to component monopole 1616760.292 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.58733E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.23276E+03, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.42355E+01, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.29509E-01, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.85390E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7626981.603 | (Sampled value in CG: 7700359.684 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498413 | New value = 1.488465 | poltype: 2 pol: 1 CPU time specind = 2.4400949E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.482992 | New value = 1.533850 | poltype: 2 pol: 2 CPU time specind = 2.2969007E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.52 | CG iter. 1 -- res = 0.24046E+08, tol = 0.47559E+04, time = 6.14 | CG iter. 2 -- res = 0.53930E+07, tol = 0.47559E+04, time = 6.20 | CG iter. 3 -- res = 0.85220E+06, tol = 0.47559E+04, time = 6.74 | CG iter. 4 -- res = 0.35714E+06, tol = 0.47559E+04, time = 6.54 | CG iter. 5 -- res = 0.15300E+06, tol = 0.47559E+04, time = 6.80 | CG iter. 6 -- res = 0.80170E+05, tol = 0.47559E+04, time = 6.11 | CG iter. 7 -- res = 0.44080E+05, tol = 0.47559E+04, time = 6.38 | CG iter. 8 -- res = 0.21771E+05, tol = 0.47559E+04, time = 6.34 | CG iter. 9 -- res = 0.95221E+04, tol = 0.47559E+04, time = 6.37 | CG iter. 10 -- res = 0.38184E+04, tol = 0.47559E+04, time = 6.48 | CG iter. 11 -- res = 0.16976E+04, tol = 0.47559E+04, time = 6.49 | CG iter. 12 -- res = 0.87340E+03, tol = 0.47559E+04, time = 6.69 | CG iter. 13 -- res = 0.49781E+03, tol = 0.47559E+04, time = 7.82 | CG iter. 14 -- res = 0.28384E+03, tol = 0.47559E+04, time = 7.16 | CG iter. 15 -- res = 0.14752E+03, tol = 0.47559E+04, time = 6.61 | CG iter. 16 -- res = 0.69462E+02, tol = 0.47559E+04, time = 6.38 | CG iter. 17 -- res = 0.32705E+02, tol = 0.47559E+04, time = 6.38 | CG iter. 18 -- res = 0.16402E+02, tol = 0.47559E+04, time = 6.23 | CG iter. 19 -- res = 0.89489E+01, tol = 0.47559E+04, time = 6.72 | CG iter. 20 -- res = 0.51702E+01, tol = 0.47559E+04, time = 6.43 | CG iter. 21 -- res = 0.28001E+01, tol = 0.47559E+04, time = 6.25 | CG iter. 22 -- res = 0.14332E+01, tol = 0.47559E+04, time = 6.47 | CG iter. 23 -- res = 0.70343E+00, tol = 0.47559E+04, time = 6.51 | CG iter. 24 -- res = 0.35777E+00, tol = 0.47559E+04, time = 6.38 | CG iter. 25 -- res = 0.19574E+00, tol = 0.47559E+04, time = 6.39 | CG iter. 26 -- res = 0.11186E+00, tol = 0.47559E+04, time = 6.72 | CG iter. 27 -- res = 0.64089E-01, tol = 0.47559E+04, time = 6.32 | CG iter. 28 -- res = 0.35232E-01, tol = 0.47559E+04, time = 6.43 | CG iter. 29 -- res = 0.18561E-01, tol = 0.47559E+04, time = 6.72 | CG iter. 30 -- res = 0.94928E-02, tol = 0.47559E+04, time = 6.17 | CG iter. 31 -- res = 0.51941E-02, tol = 0.47559E+04, time = 6.12 | CG iter. 32 -- res = 0.29610E-02, tol = 0.47559E+04, time = 6.78 | CG iter. 33 -- res = 0.17060E-02, tol = 0.47559E+04, time = 6.46 | CG iter. 34 -- res = 0.93940E-03, tol = 0.47559E+04, time = 6.56 | CG iter. 35 -- res = 0.49453E-03, tol = 0.47559E+04, time = 6.51 | Final CG iter 36 -- res = 0.49453E-03, tol = 0.47559E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.136 2.756 | New value 0.433 | Old value 1.136 | Difference -0.703 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.49 | CG iter. 1 -- res = 0.30776E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.60012E+02, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.14879E+01, tol = 0.47627E+18, time = 1.94 | Final CG iter 4 -- res = 0.38822E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7626981.603 | (Sampled value in CG: 7700106.025 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.623574 | New value = -3.591803 | poltype: 1 pol: 1 CPU time specind = 1.4801025E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.40 | CG iter. 1 -- res = 0.29182E+07, tol = 0.22769E+01, time = 2.60 | CG iter. 2 -- res = 0.11332E+07, tol = 0.22769E+01, time = 2.83 | CG iter. 3 -- res = 0.24965E+06, tol = 0.22769E+01, time = 2.68 | CG iter. 4 -- res = 0.11265E+06, tol = 0.22769E+01, time = 2.55 | CG iter. 5 -- res = 0.66122E+05, tol = 0.22769E+01, time = 2.87 | CG iter. 6 -- res = 0.30974E+05, tol = 0.22769E+01, time = 2.55 | CG iter. 7 -- res = 0.10849E+05, tol = 0.22769E+01, time = 2.48 | CG iter. 8 -- res = 0.44847E+04, tol = 0.22769E+01, time = 2.84 | CG iter. 9 -- res = 0.20305E+04, tol = 0.22769E+01, time = 2.64 | CG iter. 10 -- res = 0.80959E+03, tol = 0.22769E+01, time = 2.62 | CG iter. 11 -- res = 0.33441E+03, tol = 0.22769E+01, time = 2.80 | CG iter. 12 -- res = 0.16941E+03, tol = 0.22769E+01, time = 2.64 | CG iter. 13 -- res = 0.87961E+02, tol = 0.22769E+01, time = 2.53 | CG iter. 14 -- res = 0.42490E+02, tol = 0.22769E+01, time = 2.57 | CG iter. 15 -- res = 0.19443E+02, tol = 0.22769E+01, time = 2.52 | CG iter. 16 -- res = 0.84892E+01, tol = 0.22769E+01, time = 2.77 | CG iter. 17 -- res = 0.36610E+01, tol = 0.22769E+01, time = 2.68 | CG iter. 18 -- res = 0.16762E+01, tol = 0.22769E+01, time = 2.65 | CG iter. 19 -- res = 0.85181E+00, tol = 0.22769E+01, time = 2.75 | CG iter. 20 -- res = 0.44467E+00, tol = 0.22769E+01, time = 2.73 | CG iter. 21 -- res = 0.21041E+00, tol = 0.22769E+01, time = 2.55 | CG iter. 22 -- res = 0.95062E-01, tol = 0.22769E+01, time = 2.58 | CG iter. 23 -- res = 0.42694E-01, tol = 0.22769E+01, time = 2.87 | CG iter. 24 -- res = 0.19906E-01, tol = 0.22769E+01, time = 9.51 | CG iter. 25 -- res = 0.10162E-01, tol = 0.22769E+01, time = 2.61 | CG iter. 26 -- res = 0.50564E-02, tol = 0.22769E+01, time = 2.71 | CG iter. 27 -- res = 0.25399E-02, tol = 0.22769E+01, time = 2.71 | CG iter. 28 -- res = 0.12885E-02, tol = 0.22769E+01, time = 2.54 | CG iter. 29 -- res = 0.56317E-03, tol = 0.22769E+01, time = 2.54 | CG iter. 30 -- res = 0.26668E-03, tol = 0.22769E+01, time = 2.86 | CG iter. 31 -- res = 0.13081E-03, tol = 0.22769E+01, time = 2.98 | CG iter. 32 -- res = 0.63221E-04, tol = 0.22769E+01, time = 2.55 | CG iter. 33 -- res = 0.31301E-04, tol = 0.22769E+01, time = 2.94 | CG iter. 34 -- res = 0.15597E-04, tol = 0.22769E+01, time = 2.63 | CG iter. 35 -- res = 0.73436E-05, tol = 0.22769E+01, time = 2.76 | CG iter. 36 -- res = 0.33861E-05, tol = 0.22769E+01, time = 2.63 | CG iter. 37 -- res = 0.15170E-05, tol = 0.22769E+01, time = 2.77 | CG iter. 38 -- res = 0.75456E-06, tol = 0.22769E+01, time = 2.57 | CG iter. 39 -- res = 0.38725E-06, tol = 0.22769E+01, time = 2.97 | CG iter. 40 -- res = 0.18612E-06, tol = 0.22769E+01, time = 2.81 | CG iter. 41 -- res = 0.87497E-07, tol = 0.22769E+01, time = 2.86 | CG iter. 42 -- res = 0.40664E-07, tol = 0.22769E+01, time = 2.77 | CG iter. 43 -- res = 0.18048E-07, tol = 0.22769E+01, time = 2.84 | CG iter. 44 -- res = 0.85294E-08, tol = 0.22769E+01, time = 2.76 | CG iter. 45 -- res = 0.43473E-08, tol = 0.22769E+01, time = 3.01 | CG iter. 46 -- res = 0.21507E-08, tol = 0.22769E+01, time = 2.51 | CG iter. 47 -- res = 0.10506E-08, tol = 0.22769E+01, time = 2.64 | CG iter. 48 -- res = 0.46397E-09, tol = 0.22769E+01, time = 2.76 | CG iter. 49 -- res = 0.21368E-09, tol = 0.22769E+01, time = 2.72 | CG iter. 50 -- res = 0.98744E-10, tol = 0.22769E+01, time = 2.61 | Final CG iter 51 -- res = 0.98744E-10, tol = 0.22769E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.211 4.648 | New value -0.335 | Old value 3.211 | Difference -3.546 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.17533E+05, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.47675E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.16204E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.20101E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.46689E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7626981.603 | (Sampled value in CG: 7685528.980 ) | CPU time specind = 1182.947 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.68583E+08, tol = 0.57666E+04, time = 11.82 | CG iter. 2 -- res = 0.58974E+08, tol = 0.57666E+04, time = 11.80 | CG iter. 3 -- res = 0.15313E+08, tol = 0.57666E+04, time = 11.28 | CG iter. 4 -- res = 0.64809E+07, tol = 0.57666E+04, time = 11.51 | CG iter. 5 -- res = 0.37964E+07, tol = 0.57666E+04, time = 11.77 | CG iter. 6 -- res = 0.21886E+07, tol = 0.57666E+04, time = 11.99 | CG iter. 7 -- res = 0.13048E+07, tol = 0.57666E+04, time = 11.92 | CG iter. 8 -- res = 0.86023E+06, tol = 0.57666E+04, time = 11.11 | CG iter. 9 -- res = 0.57257E+06, tol = 0.57666E+04, time = 11.52 | CG iter. 10 -- res = 0.35711E+06, tol = 0.57666E+04, time = 11.35 | CG iter. 11 -- res = 0.19643E+06, tol = 0.57666E+04, time = 11.79 | CG iter. 12 -- res = 0.10778E+06, tol = 0.57666E+04, time = 17.84 | CG iter. 13 -- res = 0.64058E+05, tol = 0.57666E+04, time = 11.31 | CG iter. 14 -- res = 0.41751E+05, tol = 0.57666E+04, time = 11.83 | CG iter. 15 -- res = 0.31817E+05, tol = 0.57666E+04, time = 11.65 | CG iter. 16 -- res = 0.27339E+05, tol = 0.57666E+04, time = 11.55 | CG iter. 17 -- res = 0.24631E+05, tol = 0.57666E+04, time = 11.58 | CG iter. 18 -- res = 0.21877E+05, tol = 0.57666E+04, time = 11.48 | CG iter. 19 -- res = 0.19194E+05, tol = 0.57666E+04, time = 12.50 | CG iter. 20 -- res = 0.17366E+05, tol = 0.57666E+04, time = 13.05 | CG iter. 21 -- res = 0.16293E+05, tol = 0.57666E+04, time = 11.71 | CG iter. 22 -- res = 0.16831E+05, tol = 0.57666E+04, time = 12.01 | CG iter. 23 -- res = 0.17316E+05, tol = 0.57666E+04, time = 11.41 | CG iter. 24 -- res = 0.16850E+05, tol = 0.57666E+04, time = 12.20 | CG iter. 25 -- res = 0.14936E+05, tol = 0.57666E+04, time = 11.88 | CG iter. 26 -- res = 0.11880E+05, tol = 0.57666E+04, time = 11.54 | CG iter. 27 -- res = 0.89265E+04, tol = 0.57666E+04, time = 11.93 | CG iter. 28 -- res = 0.68514E+04, tol = 0.57666E+04, time = 11.76 | CG iter. 29 -- res = 0.55381E+04, tol = 0.57666E+04, time = 12.46 | CG iter. 30 -- res = 0.48188E+04, tol = 0.57666E+04, time = 11.78 | CG iter. 31 -- res = 0.43384E+04, tol = 0.57666E+04, time = 11.53 | CG iter. 32 -- res = 0.39698E+04, tol = 0.57666E+04, time = 11.89 | CG iter. 33 -- res = 0.34989E+04, tol = 0.57666E+04, time = 11.70 | CG iter. 34 -- res = 0.29458E+04, tol = 0.57666E+04, time = 11.50 | CG iter. 35 -- res = 0.25492E+04, tol = 0.57666E+04, time = 11.89 | CG iter. 36 -- res = 0.23405E+04, tol = 0.57666E+04, time = 11.78 | CG iter. 37 -- res = 0.22546E+04, tol = 0.57666E+04, time = 17.65 | CG iter. 38 -- res = 0.21798E+04, tol = 0.57666E+04, time = 11.27 | CG iter. 39 -- res = 0.19767E+04, tol = 0.57666E+04, time = 11.74 | CG iter. 40 -- res = 0.16781E+04, tol = 0.57666E+04, time = 11.32 | CG iter. 41 -- res = 0.13681E+04, tol = 0.57666E+04, time = 11.53 | CG iter. 42 -- res = 0.11286E+04, tol = 0.57666E+04, time = 11.73 | CG iter. 43 -- res = 0.97627E+03, tol = 0.57666E+04, time = 11.39 | CG iter. 44 -- res = 0.88741E+03, tol = 0.57666E+04, time = 12.49 | CG iter. 45 -- res = 0.84104E+03, tol = 0.57666E+04, time = 12.93 | CG iter. 46 -- res = 0.79479E+03, tol = 0.57666E+04, time = 11.36 | CG iter. 47 -- res = 0.74170E+03, tol = 0.57666E+04, time = 11.87 | CG iter. 48 -- res = 0.66301E+03, tol = 0.57666E+04, time = 11.92 | CG iter. 49 -- res = 0.59513E+03, tol = 0.57666E+04, time = 11.72 | CG iter. 50 -- res = 0.55361E+03, tol = 0.57666E+04, time = 11.71 | CG iter. 51 -- res = 0.53438E+03, tol = 0.57666E+04, time = 12.26 | CG iter. 52 -- res = 0.51354E+03, tol = 0.57666E+04, time = 11.71 | CG iter. 53 -- res = 0.48810E+03, tol = 0.57666E+04, time = 11.98 | CG iter. 54 -- res = 0.44212E+03, tol = 0.57666E+04, time = 11.60 | CG iter. 55 -- res = 0.39067E+03, tol = 0.57666E+04, time = 11.84 | CG iter. 56 -- res = 0.32813E+03, tol = 0.57666E+04, time = 11.63 | CG iter. 57 -- res = 0.29020E+03, tol = 0.57666E+04, time = 12.04 | CG iter. 58 -- res = 0.27355E+03, tol = 0.57666E+04, time = 11.59 | CG iter. 59 -- res = 0.26313E+03, tol = 0.57666E+04, time = 12.17 | CG iter. 60 -- res = 0.25030E+03, tol = 0.57666E+04, time = 11.57 | Final CG iter 61 -- res = 0.25030E+03, tol = 0.57666E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.861 ( -229.760 -2231.201 2513.792 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6877160.857 | Old band monopole 7627014.408 | Change to band monopole -749853.551 | Change to component monopole 749850.326 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.408 2.733 | New value 2.245 | Old value 0.408 | Difference 1.837 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.356 ( 6.665 11.055 -10.839 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.175 4.781 | New value -6.044 | Old value 2.175 | Difference -8.218 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.65 | CG iter. 1 -- res = 0.17388E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.19411E+02, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.37741E+00, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.16060E-03, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.36912E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6877131.277 | (Sampled value in CG: 6857063.625 ) | Chain = 1 -- chisq = 0.81544466E+09 | Chain = 1 -- wall time = 5586.095 sec Available RAM: MemAvailable: 389702348 kB Available Swap: SwapFree: 1120354144 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 266 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445455 | --> Sampling calibration, mode = relcal | relcal = 1.3434037E-02 7.4841466E-04 -1.6108634E-03 -1.2571588E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1060007 0.1241190 9404222.04442186 | BP delta = 0.1060007 0.1224339 9404231.11480103 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632307 | --> Sampling calibration, mode = relcal | relcal = -2.8208590E-03 -7.0448918E-04 1.6782180E-03 1.6143762E-03 -4.0702522E-04 6.3977909E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5405097 15216164.4631882 | BP delta = 0.0000000E+00 -0.5372639 15216160.9045800 | BP chisq diff = -3.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03101978 | --> Sampling calibration, mode = relcal | relcal = 3.7075046E-02 1.3711633E-02 5.7586161E-03 -7.1668359E-03 8.2382709E-03 2.3915372E-03 -7.5882105E-03 -7.1780155E-03 -1.5298009E-02 -1.4796532E-02 -3.0564631E-03 -1.2091037E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.190739 132206864.438013 | BP delta = 0.0000000E+00 -1.203735 132206863.677023 | BP chisq diff = -0.8, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18342786045094 | --> Sampling calibration, mode = relcal | relcal = -7.5011104E-02 -5.8625314E-02 9.1949396E-02 4.1687023E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2769814E-04 4.4110497E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1170E-05 | 2: delta_r/delta_0: 9.2963E-07 | 3: delta_s/delta_0: 2.0371E-07 | 4: delta_r/delta_0: 1.7579E-08 | 5: delta_s/delta_0: 4.8455E-09 | 6: delta_r/delta_0: 1.2465E-09 | 7: delta_s/delta_0: 3.1570E-10 | 8: delta_r/delta_0: 9.4810E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.450776585767241E-004 2.735465897367123E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1171E-05 | 2: delta_r/delta_0: 9.2964E-07 | 3: delta_s/delta_0: 2.0371E-07 | 4: delta_r/delta_0: 1.7578E-08 | 5: delta_s/delta_0: 4.8441E-09 | 6: delta_r/delta_0: 1.2465E-09 | 7: delta_s/delta_0: 3.1570E-10 | 8: delta_r/delta_0: 9.4804E-11 | Reached bicg-stab tolerance | BP delta = 7.5352699E-02 9.5360011E-02 3583463.57527130 | BP delta = 7.5352699E-02 9.5199496E-02 3584990.31490129 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596406 | --> Sampling calibration, mode = relcal | relcal = -0.1066450 -9.5499225E-02 0.1448790 5.7265181E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2749614E-03 1.4633917E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0116E-05 | 2: delta_r/delta_0: 1.3351E-06 | 3: delta_s/delta_0: 2.3694E-07 | 4: delta_r/delta_0: 5.3222E-08 | 5: delta_s/delta_0: 1.9814E-08 | 6: delta_r/delta_0: 7.4925E-09 | 7: delta_s/delta_0: 1.3590E-08 | 8: delta_r/delta_0: 1.1963E-09 | 9: delta_s/delta_0: 1.0580E-09 | 10: delta_r/delta_0: 1.7150E-10 | 11: delta_s/delta_0: 1.5983E-09 | 12: delta_r/delta_0: 2.5270E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.851284179013049E-003 2.810930068816888E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.0115E-05 | 2: delta_r/delta_0: 1.3351E-06 | 3: delta_s/delta_0: 2.3691E-07 | 4: delta_r/delta_0: 5.3184E-08 | 5: delta_s/delta_0: 1.9827E-08 | 6: delta_r/delta_0: 7.4894E-09 | 7: delta_s/delta_0: 1.3587E-08 | 8: delta_r/delta_0: 1.1958E-09 | 9: delta_s/delta_0: 1.0576E-09 | 10: delta_r/delta_0: 1.7147E-10 | 11: delta_s/delta_0: 1.5977E-09 | 12: delta_r/delta_0: 2.5290E-11 | Reached bicg-stab tolerance | BP delta = -0.2873394 -0.2656199 2841286.58923360 | BP delta = -0.2873394 -0.2677288 2841351.02364907 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81208766 | --> Sampling calibration, mode = relcal | relcal = 0.2954706 0.2247146 -0.2837168 -0.2364684 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2098753E-03 4.5572384E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2588E-04 | 2: delta_r/delta_0: 1.1912E-05 | 3: delta_s/delta_0: 1.7707E-03 | 4: delta_r/delta_0: 1.2169E-04 | 5: delta_s/delta_0: 1.0981E-05 | 6: delta_r/delta_0: 1.8244E-06 | 7: delta_s/delta_0: 6.0165E-08 | 8: delta_r/delta_0: 3.0653E-08 | 9: delta_s/delta_0: 2.1814E-07 | 10: delta_r/delta_0: 4.1178E-09 | 11: delta_s/delta_0: 1.0564E-09 | 12: delta_r/delta_0: 6.0834E-10 | 13: delta_s/delta_0: 3.9207E-10 | 14: delta_r/delta_0: 7.0540E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.322239550577684E-002 4.022351825345471E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.2587E-04 | 2: delta_r/delta_0: 1.1912E-05 | 3: delta_s/delta_0: 1.7707E-03 | 4: delta_r/delta_0: 1.2169E-04 | 5: delta_s/delta_0: 1.0980E-05 | 6: delta_r/delta_0: 1.8242E-06 | 7: delta_s/delta_0: 6.0165E-08 | 8: delta_r/delta_0: 3.0653E-08 | 9: delta_s/delta_0: 2.1812E-07 | 10: delta_r/delta_0: 4.1178E-09 | 11: delta_s/delta_0: 1.0564E-09 | 12: delta_r/delta_0: 6.0834E-10 | 13: delta_s/delta_0: 3.9205E-10 | 14: delta_r/delta_0: 7.0538E-11 | Reached bicg-stab tolerance | BP delta = -0.1101605 -0.1177363 2827250.68140409 | BP delta = -0.1101605 -0.1248024 2827250.86456025 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95898216 | --> Sampling calibration, mode = relcal | relcal = 0.1064440 0.1395080 -0.1102880 -0.1356640 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8247258E-03 1.2872317E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4789E-04 | 2: delta_r/delta_0: 1.1034E-05 | 3: delta_s/delta_0: 7.7739E-06 | 4: delta_r/delta_0: 8.5207E-07 | 5: delta_s/delta_0: 3.1475E-07 | 6: delta_r/delta_0: 1.4529E-07 | 7: delta_s/delta_0: 3.6999E-07 | 8: delta_r/delta_0: 3.3253E-08 | 9: delta_s/delta_0: 2.0245E-04 | 10: delta_r/delta_0: 6.4180E-05 | 11: delta_s/delta_0: 2.2572E-09 | 12: delta_r/delta_0: 1.3335E-09 | 13: delta_s/delta_0: 7.7078E-10 | 14: delta_r/delta_0: 3.6430E-10 | 15: delta_s/delta_0: 8.7105E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.232923081160506E-002 3.697785266229505E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.4790E-04 | 2: delta_r/delta_0: 1.1034E-05 | 3: delta_s/delta_0: 7.7740E-06 | 4: delta_r/delta_0: 8.5207E-07 | 5: delta_s/delta_0: 3.1475E-07 | 6: delta_r/delta_0: 1.4529E-07 | 7: delta_s/delta_0: 3.6996E-07 | 8: delta_r/delta_0: 3.3253E-08 | 9: delta_s/delta_0: 1.9853E-04 | 10: delta_r/delta_0: 6.2921E-05 | 11: delta_s/delta_0: 2.2573E-09 | 12: delta_r/delta_0: 1.3335E-09 | 13: delta_s/delta_0: 7.7063E-10 | 14: delta_r/delta_0: 3.6435E-10 | 15: delta_s/delta_0: 8.7105E-11 | Reached bicg-stab tolerance | BP delta = 9.7702846E-02 0.2114172 3004180.70165489 | BP delta = 9.7702846E-02 0.2179546 3004183.23494247 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52149830 | --> Sampling calibration, mode = relcal | relcal = -5.1058296E-02 -3.7756576E-03 2.7293079E-02 2.7540877E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.3108904E-04 1.8528862E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5762E-05 | 2: delta_r/delta_0: 4.5855E-06 | 3: delta_s/delta_0: 1.1912E-04 | 4: delta_r/delta_0: 1.0784E-05 | 5: delta_s/delta_0: 4.7301E-08 | 6: delta_r/delta_0: 2.6523E-08 | 7: delta_s/delta_0: 9.5153E-08 | 8: delta_r/delta_0: 7.5003E-09 | 9: delta_s/delta_0: 1.9429E-09 | 10: delta_r/delta_0: 1.1784E-09 | 11: delta_s/delta_0: 1.6666E-08 | 12: delta_r/delta_0: 3.3659E-09 | 13: delta_s/delta_0: 7.4290E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.174936331908477E-002 5.484120744037969E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5762E-05 | 2: delta_r/delta_0: 4.5855E-06 | 3: delta_s/delta_0: 1.1913E-04 | 4: delta_r/delta_0: 1.0785E-05 | 5: delta_s/delta_0: 4.7301E-08 | 6: delta_r/delta_0: 2.6523E-08 | 7: delta_s/delta_0: 9.5148E-08 | 8: delta_r/delta_0: 7.5003E-09 | 9: delta_s/delta_0: 1.9429E-09 | 10: delta_r/delta_0: 1.1784E-09 | 11: delta_s/delta_0: 1.6579E-08 | 12: delta_r/delta_0: 3.3545E-09 | 13: delta_s/delta_0: 7.4278E-11 | Reached bicg-stab tolerance | BP delta = 0.1056655 0.2047229 2434959.25560875 | BP delta = 0.1056655 0.2166232 2434965.64932050 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42149426 | --> Sampling calibration, mode = relcal | relcal = 4.5603339E-02 3.9616253E-02 -2.8320380E-02 -5.6899212E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1094494E-03 2.5448243E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2147E-05 | 2: delta_r/delta_0: 3.2197E-06 | 3: delta_s/delta_0: 1.7875E-06 | 4: delta_r/delta_0: 2.1796E-07 | 5: delta_s/delta_0: 6.4006E-08 | 6: delta_r/delta_0: 3.2825E-08 | 7: delta_s/delta_0: 7.0800E-07 | 8: delta_r/delta_0: 1.6430E-08 | 9: delta_s/delta_0: 3.0089E-09 | 10: delta_r/delta_0: 1.4754E-09 | 11: delta_s/delta_0: 1.8020E-07 | 12: delta_r/delta_0: 1.3538E-08 | 13: delta_s/delta_0: 6.3619E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.413924977479476E-002 4.996680225810796E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.2147E-05 | 2: delta_r/delta_0: 3.2197E-06 | 3: delta_s/delta_0: 1.7875E-06 | 4: delta_r/delta_0: 2.1796E-07 | 5: delta_s/delta_0: 6.4006E-08 | 6: delta_r/delta_0: 3.2825E-08 | 7: delta_s/delta_0: 7.0800E-07 | 8: delta_r/delta_0: 1.6430E-08 | 9: delta_s/delta_0: 3.0089E-09 | 10: delta_r/delta_0: 1.4754E-09 | 11: delta_s/delta_0: 1.8021E-07 | 12: delta_r/delta_0: 1.3538E-08 | 13: delta_s/delta_0: 6.3619E-11 | Reached bicg-stab tolerance | BP delta = 0.1433970 3.5561889E-02 2321603.00126114 | BP delta = 0.1433970 4.8373442E-02 2321602.90860603 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28163483 | --> Sampling calibration, mode = relcal | relcal = 2.4318052E-02 4.5150794E-02 -2.3412541E-02 -4.6056304E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0924608E-02 2.5710412E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0638E-04 | 2: delta_r/delta_0: 8.6047E-06 | 3: delta_s/delta_0: 1.5039E-06 | 4: delta_r/delta_0: 1.7048E-07 | 5: delta_s/delta_0: 6.7821E-08 | 6: delta_r/delta_0: 1.7064E-08 | 7: delta_s/delta_0: 9.8014E-09 | 8: delta_r/delta_0: 6.2951E-09 | 9: delta_s/delta_0: 5.0313E-05 | 10: delta_r/delta_0: 1.3369E-07 | 11: delta_s/delta_0: 1.6299E-08 | 12: delta_r/delta_0: 2.0768E-10 | 13: delta_s/delta_0: 1.4951E-10 | 14: delta_r/delta_0: 1.1627E-10 | 15: delta_s/delta_0: 8.2820E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.053194548898079E-002 7.843933285569019E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0638E-04 | 2: delta_r/delta_0: 8.6047E-06 | 3: delta_s/delta_0: 1.5039E-06 | 4: delta_r/delta_0: 1.7047E-07 | 5: delta_s/delta_0: 6.7824E-08 | 6: delta_r/delta_0: 1.7063E-08 | 7: delta_s/delta_0: 9.8009E-09 | 8: delta_r/delta_0: 6.2947E-09 | 9: delta_s/delta_0: 5.0315E-05 | 10: delta_r/delta_0: 1.3370E-07 | 11: delta_s/delta_0: 1.6303E-08 | 12: delta_r/delta_0: 2.0763E-10 | 13: delta_s/delta_0: 1.4950E-10 | 14: delta_r/delta_0: 1.1628E-10 | 15: delta_s/delta_0: 8.2823E-11 | Reached bicg-stab tolerance | BP delta = -0.1570031 -0.3134635 2489898.40410257 | BP delta = -0.1570031 -0.3138378 2489906.53987257 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29396554 | --> Sampling calibration, mode = relcal | relcal = 5.4116495E-04 1.0312903E-02 -3.8523006E-03 -7.0017674E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3178145E-02 1.6999410E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3178E-04 | 2: delta_r/delta_0: 1.0684E-05 | 3: delta_s/delta_0: 1.6346E-06 | 4: delta_r/delta_0: 4.0202E-07 | 5: delta_s/delta_0: 9.0063E-08 | 6: delta_r/delta_0: 3.0633E-08 | 7: delta_s/delta_0: 1.2900E-08 | 8: delta_r/delta_0: 8.4892E-09 | 9: delta_s/delta_0: 1.3945E-08 | 10: delta_r/delta_0: 7.0720E-09 | 11: delta_s/delta_0: 1.8263E-06 | 12: delta_r/delta_0: 1.1482E-06 | 13: delta_s/delta_0: 2.6136E-10 | 14: delta_r/delta_0: 1.7992E-10 | 15: delta_s/delta_0: 1.8838E-10 | 16: delta_r/delta_0: 1.4359E-10 | 17: delta_s/delta_0: 1.7725E-10 | 18: delta_r/delta_0: 8.2200E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.039931142128813E-002 8.305482288213837E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3178E-04 | 2: delta_r/delta_0: 1.0684E-05 | 3: delta_s/delta_0: 1.6346E-06 | 4: delta_r/delta_0: 4.0200E-07 | 5: delta_s/delta_0: 9.0064E-08 | 6: delta_r/delta_0: 3.0630E-08 | 7: delta_s/delta_0: 1.2899E-08 | 8: delta_r/delta_0: 8.4887E-09 | 9: delta_s/delta_0: 1.3947E-08 | 10: delta_r/delta_0: 7.0720E-09 | 11: delta_s/delta_0: 1.8330E-06 | 12: delta_r/delta_0: 1.1524E-06 | 13: delta_s/delta_0: 2.6136E-10 | 14: delta_r/delta_0: 1.7992E-10 | 15: delta_s/delta_0: 1.8839E-10 | 16: delta_r/delta_0: 1.4359E-10 | 17: delta_s/delta_0: 1.7710E-10 | 18: delta_r/delta_0: 8.2190E-11 | Reached bicg-stab tolerance | BP delta = -0.8276260 -0.7823886 2738408.90547211 | BP delta = -0.8276260 -0.7835286 2738402.59083440 | BP chisq diff = -6.3, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26499660 | --> Sampling calibration, mode = relcal | relcal = -5.6121610E-03 1.5050600E-02 -2.4086635E-03 -7.0297755E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3135201E-04 3.1649440E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4276E-04 | 2: delta_r/delta_0: 1.2230E-05 | 3: delta_s/delta_0: 2.1289E-06 | 4: delta_r/delta_0: 2.7914E-07 | 5: delta_s/delta_0: 9.5695E-08 | 6: delta_r/delta_0: 2.2545E-08 | 7: delta_s/delta_0: 9.4579E-09 | 8: delta_r/delta_0: 6.0846E-09 | 9: delta_s/delta_0: 6.9148E-09 | 10: delta_r/delta_0: 4.5170E-09 | 11: delta_s/delta_0: 8.5418E-07 | 12: delta_r/delta_0: 5.2059E-08 | 13: delta_s/delta_0: 1.0374E-09 | 14: delta_r/delta_0: 6.5707E-10 | 15: delta_s/delta_0: 1.4979E-10 | 16: delta_r/delta_0: 5.8685E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.502757160075709E-003 9.156132444561289E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4276E-04 | 2: delta_r/delta_0: 1.2230E-05 | 3: delta_s/delta_0: 2.1288E-06 | 4: delta_r/delta_0: 2.7913E-07 | 5: delta_s/delta_0: 9.5699E-08 | 6: delta_r/delta_0: 2.2544E-08 | 7: delta_s/delta_0: 9.4577E-09 | 8: delta_r/delta_0: 6.0845E-09 | 9: delta_s/delta_0: 6.9146E-09 | 10: delta_r/delta_0: 4.5170E-09 | 11: delta_s/delta_0: 8.5442E-07 | 12: delta_r/delta_0: 5.2074E-08 | 13: delta_s/delta_0: 1.0354E-09 | 14: delta_r/delta_0: 6.5577E-10 | 15: delta_s/delta_0: 1.4981E-10 | 16: delta_r/delta_0: 5.8675E-11 | Reached bicg-stab tolerance | BP delta = 0.3100115 0.3519158 2516579.46301128 | BP delta = 0.3100115 0.3484762 2516579.51185317 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25652393 | --> Sampling calibration, mode = relcal | relcal = -3.1663552E-02 -2.5916772E-02 3.6925100E-02 2.0655226E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5492305E-02 1.7938470E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4808E-04 | 2: delta_r/delta_0: 1.2388E-05 | 3: delta_s/delta_0: 1.9925E-06 | 4: delta_r/delta_0: 3.8589E-07 | 5: delta_s/delta_0: 1.5488E-07 | 6: delta_r/delta_0: 3.1969E-08 | 7: delta_s/delta_0: 1.4946E-08 | 8: delta_r/delta_0: 8.4492E-09 | 9: delta_s/delta_0: 3.2346E-08 | 10: delta_r/delta_0: 5.6753E-09 | 11: delta_s/delta_0: 2.3370E-09 | 12: delta_r/delta_0: 2.9927E-10 | 13: delta_s/delta_0: 5.9573E-10 | 14: delta_r/delta_0: 2.9638E-10 | 15: delta_s/delta_0: 1.0000E-10 | 16: delta_r/delta_0: 8.2663E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.087418837833069E-002 8.675696773137425E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4809E-04 | 2: delta_r/delta_0: 1.2388E-05 | 3: delta_s/delta_0: 1.9925E-06 | 4: delta_r/delta_0: 3.8591E-07 | 5: delta_s/delta_0: 1.5490E-07 | 6: delta_r/delta_0: 3.1970E-08 | 7: delta_s/delta_0: 1.4946E-08 | 8: delta_r/delta_0: 8.4492E-09 | 9: delta_s/delta_0: 3.2350E-08 | 10: delta_r/delta_0: 5.6754E-09 | 11: delta_s/delta_0: 2.3364E-09 | 12: delta_r/delta_0: 2.9924E-10 | 13: delta_s/delta_0: 5.9569E-10 | 14: delta_r/delta_0: 2.9636E-10 | 15: delta_s/delta_0: 1.0000E-10 | 16: delta_r/delta_0: 8.2662E-11 | Reached bicg-stab tolerance | BP delta = -0.8458026 -0.9888681 2705991.58472837 | BP delta = -0.8458026 -0.9691638 2706008.00075091 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134745 | New value = -3.088620 | poltype: 2 pol: 1 CPU time specind = 2.6918888E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145070 | New value = -3.152526 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.130575 | New value = -3.069906 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.201181 | New value = -3.156215 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140401 | New value = -3.089988 | poltype: 2 pol: 2 CPU time specind = 2.3998022E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 26.92 | CG iter. 1 -- res = 0.13622E+08, tol = 0.96615E+01, time = 5.32 | CG iter. 2 -- res = 0.34731E+06, tol = 0.96615E+01, time = 5.34 | CG iter. 3 -- res = 0.75882E+05, tol = 0.96615E+01, time = 5.45 | CG iter. 4 -- res = 0.65220E+05, tol = 0.96615E+01, time = 5.34 | CG iter. 5 -- res = 0.59400E+05, tol = 0.96615E+01, time = 5.39 | CG iter. 6 -- res = 0.58487E+05, tol = 0.96615E+01, time = 5.52 | CG iter. 7 -- res = 0.52049E+05, tol = 0.96615E+01, time = 5.39 | CG iter. 8 -- res = 0.36666E+05, tol = 0.96615E+01, time = 5.68 | CG iter. 9 -- res = 0.29458E+05, tol = 0.96615E+01, time = 5.62 | CG iter. 10 -- res = 0.23530E+05, tol = 0.96615E+01, time = 5.50 | CG iter. 11 -- res = 0.16358E+05, tol = 0.96615E+01, time = 6.86 | CG iter. 12 -- res = 0.12004E+05, tol = 0.96615E+01, time = 5.53 | CG iter. 13 -- res = 0.92833E+04, tol = 0.96615E+01, time = 5.45 | CG iter. 14 -- res = 0.76481E+04, tol = 0.96615E+01, time = 5.31 | CG iter. 15 -- res = 0.62385E+04, tol = 0.96615E+01, time = 5.57 | CG iter. 16 -- res = 0.44238E+04, tol = 0.96615E+01, time = 5.53 | CG iter. 17 -- res = 0.29383E+04, tol = 0.96615E+01, time = 5.48 | CG iter. 18 -- res = 0.22036E+04, tol = 0.96615E+01, time = 5.41 | CG iter. 19 -- res = 0.18989E+04, tol = 0.96615E+01, time = 5.52 | CG iter. 20 -- res = 0.14991E+04, tol = 0.96615E+01, time = 5.20 | CG iter. 21 -- res = 0.10890E+04, tol = 0.96615E+01, time = 5.71 | CG iter. 22 -- res = 0.82604E+03, tol = 0.96615E+01, time = 5.24 | CG iter. 23 -- res = 0.71139E+03, tol = 0.96615E+01, time = 5.74 | CG iter. 24 -- res = 0.59018E+03, tol = 0.96615E+01, time = 5.37 | CG iter. 25 -- res = 0.43375E+03, tol = 0.96615E+01, time = 5.08 | CG iter. 26 -- res = 0.33964E+03, tol = 0.96615E+01, time = 5.50 | CG iter. 27 -- res = 0.28794E+03, tol = 0.96615E+01, time = 5.35 | CG iter. 28 -- res = 0.24786E+03, tol = 0.96615E+01, time = 5.50 | CG iter. 29 -- res = 0.18862E+03, tol = 0.96615E+01, time = 5.55 | CG iter. 30 -- res = 0.13932E+03, tol = 0.96615E+01, time = 5.46 | CG iter. 31 -- res = 0.11362E+03, tol = 0.96615E+01, time = 5.48 | CG iter. 32 -- res = 0.95283E+02, tol = 0.96615E+01, time = 5.44 | CG iter. 33 -- res = 0.75053E+02, tol = 0.96615E+01, time = 5.33 | CG iter. 34 -- res = 0.54413E+02, tol = 0.96615E+01, time = 5.25 | CG iter. 35 -- res = 0.42094E+02, tol = 0.96615E+01, time = 5.77 | CG iter. 36 -- res = 0.34945E+02, tol = 0.96615E+01, time = 5.36 | CG iter. 37 -- res = 0.28115E+02, tol = 0.96615E+01, time = 5.24 | CG iter. 38 -- res = 0.21168E+02, tol = 0.96615E+01, time = 5.73 | CG iter. 39 -- res = 0.15218E+02, tol = 0.96615E+01, time = 5.36 | CG iter. 40 -- res = 0.12109E+02, tol = 0.96615E+01, time = 5.42 | CG iter. 41 -- res = 0.97977E+01, tol = 0.96615E+01, time = 5.33 | CG iter. 42 -- res = 0.71677E+01, tol = 0.96615E+01, time = 5.35 | CG iter. 43 -- res = 0.53450E+01, tol = 0.96615E+01, time = 5.52 | CG iter. 44 -- res = 0.42548E+01, tol = 0.96615E+01, time = 5.23 | CG iter. 45 -- res = 0.33478E+01, tol = 0.96615E+01, time = 5.01 | CG iter. 46 -- res = 0.25500E+01, tol = 0.96615E+01, time = 5.36 | CG iter. 47 -- res = 0.18709E+01, tol = 0.96615E+01, time = 5.35 | CG iter. 48 -- res = 0.13818E+01, tol = 0.96615E+01, time = 5.60 | CG iter. 49 -- res = 0.11186E+01, tol = 0.96615E+01, time = 9.07 | CG iter. 50 -- res = 0.83563E+00, tol = 0.96615E+01, time = 7.47 | Final CG iter 51 -- res = 0.83563E+00, tol = 0.96615E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8101374.286 | Old band monopole 6877160.857 | Change to band monopole 1224213.429 | Change to component monopole -1224208.163 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.56 | CG iter. 1 -- res = 0.65869E+05, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.74684E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.22828E+01, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.88901E-02, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.54549E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8101339.440 | (Sampled value in CG: 8171800.164 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.488465 | New value = 1.549932 | poltype: 2 pol: 1 CPU time specind = 1.2138128E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.533850 | New value = 1.544586 | poltype: 2 pol: 2 CPU time specind = 1.0233164E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.66 | CG iter. 1 -- res = 0.24860E+08, tol = 0.47698E+04, time = 6.05 | CG iter. 2 -- res = 0.54204E+07, tol = 0.47698E+04, time = 5.90 | CG iter. 3 -- res = 0.86356E+06, tol = 0.47698E+04, time = 6.33 | CG iter. 4 -- res = 0.36054E+06, tol = 0.47698E+04, time = 6.16 | CG iter. 5 -- res = 0.15293E+06, tol = 0.47698E+04, time = 5.83 | CG iter. 6 -- res = 0.79822E+05, tol = 0.47698E+04, time = 6.35 | CG iter. 7 -- res = 0.43589E+05, tol = 0.47698E+04, time = 5.72 | CG iter. 8 -- res = 0.21115E+05, tol = 0.47698E+04, time = 6.31 | CG iter. 9 -- res = 0.93189E+04, tol = 0.47698E+04, time = 6.32 | CG iter. 10 -- res = 0.37683E+04, tol = 0.47698E+04, time = 6.13 | CG iter. 11 -- res = 0.16990E+04, tol = 0.47698E+04, time = 6.29 | CG iter. 12 -- res = 0.86244E+03, tol = 0.47698E+04, time = 6.43 | CG iter. 13 -- res = 0.48662E+03, tol = 0.47698E+04, time = 6.83 | CG iter. 14 -- res = 0.27558E+03, tol = 0.47698E+04, time = 6.36 | CG iter. 15 -- res = 0.14591E+03, tol = 0.47698E+04, time = 6.04 | CG iter. 16 -- res = 0.70077E+02, tol = 0.47698E+04, time = 6.43 | CG iter. 17 -- res = 0.32060E+02, tol = 0.47698E+04, time = 6.34 | CG iter. 18 -- res = 0.15717E+02, tol = 0.47698E+04, time = 6.09 | CG iter. 19 -- res = 0.85692E+01, tol = 0.47698E+04, time = 5.92 | CG iter. 20 -- res = 0.48183E+01, tol = 0.47698E+04, time = 6.25 | CG iter. 21 -- res = 0.26606E+01, tol = 0.47698E+04, time = 5.79 | CG iter. 22 -- res = 0.14113E+01, tol = 0.47698E+04, time = 6.15 | CG iter. 23 -- res = 0.71738E+00, tol = 0.47698E+04, time = 6.28 | CG iter. 24 -- res = 0.36861E+00, tol = 0.47698E+04, time = 6.05 | CG iter. 25 -- res = 0.20240E+00, tol = 0.47698E+04, time = 6.15 | CG iter. 26 -- res = 0.11436E+00, tol = 0.47698E+04, time = 6.26 | CG iter. 27 -- res = 0.64675E-01, tol = 0.47698E+04, time = 5.82 | CG iter. 28 -- res = 0.34215E-01, tol = 0.47698E+04, time = 6.33 | CG iter. 29 -- res = 0.17746E-01, tol = 0.47698E+04, time = 12.40 | CG iter. 30 -- res = 0.92560E-02, tol = 0.47698E+04, time = 6.04 | CG iter. 31 -- res = 0.50546E-02, tol = 0.47698E+04, time = 6.11 | CG iter. 32 -- res = 0.28410E-02, tol = 0.47698E+04, time = 6.43 | CG iter. 33 -- res = 0.15895E-02, tol = 0.47698E+04, time = 6.13 | CG iter. 34 -- res = 0.85052E-03, tol = 0.47698E+04, time = 6.12 | CG iter. 35 -- res = 0.43053E-03, tol = 0.47698E+04, time = 6.33 | Final CG iter 36 -- res = 0.43053E-03, tol = 0.47698E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.269 2.737 | New value 1.864 | Old value 2.269 | Difference -0.404 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.61 | CG iter. 1 -- res = 0.21955E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.46192E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.13256E+01, tol = 0.47627E+18, time = 1.65 | CG iter. 4 -- res = 0.15231E-02, tol = 0.47627E+18, time = 2.42 | Final CG iter 5 -- res = 0.27301E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8101339.440 | (Sampled value in CG: 8173173.470 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.591803 | New value = -3.539558 | poltype: 1 pol: 1 CPU time specind = 1.8294096E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.59 | CG iter. 1 -- res = 0.23594E+07, tol = 0.24926E+01, time = 2.84 | CG iter. 2 -- res = 0.10299E+07, tol = 0.24926E+01, time = 2.27 | CG iter. 3 -- res = 0.19285E+06, tol = 0.24926E+01, time = 2.56 | CG iter. 4 -- res = 0.72881E+05, tol = 0.24926E+01, time = 2.28 | CG iter. 5 -- res = 0.42073E+05, tol = 0.24926E+01, time = 2.65 | CG iter. 6 -- res = 0.22419E+05, tol = 0.24926E+01, time = 2.62 | CG iter. 7 -- res = 0.88512E+04, tol = 0.24926E+01, time = 2.44 | CG iter. 8 -- res = 0.36801E+04, tol = 0.24926E+01, time = 2.55 | CG iter. 9 -- res = 0.16482E+04, tol = 0.24926E+01, time = 2.58 | CG iter. 10 -- res = 0.63105E+03, tol = 0.24926E+01, time = 2.55 | CG iter. 11 -- res = 0.26967E+03, tol = 0.24926E+01, time = 2.65 | CG iter. 12 -- res = 0.12969E+03, tol = 0.24926E+01, time = 2.43 | CG iter. 13 -- res = 0.66697E+02, tol = 0.24926E+01, time = 2.58 | CG iter. 14 -- res = 0.33976E+02, tol = 0.24926E+01, time = 2.48 | CG iter. 15 -- res = 0.16495E+02, tol = 0.24926E+01, time = 2.40 | CG iter. 16 -- res = 0.73722E+01, tol = 0.24926E+01, time = 2.70 | CG iter. 17 -- res = 0.30278E+01, tol = 0.24926E+01, time = 2.56 | CG iter. 18 -- res = 0.14011E+01, tol = 0.24926E+01, time = 2.57 | CG iter. 19 -- res = 0.67267E+00, tol = 0.24926E+01, time = 2.56 | CG iter. 20 -- res = 0.35096E+00, tol = 0.24926E+01, time = 2.23 | CG iter. 21 -- res = 0.17375E+00, tol = 0.24926E+01, time = 2.55 | CG iter. 22 -- res = 0.80888E-01, tol = 0.24926E+01, time = 2.80 | CG iter. 23 -- res = 0.36656E-01, tol = 0.24926E+01, time = 2.46 | CG iter. 24 -- res = 0.17110E-01, tol = 0.24926E+01, time = 2.52 | CG iter. 25 -- res = 0.81129E-02, tol = 0.24926E+01, time = 2.71 | CG iter. 26 -- res = 0.41857E-02, tol = 0.24926E+01, time = 2.58 | CG iter. 27 -- res = 0.21195E-02, tol = 0.24926E+01, time = 3.62 | CG iter. 28 -- res = 0.10660E-02, tol = 0.24926E+01, time = 3.01 | CG iter. 29 -- res = 0.48469E-03, tol = 0.24926E+01, time = 2.73 | CG iter. 30 -- res = 0.22603E-03, tol = 0.24926E+01, time = 2.90 | CG iter. 31 -- res = 0.10908E-03, tol = 0.24926E+01, time = 2.63 | CG iter. 32 -- res = 0.52632E-04, tol = 0.24926E+01, time = 2.66 | CG iter. 33 -- res = 0.26334E-04, tol = 0.24926E+01, time = 2.51 | CG iter. 34 -- res = 0.12785E-04, tol = 0.24926E+01, time = 2.49 | CG iter. 35 -- res = 0.63376E-05, tol = 0.24926E+01, time = 2.41 | CG iter. 36 -- res = 0.29486E-05, tol = 0.24926E+01, time = 2.51 | CG iter. 37 -- res = 0.13564E-05, tol = 0.24926E+01, time = 2.58 | CG iter. 38 -- res = 0.65897E-06, tol = 0.24926E+01, time = 2.44 | CG iter. 39 -- res = 0.32492E-06, tol = 0.24926E+01, time = 2.27 | CG iter. 40 -- res = 0.16556E-06, tol = 0.24926E+01, time = 2.20 | CG iter. 41 -- res = 0.78735E-07, tol = 0.24926E+01, time = 2.57 | CG iter. 42 -- res = 0.38184E-07, tol = 0.24926E+01, time = 2.65 | CG iter. 43 -- res = 0.17086E-07, tol = 0.24926E+01, time = 2.52 | CG iter. 44 -- res = 0.77196E-08, tol = 0.24926E+01, time = 2.51 | CG iter. 45 -- res = 0.37845E-08, tol = 0.24926E+01, time = 2.34 | CG iter. 46 -- res = 0.18835E-08, tol = 0.24926E+01, time = 2.62 | CG iter. 47 -- res = 0.96941E-09, tol = 0.24926E+01, time = 2.33 | CG iter. 48 -- res = 0.45536E-09, tol = 0.24926E+01, time = 2.40 | CG iter. 49 -- res = 0.20565E-09, tol = 0.24926E+01, time = 2.63 | CG iter. 50 -- res = 0.92962E-10, tol = 0.24926E+01, time = 2.43 | Final CG iter 51 -- res = 0.92962E-10, tol = 0.24926E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.785 4.002 | New value 2.522 | Old value -2.785 | Difference 5.307 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.68 | CG iter. 1 -- res = 0.30934E+05, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.45749E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.14066E+01, tol = 0.47627E+18, time = 1.73 | CG iter. 4 -- res = 0.43570E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.27269E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8101339.440 | (Sampled value in CG: 8158980.869 ) | CPU time specind = 1129.177 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.75 | CG iter. 1 -- res = 0.70413E+08, tol = 0.57704E+04, time = 11.14 | CG iter. 2 -- res = 0.60285E+08, tol = 0.57704E+04, time = 11.02 | CG iter. 3 -- res = 0.15900E+08, tol = 0.57704E+04, time = 11.20 | CG iter. 4 -- res = 0.68801E+07, tol = 0.57704E+04, time = 10.77 | CG iter. 5 -- res = 0.41829E+07, tol = 0.57704E+04, time = 10.93 | CG iter. 6 -- res = 0.24599E+07, tol = 0.57704E+04, time = 17.47 | CG iter. 7 -- res = 0.14429E+07, tol = 0.57704E+04, time = 11.19 | CG iter. 8 -- res = 0.96316E+06, tol = 0.57704E+04, time = 11.35 | CG iter. 9 -- res = 0.62103E+06, tol = 0.57704E+04, time = 11.10 | CG iter. 10 -- res = 0.37910E+06, tol = 0.57704E+04, time = 10.90 | CG iter. 11 -- res = 0.21008E+06, tol = 0.57704E+04, time = 11.13 | CG iter. 12 -- res = 0.11746E+06, tol = 0.57704E+04, time = 10.47 | CG iter. 13 -- res = 0.68979E+05, tol = 0.57704E+04, time = 11.07 | CG iter. 14 -- res = 0.44666E+05, tol = 0.57704E+04, time = 12.64 | CG iter. 15 -- res = 0.33857E+05, tol = 0.57704E+04, time = 11.96 | CG iter. 16 -- res = 0.28853E+05, tol = 0.57704E+04, time = 10.85 | CG iter. 17 -- res = 0.25788E+05, tol = 0.57704E+04, time = 11.22 | CG iter. 18 -- res = 0.23135E+05, tol = 0.57704E+04, time = 11.13 | CG iter. 19 -- res = 0.20811E+05, tol = 0.57704E+04, time = 10.63 | CG iter. 20 -- res = 0.19282E+05, tol = 0.57704E+04, time = 11.28 | CG iter. 21 -- res = 0.18619E+05, tol = 0.57704E+04, time = 10.84 | CG iter. 22 -- res = 0.19078E+05, tol = 0.57704E+04, time = 11.30 | CG iter. 23 -- res = 0.19108E+05, tol = 0.57704E+04, time = 11.25 | CG iter. 24 -- res = 0.18571E+05, tol = 0.57704E+04, time = 11.01 | CG iter. 25 -- res = 0.16520E+05, tol = 0.57704E+04, time = 10.83 | CG iter. 26 -- res = 0.13429E+05, tol = 0.57704E+04, time = 11.14 | CG iter. 27 -- res = 0.10029E+05, tol = 0.57704E+04, time = 10.80 | CG iter. 28 -- res = 0.75604E+04, tol = 0.57704E+04, time = 10.90 | CG iter. 29 -- res = 0.60836E+04, tol = 0.57704E+04, time = 11.32 | CG iter. 30 -- res = 0.50993E+04, tol = 0.57704E+04, time = 11.41 | CG iter. 31 -- res = 0.44445E+04, tol = 0.57704E+04, time = 10.97 | CG iter. 32 -- res = 0.40255E+04, tol = 0.57704E+04, time = 10.52 | CG iter. 33 -- res = 0.35363E+04, tol = 0.57704E+04, time = 16.94 | CG iter. 34 -- res = 0.29664E+04, tol = 0.57704E+04, time = 11.22 | CG iter. 35 -- res = 0.25231E+04, tol = 0.57704E+04, time = 10.89 | CG iter. 36 -- res = 0.23039E+04, tol = 0.57704E+04, time = 10.92 | CG iter. 37 -- res = 0.22123E+04, tol = 0.57704E+04, time = 11.20 | CG iter. 38 -- res = 0.21821E+04, tol = 0.57704E+04, time = 10.56 | CG iter. 39 -- res = 0.20369E+04, tol = 0.57704E+04, time = 10.99 | CG iter. 40 -- res = 0.17752E+04, tol = 0.57704E+04, time = 11.54 | CG iter. 41 -- res = 0.14611E+04, tol = 0.57704E+04, time = 12.83 | CG iter. 42 -- res = 0.12005E+04, tol = 0.57704E+04, time = 11.10 | CG iter. 43 -- res = 0.10198E+04, tol = 0.57704E+04, time = 10.98 | CG iter. 44 -- res = 0.93081E+03, tol = 0.57704E+04, time = 10.91 | CG iter. 45 -- res = 0.86556E+03, tol = 0.57704E+04, time = 10.99 | CG iter. 46 -- res = 0.83006E+03, tol = 0.57704E+04, time = 11.27 | CG iter. 47 -- res = 0.75856E+03, tol = 0.57704E+04, time = 11.16 | CG iter. 48 -- res = 0.64440E+03, tol = 0.57704E+04, time = 10.92 | CG iter. 49 -- res = 0.55487E+03, tol = 0.57704E+04, time = 10.86 | CG iter. 50 -- res = 0.50354E+03, tol = 0.57704E+04, time = 11.28 | CG iter. 51 -- res = 0.48825E+03, tol = 0.57704E+04, time = 11.35 | CG iter. 52 -- res = 0.47777E+03, tol = 0.57704E+04, time = 10.83 | CG iter. 53 -- res = 0.45232E+03, tol = 0.57704E+04, time = 10.74 | CG iter. 54 -- res = 0.41082E+03, tol = 0.57704E+04, time = 10.90 | CG iter. 55 -- res = 0.37086E+03, tol = 0.57704E+04, time = 11.34 | CG iter. 56 -- res = 0.32731E+03, tol = 0.57704E+04, time = 10.88 | CG iter. 57 -- res = 0.28194E+03, tol = 0.57704E+04, time = 11.11 | CG iter. 58 -- res = 0.25574E+03, tol = 0.57704E+04, time = 11.05 | CG iter. 59 -- res = 0.24556E+03, tol = 0.57704E+04, time = 17.62 | CG iter. 60 -- res = 0.23324E+03, tol = 0.57704E+04, time = 10.82 | Final CG iter 61 -- res = 0.23324E+03, tol = 0.57704E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.868 ( -229.641 -2230.698 2513.409 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6508305.348 | Old band monopole 8101374.286 | Change to band monopole -1593068.938 | Change to component monopole 1593062.086 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.867 2.731 | New value -0.019 | Old value 1.867 | Difference -1.887 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.014 ( 5.642 10.067 -10.354 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.348 4.861 | New value -0.647 | Old value -0.348 | Difference -0.299 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.47 | CG iter. 1 -- res = 0.29618E+06, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.54048E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.24174E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.24257E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.18786E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6508277.355 | (Sampled value in CG: 6489205.657 ) | Chain = 1 -- chisq = 0.81482874E+09 | Chain = 1 -- wall time = 17738.030 sec Available RAM: MemAvailable: 485227032 kB Available Swap: SwapFree: 1058194912 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 267 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446495 | --> Sampling calibration, mode = relcal | relcal = 1.3424876E-02 7.4390374E-04 -1.5951081E-03 -1.2573672E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1060007 0.1241190 97046038.6458391 | BP delta = 0.1212770 0.1393953 97046036.7285827 | BP chisq diff = -1.9, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632279 | --> Sampling calibration, mode = relcal | relcal = -2.8208462E-03 -7.0424238E-04 1.6789808E-03 1.6140399E-03 -4.0919468E-04 6.4126245E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5372639 15220131.7459809 | BP delta = 0.0000000E+00 -0.5258909 15220135.6464371 | BP chisq diff = 3.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18479128075611 | --> Sampling calibration, mode = relcal | relcal = -7.5115904E-02 -5.8744598E-02 9.2108957E-02 4.1751545E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1688015E-04 4.8826113E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2132E-05 | 2: delta_r/delta_0: 9.8792E-07 | 3: delta_s/delta_0: 1.9368E-07 | 4: delta_r/delta_0: 2.1651E-08 | 5: delta_s/delta_0: 9.0718E-09 | 6: delta_r/delta_0: 1.4615E-09 | 7: delta_s/delta_0: 4.3560E-10 | 8: delta_r/delta_0: 1.4058E-10 | 9: delta_s/delta_0: 3.1139E-10 | 10: delta_r/delta_0: 9.7709E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.138365151834065E-003 2.732331456179400E-005 | BP delta = 7.5352699E-02 9.5360011E-02 50484178.6387422 | BP delta = 7.4203834E-02 9.4211146E-02 50484179.2759513 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02589048 | --> Sampling calibration, mode = relcal | relcal = -0.1066553 -9.5520146E-02 0.1449308 5.7244670E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2911913E-03 1.5392083E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5988E-05 | 2: delta_r/delta_0: 1.5993E-06 | 3: delta_s/delta_0: 2.3686E-07 | 4: delta_r/delta_0: 4.2449E-08 | 5: delta_s/delta_0: 2.6580E-08 | 6: delta_r/delta_0: 6.8966E-09 | 7: delta_s/delta_0: 5.8625E-09 | 8: delta_r/delta_0: 1.7677E-09 | 9: delta_s/delta_0: 8.4444E-10 | 10: delta_r/delta_0: 6.3906E-10 | 11: delta_s/delta_0: 1.8802E-09 | 12: delta_r/delta_0: 8.4017E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.008378596308134E-002 2.811154668797680E-005 | BP delta = -0.2873394 -0.2656199 57391532.0791090 | BP delta = -0.3019929 -0.2802734 57391531.7347436 | BP chisq diff = -0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81200564 | --> Sampling calibration, mode = relcal | relcal = 0.2952971 0.2248415 -0.2836402 -0.2364984 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.9459936E-04 4.8184963E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.3564E-04 | 2: delta_r/delta_0: 1.9054E-05 | 3: delta_s/delta_0: 3.0223E-04 | 4: delta_r/delta_0: 2.0506E-05 | 5: delta_s/delta_0: 1.1064E-05 | 6: delta_r/delta_0: 1.9219E-06 | 7: delta_s/delta_0: 5.9271E-08 | 8: delta_r/delta_0: 3.4893E-08 | 9: delta_s/delta_0: 5.2829E-07 | 10: delta_r/delta_0: 3.4177E-09 | 11: delta_s/delta_0: 8.2457E-10 | 12: delta_r/delta_0: 5.6951E-10 | 13: delta_s/delta_0: 7.7428E-10 | 14: delta_r/delta_0: 7.6163E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.044416633461587E-002 4.022754556807197E-005 | BP delta = -0.1101605 -0.1248024 72486630.2919683 | BP delta = -0.1302427 -0.1448846 72486629.4251983 | BP chisq diff = -0.9, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95883208 | --> Sampling calibration, mode = relcal | relcal = 0.1064323 0.1395416 -0.1102072 -0.1357668 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0418541E-02 1.3231919E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1930E-03 | 2: delta_r/delta_0: 2.8863E-05 | 3: delta_s/delta_0: 5.4978E-05 | 4: delta_r/delta_0: 2.3869E-06 | 5: delta_s/delta_0: 4.2727E-07 | 6: delta_r/delta_0: 1.7772E-07 | 7: delta_s/delta_0: 2.2099E-07 | 8: delta_r/delta_0: 4.8478E-08 | 9: delta_s/delta_0: 1.4466E-08 | 10: delta_r/delta_0: 7.5291E-09 | 11: delta_s/delta_0: 2.4713E-09 | 12: delta_r/delta_0: 1.6942E-09 | 13: delta_s/delta_0: 2.2479E-10 | 14: delta_r/delta_0: 1.7769E-10 | 15: delta_s/delta_0: 6.1290E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.502070041668067E-002 3.698476659948074E-005 | BP delta = 9.7702846E-02 0.2114172 72780246.8793782 | BP delta = 0.1104699 0.2241842 72780246.9243537 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.088620 | New value = -3.178059 | poltype: 2 pol: 1 CPU time specind = 1.0204077E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152526 | New value = -3.124688 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.069906 | New value = -3.072810 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156215 | New value = -3.115772 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.089988 | New value = -3.142799 | poltype: 2 pol: 2 CPU time specind = 6.1910152E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.80 | CG iter. 1 -- res = 0.13609E+08, tol = 0.99169E+01, time = 5.82 | CG iter. 2 -- res = 0.36356E+06, tol = 0.99169E+01, time = 5.90 | CG iter. 3 -- res = 0.85397E+05, tol = 0.99169E+01, time = 5.54 | CG iter. 4 -- res = 0.87990E+05, tol = 0.99169E+01, time = 5.62 | CG iter. 5 -- res = 0.94913E+05, tol = 0.99169E+01, time = 5.88 | CG iter. 6 -- res = 0.89611E+05, tol = 0.99169E+01, time = 5.73 | CG iter. 7 -- res = 0.79970E+05, tol = 0.99169E+01, time = 6.01 | CG iter. 8 -- res = 0.59703E+05, tol = 0.99169E+01, time = 5.60 | CG iter. 9 -- res = 0.46772E+05, tol = 0.99169E+01, time = 5.50 | CG iter. 10 -- res = 0.39217E+05, tol = 0.99169E+01, time = 5.54 | CG iter. 11 -- res = 0.28124E+05, tol = 0.99169E+01, time = 5.47 | CG iter. 12 -- res = 0.20359E+05, tol = 0.99169E+01, time = 5.86 | CG iter. 13 -- res = 0.17885E+05, tol = 0.99169E+01, time = 5.72 | CG iter. 14 -- res = 0.15533E+05, tol = 0.99169E+01, time = 5.61 | CG iter. 15 -- res = 0.12183E+05, tol = 0.99169E+01, time = 9.20 | CG iter. 16 -- res = 0.86879E+04, tol = 0.99169E+01, time = 8.27 | CG iter. 17 -- res = 0.63093E+04, tol = 0.99169E+01, time = 5.60 | CG iter. 18 -- res = 0.55516E+04, tol = 0.99169E+01, time = 5.74 | CG iter. 19 -- res = 0.46985E+04, tol = 0.99169E+01, time = 5.78 | CG iter. 20 -- res = 0.36487E+04, tol = 0.99169E+01, time = 6.02 | CG iter. 21 -- res = 0.27523E+04, tol = 0.99169E+01, time = 5.72 | CG iter. 22 -- res = 0.22777E+04, tol = 0.99169E+01, time = 5.57 | CG iter. 23 -- res = 0.19708E+04, tol = 0.99169E+01, time = 5.96 | CG iter. 24 -- res = 0.15887E+04, tol = 0.99169E+01, time = 5.61 | CG iter. 25 -- res = 0.11573E+04, tol = 0.99169E+01, time = 5.65 | CG iter. 26 -- res = 0.95507E+03, tol = 0.99169E+01, time = 5.74 | CG iter. 27 -- res = 0.86500E+03, tol = 0.99169E+01, time = 5.31 | CG iter. 28 -- res = 0.74964E+03, tol = 0.99169E+01, time = 5.63 | CG iter. 29 -- res = 0.59172E+03, tol = 0.99169E+01, time = 5.86 | CG iter. 30 -- res = 0.47622E+03, tol = 0.99169E+01, time = 7.53 | CG iter. 31 -- res = 0.42734E+03, tol = 0.99169E+01, time = 6.54 | CG iter. 32 -- res = 0.36847E+03, tol = 0.99169E+01, time = 5.96 | CG iter. 33 -- res = 0.29917E+03, tol = 0.99169E+01, time = 5.69 | CG iter. 34 -- res = 0.23474E+03, tol = 0.99169E+01, time = 5.83 | CG iter. 35 -- res = 0.20609E+03, tol = 0.99169E+01, time = 5.42 | CG iter. 36 -- res = 0.18808E+03, tol = 0.99169E+01, time = 5.63 | CG iter. 37 -- res = 0.15545E+03, tol = 0.99169E+01, time = 5.71 | CG iter. 38 -- res = 0.11933E+03, tol = 0.99169E+01, time = 5.87 | CG iter. 39 -- res = 0.99052E+02, tol = 0.99169E+01, time = 5.65 | CG iter. 40 -- res = 0.90368E+02, tol = 0.99169E+01, time = 5.51 | CG iter. 41 -- res = 0.75894E+02, tol = 0.99169E+01, time = 5.72 | CG iter. 42 -- res = 0.60463E+02, tol = 0.99169E+01, time = 5.96 | CG iter. 43 -- res = 0.50543E+02, tol = 0.99169E+01, time = 5.66 | CG iter. 44 -- res = 0.43775E+02, tol = 0.99169E+01, time = 5.65 | CG iter. 45 -- res = 0.36412E+02, tol = 0.99169E+01, time = 6.07 | CG iter. 46 -- res = 0.28101E+02, tol = 0.99169E+01, time = 5.67 | CG iter. 47 -- res = 0.22683E+02, tol = 0.99169E+01, time = 5.63 | CG iter. 48 -- res = 0.19121E+02, tol = 0.99169E+01, time = 5.81 | CG iter. 49 -- res = 0.16458E+02, tol = 0.99169E+01, time = 6.25 | CG iter. 50 -- res = 0.13113E+02, tol = 0.99169E+01, time = 5.56 | Final CG iter 51 -- res = 0.13113E+02, tol = 0.99169E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10294897.184 | Old band monopole 6508305.348 | Change to band monopole 3786591.836 | Change to component monopole -3786575.549 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.80 | CG iter. 1 -- res = 0.16313E+07, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.45442E+03, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.57528E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.49424E-01, tol = 0.47627E+18, time = 2.24 | Final CG iter 5 -- res = 0.14082E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10294852.903 | (Sampled value in CG: 10198114.969 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.549932 | New value = 1.533416 | poltype: 2 pol: 1 CPU time specind = 7.5122833E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.544586 | New value = 1.518245 | poltype: 2 pol: 2 CPU time specind = 4.0719509E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.90 | CG iter. 1 -- res = 0.24065E+08, tol = 0.47618E+04, time = 6.40 | CG iter. 2 -- res = 0.53796E+07, tol = 0.47618E+04, time = 6.64 | CG iter. 3 -- res = 0.85569E+06, tol = 0.47618E+04, time = 6.38 | CG iter. 4 -- res = 0.34909E+06, tol = 0.47618E+04, time = 6.49 | CG iter. 5 -- res = 0.14795E+06, tol = 0.47618E+04, time = 6.36 | CG iter. 6 -- res = 0.78153E+05, tol = 0.47618E+04, time = 6.44 | CG iter. 7 -- res = 0.43197E+05, tol = 0.47618E+04, time = 6.28 | CG iter. 8 -- res = 0.20783E+05, tol = 0.47618E+04, time = 7.12 | CG iter. 9 -- res = 0.92343E+04, tol = 0.47618E+04, time = 6.66 | CG iter. 10 -- res = 0.37245E+04, tol = 0.47618E+04, time = 7.15 | CG iter. 11 -- res = 0.16676E+04, tol = 0.47618E+04, time = 8.12 | CG iter. 12 -- res = 0.85919E+03, tol = 0.47618E+04, time = 7.15 | CG iter. 13 -- res = 0.48188E+03, tol = 0.47618E+04, time = 6.47 | CG iter. 14 -- res = 0.27143E+03, tol = 0.47618E+04, time = 6.52 | CG iter. 15 -- res = 0.14325E+03, tol = 0.47618E+04, time = 6.85 | CG iter. 16 -- res = 0.69035E+02, tol = 0.47618E+04, time = 6.50 | CG iter. 17 -- res = 0.31456E+02, tol = 0.47618E+04, time = 6.70 | CG iter. 18 -- res = 0.15728E+02, tol = 0.47618E+04, time = 6.55 | CG iter. 19 -- res = 0.85929E+01, tol = 0.47618E+04, time = 6.50 | CG iter. 20 -- res = 0.47997E+01, tol = 0.47618E+04, time = 6.61 | CG iter. 21 -- res = 0.26292E+01, tol = 0.47618E+04, time = 6.60 | CG iter. 22 -- res = 0.13739E+01, tol = 0.47618E+04, time = 6.32 | CG iter. 23 -- res = 0.69974E+00, tol = 0.47618E+04, time = 6.48 | CG iter. 24 -- res = 0.35982E+00, tol = 0.47618E+04, time = 6.78 | CG iter. 25 -- res = 0.19206E+00, tol = 0.47618E+04, time = 6.50 | CG iter. 26 -- res = 0.10992E+00, tol = 0.47618E+04, time = 6.32 | CG iter. 27 -- res = 0.61431E-01, tol = 0.47618E+04, time = 6.58 | CG iter. 28 -- res = 0.33354E-01, tol = 0.47618E+04, time = 6.79 | CG iter. 29 -- res = 0.17363E-01, tol = 0.47618E+04, time = 6.33 | CG iter. 30 -- res = 0.90503E-02, tol = 0.47618E+04, time = 6.77 | CG iter. 31 -- res = 0.49393E-02, tol = 0.47618E+04, time = 6.32 | CG iter. 32 -- res = 0.27682E-02, tol = 0.47618E+04, time = 6.34 | CG iter. 33 -- res = 0.15749E-02, tol = 0.47618E+04, time = 6.36 | CG iter. 34 -- res = 0.85647E-03, tol = 0.47618E+04, time = 6.59 | CG iter. 35 -- res = 0.44027E-03, tol = 0.47618E+04, time = 6.61 | Final CG iter 36 -- res = 0.44027E-03, tol = 0.47618E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.065 2.719 | New value 0.276 | Old value -0.065 | Difference 0.341 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.82 | CG iter. 1 -- res = 0.17268E+05, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.48269E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.16553E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.14766E-03, tol = 0.47627E+18, time = 8.35 | Final CG iter 5 -- res = 0.21407E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10294852.903 | (Sampled value in CG: 10195625.842 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.539558 | New value = -3.667702 | poltype: 1 pol: 1 CPU time specind = 1.0958910E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.79 | CG iter. 1 -- res = 0.38077E+07, tol = 0.33377E+01, time = 2.69 | CG iter. 2 -- res = 0.15409E+07, tol = 0.33377E+01, time = 2.80 | CG iter. 3 -- res = 0.33812E+06, tol = 0.33377E+01, time = 2.78 | CG iter. 4 -- res = 0.16550E+06, tol = 0.33377E+01, time = 2.96 | CG iter. 5 -- res = 0.97852E+05, tol = 0.33377E+01, time = 2.85 | CG iter. 6 -- res = 0.41680E+05, tol = 0.33377E+01, time = 2.82 | CG iter. 7 -- res = 0.12372E+05, tol = 0.33377E+01, time = 2.89 | CG iter. 8 -- res = 0.51981E+04, tol = 0.33377E+01, time = 2.72 | CG iter. 9 -- res = 0.24257E+04, tol = 0.33377E+01, time = 2.53 | CG iter. 10 -- res = 0.96699E+03, tol = 0.33377E+01, time = 2.57 | CG iter. 11 -- res = 0.40270E+03, tol = 0.33377E+01, time = 2.77 | CG iter. 12 -- res = 0.20434E+03, tol = 0.33377E+01, time = 3.01 | CG iter. 13 -- res = 0.10162E+03, tol = 0.33377E+01, time = 4.06 | CG iter. 14 -- res = 0.48233E+02, tol = 0.33377E+01, time = 7.53 | CG iter. 15 -- res = 0.21555E+02, tol = 0.33377E+01, time = 2.92 | CG iter. 16 -- res = 0.92147E+01, tol = 0.33377E+01, time = 2.93 | CG iter. 17 -- res = 0.39629E+01, tol = 0.33377E+01, time = 3.00 | CG iter. 18 -- res = 0.18910E+01, tol = 0.33377E+01, time = 2.96 | CG iter. 19 -- res = 0.96413E+00, tol = 0.33377E+01, time = 2.83 | CG iter. 20 -- res = 0.49997E+00, tol = 0.33377E+01, time = 2.85 | CG iter. 21 -- res = 0.22474E+00, tol = 0.33377E+01, time = 2.90 | CG iter. 22 -- res = 0.93123E-01, tol = 0.33377E+01, time = 2.57 | CG iter. 23 -- res = 0.41277E-01, tol = 0.33377E+01, time = 3.00 | CG iter. 24 -- res = 0.20266E-01, tol = 0.33377E+01, time = 2.74 | CG iter. 25 -- res = 0.10422E-01, tol = 0.33377E+01, time = 2.77 | CG iter. 26 -- res = 0.51020E-02, tol = 0.33377E+01, time = 2.89 | CG iter. 27 -- res = 0.24050E-02, tol = 0.33377E+01, time = 2.64 | CG iter. 28 -- res = 0.11283E-02, tol = 0.33377E+01, time = 2.61 | CG iter. 29 -- res = 0.49475E-03, tol = 0.33377E+01, time = 2.72 | CG iter. 30 -- res = 0.23856E-03, tol = 0.33377E+01, time = 2.67 | CG iter. 31 -- res = 0.11769E-03, tol = 0.33377E+01, time = 2.64 | CG iter. 32 -- res = 0.60680E-04, tol = 0.33377E+01, time = 2.54 | CG iter. 33 -- res = 0.29591E-04, tol = 0.33377E+01, time = 2.83 | CG iter. 34 -- res = 0.13323E-04, tol = 0.33377E+01, time = 2.57 | CG iter. 35 -- res = 0.64706E-05, tol = 0.33377E+01, time = 2.85 | CG iter. 36 -- res = 0.29759E-05, tol = 0.33377E+01, time = 3.01 | CG iter. 37 -- res = 0.14621E-05, tol = 0.33377E+01, time = 2.51 | CG iter. 38 -- res = 0.72375E-06, tol = 0.33377E+01, time = 2.65 | CG iter. 39 -- res = 0.34679E-06, tol = 0.33377E+01, time = 2.61 | CG iter. 40 -- res = 0.15954E-06, tol = 0.33377E+01, time = 2.88 | CG iter. 41 -- res = 0.76078E-07, tol = 0.33377E+01, time = 2.93 | CG iter. 42 -- res = 0.35971E-07, tol = 0.33377E+01, time = 2.87 | CG iter. 43 -- res = 0.16834E-07, tol = 0.33377E+01, time = 2.81 | CG iter. 44 -- res = 0.83198E-08, tol = 0.33377E+01, time = 3.70 | CG iter. 45 -- res = 0.40492E-08, tol = 0.33377E+01, time = 3.55 | CG iter. 46 -- res = 0.19022E-08, tol = 0.33377E+01, time = 2.99 | CG iter. 47 -- res = 0.92776E-09, tol = 0.33377E+01, time = 3.27 | CG iter. 48 -- res = 0.43379E-09, tol = 0.33377E+01, time = 2.72 | CG iter. 49 -- res = 0.20576E-09, tol = 0.33377E+01, time = 2.71 | CG iter. 50 -- res = 0.96583E-10, tol = 0.33377E+01, time = 2.71 | Final CG iter 51 -- res = 0.96583E-10, tol = 0.33377E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.702 6.560 | New value 7.608 | Old value -7.702 | Difference 15.310 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.61 | CG iter. 1 -- res = 0.24144E+06, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.11226E+03, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.27811E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.16083E-01, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.47698E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10294852.903 | (Sampled value in CG: 10222777.583 ) | CPU time specind = 1200.709 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.71 | CG iter. 1 -- res = 0.68612E+08, tol = 0.57866E+04, time = 11.86 | CG iter. 2 -- res = 0.58474E+08, tol = 0.57866E+04, time = 12.17 | CG iter. 3 -- res = 0.15404E+08, tol = 0.57866E+04, time = 12.18 | CG iter. 4 -- res = 0.65838E+07, tol = 0.57866E+04, time = 11.67 | CG iter. 5 -- res = 0.39948E+07, tol = 0.57866E+04, time = 11.71 | CG iter. 6 -- res = 0.23392E+07, tol = 0.57866E+04, time = 11.42 | CG iter. 7 -- res = 0.13664E+07, tol = 0.57866E+04, time = 11.79 | CG iter. 8 -- res = 0.91241E+06, tol = 0.57866E+04, time = 11.87 | CG iter. 9 -- res = 0.59124E+06, tol = 0.57866E+04, time = 18.79 | CG iter. 10 -- res = 0.37300E+06, tol = 0.57866E+04, time = 11.41 | CG iter. 11 -- res = 0.20910E+06, tol = 0.57866E+04, time = 12.04 | CG iter. 12 -- res = 0.11595E+06, tol = 0.57866E+04, time = 11.89 | CG iter. 13 -- res = 0.69535E+05, tol = 0.57866E+04, time = 11.42 | CG iter. 14 -- res = 0.48464E+05, tol = 0.57866E+04, time = 12.18 | CG iter. 15 -- res = 0.40085E+05, tol = 0.57866E+04, time = 12.07 | CG iter. 16 -- res = 0.38006E+05, tol = 0.57866E+04, time = 12.46 | CG iter. 17 -- res = 0.35885E+05, tol = 0.57866E+04, time = 12.98 | CG iter. 18 -- res = 0.32632E+05, tol = 0.57866E+04, time = 11.92 | CG iter. 19 -- res = 0.30045E+05, tol = 0.57866E+04, time = 11.86 | CG iter. 20 -- res = 0.27931E+05, tol = 0.57866E+04, time = 11.70 | CG iter. 21 -- res = 0.26715E+05, tol = 0.57866E+04, time = 11.73 | CG iter. 22 -- res = 0.26661E+05, tol = 0.57866E+04, time = 12.33 | CG iter. 23 -- res = 0.26340E+05, tol = 0.57866E+04, time = 12.04 | CG iter. 24 -- res = 0.24222E+05, tol = 0.57866E+04, time = 11.67 | CG iter. 25 -- res = 0.20248E+05, tol = 0.57866E+04, time = 12.80 | CG iter. 26 -- res = 0.15430E+05, tol = 0.57866E+04, time = 12.05 | CG iter. 27 -- res = 0.11360E+05, tol = 0.57866E+04, time = 11.85 | CG iter. 28 -- res = 0.85878E+04, tol = 0.57866E+04, time = 12.09 | CG iter. 29 -- res = 0.71137E+04, tol = 0.57866E+04, time = 12.06 | CG iter. 30 -- res = 0.64514E+04, tol = 0.57866E+04, time = 12.20 | CG iter. 31 -- res = 0.59019E+04, tol = 0.57866E+04, time = 11.84 | CG iter. 32 -- res = 0.53635E+04, tol = 0.57866E+04, time = 12.09 | CG iter. 33 -- res = 0.46595E+04, tol = 0.57866E+04, time = 12.24 | CG iter. 34 -- res = 0.39388E+04, tol = 0.57866E+04, time = 17.51 | CG iter. 35 -- res = 0.34105E+04, tol = 0.57866E+04, time = 12.26 | CG iter. 36 -- res = 0.31114E+04, tol = 0.57866E+04, time = 11.50 | CG iter. 37 -- res = 0.29839E+04, tol = 0.57866E+04, time = 12.00 | CG iter. 38 -- res = 0.28299E+04, tol = 0.57866E+04, time = 11.82 | CG iter. 39 -- res = 0.24544E+04, tol = 0.57866E+04, time = 11.73 | CG iter. 40 -- res = 0.20223E+04, tol = 0.57866E+04, time = 11.58 | CG iter. 41 -- res = 0.16159E+04, tol = 0.57866E+04, time = 13.31 | CG iter. 42 -- res = 0.13402E+04, tol = 0.57866E+04, time = 11.74 | CG iter. 43 -- res = 0.11867E+04, tol = 0.57866E+04, time = 11.88 | CG iter. 44 -- res = 0.11119E+04, tol = 0.57866E+04, time = 11.96 | CG iter. 45 -- res = 0.10580E+04, tol = 0.57866E+04, time = 11.73 | CG iter. 46 -- res = 0.98140E+03, tol = 0.57866E+04, time = 11.88 | CG iter. 47 -- res = 0.89913E+03, tol = 0.57866E+04, time = 11.83 | CG iter. 48 -- res = 0.80799E+03, tol = 0.57866E+04, time = 12.09 | CG iter. 49 -- res = 0.74702E+03, tol = 0.57866E+04, time = 11.63 | CG iter. 50 -- res = 0.68706E+03, tol = 0.57866E+04, time = 11.74 | CG iter. 51 -- res = 0.63007E+03, tol = 0.57866E+04, time = 11.96 | CG iter. 52 -- res = 0.58607E+03, tol = 0.57866E+04, time = 11.86 | CG iter. 53 -- res = 0.54543E+03, tol = 0.57866E+04, time = 11.68 | CG iter. 54 -- res = 0.48923E+03, tol = 0.57866E+04, time = 11.95 | CG iter. 55 -- res = 0.42616E+03, tol = 0.57866E+04, time = 12.18 | CG iter. 56 -- res = 0.37038E+03, tol = 0.57866E+04, time = 12.01 | CG iter. 57 -- res = 0.33508E+03, tol = 0.57866E+04, time = 11.87 | CG iter. 58 -- res = 0.31531E+03, tol = 0.57866E+04, time = 18.19 | CG iter. 59 -- res = 0.30545E+03, tol = 0.57866E+04, time = 12.26 | CG iter. 60 -- res = 0.29404E+03, tol = 0.57866E+04, time = 11.70 | Final CG iter 61 -- res = 0.29404E+03, tol = 0.57866E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.753 ( -229.780 -2230.348 2512.765 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7308698.973 | Old band monopole 10294897.184 | Change to band monopole -2986198.210 | Change to component monopole 2986185.366 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.311 2.742 | New value 4.927 | Old value 0.311 | Difference 4.616 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.429 ( 7.000 9.362 -8.302 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 19.334 5.968 | New value -10.359 | Old value 19.334 | Difference -29.693 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.80 | CG iter. 1 -- res = 0.12852E+07, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.58981E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.24943E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.35022E-02, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.20179E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7308667.537 | (Sampled value in CG: 7284388.185 ) | Chain = 1 -- chisq = 0.81519271E+09 | Chain = 1 -- wall time = 5713.927 sec Available RAM: MemAvailable: 378716388 kB Available Swap: SwapFree: 1125964256 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 268 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447395 | --> Sampling calibration, mode = relcal | relcal = 1.3437443E-02 7.4530649E-04 -1.6106148E-03 -1.2572135E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1212770 0.1393953 9407259.59062365 | BP delta = 0.1212770 0.1405775 9407273.52942239 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632170 | --> Sampling calibration, mode = relcal | relcal = -2.8193220E-03 -7.0425728E-04 1.6776491E-03 1.6131776E-03 -4.0640717E-04 6.3915987E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5258909 15222836.4532507 | BP delta = 0.0000000E+00 -0.5327692 15222832.1463472 | BP chisq diff = -4.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18335768091939 | --> Sampling calibration, mode = relcal | relcal = -7.4450202E-02 -5.8261137E-02 9.1437489E-02 4.1273851E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4825199E-04 3.5941750E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6302E-05 | 2: delta_r/delta_0: 9.0543E-07 | 3: delta_s/delta_0: 2.4193E-07 | 4: delta_r/delta_0: 1.2391E-08 | 5: delta_s/delta_0: 7.4334E-09 | 6: delta_r/delta_0: 2.0297E-09 | 7: delta_s/delta_0: 9.3134E-10 | 8: delta_r/delta_0: 7.4332E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.083568918747868E-003 2.735739019592736E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6304E-05 | 2: delta_r/delta_0: 9.0547E-07 | 3: delta_s/delta_0: 2.4193E-07 | 4: delta_r/delta_0: 1.2390E-08 | 5: delta_s/delta_0: 7.4324E-09 | 6: delta_r/delta_0: 2.0294E-09 | 7: delta_s/delta_0: 9.3168E-10 | 8: delta_r/delta_0: 7.4326E-11 | Reached bicg-stab tolerance | BP delta = 7.5352699E-02 9.5360011E-02 3628628.90307782 | BP delta = 7.5352699E-02 9.4856985E-02 3630466.41873970 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583505 | --> Sampling calibration, mode = relcal | relcal = -0.1066068 -9.5608205E-02 0.1449024 5.7312630E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0650420E-03 1.6355856E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4784E-05 | 2: delta_r/delta_0: 1.2619E-06 | 3: delta_s/delta_0: 2.4607E-07 | 4: delta_r/delta_0: 4.2008E-08 | 5: delta_s/delta_0: 1.9790E-08 | 6: delta_r/delta_0: 6.4382E-09 | 7: delta_s/delta_0: 5.6794E-09 | 8: delta_r/delta_0: 1.5013E-09 | 9: delta_s/delta_0: 7.5850E-10 | 10: delta_r/delta_0: 5.7134E-10 | 11: delta_s/delta_0: 4.5003E-10 | 12: delta_r/delta_0: 1.1998E-10 | 13: delta_s/delta_0: 9.5402E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.776152523664976E-003 2.811295756694198E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.4783E-05 | 2: delta_r/delta_0: 1.2618E-06 | 3: delta_s/delta_0: 2.4606E-07 | 4: delta_r/delta_0: 4.1990E-08 | 5: delta_s/delta_0: 1.9805E-08 | 6: delta_r/delta_0: 6.4382E-09 | 7: delta_s/delta_0: 5.6833E-09 | 8: delta_r/delta_0: 1.5012E-09 | 9: delta_s/delta_0: 7.5843E-10 | 10: delta_r/delta_0: 5.7131E-10 | 11: delta_s/delta_0: 4.5004E-10 | 12: delta_r/delta_0: 1.1994E-10 | 13: delta_s/delta_0: 9.5281E-11 | Reached bicg-stab tolerance | BP delta = -0.3019929 -0.2802734 2841633.62513896 | BP delta = -0.3019929 -0.2820852 2841680.05855789 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81191362 | --> Sampling calibration, mode = relcal | relcal = 0.2952998 0.2247731 -0.2836658 -0.2364071 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.6049216E-04 4.8998878E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9730E-02 | 2: delta_r/delta_0: 9.3219E-04 | 3: delta_s/delta_0: 2.1578E-04 | 4: delta_r/delta_0: 1.8287E-05 | 5: delta_s/delta_0: 5.9057E-06 | 6: delta_r/delta_0: 7.8052E-07 | 7: delta_s/delta_0: 3.9908E-07 | 8: delta_r/delta_0: 1.2306E-07 | 9: delta_s/delta_0: 1.5915E-05 | 10: delta_r/delta_0: 2.6509E-07 | 11: delta_s/delta_0: 4.6738E-08 | 12: delta_r/delta_0: 9.6300E-09 | 13: delta_s/delta_0: 1.8253E-07 | 14: delta_r/delta_0: 3.9007E-08 | 15: delta_s/delta_0: 1.1565E-09 | 16: delta_r/delta_0: 2.3202E-10 | 17: delta_s/delta_0: 1.4632E-10 | 18: delta_r/delta_0: 4.5336E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.672349586737526E-002 4.023222679054388E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.9627E-02 | 2: delta_r/delta_0: 9.2977E-04 | 3: delta_s/delta_0: 2.1514E-04 | 4: delta_r/delta_0: 1.8236E-05 | 5: delta_s/delta_0: 5.9116E-06 | 6: delta_r/delta_0: 7.8220E-07 | 7: delta_s/delta_0: 3.9951E-07 | 8: delta_r/delta_0: 1.2219E-07 | 9: delta_s/delta_0: 1.5298E-05 | 10: delta_r/delta_0: 2.6312E-07 | 11: delta_s/delta_0: 4.6828E-08 | 12: delta_r/delta_0: 9.6463E-09 | 13: delta_s/delta_0: 1.8425E-07 | 14: delta_r/delta_0: 3.9332E-08 | 15: delta_s/delta_0: 1.1575E-09 | 16: delta_r/delta_0: 2.3190E-10 | 17: delta_s/delta_0: 1.3824E-10 | 18: delta_r/delta_0: 4.5146E-11 | Reached bicg-stab tolerance | BP delta = -0.1302427 -0.1448846 2827260.88126977 | BP delta = -0.1302427 -0.1425268 2827290.31181939 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95877408 | --> Sampling calibration, mode = relcal | relcal = 0.1064659 0.1394945 -0.1102179 -0.1357425 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0360033E-02 1.3145760E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1034E-04 | 2: delta_r/delta_0: 5.4334E-06 | 3: delta_s/delta_0: 3.8874E-06 | 4: delta_r/delta_0: 6.7317E-07 | 5: delta_s/delta_0: 2.1389E-07 | 6: delta_r/delta_0: 1.1792E-07 | 7: delta_s/delta_0: 4.2153E-07 | 8: delta_r/delta_0: 2.5613E-08 | 9: delta_s/delta_0: 2.4746E-07 | 10: delta_r/delta_0: 1.2170E-07 | 11: delta_s/delta_0: 2.2111E-09 | 12: delta_r/delta_0: 1.5054E-09 | 13: delta_s/delta_0: 5.0478E-10 | 14: delta_r/delta_0: 3.6899E-10 | 15: delta_s/delta_0: 6.4687E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.958992765274620E-002 3.698651005487372E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1033E-04 | 2: delta_r/delta_0: 5.4333E-06 | 3: delta_s/delta_0: 3.8874E-06 | 4: delta_r/delta_0: 6.7319E-07 | 5: delta_s/delta_0: 2.1390E-07 | 6: delta_r/delta_0: 1.1793E-07 | 7: delta_s/delta_0: 4.2164E-07 | 8: delta_r/delta_0: 2.5612E-08 | 9: delta_s/delta_0: 2.4513E-07 | 10: delta_r/delta_0: 1.2077E-07 | 11: delta_s/delta_0: 2.2085E-09 | 12: delta_r/delta_0: 1.5033E-09 | 13: delta_s/delta_0: 5.0464E-10 | 14: delta_r/delta_0: 3.6901E-10 | 15: delta_s/delta_0: 6.4781E-11 | Reached bicg-stab tolerance | BP delta = 0.1104699 0.2241842 3003712.12663973 | BP delta = 0.1104699 0.2196697 3003688.45026677 | BP chisq diff = -23.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178059 | New value = -3.031793 | poltype: 2 pol: 1 CPU time specind = 1.0246038E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124688 | New value = -3.092019 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.072810 | New value = -3.139363 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115772 | New value = -3.123858 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142799 | New value = -3.227499 | poltype: 2 pol: 2 CPU time specind = 5.4700375E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.71 | CG iter. 1 -- res = 0.14662E+08, tol = 0.93610E+01, time = 5.56 | CG iter. 2 -- res = 0.75914E+06, tol = 0.93610E+01, time = 5.27 | CG iter. 3 -- res = 0.74609E+06, tol = 0.93610E+01, time = 5.63 | CG iter. 4 -- res = 0.11887E+07, tol = 0.93610E+01, time = 5.38 | CG iter. 5 -- res = 0.97138E+06, tol = 0.93610E+01, time = 5.59 | CG iter. 6 -- res = 0.56863E+06, tol = 0.93610E+01, time = 5.67 | CG iter. 7 -- res = 0.35591E+06, tol = 0.93610E+01, time = 5.49 | CG iter. 8 -- res = 0.29445E+06, tol = 0.93610E+01, time = 5.74 | CG iter. 9 -- res = 0.23843E+06, tol = 0.93610E+01, time = 5.89 | CG iter. 10 -- res = 0.18312E+06, tol = 0.93610E+01, time = 5.36 | CG iter. 11 -- res = 0.12869E+06, tol = 0.93610E+01, time = 5.59 | CG iter. 12 -- res = 0.81159E+05, tol = 0.93610E+01, time = 5.54 | CG iter. 13 -- res = 0.64019E+05, tol = 0.93610E+01, time = 5.30 | CG iter. 14 -- res = 0.53142E+05, tol = 0.93610E+01, time = 5.94 | CG iter. 15 -- res = 0.35495E+05, tol = 0.93610E+01, time = 5.57 | CG iter. 16 -- res = 0.22277E+05, tol = 0.93610E+01, time = 6.31 | CG iter. 17 -- res = 0.17331E+05, tol = 0.93610E+01, time = 5.90 | CG iter. 18 -- res = 0.14920E+05, tol = 0.93610E+01, time = 5.38 | CG iter. 19 -- res = 0.11608E+05, tol = 0.93610E+01, time = 5.38 | CG iter. 20 -- res = 0.75914E+04, tol = 0.93610E+01, time = 5.82 | CG iter. 21 -- res = 0.54118E+04, tol = 0.93610E+01, time = 5.55 | CG iter. 22 -- res = 0.45386E+04, tol = 0.93610E+01, time = 5.80 | CG iter. 23 -- res = 0.36657E+04, tol = 0.93610E+01, time = 5.41 | CG iter. 24 -- res = 0.25451E+04, tol = 0.93610E+01, time = 5.21 | CG iter. 25 -- res = 0.17472E+04, tol = 0.93610E+01, time = 5.83 | CG iter. 26 -- res = 0.14173E+04, tol = 0.93610E+01, time = 5.73 | CG iter. 27 -- res = 0.11532E+04, tol = 0.93610E+01, time = 5.75 | CG iter. 28 -- res = 0.82106E+03, tol = 0.93610E+01, time = 5.50 | CG iter. 29 -- res = 0.55271E+03, tol = 0.93610E+01, time = 5.91 | CG iter. 30 -- res = 0.41077E+03, tol = 0.93610E+01, time = 5.92 | CG iter. 31 -- res = 0.33920E+03, tol = 0.93610E+01, time = 5.52 | CG iter. 32 -- res = 0.25351E+03, tol = 0.93610E+01, time = 5.66 | CG iter. 33 -- res = 0.17640E+03, tol = 0.93610E+01, time = 7.95 | CG iter. 34 -- res = 0.12342E+03, tol = 0.93610E+01, time = 13.34 | CG iter. 35 -- res = 0.97202E+02, tol = 0.93610E+01, time = 5.84 | CG iter. 36 -- res = 0.73739E+02, tol = 0.93610E+01, time = 5.98 | CG iter. 37 -- res = 0.50771E+02, tol = 0.93610E+01, time = 5.49 | CG iter. 38 -- res = 0.35606E+02, tol = 0.93610E+01, time = 5.82 | CG iter. 39 -- res = 0.26655E+02, tol = 0.93610E+01, time = 5.52 | CG iter. 40 -- res = 0.21134E+02, tol = 0.93610E+01, time = 5.43 | CG iter. 41 -- res = 0.15278E+02, tol = 0.93610E+01, time = 5.74 | CG iter. 42 -- res = 0.10445E+02, tol = 0.93610E+01, time = 5.62 | CG iter. 43 -- res = 0.74373E+01, tol = 0.93610E+01, time = 5.86 | CG iter. 44 -- res = 0.56060E+01, tol = 0.93610E+01, time = 5.33 | CG iter. 45 -- res = 0.40468E+01, tol = 0.93610E+01, time = 5.38 | CG iter. 46 -- res = 0.27028E+01, tol = 0.93610E+01, time = 6.00 | CG iter. 47 -- res = 0.18395E+01, tol = 0.93610E+01, time = 5.65 | CG iter. 48 -- res = 0.13304E+01, tol = 0.93610E+01, time = 7.11 | CG iter. 49 -- res = 0.98493E+00, tol = 0.93610E+01, time = 6.38 | CG iter. 50 -- res = 0.68953E+00, tol = 0.93610E+01, time = 5.73 | Final CG iter 51 -- res = 0.68953E+00, tol = 0.93610E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9314403.874 | Old band monopole 7308698.973 | Change to band monopole 2005704.901 | Change to component monopole -2005696.274 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.60 | CG iter. 1 -- res = 0.11295E+07, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.10579E+04, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.42919E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.13400E+00, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.10825E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9314363.811 | (Sampled value in CG: 9611822.707 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.533416 | New value = 1.484131 | poltype: 2 pol: 1 CPU time specind = 1.5093088E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518245 | New value = 1.456020 | poltype: 2 pol: 2 CPU time specind = 4.3981075E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.50 | CG iter. 1 -- res = 0.24488E+08, tol = 0.47585E+04, time = 6.49 | CG iter. 2 -- res = 0.53752E+07, tol = 0.47585E+04, time = 6.31 | CG iter. 3 -- res = 0.85378E+06, tol = 0.47585E+04, time = 6.24 | CG iter. 4 -- res = 0.35597E+06, tol = 0.47585E+04, time = 6.17 | CG iter. 5 -- res = 0.15113E+06, tol = 0.47585E+04, time = 6.09 | CG iter. 6 -- res = 0.79567E+05, tol = 0.47585E+04, time = 6.36 | CG iter. 7 -- res = 0.43958E+05, tol = 0.47585E+04, time = 6.04 | CG iter. 8 -- res = 0.21081E+05, tol = 0.47585E+04, time = 6.94 | CG iter. 9 -- res = 0.93284E+04, tol = 0.47585E+04, time = 6.08 | CG iter. 10 -- res = 0.38339E+04, tol = 0.47585E+04, time = 6.46 | CG iter. 11 -- res = 0.17013E+04, tol = 0.47585E+04, time = 6.35 | CG iter. 12 -- res = 0.86952E+03, tol = 0.47585E+04, time = 6.28 | CG iter. 13 -- res = 0.49562E+03, tol = 0.47585E+04, time = 12.53 | CG iter. 14 -- res = 0.27763E+03, tol = 0.47585E+04, time = 6.47 | CG iter. 15 -- res = 0.14024E+03, tol = 0.47585E+04, time = 6.31 | CG iter. 16 -- res = 0.68171E+02, tol = 0.47585E+04, time = 6.20 | CG iter. 17 -- res = 0.32715E+02, tol = 0.47585E+04, time = 6.85 | CG iter. 18 -- res = 0.16606E+02, tol = 0.47585E+04, time = 6.56 | CG iter. 19 -- res = 0.89647E+01, tol = 0.47585E+04, time = 6.42 | CG iter. 20 -- res = 0.50153E+01, tol = 0.47585E+04, time = 6.34 | CG iter. 21 -- res = 0.27353E+01, tol = 0.47585E+04, time = 6.73 | CG iter. 22 -- res = 0.13949E+01, tol = 0.47585E+04, time = 6.09 | CG iter. 23 -- res = 0.70796E+00, tol = 0.47585E+04, time = 6.29 | CG iter. 24 -- res = 0.36739E+00, tol = 0.47585E+04, time = 6.27 | CG iter. 25 -- res = 0.19982E+00, tol = 0.47585E+04, time = 6.20 | CG iter. 26 -- res = 0.11357E+00, tol = 0.47585E+04, time = 7.79 | CG iter. 27 -- res = 0.62786E-01, tol = 0.47585E+04, time = 6.75 | CG iter. 28 -- res = 0.34213E-01, tol = 0.47585E+04, time = 6.96 | CG iter. 29 -- res = 0.17928E-01, tol = 0.47585E+04, time = 6.43 | CG iter. 30 -- res = 0.92539E-02, tol = 0.47585E+04, time = 6.34 | CG iter. 31 -- res = 0.51677E-02, tol = 0.47585E+04, time = 6.02 | CG iter. 32 -- res = 0.29762E-02, tol = 0.47585E+04, time = 6.27 | CG iter. 33 -- res = 0.17126E-02, tol = 0.47585E+04, time = 6.36 | CG iter. 34 -- res = 0.92834E-03, tol = 0.47585E+04, time = 6.71 | CG iter. 35 -- res = 0.48207E-03, tol = 0.47585E+04, time = 6.15 | Final CG iter 36 -- res = 0.48207E-03, tol = 0.47585E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.985 2.754 | New value 3.775 | Old value 4.985 | Difference -1.211 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.54 | CG iter. 1 -- res = 0.17727E+06, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.43449E+03, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.29689E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.11692E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.14524E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9314363.811 | (Sampled value in CG: 9612986.920 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.667702 | New value = -3.724748 | poltype: 1 pol: 1 CPU time specind = 1.0614157E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.76 | CG iter. 1 -- res = 0.64865E+07, tol = 0.21154E+01, time = 2.60 | CG iter. 2 -- res = 0.35065E+07, tol = 0.21154E+01, time = 2.61 | CG iter. 3 -- res = 0.73582E+06, tol = 0.21154E+01, time = 2.73 | CG iter. 4 -- res = 0.34362E+06, tol = 0.21154E+01, time = 2.93 | CG iter. 5 -- res = 0.20375E+06, tol = 0.21154E+01, time = 2.72 | CG iter. 6 -- res = 0.78745E+05, tol = 0.21154E+01, time = 2.76 | CG iter. 7 -- res = 0.22862E+05, tol = 0.21154E+01, time = 2.98 | CG iter. 8 -- res = 0.90510E+04, tol = 0.21154E+01, time = 2.52 | CG iter. 9 -- res = 0.45472E+04, tol = 0.21154E+01, time = 2.95 | CG iter. 10 -- res = 0.18824E+04, tol = 0.21154E+01, time = 2.84 | CG iter. 11 -- res = 0.73740E+03, tol = 0.21154E+01, time = 2.67 | CG iter. 12 -- res = 0.36710E+03, tol = 0.21154E+01, time = 2.66 | CG iter. 13 -- res = 0.18161E+03, tol = 0.21154E+01, time = 2.73 | CG iter. 14 -- res = 0.84187E+02, tol = 0.21154E+01, time = 2.68 | CG iter. 15 -- res = 0.36436E+02, tol = 0.21154E+01, time = 2.61 | CG iter. 16 -- res = 0.15384E+02, tol = 0.21154E+01, time = 2.73 | CG iter. 17 -- res = 0.68082E+01, tol = 0.21154E+01, time = 2.79 | CG iter. 18 -- res = 0.33645E+01, tol = 0.21154E+01, time = 2.59 | CG iter. 19 -- res = 0.15952E+01, tol = 0.21154E+01, time = 2.62 | CG iter. 20 -- res = 0.80052E+00, tol = 0.21154E+01, time = 2.67 | CG iter. 21 -- res = 0.36309E+00, tol = 0.21154E+01, time = 2.68 | CG iter. 22 -- res = 0.15849E+00, tol = 0.21154E+01, time = 2.92 | CG iter. 23 -- res = 0.74219E-01, tol = 0.21154E+01, time = 2.88 | CG iter. 24 -- res = 0.36924E-01, tol = 0.21154E+01, time = 2.77 | CG iter. 25 -- res = 0.18509E-01, tol = 0.21154E+01, time = 2.46 | CG iter. 26 -- res = 0.89190E-02, tol = 0.21154E+01, time = 2.68 | CG iter. 27 -- res = 0.41881E-02, tol = 0.21154E+01, time = 2.75 | CG iter. 28 -- res = 0.19001E-02, tol = 0.21154E+01, time = 2.85 | CG iter. 29 -- res = 0.83536E-03, tol = 0.21154E+01, time = 2.87 | CG iter. 30 -- res = 0.42690E-03, tol = 0.21154E+01, time = 2.67 | CG iter. 31 -- res = 0.21005E-03, tol = 0.21154E+01, time = 2.62 | CG iter. 32 -- res = 0.10854E-03, tol = 0.21154E+01, time = 3.05 | CG iter. 33 -- res = 0.50135E-04, tol = 0.21154E+01, time = 2.56 | CG iter. 34 -- res = 0.21815E-04, tol = 0.21154E+01, time = 2.70 | CG iter. 35 -- res = 0.11037E-04, tol = 0.21154E+01, time = 2.94 | CG iter. 36 -- res = 0.52923E-05, tol = 0.21154E+01, time = 2.67 | CG iter. 37 -- res = 0.26573E-05, tol = 0.21154E+01, time = 2.83 | CG iter. 38 -- res = 0.13394E-05, tol = 0.21154E+01, time = 2.76 | CG iter. 39 -- res = 0.63449E-06, tol = 0.21154E+01, time = 2.61 | CG iter. 40 -- res = 0.28852E-06, tol = 0.21154E+01, time = 2.77 | CG iter. 41 -- res = 0.12934E-06, tol = 0.21154E+01, time = 2.42 | CG iter. 42 -- res = 0.63884E-07, tol = 0.21154E+01, time = 2.74 | CG iter. 43 -- res = 0.30856E-07, tol = 0.21154E+01, time = 2.62 | CG iter. 44 -- res = 0.15468E-07, tol = 0.21154E+01, time = 2.93 | CG iter. 45 -- res = 0.71023E-08, tol = 0.21154E+01, time = 2.48 | CG iter. 46 -- res = 0.31905E-08, tol = 0.21154E+01, time = 2.66 | CG iter. 47 -- res = 0.15232E-08, tol = 0.21154E+01, time = 2.54 | CG iter. 48 -- res = 0.72568E-09, tol = 0.21154E+01, time = 2.69 | CG iter. 49 -- res = 0.35233E-09, tol = 0.21154E+01, time = 2.85 | CG iter. 50 -- res = 0.16801E-09, tol = 0.21154E+01, time = 2.41 | Final CG iter 51 -- res = 0.16801E-09, tol = 0.21154E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.593 3.058 | New value 0.379 | Old value 3.593 | Difference -3.214 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.59 | CG iter. 1 -- res = 0.62351E+05, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.10649E+03, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.25293E+01, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.98882E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.39217E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9314363.811 | (Sampled value in CG: 9530063.816 ) | CPU time specind = 1190.039 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.66 | CG iter. 1 -- res = 0.71101E+08, tol = 0.57896E+04, time = 13.55 | CG iter. 2 -- res = 0.61823E+08, tol = 0.57896E+04, time = 12.61 | CG iter. 3 -- res = 0.16965E+08, tol = 0.57896E+04, time = 11.53 | CG iter. 4 -- res = 0.75153E+07, tol = 0.57896E+04, time = 11.64 | CG iter. 5 -- res = 0.48314E+07, tol = 0.57896E+04, time = 11.80 | CG iter. 6 -- res = 0.29502E+07, tol = 0.57896E+04, time = 12.18 | CG iter. 7 -- res = 0.17985E+07, tol = 0.57896E+04, time = 11.59 | CG iter. 8 -- res = 0.12700E+07, tol = 0.57896E+04, time = 11.81 | CG iter. 9 -- res = 0.91805E+06, tol = 0.57896E+04, time = 11.58 | CG iter. 10 -- res = 0.65972E+06, tol = 0.57896E+04, time = 12.13 | CG iter. 11 -- res = 0.44201E+06, tol = 0.57896E+04, time = 11.68 | CG iter. 12 -- res = 0.31378E+06, tol = 0.57896E+04, time = 11.80 | CG iter. 13 -- res = 0.25526E+06, tol = 0.57896E+04, time = 12.29 | CG iter. 14 -- res = 0.24110E+06, tol = 0.57896E+04, time = 11.89 | CG iter. 15 -- res = 0.25875E+06, tol = 0.57896E+04, time = 11.43 | CG iter. 16 -- res = 0.27123E+06, tol = 0.57896E+04, time = 11.53 | CG iter. 17 -- res = 0.25949E+06, tol = 0.57896E+04, time = 11.84 | CG iter. 18 -- res = 0.22297E+06, tol = 0.57896E+04, time = 13.02 | CG iter. 19 -- res = 0.17877E+06, tol = 0.57896E+04, time = 16.99 | CG iter. 20 -- res = 0.14412E+06, tol = 0.57896E+04, time = 11.16 | CG iter. 21 -- res = 0.12009E+06, tol = 0.57896E+04, time = 11.89 | CG iter. 22 -- res = 0.10485E+06, tol = 0.57896E+04, time = 11.71 | CG iter. 23 -- res = 0.90971E+05, tol = 0.57896E+04, time = 11.09 | CG iter. 24 -- res = 0.76474E+05, tol = 0.57896E+04, time = 11.60 | CG iter. 25 -- res = 0.63155E+05, tol = 0.57896E+04, time = 11.89 | CG iter. 26 -- res = 0.51465E+05, tol = 0.57896E+04, time = 13.02 | CG iter. 27 -- res = 0.42659E+05, tol = 0.57896E+04, time = 11.72 | CG iter. 28 -- res = 0.36924E+05, tol = 0.57896E+04, time = 11.39 | CG iter. 29 -- res = 0.35646E+05, tol = 0.57896E+04, time = 11.65 | CG iter. 30 -- res = 0.34110E+05, tol = 0.57896E+04, time = 11.95 | CG iter. 31 -- res = 0.31533E+05, tol = 0.57896E+04, time = 11.59 | CG iter. 32 -- res = 0.27469E+05, tol = 0.57896E+04, time = 11.73 | CG iter. 33 -- res = 0.21980E+05, tol = 0.57896E+04, time = 11.49 | CG iter. 34 -- res = 0.17420E+05, tol = 0.57896E+04, time = 11.33 | CG iter. 35 -- res = 0.14502E+05, tol = 0.57896E+04, time = 11.68 | CG iter. 36 -- res = 0.12755E+05, tol = 0.57896E+04, time = 11.92 | CG iter. 37 -- res = 0.11614E+05, tol = 0.57896E+04, time = 11.71 | CG iter. 38 -- res = 0.10405E+05, tol = 0.57896E+04, time = 11.64 | CG iter. 39 -- res = 0.90939E+04, tol = 0.57896E+04, time = 11.83 | CG iter. 40 -- res = 0.77357E+04, tol = 0.57896E+04, time = 11.49 | CG iter. 41 -- res = 0.66280E+04, tol = 0.57896E+04, time = 11.57 | CG iter. 42 -- res = 0.59130E+04, tol = 0.57896E+04, time = 12.14 | CG iter. 43 -- res = 0.56360E+04, tol = 0.57896E+04, time = 12.86 | CG iter. 44 -- res = 0.53870E+04, tol = 0.57896E+04, time = 16.98 | CG iter. 45 -- res = 0.49143E+04, tol = 0.57896E+04, time = 11.66 | CG iter. 46 -- res = 0.44646E+04, tol = 0.57896E+04, time = 11.46 | CG iter. 47 -- res = 0.38987E+04, tol = 0.57896E+04, time = 11.75 | CG iter. 48 -- res = 0.33140E+04, tol = 0.57896E+04, time = 11.90 | CG iter. 49 -- res = 0.27827E+04, tol = 0.57896E+04, time = 12.10 | CG iter. 50 -- res = 0.24128E+04, tol = 0.57896E+04, time = 11.38 | CG iter. 51 -- res = 0.22284E+04, tol = 0.57896E+04, time = 12.91 | CG iter. 52 -- res = 0.21142E+04, tol = 0.57896E+04, time = 11.83 | CG iter. 53 -- res = 0.20023E+04, tol = 0.57896E+04, time = 11.50 | CG iter. 54 -- res = 0.18161E+04, tol = 0.57896E+04, time = 11.67 | CG iter. 55 -- res = 0.16263E+04, tol = 0.57896E+04, time = 11.83 | CG iter. 56 -- res = 0.14295E+04, tol = 0.57896E+04, time = 11.96 | CG iter. 57 -- res = 0.12528E+04, tol = 0.57896E+04, time = 11.20 | CG iter. 58 -- res = 0.11721E+04, tol = 0.57896E+04, time = 11.83 | CG iter. 59 -- res = 0.11158E+04, tol = 0.57896E+04, time = 11.69 | CG iter. 60 -- res = 0.10404E+04, tol = 0.57896E+04, time = 12.99 | Final CG iter 61 -- res = 0.10404E+04, tol = 0.57896E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.712 ( -229.596 -2230.953 2513.608 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7431925.049 | Old band monopole 9314403.874 | Change to band monopole -1882478.825 | Change to component monopole 1882470.728 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.757 2.741 | New value -0.211 | Old value 3.757 | Difference -3.968 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.406 ( 5.249 9.332 -10.158 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.400 4.387 | New value 0.207 | Old value -3.400 | Difference 3.607 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.66 | CG iter. 1 -- res = 0.12161E+07, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.13450E+03, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.32355E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.41979E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.69424E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7431893.083 | (Sampled value in CG: 7409165.695 ) | Chain = 1 -- chisq = 0.81500863E+09 | Chain = 1 -- wall time = 6171.928 sec Available RAM: MemAvailable: 379394968 kB Available Swap: SwapFree: 1126580960 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 269 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447024 | --> Sampling calibration, mode = relcal | relcal = 1.3426335E-02 7.5643405E-04 -1.6007862E-03 -1.2581982E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1212770 0.1393953 97040172.3315130 | BP delta = 0.1228767 0.1409950 97040172.3083432 | BP chisq diff = -0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632180 | --> Sampling calibration, mode = relcal | relcal = -2.8200916E-03 -7.0457102E-04 1.6794164E-03 1.6132556E-03 -4.0663517E-04 6.3862588E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5327692 15219396.7425190 | BP delta = 0.0000000E+00 -0.5348544 15219395.8798359 | BP chisq diff = -0.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18187165400856 | --> Sampling calibration, mode = relcal | relcal = -7.4405961E-02 -5.8118396E-02 9.1308862E-02 4.1215502E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1864257E-04 3.8058544E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1180E-05 | 2: delta_r/delta_0: 1.4580E-06 | 3: delta_s/delta_0: 2.2652E-07 | 4: delta_r/delta_0: 1.4818E-08 | 5: delta_s/delta_0: 7.8421E-09 | 6: delta_r/delta_0: 2.0931E-09 | 7: delta_s/delta_0: 1.5169E-09 | 8: delta_r/delta_0: 8.2616E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.146145824496536E-003 2.739174962040419E-005 | BP delta = 7.5352699E-02 9.5360011E-02 50486787.2930895 | BP delta = 7.1213573E-02 9.1220878E-02 50486786.4336121 | BP chisq diff = -0.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02591446 | --> Sampling calibration, mode = relcal | relcal = -0.1066466 -9.5529601E-02 0.1449678 5.7208348E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7879346E-03 1.0469867E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2048E-05 | 2: delta_r/delta_0: 1.2312E-06 | 3: delta_s/delta_0: 2.5082E-07 | 4: delta_r/delta_0: 4.6173E-08 | 5: delta_s/delta_0: 2.0833E-08 | 6: delta_r/delta_0: 6.8954E-09 | 7: delta_s/delta_0: 1.2536E-08 | 8: delta_r/delta_0: 1.1114E-09 | 9: delta_s/delta_0: 9.9082E-10 | 10: delta_r/delta_0: 1.4790E-10 | 11: delta_s/delta_0: 2.1320E-09 | 12: delta_r/delta_0: 2.4944E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.699395149889330E-003 2.811076052141667E-005 | BP delta = -0.3019929 -0.2802734 57389883.4639192 | BP delta = -0.3042612 -0.2825417 57389883.6580461 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81193705 | --> Sampling calibration, mode = relcal | relcal = 0.2953718 0.2247731 -0.2836510 -0.2364939 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0468769E-04 5.2163359E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1559E-03 | 2: delta_r/delta_0: 2.6463E-05 | 3: delta_s/delta_0: 1.0769E-05 | 4: delta_r/delta_0: 1.2165E-06 | 5: delta_s/delta_0: 4.0766E-07 | 6: delta_r/delta_0: 5.9822E-08 | 7: delta_s/delta_0: 5.1412E-08 | 8: delta_r/delta_0: 3.1282E-08 | 9: delta_s/delta_0: 1.5116E-07 | 10: delta_r/delta_0: 2.2460E-09 | 11: delta_s/delta_0: 3.6133E-09 | 12: delta_r/delta_0: 9.8207E-10 | 13: delta_s/delta_0: 4.1013E-10 | 14: delta_r/delta_0: 2.3863E-10 | 15: delta_s/delta_0: 4.4946E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.570829234432163E-002 4.023230604585162E-005 | BP delta = -0.1302427 -0.1448846 72487877.0759103 | BP delta = -0.1472452 -0.1618871 72487876.8297195 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95878359 | --> Sampling calibration, mode = relcal | relcal = 0.1064520 0.1395429 -0.1102403 -0.1357545 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7629437E-03 1.3504417E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3948E-03 | 2: delta_r/delta_0: 3.3671E-05 | 3: delta_s/delta_0: 8.2899E-05 | 4: delta_r/delta_0: 3.3679E-06 | 5: delta_s/delta_0: 4.4997E-07 | 6: delta_r/delta_0: 1.7637E-07 | 7: delta_s/delta_0: 3.6233E-07 | 8: delta_r/delta_0: 4.7511E-08 | 9: delta_s/delta_0: 1.2181E-08 | 10: delta_r/delta_0: 5.2680E-09 | 11: delta_s/delta_0: 1.7843E-09 | 12: delta_r/delta_0: 1.1383E-09 | 13: delta_s/delta_0: 2.1047E-10 | 14: delta_r/delta_0: 1.5580E-10 | 15: delta_s/delta_0: 1.1007E-10 | 16: delta_r/delta_0: 8.8891E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.596463387138157E-002 3.698659271274031E-005 | BP delta = 0.1104699 0.2196697 72784400.0182531 | BP delta = 0.1280782 0.2372780 72784400.3033899 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.031793 | New value = -3.079198 | poltype: 2 pol: 1 CPU time specind = 1.9106865E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.092019 | New value = -3.099856 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139363 | New value = -3.244851 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123858 | New value = -3.134278 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.227499 | New value = -3.167397 | poltype: 2 pol: 2 CPU time specind = 5.1770210E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.73 | CG iter. 1 -- res = 0.13637E+08, tol = 0.94061E+01, time = 5.37 | CG iter. 2 -- res = 0.36095E+06, tol = 0.94061E+01, time = 5.69 | CG iter. 3 -- res = 0.93086E+05, tol = 0.94061E+01, time = 5.64 | CG iter. 4 -- res = 0.99051E+05, tol = 0.94061E+01, time = 5.91 | CG iter. 5 -- res = 0.99723E+05, tol = 0.94061E+01, time = 5.84 | CG iter. 6 -- res = 0.96132E+05, tol = 0.94061E+01, time = 5.42 | CG iter. 7 -- res = 0.78159E+05, tol = 0.94061E+01, time = 5.45 | CG iter. 8 -- res = 0.53485E+05, tol = 0.94061E+01, time = 5.43 | CG iter. 9 -- res = 0.41107E+05, tol = 0.94061E+01, time = 7.11 | CG iter. 10 -- res = 0.32419E+05, tol = 0.94061E+01, time = 6.35 | CG iter. 11 -- res = 0.21974E+05, tol = 0.94061E+01, time = 5.94 | CG iter. 12 -- res = 0.15889E+05, tol = 0.94061E+01, time = 5.62 | CG iter. 13 -- res = 0.12410E+05, tol = 0.94061E+01, time = 6.19 | CG iter. 14 -- res = 0.10363E+05, tol = 0.94061E+01, time = 5.78 | CG iter. 15 -- res = 0.79593E+04, tol = 0.94061E+01, time = 5.47 | CG iter. 16 -- res = 0.54192E+04, tol = 0.94061E+01, time = 5.99 | CG iter. 17 -- res = 0.37112E+04, tol = 0.94061E+01, time = 5.81 | CG iter. 18 -- res = 0.31407E+04, tol = 0.94061E+01, time = 5.49 | CG iter. 19 -- res = 0.26962E+04, tol = 0.94061E+01, time = 5.74 | CG iter. 20 -- res = 0.20132E+04, tol = 0.94061E+01, time = 5.92 | CG iter. 21 -- res = 0.14286E+04, tol = 0.94061E+01, time = 6.04 | CG iter. 22 -- res = 0.11403E+04, tol = 0.94061E+01, time = 5.58 | CG iter. 23 -- res = 0.97622E+03, tol = 0.94061E+01, time = 6.00 | CG iter. 24 -- res = 0.74156E+03, tol = 0.94061E+01, time = 5.46 | CG iter. 25 -- res = 0.52312E+03, tol = 0.94061E+01, time = 5.63 | CG iter. 26 -- res = 0.41473E+03, tol = 0.94061E+01, time = 5.65 | CG iter. 27 -- res = 0.36713E+03, tol = 0.94061E+01, time = 5.46 | CG iter. 28 -- res = 0.30465E+03, tol = 0.94061E+01, time = 5.59 | CG iter. 29 -- res = 0.22183E+03, tol = 0.94061E+01, time = 5.69 | CG iter. 30 -- res = 0.16664E+03, tol = 0.94061E+01, time = 5.96 | CG iter. 31 -- res = 0.13999E+03, tol = 0.94061E+01, time = 6.11 | CG iter. 32 -- res = 0.11587E+03, tol = 0.94061E+01, time = 5.52 | CG iter. 33 -- res = 0.86588E+02, tol = 0.94061E+01, time = 5.88 | CG iter. 34 -- res = 0.63763E+02, tol = 0.94061E+01, time = 5.41 | CG iter. 35 -- res = 0.50797E+02, tol = 0.94061E+01, time = 5.66 | CG iter. 36 -- res = 0.42323E+02, tol = 0.94061E+01, time = 5.81 | CG iter. 37 -- res = 0.31846E+02, tol = 0.94061E+01, time = 5.67 | CG iter. 38 -- res = 0.23325E+02, tol = 0.94061E+01, time = 6.22 | CG iter. 39 -- res = 0.17098E+02, tol = 0.94061E+01, time = 5.60 | CG iter. 40 -- res = 0.13954E+02, tol = 0.94061E+01, time = 5.62 | CG iter. 41 -- res = 0.10819E+02, tol = 0.94061E+01, time = 5.51 | CG iter. 42 -- res = 0.77891E+01, tol = 0.94061E+01, time = 5.48 | CG iter. 43 -- res = 0.58284E+01, tol = 0.94061E+01, time = 5.49 | CG iter. 44 -- res = 0.45452E+01, tol = 0.94061E+01, time = 5.60 | CG iter. 45 -- res = 0.34792E+01, tol = 0.94061E+01, time = 11.07 | CG iter. 46 -- res = 0.26173E+01, tol = 0.94061E+01, time = 7.81 | CG iter. 47 -- res = 0.18650E+01, tol = 0.94061E+01, time = 5.64 | CG iter. 48 -- res = 0.13967E+01, tol = 0.94061E+01, time = 5.41 | CG iter. 49 -- res = 0.10712E+01, tol = 0.94061E+01, time = 5.53 | CG iter. 50 -- res = 0.78351E+00, tol = 0.94061E+01, time = 6.03 | Final CG iter 51 -- res = 0.78351E+00, tol = 0.94061E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8686685.049 | Old band monopole 7431925.049 | Change to band monopole 1254759.999 | Change to component monopole -1254754.602 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.85 | CG iter. 1 -- res = 0.61973E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.28216E+03, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.38951E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.44989E-01, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.11487E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8686647.686 | (Sampled value in CG: 8588775.454 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484131 | New value = 1.489018 | poltype: 2 pol: 1 CPU time specind = 2.2891998E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.456020 | New value = 1.475205 | poltype: 2 pol: 2 CPU time specind = 1.0045052E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.77 | CG iter. 1 -- res = 0.24022E+08, tol = 0.47548E+04, time = 6.30 | CG iter. 2 -- res = 0.53520E+07, tol = 0.47548E+04, time = 6.57 | CG iter. 3 -- res = 0.83604E+06, tol = 0.47548E+04, time = 6.39 | CG iter. 4 -- res = 0.35199E+06, tol = 0.47548E+04, time = 6.38 | CG iter. 5 -- res = 0.15449E+06, tol = 0.47548E+04, time = 6.87 | CG iter. 6 -- res = 0.80951E+05, tol = 0.47548E+04, time = 6.42 | CG iter. 7 -- res = 0.44029E+05, tol = 0.47548E+04, time = 6.30 | CG iter. 8 -- res = 0.21138E+05, tol = 0.47548E+04, time = 6.78 | CG iter. 9 -- res = 0.92942E+04, tol = 0.47548E+04, time = 6.43 | CG iter. 10 -- res = 0.38436E+04, tol = 0.47548E+04, time = 6.48 | CG iter. 11 -- res = 0.17232E+04, tol = 0.47548E+04, time = 6.71 | CG iter. 12 -- res = 0.89109E+03, tol = 0.47548E+04, time = 6.12 | CG iter. 13 -- res = 0.50389E+03, tol = 0.47548E+04, time = 6.64 | CG iter. 14 -- res = 0.28271E+03, tol = 0.47548E+04, time = 6.60 | CG iter. 15 -- res = 0.14638E+03, tol = 0.47548E+04, time = 6.62 | CG iter. 16 -- res = 0.68631E+02, tol = 0.47548E+04, time = 6.59 | CG iter. 17 -- res = 0.32369E+02, tol = 0.47548E+04, time = 6.36 | CG iter. 18 -- res = 0.16226E+02, tol = 0.47548E+04, time = 6.41 | CG iter. 19 -- res = 0.88885E+01, tol = 0.47548E+04, time = 6.78 | CG iter. 20 -- res = 0.51056E+01, tol = 0.47548E+04, time = 6.37 | CG iter. 21 -- res = 0.27694E+01, tol = 0.47548E+04, time = 6.37 | CG iter. 22 -- res = 0.14236E+01, tol = 0.47548E+04, time = 6.41 | CG iter. 23 -- res = 0.69980E+00, tol = 0.47548E+04, time = 10.45 | CG iter. 24 -- res = 0.36124E+00, tol = 0.47548E+04, time = 8.71 | CG iter. 25 -- res = 0.19854E+00, tol = 0.47548E+04, time = 6.14 | CG iter. 26 -- res = 0.11403E+00, tol = 0.47548E+04, time = 6.39 | CG iter. 27 -- res = 0.64922E-01, tol = 0.47548E+04, time = 6.27 | CG iter. 28 -- res = 0.35102E-01, tol = 0.47548E+04, time = 6.31 | CG iter. 29 -- res = 0.17914E-01, tol = 0.47548E+04, time = 6.28 | CG iter. 30 -- res = 0.95725E-02, tol = 0.47548E+04, time = 6.40 | CG iter. 31 -- res = 0.52537E-02, tol = 0.47548E+04, time = 6.61 | CG iter. 32 -- res = 0.29630E-02, tol = 0.47548E+04, time = 6.67 | CG iter. 33 -- res = 0.16176E-02, tol = 0.47548E+04, time = 6.62 | CG iter. 34 -- res = 0.87837E-03, tol = 0.47548E+04, time = 6.35 | CG iter. 35 -- res = 0.46500E-03, tol = 0.47548E+04, time = 6.51 | Final CG iter 36 -- res = 0.46500E-03, tol = 0.47548E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.257 2.734 | New value 0.540 | Old value -0.257 | Difference 0.798 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.77 | CG iter. 1 -- res = 0.43939E+05, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.10598E+03, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.29771E+01, tol = 0.47627E+18, time = 2.08 | Final CG iter 4 -- res = 0.34291E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8686647.686 | (Sampled value in CG: 8587587.615 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.724748 | New value = -3.651095 | poltype: 1 pol: 1 CPU time specind = 1.1127949E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.77 | CG iter. 1 -- res = 0.26676E+07, tol = 0.21297E+01, time = 2.39 | CG iter. 2 -- res = 0.11355E+07, tol = 0.21297E+01, time = 2.92 | CG iter. 3 -- res = 0.21749E+06, tol = 0.21297E+01, time = 4.26 | CG iter. 4 -- res = 0.93269E+05, tol = 0.21297E+01, time = 3.10 | CG iter. 5 -- res = 0.55568E+05, tol = 0.21297E+01, time = 4.19 | CG iter. 6 -- res = 0.28000E+05, tol = 0.21297E+01, time = 3.37 | CG iter. 7 -- res = 0.91267E+04, tol = 0.21297E+01, time = 2.39 | CG iter. 8 -- res = 0.36402E+04, tol = 0.21297E+01, time = 2.70 | CG iter. 9 -- res = 0.15867E+04, tol = 0.21297E+01, time = 2.77 | CG iter. 10 -- res = 0.62748E+03, tol = 0.21297E+01, time = 2.57 | CG iter. 11 -- res = 0.28528E+03, tol = 0.21297E+01, time = 2.74 | CG iter. 12 -- res = 0.15268E+03, tol = 0.21297E+01, time = 2.54 | CG iter. 13 -- res = 0.75603E+02, tol = 0.21297E+01, time = 2.72 | CG iter. 14 -- res = 0.36180E+02, tol = 0.21297E+01, time = 2.63 | CG iter. 15 -- res = 0.15956E+02, tol = 0.21297E+01, time = 2.82 | CG iter. 16 -- res = 0.66337E+01, tol = 0.21297E+01, time = 2.74 | CG iter. 17 -- res = 0.28157E+01, tol = 0.21297E+01, time = 2.62 | CG iter. 18 -- res = 0.13587E+01, tol = 0.21297E+01, time = 2.75 | CG iter. 19 -- res = 0.68444E+00, tol = 0.21297E+01, time = 2.92 | CG iter. 20 -- res = 0.34418E+00, tol = 0.21297E+01, time = 2.49 | CG iter. 21 -- res = 0.15729E+00, tol = 0.21297E+01, time = 2.87 | CG iter. 22 -- res = 0.70988E-01, tol = 0.21297E+01, time = 2.65 | CG iter. 23 -- res = 0.31191E-01, tol = 0.21297E+01, time = 2.74 | CG iter. 24 -- res = 0.15567E-01, tol = 0.21297E+01, time = 2.74 | CG iter. 25 -- res = 0.83179E-02, tol = 0.21297E+01, time = 2.73 | CG iter. 26 -- res = 0.43913E-02, tol = 0.21297E+01, time = 2.77 | CG iter. 27 -- res = 0.20453E-02, tol = 0.21297E+01, time = 2.59 | CG iter. 28 -- res = 0.96175E-03, tol = 0.21297E+01, time = 2.71 | CG iter. 29 -- res = 0.43192E-03, tol = 0.21297E+01, time = 2.69 | CG iter. 30 -- res = 0.21377E-03, tol = 0.21297E+01, time = 2.76 | CG iter. 31 -- res = 0.10351E-03, tol = 0.21297E+01, time = 2.90 | CG iter. 32 -- res = 0.52310E-04, tol = 0.21297E+01, time = 2.85 | CG iter. 33 -- res = 0.25407E-04, tol = 0.21297E+01, time = 2.69 | CG iter. 34 -- res = 0.11538E-04, tol = 0.21297E+01, time = 2.73 | CG iter. 35 -- res = 0.56279E-05, tol = 0.21297E+01, time = 2.71 | CG iter. 36 -- res = 0.26783E-05, tol = 0.21297E+01, time = 2.80 | CG iter. 37 -- res = 0.12689E-05, tol = 0.21297E+01, time = 2.77 | CG iter. 38 -- res = 0.63300E-06, tol = 0.21297E+01, time = 2.46 | CG iter. 39 -- res = 0.30303E-06, tol = 0.21297E+01, time = 2.79 | CG iter. 40 -- res = 0.14324E-06, tol = 0.21297E+01, time = 2.32 | CG iter. 41 -- res = 0.65377E-07, tol = 0.21297E+01, time = 2.62 | CG iter. 42 -- res = 0.31819E-07, tol = 0.21297E+01, time = 3.67 | CG iter. 43 -- res = 0.15187E-07, tol = 0.21297E+01, time = 2.93 | CG iter. 44 -- res = 0.74943E-08, tol = 0.21297E+01, time = 4.25 | CG iter. 45 -- res = 0.37496E-08, tol = 0.21297E+01, time = 2.85 | CG iter. 46 -- res = 0.16833E-08, tol = 0.21297E+01, time = 2.98 | CG iter. 47 -- res = 0.79281E-09, tol = 0.21297E+01, time = 2.74 | CG iter. 48 -- res = 0.38553E-09, tol = 0.21297E+01, time = 2.62 | CG iter. 49 -- res = 0.18670E-09, tol = 0.21297E+01, time = 2.61 | CG iter. 50 -- res = 0.90906E-10, tol = 0.21297E+01, time = 2.65 | Final CG iter 51 -- res = 0.90906E-10, tol = 0.21297E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.355 5.332 | New value 2.350 | Old value -4.355 | Difference 6.705 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.83 | CG iter. 1 -- res = 0.49889E+05, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.61161E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.16921E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.65671E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.25229E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8686647.686 | (Sampled value in CG: 8625670.727 ) | CPU time specind = 1194.876 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.72 | CG iter. 1 -- res = 0.68200E+08, tol = 0.57739E+04, time = 11.68 | CG iter. 2 -- res = 0.59108E+08, tol = 0.57739E+04, time = 11.61 | CG iter. 3 -- res = 0.15677E+08, tol = 0.57739E+04, time = 11.88 | CG iter. 4 -- res = 0.64861E+07, tol = 0.57739E+04, time = 11.73 | CG iter. 5 -- res = 0.37660E+07, tol = 0.57739E+04, time = 11.33 | CG iter. 6 -- res = 0.21697E+07, tol = 0.57739E+04, time = 11.81 | CG iter. 7 -- res = 0.12840E+07, tol = 0.57739E+04, time = 12.70 | CG iter. 8 -- res = 0.87067E+06, tol = 0.57739E+04, time = 11.93 | CG iter. 9 -- res = 0.56932E+06, tol = 0.57739E+04, time = 11.66 | CG iter. 10 -- res = 0.34557E+06, tol = 0.57739E+04, time = 11.20 | CG iter. 11 -- res = 0.19561E+06, tol = 0.57739E+04, time = 11.30 | CG iter. 12 -- res = 0.11339E+06, tol = 0.57739E+04, time = 11.26 | CG iter. 13 -- res = 0.69938E+05, tol = 0.57739E+04, time = 11.10 | CG iter. 14 -- res = 0.47677E+05, tol = 0.57739E+04, time = 11.43 | CG iter. 15 -- res = 0.38483E+05, tol = 0.57739E+04, time = 11.62 | CG iter. 16 -- res = 0.34218E+05, tol = 0.57739E+04, time = 11.70 | CG iter. 17 -- res = 0.31560E+05, tol = 0.57739E+04, time = 12.05 | CG iter. 18 -- res = 0.28893E+05, tol = 0.57739E+04, time = 11.29 | CG iter. 19 -- res = 0.25725E+05, tol = 0.57739E+04, time = 11.51 | CG iter. 20 -- res = 0.23962E+05, tol = 0.57739E+04, time = 11.81 | CG iter. 21 -- res = 0.22465E+05, tol = 0.57739E+04, time = 11.71 | CG iter. 22 -- res = 0.22341E+05, tol = 0.57739E+04, time = 11.12 | CG iter. 23 -- res = 0.22528E+05, tol = 0.57739E+04, time = 11.36 | CG iter. 24 -- res = 0.21176E+05, tol = 0.57739E+04, time = 11.80 | CG iter. 25 -- res = 0.17810E+05, tol = 0.57739E+04, time = 16.79 | CG iter. 26 -- res = 0.13634E+05, tol = 0.57739E+04, time = 11.97 | CG iter. 27 -- res = 0.10009E+05, tol = 0.57739E+04, time = 11.37 | CG iter. 28 -- res = 0.74960E+04, tol = 0.57739E+04, time = 12.38 | CG iter. 29 -- res = 0.60504E+04, tol = 0.57739E+04, time = 11.98 | CG iter. 30 -- res = 0.52515E+04, tol = 0.57739E+04, time = 11.65 | CG iter. 31 -- res = 0.46268E+04, tol = 0.57739E+04, time = 11.08 | CG iter. 32 -- res = 0.41366E+04, tol = 0.57739E+04, time = 13.62 | CG iter. 33 -- res = 0.36901E+04, tol = 0.57739E+04, time = 12.27 | CG iter. 34 -- res = 0.32065E+04, tol = 0.57739E+04, time = 11.44 | CG iter. 35 -- res = 0.28165E+04, tol = 0.57739E+04, time = 11.41 | CG iter. 36 -- res = 0.24561E+04, tol = 0.57739E+04, time = 12.17 | CG iter. 37 -- res = 0.22445E+04, tol = 0.57739E+04, time = 11.06 | CG iter. 38 -- res = 0.20834E+04, tol = 0.57739E+04, time = 11.86 | CG iter. 39 -- res = 0.18352E+04, tol = 0.57739E+04, time = 11.78 | CG iter. 40 -- res = 0.14968E+04, tol = 0.57739E+04, time = 11.85 | CG iter. 41 -- res = 0.11942E+04, tol = 0.57739E+04, time = 12.54 | CG iter. 42 -- res = 0.93907E+03, tol = 0.57739E+04, time = 11.54 | CG iter. 43 -- res = 0.77209E+03, tol = 0.57739E+04, time = 11.76 | CG iter. 44 -- res = 0.67858E+03, tol = 0.57739E+04, time = 11.89 | CG iter. 45 -- res = 0.61218E+03, tol = 0.57739E+04, time = 11.35 | CG iter. 46 -- res = 0.56077E+03, tol = 0.57739E+04, time = 11.76 | CG iter. 47 -- res = 0.49954E+03, tol = 0.57739E+04, time = 11.54 | CG iter. 48 -- res = 0.43190E+03, tol = 0.57739E+04, time = 11.62 | CG iter. 49 -- res = 0.37780E+03, tol = 0.57739E+04, time = 11.74 | CG iter. 50 -- res = 0.32664E+03, tol = 0.57739E+04, time = 17.90 | CG iter. 51 -- res = 0.29292E+03, tol = 0.57739E+04, time = 11.40 | CG iter. 52 -- res = 0.27026E+03, tol = 0.57739E+04, time = 11.48 | CG iter. 53 -- res = 0.24510E+03, tol = 0.57739E+04, time = 11.94 | CG iter. 54 -- res = 0.21508E+03, tol = 0.57739E+04, time = 11.92 | CG iter. 55 -- res = 0.18371E+03, tol = 0.57739E+04, time = 11.75 | CG iter. 56 -- res = 0.15737E+03, tol = 0.57739E+04, time = 11.46 | CG iter. 57 -- res = 0.13253E+03, tol = 0.57739E+04, time = 13.44 | CG iter. 58 -- res = 0.11375E+03, tol = 0.57739E+04, time = 11.69 | CG iter. 59 -- res = 0.10390E+03, tol = 0.57739E+04, time = 11.23 | CG iter. 60 -- res = 0.95237E+02, tol = 0.57739E+04, time = 11.75 | Final CG iter 61 -- res = 0.95237E+02, tol = 0.57739E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.790 ( -229.555 -2231.552 2514.186 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6968423.376 | Old band monopole 8686685.049 | Change to band monopole -1718261.673 | Change to component monopole 1718254.282 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.520 2.704 | New value 0.946 | Old value 0.520 | Difference 0.426 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.324 ( 6.036 11.286 -11.466 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.179 4.076 | New value -0.121 | Old value 11.179 | Difference -11.300 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.81 | CG iter. 1 -- res = 0.20662E+05, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.18880E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.61997E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.13853E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.17928E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6968393.403 | (Sampled value in CG: 6947159.414 ) | Chain = 1 -- chisq = 0.81519353E+09 | Chain = 1 -- wall time = 5626.338 sec Available RAM: MemAvailable: 378787532 kB Available Swap: SwapFree: 1127160032 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 270 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445717 | --> Sampling calibration, mode = relcal | relcal = 1.3428283E-02 7.4129255E-04 -1.5922604E-03 -1.2577315E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1228767 0.1409950 9409466.10682265 | BP delta = 0.1228767 0.1454297 9409486.69962955 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632256 | --> Sampling calibration, mode = relcal | relcal = -2.8205058E-03 -7.0456153E-04 1.6784446E-03 1.6144178E-03 -4.0866275E-04 6.4086763E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5348544 15215490.8432498 | BP delta = 0.0000000E+00 -0.5372742 15215488.2700085 | BP chisq diff = -2.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18332497662447 | --> Sampling calibration, mode = relcal | relcal = -7.5109310E-02 -5.8668938E-02 9.1978036E-02 4.1800208E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3580838E-04 4.6848389E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1393E-05 | 2: delta_r/delta_0: 9.5419E-07 | 3: delta_s/delta_0: 2.0250E-07 | 4: delta_r/delta_0: 2.4047E-08 | 5: delta_s/delta_0: 9.0557E-09 | 6: delta_r/delta_0: 1.7666E-09 | 7: delta_s/delta_0: 2.8380E-10 | 8: delta_r/delta_0: 1.2412E-10 | 9: delta_s/delta_0: 2.1013E-09 | 10: delta_r/delta_0: 7.8604E-10 | 11: delta_s/delta_0: 6.0596E-09 | 12: delta_r/delta_0: 1.3472E-09 | 13: delta_s/delta_0: 1.1927E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.063514269876807E-003 2.735703724143624E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1393E-05 | 2: delta_r/delta_0: 9.5420E-07 | 3: delta_s/delta_0: 2.0250E-07 | 4: delta_r/delta_0: 2.4046E-08 | 5: delta_s/delta_0: 9.0543E-09 | 6: delta_r/delta_0: 1.7666E-09 | 7: delta_s/delta_0: 2.8380E-10 | 8: delta_r/delta_0: 1.2412E-10 | 9: delta_s/delta_0: 2.1014E-09 | 10: delta_r/delta_0: 7.8607E-10 | 11: delta_s/delta_0: 6.0407E-09 | 12: delta_r/delta_0: 1.3425E-09 | 13: delta_s/delta_0: 1.1926E-11 | Reached bicg-stab tolerance | BP delta = 7.1213573E-02 9.1220878E-02 3579486.20735707 | BP delta = 7.1213573E-02 9.1498002E-02 3580606.92204512 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599116 | --> Sampling calibration, mode = relcal | relcal = -0.1066784 -9.5568493E-02 0.1449337 5.7313178E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2483989E-03 1.5741769E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3515E-05 | 2: delta_r/delta_0: 1.2524E-06 | 3: delta_s/delta_0: 2.5752E-07 | 4: delta_r/delta_0: 4.3636E-08 | 5: delta_s/delta_0: 2.2330E-08 | 6: delta_r/delta_0: 7.1165E-09 | 7: delta_s/delta_0: 8.8760E-09 | 8: delta_r/delta_0: 1.4584E-09 | 9: delta_s/delta_0: 6.3494E-10 | 10: delta_r/delta_0: 2.7569E-10 | 11: delta_s/delta_0: 2.6268E-10 | 12: delta_r/delta_0: 1.5113E-10 | 13: delta_s/delta_0: 3.3120E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.857091657529786E-003 2.810869994510263E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3516E-05 | 2: delta_r/delta_0: 1.2525E-06 | 3: delta_s/delta_0: 2.5754E-07 | 4: delta_r/delta_0: 4.3670E-08 | 5: delta_s/delta_0: 2.2319E-08 | 6: delta_r/delta_0: 7.1182E-09 | 7: delta_s/delta_0: 8.8745E-09 | 8: delta_r/delta_0: 1.4588E-09 | 9: delta_s/delta_0: 6.3532E-10 | 10: delta_r/delta_0: 2.7539E-10 | 11: delta_s/delta_0: 2.6257E-10 | 12: delta_r/delta_0: 1.5046E-10 | 13: delta_s/delta_0: 3.2890E-11 | Reached bicg-stab tolerance | BP delta = -0.3042612 -0.2825417 2841504.45315487 | BP delta = -0.3042612 -0.2811651 2841539.54684319 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81214659 | --> Sampling calibration, mode = relcal | relcal = 0.2954194 0.2249022 -0.2838200 -0.2365016 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6810702E-04 4.9017821E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3058E-03 | 2: delta_r/delta_0: 1.2354E-04 | 3: delta_s/delta_0: 1.0678E-04 | 4: delta_r/delta_0: 8.2414E-06 | 5: delta_s/delta_0: 8.2691E-06 | 6: delta_r/delta_0: 1.3360E-06 | 7: delta_s/delta_0: 1.1640E-07 | 8: delta_r/delta_0: 1.7035E-08 | 9: delta_s/delta_0: 2.3397E-08 | 10: delta_r/delta_0: 3.7381E-09 | 11: delta_s/delta_0: 7.5019E-09 | 12: delta_r/delta_0: 5.0020E-10 | 13: delta_s/delta_0: 2.5459E-10 | 14: delta_r/delta_0: 1.6293E-10 | 15: delta_s/delta_0: 2.7656E-10 | 16: delta_r/delta_0: 1.2121E-10 | 17: delta_s/delta_0: 9.9195E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.777578891537926E-003 4.022213799883545E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.3006E-03 | 2: delta_r/delta_0: 1.2342E-04 | 3: delta_s/delta_0: 1.0535E-04 | 4: delta_r/delta_0: 8.1550E-06 | 5: delta_s/delta_0: 8.2832E-06 | 6: delta_r/delta_0: 1.3386E-06 | 7: delta_s/delta_0: 1.1577E-07 | 8: delta_r/delta_0: 1.7106E-08 | 9: delta_s/delta_0: 2.3669E-08 | 10: delta_r/delta_0: 3.7469E-09 | 11: delta_s/delta_0: 7.5319E-09 | 12: delta_r/delta_0: 5.0047E-10 | 13: delta_s/delta_0: 2.5504E-10 | 14: delta_r/delta_0: 1.6250E-10 | 15: delta_s/delta_0: 2.8395E-10 | 16: delta_r/delta_0: 1.2029E-10 | 17: delta_s/delta_0: 9.8382E-12 | Reached bicg-stab tolerance | BP delta = -0.1472452 -0.1618871 2827218.94108192 | BP delta = -0.1472452 -0.1566795 2827216.58361004 | BP chisq diff = -2.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95902110 | --> Sampling calibration, mode = relcal | relcal = 0.1065886 0.1395639 -0.1102400 -0.1359126 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2104245E-03 1.3893592E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.9057E-04 | 2: delta_r/delta_0: 2.1592E-05 | 3: delta_s/delta_0: 1.9620E-05 | 4: delta_r/delta_0: 1.4254E-06 | 5: delta_s/delta_0: 4.1186E-07 | 6: delta_r/delta_0: 1.6943E-07 | 7: delta_s/delta_0: 3.5632E-07 | 8: delta_r/delta_0: 4.0186E-08 | 9: delta_s/delta_0: 4.5434E-08 | 10: delta_r/delta_0: 4.6577E-09 | 11: delta_s/delta_0: 2.3401E-09 | 12: delta_r/delta_0: 1.3820E-09 | 13: delta_s/delta_0: 1.0066E-09 | 14: delta_r/delta_0: 4.9266E-10 | 15: delta_s/delta_0: 8.2062E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.453567245343239E-002 3.697781684868830E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.9033E-04 | 2: delta_r/delta_0: 2.1586E-05 | 3: delta_s/delta_0: 1.9619E-05 | 4: delta_r/delta_0: 1.4253E-06 | 5: delta_s/delta_0: 4.1169E-07 | 6: delta_r/delta_0: 1.6932E-07 | 7: delta_s/delta_0: 3.5523E-07 | 8: delta_r/delta_0: 4.0180E-08 | 9: delta_s/delta_0: 4.5783E-08 | 10: delta_r/delta_0: 4.6790E-09 | 11: delta_s/delta_0: 2.3386E-09 | 12: delta_r/delta_0: 1.3742E-09 | 13: delta_s/delta_0: 1.0127E-09 | 14: delta_r/delta_0: 4.8881E-10 | 15: delta_s/delta_0: 8.1725E-11 | Reached bicg-stab tolerance | BP delta = 0.1280782 0.2372780 3003971.12662667 | BP delta = 0.1280782 0.2319157 3004132.71263093 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.079198 | New value = -3.073859 | poltype: 2 pol: 1 CPU time specind = 1.5655041E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.099856 | New value = -3.038255 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.244851 | New value = -3.106714 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134278 | New value = -3.214323 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167397 | New value = -3.091651 | poltype: 2 pol: 2 CPU time specind = 8.6989403E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.85 | CG iter. 1 -- res = 0.13560E+08, tol = 0.97176E+01, time = 5.76 | CG iter. 2 -- res = 0.31219E+06, tol = 0.97176E+01, time = 5.61 | CG iter. 3 -- res = 0.47447E+05, tol = 0.97176E+01, time = 5.76 | CG iter. 4 -- res = 0.21100E+05, tol = 0.97176E+01, time = 5.12 | CG iter. 5 -- res = 0.95710E+04, tol = 0.97176E+01, time = 5.55 | CG iter. 6 -- res = 0.51000E+04, tol = 0.97176E+01, time = 5.45 | CG iter. 7 -- res = 0.32805E+04, tol = 0.97176E+01, time = 5.73 | CG iter. 8 -- res = 0.22146E+04, tol = 0.97176E+01, time = 5.56 | CG iter. 9 -- res = 0.16258E+04, tol = 0.97176E+01, time = 11.68 | CG iter. 10 -- res = 0.15537E+04, tol = 0.97176E+01, time = 5.89 | CG iter. 11 -- res = 0.14017E+04, tol = 0.97176E+01, time = 5.58 | CG iter. 12 -- res = 0.10272E+04, tol = 0.97176E+01, time = 5.70 | CG iter. 13 -- res = 0.65024E+03, tol = 0.97176E+01, time = 5.67 | CG iter. 14 -- res = 0.44249E+03, tol = 0.97176E+01, time = 5.34 | CG iter. 15 -- res = 0.35174E+03, tol = 0.97176E+01, time = 5.68 | CG iter. 16 -- res = 0.27595E+03, tol = 0.97176E+01, time = 5.72 | CG iter. 17 -- res = 0.18931E+03, tol = 0.97176E+01, time = 5.33 | CG iter. 18 -- res = 0.13578E+03, tol = 0.97176E+01, time = 5.95 | CG iter. 19 -- res = 0.10894E+03, tol = 0.97176E+01, time = 5.50 | CG iter. 20 -- res = 0.87151E+02, tol = 0.97176E+01, time = 5.61 | CG iter. 21 -- res = 0.58194E+02, tol = 0.97176E+01, time = 5.65 | CG iter. 22 -- res = 0.38227E+02, tol = 0.97176E+01, time = 5.59 | CG iter. 23 -- res = 0.28827E+02, tol = 0.97176E+01, time = 5.52 | CG iter. 24 -- res = 0.22418E+02, tol = 0.97176E+01, time = 7.01 | CG iter. 25 -- res = 0.16100E+02, tol = 0.97176E+01, time = 6.05 | CG iter. 26 -- res = 0.10495E+02, tol = 0.97176E+01, time = 6.21 | CG iter. 27 -- res = 0.74018E+01, tol = 0.97176E+01, time = 5.49 | CG iter. 28 -- res = 0.55445E+01, tol = 0.97176E+01, time = 5.59 | CG iter. 29 -- res = 0.41395E+01, tol = 0.97176E+01, time = 5.72 | CG iter. 30 -- res = 0.28559E+01, tol = 0.97176E+01, time = 5.35 | CG iter. 31 -- res = 0.21327E+01, tol = 0.97176E+01, time = 5.59 | CG iter. 32 -- res = 0.17860E+01, tol = 0.97176E+01, time = 5.38 | CG iter. 33 -- res = 0.14560E+01, tol = 0.97176E+01, time = 5.13 | CG iter. 34 -- res = 0.10778E+01, tol = 0.97176E+01, time = 5.62 | CG iter. 35 -- res = 0.76772E+00, tol = 0.97176E+01, time = 5.41 | CG iter. 36 -- res = 0.59011E+00, tol = 0.97176E+01, time = 5.75 | CG iter. 37 -- res = 0.47177E+00, tol = 0.97176E+01, time = 5.77 | CG iter. 38 -- res = 0.35693E+00, tol = 0.97176E+01, time = 5.57 | CG iter. 39 -- res = 0.25437E+00, tol = 0.97176E+01, time = 5.60 | CG iter. 40 -- res = 0.18828E+00, tol = 0.97176E+01, time = 5.59 | CG iter. 41 -- res = 0.14853E+00, tol = 0.97176E+01, time = 5.67 | CG iter. 42 -- res = 0.11220E+00, tol = 0.97176E+01, time = 5.56 | CG iter. 43 -- res = 0.82855E-01, tol = 0.97176E+01, time = 6.29 | CG iter. 44 -- res = 0.62854E-01, tol = 0.97176E+01, time = 5.35 | CG iter. 45 -- res = 0.50740E-01, tol = 0.97176E+01, time = 5.58 | CG iter. 46 -- res = 0.41227E-01, tol = 0.97176E+01, time = 5.55 | CG iter. 47 -- res = 0.31979E-01, tol = 0.97176E+01, time = 5.53 | CG iter. 48 -- res = 0.24287E-01, tol = 0.97176E+01, time = 5.77 | CG iter. 49 -- res = 0.19748E-01, tol = 0.97176E+01, time = 5.90 | CG iter. 50 -- res = 0.15797E-01, tol = 0.97176E+01, time = 5.47 | Final CG iter 51 -- res = 0.15797E-01, tol = 0.97176E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7665852.927 | Old band monopole 6968423.376 | Change to band monopole 697429.551 | Change to component monopole -697426.551 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.74 | CG iter. 1 -- res = 0.51090E+04, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.16771E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.20216E+00, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.33503E-03, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.33933E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7665819.955 | (Sampled value in CG: 7674544.228 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489018 | New value = 1.482289 | poltype: 2 pol: 1 CPU time specind = 2.2706032E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475205 | New value = 1.476474 | poltype: 2 pol: 2 CPU time specind = 1.2297153E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.78 | CG iter. 1 -- res = 0.24028E+08, tol = 0.47548E+04, time = 6.05 | CG iter. 2 -- res = 0.53134E+07, tol = 0.47548E+04, time = 6.27 | CG iter. 3 -- res = 0.84874E+06, tol = 0.47548E+04, time = 6.07 | CG iter. 4 -- res = 0.35726E+06, tol = 0.47548E+04, time = 6.10 | CG iter. 5 -- res = 0.15558E+06, tol = 0.47548E+04, time = 6.51 | CG iter. 6 -- res = 0.81009E+05, tol = 0.47548E+04, time = 7.82 | CG iter. 7 -- res = 0.44265E+05, tol = 0.47548E+04, time = 7.03 | CG iter. 8 -- res = 0.21362E+05, tol = 0.47548E+04, time = 6.50 | CG iter. 9 -- res = 0.92508E+04, tol = 0.47548E+04, time = 6.36 | CG iter. 10 -- res = 0.38129E+04, tol = 0.47548E+04, time = 6.17 | CG iter. 11 -- res = 0.17243E+04, tol = 0.47548E+04, time = 6.17 | CG iter. 12 -- res = 0.88657E+03, tol = 0.47548E+04, time = 6.26 | CG iter. 13 -- res = 0.50826E+03, tol = 0.47548E+04, time = 6.54 | CG iter. 14 -- res = 0.28732E+03, tol = 0.47548E+04, time = 6.34 | CG iter. 15 -- res = 0.14591E+03, tol = 0.47548E+04, time = 6.10 | CG iter. 16 -- res = 0.68235E+02, tol = 0.47548E+04, time = 6.05 | CG iter. 17 -- res = 0.31785E+02, tol = 0.47548E+04, time = 6.25 | CG iter. 18 -- res = 0.15980E+02, tol = 0.47548E+04, time = 6.61 | CG iter. 19 -- res = 0.88125E+01, tol = 0.47548E+04, time = 6.26 | CG iter. 20 -- res = 0.50992E+01, tol = 0.47548E+04, time = 6.14 | CG iter. 21 -- res = 0.27556E+01, tol = 0.47548E+04, time = 6.32 | CG iter. 22 -- res = 0.14186E+01, tol = 0.47548E+04, time = 6.46 | CG iter. 23 -- res = 0.70021E+00, tol = 0.47548E+04, time = 6.00 | CG iter. 24 -- res = 0.35792E+00, tol = 0.47548E+04, time = 6.18 | CG iter. 25 -- res = 0.20515E+00, tol = 0.47548E+04, time = 6.74 | CG iter. 26 -- res = 0.11936E+00, tol = 0.47548E+04, time = 6.16 | CG iter. 27 -- res = 0.66821E-01, tol = 0.47548E+04, time = 6.31 | CG iter. 28 -- res = 0.35821E-01, tol = 0.47548E+04, time = 6.69 | CG iter. 29 -- res = 0.18785E-01, tol = 0.47548E+04, time = 6.27 | CG iter. 30 -- res = 0.98342E-02, tol = 0.47548E+04, time = 6.41 | CG iter. 31 -- res = 0.53370E-02, tol = 0.47548E+04, time = 6.44 | CG iter. 32 -- res = 0.30577E-02, tol = 0.47548E+04, time = 6.17 | CG iter. 33 -- res = 0.17172E-02, tol = 0.47548E+04, time = 6.10 | CG iter. 34 -- res = 0.92030E-03, tol = 0.47548E+04, time = 6.54 | CG iter. 35 -- res = 0.47970E-03, tol = 0.47548E+04, time = 6.38 | Final CG iter 36 -- res = 0.47970E-03, tol = 0.47548E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.988 2.736 | New value -4.485 | Old value 0.988 | Difference -5.473 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.83 | CG iter. 1 -- res = 0.15478E+07, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.16996E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.13104E+00, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.16806E-03, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.27823E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7665819.955 | (Sampled value in CG: 7675509.410 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.651095 | New value = -3.510179 | poltype: 1 pol: 1 CPU time specind = 3.0837059E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.65 | CG iter. 1 -- res = 0.21445E+07, tol = 0.22871E+01, time = 2.53 | CG iter. 2 -- res = 0.78279E+06, tol = 0.22871E+01, time = 2.57 | CG iter. 3 -- res = 0.14351E+06, tol = 0.22871E+01, time = 2.71 | CG iter. 4 -- res = 0.56471E+05, tol = 0.22871E+01, time = 2.65 | CG iter. 5 -- res = 0.30291E+05, tol = 0.22871E+01, time = 2.49 | CG iter. 6 -- res = 0.16667E+05, tol = 0.22871E+01, time = 2.67 | CG iter. 7 -- res = 0.72895E+04, tol = 0.22871E+01, time = 2.95 | CG iter. 8 -- res = 0.32988E+04, tol = 0.22871E+01, time = 2.75 | CG iter. 9 -- res = 0.14804E+04, tol = 0.22871E+01, time = 3.95 | CG iter. 10 -- res = 0.57723E+03, tol = 0.22871E+01, time = 7.85 | CG iter. 11 -- res = 0.23499E+03, tol = 0.22871E+01, time = 2.90 | CG iter. 12 -- res = 0.10681E+03, tol = 0.22871E+01, time = 2.50 | CG iter. 13 -- res = 0.53181E+02, tol = 0.22871E+01, time = 2.57 | CG iter. 14 -- res = 0.27872E+02, tol = 0.22871E+01, time = 2.66 | CG iter. 15 -- res = 0.13300E+02, tol = 0.22871E+01, time = 3.04 | CG iter. 16 -- res = 0.59673E+01, tol = 0.22871E+01, time = 2.49 | CG iter. 17 -- res = 0.24838E+01, tol = 0.22871E+01, time = 2.74 | CG iter. 18 -- res = 0.11296E+01, tol = 0.22871E+01, time = 2.66 | CG iter. 19 -- res = 0.53111E+00, tol = 0.22871E+01, time = 2.45 | CG iter. 20 -- res = 0.27087E+00, tol = 0.22871E+01, time = 2.55 | CG iter. 21 -- res = 0.14891E+00, tol = 0.22871E+01, time = 2.61 | CG iter. 22 -- res = 0.73592E-01, tol = 0.22871E+01, time = 2.44 | CG iter. 23 -- res = 0.32892E-01, tol = 0.22871E+01, time = 2.38 | CG iter. 24 -- res = 0.15173E-01, tol = 0.22871E+01, time = 2.63 | CG iter. 25 -- res = 0.72027E-02, tol = 0.22871E+01, time = 2.52 | CG iter. 26 -- res = 0.36098E-02, tol = 0.22871E+01, time = 2.82 | CG iter. 27 -- res = 0.19331E-02, tol = 0.22871E+01, time = 2.66 | CG iter. 28 -- res = 0.95681E-03, tol = 0.22871E+01, time = 2.65 | CG iter. 29 -- res = 0.45700E-03, tol = 0.22871E+01, time = 2.79 | CG iter. 30 -- res = 0.21483E-03, tol = 0.22871E+01, time = 2.51 | CG iter. 31 -- res = 0.99671E-04, tol = 0.22871E+01, time = 2.72 | CG iter. 32 -- res = 0.49182E-04, tol = 0.22871E+01, time = 2.98 | CG iter. 33 -- res = 0.24457E-04, tol = 0.22871E+01, time = 2.58 | CG iter. 34 -- res = 0.12306E-04, tol = 0.22871E+01, time = 2.58 | CG iter. 35 -- res = 0.60568E-05, tol = 0.22871E+01, time = 2.96 | CG iter. 36 -- res = 0.29543E-05, tol = 0.22871E+01, time = 2.49 | CG iter. 37 -- res = 0.13766E-05, tol = 0.22871E+01, time = 2.50 | CG iter. 38 -- res = 0.65266E-06, tol = 0.22871E+01, time = 2.75 | CG iter. 39 -- res = 0.31766E-06, tol = 0.22871E+01, time = 2.64 | CG iter. 40 -- res = 0.16298E-06, tol = 0.22871E+01, time = 2.53 | CG iter. 41 -- res = 0.84379E-07, tol = 0.22871E+01, time = 2.92 | CG iter. 42 -- res = 0.39995E-07, tol = 0.22871E+01, time = 3.92 | CG iter. 43 -- res = 0.18019E-07, tol = 0.22871E+01, time = 3.06 | CG iter. 44 -- res = 0.82746E-08, tol = 0.22871E+01, time = 3.14 | CG iter. 45 -- res = 0.42011E-08, tol = 0.22871E+01, time = 3.06 | CG iter. 46 -- res = 0.20878E-08, tol = 0.22871E+01, time = 2.71 | CG iter. 47 -- res = 0.10254E-08, tol = 0.22871E+01, time = 2.41 | CG iter. 48 -- res = 0.50789E-09, tol = 0.22871E+01, time = 2.73 | CG iter. 49 -- res = 0.23542E-09, tol = 0.22871E+01, time = 2.49 | CG iter. 50 -- res = 0.10748E-09, tol = 0.22871E+01, time = 2.91 | Final CG iter 51 -- res = 0.10748E-09, tol = 0.22871E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.592 3.971 | New value 6.153 | Old value 0.592 | Difference 5.560 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.74 | CG iter. 1 -- res = 0.31139E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.23333E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.87447E+00, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.88544E-03, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.68101E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7665819.955 | (Sampled value in CG: 7677970.208 ) | CPU time specind = 1168.914 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.76 | CG iter. 1 -- res = 0.68194E+08, tol = 0.57538E+04, time = 11.51 | CG iter. 2 -- res = 0.59038E+08, tol = 0.57538E+04, time = 11.51 | CG iter. 3 -- res = 0.15768E+08, tol = 0.57538E+04, time = 11.52 | CG iter. 4 -- res = 0.65577E+07, tol = 0.57538E+04, time = 11.71 | CG iter. 5 -- res = 0.38158E+07, tol = 0.57538E+04, time = 11.33 | CG iter. 6 -- res = 0.22070E+07, tol = 0.57538E+04, time = 11.19 | CG iter. 7 -- res = 0.13335E+07, tol = 0.57538E+04, time = 11.63 | CG iter. 8 -- res = 0.89905E+06, tol = 0.57538E+04, time = 11.79 | CG iter. 9 -- res = 0.56983E+06, tol = 0.57538E+04, time = 18.42 | CG iter. 10 -- res = 0.33972E+06, tol = 0.57538E+04, time = 11.48 | CG iter. 11 -- res = 0.18359E+06, tol = 0.57538E+04, time = 11.98 | CG iter. 12 -- res = 0.95811E+05, tol = 0.57538E+04, time = 11.33 | CG iter. 13 -- res = 0.50812E+05, tol = 0.57538E+04, time = 11.26 | CG iter. 14 -- res = 0.29143E+05, tol = 0.57538E+04, time = 11.70 | CG iter. 15 -- res = 0.18496E+05, tol = 0.57538E+04, time = 11.32 | CG iter. 16 -- res = 0.12404E+05, tol = 0.57538E+04, time = 13.02 | CG iter. 17 -- res = 0.83486E+04, tol = 0.57538E+04, time = 12.42 | CG iter. 18 -- res = 0.56329E+04, tol = 0.57538E+04, time = 11.04 | CG iter. 19 -- res = 0.36396E+04, tol = 0.57538E+04, time = 11.46 | CG iter. 20 -- res = 0.23243E+04, tol = 0.57538E+04, time = 11.49 | CG iter. 21 -- res = 0.15949E+04, tol = 0.57538E+04, time = 11.29 | CG iter. 22 -- res = 0.11971E+04, tol = 0.57538E+04, time = 11.52 | CG iter. 23 -- res = 0.10206E+04, tol = 0.57538E+04, time = 11.36 | CG iter. 24 -- res = 0.97927E+03, tol = 0.57538E+04, time = 11.57 | CG iter. 25 -- res = 0.10164E+04, tol = 0.57538E+04, time = 11.54 | CG iter. 26 -- res = 0.10202E+04, tol = 0.57538E+04, time = 12.09 | CG iter. 27 -- res = 0.96802E+03, tol = 0.57538E+04, time = 11.33 | CG iter. 28 -- res = 0.87603E+03, tol = 0.57538E+04, time = 11.69 | CG iter. 29 -- res = 0.79245E+03, tol = 0.57538E+04, time = 11.15 | CG iter. 30 -- res = 0.75186E+03, tol = 0.57538E+04, time = 11.16 | CG iter. 31 -- res = 0.71496E+03, tol = 0.57538E+04, time = 11.79 | CG iter. 32 -- res = 0.66448E+03, tol = 0.57538E+04, time = 11.36 | CG iter. 33 -- res = 0.57151E+03, tol = 0.57538E+04, time = 11.48 | CG iter. 34 -- res = 0.44447E+03, tol = 0.57538E+04, time = 17.78 | CG iter. 35 -- res = 0.33436E+03, tol = 0.57538E+04, time = 11.49 | CG iter. 36 -- res = 0.25236E+03, tol = 0.57538E+04, time = 11.93 | CG iter. 37 -- res = 0.20224E+03, tol = 0.57538E+04, time = 11.59 | CG iter. 38 -- res = 0.17790E+03, tol = 0.57538E+04, time = 11.51 | CG iter. 39 -- res = 0.16423E+03, tol = 0.57538E+04, time = 11.39 | CG iter. 40 -- res = 0.14908E+03, tol = 0.57538E+04, time = 10.80 | CG iter. 41 -- res = 0.13285E+03, tol = 0.57538E+04, time = 11.56 | CG iter. 42 -- res = 0.11606E+03, tol = 0.57538E+04, time = 13.33 | CG iter. 43 -- res = 0.10247E+03, tol = 0.57538E+04, time = 11.76 | CG iter. 44 -- res = 0.91100E+02, tol = 0.57538E+04, time = 11.52 | CG iter. 45 -- res = 0.86871E+02, tol = 0.57538E+04, time = 11.61 | CG iter. 46 -- res = 0.82832E+02, tol = 0.57538E+04, time = 11.38 | CG iter. 47 -- res = 0.75761E+02, tol = 0.57538E+04, time = 11.43 | CG iter. 48 -- res = 0.65645E+02, tol = 0.57538E+04, time = 11.21 | CG iter. 49 -- res = 0.55187E+02, tol = 0.57538E+04, time = 11.71 | CG iter. 50 -- res = 0.45829E+02, tol = 0.57538E+04, time = 11.56 | CG iter. 51 -- res = 0.40281E+02, tol = 0.57538E+04, time = 11.58 | CG iter. 52 -- res = 0.36724E+02, tol = 0.57538E+04, time = 11.73 | CG iter. 53 -- res = 0.34666E+02, tol = 0.57538E+04, time = 11.42 | CG iter. 54 -- res = 0.33571E+02, tol = 0.57538E+04, time = 11.94 | CG iter. 55 -- res = 0.31861E+02, tol = 0.57538E+04, time = 11.31 | CG iter. 56 -- res = 0.29404E+02, tol = 0.57538E+04, time = 11.89 | CG iter. 57 -- res = 0.26773E+02, tol = 0.57538E+04, time = 11.61 | CG iter. 58 -- res = 0.25721E+02, tol = 0.57538E+04, time = 11.24 | CG iter. 59 -- res = 0.25589E+02, tol = 0.57538E+04, time = 11.56 | CG iter. 60 -- res = 0.24967E+02, tol = 0.57538E+04, time = 17.29 | Final CG iter 61 -- res = 0.24967E+02, tol = 0.57538E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.919 ( -229.543 -2231.223 2513.780 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10600875.293 | Old band monopole 7665852.927 | Change to band monopole 2935022.366 | Change to component monopole -2935009.742 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.514 2.732 | New value -2.458 | Old value -4.514 | Difference 2.056 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.405 ( 5.546 10.606 -10.877 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.275 4.718 | New value -2.601 | Old value 8.275 | Difference -10.876 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.71 | CG iter. 1 -- res = 0.69890E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.14588E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.40549E+01, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.34557E-02, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.42322E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10600829.697 | (Sampled value in CG: 10579842.420 ) | Chain = 1 -- chisq = 0.81559534E+09 | Chain = 1 -- wall time = 6182.262 sec Available RAM: MemAvailable: 379001768 kB Available Swap: SwapFree: 1127967456 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 271 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445574 | --> Sampling calibration, mode = relcal | relcal = 1.3431573E-02 7.4369140E-04 -1.5978223E-03 -1.2577442E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1228767 0.1409950 97035384.6045910 | BP delta = 0.1213058 0.1394241 97035384.6781994 | BP chisq diff = 0.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632256 | --> Sampling calibration, mode = relcal | relcal = -2.8196599E-03 -7.0453942E-04 1.6784641E-03 1.6131583E-03 -4.0815648E-04 6.4073334E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5372742 15218396.9844349 | BP delta = 0.0000000E+00 -0.5441732 15218398.1574145 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102099 | --> Sampling calibration, mode = relcal | relcal = 3.7074048E-02 1.3702208E-02 5.7596457E-03 -7.1663274E-03 8.2420148E-03 2.3880510E-03 -7.5937333E-03 -7.1801818E-03 -1.5299539E-02 -1.4794659E-02 -3.0461319E-03 -1.2085395E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.203735 132209013.226171 | BP delta = 0.0000000E+00 -1.200334 132209021.881038 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17985691529382 | --> Sampling calibration, mode = relcal | relcal = -7.3997132E-02 -5.7813969E-02 9.0801902E-02 4.1009199E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0908797E-04 3.0768286E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8474E-01 | 2: delta_r/delta_0: 3.9241E-03 | 3: delta_s/delta_0: 1.9240E-07 | 4: delta_r/delta_0: 2.1300E-08 | 5: delta_s/delta_0: 8.4883E-09 | 6: delta_r/delta_0: 1.7295E-09 | 7: delta_s/delta_0: 4.8632E-09 | 8: delta_r/delta_0: 1.1311E-10 | 9: delta_s/delta_0: 6.7236E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.149765440309617E-003 2.743894108799025E-005 | BP delta = 7.1213573E-02 9.1220878E-02 50492321.3091715 | BP delta = 7.8327410E-02 9.8334722E-02 50492329.9946568 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595551 | --> Sampling calibration, mode = relcal | relcal = -0.1066669 -9.5555983E-02 0.1449445 5.7278410E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1057240E-03 1.6127396E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8585E-05 | 2: delta_r/delta_0: 1.1878E-06 | 3: delta_s/delta_0: 2.5850E-07 | 4: delta_r/delta_0: 4.2040E-08 | 5: delta_s/delta_0: 2.0575E-08 | 6: delta_r/delta_0: 6.2889E-09 | 7: delta_s/delta_0: 1.9701E-08 | 8: delta_r/delta_0: 7.8004E-10 | 9: delta_s/delta_0: 8.5669E-10 | 10: delta_r/delta_0: 1.4181E-10 | 11: delta_s/delta_0: 1.9223E-09 | 12: delta_r/delta_0: 2.5756E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.434792886580156E-003 2.810961311215634E-005 | BP delta = -0.3042612 -0.2825417 57388320.3906334 | BP delta = -0.3059682 -0.2842487 57388320.5840020 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81207427 | --> Sampling calibration, mode = relcal | relcal = 0.2955364 0.2247324 -0.2837566 -0.2365123 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8153556E-04 5.4532783E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8387E-03 | 2: delta_r/delta_0: 8.9281E-05 | 3: delta_s/delta_0: 7.3062E-05 | 4: delta_r/delta_0: 5.9666E-06 | 5: delta_s/delta_0: 9.1419E-06 | 6: delta_r/delta_0: 1.5450E-06 | 7: delta_s/delta_0: 1.0232E-07 | 8: delta_r/delta_0: 2.8031E-08 | 9: delta_s/delta_0: 5.3162E-08 | 10: delta_r/delta_0: 5.5398E-09 | 11: delta_s/delta_0: 6.6570E-09 | 12: delta_r/delta_0: 5.1953E-10 | 13: delta_s/delta_0: 2.4373E-09 | 14: delta_r/delta_0: 3.1840E-10 | 15: delta_s/delta_0: 6.6689E-10 | 16: delta_r/delta_0: 3.0721E-10 | 17: delta_s/delta_0: 9.0654E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.495356266449395E-002 4.022549960249156E-005 | BP delta = -0.1472452 -0.1566795 72486902.7070585 | BP delta = -0.1611342 -0.1705684 72486902.4293524 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95893962 | --> Sampling calibration, mode = relcal | relcal = 0.1064639 0.1395120 -0.1101878 -0.1357881 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3009574E-03 1.4662913E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0248E-03 | 2: delta_r/delta_0: 2.4875E-05 | 3: delta_s/delta_0: 2.2799E-05 | 4: delta_r/delta_0: 1.6101E-06 | 5: delta_s/delta_0: 4.5368E-07 | 6: delta_r/delta_0: 1.9564E-07 | 7: delta_s/delta_0: 5.1358E-07 | 8: delta_r/delta_0: 4.2713E-08 | 9: delta_s/delta_0: 2.4104E-08 | 10: delta_r/delta_0: 4.9075E-09 | 11: delta_s/delta_0: 2.7259E-09 | 12: delta_r/delta_0: 1.8660E-09 | 13: delta_s/delta_0: 1.2251E-09 | 14: delta_r/delta_0: 8.3484E-10 | 15: delta_s/delta_0: 9.3478E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.513051842222477E-002 3.698016240030023E-005 | BP delta = 0.1280782 0.2372780 72781175.8681618 | BP delta = 0.1639858 0.2731856 72781177.6644733 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52151819 | --> Sampling calibration, mode = relcal | relcal = -5.1057510E-02 -3.7735726E-03 2.7305594E-02 2.7525488E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.7780311E-04 2.4450428E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7607E-05 | 2: delta_r/delta_0: 3.8252E-06 | 3: delta_s/delta_0: 2.0109E-06 | 4: delta_r/delta_0: 2.1039E-07 | 5: delta_s/delta_0: 6.2391E-08 | 6: delta_r/delta_0: 2.4959E-08 | 7: delta_s/delta_0: 1.3945E-07 | 8: delta_r/delta_0: 4.1081E-08 | 9: delta_s/delta_0: 3.6542E-09 | 10: delta_r/delta_0: 2.3875E-09 | 11: delta_s/delta_0: 1.2992E-08 | 12: delta_r/delta_0: 2.6584E-10 | 13: delta_s/delta_0: 6.9037E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.086994484790440E-002 5.483798625473798E-005 | BP delta = 0.1056655 0.2047229 91256630.4004099 | BP delta = 0.1148658 0.2139232 91256630.3044288 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42144215 | --> Sampling calibration, mode = relcal | relcal = 4.5516428E-02 3.9688602E-02 -2.8253607E-02 -5.6951422E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3090215E-03 2.4643021E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0324E-05 | 2: delta_r/delta_0: 3.8196E-06 | 3: delta_s/delta_0: 3.9387E-06 | 4: delta_r/delta_0: 6.4833E-07 | 5: delta_s/delta_0: 5.7957E-08 | 6: delta_r/delta_0: 3.5963E-08 | 7: delta_s/delta_0: 3.6354E-08 | 8: delta_r/delta_0: 1.2285E-08 | 9: delta_s/delta_0: 2.2433E-09 | 10: delta_r/delta_0: 1.1326E-09 | 11: delta_s/delta_0: 9.6231E-10 | 12: delta_r/delta_0: 5.4965E-10 | 13: delta_s/delta_0: 1.3066E-08 | 14: delta_r/delta_0: 1.8257E-10 | 15: delta_s/delta_0: 1.8093E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.475015545660348E-002 4.997298562205355E-005 | BP delta = 0.1433970 4.8373442E-02 90183905.2300165 | BP delta = 0.1237207 2.8697094E-02 90183905.3971226 | BP chisq diff = 0.2, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28158794 | --> Sampling calibration, mode = relcal | relcal = 2.4130939E-02 4.5231592E-02 -2.3386925E-02 -4.5975603E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1655496E-02 3.1639223E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0803E-04 | 2: delta_r/delta_0: 8.7701E-06 | 3: delta_s/delta_0: 1.4979E-06 | 4: delta_r/delta_0: 1.7766E-07 | 5: delta_s/delta_0: 5.5367E-08 | 6: delta_r/delta_0: 1.4874E-08 | 7: delta_s/delta_0: 7.5050E-09 | 8: delta_r/delta_0: 4.7822E-09 | 9: delta_s/delta_0: 7.6207E-08 | 10: delta_r/delta_0: 4.5258E-09 | 11: delta_s/delta_0: 1.2905E-09 | 12: delta_r/delta_0: 4.7916E-10 | 13: delta_s/delta_0: 6.7154E-10 | 14: delta_r/delta_0: 4.4424E-10 | 15: delta_s/delta_0: 5.6146E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.507219285255374E-003 7.844916214268191E-005 | BP delta = -0.1570031 -0.3134635 160928472.235308 | BP delta = -0.1839035 -0.3403639 160928471.780235 | BP chisq diff = -0.5, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29389694 | --> Sampling calibration, mode = relcal | relcal = 5.0998142E-04 1.0280402E-02 -3.8203073E-03 -6.9700759E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3877967E-02 1.9195810E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3052E-04 | 2: delta_r/delta_0: 1.1146E-05 | 3: delta_s/delta_0: 1.7780E-06 | 4: delta_r/delta_0: 2.5747E-07 | 5: delta_s/delta_0: 1.0088E-07 | 6: delta_r/delta_0: 2.2054E-08 | 7: delta_s/delta_0: 1.0312E-08 | 8: delta_r/delta_0: 7.1609E-09 | 9: delta_s/delta_0: 5.5640E-09 | 10: delta_r/delta_0: 4.2460E-09 | 11: delta_s/delta_0: 1.2136E-06 | 12: delta_r/delta_0: 6.7914E-10 | 13: delta_s/delta_0: 5.2817E-10 | 14: delta_r/delta_0: 2.9804E-10 | 15: delta_s/delta_0: 2.3203E-10 | 16: delta_r/delta_0: 1.0363E-10 | 17: delta_s/delta_0: 4.0180E-10 | 18: delta_r/delta_0: 4.6023E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.819305000105465E-003 8.307361602941676E-005 | BP delta = -0.8276260 -0.7835286 157869892.268224 | BP delta = -0.7785259 -0.7344285 157869892.813290 | BP chisq diff = 0.5, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26501803 | --> Sampling calibration, mode = relcal | relcal = -5.6118290E-03 1.4991710E-02 -2.3287942E-03 -7.0510870E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9557192E-03 2.3883972E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4141E-04 | 2: delta_r/delta_0: 1.2128E-05 | 3: delta_s/delta_0: 2.1183E-06 | 4: delta_r/delta_0: 2.7839E-07 | 5: delta_s/delta_0: 1.2116E-07 | 6: delta_r/delta_0: 2.4470E-08 | 7: delta_s/delta_0: 1.0039E-08 | 8: delta_r/delta_0: 6.5861E-09 | 9: delta_s/delta_0: 6.1769E-09 | 10: delta_r/delta_0: 4.4873E-09 | 11: delta_s/delta_0: 4.9320E-07 | 12: delta_r/delta_0: 7.4329E-10 | 13: delta_s/delta_0: 4.4333E-09 | 14: delta_r/delta_0: 1.2899E-09 | 15: delta_s/delta_0: 5.6283E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.863130723808147E-003 9.155185901082955E-005 | BP delta = 0.3100115 0.3484762 157021477.228050 | BP delta = 0.3171071 0.3555717 157021477.266044 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25656769 | --> Sampling calibration, mode = relcal | relcal = -3.1825565E-02 -2.5986543E-02 3.6894344E-02 2.0917762E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3221336E-02 2.0131895E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4412E-04 | 2: delta_r/delta_0: 1.2235E-05 | 3: delta_s/delta_0: 1.9951E-06 | 4: delta_r/delta_0: 3.8423E-07 | 5: delta_s/delta_0: 1.4692E-07 | 6: delta_r/delta_0: 2.8577E-08 | 7: delta_s/delta_0: 1.2485E-08 | 8: delta_r/delta_0: 7.6138E-09 | 9: delta_s/delta_0: 1.2182E-08 | 10: delta_r/delta_0: 4.7241E-09 | 11: delta_s/delta_0: 1.2698E-07 | 12: delta_r/delta_0: 4.1528E-08 | 13: delta_s/delta_0: 4.8822E-10 | 14: delta_r/delta_0: 3.4269E-10 | 15: delta_s/delta_0: 1.1711E-10 | 16: delta_r/delta_0: 1.0070E-10 | 17: delta_s/delta_0: 1.1896E-10 | 18: delta_r/delta_0: 6.6717E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.019385447100366E-002 8.675042938681555E-005 | BP delta = -0.8458026 -0.9888681 158503752.260902 | BP delta = -0.8193269 -0.9623924 158503752.478616 | BP chisq diff = 0.2, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.073859 | New value = -3.067856 | poltype: 2 pol: 1 CPU time specind = 3.1949043E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.038255 | New value = -3.162534 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106714 | New value = -3.200860 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.214323 | New value = -3.166983 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091651 | New value = -3.189778 | poltype: 2 pol: 2 CPU time specind = 3.3670187E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.10 | CG iter. 1 -- res = 0.13560E+08, tol = 0.69693E+01, time = 5.61 | CG iter. 2 -- res = 0.33846E+06, tol = 0.69693E+01, time = 5.10 | CG iter. 3 -- res = 0.49774E+05, tol = 0.69693E+01, time = 5.29 | CG iter. 4 -- res = 0.20997E+05, tol = 0.69693E+01, time = 5.38 | CG iter. 5 -- res = 0.91991E+04, tol = 0.69693E+01, time = 5.26 | CG iter. 6 -- res = 0.49298E+04, tol = 0.69693E+01, time = 5.73 | CG iter. 7 -- res = 0.34283E+04, tol = 0.69693E+01, time = 5.49 | CG iter. 8 -- res = 0.23954E+04, tol = 0.69693E+01, time = 5.37 | CG iter. 9 -- res = 0.19330E+04, tol = 0.69693E+01, time = 5.32 | CG iter. 10 -- res = 0.17836E+04, tol = 0.69693E+01, time = 5.51 | CG iter. 11 -- res = 0.15598E+04, tol = 0.69693E+01, time = 5.49 | CG iter. 12 -- res = 0.10893E+04, tol = 0.69693E+01, time = 6.98 | CG iter. 13 -- res = 0.62362E+03, tol = 0.69693E+01, time = 6.30 | CG iter. 14 -- res = 0.40922E+03, tol = 0.69693E+01, time = 5.86 | CG iter. 15 -- res = 0.31267E+03, tol = 0.69693E+01, time = 5.28 | CG iter. 16 -- res = 0.25790E+03, tol = 0.69693E+01, time = 5.51 | CG iter. 17 -- res = 0.19678E+03, tol = 0.69693E+01, time = 5.59 | CG iter. 18 -- res = 0.14290E+03, tol = 0.69693E+01, time = 5.36 | CG iter. 19 -- res = 0.11515E+03, tol = 0.69693E+01, time = 5.42 | CG iter. 20 -- res = 0.91224E+02, tol = 0.69693E+01, time = 5.59 | CG iter. 21 -- res = 0.59657E+02, tol = 0.69693E+01, time = 5.65 | CG iter. 22 -- res = 0.36650E+02, tol = 0.69693E+01, time = 5.50 | CG iter. 23 -- res = 0.25253E+02, tol = 0.69693E+01, time = 5.59 | CG iter. 24 -- res = 0.18397E+02, tol = 0.69693E+01, time = 5.70 | CG iter. 25 -- res = 0.13220E+02, tol = 0.69693E+01, time = 5.65 | CG iter. 26 -- res = 0.86983E+01, tol = 0.69693E+01, time = 5.55 | CG iter. 27 -- res = 0.56232E+01, tol = 0.69693E+01, time = 5.60 | CG iter. 28 -- res = 0.39972E+01, tol = 0.69693E+01, time = 5.48 | CG iter. 29 -- res = 0.29539E+01, tol = 0.69693E+01, time = 5.62 | CG iter. 30 -- res = 0.20633E+01, tol = 0.69693E+01, time = 5.35 | CG iter. 31 -- res = 0.14472E+01, tol = 0.69693E+01, time = 5.68 | CG iter. 32 -- res = 0.11182E+01, tol = 0.69693E+01, time = 5.88 | CG iter. 33 -- res = 0.89076E+00, tol = 0.69693E+01, time = 5.59 | CG iter. 34 -- res = 0.70041E+00, tol = 0.69693E+01, time = 5.55 | CG iter. 35 -- res = 0.52729E+00, tol = 0.69693E+01, time = 5.74 | CG iter. 36 -- res = 0.40970E+00, tol = 0.69693E+01, time = 5.42 | CG iter. 37 -- res = 0.34167E+00, tol = 0.69693E+01, time = 5.47 | CG iter. 38 -- res = 0.26976E+00, tol = 0.69693E+01, time = 5.42 | CG iter. 39 -- res = 0.19907E+00, tol = 0.69693E+01, time = 5.41 | CG iter. 40 -- res = 0.15249E+00, tol = 0.69693E+01, time = 5.76 | CG iter. 41 -- res = 0.11933E+00, tol = 0.69693E+01, time = 5.40 | CG iter. 42 -- res = 0.93909E-01, tol = 0.69693E+01, time = 5.11 | CG iter. 43 -- res = 0.72361E-01, tol = 0.69693E+01, time = 5.55 | CG iter. 44 -- res = 0.54260E-01, tol = 0.69693E+01, time = 5.28 | CG iter. 45 -- res = 0.42084E-01, tol = 0.69693E+01, time = 5.49 | CG iter. 46 -- res = 0.34712E-01, tol = 0.69693E+01, time = 5.35 | CG iter. 47 -- res = 0.30443E-01, tol = 0.69693E+01, time = 5.32 | CG iter. 48 -- res = 0.23523E-01, tol = 0.69693E+01, time = 5.52 | CG iter. 49 -- res = 0.18432E-01, tol = 0.69693E+01, time = 9.73 | CG iter. 50 -- res = 0.14909E-01, tol = 0.69693E+01, time = 8.01 | Final CG iter 51 -- res = 0.14909E-01, tol = 0.69693E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9358084.135 | Old band monopole 10600875.293 | Change to band monopole -1242791.158 | Change to component monopole 1242785.813 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.71198E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.39536E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.19119E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.62126E-03, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.26568E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9358043.884 | (Sampled value in CG: 9366850.560 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.482289 | New value = 1.512392 | poltype: 2 pol: 1 CPU time specind = 1.1668921E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.476474 | New value = 1.555260 | poltype: 2 pol: 2 CPU time specind = 4.7950745E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.24222E+08, tol = 0.47571E+04, time = 6.38 | CG iter. 2 -- res = 0.54530E+07, tol = 0.47571E+04, time = 6.37 | CG iter. 3 -- res = 0.86921E+06, tol = 0.47571E+04, time = 6.30 | CG iter. 4 -- res = 0.36270E+06, tol = 0.47571E+04, time = 6.23 | CG iter. 5 -- res = 0.15900E+06, tol = 0.47571E+04, time = 6.42 | CG iter. 6 -- res = 0.81891E+05, tol = 0.47571E+04, time = 6.33 | CG iter. 7 -- res = 0.44087E+05, tol = 0.47571E+04, time = 6.26 | CG iter. 8 -- res = 0.21808E+05, tol = 0.47571E+04, time = 6.51 | CG iter. 9 -- res = 0.97430E+04, tol = 0.47571E+04, time = 6.16 | CG iter. 10 -- res = 0.39094E+04, tol = 0.47571E+04, time = 6.24 | CG iter. 11 -- res = 0.17739E+04, tol = 0.47571E+04, time = 6.57 | CG iter. 12 -- res = 0.90760E+03, tol = 0.47571E+04, time = 6.86 | CG iter. 13 -- res = 0.50745E+03, tol = 0.47571E+04, time = 6.45 | CG iter. 14 -- res = 0.28836E+03, tol = 0.47571E+04, time = 6.64 | CG iter. 15 -- res = 0.15017E+03, tol = 0.47571E+04, time = 6.18 | CG iter. 16 -- res = 0.70000E+02, tol = 0.47571E+04, time = 6.51 | CG iter. 17 -- res = 0.32333E+02, tol = 0.47571E+04, time = 6.56 | CG iter. 18 -- res = 0.15914E+02, tol = 0.47571E+04, time = 6.12 | CG iter. 19 -- res = 0.86062E+01, tol = 0.47571E+04, time = 6.37 | CG iter. 20 -- res = 0.49538E+01, tol = 0.47571E+04, time = 6.84 | CG iter. 21 -- res = 0.27239E+01, tol = 0.47571E+04, time = 6.37 | CG iter. 22 -- res = 0.14097E+01, tol = 0.47571E+04, time = 5.90 | CG iter. 23 -- res = 0.69733E+00, tol = 0.47571E+04, time = 6.15 | CG iter. 24 -- res = 0.36084E+00, tol = 0.47571E+04, time = 6.12 | CG iter. 25 -- res = 0.19681E+00, tol = 0.47571E+04, time = 6.11 | CG iter. 26 -- res = 0.11379E+00, tol = 0.47571E+04, time = 6.81 | CG iter. 27 -- res = 0.65133E-01, tol = 0.47571E+04, time = 6.21 | CG iter. 28 -- res = 0.35848E-01, tol = 0.47571E+04, time = 16.53 | CG iter. 29 -- res = 0.18981E-01, tol = 0.47571E+04, time = 6.29 | CG iter. 30 -- res = 0.97093E-02, tol = 0.47571E+04, time = 6.31 | CG iter. 31 -- res = 0.52564E-02, tol = 0.47571E+04, time = 6.50 | CG iter. 32 -- res = 0.30014E-02, tol = 0.47571E+04, time = 6.15 | CG iter. 33 -- res = 0.16977E-02, tol = 0.47571E+04, time = 6.40 | CG iter. 34 -- res = 0.94595E-03, tol = 0.47571E+04, time = 6.11 | CG iter. 35 -- res = 0.49450E-03, tol = 0.47571E+04, time = 6.09 | Final CG iter 36 -- res = 0.49450E-03, tol = 0.47571E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.475 2.704 | New value 3.038 | Old value -2.475 | Difference 5.513 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.15718E+07, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.18509E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.67081E-01, tol = 0.47627E+18, time = 2.15 | Final CG iter 4 -- res = 0.23757E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9358043.884 | (Sampled value in CG: 9365991.885 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.510179 | New value = -3.592210 | poltype: 1 pol: 1 CPU time specind = 5.0644875E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.21231E+07, tol = 0.24517E+01, time = 2.43 | CG iter. 2 -- res = 0.68051E+06, tol = 0.24517E+01, time = 2.71 | CG iter. 3 -- res = 0.12698E+06, tol = 0.24517E+01, time = 2.59 | CG iter. 4 -- res = 0.51696E+05, tol = 0.24517E+01, time = 2.44 | CG iter. 5 -- res = 0.29075E+05, tol = 0.24517E+01, time = 2.79 | CG iter. 6 -- res = 0.15030E+05, tol = 0.24517E+01, time = 2.69 | CG iter. 7 -- res = 0.60489E+04, tol = 0.24517E+01, time = 2.75 | CG iter. 8 -- res = 0.29031E+04, tol = 0.24517E+01, time = 2.45 | CG iter. 9 -- res = 0.12449E+04, tol = 0.24517E+01, time = 2.60 | CG iter. 10 -- res = 0.48918E+03, tol = 0.24517E+01, time = 2.42 | CG iter. 11 -- res = 0.20426E+03, tol = 0.24517E+01, time = 2.82 | CG iter. 12 -- res = 0.98884E+02, tol = 0.24517E+01, time = 2.85 | CG iter. 13 -- res = 0.51070E+02, tol = 0.24517E+01, time = 2.72 | CG iter. 14 -- res = 0.26238E+02, tol = 0.24517E+01, time = 2.44 | CG iter. 15 -- res = 0.12460E+02, tol = 0.24517E+01, time = 2.51 | CG iter. 16 -- res = 0.55423E+01, tol = 0.24517E+01, time = 2.32 | CG iter. 17 -- res = 0.22282E+01, tol = 0.24517E+01, time = 2.40 | CG iter. 18 -- res = 0.97138E+00, tol = 0.24517E+01, time = 3.54 | CG iter. 19 -- res = 0.47918E+00, tol = 0.24517E+01, time = 3.54 | CG iter. 20 -- res = 0.25171E+00, tol = 0.24517E+01, time = 3.03 | CG iter. 21 -- res = 0.12388E+00, tol = 0.24517E+01, time = 2.98 | CG iter. 22 -- res = 0.59338E-01, tol = 0.24517E+01, time = 2.89 | CG iter. 23 -- res = 0.26302E-01, tol = 0.24517E+01, time = 2.70 | CG iter. 24 -- res = 0.12032E-01, tol = 0.24517E+01, time = 2.61 | CG iter. 25 -- res = 0.59112E-02, tol = 0.24517E+01, time = 3.01 | CG iter. 26 -- res = 0.30436E-02, tol = 0.24517E+01, time = 2.57 | CG iter. 27 -- res = 0.15062E-02, tol = 0.24517E+01, time = 2.43 | CG iter. 28 -- res = 0.72777E-03, tol = 0.24517E+01, time = 2.61 | CG iter. 29 -- res = 0.33835E-03, tol = 0.24517E+01, time = 2.39 | CG iter. 30 -- res = 0.16034E-03, tol = 0.24517E+01, time = 2.81 | CG iter. 31 -- res = 0.74932E-04, tol = 0.24517E+01, time = 2.58 | CG iter. 32 -- res = 0.37651E-04, tol = 0.24517E+01, time = 2.70 | CG iter. 33 -- res = 0.19051E-04, tol = 0.24517E+01, time = 2.67 | CG iter. 34 -- res = 0.91947E-05, tol = 0.24517E+01, time = 2.41 | CG iter. 35 -- res = 0.42362E-05, tol = 0.24517E+01, time = 2.43 | CG iter. 36 -- res = 0.19735E-05, tol = 0.24517E+01, time = 2.68 | CG iter. 37 -- res = 0.94417E-06, tol = 0.24517E+01, time = 2.91 | CG iter. 38 -- res = 0.46675E-06, tol = 0.24517E+01, time = 2.54 | CG iter. 39 -- res = 0.23621E-06, tol = 0.24517E+01, time = 2.59 | CG iter. 40 -- res = 0.11667E-06, tol = 0.24517E+01, time = 2.51 | CG iter. 41 -- res = 0.55891E-07, tol = 0.24517E+01, time = 2.44 | CG iter. 42 -- res = 0.25629E-07, tol = 0.24517E+01, time = 2.77 | CG iter. 43 -- res = 0.11764E-07, tol = 0.24517E+01, time = 2.56 | CG iter. 44 -- res = 0.56345E-08, tol = 0.24517E+01, time = 2.58 | CG iter. 45 -- res = 0.28627E-08, tol = 0.24517E+01, time = 2.63 | CG iter. 46 -- res = 0.13896E-08, tol = 0.24517E+01, time = 2.69 | CG iter. 47 -- res = 0.65728E-09, tol = 0.24517E+01, time = 2.66 | CG iter. 48 -- res = 0.31360E-09, tol = 0.24517E+01, time = 2.54 | CG iter. 49 -- res = 0.14467E-09, tol = 0.24517E+01, time = 2.61 | CG iter. 50 -- res = 0.66884E-10, tol = 0.24517E+01, time = 2.40 | Final CG iter 51 -- res = 0.66884E-10, tol = 0.24517E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.150 4.418 | New value -1.830 | Old value -2.150 | Difference 0.321 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.32872E+03, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.79711E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.85548E-01, tol = 0.47627E+18, time = 1.79 | Final CG iter 4 -- res = 0.11917E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9358043.884 | (Sampled value in CG: 9370632.546 ) | CPU time specind = 1154.490 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.68829E+08, tol = 0.57700E+04, time = 11.26 | CG iter. 2 -- res = 0.59515E+08, tol = 0.57700E+04, time = 11.61 | CG iter. 3 -- res = 0.15987E+08, tol = 0.57700E+04, time = 11.42 | CG iter. 4 -- res = 0.67280E+07, tol = 0.57700E+04, time = 17.53 | CG iter. 5 -- res = 0.39911E+07, tol = 0.57700E+04, time = 11.62 | CG iter. 6 -- res = 0.23278E+07, tol = 0.57700E+04, time = 11.86 | CG iter. 7 -- res = 0.14046E+07, tol = 0.57700E+04, time = 11.29 | CG iter. 8 -- res = 0.90833E+06, tol = 0.57700E+04, time = 11.18 | CG iter. 9 -- res = 0.57251E+06, tol = 0.57700E+04, time = 11.23 | CG iter. 10 -- res = 0.34826E+06, tol = 0.57700E+04, time = 11.30 | CG iter. 11 -- res = 0.19147E+06, tol = 0.57700E+04, time = 11.21 | CG iter. 12 -- res = 0.98922E+05, tol = 0.57700E+04, time = 13.10 | CG iter. 13 -- res = 0.52217E+05, tol = 0.57700E+04, time = 11.31 | CG iter. 14 -- res = 0.29639E+05, tol = 0.57700E+04, time = 11.57 | CG iter. 15 -- res = 0.18710E+05, tol = 0.57700E+04, time = 11.23 | CG iter. 16 -- res = 0.12681E+05, tol = 0.57700E+04, time = 11.26 | CG iter. 17 -- res = 0.87955E+04, tol = 0.57700E+04, time = 11.27 | CG iter. 18 -- res = 0.60065E+04, tol = 0.57700E+04, time = 11.28 | CG iter. 19 -- res = 0.38851E+04, tol = 0.57700E+04, time = 11.39 | CG iter. 20 -- res = 0.24519E+04, tol = 0.57700E+04, time = 11.11 | CG iter. 21 -- res = 0.16089E+04, tol = 0.57700E+04, time = 11.63 | CG iter. 22 -- res = 0.11734E+04, tol = 0.57700E+04, time = 11.29 | CG iter. 23 -- res = 0.97766E+03, tol = 0.57700E+04, time = 11.40 | CG iter. 24 -- res = 0.92595E+03, tol = 0.57700E+04, time = 11.86 | CG iter. 25 -- res = 0.95875E+03, tol = 0.57700E+04, time = 11.14 | CG iter. 26 -- res = 0.98713E+03, tol = 0.57700E+04, time = 11.67 | CG iter. 27 -- res = 0.95061E+03, tol = 0.57700E+04, time = 11.04 | CG iter. 28 -- res = 0.87432E+03, tol = 0.57700E+04, time = 11.24 | CG iter. 29 -- res = 0.80693E+03, tol = 0.57700E+04, time = 11.23 | CG iter. 30 -- res = 0.76312E+03, tol = 0.57700E+04, time = 17.25 | CG iter. 31 -- res = 0.71369E+03, tol = 0.57700E+04, time = 11.84 | CG iter. 32 -- res = 0.65772E+03, tol = 0.57700E+04, time = 11.43 | CG iter. 33 -- res = 0.56706E+03, tol = 0.57700E+04, time = 11.28 | CG iter. 34 -- res = 0.44315E+03, tol = 0.57700E+04, time = 11.45 | CG iter. 35 -- res = 0.33118E+03, tol = 0.57700E+04, time = 11.39 | CG iter. 36 -- res = 0.24898E+03, tol = 0.57700E+04, time = 11.51 | CG iter. 37 -- res = 0.19939E+03, tol = 0.57700E+04, time = 13.25 | CG iter. 38 -- res = 0.17599E+03, tol = 0.57700E+04, time = 11.94 | CG iter. 39 -- res = 0.16246E+03, tol = 0.57700E+04, time = 11.03 | CG iter. 40 -- res = 0.14823E+03, tol = 0.57700E+04, time = 11.34 | CG iter. 41 -- res = 0.13214E+03, tol = 0.57700E+04, time = 11.46 | CG iter. 42 -- res = 0.11609E+03, tol = 0.57700E+04, time = 11.26 | CG iter. 43 -- res = 0.10350E+03, tol = 0.57700E+04, time = 11.59 | CG iter. 44 -- res = 0.92919E+02, tol = 0.57700E+04, time = 11.33 | CG iter. 45 -- res = 0.87092E+02, tol = 0.57700E+04, time = 11.41 | CG iter. 46 -- res = 0.85012E+02, tol = 0.57700E+04, time = 11.22 | CG iter. 47 -- res = 0.80747E+02, tol = 0.57700E+04, time = 12.05 | CG iter. 48 -- res = 0.69910E+02, tol = 0.57700E+04, time = 10.92 | CG iter. 49 -- res = 0.58378E+02, tol = 0.57700E+04, time = 11.31 | CG iter. 50 -- res = 0.47774E+02, tol = 0.57700E+04, time = 11.37 | CG iter. 51 -- res = 0.40660E+02, tol = 0.57700E+04, time = 11.57 | CG iter. 52 -- res = 0.35749E+02, tol = 0.57700E+04, time = 11.51 | CG iter. 53 -- res = 0.32603E+02, tol = 0.57700E+04, time = 11.39 | CG iter. 54 -- res = 0.30009E+02, tol = 0.57700E+04, time = 11.10 | CG iter. 55 -- res = 0.27626E+02, tol = 0.57700E+04, time = 16.63 | CG iter. 56 -- res = 0.25068E+02, tol = 0.57700E+04, time = 13.19 | CG iter. 57 -- res = 0.22455E+02, tol = 0.57700E+04, time = 11.41 | CG iter. 58 -- res = 0.20599E+02, tol = 0.57700E+04, time = 10.84 | CG iter. 59 -- res = 0.19083E+02, tol = 0.57700E+04, time = 11.42 | CG iter. 60 -- res = 0.17987E+02, tol = 0.57700E+04, time = 11.24 | Final CG iter 61 -- res = 0.17987E+02, tol = 0.57700E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.767 ( -229.530 -2232.001 2514.857 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8289575.827 | Old band monopole 9358084.135 | Change to band monopole -1068508.308 | Change to component monopole 1068503.712 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.134 2.768 | New value 0.398 | Old value 3.134 | Difference -2.736 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.133 ( 5.560 12.696 -13.634 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.551 3.877 | New value 0.086 | Old value 3.551 | Difference -3.465 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.42215E+06, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.34016E+02, tol = 0.47627E+18, time = 2.36 | CG iter. 3 -- res = 0.14032E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.28326E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.30285E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8289540.172 | (Sampled value in CG: 8269286.913 ) | Chain = 1 -- chisq = 0.81517606E+09 | Chain = 1 -- wall time = 16548.225 sec Available RAM: MemAvailable: 481199408 kB Available Swap: SwapFree: 1055650704 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 272 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444769 | --> Sampling calibration, mode = relcal | relcal = 1.3423649E-02 7.5030635E-04 -1.5976079E-03 -1.2576346E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1213058 0.1394241 9408426.77816835 | BP delta = 0.1213058 0.1345843 9408395.38068677 | BP chisq diff = -31.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632350 | --> Sampling calibration, mode = relcal | relcal = -2.8204222E-03 -7.0458709E-04 1.6785761E-03 1.6128025E-03 -4.0762083E-04 6.4125139E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5372742 15221437.5349734 | BP delta = 0.0000000E+00 -0.5379011 15221443.6821660 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17836724142398 | --> Sampling calibration, mode = relcal | relcal = -7.4570872E-02 -5.7962839E-02 9.1266803E-02 4.1266914E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5022106E-04 3.4282673E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0108E-04 | 2: delta_r/delta_0: 2.6575E-06 | 3: delta_s/delta_0: 2.1379E-07 | 4: delta_r/delta_0: 1.7219E-08 | 5: delta_s/delta_0: 4.1870E-09 | 6: delta_r/delta_0: 1.1233E-09 | 7: delta_s/delta_0: 5.9625E-08 | 8: delta_r/delta_0: 1.0285E-09 | 9: delta_s/delta_0: 8.8469E-10 | 10: delta_r/delta_0: 2.2248E-10 | 11: delta_s/delta_0: 5.7464E-08 | 12: delta_r/delta_0: 2.1718E-08 | 13: delta_s/delta_0: 6.7438E-10 | 14: delta_r/delta_0: 6.7507E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.644281308761150E-004 2.747246017498358E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0107E-04 | 2: delta_r/delta_0: 2.6573E-06 | 3: delta_s/delta_0: 2.1379E-07 | 4: delta_r/delta_0: 1.7220E-08 | 5: delta_s/delta_0: 4.1871E-09 | 6: delta_r/delta_0: 1.1233E-09 | 7: delta_s/delta_0: 5.9599E-08 | 8: delta_r/delta_0: 1.0278E-09 | 9: delta_s/delta_0: 8.8441E-10 | 10: delta_r/delta_0: 2.2242E-10 | 11: delta_s/delta_0: 5.7432E-08 | 12: delta_r/delta_0: 2.1701E-08 | 13: delta_s/delta_0: 6.7444E-10 | 14: delta_r/delta_0: 6.7521E-12 | Reached bicg-stab tolerance | BP delta = 7.1213573E-02 9.1220878E-02 3617990.54478665 | BP delta = 7.1213573E-02 9.1182947E-02 3616873.22437015 | BP chisq diff = -1117.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02610845 | --> Sampling calibration, mode = relcal | relcal = -0.1066291 -9.5527522E-02 0.1448865 5.7270128E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1538378E-03 1.4644180E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4602E-05 | 2: delta_r/delta_0: 1.2606E-06 | 3: delta_s/delta_0: 2.5619E-07 | 4: delta_r/delta_0: 3.7849E-08 | 5: delta_s/delta_0: 2.1410E-08 | 6: delta_r/delta_0: 6.0452E-09 | 7: delta_s/delta_0: 6.2144E-09 | 8: delta_r/delta_0: 1.3464E-09 | 9: delta_s/delta_0: 6.8239E-10 | 10: delta_r/delta_0: 5.1257E-10 | 11: delta_s/delta_0: 5.0169E-10 | 12: delta_r/delta_0: 7.9476E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.608725507544061E-003 2.810536980272834E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.4601E-05 | 2: delta_r/delta_0: 1.2605E-06 | 3: delta_s/delta_0: 2.5618E-07 | 4: delta_r/delta_0: 3.7837E-08 | 5: delta_s/delta_0: 2.1414E-08 | 6: delta_r/delta_0: 6.0446E-09 | 7: delta_s/delta_0: 6.2144E-09 | 8: delta_r/delta_0: 1.3463E-09 | 9: delta_s/delta_0: 6.8232E-10 | 10: delta_r/delta_0: 5.1252E-10 | 11: delta_s/delta_0: 5.0163E-10 | 12: delta_r/delta_0: 7.9465E-11 | Reached bicg-stab tolerance | BP delta = -0.3059682 -0.2842487 2841708.58735914 | BP delta = -0.3059682 -0.2837552 2841720.89043881 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81230254 | --> Sampling calibration, mode = relcal | relcal = 0.2955422 0.2249249 -0.2838472 -0.2366199 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.5668079E-04 5.1553259E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0950E-03 | 2: delta_r/delta_0: 4.8342E-05 | 3: delta_s/delta_0: 1.1291E-05 | 4: delta_r/delta_0: 1.1033E-06 | 5: delta_s/delta_0: 7.9073E-07 | 6: delta_r/delta_0: 4.7188E-08 | 7: delta_s/delta_0: 4.0098E-08 | 8: delta_r/delta_0: 2.0123E-08 | 9: delta_s/delta_0: 7.7722E-07 | 10: delta_r/delta_0: 2.4782E-08 | 11: delta_s/delta_0: 9.7742E-10 | 12: delta_r/delta_0: 5.5086E-10 | 13: delta_s/delta_0: 2.9553E-10 | 14: delta_r/delta_0: 1.3998E-10 | 15: delta_s/delta_0: 8.5418E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.722832362677731E-002 4.021480287054042E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0964E-03 | 2: delta_r/delta_0: 4.8374E-05 | 3: delta_s/delta_0: 1.1293E-05 | 4: delta_r/delta_0: 1.1032E-06 | 5: delta_s/delta_0: 7.9179E-07 | 6: delta_r/delta_0: 4.7247E-08 | 7: delta_s/delta_0: 4.0103E-08 | 8: delta_r/delta_0: 2.0124E-08 | 9: delta_s/delta_0: 7.8107E-07 | 10: delta_r/delta_0: 2.4995E-08 | 11: delta_s/delta_0: 9.7880E-10 | 12: delta_r/delta_0: 5.5163E-10 | 13: delta_s/delta_0: 2.9598E-10 | 14: delta_r/delta_0: 1.3967E-10 | 15: delta_s/delta_0: 8.5369E-11 | Reached bicg-stab tolerance | BP delta = -0.1611342 -0.1705684 2827267.05885251 | BP delta = -0.1611342 -0.1704146 2827296.66726028 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95923490 | --> Sampling calibration, mode = relcal | relcal = 0.1064348 0.1396120 -0.1103057 -0.1357411 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0593681E-02 1.2679173E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1040E-03 | 2: delta_r/delta_0: 5.0588E-05 | 3: delta_s/delta_0: 7.0437E-05 | 4: delta_r/delta_0: 3.8181E-06 | 5: delta_s/delta_0: 5.6715E-07 | 6: delta_r/delta_0: 2.1135E-07 | 7: delta_s/delta_0: 3.6169E-07 | 8: delta_r/delta_0: 5.0566E-08 | 9: delta_s/delta_0: 1.6516E-07 | 10: delta_r/delta_0: 2.5556E-08 | 11: delta_s/delta_0: 2.8877E-09 | 12: delta_r/delta_0: 1.1903E-09 | 13: delta_s/delta_0: 5.1245E-09 | 14: delta_r/delta_0: 2.3493E-10 | 15: delta_s/delta_0: 8.8223E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.809305602506807E-002 3.696873196664379E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1050E-03 | 2: delta_r/delta_0: 5.0610E-05 | 3: delta_s/delta_0: 7.0448E-05 | 4: delta_r/delta_0: 3.8182E-06 | 5: delta_s/delta_0: 5.6725E-07 | 6: delta_r/delta_0: 2.1127E-07 | 7: delta_s/delta_0: 3.5995E-07 | 8: delta_r/delta_0: 5.0566E-08 | 9: delta_s/delta_0: 1.6475E-07 | 10: delta_r/delta_0: 2.5371E-08 | 11: delta_s/delta_0: 2.8868E-09 | 12: delta_r/delta_0: 1.1906E-09 | 13: delta_s/delta_0: 5.0962E-09 | 14: delta_r/delta_0: 2.3326E-10 | 15: delta_s/delta_0: 8.8226E-11 | Reached bicg-stab tolerance | BP delta = 0.1280782 0.2372780 3003983.76294652 | BP delta = 0.1280782 0.2529546 3004028.62127864 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.067856 | New value = -3.160905 | poltype: 2 pol: 1 CPU time specind = 2.1226883E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162534 | New value = -3.213693 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200860 | New value = -3.180422 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166983 | New value = -3.089409 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189778 | New value = -3.132577 | poltype: 2 pol: 2 CPU time specind = 8.0261230E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.13649E+08, tol = 0.84829E+01, time = 5.76 | CG iter. 2 -- res = 0.38557E+06, tol = 0.84829E+01, time = 5.76 | CG iter. 3 -- res = 0.10925E+06, tol = 0.84829E+01, time = 5.75 | CG iter. 4 -- res = 0.14271E+06, tol = 0.84829E+01, time = 10.63 | CG iter. 5 -- res = 0.15826E+06, tol = 0.84829E+01, time = 7.68 | CG iter. 6 -- res = 0.14452E+06, tol = 0.84829E+01, time = 5.66 | CG iter. 7 -- res = 0.11841E+06, tol = 0.84829E+01, time = 5.55 | CG iter. 8 -- res = 0.84204E+05, tol = 0.84829E+01, time = 5.78 | CG iter. 9 -- res = 0.71041E+05, tol = 0.84829E+01, time = 5.97 | CG iter. 10 -- res = 0.59358E+05, tol = 0.84829E+01, time = 5.74 | CG iter. 11 -- res = 0.43106E+05, tol = 0.84829E+01, time = 5.47 | CG iter. 12 -- res = 0.32512E+05, tol = 0.84829E+01, time = 5.51 | CG iter. 13 -- res = 0.27705E+05, tol = 0.84829E+01, time = 5.97 | CG iter. 14 -- res = 0.23849E+05, tol = 0.84829E+01, time = 5.68 | CG iter. 15 -- res = 0.18690E+05, tol = 0.84829E+01, time = 6.14 | CG iter. 16 -- res = 0.12771E+05, tol = 0.84829E+01, time = 5.80 | CG iter. 17 -- res = 0.94509E+04, tol = 0.84829E+01, time = 5.42 | CG iter. 18 -- res = 0.82937E+04, tol = 0.84829E+01, time = 6.04 | CG iter. 19 -- res = 0.71851E+04, tol = 0.84829E+01, time = 7.09 | CG iter. 20 -- res = 0.56860E+04, tol = 0.84829E+01, time = 6.30 | CG iter. 21 -- res = 0.43112E+04, tol = 0.84829E+01, time = 5.88 | CG iter. 22 -- res = 0.35570E+04, tol = 0.84829E+01, time = 5.60 | CG iter. 23 -- res = 0.31317E+04, tol = 0.84829E+01, time = 5.70 | CG iter. 24 -- res = 0.25958E+04, tol = 0.84829E+01, time = 5.49 | CG iter. 25 -- res = 0.19993E+04, tol = 0.84829E+01, time = 5.52 | CG iter. 26 -- res = 0.16410E+04, tol = 0.84829E+01, time = 5.84 | CG iter. 27 -- res = 0.15013E+04, tol = 0.84829E+01, time = 5.41 | CG iter. 28 -- res = 0.12992E+04, tol = 0.84829E+01, time = 5.52 | CG iter. 29 -- res = 0.10289E+04, tol = 0.84829E+01, time = 5.67 | CG iter. 30 -- res = 0.81977E+03, tol = 0.84829E+01, time = 5.82 | CG iter. 31 -- res = 0.74133E+03, tol = 0.84829E+01, time = 5.51 | CG iter. 32 -- res = 0.65155E+03, tol = 0.84829E+01, time = 5.69 | CG iter. 33 -- res = 0.51726E+03, tol = 0.84829E+01, time = 5.80 | CG iter. 34 -- res = 0.39599E+03, tol = 0.84829E+01, time = 6.42 | CG iter. 35 -- res = 0.34747E+03, tol = 0.84829E+01, time = 5.51 | CG iter. 36 -- res = 0.31476E+03, tol = 0.84829E+01, time = 5.62 | CG iter. 37 -- res = 0.26021E+03, tol = 0.84829E+01, time = 5.92 | CG iter. 38 -- res = 0.20149E+03, tol = 0.84829E+01, time = 6.68 | CG iter. 39 -- res = 0.16511E+03, tol = 0.84829E+01, time = 5.77 | CG iter. 40 -- res = 0.14223E+03, tol = 0.84829E+01, time = 6.38 | CG iter. 41 -- res = 0.12023E+03, tol = 0.84829E+01, time = 5.80 | CG iter. 42 -- res = 0.91766E+02, tol = 0.84829E+01, time = 5.87 | CG iter. 43 -- res = 0.71028E+02, tol = 0.84829E+01, time = 5.53 | CG iter. 44 -- res = 0.60064E+02, tol = 0.84829E+01, time = 5.79 | CG iter. 45 -- res = 0.49304E+02, tol = 0.84829E+01, time = 6.13 | CG iter. 46 -- res = 0.37938E+02, tol = 0.84829E+01, time = 6.01 | CG iter. 47 -- res = 0.29166E+02, tol = 0.84829E+01, time = 5.61 | CG iter. 48 -- res = 0.23298E+02, tol = 0.84829E+01, time = 5.29 | CG iter. 49 -- res = 0.19702E+02, tol = 0.84829E+01, time = 5.69 | CG iter. 50 -- res = 0.15558E+02, tol = 0.84829E+01, time = 5.43 | Final CG iter 51 -- res = 0.15558E+02, tol = 0.84829E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9804423.531 | Old band monopole 8289575.827 | Change to band monopole 1514847.704 | Change to component monopole -1514841.189 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.10673E+07, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.52272E+03, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.62820E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.68058E-01, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.81132E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9804381.360 | (Sampled value in CG: 9700791.978 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.512392 | New value = 1.459377 | poltype: 2 pol: 1 CPU time specind = 1.0657072E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.555260 | New value = 1.484826 | poltype: 2 pol: 2 CPU time specind = 4.4808388E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.24608E+08, tol = 0.47489E+04, time = 7.03 | CG iter. 2 -- res = 0.54498E+07, tol = 0.47489E+04, time = 6.82 | CG iter. 3 -- res = 0.87559E+06, tol = 0.47489E+04, time = 6.52 | CG iter. 4 -- res = 0.36484E+06, tol = 0.47489E+04, time = 6.57 | CG iter. 5 -- res = 0.15818E+06, tol = 0.47489E+04, time = 6.57 | CG iter. 6 -- res = 0.82499E+05, tol = 0.47489E+04, time = 6.54 | CG iter. 7 -- res = 0.45199E+05, tol = 0.47489E+04, time = 6.70 | CG iter. 8 -- res = 0.21962E+05, tol = 0.47489E+04, time = 6.42 | CG iter. 9 -- res = 0.95990E+04, tol = 0.47489E+04, time = 6.63 | CG iter. 10 -- res = 0.37696E+04, tol = 0.47489E+04, time = 6.77 | CG iter. 11 -- res = 0.16633E+04, tol = 0.47489E+04, time = 6.83 | CG iter. 12 -- res = 0.87767E+03, tol = 0.47489E+04, time = 6.83 | CG iter. 13 -- res = 0.50150E+03, tol = 0.47489E+04, time = 6.58 | CG iter. 14 -- res = 0.28263E+03, tol = 0.47489E+04, time = 6.51 | CG iter. 15 -- res = 0.14424E+03, tol = 0.47489E+04, time = 6.62 | CG iter. 16 -- res = 0.67288E+02, tol = 0.47489E+04, time = 6.45 | CG iter. 17 -- res = 0.32188E+02, tol = 0.47489E+04, time = 6.56 | CG iter. 18 -- res = 0.16173E+02, tol = 0.47489E+04, time = 6.52 | CG iter. 19 -- res = 0.88998E+01, tol = 0.47489E+04, time = 6.31 | CG iter. 20 -- res = 0.50510E+01, tol = 0.47489E+04, time = 6.73 | CG iter. 21 -- res = 0.27835E+01, tol = 0.47489E+04, time = 6.30 | CG iter. 22 -- res = 0.14350E+01, tol = 0.47489E+04, time = 6.59 | CG iter. 23 -- res = 0.73538E+00, tol = 0.47489E+04, time = 6.59 | CG iter. 24 -- res = 0.38516E+00, tol = 0.47489E+04, time = 6.46 | CG iter. 25 -- res = 0.21049E+00, tol = 0.47489E+04, time = 6.28 | CG iter. 26 -- res = 0.12059E+00, tol = 0.47489E+04, time = 6.84 | CG iter. 27 -- res = 0.67498E-01, tol = 0.47489E+04, time = 6.55 | CG iter. 28 -- res = 0.37089E-01, tol = 0.47489E+04, time = 6.52 | CG iter. 29 -- res = 0.19324E-01, tol = 0.47489E+04, time = 6.51 | CG iter. 30 -- res = 0.10068E-01, tol = 0.47489E+04, time = 6.54 | CG iter. 31 -- res = 0.55931E-02, tol = 0.47489E+04, time = 6.22 | CG iter. 32 -- res = 0.32404E-02, tol = 0.47489E+04, time = 12.78 | CG iter. 33 -- res = 0.18168E-02, tol = 0.47489E+04, time = 6.20 | CG iter. 34 -- res = 0.98436E-03, tol = 0.47489E+04, time = 6.74 | CG iter. 35 -- res = 0.51132E-03, tol = 0.47489E+04, time = 6.28 | Final CG iter 36 -- res = 0.51132E-03, tol = 0.47489E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.318 2.718 | New value -3.666 | Old value 0.318 | Difference -3.984 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.83673E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.14252E+03, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.20434E+01, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.74518E-03, tol = 0.47627E+18, time = 2.36 | Final CG iter 5 -- res = 0.26713E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9804381.360 | (Sampled value in CG: 9699281.837 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.592210 | New value = -3.417229 | poltype: 1 pol: 1 CPU time specind = 1.2452841E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.34388E+07, tol = 0.30745E+01, time = 2.90 | CG iter. 2 -- res = 0.22892E+07, tol = 0.30745E+01, time = 2.86 | CG iter. 3 -- res = 0.47378E+06, tol = 0.30745E+01, time = 2.77 | CG iter. 4 -- res = 0.17161E+06, tol = 0.30745E+01, time = 2.59 | CG iter. 5 -- res = 0.95726E+05, tol = 0.30745E+01, time = 2.75 | CG iter. 6 -- res = 0.51385E+05, tol = 0.30745E+01, time = 2.73 | CG iter. 7 -- res = 0.19624E+05, tol = 0.30745E+01, time = 2.77 | CG iter. 8 -- res = 0.77473E+04, tol = 0.30745E+01, time = 2.89 | CG iter. 9 -- res = 0.36099E+04, tol = 0.30745E+01, time = 2.69 | CG iter. 10 -- res = 0.15251E+04, tol = 0.30745E+01, time = 2.73 | CG iter. 11 -- res = 0.60360E+03, tol = 0.30745E+01, time = 2.68 | CG iter. 12 -- res = 0.27234E+03, tol = 0.30745E+01, time = 2.92 | CG iter. 13 -- res = 0.12868E+03, tol = 0.30745E+01, time = 2.89 | CG iter. 14 -- res = 0.68139E+02, tol = 0.30745E+01, time = 2.53 | CG iter. 15 -- res = 0.34758E+02, tol = 0.30745E+01, time = 2.58 | CG iter. 16 -- res = 0.16234E+02, tol = 0.30745E+01, time = 2.76 | CG iter. 17 -- res = 0.70756E+01, tol = 0.30745E+01, time = 2.91 | CG iter. 18 -- res = 0.32172E+01, tol = 0.30745E+01, time = 2.50 | CG iter. 19 -- res = 0.14461E+01, tol = 0.30745E+01, time = 3.56 | CG iter. 20 -- res = 0.71106E+00, tol = 0.30745E+01, time = 3.71 | CG iter. 21 -- res = 0.35135E+00, tol = 0.30745E+01, time = 3.22 | CG iter. 22 -- res = 0.17391E+00, tol = 0.30745E+01, time = 3.17 | CG iter. 23 -- res = 0.81668E-01, tol = 0.30745E+01, time = 3.08 | CG iter. 24 -- res = 0.39096E-01, tol = 0.30745E+01, time = 2.68 | CG iter. 25 -- res = 0.17933E-01, tol = 0.30745E+01, time = 2.80 | CG iter. 26 -- res = 0.82040E-02, tol = 0.30745E+01, time = 2.51 | CG iter. 27 -- res = 0.42162E-02, tol = 0.30745E+01, time = 2.91 | CG iter. 28 -- res = 0.21758E-02, tol = 0.30745E+01, time = 3.10 | CG iter. 29 -- res = 0.10800E-02, tol = 0.30745E+01, time = 2.95 | CG iter. 30 -- res = 0.56196E-03, tol = 0.30745E+01, time = 2.69 | CG iter. 31 -- res = 0.25687E-03, tol = 0.30745E+01, time = 2.92 | CG iter. 32 -- res = 0.11554E-03, tol = 0.30745E+01, time = 2.77 | CG iter. 33 -- res = 0.55512E-04, tol = 0.30745E+01, time = 2.85 | CG iter. 34 -- res = 0.28206E-04, tol = 0.30745E+01, time = 2.58 | CG iter. 35 -- res = 0.15389E-04, tol = 0.30745E+01, time = 2.57 | CG iter. 36 -- res = 0.76682E-05, tol = 0.30745E+01, time = 2.87 | CG iter. 37 -- res = 0.34652E-05, tol = 0.30745E+01, time = 2.93 | CG iter. 38 -- res = 0.16616E-05, tol = 0.30745E+01, time = 2.63 | CG iter. 39 -- res = 0.78483E-06, tol = 0.30745E+01, time = 2.57 | CG iter. 40 -- res = 0.38729E-06, tol = 0.30745E+01, time = 3.02 | CG iter. 41 -- res = 0.19892E-06, tol = 0.30745E+01, time = 2.55 | CG iter. 42 -- res = 0.10274E-06, tol = 0.30745E+01, time = 2.64 | CG iter. 43 -- res = 0.50105E-07, tol = 0.30745E+01, time = 2.65 | CG iter. 44 -- res = 0.23241E-07, tol = 0.30745E+01, time = 2.95 | CG iter. 45 -- res = 0.10772E-07, tol = 0.30745E+01, time = 2.77 | CG iter. 46 -- res = 0.53277E-08, tol = 0.30745E+01, time = 2.61 | CG iter. 47 -- res = 0.26044E-08, tol = 0.30745E+01, time = 2.69 | CG iter. 48 -- res = 0.13448E-08, tol = 0.30745E+01, time = 2.72 | CG iter. 49 -- res = 0.68309E-09, tol = 0.30745E+01, time = 2.68 | CG iter. 50 -- res = 0.31834E-09, tol = 0.30745E+01, time = 2.77 | Final CG iter 51 -- res = 0.31834E-09, tol = 0.30745E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.132 5.332 | New value 5.302 | Old value -7.132 | Difference 12.435 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.16730E+06, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.13838E+03, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.30907E+01, tol = 0.47627E+18, time = 2.22 | CG iter. 4 -- res = 0.23428E-01, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.65374E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9804381.360 | (Sampled value in CG: 9728010.493 ) | CPU time specind = 1206.082 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.70289E+08, tol = 0.57424E+04, time = 11.84 | CG iter. 2 -- res = 0.59478E+08, tol = 0.57424E+04, time = 11.67 | CG iter. 3 -- res = 0.15581E+08, tol = 0.57424E+04, time = 13.75 | CG iter. 4 -- res = 0.66072E+07, tol = 0.57424E+04, time = 16.66 | CG iter. 5 -- res = 0.39829E+07, tol = 0.57424E+04, time = 12.16 | CG iter. 6 -- res = 0.23571E+07, tol = 0.57424E+04, time = 11.63 | CG iter. 7 -- res = 0.14232E+07, tol = 0.57424E+04, time = 11.57 | CG iter. 8 -- res = 0.94292E+06, tol = 0.57424E+04, time = 11.93 | CG iter. 9 -- res = 0.62000E+06, tol = 0.57424E+04, time = 11.96 | CG iter. 10 -- res = 0.39439E+06, tol = 0.57424E+04, time = 11.84 | CG iter. 11 -- res = 0.23211E+06, tol = 0.57424E+04, time = 13.29 | CG iter. 12 -- res = 0.14055E+06, tol = 0.57424E+04, time = 12.23 | CG iter. 13 -- res = 0.92254E+05, tol = 0.57424E+04, time = 11.57 | CG iter. 14 -- res = 0.69728E+05, tol = 0.57424E+04, time = 11.58 | CG iter. 15 -- res = 0.63940E+05, tol = 0.57424E+04, time = 12.13 | CG iter. 16 -- res = 0.64806E+05, tol = 0.57424E+04, time = 11.64 | CG iter. 17 -- res = 0.66842E+05, tol = 0.57424E+04, time = 11.87 | CG iter. 18 -- res = 0.64033E+05, tol = 0.57424E+04, time = 12.11 | CG iter. 19 -- res = 0.58038E+05, tol = 0.57424E+04, time = 12.28 | CG iter. 20 -- res = 0.53510E+05, tol = 0.57424E+04, time = 12.34 | CG iter. 21 -- res = 0.50211E+05, tol = 0.57424E+04, time = 11.65 | CG iter. 22 -- res = 0.48463E+05, tol = 0.57424E+04, time = 11.71 | CG iter. 23 -- res = 0.45450E+05, tol = 0.57424E+04, time = 12.01 | CG iter. 24 -- res = 0.38665E+05, tol = 0.57424E+04, time = 12.05 | CG iter. 25 -- res = 0.30392E+05, tol = 0.57424E+04, time = 11.54 | CG iter. 26 -- res = 0.22416E+05, tol = 0.57424E+04, time = 11.79 | CG iter. 27 -- res = 0.16647E+05, tol = 0.57424E+04, time = 11.89 | CG iter. 28 -- res = 0.13533E+05, tol = 0.57424E+04, time = 17.94 | CG iter. 29 -- res = 0.11814E+05, tol = 0.57424E+04, time = 12.22 | CG iter. 30 -- res = 0.10848E+05, tol = 0.57424E+04, time = 11.97 | CG iter. 31 -- res = 0.10313E+05, tol = 0.57424E+04, time = 12.04 | CG iter. 32 -- res = 0.94835E+04, tol = 0.57424E+04, time = 11.94 | CG iter. 33 -- res = 0.83455E+04, tol = 0.57424E+04, time = 11.64 | CG iter. 34 -- res = 0.71628E+04, tol = 0.57424E+04, time = 11.80 | CG iter. 35 -- res = 0.63281E+04, tol = 0.57424E+04, time = 14.00 | CG iter. 36 -- res = 0.57533E+04, tol = 0.57424E+04, time = 12.03 | CG iter. 37 -- res = 0.54324E+04, tol = 0.57424E+04, time = 11.98 | CG iter. 38 -- res = 0.49240E+04, tol = 0.57424E+04, time = 11.61 | CG iter. 39 -- res = 0.41579E+04, tol = 0.57424E+04, time = 11.89 | CG iter. 40 -- res = 0.33114E+04, tol = 0.57424E+04, time = 12.17 | CG iter. 41 -- res = 0.26356E+04, tol = 0.57424E+04, time = 11.54 | CG iter. 42 -- res = 0.22231E+04, tol = 0.57424E+04, time = 12.05 | CG iter. 43 -- res = 0.19856E+04, tol = 0.57424E+04, time = 11.72 | CG iter. 44 -- res = 0.19233E+04, tol = 0.57424E+04, time = 11.92 | CG iter. 45 -- res = 0.18672E+04, tol = 0.57424E+04, time = 12.27 | CG iter. 46 -- res = 0.17326E+04, tol = 0.57424E+04, time = 11.69 | CG iter. 47 -- res = 0.15637E+04, tol = 0.57424E+04, time = 11.40 | CG iter. 48 -- res = 0.14013E+04, tol = 0.57424E+04, time = 11.66 | CG iter. 49 -- res = 0.12095E+04, tol = 0.57424E+04, time = 12.28 | CG iter. 50 -- res = 0.10828E+04, tol = 0.57424E+04, time = 12.08 | CG iter. 51 -- res = 0.10083E+04, tol = 0.57424E+04, time = 11.96 | CG iter. 52 -- res = 0.95411E+03, tol = 0.57424E+04, time = 12.36 | CG iter. 53 -- res = 0.90388E+03, tol = 0.57424E+04, time = 17.31 | CG iter. 54 -- res = 0.81473E+03, tol = 0.57424E+04, time = 12.20 | CG iter. 55 -- res = 0.70083E+03, tol = 0.57424E+04, time = 11.41 | CG iter. 56 -- res = 0.60548E+03, tol = 0.57424E+04, time = 11.86 | CG iter. 57 -- res = 0.53691E+03, tol = 0.57424E+04, time = 11.94 | CG iter. 58 -- res = 0.51532E+03, tol = 0.57424E+04, time = 11.89 | CG iter. 59 -- res = 0.50765E+03, tol = 0.57424E+04, time = 12.04 | CG iter. 60 -- res = 0.48148E+03, tol = 0.57424E+04, time = 13.94 | Final CG iter 61 -- res = 0.48148E+03, tol = 0.57424E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.952 ( -229.631 -2233.163 2515.957 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11126667.898 | Old band monopole 9804423.531 | Change to band monopole 1322244.367 | Change to component monopole -1322238.680 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.670 2.732 | New value 4.583 | Old value -3.670 | Difference 8.254 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.953 ( 6.762 16.008 -16.159 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.276 4.746 | New value 0.359 | Old value 15.276 | Difference -14.917 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.36768E+07, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.85800E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.31251E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.11405E-01, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.16469E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11126620.040 | (Sampled value in CG: 11092007.667 ) | Chain = 1 -- chisq = 0.81617320E+09 | Chain = 1 -- wall time = 6339.438 sec Available RAM: MemAvailable: 378648592 kB Available Swap: SwapFree: 1128057744 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 273 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442132 | --> Sampling calibration, mode = relcal | relcal = 1.3422362E-02 7.4271025E-04 -1.5865541E-03 -1.2578518E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1213058 0.1345843 97040150.9896062 | BP delta = 0.1249045 0.1381830 97040149.5117750 | BP chisq diff = -1.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632589 | --> Sampling calibration, mode = relcal | relcal = -2.8215009E-03 -7.0307736E-04 1.6790538E-03 1.6137745E-03 -4.0816193E-04 6.3991192E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5372742 15218378.6261840 | BP delta = 0.0000000E+00 -0.5229966 15218379.4877266 | BP chisq diff = 0.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18396851714934 | --> Sampling calibration, mode = relcal | relcal = -7.6237321E-02 -5.9302863E-02 9.3095265E-02 4.2444915E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.5651305E-04 6.2866025E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2280E-05 | 2: delta_r/delta_0: 1.6040E-06 | 3: delta_s/delta_0: 1.9993E-07 | 4: delta_r/delta_0: 2.6330E-08 | 5: delta_s/delta_0: 6.7753E-09 | 6: delta_r/delta_0: 2.3868E-09 | 7: delta_s/delta_0: 7.8528E-10 | 8: delta_r/delta_0: 1.1704E-10 | 9: delta_s/delta_0: 1.9312E-10 | 10: delta_r/delta_0: 4.8242E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.087703522159582E-003 2.734045346302751E-005 | BP delta = 7.1213573E-02 9.1182947E-02 50492882.4484022 | BP delta = 6.6481747E-02 8.6451121E-02 50492888.1949657 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02618812 | --> Sampling calibration, mode = relcal | relcal = -0.1066271 -9.5624842E-02 0.1449645 5.7287425E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1467432E-03 1.7192796E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1741E-05 | 2: delta_r/delta_0: 1.2258E-06 | 3: delta_s/delta_0: 2.6101E-07 | 4: delta_r/delta_0: 4.0124E-08 | 5: delta_s/delta_0: 2.1676E-08 | 6: delta_r/delta_0: 6.5693E-09 | 7: delta_s/delta_0: 7.5927E-09 | 8: delta_r/delta_0: 1.3904E-09 | 9: delta_s/delta_0: 7.0416E-10 | 10: delta_r/delta_0: 5.2986E-10 | 11: delta_s/delta_0: 2.9530E-10 | 12: delta_r/delta_0: 8.8539E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.675646237269429E-003 2.810339212406289E-005 | BP delta = -0.3059682 -0.2842487 57390359.8049123 | BP delta = -0.3260525 -0.3043330 57390363.4055770 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81257148 | --> Sampling calibration, mode = relcal | relcal = 0.2956148 0.2249582 -0.2838719 -0.2367010 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.5194200E-04 5.6456099E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2155E-03 | 2: delta_r/delta_0: 2.7940E-05 | 3: delta_s/delta_0: 1.8069E-02 | 4: delta_r/delta_0: 9.4543E-04 | 5: delta_s/delta_0: 2.8053E-04 | 6: delta_r/delta_0: 4.7761E-05 | 7: delta_s/delta_0: 6.9748E-08 | 8: delta_r/delta_0: 4.1444E-08 | 9: delta_s/delta_0: 2.0379E-07 | 10: delta_r/delta_0: 5.9783E-09 | 11: delta_s/delta_0: 2.0805E-09 | 12: delta_r/delta_0: 6.0484E-10 | 13: delta_s/delta_0: 1.5174E-10 | 14: delta_r/delta_0: 1.0540E-10 | 15: delta_s/delta_0: 2.4522E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.877474612829150E-002 4.020069411175837E-005 | BP delta = -0.1611342 -0.1705684 72488411.7396118 | BP delta = -0.1787086 -0.1881429 72488410.7482370 | BP chisq diff = -1.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95950455 | --> Sampling calibration, mode = relcal | relcal = 0.1065422 0.1395950 -0.1103510 -0.1357862 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2942091E-03 1.1604063E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9196E+00 | 2: delta_r/delta_0: 1.4062E-01 | 3: delta_s/delta_0: 1.3424E-01 | 4: delta_r/delta_0: 8.5327E-03 | 5: delta_s/delta_0: 8.0577E-06 | 6: delta_r/delta_0: 2.8683E-06 | 7: delta_s/delta_0: 1.0075E-05 | 8: delta_r/delta_0: 2.5101E-06 | 9: delta_s/delta_0: 4.3080E-04 | 10: delta_r/delta_0: 9.2286E-05 | 11: delta_s/delta_0: 1.8762E-07 | 12: delta_r/delta_0: 3.3814E-08 | 13: delta_s/delta_0: 1.9668E-08 | 14: delta_r/delta_0: 3.7530E-09 | 15: delta_s/delta_0: 2.6824E-08 | 16: delta_r/delta_0: 3.3092E-09 | 17: delta_s/delta_0: 1.0405E-10 | 18: delta_r/delta_0: 8.2247E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.859626559115864E-002 3.695862881438964E-005 | BP delta = 0.1280782 0.2372780 72785442.1484013 | BP delta = 0.1018626 0.2110624 72785440.8376599 | BP chisq diff = -1.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160905 | New value = -3.150305 | poltype: 2 pol: 1 CPU time specind = 0.1020741 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.213693 | New value = -3.112842 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.180422 | New value = -3.185500 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.089409 | New value = -3.091066 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132577 | New value = -3.234072 | poltype: 2 pol: 2 CPU time specind = 6.2589645E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.13556E+08, tol = 0.63560E+01, time = 5.61 | CG iter. 2 -- res = 0.32738E+06, tol = 0.63560E+01, time = 5.67 | CG iter. 3 -- res = 0.49998E+05, tol = 0.63560E+01, time = 5.89 | CG iter. 4 -- res = 0.25583E+05, tol = 0.63560E+01, time = 5.87 | CG iter. 5 -- res = 0.15738E+05, tol = 0.63560E+01, time = 5.64 | CG iter. 6 -- res = 0.11797E+05, tol = 0.63560E+01, time = 5.84 | CG iter. 7 -- res = 0.11347E+05, tol = 0.63560E+01, time = 5.73 | CG iter. 8 -- res = 0.10815E+05, tol = 0.63560E+01, time = 5.54 | CG iter. 9 -- res = 0.10693E+05, tol = 0.63560E+01, time = 5.53 | CG iter. 10 -- res = 0.11107E+05, tol = 0.63560E+01, time = 6.24 | CG iter. 11 -- res = 0.87421E+04, tol = 0.63560E+01, time = 6.44 | CG iter. 12 -- res = 0.57570E+04, tol = 0.63560E+01, time = 6.66 | CG iter. 13 -- res = 0.38020E+04, tol = 0.63560E+01, time = 5.42 | CG iter. 14 -- res = 0.31248E+04, tol = 0.63560E+01, time = 5.62 | CG iter. 15 -- res = 0.27612E+04, tol = 0.63560E+01, time = 5.85 | CG iter. 16 -- res = 0.23775E+04, tol = 0.63560E+01, time = 5.76 | CG iter. 17 -- res = 0.18356E+04, tol = 0.63560E+01, time = 5.75 | CG iter. 18 -- res = 0.15955E+04, tol = 0.63560E+01, time = 5.81 | CG iter. 19 -- res = 0.13952E+04, tol = 0.63560E+01, time = 5.55 | CG iter. 20 -- res = 0.11471E+04, tol = 0.63560E+01, time = 6.19 | CG iter. 21 -- res = 0.82458E+03, tol = 0.63560E+01, time = 5.82 | CG iter. 22 -- res = 0.64441E+03, tol = 0.63560E+01, time = 5.67 | CG iter. 23 -- res = 0.57022E+03, tol = 0.63560E+01, time = 6.12 | CG iter. 24 -- res = 0.51124E+03, tol = 0.63560E+01, time = 5.45 | CG iter. 25 -- res = 0.41108E+03, tol = 0.63560E+01, time = 5.78 | CG iter. 26 -- res = 0.32398E+03, tol = 0.63560E+01, time = 5.85 | CG iter. 27 -- res = 0.28402E+03, tol = 0.63560E+01, time = 5.51 | CG iter. 28 -- res = 0.25807E+03, tol = 0.63560E+01, time = 6.08 | CG iter. 29 -- res = 0.22189E+03, tol = 0.63560E+01, time = 5.79 | CG iter. 30 -- res = 0.17888E+03, tol = 0.63560E+01, time = 5.69 | CG iter. 31 -- res = 0.15316E+03, tol = 0.63560E+01, time = 5.86 | CG iter. 32 -- res = 0.13929E+03, tol = 0.63560E+01, time = 5.59 | CG iter. 33 -- res = 0.11372E+03, tol = 0.63560E+01, time = 6.21 | CG iter. 34 -- res = 0.82702E+02, tol = 0.63560E+01, time = 5.46 | CG iter. 35 -- res = 0.63900E+02, tol = 0.63560E+01, time = 5.63 | CG iter. 36 -- res = 0.54470E+02, tol = 0.63560E+01, time = 5.82 | CG iter. 37 -- res = 0.43646E+02, tol = 0.63560E+01, time = 6.03 | CG iter. 38 -- res = 0.31929E+02, tol = 0.63560E+01, time = 5.63 | CG iter. 39 -- res = 0.23414E+02, tol = 0.63560E+01, time = 5.42 | CG iter. 40 -- res = 0.18082E+02, tol = 0.63560E+01, time = 5.60 | CG iter. 41 -- res = 0.14019E+02, tol = 0.63560E+01, time = 5.94 | CG iter. 42 -- res = 0.99257E+01, tol = 0.63560E+01, time = 6.22 | CG iter. 43 -- res = 0.73594E+01, tol = 0.63560E+01, time = 5.62 | CG iter. 44 -- res = 0.56424E+01, tol = 0.63560E+01, time = 5.60 | CG iter. 45 -- res = 0.46657E+01, tol = 0.63560E+01, time = 6.00 | CG iter. 46 -- res = 0.36734E+01, tol = 0.63560E+01, time = 7.31 | CG iter. 47 -- res = 0.28649E+01, tol = 0.63560E+01, time = 10.34 | CG iter. 48 -- res = 0.21557E+01, tol = 0.63560E+01, time = 5.72 | CG iter. 49 -- res = 0.17371E+01, tol = 0.63560E+01, time = 5.80 | CG iter. 50 -- res = 0.13799E+01, tol = 0.63560E+01, time = 5.56 | Final CG iter 51 -- res = 0.13799E+01, tol = 0.63560E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11157147.593 | Old band monopole 11126667.898 | Change to band monopole 30479.694 | Change to component monopole -30479.563 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.22965E+04, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.13614E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.96501E-01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.19740E-03, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.21359E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11157099.603 | (Sampled value in CG: 11164446.134 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.459377 | New value = 1.505573 | poltype: 2 pol: 1 CPU time specind = 2.1109104E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484826 | New value = 1.492120 | poltype: 2 pol: 2 CPU time specind = 2.5086164E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.24458E+08, tol = 0.47649E+04, time = 6.42 | CG iter. 2 -- res = 0.53202E+07, tol = 0.47649E+04, time = 6.26 | CG iter. 3 -- res = 0.83928E+06, tol = 0.47649E+04, time = 6.35 | CG iter. 4 -- res = 0.35371E+06, tol = 0.47649E+04, time = 6.49 | CG iter. 5 -- res = 0.15203E+06, tol = 0.47649E+04, time = 6.59 | CG iter. 6 -- res = 0.80087E+05, tol = 0.47649E+04, time = 6.63 | CG iter. 7 -- res = 0.44121E+05, tol = 0.47649E+04, time = 6.34 | CG iter. 8 -- res = 0.20972E+05, tol = 0.47649E+04, time = 6.61 | CG iter. 9 -- res = 0.91991E+04, tol = 0.47649E+04, time = 7.25 | CG iter. 10 -- res = 0.37782E+04, tol = 0.47649E+04, time = 6.33 | CG iter. 11 -- res = 0.17094E+04, tol = 0.47649E+04, time = 6.74 | CG iter. 12 -- res = 0.89236E+03, tol = 0.47649E+04, time = 6.88 | CG iter. 13 -- res = 0.51059E+03, tol = 0.47649E+04, time = 6.52 | CG iter. 14 -- res = 0.28885E+03, tol = 0.47649E+04, time = 6.90 | CG iter. 15 -- res = 0.14868E+03, tol = 0.47649E+04, time = 6.56 | CG iter. 16 -- res = 0.69014E+02, tol = 0.47649E+04, time = 6.48 | CG iter. 17 -- res = 0.31902E+02, tol = 0.47649E+04, time = 6.61 | CG iter. 18 -- res = 0.16086E+02, tol = 0.47649E+04, time = 6.62 | CG iter. 19 -- res = 0.88410E+01, tol = 0.47649E+04, time = 6.83 | CG iter. 20 -- res = 0.49240E+01, tol = 0.47649E+04, time = 6.33 | CG iter. 21 -- res = 0.26764E+01, tol = 0.47649E+04, time = 6.63 | CG iter. 22 -- res = 0.14007E+01, tol = 0.47649E+04, time = 6.67 | CG iter. 23 -- res = 0.69507E+00, tol = 0.47649E+04, time = 6.71 | CG iter. 24 -- res = 0.36285E+00, tol = 0.47649E+04, time = 11.73 | CG iter. 25 -- res = 0.19917E+00, tol = 0.47649E+04, time = 7.61 | CG iter. 26 -- res = 0.11239E+00, tol = 0.47649E+04, time = 6.51 | CG iter. 27 -- res = 0.62411E-01, tol = 0.47649E+04, time = 6.36 | CG iter. 28 -- res = 0.33335E-01, tol = 0.47649E+04, time = 6.43 | CG iter. 29 -- res = 0.17439E-01, tol = 0.47649E+04, time = 6.64 | CG iter. 30 -- res = 0.91936E-02, tol = 0.47649E+04, time = 6.66 | CG iter. 31 -- res = 0.50142E-02, tol = 0.47649E+04, time = 6.59 | CG iter. 32 -- res = 0.28766E-02, tol = 0.47649E+04, time = 6.55 | CG iter. 33 -- res = 0.16276E-02, tol = 0.47649E+04, time = 6.76 | CG iter. 34 -- res = 0.87499E-03, tol = 0.47649E+04, time = 6.42 | CG iter. 35 -- res = 0.44563E-03, tol = 0.47649E+04, time = 6.36 | Final CG iter 36 -- res = 0.44563E-03, tol = 0.47649E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.657 2.758 | New value 2.967 | Old value 4.657 | Difference -1.690 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.15260E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.19453E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.38500E+00, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.31818E-03, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.21585E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11157099.603 | (Sampled value in CG: 11164640.700 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.417229 | New value = -3.712603 | poltype: 1 pol: 1 CPU time specind = 1.9222975E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.22649E+07, tol = 0.28363E+01, time = 2.86 | CG iter. 2 -- res = 0.71499E+06, tol = 0.28363E+01, time = 2.70 | CG iter. 3 -- res = 0.13610E+06, tol = 0.28363E+01, time = 3.27 | CG iter. 4 -- res = 0.56129E+05, tol = 0.28363E+01, time = 4.06 | CG iter. 5 -- res = 0.36117E+05, tol = 0.28363E+01, time = 3.15 | CG iter. 6 -- res = 0.16651E+05, tol = 0.28363E+01, time = 2.82 | CG iter. 7 -- res = 0.61403E+04, tol = 0.28363E+01, time = 3.27 | CG iter. 8 -- res = 0.27707E+04, tol = 0.28363E+01, time = 2.57 | CG iter. 9 -- res = 0.11991E+04, tol = 0.28363E+01, time = 2.70 | CG iter. 10 -- res = 0.47168E+03, tol = 0.28363E+01, time = 2.73 | CG iter. 11 -- res = 0.21454E+03, tol = 0.28363E+01, time = 2.62 | CG iter. 12 -- res = 0.10895E+03, tol = 0.28363E+01, time = 2.91 | CG iter. 13 -- res = 0.52809E+02, tol = 0.28363E+01, time = 2.43 | CG iter. 14 -- res = 0.26192E+02, tol = 0.28363E+01, time = 2.49 | CG iter. 15 -- res = 0.11725E+02, tol = 0.28363E+01, time = 2.76 | CG iter. 16 -- res = 0.47716E+01, tol = 0.28363E+01, time = 2.42 | CG iter. 17 -- res = 0.21196E+01, tol = 0.28363E+01, time = 2.72 | CG iter. 18 -- res = 0.10151E+01, tol = 0.28363E+01, time = 2.90 | CG iter. 19 -- res = 0.50791E+00, tol = 0.28363E+01, time = 2.59 | CG iter. 20 -- res = 0.25705E+00, tol = 0.28363E+01, time = 2.66 | CG iter. 21 -- res = 0.12048E+00, tol = 0.28363E+01, time = 2.84 | CG iter. 22 -- res = 0.53768E-01, tol = 0.28363E+01, time = 2.78 | CG iter. 23 -- res = 0.23473E-01, tol = 0.28363E+01, time = 3.08 | CG iter. 24 -- res = 0.11041E-01, tol = 0.28363E+01, time = 2.97 | CG iter. 25 -- res = 0.56528E-02, tol = 0.28363E+01, time = 2.80 | CG iter. 26 -- res = 0.28370E-02, tol = 0.28363E+01, time = 2.82 | CG iter. 27 -- res = 0.13068E-02, tol = 0.28363E+01, time = 2.55 | CG iter. 28 -- res = 0.58287E-03, tol = 0.28363E+01, time = 2.91 | CG iter. 29 -- res = 0.26063E-03, tol = 0.28363E+01, time = 2.69 | CG iter. 30 -- res = 0.13104E-03, tol = 0.28363E+01, time = 2.70 | CG iter. 31 -- res = 0.65964E-04, tol = 0.28363E+01, time = 2.84 | CG iter. 32 -- res = 0.33019E-04, tol = 0.28363E+01, time = 2.88 | CG iter. 33 -- res = 0.15269E-04, tol = 0.28363E+01, time = 2.74 | CG iter. 34 -- res = 0.67458E-05, tol = 0.28363E+01, time = 2.72 | CG iter. 35 -- res = 0.32146E-05, tol = 0.28363E+01, time = 2.55 | CG iter. 36 -- res = 0.15529E-05, tol = 0.28363E+01, time = 2.69 | CG iter. 37 -- res = 0.77377E-06, tol = 0.28363E+01, time = 2.92 | CG iter. 38 -- res = 0.38878E-06, tol = 0.28363E+01, time = 2.50 | CG iter. 39 -- res = 0.17955E-06, tol = 0.28363E+01, time = 2.89 | CG iter. 40 -- res = 0.83574E-07, tol = 0.28363E+01, time = 2.55 | CG iter. 41 -- res = 0.39964E-07, tol = 0.28363E+01, time = 2.87 | CG iter. 42 -- res = 0.18495E-07, tol = 0.28363E+01, time = 2.79 | CG iter. 43 -- res = 0.90466E-08, tol = 0.28363E+01, time = 3.51 | CG iter. 44 -- res = 0.43861E-08, tol = 0.28363E+01, time = 2.58 | CG iter. 45 -- res = 0.21162E-08, tol = 0.28363E+01, time = 2.69 | CG iter. 46 -- res = 0.98984E-09, tol = 0.28363E+01, time = 2.74 | CG iter. 47 -- res = 0.46030E-09, tol = 0.28363E+01, time = 2.69 | CG iter. 48 -- res = 0.22297E-09, tol = 0.28363E+01, time = 2.50 | CG iter. 49 -- res = 0.10681E-09, tol = 0.28363E+01, time = 2.76 | CG iter. 50 -- res = 0.50553E-10, tol = 0.28363E+01, time = 3.03 | Final CG iter 51 -- res = 0.50553E-10, tol = 0.28363E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.037 4.898 | New value 2.765 | Old value -0.037 | Difference 2.802 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.81986E+04, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.17397E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.11726E+00, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.16485E-03, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.39179E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11157099.603 | (Sampled value in CG: 11163142.225 ) | CPU time specind = 1198.675 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.70967E+08, tol = 0.57924E+04, time = 12.09 | CG iter. 2 -- res = 0.59291E+08, tol = 0.57924E+04, time = 11.90 | CG iter. 3 -- res = 0.15569E+08, tol = 0.57924E+04, time = 11.65 | CG iter. 4 -- res = 0.68332E+07, tol = 0.57924E+04, time = 11.95 | CG iter. 5 -- res = 0.41774E+07, tol = 0.57924E+04, time = 11.73 | CG iter. 6 -- res = 0.24135E+07, tol = 0.57924E+04, time = 11.62 | CG iter. 7 -- res = 0.13660E+07, tol = 0.57924E+04, time = 13.72 | CG iter. 8 -- res = 0.87760E+06, tol = 0.57924E+04, time = 11.93 | CG iter. 9 -- res = 0.58451E+06, tol = 0.57924E+04, time = 11.74 | CG iter. 10 -- res = 0.36406E+06, tol = 0.57924E+04, time = 12.05 | CG iter. 11 -- res = 0.19794E+06, tol = 0.57924E+04, time = 12.34 | CG iter. 12 -- res = 0.10623E+06, tol = 0.57924E+04, time = 11.76 | CG iter. 13 -- res = 0.59334E+05, tol = 0.57924E+04, time = 11.83 | CG iter. 14 -- res = 0.35381E+05, tol = 0.57924E+04, time = 12.18 | CG iter. 15 -- res = 0.24376E+05, tol = 0.57924E+04, time = 11.45 | CG iter. 16 -- res = 0.18722E+05, tol = 0.57924E+04, time = 11.58 | CG iter. 17 -- res = 0.15208E+05, tol = 0.57924E+04, time = 12.13 | CG iter. 18 -- res = 0.12591E+05, tol = 0.57924E+04, time = 11.59 | CG iter. 19 -- res = 0.10562E+05, tol = 0.57924E+04, time = 12.00 | CG iter. 20 -- res = 0.92582E+04, tol = 0.57924E+04, time = 12.16 | CG iter. 21 -- res = 0.85872E+04, tol = 0.57924E+04, time = 11.63 | CG iter. 22 -- res = 0.87082E+04, tol = 0.57924E+04, time = 11.70 | CG iter. 23 -- res = 0.96453E+04, tol = 0.57924E+04, time = 11.75 | CG iter. 24 -- res = 0.10730E+05, tol = 0.57924E+04, time = 12.63 | CG iter. 25 -- res = 0.11055E+05, tol = 0.57924E+04, time = 18.06 | CG iter. 26 -- res = 0.96944E+04, tol = 0.57924E+04, time = 11.51 | CG iter. 27 -- res = 0.76448E+04, tol = 0.57924E+04, time = 12.68 | CG iter. 28 -- res = 0.57864E+04, tol = 0.57924E+04, time = 12.13 | CG iter. 29 -- res = 0.45034E+04, tol = 0.57924E+04, time = 11.32 | CG iter. 30 -- res = 0.36718E+04, tol = 0.57924E+04, time = 11.90 | CG iter. 31 -- res = 0.30572E+04, tol = 0.57924E+04, time = 12.02 | CG iter. 32 -- res = 0.26062E+04, tol = 0.57924E+04, time = 14.06 | CG iter. 33 -- res = 0.21499E+04, tol = 0.57924E+04, time = 12.06 | CG iter. 34 -- res = 0.16988E+04, tol = 0.57924E+04, time = 11.65 | CG iter. 35 -- res = 0.13975E+04, tol = 0.57924E+04, time = 12.23 | CG iter. 36 -- res = 0.12548E+04, tol = 0.57924E+04, time = 11.93 | CG iter. 37 -- res = 0.12193E+04, tol = 0.57924E+04, time = 11.56 | CG iter. 38 -- res = 0.11879E+04, tol = 0.57924E+04, time = 11.99 | CG iter. 39 -- res = 0.11355E+04, tol = 0.57924E+04, time = 11.83 | CG iter. 40 -- res = 0.10282E+04, tol = 0.57924E+04, time = 11.58 | CG iter. 41 -- res = 0.87151E+03, tol = 0.57924E+04, time = 12.72 | CG iter. 42 -- res = 0.70574E+03, tol = 0.57924E+04, time = 11.93 | CG iter. 43 -- res = 0.57303E+03, tol = 0.57924E+04, time = 11.63 | CG iter. 44 -- res = 0.49357E+03, tol = 0.57924E+04, time = 11.46 | CG iter. 45 -- res = 0.43372E+03, tol = 0.57924E+04, time = 12.16 | CG iter. 46 -- res = 0.37599E+03, tol = 0.57924E+04, time = 11.89 | CG iter. 47 -- res = 0.31694E+03, tol = 0.57924E+04, time = 11.62 | CG iter. 48 -- res = 0.26228E+03, tol = 0.57924E+04, time = 11.58 | CG iter. 49 -- res = 0.22011E+03, tol = 0.57924E+04, time = 18.22 | CG iter. 50 -- res = 0.18958E+03, tol = 0.57924E+04, time = 12.21 | CG iter. 51 -- res = 0.17283E+03, tol = 0.57924E+04, time = 11.92 | CG iter. 52 -- res = 0.16253E+03, tol = 0.57924E+04, time = 11.68 | CG iter. 53 -- res = 0.15505E+03, tol = 0.57924E+04, time = 12.18 | CG iter. 54 -- res = 0.14300E+03, tol = 0.57924E+04, time = 11.43 | CG iter. 55 -- res = 0.12946E+03, tol = 0.57924E+04, time = 12.10 | CG iter. 56 -- res = 0.11339E+03, tol = 0.57924E+04, time = 13.98 | CG iter. 57 -- res = 0.97446E+02, tol = 0.57924E+04, time = 12.22 | CG iter. 58 -- res = 0.87194E+02, tol = 0.57924E+04, time = 11.63 | CG iter. 59 -- res = 0.79493E+02, tol = 0.57924E+04, time = 11.56 | CG iter. 60 -- res = 0.74684E+02, tol = 0.57924E+04, time = 11.84 | Final CG iter 61 -- res = 0.74684E+02, tol = 0.57924E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.615 ( -229.578 -2230.169 2512.612 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11899316.621 | Old band monopole 11157147.593 | Change to band monopole 742169.028 | Change to component monopole -742165.836 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.958 2.736 | New value 0.193 | Old value 2.958 | Difference -2.765 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.826 ( 6.797 9.650 -9.008 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.226 5.110 | New value -16.155 | Old value 7.226 | Difference -23.380 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.93381E+06, tol = 0.47627E+18, time = 2.23 | CG iter. 2 -- res = 0.13201E+03, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.35640E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.19160E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.35752E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11899265.440 | (Sampled value in CG: 11884886.044 ) | Chain = 1 -- chisq = 0.81555976E+09 | Chain = 1 -- wall time = 5742.592 sec Available RAM: MemAvailable: 379052308 kB Available Swap: SwapFree: 1128854020 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 274 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446071 | --> Sampling calibration, mode = relcal | relcal = 1.3447296E-02 7.3188654E-04 -1.6026956E-03 -1.2576487E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1249045 0.1381830 9405938.06441579 | BP delta = 0.1249045 0.1365391 9405928.22712259 | BP chisq diff = -9.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632312 | --> Sampling calibration, mode = relcal | relcal = -2.8206364E-03 -7.0441910E-04 1.6776677E-03 1.6132272E-03 -4.0716626E-04 6.4132677E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5229966 15218230.4081415 | BP delta = 0.0000000E+00 -0.5251250 15218234.4274069 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18510294533542 | --> Sampling calibration, mode = relcal | relcal = -7.5288922E-02 -5.8882151E-02 9.2313185E-02 4.1857883E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9903116E-05 5.3133816E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3227E-05 | 2: delta_r/delta_0: 1.0469E-06 | 3: delta_s/delta_0: 1.8844E-07 | 4: delta_r/delta_0: 2.1277E-08 | 5: delta_s/delta_0: 5.9397E-09 | 6: delta_r/delta_0: 1.6472E-09 | 7: delta_s/delta_0: 3.2014E-10 | 8: delta_r/delta_0: 1.0002E-10 | 9: delta_s/delta_0: 1.7557E-10 | 10: delta_r/delta_0: 7.0769E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.013630609436362E-003 2.731576929668869E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3227E-05 | 2: delta_r/delta_0: 1.0469E-06 | 3: delta_s/delta_0: 1.8844E-07 | 4: delta_r/delta_0: 2.1278E-08 | 5: delta_s/delta_0: 5.9413E-09 | 6: delta_r/delta_0: 1.6472E-09 | 7: delta_s/delta_0: 3.2014E-10 | 8: delta_r/delta_0: 1.0004E-10 | 9: delta_s/delta_0: 1.7564E-10 | 10: delta_r/delta_0: 7.0793E-11 | Reached bicg-stab tolerance | BP delta = 7.1213573E-02 9.1182947E-02 3564475.53280400 | BP delta = 7.1213573E-02 9.1359906E-02 3562088.13050165 | BP chisq diff = -2387.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02591136 | --> Sampling calibration, mode = relcal | relcal = -0.1066208 -9.5503144E-02 0.1449336 5.7190377E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8567333E-03 1.3231416E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6950E-05 | 2: delta_r/delta_0: 1.1727E-06 | 3: delta_s/delta_0: 2.3756E-07 | 4: delta_r/delta_0: 5.0578E-08 | 5: delta_s/delta_0: 1.6060E-08 | 6: delta_r/delta_0: 6.8775E-09 | 7: delta_s/delta_0: 2.8714E-08 | 8: delta_r/delta_0: 1.3955E-09 | 9: delta_s/delta_0: 9.0887E-10 | 10: delta_r/delta_0: 3.5264E-10 | 11: delta_s/delta_0: 4.5655E-09 | 12: delta_r/delta_0: 3.2597E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.717770643606643E-003 2.811087281769915E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6949E-05 | 2: delta_r/delta_0: 1.1727E-06 | 3: delta_s/delta_0: 2.3752E-07 | 4: delta_r/delta_0: 5.0532E-08 | 5: delta_s/delta_0: 1.6070E-08 | 6: delta_r/delta_0: 6.8741E-09 | 7: delta_s/delta_0: 2.8664E-08 | 8: delta_r/delta_0: 1.3931E-09 | 9: delta_s/delta_0: 9.0880E-10 | 10: delta_r/delta_0: 3.5190E-10 | 11: delta_s/delta_0: 4.5536E-09 | 12: delta_r/delta_0: 3.2536E-11 | Reached bicg-stab tolerance | BP delta = -0.3059682 -0.2842487 2841694.91862626 | BP delta = -0.3059682 -0.2895888 2841746.51984863 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215515 | --> Sampling calibration, mode = relcal | relcal = 0.2953826 0.2249001 -0.2837729 -0.2365098 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2110031E-03 5.7788487E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7952E-04 | 2: delta_r/delta_0: 1.1708E-05 | 3: delta_s/delta_0: 6.1464E-06 | 4: delta_r/delta_0: 7.4823E-07 | 5: delta_s/delta_0: 4.5625E-07 | 6: delta_r/delta_0: 1.7762E-07 | 7: delta_s/delta_0: 4.0633E-07 | 8: delta_r/delta_0: 3.2056E-08 | 9: delta_s/delta_0: 4.1500E-08 | 10: delta_r/delta_0: 3.2704E-08 | 11: delta_s/delta_0: 1.2249E-09 | 12: delta_r/delta_0: 8.6008E-10 | 13: delta_s/delta_0: 6.1011E-08 | 14: delta_r/delta_0: 1.0137E-08 | 15: delta_s/delta_0: 7.2916E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.169754309655611E-002 4.022067136938502E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.7946E-04 | 2: delta_r/delta_0: 1.1706E-05 | 3: delta_s/delta_0: 6.1457E-06 | 4: delta_r/delta_0: 7.4819E-07 | 5: delta_s/delta_0: 4.5623E-07 | 6: delta_r/delta_0: 1.7761E-07 | 7: delta_s/delta_0: 4.0632E-07 | 8: delta_r/delta_0: 3.2055E-08 | 9: delta_s/delta_0: 4.1491E-08 | 10: delta_r/delta_0: 3.2695E-08 | 11: delta_s/delta_0: 1.2248E-09 | 12: delta_r/delta_0: 8.5988E-10 | 13: delta_s/delta_0: 6.0889E-08 | 14: delta_r/delta_0: 1.0119E-08 | 15: delta_s/delta_0: 7.2909E-11 | Reached bicg-stab tolerance | BP delta = -0.1787086 -0.1881429 2827344.73814722 | BP delta = -0.1787086 -0.2033159 2827333.53275649 | BP chisq diff = -11.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95900037 | --> Sampling calibration, mode = relcal | relcal = 0.1065143 0.1395798 -0.1103456 -0.1357485 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6354615E-03 1.3005864E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9648E-04 | 2: delta_r/delta_0: 5.1268E-06 | 3: delta_s/delta_0: 3.5335E-06 | 4: delta_r/delta_0: 6.4303E-07 | 5: delta_s/delta_0: 1.9963E-07 | 6: delta_r/delta_0: 1.0957E-07 | 7: delta_s/delta_0: 3.9001E-07 | 8: delta_r/delta_0: 2.4528E-08 | 9: delta_s/delta_0: 3.4331E-08 | 10: delta_r/delta_0: 2.1770E-08 | 11: delta_s/delta_0: 1.5200E-09 | 12: delta_r/delta_0: 9.9724E-10 | 13: delta_s/delta_0: 5.4611E-10 | 14: delta_r/delta_0: 2.1929E-10 | 15: delta_s/delta_0: 8.5549E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.934430395530024E-002 3.697849362491895E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9646E-04 | 2: delta_r/delta_0: 5.1267E-06 | 3: delta_s/delta_0: 3.5336E-06 | 4: delta_r/delta_0: 6.4311E-07 | 5: delta_s/delta_0: 1.9972E-07 | 6: delta_r/delta_0: 1.0966E-07 | 7: delta_s/delta_0: 3.9153E-07 | 8: delta_r/delta_0: 2.4517E-08 | 9: delta_s/delta_0: 3.4183E-08 | 10: delta_r/delta_0: 2.1736E-08 | 11: delta_s/delta_0: 1.5185E-09 | 12: delta_r/delta_0: 9.9599E-10 | 13: delta_s/delta_0: 5.5143E-10 | 14: delta_r/delta_0: 2.1673E-10 | 15: delta_s/delta_0: 8.5456E-11 | Reached bicg-stab tolerance | BP delta = 0.1018626 0.2110624 3003897.78553834 | BP delta = 0.1018626 0.2079480 3004293.85529079 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150305 | New value = -3.182978 | poltype: 2 pol: 1 CPU time specind = 1.7396927E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112842 | New value = -3.156339 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185500 | New value = -3.086467 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091066 | New value = -3.155820 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.234072 | New value = -3.156951 | poltype: 2 pol: 2 CPU time specind = 2.1625042E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.13537E+08, tol = 0.58561E+01, time = 5.60 | CG iter. 2 -- res = 0.32149E+06, tol = 0.58561E+01, time = 5.47 | CG iter. 3 -- res = 0.46051E+05, tol = 0.58561E+01, time = 5.59 | CG iter. 4 -- res = 0.21648E+05, tol = 0.58561E+01, time = 5.88 | CG iter. 5 -- res = 0.12284E+05, tol = 0.58561E+01, time = 5.39 | CG iter. 6 -- res = 0.76249E+04, tol = 0.58561E+01, time = 5.77 | CG iter. 7 -- res = 0.62731E+04, tol = 0.58561E+01, time = 5.38 | CG iter. 8 -- res = 0.49655E+04, tol = 0.58561E+01, time = 5.65 | CG iter. 9 -- res = 0.45136E+04, tol = 0.58561E+01, time = 5.59 | CG iter. 10 -- res = 0.47430E+04, tol = 0.58561E+01, time = 5.44 | CG iter. 11 -- res = 0.40393E+04, tol = 0.58561E+01, time = 5.55 | CG iter. 12 -- res = 0.28102E+04, tol = 0.58561E+01, time = 7.44 | CG iter. 13 -- res = 0.19712E+04, tol = 0.58561E+01, time = 10.21 | CG iter. 14 -- res = 0.15473E+04, tol = 0.58561E+01, time = 5.82 | CG iter. 15 -- res = 0.13696E+04, tol = 0.58561E+01, time = 5.73 | CG iter. 16 -- res = 0.11280E+04, tol = 0.58561E+01, time = 5.86 | CG iter. 17 -- res = 0.85115E+03, tol = 0.58561E+01, time = 5.45 | CG iter. 18 -- res = 0.67187E+03, tol = 0.58561E+01, time = 6.00 | CG iter. 19 -- res = 0.57055E+03, tol = 0.58561E+01, time = 5.76 | CG iter. 20 -- res = 0.47218E+03, tol = 0.58561E+01, time = 5.43 | CG iter. 21 -- res = 0.34671E+03, tol = 0.58561E+01, time = 5.65 | CG iter. 22 -- res = 0.27124E+03, tol = 0.58561E+01, time = 5.37 | CG iter. 23 -- res = 0.23644E+03, tol = 0.58561E+01, time = 5.53 | CG iter. 24 -- res = 0.20988E+03, tol = 0.58561E+01, time = 5.95 | CG iter. 25 -- res = 0.16496E+03, tol = 0.58561E+01, time = 5.52 | CG iter. 26 -- res = 0.12301E+03, tol = 0.58561E+01, time = 5.30 | CG iter. 27 -- res = 0.99431E+02, tol = 0.58561E+01, time = 6.31 | CG iter. 28 -- res = 0.86170E+02, tol = 0.58561E+01, time = 6.92 | CG iter. 29 -- res = 0.70901E+02, tol = 0.58561E+01, time = 6.68 | CG iter. 30 -- res = 0.54932E+02, tol = 0.58561E+01, time = 5.47 | CG iter. 31 -- res = 0.45041E+02, tol = 0.58561E+01, time = 5.63 | CG iter. 32 -- res = 0.41637E+02, tol = 0.58561E+01, time = 5.75 | CG iter. 33 -- res = 0.34871E+02, tol = 0.58561E+01, time = 5.74 | CG iter. 34 -- res = 0.27025E+02, tol = 0.58561E+01, time = 5.77 | CG iter. 35 -- res = 0.21450E+02, tol = 0.58561E+01, time = 5.45 | CG iter. 36 -- res = 0.19056E+02, tol = 0.58561E+01, time = 5.62 | CG iter. 37 -- res = 0.16623E+02, tol = 0.58561E+01, time = 5.82 | CG iter. 38 -- res = 0.13638E+02, tol = 0.58561E+01, time = 5.78 | CG iter. 39 -- res = 0.10870E+02, tol = 0.58561E+01, time = 5.61 | CG iter. 40 -- res = 0.92681E+01, tol = 0.58561E+01, time = 5.71 | CG iter. 41 -- res = 0.83621E+01, tol = 0.58561E+01, time = 5.66 | CG iter. 42 -- res = 0.69286E+01, tol = 0.58561E+01, time = 5.54 | CG iter. 43 -- res = 0.56480E+01, tol = 0.58561E+01, time = 5.99 | CG iter. 44 -- res = 0.47960E+01, tol = 0.58561E+01, time = 5.37 | CG iter. 45 -- res = 0.43480E+01, tol = 0.58561E+01, time = 5.59 | CG iter. 46 -- res = 0.36735E+01, tol = 0.58561E+01, time = 6.52 | CG iter. 47 -- res = 0.29395E+01, tol = 0.58561E+01, time = 5.59 | CG iter. 48 -- res = 0.23878E+01, tol = 0.58561E+01, time = 6.11 | CG iter. 49 -- res = 0.20617E+01, tol = 0.58561E+01, time = 5.49 | CG iter. 50 -- res = 0.17679E+01, tol = 0.58561E+01, time = 5.58 | Final CG iter 51 -- res = 0.17679E+01, tol = 0.58561E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9880674.763 | Old band monopole 11899316.621 | Change to band monopole -2018641.858 | Change to component monopole 2018633.176 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.15457E+04, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.15637E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.27196E+00, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.15527E-03, tol = 0.47627E+18, time = 2.18 | Final CG iter 5 -- res = 0.53681E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9880632.264 | (Sampled value in CG: 9858067.754 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505573 | New value = 1.528989 | poltype: 2 pol: 1 CPU time specind = 1.5298128E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492120 | New value = 1.537003 | poltype: 2 pol: 2 CPU time specind = 5.0578117E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.24160E+08, tol = 0.47627E+04, time = 6.26 | CG iter. 2 -- res = 0.54702E+07, tol = 0.47627E+04, time = 6.29 | CG iter. 3 -- res = 0.87622E+06, tol = 0.47627E+04, time = 6.47 | CG iter. 4 -- res = 0.36152E+06, tol = 0.47627E+04, time = 6.18 | CG iter. 5 -- res = 0.15678E+06, tol = 0.47627E+04, time = 6.56 | CG iter. 6 -- res = 0.82131E+05, tol = 0.47627E+04, time = 6.45 | CG iter. 7 -- res = 0.44708E+05, tol = 0.47627E+04, time = 6.32 | CG iter. 8 -- res = 0.21514E+05, tol = 0.47627E+04, time = 7.94 | CG iter. 9 -- res = 0.95611E+04, tol = 0.47627E+04, time = 6.75 | CG iter. 10 -- res = 0.39224E+04, tol = 0.47627E+04, time = 6.75 | CG iter. 11 -- res = 0.17715E+04, tol = 0.47627E+04, time = 6.14 | CG iter. 12 -- res = 0.90852E+03, tol = 0.47627E+04, time = 6.34 | CG iter. 13 -- res = 0.51021E+03, tol = 0.47627E+04, time = 6.33 | CG iter. 14 -- res = 0.28837E+03, tol = 0.47627E+04, time = 6.22 | CG iter. 15 -- res = 0.14959E+03, tol = 0.47627E+04, time = 6.62 | CG iter. 16 -- res = 0.70604E+02, tol = 0.47627E+04, time = 6.40 | CG iter. 17 -- res = 0.32176E+02, tol = 0.47627E+04, time = 6.33 | CG iter. 18 -- res = 0.16370E+02, tol = 0.47627E+04, time = 6.49 | CG iter. 19 -- res = 0.90275E+01, tol = 0.47627E+04, time = 5.95 | CG iter. 20 -- res = 0.50144E+01, tol = 0.47627E+04, time = 6.95 | CG iter. 21 -- res = 0.27697E+01, tol = 0.47627E+04, time = 6.44 | CG iter. 22 -- res = 0.14389E+01, tol = 0.47627E+04, time = 6.01 | CG iter. 23 -- res = 0.71638E+00, tol = 0.47627E+04, time = 6.76 | CG iter. 24 -- res = 0.37238E+00, tol = 0.47627E+04, time = 6.60 | CG iter. 25 -- res = 0.20296E+00, tol = 0.47627E+04, time = 6.39 | CG iter. 26 -- res = 0.11835E+00, tol = 0.47627E+04, time = 6.24 | CG iter. 27 -- res = 0.68352E-01, tol = 0.47627E+04, time = 6.77 | CG iter. 28 -- res = 0.36888E-01, tol = 0.47627E+04, time = 6.57 | CG iter. 29 -- res = 0.19054E-01, tol = 0.47627E+04, time = 6.33 | CG iter. 30 -- res = 0.98073E-02, tol = 0.47627E+04, time = 6.93 | CG iter. 31 -- res = 0.53113E-02, tol = 0.47627E+04, time = 6.61 | CG iter. 32 -- res = 0.29850E-02, tol = 0.47627E+04, time = 6.40 | CG iter. 33 -- res = 0.16864E-02, tol = 0.47627E+04, time = 6.38 | CG iter. 34 -- res = 0.91302E-03, tol = 0.47627E+04, time = 6.38 | CG iter. 35 -- res = 0.46913E-03, tol = 0.47627E+04, time = 6.52 | Final CG iter 36 -- res = 0.46913E-03, tol = 0.47627E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.157 2.715 | New value -3.240 | Old value 0.157 | Difference -3.398 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.59976E+06, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.23516E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.56015E+00, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.67410E-03, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.95549E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9880632.264 | (Sampled value in CG: 9858087.012 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.712603 | New value = -3.542660 | poltype: 1 pol: 1 CPU time specind = 4.8756123E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.21659E+07, tol = 0.23561E+01, time = 2.89 | CG iter. 2 -- res = 0.89743E+06, tol = 0.23561E+01, time = 2.60 | CG iter. 3 -- res = 0.16361E+06, tol = 0.23561E+01, time = 2.78 | CG iter. 4 -- res = 0.60455E+05, tol = 0.23561E+01, time = 2.74 | CG iter. 5 -- res = 0.32688E+05, tol = 0.23561E+01, time = 2.50 | CG iter. 6 -- res = 0.17556E+05, tol = 0.23561E+01, time = 2.76 | CG iter. 7 -- res = 0.71614E+04, tol = 0.23561E+01, time = 2.79 | CG iter. 8 -- res = 0.32726E+04, tol = 0.23561E+01, time = 2.80 | CG iter. 9 -- res = 0.14248E+04, tol = 0.23561E+01, time = 2.61 | CG iter. 10 -- res = 0.56157E+03, tol = 0.23561E+01, time = 2.77 | CG iter. 11 -- res = 0.23468E+03, tol = 0.23561E+01, time = 2.73 | CG iter. 12 -- res = 0.11264E+03, tol = 0.23561E+01, time = 2.91 | CG iter. 13 -- res = 0.58986E+02, tol = 0.23561E+01, time = 9.40 | CG iter. 14 -- res = 0.30416E+02, tol = 0.23561E+01, time = 2.68 | CG iter. 15 -- res = 0.13842E+02, tol = 0.23561E+01, time = 2.98 | CG iter. 16 -- res = 0.60191E+01, tol = 0.23561E+01, time = 2.72 | CG iter. 17 -- res = 0.25306E+01, tol = 0.23561E+01, time = 2.71 | CG iter. 18 -- res = 0.11735E+01, tol = 0.23561E+01, time = 2.66 | CG iter. 19 -- res = 0.55623E+00, tol = 0.23561E+01, time = 2.64 | CG iter. 20 -- res = 0.30047E+00, tol = 0.23561E+01, time = 2.73 | CG iter. 21 -- res = 0.15105E+00, tol = 0.23561E+01, time = 2.85 | CG iter. 22 -- res = 0.70355E-01, tol = 0.23561E+01, time = 2.76 | CG iter. 23 -- res = 0.33287E-01, tol = 0.23561E+01, time = 2.66 | CG iter. 24 -- res = 0.14763E-01, tol = 0.23561E+01, time = 2.66 | CG iter. 25 -- res = 0.70635E-02, tol = 0.23561E+01, time = 2.48 | CG iter. 26 -- res = 0.35246E-02, tol = 0.23561E+01, time = 2.82 | CG iter. 27 -- res = 0.18059E-02, tol = 0.23561E+01, time = 2.69 | CG iter. 28 -- res = 0.86922E-03, tol = 0.23561E+01, time = 2.93 | CG iter. 29 -- res = 0.39379E-03, tol = 0.23561E+01, time = 2.41 | CG iter. 30 -- res = 0.18892E-03, tol = 0.23561E+01, time = 2.85 | CG iter. 31 -- res = 0.89917E-04, tol = 0.23561E+01, time = 2.58 | CG iter. 32 -- res = 0.43730E-04, tol = 0.23561E+01, time = 2.83 | CG iter. 33 -- res = 0.21592E-04, tol = 0.23561E+01, time = 2.74 | CG iter. 34 -- res = 0.10642E-04, tol = 0.23561E+01, time = 2.66 | CG iter. 35 -- res = 0.50713E-05, tol = 0.23561E+01, time = 2.48 | CG iter. 36 -- res = 0.24768E-05, tol = 0.23561E+01, time = 2.59 | CG iter. 37 -- res = 0.11266E-05, tol = 0.23561E+01, time = 2.52 | CG iter. 38 -- res = 0.53216E-06, tol = 0.23561E+01, time = 2.63 | CG iter. 39 -- res = 0.25934E-06, tol = 0.23561E+01, time = 3.06 | CG iter. 40 -- res = 0.12933E-06, tol = 0.23561E+01, time = 2.72 | CG iter. 41 -- res = 0.63217E-07, tol = 0.23561E+01, time = 2.50 | CG iter. 42 -- res = 0.30212E-07, tol = 0.23561E+01, time = 2.83 | CG iter. 43 -- res = 0.13874E-07, tol = 0.23561E+01, time = 2.33 | CG iter. 44 -- res = 0.63869E-08, tol = 0.23561E+01, time = 3.46 | CG iter. 45 -- res = 0.31511E-08, tol = 0.23561E+01, time = 3.63 | CG iter. 46 -- res = 0.15816E-08, tol = 0.23561E+01, time = 2.59 | CG iter. 47 -- res = 0.76173E-09, tol = 0.23561E+01, time = 3.08 | CG iter. 48 -- res = 0.36257E-09, tol = 0.23561E+01, time = 2.82 | CG iter. 49 -- res = 0.17404E-09, tol = 0.23561E+01, time = 2.35 | CG iter. 50 -- res = 0.82271E-10, tol = 0.23561E+01, time = 2.46 | Final CG iter 51 -- res = 0.82271E-10, tol = 0.23561E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -18.856 5.675 | New value 3.779 | Old value -18.856 | Difference 22.635 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.50300E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.11340E+03, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.32835E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.15574E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.18553E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9880632.264 | (Sampled value in CG: 9865210.241 ) | CPU time specind = 1179.436 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.68481E+08, tol = 0.57610E+04, time = 11.90 | CG iter. 2 -- res = 0.58494E+08, tol = 0.57610E+04, time = 11.12 | CG iter. 3 -- res = 0.14832E+08, tol = 0.57610E+04, time = 11.60 | CG iter. 4 -- res = 0.63709E+07, tol = 0.57610E+04, time = 11.73 | CG iter. 5 -- res = 0.37650E+07, tol = 0.57610E+04, time = 11.66 | CG iter. 6 -- res = 0.21700E+07, tol = 0.57610E+04, time = 11.99 | CG iter. 7 -- res = 0.12658E+07, tol = 0.57610E+04, time = 11.61 | CG iter. 8 -- res = 0.83179E+06, tol = 0.57610E+04, time = 11.93 | CG iter. 9 -- res = 0.53397E+06, tol = 0.57610E+04, time = 11.91 | CG iter. 10 -- res = 0.31381E+06, tol = 0.57610E+04, time = 17.75 | CG iter. 11 -- res = 0.17419E+06, tol = 0.57610E+04, time = 11.72 | CG iter. 12 -- res = 0.93624E+05, tol = 0.57610E+04, time = 11.84 | CG iter. 13 -- res = 0.50330E+05, tol = 0.57610E+04, time = 11.48 | CG iter. 14 -- res = 0.28951E+05, tol = 0.57610E+04, time = 11.45 | CG iter. 15 -- res = 0.18801E+05, tol = 0.57610E+04, time = 11.52 | CG iter. 16 -- res = 0.13192E+05, tol = 0.57610E+04, time = 11.44 | CG iter. 17 -- res = 0.93434E+04, tol = 0.57610E+04, time = 13.35 | CG iter. 18 -- res = 0.64712E+04, tol = 0.57610E+04, time = 11.95 | CG iter. 19 -- res = 0.44586E+04, tol = 0.57610E+04, time = 11.80 | CG iter. 20 -- res = 0.32072E+04, tol = 0.57610E+04, time = 11.47 | CG iter. 21 -- res = 0.25225E+04, tol = 0.57610E+04, time = 12.02 | CG iter. 22 -- res = 0.22160E+04, tol = 0.57610E+04, time = 11.52 | CG iter. 23 -- res = 0.21859E+04, tol = 0.57610E+04, time = 11.53 | CG iter. 24 -- res = 0.23603E+04, tol = 0.57610E+04, time = 11.71 | CG iter. 25 -- res = 0.25158E+04, tol = 0.57610E+04, time = 11.47 | CG iter. 26 -- res = 0.25306E+04, tol = 0.57610E+04, time = 12.47 | CG iter. 27 -- res = 0.23477E+04, tol = 0.57610E+04, time = 11.49 | CG iter. 28 -- res = 0.20441E+04, tol = 0.57610E+04, time = 12.06 | CG iter. 29 -- res = 0.17951E+04, tol = 0.57610E+04, time = 11.96 | CG iter. 30 -- res = 0.15945E+04, tol = 0.57610E+04, time = 11.65 | CG iter. 31 -- res = 0.14079E+04, tol = 0.57610E+04, time = 11.56 | CG iter. 32 -- res = 0.12180E+04, tol = 0.57610E+04, time = 11.78 | CG iter. 33 -- res = 0.97392E+03, tol = 0.57610E+04, time = 12.25 | CG iter. 34 -- res = 0.74508E+03, tol = 0.57610E+04, time = 11.69 | CG iter. 35 -- res = 0.57877E+03, tol = 0.57610E+04, time = 18.16 | CG iter. 36 -- res = 0.47973E+03, tol = 0.57610E+04, time = 11.69 | CG iter. 37 -- res = 0.43685E+03, tol = 0.57610E+04, time = 11.49 | CG iter. 38 -- res = 0.42448E+03, tol = 0.57610E+04, time = 11.41 | CG iter. 39 -- res = 0.41224E+03, tol = 0.57610E+04, time = 11.34 | CG iter. 40 -- res = 0.38817E+03, tol = 0.57610E+04, time = 11.46 | CG iter. 41 -- res = 0.35317E+03, tol = 0.57610E+04, time = 11.80 | CG iter. 42 -- res = 0.31429E+03, tol = 0.57610E+04, time = 12.77 | CG iter. 43 -- res = 0.28653E+03, tol = 0.57610E+04, time = 11.82 | CG iter. 44 -- res = 0.27031E+03, tol = 0.57610E+04, time = 11.78 | CG iter. 45 -- res = 0.25120E+03, tol = 0.57610E+04, time = 11.21 | CG iter. 46 -- res = 0.23261E+03, tol = 0.57610E+04, time = 11.24 | CG iter. 47 -- res = 0.20906E+03, tol = 0.57610E+04, time = 11.81 | CG iter. 48 -- res = 0.17713E+03, tol = 0.57610E+04, time = 11.80 | CG iter. 49 -- res = 0.15097E+03, tol = 0.57610E+04, time = 11.39 | CG iter. 50 -- res = 0.13487E+03, tol = 0.57610E+04, time = 11.89 | CG iter. 51 -- res = 0.12155E+03, tol = 0.57610E+04, time = 12.30 | CG iter. 52 -- res = 0.11721E+03, tol = 0.57610E+04, time = 11.93 | CG iter. 53 -- res = 0.11169E+03, tol = 0.57610E+04, time = 11.68 | CG iter. 54 -- res = 0.10547E+03, tol = 0.57610E+04, time = 11.25 | CG iter. 55 -- res = 0.96960E+02, tol = 0.57610E+04, time = 12.02 | CG iter. 56 -- res = 0.86780E+02, tol = 0.57610E+04, time = 11.63 | CG iter. 57 -- res = 0.79377E+02, tol = 0.57610E+04, time = 11.88 | CG iter. 58 -- res = 0.74589E+02, tol = 0.57610E+04, time = 11.73 | CG iter. 59 -- res = 0.71216E+02, tol = 0.57610E+04, time = 11.42 | CG iter. 60 -- res = 0.68519E+02, tol = 0.57610E+04, time = 18.01 | Final CG iter 61 -- res = 0.68519E+02, tol = 0.57610E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.895 ( -229.512 -2230.256 2512.848 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8820345.871 | Old band monopole 9880674.763 | Change to band monopole -1060328.891 | Change to component monopole 1060324.330 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.222 2.730 | New value -2.656 | Old value -3.222 | Difference 0.566 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.154 ( 6.331 9.391 -8.628 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.872 5.993 | New value -1.157 | Old value 4.872 | Difference -6.030 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.18226E+05, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.18291E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.30045E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.23945E-03, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.11729E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8820307.933 | (Sampled value in CG: 8803404.835 ) | Chain = 1 -- chisq = 0.81547554E+09 | Chain = 1 -- wall time = 6169.334 sec Available RAM: MemAvailable: 378749484 kB Available Swap: SwapFree: 1129678768 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 275 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447136 | --> Sampling calibration, mode = relcal | relcal = 1.3454225E-02 7.4176083E-04 -1.6104113E-03 -1.2585575E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1249045 0.1365391 97051736.5478428 | BP delta = 0.1190856 0.1307202 97051735.9887201 | BP chisq diff = -0.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632200 | --> Sampling calibration, mode = relcal | relcal = -2.8193931E-03 -7.0415059E-04 1.6774478E-03 1.6128578E-03 -4.0685033E-04 6.4008840E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5229966 15214962.1660003 | BP delta = 0.0000000E+00 -0.5291609 15214956.6739073 | BP chisq diff = -5.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18023782366255 | --> Sampling calibration, mode = relcal | relcal = -7.3695756E-02 -5.7595234E-02 9.0517052E-02 4.0773943E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.9694142E-05 2.9109686E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.8922E-04 | 2: delta_r/delta_0: 1.8811E-05 | 3: delta_s/delta_0: 2.6246E-07 | 4: delta_r/delta_0: 3.9611E-08 | 5: delta_s/delta_0: 2.4500E-07 | 6: delta_r/delta_0: 4.1686E-08 | 7: delta_s/delta_0: 1.2920E-09 | 8: delta_r/delta_0: 3.7652E-10 | 9: delta_s/delta_0: 3.6755E-10 | 10: delta_r/delta_0: 2.2926E-10 | 11: delta_s/delta_0: 4.0629E-10 | 12: delta_r/delta_0: 1.5667E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.864598873985710E-003 2.743038077205114E-005 | BP delta = 7.1213573E-02 9.1359906E-02 50490029.4167227 | BP delta = 6.9693357E-02 8.9839689E-02 50490028.1261223 | BP chisq diff = -1.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02585537 | --> Sampling calibration, mode = relcal | relcal = -0.1066368 -9.5554531E-02 0.1449248 5.7266608E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0038299E-03 1.6018779E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6444E-05 | 2: delta_r/delta_0: 1.1658E-06 | 3: delta_s/delta_0: 2.3914E-07 | 4: delta_r/delta_0: 5.9565E-08 | 5: delta_s/delta_0: 1.5675E-08 | 6: delta_r/delta_0: 8.3209E-09 | 7: delta_s/delta_0: 3.5392E-08 | 8: delta_r/delta_0: 1.2437E-09 | 9: delta_s/delta_0: 9.7527E-10 | 10: delta_r/delta_0: 2.5263E-10 | 11: delta_s/delta_0: 1.2474E-09 | 12: delta_r/delta_0: 2.7420E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.545678572912105E-003 2.811220798100575E-005 | BP delta = -0.3059682 -0.2842487 57389729.1213805 | BP delta = -0.3140457 -0.2923262 57389729.5809414 | BP chisq diff = 0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81192522 | --> Sampling calibration, mode = relcal | relcal = 0.2953213 0.2248483 -0.2837438 -0.2364259 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9609064E-04 5.6423536E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2199E-02 | 2: delta_r/delta_0: 2.8849E-04 | 3: delta_s/delta_0: 1.1378E-03 | 4: delta_r/delta_0: 3.9732E-05 | 5: delta_s/delta_0: 9.8422E-07 | 6: delta_r/delta_0: 3.4873E-07 | 7: delta_s/delta_0: 4.0809E-07 | 8: delta_r/delta_0: 7.8715E-08 | 9: delta_s/delta_0: 7.1620E-08 | 10: delta_r/delta_0: 7.1435E-09 | 11: delta_s/delta_0: 4.6170E-09 | 12: delta_r/delta_0: 2.2291E-09 | 13: delta_s/delta_0: 3.9744E-10 | 14: delta_r/delta_0: 1.3191E-10 | 15: delta_s/delta_0: 1.3173E-10 | 16: delta_r/delta_0: 8.3197E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.547703463851591E-002 4.023338315846131E-005 | BP delta = -0.1787086 -0.2033159 72487986.2158048 | BP delta = -0.2185970 -0.2432042 72487986.2763512 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95874989 | --> Sampling calibration, mode = relcal | relcal = 0.1064332 0.1394673 -0.1102556 -0.1356448 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0126983E-02 1.2406958E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9544E-04 | 2: delta_r/delta_0: 7.3883E-06 | 3: delta_s/delta_0: 6.6147E-06 | 4: delta_r/delta_0: 8.1097E-07 | 5: delta_s/delta_0: 2.2858E-07 | 6: delta_r/delta_0: 1.1833E-07 | 7: delta_s/delta_0: 3.0272E-07 | 8: delta_r/delta_0: 2.9830E-08 | 9: delta_s/delta_0: 2.5121E-05 | 10: delta_r/delta_0: 5.3529E-06 | 11: delta_s/delta_0: 1.6447E-09 | 12: delta_r/delta_0: 1.1083E-09 | 13: delta_s/delta_0: 6.7901E-10 | 14: delta_r/delta_0: 3.0290E-10 | 15: delta_s/delta_0: 7.3697E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.058025829813747E-002 3.698701543371503E-005 | BP delta = 0.1018626 0.2110624 72783299.7174001 | BP delta = 0.1058758 0.2150755 72783299.6937247 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182978 | New value = -3.128771 | poltype: 2 pol: 1 CPU time specind = 3.2677174E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156339 | New value = -3.052871 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.086467 | New value = -3.142164 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155820 | New value = -3.174733 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156951 | New value = -3.119984 | poltype: 2 pol: 2 CPU time specind = 1.4142036E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.13584E+08, tol = 0.79910E+01, time = 5.26 | CG iter. 2 -- res = 0.32864E+06, tol = 0.79910E+01, time = 5.41 | CG iter. 3 -- res = 0.57842E+05, tol = 0.79910E+01, time = 5.77 | CG iter. 4 -- res = 0.39224E+05, tol = 0.79910E+01, time = 5.49 | CG iter. 5 -- res = 0.30525E+05, tol = 0.79910E+01, time = 5.32 | CG iter. 6 -- res = 0.26734E+05, tol = 0.79910E+01, time = 5.85 | CG iter. 7 -- res = 0.25200E+05, tol = 0.79910E+01, time = 5.36 | CG iter. 8 -- res = 0.20933E+05, tol = 0.79910E+01, time = 5.56 | CG iter. 9 -- res = 0.18308E+05, tol = 0.79910E+01, time = 5.94 | CG iter. 10 -- res = 0.14882E+05, tol = 0.79910E+01, time = 5.99 | CG iter. 11 -- res = 0.10418E+05, tol = 0.79910E+01, time = 11.84 | CG iter. 12 -- res = 0.66633E+04, tol = 0.79910E+01, time = 5.35 | CG iter. 13 -- res = 0.52516E+04, tol = 0.79910E+01, time = 5.71 | CG iter. 14 -- res = 0.46927E+04, tol = 0.79910E+01, time = 5.83 | CG iter. 15 -- res = 0.39714E+04, tol = 0.79910E+01, time = 5.53 | CG iter. 16 -- res = 0.28569E+04, tol = 0.79910E+01, time = 5.73 | CG iter. 17 -- res = 0.19567E+04, tol = 0.79910E+01, time = 5.81 | CG iter. 18 -- res = 0.14934E+04, tol = 0.79910E+01, time = 5.67 | CG iter. 19 -- res = 0.12116E+04, tol = 0.79910E+01, time = 5.46 | CG iter. 20 -- res = 0.92668E+03, tol = 0.79910E+01, time = 5.45 | CG iter. 21 -- res = 0.66631E+03, tol = 0.79910E+01, time = 6.12 | CG iter. 22 -- res = 0.51240E+03, tol = 0.79910E+01, time = 5.61 | CG iter. 23 -- res = 0.43692E+03, tol = 0.79910E+01, time = 5.59 | CG iter. 24 -- res = 0.34068E+03, tol = 0.79910E+01, time = 6.21 | CG iter. 25 -- res = 0.23950E+03, tol = 0.79910E+01, time = 5.73 | CG iter. 26 -- res = 0.17604E+03, tol = 0.79910E+01, time = 7.32 | CG iter. 27 -- res = 0.14617E+03, tol = 0.79910E+01, time = 6.45 | CG iter. 28 -- res = 0.12258E+03, tol = 0.79910E+01, time = 5.87 | CG iter. 29 -- res = 0.90078E+02, tol = 0.79910E+01, time = 5.83 | CG iter. 30 -- res = 0.66924E+02, tol = 0.79910E+01, time = 5.73 | CG iter. 31 -- res = 0.55712E+02, tol = 0.79910E+01, time = 5.70 | CG iter. 32 -- res = 0.47235E+02, tol = 0.79910E+01, time = 5.81 | CG iter. 33 -- res = 0.36793E+02, tol = 0.79910E+01, time = 5.54 | CG iter. 34 -- res = 0.27273E+02, tol = 0.79910E+01, time = 5.60 | CG iter. 35 -- res = 0.22086E+02, tol = 0.79910E+01, time = 5.91 | CG iter. 36 -- res = 0.18755E+02, tol = 0.79910E+01, time = 5.59 | CG iter. 37 -- res = 0.15499E+02, tol = 0.79910E+01, time = 5.52 | CG iter. 38 -- res = 0.12020E+02, tol = 0.79910E+01, time = 5.68 | CG iter. 39 -- res = 0.97908E+01, tol = 0.79910E+01, time = 5.53 | CG iter. 40 -- res = 0.84123E+01, tol = 0.79910E+01, time = 5.96 | CG iter. 41 -- res = 0.71039E+01, tol = 0.79910E+01, time = 5.83 | CG iter. 42 -- res = 0.55867E+01, tol = 0.79910E+01, time = 5.45 | CG iter. 43 -- res = 0.43759E+01, tol = 0.79910E+01, time = 5.75 | CG iter. 44 -- res = 0.38366E+01, tol = 0.79910E+01, time = 5.50 | CG iter. 45 -- res = 0.32546E+01, tol = 0.79910E+01, time = 5.40 | CG iter. 46 -- res = 0.25701E+01, tol = 0.79910E+01, time = 5.79 | CG iter. 47 -- res = 0.20409E+01, tol = 0.79910E+01, time = 5.56 | CG iter. 48 -- res = 0.16803E+01, tol = 0.79910E+01, time = 5.38 | CG iter. 49 -- res = 0.14487E+01, tol = 0.79910E+01, time = 5.71 | CG iter. 50 -- res = 0.11879E+01, tol = 0.79910E+01, time = 5.88 | Final CG iter 51 -- res = 0.11879E+01, tol = 0.79910E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10866685.743 | Old band monopole 8820345.871 | Change to band monopole 2046339.871 | Change to component monopole -2046331.069 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.16624E+05, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.50850E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.18655E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.30878E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.73405E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10866639.003 | (Sampled value in CG: 10921423.131 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.528989 | New value = 1.468620 | poltype: 2 pol: 1 CPU time specind = 0.1545272 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.537003 | New value = 1.501664 | poltype: 2 pol: 2 CPU time specind = 2.5787115E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.24745E+08, tol = 0.47464E+04, time = 6.17 | CG iter. 2 -- res = 0.52843E+07, tol = 0.47464E+04, time = 6.39 | CG iter. 3 -- res = 0.82447E+06, tol = 0.47464E+04, time = 6.44 | CG iter. 4 -- res = 0.35302E+06, tol = 0.47464E+04, time = 6.28 | CG iter. 5 -- res = 0.16030E+06, tol = 0.47464E+04, time = 6.82 | CG iter. 6 -- res = 0.82286E+05, tol = 0.47464E+04, time = 7.46 | CG iter. 7 -- res = 0.44466E+05, tol = 0.47464E+04, time = 7.00 | CG iter. 8 -- res = 0.21434E+05, tol = 0.47464E+04, time = 7.01 | CG iter. 9 -- res = 0.91778E+04, tol = 0.47464E+04, time = 6.53 | CG iter. 10 -- res = 0.36577E+04, tol = 0.47464E+04, time = 6.87 | CG iter. 11 -- res = 0.16613E+04, tol = 0.47464E+04, time = 6.49 | CG iter. 12 -- res = 0.87024E+03, tol = 0.47464E+04, time = 6.68 | CG iter. 13 -- res = 0.50006E+03, tol = 0.47464E+04, time = 6.35 | CG iter. 14 -- res = 0.28324E+03, tol = 0.47464E+04, time = 6.34 | CG iter. 15 -- res = 0.14395E+03, tol = 0.47464E+04, time = 6.76 | CG iter. 16 -- res = 0.68426E+02, tol = 0.47464E+04, time = 6.42 | CG iter. 17 -- res = 0.32170E+02, tol = 0.47464E+04, time = 6.43 | CG iter. 18 -- res = 0.16227E+02, tol = 0.47464E+04, time = 6.59 | CG iter. 19 -- res = 0.89718E+01, tol = 0.47464E+04, time = 6.62 | CG iter. 20 -- res = 0.51019E+01, tol = 0.47464E+04, time = 6.84 | CG iter. 21 -- res = 0.27634E+01, tol = 0.47464E+04, time = 6.53 | CG iter. 22 -- res = 0.14260E+01, tol = 0.47464E+04, time = 6.76 | CG iter. 23 -- res = 0.70942E+00, tol = 0.47464E+04, time = 7.27 | CG iter. 24 -- res = 0.35486E+00, tol = 0.47464E+04, time = 6.60 | CG iter. 25 -- res = 0.19370E+00, tol = 0.47464E+04, time = 6.67 | CG iter. 26 -- res = 0.11063E+00, tol = 0.47464E+04, time = 6.63 | CG iter. 27 -- res = 0.63721E-01, tol = 0.47464E+04, time = 6.31 | CG iter. 28 -- res = 0.34047E-01, tol = 0.47464E+04, time = 6.32 | CG iter. 29 -- res = 0.17439E-01, tol = 0.47464E+04, time = 6.65 | CG iter. 30 -- res = 0.91767E-02, tol = 0.47464E+04, time = 6.64 | CG iter. 31 -- res = 0.51199E-02, tol = 0.47464E+04, time = 6.36 | CG iter. 32 -- res = 0.29195E-02, tol = 0.47464E+04, time = 6.30 | CG iter. 33 -- res = 0.16781E-02, tol = 0.47464E+04, time = 6.27 | CG iter. 34 -- res = 0.90311E-03, tol = 0.47464E+04, time = 6.37 | CG iter. 35 -- res = 0.47083E-03, tol = 0.47464E+04, time = 6.58 | Final CG iter 36 -- res = 0.47083E-03, tol = 0.47464E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.682 2.723 | New value -1.518 | Old value -2.682 | Difference 1.164 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.81970E+05, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.52793E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.16812E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.21708E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.53292E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10866639.003 | (Sampled value in CG: 10921206.644 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.542660 | New value = -3.510541 | poltype: 1 pol: 1 CPU time specind = 2.9830933E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.28151E+07, tol = 0.27729E+01, time = 2.71 | CG iter. 2 -- res = 0.11114E+07, tol = 0.27729E+01, time = 2.75 | CG iter. 3 -- res = 0.24374E+06, tol = 0.27729E+01, time = 2.39 | CG iter. 4 -- res = 0.10603E+06, tol = 0.27729E+01, time = 2.78 | CG iter. 5 -- res = 0.64037E+05, tol = 0.27729E+01, time = 2.66 | CG iter. 6 -- res = 0.31622E+05, tol = 0.27729E+01, time = 2.76 | CG iter. 7 -- res = 0.11621E+05, tol = 0.27729E+01, time = 2.84 | CG iter. 8 -- res = 0.51483E+04, tol = 0.27729E+01, time = 3.22 | CG iter. 9 -- res = 0.24321E+04, tol = 0.27729E+01, time = 9.16 | CG iter. 10 -- res = 0.93860E+03, tol = 0.27729E+01, time = 2.81 | CG iter. 11 -- res = 0.36669E+03, tol = 0.27729E+01, time = 2.50 | CG iter. 12 -- res = 0.17724E+03, tol = 0.27729E+01, time = 3.09 | CG iter. 13 -- res = 0.87822E+02, tol = 0.27729E+01, time = 2.41 | CG iter. 14 -- res = 0.46365E+02, tol = 0.27729E+01, time = 2.78 | CG iter. 15 -- res = 0.21946E+02, tol = 0.27729E+01, time = 2.69 | CG iter. 16 -- res = 0.10183E+02, tol = 0.27729E+01, time = 2.77 | CG iter. 17 -- res = 0.42583E+01, tol = 0.27729E+01, time = 2.58 | CG iter. 18 -- res = 0.18863E+01, tol = 0.27729E+01, time = 2.75 | CG iter. 19 -- res = 0.87876E+00, tol = 0.27729E+01, time = 2.58 | CG iter. 20 -- res = 0.44135E+00, tol = 0.27729E+01, time = 2.70 | CG iter. 21 -- res = 0.23429E+00, tol = 0.27729E+01, time = 2.71 | CG iter. 22 -- res = 0.10944E+00, tol = 0.27729E+01, time = 2.83 | CG iter. 23 -- res = 0.49092E-01, tol = 0.27729E+01, time = 2.64 | CG iter. 24 -- res = 0.22152E-01, tol = 0.27729E+01, time = 2.61 | CG iter. 25 -- res = 0.10789E-01, tol = 0.27729E+01, time = 2.72 | CG iter. 26 -- res = 0.53415E-02, tol = 0.27729E+01, time = 2.39 | CG iter. 27 -- res = 0.27348E-02, tol = 0.27729E+01, time = 2.96 | CG iter. 28 -- res = 0.14216E-02, tol = 0.27729E+01, time = 2.66 | CG iter. 29 -- res = 0.68653E-03, tol = 0.27729E+01, time = 2.59 | CG iter. 30 -- res = 0.31453E-03, tol = 0.27729E+01, time = 2.71 | CG iter. 31 -- res = 0.14635E-03, tol = 0.27729E+01, time = 2.99 | CG iter. 32 -- res = 0.71962E-04, tol = 0.27729E+01, time = 2.60 | CG iter. 33 -- res = 0.36785E-04, tol = 0.27729E+01, time = 2.60 | CG iter. 34 -- res = 0.18370E-04, tol = 0.27729E+01, time = 2.75 | CG iter. 35 -- res = 0.93880E-05, tol = 0.27729E+01, time = 2.56 | CG iter. 36 -- res = 0.45240E-05, tol = 0.27729E+01, time = 2.98 | CG iter. 37 -- res = 0.20915E-05, tol = 0.27729E+01, time = 2.68 | CG iter. 38 -- res = 0.97427E-06, tol = 0.27729E+01, time = 2.44 | CG iter. 39 -- res = 0.48337E-06, tol = 0.27729E+01, time = 2.47 | CG iter. 40 -- res = 0.24091E-06, tol = 0.27729E+01, time = 3.52 | CG iter. 41 -- res = 0.12166E-06, tol = 0.27729E+01, time = 3.79 | CG iter. 42 -- res = 0.60977E-07, tol = 0.27729E+01, time = 2.98 | CG iter. 43 -- res = 0.27525E-07, tol = 0.27729E+01, time = 2.99 | CG iter. 44 -- res = 0.12691E-07, tol = 0.27729E+01, time = 3.87 | CG iter. 45 -- res = 0.61076E-08, tol = 0.27729E+01, time = 2.77 | CG iter. 46 -- res = 0.30219E-08, tol = 0.27729E+01, time = 2.86 | CG iter. 47 -- res = 0.15542E-08, tol = 0.27729E+01, time = 2.74 | CG iter. 48 -- res = 0.77361E-09, tol = 0.27729E+01, time = 2.73 | CG iter. 49 -- res = 0.35183E-09, tol = 0.27729E+01, time = 2.73 | CG iter. 50 -- res = 0.15834E-09, tol = 0.27729E+01, time = 2.60 | Final CG iter 51 -- res = 0.15834E-09, tol = 0.27729E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.260 4.658 | New value 1.167 | Old value 4.260 | Difference -3.093 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.12008E+05, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.35334E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.12722E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.17587E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.11946E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10866639.003 | (Sampled value in CG: 10910692.745 ) | CPU time specind = 1184.939 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.20 | CG iter. 1 -- res = 0.71083E+08, tol = 0.57497E+04, time = 12.24 | CG iter. 2 -- res = 0.60318E+08, tol = 0.57497E+04, time = 11.59 | CG iter. 3 -- res = 0.16016E+08, tol = 0.57497E+04, time = 11.86 | CG iter. 4 -- res = 0.69845E+07, tol = 0.57497E+04, time = 11.80 | CG iter. 5 -- res = 0.41575E+07, tol = 0.57497E+04, time = 11.86 | CG iter. 6 -- res = 0.23907E+07, tol = 0.57497E+04, time = 11.83 | CG iter. 7 -- res = 0.14094E+07, tol = 0.57497E+04, time = 12.12 | CG iter. 8 -- res = 0.91318E+06, tol = 0.57497E+04, time = 18.29 | CG iter. 9 -- res = 0.57366E+06, tol = 0.57497E+04, time = 11.47 | CG iter. 10 -- res = 0.34544E+06, tol = 0.57497E+04, time = 12.10 | CG iter. 11 -- res = 0.19650E+06, tol = 0.57497E+04, time = 11.77 | CG iter. 12 -- res = 0.10950E+06, tol = 0.57497E+04, time = 11.61 | CG iter. 13 -- res = 0.60542E+05, tol = 0.57497E+04, time = 11.84 | CG iter. 14 -- res = 0.36324E+05, tol = 0.57497E+04, time = 11.41 | CG iter. 15 -- res = 0.25345E+05, tol = 0.57497E+04, time = 11.75 | CG iter. 16 -- res = 0.19778E+05, tol = 0.57497E+04, time = 13.17 | CG iter. 17 -- res = 0.15880E+05, tol = 0.57497E+04, time = 11.81 | CG iter. 18 -- res = 0.13099E+05, tol = 0.57497E+04, time = 11.53 | CG iter. 19 -- res = 0.10661E+05, tol = 0.57497E+04, time = 11.88 | CG iter. 20 -- res = 0.88894E+04, tol = 0.57497E+04, time = 12.16 | CG iter. 21 -- res = 0.78386E+04, tol = 0.57497E+04, time = 12.05 | CG iter. 22 -- res = 0.78491E+04, tol = 0.57497E+04, time = 11.53 | CG iter. 23 -- res = 0.83313E+04, tol = 0.57497E+04, time = 11.60 | CG iter. 24 -- res = 0.87700E+04, tol = 0.57497E+04, time = 11.70 | CG iter. 25 -- res = 0.86767E+04, tol = 0.57497E+04, time = 12.06 | CG iter. 26 -- res = 0.75062E+04, tol = 0.57497E+04, time = 11.27 | CG iter. 27 -- res = 0.58470E+04, tol = 0.57497E+04, time = 11.68 | CG iter. 28 -- res = 0.44402E+04, tol = 0.57497E+04, time = 12.16 | CG iter. 29 -- res = 0.35751E+04, tol = 0.57497E+04, time = 11.34 | CG iter. 30 -- res = 0.30156E+04, tol = 0.57497E+04, time = 11.74 | CG iter. 31 -- res = 0.26123E+04, tol = 0.57497E+04, time = 11.35 | CG iter. 32 -- res = 0.22519E+04, tol = 0.57497E+04, time = 11.71 | CG iter. 33 -- res = 0.19338E+04, tol = 0.57497E+04, time = 18.00 | CG iter. 34 -- res = 0.16258E+04, tol = 0.57497E+04, time = 11.57 | CG iter. 35 -- res = 0.13370E+04, tol = 0.57497E+04, time = 12.00 | CG iter. 36 -- res = 0.12157E+04, tol = 0.57497E+04, time = 11.67 | CG iter. 37 -- res = 0.11959E+04, tol = 0.57497E+04, time = 11.66 | CG iter. 38 -- res = 0.11934E+04, tol = 0.57497E+04, time = 11.53 | CG iter. 39 -- res = 0.11119E+04, tol = 0.57497E+04, time = 11.34 | CG iter. 40 -- res = 0.96991E+03, tol = 0.57497E+04, time = 12.61 | CG iter. 41 -- res = 0.81969E+03, tol = 0.57497E+04, time = 13.17 | CG iter. 42 -- res = 0.68260E+03, tol = 0.57497E+04, time = 11.27 | CG iter. 43 -- res = 0.57874E+03, tol = 0.57497E+04, time = 11.49 | CG iter. 44 -- res = 0.51421E+03, tol = 0.57497E+04, time = 11.64 | CG iter. 45 -- res = 0.46241E+03, tol = 0.57497E+04, time = 11.64 | CG iter. 46 -- res = 0.42035E+03, tol = 0.57497E+04, time = 11.88 | CG iter. 47 -- res = 0.37270E+03, tol = 0.57497E+04, time = 11.74 | CG iter. 48 -- res = 0.32126E+03, tol = 0.57497E+04, time = 11.52 | CG iter. 49 -- res = 0.27740E+03, tol = 0.57497E+04, time = 11.44 | CG iter. 50 -- res = 0.25164E+03, tol = 0.57497E+04, time = 12.12 | CG iter. 51 -- res = 0.23826E+03, tol = 0.57497E+04, time = 11.54 | CG iter. 52 -- res = 0.23766E+03, tol = 0.57497E+04, time = 11.57 | CG iter. 53 -- res = 0.23079E+03, tol = 0.57497E+04, time = 11.24 | CG iter. 54 -- res = 0.21276E+03, tol = 0.57497E+04, time = 11.84 | CG iter. 55 -- res = 0.18708E+03, tol = 0.57497E+04, time = 11.76 | CG iter. 56 -- res = 0.15908E+03, tol = 0.57497E+04, time = 11.55 | CG iter. 57 -- res = 0.13988E+03, tol = 0.57497E+04, time = 11.53 | CG iter. 58 -- res = 0.12687E+03, tol = 0.57497E+04, time = 18.38 | CG iter. 59 -- res = 0.12275E+03, tol = 0.57497E+04, time = 11.36 | CG iter. 60 -- res = 0.11813E+03, tol = 0.57497E+04, time = 11.92 | Final CG iter 61 -- res = 0.11813E+03, tol = 0.57497E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.908 ( -229.529 -2232.457 2515.157 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10052636.809 | Old band monopole 10866685.743 | Change to band monopole -814048.933 | Change to component monopole 814045.432 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.481 2.750 | New value 0.198 | Old value -1.481 | Difference 1.679 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.810 ( 6.252 13.458 -13.474 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.172 4.565 | New value 9.585 | Old value 7.172 | Difference 2.413 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.30412E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.76805E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.24804E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.71280E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.69090E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10052593.571 | (Sampled value in CG: 10021433.457 ) | Chain = 1 -- chisq = 0.81572317E+09 | Chain = 1 -- wall time = 5718.450 sec Available RAM: MemAvailable: 378729104 kB Available Swap: SwapFree: 1130192540 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 276 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445120 | --> Sampling calibration, mode = relcal | relcal = 1.3432886E-02 7.4723864E-04 -1.6011116E-03 -1.2579014E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1190856 0.1307202 9404379.67209290 | BP delta = 0.1190856 0.1344315 9404365.33675960 | BP chisq diff = -14.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632335 | --> Sampling calibration, mode = relcal | relcal = -2.8199437E-03 -7.0365245E-04 1.6789294E-03 1.6127105E-03 -4.0818183E-04 6.4013799E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5291609 15216525.5225835 | BP delta = 0.0000000E+00 -0.5270643 15216525.6030338 | BP chisq diff = 0.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03101814 | --> Sampling calibration, mode = relcal | relcal = 3.7093166E-02 1.3707091E-02 5.7543442E-03 -7.1682013E-03 8.2357032E-03 2.3871625E-03 -7.5955861E-03 -7.1802153E-03 -1.5297020E-02 -1.4793703E-02 -3.0524270E-03 -1.2090314E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.203735 132208828.062344 | BP delta = 0.0000000E+00 -1.155451 132208833.792605 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18049679548433 | --> Sampling calibration, mode = relcal | relcal = -7.4809082E-02 -5.8273412E-02 9.1600172E-02 4.1482322E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.4197561E-04 3.9581289E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5002E-05 | 2: delta_r/delta_0: 7.5520E-07 | 3: delta_s/delta_0: 2.5006E-07 | 4: delta_r/delta_0: 1.2321E-08 | 5: delta_s/delta_0: 3.5310E-09 | 6: delta_r/delta_0: 6.5865E-10 | 7: delta_s/delta_0: 3.7161E-09 | 8: delta_r/delta_0: 8.9105E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.557757931847555E-004 2.742285271241228E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5003E-05 | 2: delta_r/delta_0: 7.5522E-07 | 3: delta_s/delta_0: 2.5006E-07 | 4: delta_r/delta_0: 1.2319E-08 | 5: delta_s/delta_0: 3.5294E-09 | 6: delta_r/delta_0: 6.5882E-10 | 7: delta_s/delta_0: 3.7108E-09 | 8: delta_r/delta_0: 8.9056E-11 | Reached bicg-stab tolerance | BP delta = 6.9693357E-02 8.9839689E-02 3591584.07592449 | BP delta = 6.9693357E-02 8.9598373E-02 3594977.08948757 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02606792 | --> Sampling calibration, mode = relcal | relcal = -0.1066684 -9.5528863E-02 0.1449340 5.7263300E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5757903E-03 1.7889052E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2354E-05 | 2: delta_r/delta_0: 1.2293E-06 | 3: delta_s/delta_0: 2.5544E-07 | 4: delta_r/delta_0: 3.6251E-08 | 5: delta_s/delta_0: 2.0271E-08 | 6: delta_r/delta_0: 5.9877E-09 | 7: delta_s/delta_0: 5.3689E-09 | 8: delta_r/delta_0: 1.4483E-09 | 9: delta_s/delta_0: 7.3093E-10 | 10: delta_r/delta_0: 5.3930E-10 | 11: delta_s/delta_0: 9.3861E-10 | 12: delta_r/delta_0: 7.4784E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.599193651212794E-003 2.810649472454300E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2354E-05 | 2: delta_r/delta_0: 1.2292E-06 | 3: delta_s/delta_0: 2.5543E-07 | 4: delta_r/delta_0: 3.6235E-08 | 5: delta_s/delta_0: 2.0275E-08 | 6: delta_r/delta_0: 5.9869E-09 | 7: delta_s/delta_0: 5.3696E-09 | 8: delta_r/delta_0: 1.4481E-09 | 9: delta_s/delta_0: 7.3082E-10 | 10: delta_r/delta_0: 5.3921E-10 | 11: delta_s/delta_0: 9.3847E-10 | 12: delta_r/delta_0: 7.4766E-11 | Reached bicg-stab tolerance | BP delta = -0.3140457 -0.2923262 2841786.06573479 | BP delta = -0.3140457 -0.2937180 2841815.84419542 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81226602 | --> Sampling calibration, mode = relcal | relcal = 0.2954609 0.2248609 -0.2837752 -0.2365466 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0702947E-04 5.1134173E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0208E-01 | 2: delta_r/delta_0: 7.1084E-03 | 3: delta_s/delta_0: 1.2272E-04 | 4: delta_r/delta_0: 6.2636E-06 | 5: delta_s/delta_0: 5.7114E-06 | 6: delta_r/delta_0: 2.6845E-06 | 7: delta_s/delta_0: 2.1224E-06 | 8: delta_r/delta_0: 7.0331E-07 | 9: delta_s/delta_0: 4.8280E-06 | 10: delta_r/delta_0: 1.7538E-08 | 11: delta_s/delta_0: 1.5741E-08 | 12: delta_r/delta_0: 7.7746E-09 | 13: delta_s/delta_0: 1.0987E-09 | 14: delta_r/delta_0: 6.4922E-10 | 15: delta_s/delta_0: 2.2400E-10 | 16: delta_r/delta_0: 1.4463E-10 | 17: delta_s/delta_0: 8.0497E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.450705147156336E-002 4.021528547137990E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.0518E-01 | 2: delta_r/delta_0: 7.1815E-03 | 3: delta_s/delta_0: 1.2233E-04 | 4: delta_r/delta_0: 6.2406E-06 | 5: delta_s/delta_0: 5.6903E-06 | 6: delta_r/delta_0: 2.6739E-06 | 7: delta_s/delta_0: 2.1163E-06 | 8: delta_r/delta_0: 7.0124E-07 | 9: delta_s/delta_0: 4.8278E-06 | 10: delta_r/delta_0: 1.7501E-08 | 11: delta_s/delta_0: 1.5699E-08 | 12: delta_r/delta_0: 7.7567E-09 | 13: delta_s/delta_0: 1.0963E-09 | 14: delta_r/delta_0: 6.4836E-10 | 15: delta_s/delta_0: 2.2390E-10 | 16: delta_r/delta_0: 1.4443E-10 | 17: delta_s/delta_0: 8.0310E-11 | Reached bicg-stab tolerance | BP delta = -0.2185970 -0.2432042 2827369.09382591 | BP delta = -0.2185970 -0.2469559 2827439.66540657 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95914647 | --> Sampling calibration, mode = relcal | relcal = 0.1066373 0.1393840 -0.1101972 -0.1358242 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1314167E-03 1.2443732E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.4842E-03 | 2: delta_r/delta_0: 1.3161E-04 | 3: delta_s/delta_0: 3.1437E-04 | 4: delta_r/delta_0: 1.5625E-05 | 5: delta_s/delta_0: 8.2516E-07 | 6: delta_r/delta_0: 2.9915E-07 | 7: delta_s/delta_0: 6.1985E-07 | 8: delta_r/delta_0: 6.9958E-08 | 9: delta_s/delta_0: 4.6439E-08 | 10: delta_r/delta_0: 6.2669E-09 | 11: delta_s/delta_0: 3.9456E-09 | 12: delta_r/delta_0: 1.6297E-09 | 13: delta_s/delta_0: 3.8702E-09 | 14: delta_r/delta_0: 2.9274E-10 | 15: delta_s/delta_0: 1.0299E-10 | 16: delta_r/delta_0: 5.2622E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.319272363610734E-002 3.697217576531148E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.4898E-03 | 2: delta_r/delta_0: 1.3174E-04 | 3: delta_s/delta_0: 3.1447E-04 | 4: delta_r/delta_0: 1.5628E-05 | 5: delta_s/delta_0: 8.2555E-07 | 6: delta_r/delta_0: 2.9921E-07 | 7: delta_s/delta_0: 6.1825E-07 | 8: delta_r/delta_0: 6.9978E-08 | 9: delta_s/delta_0: 4.6404E-08 | 10: delta_r/delta_0: 6.2616E-09 | 11: delta_s/delta_0: 3.9471E-09 | 12: delta_r/delta_0: 1.6306E-09 | 13: delta_s/delta_0: 3.8799E-09 | 14: delta_r/delta_0: 2.9646E-10 | 15: delta_s/delta_0: 1.0308E-10 | 16: delta_r/delta_0: 5.2701E-11 | Reached bicg-stab tolerance | BP delta = 0.1058758 0.2150755 3003549.71467355 | BP delta = 0.1058758 0.2309773 3003579.57892874 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52140666 | --> Sampling calibration, mode = relcal | relcal = -5.1096283E-02 -3.6698973E-03 2.7315358E-02 2.7450820E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.2802464E-04 1.6990276E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6534E-05 | 2: delta_r/delta_0: 4.5924E-06 | 3: delta_s/delta_0: 1.8771E-06 | 4: delta_r/delta_0: 1.3344E-07 | 5: delta_s/delta_0: 6.4036E-08 | 6: delta_r/delta_0: 3.4675E-08 | 7: delta_s/delta_0: 1.9090E-08 | 8: delta_r/delta_0: 1.0666E-08 | 9: delta_s/delta_0: 1.2032E-08 | 10: delta_r/delta_0: 1.3015E-09 | 11: delta_s/delta_0: 3.2602E-10 | 12: delta_r/delta_0: 1.4505E-10 | 13: delta_s/delta_0: 7.8401E-10 | 14: delta_r/delta_0: 5.0671E-10 | 15: delta_s/delta_0: 2.0683E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.187005110274369E-002 5.485047848058436E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6534E-05 | 2: delta_r/delta_0: 4.5925E-06 | 3: delta_s/delta_0: 1.8773E-06 | 4: delta_r/delta_0: 1.3345E-07 | 5: delta_s/delta_0: 6.4038E-08 | 6: delta_r/delta_0: 3.4675E-08 | 7: delta_s/delta_0: 1.9091E-08 | 8: delta_r/delta_0: 1.0666E-08 | 9: delta_s/delta_0: 1.2032E-08 | 10: delta_r/delta_0: 1.3015E-09 | 11: delta_s/delta_0: 3.2606E-10 | 12: delta_r/delta_0: 1.4419E-10 | 13: delta_s/delta_0: 7.2161E-10 | 14: delta_r/delta_0: 4.6836E-10 | 15: delta_s/delta_0: 2.0663E-11 | Reached bicg-stab tolerance | BP delta = 0.1148658 0.2139232 2435155.73829169 | BP delta = 0.1148658 0.2303228 2435189.13406724 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42141918 | --> Sampling calibration, mode = relcal | relcal = 4.5580927E-02 3.9653897E-02 -2.8291458E-02 -5.6943364E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5165502E-03 4.2528394E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0803E-05 | 2: delta_r/delta_0: 3.6854E-06 | 3: delta_s/delta_0: 2.5451E-06 | 4: delta_r/delta_0: 4.1756E-07 | 5: delta_s/delta_0: 6.0435E-08 | 6: delta_r/delta_0: 3.5392E-08 | 7: delta_s/delta_0: 4.9759E-08 | 8: delta_r/delta_0: 1.0669E-08 | 9: delta_s/delta_0: 2.4799E-09 | 10: delta_r/delta_0: 1.6973E-09 | 11: delta_s/delta_0: 2.6209E-09 | 12: delta_r/delta_0: 1.2810E-09 | 13: delta_s/delta_0: 3.7556E-10 | 14: delta_r/delta_0: 2.6464E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.434461650205872E-002 4.997603310469312E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0803E-05 | 2: delta_r/delta_0: 3.6853E-06 | 3: delta_s/delta_0: 2.5451E-06 | 4: delta_r/delta_0: 4.1756E-07 | 5: delta_s/delta_0: 6.0435E-08 | 6: delta_r/delta_0: 3.5392E-08 | 7: delta_s/delta_0: 4.9759E-08 | 8: delta_r/delta_0: 1.0669E-08 | 9: delta_s/delta_0: 2.4799E-09 | 10: delta_r/delta_0: 1.6972E-09 | 11: delta_s/delta_0: 2.6213E-09 | 12: delta_r/delta_0: 1.2810E-09 | 13: delta_s/delta_0: 3.7547E-10 | 14: delta_r/delta_0: 2.6494E-11 | Reached bicg-stab tolerance | BP delta = 0.1237207 2.8697094E-02 2322073.97769822 | BP delta = 0.1237207 2.0846402E-02 2322073.55818034 | BP chisq diff = -0.4, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28151873 | --> Sampling calibration, mode = relcal | relcal = 2.4176672E-02 4.5147758E-02 -2.3363313E-02 -4.5961119E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1886488E-02 3.1221365E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0710E-04 | 2: delta_r/delta_0: 8.7842E-06 | 3: delta_s/delta_0: 1.4671E-06 | 4: delta_r/delta_0: 1.8033E-07 | 5: delta_s/delta_0: 6.7027E-08 | 6: delta_r/delta_0: 1.7594E-08 | 7: delta_s/delta_0: 9.3568E-09 | 8: delta_r/delta_0: 5.9036E-09 | 9: delta_s/delta_0: 2.9977E-07 | 10: delta_r/delta_0: 6.8384E-09 | 11: delta_s/delta_0: 1.8609E-09 | 12: delta_r/delta_0: 2.3224E-10 | 13: delta_s/delta_0: 2.4325E-10 | 14: delta_r/delta_0: 1.4293E-10 | 15: delta_s/delta_0: 4.7201E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.851065585790013E-003 7.846690525529505E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0710E-04 | 2: delta_r/delta_0: 8.7842E-06 | 3: delta_s/delta_0: 1.4671E-06 | 4: delta_r/delta_0: 1.8033E-07 | 5: delta_s/delta_0: 6.7025E-08 | 6: delta_r/delta_0: 1.7594E-08 | 7: delta_s/delta_0: 9.3566E-09 | 8: delta_r/delta_0: 5.9033E-09 | 9: delta_s/delta_0: 2.9981E-07 | 10: delta_r/delta_0: 6.8378E-09 | 11: delta_s/delta_0: 1.8617E-09 | 12: delta_r/delta_0: 2.3227E-10 | 13: delta_s/delta_0: 2.4324E-10 | 14: delta_r/delta_0: 1.4295E-10 | 15: delta_s/delta_0: 4.7202E-11 | Reached bicg-stab tolerance | BP delta = -0.1839035 -0.3403639 2490368.20698965 | BP delta = -0.1839035 -0.3026718 2490380.43964846 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29379525 | --> Sampling calibration, mode = relcal | relcal = 5.3682888E-04 1.0256479E-02 -3.8341302E-03 -6.9591776E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8181007E-02 1.3351421E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3090E-04 | 2: delta_r/delta_0: 1.1181E-05 | 3: delta_s/delta_0: 1.8661E-06 | 4: delta_r/delta_0: 2.4383E-07 | 5: delta_s/delta_0: 8.7762E-08 | 6: delta_r/delta_0: 2.1449E-08 | 7: delta_s/delta_0: 1.0342E-08 | 8: delta_r/delta_0: 7.1577E-09 | 9: delta_s/delta_0: 5.2044E-09 | 10: delta_r/delta_0: 2.5840E-09 | 11: delta_s/delta_0: 1.4857E-03 | 12: delta_r/delta_0: 1.7051E-06 | 13: delta_s/delta_0: 2.0706E-09 | 14: delta_r/delta_0: 1.3499E-10 | 15: delta_s/delta_0: 1.6270E-10 | 16: delta_r/delta_0: 1.3253E-10 | 17: delta_s/delta_0: 1.4548E-10 | 18: delta_r/delta_0: 7.9099E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.799251238666856E-003 8.310356940050555E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3090E-04 | 2: delta_r/delta_0: 1.1181E-05 | 3: delta_s/delta_0: 1.8661E-06 | 4: delta_r/delta_0: 2.4383E-07 | 5: delta_s/delta_0: 8.7765E-08 | 6: delta_r/delta_0: 2.1449E-08 | 7: delta_s/delta_0: 1.0342E-08 | 8: delta_r/delta_0: 7.1579E-09 | 9: delta_s/delta_0: 5.2046E-09 | 10: delta_r/delta_0: 2.5844E-09 | 11: delta_s/delta_0: 1.5021E-03 | 12: delta_r/delta_0: 1.7242E-06 | 13: delta_s/delta_0: 2.0666E-09 | 14: delta_r/delta_0: 1.3494E-10 | 15: delta_s/delta_0: 1.6267E-10 | 16: delta_r/delta_0: 1.3235E-10 | 17: delta_s/delta_0: 1.4512E-10 | 18: delta_r/delta_0: 7.8862E-11 | Reached bicg-stab tolerance | BP delta = -0.7785259 -0.7344285 2738097.62504187 | BP delta = -0.7785259 -0.7343457 2738101.26798255 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26495898 | --> Sampling calibration, mode = relcal | relcal = -5.5797594E-03 1.5004642E-02 -2.3835944E-03 -7.0412885E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2536546E-03 1.9364194E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4139E-04 | 2: delta_r/delta_0: 1.2172E-05 | 3: delta_s/delta_0: 2.1733E-06 | 4: delta_r/delta_0: 2.5373E-07 | 5: delta_s/delta_0: 8.7754E-08 | 6: delta_r/delta_0: 1.9712E-08 | 7: delta_s/delta_0: 8.7288E-09 | 8: delta_r/delta_0: 5.5373E-09 | 9: delta_s/delta_0: 5.0419E-09 | 10: delta_r/delta_0: 3.6196E-09 | 11: delta_s/delta_0: 2.7195E-06 | 12: delta_r/delta_0: 5.4643E-08 | 13: delta_s/delta_0: 9.7961E-10 | 14: delta_r/delta_0: 4.6596E-10 | 15: delta_s/delta_0: 7.6295E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.067245463481825E-003 9.157437140328291E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4139E-04 | 2: delta_r/delta_0: 1.2172E-05 | 3: delta_s/delta_0: 2.1733E-06 | 4: delta_r/delta_0: 2.5374E-07 | 5: delta_s/delta_0: 8.7747E-08 | 6: delta_r/delta_0: 1.9712E-08 | 7: delta_s/delta_0: 8.7288E-09 | 8: delta_r/delta_0: 5.5374E-09 | 9: delta_s/delta_0: 5.0419E-09 | 10: delta_r/delta_0: 3.6197E-09 | 11: delta_s/delta_0: 2.7200E-06 | 12: delta_r/delta_0: 5.4658E-08 | 13: delta_s/delta_0: 9.7964E-10 | 14: delta_r/delta_0: 4.6600E-10 | 15: delta_s/delta_0: 7.6292E-11 | Reached bicg-stab tolerance | BP delta = 0.3171071 0.3555717 2516530.40644643 | BP delta = 0.3171071 0.3452420 2516530.50082052 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25645484 | --> Sampling calibration, mode = relcal | relcal = -3.1715795E-02 -2.5919234E-02 3.6984283E-02 2.0650744E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2502473E-02 1.7875833E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4894E-04 | 2: delta_r/delta_0: 1.2307E-05 | 3: delta_s/delta_0: 2.0623E-06 | 4: delta_r/delta_0: 3.7309E-07 | 5: delta_s/delta_0: 1.3496E-07 | 6: delta_r/delta_0: 3.1918E-08 | 7: delta_s/delta_0: 1.4634E-08 | 8: delta_r/delta_0: 8.6837E-09 | 9: delta_s/delta_0: 2.4215E-08 | 10: delta_r/delta_0: 5.7370E-09 | 11: delta_s/delta_0: 1.5490E-08 | 12: delta_r/delta_0: 5.7121E-09 | 13: delta_s/delta_0: 3.5705E-10 | 14: delta_r/delta_0: 2.0163E-10 | 15: delta_s/delta_0: 2.1002E-10 | 16: delta_r/delta_0: 1.1538E-10 | 17: delta_s/delta_0: 9.1407E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.048737948193135E-002 8.678851201833415E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4894E-04 | 2: delta_r/delta_0: 1.2307E-05 | 3: delta_s/delta_0: 2.0623E-06 | 4: delta_r/delta_0: 3.7309E-07 | 5: delta_s/delta_0: 1.3496E-07 | 6: delta_r/delta_0: 3.1918E-08 | 7: delta_s/delta_0: 1.4634E-08 | 8: delta_r/delta_0: 8.6838E-09 | 9: delta_s/delta_0: 2.4217E-08 | 10: delta_r/delta_0: 5.7371E-09 | 11: delta_s/delta_0: 1.5482E-08 | 12: delta_r/delta_0: 5.7076E-09 | 13: delta_s/delta_0: 3.5716E-10 | 14: delta_r/delta_0: 2.0136E-10 | 15: delta_s/delta_0: 2.0997E-10 | 16: delta_r/delta_0: 1.1520E-10 | 17: delta_s/delta_0: 9.1349E-11 | Reached bicg-stab tolerance | BP delta = -0.8193269 -0.9623924 2705125.07935057 | BP delta = -0.8193269 -0.9546353 2705138.56452522 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.128771 | New value = -3.061589 | poltype: 2 pol: 1 CPU time specind = 2.0258188E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.052871 | New value = -3.195453 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142164 | New value = -3.147261 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174733 | New value = -3.137669 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119984 | New value = -3.181485 | poltype: 2 pol: 2 CPU time specind = 2.4985075E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.21 | CG iter. 1 -- res = 0.13736E+08, tol = 0.72627E+01, time = 5.46 | CG iter. 2 -- res = 0.43073E+06, tol = 0.72627E+01, time = 5.20 | CG iter. 3 -- res = 0.13198E+06, tol = 0.72627E+01, time = 5.26 | CG iter. 4 -- res = 0.15971E+06, tol = 0.72627E+01, time = 5.76 | CG iter. 5 -- res = 0.16451E+06, tol = 0.72627E+01, time = 5.29 | CG iter. 6 -- res = 0.15172E+06, tol = 0.72627E+01, time = 5.42 | CG iter. 7 -- res = 0.10502E+06, tol = 0.72627E+01, time = 5.14 | CG iter. 8 -- res = 0.69080E+05, tol = 0.72627E+01, time = 5.42 | CG iter. 9 -- res = 0.55062E+05, tol = 0.72627E+01, time = 5.45 | CG iter. 10 -- res = 0.43674E+05, tol = 0.72627E+01, time = 5.26 | CG iter. 11 -- res = 0.32024E+05, tol = 0.72627E+01, time = 5.37 | CG iter. 12 -- res = 0.23116E+05, tol = 0.72627E+01, time = 5.17 | CG iter. 13 -- res = 0.17345E+05, tol = 0.72627E+01, time = 5.61 | CG iter. 14 -- res = 0.14023E+05, tol = 0.72627E+01, time = 5.05 | CG iter. 15 -- res = 0.10548E+05, tol = 0.72627E+01, time = 5.36 | CG iter. 16 -- res = 0.69754E+04, tol = 0.72627E+01, time = 5.51 | CG iter. 17 -- res = 0.47195E+04, tol = 0.72627E+01, time = 5.37 | CG iter. 18 -- res = 0.38112E+04, tol = 0.72627E+01, time = 5.47 | CG iter. 19 -- res = 0.32971E+04, tol = 0.72627E+01, time = 5.52 | CG iter. 20 -- res = 0.24721E+04, tol = 0.72627E+01, time = 5.15 | CG iter. 21 -- res = 0.16757E+04, tol = 0.72627E+01, time = 5.23 | CG iter. 22 -- res = 0.12850E+04, tol = 0.72627E+01, time = 5.16 | CG iter. 23 -- res = 0.10963E+04, tol = 0.72627E+01, time = 5.28 | CG iter. 24 -- res = 0.84857E+03, tol = 0.72627E+01, time = 5.16 | CG iter. 25 -- res = 0.61816E+03, tol = 0.72627E+01, time = 5.28 | CG iter. 26 -- res = 0.45785E+03, tol = 0.72627E+01, time = 5.43 | CG iter. 27 -- res = 0.38423E+03, tol = 0.72627E+01, time = 5.12 | CG iter. 28 -- res = 0.32028E+03, tol = 0.72627E+01, time = 5.51 | CG iter. 29 -- res = 0.22784E+03, tol = 0.72627E+01, time = 5.16 | CG iter. 30 -- res = 0.16978E+03, tol = 0.72627E+01, time = 5.42 | CG iter. 31 -- res = 0.13582E+03, tol = 0.72627E+01, time = 5.43 | CG iter. 32 -- res = 0.11580E+03, tol = 0.72627E+01, time = 5.12 | CG iter. 33 -- res = 0.86198E+02, tol = 0.72627E+01, time = 6.20 | CG iter. 34 -- res = 0.61115E+02, tol = 0.72627E+01, time = 11.44 | CG iter. 35 -- res = 0.47465E+02, tol = 0.72627E+01, time = 5.23 | CG iter. 36 -- res = 0.38706E+02, tol = 0.72627E+01, time = 5.45 | CG iter. 37 -- res = 0.29683E+02, tol = 0.72627E+01, time = 5.44 | CG iter. 38 -- res = 0.21507E+02, tol = 0.72627E+01, time = 5.57 | CG iter. 39 -- res = 0.15491E+02, tol = 0.72627E+01, time = 5.28 | CG iter. 40 -- res = 0.12421E+02, tol = 0.72627E+01, time = 5.49 | CG iter. 41 -- res = 0.99765E+01, tol = 0.72627E+01, time = 5.52 | CG iter. 42 -- res = 0.74290E+01, tol = 0.72627E+01, time = 5.53 | CG iter. 43 -- res = 0.52228E+01, tol = 0.72627E+01, time = 5.32 | CG iter. 44 -- res = 0.41636E+01, tol = 0.72627E+01, time = 5.55 | CG iter. 45 -- res = 0.32248E+01, tol = 0.72627E+01, time = 5.37 | CG iter. 46 -- res = 0.23659E+01, tol = 0.72627E+01, time = 5.38 | CG iter. 47 -- res = 0.17016E+01, tol = 0.72627E+01, time = 5.22 | CG iter. 48 -- res = 0.12294E+01, tol = 0.72627E+01, time = 5.39 | CG iter. 49 -- res = 0.92367E+00, tol = 0.72627E+01, time = 6.09 | CG iter. 50 -- res = 0.67542E+00, tol = 0.72627E+01, time = 6.84 | Final CG iter 51 -- res = 0.67542E+00, tol = 0.72627E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7846775.266 | Old band monopole 10052636.809 | Change to band monopole -2205861.543 | Change to component monopole 2205852.055 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.91992E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.40333E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.47110E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.57647E-01, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.31263E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7846741.515 | (Sampled value in CG: 7949032.135 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.468620 | New value = 1.493916 | poltype: 2 pol: 1 CPU time specind = 1.7888069E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501664 | New value = 1.560652 | poltype: 2 pol: 2 CPU time specind = 1.8362999E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.53 | CG iter. 1 -- res = 0.24174E+08, tol = 0.47569E+04, time = 6.22 | CG iter. 2 -- res = 0.53969E+07, tol = 0.47569E+04, time = 6.08 | CG iter. 3 -- res = 0.86489E+06, tol = 0.47569E+04, time = 5.83 | CG iter. 4 -- res = 0.37049E+06, tol = 0.47569E+04, time = 6.20 | CG iter. 5 -- res = 0.15940E+06, tol = 0.47569E+04, time = 6.46 | CG iter. 6 -- res = 0.82549E+05, tol = 0.47569E+04, time = 6.10 | CG iter. 7 -- res = 0.44826E+05, tol = 0.47569E+04, time = 6.47 | CG iter. 8 -- res = 0.21644E+05, tol = 0.47569E+04, time = 5.98 | CG iter. 9 -- res = 0.96050E+04, tol = 0.47569E+04, time = 6.08 | CG iter. 10 -- res = 0.38975E+04, tol = 0.47569E+04, time = 5.82 | CG iter. 11 -- res = 0.17226E+04, tol = 0.47569E+04, time = 6.16 | CG iter. 12 -- res = 0.88279E+03, tol = 0.47569E+04, time = 5.80 | CG iter. 13 -- res = 0.50770E+03, tol = 0.47569E+04, time = 6.01 | CG iter. 14 -- res = 0.28890E+03, tol = 0.47569E+04, time = 6.04 | CG iter. 15 -- res = 0.14961E+03, tol = 0.47569E+04, time = 13.03 | CG iter. 16 -- res = 0.69696E+02, tol = 0.47569E+04, time = 6.28 | CG iter. 17 -- res = 0.32895E+02, tol = 0.47569E+04, time = 6.02 | CG iter. 18 -- res = 0.16497E+02, tol = 0.47569E+04, time = 6.09 | CG iter. 19 -- res = 0.89493E+01, tol = 0.47569E+04, time = 5.86 | CG iter. 20 -- res = 0.51261E+01, tol = 0.47569E+04, time = 5.97 | CG iter. 21 -- res = 0.28286E+01, tol = 0.47569E+04, time = 5.97 | CG iter. 22 -- res = 0.14659E+01, tol = 0.47569E+04, time = 6.15 | CG iter. 23 -- res = 0.71411E+00, tol = 0.47569E+04, time = 5.88 | CG iter. 24 -- res = 0.35105E+00, tol = 0.47569E+04, time = 6.00 | CG iter. 25 -- res = 0.19185E+00, tol = 0.47569E+04, time = 5.96 | CG iter. 26 -- res = 0.11014E+00, tol = 0.47569E+04, time = 6.36 | CG iter. 27 -- res = 0.62444E-01, tol = 0.47569E+04, time = 6.22 | CG iter. 28 -- res = 0.33072E-01, tol = 0.47569E+04, time = 6.06 | CG iter. 29 -- res = 0.16982E-01, tol = 0.47569E+04, time = 7.50 | CG iter. 30 -- res = 0.86832E-02, tol = 0.47569E+04, time = 6.54 | CG iter. 31 -- res = 0.48154E-02, tol = 0.47569E+04, time = 6.05 | CG iter. 32 -- res = 0.28316E-02, tol = 0.47569E+04, time = 6.37 | CG iter. 33 -- res = 0.16294E-02, tol = 0.47569E+04, time = 6.29 | CG iter. 34 -- res = 0.87998E-03, tol = 0.47569E+04, time = 5.84 | CG iter. 35 -- res = 0.46078E-03, tol = 0.47569E+04, time = 6.28 | Final CG iter 36 -- res = 0.46078E-03, tol = 0.47569E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.190 2.759 | New value -1.478 | Old value 0.190 | Difference -1.668 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.15787E+06, tol = 0.47627E+18, time = 1.66 | CG iter. 2 -- res = 0.12762E+03, tol = 0.47627E+18, time = 1.77 | CG iter. 3 -- res = 0.15928E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.69023E-03, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.78444E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7846741.515 | (Sampled value in CG: 7951421.359 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.510541 | New value = -3.712735 | poltype: 1 pol: 1 CPU time specind = 1.1002064E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.36 | CG iter. 1 -- res = 0.25822E+07, tol = 0.24486E+01, time = 2.52 | CG iter. 2 -- res = 0.11923E+07, tol = 0.24486E+01, time = 2.47 | CG iter. 3 -- res = 0.22773E+06, tol = 0.24486E+01, time = 2.54 | CG iter. 4 -- res = 0.90470E+05, tol = 0.24486E+01, time = 2.64 | CG iter. 5 -- res = 0.54939E+05, tol = 0.24486E+01, time = 2.49 | CG iter. 6 -- res = 0.28862E+05, tol = 0.24486E+01, time = 2.52 | CG iter. 7 -- res = 0.97928E+04, tol = 0.24486E+01, time = 2.22 | CG iter. 8 -- res = 0.37976E+04, tol = 0.24486E+01, time = 2.71 | CG iter. 9 -- res = 0.16197E+04, tol = 0.24486E+01, time = 2.51 | CG iter. 10 -- res = 0.65498E+03, tol = 0.24486E+01, time = 2.66 | CG iter. 11 -- res = 0.29274E+03, tol = 0.24486E+01, time = 2.44 | CG iter. 12 -- res = 0.15215E+03, tol = 0.24486E+01, time = 2.54 | CG iter. 13 -- res = 0.78915E+02, tol = 0.24486E+01, time = 2.45 | CG iter. 14 -- res = 0.36132E+02, tol = 0.24486E+01, time = 2.82 | CG iter. 15 -- res = 0.14878E+02, tol = 0.24486E+01, time = 2.47 | CG iter. 16 -- res = 0.60354E+01, tol = 0.24486E+01, time = 2.55 | CG iter. 17 -- res = 0.27524E+01, tol = 0.24486E+01, time = 2.55 | CG iter. 18 -- res = 0.13777E+01, tol = 0.24486E+01, time = 2.62 | CG iter. 19 -- res = 0.68544E+00, tol = 0.24486E+01, time = 2.28 | CG iter. 20 -- res = 0.33086E+00, tol = 0.24486E+01, time = 2.70 | CG iter. 21 -- res = 0.14474E+00, tol = 0.24486E+01, time = 2.56 | CG iter. 22 -- res = 0.62906E-01, tol = 0.24486E+01, time = 2.81 | CG iter. 23 -- res = 0.28300E-01, tol = 0.24486E+01, time = 2.29 | CG iter. 24 -- res = 0.13695E-01, tol = 0.24486E+01, time = 2.46 | CG iter. 25 -- res = 0.71536E-02, tol = 0.24486E+01, time = 2.36 | CG iter. 26 -- res = 0.34740E-02, tol = 0.24486E+01, time = 2.51 | CG iter. 27 -- res = 0.16174E-02, tol = 0.24486E+01, time = 2.68 | CG iter. 28 -- res = 0.70648E-03, tol = 0.24486E+01, time = 2.48 | CG iter. 29 -- res = 0.31358E-03, tol = 0.24486E+01, time = 2.70 | CG iter. 30 -- res = 0.15521E-03, tol = 0.24486E+01, time = 2.56 | CG iter. 31 -- res = 0.76319E-04, tol = 0.24486E+01, time = 2.69 | CG iter. 32 -- res = 0.37512E-04, tol = 0.24486E+01, time = 2.84 | CG iter. 33 -- res = 0.17452E-04, tol = 0.24486E+01, time = 2.54 | CG iter. 34 -- res = 0.76719E-05, tol = 0.24486E+01, time = 2.54 | CG iter. 35 -- res = 0.36341E-05, tol = 0.24486E+01, time = 2.80 | CG iter. 36 -- res = 0.16994E-05, tol = 0.24486E+01, time = 3.11 | CG iter. 37 -- res = 0.86867E-06, tol = 0.24486E+01, time = 2.31 | CG iter. 38 -- res = 0.43138E-06, tol = 0.24486E+01, time = 2.33 | CG iter. 39 -- res = 0.19821E-06, tol = 0.24486E+01, time = 2.81 | CG iter. 40 -- res = 0.93805E-07, tol = 0.24486E+01, time = 2.20 | CG iter. 41 -- res = 0.43108E-07, tol = 0.24486E+01, time = 2.57 | CG iter. 42 -- res = 0.20885E-07, tol = 0.24486E+01, time = 2.44 | CG iter. 43 -- res = 0.10033E-07, tol = 0.24486E+01, time = 2.63 | CG iter. 44 -- res = 0.50963E-08, tol = 0.24486E+01, time = 2.47 | CG iter. 45 -- res = 0.23171E-08, tol = 0.24486E+01, time = 2.64 | CG iter. 46 -- res = 0.10572E-08, tol = 0.24486E+01, time = 2.41 | CG iter. 47 -- res = 0.50523E-09, tol = 0.24486E+01, time = 2.32 | CG iter. 48 -- res = 0.25235E-09, tol = 0.24486E+01, time = 2.64 | CG iter. 49 -- res = 0.11838E-09, tol = 0.24486E+01, time = 2.62 | CG iter. 50 -- res = 0.56484E-10, tol = 0.24486E+01, time = 2.47 | Final CG iter 51 -- res = 0.56484E-10, tol = 0.24486E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.933 3.459 | New value 0.673 | Old value 15.933 | Difference -15.260 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.23336E+06, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.16007E+03, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.40180E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.25780E-01, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.32598E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7846741.515 | (Sampled value in CG: 7927849.244 ) | CPU time specind = 1122.286 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.68945E+08, tol = 0.57833E+04, time = 11.34 | CG iter. 2 -- res = 0.59959E+08, tol = 0.57833E+04, time = 10.82 | CG iter. 3 -- res = 0.16232E+08, tol = 0.57833E+04, time = 11.37 | CG iter. 4 -- res = 0.69048E+07, tol = 0.57833E+04, time = 10.98 | CG iter. 5 -- res = 0.41588E+07, tol = 0.57833E+04, time = 11.25 | CG iter. 6 -- res = 0.24305E+07, tol = 0.57833E+04, time = 11.28 | CG iter. 7 -- res = 0.14584E+07, tol = 0.57833E+04, time = 12.99 | CG iter. 8 -- res = 0.96085E+06, tol = 0.57833E+04, time = 11.45 | CG iter. 9 -- res = 0.63519E+06, tol = 0.57833E+04, time = 11.05 | CG iter. 10 -- res = 0.40240E+06, tol = 0.57833E+04, time = 11.52 | CG iter. 11 -- res = 0.23650E+06, tol = 0.57833E+04, time = 11.14 | CG iter. 12 -- res = 0.13780E+06, tol = 0.57833E+04, time = 11.14 | CG iter. 13 -- res = 0.83887E+05, tol = 0.57833E+04, time = 11.47 | CG iter. 14 -- res = 0.60243E+05, tol = 0.57833E+04, time = 11.26 | CG iter. 15 -- res = 0.51920E+05, tol = 0.57833E+04, time = 10.81 | CG iter. 16 -- res = 0.49270E+05, tol = 0.57833E+04, time = 11.09 | CG iter. 17 -- res = 0.47196E+05, tol = 0.57833E+04, time = 10.93 | CG iter. 18 -- res = 0.44792E+05, tol = 0.57833E+04, time = 10.73 | CG iter. 19 -- res = 0.40707E+05, tol = 0.57833E+04, time = 11.18 | CG iter. 20 -- res = 0.37050E+05, tol = 0.57833E+04, time = 11.08 | CG iter. 21 -- res = 0.34243E+05, tol = 0.57833E+04, time = 10.96 | CG iter. 22 -- res = 0.32193E+05, tol = 0.57833E+04, time = 11.30 | CG iter. 23 -- res = 0.31187E+05, tol = 0.57833E+04, time = 10.98 | CG iter. 24 -- res = 0.28292E+05, tol = 0.57833E+04, time = 10.99 | CG iter. 25 -- res = 0.23280E+05, tol = 0.57833E+04, time = 17.14 | CG iter. 26 -- res = 0.17934E+05, tol = 0.57833E+04, time = 23.63 | CG iter. 27 -- res = 0.13337E+05, tol = 0.57833E+04, time = 10.91 | CG iter. 28 -- res = 0.10299E+05, tol = 0.57833E+04, time = 10.84 | CG iter. 29 -- res = 0.87822E+04, tol = 0.57833E+04, time = 10.84 | CG iter. 30 -- res = 0.78674E+04, tol = 0.57833E+04, time = 10.85 | CG iter. 31 -- res = 0.73155E+04, tol = 0.57833E+04, time = 11.08 | CG iter. 32 -- res = 0.67272E+04, tol = 0.57833E+04, time = 12.75 | CG iter. 33 -- res = 0.59048E+04, tol = 0.57833E+04, time = 11.37 | CG iter. 34 -- res = 0.50326E+04, tol = 0.57833E+04, time = 11.33 | CG iter. 35 -- res = 0.43156E+04, tol = 0.57833E+04, time = 10.98 | CG iter. 36 -- res = 0.39246E+04, tol = 0.57833E+04, time = 11.28 | CG iter. 37 -- res = 0.36328E+04, tol = 0.57833E+04, time = 11.09 | CG iter. 38 -- res = 0.34376E+04, tol = 0.57833E+04, time = 11.18 | CG iter. 39 -- res = 0.30399E+04, tol = 0.57833E+04, time = 11.03 | CG iter. 40 -- res = 0.24895E+04, tol = 0.57833E+04, time = 10.85 | CG iter. 41 -- res = 0.20392E+04, tol = 0.57833E+04, time = 11.03 | CG iter. 42 -- res = 0.17138E+04, tol = 0.57833E+04, time = 11.56 | CG iter. 43 -- res = 0.15124E+04, tol = 0.57833E+04, time = 11.12 | CG iter. 44 -- res = 0.14253E+04, tol = 0.57833E+04, time = 10.92 | CG iter. 45 -- res = 0.13766E+04, tol = 0.57833E+04, time = 10.92 | CG iter. 46 -- res = 0.13211E+04, tol = 0.57833E+04, time = 11.17 | CG iter. 47 -- res = 0.11941E+04, tol = 0.57833E+04, time = 10.87 | CG iter. 48 -- res = 0.10417E+04, tol = 0.57833E+04, time = 10.82 | CG iter. 49 -- res = 0.92139E+03, tol = 0.57833E+04, time = 11.62 | CG iter. 50 -- res = 0.84194E+03, tol = 0.57833E+04, time = 11.69 | CG iter. 51 -- res = 0.79118E+03, tol = 0.57833E+04, time = 16.55 | CG iter. 52 -- res = 0.73940E+03, tol = 0.57833E+04, time = 11.34 | CG iter. 53 -- res = 0.68739E+03, tol = 0.57833E+04, time = 10.88 | CG iter. 54 -- res = 0.62695E+03, tol = 0.57833E+04, time = 10.91 | CG iter. 55 -- res = 0.54426E+03, tol = 0.57833E+04, time = 11.24 | CG iter. 56 -- res = 0.47292E+03, tol = 0.57833E+04, time = 10.98 | CG iter. 57 -- res = 0.42852E+03, tol = 0.57833E+04, time = 10.72 | CG iter. 58 -- res = 0.41231E+03, tol = 0.57833E+04, time = 12.44 | CG iter. 59 -- res = 0.39839E+03, tol = 0.57833E+04, time = 11.72 | CG iter. 60 -- res = 0.37423E+03, tol = 0.57833E+04, time = 10.86 | Final CG iter 61 -- res = 0.37423E+03, tol = 0.57833E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.794 ( -229.681 -2232.057 2514.889 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10070955.590 | Old band monopole 7846775.266 | Change to band monopole 2224180.324 | Change to component monopole -2224170.757 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.468 2.755 | New value -2.905 | Old value -1.468 | Difference -1.437 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.158 ( 5.851 12.408 -13.111 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.748 3.227 | New value -0.495 | Old value 2.748 | Difference -3.243 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.42 | CG iter. 1 -- res = 0.25729E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.68555E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.28189E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.29867E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.45358E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10070912.272 | (Sampled value in CG: 10052565.286 ) | Chain = 1 -- chisq = 0.81526620E+09 | Chain = 1 -- wall time = 18082.906 sec Available RAM: MemAvailable: 508901868 kB Available Swap: SwapFree: 1058795864 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 277 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444547 | --> Sampling calibration, mode = relcal | relcal = 1.3432682E-02 7.4402883E-04 -1.5979863E-03 -1.2578724E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1190856 0.1344315 97045848.7453557 | BP delta = 9.8070078E-02 0.1134159 97045879.0341458 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632386 | --> Sampling calibration, mode = relcal | relcal = -2.8209253E-03 -7.0513150E-04 1.6793165E-03 1.6131715E-03 -4.0799921E-04 6.4156792E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5270643 15220404.7191665 | BP delta = 0.0000000E+00 -0.5131010 15220418.9936318 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18260188457053 | --> Sampling calibration, mode = relcal | relcal = -7.5498685E-02 -5.8817096E-02 9.2464976E-02 4.1850809E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7365121E-04 5.3033698E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3347E-05 | 2: delta_r/delta_0: 1.0504E-06 | 3: delta_s/delta_0: 1.9024E-07 | 4: delta_r/delta_0: 2.3531E-08 | 5: delta_s/delta_0: 5.9242E-09 | 6: delta_r/delta_0: 2.2468E-09 | 7: delta_s/delta_0: 7.1625E-10 | 8: delta_r/delta_0: 2.7132E-10 | 9: delta_s/delta_0: 2.4256E-08 | 10: delta_r/delta_0: 9.8620E-09 | 11: delta_s/delta_0: 1.0039E-08 | 12: delta_r/delta_0: 2.6091E-09 | 13: delta_s/delta_0: 1.5805E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.066653893751184E-003 2.737307649493398E-005 | BP delta = 6.9693357E-02 8.9839689E-02 50489672.5126299 | BP delta = 7.4581921E-02 9.4728254E-02 50489669.2637167 | BP chisq diff = -3.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02614783 | --> Sampling calibration, mode = relcal | relcal = -0.1066753 -9.5619529E-02 0.1449535 5.7341240E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5647639E-03 1.4104602E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8325E-05 | 2: delta_r/delta_0: 1.1851E-06 | 3: delta_s/delta_0: 2.4631E-07 | 4: delta_r/delta_0: 4.3510E-08 | 5: delta_s/delta_0: 1.7786E-08 | 6: delta_r/delta_0: 6.1207E-09 | 7: delta_s/delta_0: 1.1322E-08 | 8: delta_r/delta_0: 9.1231E-10 | 9: delta_s/delta_0: 8.5407E-10 | 10: delta_r/delta_0: 1.9943E-10 | 11: delta_s/delta_0: 2.7604E-09 | 12: delta_r/delta_0: 2.2113E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.574678714950222E-003 2.810439572843596E-005 | BP delta = -0.3140457 -0.2923262 57391082.5505570 | BP delta = -0.3131308 -0.2914113 57391082.4653249 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81225981 | --> Sampling calibration, mode = relcal | relcal = 0.2954237 0.2249739 -0.2837328 -0.2366647 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9803997E-04 4.8489813E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0281E-02 | 2: delta_r/delta_0: 2.4341E-04 | 3: delta_s/delta_0: 1.4302E-05 | 4: delta_r/delta_0: 9.1158E-07 | 5: delta_s/delta_0: 8.4094E-05 | 6: delta_r/delta_0: 6.3295E-06 | 7: delta_s/delta_0: 1.8085E-07 | 8: delta_r/delta_0: 6.7275E-08 | 9: delta_s/delta_0: 1.8104E-07 | 10: delta_r/delta_0: 7.7442E-09 | 11: delta_s/delta_0: 1.3439E-06 | 12: delta_r/delta_0: 4.5163E-07 | 13: delta_s/delta_0: 3.1948E-10 | 14: delta_r/delta_0: 1.5876E-10 | 15: delta_s/delta_0: 1.7356E-09 | 16: delta_r/delta_0: 2.9291E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.297181821547374E-002 4.021618878710065E-005 | BP delta = -0.2185970 -0.2432042 72487403.7253812 | BP delta = -0.1705218 -0.1951290 72487404.2493965 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95915893 | --> Sampling calibration, mode = relcal | relcal = 0.1064823 0.1396053 -0.1104329 -0.1356548 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.9449808E-03 1.3251415E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6837E-03 | 2: delta_r/delta_0: 4.0588E-05 | 3: delta_s/delta_0: 1.0518E-03 | 4: delta_r/delta_0: 4.1105E-05 | 5: delta_s/delta_0: 4.6465E-07 | 6: delta_r/delta_0: 1.7264E-07 | 7: delta_s/delta_0: 3.8821E-07 | 8: delta_r/delta_0: 4.7732E-08 | 9: delta_s/delta_0: 1.3307E-08 | 10: delta_r/delta_0: 5.5667E-09 | 11: delta_s/delta_0: 2.1636E-09 | 12: delta_r/delta_0: 1.3928E-09 | 13: delta_s/delta_0: 3.3600E-10 | 14: delta_r/delta_0: 9.1452E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.636020978080640E-002 3.697204385913899E-005 | BP delta = 0.1058758 0.2150755 72792099.1724372 | BP delta = 0.1063851 0.2155848 72792099.1898166 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.061589 | New value = -3.077983 | poltype: 2 pol: 1 CPU time specind = 1.1871099E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195453 | New value = -3.147586 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147261 | New value = -3.088945 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137669 | New value = -3.116221 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181485 | New value = -3.154983 | poltype: 2 pol: 2 CPU time specind = 1.2617111E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.13566E+08, tol = 0.73388E+01, time = 5.89 | CG iter. 2 -- res = 0.33046E+06, tol = 0.73388E+01, time = 5.90 | CG iter. 3 -- res = 0.51679E+05, tol = 0.73388E+01, time = 5.96 | CG iter. 4 -- res = 0.24666E+05, tol = 0.73388E+01, time = 5.71 | CG iter. 5 -- res = 0.12705E+05, tol = 0.73388E+01, time = 5.98 | CG iter. 6 -- res = 0.81482E+04, tol = 0.73388E+01, time = 5.67 | CG iter. 7 -- res = 0.66241E+04, tol = 0.73388E+01, time = 5.86 | CG iter. 8 -- res = 0.52486E+04, tol = 0.73388E+01, time = 5.94 | CG iter. 9 -- res = 0.46496E+04, tol = 0.73388E+01, time = 6.97 | CG iter. 10 -- res = 0.42568E+04, tol = 0.73388E+01, time = 6.31 | CG iter. 11 -- res = 0.33464E+04, tol = 0.73388E+01, time = 6.24 | CG iter. 12 -- res = 0.22669E+04, tol = 0.73388E+01, time = 5.91 | CG iter. 13 -- res = 0.13857E+04, tol = 0.73388E+01, time = 5.55 | CG iter. 14 -- res = 0.98604E+03, tol = 0.73388E+01, time = 5.40 | CG iter. 15 -- res = 0.82770E+03, tol = 0.73388E+01, time = 6.00 | CG iter. 16 -- res = 0.65559E+03, tol = 0.73388E+01, time = 6.08 | CG iter. 17 -- res = 0.46729E+03, tol = 0.73388E+01, time = 5.66 | CG iter. 18 -- res = 0.33283E+03, tol = 0.73388E+01, time = 5.91 | CG iter. 19 -- res = 0.26178E+03, tol = 0.73388E+01, time = 5.81 | CG iter. 20 -- res = 0.20510E+03, tol = 0.73388E+01, time = 5.84 | CG iter. 21 -- res = 0.13667E+03, tol = 0.73388E+01, time = 5.71 | CG iter. 22 -- res = 0.91601E+02, tol = 0.73388E+01, time = 5.95 | CG iter. 23 -- res = 0.73667E+02, tol = 0.73388E+01, time = 5.98 | CG iter. 24 -- res = 0.59833E+02, tol = 0.73388E+01, time = 5.93 | CG iter. 25 -- res = 0.44796E+02, tol = 0.73388E+01, time = 5.92 | CG iter. 26 -- res = 0.29345E+02, tol = 0.73388E+01, time = 6.07 | CG iter. 27 -- res = 0.21243E+02, tol = 0.73388E+01, time = 6.59 | CG iter. 28 -- res = 0.15900E+02, tol = 0.73388E+01, time = 5.61 | CG iter. 29 -- res = 0.11901E+02, tol = 0.73388E+01, time = 5.96 | CG iter. 30 -- res = 0.84873E+01, tol = 0.73388E+01, time = 5.71 | CG iter. 31 -- res = 0.61062E+01, tol = 0.73388E+01, time = 5.87 | CG iter. 32 -- res = 0.48386E+01, tol = 0.73388E+01, time = 5.96 | CG iter. 33 -- res = 0.38657E+01, tol = 0.73388E+01, time = 5.85 | CG iter. 34 -- res = 0.27890E+01, tol = 0.73388E+01, time = 5.93 | CG iter. 35 -- res = 0.19435E+01, tol = 0.73388E+01, time = 5.98 | CG iter. 36 -- res = 0.14284E+01, tol = 0.73388E+01, time = 5.80 | CG iter. 37 -- res = 0.11037E+01, tol = 0.73388E+01, time = 5.66 | CG iter. 38 -- res = 0.79807E+00, tol = 0.73388E+01, time = 6.28 | CG iter. 39 -- res = 0.55009E+00, tol = 0.73388E+01, time = 5.68 | CG iter. 40 -- res = 0.40857E+00, tol = 0.73388E+01, time = 5.97 | CG iter. 41 -- res = 0.31360E+00, tol = 0.73388E+01, time = 5.89 | CG iter. 42 -- res = 0.23839E+00, tol = 0.73388E+01, time = 5.51 | CG iter. 43 -- res = 0.17499E+00, tol = 0.73388E+01, time = 5.80 | CG iter. 44 -- res = 0.12100E+00, tol = 0.73388E+01, time = 10.37 | CG iter. 45 -- res = 0.92875E-01, tol = 0.73388E+01, time = 8.02 | CG iter. 46 -- res = 0.72759E-01, tol = 0.73388E+01, time = 5.87 | CG iter. 47 -- res = 0.55270E-01, tol = 0.73388E+01, time = 6.22 | CG iter. 48 -- res = 0.39155E-01, tol = 0.73388E+01, time = 5.59 | CG iter. 49 -- res = 0.29967E-01, tol = 0.73388E+01, time = 5.82 | CG iter. 50 -- res = 0.23898E-01, tol = 0.73388E+01, time = 5.88 | Final CG iter 51 -- res = 0.23898E-01, tol = 0.73388E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8120800.480 | Old band monopole 10070955.590 | Change to band monopole -1950155.110 | Change to component monopole 1950146.722 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.27046E+05, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.26492E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.10361E+01, tol = 0.47627E+18, time = 1.73 | CG iter. 4 -- res = 0.28927E-02, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.20823E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8120765.550 | (Sampled value in CG: 8092532.624 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493916 | New value = 1.536449 | poltype: 2 pol: 1 CPU time specind = 2.2871971E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.560652 | New value = 1.513674 | poltype: 2 pol: 2 CPU time specind = 4.0400028E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.24383E+08, tol = 0.47607E+04, time = 6.45 | CG iter. 2 -- res = 0.52654E+07, tol = 0.47607E+04, time = 6.48 | CG iter. 3 -- res = 0.86491E+06, tol = 0.47607E+04, time = 6.45 | CG iter. 4 -- res = 0.37660E+06, tol = 0.47607E+04, time = 6.76 | CG iter. 5 -- res = 0.16060E+06, tol = 0.47607E+04, time = 6.19 | CG iter. 6 -- res = 0.82324E+05, tol = 0.47607E+04, time = 6.74 | CG iter. 7 -- res = 0.44888E+05, tol = 0.47607E+04, time = 6.73 | CG iter. 8 -- res = 0.21410E+05, tol = 0.47607E+04, time = 6.58 | CG iter. 9 -- res = 0.94229E+04, tol = 0.47607E+04, time = 6.68 | CG iter. 10 -- res = 0.38478E+04, tol = 0.47607E+04, time = 6.90 | CG iter. 11 -- res = 0.17178E+04, tol = 0.47607E+04, time = 6.76 | CG iter. 12 -- res = 0.88660E+03, tol = 0.47607E+04, time = 6.88 | CG iter. 13 -- res = 0.49979E+03, tol = 0.47607E+04, time = 6.20 | CG iter. 14 -- res = 0.28636E+03, tol = 0.47607E+04, time = 6.79 | CG iter. 15 -- res = 0.14348E+03, tol = 0.47607E+04, time = 6.62 | CG iter. 16 -- res = 0.66807E+02, tol = 0.47607E+04, time = 6.58 | CG iter. 17 -- res = 0.31062E+02, tol = 0.47607E+04, time = 6.72 | CG iter. 18 -- res = 0.15751E+02, tol = 0.47607E+04, time = 6.39 | CG iter. 19 -- res = 0.88975E+01, tol = 0.47607E+04, time = 6.69 | CG iter. 20 -- res = 0.50081E+01, tol = 0.47607E+04, time = 6.50 | CG iter. 21 -- res = 0.27039E+01, tol = 0.47607E+04, time = 6.33 | CG iter. 22 -- res = 0.13877E+01, tol = 0.47607E+04, time = 13.29 | CG iter. 23 -- res = 0.68919E+00, tol = 0.47607E+04, time = 6.54 | CG iter. 24 -- res = 0.36378E+00, tol = 0.47607E+04, time = 6.36 | CG iter. 25 -- res = 0.20164E+00, tol = 0.47607E+04, time = 6.84 | CG iter. 26 -- res = 0.11593E+00, tol = 0.47607E+04, time = 6.53 | CG iter. 27 -- res = 0.65477E-01, tol = 0.47607E+04, time = 6.82 | CG iter. 28 -- res = 0.34990E-01, tol = 0.47607E+04, time = 6.65 | CG iter. 29 -- res = 0.18155E-01, tol = 0.47607E+04, time = 6.79 | CG iter. 30 -- res = 0.92652E-02, tol = 0.47607E+04, time = 6.67 | CG iter. 31 -- res = 0.50052E-02, tol = 0.47607E+04, time = 6.34 | CG iter. 32 -- res = 0.28407E-02, tol = 0.47607E+04, time = 6.69 | CG iter. 33 -- res = 0.16049E-02, tol = 0.47607E+04, time = 6.73 | CG iter. 34 -- res = 0.87004E-03, tol = 0.47607E+04, time = 6.78 | CG iter. 35 -- res = 0.45526E-03, tol = 0.47607E+04, time = 8.09 | Final CG iter 36 -- res = 0.45526E-03, tol = 0.47607E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.984 2.727 | New value -0.339 | Old value -2.984 | Difference 2.645 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.36667E+06, tol = 0.47627E+18, time = 2.16 | CG iter. 2 -- res = 0.25425E+02, tol = 0.47627E+18, time = 2.32 | CG iter. 3 -- res = 0.69896E+00, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.51875E-03, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.70306E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8120765.550 | (Sampled value in CG: 8092621.882 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.712735 | New value = -3.623964 | poltype: 1 pol: 1 CPU time specind = 1.1111021E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.21181E+07, tol = 0.23510E+01, time = 3.09 | CG iter. 2 -- res = 0.73138E+06, tol = 0.23510E+01, time = 2.57 | CG iter. 3 -- res = 0.12945E+06, tol = 0.23510E+01, time = 3.01 | CG iter. 4 -- res = 0.52726E+05, tol = 0.23510E+01, time = 3.16 | CG iter. 5 -- res = 0.30134E+05, tol = 0.23510E+01, time = 2.70 | CG iter. 6 -- res = 0.16012E+05, tol = 0.23510E+01, time = 2.80 | CG iter. 7 -- res = 0.62902E+04, tol = 0.23510E+01, time = 2.80 | CG iter. 8 -- res = 0.26857E+04, tol = 0.23510E+01, time = 2.56 | CG iter. 9 -- res = 0.11436E+04, tol = 0.23510E+01, time = 2.80 | CG iter. 10 -- res = 0.45838E+03, tol = 0.23510E+01, time = 3.06 | CG iter. 11 -- res = 0.20223E+03, tol = 0.23510E+01, time = 2.69 | CG iter. 12 -- res = 0.10160E+03, tol = 0.23510E+01, time = 2.50 | CG iter. 13 -- res = 0.53490E+02, tol = 0.23510E+01, time = 3.19 | CG iter. 14 -- res = 0.26757E+02, tol = 0.23510E+01, time = 2.80 | CG iter. 15 -- res = 0.11616E+02, tol = 0.23510E+01, time = 2.79 | CG iter. 16 -- res = 0.48323E+01, tol = 0.23510E+01, time = 2.71 | CG iter. 17 -- res = 0.21198E+01, tol = 0.23510E+01, time = 2.72 | CG iter. 18 -- res = 0.10043E+01, tol = 0.23510E+01, time = 2.81 | CG iter. 19 -- res = 0.50349E+00, tol = 0.23510E+01, time = 3.18 | CG iter. 20 -- res = 0.26403E+00, tol = 0.23510E+01, time = 2.76 | CG iter. 21 -- res = 0.13147E+00, tol = 0.23510E+01, time = 2.69 | CG iter. 22 -- res = 0.58217E-01, tol = 0.23510E+01, time = 2.81 | CG iter. 23 -- res = 0.26708E-01, tol = 0.23510E+01, time = 3.00 | CG iter. 24 -- res = 0.12607E-01, tol = 0.23510E+01, time = 2.52 | CG iter. 25 -- res = 0.62550E-02, tol = 0.23510E+01, time = 2.92 | CG iter. 26 -- res = 0.32878E-02, tol = 0.23510E+01, time = 2.89 | CG iter. 27 -- res = 0.15851E-02, tol = 0.23510E+01, time = 2.94 | CG iter. 28 -- res = 0.73912E-03, tol = 0.23510E+01, time = 3.02 | CG iter. 29 -- res = 0.33051E-03, tol = 0.23510E+01, time = 2.28 | CG iter. 30 -- res = 0.15606E-03, tol = 0.23510E+01, time = 2.97 | CG iter. 31 -- res = 0.75537E-04, tol = 0.23510E+01, time = 2.81 | CG iter. 32 -- res = 0.39020E-04, tol = 0.23510E+01, time = 2.87 | CG iter. 33 -- res = 0.18985E-04, tol = 0.23510E+01, time = 2.38 | CG iter. 34 -- res = 0.85905E-05, tol = 0.23510E+01, time = 2.68 | CG iter. 35 -- res = 0.40376E-05, tol = 0.23510E+01, time = 2.80 | CG iter. 36 -- res = 0.19105E-05, tol = 0.23510E+01, time = 2.61 | CG iter. 37 -- res = 0.90920E-06, tol = 0.23510E+01, time = 2.89 | CG iter. 38 -- res = 0.46469E-06, tol = 0.23510E+01, time = 2.98 | CG iter. 39 -- res = 0.22977E-06, tol = 0.23510E+01, time = 2.83 | CG iter. 40 -- res = 0.10538E-06, tol = 0.23510E+01, time = 2.68 | CG iter. 41 -- res = 0.47938E-07, tol = 0.23510E+01, time = 2.69 | CG iter. 42 -- res = 0.23154E-07, tol = 0.23510E+01, time = 2.75 | CG iter. 43 -- res = 0.10709E-07, tol = 0.23510E+01, time = 2.97 | CG iter. 44 -- res = 0.53173E-08, tol = 0.23510E+01, time = 2.87 | CG iter. 45 -- res = 0.26465E-08, tol = 0.23510E+01, time = 2.60 | CG iter. 46 -- res = 0.12610E-08, tol = 0.23510E+01, time = 2.83 | CG iter. 47 -- res = 0.60583E-09, tol = 0.23510E+01, time = 2.82 | CG iter. 48 -- res = 0.27688E-09, tol = 0.23510E+01, time = 3.02 | CG iter. 49 -- res = 0.13231E-09, tol = 0.23510E+01, time = 3.04 | CG iter. 50 -- res = 0.61831E-10, tol = 0.23510E+01, time = 2.76 | Final CG iter 51 -- res = 0.61831E-10, tol = 0.23510E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.955 3.736 | New value 4.305 | Old value -2.955 | Difference 7.260 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.50042E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.28323E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.12310E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.16883E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.15598E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8120765.550 | (Sampled value in CG: 8103913.428 ) | CPU time specind = 1212.616 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.69280E+08, tol = 0.57754E+04, time = 12.51 | CG iter. 2 -- res = 0.59333E+08, tol = 0.57754E+04, time = 11.53 | CG iter. 3 -- res = 0.15895E+08, tol = 0.57754E+04, time = 12.42 | CG iter. 4 -- res = 0.69377E+07, tol = 0.57754E+04, time = 12.18 | CG iter. 5 -- res = 0.41216E+07, tol = 0.57754E+04, time = 11.87 | CG iter. 6 -- res = 0.23258E+07, tol = 0.57754E+04, time = 14.11 | CG iter. 7 -- res = 0.13749E+07, tol = 0.57754E+04, time = 11.91 | CG iter. 8 -- res = 0.90749E+06, tol = 0.57754E+04, time = 11.63 | CG iter. 9 -- res = 0.59349E+06, tol = 0.57754E+04, time = 12.16 | CG iter. 10 -- res = 0.35784E+06, tol = 0.57754E+04, time = 12.37 | CG iter. 11 -- res = 0.19855E+06, tol = 0.57754E+04, time = 11.90 | CG iter. 12 -- res = 0.10463E+06, tol = 0.57754E+04, time = 12.06 | CG iter. 13 -- res = 0.54458E+05, tol = 0.57754E+04, time = 11.57 | CG iter. 14 -- res = 0.31597E+05, tol = 0.57754E+04, time = 12.25 | CG iter. 15 -- res = 0.20205E+05, tol = 0.57754E+04, time = 12.85 | CG iter. 16 -- res = 0.14216E+05, tol = 0.57754E+04, time = 12.17 | CG iter. 17 -- res = 0.10238E+05, tol = 0.57754E+04, time = 12.23 | CG iter. 18 -- res = 0.74102E+04, tol = 0.57754E+04, time = 11.94 | CG iter. 19 -- res = 0.52346E+04, tol = 0.57754E+04, time = 12.27 | CG iter. 20 -- res = 0.37176E+04, tol = 0.57754E+04, time = 12.15 | CG iter. 21 -- res = 0.27149E+04, tol = 0.57754E+04, time = 11.95 | CG iter. 22 -- res = 0.22852E+04, tol = 0.57754E+04, time = 12.23 | CG iter. 23 -- res = 0.22242E+04, tol = 0.57754E+04, time = 18.13 | CG iter. 24 -- res = 0.23502E+04, tol = 0.57754E+04, time = 12.12 | CG iter. 25 -- res = 0.25333E+04, tol = 0.57754E+04, time = 11.97 | CG iter. 26 -- res = 0.25949E+04, tol = 0.57754E+04, time = 12.17 | CG iter. 27 -- res = 0.23888E+04, tol = 0.57754E+04, time = 12.49 | CG iter. 28 -- res = 0.20587E+04, tol = 0.57754E+04, time = 11.93 | CG iter. 29 -- res = 0.17295E+04, tol = 0.57754E+04, time = 12.06 | CG iter. 30 -- res = 0.14912E+04, tol = 0.57754E+04, time = 13.63 | CG iter. 31 -- res = 0.13308E+04, tol = 0.57754E+04, time = 12.57 | CG iter. 32 -- res = 0.11608E+04, tol = 0.57754E+04, time = 12.28 | CG iter. 33 -- res = 0.94412E+03, tol = 0.57754E+04, time = 12.06 | CG iter. 34 -- res = 0.72884E+03, tol = 0.57754E+04, time = 12.03 | CG iter. 35 -- res = 0.54795E+03, tol = 0.57754E+04, time = 12.25 | CG iter. 36 -- res = 0.44412E+03, tol = 0.57754E+04, time = 12.00 | CG iter. 37 -- res = 0.39918E+03, tol = 0.57754E+04, time = 12.48 | CG iter. 38 -- res = 0.38280E+03, tol = 0.57754E+04, time = 12.39 | CG iter. 39 -- res = 0.36043E+03, tol = 0.57754E+04, time = 12.09 | CG iter. 40 -- res = 0.32832E+03, tol = 0.57754E+04, time = 12.08 | CG iter. 41 -- res = 0.29459E+03, tol = 0.57754E+04, time = 12.25 | CG iter. 42 -- res = 0.25644E+03, tol = 0.57754E+04, time = 12.28 | CG iter. 43 -- res = 0.22692E+03, tol = 0.57754E+04, time = 12.15 | CG iter. 44 -- res = 0.20729E+03, tol = 0.57754E+04, time = 11.81 | CG iter. 45 -- res = 0.18056E+03, tol = 0.57754E+04, time = 12.05 | CG iter. 46 -- res = 0.16084E+03, tol = 0.57754E+04, time = 12.17 | CG iter. 47 -- res = 0.14028E+03, tol = 0.57754E+04, time = 18.92 | CG iter. 48 -- res = 0.11897E+03, tol = 0.57754E+04, time = 12.15 | CG iter. 49 -- res = 0.99084E+02, tol = 0.57754E+04, time = 12.43 | CG iter. 50 -- res = 0.83139E+02, tol = 0.57754E+04, time = 12.12 | CG iter. 51 -- res = 0.72761E+02, tol = 0.57754E+04, time = 11.79 | CG iter. 52 -- res = 0.64725E+02, tol = 0.57754E+04, time = 11.52 | CG iter. 53 -- res = 0.60926E+02, tol = 0.57754E+04, time = 11.93 | CG iter. 54 -- res = 0.58238E+02, tol = 0.57754E+04, time = 13.92 | CG iter. 55 -- res = 0.53668E+02, tol = 0.57754E+04, time = 12.05 | CG iter. 56 -- res = 0.48242E+02, tol = 0.57754E+04, time = 12.51 | CG iter. 57 -- res = 0.42276E+02, tol = 0.57754E+04, time = 12.14 | CG iter. 58 -- res = 0.36732E+02, tol = 0.57754E+04, time = 12.06 | CG iter. 59 -- res = 0.32716E+02, tol = 0.57754E+04, time = 12.35 | CG iter. 60 -- res = 0.30439E+02, tol = 0.57754E+04, time = 11.45 | Final CG iter 61 -- res = 0.30439E+02, tol = 0.57754E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.860 ( -229.658 -2231.225 2514.053 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8558618.240 | Old band monopole 8120800.480 | Change to band monopole 437817.760 | Change to component monopole -437815.877 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.268 2.727 | New value 1.962 | Old value -0.268 | Difference 2.229 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.003 ( 5.511 10.953 -11.583 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.088 4.405 | New value -1.864 | Old value 6.088 | Difference -7.952 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.30961E+06, tol = 0.47627E+18, time = 2.21 | CG iter. 2 -- res = 0.34486E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.14513E+01, tol = 0.47627E+18, time = 2.33 | CG iter. 4 -- res = 0.17025E-02, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.15504E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8558581.427 | (Sampled value in CG: 8542592.559 ) | Chain = 1 -- chisq = 0.81493213E+09 | Chain = 1 -- wall time = 5757.948 sec Available RAM: MemAvailable: 380574596 kB Available Swap: SwapFree: 1130606788 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 278 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445737 | --> Sampling calibration, mode = relcal | relcal = 1.3442087E-02 7.4355485E-04 -1.6040195E-03 -1.2581622E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1190856 0.1344315 9409285.10487561 | BP delta = 0.1190856 0.1308904 9409271.95085670 | BP chisq diff = -13.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632367 | --> Sampling calibration, mode = relcal | relcal = -2.8203751E-03 -7.0217991E-04 1.6781887E-03 1.6123836E-03 -4.0823998E-04 6.4022257E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5270643 15215959.0770082 | BP delta = 0.0000000E+00 -0.5343363 15215954.7539519 | BP chisq diff = -4.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17785945538223 | --> Sampling calibration, mode = relcal | relcal = -7.3912881E-02 -5.7590649E-02 9.0625025E-02 4.0878505E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9618840E-04 2.5968575E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7580E-04 | 2: delta_r/delta_0: 1.4374E-05 | 3: delta_s/delta_0: 8.3590E-07 | 4: delta_r/delta_0: 1.5822E-07 | 5: delta_s/delta_0: 7.5691E-07 | 6: delta_r/delta_0: 6.5253E-08 | 7: delta_s/delta_0: 3.4098E-09 | 8: delta_r/delta_0: 2.2028E-09 | 9: delta_s/delta_0: 1.7478E-09 | 10: delta_r/delta_0: 8.2484E-10 | 11: delta_s/delta_0: 1.9728E-10 | 12: delta_r/delta_0: 1.3544E-10 | 13: delta_s/delta_0: 1.3002E-10 | 14: delta_r/delta_0: 9.3334E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.800152319791917E-003 2.748521642297748E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.7580E-04 | 2: delta_r/delta_0: 1.4374E-05 | 3: delta_s/delta_0: 8.3563E-07 | 4: delta_r/delta_0: 1.5817E-07 | 5: delta_s/delta_0: 7.5703E-07 | 6: delta_r/delta_0: 6.5263E-08 | 7: delta_s/delta_0: 3.4086E-09 | 8: delta_r/delta_0: 2.2020E-09 | 9: delta_s/delta_0: 1.7480E-09 | 10: delta_r/delta_0: 8.2439E-10 | 11: delta_s/delta_0: 1.9715E-10 | 12: delta_r/delta_0: 1.3540E-10 | 13: delta_s/delta_0: 1.2994E-10 | 14: delta_r/delta_0: 9.3266E-11 | Reached bicg-stab tolerance | BP delta = 7.4581921E-02 9.4728254E-02 3666987.36331920 | BP delta = 7.4581921E-02 9.4134353E-02 3666610.91059048 | BP chisq diff = -376.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02600370 | --> Sampling calibration, mode = relcal | relcal = -0.1066653 -9.5555261E-02 0.1449352 5.7285324E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9052745E-03 1.3898946E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7601E-05 | 2: delta_r/delta_0: 1.1782E-06 | 3: delta_s/delta_0: 2.3681E-07 | 4: delta_r/delta_0: 5.3280E-08 | 5: delta_s/delta_0: 1.5370E-08 | 6: delta_r/delta_0: 6.9025E-09 | 7: delta_s/delta_0: 3.3691E-08 | 8: delta_r/delta_0: 1.6827E-09 | 9: delta_s/delta_0: 8.7370E-10 | 10: delta_r/delta_0: 4.2276E-10 | 11: delta_s/delta_0: 6.3575E-09 | 12: delta_r/delta_0: 3.8332E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.680854585627008E-003 2.810805432546695E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7601E-05 | 2: delta_r/delta_0: 1.1783E-06 | 3: delta_s/delta_0: 2.3682E-07 | 4: delta_r/delta_0: 5.3289E-08 | 5: delta_s/delta_0: 1.5369E-08 | 6: delta_r/delta_0: 6.9033E-09 | 7: delta_s/delta_0: 3.3711E-08 | 8: delta_r/delta_0: 1.6831E-09 | 9: delta_s/delta_0: 8.7373E-10 | 10: delta_r/delta_0: 4.2281E-10 | 11: delta_s/delta_0: 6.3581E-09 | 12: delta_r/delta_0: 3.8339E-11 | Reached bicg-stab tolerance | BP delta = -0.3131308 -0.2914113 2841618.70220438 | BP delta = -0.3131308 -0.2890865 2841621.82504943 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81210632 | --> Sampling calibration, mode = relcal | relcal = 0.2953269 0.2249315 -0.2837804 -0.2364780 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.5846259E-04 4.7503947E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1110E-01 | 2: delta_r/delta_0: 2.6075E-03 | 3: delta_s/delta_0: 2.6421E-03 | 4: delta_r/delta_0: 6.6446E-05 | 5: delta_s/delta_0: 1.9833E-05 | 6: delta_r/delta_0: 9.7888E-06 | 7: delta_s/delta_0: 1.6037E-05 | 8: delta_r/delta_0: 2.0292E-06 | 9: delta_s/delta_0: 7.4613E-07 | 10: delta_r/delta_0: 3.2218E-08 | 11: delta_s/delta_0: 9.1996E-08 | 12: delta_r/delta_0: 6.8728E-09 | 13: delta_s/delta_0: 1.4560E-07 | 14: delta_r/delta_0: 6.2413E-08 | 15: delta_s/delta_0: 4.0358E-09 | 16: delta_r/delta_0: 1.2367E-09 | 17: delta_s/delta_0: 5.3357E-10 | 18: delta_r/delta_0: 2.5494E-10 | 19: delta_s/delta_0: 6.4991E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.121315265667445 4.022346719970429E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1187E-01 | 2: delta_r/delta_0: 2.6256E-03 | 3: delta_s/delta_0: 2.6221E-03 | 4: delta_r/delta_0: 6.6019E-05 | 5: delta_s/delta_0: 1.9515E-05 | 6: delta_r/delta_0: 9.6385E-06 | 7: delta_s/delta_0: 1.5950E-05 | 8: delta_r/delta_0: 2.0158E-06 | 9: delta_s/delta_0: 7.4652E-07 | 10: delta_r/delta_0: 3.2021E-08 | 11: delta_s/delta_0: 9.0296E-08 | 12: delta_r/delta_0: 6.8515E-09 | 13: delta_s/delta_0: 1.7230E-07 | 14: delta_r/delta_0: 7.3021E-08 | 15: delta_s/delta_0: 3.7026E-09 | 16: delta_r/delta_0: 1.0745E-09 | 17: delta_s/delta_0: 5.6461E-10 | 18: delta_r/delta_0: 2.6798E-10 | 19: delta_s/delta_0: 6.4497E-11 | Reached bicg-stab tolerance | BP delta = -0.1705218 -0.1951290 2827645.19917453 | BP delta = -0.1705218 -0.2040806 2827686.29275728 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95903106 | --> Sampling calibration, mode = relcal | relcal = 0.1064603 0.1395229 -0.1102489 -0.1357343 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0029863E-02 1.3732742E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3831E-04 | 2: delta_r/delta_0: 6.0781E-06 | 3: delta_s/delta_0: 3.7327E-06 | 4: delta_r/delta_0: 6.4032E-07 | 5: delta_s/delta_0: 2.4138E-07 | 6: delta_r/delta_0: 1.1958E-07 | 7: delta_s/delta_0: 3.4124E-07 | 8: delta_r/delta_0: 2.7024E-08 | 9: delta_s/delta_0: 4.3129E-08 | 10: delta_r/delta_0: 2.7415E-08 | 11: delta_s/delta_0: 1.7267E-09 | 12: delta_r/delta_0: 1.1495E-09 | 13: delta_s/delta_0: 6.4791E-10 | 14: delta_r/delta_0: 2.7200E-10 | 15: delta_s/delta_0: 9.2940E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.023214403827793E-002 3.697589440823019E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3833E-04 | 2: delta_r/delta_0: 6.0786E-06 | 3: delta_s/delta_0: 3.7328E-06 | 4: delta_r/delta_0: 6.4028E-07 | 5: delta_s/delta_0: 2.4135E-07 | 6: delta_r/delta_0: 1.1954E-07 | 7: delta_s/delta_0: 3.4059E-07 | 8: delta_r/delta_0: 2.7030E-08 | 9: delta_s/delta_0: 4.3247E-08 | 10: delta_r/delta_0: 2.7451E-08 | 11: delta_s/delta_0: 1.7280E-09 | 12: delta_r/delta_0: 1.1503E-09 | 13: delta_s/delta_0: 6.4507E-10 | 14: delta_r/delta_0: 2.7324E-10 | 15: delta_s/delta_0: 9.2930E-11 | Reached bicg-stab tolerance | BP delta = 0.1063851 0.2155848 3004100.01923301 | BP delta = 0.1063851 0.2296556 3004194.68872671 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.077983 | New value = -3.256410 | poltype: 2 pol: 1 CPU time specind = 1.6165018E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147586 | New value = -3.098027 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.088945 | New value = -3.092776 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116221 | New value = -3.141563 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154983 | New value = -3.145471 | poltype: 2 pol: 2 CPU time specind = 5.5401325E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.13664E+08, tol = 0.81356E+01, time = 5.50 | CG iter. 2 -- res = 0.36374E+06, tol = 0.81356E+01, time = 5.97 | CG iter. 3 -- res = 0.11842E+06, tol = 0.81356E+01, time = 5.75 | CG iter. 4 -- res = 0.18857E+06, tol = 0.81356E+01, time = 5.76 | CG iter. 5 -- res = 0.20992E+06, tol = 0.81356E+01, time = 5.80 | CG iter. 6 -- res = 0.18238E+06, tol = 0.81356E+01, time = 5.56 | CG iter. 7 -- res = 0.14710E+06, tol = 0.81356E+01, time = 5.78 | CG iter. 8 -- res = 0.11584E+06, tol = 0.81356E+01, time = 6.01 | CG iter. 9 -- res = 0.99043E+05, tol = 0.81356E+01, time = 5.36 | CG iter. 10 -- res = 0.80604E+05, tol = 0.81356E+01, time = 6.07 | CG iter. 11 -- res = 0.58986E+05, tol = 0.81356E+01, time = 5.73 | CG iter. 12 -- res = 0.48205E+05, tol = 0.81356E+01, time = 5.60 | CG iter. 13 -- res = 0.45582E+05, tol = 0.81356E+01, time = 6.79 | CG iter. 14 -- res = 0.37776E+05, tol = 0.81356E+01, time = 6.80 | CG iter. 15 -- res = 0.28054E+05, tol = 0.81356E+01, time = 6.06 | CG iter. 16 -- res = 0.20375E+05, tol = 0.81356E+01, time = 5.31 | CG iter. 17 -- res = 0.16628E+05, tol = 0.81356E+01, time = 5.92 | CG iter. 18 -- res = 0.15268E+05, tol = 0.81356E+01, time = 6.25 | CG iter. 19 -- res = 0.13041E+05, tol = 0.81356E+01, time = 5.90 | CG iter. 20 -- res = 0.10284E+05, tol = 0.81356E+01, time = 5.84 | CG iter. 21 -- res = 0.82568E+04, tol = 0.81356E+01, time = 5.72 | CG iter. 22 -- res = 0.74442E+04, tol = 0.81356E+01, time = 5.48 | CG iter. 23 -- res = 0.64689E+04, tol = 0.81356E+01, time = 5.64 | CG iter. 24 -- res = 0.52878E+04, tol = 0.81356E+01, time = 5.48 | CG iter. 25 -- res = 0.43238E+04, tol = 0.81356E+01, time = 5.94 | CG iter. 26 -- res = 0.38132E+04, tol = 0.81356E+01, time = 5.41 | CG iter. 27 -- res = 0.35263E+04, tol = 0.81356E+01, time = 5.74 | CG iter. 28 -- res = 0.29981E+04, tol = 0.81356E+01, time = 5.58 | CG iter. 29 -- res = 0.24114E+04, tol = 0.81356E+01, time = 5.97 | CG iter. 30 -- res = 0.20944E+04, tol = 0.81356E+01, time = 5.88 | CG iter. 31 -- res = 0.19473E+04, tol = 0.81356E+01, time = 6.11 | CG iter. 32 -- res = 0.17494E+04, tol = 0.81356E+01, time = 5.94 | CG iter. 33 -- res = 0.13779E+04, tol = 0.81356E+01, time = 5.45 | CG iter. 34 -- res = 0.11534E+04, tol = 0.81356E+01, time = 5.73 | CG iter. 35 -- res = 0.10782E+04, tol = 0.81356E+01, time = 5.89 | CG iter. 36 -- res = 0.93795E+03, tol = 0.81356E+01, time = 5.55 | CG iter. 37 -- res = 0.77505E+03, tol = 0.81356E+01, time = 5.62 | CG iter. 38 -- res = 0.67487E+03, tol = 0.81356E+01, time = 5.77 | CG iter. 39 -- res = 0.59287E+03, tol = 0.81356E+01, time = 5.62 | CG iter. 40 -- res = 0.53840E+03, tol = 0.81356E+01, time = 5.91 | CG iter. 41 -- res = 0.46060E+03, tol = 0.81356E+01, time = 5.56 | CG iter. 42 -- res = 0.38435E+03, tol = 0.81356E+01, time = 5.46 | CG iter. 43 -- res = 0.33757E+03, tol = 0.81356E+01, time = 5.86 | CG iter. 44 -- res = 0.30734E+03, tol = 0.81356E+01, time = 6.04 | CG iter. 45 -- res = 0.25071E+03, tol = 0.81356E+01, time = 5.92 | CG iter. 46 -- res = 0.20333E+03, tol = 0.81356E+01, time = 5.60 | CG iter. 47 -- res = 0.17226E+03, tol = 0.81356E+01, time = 5.79 | CG iter. 48 -- res = 0.14794E+03, tol = 0.81356E+01, time = 5.30 | CG iter. 49 -- res = 0.12696E+03, tol = 0.81356E+01, time = 12.56 | CG iter. 50 -- res = 0.10373E+03, tol = 0.81356E+01, time = 5.43 | Final CG iter 51 -- res = 0.10373E+03, tol = 0.81356E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8658825.009 | Old band monopole 8558618.240 | Change to band monopole 100206.770 | Change to component monopole -100206.338 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.17498E+07, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.81835E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.60010E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.81092E-01, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.15835E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8658787.766 | (Sampled value in CG: 8549785.372 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.536449 | New value = 1.530259 | poltype: 2 pol: 1 CPU time specind = 1.7457008E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.513674 | New value = 1.458199 | poltype: 2 pol: 2 CPU time specind = 4.6498775E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.23987E+08, tol = 0.47640E+04, time = 6.47 | CG iter. 2 -- res = 0.53283E+07, tol = 0.47640E+04, time = 6.57 | CG iter. 3 -- res = 0.82974E+06, tol = 0.47640E+04, time = 6.66 | CG iter. 4 -- res = 0.34035E+06, tol = 0.47640E+04, time = 6.40 | CG iter. 5 -- res = 0.14261E+06, tol = 0.47640E+04, time = 6.72 | CG iter. 6 -- res = 0.75940E+05, tol = 0.47640E+04, time = 6.96 | CG iter. 7 -- res = 0.42985E+05, tol = 0.47640E+04, time = 6.38 | CG iter. 8 -- res = 0.20489E+05, tol = 0.47640E+04, time = 6.60 | CG iter. 9 -- res = 0.88426E+04, tol = 0.47640E+04, time = 6.56 | CG iter. 10 -- res = 0.35456E+04, tol = 0.47640E+04, time = 6.42 | CG iter. 11 -- res = 0.16018E+04, tol = 0.47640E+04, time = 6.28 | CG iter. 12 -- res = 0.85005E+03, tol = 0.47640E+04, time = 7.51 | CG iter. 13 -- res = 0.47822E+03, tol = 0.47640E+04, time = 6.43 | CG iter. 14 -- res = 0.27106E+03, tol = 0.47640E+04, time = 6.83 | CG iter. 15 -- res = 0.13875E+03, tol = 0.47640E+04, time = 6.56 | CG iter. 16 -- res = 0.65128E+02, tol = 0.47640E+04, time = 6.55 | CG iter. 17 -- res = 0.30856E+02, tol = 0.47640E+04, time = 6.71 | CG iter. 18 -- res = 0.15533E+02, tol = 0.47640E+04, time = 6.28 | CG iter. 19 -- res = 0.83703E+01, tol = 0.47640E+04, time = 6.73 | CG iter. 20 -- res = 0.48170E+01, tol = 0.47640E+04, time = 6.60 | CG iter. 21 -- res = 0.26606E+01, tol = 0.47640E+04, time = 6.25 | CG iter. 22 -- res = 0.13441E+01, tol = 0.47640E+04, time = 6.61 | CG iter. 23 -- res = 0.67189E+00, tol = 0.47640E+04, time = 6.35 | CG iter. 24 -- res = 0.34722E+00, tol = 0.47640E+04, time = 6.15 | CG iter. 25 -- res = 0.18944E+00, tol = 0.47640E+04, time = 6.75 | CG iter. 26 -- res = 0.10701E+00, tol = 0.47640E+04, time = 6.36 | CG iter. 27 -- res = 0.59191E-01, tol = 0.47640E+04, time = 12.59 | CG iter. 28 -- res = 0.31218E-01, tol = 0.47640E+04, time = 6.95 | CG iter. 29 -- res = 0.16609E-01, tol = 0.47640E+04, time = 5.96 | CG iter. 30 -- res = 0.87427E-02, tol = 0.47640E+04, time = 6.31 | CG iter. 31 -- res = 0.46936E-02, tol = 0.47640E+04, time = 6.56 | CG iter. 32 -- res = 0.26756E-02, tol = 0.47640E+04, time = 6.40 | CG iter. 33 -- res = 0.14994E-02, tol = 0.47640E+04, time = 6.53 | CG iter. 34 -- res = 0.80202E-03, tol = 0.47640E+04, time = 6.72 | CG iter. 35 -- res = 0.41511E-03, tol = 0.47640E+04, time = 6.43 | Final CG iter 36 -- res = 0.41511E-03, tol = 0.47640E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.954 2.716 | New value 2.372 | Old value 1.954 | Difference 0.419 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.21710E+05, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.59830E+02, tol = 0.47627E+18, time = 2.42 | CG iter. 3 -- res = 0.16068E+01, tol = 0.47627E+18, time = 2.22 | Final CG iter 4 -- res = 0.29459E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8658787.766 | (Sampled value in CG: 8551066.720 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.623964 | New value = -3.660880 | poltype: 1 pol: 1 CPU time specind = 1.1302948E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.80679E+07, tol = 0.32848E+01, time = 2.81 | CG iter. 2 -- res = 0.33375E+07, tol = 0.32848E+01, time = 2.72 | CG iter. 3 -- res = 0.86618E+06, tol = 0.32848E+01, time = 2.48 | CG iter. 4 -- res = 0.47228E+06, tol = 0.32848E+01, time = 3.00 | CG iter. 5 -- res = 0.26472E+06, tol = 0.32848E+01, time = 2.77 | CG iter. 6 -- res = 0.96123E+05, tol = 0.32848E+01, time = 2.99 | CG iter. 7 -- res = 0.27808E+05, tol = 0.32848E+01, time = 2.66 | CG iter. 8 -- res = 0.12165E+05, tol = 0.32848E+01, time = 2.76 | CG iter. 9 -- res = 0.64487E+04, tol = 0.32848E+01, time = 2.83 | CG iter. 10 -- res = 0.26126E+04, tol = 0.32848E+01, time = 2.93 | CG iter. 11 -- res = 0.10038E+04, tol = 0.32848E+01, time = 4.11 | CG iter. 12 -- res = 0.51072E+03, tol = 0.32848E+01, time = 3.24 | CG iter. 13 -- res = 0.25407E+03, tol = 0.32848E+01, time = 2.75 | CG iter. 14 -- res = 0.11753E+03, tol = 0.32848E+01, time = 3.29 | CG iter. 15 -- res = 0.51416E+02, tol = 0.32848E+01, time = 2.61 | CG iter. 16 -- res = 0.22739E+02, tol = 0.32848E+01, time = 2.82 | CG iter. 17 -- res = 0.99236E+01, tol = 0.32848E+01, time = 2.60 | CG iter. 18 -- res = 0.49711E+01, tol = 0.32848E+01, time = 2.76 | CG iter. 19 -- res = 0.24192E+01, tol = 0.32848E+01, time = 2.61 | CG iter. 20 -- res = 0.11348E+01, tol = 0.32848E+01, time = 3.05 | CG iter. 21 -- res = 0.49916E+00, tol = 0.32848E+01, time = 2.87 | CG iter. 22 -- res = 0.21757E+00, tol = 0.32848E+01, time = 2.47 | CG iter. 23 -- res = 0.10043E+00, tol = 0.32848E+01, time = 2.75 | CG iter. 24 -- res = 0.46852E-01, tol = 0.32848E+01, time = 2.89 | CG iter. 25 -- res = 0.23169E-01, tol = 0.32848E+01, time = 2.88 | CG iter. 26 -- res = 0.11020E-01, tol = 0.32848E+01, time = 3.03 | CG iter. 27 -- res = 0.53638E-02, tol = 0.32848E+01, time = 2.66 | CG iter. 28 -- res = 0.25126E-02, tol = 0.32848E+01, time = 2.75 | CG iter. 29 -- res = 0.10799E-02, tol = 0.32848E+01, time = 2.61 | CG iter. 30 -- res = 0.52734E-03, tol = 0.32848E+01, time = 2.67 | CG iter. 31 -- res = 0.25119E-03, tol = 0.32848E+01, time = 2.64 | CG iter. 32 -- res = 0.12706E-03, tol = 0.32848E+01, time = 2.81 | CG iter. 33 -- res = 0.60583E-04, tol = 0.32848E+01, time = 2.49 | CG iter. 34 -- res = 0.28291E-04, tol = 0.32848E+01, time = 2.76 | CG iter. 35 -- res = 0.13633E-04, tol = 0.32848E+01, time = 2.63 | CG iter. 36 -- res = 0.66477E-05, tol = 0.32848E+01, time = 2.94 | CG iter. 37 -- res = 0.32559E-05, tol = 0.32848E+01, time = 2.66 | CG iter. 38 -- res = 0.15995E-05, tol = 0.32848E+01, time = 2.56 | CG iter. 39 -- res = 0.77860E-06, tol = 0.32848E+01, time = 2.47 | CG iter. 40 -- res = 0.35613E-06, tol = 0.32848E+01, time = 2.62 | CG iter. 41 -- res = 0.16605E-06, tol = 0.32848E+01, time = 2.86 | CG iter. 42 -- res = 0.79972E-07, tol = 0.32848E+01, time = 2.53 | CG iter. 43 -- res = 0.37531E-07, tol = 0.32848E+01, time = 2.81 | CG iter. 44 -- res = 0.18500E-07, tol = 0.32848E+01, time = 2.62 | CG iter. 45 -- res = 0.86958E-08, tol = 0.32848E+01, time = 2.64 | CG iter. 46 -- res = 0.41184E-08, tol = 0.32848E+01, time = 2.91 | CG iter. 47 -- res = 0.19396E-08, tol = 0.32848E+01, time = 2.77 | CG iter. 48 -- res = 0.90832E-09, tol = 0.32848E+01, time = 2.68 | CG iter. 49 -- res = 0.42195E-09, tol = 0.32848E+01, time = 2.86 | CG iter. 50 -- res = 0.20324E-09, tol = 0.32848E+01, time = 3.35 | Final CG iter 51 -- res = 0.20324E-09, tol = 0.32848E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -14.450 6.819 | New value -20.610 | Old value -14.450 | Difference -6.160 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.41134E+05, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.85847E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.23721E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.10192E-01, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.84291E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8658787.766 | (Sampled value in CG: 8575872.250 ) | CPU time specind = 1190.719 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.68654E+08, tol = 0.57904E+04, time = 13.87 | CG iter. 2 -- res = 0.58312E+08, tol = 0.57904E+04, time = 16.59 | CG iter. 3 -- res = 0.14973E+08, tol = 0.57904E+04, time = 11.63 | CG iter. 4 -- res = 0.63434E+07, tol = 0.57904E+04, time = 12.06 | CG iter. 5 -- res = 0.38025E+07, tol = 0.57904E+04, time = 11.55 | CG iter. 6 -- res = 0.22340E+07, tol = 0.57904E+04, time = 11.52 | CG iter. 7 -- res = 0.13315E+07, tol = 0.57904E+04, time = 11.36 | CG iter. 8 -- res = 0.90764E+06, tol = 0.57904E+04, time = 12.13 | CG iter. 9 -- res = 0.61712E+06, tol = 0.57904E+04, time = 13.26 | CG iter. 10 -- res = 0.38657E+06, tol = 0.57904E+04, time = 12.35 | CG iter. 11 -- res = 0.23176E+06, tol = 0.57904E+04, time = 11.76 | CG iter. 12 -- res = 0.14997E+06, tol = 0.57904E+04, time = 12.14 | CG iter. 13 -- res = 0.10787E+06, tol = 0.57904E+04, time = 11.84 | CG iter. 14 -- res = 0.93128E+05, tol = 0.57904E+04, time = 12.07 | CG iter. 15 -- res = 0.94475E+05, tol = 0.57904E+04, time = 11.38 | CG iter. 16 -- res = 0.10189E+06, tol = 0.57904E+04, time = 11.75 | CG iter. 17 -- res = 0.10389E+06, tol = 0.57904E+04, time = 11.73 | CG iter. 18 -- res = 0.10051E+06, tol = 0.57904E+04, time = 11.83 | CG iter. 19 -- res = 0.91610E+05, tol = 0.57904E+04, time = 12.07 | CG iter. 20 -- res = 0.80941E+05, tol = 0.57904E+04, time = 12.20 | CG iter. 21 -- res = 0.73090E+05, tol = 0.57904E+04, time = 11.80 | CG iter. 22 -- res = 0.68125E+05, tol = 0.57904E+04, time = 12.02 | CG iter. 23 -- res = 0.60672E+05, tol = 0.57904E+04, time = 11.36 | CG iter. 24 -- res = 0.50350E+05, tol = 0.57904E+04, time = 12.05 | CG iter. 25 -- res = 0.38508E+05, tol = 0.57904E+04, time = 12.21 | CG iter. 26 -- res = 0.27952E+05, tol = 0.57904E+04, time = 18.55 | CG iter. 27 -- res = 0.21886E+05, tol = 0.57904E+04, time = 11.43 | CG iter. 28 -- res = 0.18729E+05, tol = 0.57904E+04, time = 11.45 | CG iter. 29 -- res = 0.17118E+05, tol = 0.57904E+04, time = 11.92 | CG iter. 30 -- res = 0.16407E+05, tol = 0.57904E+04, time = 11.69 | CG iter. 31 -- res = 0.15574E+05, tol = 0.57904E+04, time = 11.44 | CG iter. 32 -- res = 0.14084E+05, tol = 0.57904E+04, time = 11.92 | CG iter. 33 -- res = 0.12427E+05, tol = 0.57904E+04, time = 12.72 | CG iter. 34 -- res = 0.10726E+05, tol = 0.57904E+04, time = 13.12 | CG iter. 35 -- res = 0.97233E+04, tol = 0.57904E+04, time = 11.69 | CG iter. 36 -- res = 0.90055E+04, tol = 0.57904E+04, time = 12.03 | CG iter. 37 -- res = 0.82513E+04, tol = 0.57904E+04, time = 12.21 | CG iter. 38 -- res = 0.75419E+04, tol = 0.57904E+04, time = 12.18 | CG iter. 39 -- res = 0.64290E+04, tol = 0.57904E+04, time = 11.92 | CG iter. 40 -- res = 0.52791E+04, tol = 0.57904E+04, time = 12.15 | CG iter. 41 -- res = 0.43632E+04, tol = 0.57904E+04, time = 12.13 | CG iter. 42 -- res = 0.38353E+04, tol = 0.57904E+04, time = 12.34 | CG iter. 43 -- res = 0.36681E+04, tol = 0.57904E+04, time = 12.01 | CG iter. 44 -- res = 0.36827E+04, tol = 0.57904E+04, time = 11.53 | CG iter. 45 -- res = 0.35360E+04, tol = 0.57904E+04, time = 11.61 | CG iter. 46 -- res = 0.32297E+04, tol = 0.57904E+04, time = 11.76 | CG iter. 47 -- res = 0.28425E+04, tol = 0.57904E+04, time = 11.79 | CG iter. 48 -- res = 0.25288E+04, tol = 0.57904E+04, time = 11.44 | CG iter. 49 -- res = 0.22989E+04, tol = 0.57904E+04, time = 11.44 | CG iter. 50 -- res = 0.21150E+04, tol = 0.57904E+04, time = 11.80 | CG iter. 51 -- res = 0.19633E+04, tol = 0.57904E+04, time = 17.70 | CG iter. 52 -- res = 0.18588E+04, tol = 0.57904E+04, time = 11.72 | CG iter. 53 -- res = 0.17011E+04, tol = 0.57904E+04, time = 11.71 | CG iter. 54 -- res = 0.15123E+04, tol = 0.57904E+04, time = 11.98 | CG iter. 55 -- res = 0.13015E+04, tol = 0.57904E+04, time = 12.13 | CG iter. 56 -- res = 0.11557E+04, tol = 0.57904E+04, time = 11.78 | CG iter. 57 -- res = 0.10873E+04, tol = 0.57904E+04, time = 11.55 | CG iter. 58 -- res = 0.10822E+04, tol = 0.57904E+04, time = 13.17 | CG iter. 59 -- res = 0.10704E+04, tol = 0.57904E+04, time = 11.91 | CG iter. 60 -- res = 0.10032E+04, tol = 0.57904E+04, time = 11.91 | Final CG iter 61 -- res = 0.10032E+04, tol = 0.57904E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.869 ( -229.899 -2233.201 2515.932 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10933836.185 | Old band monopole 8658825.009 | Change to band monopole 2275011.176 | Change to component monopole -2275001.390 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.414 2.748 | New value 1.822 | Old value 2.414 | Difference -0.592 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.631 ( 7.962 15.687 -15.080 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.771 4.456 | New value 2.581 | Old value -5.771 | Difference 8.352 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.91970E+05, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.55171E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.24435E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.49736E-02, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.24581E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10933789.156 | (Sampled value in CG: 10907603.245 ) | Chain = 1 -- chisq = 0.81529727E+09 | Chain = 1 -- wall time = 6247.970 sec Available RAM: MemAvailable: 380810420 kB Available Swap: SwapFree: 1131621060 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 279 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443535 | --> Sampling calibration, mode = relcal | relcal = 1.3437035E-02 7.5426686E-04 -1.6065404E-03 -1.2584762E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1190856 0.1308904 97049577.4106818 | BP delta = 0.1108755 0.1226802 97049576.9136566 | BP chisq diff = -0.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632495 | --> Sampling calibration, mode = relcal | relcal = -2.8206496E-03 -7.0504029E-04 1.6787359E-03 1.6142019E-03 -4.0730939E-04 6.4006128E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5343363 15218334.5644619 | BP delta = 0.0000000E+00 -0.5321164 15218336.2025866 | BP chisq diff = 1.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18006954082494 | --> Sampling calibration, mode = relcal | relcal = -7.5593792E-02 -5.8610354E-02 9.2267774E-02 4.1936371E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2555832E-04 5.1560653E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2348E-05 | 2: delta_r/delta_0: 1.0062E-06 | 3: delta_s/delta_0: 1.9554E-07 | 4: delta_r/delta_0: 2.7223E-08 | 5: delta_s/delta_0: 1.0593E-08 | 6: delta_r/delta_0: 2.1429E-09 | 7: delta_s/delta_0: 3.3585E-10 | 8: delta_r/delta_0: 1.3104E-10 | 9: delta_s/delta_0: 6.4031E-10 | 10: delta_r/delta_0: 2.4318E-10 | 11: delta_s/delta_0: 1.6345E-10 | 12: delta_r/delta_0: 4.3469E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.201162036411662E-003 2.743146411705107E-005 | BP delta = 7.4581921E-02 9.4134353E-02 50486510.0164816 | BP delta = 7.3907010E-02 9.3459442E-02 50486510.5105106 | BP chisq diff = 0.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02620699 | --> Sampling calibration, mode = relcal | relcal = -0.1066788 -9.5535517E-02 0.1449792 5.7235062E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9807969E-03 1.4813482E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1625E-05 | 2: delta_r/delta_0: 1.3651E-06 | 3: delta_s/delta_0: 2.5498E-07 | 4: delta_r/delta_0: 3.7746E-08 | 5: delta_s/delta_0: 2.3798E-08 | 6: delta_r/delta_0: 6.6367E-09 | 7: delta_s/delta_0: 4.8762E-09 | 8: delta_r/delta_0: 1.8124E-09 | 9: delta_s/delta_0: 8.2113E-10 | 10: delta_r/delta_0: 6.1983E-10 | 11: delta_s/delta_0: 2.6831E-09 | 12: delta_r/delta_0: 6.0622E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.969457424918303E-003 2.810250241437753E-005 | BP delta = -0.3131308 -0.2914113 57389569.0185815 | BP delta = -0.3218717 -0.3001522 57389569.2665940 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81245061 | --> Sampling calibration, mode = relcal | relcal = 0.2954270 0.2250024 -0.2838233 -0.2366061 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.8071631E-04 4.8824218E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2362E-03 | 2: delta_r/delta_0: 5.1664E-05 | 3: delta_s/delta_0: 1.2064E-05 | 4: delta_r/delta_0: 1.1790E-06 | 5: delta_s/delta_0: 9.8396E-07 | 6: delta_r/delta_0: 5.9147E-08 | 7: delta_s/delta_0: 4.5264E-08 | 8: delta_r/delta_0: 2.1535E-08 | 9: delta_s/delta_0: 1.1064E-05 | 10: delta_r/delta_0: 3.3797E-07 | 11: delta_s/delta_0: 1.3305E-09 | 12: delta_r/delta_0: 4.3735E-10 | 13: delta_s/delta_0: 3.0628E-10 | 14: delta_r/delta_0: 1.9390E-10 | 15: delta_s/delta_0: 2.4918E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.690027558016896E-002 4.020597624815959E-005 | BP delta = -0.1705218 -0.1951290 72485324.4712578 | BP delta = -0.2496842 -0.2742915 72485324.2116746 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95934092 | --> Sampling calibration, mode = relcal | relcal = 0.1065847 0.1394524 -0.1102109 -0.1358262 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1020253E-02 1.3877995E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5396E-03 | 2: delta_r/delta_0: 1.3283E-04 | 3: delta_s/delta_0: 5.7161E-05 | 4: delta_r/delta_0: 2.1791E-06 | 5: delta_s/delta_0: 7.7893E-07 | 6: delta_r/delta_0: 3.2750E-07 | 7: delta_s/delta_0: 1.3700E-07 | 8: delta_r/delta_0: 7.3465E-08 | 9: delta_s/delta_0: 6.6863E-08 | 10: delta_r/delta_0: 9.7704E-09 | 11: delta_s/delta_0: 3.3278E-09 | 12: delta_r/delta_0: 1.7388E-09 | 13: delta_s/delta_0: 3.2638E-10 | 14: delta_r/delta_0: 2.5891E-10 | 15: delta_s/delta_0: 8.8410E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.144470778107200E-002 3.696470726516367E-005 | BP delta = 0.1063851 0.2155848 72788665.3111154 | BP delta = 5.7513226E-02 0.1667130 72788666.9958189 | BP chisq diff = 1.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.256410 | New value = -3.204374 | poltype: 2 pol: 1 CPU time specind = 2.1245003E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.098027 | New value = -3.153191 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.092776 | New value = -3.123543 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141563 | New value = -3.127348 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145471 | New value = -3.131024 | poltype: 2 pol: 2 CPU time specind = 2.4133921E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.13565E+08, tol = 0.63747E+01, time = 5.48 | CG iter. 2 -- res = 0.34816E+06, tol = 0.63747E+01, time = 5.54 | CG iter. 3 -- res = 0.52538E+05, tol = 0.63747E+01, time = 5.84 | CG iter. 4 -- res = 0.30193E+05, tol = 0.63747E+01, time = 5.76 | CG iter. 5 -- res = 0.21196E+05, tol = 0.63747E+01, time = 5.69 | CG iter. 6 -- res = 0.18008E+05, tol = 0.63747E+01, time = 11.65 | CG iter. 7 -- res = 0.17685E+05, tol = 0.63747E+01, time = 5.74 | CG iter. 8 -- res = 0.16921E+05, tol = 0.63747E+01, time = 5.87 | CG iter. 9 -- res = 0.16267E+05, tol = 0.63747E+01, time = 5.82 | CG iter. 10 -- res = 0.15776E+05, tol = 0.63747E+01, time = 5.68 | CG iter. 11 -- res = 0.12137E+05, tol = 0.63747E+01, time = 5.96 | CG iter. 12 -- res = 0.79770E+04, tol = 0.63747E+01, time = 5.54 | CG iter. 13 -- res = 0.57761E+04, tol = 0.63747E+01, time = 5.63 | CG iter. 14 -- res = 0.50376E+04, tol = 0.63747E+01, time = 5.91 | CG iter. 15 -- res = 0.46119E+04, tol = 0.63747E+01, time = 5.63 | CG iter. 16 -- res = 0.38344E+04, tol = 0.63747E+01, time = 5.46 | CG iter. 17 -- res = 0.28613E+04, tol = 0.63747E+01, time = 5.55 | CG iter. 18 -- res = 0.24578E+04, tol = 0.63747E+01, time = 5.72 | CG iter. 19 -- res = 0.22486E+04, tol = 0.63747E+01, time = 5.87 | CG iter. 20 -- res = 0.18776E+04, tol = 0.63747E+01, time = 6.16 | CG iter. 21 -- res = 0.15028E+04, tol = 0.63747E+01, time = 7.11 | CG iter. 22 -- res = 0.12365E+04, tol = 0.63747E+01, time = 6.26 | CG iter. 23 -- res = 0.11013E+04, tol = 0.63747E+01, time = 5.96 | CG iter. 24 -- res = 0.97600E+03, tol = 0.63747E+01, time = 5.68 | CG iter. 25 -- res = 0.78127E+03, tol = 0.63747E+01, time = 5.79 | CG iter. 26 -- res = 0.61267E+03, tol = 0.63747E+01, time = 5.90 | CG iter. 27 -- res = 0.55004E+03, tol = 0.63747E+01, time = 5.55 | CG iter. 28 -- res = 0.51377E+03, tol = 0.63747E+01, time = 5.59 | CG iter. 29 -- res = 0.43974E+03, tol = 0.63747E+01, time = 5.58 | CG iter. 30 -- res = 0.36577E+03, tol = 0.63747E+01, time = 6.27 | CG iter. 31 -- res = 0.32950E+03, tol = 0.63747E+01, time = 6.20 | CG iter. 32 -- res = 0.30239E+03, tol = 0.63747E+01, time = 5.55 | CG iter. 33 -- res = 0.25310E+03, tol = 0.63747E+01, time = 6.02 | CG iter. 34 -- res = 0.19799E+03, tol = 0.63747E+01, time = 5.91 | CG iter. 35 -- res = 0.16518E+03, tol = 0.63747E+01, time = 5.76 | CG iter. 36 -- res = 0.14842E+03, tol = 0.63747E+01, time = 5.74 | CG iter. 37 -- res = 0.13172E+03, tol = 0.63747E+01, time = 5.80 | CG iter. 38 -- res = 0.10558E+03, tol = 0.63747E+01, time = 5.53 | CG iter. 39 -- res = 0.80511E+02, tol = 0.63747E+01, time = 6.12 | CG iter. 40 -- res = 0.69949E+02, tol = 0.63747E+01, time = 5.65 | CG iter. 41 -- res = 0.57448E+02, tol = 0.63747E+01, time = 5.51 | CG iter. 42 -- res = 0.45658E+02, tol = 0.63747E+01, time = 5.85 | CG iter. 43 -- res = 0.35729E+02, tol = 0.63747E+01, time = 5.73 | CG iter. 44 -- res = 0.27931E+02, tol = 0.63747E+01, time = 5.58 | CG iter. 45 -- res = 0.23854E+02, tol = 0.63747E+01, time = 6.03 | CG iter. 46 -- res = 0.19128E+02, tol = 0.63747E+01, time = 5.50 | CG iter. 47 -- res = 0.14825E+02, tol = 0.63747E+01, time = 5.64 | CG iter. 48 -- res = 0.11788E+02, tol = 0.63747E+01, time = 5.82 | CG iter. 49 -- res = 0.10060E+02, tol = 0.63747E+01, time = 5.69 | CG iter. 50 -- res = 0.82014E+01, tol = 0.63747E+01, time = 6.05 | Final CG iter 51 -- res = 0.82014E+01, tol = 0.63747E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8964017.715 | Old band monopole 10933836.185 | Change to band monopole -1969818.470 | Change to component monopole 1969809.997 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.18509E+06, tol = 0.47627E+18, time = 4.28 | CG iter. 2 -- res = 0.84727E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.36885E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.37302E-02, tol = 0.47627E+18, time = 2.34 | Final CG iter 5 -- res = 0.67026E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8963979.159 | (Sampled value in CG: 8986342.008 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.530259 | New value = 1.487970 | poltype: 2 pol: 1 CPU time specind = 1.2887955E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.458199 | New value = 1.459062 | poltype: 2 pol: 2 CPU time specind = 3.7701130E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.24387E+08, tol = 0.47559E+04, time = 7.88 | CG iter. 2 -- res = 0.52718E+07, tol = 0.47559E+04, time = 6.95 | CG iter. 3 -- res = 0.85248E+06, tol = 0.47559E+04, time = 7.01 | CG iter. 4 -- res = 0.36024E+06, tol = 0.47559E+04, time = 6.92 | CG iter. 5 -- res = 0.16025E+06, tol = 0.47559E+04, time = 6.57 | CG iter. 6 -- res = 0.83500E+05, tol = 0.47559E+04, time = 6.34 | CG iter. 7 -- res = 0.44863E+05, tol = 0.47559E+04, time = 6.17 | CG iter. 8 -- res = 0.21682E+05, tol = 0.47559E+04, time = 6.60 | CG iter. 9 -- res = 0.95871E+04, tol = 0.47559E+04, time = 6.38 | CG iter. 10 -- res = 0.39578E+04, tol = 0.47559E+04, time = 6.65 | CG iter. 11 -- res = 0.17628E+04, tol = 0.47559E+04, time = 6.46 | CG iter. 12 -- res = 0.88485E+03, tol = 0.47559E+04, time = 6.33 | CG iter. 13 -- res = 0.49672E+03, tol = 0.47559E+04, time = 6.60 | CG iter. 14 -- res = 0.28310E+03, tol = 0.47559E+04, time = 6.22 | CG iter. 15 -- res = 0.14709E+03, tol = 0.47559E+04, time = 6.48 | CG iter. 16 -- res = 0.68030E+02, tol = 0.47559E+04, time = 6.40 | CG iter. 17 -- res = 0.31451E+02, tol = 0.47559E+04, time = 6.64 | CG iter. 18 -- res = 0.15893E+02, tol = 0.47559E+04, time = 6.44 | CG iter. 19 -- res = 0.85314E+01, tol = 0.47559E+04, time = 6.83 | CG iter. 20 -- res = 0.48606E+01, tol = 0.47559E+04, time = 6.50 | CG iter. 21 -- res = 0.26658E+01, tol = 0.47559E+04, time = 6.59 | CG iter. 22 -- res = 0.13594E+01, tol = 0.47559E+04, time = 6.66 | CG iter. 23 -- res = 0.66637E+00, tol = 0.47559E+04, time = 6.29 | CG iter. 24 -- res = 0.34384E+00, tol = 0.47559E+04, time = 6.46 | CG iter. 25 -- res = 0.19305E+00, tol = 0.47559E+04, time = 6.55 | CG iter. 26 -- res = 0.10964E+00, tol = 0.47559E+04, time = 6.38 | CG iter. 27 -- res = 0.61164E-01, tol = 0.47559E+04, time = 6.90 | CG iter. 28 -- res = 0.32804E-01, tol = 0.47559E+04, time = 6.80 | CG iter. 29 -- res = 0.17230E-01, tol = 0.47559E+04, time = 6.12 | CG iter. 30 -- res = 0.90311E-02, tol = 0.47559E+04, time = 6.71 | CG iter. 31 -- res = 0.49523E-02, tol = 0.47559E+04, time = 6.71 | CG iter. 32 -- res = 0.27369E-02, tol = 0.47559E+04, time = 6.51 | CG iter. 33 -- res = 0.15334E-02, tol = 0.47559E+04, time = 16.33 | CG iter. 34 -- res = 0.82565E-03, tol = 0.47559E+04, time = 6.36 | CG iter. 35 -- res = 0.43085E-03, tol = 0.47559E+04, time = 7.91 | Final CG iter 36 -- res = 0.43085E-03, tol = 0.47559E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.819 2.738 | New value -2.829 | Old value 1.819 | Difference -4.648 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.11191E+07, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.23083E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.53460E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.25128E-03, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.68190E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8963979.159 | (Sampled value in CG: 8988218.912 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.660880 | New value = -3.373806 | poltype: 1 pol: 1 CPU time specind = 9.8559856E-03 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.37936E+07, tol = 0.31758E+01, time = 2.95 | CG iter. 2 -- res = 0.14846E+07, tol = 0.31758E+01, time = 2.83 | CG iter. 3 -- res = 0.32852E+06, tol = 0.31758E+01, time = 2.54 | CG iter. 4 -- res = 0.17498E+06, tol = 0.31758E+01, time = 2.75 | CG iter. 5 -- res = 0.10179E+06, tol = 0.31758E+01, time = 2.88 | CG iter. 6 -- res = 0.40098E+05, tol = 0.31758E+01, time = 2.69 | CG iter. 7 -- res = 0.13190E+05, tol = 0.31758E+01, time = 2.73 | CG iter. 8 -- res = 0.66536E+04, tol = 0.31758E+01, time = 2.60 | CG iter. 9 -- res = 0.33589E+04, tol = 0.31758E+01, time = 2.72 | CG iter. 10 -- res = 0.14011E+04, tol = 0.31758E+01, time = 2.65 | CG iter. 11 -- res = 0.56279E+03, tol = 0.31758E+01, time = 3.02 | CG iter. 12 -- res = 0.24312E+03, tol = 0.31758E+01, time = 3.12 | CG iter. 13 -- res = 0.11840E+03, tol = 0.31758E+01, time = 2.74 | CG iter. 14 -- res = 0.64277E+02, tol = 0.31758E+01, time = 2.53 | CG iter. 15 -- res = 0.32692E+02, tol = 0.31758E+01, time = 2.67 | CG iter. 16 -- res = 0.15675E+02, tol = 0.31758E+01, time = 2.91 | CG iter. 17 -- res = 0.67543E+01, tol = 0.31758E+01, time = 3.04 | CG iter. 18 -- res = 0.31412E+01, tol = 0.31758E+01, time = 2.76 | CG iter. 19 -- res = 0.14256E+01, tol = 0.31758E+01, time = 2.75 | CG iter. 20 -- res = 0.64427E+00, tol = 0.31758E+01, time = 2.97 | CG iter. 21 -- res = 0.33414E+00, tol = 0.31758E+01, time = 2.52 | CG iter. 22 -- res = 0.17228E+00, tol = 0.31758E+01, time = 4.19 | CG iter. 23 -- res = 0.86174E-01, tol = 0.31758E+01, time = 3.26 | CG iter. 24 -- res = 0.40196E-01, tol = 0.31758E+01, time = 3.25 | CG iter. 25 -- res = 0.18504E-01, tol = 0.31758E+01, time = 3.01 | CG iter. 26 -- res = 0.87812E-02, tol = 0.31758E+01, time = 2.92 | CG iter. 27 -- res = 0.40146E-02, tol = 0.31758E+01, time = 2.88 | CG iter. 28 -- res = 0.20700E-02, tol = 0.31758E+01, time = 2.69 | CG iter. 29 -- res = 0.10491E-02, tol = 0.31758E+01, time = 2.74 | CG iter. 30 -- res = 0.55038E-03, tol = 0.31758E+01, time = 2.69 | CG iter. 31 -- res = 0.27754E-03, tol = 0.31758E+01, time = 2.90 | CG iter. 32 -- res = 0.12501E-03, tol = 0.31758E+01, time = 2.91 | CG iter. 33 -- res = 0.60034E-04, tol = 0.31758E+01, time = 2.51 | CG iter. 34 -- res = 0.30151E-04, tol = 0.31758E+01, time = 2.81 | CG iter. 35 -- res = 0.15891E-04, tol = 0.31758E+01, time = 2.84 | CG iter. 36 -- res = 0.80764E-05, tol = 0.31758E+01, time = 2.66 | CG iter. 37 -- res = 0.40124E-05, tol = 0.31758E+01, time = 2.63 | CG iter. 38 -- res = 0.19538E-05, tol = 0.31758E+01, time = 2.64 | CG iter. 39 -- res = 0.89552E-06, tol = 0.31758E+01, time = 2.74 | CG iter. 40 -- res = 0.42651E-06, tol = 0.31758E+01, time = 3.15 | CG iter. 41 -- res = 0.21542E-06, tol = 0.31758E+01, time = 2.61 | CG iter. 42 -- res = 0.10798E-06, tol = 0.31758E+01, time = 2.69 | CG iter. 43 -- res = 0.51948E-07, tol = 0.31758E+01, time = 2.54 | CG iter. 44 -- res = 0.26029E-07, tol = 0.31758E+01, time = 2.68 | CG iter. 45 -- res = 0.12009E-07, tol = 0.31758E+01, time = 2.85 | CG iter. 46 -- res = 0.52753E-08, tol = 0.31758E+01, time = 2.95 | CG iter. 47 -- res = 0.25041E-08, tol = 0.31758E+01, time = 2.79 | CG iter. 48 -- res = 0.13057E-08, tol = 0.31758E+01, time = 2.78 | CG iter. 49 -- res = 0.65872E-09, tol = 0.31758E+01, time = 2.53 | CG iter. 50 -- res = 0.32776E-09, tol = 0.31758E+01, time = 2.76 | Final CG iter 51 -- res = 0.32776E-09, tol = 0.31758E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.477 3.965 | New value -0.522 | Old value 5.477 | Difference -5.999 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.39558E+05, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.36860E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.12833E+01, tol = 0.47627E+18, time = 2.34 | CG iter. 4 -- res = 0.22737E-02, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.12626E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8963979.159 | (Sampled value in CG: 8984799.005 ) | CPU time specind = 1207.433 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.70035E+08, tol = 0.57476E+04, time = 11.65 | CG iter. 2 -- res = 0.59341E+08, tol = 0.57476E+04, time = 12.21 | CG iter. 3 -- res = 0.15236E+08, tol = 0.57476E+04, time = 11.80 | CG iter. 4 -- res = 0.65134E+07, tol = 0.57476E+04, time = 18.83 | CG iter. 5 -- res = 0.40338E+07, tol = 0.57476E+04, time = 12.40 | CG iter. 6 -- res = 0.23668E+07, tol = 0.57476E+04, time = 11.89 | CG iter. 7 -- res = 0.13936E+07, tol = 0.57476E+04, time = 11.45 | CG iter. 8 -- res = 0.90717E+06, tol = 0.57476E+04, time = 11.81 | CG iter. 9 -- res = 0.57296E+06, tol = 0.57476E+04, time = 11.45 | CG iter. 10 -- res = 0.33111E+06, tol = 0.57476E+04, time = 11.55 | CG iter. 11 -- res = 0.17623E+06, tol = 0.57476E+04, time = 13.95 | CG iter. 12 -- res = 0.93299E+05, tol = 0.57476E+04, time = 12.45 | CG iter. 13 -- res = 0.51104E+05, tol = 0.57476E+04, time = 13.09 | CG iter. 14 -- res = 0.31226E+05, tol = 0.57476E+04, time = 11.52 | CG iter. 15 -- res = 0.21002E+05, tol = 0.57476E+04, time = 11.46 | CG iter. 16 -- res = 0.15286E+05, tol = 0.57476E+04, time = 12.16 | CG iter. 17 -- res = 0.11536E+05, tol = 0.57476E+04, time = 11.91 | CG iter. 18 -- res = 0.86350E+04, tol = 0.57476E+04, time = 11.88 | CG iter. 19 -- res = 0.65484E+04, tol = 0.57476E+04, time = 12.15 | CG iter. 20 -- res = 0.52341E+04, tol = 0.57476E+04, time = 12.17 | CG iter. 21 -- res = 0.45920E+04, tol = 0.57476E+04, time = 12.32 | CG iter. 22 -- res = 0.46147E+04, tol = 0.57476E+04, time = 11.76 | CG iter. 23 -- res = 0.49621E+04, tol = 0.57476E+04, time = 12.22 | CG iter. 24 -- res = 0.54264E+04, tol = 0.57476E+04, time = 11.94 | CG iter. 25 -- res = 0.56325E+04, tol = 0.57476E+04, time = 11.73 | CG iter. 26 -- res = 0.51448E+04, tol = 0.57476E+04, time = 11.80 | CG iter. 27 -- res = 0.42989E+04, tol = 0.57476E+04, time = 11.86 | CG iter. 28 -- res = 0.36360E+04, tol = 0.57476E+04, time = 16.09 | CG iter. 29 -- res = 0.29748E+04, tol = 0.57476E+04, time = 14.05 | CG iter. 30 -- res = 0.24392E+04, tol = 0.57476E+04, time = 11.46 | CG iter. 31 -- res = 0.20214E+04, tol = 0.57476E+04, time = 11.36 | CG iter. 32 -- res = 0.16663E+04, tol = 0.57476E+04, time = 11.56 | CG iter. 33 -- res = 0.13356E+04, tol = 0.57476E+04, time = 12.09 | CG iter. 34 -- res = 0.10241E+04, tol = 0.57476E+04, time = 11.70 | CG iter. 35 -- res = 0.81048E+03, tol = 0.57476E+04, time = 11.99 | CG iter. 36 -- res = 0.68721E+03, tol = 0.57476E+04, time = 13.41 | CG iter. 37 -- res = 0.63645E+03, tol = 0.57476E+04, time = 12.15 | CG iter. 38 -- res = 0.61347E+03, tol = 0.57476E+04, time = 11.43 | CG iter. 39 -- res = 0.57627E+03, tol = 0.57476E+04, time = 11.56 | CG iter. 40 -- res = 0.52207E+03, tol = 0.57476E+04, time = 12.09 | CG iter. 41 -- res = 0.45339E+03, tol = 0.57476E+04, time = 12.22 | CG iter. 42 -- res = 0.38325E+03, tol = 0.57476E+04, time = 11.89 | CG iter. 43 -- res = 0.32626E+03, tol = 0.57476E+04, time = 11.70 | CG iter. 44 -- res = 0.28889E+03, tol = 0.57476E+04, time = 12.14 | CG iter. 45 -- res = 0.25423E+03, tol = 0.57476E+04, time = 11.80 | CG iter. 46 -- res = 0.22166E+03, tol = 0.57476E+04, time = 11.82 | CG iter. 47 -- res = 0.19084E+03, tol = 0.57476E+04, time = 12.22 | CG iter. 48 -- res = 0.15797E+03, tol = 0.57476E+04, time = 11.72 | CG iter. 49 -- res = 0.12926E+03, tol = 0.57476E+04, time = 11.23 | CG iter. 50 -- res = 0.10944E+03, tol = 0.57476E+04, time = 12.17 | CG iter. 51 -- res = 0.99078E+02, tol = 0.57476E+04, time = 11.79 | CG iter. 52 -- res = 0.93928E+02, tol = 0.57476E+04, time = 11.73 | CG iter. 53 -- res = 0.90342E+02, tol = 0.57476E+04, time = 18.18 | CG iter. 54 -- res = 0.85333E+02, tol = 0.57476E+04, time = 11.51 | CG iter. 55 -- res = 0.74597E+02, tol = 0.57476E+04, time = 11.92 | CG iter. 56 -- res = 0.62195E+02, tol = 0.57476E+04, time = 11.74 | CG iter. 57 -- res = 0.52489E+02, tol = 0.57476E+04, time = 11.74 | CG iter. 58 -- res = 0.45582E+02, tol = 0.57476E+04, time = 11.70 | CG iter. 59 -- res = 0.41324E+02, tol = 0.57476E+04, time = 12.05 | CG iter. 60 -- res = 0.37367E+02, tol = 0.57476E+04, time = 14.10 | Final CG iter 61 -- res = 0.37367E+02, tol = 0.57476E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.030 ( -229.647 -2232.782 2515.569 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7775548.856 | Old band monopole 8964017.715 | Change to band monopole -1188468.859 | Change to component monopole 1188463.747 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.862 2.734 | New value 2.106 | Old value -2.862 | Difference 4.967 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.660 ( 6.614 15.167 -15.216 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.205 5.670 | New value 1.932 | Old value -0.205 | Difference 2.137 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.14085E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.67035E+02, tol = 0.47627E+18, time = 2.30 | CG iter. 3 -- res = 0.24536E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.60970E-02, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.93879E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7775515.412 | (Sampled value in CG: 7748966.112 ) | Chain = 1 -- chisq = 0.81585978E+09 | Chain = 1 -- wall time = 5673.319 sec Available RAM: MemAvailable: 380263564 kB Available Swap: SwapFree: 1132241496 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 280 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443269 | --> Sampling calibration, mode = relcal | relcal = 1.3437383E-02 7.4463716E-04 -1.5972161E-03 -1.2584804E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1108755 0.1226802 9406957.77994357 | BP delta = 0.1108755 0.1222152 9407021.05998779 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632478 | --> Sampling calibration, mode = relcal | relcal = -2.8215079E-03 -7.0380524E-04 1.6783080E-03 1.6144409E-03 -4.0916580E-04 6.4173009E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5321164 15222237.0765505 | BP delta = 0.0000000E+00 -0.5389320 15222230.5551694 | BP chisq diff = -6.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18071996712447 | --> Sampling calibration, mode = relcal | relcal = -7.5232849E-02 -5.8536191E-02 9.1969393E-02 4.1799642E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4048989E-04 4.7578770E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0908E-05 | 2: delta_r/delta_0: 9.0146E-07 | 3: delta_s/delta_0: 2.1370E-07 | 4: delta_r/delta_0: 1.5526E-08 | 5: delta_s/delta_0: 5.5999E-09 | 6: delta_r/delta_0: 9.2715E-10 | 7: delta_s/delta_0: 2.2259E-10 | 8: delta_r/delta_0: 8.8252E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.987238124207073E-004 2.741701466735549E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0908E-05 | 2: delta_r/delta_0: 9.0145E-07 | 3: delta_s/delta_0: 2.1370E-07 | 4: delta_r/delta_0: 1.5525E-08 | 5: delta_s/delta_0: 5.5987E-09 | 6: delta_r/delta_0: 9.2707E-10 | 7: delta_s/delta_0: 2.2257E-10 | 8: delta_r/delta_0: 8.8258E-11 | Reached bicg-stab tolerance | BP delta = 7.3907010E-02 9.3459442E-02 3555315.45880230 | BP delta = 7.3907010E-02 9.3712218E-02 3553586.84621940 | BP chisq diff = -1728.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02607910 | --> Sampling calibration, mode = relcal | relcal = -0.1066896 -9.5595412E-02 0.1449430 5.7342026E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4001633E-03 1.3794567E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9660E-05 | 2: delta_r/delta_0: 1.3340E-06 | 3: delta_s/delta_0: 2.6264E-07 | 4: delta_r/delta_0: 3.7857E-08 | 5: delta_s/delta_0: 2.4635E-08 | 6: delta_r/delta_0: 6.7033E-09 | 7: delta_s/delta_0: 5.4555E-09 | 8: delta_r/delta_0: 1.7461E-09 | 9: delta_s/delta_0: 8.1757E-10 | 10: delta_r/delta_0: 6.1597E-10 | 11: delta_s/delta_0: 4.1988E-09 | 12: delta_r/delta_0: 4.4267E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.745615948870735E-003 2.810631619638671E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.9659E-05 | 2: delta_r/delta_0: 1.3339E-06 | 3: delta_s/delta_0: 2.6264E-07 | 4: delta_r/delta_0: 3.7841E-08 | 5: delta_s/delta_0: 2.4639E-08 | 6: delta_r/delta_0: 6.7027E-09 | 7: delta_s/delta_0: 5.4560E-09 | 8: delta_r/delta_0: 1.7458E-09 | 9: delta_s/delta_0: 8.1744E-10 | 10: delta_r/delta_0: 6.1587E-10 | 11: delta_s/delta_0: 4.1966E-09 | 12: delta_r/delta_0: 4.4282E-11 | Reached bicg-stab tolerance | BP delta = -0.3218717 -0.3001522 2840962.66765103 | BP delta = -0.3218717 -0.3004697 2840975.10725499 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81247529 | --> Sampling calibration, mode = relcal | relcal = 0.2954990 0.2250066 -0.2838602 -0.2366455 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.3899712E-05 5.4214080E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9117E-02 | 2: delta_r/delta_0: 4.5246E-04 | 3: delta_s/delta_0: 1.5702E-03 | 4: delta_r/delta_0: 5.6210E-05 | 5: delta_s/delta_0: 1.1191E-06 | 6: delta_r/delta_0: 4.0447E-07 | 7: delta_s/delta_0: 5.0966E-07 | 8: delta_r/delta_0: 9.2295E-08 | 9: delta_s/delta_0: 1.1779E-07 | 10: delta_r/delta_0: 1.2808E-08 | 11: delta_s/delta_0: 5.0229E-09 | 12: delta_r/delta_0: 2.3637E-09 | 13: delta_s/delta_0: 4.4882E-10 | 14: delta_r/delta_0: 1.3423E-10 | 15: delta_s/delta_0: 1.3545E-10 | 16: delta_r/delta_0: 8.7387E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.805005170363556E-002 4.020550469290953E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9201E-02 | 2: delta_r/delta_0: 4.5445E-04 | 3: delta_s/delta_0: 1.5699E-03 | 4: delta_r/delta_0: 5.6188E-05 | 5: delta_s/delta_0: 1.1205E-06 | 6: delta_r/delta_0: 4.0508E-07 | 7: delta_s/delta_0: 5.0792E-07 | 8: delta_r/delta_0: 9.2445E-08 | 9: delta_s/delta_0: 1.1829E-07 | 10: delta_r/delta_0: 1.2808E-08 | 11: delta_s/delta_0: 5.0291E-09 | 12: delta_r/delta_0: 2.3656E-09 | 13: delta_s/delta_0: 4.4880E-10 | 14: delta_r/delta_0: 1.3428E-10 | 15: delta_s/delta_0: 1.3553E-10 | 16: delta_r/delta_0: 8.7366E-11 | Reached bicg-stab tolerance | BP delta = -0.2496842 -0.2742915 2827295.35892482 | BP delta = -0.2496842 -0.2772890 2827463.25635388 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95942174 | --> Sampling calibration, mode = relcal | relcal = 0.1064265 0.1395982 -0.1102138 -0.1358109 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0960919E-02 1.3062394E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7193E-04 | 2: delta_r/delta_0: 9.2257E-06 | 3: delta_s/delta_0: 5.5742E-06 | 4: delta_r/delta_0: 7.3311E-07 | 5: delta_s/delta_0: 3.1546E-07 | 6: delta_r/delta_0: 1.3991E-07 | 7: delta_s/delta_0: 3.1901E-07 | 8: delta_r/delta_0: 3.1898E-08 | 9: delta_s/delta_0: 9.1272E-08 | 10: delta_r/delta_0: 5.3987E-08 | 11: delta_s/delta_0: 1.9596E-09 | 12: delta_r/delta_0: 1.1571E-09 | 13: delta_s/delta_0: 2.7628E-08 | 14: delta_r/delta_0: 1.8194E-10 | 15: delta_s/delta_0: 8.4958E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.188476105688284E-002 3.696100719860260E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7192E-04 | 2: delta_r/delta_0: 9.2255E-06 | 3: delta_s/delta_0: 5.5742E-06 | 4: delta_r/delta_0: 7.3312E-07 | 5: delta_s/delta_0: 3.1548E-07 | 6: delta_r/delta_0: 1.3993E-07 | 7: delta_s/delta_0: 3.1932E-07 | 8: delta_r/delta_0: 3.1897E-08 | 9: delta_s/delta_0: 9.1146E-08 | 10: delta_r/delta_0: 5.3951E-08 | 11: delta_s/delta_0: 1.9597E-09 | 12: delta_r/delta_0: 1.1571E-09 | 13: delta_s/delta_0: 2.7836E-08 | 14: delta_r/delta_0: 1.8459E-10 | 15: delta_s/delta_0: 8.4958E-11 | Reached bicg-stab tolerance | BP delta = 5.7513226E-02 0.1667130 3004248.73537782 | BP delta = 5.7513226E-02 0.1561151 3004263.43909567 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.204374 | New value = -3.137600 | poltype: 2 pol: 1 CPU time specind = 1.4524937E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153191 | New value = -3.194761 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123543 | New value = -3.160352 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127348 | New value = -3.206160 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131024 | New value = -3.152784 | poltype: 2 pol: 2 CPU time specind = 3.7013054E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.13603E+08, tol = 0.87468E+01, time = 5.53 | CG iter. 2 -- res = 0.35437E+06, tol = 0.87468E+01, time = 5.78 | CG iter. 3 -- res = 0.69937E+05, tol = 0.87468E+01, time = 5.82 | CG iter. 4 -- res = 0.57254E+05, tol = 0.87468E+01, time = 5.49 | CG iter. 5 -- res = 0.53080E+05, tol = 0.87468E+01, time = 5.45 | CG iter. 6 -- res = 0.52022E+05, tol = 0.87468E+01, time = 5.56 | CG iter. 7 -- res = 0.49419E+05, tol = 0.87468E+01, time = 5.77 | CG iter. 8 -- res = 0.39836E+05, tol = 0.87468E+01, time = 5.51 | CG iter. 9 -- res = 0.32463E+05, tol = 0.87468E+01, time = 6.16 | CG iter. 10 -- res = 0.25941E+05, tol = 0.87468E+01, time = 5.49 | CG iter. 11 -- res = 0.18281E+05, tol = 0.87468E+01, time = 5.94 | CG iter. 12 -- res = 0.12691E+05, tol = 0.87468E+01, time = 6.62 | CG iter. 13 -- res = 0.10354E+05, tol = 0.87468E+01, time = 5.45 | CG iter. 14 -- res = 0.91244E+04, tol = 0.87468E+01, time = 5.76 | CG iter. 15 -- res = 0.74932E+04, tol = 0.87468E+01, time = 5.83 | CG iter. 16 -- res = 0.54308E+04, tol = 0.87468E+01, time = 5.69 | CG iter. 17 -- res = 0.38280E+04, tol = 0.87468E+01, time = 5.43 | CG iter. 18 -- res = 0.30582E+04, tol = 0.87468E+01, time = 5.90 | CG iter. 19 -- res = 0.26867E+04, tol = 0.87468E+01, time = 5.22 | CG iter. 20 -- res = 0.21321E+04, tol = 0.87468E+01, time = 5.88 | CG iter. 21 -- res = 0.16345E+04, tol = 0.87468E+01, time = 6.17 | CG iter. 22 -- res = 0.13325E+04, tol = 0.87468E+01, time = 5.72 | CG iter. 23 -- res = 0.11243E+04, tol = 0.87468E+01, time = 5.88 | CG iter. 24 -- res = 0.94399E+03, tol = 0.87468E+01, time = 6.14 | CG iter. 25 -- res = 0.73289E+03, tol = 0.87468E+01, time = 5.52 | CG iter. 26 -- res = 0.57205E+03, tol = 0.87468E+01, time = 5.73 | CG iter. 27 -- res = 0.50380E+03, tol = 0.87468E+01, time = 5.61 | CG iter. 28 -- res = 0.44390E+03, tol = 0.87468E+01, time = 5.79 | CG iter. 29 -- res = 0.35157E+03, tol = 0.87468E+01, time = 5.74 | CG iter. 30 -- res = 0.27695E+03, tol = 0.87468E+01, time = 12.86 | CG iter. 31 -- res = 0.23702E+03, tol = 0.87468E+01, time = 5.57 | CG iter. 32 -- res = 0.20780E+03, tol = 0.87468E+01, time = 6.81 | CG iter. 33 -- res = 0.16890E+03, tol = 0.87468E+01, time = 6.02 | CG iter. 34 -- res = 0.12978E+03, tol = 0.87468E+01, time = 5.55 | CG iter. 35 -- res = 0.10604E+03, tol = 0.87468E+01, time = 5.79 | CG iter. 36 -- res = 0.94314E+02, tol = 0.87468E+01, time = 5.49 | CG iter. 37 -- res = 0.79218E+02, tol = 0.87468E+01, time = 5.52 | CG iter. 38 -- res = 0.59437E+02, tol = 0.87468E+01, time = 5.49 | CG iter. 39 -- res = 0.46142E+02, tol = 0.87468E+01, time = 5.96 | CG iter. 40 -- res = 0.39926E+02, tol = 0.87468E+01, time = 5.85 | CG iter. 41 -- res = 0.33387E+02, tol = 0.87468E+01, time = 5.73 | CG iter. 42 -- res = 0.25661E+02, tol = 0.87468E+01, time = 5.96 | CG iter. 43 -- res = 0.19922E+02, tol = 0.87468E+01, time = 5.55 | CG iter. 44 -- res = 0.15863E+02, tol = 0.87468E+01, time = 6.58 | CG iter. 45 -- res = 0.12996E+02, tol = 0.87468E+01, time = 6.46 | CG iter. 46 -- res = 0.10187E+02, tol = 0.87468E+01, time = 5.89 | CG iter. 47 -- res = 0.77403E+01, tol = 0.87468E+01, time = 5.76 | CG iter. 48 -- res = 0.60606E+01, tol = 0.87468E+01, time = 5.91 | CG iter. 49 -- res = 0.48667E+01, tol = 0.87468E+01, time = 5.87 | CG iter. 50 -- res = 0.39021E+01, tol = 0.87468E+01, time = 5.72 | Final CG iter 51 -- res = 0.39021E+01, tol = 0.87468E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10240765.434 | Old band monopole 7775548.856 | Change to band monopole 2465216.578 | Change to component monopole -2465205.975 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.30266E+05, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.53033E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.14455E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.53193E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.97464E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10240721.387 | (Sampled value in CG: 10305308.219 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487970 | New value = 1.498153 | poltype: 2 pol: 1 CPU time specind = 2.2554159E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.459062 | New value = 1.465957 | poltype: 2 pol: 2 CPU time specind = 5.1720142E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.24020E+08, tol = 0.47597E+04, time = 6.38 | CG iter. 2 -- res = 0.52382E+07, tol = 0.47597E+04, time = 6.40 | CG iter. 3 -- res = 0.81972E+06, tol = 0.47597E+04, time = 6.45 | CG iter. 4 -- res = 0.34063E+06, tol = 0.47597E+04, time = 6.69 | CG iter. 5 -- res = 0.14887E+06, tol = 0.47597E+04, time = 6.20 | CG iter. 6 -- res = 0.78030E+05, tol = 0.47597E+04, time = 6.75 | CG iter. 7 -- res = 0.42433E+05, tol = 0.47597E+04, time = 6.94 | CG iter. 8 -- res = 0.20638E+05, tol = 0.47597E+04, time = 6.14 | CG iter. 9 -- res = 0.90833E+04, tol = 0.47597E+04, time = 12.67 | CG iter. 10 -- res = 0.36727E+04, tol = 0.47597E+04, time = 6.38 | CG iter. 11 -- res = 0.16881E+04, tol = 0.47597E+04, time = 6.34 | CG iter. 12 -- res = 0.87706E+03, tol = 0.47597E+04, time = 6.63 | CG iter. 13 -- res = 0.49430E+03, tol = 0.47597E+04, time = 6.17 | CG iter. 14 -- res = 0.28054E+03, tol = 0.47597E+04, time = 6.43 | CG iter. 15 -- res = 0.14236E+03, tol = 0.47597E+04, time = 6.54 | CG iter. 16 -- res = 0.66735E+02, tol = 0.47597E+04, time = 6.22 | CG iter. 17 -- res = 0.31060E+02, tol = 0.47597E+04, time = 6.49 | CG iter. 18 -- res = 0.15549E+02, tol = 0.47597E+04, time = 6.55 | CG iter. 19 -- res = 0.83676E+01, tol = 0.47597E+04, time = 6.27 | CG iter. 20 -- res = 0.47295E+01, tol = 0.47597E+04, time = 6.66 | CG iter. 21 -- res = 0.26202E+01, tol = 0.47597E+04, time = 6.51 | CG iter. 22 -- res = 0.13527E+01, tol = 0.47597E+04, time = 7.30 | CG iter. 23 -- res = 0.66249E+00, tol = 0.47597E+04, time = 7.87 | CG iter. 24 -- res = 0.33865E+00, tol = 0.47597E+04, time = 6.80 | CG iter. 25 -- res = 0.18635E+00, tol = 0.47597E+04, time = 6.18 | CG iter. 26 -- res = 0.10688E+00, tol = 0.47597E+04, time = 6.14 | CG iter. 27 -- res = 0.61077E-01, tol = 0.47597E+04, time = 6.83 | CG iter. 28 -- res = 0.32741E-01, tol = 0.47597E+04, time = 6.58 | CG iter. 29 -- res = 0.16792E-01, tol = 0.47597E+04, time = 6.08 | CG iter. 30 -- res = 0.88812E-02, tol = 0.47597E+04, time = 6.75 | CG iter. 31 -- res = 0.48435E-02, tol = 0.47597E+04, time = 6.23 | CG iter. 32 -- res = 0.27597E-02, tol = 0.47597E+04, time = 6.62 | CG iter. 33 -- res = 0.15421E-02, tol = 0.47597E+04, time = 6.33 | CG iter. 34 -- res = 0.82923E-03, tol = 0.47597E+04, time = 5.98 | CG iter. 35 -- res = 0.43282E-03, tol = 0.47597E+04, time = 6.64 | Final CG iter 36 -- res = 0.43282E-03, tol = 0.47597E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.136 2.757 | New value 4.288 | Old value 2.136 | Difference 2.153 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.24444E+06, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.63219E+02, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.16303E+01, tol = 0.47627E+18, time = 2.06 | Final CG iter 4 -- res = 0.14483E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10240721.387 | (Sampled value in CG: 10305756.835 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.373806 | New value = -3.481058 | poltype: 1 pol: 1 CPU time specind = 1.1542082E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.24259E+07, tol = 0.34538E+01, time = 2.58 | CG iter. 2 -- res = 0.12061E+07, tol = 0.34538E+01, time = 2.75 | CG iter. 3 -- res = 0.22780E+06, tol = 0.34538E+01, time = 2.69 | CG iter. 4 -- res = 0.82918E+05, tol = 0.34538E+01, time = 2.54 | CG iter. 5 -- res = 0.48203E+05, tol = 0.34538E+01, time = 2.78 | CG iter. 6 -- res = 0.25602E+05, tol = 0.34538E+01, time = 2.95 | CG iter. 7 -- res = 0.10394E+05, tol = 0.34538E+01, time = 2.62 | CG iter. 8 -- res = 0.44762E+04, tol = 0.34538E+01, time = 2.73 | CG iter. 9 -- res = 0.19977E+04, tol = 0.34538E+01, time = 2.51 | CG iter. 10 -- res = 0.78906E+03, tol = 0.34538E+01, time = 2.63 | CG iter. 11 -- res = 0.32175E+03, tol = 0.34538E+01, time = 2.65 | CG iter. 12 -- res = 0.15015E+03, tol = 0.34538E+01, time = 2.78 | CG iter. 13 -- res = 0.79067E+02, tol = 0.34538E+01, time = 2.61 | CG iter. 14 -- res = 0.40420E+02, tol = 0.34538E+01, time = 2.58 | CG iter. 15 -- res = 0.19625E+02, tol = 0.34538E+01, time = 2.74 | CG iter. 16 -- res = 0.89645E+01, tol = 0.34538E+01, time = 2.67 | CG iter. 17 -- res = 0.37974E+01, tol = 0.34538E+01, time = 2.86 | CG iter. 18 -- res = 0.16854E+01, tol = 0.34538E+01, time = 2.85 | CG iter. 19 -- res = 0.81838E+00, tol = 0.34538E+01, time = 2.77 | CG iter. 20 -- res = 0.40654E+00, tol = 0.34538E+01, time = 2.84 | CG iter. 21 -- res = 0.20263E+00, tol = 0.34538E+01, time = 2.72 | CG iter. 22 -- res = 0.95630E-01, tol = 0.34538E+01, time = 2.63 | CG iter. 23 -- res = 0.45398E-01, tol = 0.34538E+01, time = 2.69 | CG iter. 24 -- res = 0.19718E-01, tol = 0.34538E+01, time = 2.74 | CG iter. 25 -- res = 0.91649E-02, tol = 0.34538E+01, time = 2.99 | CG iter. 26 -- res = 0.44699E-02, tol = 0.34538E+01, time = 2.69 | CG iter. 27 -- res = 0.22797E-02, tol = 0.34538E+01, time = 3.00 | CG iter. 28 -- res = 0.11869E-02, tol = 0.34538E+01, time = 2.51 | CG iter. 29 -- res = 0.54718E-03, tol = 0.34538E+01, time = 2.80 | CG iter. 30 -- res = 0.25846E-03, tol = 0.34538E+01, time = 2.50 | CG iter. 31 -- res = 0.12149E-03, tol = 0.34538E+01, time = 2.93 | CG iter. 32 -- res = 0.56954E-04, tol = 0.34538E+01, time = 2.85 | CG iter. 33 -- res = 0.27734E-04, tol = 0.34538E+01, time = 2.80 | CG iter. 34 -- res = 0.14131E-04, tol = 0.34538E+01, time = 2.70 | CG iter. 35 -- res = 0.72345E-05, tol = 0.34538E+01, time = 2.69 | CG iter. 36 -- res = 0.35846E-05, tol = 0.34538E+01, time = 2.47 | CG iter. 37 -- res = 0.16218E-05, tol = 0.34538E+01, time = 2.45 | CG iter. 38 -- res = 0.76706E-06, tol = 0.34538E+01, time = 2.68 | CG iter. 39 -- res = 0.36545E-06, tol = 0.34538E+01, time = 2.89 | CG iter. 40 -- res = 0.18664E-06, tol = 0.34538E+01, time = 2.70 | CG iter. 41 -- res = 0.96480E-07, tol = 0.34538E+01, time = 2.52 | CG iter. 42 -- res = 0.48641E-07, tol = 0.34538E+01, time = 2.87 | CG iter. 43 -- res = 0.22177E-07, tol = 0.34538E+01, time = 2.71 | CG iter. 44 -- res = 0.10204E-07, tol = 0.34538E+01, time = 2.80 | CG iter. 45 -- res = 0.47173E-08, tol = 0.34538E+01, time = 2.70 | CG iter. 46 -- res = 0.23923E-08, tol = 0.34538E+01, time = 2.86 | CG iter. 47 -- res = 0.12325E-08, tol = 0.34538E+01, time = 7.68 | CG iter. 48 -- res = 0.61924E-09, tol = 0.34538E+01, time = 4.24 | CG iter. 49 -- res = 0.28822E-09, tol = 0.34538E+01, time = 3.01 | CG iter. 50 -- res = 0.13631E-09, tol = 0.34538E+01, time = 2.90 | Final CG iter 51 -- res = 0.13631E-09, tol = 0.34538E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.375 4.817 | New value -2.339 | Old value 6.375 | Difference -8.714 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.79621E+05, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.67437E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.23791E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.96918E-02, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.10168E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10240721.387 | (Sampled value in CG: 10292539.627 ) | CPU time specind = 1190.271 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.68315E+08, tol = 0.57585E+04, time = 11.91 | CG iter. 2 -- res = 0.58567E+08, tol = 0.57585E+04, time = 11.80 | CG iter. 3 -- res = 0.14978E+08, tol = 0.57585E+04, time = 11.93 | CG iter. 4 -- res = 0.63112E+07, tol = 0.57585E+04, time = 11.84 | CG iter. 5 -- res = 0.38304E+07, tol = 0.57585E+04, time = 11.80 | CG iter. 6 -- res = 0.22363E+07, tol = 0.57585E+04, time = 11.78 | CG iter. 7 -- res = 0.13331E+07, tol = 0.57585E+04, time = 11.46 | CG iter. 8 -- res = 0.86825E+06, tol = 0.57585E+04, time = 11.64 | CG iter. 9 -- res = 0.56712E+06, tol = 0.57585E+04, time = 12.15 | CG iter. 10 -- res = 0.34830E+06, tol = 0.57585E+04, time = 11.31 | CG iter. 11 -- res = 0.19338E+06, tol = 0.57585E+04, time = 11.96 | CG iter. 12 -- res = 0.10678E+06, tol = 0.57585E+04, time = 11.70 | CG iter. 13 -- res = 0.60100E+05, tol = 0.57585E+04, time = 12.03 | CG iter. 14 -- res = 0.38949E+05, tol = 0.57585E+04, time = 11.63 | CG iter. 15 -- res = 0.29907E+05, tol = 0.57585E+04, time = 11.32 | CG iter. 16 -- res = 0.24870E+05, tol = 0.57585E+04, time = 11.43 | CG iter. 17 -- res = 0.21491E+05, tol = 0.57585E+04, time = 18.26 | CG iter. 18 -- res = 0.18294E+05, tol = 0.57585E+04, time = 11.99 | CG iter. 19 -- res = 0.15544E+05, tol = 0.57585E+04, time = 11.76 | CG iter. 20 -- res = 0.13936E+05, tol = 0.57585E+04, time = 11.59 | CG iter. 21 -- res = 0.13356E+05, tol = 0.57585E+04, time = 11.86 | CG iter. 22 -- res = 0.13770E+05, tol = 0.57585E+04, time = 11.78 | CG iter. 23 -- res = 0.14649E+05, tol = 0.57585E+04, time = 11.60 | CG iter. 24 -- res = 0.14732E+05, tol = 0.57585E+04, time = 11.35 | CG iter. 25 -- res = 0.13075E+05, tol = 0.57585E+04, time = 13.60 | CG iter. 26 -- res = 0.10402E+05, tol = 0.57585E+04, time = 12.01 | CG iter. 27 -- res = 0.77932E+04, tol = 0.57585E+04, time = 11.39 | CG iter. 28 -- res = 0.58518E+04, tol = 0.57585E+04, time = 11.42 | CG iter. 29 -- res = 0.46859E+04, tol = 0.57585E+04, time = 11.90 | CG iter. 30 -- res = 0.40744E+04, tol = 0.57585E+04, time = 11.52 | CG iter. 31 -- res = 0.35907E+04, tol = 0.57585E+04, time = 11.63 | CG iter. 32 -- res = 0.31011E+04, tol = 0.57585E+04, time = 11.90 | CG iter. 33 -- res = 0.26841E+04, tol = 0.57585E+04, time = 11.71 | CG iter. 34 -- res = 0.22651E+04, tol = 0.57585E+04, time = 11.85 | CG iter. 35 -- res = 0.19407E+04, tol = 0.57585E+04, time = 11.60 | CG iter. 36 -- res = 0.17724E+04, tol = 0.57585E+04, time = 12.09 | CG iter. 37 -- res = 0.17078E+04, tol = 0.57585E+04, time = 11.81 | CG iter. 38 -- res = 0.16402E+04, tol = 0.57585E+04, time = 11.58 | CG iter. 39 -- res = 0.15041E+04, tol = 0.57585E+04, time = 11.72 | CG iter. 40 -- res = 0.12911E+04, tol = 0.57585E+04, time = 11.64 | CG iter. 41 -- res = 0.10624E+04, tol = 0.57585E+04, time = 11.62 | CG iter. 42 -- res = 0.86682E+03, tol = 0.57585E+04, time = 19.19 | CG iter. 43 -- res = 0.74319E+03, tol = 0.57585E+04, time = 11.29 | CG iter. 44 -- res = 0.66855E+03, tol = 0.57585E+04, time = 11.76 | CG iter. 45 -- res = 0.61698E+03, tol = 0.57585E+04, time = 11.31 | CG iter. 46 -- res = 0.56987E+03, tol = 0.57585E+04, time = 12.03 | CG iter. 47 -- res = 0.52573E+03, tol = 0.57585E+04, time = 11.42 | CG iter. 48 -- res = 0.46728E+03, tol = 0.57585E+04, time = 11.70 | CG iter. 49 -- res = 0.40480E+03, tol = 0.57585E+04, time = 12.45 | CG iter. 50 -- res = 0.36429E+03, tol = 0.57585E+04, time = 13.23 | CG iter. 51 -- res = 0.34887E+03, tol = 0.57585E+04, time = 11.27 | CG iter. 52 -- res = 0.34998E+03, tol = 0.57585E+04, time = 11.12 | CG iter. 53 -- res = 0.33736E+03, tol = 0.57585E+04, time = 11.18 | CG iter. 54 -- res = 0.30798E+03, tol = 0.57585E+04, time = 11.70 | CG iter. 55 -- res = 0.26239E+03, tol = 0.57585E+04, time = 12.14 | CG iter. 56 -- res = 0.22504E+03, tol = 0.57585E+04, time = 11.09 | CG iter. 57 -- res = 0.19781E+03, tol = 0.57585E+04, time = 11.63 | CG iter. 58 -- res = 0.18774E+03, tol = 0.57585E+04, time = 11.45 | CG iter. 59 -- res = 0.18578E+03, tol = 0.57585E+04, time = 12.39 | CG iter. 60 -- res = 0.17255E+03, tol = 0.57585E+04, time = 11.83 | Final CG iter 61 -- res = 0.17255E+03, tol = 0.57585E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.802 ( -229.638 -2232.180 2514.916 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10124449.364 | Old band monopole 10240765.434 | Change to band monopole -116316.071 | Change to component monopole 116315.570 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.305 2.753 | New value -1.770 | Old value 4.305 | Difference -6.075 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.353 ( 6.151 13.699 -13.778 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.288 5.293 | New value -8.516 | Old value 0.288 | Difference -8.804 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.19205E+07, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.29861E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.91213E+00, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.21160E-02, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.11171E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10124405.816 | (Sampled value in CG: 10101574.696 ) | Chain = 1 -- chisq = 0.81559716E+09 | Chain = 1 -- wall time = 6124.288 sec Available RAM: MemAvailable: 380764292 kB Available Swap: SwapFree: 1132541696 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 281 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443891 | --> Sampling calibration, mode = relcal | relcal = 1.3437006E-02 7.4438885E-04 -1.6001035E-03 -1.2581292E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1108755 0.1226802 97042202.0356258 | BP delta = 0.1118103 0.1236151 97042201.6415593 | BP chisq diff = -0.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632513 | --> Sampling calibration, mode = relcal | relcal = -2.8215055E-03 -7.0325762E-04 1.6786978E-03 1.6144090E-03 -4.0842101E-04 6.4007746E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5389320 15212748.8891454 | BP delta = 0.0000000E+00 -0.5383155 15212747.4797181 | BP chisq diff = -1.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03101659 | --> Sampling calibration, mode = relcal | relcal = 3.7070546E-02 1.3713214E-02 5.7600830E-03 -7.1672220E-03 8.2463380E-03 2.3899116E-03 -7.5964024E-03 -7.1792784E-03 -1.5297908E-02 -1.4792927E-02 -3.0557422E-03 -1.2090610E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.203735 132214927.984520 | BP delta = 0.0000000E+00 -1.202035 132214931.217091 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17981980685654 | --> Sampling calibration, mode = relcal | relcal = -7.4841313E-02 -5.8187891E-02 9.1592506E-02 4.1436695E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2749227E-04 4.2251251E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7655E-05 | 2: delta_r/delta_0: 7.6768E-07 | 3: delta_s/delta_0: 2.5370E-07 | 4: delta_r/delta_0: 1.1208E-08 | 5: delta_s/delta_0: 3.0120E-06 | 6: delta_r/delta_0: 2.5110E-07 | 7: delta_s/delta_0: 2.3747E-10 | 8: delta_r/delta_0: 1.0580E-10 | 9: delta_s/delta_0: 1.9719E-09 | 10: delta_r/delta_0: 6.2905E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.224573238558829E-003 2.743832637047919E-005 | BP delta = 7.3907010E-02 9.3712218E-02 50488350.6437012 | BP delta = 7.0296444E-02 9.0101652E-02 50488349.5036351 | BP chisq diff = -1.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02610849 | --> Sampling calibration, mode = relcal | relcal = -0.1066806 -9.5631137E-02 0.1450273 5.7284396E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0642396E-03 1.2021702E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1690E-05 | 2: delta_r/delta_0: 1.2250E-06 | 3: delta_s/delta_0: 2.5024E-07 | 4: delta_r/delta_0: 4.4753E-08 | 5: delta_s/delta_0: 1.9336E-08 | 6: delta_r/delta_0: 6.5334E-09 | 7: delta_s/delta_0: 6.9935E-09 | 8: delta_r/delta_0: 1.3193E-09 | 9: delta_s/delta_0: 8.7397E-10 | 10: delta_r/delta_0: 1.2187E-10 | 11: delta_s/delta_0: 1.3711E-10 | 12: delta_r/delta_0: 9.1315E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.716464632795225E-003 2.810561780278276E-005 | BP delta = -0.3218717 -0.3001522 57389579.7300197 | BP delta = -0.3257827 -0.3040632 57389580.0585323 | BP chisq diff = 0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81239912 | --> Sampling calibration, mode = relcal | relcal = 0.2955279 0.2249110 -0.2837695 -0.2366694 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3215380E-03 5.3706043E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3681E-03 | 2: delta_r/delta_0: 3.2736E-05 | 3: delta_s/delta_0: 3.3427E-05 | 4: delta_r/delta_0: 2.0876E-06 | 5: delta_s/delta_0: 5.0860E-07 | 6: delta_r/delta_0: 2.0045E-07 | 7: delta_s/delta_0: 4.6636E-07 | 8: delta_r/delta_0: 4.4467E-08 | 9: delta_s/delta_0: 2.7263E-06 | 10: delta_r/delta_0: 8.3463E-07 | 11: delta_s/delta_0: 2.6386E-09 | 12: delta_r/delta_0: 1.0826E-09 | 13: delta_s/delta_0: 1.6951E-08 | 14: delta_r/delta_0: 3.4140E-10 | 15: delta_s/delta_0: 8.4871E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.601177666076395E-002 4.020905180258091E-005 | BP delta = -0.2496842 -0.2742915 72483379.3368908 | BP delta = -0.2802540 -0.3048613 72483379.1746772 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95925266 | --> Sampling calibration, mode = relcal | relcal = 0.1066368 0.1395757 -0.1103820 -0.1358304 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0280631E-02 1.3709967E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.2700E-04 | 2: delta_r/delta_0: 2.0113E-05 | 3: delta_s/delta_0: 1.0502E-04 | 4: delta_r/delta_0: 5.0528E-06 | 5: delta_s/delta_0: 3.5315E-07 | 6: delta_r/delta_0: 1.5029E-07 | 7: delta_s/delta_0: 3.3881E-07 | 8: delta_r/delta_0: 4.0603E-08 | 9: delta_s/delta_0: 4.7544E-08 | 10: delta_r/delta_0: 4.5270E-09 | 11: delta_s/delta_0: 2.3253E-09 | 12: delta_r/delta_0: 1.0857E-09 | 13: delta_s/delta_0: 8.4611E-10 | 14: delta_r/delta_0: 8.1930E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.440221387713346E-002 3.696888683448600E-005 | BP delta = 5.7513226E-02 0.1667130 72790337.9505478 | BP delta = 4.6779186E-02 0.1559789 72790337.7241959 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52150223 | --> Sampling calibration, mode = relcal | relcal = -5.1024187E-02 -3.7288996E-03 2.7256826E-02 2.7496262E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0473314E-03 2.0268001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7179E-05 | 2: delta_r/delta_0: 4.5792E-06 | 3: delta_s/delta_0: 8.5978E-07 | 4: delta_r/delta_0: 1.1594E-07 | 5: delta_s/delta_0: 1.2792E-07 | 6: delta_r/delta_0: 6.3898E-08 | 7: delta_s/delta_0: 1.9246E-08 | 8: delta_r/delta_0: 8.1179E-09 | 9: delta_s/delta_0: 3.0570E-07 | 10: delta_r/delta_0: 2.7514E-09 | 11: delta_s/delta_0: 9.0000E-10 | 12: delta_r/delta_0: 2.6175E-10 | 13: delta_s/delta_0: 8.0800E-10 | 14: delta_r/delta_0: 6.4954E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.192804916356218E-002 5.484020964244163E-005 | BP delta = 0.1148658 0.2139232 91253218.1625217 | BP delta = 0.1006821 0.1997395 91253218.2790788 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42144711 | --> Sampling calibration, mode = relcal | relcal = 4.5609076E-02 3.9642699E-02 -2.8327161E-02 -5.6924615E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6680604E-03 4.3848879E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1925E-05 | 2: delta_r/delta_0: 3.8726E-06 | 3: delta_s/delta_0: 2.2375E-05 | 4: delta_r/delta_0: 2.8130E-06 | 5: delta_s/delta_0: 5.8683E-08 | 6: delta_r/delta_0: 3.8844E-08 | 7: delta_s/delta_0: 5.3257E-08 | 8: delta_r/delta_0: 1.2902E-08 | 9: delta_s/delta_0: 2.5501E-09 | 10: delta_r/delta_0: 6.7270E-10 | 11: delta_s/delta_0: 7.2527E-10 | 12: delta_r/delta_0: 4.9898E-10 | 13: delta_s/delta_0: 3.6427E-10 | 14: delta_r/delta_0: 2.7760E-10 | 15: delta_s/delta_0: 2.7841E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.524180264031126E-002 4.997350388156729E-005 | BP delta = 0.1237207 2.0846402E-02 90181709.8478974 | BP delta = 0.1112376 8.3633028E-03 90181709.9458909 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28154820 | --> Sampling calibration, mode = relcal | relcal = 2.4231391E-02 4.5094199E-02 -2.3386672E-02 -4.5938920E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5084487E-03 4.1896249E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0525E-04 | 2: delta_r/delta_0: 8.5311E-06 | 3: delta_s/delta_0: 1.3360E-06 | 4: delta_r/delta_0: 1.8111E-07 | 5: delta_s/delta_0: 6.2226E-08 | 6: delta_r/delta_0: 1.4937E-08 | 7: delta_s/delta_0: 7.0895E-09 | 8: delta_r/delta_0: 4.6737E-09 | 9: delta_s/delta_0: 1.0893E-07 | 10: delta_r/delta_0: 6.3291E-09 | 11: delta_s/delta_0: 1.4737E-09 | 12: delta_r/delta_0: 7.7940E-10 | 13: delta_s/delta_0: 1.8566E-09 | 14: delta_r/delta_0: 5.5354E-10 | 15: delta_s/delta_0: 9.4850E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.219651884202667E-003 7.845716935475542E-005 | BP delta = -0.1839035 -0.3403639 160910920.097581 | BP delta = -0.2239126 -0.3803730 160910919.493743 | BP chisq diff = -0.6, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29384298 | --> Sampling calibration, mode = relcal | relcal = 4.9910659E-04 1.0228363E-02 -3.7717444E-03 -6.9557251E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8078802E-02 1.6534310E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3070E-04 | 2: delta_r/delta_0: 1.1042E-05 | 3: delta_s/delta_0: 1.7843E-06 | 4: delta_r/delta_0: 2.9925E-07 | 5: delta_s/delta_0: 1.0334E-07 | 6: delta_r/delta_0: 2.4583E-08 | 7: delta_s/delta_0: 1.1608E-08 | 8: delta_r/delta_0: 7.9803E-09 | 9: delta_s/delta_0: 1.1340E-08 | 10: delta_r/delta_0: 5.8518E-09 | 11: delta_s/delta_0: 2.6958E-07 | 12: delta_r/delta_0: 7.4454E-08 | 13: delta_s/delta_0: 3.9166E-10 | 14: delta_r/delta_0: 2.1773E-10 | 15: delta_s/delta_0: 9.1691E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.053035762059709E-002 8.308747591652811E-005 | BP delta = -0.7785259 -0.7344285 157849227.325443 | BP delta = -0.7938536 -0.7497562 157849227.215776 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26498392 | --> Sampling calibration, mode = relcal | relcal = -5.5932449E-03 1.4952624E-02 -2.3546980E-03 -7.0046815E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1993301E-03 2.3931009E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3982E-04 | 2: delta_r/delta_0: 1.1826E-05 | 3: delta_s/delta_0: 2.0456E-06 | 4: delta_r/delta_0: 2.2908E-07 | 5: delta_s/delta_0: 9.6982E-08 | 6: delta_r/delta_0: 1.8097E-08 | 7: delta_s/delta_0: 7.2011E-09 | 8: delta_r/delta_0: 4.0136E-09 | 9: delta_s/delta_0: 4.0089E-09 | 10: delta_r/delta_0: 2.6708E-09 | 11: delta_s/delta_0: 3.7762E-07 | 12: delta_r/delta_0: 1.0680E-09 | 13: delta_s/delta_0: 4.2238E-09 | 14: delta_r/delta_0: 1.2083E-09 | 15: delta_s/delta_0: 5.0777E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.243949142961620E-003 9.156329648695701E-005 | BP delta = 0.3171071 0.3555717 157024636.266058 | BP delta = 0.3375673 0.3760320 157024636.339857 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25659261 | --> Sampling calibration, mode = relcal | relcal = -3.1598900E-02 -2.5993012E-02 3.6843009E-02 2.0748904E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7447607E-02 1.8057168E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4638E-04 | 2: delta_r/delta_0: 1.1748E-05 | 3: delta_s/delta_0: 1.7212E-06 | 4: delta_r/delta_0: 4.6387E-07 | 5: delta_s/delta_0: 1.1895E-07 | 6: delta_r/delta_0: 3.9650E-08 | 7: delta_s/delta_0: 2.1086E-08 | 8: delta_r/delta_0: 9.2880E-09 | 9: delta_s/delta_0: 1.7069E-06 | 10: delta_r/delta_0: 1.4380E-08 | 11: delta_s/delta_0: 7.0962E-09 | 12: delta_r/delta_0: 9.6960E-10 | 13: delta_s/delta_0: 3.4051E-10 | 14: delta_r/delta_0: 1.5573E-10 | 15: delta_s/delta_0: 7.1147E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.111492255071496E-002 8.673626702560892E-005 | BP delta = -0.8193269 -0.9623924 158522481.477892 | BP delta = -0.8221069 -0.9651724 158522481.466054 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137600 | New value = -3.067852 | poltype: 2 pol: 1 CPU time specind = 1.7939091E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194761 | New value = -3.094041 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160352 | New value = -3.175519 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.206160 | New value = -3.200953 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152784 | New value = -3.110703 | poltype: 2 pol: 2 CPU time specind = 4.3715954E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.70 | CG iter. 1 -- res = 0.13712E+08, tol = 0.71944E+01, time = 5.91 | CG iter. 2 -- res = 0.36985E+06, tol = 0.71944E+01, time = 5.72 | CG iter. 3 -- res = 0.12367E+06, tol = 0.71944E+01, time = 5.23 | CG iter. 4 -- res = 0.16042E+06, tol = 0.71944E+01, time = 6.24 | CG iter. 5 -- res = 0.16040E+06, tol = 0.71944E+01, time = 5.69 | CG iter. 6 -- res = 0.14642E+06, tol = 0.71944E+01, time = 5.39 | CG iter. 7 -- res = 0.10432E+06, tol = 0.71944E+01, time = 5.39 | CG iter. 8 -- res = 0.68575E+05, tol = 0.71944E+01, time = 5.68 | CG iter. 9 -- res = 0.54610E+05, tol = 0.71944E+01, time = 5.73 | CG iter. 10 -- res = 0.43059E+05, tol = 0.71944E+01, time = 11.80 | CG iter. 11 -- res = 0.31199E+05, tol = 0.71944E+01, time = 5.48 | CG iter. 12 -- res = 0.23061E+05, tol = 0.71944E+01, time = 5.40 | CG iter. 13 -- res = 0.17147E+05, tol = 0.71944E+01, time = 5.15 | CG iter. 14 -- res = 0.13761E+05, tol = 0.71944E+01, time = 5.47 | CG iter. 15 -- res = 0.10253E+05, tol = 0.71944E+01, time = 5.34 | CG iter. 16 -- res = 0.65677E+04, tol = 0.71944E+01, time = 5.46 | CG iter. 17 -- res = 0.44769E+04, tol = 0.71944E+01, time = 5.52 | CG iter. 18 -- res = 0.37943E+04, tol = 0.71944E+01, time = 5.67 | CG iter. 19 -- res = 0.30850E+04, tol = 0.71944E+01, time = 5.32 | CG iter. 20 -- res = 0.22518E+04, tol = 0.71944E+01, time = 5.16 | CG iter. 21 -- res = 0.15965E+04, tol = 0.71944E+01, time = 5.42 | CG iter. 22 -- res = 0.12955E+04, tol = 0.71944E+01, time = 5.62 | CG iter. 23 -- res = 0.10793E+04, tol = 0.71944E+01, time = 5.47 | CG iter. 24 -- res = 0.80846E+03, tol = 0.71944E+01, time = 5.35 | CG iter. 25 -- res = 0.58353E+03, tol = 0.71944E+01, time = 6.52 | CG iter. 26 -- res = 0.45544E+03, tol = 0.71944E+01, time = 6.57 | CG iter. 27 -- res = 0.39293E+03, tol = 0.71944E+01, time = 6.25 | CG iter. 28 -- res = 0.31102E+03, tol = 0.71944E+01, time = 5.69 | CG iter. 29 -- res = 0.22688E+03, tol = 0.71944E+01, time = 5.09 | CG iter. 30 -- res = 0.16584E+03, tol = 0.71944E+01, time = 5.49 | CG iter. 31 -- res = 0.14077E+03, tol = 0.71944E+01, time = 5.31 | CG iter. 32 -- res = 0.11440E+03, tol = 0.71944E+01, time = 5.61 | CG iter. 33 -- res = 0.83245E+02, tol = 0.71944E+01, time = 5.42 | CG iter. 34 -- res = 0.61617E+02, tol = 0.71944E+01, time = 5.70 | CG iter. 35 -- res = 0.48361E+02, tol = 0.71944E+01, time = 5.37 | CG iter. 36 -- res = 0.39515E+02, tol = 0.71944E+01, time = 5.66 | CG iter. 37 -- res = 0.31000E+02, tol = 0.71944E+01, time = 5.78 | CG iter. 38 -- res = 0.22365E+02, tol = 0.71944E+01, time = 5.73 | CG iter. 39 -- res = 0.16705E+02, tol = 0.71944E+01, time = 5.32 | CG iter. 40 -- res = 0.13432E+02, tol = 0.71944E+01, time = 5.36 | CG iter. 41 -- res = 0.10267E+02, tol = 0.71944E+01, time = 5.65 | CG iter. 42 -- res = 0.74887E+01, tol = 0.71944E+01, time = 5.57 | CG iter. 43 -- res = 0.55743E+01, tol = 0.71944E+01, time = 5.47 | CG iter. 44 -- res = 0.43481E+01, tol = 0.71944E+01, time = 5.57 | CG iter. 45 -- res = 0.33832E+01, tol = 0.71944E+01, time = 5.64 | CG iter. 46 -- res = 0.24970E+01, tol = 0.71944E+01, time = 5.42 | CG iter. 47 -- res = 0.17835E+01, tol = 0.71944E+01, time = 5.42 | CG iter. 48 -- res = 0.13301E+01, tol = 0.71944E+01, time = 5.51 | CG iter. 49 -- res = 0.98746E+00, tol = 0.71944E+01, time = 5.50 | CG iter. 50 -- res = 0.71837E+00, tol = 0.71944E+01, time = 5.76 | Final CG iter 51 -- res = 0.71837E+00, tol = 0.71944E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9406972.617 | Old band monopole 10124449.364 | Change to band monopole -717476.747 | Change to component monopole 717473.661 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.48652E+06, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.27474E+03, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.45542E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.48518E-01, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.21300E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9406932.155 | (Sampled value in CG: 9507528.307 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498153 | New value = 1.451917 | poltype: 2 pol: 1 CPU time specind = 3.0030966E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.465957 | New value = 1.487914 | poltype: 2 pol: 2 CPU time specind = 2.1281958E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.24425E+08, tol = 0.47454E+04, time = 6.16 | CG iter. 2 -- res = 0.52843E+07, tol = 0.47454E+04, time = 6.47 | CG iter. 3 -- res = 0.82349E+06, tol = 0.47454E+04, time = 6.45 | CG iter. 4 -- res = 0.34386E+06, tol = 0.47454E+04, time = 6.60 | CG iter. 5 -- res = 0.14821E+06, tol = 0.47454E+04, time = 6.61 | CG iter. 6 -- res = 0.78205E+05, tol = 0.47454E+04, time = 6.94 | CG iter. 7 -- res = 0.42791E+05, tol = 0.47454E+04, time = 7.47 | CG iter. 8 -- res = 0.20526E+05, tol = 0.47454E+04, time = 7.10 | CG iter. 9 -- res = 0.90534E+04, tol = 0.47454E+04, time = 6.61 | CG iter. 10 -- res = 0.36343E+04, tol = 0.47454E+04, time = 6.66 | CG iter. 11 -- res = 0.16342E+04, tol = 0.47454E+04, time = 6.33 | CG iter. 12 -- res = 0.84965E+03, tol = 0.47454E+04, time = 6.58 | CG iter. 13 -- res = 0.48394E+03, tol = 0.47454E+04, time = 6.63 | CG iter. 14 -- res = 0.27680E+03, tol = 0.47454E+04, time = 6.54 | CG iter. 15 -- res = 0.14228E+03, tol = 0.47454E+04, time = 6.67 | CG iter. 16 -- res = 0.67488E+02, tol = 0.47454E+04, time = 6.68 | CG iter. 17 -- res = 0.30983E+02, tol = 0.47454E+04, time = 6.55 | CG iter. 18 -- res = 0.15896E+02, tol = 0.47454E+04, time = 6.41 | CG iter. 19 -- res = 0.88006E+01, tol = 0.47454E+04, time = 6.22 | CG iter. 20 -- res = 0.49342E+01, tol = 0.47454E+04, time = 6.36 | CG iter. 21 -- res = 0.26660E+01, tol = 0.47454E+04, time = 6.39 | CG iter. 22 -- res = 0.14042E+01, tol = 0.47454E+04, time = 6.52 | CG iter. 23 -- res = 0.72164E+00, tol = 0.47454E+04, time = 7.30 | CG iter. 24 -- res = 0.37169E+00, tol = 0.47454E+04, time = 6.09 | CG iter. 25 -- res = 0.20290E+00, tol = 0.47454E+04, time = 6.32 | CG iter. 26 -- res = 0.11707E+00, tol = 0.47454E+04, time = 6.37 | CG iter. 27 -- res = 0.66531E-01, tol = 0.47454E+04, time = 6.48 | CG iter. 28 -- res = 0.35429E-01, tol = 0.47454E+04, time = 6.17 | CG iter. 29 -- res = 0.18108E-01, tol = 0.47454E+04, time = 6.41 | CG iter. 30 -- res = 0.96798E-02, tol = 0.47454E+04, time = 6.80 | CG iter. 31 -- res = 0.53249E-02, tol = 0.47454E+04, time = 6.42 | CG iter. 32 -- res = 0.30212E-02, tol = 0.47454E+04, time = 6.34 | CG iter. 33 -- res = 0.17125E-02, tol = 0.47454E+04, time = 6.57 | CG iter. 34 -- res = 0.93046E-03, tol = 0.47454E+04, time = 6.16 | CG iter. 35 -- res = 0.47968E-03, tol = 0.47454E+04, time = 6.40 | Final CG iter 36 -- res = 0.47968E-03, tol = 0.47454E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.786 2.730 | New value -1.375 | Old value -1.786 | Difference 0.411 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.24900E+05, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.60233E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.12487E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.11688E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.31672E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9406932.155 | (Sampled value in CG: 9506715.397 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.481058 | New value = -3.690838 | poltype: 1 pol: 1 CPU time specind = 1.1760950E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.29900E+07, tol = 0.27346E+01, time = 2.74 | CG iter. 2 -- res = 0.11419E+07, tol = 0.27346E+01, time = 2.85 | CG iter. 3 -- res = 0.25562E+06, tol = 0.27346E+01, time = 2.42 | CG iter. 4 -- res = 0.11569E+06, tol = 0.27346E+01, time = 2.53 | CG iter. 5 -- res = 0.71062E+05, tol = 0.27346E+01, time = 2.88 | CG iter. 6 -- res = 0.33321E+05, tol = 0.27346E+01, time = 2.67 | CG iter. 7 -- res = 0.10691E+05, tol = 0.27346E+01, time = 2.44 | CG iter. 8 -- res = 0.42812E+04, tol = 0.27346E+01, time = 2.70 | CG iter. 9 -- res = 0.20033E+04, tol = 0.27346E+01, time = 2.55 | CG iter. 10 -- res = 0.84268E+03, tol = 0.27346E+01, time = 2.45 | CG iter. 11 -- res = 0.35980E+03, tol = 0.27346E+01, time = 2.77 | CG iter. 12 -- res = 0.18803E+03, tol = 0.27346E+01, time = 7.61 | CG iter. 13 -- res = 0.93770E+02, tol = 0.27346E+01, time = 4.54 | CG iter. 14 -- res = 0.43117E+02, tol = 0.27346E+01, time = 2.46 | CG iter. 15 -- res = 0.17939E+02, tol = 0.27346E+01, time = 2.72 | CG iter. 16 -- res = 0.74316E+01, tol = 0.27346E+01, time = 2.79 | CG iter. 17 -- res = 0.32723E+01, tol = 0.27346E+01, time = 2.38 | CG iter. 18 -- res = 0.15915E+01, tol = 0.27346E+01, time = 2.49 | CG iter. 19 -- res = 0.77574E+00, tol = 0.27346E+01, time = 2.74 | CG iter. 20 -- res = 0.38769E+00, tol = 0.27346E+01, time = 2.76 | CG iter. 21 -- res = 0.17410E+00, tol = 0.27346E+01, time = 2.32 | CG iter. 22 -- res = 0.76190E-01, tol = 0.27346E+01, time = 2.73 | CG iter. 23 -- res = 0.34488E-01, tol = 0.27346E+01, time = 2.54 | CG iter. 24 -- res = 0.16716E-01, tol = 0.27346E+01, time = 2.59 | CG iter. 25 -- res = 0.87082E-02, tol = 0.27346E+01, time = 2.65 | CG iter. 26 -- res = 0.43159E-02, tol = 0.27346E+01, time = 2.47 | CG iter. 27 -- res = 0.19978E-02, tol = 0.27346E+01, time = 2.54 | CG iter. 28 -- res = 0.90104E-03, tol = 0.27346E+01, time = 2.84 | CG iter. 29 -- res = 0.38958E-03, tol = 0.27346E+01, time = 2.72 | CG iter. 30 -- res = 0.19115E-03, tol = 0.27346E+01, time = 2.79 | CG iter. 31 -- res = 0.94173E-04, tol = 0.27346E+01, time = 2.60 | CG iter. 32 -- res = 0.45742E-04, tol = 0.27346E+01, time = 2.73 | CG iter. 33 -- res = 0.21537E-04, tol = 0.27346E+01, time = 2.77 | CG iter. 34 -- res = 0.96346E-05, tol = 0.27346E+01, time = 2.56 | CG iter. 35 -- res = 0.47186E-05, tol = 0.27346E+01, time = 2.97 | CG iter. 36 -- res = 0.22349E-05, tol = 0.27346E+01, time = 2.69 | CG iter. 37 -- res = 0.10939E-05, tol = 0.27346E+01, time = 2.67 | CG iter. 38 -- res = 0.55269E-06, tol = 0.27346E+01, time = 2.32 | CG iter. 39 -- res = 0.26371E-06, tol = 0.27346E+01, time = 2.63 | CG iter. 40 -- res = 0.12279E-06, tol = 0.27346E+01, time = 2.73 | CG iter. 41 -- res = 0.56650E-07, tol = 0.27346E+01, time = 2.59 | CG iter. 42 -- res = 0.27305E-07, tol = 0.27346E+01, time = 2.73 | CG iter. 43 -- res = 0.13016E-07, tol = 0.27346E+01, time = 2.66 | CG iter. 44 -- res = 0.65680E-08, tol = 0.27346E+01, time = 4.02 | CG iter. 45 -- res = 0.31177E-08, tol = 0.27346E+01, time = 3.14 | CG iter. 46 -- res = 0.14863E-08, tol = 0.27346E+01, time = 2.99 | CG iter. 47 -- res = 0.68244E-09, tol = 0.27346E+01, time = 3.03 | CG iter. 48 -- res = 0.31722E-09, tol = 0.27346E+01, time = 2.58 | CG iter. 49 -- res = 0.15159E-09, tol = 0.27346E+01, time = 2.58 | CG iter. 50 -- res = 0.75129E-10, tol = 0.27346E+01, time = 2.68 | Final CG iter 51 -- res = 0.75129E-10, tol = 0.27346E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.393 3.977 | New value 7.272 | Old value -1.393 | Difference 8.665 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.74407E+05, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.98699E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.22598E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.12312E-01, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.45807E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9406932.155 | (Sampled value in CG: 9485774.710 ) | CPU time specind = 1170.667 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.70142E+08, tol = 0.57731E+04, time = 12.29 | CG iter. 2 -- res = 0.60053E+08, tol = 0.57731E+04, time = 11.62 | CG iter. 3 -- res = 0.16073E+08, tol = 0.57731E+04, time = 11.53 | CG iter. 4 -- res = 0.69732E+07, tol = 0.57731E+04, time = 11.67 | CG iter. 5 -- res = 0.43322E+07, tol = 0.57731E+04, time = 10.94 | CG iter. 6 -- res = 0.25605E+07, tol = 0.57731E+04, time = 11.31 | CG iter. 7 -- res = 0.14842E+07, tol = 0.57731E+04, time = 11.39 | CG iter. 8 -- res = 0.97826E+06, tol = 0.57731E+04, time = 11.77 | CG iter. 9 -- res = 0.65942E+06, tol = 0.57731E+04, time = 11.69 | CG iter. 10 -- res = 0.41623E+06, tol = 0.57731E+04, time = 17.75 | CG iter. 11 -- res = 0.24155E+06, tol = 0.57731E+04, time = 11.26 | CG iter. 12 -- res = 0.14012E+06, tol = 0.57731E+04, time = 11.58 | CG iter. 13 -- res = 0.86805E+05, tol = 0.57731E+04, time = 11.36 | CG iter. 14 -- res = 0.63638E+05, tol = 0.57731E+04, time = 11.28 | CG iter. 15 -- res = 0.55210E+05, tol = 0.57731E+04, time = 11.04 | CG iter. 16 -- res = 0.52149E+05, tol = 0.57731E+04, time = 11.47 | CG iter. 17 -- res = 0.51626E+05, tol = 0.57731E+04, time = 13.48 | CG iter. 18 -- res = 0.49092E+05, tol = 0.57731E+04, time = 11.98 | CG iter. 19 -- res = 0.43677E+05, tol = 0.57731E+04, time = 11.25 | CG iter. 20 -- res = 0.39522E+05, tol = 0.57731E+04, time = 11.81 | CG iter. 21 -- res = 0.36130E+05, tol = 0.57731E+04, time = 11.34 | CG iter. 22 -- res = 0.34425E+05, tol = 0.57731E+04, time = 11.38 | CG iter. 23 -- res = 0.33341E+05, tol = 0.57731E+04, time = 11.60 | CG iter. 24 -- res = 0.29978E+05, tol = 0.57731E+04, time = 11.45 | CG iter. 25 -- res = 0.24505E+05, tol = 0.57731E+04, time = 11.38 | CG iter. 26 -- res = 0.18582E+05, tol = 0.57731E+04, time = 11.48 | CG iter. 27 -- res = 0.13751E+05, tol = 0.57731E+04, time = 11.45 | CG iter. 28 -- res = 0.10487E+05, tol = 0.57731E+04, time = 11.77 | CG iter. 29 -- res = 0.91695E+04, tol = 0.57731E+04, time = 11.50 | CG iter. 30 -- res = 0.84130E+04, tol = 0.57731E+04, time = 11.53 | CG iter. 31 -- res = 0.79228E+04, tol = 0.57731E+04, time = 11.52 | CG iter. 32 -- res = 0.74402E+04, tol = 0.57731E+04, time = 11.44 | CG iter. 33 -- res = 0.65124E+04, tol = 0.57731E+04, time = 11.26 | CG iter. 34 -- res = 0.55026E+04, tol = 0.57731E+04, time = 11.66 | CG iter. 35 -- res = 0.47055E+04, tol = 0.57731E+04, time = 18.71 | CG iter. 36 -- res = 0.42356E+04, tol = 0.57731E+04, time = 12.98 | CG iter. 37 -- res = 0.39585E+04, tol = 0.57731E+04, time = 11.18 | CG iter. 38 -- res = 0.37070E+04, tol = 0.57731E+04, time = 11.10 | CG iter. 39 -- res = 0.32789E+04, tol = 0.57731E+04, time = 11.64 | CG iter. 40 -- res = 0.27033E+04, tol = 0.57731E+04, time = 10.97 | CG iter. 41 -- res = 0.21824E+04, tol = 0.57731E+04, time = 11.20 | CG iter. 42 -- res = 0.17932E+04, tol = 0.57731E+04, time = 12.67 | CG iter. 43 -- res = 0.15770E+04, tol = 0.57731E+04, time = 11.86 | CG iter. 44 -- res = 0.14754E+04, tol = 0.57731E+04, time = 11.37 | CG iter. 45 -- res = 0.14197E+04, tol = 0.57731E+04, time = 11.64 | CG iter. 46 -- res = 0.14001E+04, tol = 0.57731E+04, time = 11.21 | CG iter. 47 -- res = 0.12958E+04, tol = 0.57731E+04, time = 11.58 | CG iter. 48 -- res = 0.11298E+04, tol = 0.57731E+04, time = 11.38 | CG iter. 49 -- res = 0.96717E+03, tol = 0.57731E+04, time = 11.56 | CG iter. 50 -- res = 0.85805E+03, tol = 0.57731E+04, time = 11.64 | CG iter. 51 -- res = 0.80630E+03, tol = 0.57731E+04, time = 11.11 | CG iter. 52 -- res = 0.75730E+03, tol = 0.57731E+04, time = 11.93 | CG iter. 53 -- res = 0.69654E+03, tol = 0.57731E+04, time = 11.38 | CG iter. 54 -- res = 0.60994E+03, tol = 0.57731E+04, time = 11.17 | CG iter. 55 -- res = 0.53031E+03, tol = 0.57731E+04, time = 11.90 | CG iter. 56 -- res = 0.45678E+03, tol = 0.57731E+04, time = 11.68 | CG iter. 57 -- res = 0.40608E+03, tol = 0.57731E+04, time = 11.27 | CG iter. 58 -- res = 0.38132E+03, tol = 0.57731E+04, time = 11.26 | CG iter. 59 -- res = 0.36694E+03, tol = 0.57731E+04, time = 11.24 | CG iter. 60 -- res = 0.35141E+03, tol = 0.57731E+04, time = 15.87 | Final CG iter 61 -- res = 0.35141E+03, tol = 0.57731E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.656 ( -229.704 -2232.316 2514.958 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9854714.316 | Old band monopole 9406972.617 | Change to band monopole 447741.699 | Change to component monopole -447739.773 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.398 2.752 | New value 0.232 | Old value -1.398 | Difference 1.630 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.429 ( 6.172 12.759 -13.533 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.101 3.736 | New value -2.159 | Old value 12.101 | Difference -14.260 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.26473E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.64208E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.27816E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.51573E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.58678E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9854671.928 | (Sampled value in CG: 9829999.484 ) | Chain = 1 -- chisq = 0.81551403E+09 | Chain = 1 -- wall time = 16287.696 sec Available RAM: MemAvailable: 482657152 kB Available Swap: SwapFree: 1058470592 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 282 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443879 | --> Sampling calibration, mode = relcal | relcal = 1.3430326E-02 7.4408553E-04 -1.5898685E-03 -1.2584543E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1118103 0.1236151 9407144.02398382 | BP delta = 0.1118103 0.1329585 9407161.42036349 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632460 | --> Sampling calibration, mode = relcal | relcal = -2.8210836E-03 -7.0322404E-04 1.6789974E-03 1.6122089E-03 -4.0802476E-04 6.4112624E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5383155 15222859.7734767 | BP delta = 0.0000000E+00 -0.5340822 15222865.3493365 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18113422701020 | --> Sampling calibration, mode = relcal | relcal = -7.5331517E-02 -5.8771119E-02 9.2267439E-02 4.1835200E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8990069E-04 4.5445105E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1774E-05 | 2: delta_r/delta_0: 9.6382E-07 | 3: delta_s/delta_0: 1.9442E-07 | 4: delta_r/delta_0: 2.0454E-08 | 5: delta_s/delta_0: 9.6230E-09 | 6: delta_r/delta_0: 1.2775E-09 | 7: delta_s/delta_0: 2.7574E-10 | 8: delta_r/delta_0: 1.1371E-10 | 9: delta_s/delta_0: 4.2102E-10 | 10: delta_r/delta_0: 1.1813E-10 | 11: delta_s/delta_0: 3.5728E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.411082749083952E-003 2.740706767916272E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1774E-05 | 2: delta_r/delta_0: 9.6381E-07 | 3: delta_s/delta_0: 1.9443E-07 | 4: delta_r/delta_0: 2.0455E-08 | 5: delta_s/delta_0: 9.6251E-09 | 6: delta_r/delta_0: 1.2776E-09 | 7: delta_s/delta_0: 2.7574E-10 | 8: delta_r/delta_0: 1.1372E-10 | 9: delta_s/delta_0: 4.2102E-10 | 10: delta_r/delta_0: 1.1814E-10 | 11: delta_s/delta_0: 3.5752E-11 | Reached bicg-stab tolerance | BP delta = 7.0296444E-02 9.0101652E-02 3552828.98167116 | BP delta = 7.0296444E-02 9.0170912E-02 3551566.27098120 | BP chisq diff = -1262.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02619461 | --> Sampling calibration, mode = relcal | relcal = -0.1067072 -9.5499091E-02 0.1448681 5.7338204E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0804300E-03 1.2328511E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3954E-05 | 2: delta_r/delta_0: 1.1461E-06 | 3: delta_s/delta_0: 2.3159E-07 | 4: delta_r/delta_0: 5.2582E-08 | 5: delta_s/delta_0: 1.5380E-08 | 6: delta_r/delta_0: 6.7719E-09 | 7: delta_s/delta_0: 4.8308E-08 | 8: delta_r/delta_0: 1.2250E-08 | 9: delta_s/delta_0: 9.1661E-10 | 10: delta_r/delta_0: 6.5415E-10 | 11: delta_s/delta_0: 2.6416E-09 | 12: delta_r/delta_0: 8.8499E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.612567137132681E-003 2.810295930774543E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3954E-05 | 2: delta_r/delta_0: 1.1461E-06 | 3: delta_s/delta_0: 2.3162E-07 | 4: delta_r/delta_0: 5.2611E-08 | 5: delta_s/delta_0: 1.5376E-08 | 6: delta_r/delta_0: 6.7738E-09 | 7: delta_s/delta_0: 4.8383E-08 | 8: delta_r/delta_0: 1.2253E-08 | 9: delta_s/delta_0: 9.1659E-10 | 10: delta_r/delta_0: 6.5416E-10 | 11: delta_s/delta_0: 2.6427E-09 | 12: delta_r/delta_0: 8.8481E-11 | Reached bicg-stab tolerance | BP delta = -0.3257827 -0.3040632 2841744.51201342 | BP delta = -0.3257827 -0.3013759 2841732.31447522 | BP chisq diff = -12.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81238460 | --> Sampling calibration, mode = relcal | relcal = 0.2954845 0.2248850 -0.2837662 -0.2366032 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.3957554E-04 5.6327824E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.4673E-04 | 2: delta_r/delta_0: 2.2780E-05 | 3: delta_s/delta_0: 3.5472E-04 | 4: delta_r/delta_0: 1.5910E-05 | 5: delta_s/delta_0: 3.7405E-07 | 6: delta_r/delta_0: 1.6953E-07 | 7: delta_s/delta_0: 9.1465E-07 | 8: delta_r/delta_0: 3.8964E-08 | 9: delta_s/delta_0: 7.4974E-07 | 10: delta_r/delta_0: 3.9143E-07 | 11: delta_s/delta_0: 2.1667E-09 | 12: delta_r/delta_0: 9.2886E-10 | 13: delta_s/delta_0: 1.9851E-09 | 14: delta_r/delta_0: 7.9718E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.396421032472494E-002 4.020865789367505E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.4622E-04 | 2: delta_r/delta_0: 2.2768E-05 | 3: delta_s/delta_0: 3.5439E-04 | 4: delta_r/delta_0: 1.5898E-05 | 5: delta_s/delta_0: 3.7398E-07 | 6: delta_r/delta_0: 1.6956E-07 | 7: delta_s/delta_0: 9.1558E-07 | 8: delta_r/delta_0: 3.8960E-08 | 9: delta_s/delta_0: 7.4172E-07 | 10: delta_r/delta_0: 3.8781E-07 | 11: delta_s/delta_0: 2.1668E-09 | 12: delta_r/delta_0: 9.2914E-10 | 13: delta_s/delta_0: 1.9912E-09 | 14: delta_r/delta_0: 7.9732E-11 | Reached bicg-stab tolerance | BP delta = -0.2802540 -0.3048613 2827288.64504972 | BP delta = -0.2802540 -0.3094888 2827376.98725640 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95924833 | --> Sampling calibration, mode = relcal | relcal = 0.1064500 0.1395310 -0.1101952 -0.1357857 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0680760E-02 1.2604766E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5153E-04 | 2: delta_r/delta_0: 2.0657E-05 | 3: delta_s/delta_0: 4.1140E-02 | 4: delta_r/delta_0: 1.5492E-03 | 5: delta_s/delta_0: 3.4617E-07 | 6: delta_r/delta_0: 1.4007E-07 | 7: delta_s/delta_0: 2.3444E-07 | 8: delta_r/delta_0: 3.9979E-08 | 9: delta_s/delta_0: 2.5974E-08 | 10: delta_r/delta_0: 2.1419E-09 | 11: delta_s/delta_0: 2.3798E-09 | 12: delta_r/delta_0: 1.2217E-09 | 13: delta_s/delta_0: 2.9411E-10 | 14: delta_r/delta_0: 7.6581E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.408390797198503E-002 3.696801462172601E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.5154E-04 | 2: delta_r/delta_0: 2.0657E-05 | 3: delta_s/delta_0: 4.1153E-02 | 4: delta_r/delta_0: 1.5497E-03 | 5: delta_s/delta_0: 3.4617E-07 | 6: delta_r/delta_0: 1.4007E-07 | 7: delta_s/delta_0: 2.3438E-07 | 8: delta_r/delta_0: 3.9979E-08 | 9: delta_s/delta_0: 2.5975E-08 | 10: delta_r/delta_0: 2.1419E-09 | 11: delta_s/delta_0: 2.3798E-09 | 12: delta_r/delta_0: 1.2217E-09 | 13: delta_s/delta_0: 2.9410E-10 | 14: delta_r/delta_0: 7.6581E-11 | Reached bicg-stab tolerance | BP delta = 4.6779186E-02 0.1559789 3004293.91786664 | BP delta = 4.6779186E-02 0.1493742 3004291.22843086 | BP chisq diff = -2.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.067852 | New value = -3.117284 | poltype: 2 pol: 1 CPU time specind = 2.2174835E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094041 | New value = -3.226481 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175519 | New value = -3.135071 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200953 | New value = -3.138985 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.110703 | New value = -3.193000 | poltype: 2 pol: 2 CPU time specind = 1.2742996E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.13572E+08, tol = 0.73515E+01, time = 5.71 | CG iter. 2 -- res = 0.35661E+06, tol = 0.73515E+01, time = 6.31 | CG iter. 3 -- res = 0.68982E+05, tol = 0.73515E+01, time = 5.91 | CG iter. 4 -- res = 0.53829E+05, tol = 0.73515E+01, time = 5.90 | CG iter. 5 -- res = 0.49585E+05, tol = 0.73515E+01, time = 5.94 | CG iter. 6 -- res = 0.46942E+05, tol = 0.73515E+01, time = 6.02 | CG iter. 7 -- res = 0.44672E+05, tol = 0.73515E+01, time = 5.79 | CG iter. 8 -- res = 0.34192E+05, tol = 0.73515E+01, time = 6.11 | CG iter. 9 -- res = 0.26193E+05, tol = 0.73515E+01, time = 5.95 | CG iter. 10 -- res = 0.20903E+05, tol = 0.73515E+01, time = 5.64 | CG iter. 11 -- res = 0.14489E+05, tol = 0.73515E+01, time = 6.18 | CG iter. 12 -- res = 0.10207E+05, tol = 0.73515E+01, time = 6.17 | CG iter. 13 -- res = 0.79722E+04, tol = 0.73515E+01, time = 5.98 | CG iter. 14 -- res = 0.66223E+04, tol = 0.73515E+01, time = 7.54 | CG iter. 15 -- res = 0.55392E+04, tol = 0.73515E+01, time = 6.01 | CG iter. 16 -- res = 0.39623E+04, tol = 0.73515E+01, time = 6.34 | CG iter. 17 -- res = 0.26888E+04, tol = 0.73515E+01, time = 5.78 | CG iter. 18 -- res = 0.20249E+04, tol = 0.73515E+01, time = 5.78 | CG iter. 19 -- res = 0.17694E+04, tol = 0.73515E+01, time = 6.03 | CG iter. 20 -- res = 0.14080E+04, tol = 0.73515E+01, time = 6.22 | CG iter. 21 -- res = 0.10287E+04, tol = 0.73515E+01, time = 5.80 | CG iter. 22 -- res = 0.77406E+03, tol = 0.73515E+01, time = 5.53 | CG iter. 23 -- res = 0.64177E+03, tol = 0.73515E+01, time = 6.02 | CG iter. 24 -- res = 0.51546E+03, tol = 0.73515E+01, time = 5.63 | CG iter. 25 -- res = 0.37890E+03, tol = 0.73515E+01, time = 5.94 | CG iter. 26 -- res = 0.27575E+03, tol = 0.73515E+01, time = 5.92 | CG iter. 27 -- res = 0.22946E+03, tol = 0.73515E+01, time = 5.73 | CG iter. 28 -- res = 0.19987E+03, tol = 0.73515E+01, time = 6.13 | CG iter. 29 -- res = 0.15558E+03, tol = 0.73515E+01, time = 5.60 | CG iter. 30 -- res = 0.11730E+03, tol = 0.73515E+01, time = 5.79 | CG iter. 31 -- res = 0.94066E+02, tol = 0.73515E+01, time = 6.21 | CG iter. 32 -- res = 0.81009E+02, tol = 0.73515E+01, time = 5.74 | CG iter. 33 -- res = 0.67319E+02, tol = 0.73515E+01, time = 5.71 | CG iter. 34 -- res = 0.48403E+02, tol = 0.73515E+01, time = 6.10 | CG iter. 35 -- res = 0.39499E+02, tol = 0.73515E+01, time = 5.53 | CG iter. 36 -- res = 0.34504E+02, tol = 0.73515E+01, time = 6.05 | CG iter. 37 -- res = 0.29043E+02, tol = 0.73515E+01, time = 6.14 | CG iter. 38 -- res = 0.22588E+02, tol = 0.73515E+01, time = 5.66 | CG iter. 39 -- res = 0.17576E+02, tol = 0.73515E+01, time = 5.72 | CG iter. 40 -- res = 0.14908E+02, tol = 0.73515E+01, time = 5.91 | CG iter. 41 -- res = 0.12598E+02, tol = 0.73515E+01, time = 5.64 | CG iter. 42 -- res = 0.10053E+02, tol = 0.73515E+01, time = 5.72 | CG iter. 43 -- res = 0.77073E+01, tol = 0.73515E+01, time = 5.74 | CG iter. 44 -- res = 0.62867E+01, tol = 0.73515E+01, time = 5.97 | CG iter. 45 -- res = 0.50415E+01, tol = 0.73515E+01, time = 6.03 | CG iter. 46 -- res = 0.41808E+01, tol = 0.73515E+01, time = 5.85 | CG iter. 47 -- res = 0.32724E+01, tol = 0.73515E+01, time = 5.75 | CG iter. 48 -- res = 0.26038E+01, tol = 0.73515E+01, time = 6.25 | CG iter. 49 -- res = 0.20943E+01, tol = 0.73515E+01, time = 12.56 | CG iter. 50 -- res = 0.17244E+01, tol = 0.73515E+01, time = 5.79 | Final CG iter 51 -- res = 0.17244E+01, tol = 0.73515E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8376104.514 | Old band monopole 9854714.316 | Change to band monopole -1478609.802 | Change to component monopole 1478603.442 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.59323E+05, tol = 0.47627E+18, time = 2.32 | CG iter. 2 -- res = 0.72807E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.23512E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.91986E-02, tol = 0.47627E+18, time = 2.41 | Final CG iter 5 -- res = 0.18292E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8376068.486 | (Sampled value in CG: 8311051.647 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.451917 | New value = 1.487371 | poltype: 2 pol: 1 CPU time specind = 2.2392035E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487914 | New value = 1.547776 | poltype: 2 pol: 2 CPU time specind = 2.4691820E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.24279E+08, tol = 0.47562E+04, time = 6.69 | CG iter. 2 -- res = 0.53817E+07, tol = 0.47562E+04, time = 6.32 | CG iter. 3 -- res = 0.84029E+06, tol = 0.47562E+04, time = 6.60 | CG iter. 4 -- res = 0.34387E+06, tol = 0.47562E+04, time = 6.44 | CG iter. 5 -- res = 0.14670E+06, tol = 0.47562E+04, time = 7.03 | CG iter. 6 -- res = 0.80146E+05, tol = 0.47562E+04, time = 6.24 | CG iter. 7 -- res = 0.44114E+05, tol = 0.47562E+04, time = 6.76 | CG iter. 8 -- res = 0.20794E+05, tol = 0.47562E+04, time = 6.56 | CG iter. 9 -- res = 0.89678E+04, tol = 0.47562E+04, time = 6.91 | CG iter. 10 -- res = 0.36838E+04, tol = 0.47562E+04, time = 6.75 | CG iter. 11 -- res = 0.16707E+04, tol = 0.47562E+04, time = 7.16 | CG iter. 12 -- res = 0.85457E+03, tol = 0.47562E+04, time = 6.82 | CG iter. 13 -- res = 0.48642E+03, tol = 0.47562E+04, time = 6.83 | CG iter. 14 -- res = 0.27563E+03, tol = 0.47562E+04, time = 6.60 | CG iter. 15 -- res = 0.14309E+03, tol = 0.47562E+04, time = 6.66 | CG iter. 16 -- res = 0.67457E+02, tol = 0.47562E+04, time = 6.65 | CG iter. 17 -- res = 0.31636E+02, tol = 0.47562E+04, time = 6.69 | CG iter. 18 -- res = 0.15882E+02, tol = 0.47562E+04, time = 6.61 | CG iter. 19 -- res = 0.88443E+01, tol = 0.47562E+04, time = 6.91 | CG iter. 20 -- res = 0.50010E+01, tol = 0.47562E+04, time = 6.79 | CG iter. 21 -- res = 0.27360E+01, tol = 0.47562E+04, time = 6.84 | CG iter. 22 -- res = 0.14036E+01, tol = 0.47562E+04, time = 6.66 | CG iter. 23 -- res = 0.68876E+00, tol = 0.47562E+04, time = 6.72 | CG iter. 24 -- res = 0.34589E+00, tol = 0.47562E+04, time = 6.69 | CG iter. 25 -- res = 0.19145E+00, tol = 0.47562E+04, time = 7.04 | CG iter. 26 -- res = 0.10905E+00, tol = 0.47562E+04, time = 12.53 | CG iter. 27 -- res = 0.61736E-01, tol = 0.47562E+04, time = 7.01 | CG iter. 28 -- res = 0.33735E-01, tol = 0.47562E+04, time = 6.80 | CG iter. 29 -- res = 0.17611E-01, tol = 0.47562E+04, time = 6.47 | CG iter. 30 -- res = 0.91821E-02, tol = 0.47562E+04, time = 6.56 | CG iter. 31 -- res = 0.49916E-02, tol = 0.47562E+04, time = 6.81 | CG iter. 32 -- res = 0.28211E-02, tol = 0.47562E+04, time = 6.54 | CG iter. 33 -- res = 0.16018E-02, tol = 0.47562E+04, time = 6.66 | CG iter. 34 -- res = 0.87609E-03, tol = 0.47562E+04, time = 6.61 | CG iter. 35 -- res = 0.45321E-03, tol = 0.47562E+04, time = 6.50 | Final CG iter 36 -- res = 0.45321E-03, tol = 0.47562E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.253 2.740 | New value -0.317 | Old value 0.253 | Difference -0.570 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.24983E+05, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.47137E+02, tol = 0.47627E+18, time = 2.42 | CG iter. 3 -- res = 0.12834E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.87663E-03, tol = 0.47627E+18, time = 2.44 | Final CG iter 5 -- res = 0.13983E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8376068.486 | (Sampled value in CG: 8311432.553 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.690838 | New value = -3.523311 | poltype: 1 pol: 1 CPU time specind = 1.1068821E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.26568E+07, tol = 0.23033E+01, time = 2.89 | CG iter. 2 -- res = 0.12281E+07, tol = 0.23033E+01, time = 2.96 | CG iter. 3 -- res = 0.24988E+06, tol = 0.23033E+01, time = 2.91 | CG iter. 4 -- res = 0.96867E+05, tol = 0.23033E+01, time = 4.27 | CG iter. 5 -- res = 0.57057E+05, tol = 0.23033E+01, time = 3.12 | CG iter. 6 -- res = 0.30182E+05, tol = 0.23033E+01, time = 3.27 | CG iter. 7 -- res = 0.11466E+05, tol = 0.23033E+01, time = 3.49 | CG iter. 8 -- res = 0.50458E+04, tol = 0.23033E+01, time = 2.80 | CG iter. 9 -- res = 0.22690E+04, tol = 0.23033E+01, time = 2.73 | CG iter. 10 -- res = 0.90929E+03, tol = 0.23033E+01, time = 2.86 | CG iter. 11 -- res = 0.36868E+03, tol = 0.23033E+01, time = 2.75 | CG iter. 12 -- res = 0.17778E+03, tol = 0.23033E+01, time = 2.79 | CG iter. 13 -- res = 0.86897E+02, tol = 0.23033E+01, time = 2.90 | CG iter. 14 -- res = 0.44821E+02, tol = 0.23033E+01, time = 2.57 | CG iter. 15 -- res = 0.20832E+02, tol = 0.23033E+01, time = 3.03 | CG iter. 16 -- res = 0.92891E+01, tol = 0.23033E+01, time = 2.47 | CG iter. 17 -- res = 0.38236E+01, tol = 0.23033E+01, time = 2.92 | CG iter. 18 -- res = 0.17247E+01, tol = 0.23033E+01, time = 2.51 | CG iter. 19 -- res = 0.81861E+00, tol = 0.23033E+01, time = 2.74 | CG iter. 20 -- res = 0.42050E+00, tol = 0.23033E+01, time = 2.55 | CG iter. 21 -- res = 0.22404E+00, tol = 0.23033E+01, time = 2.60 | CG iter. 22 -- res = 0.10586E+00, tol = 0.23033E+01, time = 3.20 | CG iter. 23 -- res = 0.47553E-01, tol = 0.23033E+01, time = 2.88 | CG iter. 24 -- res = 0.21799E-01, tol = 0.23033E+01, time = 2.68 | CG iter. 25 -- res = 0.10349E-01, tol = 0.23033E+01, time = 2.87 | CG iter. 26 -- res = 0.52611E-02, tol = 0.23033E+01, time = 2.67 | CG iter. 27 -- res = 0.26874E-02, tol = 0.23033E+01, time = 2.70 | CG iter. 28 -- res = 0.13458E-02, tol = 0.23033E+01, time = 3.16 | CG iter. 29 -- res = 0.63492E-03, tol = 0.23033E+01, time = 2.77 | CG iter. 30 -- res = 0.29593E-03, tol = 0.23033E+01, time = 2.88 | CG iter. 31 -- res = 0.13714E-03, tol = 0.23033E+01, time = 2.83 | CG iter. 32 -- res = 0.65531E-04, tol = 0.23033E+01, time = 2.83 | CG iter. 33 -- res = 0.32903E-04, tol = 0.23033E+01, time = 2.68 | CG iter. 34 -- res = 0.16556E-04, tol = 0.23033E+01, time = 2.94 | CG iter. 35 -- res = 0.86295E-05, tol = 0.23033E+01, time = 2.75 | CG iter. 36 -- res = 0.39917E-05, tol = 0.23033E+01, time = 2.88 | CG iter. 37 -- res = 0.18025E-05, tol = 0.23033E+01, time = 2.84 | CG iter. 38 -- res = 0.88415E-06, tol = 0.23033E+01, time = 2.98 | CG iter. 39 -- res = 0.42140E-06, tol = 0.23033E+01, time = 2.95 | CG iter. 40 -- res = 0.21561E-06, tol = 0.23033E+01, time = 2.90 | CG iter. 41 -- res = 0.11195E-06, tol = 0.23033E+01, time = 3.02 | CG iter. 42 -- res = 0.51916E-07, tol = 0.23033E+01, time = 3.71 | CG iter. 43 -- res = 0.23382E-07, tol = 0.23033E+01, time = 2.87 | CG iter. 44 -- res = 0.10930E-07, tol = 0.23033E+01, time = 2.89 | CG iter. 45 -- res = 0.51344E-08, tol = 0.23033E+01, time = 2.65 | CG iter. 46 -- res = 0.25442E-08, tol = 0.23033E+01, time = 2.97 | CG iter. 47 -- res = 0.13213E-08, tol = 0.23033E+01, time = 2.88 | CG iter. 48 -- res = 0.63478E-09, tol = 0.23033E+01, time = 2.95 | CG iter. 49 -- res = 0.29159E-09, tol = 0.23033E+01, time = 2.66 | CG iter. 50 -- res = 0.13098E-09, tol = 0.23033E+01, time = 2.79 | Final CG iter 51 -- res = 0.13098E-09, tol = 0.23033E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.337 4.754 | New value 4.274 | Old value -7.337 | Difference 11.611 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.13658E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.77403E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.28348E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.10211E-01, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.13899E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8376068.486 | (Sampled value in CG: 8330710.137 ) | CPU time specind = 1224.658 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.69162E+08, tol = 0.57570E+04, time = 12.08 | CG iter. 2 -- res = 0.59226E+08, tol = 0.57570E+04, time = 11.89 | CG iter. 3 -- res = 0.15699E+08, tol = 0.57570E+04, time = 11.92 | CG iter. 4 -- res = 0.68322E+07, tol = 0.57570E+04, time = 12.00 | CG iter. 5 -- res = 0.42419E+07, tol = 0.57570E+04, time = 12.29 | CG iter. 6 -- res = 0.24375E+07, tol = 0.57570E+04, time = 11.86 | CG iter. 7 -- res = 0.13817E+07, tol = 0.57570E+04, time = 13.52 | CG iter. 8 -- res = 0.91139E+06, tol = 0.57570E+04, time = 11.91 | CG iter. 9 -- res = 0.59424E+06, tol = 0.57570E+04, time = 11.77 | CG iter. 10 -- res = 0.36082E+06, tol = 0.57570E+04, time = 12.08 | CG iter. 11 -- res = 0.20182E+06, tol = 0.57570E+04, time = 11.71 | CG iter. 12 -- res = 0.11108E+06, tol = 0.57570E+04, time = 12.10 | CG iter. 13 -- res = 0.63297E+05, tol = 0.57570E+04, time = 12.13 | CG iter. 14 -- res = 0.39362E+05, tol = 0.57570E+04, time = 11.89 | CG iter. 15 -- res = 0.28507E+05, tol = 0.57570E+04, time = 11.97 | CG iter. 16 -- res = 0.23289E+05, tol = 0.57570E+04, time = 11.67 | CG iter. 17 -- res = 0.19593E+05, tol = 0.57570E+04, time = 11.65 | CG iter. 18 -- res = 0.16681E+05, tol = 0.57570E+04, time = 11.98 | CG iter. 19 -- res = 0.13949E+05, tol = 0.57570E+04, time = 12.15 | CG iter. 20 -- res = 0.12134E+05, tol = 0.57570E+04, time = 12.01 | CG iter. 21 -- res = 0.11481E+05, tol = 0.57570E+04, time = 11.84 | CG iter. 22 -- res = 0.11625E+05, tol = 0.57570E+04, time = 12.13 | CG iter. 23 -- res = 0.12074E+05, tol = 0.57570E+04, time = 12.70 | CG iter. 24 -- res = 0.12299E+05, tol = 0.57570E+04, time = 18.53 | CG iter. 25 -- res = 0.11308E+05, tol = 0.57570E+04, time = 11.49 | CG iter. 26 -- res = 0.92919E+04, tol = 0.57570E+04, time = 11.75 | CG iter. 27 -- res = 0.70130E+04, tol = 0.57570E+04, time = 12.07 | CG iter. 28 -- res = 0.52363E+04, tol = 0.57570E+04, time = 12.04 | CG iter. 29 -- res = 0.42633E+04, tol = 0.57570E+04, time = 12.12 | CG iter. 30 -- res = 0.36144E+04, tol = 0.57570E+04, time = 12.01 | CG iter. 31 -- res = 0.31436E+04, tol = 0.57570E+04, time = 13.64 | CG iter. 32 -- res = 0.28260E+04, tol = 0.57570E+04, time = 12.80 | CG iter. 33 -- res = 0.24212E+04, tol = 0.57570E+04, time = 11.77 | CG iter. 34 -- res = 0.19361E+04, tol = 0.57570E+04, time = 11.55 | CG iter. 35 -- res = 0.16119E+04, tol = 0.57570E+04, time = 12.28 | CG iter. 36 -- res = 0.14546E+04, tol = 0.57570E+04, time = 11.93 | CG iter. 37 -- res = 0.13832E+04, tol = 0.57570E+04, time = 12.14 | CG iter. 38 -- res = 0.13561E+04, tol = 0.57570E+04, time = 12.14 | CG iter. 39 -- res = 0.12449E+04, tol = 0.57570E+04, time = 12.10 | CG iter. 40 -- res = 0.10614E+04, tol = 0.57570E+04, time = 13.35 | CG iter. 41 -- res = 0.87375E+03, tol = 0.57570E+04, time = 11.50 | CG iter. 42 -- res = 0.70287E+03, tol = 0.57570E+04, time = 11.85 | CG iter. 43 -- res = 0.57814E+03, tol = 0.57570E+04, time = 12.47 | CG iter. 44 -- res = 0.50597E+03, tol = 0.57570E+04, time = 11.85 | CG iter. 45 -- res = 0.46988E+03, tol = 0.57570E+04, time = 12.43 | CG iter. 46 -- res = 0.43976E+03, tol = 0.57570E+04, time = 11.99 | CG iter. 47 -- res = 0.39750E+03, tol = 0.57570E+04, time = 12.20 | CG iter. 48 -- res = 0.33972E+03, tol = 0.57570E+04, time = 18.12 | CG iter. 49 -- res = 0.29669E+03, tol = 0.57570E+04, time = 12.01 | CG iter. 50 -- res = 0.26851E+03, tol = 0.57570E+04, time = 11.54 | CG iter. 51 -- res = 0.25784E+03, tol = 0.57570E+04, time = 12.68 | CG iter. 52 -- res = 0.24549E+03, tol = 0.57570E+04, time = 11.90 | CG iter. 53 -- res = 0.23076E+03, tol = 0.57570E+04, time = 12.09 | CG iter. 54 -- res = 0.20954E+03, tol = 0.57570E+04, time = 11.91 | CG iter. 55 -- res = 0.18363E+03, tol = 0.57570E+04, time = 13.87 | CG iter. 56 -- res = 0.16041E+03, tol = 0.57570E+04, time = 12.13 | CG iter. 57 -- res = 0.13768E+03, tol = 0.57570E+04, time = 12.17 | CG iter. 58 -- res = 0.12367E+03, tol = 0.57570E+04, time = 11.98 | CG iter. 59 -- res = 0.11538E+03, tol = 0.57570E+04, time = 11.98 | CG iter. 60 -- res = 0.10768E+03, tol = 0.57570E+04, time = 12.18 | Final CG iter 61 -- res = 0.10768E+03, tol = 0.57570E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.830 ( -229.469 -2231.961 2514.676 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8595459.121 | Old band monopole 8376104.514 | Change to band monopole 219354.608 | Change to component monopole -219353.664 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.331 2.744 | New value -5.769 | Old value -0.331 | Difference -5.437 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.108 ( 5.980 12.680 -13.099 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.244 4.465 | New value 4.915 | Old value 8.244 | Difference -3.328 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.15292E+07, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.20134E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.41910E+00, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.63932E-03, tol = 0.47627E+18, time = 2.22 | Final CG iter 5 -- res = 0.52208E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8595422.150 | (Sampled value in CG: 8577960.105 ) | Chain = 1 -- chisq = 0.81581732E+09 | Chain = 1 -- wall time = 6149.668 sec Available RAM: MemAvailable: 378892368 kB Available Swap: SwapFree: 1117394112 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 283 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444898 | --> Sampling calibration, mode = relcal | relcal = 1.3424494E-02 7.6332083E-04 -1.6021164E-03 -1.2585699E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1118103 0.1236151 97049511.9931634 | BP delta = 0.1126031 0.1244078 97049511.4692756 | BP chisq diff = -0.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632436 | --> Sampling calibration, mode = relcal | relcal = -2.8206888E-03 -7.0484867E-04 1.6797681E-03 1.6135018E-03 -4.0903222E-04 6.4129982E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5383155 15217930.4262691 | BP delta = 0.0000000E+00 -0.5366583 15217929.6721400 | BP chisq diff = -0.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18009112537790 | --> Sampling calibration, mode = relcal | relcal = -7.4783690E-02 -5.8200348E-02 9.1534249E-02 4.1449796E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6351920E-05 3.8333242E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1370E-05 | 2: delta_r/delta_0: 8.2107E-07 | 3: delta_s/delta_0: 2.5126E-07 | 4: delta_r/delta_0: 1.3783E-08 | 5: delta_s/delta_0: 3.3532E-08 | 6: delta_r/delta_0: 5.9144E-09 | 7: delta_s/delta_0: 2.4375E-10 | 8: delta_r/delta_0: 1.0015E-10 | 9: delta_s/delta_0: 1.9126E-09 | 10: delta_r/delta_0: 4.1888E-10 | 11: delta_s/delta_0: 5.2122E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.185552317547464E-003 2.743217048814588E-005 | BP delta = 7.0296444E-02 9.0170912E-02 50486319.3458580 | BP delta = 7.0877910E-02 9.0752378E-02 50486319.4704544 | BP chisq diff = 0.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02608741 | --> Sampling calibration, mode = relcal | relcal = -0.1066820 -9.5573612E-02 0.1449700 5.7285644E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1984276E-03 1.0863143E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1556E-05 | 2: delta_r/delta_0: 1.2292E-06 | 3: delta_s/delta_0: 2.4998E-07 | 4: delta_r/delta_0: 5.2772E-08 | 5: delta_s/delta_0: 1.9415E-08 | 6: delta_r/delta_0: 7.6740E-09 | 7: delta_s/delta_0: 9.0154E-09 | 8: delta_r/delta_0: 1.4749E-09 | 9: delta_s/delta_0: 1.7240E-09 | 10: delta_r/delta_0: 1.2299E-09 | 11: delta_s/delta_0: 2.7415E-10 | 12: delta_r/delta_0: 7.8974E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.989040517615833E-003 2.810620377961332E-005 | BP delta = -0.3257827 -0.3013759 57394002.9248545 | BP delta = -0.3344457 -0.3100389 57394003.9682274 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81229353 | --> Sampling calibration, mode = relcal | relcal = 0.2955792 0.2247656 -0.2837770 -0.2365677 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4543073E-03 5.6399987E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0814E-03 | 2: delta_r/delta_0: 2.5906E-05 | 3: delta_s/delta_0: 5.0281E-03 | 4: delta_r/delta_0: 1.8286E-04 | 5: delta_s/delta_0: 3.8441E-07 | 6: delta_r/delta_0: 1.5339E-07 | 7: delta_s/delta_0: 3.3850E-07 | 8: delta_r/delta_0: 4.2654E-08 | 9: delta_s/delta_0: 1.9037E-08 | 10: delta_r/delta_0: 2.4236E-09 | 11: delta_s/delta_0: 2.5704E-09 | 12: delta_r/delta_0: 1.3464E-09 | 13: delta_s/delta_0: 3.0986E-10 | 14: delta_r/delta_0: 8.4520E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.430819448961435E-002 4.021388589415768E-005 | BP delta = -0.2802540 -0.3048613 72483550.8499547 | BP delta = -0.2799352 -0.3045425 72483550.8551194 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95921221 | --> Sampling calibration, mode = relcal | relcal = 0.1065303 0.1395648 -0.1102988 -0.1357964 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0535875E-02 1.4014376E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8411E-04 | 2: delta_r/delta_0: 7.1445E-06 | 3: delta_s/delta_0: 5.3485E-06 | 4: delta_r/delta_0: 7.4529E-07 | 5: delta_s/delta_0: 2.4913E-07 | 6: delta_r/delta_0: 1.3142E-07 | 7: delta_s/delta_0: 4.2672E-07 | 8: delta_r/delta_0: 2.9364E-08 | 9: delta_s/delta_0: 6.3531E-08 | 10: delta_r/delta_0: 4.3419E-08 | 11: delta_s/delta_0: 1.7060E-09 | 12: delta_r/delta_0: 9.9191E-10 | 13: delta_s/delta_0: 2.1839E-05 | 14: delta_r/delta_0: 6.7572E-07 | 15: delta_s/delta_0: 7.4433E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.071425872269804E-002 3.696951104537848E-005 | BP delta = 4.6779186E-02 0.1493742 72789492.0035283 | BP delta = 5.0461933E-02 0.1530569 72789492.0684532 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117284 | New value = -3.186602 | poltype: 2 pol: 1 CPU time specind = 1.0336161E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.226481 | New value = -3.128073 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135071 | New value = -3.125775 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138985 | New value = -3.099307 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193000 | New value = -3.198684 | poltype: 2 pol: 2 CPU time specind = 4.4889450E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.13567E+08, tol = 0.81264E+01, time = 11.42 | CG iter. 2 -- res = 0.34843E+06, tol = 0.81264E+01, time = 5.98 | CG iter. 3 -- res = 0.64142E+05, tol = 0.81264E+01, time = 5.78 | CG iter. 4 -- res = 0.48064E+05, tol = 0.81264E+01, time = 5.79 | CG iter. 5 -- res = 0.45425E+05, tol = 0.81264E+01, time = 6.21 | CG iter. 6 -- res = 0.45148E+05, tol = 0.81264E+01, time = 5.93 | CG iter. 7 -- res = 0.44045E+05, tol = 0.81264E+01, time = 5.57 | CG iter. 8 -- res = 0.36215E+05, tol = 0.81264E+01, time = 6.20 | CG iter. 9 -- res = 0.30142E+05, tol = 0.81264E+01, time = 5.76 | CG iter. 10 -- res = 0.25041E+05, tol = 0.81264E+01, time = 5.73 | CG iter. 11 -- res = 0.17816E+05, tol = 0.81264E+01, time = 6.03 | CG iter. 12 -- res = 0.12412E+05, tol = 0.81264E+01, time = 5.87 | CG iter. 13 -- res = 0.10134E+05, tol = 0.81264E+01, time = 5.91 | CG iter. 14 -- res = 0.93050E+04, tol = 0.81264E+01, time = 5.58 | CG iter. 15 -- res = 0.79961E+04, tol = 0.81264E+01, time = 6.96 | CG iter. 16 -- res = 0.57144E+04, tol = 0.81264E+01, time = 6.90 | CG iter. 17 -- res = 0.40464E+04, tol = 0.81264E+01, time = 5.94 | CG iter. 18 -- res = 0.33089E+04, tol = 0.81264E+01, time = 5.86 | CG iter. 19 -- res = 0.29053E+04, tol = 0.81264E+01, time = 5.85 | CG iter. 20 -- res = 0.23402E+04, tol = 0.81264E+01, time = 6.23 | CG iter. 21 -- res = 0.18124E+04, tol = 0.81264E+01, time = 5.94 | CG iter. 22 -- res = 0.15349E+04, tol = 0.81264E+01, time = 5.81 | CG iter. 23 -- res = 0.13181E+04, tol = 0.81264E+01, time = 5.83 | CG iter. 24 -- res = 0.11076E+04, tol = 0.81264E+01, time = 5.63 | CG iter. 25 -- res = 0.86759E+03, tol = 0.81264E+01, time = 5.80 | CG iter. 26 -- res = 0.68255E+03, tol = 0.81264E+01, time = 6.22 | CG iter. 27 -- res = 0.61682E+03, tol = 0.81264E+01, time = 5.78 | CG iter. 28 -- res = 0.54426E+03, tol = 0.81264E+01, time = 6.00 | CG iter. 29 -- res = 0.44259E+03, tol = 0.81264E+01, time = 5.89 | CG iter. 30 -- res = 0.36079E+03, tol = 0.81264E+01, time = 6.03 | CG iter. 31 -- res = 0.32359E+03, tol = 0.81264E+01, time = 5.86 | CG iter. 32 -- res = 0.28415E+03, tol = 0.81264E+01, time = 5.56 | CG iter. 33 -- res = 0.22818E+03, tol = 0.81264E+01, time = 6.56 | CG iter. 34 -- res = 0.17940E+03, tol = 0.81264E+01, time = 5.99 | CG iter. 35 -- res = 0.15381E+03, tol = 0.81264E+01, time = 5.19 | CG iter. 36 -- res = 0.14190E+03, tol = 0.81264E+01, time = 6.00 | CG iter. 37 -- res = 0.12307E+03, tol = 0.81264E+01, time = 5.32 | CG iter. 38 -- res = 0.95989E+02, tol = 0.81264E+01, time = 5.83 | CG iter. 39 -- res = 0.78913E+02, tol = 0.81264E+01, time = 6.10 | CG iter. 40 -- res = 0.69410E+02, tol = 0.81264E+01, time = 6.05 | CG iter. 41 -- res = 0.59506E+02, tol = 0.81264E+01, time = 5.97 | CG iter. 42 -- res = 0.48152E+02, tol = 0.81264E+01, time = 5.99 | CG iter. 43 -- res = 0.39157E+02, tol = 0.81264E+01, time = 5.52 | CG iter. 44 -- res = 0.33298E+02, tol = 0.81264E+01, time = 6.04 | CG iter. 45 -- res = 0.28493E+02, tol = 0.81264E+01, time = 5.79 | CG iter. 46 -- res = 0.22384E+02, tol = 0.81264E+01, time = 5.69 | CG iter. 47 -- res = 0.17654E+02, tol = 0.81264E+01, time = 6.07 | CG iter. 48 -- res = 0.14106E+02, tol = 0.81264E+01, time = 5.71 | CG iter. 49 -- res = 0.12024E+02, tol = 0.81264E+01, time = 5.93 | CG iter. 50 -- res = 0.99282E+01, tol = 0.81264E+01, time = 11.19 | Final CG iter 51 -- res = 0.99282E+01, tol = 0.81264E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8160671.513 | Old band monopole 8595459.121 | Change to band monopole -434787.608 | Change to component monopole 434785.738 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.24088E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.13079E+03, tol = 0.47627E+18, time = 2.36 | CG iter. 3 -- res = 0.38621E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.19159E-01, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.10308E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8160636.413 | (Sampled value in CG: 8101334.969 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487371 | New value = 1.475357 | poltype: 2 pol: 1 CPU time specind = 1.0949135E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.547776 | New value = 1.513113 | poltype: 2 pol: 2 CPU time specind = 1.9587994E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.24021E+08, tol = 0.47456E+04, time = 6.75 | CG iter. 2 -- res = 0.53349E+07, tol = 0.47456E+04, time = 6.70 | CG iter. 3 -- res = 0.85705E+06, tol = 0.47456E+04, time = 6.56 | CG iter. 4 -- res = 0.36274E+06, tol = 0.47456E+04, time = 6.41 | CG iter. 5 -- res = 0.15597E+06, tol = 0.47456E+04, time = 6.63 | CG iter. 6 -- res = 0.80365E+05, tol = 0.47456E+04, time = 6.75 | CG iter. 7 -- res = 0.44605E+05, tol = 0.47456E+04, time = 6.85 | CG iter. 8 -- res = 0.22003E+05, tol = 0.47456E+04, time = 6.73 | CG iter. 9 -- res = 0.96324E+04, tol = 0.47456E+04, time = 6.66 | CG iter. 10 -- res = 0.38715E+04, tol = 0.47456E+04, time = 6.72 | CG iter. 11 -- res = 0.17404E+04, tol = 0.47456E+04, time = 6.41 | CG iter. 12 -- res = 0.88359E+03, tol = 0.47456E+04, time = 6.73 | CG iter. 13 -- res = 0.50279E+03, tol = 0.47456E+04, time = 6.88 | CG iter. 14 -- res = 0.28544E+03, tol = 0.47456E+04, time = 6.80 | CG iter. 15 -- res = 0.14939E+03, tol = 0.47456E+04, time = 6.35 | CG iter. 16 -- res = 0.70760E+02, tol = 0.47456E+04, time = 6.76 | CG iter. 17 -- res = 0.32258E+02, tol = 0.47456E+04, time = 6.64 | CG iter. 18 -- res = 0.16347E+02, tol = 0.47456E+04, time = 6.85 | CG iter. 19 -- res = 0.90728E+01, tol = 0.47456E+04, time = 6.76 | CG iter. 20 -- res = 0.51250E+01, tol = 0.47456E+04, time = 6.28 | CG iter. 21 -- res = 0.28126E+01, tol = 0.47456E+04, time = 6.86 | CG iter. 22 -- res = 0.14353E+01, tol = 0.47456E+04, time = 6.31 | CG iter. 23 -- res = 0.70019E+00, tol = 0.47456E+04, time = 6.87 | CG iter. 24 -- res = 0.35949E+00, tol = 0.47456E+04, time = 6.91 | CG iter. 25 -- res = 0.19423E+00, tol = 0.47456E+04, time = 6.45 | CG iter. 26 -- res = 0.10973E+00, tol = 0.47456E+04, time = 6.76 | CG iter. 27 -- res = 0.61431E-01, tol = 0.47456E+04, time = 12.93 | CG iter. 28 -- res = 0.33132E-01, tol = 0.47456E+04, time = 6.49 | CG iter. 29 -- res = 0.17456E-01, tol = 0.47456E+04, time = 6.64 | CG iter. 30 -- res = 0.90565E-02, tol = 0.47456E+04, time = 6.74 | CG iter. 31 -- res = 0.49162E-02, tol = 0.47456E+04, time = 6.73 | CG iter. 32 -- res = 0.27530E-02, tol = 0.47456E+04, time = 6.50 | CG iter. 33 -- res = 0.15408E-02, tol = 0.47456E+04, time = 6.68 | CG iter. 34 -- res = 0.84189E-03, tol = 0.47456E+04, time = 6.14 | CG iter. 35 -- res = 0.44026E-03, tol = 0.47456E+04, time = 6.98 | Final CG iter 36 -- res = 0.44026E-03, tol = 0.47456E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.812 2.719 | New value 2.820 | Old value -5.812 | Difference 8.632 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.38545E+07, tol = 0.47627E+18, time = 2.49 | CG iter. 2 -- res = 0.55866E+02, tol = 0.47627E+18, time = 2.40 | CG iter. 3 -- res = 0.14908E+01, tol = 0.47627E+18, time = 1.77 | CG iter. 4 -- res = 0.14696E-02, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.29482E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8160636.413 | (Sampled value in CG: 8102019.819 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.523311 | New value = -3.399822 | poltype: 1 pol: 1 CPU time specind = 1.0606050E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.26912E+07, tol = 0.31616E+01, time = 2.78 | CG iter. 2 -- res = 0.15817E+07, tol = 0.31616E+01, time = 2.96 | CG iter. 3 -- res = 0.30150E+06, tol = 0.31616E+01, time = 2.58 | CG iter. 4 -- res = 0.11056E+06, tol = 0.31616E+01, time = 2.83 | CG iter. 5 -- res = 0.59596E+05, tol = 0.31616E+01, time = 2.69 | CG iter. 6 -- res = 0.32448E+05, tol = 0.31616E+01, time = 2.70 | CG iter. 7 -- res = 0.13066E+05, tol = 0.31616E+01, time = 3.89 | CG iter. 8 -- res = 0.56640E+04, tol = 0.31616E+01, time = 3.38 | CG iter. 9 -- res = 0.26181E+04, tol = 0.31616E+01, time = 2.92 | CG iter. 10 -- res = 0.11030E+04, tol = 0.31616E+01, time = 3.39 | CG iter. 11 -- res = 0.43014E+03, tol = 0.31616E+01, time = 3.13 | CG iter. 12 -- res = 0.19181E+03, tol = 0.31616E+01, time = 2.73 | CG iter. 13 -- res = 0.93879E+02, tol = 0.31616E+01, time = 2.92 | CG iter. 14 -- res = 0.48939E+02, tol = 0.31616E+01, time = 2.50 | CG iter. 15 -- res = 0.24824E+02, tol = 0.31616E+01, time = 2.83 | CG iter. 16 -- res = 0.11859E+02, tol = 0.31616E+01, time = 2.89 | CG iter. 17 -- res = 0.52667E+01, tol = 0.31616E+01, time = 2.81 | CG iter. 18 -- res = 0.23719E+01, tol = 0.31616E+01, time = 2.96 | CG iter. 19 -- res = 0.10554E+01, tol = 0.31616E+01, time = 3.05 | CG iter. 20 -- res = 0.50790E+00, tol = 0.31616E+01, time = 2.56 | CG iter. 21 -- res = 0.25274E+00, tol = 0.31616E+01, time = 2.86 | CG iter. 22 -- res = 0.12820E+00, tol = 0.31616E+01, time = 2.85 | CG iter. 23 -- res = 0.61172E-01, tol = 0.31616E+01, time = 2.67 | CG iter. 24 -- res = 0.28780E-01, tol = 0.31616E+01, time = 2.83 | CG iter. 25 -- res = 0.13285E-01, tol = 0.31616E+01, time = 2.63 | CG iter. 26 -- res = 0.63000E-02, tol = 0.31616E+01, time = 2.79 | CG iter. 27 -- res = 0.30278E-02, tol = 0.31616E+01, time = 2.64 | CG iter. 28 -- res = 0.15988E-02, tol = 0.31616E+01, time = 2.91 | CG iter. 29 -- res = 0.78747E-03, tol = 0.31616E+01, time = 2.90 | CG iter. 30 -- res = 0.41290E-03, tol = 0.31616E+01, time = 2.82 | CG iter. 31 -- res = 0.19639E-03, tol = 0.31616E+01, time = 3.01 | CG iter. 32 -- res = 0.89696E-04, tol = 0.31616E+01, time = 2.59 | CG iter. 33 -- res = 0.42032E-04, tol = 0.31616E+01, time = 2.71 | CG iter. 34 -- res = 0.20072E-04, tol = 0.31616E+01, time = 2.81 | CG iter. 35 -- res = 0.10708E-04, tol = 0.31616E+01, time = 2.76 | CG iter. 36 -- res = 0.55328E-05, tol = 0.31616E+01, time = 2.90 | CG iter. 37 -- res = 0.27053E-05, tol = 0.31616E+01, time = 2.79 | CG iter. 38 -- res = 0.12668E-05, tol = 0.31616E+01, time = 2.87 | CG iter. 39 -- res = 0.59580E-06, tol = 0.31616E+01, time = 2.89 | CG iter. 40 -- res = 0.28258E-06, tol = 0.31616E+01, time = 2.91 | CG iter. 41 -- res = 0.14388E-06, tol = 0.31616E+01, time = 2.70 | CG iter. 42 -- res = 0.75100E-07, tol = 0.31616E+01, time = 3.15 | CG iter. 43 -- res = 0.37556E-07, tol = 0.31616E+01, time = 2.95 | CG iter. 44 -- res = 0.17825E-07, tol = 0.31616E+01, time = 2.77 | CG iter. 45 -- res = 0.83254E-08, tol = 0.31616E+01, time = 2.94 | CG iter. 46 -- res = 0.39614E-08, tol = 0.31616E+01, time = 2.65 | CG iter. 47 -- res = 0.19639E-08, tol = 0.31616E+01, time = 2.71 | CG iter. 48 -- res = 0.10115E-08, tol = 0.31616E+01, time = 2.61 | CG iter. 49 -- res = 0.50642E-09, tol = 0.31616E+01, time = 3.01 | CG iter. 50 -- res = 0.23611E-09, tol = 0.31616E+01, time = 2.81 | Final CG iter 51 -- res = 0.23611E-09, tol = 0.31616E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.352 5.470 | New value -0.375 | Old value -0.352 | Difference -0.023 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.23150E+04, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.85516E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.19701E+00, tol = 0.47627E+18, time = 1.96 | Final CG iter 4 -- res = 0.21213E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8160636.413 | (Sampled value in CG: 8116814.196 ) | CPU time specind = 1218.111 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.68215E+08, tol = 0.57536E+04, time = 17.83 | CG iter. 2 -- res = 0.58234E+08, tol = 0.57536E+04, time = 11.99 | CG iter. 3 -- res = 0.15320E+08, tol = 0.57536E+04, time = 11.76 | CG iter. 4 -- res = 0.66347E+07, tol = 0.57536E+04, time = 12.15 | CG iter. 5 -- res = 0.40014E+07, tol = 0.57536E+04, time = 12.33 | CG iter. 6 -- res = 0.22656E+07, tol = 0.57536E+04, time = 12.12 | CG iter. 7 -- res = 0.13121E+07, tol = 0.57536E+04, time = 11.85 | CG iter. 8 -- res = 0.88617E+06, tol = 0.57536E+04, time = 13.79 | CG iter. 9 -- res = 0.58406E+06, tol = 0.57536E+04, time = 12.43 | CG iter. 10 -- res = 0.35404E+06, tol = 0.57536E+04, time = 11.80 | CG iter. 11 -- res = 0.19623E+06, tol = 0.57536E+04, time = 11.54 | CG iter. 12 -- res = 0.10641E+06, tol = 0.57536E+04, time = 12.32 | CG iter. 13 -- res = 0.60308E+05, tol = 0.57536E+04, time = 11.71 | CG iter. 14 -- res = 0.38850E+05, tol = 0.57536E+04, time = 12.24 | CG iter. 15 -- res = 0.29684E+05, tol = 0.57536E+04, time = 11.94 | CG iter. 16 -- res = 0.25615E+05, tol = 0.57536E+04, time = 11.72 | CG iter. 17 -- res = 0.22414E+05, tol = 0.57536E+04, time = 12.71 | CG iter. 18 -- res = 0.19301E+05, tol = 0.57536E+04, time = 12.23 | CG iter. 19 -- res = 0.16607E+05, tol = 0.57536E+04, time = 11.93 | CG iter. 20 -- res = 0.15221E+05, tol = 0.57536E+04, time = 12.22 | CG iter. 21 -- res = 0.14884E+05, tol = 0.57536E+04, time = 12.11 | CG iter. 22 -- res = 0.15657E+05, tol = 0.57536E+04, time = 12.14 | CG iter. 23 -- res = 0.16640E+05, tol = 0.57536E+04, time = 11.78 | CG iter. 24 -- res = 0.16777E+05, tol = 0.57536E+04, time = 11.89 | CG iter. 25 -- res = 0.14862E+05, tol = 0.57536E+04, time = 18.55 | CG iter. 26 -- res = 0.11601E+05, tol = 0.57536E+04, time = 11.94 | CG iter. 27 -- res = 0.87563E+04, tol = 0.57536E+04, time = 12.03 | CG iter. 28 -- res = 0.65118E+04, tol = 0.57536E+04, time = 11.82 | CG iter. 29 -- res = 0.51636E+04, tol = 0.57536E+04, time = 12.05 | CG iter. 30 -- res = 0.44297E+04, tol = 0.57536E+04, time = 12.04 | CG iter. 31 -- res = 0.38805E+04, tol = 0.57536E+04, time = 11.87 | CG iter. 32 -- res = 0.33852E+04, tol = 0.57536E+04, time = 13.89 | CG iter. 33 -- res = 0.29575E+04, tol = 0.57536E+04, time = 12.72 | CG iter. 34 -- res = 0.25641E+04, tol = 0.57536E+04, time = 11.65 | CG iter. 35 -- res = 0.22282E+04, tol = 0.57536E+04, time = 12.34 | CG iter. 36 -- res = 0.20992E+04, tol = 0.57536E+04, time = 12.26 | CG iter. 37 -- res = 0.20263E+04, tol = 0.57536E+04, time = 11.17 | CG iter. 38 -- res = 0.20118E+04, tol = 0.57536E+04, time = 12.04 | CG iter. 39 -- res = 0.18496E+04, tol = 0.57536E+04, time = 11.40 | CG iter. 40 -- res = 0.15704E+04, tol = 0.57536E+04, time = 11.81 | CG iter. 41 -- res = 0.13042E+04, tol = 0.57536E+04, time = 11.97 | CG iter. 42 -- res = 0.10950E+04, tol = 0.57536E+04, time = 12.15 | CG iter. 43 -- res = 0.93842E+03, tol = 0.57536E+04, time = 11.66 | CG iter. 44 -- res = 0.85308E+03, tol = 0.57536E+04, time = 11.80 | CG iter. 45 -- res = 0.79814E+03, tol = 0.57536E+04, time = 11.46 | CG iter. 46 -- res = 0.74296E+03, tol = 0.57536E+04, time = 11.52 | CG iter. 47 -- res = 0.66434E+03, tol = 0.57536E+04, time = 12.07 | CG iter. 48 -- res = 0.58046E+03, tol = 0.57536E+04, time = 12.10 | CG iter. 49 -- res = 0.51835E+03, tol = 0.57536E+04, time = 13.85 | CG iter. 50 -- res = 0.48230E+03, tol = 0.57536E+04, time = 16.82 | CG iter. 51 -- res = 0.47629E+03, tol = 0.57536E+04, time = 12.29 | CG iter. 52 -- res = 0.48664E+03, tol = 0.57536E+04, time = 12.12 | CG iter. 53 -- res = 0.46734E+03, tol = 0.57536E+04, time = 11.66 | CG iter. 54 -- res = 0.41798E+03, tol = 0.57536E+04, time = 11.94 | CG iter. 55 -- res = 0.36220E+03, tol = 0.57536E+04, time = 11.86 | CG iter. 56 -- res = 0.31257E+03, tol = 0.57536E+04, time = 12.42 | CG iter. 57 -- res = 0.27647E+03, tol = 0.57536E+04, time = 13.88 | CG iter. 58 -- res = 0.25669E+03, tol = 0.57536E+04, time = 12.09 | CG iter. 59 -- res = 0.24540E+03, tol = 0.57536E+04, time = 11.90 | CG iter. 60 -- res = 0.23368E+03, tol = 0.57536E+04, time = 11.94 | Final CG iter 61 -- res = 0.23368E+03, tol = 0.57536E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.920 ( -229.409 -2232.661 2515.404 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10200212.241 | Old band monopole 8160671.513 | Change to band monopole 2039540.727 | Change to component monopole -2039531.955 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.889 2.754 | New value -3.211 | Old value 2.889 | Difference -6.100 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.574 ( 6.229 14.630 -14.581 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.983 5.218 | New value 2.215 | Old value 5.983 | Difference -3.768 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.19530E+07, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.31544E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.12730E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.33048E-02, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.23701E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10200168.368 | (Sampled value in CG: 10174857.331 ) | Chain = 1 -- chisq = 0.81616497E+09 | Chain = 1 -- wall time = 5683.999 sec Available RAM: MemAvailable: 379101416 kB Available Swap: SwapFree: 1117903552 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 284 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443769 | --> Sampling calibration, mode = relcal | relcal = 1.3424573E-02 7.4800942E-04 -1.5891496E-03 -1.2583434E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1126031 0.1244078 9408124.34365469 | BP delta = 0.1126031 0.1190605 9408126.83110820 | BP chisq diff = 2.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632495 | --> Sampling calibration, mode = relcal | relcal = -2.8207786E-03 -7.0284074E-04 1.6775844E-03 1.6139023E-03 -4.0895765E-04 6.4109027E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5366583 15220714.4737604 | BP delta = 0.0000000E+00 -0.5333512 15220716.2094709 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17630273256339 | --> Sampling calibration, mode = relcal | relcal = -7.4095421E-02 -5.7477109E-02 9.0664707E-02 4.0907830E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.8460024E-05 2.9232507E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.8419E-04 | 2: delta_r/delta_0: 1.7890E-05 | 3: delta_s/delta_0: 3.2994E-07 | 4: delta_r/delta_0: 4.9001E-08 | 5: delta_s/delta_0: 1.3903E-05 | 6: delta_r/delta_0: 1.5113E-06 | 7: delta_s/delta_0: 1.1097E-09 | 8: delta_r/delta_0: 5.6652E-10 | 9: delta_s/delta_0: 8.5920E-10 | 10: delta_r/delta_0: 5.1990E-10 | 11: delta_s/delta_0: 7.9548E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.078679680441719E-003 2.752128529469819E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.8440E-04 | 2: delta_r/delta_0: 1.7898E-05 | 3: delta_s/delta_0: 3.2965E-07 | 4: delta_r/delta_0: 4.8937E-08 | 5: delta_s/delta_0: 1.3549E-05 | 6: delta_r/delta_0: 1.4739E-06 | 7: delta_s/delta_0: 1.1089E-09 | 8: delta_r/delta_0: 5.6566E-10 | 9: delta_s/delta_0: 8.5589E-10 | 10: delta_r/delta_0: 5.1863E-10 | 11: delta_s/delta_0: 7.9729E-11 | Reached bicg-stab tolerance | BP delta = 7.0877910E-02 9.0752378E-02 3636785.58689852 | BP delta = 7.0877910E-02 9.0786040E-02 3631200.82551543 | BP chisq diff = -5584.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02613556 | --> Sampling calibration, mode = relcal | relcal = -0.1066530 -9.5560312E-02 0.1449427 5.7270598E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5889094E-03 1.1850647E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6132E-05 | 2: delta_r/delta_0: 1.1626E-06 | 3: delta_s/delta_0: 2.3692E-07 | 4: delta_r/delta_0: 5.6162E-08 | 5: delta_s/delta_0: 1.5799E-08 | 6: delta_r/delta_0: 7.3715E-09 | 7: delta_s/delta_0: 7.0088E-08 | 8: delta_r/delta_0: 2.4939E-09 | 9: delta_s/delta_0: 9.0918E-10 | 10: delta_r/delta_0: 2.8445E-10 | 11: delta_s/delta_0: 3.4172E-09 | 12: delta_r/delta_0: 2.6422E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.566507479992672E-003 2.810463369080100E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6132E-05 | 2: delta_r/delta_0: 1.1626E-06 | 3: delta_s/delta_0: 2.3693E-07 | 4: delta_r/delta_0: 5.6166E-08 | 5: delta_s/delta_0: 1.5798E-08 | 6: delta_r/delta_0: 7.3719E-09 | 7: delta_s/delta_0: 7.0101E-08 | 8: delta_r/delta_0: 2.4943E-09 | 9: delta_s/delta_0: 9.0920E-10 | 10: delta_r/delta_0: 2.8449E-10 | 11: delta_s/delta_0: 3.4179E-09 | 12: delta_r/delta_0: 2.6426E-11 | Reached bicg-stab tolerance | BP delta = -0.3257827 -0.3013759 2841467.89193826 | BP delta = -0.3257827 -0.2984725 2841468.17483484 | BP chisq diff = 0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81235506 | --> Sampling calibration, mode = relcal | relcal = 0.2954853 0.2248091 -0.2837348 -0.2365596 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.6503737E-04 5.8143651E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2609E-02 | 2: delta_r/delta_0: 2.9819E-04 | 3: delta_s/delta_0: 8.6818E-06 | 4: delta_r/delta_0: 8.1578E-07 | 5: delta_s/delta_0: 1.8785E-05 | 6: delta_r/delta_0: 3.7951E-06 | 7: delta_s/delta_0: 1.9521E-07 | 8: delta_r/delta_0: 7.4791E-08 | 9: delta_s/delta_0: 1.9216E-07 | 10: delta_r/delta_0: 1.0282E-08 | 11: delta_s/delta_0: 4.2501E-07 | 12: delta_r/delta_0: 1.9949E-07 | 13: delta_s/delta_0: 5.4515E-10 | 14: delta_r/delta_0: 3.3983E-10 | 15: delta_s/delta_0: 7.8872E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.317262493948283E-002 4.020990774151772E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2613E-02 | 2: delta_r/delta_0: 2.9826E-04 | 3: delta_s/delta_0: 8.6821E-06 | 4: delta_r/delta_0: 8.1582E-07 | 5: delta_s/delta_0: 1.8790E-05 | 6: delta_r/delta_0: 3.7962E-06 | 7: delta_s/delta_0: 1.9523E-07 | 8: delta_r/delta_0: 7.4793E-08 | 9: delta_s/delta_0: 1.9215E-07 | 10: delta_r/delta_0: 1.0283E-08 | 11: delta_s/delta_0: 4.2237E-07 | 12: delta_r/delta_0: 1.9821E-07 | 13: delta_s/delta_0: 5.4520E-10 | 14: delta_r/delta_0: 3.3981E-10 | 15: delta_s/delta_0: 7.8882E-11 | Reached bicg-stab tolerance | BP delta = -0.2799352 -0.3045425 2826800.91212537 | BP delta = -0.2799352 -0.2945709 2826808.14536247 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95928647 | --> Sampling calibration, mode = relcal | relcal = 0.1065347 0.1395003 -0.1103595 -0.1356755 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0448248E-02 1.3185469E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3646E-03 | 2: delta_r/delta_0: 3.2970E-05 | 3: delta_s/delta_0: 2.2231E-04 | 4: delta_r/delta_0: 9.7357E-06 | 5: delta_s/delta_0: 4.2428E-07 | 6: delta_r/delta_0: 1.6492E-07 | 7: delta_s/delta_0: 2.0575E-07 | 8: delta_r/delta_0: 4.6717E-08 | 9: delta_s/delta_0: 2.2321E-08 | 10: delta_r/delta_0: 4.0975E-09 | 11: delta_s/delta_0: 3.9184E-09 | 12: delta_r/delta_0: 2.4398E-09 | 13: delta_s/delta_0: 2.0852E-10 | 14: delta_r/delta_0: 1.4157E-10 | 15: delta_s/delta_0: 1.4463E-10 | 16: delta_r/delta_0: 1.1691E-10 | 17: delta_s/delta_0: 3.0050E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.556776902532322E-002 3.696660945026908E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3647E-03 | 2: delta_r/delta_0: 3.2972E-05 | 3: delta_s/delta_0: 2.2230E-04 | 4: delta_r/delta_0: 9.7346E-06 | 5: delta_s/delta_0: 4.2429E-07 | 6: delta_r/delta_0: 1.6492E-07 | 7: delta_s/delta_0: 2.0559E-07 | 8: delta_r/delta_0: 4.6717E-08 | 9: delta_s/delta_0: 2.2329E-08 | 10: delta_r/delta_0: 4.0983E-09 | 11: delta_s/delta_0: 3.9200E-09 | 12: delta_r/delta_0: 2.4411E-09 | 13: delta_s/delta_0: 2.0850E-10 | 14: delta_r/delta_0: 1.4160E-10 | 15: delta_s/delta_0: 1.4469E-10 | 16: delta_r/delta_0: 1.1694E-10 | 17: delta_s/delta_0: 3.0056E-11 | Reached bicg-stab tolerance | BP delta = 5.0461933E-02 0.1530569 3004420.36190856 | BP delta = 5.0461933E-02 0.1542984 3004408.93847557 | BP chisq diff = -11.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.186602 | New value = -3.124420 | poltype: 2 pol: 1 CPU time specind = 1.5885115E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.128073 | New value = -3.267500 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125775 | New value = -3.114583 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.099307 | New value = -3.266494 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.198684 | New value = -3.107883 | poltype: 2 pol: 2 CPU time specind = 5.1319599E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.13606E+08, tol = 0.69882E+01, time = 5.39 | CG iter. 2 -- res = 0.37993E+06, tol = 0.69882E+01, time = 6.01 | CG iter. 3 -- res = 0.68248E+05, tol = 0.69882E+01, time = 5.76 | CG iter. 4 -- res = 0.47959E+05, tol = 0.69882E+01, time = 5.78 | CG iter. 5 -- res = 0.40036E+05, tol = 0.69882E+01, time = 5.87 | CG iter. 6 -- res = 0.38494E+05, tol = 0.69882E+01, time = 5.18 | CG iter. 7 -- res = 0.36555E+05, tol = 0.69882E+01, time = 5.93 | CG iter. 8 -- res = 0.28328E+05, tol = 0.69882E+01, time = 5.90 | CG iter. 9 -- res = 0.23062E+05, tol = 0.69882E+01, time = 5.36 | CG iter. 10 -- res = 0.19165E+05, tol = 0.69882E+01, time = 5.36 | CG iter. 11 -- res = 0.13577E+05, tol = 0.69882E+01, time = 5.97 | CG iter. 12 -- res = 0.97141E+04, tol = 0.69882E+01, time = 6.52 | CG iter. 13 -- res = 0.72222E+04, tol = 0.69882E+01, time = 5.98 | CG iter. 14 -- res = 0.62146E+04, tol = 0.69882E+01, time = 5.80 | CG iter. 15 -- res = 0.53175E+04, tol = 0.69882E+01, time = 5.67 | CG iter. 16 -- res = 0.39630E+04, tol = 0.69882E+01, time = 5.37 | CG iter. 17 -- res = 0.25936E+04, tol = 0.69882E+01, time = 6.00 | CG iter. 18 -- res = 0.19524E+04, tol = 0.69882E+01, time = 5.68 | CG iter. 19 -- res = 0.16717E+04, tol = 0.69882E+01, time = 5.77 | CG iter. 20 -- res = 0.13416E+04, tol = 0.69882E+01, time = 5.48 | CG iter. 21 -- res = 0.95932E+03, tol = 0.69882E+01, time = 5.72 | CG iter. 22 -- res = 0.73444E+03, tol = 0.69882E+01, time = 5.61 | CG iter. 23 -- res = 0.58909E+03, tol = 0.69882E+01, time = 5.30 | CG iter. 24 -- res = 0.49577E+03, tol = 0.69882E+01, time = 5.88 | CG iter. 25 -- res = 0.35859E+03, tol = 0.69882E+01, time = 5.57 | CG iter. 26 -- res = 0.25248E+03, tol = 0.69882E+01, time = 6.00 | CG iter. 27 -- res = 0.20618E+03, tol = 0.69882E+01, time = 5.69 | CG iter. 28 -- res = 0.17596E+03, tol = 0.69882E+01, time = 6.30 | CG iter. 29 -- res = 0.13907E+03, tol = 0.69882E+01, time = 12.12 | CG iter. 30 -- res = 0.10434E+03, tol = 0.69882E+01, time = 5.49 | CG iter. 31 -- res = 0.81936E+02, tol = 0.69882E+01, time = 5.77 | CG iter. 32 -- res = 0.69723E+02, tol = 0.69882E+01, time = 5.83 | CG iter. 33 -- res = 0.57800E+02, tol = 0.69882E+01, time = 5.52 | CG iter. 34 -- res = 0.43103E+02, tol = 0.69882E+01, time = 5.56 | CG iter. 35 -- res = 0.33498E+02, tol = 0.69882E+01, time = 5.57 | CG iter. 36 -- res = 0.27927E+02, tol = 0.69882E+01, time = 6.26 | CG iter. 37 -- res = 0.24923E+02, tol = 0.69882E+01, time = 5.53 | CG iter. 38 -- res = 0.19429E+02, tol = 0.69882E+01, time = 6.00 | CG iter. 39 -- res = 0.14941E+02, tol = 0.69882E+01, time = 5.73 | CG iter. 40 -- res = 0.12795E+02, tol = 0.69882E+01, time = 5.52 | CG iter. 41 -- res = 0.10995E+02, tol = 0.69882E+01, time = 5.79 | CG iter. 42 -- res = 0.89455E+01, tol = 0.69882E+01, time = 5.42 | CG iter. 43 -- res = 0.71622E+01, tol = 0.69882E+01, time = 5.52 | CG iter. 44 -- res = 0.58645E+01, tol = 0.69882E+01, time = 7.06 | CG iter. 45 -- res = 0.48502E+01, tol = 0.69882E+01, time = 6.38 | CG iter. 46 -- res = 0.40470E+01, tol = 0.69882E+01, time = 6.29 | CG iter. 47 -- res = 0.31501E+01, tol = 0.69882E+01, time = 5.41 | CG iter. 48 -- res = 0.24893E+01, tol = 0.69882E+01, time = 5.42 | CG iter. 49 -- res = 0.20877E+01, tol = 0.69882E+01, time = 5.80 | CG iter. 50 -- res = 0.17548E+01, tol = 0.69882E+01, time = 5.69 | Final CG iter 51 -- res = 0.17548E+01, tol = 0.69882E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8680548.854 | Old band monopole 10200212.241 | Change to band monopole -1519663.387 | Change to component monopole 1519656.851 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.38631E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.22168E+03, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.49980E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.25369E-01, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.49089E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8680511.517 | (Sampled value in CG: 8738972.365 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475357 | New value = 1.514977 | poltype: 2 pol: 1 CPU time specind = 1.0761023E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.513113 | New value = 1.531803 | poltype: 2 pol: 2 CPU time specind = 3.5328865E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.38 | CG iter. 1 -- res = 0.24359E+08, tol = 0.47569E+04, time = 6.19 | CG iter. 2 -- res = 0.52875E+07, tol = 0.47569E+04, time = 6.72 | CG iter. 3 -- res = 0.85082E+06, tol = 0.47569E+04, time = 6.75 | CG iter. 4 -- res = 0.35819E+06, tol = 0.47569E+04, time = 6.41 | CG iter. 5 -- res = 0.15488E+06, tol = 0.47569E+04, time = 6.32 | CG iter. 6 -- res = 0.80185E+05, tol = 0.47569E+04, time = 6.72 | CG iter. 7 -- res = 0.43239E+05, tol = 0.47569E+04, time = 6.62 | CG iter. 8 -- res = 0.20676E+05, tol = 0.47569E+04, time = 6.74 | CG iter. 9 -- res = 0.89826E+04, tol = 0.47569E+04, time = 12.76 | CG iter. 10 -- res = 0.37046E+04, tol = 0.47569E+04, time = 6.43 | CG iter. 11 -- res = 0.16943E+04, tol = 0.47569E+04, time = 6.44 | CG iter. 12 -- res = 0.87188E+03, tol = 0.47569E+04, time = 6.74 | CG iter. 13 -- res = 0.50199E+03, tol = 0.47569E+04, time = 6.55 | CG iter. 14 -- res = 0.28048E+03, tol = 0.47569E+04, time = 6.19 | CG iter. 15 -- res = 0.14405E+03, tol = 0.47569E+04, time = 6.93 | CG iter. 16 -- res = 0.67400E+02, tol = 0.47569E+04, time = 6.74 | CG iter. 17 -- res = 0.31328E+02, tol = 0.47569E+04, time = 6.60 | CG iter. 18 -- res = 0.15767E+02, tol = 0.47569E+04, time = 6.60 | CG iter. 19 -- res = 0.86322E+01, tol = 0.47569E+04, time = 6.24 | CG iter. 20 -- res = 0.50010E+01, tol = 0.47569E+04, time = 6.78 | CG iter. 21 -- res = 0.27585E+01, tol = 0.47569E+04, time = 6.68 | CG iter. 22 -- res = 0.14065E+01, tol = 0.47569E+04, time = 7.88 | CG iter. 23 -- res = 0.70209E+00, tol = 0.47569E+04, time = 7.22 | CG iter. 24 -- res = 0.35741E+00, tol = 0.47569E+04, time = 6.72 | CG iter. 25 -- res = 0.19224E+00, tol = 0.47569E+04, time = 6.59 | CG iter. 26 -- res = 0.10960E+00, tol = 0.47569E+04, time = 6.38 | CG iter. 27 -- res = 0.62977E-01, tol = 0.47569E+04, time = 7.23 | CG iter. 28 -- res = 0.34157E-01, tol = 0.47569E+04, time = 6.60 | CG iter. 29 -- res = 0.17484E-01, tol = 0.47569E+04, time = 6.60 | CG iter. 30 -- res = 0.90648E-02, tol = 0.47569E+04, time = 6.19 | CG iter. 31 -- res = 0.48238E-02, tol = 0.47569E+04, time = 6.51 | CG iter. 32 -- res = 0.27155E-02, tol = 0.47569E+04, time = 6.66 | CG iter. 33 -- res = 0.15463E-02, tol = 0.47569E+04, time = 6.17 | CG iter. 34 -- res = 0.84328E-03, tol = 0.47569E+04, time = 6.79 | CG iter. 35 -- res = 0.44367E-03, tol = 0.47569E+04, time = 6.52 | Final CG iter 36 -- res = 0.44367E-03, tol = 0.47569E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.233 2.741 | New value 2.283 | Old value -3.233 | Difference 5.516 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.38 | CG iter. 1 -- res = 0.15829E+07, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.51056E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.13539E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.18015E-03, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.13747E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8680511.517 | (Sampled value in CG: 8737589.998 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.399822 | New value = -3.619991 | poltype: 1 pol: 1 CPU time specind = 1.1255980E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.24280E+07, tol = 0.31419E+01, time = 2.78 | CG iter. 2 -- res = 0.10657E+07, tol = 0.31419E+01, time = 2.63 | CG iter. 3 -- res = 0.20547E+06, tol = 0.31419E+01, time = 2.73 | CG iter. 4 -- res = 0.77115E+05, tol = 0.31419E+01, time = 2.66 | CG iter. 5 -- res = 0.44903E+05, tol = 0.31419E+01, time = 2.97 | CG iter. 6 -- res = 0.23821E+05, tol = 0.31419E+01, time = 2.80 | CG iter. 7 -- res = 0.89162E+04, tol = 0.31419E+01, time = 2.62 | CG iter. 8 -- res = 0.36456E+04, tol = 0.31419E+01, time = 2.63 | CG iter. 9 -- res = 0.17135E+04, tol = 0.31419E+01, time = 2.97 | CG iter. 10 -- res = 0.69295E+03, tol = 0.31419E+01, time = 2.82 | CG iter. 11 -- res = 0.27346E+03, tol = 0.31419E+01, time = 2.63 | CG iter. 12 -- res = 0.13590E+03, tol = 0.31419E+01, time = 2.59 | CG iter. 13 -- res = 0.69502E+02, tol = 0.31419E+01, time = 2.71 | CG iter. 14 -- res = 0.35434E+02, tol = 0.31419E+01, time = 2.56 | CG iter. 15 -- res = 0.16323E+02, tol = 0.31419E+01, time = 2.91 | CG iter. 16 -- res = 0.69790E+01, tol = 0.31419E+01, time = 2.66 | CG iter. 17 -- res = 0.28477E+01, tol = 0.31419E+01, time = 3.06 | CG iter. 18 -- res = 0.13506E+01, tol = 0.31419E+01, time = 2.73 | CG iter. 19 -- res = 0.66873E+00, tol = 0.31419E+01, time = 2.50 | CG iter. 20 -- res = 0.35145E+00, tol = 0.31419E+01, time = 2.58 | CG iter. 21 -- res = 0.17436E+00, tol = 0.31419E+01, time = 2.93 | CG iter. 22 -- res = 0.79818E-01, tol = 0.31419E+01, time = 2.78 | CG iter. 23 -- res = 0.34572E-01, tol = 0.31419E+01, time = 2.93 | CG iter. 24 -- res = 0.15975E-01, tol = 0.31419E+01, time = 2.63 | CG iter. 25 -- res = 0.78513E-02, tol = 0.31419E+01, time = 2.85 | CG iter. 26 -- res = 0.41069E-02, tol = 0.31419E+01, time = 2.69 | CG iter. 27 -- res = 0.20040E-02, tol = 0.31419E+01, time = 2.79 | CG iter. 28 -- res = 0.99644E-03, tol = 0.31419E+01, time = 2.92 | CG iter. 29 -- res = 0.43049E-03, tol = 0.31419E+01, time = 2.69 | CG iter. 30 -- res = 0.20228E-03, tol = 0.31419E+01, time = 2.62 | CG iter. 31 -- res = 0.99765E-04, tol = 0.31419E+01, time = 2.71 | CG iter. 32 -- res = 0.50106E-04, tol = 0.31419E+01, time = 2.51 | CG iter. 33 -- res = 0.25139E-04, tol = 0.31419E+01, time = 2.68 | CG iter. 34 -- res = 0.11748E-04, tol = 0.31419E+01, time = 3.29 | CG iter. 35 -- res = 0.54347E-05, tol = 0.31419E+01, time = 2.69 | CG iter. 36 -- res = 0.25332E-05, tol = 0.31419E+01, time = 7.36 | CG iter. 37 -- res = 0.11852E-05, tol = 0.31419E+01, time = 4.56 | CG iter. 38 -- res = 0.62086E-06, tol = 0.31419E+01, time = 3.14 | CG iter. 39 -- res = 0.30305E-06, tol = 0.31419E+01, time = 2.78 | CG iter. 40 -- res = 0.14714E-06, tol = 0.31419E+01, time = 2.51 | CG iter. 41 -- res = 0.69608E-07, tol = 0.31419E+01, time = 2.71 | CG iter. 42 -- res = 0.31019E-07, tol = 0.31419E+01, time = 2.75 | CG iter. 43 -- res = 0.14338E-07, tol = 0.31419E+01, time = 2.60 | CG iter. 44 -- res = 0.73248E-08, tol = 0.31419E+01, time = 2.35 | CG iter. 45 -- res = 0.35531E-08, tol = 0.31419E+01, time = 3.04 | CG iter. 46 -- res = 0.16814E-08, tol = 0.31419E+01, time = 2.63 | CG iter. 47 -- res = 0.79770E-09, tol = 0.31419E+01, time = 2.90 | CG iter. 48 -- res = 0.39590E-09, tol = 0.31419E+01, time = 2.48 | CG iter. 49 -- res = 0.18239E-09, tol = 0.31419E+01, time = 2.97 | CG iter. 50 -- res = 0.83681E-10, tol = 0.31419E+01, time = 2.78 | Final CG iter 51 -- res = 0.83681E-10, tol = 0.31419E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.938 4.247 | New value 3.765 | Old value 6.938 | Difference -3.173 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.13532E+05, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.32695E+02, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.11365E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.35981E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.18880E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8680511.517 | (Sampled value in CG: 8728342.529 ) | CPU time specind = 1217.331 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.69491E+08, tol = 0.57733E+04, time = 11.84 | CG iter. 2 -- res = 0.59292E+08, tol = 0.57733E+04, time = 11.69 | CG iter. 3 -- res = 0.15738E+08, tol = 0.57733E+04, time = 11.83 | CG iter. 4 -- res = 0.68959E+07, tol = 0.57733E+04, time = 11.47 | CG iter. 5 -- res = 0.41862E+07, tol = 0.57733E+04, time = 11.67 | CG iter. 6 -- res = 0.24175E+07, tol = 0.57733E+04, time = 12.32 | CG iter. 7 -- res = 0.14140E+07, tol = 0.57733E+04, time = 12.28 | CG iter. 8 -- res = 0.92527E+06, tol = 0.57733E+04, time = 11.55 | CG iter. 9 -- res = 0.59336E+06, tol = 0.57733E+04, time = 11.73 | CG iter. 10 -- res = 0.35886E+06, tol = 0.57733E+04, time = 11.18 | CG iter. 11 -- res = 0.20391E+06, tol = 0.57733E+04, time = 11.63 | CG iter. 12 -- res = 0.10864E+06, tol = 0.57733E+04, time = 12.14 | CG iter. 13 -- res = 0.59518E+05, tol = 0.57733E+04, time = 11.82 | CG iter. 14 -- res = 0.36350E+05, tol = 0.57733E+04, time = 11.67 | CG iter. 15 -- res = 0.26165E+05, tol = 0.57733E+04, time = 17.86 | CG iter. 16 -- res = 0.21117E+05, tol = 0.57733E+04, time = 11.47 | CG iter. 17 -- res = 0.17693E+05, tol = 0.57733E+04, time = 11.86 | CG iter. 18 -- res = 0.14594E+05, tol = 0.57733E+04, time = 11.62 | CG iter. 19 -- res = 0.11960E+05, tol = 0.57733E+04, time = 11.72 | CG iter. 20 -- res = 0.10252E+05, tol = 0.57733E+04, time = 12.08 | CG iter. 21 -- res = 0.95565E+04, tol = 0.57733E+04, time = 12.04 | CG iter. 22 -- res = 0.99550E+04, tol = 0.57733E+04, time = 13.53 | CG iter. 23 -- res = 0.10561E+05, tol = 0.57733E+04, time = 12.02 | CG iter. 24 -- res = 0.10954E+05, tol = 0.57733E+04, time = 11.75 | CG iter. 25 -- res = 0.10210E+05, tol = 0.57733E+04, time = 11.74 | CG iter. 26 -- res = 0.85637E+04, tol = 0.57733E+04, time = 11.79 | CG iter. 27 -- res = 0.67895E+04, tol = 0.57733E+04, time = 12.13 | CG iter. 28 -- res = 0.51890E+04, tol = 0.57733E+04, time = 11.76 | CG iter. 29 -- res = 0.41681E+04, tol = 0.57733E+04, time = 11.38 | CG iter. 30 -- res = 0.36297E+04, tol = 0.57733E+04, time = 11.94 | CG iter. 31 -- res = 0.31533E+04, tol = 0.57733E+04, time = 11.71 | CG iter. 32 -- res = 0.27144E+04, tol = 0.57733E+04, time = 11.68 | CG iter. 33 -- res = 0.22160E+04, tol = 0.57733E+04, time = 12.11 | CG iter. 34 -- res = 0.18098E+04, tol = 0.57733E+04, time = 11.72 | CG iter. 35 -- res = 0.15263E+04, tol = 0.57733E+04, time = 11.60 | CG iter. 36 -- res = 0.13738E+04, tol = 0.57733E+04, time = 11.70 | CG iter. 37 -- res = 0.13206E+04, tol = 0.57733E+04, time = 11.99 | CG iter. 38 -- res = 0.12823E+04, tol = 0.57733E+04, time = 11.79 | CG iter. 39 -- res = 0.11836E+04, tol = 0.57733E+04, time = 13.41 | CG iter. 40 -- res = 0.10350E+04, tol = 0.57733E+04, time = 16.81 | CG iter. 41 -- res = 0.85766E+03, tol = 0.57733E+04, time = 11.93 | CG iter. 42 -- res = 0.70802E+03, tol = 0.57733E+04, time = 12.22 | CG iter. 43 -- res = 0.61050E+03, tol = 0.57733E+04, time = 11.48 | CG iter. 44 -- res = 0.55167E+03, tol = 0.57733E+04, time = 11.69 | CG iter. 45 -- res = 0.50757E+03, tol = 0.57733E+04, time = 11.79 | CG iter. 46 -- res = 0.46425E+03, tol = 0.57733E+04, time = 11.64 | CG iter. 47 -- res = 0.41913E+03, tol = 0.57733E+04, time = 13.38 | CG iter. 48 -- res = 0.37414E+03, tol = 0.57733E+04, time = 12.68 | CG iter. 49 -- res = 0.34276E+03, tol = 0.57733E+04, time = 11.94 | CG iter. 50 -- res = 0.32374E+03, tol = 0.57733E+04, time = 11.36 | CG iter. 51 -- res = 0.30201E+03, tol = 0.57733E+04, time = 11.86 | CG iter. 52 -- res = 0.28799E+03, tol = 0.57733E+04, time = 11.69 | CG iter. 53 -- res = 0.28003E+03, tol = 0.57733E+04, time = 11.11 | CG iter. 54 -- res = 0.26577E+03, tol = 0.57733E+04, time = 12.06 | CG iter. 55 -- res = 0.24041E+03, tol = 0.57733E+04, time = 12.32 | CG iter. 56 -- res = 0.20842E+03, tol = 0.57733E+04, time = 11.84 | CG iter. 57 -- res = 0.18212E+03, tol = 0.57733E+04, time = 11.61 | CG iter. 58 -- res = 0.16542E+03, tol = 0.57733E+04, time = 12.02 | CG iter. 59 -- res = 0.15494E+03, tol = 0.57733E+04, time = 11.58 | CG iter. 60 -- res = 0.14747E+03, tol = 0.57733E+04, time = 11.41 | Final CG iter 61 -- res = 0.14747E+03, tol = 0.57733E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.787 ( -229.910 -2233.326 2516.160 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8777892.864 | Old band monopole 8680548.854 | Change to band monopole 97344.010 | Change to component monopole -97343.591 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.296 2.757 | New value 0.467 | Old value 2.296 | Difference -1.829 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.147 ( 6.845 16.023 -16.762 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.809 3.793 | New value -5.826 | Old value 8.809 | Difference -14.636 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.29 | CG iter. 1 -- res = 0.29913E+06, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.80086E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.37168E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.45834E-02, tol = 0.47627E+18, time = 2.75 | Final CG iter 5 -- res = 0.97462E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8777855.108 | (Sampled value in CG: 8760650.526 ) | Chain = 1 -- chisq = 0.81530193E+09 | Chain = 1 -- wall time = 6118.634 sec Available RAM: MemAvailable: 378153632 kB Available Swap: SwapFree: 1119256256 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 285 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441188 | --> Sampling calibration, mode = relcal | relcal = 1.3410973E-02 7.6354342E-04 -1.5933181E-03 -1.2581198E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1126031 0.1190605 97045552.2876894 | BP delta = 0.1143489 0.1208063 97045551.5475245 | BP chisq diff = -0.7, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632614 | --> Sampling calibration, mode = relcal | relcal = -2.8215148E-03 -7.0377515E-04 1.6790982E-03 1.6147654E-03 -4.0770462E-04 6.3913089E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5366583 15220483.7876663 | BP delta = 0.0000000E+00 -0.5333963 15220487.6248062 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18241449458605 | --> Sampling calibration, mode = relcal | relcal = -7.6558918E-02 -5.9376899E-02 9.3441084E-02 4.2494737E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4788924E-04 6.5957308E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2802E-05 | 2: delta_r/delta_0: 1.6964E-06 | 3: delta_s/delta_0: 2.0495E-07 | 4: delta_r/delta_0: 2.8020E-08 | 5: delta_s/delta_0: 7.7253E-09 | 6: delta_r/delta_0: 2.8015E-09 | 7: delta_s/delta_0: 7.1028E-10 | 8: delta_r/delta_0: 2.4093E-10 | 9: delta_s/delta_0: 1.2268E-10 | 10: delta_r/delta_0: 6.2669E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.675788715759048E-003 2.737567435211395E-005 | BP delta = 7.0877910E-02 9.0786040E-02 50489888.9708351 | BP delta = 6.9463745E-02 8.9371875E-02 50489892.3562353 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02632659 | --> Sampling calibration, mode = relcal | relcal = -0.1067147 -9.5594548E-02 0.1449887 5.7320587E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6973041E-03 9.6868840E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2769E-05 | 2: delta_r/delta_0: 1.2412E-06 | 3: delta_s/delta_0: 2.5145E-07 | 4: delta_r/delta_0: 5.1905E-08 | 5: delta_s/delta_0: 2.0931E-08 | 6: delta_r/delta_0: 7.1704E-09 | 7: delta_s/delta_0: 9.8934E-09 | 8: delta_r/delta_0: 1.3090E-09 | 9: delta_s/delta_0: 1.1357E-09 | 10: delta_r/delta_0: 4.2067E-10 | 11: delta_s/delta_0: 1.2339E-09 | 12: delta_r/delta_0: 4.2348E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.652099318233737E-003 2.809943015542677E-005 | BP delta = -0.3257827 -0.2984725 57397744.6835054 | BP delta = -0.3281711 -0.3008609 57397744.8260103 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81266208 | --> Sampling calibration, mode = relcal | relcal = 0.2956125 0.2249331 -0.2838501 -0.2366955 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2881323E-03 5.1004523E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.2726E-03 | 2: delta_r/delta_0: 2.1950E-04 | 3: delta_s/delta_0: 3.7133E-06 | 4: delta_r/delta_0: 7.3081E-07 | 5: delta_s/delta_0: 1.2660E-06 | 6: delta_r/delta_0: 2.9615E-07 | 7: delta_s/delta_0: 2.0161E-07 | 8: delta_r/delta_0: 1.0022E-07 | 9: delta_s/delta_0: 7.9658E-08 | 10: delta_r/delta_0: 1.0390E-08 | 11: delta_s/delta_0: 1.4750E-09 | 12: delta_r/delta_0: 6.7542E-10 | 13: delta_s/delta_0: 7.4269E-10 | 14: delta_r/delta_0: 4.2648E-10 | 15: delta_s/delta_0: 6.5713E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.144659709800658E-002 4.019571097069581E-005 | BP delta = -0.2799352 -0.3045425 72484989.6694391 | BP delta = -0.2784715 -0.3030787 72484989.6720821 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95965580 | --> Sampling calibration, mode = relcal | relcal = 0.1065833 0.1397249 -0.1103141 -0.1359942 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0345553E-02 1.3039044E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.3557E-04 | 2: delta_r/delta_0: 2.0324E-05 | 3: delta_s/delta_0: 1.4794E-04 | 4: delta_r/delta_0: 7.0542E-06 | 5: delta_s/delta_0: 3.4933E-07 | 6: delta_r/delta_0: 1.5561E-07 | 7: delta_s/delta_0: 5.0614E-07 | 8: delta_r/delta_0: 4.1257E-08 | 9: delta_s/delta_0: 2.1651E-08 | 10: delta_r/delta_0: 2.4340E-09 | 11: delta_s/delta_0: 2.4532E-09 | 12: delta_r/delta_0: 1.1364E-09 | 13: delta_s/delta_0: 7.6812E-10 | 14: delta_r/delta_0: 7.0829E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.423017597180801E-002 3.695357393059096E-005 | BP delta = 5.0461933E-02 0.1542984 72786084.1826522 | BP delta = 7.9390993E-03 0.1117756 72786084.6484598 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124420 | New value = -3.160031 | poltype: 2 pol: 1 CPU time specind = 2.2092819E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.267500 | New value = -3.170597 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114583 | New value = -3.144877 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.266494 | New value = -3.076716 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.107883 | New value = -3.068337 | poltype: 2 pol: 2 CPU time specind = 2.2735119E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.13567E+08, tol = 0.80336E+01, time = 6.88 | CG iter. 2 -- res = 0.33843E+06, tol = 0.80336E+01, time = 5.90 | CG iter. 3 -- res = 0.50369E+05, tol = 0.80336E+01, time = 6.19 | CG iter. 4 -- res = 0.25562E+05, tol = 0.80336E+01, time = 5.73 | CG iter. 5 -- res = 0.14717E+05, tol = 0.80336E+01, time = 5.93 | CG iter. 6 -- res = 0.10143E+05, tol = 0.80336E+01, time = 5.97 | CG iter. 7 -- res = 0.87655E+04, tol = 0.80336E+01, time = 5.43 | CG iter. 8 -- res = 0.75969E+04, tol = 0.80336E+01, time = 5.70 | CG iter. 9 -- res = 0.68662E+04, tol = 0.80336E+01, time = 5.85 | CG iter. 10 -- res = 0.64609E+04, tol = 0.80336E+01, time = 5.92 | CG iter. 11 -- res = 0.51417E+04, tol = 0.80336E+01, time = 6.11 | CG iter. 12 -- res = 0.33913E+04, tol = 0.80336E+01, time = 5.62 | CG iter. 13 -- res = 0.23142E+04, tol = 0.80336E+01, time = 6.03 | CG iter. 14 -- res = 0.19236E+04, tol = 0.80336E+01, time = 5.88 | CG iter. 15 -- res = 0.17259E+04, tol = 0.80336E+01, time = 5.60 | CG iter. 16 -- res = 0.14185E+04, tol = 0.80336E+01, time = 5.62 | CG iter. 17 -- res = 0.10724E+04, tol = 0.80336E+01, time = 6.21 | CG iter. 18 -- res = 0.85045E+03, tol = 0.80336E+01, time = 5.68 | CG iter. 19 -- res = 0.72942E+03, tol = 0.80336E+01, time = 5.65 | CG iter. 20 -- res = 0.57299E+03, tol = 0.80336E+01, time = 5.87 | CG iter. 21 -- res = 0.40508E+03, tol = 0.80336E+01, time = 5.86 | CG iter. 22 -- res = 0.30198E+03, tol = 0.80336E+01, time = 5.70 | CG iter. 23 -- res = 0.24794E+03, tol = 0.80336E+01, time = 6.07 | CG iter. 24 -- res = 0.20967E+03, tol = 0.80336E+01, time = 5.82 | CG iter. 25 -- res = 0.15450E+03, tol = 0.80336E+01, time = 6.04 | CG iter. 26 -- res = 0.10956E+03, tol = 0.80336E+01, time = 5.45 | CG iter. 27 -- res = 0.84011E+02, tol = 0.80336E+01, time = 5.61 | CG iter. 28 -- res = 0.69119E+02, tol = 0.80336E+01, time = 5.67 | CG iter. 29 -- res = 0.53493E+02, tol = 0.80336E+01, time = 5.53 | CG iter. 30 -- res = 0.39816E+02, tol = 0.80336E+01, time = 5.57 | CG iter. 31 -- res = 0.29709E+02, tol = 0.80336E+01, time = 5.91 | CG iter. 32 -- res = 0.25280E+02, tol = 0.80336E+01, time = 5.97 | CG iter. 33 -- res = 0.20619E+02, tol = 0.80336E+01, time = 5.78 | CG iter. 34 -- res = 0.15274E+02, tol = 0.80336E+01, time = 5.95 | CG iter. 35 -- res = 0.11849E+02, tol = 0.80336E+01, time = 5.76 | CG iter. 36 -- res = 0.99409E+01, tol = 0.80336E+01, time = 6.74 | CG iter. 37 -- res = 0.85097E+01, tol = 0.80336E+01, time = 10.83 | CG iter. 38 -- res = 0.69243E+01, tol = 0.80336E+01, time = 5.80 | CG iter. 39 -- res = 0.52960E+01, tol = 0.80336E+01, time = 5.91 | CG iter. 40 -- res = 0.43837E+01, tol = 0.80336E+01, time = 5.66 | CG iter. 41 -- res = 0.37460E+01, tol = 0.80336E+01, time = 5.86 | CG iter. 42 -- res = 0.30577E+01, tol = 0.80336E+01, time = 5.49 | CG iter. 43 -- res = 0.23936E+01, tol = 0.80336E+01, time = 5.97 | CG iter. 44 -- res = 0.19197E+01, tol = 0.80336E+01, time = 5.73 | CG iter. 45 -- res = 0.16204E+01, tol = 0.80336E+01, time = 6.09 | CG iter. 46 -- res = 0.13640E+01, tol = 0.80336E+01, time = 5.75 | CG iter. 47 -- res = 0.11538E+01, tol = 0.80336E+01, time = 5.78 | CG iter. 48 -- res = 0.92218E+00, tol = 0.80336E+01, time = 5.91 | CG iter. 49 -- res = 0.79851E+00, tol = 0.80336E+01, time = 5.72 | CG iter. 50 -- res = 0.72086E+00, tol = 0.80336E+01, time = 5.53 | Final CG iter 51 -- res = 0.72086E+00, tol = 0.80336E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8884969.918 | Old band monopole 8777892.864 | Change to band monopole 107077.054 | Change to component monopole -107076.593 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.93952E+05, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.51115E+02, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.21060E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.62134E-02, tol = 0.47627E+18, time = 2.37 | Final CG iter 5 -- res = 0.12020E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8884931.701 | (Sampled value in CG: 8849459.908 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.514977 | New value = 1.474211 | poltype: 2 pol: 1 CPU time specind = 1.1645079E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.531803 | New value = 1.489556 | poltype: 2 pol: 2 CPU time specind = 3.2949448E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.24350E+08, tol = 0.47518E+04, time = 6.27 | CG iter. 2 -- res = 0.52976E+07, tol = 0.47518E+04, time = 6.75 | CG iter. 3 -- res = 0.82041E+06, tol = 0.47518E+04, time = 6.20 | CG iter. 4 -- res = 0.34328E+06, tol = 0.47518E+04, time = 6.56 | CG iter. 5 -- res = 0.15084E+06, tol = 0.47518E+04, time = 6.66 | CG iter. 6 -- res = 0.80909E+05, tol = 0.47518E+04, time = 6.25 | CG iter. 7 -- res = 0.43542E+05, tol = 0.47518E+04, time = 6.37 | CG iter. 8 -- res = 0.20564E+05, tol = 0.47518E+04, time = 6.90 | CG iter. 9 -- res = 0.89948E+04, tol = 0.47518E+04, time = 6.47 | CG iter. 10 -- res = 0.36495E+04, tol = 0.47518E+04, time = 6.96 | CG iter. 11 -- res = 0.16761E+04, tol = 0.47518E+04, time = 6.54 | CG iter. 12 -- res = 0.87160E+03, tol = 0.47518E+04, time = 6.09 | CG iter. 13 -- res = 0.49731E+03, tol = 0.47518E+04, time = 6.51 | CG iter. 14 -- res = 0.28107E+03, tol = 0.47518E+04, time = 6.75 | CG iter. 15 -- res = 0.14386E+03, tol = 0.47518E+04, time = 6.94 | CG iter. 16 -- res = 0.66484E+02, tol = 0.47518E+04, time = 12.32 | CG iter. 17 -- res = 0.31101E+02, tol = 0.47518E+04, time = 6.42 | CG iter. 18 -- res = 0.15570E+02, tol = 0.47518E+04, time = 6.49 | CG iter. 19 -- res = 0.84934E+01, tol = 0.47518E+04, time = 6.93 | CG iter. 20 -- res = 0.48448E+01, tol = 0.47518E+04, time = 6.42 | CG iter. 21 -- res = 0.26715E+01, tol = 0.47518E+04, time = 6.86 | CG iter. 22 -- res = 0.13764E+01, tol = 0.47518E+04, time = 6.40 | CG iter. 23 -- res = 0.66658E+00, tol = 0.47518E+04, time = 6.27 | CG iter. 24 -- res = 0.33964E+00, tol = 0.47518E+04, time = 6.50 | CG iter. 25 -- res = 0.18339E+00, tol = 0.47518E+04, time = 6.49 | CG iter. 26 -- res = 0.10287E+00, tol = 0.47518E+04, time = 6.21 | CG iter. 27 -- res = 0.58422E-01, tol = 0.47518E+04, time = 6.58 | CG iter. 28 -- res = 0.30916E-01, tol = 0.47518E+04, time = 6.59 | CG iter. 29 -- res = 0.15749E-01, tol = 0.47518E+04, time = 7.92 | CG iter. 30 -- res = 0.81393E-02, tol = 0.47518E+04, time = 7.18 | CG iter. 31 -- res = 0.44722E-02, tol = 0.47518E+04, time = 6.76 | CG iter. 32 -- res = 0.25747E-02, tol = 0.47518E+04, time = 6.52 | CG iter. 33 -- res = 0.14801E-02, tol = 0.47518E+04, time = 6.49 | CG iter. 34 -- res = 0.81634E-03, tol = 0.47518E+04, time = 6.44 | CG iter. 35 -- res = 0.42929E-03, tol = 0.47518E+04, time = 6.65 | Final CG iter 36 -- res = 0.42929E-03, tol = 0.47518E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.454 2.749 | New value 3.837 | Old value 0.454 | Difference 3.383 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.59828E+06, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.34896E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.11182E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.15561E-02, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.24396E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8884931.701 | (Sampled value in CG: 8849260.498 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.619991 | New value = -3.453629 | poltype: 1 pol: 1 CPU time specind = 1.1119127E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.24428E+07, tol = 0.32130E+01, time = 2.77 | CG iter. 2 -- res = 0.10785E+07, tol = 0.32130E+01, time = 3.15 | CG iter. 3 -- res = 0.21368E+06, tol = 0.32130E+01, time = 2.94 | CG iter. 4 -- res = 0.80864E+05, tol = 0.32130E+01, time = 2.83 | CG iter. 5 -- res = 0.42732E+05, tol = 0.32130E+01, time = 2.65 | CG iter. 6 -- res = 0.22232E+05, tol = 0.32130E+01, time = 2.73 | CG iter. 7 -- res = 0.87838E+04, tol = 0.32130E+01, time = 2.83 | CG iter. 8 -- res = 0.40642E+04, tol = 0.32130E+01, time = 3.01 | CG iter. 9 -- res = 0.20577E+04, tol = 0.32130E+01, time = 2.70 | CG iter. 10 -- res = 0.89633E+03, tol = 0.32130E+01, time = 2.58 | CG iter. 11 -- res = 0.34332E+03, tol = 0.32130E+01, time = 2.96 | CG iter. 12 -- res = 0.15356E+03, tol = 0.32130E+01, time = 2.62 | CG iter. 13 -- res = 0.72335E+02, tol = 0.32130E+01, time = 3.23 | CG iter. 14 -- res = 0.38131E+02, tol = 0.32130E+01, time = 2.62 | CG iter. 15 -- res = 0.19533E+02, tol = 0.32130E+01, time = 2.50 | CG iter. 16 -- res = 0.97892E+01, tol = 0.32130E+01, time = 2.83 | CG iter. 17 -- res = 0.43312E+01, tol = 0.32130E+01, time = 2.68 | CG iter. 18 -- res = 0.18729E+01, tol = 0.32130E+01, time = 2.78 | CG iter. 19 -- res = 0.78422E+00, tol = 0.32130E+01, time = 2.66 | CG iter. 20 -- res = 0.37590E+00, tol = 0.32130E+01, time = 2.99 | CG iter. 21 -- res = 0.19740E+00, tol = 0.32130E+01, time = 3.09 | CG iter. 22 -- res = 0.10095E+00, tol = 0.32130E+01, time = 2.86 | CG iter. 23 -- res = 0.49426E-01, tol = 0.32130E+01, time = 2.91 | CG iter. 24 -- res = 0.22561E-01, tol = 0.32130E+01, time = 2.75 | CG iter. 25 -- res = 0.10107E-01, tol = 0.32130E+01, time = 2.64 | CG iter. 26 -- res = 0.47737E-02, tol = 0.32130E+01, time = 2.71 | CG iter. 27 -- res = 0.22959E-02, tol = 0.32130E+01, time = 2.62 | CG iter. 28 -- res = 0.12507E-02, tol = 0.32130E+01, time = 2.88 | CG iter. 29 -- res = 0.61504E-03, tol = 0.32130E+01, time = 2.79 | CG iter. 30 -- res = 0.30204E-03, tol = 0.32130E+01, time = 3.01 | CG iter. 31 -- res = 0.14415E-03, tol = 0.32130E+01, time = 2.83 | CG iter. 32 -- res = 0.64881E-04, tol = 0.32130E+01, time = 2.75 | CG iter. 33 -- res = 0.30092E-04, tol = 0.32130E+01, time = 2.80 | CG iter. 34 -- res = 0.15012E-04, tol = 0.32130E+01, time = 2.53 | CG iter. 35 -- res = 0.75654E-05, tol = 0.32130E+01, time = 2.78 | CG iter. 36 -- res = 0.37490E-05, tol = 0.32130E+01, time = 2.84 | CG iter. 37 -- res = 0.17533E-05, tol = 0.32130E+01, time = 2.60 | CG iter. 38 -- res = 0.85067E-06, tol = 0.32130E+01, time = 2.65 | CG iter. 39 -- res = 0.38829E-06, tol = 0.32130E+01, time = 2.25 | CG iter. 40 -- res = 0.18829E-06, tol = 0.32130E+01, time = 2.90 | CG iter. 41 -- res = 0.94444E-07, tol = 0.32130E+01, time = 2.56 | CG iter. 42 -- res = 0.47187E-07, tol = 0.32130E+01, time = 2.87 | CG iter. 43 -- res = 0.23208E-07, tol = 0.32130E+01, time = 2.78 | CG iter. 44 -- res = 0.11154E-07, tol = 0.32130E+01, time = 2.61 | CG iter. 45 -- res = 0.51321E-08, tol = 0.32130E+01, time = 2.62 | CG iter. 46 -- res = 0.23970E-08, tol = 0.32130E+01, time = 2.82 | CG iter. 47 -- res = 0.11763E-08, tol = 0.32130E+01, time = 2.44 | CG iter. 48 -- res = 0.61037E-09, tol = 0.32130E+01, time = 2.75 | CG iter. 49 -- res = 0.31348E-09, tol = 0.32130E+01, time = 2.58 | CG iter. 50 -- res = 0.15023E-09, tol = 0.32130E+01, time = 2.79 | Final CG iter 51 -- res = 0.15023E-09, tol = 0.32130E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.720 4.324 | New value 6.286 | Old value -8.720 | Difference 15.006 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.22840E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.74489E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.27358E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.44440E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.82382E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8884931.701 | (Sampled value in CG: 8859156.547 ) | CPU time specind = 1196.976 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.69310E+08, tol = 0.57560E+04, time = 11.74 | CG iter. 2 -- res = 0.58437E+08, tol = 0.57560E+04, time = 11.92 | CG iter. 3 -- res = 0.15279E+08, tol = 0.57560E+04, time = 13.75 | CG iter. 4 -- res = 0.65100E+07, tol = 0.57560E+04, time = 11.84 | CG iter. 5 -- res = 0.38658E+07, tol = 0.57560E+04, time = 11.60 | CG iter. 6 -- res = 0.21947E+07, tol = 0.57560E+04, time = 12.06 | CG iter. 7 -- res = 0.12908E+07, tol = 0.57560E+04, time = 11.95 | CG iter. 8 -- res = 0.85765E+06, tol = 0.57560E+04, time = 12.02 | CG iter. 9 -- res = 0.55309E+06, tol = 0.57560E+04, time = 12.21 | CG iter. 10 -- res = 0.32225E+06, tol = 0.57560E+04, time = 12.29 | CG iter. 11 -- res = 0.17566E+06, tol = 0.57560E+04, time = 11.64 | CG iter. 12 -- res = 0.94769E+05, tol = 0.57560E+04, time = 11.52 | CG iter. 13 -- res = 0.52161E+05, tol = 0.57560E+04, time = 11.96 | CG iter. 14 -- res = 0.30172E+05, tol = 0.57560E+04, time = 11.36 | CG iter. 15 -- res = 0.19465E+05, tol = 0.57560E+04, time = 12.10 | CG iter. 16 -- res = 0.14078E+05, tol = 0.57560E+04, time = 12.03 | CG iter. 17 -- res = 0.10350E+05, tol = 0.57560E+04, time = 11.97 | CG iter. 18 -- res = 0.74029E+04, tol = 0.57560E+04, time = 11.73 | CG iter. 19 -- res = 0.52436E+04, tol = 0.57560E+04, time = 11.82 | CG iter. 20 -- res = 0.36963E+04, tol = 0.57560E+04, time = 19.34 | CG iter. 21 -- res = 0.28031E+04, tol = 0.57560E+04, time = 11.93 | CG iter. 22 -- res = 0.25074E+04, tol = 0.57560E+04, time = 11.20 | CG iter. 23 -- res = 0.25232E+04, tol = 0.57560E+04, time = 12.08 | CG iter. 24 -- res = 0.27500E+04, tol = 0.57560E+04, time = 11.79 | CG iter. 25 -- res = 0.28611E+04, tol = 0.57560E+04, time = 11.56 | CG iter. 26 -- res = 0.27767E+04, tol = 0.57560E+04, time = 11.68 | CG iter. 27 -- res = 0.25016E+04, tol = 0.57560E+04, time = 13.54 | CG iter. 28 -- res = 0.21414E+04, tol = 0.57560E+04, time = 12.44 | CG iter. 29 -- res = 0.18182E+04, tol = 0.57560E+04, time = 11.58 | CG iter. 30 -- res = 0.15818E+04, tol = 0.57560E+04, time = 11.80 | CG iter. 31 -- res = 0.13728E+04, tol = 0.57560E+04, time = 12.03 | CG iter. 32 -- res = 0.11740E+04, tol = 0.57560E+04, time = 11.83 | CG iter. 33 -- res = 0.96727E+03, tol = 0.57560E+04, time = 12.12 | CG iter. 34 -- res = 0.77101E+03, tol = 0.57560E+04, time = 11.96 | CG iter. 35 -- res = 0.60580E+03, tol = 0.57560E+04, time = 11.81 | CG iter. 36 -- res = 0.51285E+03, tol = 0.57560E+04, time = 12.59 | CG iter. 37 -- res = 0.46936E+03, tol = 0.57560E+04, time = 11.43 | CG iter. 38 -- res = 0.44887E+03, tol = 0.57560E+04, time = 12.14 | CG iter. 39 -- res = 0.43104E+03, tol = 0.57560E+04, time = 11.73 | CG iter. 40 -- res = 0.39748E+03, tol = 0.57560E+04, time = 11.80 | CG iter. 41 -- res = 0.35108E+03, tol = 0.57560E+04, time = 11.98 | CG iter. 42 -- res = 0.30604E+03, tol = 0.57560E+04, time = 11.75 | CG iter. 43 -- res = 0.26613E+03, tol = 0.57560E+04, time = 11.71 | CG iter. 44 -- res = 0.24239E+03, tol = 0.57560E+04, time = 18.51 | CG iter. 45 -- res = 0.22826E+03, tol = 0.57560E+04, time = 12.40 | CG iter. 46 -- res = 0.20987E+03, tol = 0.57560E+04, time = 11.81 | CG iter. 47 -- res = 0.18831E+03, tol = 0.57560E+04, time = 12.26 | CG iter. 48 -- res = 0.15972E+03, tol = 0.57560E+04, time = 11.78 | CG iter. 49 -- res = 0.13608E+03, tol = 0.57560E+04, time = 11.61 | CG iter. 50 -- res = 0.11960E+03, tol = 0.57560E+04, time = 11.77 | CG iter. 51 -- res = 0.11217E+03, tol = 0.57560E+04, time = 12.08 | CG iter. 52 -- res = 0.11077E+03, tol = 0.57560E+04, time = 13.76 | CG iter. 53 -- res = 0.11096E+03, tol = 0.57560E+04, time = 11.89 | CG iter. 54 -- res = 0.10686E+03, tol = 0.57560E+04, time = 11.79 | CG iter. 55 -- res = 0.97766E+02, tol = 0.57560E+04, time = 11.93 | CG iter. 56 -- res = 0.87617E+02, tol = 0.57560E+04, time = 12.02 | CG iter. 57 -- res = 0.79909E+02, tol = 0.57560E+04, time = 11.50 | CG iter. 58 -- res = 0.76295E+02, tol = 0.57560E+04, time = 12.16 | CG iter. 59 -- res = 0.73418E+02, tol = 0.57560E+04, time = 11.84 | CG iter. 60 -- res = 0.70410E+02, tol = 0.57560E+04, time = 12.13 | Final CG iter 61 -- res = 0.70410E+02, tol = 0.57560E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.876 ( -229.443 -2231.488 2514.060 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9187297.007 | Old band monopole 8884969.918 | Change to band monopole 302327.090 | Change to component monopole -302325.789 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.816 2.729 | New value -0.562 | Old value 3.816 | Difference -4.378 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.641 ( 6.389 12.255 -12.140 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.411 6.216 | New value 3.372 | Old value 9.411 | Difference -6.039 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.99150E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.27062E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.65444E+00, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.61101E-03, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.11475E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9187257.491 | (Sampled value in CG: 9161426.201 ) | Chain = 1 -- chisq = 0.81614353E+09 | Chain = 1 -- wall time = 5639.057 sec Available RAM: MemAvailable: 378869216 kB Available Swap: SwapFree: 1119979968 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 286 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444384 | --> Sampling calibration, mode = relcal | relcal = 1.3422615E-02 7.4180210E-04 -1.5856078E-03 -1.2578809E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1143489 0.1208063 9410428.33129533 | BP delta = 0.1143489 0.1206647 9410457.30333960 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632472 | --> Sampling calibration, mode = relcal | relcal = -2.8210450E-03 -7.0363865E-04 1.6786570E-03 1.6121456E-03 -4.0736963E-04 6.4125069E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5366583 15218389.4997325 | BP delta = 0.0000000E+00 -0.5276720 15218397.0514812 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102185 | --> Sampling calibration, mode = relcal | relcal = 3.7074484E-02 1.3717937E-02 5.7549621E-03 -7.1612247E-03 8.2499338E-03 2.3871390E-03 -7.5956411E-03 -7.1829055E-03 -1.5298432E-02 -1.4795236E-02 -3.0522426E-03 -1.2098773E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.203735 132208533.653437 | BP delta = 0.0000000E+00 -1.224947 132208534.535585 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17949754258947 | --> Sampling calibration, mode = relcal | relcal = -7.4497133E-02 -5.8035653E-02 9.1240108E-02 4.1292686E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.0074159E-06 3.8973808E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5587E-04 | 2: delta_r/delta_0: 3.8530E-06 | 3: delta_s/delta_0: 2.0979E-07 | 4: delta_r/delta_0: 1.9226E-08 | 5: delta_s/delta_0: 1.7383E-08 | 6: delta_r/delta_0: 4.3165E-09 | 7: delta_s/delta_0: 9.3848E-10 | 8: delta_r/delta_0: 1.2031E-10 | 9: delta_s/delta_0: 2.2752E-10 | 10: delta_r/delta_0: 1.3883E-10 | 11: delta_s/delta_0: 2.7456E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.224451544139668E-003 2.744614141658880E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5584E-04 | 2: delta_r/delta_0: 3.8524E-06 | 3: delta_s/delta_0: 2.0980E-07 | 4: delta_r/delta_0: 1.9226E-08 | 5: delta_s/delta_0: 1.7386E-08 | 6: delta_r/delta_0: 4.3170E-09 | 7: delta_s/delta_0: 9.3820E-10 | 8: delta_r/delta_0: 1.2032E-10 | 9: delta_s/delta_0: 2.2765E-10 | 10: delta_r/delta_0: 1.3890E-10 | 11: delta_s/delta_0: 2.7463E-11 | Reached bicg-stab tolerance | BP delta = 7.0877910E-02 9.0786040E-02 3595846.34716275 | BP delta = 7.0877910E-02 9.0855613E-02 3593436.83662993 | BP chisq diff = -2409.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599454 | --> Sampling calibration, mode = relcal | relcal = -0.1067089 -9.5623568E-02 0.1450173 5.7315208E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3448038E-03 1.3784693E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6989E-05 | 2: delta_r/delta_0: 1.1708E-06 | 3: delta_s/delta_0: 2.4240E-07 | 4: delta_r/delta_0: 4.7760E-08 | 5: delta_s/delta_0: 1.5597E-08 | 6: delta_r/delta_0: 6.3195E-09 | 7: delta_s/delta_0: 8.9640E-09 | 8: delta_r/delta_0: 1.0548E-09 | 9: delta_s/delta_0: 8.8199E-10 | 10: delta_r/delta_0: 2.2022E-10 | 11: delta_s/delta_0: 2.9965E-09 | 12: delta_r/delta_0: 2.3292E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.498621746504331E-003 2.810857542611668E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6988E-05 | 2: delta_r/delta_0: 1.1707E-06 | 3: delta_s/delta_0: 2.4233E-07 | 4: delta_r/delta_0: 4.7653E-08 | 5: delta_s/delta_0: 1.5616E-08 | 6: delta_r/delta_0: 6.3107E-09 | 7: delta_s/delta_0: 8.9321E-09 | 8: delta_r/delta_0: 1.0537E-09 | 9: delta_s/delta_0: 8.8129E-10 | 10: delta_r/delta_0: 2.1983E-10 | 11: delta_s/delta_0: 2.9930E-09 | 12: delta_r/delta_0: 2.3251E-11 | Reached bicg-stab tolerance | BP delta = -0.3281711 -0.3008609 2841306.10623921 | BP delta = -0.3281711 -0.3011080 2841366.38991338 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236505 | --> Sampling calibration, mode = relcal | relcal = 0.2955917 0.2248744 -0.2838208 -0.2366453 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3768016E-04 5.1805507E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5112E-04 | 2: delta_r/delta_0: 1.1008E-05 | 3: delta_s/delta_0: 1.0079E-05 | 4: delta_r/delta_0: 9.7122E-07 | 5: delta_s/delta_0: 2.9632E-07 | 6: delta_r/delta_0: 1.4787E-07 | 7: delta_s/delta_0: 5.2231E-07 | 8: delta_r/delta_0: 3.2455E-08 | 9: delta_s/delta_0: 8.8671E-08 | 10: delta_r/delta_0: 5.4771E-08 | 11: delta_s/delta_0: 1.7248E-09 | 12: delta_r/delta_0: 9.3518E-10 | 13: delta_s/delta_0: 5.5964E-08 | 14: delta_r/delta_0: 3.7540E-09 | 15: delta_s/delta_0: 6.7379E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.149957430772350E-002 4.021168958595449E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5108E-04 | 2: delta_r/delta_0: 1.1007E-05 | 3: delta_s/delta_0: 1.0079E-05 | 4: delta_r/delta_0: 9.7122E-07 | 5: delta_s/delta_0: 2.9633E-07 | 6: delta_r/delta_0: 1.4789E-07 | 7: delta_s/delta_0: 5.2257E-07 | 8: delta_r/delta_0: 3.2454E-08 | 9: delta_s/delta_0: 8.8591E-08 | 10: delta_r/delta_0: 5.4747E-08 | 11: delta_s/delta_0: 1.7248E-09 | 12: delta_r/delta_0: 9.3519E-10 | 13: delta_s/delta_0: 5.5795E-08 | 14: delta_r/delta_0: 3.7475E-09 | 15: delta_s/delta_0: 6.7390E-11 | Reached bicg-stab tolerance | BP delta = -0.2784715 -0.3030787 2827467.95547092 | BP delta = -0.2784715 -0.3153905 2827481.65748200 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95920421 | --> Sampling calibration, mode = relcal | relcal = 0.1064542 0.1394479 -0.1101914 -0.1357108 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0383785E-02 1.3072491E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7916E-04 | 2: delta_r/delta_0: 4.7649E-06 | 3: delta_s/delta_0: 3.8051E-06 | 4: delta_r/delta_0: 7.0221E-07 | 5: delta_s/delta_0: 1.9217E-07 | 6: delta_r/delta_0: 1.1474E-07 | 7: delta_s/delta_0: 5.3469E-07 | 8: delta_r/delta_0: 2.4513E-08 | 9: delta_s/delta_0: 2.6183E-08 | 10: delta_r/delta_0: 1.7926E-08 | 11: delta_s/delta_0: 1.2872E-09 | 12: delta_r/delta_0: 8.2164E-10 | 13: delta_s/delta_0: 2.3544E-09 | 14: delta_r/delta_0: 1.1437E-09 | 15: delta_s/delta_0: 8.9001E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.943554113916910E-002 3.696934360487993E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7916E-04 | 2: delta_r/delta_0: 4.7649E-06 | 3: delta_s/delta_0: 3.8051E-06 | 4: delta_r/delta_0: 7.0223E-07 | 5: delta_s/delta_0: 1.9219E-07 | 6: delta_r/delta_0: 1.1475E-07 | 7: delta_s/delta_0: 5.3487E-07 | 8: delta_r/delta_0: 2.4511E-08 | 9: delta_s/delta_0: 2.6177E-08 | 10: delta_r/delta_0: 1.7926E-08 | 11: delta_s/delta_0: 1.2871E-09 | 12: delta_r/delta_0: 8.2144E-10 | 13: delta_s/delta_0: 2.3496E-09 | 14: delta_r/delta_0: 1.1423E-09 | 15: delta_s/delta_0: 8.8990E-11 | Reached bicg-stab tolerance | BP delta = 7.9390993E-03 0.1117756 3003393.82833195 | BP delta = 7.9390993E-03 0.1066826 3003409.06358012 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52157286 | --> Sampling calibration, mode = relcal | relcal = -5.1056996E-02 -3.7293201E-03 2.7286854E-02 2.7499463E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.4704378E-05 2.1244078E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8522E-05 | 2: delta_r/delta_0: 4.2163E-06 | 3: delta_s/delta_0: 2.6104E-06 | 4: delta_r/delta_0: 3.6491E-07 | 5: delta_s/delta_0: 6.6622E-08 | 6: delta_r/delta_0: 2.8760E-08 | 7: delta_s/delta_0: 2.0305E-06 | 8: delta_r/delta_0: 1.1017E-07 | 9: delta_s/delta_0: 4.2677E-09 | 10: delta_r/delta_0: 1.8517E-09 | 11: delta_s/delta_0: 8.2002E-09 | 12: delta_r/delta_0: 2.9549E-10 | 13: delta_s/delta_0: 1.4220E-10 | 14: delta_r/delta_0: 4.2597E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.127116552301066E-002 5.483249818271885E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8522E-05 | 2: delta_r/delta_0: 4.2163E-06 | 3: delta_s/delta_0: 2.6104E-06 | 4: delta_r/delta_0: 3.6491E-07 | 5: delta_s/delta_0: 6.6626E-08 | 6: delta_r/delta_0: 2.8760E-08 | 7: delta_s/delta_0: 2.0286E-06 | 8: delta_r/delta_0: 1.1005E-07 | 9: delta_s/delta_0: 4.2676E-09 | 10: delta_r/delta_0: 1.8517E-09 | 11: delta_s/delta_0: 8.1895E-09 | 12: delta_r/delta_0: 2.9500E-10 | 13: delta_s/delta_0: 1.4260E-10 | 14: delta_r/delta_0: 4.2659E-11 | Reached bicg-stab tolerance | BP delta = 0.1006821 0.1997395 2435457.07208183 | BP delta = 0.1006821 0.1904612 2435442.24464397 | BP chisq diff = -14.8, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42152052 | --> Sampling calibration, mode = relcal | relcal = 4.5554161E-02 3.9672222E-02 -2.8263265E-02 -5.6963120E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5844140E-03 3.3937797E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2712E-05 | 2: delta_r/delta_0: 3.5808E-06 | 3: delta_s/delta_0: 2.2398E-06 | 4: delta_r/delta_0: 3.4489E-07 | 5: delta_s/delta_0: 6.3115E-08 | 6: delta_r/delta_0: 3.5693E-08 | 7: delta_s/delta_0: 5.1800E-08 | 8: delta_r/delta_0: 1.0072E-08 | 9: delta_s/delta_0: 2.6662E-09 | 10: delta_r/delta_0: 1.8708E-09 | 11: delta_s/delta_0: 1.9420E-08 | 12: delta_r/delta_0: 2.9231E-09 | 13: delta_s/delta_0: 8.9872E-10 | 14: delta_r/delta_0: 6.9424E-10 | 15: delta_s/delta_0: 2.8198E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.446680416245005E-002 4.996401957656320E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2712E-05 | 2: delta_r/delta_0: 3.5808E-06 | 3: delta_s/delta_0: 2.2398E-06 | 4: delta_r/delta_0: 3.4488E-07 | 5: delta_s/delta_0: 6.3114E-08 | 6: delta_r/delta_0: 3.5693E-08 | 7: delta_s/delta_0: 5.1794E-08 | 8: delta_r/delta_0: 1.0072E-08 | 9: delta_s/delta_0: 2.6662E-09 | 10: delta_r/delta_0: 1.8709E-09 | 11: delta_s/delta_0: 1.9333E-08 | 12: delta_r/delta_0: 2.9168E-09 | 13: delta_s/delta_0: 8.9140E-10 | 14: delta_r/delta_0: 6.8876E-10 | 15: delta_s/delta_0: 2.8232E-11 | Reached bicg-stab tolerance | BP delta = 0.1112376 8.3633028E-03 2322171.40726203 | BP delta = 0.1112376 2.2379024E-02 2322184.47868266 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28161885 | --> Sampling calibration, mode = relcal | relcal = 2.4253592E-02 4.5159418E-02 -2.3408813E-02 -4.6004195E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0676756E-02 4.4520940E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0702E-04 | 2: delta_r/delta_0: 8.8262E-06 | 3: delta_s/delta_0: 1.5154E-06 | 4: delta_r/delta_0: 2.1650E-07 | 5: delta_s/delta_0: 7.9604E-08 | 6: delta_r/delta_0: 1.8931E-08 | 7: delta_s/delta_0: 9.4722E-09 | 8: delta_r/delta_0: 5.5563E-09 | 9: delta_s/delta_0: 1.9574E-07 | 10: delta_r/delta_0: 5.9142E-09 | 11: delta_s/delta_0: 1.4384E-09 | 12: delta_r/delta_0: 5.3419E-10 | 13: delta_s/delta_0: 9.7628E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.582266162322809E-003 7.844229207758200E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0702E-04 | 2: delta_r/delta_0: 8.8262E-06 | 3: delta_s/delta_0: 1.5154E-06 | 4: delta_r/delta_0: 2.1650E-07 | 5: delta_s/delta_0: 7.9608E-08 | 6: delta_r/delta_0: 1.8932E-08 | 7: delta_s/delta_0: 9.4723E-09 | 8: delta_r/delta_0: 5.5563E-09 | 9: delta_s/delta_0: 1.9572E-07 | 10: delta_r/delta_0: 5.9141E-09 | 11: delta_s/delta_0: 1.4383E-09 | 12: delta_r/delta_0: 5.3419E-10 | 13: delta_s/delta_0: 9.7631E-11 | Reached bicg-stab tolerance | BP delta = -0.2239126 -0.3803730 2490207.01732333 | BP delta = -0.2239126 -0.3775392 2490200.50980088 | BP chisq diff = -6.5, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29385589 | --> Sampling calibration, mode = relcal | relcal = 4.1103770E-04 1.0316012E-02 -3.8126542E-03 -6.9143958E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1964732E-02 1.4288075E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3553E-04 | 2: delta_r/delta_0: 1.1239E-05 | 3: delta_s/delta_0: 1.8823E-06 | 4: delta_r/delta_0: 3.1289E-07 | 5: delta_s/delta_0: 1.1532E-07 | 6: delta_r/delta_0: 2.6244E-08 | 7: delta_s/delta_0: 1.1377E-08 | 8: delta_r/delta_0: 7.4675E-09 | 9: delta_s/delta_0: 5.4492E-09 | 10: delta_r/delta_0: 4.1546E-09 | 11: delta_s/delta_0: 2.9503E-05 | 12: delta_r/delta_0: 1.0912E-07 | 13: delta_s/delta_0: 2.7815E-10 | 14: delta_r/delta_0: 1.0834E-10 | 15: delta_s/delta_0: 1.1011E-10 | 16: delta_r/delta_0: 4.2269E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.536936220531722E-003 8.308729764710443E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3553E-04 | 2: delta_r/delta_0: 1.1239E-05 | 3: delta_s/delta_0: 1.8823E-06 | 4: delta_r/delta_0: 3.1288E-07 | 5: delta_s/delta_0: 1.1532E-07 | 6: delta_r/delta_0: 2.6244E-08 | 7: delta_s/delta_0: 1.1377E-08 | 8: delta_r/delta_0: 7.4674E-09 | 9: delta_s/delta_0: 5.4492E-09 | 10: delta_r/delta_0: 4.1546E-09 | 11: delta_s/delta_0: 2.9513E-05 | 12: delta_r/delta_0: 1.0918E-07 | 13: delta_s/delta_0: 2.7811E-10 | 14: delta_r/delta_0: 1.0836E-10 | 15: delta_s/delta_0: 1.1011E-10 | 16: delta_r/delta_0: 4.2269E-11 | Reached bicg-stab tolerance | BP delta = -0.7938536 -0.7497562 2737473.29196549 | BP delta = -0.7938536 -0.7478800 2737474.45836322 | BP chisq diff = 1.2, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26503084 | --> Sampling calibration, mode = relcal | relcal = -5.6194067E-03 1.5033006E-02 -2.3564221E-03 -7.0571764E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.0122058E-03 3.3925234E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4074E-04 | 2: delta_r/delta_0: 1.2121E-05 | 3: delta_s/delta_0: 2.1322E-06 | 4: delta_r/delta_0: 2.5492E-07 | 5: delta_s/delta_0: 1.0018E-07 | 6: delta_r/delta_0: 2.0873E-08 | 7: delta_s/delta_0: 8.5257E-09 | 8: delta_r/delta_0: 5.1882E-09 | 9: delta_s/delta_0: 4.3505E-09 | 10: delta_r/delta_0: 2.7574E-09 | 11: delta_s/delta_0: 1.0970E-05 | 12: delta_r/delta_0: 3.2962E-08 | 13: delta_s/delta_0: 4.6392E-10 | 14: delta_r/delta_0: 2.9755E-10 | 15: delta_s/delta_0: 7.5133E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.542466497772030E-003 9.154735353435284E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4074E-04 | 2: delta_r/delta_0: 1.2121E-05 | 3: delta_s/delta_0: 2.1322E-06 | 4: delta_r/delta_0: 2.5493E-07 | 5: delta_s/delta_0: 1.0018E-07 | 6: delta_r/delta_0: 2.0874E-08 | 7: delta_s/delta_0: 8.5259E-09 | 8: delta_r/delta_0: 5.1884E-09 | 9: delta_s/delta_0: 4.3507E-09 | 10: delta_r/delta_0: 2.7577E-09 | 11: delta_s/delta_0: 1.0980E-05 | 12: delta_r/delta_0: 3.2992E-08 | 13: delta_s/delta_0: 4.6386E-10 | 14: delta_r/delta_0: 2.9744E-10 | 15: delta_s/delta_0: 7.5141E-11 | Reached bicg-stab tolerance | BP delta = 0.3375673 0.3760320 2516671.29687519 | BP delta = 0.3375673 0.3785090 2516671.46558467 | BP chisq diff = 0.2, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25661043 | --> Sampling calibration, mode = relcal | relcal = -3.1725548E-02 -2.5867041E-02 3.6940485E-02 2.0652104E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7986359E-02 2.1700047E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4493E-04 | 2: delta_r/delta_0: 1.2265E-05 | 3: delta_s/delta_0: 1.9264E-06 | 4: delta_r/delta_0: 3.5512E-07 | 5: delta_s/delta_0: 1.4970E-07 | 6: delta_r/delta_0: 2.9000E-08 | 7: delta_s/delta_0: 1.3836E-08 | 8: delta_r/delta_0: 8.5411E-09 | 9: delta_s/delta_0: 1.6652E-08 | 10: delta_r/delta_0: 5.3797E-09 | 11: delta_s/delta_0: 1.4729E-08 | 12: delta_r/delta_0: 2.4217E-09 | 13: delta_s/delta_0: 2.3962E-09 | 14: delta_r/delta_0: 1.2990E-09 | 15: delta_s/delta_0: 1.0920E-10 | 16: delta_r/delta_0: 9.1648E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.383071633755085E-003 8.673040195592577E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4493E-04 | 2: delta_r/delta_0: 1.2265E-05 | 3: delta_s/delta_0: 1.9264E-06 | 4: delta_r/delta_0: 3.5507E-07 | 5: delta_s/delta_0: 1.4966E-07 | 6: delta_r/delta_0: 2.8998E-08 | 7: delta_s/delta_0: 1.3835E-08 | 8: delta_r/delta_0: 8.5409E-09 | 9: delta_s/delta_0: 1.6649E-08 | 10: delta_r/delta_0: 5.3795E-09 | 11: delta_s/delta_0: 1.4747E-08 | 12: delta_r/delta_0: 2.4263E-09 | 13: delta_s/delta_0: 2.4001E-09 | 14: delta_r/delta_0: 1.3018E-09 | 15: delta_s/delta_0: 1.0921E-10 | 16: delta_r/delta_0: 9.1666E-11 | Reached bicg-stab tolerance | BP delta = -0.8221069 -0.9651724 2706683.56832428 | BP delta = -0.8221069 -0.9729988 2706660.52438058 | BP chisq diff = -23.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160031 | New value = -3.142184 | poltype: 2 pol: 1 CPU time specind = 1.9832134E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170597 | New value = -3.175899 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144877 | New value = -3.181490 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.076716 | New value = -3.037587 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.068337 | New value = -3.100127 | poltype: 2 pol: 2 CPU time specind = 3.1869888E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.93 | CG iter. 1 -- res = 0.13561E+08, tol = 0.77047E+01, time = 5.47 | CG iter. 2 -- res = 0.33596E+06, tol = 0.77047E+01, time = 5.30 | CG iter. 3 -- res = 0.47045E+05, tol = 0.77047E+01, time = 5.35 | CG iter. 4 -- res = 0.20847E+05, tol = 0.77047E+01, time = 11.60 | CG iter. 5 -- res = 0.96772E+04, tol = 0.77047E+01, time = 5.79 | CG iter. 6 -- res = 0.51525E+04, tol = 0.77047E+01, time = 5.53 | CG iter. 7 -- res = 0.33272E+04, tol = 0.77047E+01, time = 5.65 | CG iter. 8 -- res = 0.23143E+04, tol = 0.77047E+01, time = 5.47 | CG iter. 9 -- res = 0.19221E+04, tol = 0.77047E+01, time = 5.75 | CG iter. 10 -- res = 0.19674E+04, tol = 0.77047E+01, time = 5.45 | CG iter. 11 -- res = 0.17626E+04, tol = 0.77047E+01, time = 5.50 | CG iter. 12 -- res = 0.12945E+04, tol = 0.77047E+01, time = 5.70 | CG iter. 13 -- res = 0.88630E+03, tol = 0.77047E+01, time = 5.36 | CG iter. 14 -- res = 0.68486E+03, tol = 0.77047E+01, time = 5.44 | CG iter. 15 -- res = 0.58941E+03, tol = 0.77047E+01, time = 5.53 | CG iter. 16 -- res = 0.48874E+03, tol = 0.77047E+01, time = 5.36 | CG iter. 17 -- res = 0.36961E+03, tol = 0.77047E+01, time = 5.12 | CG iter. 18 -- res = 0.27308E+03, tol = 0.77047E+01, time = 5.65 | CG iter. 19 -- res = 0.22939E+03, tol = 0.77047E+01, time = 6.58 | CG iter. 20 -- res = 0.18541E+03, tol = 0.77047E+01, time = 6.22 | CG iter. 21 -- res = 0.13096E+03, tol = 0.77047E+01, time = 6.11 | CG iter. 22 -- res = 0.91784E+02, tol = 0.77047E+01, time = 5.25 | CG iter. 23 -- res = 0.69513E+02, tol = 0.77047E+01, time = 5.31 | CG iter. 24 -- res = 0.59964E+02, tol = 0.77047E+01, time = 5.57 | CG iter. 25 -- res = 0.46786E+02, tol = 0.77047E+01, time = 5.23 | CG iter. 26 -- res = 0.33876E+02, tol = 0.77047E+01, time = 5.59 | CG iter. 27 -- res = 0.24681E+02, tol = 0.77047E+01, time = 5.61 | CG iter. 28 -- res = 0.19622E+02, tol = 0.77047E+01, time = 5.50 | CG iter. 29 -- res = 0.15190E+02, tol = 0.77047E+01, time = 5.48 | CG iter. 30 -- res = 0.10680E+02, tol = 0.77047E+01, time = 5.17 | CG iter. 31 -- res = 0.77137E+01, tol = 0.77047E+01, time = 5.43 | CG iter. 32 -- res = 0.60958E+01, tol = 0.77047E+01, time = 5.42 | CG iter. 33 -- res = 0.49120E+01, tol = 0.77047E+01, time = 5.18 | CG iter. 34 -- res = 0.37269E+01, tol = 0.77047E+01, time = 5.65 | CG iter. 35 -- res = 0.26771E+01, tol = 0.77047E+01, time = 5.48 | CG iter. 36 -- res = 0.21084E+01, tol = 0.77047E+01, time = 5.70 | CG iter. 37 -- res = 0.17089E+01, tol = 0.77047E+01, time = 5.41 | CG iter. 38 -- res = 0.12781E+01, tol = 0.77047E+01, time = 5.26 | CG iter. 39 -- res = 0.91273E+00, tol = 0.77047E+01, time = 5.19 | CG iter. 40 -- res = 0.70369E+00, tol = 0.77047E+01, time = 5.58 | CG iter. 41 -- res = 0.55429E+00, tol = 0.77047E+01, time = 5.31 | CG iter. 42 -- res = 0.43670E+00, tol = 0.77047E+01, time = 5.29 | CG iter. 43 -- res = 0.32058E+00, tol = 0.77047E+01, time = 5.55 | CG iter. 44 -- res = 0.23300E+00, tol = 0.77047E+01, time = 5.60 | CG iter. 45 -- res = 0.17865E+00, tol = 0.77047E+01, time = 5.35 | CG iter. 46 -- res = 0.14414E+00, tol = 0.77047E+01, time = 5.41 | CG iter. 47 -- res = 0.11023E+00, tol = 0.77047E+01, time = 5.49 | CG iter. 48 -- res = 0.79292E-01, tol = 0.77047E+01, time = 5.23 | CG iter. 49 -- res = 0.61083E-01, tol = 0.77047E+01, time = 5.41 | CG iter. 50 -- res = 0.47826E-01, tol = 0.77047E+01, time = 5.54 | Final CG iter 51 -- res = 0.47826E-01, tol = 0.77047E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11034288.559 | Old band monopole 9187297.007 | Change to band monopole 1846991.552 | Change to component monopole -1846983.607 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.12994E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.21922E+02, tol = 0.47627E+18, time = 5.14 | CG iter. 3 -- res = 0.66028E+00, tol = 0.47627E+18, time = 5.04 | CG iter. 4 -- res = 0.12793E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.45824E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11034241.098 | (Sampled value in CG: 11049748.962 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.474211 | New value = 1.473417 | poltype: 2 pol: 1 CPU time specind = 2.1028996E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489556 | New value = 1.476897 | poltype: 2 pol: 2 CPU time specind = 1.0348082E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.23994E+08, tol = 0.47519E+04, time = 6.21 | CG iter. 2 -- res = 0.53206E+07, tol = 0.47519E+04, time = 6.92 | CG iter. 3 -- res = 0.84719E+06, tol = 0.47519E+04, time = 6.76 | CG iter. 4 -- res = 0.36384E+06, tol = 0.47519E+04, time = 6.61 | CG iter. 5 -- res = 0.15904E+06, tol = 0.47519E+04, time = 6.46 | CG iter. 6 -- res = 0.82651E+05, tol = 0.47519E+04, time = 6.18 | CG iter. 7 -- res = 0.44704E+05, tol = 0.47519E+04, time = 6.47 | CG iter. 8 -- res = 0.21292E+05, tol = 0.47519E+04, time = 6.42 | CG iter. 9 -- res = 0.92092E+04, tol = 0.47519E+04, time = 5.99 | CG iter. 10 -- res = 0.38036E+04, tol = 0.47519E+04, time = 6.36 | CG iter. 11 -- res = 0.17540E+04, tol = 0.47519E+04, time = 6.13 | CG iter. 12 -- res = 0.92222E+03, tol = 0.47519E+04, time = 6.27 | CG iter. 13 -- res = 0.51370E+03, tol = 0.47519E+04, time = 6.24 | CG iter. 14 -- res = 0.28285E+03, tol = 0.47519E+04, time = 6.11 | CG iter. 15 -- res = 0.14221E+03, tol = 0.47519E+04, time = 6.55 | CG iter. 16 -- res = 0.66357E+02, tol = 0.47519E+04, time = 7.27 | CG iter. 17 -- res = 0.31257E+02, tol = 0.47519E+04, time = 6.56 | CG iter. 18 -- res = 0.15985E+02, tol = 0.47519E+04, time = 6.68 | CG iter. 19 -- res = 0.86994E+01, tol = 0.47519E+04, time = 6.63 | CG iter. 20 -- res = 0.50271E+01, tol = 0.47519E+04, time = 6.42 | CG iter. 21 -- res = 0.27336E+01, tol = 0.47519E+04, time = 6.22 | CG iter. 22 -- res = 0.13844E+01, tol = 0.47519E+04, time = 6.34 | CG iter. 23 -- res = 0.69559E+00, tol = 0.47519E+04, time = 6.04 | CG iter. 24 -- res = 0.35202E+00, tol = 0.47519E+04, time = 6.06 | CG iter. 25 -- res = 0.19246E+00, tol = 0.47519E+04, time = 6.29 | CG iter. 26 -- res = 0.10970E+00, tol = 0.47519E+04, time = 6.49 | CG iter. 27 -- res = 0.62637E-01, tol = 0.47519E+04, time = 6.20 | CG iter. 28 -- res = 0.33629E-01, tol = 0.47519E+04, time = 5.92 | CG iter. 29 -- res = 0.17649E-01, tol = 0.47519E+04, time = 6.14 | CG iter. 30 -- res = 0.93462E-02, tol = 0.47519E+04, time = 5.98 | CG iter. 31 -- res = 0.49979E-02, tol = 0.47519E+04, time = 6.11 | CG iter. 32 -- res = 0.28217E-02, tol = 0.47519E+04, time = 6.26 | CG iter. 33 -- res = 0.16092E-02, tol = 0.47519E+04, time = 5.97 | CG iter. 34 -- res = 0.86436E-03, tol = 0.47519E+04, time = 6.44 | CG iter. 35 -- res = 0.44547E-03, tol = 0.47519E+04, time = 13.07 | Final CG iter 36 -- res = 0.44547E-03, tol = 0.47519E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.567 2.735 | New value -4.534 | Old value -0.567 | Difference -3.967 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.81174E+06, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.14737E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.27867E+00, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.19384E-03, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.48679E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11034241.098 | (Sampled value in CG: 11050787.206 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.453629 | New value = -3.512592 | poltype: 1 pol: 1 CPU time specind = 1.7585993E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.20373E+07, tol = 0.29184E+01, time = 2.71 | CG iter. 2 -- res = 0.81217E+06, tol = 0.29184E+01, time = 2.50 | CG iter. 3 -- res = 0.14020E+06, tol = 0.29184E+01, time = 2.49 | CG iter. 4 -- res = 0.51240E+05, tol = 0.29184E+01, time = 2.59 | CG iter. 5 -- res = 0.26634E+05, tol = 0.29184E+01, time = 2.66 | CG iter. 6 -- res = 0.14595E+05, tol = 0.29184E+01, time = 2.66 | CG iter. 7 -- res = 0.64953E+04, tol = 0.29184E+01, time = 9.18 | CG iter. 8 -- res = 0.31844E+04, tol = 0.29184E+01, time = 2.67 | CG iter. 9 -- res = 0.13460E+04, tol = 0.29184E+01, time = 2.53 | CG iter. 10 -- res = 0.54288E+03, tol = 0.29184E+01, time = 2.40 | CG iter. 11 -- res = 0.22403E+03, tol = 0.29184E+01, time = 2.58 | CG iter. 12 -- res = 0.10241E+03, tol = 0.29184E+01, time = 2.73 | CG iter. 13 -- res = 0.51190E+02, tol = 0.29184E+01, time = 2.56 | CG iter. 14 -- res = 0.26531E+02, tol = 0.29184E+01, time = 2.45 | CG iter. 15 -- res = 0.12286E+02, tol = 0.29184E+01, time = 2.52 | CG iter. 16 -- res = 0.55299E+01, tol = 0.29184E+01, time = 2.48 | CG iter. 17 -- res = 0.23463E+01, tol = 0.29184E+01, time = 2.67 | CG iter. 18 -- res = 0.10749E+01, tol = 0.29184E+01, time = 2.27 | CG iter. 19 -- res = 0.50694E+00, tol = 0.29184E+01, time = 2.64 | CG iter. 20 -- res = 0.26144E+00, tol = 0.29184E+01, time = 2.64 | CG iter. 21 -- res = 0.13402E+00, tol = 0.29184E+01, time = 2.80 | CG iter. 22 -- res = 0.66982E-01, tol = 0.29184E+01, time = 2.74 | CG iter. 23 -- res = 0.31266E-01, tol = 0.29184E+01, time = 2.45 | CG iter. 24 -- res = 0.13753E-01, tol = 0.29184E+01, time = 2.45 | CG iter. 25 -- res = 0.65332E-02, tol = 0.29184E+01, time = 2.50 | CG iter. 26 -- res = 0.33246E-02, tol = 0.29184E+01, time = 2.59 | CG iter. 27 -- res = 0.16974E-02, tol = 0.29184E+01, time = 2.31 | CG iter. 28 -- res = 0.87281E-03, tol = 0.29184E+01, time = 2.62 | CG iter. 29 -- res = 0.40532E-03, tol = 0.29184E+01, time = 2.56 | CG iter. 30 -- res = 0.19662E-03, tol = 0.29184E+01, time = 2.54 | CG iter. 31 -- res = 0.87261E-04, tol = 0.29184E+01, time = 2.59 | CG iter. 32 -- res = 0.43804E-04, tol = 0.29184E+01, time = 2.54 | CG iter. 33 -- res = 0.21730E-04, tol = 0.29184E+01, time = 2.40 | CG iter. 34 -- res = 0.10683E-04, tol = 0.29184E+01, time = 2.57 | CG iter. 35 -- res = 0.53141E-05, tol = 0.29184E+01, time = 2.52 | CG iter. 36 -- res = 0.24972E-05, tol = 0.29184E+01, time = 2.53 | CG iter. 37 -- res = 0.11459E-05, tol = 0.29184E+01, time = 2.65 | CG iter. 38 -- res = 0.56525E-06, tol = 0.29184E+01, time = 2.75 | CG iter. 39 -- res = 0.26923E-06, tol = 0.29184E+01, time = 3.13 | CG iter. 40 -- res = 0.13565E-06, tol = 0.29184E+01, time = 3.72 | CG iter. 41 -- res = 0.68388E-07, tol = 0.29184E+01, time = 3.13 | CG iter. 42 -- res = 0.32911E-07, tol = 0.29184E+01, time = 5.53 | CG iter. 43 -- res = 0.14839E-07, tol = 0.29184E+01, time = 3.80 | CG iter. 44 -- res = 0.69067E-08, tol = 0.29184E+01, time = 2.67 | CG iter. 45 -- res = 0.32612E-08, tol = 0.29184E+01, time = 2.49 | CG iter. 46 -- res = 0.16640E-08, tol = 0.29184E+01, time = 2.57 | CG iter. 47 -- res = 0.84072E-09, tol = 0.29184E+01, time = 2.49 | CG iter. 48 -- res = 0.40929E-09, tol = 0.29184E+01, time = 2.28 | CG iter. 49 -- res = 0.19253E-09, tol = 0.29184E+01, time = 2.57 | CG iter. 50 -- res = 0.86971E-10, tol = 0.29184E+01, time = 2.45 | Final CG iter 51 -- res = 0.86971E-10, tol = 0.29184E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.306 5.815 | New value -2.728 | Old value 5.306 | Difference -8.033 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.63043E+05, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.34670E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.15923E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.15734E-02, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.14042E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11034241.098 | (Sampled value in CG: 11048885.172 ) | CPU time specind = 1147.443 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.68057E+08, tol = 0.57467E+04, time = 10.95 | CG iter. 2 -- res = 0.58285E+08, tol = 0.57467E+04, time = 11.43 | CG iter. 3 -- res = 0.14944E+08, tol = 0.57467E+04, time = 11.05 | CG iter. 4 -- res = 0.63592E+07, tol = 0.57467E+04, time = 11.07 | CG iter. 5 -- res = 0.37708E+07, tol = 0.57467E+04, time = 11.43 | CG iter. 6 -- res = 0.21390E+07, tol = 0.57467E+04, time = 11.27 | CG iter. 7 -- res = 0.12604E+07, tol = 0.57467E+04, time = 11.07 | CG iter. 8 -- res = 0.83729E+06, tol = 0.57467E+04, time = 10.81 | CG iter. 9 -- res = 0.53552E+06, tol = 0.57467E+04, time = 18.46 | CG iter. 10 -- res = 0.31041E+06, tol = 0.57467E+04, time = 12.67 | CG iter. 11 -- res = 0.16387E+06, tol = 0.57467E+04, time = 10.74 | CG iter. 12 -- res = 0.86448E+05, tol = 0.57467E+04, time = 10.69 | CG iter. 13 -- res = 0.47402E+05, tol = 0.57467E+04, time = 11.08 | CG iter. 14 -- res = 0.27852E+05, tol = 0.57467E+04, time = 11.36 | CG iter. 15 -- res = 0.17425E+05, tol = 0.57467E+04, time = 10.89 | CG iter. 16 -- res = 0.11910E+05, tol = 0.57467E+04, time = 12.72 | CG iter. 17 -- res = 0.84662E+04, tol = 0.57467E+04, time = 11.78 | CG iter. 18 -- res = 0.58409E+04, tol = 0.57467E+04, time = 11.05 | CG iter. 19 -- res = 0.37518E+04, tol = 0.57467E+04, time = 10.97 | CG iter. 20 -- res = 0.23694E+04, tol = 0.57467E+04, time = 10.89 | CG iter. 21 -- res = 0.15610E+04, tol = 0.57467E+04, time = 11.13 | CG iter. 22 -- res = 0.11754E+04, tol = 0.57467E+04, time = 11.22 | CG iter. 23 -- res = 0.10226E+04, tol = 0.57467E+04, time = 11.02 | CG iter. 24 -- res = 0.98793E+03, tol = 0.57467E+04, time = 11.28 | CG iter. 25 -- res = 0.98243E+03, tol = 0.57467E+04, time = 11.30 | CG iter. 26 -- res = 0.96129E+03, tol = 0.57467E+04, time = 11.43 | CG iter. 27 -- res = 0.91751E+03, tol = 0.57467E+04, time = 10.77 | CG iter. 28 -- res = 0.83160E+03, tol = 0.57467E+04, time = 11.42 | CG iter. 29 -- res = 0.75534E+03, tol = 0.57467E+04, time = 11.66 | CG iter. 30 -- res = 0.72218E+03, tol = 0.57467E+04, time = 11.09 | CG iter. 31 -- res = 0.68393E+03, tol = 0.57467E+04, time = 11.24 | CG iter. 32 -- res = 0.62922E+03, tol = 0.57467E+04, time = 10.99 | CG iter. 33 -- res = 0.54779E+03, tol = 0.57467E+04, time = 11.27 | CG iter. 34 -- res = 0.43513E+03, tol = 0.57467E+04, time = 11.20 | CG iter. 35 -- res = 0.33531E+03, tol = 0.57467E+04, time = 17.84 | CG iter. 36 -- res = 0.26787E+03, tol = 0.57467E+04, time = 11.18 | CG iter. 37 -- res = 0.23183E+03, tol = 0.57467E+04, time = 11.03 | CG iter. 38 -- res = 0.21337E+03, tol = 0.57467E+04, time = 10.90 | CG iter. 39 -- res = 0.20094E+03, tol = 0.57467E+04, time = 11.13 | CG iter. 40 -- res = 0.18188E+03, tol = 0.57467E+04, time = 11.12 | CG iter. 41 -- res = 0.16048E+03, tol = 0.57467E+04, time = 11.09 | CG iter. 42 -- res = 0.13925E+03, tol = 0.57467E+04, time = 11.95 | CG iter. 43 -- res = 0.11954E+03, tol = 0.57467E+04, time = 12.39 | CG iter. 44 -- res = 0.10712E+03, tol = 0.57467E+04, time = 11.27 | CG iter. 45 -- res = 0.99084E+02, tol = 0.57467E+04, time = 11.54 | CG iter. 46 -- res = 0.95572E+02, tol = 0.57467E+04, time = 10.78 | CG iter. 47 -- res = 0.87130E+02, tol = 0.57467E+04, time = 10.93 | CG iter. 48 -- res = 0.73753E+02, tol = 0.57467E+04, time = 11.28 | CG iter. 49 -- res = 0.60633E+02, tol = 0.57467E+04, time = 10.74 | CG iter. 50 -- res = 0.51219E+02, tol = 0.57467E+04, time = 11.35 | CG iter. 51 -- res = 0.45679E+02, tol = 0.57467E+04, time = 11.26 | CG iter. 52 -- res = 0.41515E+02, tol = 0.57467E+04, time = 11.46 | CG iter. 53 -- res = 0.39369E+02, tol = 0.57467E+04, time = 11.33 | CG iter. 54 -- res = 0.36914E+02, tol = 0.57467E+04, time = 10.85 | CG iter. 55 -- res = 0.33437E+02, tol = 0.57467E+04, time = 11.29 | CG iter. 56 -- res = 0.30217E+02, tol = 0.57467E+04, time = 11.36 | CG iter. 57 -- res = 0.27496E+02, tol = 0.57467E+04, time = 11.21 | CG iter. 58 -- res = 0.25607E+02, tol = 0.57467E+04, time = 10.71 | CG iter. 59 -- res = 0.24309E+02, tol = 0.57467E+04, time = 11.49 | CG iter. 60 -- res = 0.22991E+02, tol = 0.57467E+04, time = 11.38 | Final CG iter 61 -- res = 0.22991E+02, tol = 0.57467E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.929 ( -229.568 -2232.164 2514.910 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8583065.295 | Old band monopole 11034288.559 | Change to band monopole -2451223.264 | Change to component monopole 2451212.721 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.517 2.754 | New value 1.013 | Old value -4.517 | Difference 5.529 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.607 ( 6.540 13.755 -13.995 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.299 4.792 | New value -1.388 | Old value 4.299 | Difference -5.687 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.16881E+07, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.66853E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.27636E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.58925E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.89472E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8583028.377 | (Sampled value in CG: 8556190.811 ) | Chain = 1 -- chisq = 0.81591195E+09 | Chain = 1 -- wall time = 17801.669 sec Available RAM: MemAvailable: 499255152 kB Available Swap: SwapFree: 1055090036 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 287 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443087 | --> Sampling calibration, mode = relcal | relcal = 1.3422323E-02 7.4706977E-04 -1.5957298E-03 -1.2573664E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1143489 0.1208063 97041586.6458726 | BP delta = 0.1149315 0.1213889 97041586.0162703 | BP chisq diff = -0.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632523 | --> Sampling calibration, mode = relcal | relcal = -2.8210832E-03 -7.0391392E-04 1.6794477E-03 1.6142544E-03 -4.0878219E-04 6.4007723E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5366583 15217053.8214711 | BP delta = 0.0000000E+00 -0.5383548 15217055.0914216 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17949671209100 | --> Sampling calibration, mode = relcal | relcal = -7.4920818E-02 -5.8266450E-02 9.1648072E-02 4.1539192E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8981772E-04 4.4278530E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2871E-05 | 2: delta_r/delta_0: 7.6531E-07 | 3: delta_s/delta_0: 2.5635E-07 | 4: delta_r/delta_0: 1.1784E-08 | 5: delta_s/delta_0: 3.7178E-07 | 6: delta_r/delta_0: 2.2319E-08 | 7: delta_s/delta_0: 2.2842E-10 | 8: delta_r/delta_0: 9.3841E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.117412822318153E-003 2.744553239097636E-005 | BP delta = 7.0877910E-02 9.0855613E-02 50485652.6146986 | BP delta = 6.7953065E-02 8.7930769E-02 50485652.2503309 | BP chisq diff = -0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02607021 | --> Sampling calibration, mode = relcal | relcal = -0.1067082 -9.5585115E-02 0.1449611 5.7332244E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3688832E-03 1.5778379E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5822E-05 | 2: delta_r/delta_0: 1.2766E-06 | 3: delta_s/delta_0: 2.6448E-07 | 4: delta_r/delta_0: 3.4437E-08 | 5: delta_s/delta_0: 2.2025E-08 | 6: delta_r/delta_0: 5.9640E-09 | 7: delta_s/delta_0: 4.9179E-09 | 8: delta_r/delta_0: 1.5290E-09 | 9: delta_s/delta_0: 7.1532E-10 | 10: delta_r/delta_0: 5.3763E-10 | 11: delta_s/delta_0: 2.0180E-09 | 12: delta_r/delta_0: 5.7778E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.546373858972099E-003 2.810636639843747E-005 | BP delta = -0.3281711 -0.3008609 57388977.1264280 | BP delta = -0.3275390 -0.3002288 57388977.0436869 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81248897 | --> Sampling calibration, mode = relcal | relcal = 0.2956412 0.2248960 -0.2838987 -0.2366385 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0864409E-04 4.4888551E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7976E-04 | 2: delta_r/delta_0: 1.8776E-05 | 3: delta_s/delta_0: 2.4542E-05 | 4: delta_r/delta_0: 1.6385E-06 | 5: delta_s/delta_0: 3.7615E-07 | 6: delta_r/delta_0: 1.7852E-07 | 7: delta_s/delta_0: 6.1203E-07 | 8: delta_r/delta_0: 3.8492E-08 | 9: delta_s/delta_0: 8.2072E-08 | 10: delta_r/delta_0: 1.9913E-08 | 11: delta_s/delta_0: 2.6408E-09 | 12: delta_r/delta_0: 9.5339E-10 | 13: delta_s/delta_0: 1.8229E-09 | 14: delta_r/delta_0: 5.8760E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.337631171343882E-002 4.020495572295349E-005 | BP delta = -0.2784715 -0.3030787 72485255.9528581 | BP delta = -0.3322891 -0.3568964 72485255.4800744 | BP chisq diff = -0.5, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95938420 | --> Sampling calibration, mode = relcal | relcal = 0.1066034 0.1395257 -0.1103029 -0.1358262 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0861914E-02 1.1738591E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2190E-04 | 2: delta_r/delta_0: 8.0343E-06 | 3: delta_s/delta_0: 2.2306E-05 | 4: delta_r/delta_0: 1.6964E-06 | 5: delta_s/delta_0: 2.2916E-07 | 6: delta_r/delta_0: 1.2669E-07 | 7: delta_s/delta_0: 5.3901E-07 | 8: delta_r/delta_0: 3.1149E-08 | 9: delta_s/delta_0: 1.8028E-08 | 10: delta_r/delta_0: 1.9549E-09 | 11: delta_s/delta_0: 1.7188E-09 | 12: delta_r/delta_0: 8.3019E-10 | 13: delta_s/delta_0: 2.4193E-09 | 14: delta_r/delta_0: 3.4598E-10 | 15: delta_s/delta_0: 5.9344E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.123360058604130E-002 3.696364265405271E-005 | BP delta = 7.9390993E-03 0.1117756 72787059.0509791 | BP delta = 8.8210460E-03 0.1126575 72787059.0509309 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142184 | New value = -3.139284 | poltype: 2 pol: 1 CPU time specind = 2.2260189E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175899 | New value = -3.167932 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181490 | New value = -3.071512 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.037587 | New value = -3.143835 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.100127 | New value = -3.109570 | poltype: 2 pol: 2 CPU time specind = 1.4053822E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.13525E+08, tol = 0.81806E+01, time = 6.24 | CG iter. 2 -- res = 0.33192E+06, tol = 0.81806E+01, time = 5.69 | CG iter. 3 -- res = 0.46257E+05, tol = 0.81806E+01, time = 5.73 | CG iter. 4 -- res = 0.19086E+05, tol = 0.81806E+01, time = 5.58 | CG iter. 5 -- res = 0.82263E+04, tol = 0.81806E+01, time = 6.05 | CG iter. 6 -- res = 0.35760E+04, tol = 0.81806E+01, time = 5.99 | CG iter. 7 -- res = 0.18880E+04, tol = 0.81806E+01, time = 5.73 | CG iter. 8 -- res = 0.95270E+03, tol = 0.81806E+01, time = 6.03 | CG iter. 9 -- res = 0.53892E+03, tol = 0.81806E+01, time = 6.17 | CG iter. 10 -- res = 0.41163E+03, tol = 0.81806E+01, time = 5.46 | CG iter. 11 -- res = 0.35881E+03, tol = 0.81806E+01, time = 6.08 | CG iter. 12 -- res = 0.28353E+03, tol = 0.81806E+01, time = 5.67 | CG iter. 13 -- res = 0.21103E+03, tol = 0.81806E+01, time = 5.56 | CG iter. 14 -- res = 0.15648E+03, tol = 0.81806E+01, time = 11.82 | CG iter. 15 -- res = 0.12421E+03, tol = 0.81806E+01, time = 5.80 | CG iter. 16 -- res = 0.98420E+02, tol = 0.81806E+01, time = 5.84 | CG iter. 17 -- res = 0.71643E+02, tol = 0.81806E+01, time = 5.61 | CG iter. 18 -- res = 0.51636E+02, tol = 0.81806E+01, time = 5.96 | CG iter. 19 -- res = 0.42381E+02, tol = 0.81806E+01, time = 5.79 | CG iter. 20 -- res = 0.35423E+02, tol = 0.81806E+01, time = 5.95 | CG iter. 21 -- res = 0.27561E+02, tol = 0.81806E+01, time = 5.98 | CG iter. 22 -- res = 0.19472E+02, tol = 0.81806E+01, time = 6.09 | CG iter. 23 -- res = 0.14132E+02, tol = 0.81806E+01, time = 6.17 | CG iter. 24 -- res = 0.11424E+02, tol = 0.81806E+01, time = 5.46 | CG iter. 25 -- res = 0.91481E+01, tol = 0.81806E+01, time = 5.77 | CG iter. 26 -- res = 0.69495E+01, tol = 0.81806E+01, time = 5.76 | CG iter. 27 -- res = 0.53127E+01, tol = 0.81806E+01, time = 5.74 | CG iter. 28 -- res = 0.44232E+01, tol = 0.81806E+01, time = 7.43 | CG iter. 29 -- res = 0.37205E+01, tol = 0.81806E+01, time = 6.41 | CG iter. 30 -- res = 0.29055E+01, tol = 0.81806E+01, time = 6.15 | CG iter. 31 -- res = 0.21786E+01, tol = 0.81806E+01, time = 5.93 | CG iter. 32 -- res = 0.18512E+01, tol = 0.81806E+01, time = 5.86 | CG iter. 33 -- res = 0.16126E+01, tol = 0.81806E+01, time = 5.77 | CG iter. 34 -- res = 0.13404E+01, tol = 0.81806E+01, time = 5.63 | CG iter. 35 -- res = 0.10229E+01, tol = 0.81806E+01, time = 5.85 | CG iter. 36 -- res = 0.82022E+00, tol = 0.81806E+01, time = 5.84 | CG iter. 37 -- res = 0.70862E+00, tol = 0.81806E+01, time = 6.43 | CG iter. 38 -- res = 0.59384E+00, tol = 0.81806E+01, time = 5.90 | CG iter. 39 -- res = 0.46637E+00, tol = 0.81806E+01, time = 5.61 | CG iter. 40 -- res = 0.38552E+00, tol = 0.81806E+01, time = 5.98 | CG iter. 41 -- res = 0.33815E+00, tol = 0.81806E+01, time = 5.97 | CG iter. 42 -- res = 0.28881E+00, tol = 0.81806E+01, time = 5.83 | CG iter. 43 -- res = 0.23436E+00, tol = 0.81806E+01, time = 5.66 | CG iter. 44 -- res = 0.18144E+00, tol = 0.81806E+01, time = 5.45 | CG iter. 45 -- res = 0.14496E+00, tol = 0.81806E+01, time = 5.70 | CG iter. 46 -- res = 0.12270E+00, tol = 0.81806E+01, time = 6.35 | CG iter. 47 -- res = 0.10167E+00, tol = 0.81806E+01, time = 6.09 | CG iter. 48 -- res = 0.79338E-01, tol = 0.81806E+01, time = 5.85 | CG iter. 49 -- res = 0.62132E-01, tol = 0.81806E+01, time = 6.24 | CG iter. 50 -- res = 0.51617E-01, tol = 0.81806E+01, time = 5.74 | Final CG iter 51 -- res = 0.51617E-01, tol = 0.81806E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10188580.220 | Old band monopole 8583065.295 | Change to band monopole 1605514.925 | Change to component monopole -1605508.020 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.38939E+05, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.28191E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.12498E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.54996E-04, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.12267E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10188536.397 | (Sampled value in CG: 10190652.698 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473417 | New value = 1.530975 | poltype: 2 pol: 1 CPU time specind = 1.9138813E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.476897 | New value = 1.528478 | poltype: 2 pol: 2 CPU time specind = 4.0118694E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.24747E+08, tol = 0.47653E+04, time = 6.68 | CG iter. 2 -- res = 0.53444E+07, tol = 0.47653E+04, time = 6.73 | CG iter. 3 -- res = 0.84354E+06, tol = 0.47653E+04, time = 6.57 | CG iter. 4 -- res = 0.34737E+06, tol = 0.47653E+04, time = 6.59 | CG iter. 5 -- res = 0.14865E+06, tol = 0.47653E+04, time = 6.86 | CG iter. 6 -- res = 0.78797E+05, tol = 0.47653E+04, time = 6.93 | CG iter. 7 -- res = 0.42850E+05, tol = 0.47653E+04, time = 7.53 | CG iter. 8 -- res = 0.20784E+05, tol = 0.47653E+04, time = 7.71 | CG iter. 9 -- res = 0.89759E+04, tol = 0.47653E+04, time = 6.79 | CG iter. 10 -- res = 0.36832E+04, tol = 0.47653E+04, time = 6.96 | CG iter. 11 -- res = 0.16858E+04, tol = 0.47653E+04, time = 6.62 | CG iter. 12 -- res = 0.86574E+03, tol = 0.47653E+04, time = 6.97 | CG iter. 13 -- res = 0.49115E+03, tol = 0.47653E+04, time = 6.53 | CG iter. 14 -- res = 0.27494E+03, tol = 0.47653E+04, time = 6.80 | CG iter. 15 -- res = 0.14170E+03, tol = 0.47653E+04, time = 6.59 | CG iter. 16 -- res = 0.68433E+02, tol = 0.47653E+04, time = 6.59 | CG iter. 17 -- res = 0.31591E+02, tol = 0.47653E+04, time = 6.83 | CG iter. 18 -- res = 0.15580E+02, tol = 0.47653E+04, time = 6.47 | CG iter. 19 -- res = 0.85149E+01, tol = 0.47653E+04, time = 6.53 | CG iter. 20 -- res = 0.47075E+01, tol = 0.47653E+04, time = 6.60 | CG iter. 21 -- res = 0.26137E+01, tol = 0.47653E+04, time = 6.30 | CG iter. 22 -- res = 0.13786E+01, tol = 0.47653E+04, time = 6.41 | CG iter. 23 -- res = 0.69485E+00, tol = 0.47653E+04, time = 6.77 | CG iter. 24 -- res = 0.35649E+00, tol = 0.47653E+04, time = 6.37 | CG iter. 25 -- res = 0.19330E+00, tol = 0.47653E+04, time = 6.60 | CG iter. 26 -- res = 0.10974E+00, tol = 0.47653E+04, time = 6.65 | CG iter. 27 -- res = 0.61593E-01, tol = 0.47653E+04, time = 6.61 | CG iter. 28 -- res = 0.32684E-01, tol = 0.47653E+04, time = 6.50 | CG iter. 29 -- res = 0.17318E-01, tol = 0.47653E+04, time = 6.63 | CG iter. 30 -- res = 0.90767E-02, tol = 0.47653E+04, time = 6.69 | CG iter. 31 -- res = 0.49998E-02, tol = 0.47653E+04, time = 6.68 | CG iter. 32 -- res = 0.28660E-02, tol = 0.47653E+04, time = 7.02 | CG iter. 33 -- res = 0.16109E-02, tol = 0.47653E+04, time = 6.84 | CG iter. 34 -- res = 0.86302E-03, tol = 0.47653E+04, time = 6.55 | CG iter. 35 -- res = 0.45166E-03, tol = 0.47653E+04, time = 6.63 | Final CG iter 36 -- res = 0.45166E-03, tol = 0.47653E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.043 2.753 | New value 0.298 | Old value 1.043 | Difference -0.745 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.36049E+05, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.20740E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.31991E+00, tol = 0.47627E+18, time = 2.10 | Final CG iter 4 -- res = 0.42999E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10188536.397 | (Sampled value in CG: 10190965.432 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.512592 | New value = -3.754717 | poltype: 1 pol: 1 CPU time specind = 1.2130976E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.23793E+07, tol = 0.27853E+01, time = 2.96 | CG iter. 2 -- res = 0.68613E+06, tol = 0.27853E+01, time = 3.00 | CG iter. 3 -- res = 0.13505E+06, tol = 0.27853E+01, time = 2.88 | CG iter. 4 -- res = 0.61927E+05, tol = 0.27853E+01, time = 2.80 | CG iter. 5 -- res = 0.39307E+05, tol = 0.27853E+01, time = 2.60 | CG iter. 6 -- res = 0.18604E+05, tol = 0.27853E+01, time = 2.80 | CG iter. 7 -- res = 0.65120E+04, tol = 0.27853E+01, time = 9.52 | CG iter. 8 -- res = 0.29332E+04, tol = 0.27853E+01, time = 2.82 | CG iter. 9 -- res = 0.12598E+04, tol = 0.27853E+01, time = 2.65 | CG iter. 10 -- res = 0.51433E+03, tol = 0.27853E+01, time = 3.24 | CG iter. 11 -- res = 0.22155E+03, tol = 0.27853E+01, time = 2.55 | CG iter. 12 -- res = 0.10801E+03, tol = 0.27853E+01, time = 2.69 | CG iter. 13 -- res = 0.55102E+02, tol = 0.27853E+01, time = 2.61 | CG iter. 14 -- res = 0.26797E+02, tol = 0.27853E+01, time = 2.77 | CG iter. 15 -- res = 0.11160E+02, tol = 0.27853E+01, time = 3.10 | CG iter. 16 -- res = 0.45994E+01, tol = 0.27853E+01, time = 2.81 | CG iter. 17 -- res = 0.21185E+01, tol = 0.27853E+01, time = 2.88 | CG iter. 18 -- res = 0.10053E+01, tol = 0.27853E+01, time = 2.72 | CG iter. 19 -- res = 0.50365E+00, tol = 0.27853E+01, time = 2.86 | CG iter. 20 -- res = 0.24872E+00, tol = 0.27853E+01, time = 2.90 | CG iter. 21 -- res = 0.11299E+00, tol = 0.27853E+01, time = 2.72 | CG iter. 22 -- res = 0.48648E-01, tol = 0.27853E+01, time = 2.74 | CG iter. 23 -- res = 0.21804E-01, tol = 0.27853E+01, time = 2.76 | CG iter. 24 -- res = 0.10550E-01, tol = 0.27853E+01, time = 2.95 | CG iter. 25 -- res = 0.57492E-02, tol = 0.27853E+01, time = 2.59 | CG iter. 26 -- res = 0.27430E-02, tol = 0.27853E+01, time = 2.82 | CG iter. 27 -- res = 0.12415E-02, tol = 0.27853E+01, time = 2.65 | CG iter. 28 -- res = 0.56648E-03, tol = 0.27853E+01, time = 2.69 | CG iter. 29 -- res = 0.25644E-03, tol = 0.27853E+01, time = 2.95 | CG iter. 30 -- res = 0.12584E-03, tol = 0.27853E+01, time = 2.99 | CG iter. 31 -- res = 0.66190E-04, tol = 0.27853E+01, time = 2.67 | CG iter. 32 -- res = 0.32156E-04, tol = 0.27853E+01, time = 2.93 | CG iter. 33 -- res = 0.14849E-04, tol = 0.27853E+01, time = 2.99 | CG iter. 34 -- res = 0.65614E-05, tol = 0.27853E+01, time = 3.05 | CG iter. 35 -- res = 0.30695E-05, tol = 0.27853E+01, time = 2.74 | CG iter. 36 -- res = 0.15286E-05, tol = 0.27853E+01, time = 3.19 | CG iter. 37 -- res = 0.76477E-06, tol = 0.27853E+01, time = 4.01 | CG iter. 38 -- res = 0.36534E-06, tol = 0.27853E+01, time = 3.13 | CG iter. 39 -- res = 0.16322E-06, tol = 0.27853E+01, time = 2.81 | CG iter. 40 -- res = 0.72835E-07, tol = 0.27853E+01, time = 3.38 | CG iter. 41 -- res = 0.36521E-07, tol = 0.27853E+01, time = 2.70 | CG iter. 42 -- res = 0.17839E-07, tol = 0.27853E+01, time = 2.92 | CG iter. 43 -- res = 0.86193E-08, tol = 0.27853E+01, time = 3.03 | CG iter. 44 -- res = 0.40361E-08, tol = 0.27853E+01, time = 2.86 | CG iter. 45 -- res = 0.18610E-08, tol = 0.27853E+01, time = 2.75 | CG iter. 46 -- res = 0.88793E-09, tol = 0.27853E+01, time = 2.91 | CG iter. 47 -- res = 0.43036E-09, tol = 0.27853E+01, time = 3.07 | CG iter. 48 -- res = 0.20028E-09, tol = 0.27853E+01, time = 2.72 | CG iter. 49 -- res = 0.98119E-10, tol = 0.27853E+01, time = 2.75 | CG iter. 50 -- res = 0.47729E-10, tol = 0.27853E+01, time = 2.73 | Final CG iter 51 -- res = 0.47729E-10, tol = 0.27853E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.374 4.882 | New value -0.874 | Old value -1.374 | Difference 0.500 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.95697E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.13733E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.28059E-01, tol = 0.47627E+18, time = 2.29 | Final CG iter 4 -- res = 0.47366E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10188536.397 | (Sampled value in CG: 10191854.445 ) | CPU time specind = 1212.389 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.70929E+08, tol = 0.58018E+04, time = 12.32 | CG iter. 2 -- res = 0.59623E+08, tol = 0.58018E+04, time = 11.86 | CG iter. 3 -- res = 0.15640E+08, tol = 0.58018E+04, time = 11.97 | CG iter. 4 -- res = 0.69366E+07, tol = 0.58018E+04, time = 12.15 | CG iter. 5 -- res = 0.42052E+07, tol = 0.58018E+04, time = 12.67 | CG iter. 6 -- res = 0.23958E+07, tol = 0.58018E+04, time = 12.03 | CG iter. 7 -- res = 0.14353E+07, tol = 0.58018E+04, time = 12.84 | CG iter. 8 -- res = 0.94055E+06, tol = 0.58018E+04, time = 17.46 | CG iter. 9 -- res = 0.59408E+06, tol = 0.58018E+04, time = 11.98 | CG iter. 10 -- res = 0.34681E+06, tol = 0.58018E+04, time = 12.28 | CG iter. 11 -- res = 0.18413E+06, tol = 0.58018E+04, time = 12.00 | CG iter. 12 -- res = 0.98989E+05, tol = 0.58018E+04, time = 12.33 | CG iter. 13 -- res = 0.52784E+05, tol = 0.58018E+04, time = 12.25 | CG iter. 14 -- res = 0.30087E+05, tol = 0.58018E+04, time = 12.47 | CG iter. 15 -- res = 0.18831E+05, tol = 0.58018E+04, time = 13.84 | CG iter. 16 -- res = 0.12551E+05, tol = 0.58018E+04, time = 12.34 | CG iter. 17 -- res = 0.89309E+04, tol = 0.58018E+04, time = 11.71 | CG iter. 18 -- res = 0.62174E+04, tol = 0.58018E+04, time = 11.96 | CG iter. 19 -- res = 0.41012E+04, tol = 0.58018E+04, time = 12.34 | CG iter. 20 -- res = 0.27635E+04, tol = 0.58018E+04, time = 12.07 | CG iter. 21 -- res = 0.19410E+04, tol = 0.58018E+04, time = 12.03 | CG iter. 22 -- res = 0.15260E+04, tol = 0.58018E+04, time = 12.09 | CG iter. 23 -- res = 0.13675E+04, tol = 0.58018E+04, time = 12.88 | CG iter. 24 -- res = 0.13835E+04, tol = 0.58018E+04, time = 12.24 | CG iter. 25 -- res = 0.14827E+04, tol = 0.58018E+04, time = 11.90 | CG iter. 26 -- res = 0.15214E+04, tol = 0.58018E+04, time = 12.30 | CG iter. 27 -- res = 0.14510E+04, tol = 0.58018E+04, time = 12.00 | CG iter. 28 -- res = 0.13169E+04, tol = 0.58018E+04, time = 12.33 | CG iter. 29 -- res = 0.11926E+04, tol = 0.58018E+04, time = 12.27 | CG iter. 30 -- res = 0.10833E+04, tol = 0.58018E+04, time = 12.08 | CG iter. 31 -- res = 0.99611E+03, tol = 0.58018E+04, time = 12.55 | CG iter. 32 -- res = 0.87179E+03, tol = 0.58018E+04, time = 17.69 | CG iter. 33 -- res = 0.72206E+03, tol = 0.58018E+04, time = 11.41 | CG iter. 34 -- res = 0.56494E+03, tol = 0.58018E+04, time = 12.23 | CG iter. 35 -- res = 0.42504E+03, tol = 0.58018E+04, time = 11.70 | CG iter. 36 -- res = 0.32415E+03, tol = 0.58018E+04, time = 12.01 | CG iter. 37 -- res = 0.26024E+03, tol = 0.58018E+04, time = 12.36 | CG iter. 38 -- res = 0.23104E+03, tol = 0.58018E+04, time = 11.93 | CG iter. 39 -- res = 0.21487E+03, tol = 0.58018E+04, time = 13.72 | CG iter. 40 -- res = 0.19545E+03, tol = 0.58018E+04, time = 12.42 | CG iter. 41 -- res = 0.17532E+03, tol = 0.58018E+04, time = 11.89 | CG iter. 42 -- res = 0.15147E+03, tol = 0.58018E+04, time = 12.19 | CG iter. 43 -- res = 0.13180E+03, tol = 0.58018E+04, time = 12.27 | CG iter. 44 -- res = 0.11937E+03, tol = 0.58018E+04, time = 12.18 | CG iter. 45 -- res = 0.10984E+03, tol = 0.58018E+04, time = 11.99 | CG iter. 46 -- res = 0.10199E+03, tol = 0.58018E+04, time = 11.80 | CG iter. 47 -- res = 0.92400E+02, tol = 0.58018E+04, time = 11.40 | CG iter. 48 -- res = 0.79455E+02, tol = 0.58018E+04, time = 12.40 | CG iter. 49 -- res = 0.64634E+02, tol = 0.58018E+04, time = 12.12 | CG iter. 50 -- res = 0.51797E+02, tol = 0.58018E+04, time = 12.09 | CG iter. 51 -- res = 0.43467E+02, tol = 0.58018E+04, time = 12.17 | CG iter. 52 -- res = 0.38290E+02, tol = 0.58018E+04, time = 11.65 | CG iter. 53 -- res = 0.34728E+02, tol = 0.58018E+04, time = 11.74 | CG iter. 54 -- res = 0.30815E+02, tol = 0.58018E+04, time = 11.62 | CG iter. 55 -- res = 0.26674E+02, tol = 0.58018E+04, time = 12.22 | CG iter. 56 -- res = 0.22783E+02, tol = 0.58018E+04, time = 18.98 | CG iter. 57 -- res = 0.19714E+02, tol = 0.58018E+04, time = 12.31 | CG iter. 58 -- res = 0.17575E+02, tol = 0.58018E+04, time = 11.97 | CG iter. 59 -- res = 0.16179E+02, tol = 0.58018E+04, time = 12.06 | CG iter. 60 -- res = 0.15329E+02, tol = 0.58018E+04, time = 12.07 | Final CG iter 61 -- res = 0.15329E+02, tol = 0.58018E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.725 ( -229.847 -2231.383 2514.082 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6571417.974 | Old band monopole 10188580.220 | Change to band monopole -3617162.246 | Change to component monopole 3617146.688 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.253 2.724 | New value 5.161 | Old value 0.253 | Difference 4.908 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.976 ( 7.096 12.601 -12.518 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.626 4.793 | New value -1.460 | Old value 2.626 | Difference -4.087 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.14493E+07, tol = 0.47627E+18, time = 2.27 | CG iter. 2 -- res = 0.88522E+02, tol = 0.47627E+18, time = 2.32 | CG iter. 3 -- res = 0.29103E+01, tol = 0.47627E+18, time = 2.40 | CG iter. 4 -- res = 0.42544E-02, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.10542E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6571389.709 | (Sampled value in CG: 6554366.868 ) | Chain = 1 -- chisq = 0.81517546E+09 | Chain = 1 -- wall time = 5763.260 sec Available RAM: MemAvailable: 384603416 kB Available Swap: SwapFree: 1122429000 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 288 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442864 | --> Sampling calibration, mode = relcal | relcal = 1.3440112E-02 7.3623162E-04 -1.5950197E-03 -1.2581324E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1149315 0.1213889 9406476.50862349 | BP delta = 0.1149315 0.1190670 9406624.38452772 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632485 | --> Sampling calibration, mode = relcal | relcal = -2.8205856E-03 -7.0361700E-04 1.6768856E-03 1.6130900E-03 -4.0720880E-04 6.4143573E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5366583 15218527.2404347 | BP delta = 0.0000000E+00 -0.5405245 15218528.4766088 | BP chisq diff = 1.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17891557716010 | --> Sampling calibration, mode = relcal | relcal = -7.5032607E-02 -5.8315817E-02 9.1804564E-02 4.1543860E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4471334E-04 4.3682009E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4592E-05 | 2: delta_r/delta_0: 7.5098E-07 | 3: delta_s/delta_0: 2.5549E-07 | 4: delta_r/delta_0: 1.0746E-08 | 5: delta_s/delta_0: 4.6265E-09 | 6: delta_r/delta_0: 1.0894E-09 | 7: delta_s/delta_0: 4.0180E-10 | 8: delta_r/delta_0: 1.9743E-10 | 9: delta_s/delta_0: 3.4878E-10 | 10: delta_r/delta_0: 1.7904E-10 | 11: delta_s/delta_0: 4.8577E-07 | 12: delta_r/delta_0: 7.9499E-09 | 13: delta_s/delta_0: 6.4392E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.110965664667789E-003 2.745877671350123E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4592E-05 | 2: delta_r/delta_0: 7.5098E-07 | 3: delta_s/delta_0: 2.5549E-07 | 4: delta_r/delta_0: 1.0746E-08 | 5: delta_s/delta_0: 4.6263E-09 | 6: delta_r/delta_0: 1.0893E-09 | 7: delta_s/delta_0: 4.0179E-10 | 8: delta_r/delta_0: 1.9743E-10 | 9: delta_s/delta_0: 3.4873E-10 | 10: delta_r/delta_0: 1.7902E-10 | 11: delta_s/delta_0: 4.8667E-07 | 12: delta_r/delta_0: 7.9628E-09 | 13: delta_s/delta_0: 6.4380E-12 | Reached bicg-stab tolerance | BP delta = 6.7953065E-02 8.7930769E-02 3590023.99251631 | BP delta = 6.7953065E-02 8.7858289E-02 3590436.52318781 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02611741 | --> Sampling calibration, mode = relcal | relcal = -0.1067169 -9.5557697E-02 0.1449856 5.7288952E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5104316E-03 1.3867338E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6697E-05 | 2: delta_r/delta_0: 1.2945E-06 | 3: delta_s/delta_0: 2.5692E-07 | 4: delta_r/delta_0: 3.8426E-08 | 5: delta_s/delta_0: 2.2798E-08 | 6: delta_r/delta_0: 6.4953E-09 | 7: delta_s/delta_0: 5.6714E-09 | 8: delta_r/delta_0: 1.5945E-09 | 9: delta_s/delta_0: 7.8796E-10 | 10: delta_r/delta_0: 5.8727E-10 | 11: delta_s/delta_0: 9.2138E-10 | 12: delta_r/delta_0: 8.9902E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.979275614112736E-003 2.810521552157334E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.6696E-05 | 2: delta_r/delta_0: 1.2944E-06 | 3: delta_s/delta_0: 2.5692E-07 | 4: delta_r/delta_0: 3.8412E-08 | 5: delta_s/delta_0: 2.2808E-08 | 6: delta_r/delta_0: 6.4952E-09 | 7: delta_s/delta_0: 5.6734E-09 | 8: delta_r/delta_0: 1.5945E-09 | 9: delta_s/delta_0: 7.8789E-10 | 10: delta_r/delta_0: 5.8719E-10 | 11: delta_s/delta_0: 9.2141E-10 | 12: delta_r/delta_0: 8.9882E-11 | Reached bicg-stab tolerance | BP delta = -0.3275390 -0.3002288 2841824.18192272 | BP delta = -0.3275390 -0.3024099 2841802.79216570 | BP chisq diff = -21.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81245710 | --> Sampling calibration, mode = relcal | relcal = 0.2955503 0.2248966 -0.2838241 -0.2366229 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6968602E-04 4.9942620E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1802E-04 | 2: delta_r/delta_0: 1.0198E-05 | 3: delta_s/delta_0: 3.9284E-06 | 4: delta_r/delta_0: 4.5706E-07 | 5: delta_s/delta_0: 7.0354E-04 | 6: delta_r/delta_0: 7.1940E-05 | 7: delta_s/delta_0: 6.0294E-08 | 8: delta_r/delta_0: 3.3127E-08 | 9: delta_s/delta_0: 2.0970E-07 | 10: delta_r/delta_0: 1.5729E-08 | 11: delta_s/delta_0: 5.0503E-09 | 12: delta_r/delta_0: 7.9409E-10 | 13: delta_s/delta_0: 2.2646E-10 | 14: delta_r/delta_0: 9.4615E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.101437172046495E-002 4.020640891786590E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1811E-04 | 2: delta_r/delta_0: 1.0200E-05 | 3: delta_s/delta_0: 3.9280E-06 | 4: delta_r/delta_0: 4.5697E-07 | 5: delta_s/delta_0: 7.5403E-04 | 6: delta_r/delta_0: 7.7014E-05 | 7: delta_s/delta_0: 6.0296E-08 | 8: delta_r/delta_0: 3.3125E-08 | 9: delta_s/delta_0: 2.0935E-07 | 10: delta_r/delta_0: 1.5735E-08 | 11: delta_s/delta_0: 5.0567E-09 | 12: delta_r/delta_0: 7.9589E-10 | 13: delta_s/delta_0: 2.2510E-10 | 14: delta_r/delta_0: 9.4911E-11 | Reached bicg-stab tolerance | BP delta = -0.3322891 -0.3568964 2827681.41999621 | BP delta = -0.3322891 -0.3558888 2827748.35678278 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95940224 | --> Sampling calibration, mode = relcal | relcal = 0.1063881 0.1396032 -0.1103498 -0.1356416 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5442664E-03 1.1931199E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9229E-04 | 2: delta_r/delta_0: 5.0356E-06 | 3: delta_s/delta_0: 1.0136E-05 | 4: delta_r/delta_0: 1.1918E-06 | 5: delta_s/delta_0: 1.7611E-07 | 6: delta_r/delta_0: 1.0800E-07 | 7: delta_s/delta_0: 6.5697E-07 | 8: delta_r/delta_0: 2.4326E-08 | 9: delta_s/delta_0: 5.8056E-08 | 10: delta_r/delta_0: 2.5802E-08 | 11: delta_s/delta_0: 1.0056E-09 | 12: delta_r/delta_0: 7.4607E-10 | 13: delta_s/delta_0: 6.7342E-09 | 14: delta_r/delta_0: 5.1709E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.939136435765149E-002 3.696213512572929E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9229E-04 | 2: delta_r/delta_0: 5.0356E-06 | 3: delta_s/delta_0: 1.0136E-05 | 4: delta_r/delta_0: 1.1919E-06 | 5: delta_s/delta_0: 1.7612E-07 | 6: delta_r/delta_0: 1.0802E-07 | 7: delta_s/delta_0: 6.5769E-07 | 8: delta_r/delta_0: 2.4323E-08 | 9: delta_s/delta_0: 5.7978E-08 | 10: delta_r/delta_0: 2.5790E-08 | 11: delta_s/delta_0: 1.0058E-09 | 12: delta_r/delta_0: 7.4608E-10 | 13: delta_s/delta_0: 6.7899E-09 | 14: delta_r/delta_0: 5.2076E-11 | Reached bicg-stab tolerance | BP delta = 8.8210460E-03 0.1126575 3004562.27745740 | BP delta = 8.8210460E-03 0.1143508 3004567.48275284 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139284 | New value = -3.146113 | poltype: 2 pol: 1 CPU time specind = 1.9649982E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167932 | New value = -3.181571 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.071512 | New value = -3.167804 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143835 | New value = -3.187215 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109570 | New value = -3.126986 | poltype: 2 pol: 2 CPU time specind = 6.8628788E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.13545E+08, tol = 0.98163E+01, time = 5.74 | CG iter. 2 -- res = 0.34035E+06, tol = 0.98163E+01, time = 5.69 | CG iter. 3 -- res = 0.45457E+05, tol = 0.98163E+01, time = 5.89 | CG iter. 4 -- res = 0.18987E+05, tol = 0.98163E+01, time = 5.63 | CG iter. 5 -- res = 0.86213E+04, tol = 0.98163E+01, time = 5.61 | CG iter. 6 -- res = 0.41338E+04, tol = 0.98163E+01, time = 5.93 | CG iter. 7 -- res = 0.24479E+04, tol = 0.98163E+01, time = 5.75 | CG iter. 8 -- res = 0.14730E+04, tol = 0.98163E+01, time = 6.07 | CG iter. 9 -- res = 0.10592E+04, tol = 0.98163E+01, time = 7.09 | CG iter. 10 -- res = 0.98890E+03, tol = 0.98163E+01, time = 6.29 | CG iter. 11 -- res = 0.10329E+04, tol = 0.98163E+01, time = 5.54 | CG iter. 12 -- res = 0.88803E+03, tol = 0.98163E+01, time = 6.19 | CG iter. 13 -- res = 0.68193E+03, tol = 0.98163E+01, time = 5.68 | CG iter. 14 -- res = 0.50790E+03, tol = 0.98163E+01, time = 5.60 | CG iter. 15 -- res = 0.40817E+03, tol = 0.98163E+01, time = 5.88 | CG iter. 16 -- res = 0.33932E+03, tol = 0.98163E+01, time = 5.99 | CG iter. 17 -- res = 0.26073E+03, tol = 0.98163E+01, time = 5.93 | CG iter. 18 -- res = 0.20056E+03, tol = 0.98163E+01, time = 5.96 | CG iter. 19 -- res = 0.17630E+03, tol = 0.98163E+01, time = 6.02 | CG iter. 20 -- res = 0.15677E+03, tol = 0.98163E+01, time = 5.56 | CG iter. 21 -- res = 0.12171E+03, tol = 0.98163E+01, time = 5.59 | CG iter. 22 -- res = 0.89388E+02, tol = 0.98163E+01, time = 5.46 | CG iter. 23 -- res = 0.71749E+02, tol = 0.98163E+01, time = 5.93 | CG iter. 24 -- res = 0.66574E+02, tol = 0.98163E+01, time = 6.04 | CG iter. 25 -- res = 0.57317E+02, tol = 0.98163E+01, time = 5.38 | CG iter. 26 -- res = 0.43884E+02, tol = 0.98163E+01, time = 5.91 | CG iter. 27 -- res = 0.34983E+02, tol = 0.98163E+01, time = 6.54 | CG iter. 28 -- res = 0.29634E+02, tol = 0.98163E+01, time = 5.81 | CG iter. 29 -- res = 0.25436E+02, tol = 0.98163E+01, time = 5.70 | CG iter. 30 -- res = 0.20161E+02, tol = 0.98163E+01, time = 5.56 | CG iter. 31 -- res = 0.15832E+02, tol = 0.98163E+01, time = 5.85 | CG iter. 32 -- res = 0.13983E+02, tol = 0.98163E+01, time = 5.97 | CG iter. 33 -- res = 0.12645E+02, tol = 0.98163E+01, time = 5.84 | CG iter. 34 -- res = 0.10373E+02, tol = 0.98163E+01, time = 5.86 | CG iter. 35 -- res = 0.79889E+01, tol = 0.98163E+01, time = 5.78 | CG iter. 36 -- res = 0.67402E+01, tol = 0.98163E+01, time = 5.54 | CG iter. 37 -- res = 0.58727E+01, tol = 0.98163E+01, time = 5.67 | CG iter. 38 -- res = 0.46775E+01, tol = 0.98163E+01, time = 5.85 | CG iter. 39 -- res = 0.36110E+01, tol = 0.98163E+01, time = 5.53 | CG iter. 40 -- res = 0.28561E+01, tol = 0.98163E+01, time = 5.42 | CG iter. 41 -- res = 0.24225E+01, tol = 0.98163E+01, time = 5.91 | CG iter. 42 -- res = 0.19190E+01, tol = 0.98163E+01, time = 5.52 | CG iter. 43 -- res = 0.15252E+01, tol = 0.98163E+01, time = 5.88 | CG iter. 44 -- res = 0.11300E+01, tol = 0.98163E+01, time = 12.43 | CG iter. 45 -- res = 0.88842E+00, tol = 0.98163E+01, time = 5.59 | CG iter. 46 -- res = 0.74497E+00, tol = 0.98163E+01, time = 5.73 | CG iter. 47 -- res = 0.58438E+00, tol = 0.98163E+01, time = 5.81 | CG iter. 48 -- res = 0.43240E+00, tol = 0.98163E+01, time = 5.59 | CG iter. 49 -- res = 0.34013E+00, tol = 0.98163E+01, time = 5.74 | CG iter. 50 -- res = 0.28205E+00, tol = 0.98163E+01, time = 5.80 | Final CG iter 51 -- res = 0.28205E+00, tol = 0.98163E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11186086.726 | Old band monopole 6571417.974 | Change to band monopole 4614668.752 | Change to component monopole -4614648.903 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.42562E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.15605E+03, tol = 0.47627E+18, time = 2.42 | CG iter. 3 -- res = 0.26410E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.10216E-02, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.18486E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11186038.612 | (Sampled value in CG: 11176329.495 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.530975 | New value = 1.497786 | poltype: 2 pol: 1 CPU time specind = 1.5139818E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.528478 | New value = 1.460907 | poltype: 2 pol: 2 CPU time specind = 1.7409086E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.24217E+08, tol = 0.47615E+04, time = 6.59 | CG iter. 2 -- res = 0.52543E+07, tol = 0.47615E+04, time = 6.27 | CG iter. 3 -- res = 0.83720E+06, tol = 0.47615E+04, time = 6.72 | CG iter. 4 -- res = 0.35607E+06, tol = 0.47615E+04, time = 6.62 | CG iter. 5 -- res = 0.15549E+06, tol = 0.47615E+04, time = 6.80 | CG iter. 6 -- res = 0.80594E+05, tol = 0.47615E+04, time = 6.36 | CG iter. 7 -- res = 0.43437E+05, tol = 0.47615E+04, time = 6.84 | CG iter. 8 -- res = 0.21113E+05, tol = 0.47615E+04, time = 6.55 | CG iter. 9 -- res = 0.92252E+04, tol = 0.47615E+04, time = 6.42 | CG iter. 10 -- res = 0.37628E+04, tol = 0.47615E+04, time = 6.50 | CG iter. 11 -- res = 0.17073E+04, tol = 0.47615E+04, time = 6.48 | CG iter. 12 -- res = 0.88765E+03, tol = 0.47615E+04, time = 6.84 | CG iter. 13 -- res = 0.50597E+03, tol = 0.47615E+04, time = 6.66 | CG iter. 14 -- res = 0.28509E+03, tol = 0.47615E+04, time = 6.51 | CG iter. 15 -- res = 0.14817E+03, tol = 0.47615E+04, time = 6.39 | CG iter. 16 -- res = 0.70232E+02, tol = 0.47615E+04, time = 6.57 | CG iter. 17 -- res = 0.32468E+02, tol = 0.47615E+04, time = 6.56 | CG iter. 18 -- res = 0.16109E+02, tol = 0.47615E+04, time = 6.51 | CG iter. 19 -- res = 0.87396E+01, tol = 0.47615E+04, time = 6.83 | CG iter. 20 -- res = 0.50455E+01, tol = 0.47615E+04, time = 6.69 | CG iter. 21 -- res = 0.27984E+01, tol = 0.47615E+04, time = 6.22 | CG iter. 22 -- res = 0.14174E+01, tol = 0.47615E+04, time = 13.87 | CG iter. 23 -- res = 0.70717E+00, tol = 0.47615E+04, time = 6.60 | CG iter. 24 -- res = 0.35982E+00, tol = 0.47615E+04, time = 6.50 | CG iter. 25 -- res = 0.19801E+00, tol = 0.47615E+04, time = 6.57 | CG iter. 26 -- res = 0.11297E+00, tol = 0.47615E+04, time = 6.68 | CG iter. 27 -- res = 0.63077E-01, tol = 0.47615E+04, time = 6.60 | CG iter. 28 -- res = 0.33446E-01, tol = 0.47615E+04, time = 6.60 | CG iter. 29 -- res = 0.17360E-01, tol = 0.47615E+04, time = 6.88 | CG iter. 30 -- res = 0.89337E-02, tol = 0.47615E+04, time = 6.91 | CG iter. 31 -- res = 0.49872E-02, tol = 0.47615E+04, time = 6.48 | CG iter. 32 -- res = 0.28232E-02, tol = 0.47615E+04, time = 6.23 | CG iter. 33 -- res = 0.15618E-02, tol = 0.47615E+04, time = 6.17 | CG iter. 34 -- res = 0.82860E-03, tol = 0.47615E+04, time = 6.88 | CG iter. 35 -- res = 0.42404E-03, tol = 0.47615E+04, time = 8.19 | Final CG iter 36 -- res = 0.42404E-03, tol = 0.47615E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.201 2.752 | New value -1.148 | Old value 5.201 | Difference -6.348 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.20828E+07, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.17740E+02, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.10995E+00, tol = 0.47627E+18, time = 1.99 | Final CG iter 4 -- res = 0.36080E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11186038.612 | (Sampled value in CG: 11175760.437 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.754717 | New value = -3.552898 | poltype: 1 pol: 1 CPU time specind = 1.1907101E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.22056E+07, tol = 0.27486E+01, time = 3.56 | CG iter. 2 -- res = 0.83366E+06, tol = 0.27486E+01, time = 3.23 | CG iter. 3 -- res = 0.14330E+06, tol = 0.27486E+01, time = 3.13 | CG iter. 4 -- res = 0.55869E+05, tol = 0.27486E+01, time = 2.75 | CG iter. 5 -- res = 0.31359E+05, tol = 0.27486E+01, time = 2.70 | CG iter. 6 -- res = 0.16591E+05, tol = 0.27486E+01, time = 2.78 | CG iter. 7 -- res = 0.65995E+04, tol = 0.27486E+01, time = 2.70 | CG iter. 8 -- res = 0.30546E+04, tol = 0.27486E+01, time = 2.74 | CG iter. 9 -- res = 0.14314E+04, tol = 0.27486E+01, time = 2.68 | CG iter. 10 -- res = 0.58675E+03, tol = 0.27486E+01, time = 2.58 | CG iter. 11 -- res = 0.22947E+03, tol = 0.27486E+01, time = 2.80 | CG iter. 12 -- res = 0.10889E+03, tol = 0.27486E+01, time = 2.90 | CG iter. 13 -- res = 0.54033E+02, tol = 0.27486E+01, time = 2.81 | CG iter. 14 -- res = 0.28651E+02, tol = 0.27486E+01, time = 2.89 | CG iter. 15 -- res = 0.13718E+02, tol = 0.27486E+01, time = 2.57 | CG iter. 16 -- res = 0.61387E+01, tol = 0.27486E+01, time = 2.57 | CG iter. 17 -- res = 0.25854E+01, tol = 0.27486E+01, time = 2.77 | CG iter. 18 -- res = 0.11536E+01, tol = 0.27486E+01, time = 2.97 | CG iter. 19 -- res = 0.56557E+00, tol = 0.27486E+01, time = 2.91 | CG iter. 20 -- res = 0.29399E+00, tol = 0.27486E+01, time = 2.87 | CG iter. 21 -- res = 0.14982E+00, tol = 0.27486E+01, time = 2.61 | CG iter. 22 -- res = 0.69586E-01, tol = 0.27486E+01, time = 2.86 | CG iter. 23 -- res = 0.31954E-01, tol = 0.27486E+01, time = 2.61 | CG iter. 24 -- res = 0.14180E-01, tol = 0.27486E+01, time = 2.92 | CG iter. 25 -- res = 0.68260E-02, tol = 0.27486E+01, time = 2.73 | CG iter. 26 -- res = 0.33517E-02, tol = 0.27486E+01, time = 2.41 | CG iter. 27 -- res = 0.17236E-02, tol = 0.27486E+01, time = 2.70 | CG iter. 28 -- res = 0.88706E-03, tol = 0.27486E+01, time = 2.67 | CG iter. 29 -- res = 0.39050E-03, tol = 0.27486E+01, time = 2.69 | CG iter. 30 -- res = 0.18093E-03, tol = 0.27486E+01, time = 2.83 | CG iter. 31 -- res = 0.86762E-04, tol = 0.27486E+01, time = 2.87 | CG iter. 32 -- res = 0.41577E-04, tol = 0.27486E+01, time = 2.67 | CG iter. 33 -- res = 0.21579E-04, tol = 0.27486E+01, time = 2.57 | CG iter. 34 -- res = 0.10476E-04, tol = 0.27486E+01, time = 2.89 | CG iter. 35 -- res = 0.49808E-05, tol = 0.27486E+01, time = 3.05 | CG iter. 36 -- res = 0.22881E-05, tol = 0.27486E+01, time = 2.85 | CG iter. 37 -- res = 0.10683E-05, tol = 0.27486E+01, time = 3.07 | CG iter. 38 -- res = 0.54098E-06, tol = 0.27486E+01, time = 2.64 | CG iter. 39 -- res = 0.25469E-06, tol = 0.27486E+01, time = 2.72 | CG iter. 40 -- res = 0.12536E-06, tol = 0.27486E+01, time = 3.04 | CG iter. 41 -- res = 0.60817E-07, tol = 0.27486E+01, time = 3.12 | CG iter. 42 -- res = 0.29352E-07, tol = 0.27486E+01, time = 2.75 | CG iter. 43 -- res = 0.13795E-07, tol = 0.27486E+01, time = 2.67 | CG iter. 44 -- res = 0.65552E-08, tol = 0.27486E+01, time = 2.79 | CG iter. 45 -- res = 0.31016E-08, tol = 0.27486E+01, time = 2.81 | CG iter. 46 -- res = 0.14974E-08, tol = 0.27486E+01, time = 2.99 | CG iter. 47 -- res = 0.74360E-09, tol = 0.27486E+01, time = 2.65 | CG iter. 48 -- res = 0.38063E-09, tol = 0.27486E+01, time = 2.79 | CG iter. 49 -- res = 0.17635E-09, tol = 0.27486E+01, time = 2.86 | CG iter. 50 -- res = 0.82584E-10, tol = 0.27486E+01, time = 2.43 | Final CG iter 51 -- res = 0.82584E-10, tol = 0.27486E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.104 4.606 | New value -1.396 | Old value -1.104 | Difference -0.292 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.50388E+03, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.11709E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.59601E-01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.64536E-04, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.77936E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11186038.612 | (Sampled value in CG: 11178891.629 ) | CPU time specind = 1198.251 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.69065E+08, tol = 0.57572E+04, time = 12.10 | CG iter. 2 -- res = 0.59134E+08, tol = 0.57572E+04, time = 11.89 | CG iter. 3 -- res = 0.15579E+08, tol = 0.57572E+04, time = 12.25 | CG iter. 4 -- res = 0.65252E+07, tol = 0.57572E+04, time = 12.02 | CG iter. 5 -- res = 0.38473E+07, tol = 0.57572E+04, time = 12.24 | CG iter. 6 -- res = 0.22330E+07, tol = 0.57572E+04, time = 13.96 | CG iter. 7 -- res = 0.13086E+07, tol = 0.57572E+04, time = 12.51 | CG iter. 8 -- res = 0.88519E+06, tol = 0.57572E+04, time = 11.79 | CG iter. 9 -- res = 0.57439E+06, tol = 0.57572E+04, time = 11.40 | CG iter. 10 -- res = 0.33354E+06, tol = 0.57572E+04, time = 11.81 | CG iter. 11 -- res = 0.17626E+06, tol = 0.57572E+04, time = 12.13 | CG iter. 12 -- res = 0.93974E+05, tol = 0.57572E+04, time = 12.27 | CG iter. 13 -- res = 0.50070E+05, tol = 0.57572E+04, time = 12.01 | CG iter. 14 -- res = 0.28501E+05, tol = 0.57572E+04, time = 12.01 | CG iter. 15 -- res = 0.18100E+05, tol = 0.57572E+04, time = 12.29 | CG iter. 16 -- res = 0.12283E+05, tol = 0.57572E+04, time = 13.94 | CG iter. 17 -- res = 0.83677E+04, tol = 0.57572E+04, time = 11.74 | CG iter. 18 -- res = 0.55475E+04, tol = 0.57572E+04, time = 11.68 | CG iter. 19 -- res = 0.35891E+04, tol = 0.57572E+04, time = 12.21 | CG iter. 20 -- res = 0.23506E+04, tol = 0.57572E+04, time = 11.81 | CG iter. 21 -- res = 0.15684E+04, tol = 0.57572E+04, time = 12.21 | CG iter. 22 -- res = 0.11404E+04, tol = 0.57572E+04, time = 11.38 | CG iter. 23 -- res = 0.95165E+03, tol = 0.57572E+04, time = 18.56 | CG iter. 24 -- res = 0.90101E+03, tol = 0.57572E+04, time = 12.04 | CG iter. 25 -- res = 0.90439E+03, tol = 0.57572E+04, time = 11.71 | CG iter. 26 -- res = 0.90713E+03, tol = 0.57572E+04, time = 11.48 | CG iter. 27 -- res = 0.87644E+03, tol = 0.57572E+04, time = 11.84 | CG iter. 28 -- res = 0.80765E+03, tol = 0.57572E+04, time = 12.13 | CG iter. 29 -- res = 0.75525E+03, tol = 0.57572E+04, time = 12.14 | CG iter. 30 -- res = 0.70965E+03, tol = 0.57572E+04, time = 12.38 | CG iter. 31 -- res = 0.66486E+03, tol = 0.57572E+04, time = 13.34 | CG iter. 32 -- res = 0.60648E+03, tol = 0.57572E+04, time = 11.75 | CG iter. 33 -- res = 0.51477E+03, tol = 0.57572E+04, time = 12.51 | CG iter. 34 -- res = 0.39811E+03, tol = 0.57572E+04, time = 11.91 | CG iter. 35 -- res = 0.28616E+03, tol = 0.57572E+04, time = 11.71 | CG iter. 36 -- res = 0.21525E+03, tol = 0.57572E+04, time = 11.98 | CG iter. 37 -- res = 0.17139E+03, tol = 0.57572E+04, time = 11.89 | CG iter. 38 -- res = 0.14766E+03, tol = 0.57572E+04, time = 12.43 | CG iter. 39 -- res = 0.13337E+03, tol = 0.57572E+04, time = 12.02 | CG iter. 40 -- res = 0.12070E+03, tol = 0.57572E+04, time = 12.19 | CG iter. 41 -- res = 0.10643E+03, tol = 0.57572E+04, time = 12.00 | CG iter. 42 -- res = 0.92042E+02, tol = 0.57572E+04, time = 11.77 | CG iter. 43 -- res = 0.81907E+02, tol = 0.57572E+04, time = 12.04 | CG iter. 44 -- res = 0.75175E+02, tol = 0.57572E+04, time = 12.34 | CG iter. 45 -- res = 0.72613E+02, tol = 0.57572E+04, time = 12.21 | CG iter. 46 -- res = 0.69928E+02, tol = 0.57572E+04, time = 11.75 | CG iter. 47 -- res = 0.65333E+02, tol = 0.57572E+04, time = 11.89 | CG iter. 48 -- res = 0.58280E+02, tol = 0.57572E+04, time = 17.86 | CG iter. 49 -- res = 0.48845E+02, tol = 0.57572E+04, time = 11.56 | CG iter. 50 -- res = 0.40881E+02, tol = 0.57572E+04, time = 12.27 | CG iter. 51 -- res = 0.34798E+02, tol = 0.57572E+04, time = 11.59 | CG iter. 52 -- res = 0.30288E+02, tol = 0.57572E+04, time = 12.06 | CG iter. 53 -- res = 0.28276E+02, tol = 0.57572E+04, time = 11.61 | CG iter. 54 -- res = 0.26847E+02, tol = 0.57572E+04, time = 12.16 | CG iter. 55 -- res = 0.24922E+02, tol = 0.57572E+04, time = 14.13 | CG iter. 56 -- res = 0.22908E+02, tol = 0.57572E+04, time = 12.48 | CG iter. 57 -- res = 0.20841E+02, tol = 0.57572E+04, time = 11.49 | CG iter. 58 -- res = 0.19887E+02, tol = 0.57572E+04, time = 11.88 | CG iter. 59 -- res = 0.19452E+02, tol = 0.57572E+04, time = 11.91 | CG iter. 60 -- res = 0.19310E+02, tol = 0.57572E+04, time = 11.95 | Final CG iter 61 -- res = 0.19310E+02, tol = 0.57572E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.882 ( -229.575 -2232.109 2514.804 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10448894.695 | Old band monopole 11186086.726 | Change to band monopole -737192.031 | Change to component monopole 737188.860 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.178 2.749 | New value 1.539 | Old value -1.178 | Difference 2.717 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.438 ( 6.638 13.960 -14.154 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.374 4.399 | New value 11.639 | Old value 3.374 | Difference 8.265 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.64796E+06, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.11568E+03, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.38461E+01, tol = 0.47627E+18, time = 2.93 | CG iter. 4 -- res = 0.69140E-02, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.13967E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10448849.752 | (Sampled value in CG: 10424726.547 ) | Chain = 1 -- chisq = 0.81570641E+09 | Chain = 1 -- wall time = 6097.283 sec Available RAM: MemAvailable: 384858400 kB Available Swap: SwapFree: 1122977392 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 289 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442459 | --> Sampling calibration, mode = relcal | relcal = 1.3446494E-02 7.3447876E-04 -1.6043573E-03 -1.2576615E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1149315 0.1213889 97047571.1770067 | BP delta = 0.1059370 0.1123944 97047573.4880397 | BP chisq diff = 2.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632578 | --> Sampling calibration, mode = relcal | relcal = -2.8210829E-03 -7.0567161E-04 1.6791220E-03 1.6136362E-03 -4.0766160E-04 6.4165803E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5405245 15225161.9808564 | BP delta = 0.0000000E+00 -0.5403380 15225159.5413019 | BP chisq diff = -2.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18232329979330 | --> Sampling calibration, mode = relcal | relcal = -7.5908460E-02 -5.8972709E-02 9.2679091E-02 4.2202078E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.5644051E-04 5.6818016E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6563E-05 | 2: delta_r/delta_0: 1.2333E-06 | 3: delta_s/delta_0: 1.9105E-07 | 4: delta_r/delta_0: 2.2516E-08 | 5: delta_s/delta_0: 5.4970E-09 | 6: delta_r/delta_0: 1.9870E-09 | 7: delta_s/delta_0: 4.4566E-10 | 8: delta_r/delta_0: 1.4454E-10 | 9: delta_s/delta_0: 7.5416E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.341753695422725E-003 2.737897575399624E-005 | BP delta = 6.7953065E-02 8.7930769E-02 50485905.8191261 | BP delta = 6.4564183E-02 8.4541887E-02 50485909.4559752 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02613538 | --> Sampling calibration, mode = relcal | relcal = -0.1067353 -9.5487073E-02 0.1448508 5.7371594E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1972690E-03 1.1166427E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0304E-05 | 2: delta_r/delta_0: 1.2084E-06 | 3: delta_s/delta_0: 2.5054E-07 | 4: delta_r/delta_0: 4.6431E-08 | 5: delta_s/delta_0: 1.9921E-08 | 6: delta_r/delta_0: 6.7531E-09 | 7: delta_s/delta_0: 1.0996E-08 | 8: delta_r/delta_0: 1.1130E-09 | 9: delta_s/delta_0: 9.7342E-10 | 10: delta_r/delta_0: 1.4587E-10 | 11: delta_s/delta_0: 2.6497E-09 | 12: delta_r/delta_0: 2.3552E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.701395260590381E-003 2.810454351529738E-005 | BP delta = -0.3275390 -0.3024099 57392285.7152467 | BP delta = -0.3230846 -0.2979554 57392285.6767123 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81255221 | --> Sampling calibration, mode = relcal | relcal = 0.2955216 0.2249738 -0.2837988 -0.2366967 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3373136E-03 4.8755091E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4710E-04 | 2: delta_r/delta_0: 6.2645E-06 | 3: delta_s/delta_0: 1.1547E-05 | 4: delta_r/delta_0: 1.2082E-06 | 5: delta_s/delta_0: 2.0377E-07 | 6: delta_r/delta_0: 1.2259E-07 | 7: delta_s/delta_0: 6.9682E-07 | 8: delta_r/delta_0: 2.6453E-08 | 9: delta_s/delta_0: 1.5327E-07 | 10: delta_r/delta_0: 6.7745E-08 | 11: delta_s/delta_0: 1.3542E-09 | 12: delta_r/delta_0: 8.3578E-10 | 13: delta_s/delta_0: 2.9381E-09 | 14: delta_r/delta_0: 9.8645E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.972470039571323E-002 4.020062640101811E-005 | BP delta = -0.3322891 -0.3568964 72485982.7994986 | BP delta = -0.3326117 -0.3572189 72485982.8021706 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95944114 | --> Sampling calibration, mode = relcal | relcal = 0.1064522 0.1397638 -0.1103604 -0.1358556 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.5791498E-03 1.4448180E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4783E-04 | 2: delta_r/delta_0: 8.6344E-06 | 3: delta_s/delta_0: 8.2478E-05 | 4: delta_r/delta_0: 4.6003E-06 | 5: delta_s/delta_0: 2.3261E-07 | 6: delta_r/delta_0: 1.1801E-07 | 7: delta_s/delta_0: 4.0401E-07 | 8: delta_r/delta_0: 3.2456E-08 | 9: delta_s/delta_0: 9.8464E-09 | 10: delta_r/delta_0: 4.6751E-09 | 11: delta_s/delta_0: 1.7283E-09 | 12: delta_r/delta_0: 9.2734E-10 | 13: delta_s/delta_0: 1.6679E-09 | 14: delta_r/delta_0: 1.2665E-10 | 15: delta_s/delta_0: 6.5069E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.126544956126207E-002 3.696162256612622E-005 | BP delta = 8.8210460E-03 0.1126575 72784697.9788715 | BP delta = 6.1763108E-02 0.1655996 72784698.9647880 | BP chisq diff = 1.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146113 | New value = -3.178082 | poltype: 2 pol: 1 CPU time specind = 1.4919043E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181571 | New value = -3.153045 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167804 | New value = -3.175268 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187215 | New value = -3.117869 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126986 | New value = -3.216951 | poltype: 2 pol: 2 CPU time specind = 2.8403044E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.13551E+08, tol = 0.68130E+01, time = 5.62 | CG iter. 2 -- res = 0.31491E+06, tol = 0.68130E+01, time = 5.96 | CG iter. 3 -- res = 0.46544E+05, tol = 0.68130E+01, time = 5.65 | CG iter. 4 -- res = 0.22507E+05, tol = 0.68130E+01, time = 5.95 | CG iter. 5 -- res = 0.12082E+05, tol = 0.68130E+01, time = 6.01 | CG iter. 6 -- res = 0.75959E+04, tol = 0.68130E+01, time = 5.61 | CG iter. 7 -- res = 0.59829E+04, tol = 0.68130E+01, time = 5.96 | CG iter. 8 -- res = 0.48352E+04, tol = 0.68130E+01, time = 6.04 | CG iter. 9 -- res = 0.43340E+04, tol = 0.68130E+01, time = 5.50 | CG iter. 10 -- res = 0.43821E+04, tol = 0.68130E+01, time = 5.68 | CG iter. 11 -- res = 0.37229E+04, tol = 0.68130E+01, time = 5.62 | CG iter. 12 -- res = 0.25347E+04, tol = 0.68130E+01, time = 5.69 | CG iter. 13 -- res = 0.16844E+04, tol = 0.68130E+01, time = 5.62 | CG iter. 14 -- res = 0.13539E+04, tol = 0.68130E+01, time = 7.00 | CG iter. 15 -- res = 0.11836E+04, tol = 0.68130E+01, time = 6.43 | CG iter. 16 -- res = 0.99506E+03, tol = 0.68130E+01, time = 5.94 | CG iter. 17 -- res = 0.77958E+03, tol = 0.68130E+01, time = 5.91 | CG iter. 18 -- res = 0.60271E+03, tol = 0.68130E+01, time = 5.68 | CG iter. 19 -- res = 0.50838E+03, tol = 0.68130E+01, time = 5.60 | CG iter. 20 -- res = 0.40628E+03, tol = 0.68130E+01, time = 5.67 | CG iter. 21 -- res = 0.29405E+03, tol = 0.68130E+01, time = 5.77 | CG iter. 22 -- res = 0.21942E+03, tol = 0.68130E+01, time = 5.69 | CG iter. 23 -- res = 0.18709E+03, tol = 0.68130E+01, time = 6.02 | CG iter. 24 -- res = 0.16231E+03, tol = 0.68130E+01, time = 6.39 | CG iter. 25 -- res = 0.12052E+03, tol = 0.68130E+01, time = 5.45 | CG iter. 26 -- res = 0.85074E+02, tol = 0.68130E+01, time = 5.69 | CG iter. 27 -- res = 0.64144E+02, tol = 0.68130E+01, time = 5.96 | CG iter. 28 -- res = 0.53643E+02, tol = 0.68130E+01, time = 5.46 | CG iter. 29 -- res = 0.42219E+02, tol = 0.68130E+01, time = 6.04 | CG iter. 30 -- res = 0.30650E+02, tol = 0.68130E+01, time = 5.78 | CG iter. 31 -- res = 0.23480E+02, tol = 0.68130E+01, time = 6.20 | CG iter. 32 -- res = 0.19269E+02, tol = 0.68130E+01, time = 5.48 | CG iter. 33 -- res = 0.15527E+02, tol = 0.68130E+01, time = 5.34 | CG iter. 34 -- res = 0.11648E+02, tol = 0.68130E+01, time = 5.88 | CG iter. 35 -- res = 0.88501E+01, tol = 0.68130E+01, time = 5.71 | CG iter. 36 -- res = 0.71168E+01, tol = 0.68130E+01, time = 5.86 | CG iter. 37 -- res = 0.59006E+01, tol = 0.68130E+01, time = 5.56 | CG iter. 38 -- res = 0.45739E+01, tol = 0.68130E+01, time = 5.76 | CG iter. 39 -- res = 0.33034E+01, tol = 0.68130E+01, time = 5.50 | CG iter. 40 -- res = 0.26240E+01, tol = 0.68130E+01, time = 5.60 | CG iter. 41 -- res = 0.21644E+01, tol = 0.68130E+01, time = 5.94 | CG iter. 42 -- res = 0.17289E+01, tol = 0.68130E+01, time = 5.56 | CG iter. 43 -- res = 0.13174E+01, tol = 0.68130E+01, time = 5.44 | CG iter. 44 -- res = 0.10229E+01, tol = 0.68130E+01, time = 5.75 | CG iter. 45 -- res = 0.82673E+00, tol = 0.68130E+01, time = 5.85 | CG iter. 46 -- res = 0.68430E+00, tol = 0.68130E+01, time = 5.60 | CG iter. 47 -- res = 0.50669E+00, tol = 0.68130E+01, time = 5.90 | CG iter. 48 -- res = 0.38661E+00, tol = 0.68130E+01, time = 5.85 | CG iter. 49 -- res = 0.31925E+00, tol = 0.68130E+01, time = 6.30 | CG iter. 50 -- res = 0.27386E+00, tol = 0.68130E+01, time = 11.20 | Final CG iter 51 -- res = 0.27386E+00, tol = 0.68130E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7713328.095 | Old band monopole 10448894.695 | Change to band monopole -2735566.600 | Change to component monopole 2735554.834 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.89578E+04, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.15252E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.53112E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.13299E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.34798E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7713294.918 | (Sampled value in CG: 7688951.014 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.497786 | New value = 1.447518 | poltype: 2 pol: 1 CPU time specind = 1.3283968E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.460907 | New value = 1.470334 | poltype: 2 pol: 2 CPU time specind = 1.6667128E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.24517E+08, tol = 0.47486E+04, time = 6.82 | CG iter. 2 -- res = 0.51431E+07, tol = 0.47486E+04, time = 6.76 | CG iter. 3 -- res = 0.78738E+06, tol = 0.47486E+04, time = 6.79 | CG iter. 4 -- res = 0.33151E+06, tol = 0.47486E+04, time = 6.49 | CG iter. 5 -- res = 0.14345E+06, tol = 0.47486E+04, time = 6.98 | CG iter. 6 -- res = 0.76860E+05, tol = 0.47486E+04, time = 6.54 | CG iter. 7 -- res = 0.42894E+05, tol = 0.47486E+04, time = 6.94 | CG iter. 8 -- res = 0.19996E+05, tol = 0.47486E+04, time = 6.55 | CG iter. 9 -- res = 0.85523E+04, tol = 0.47486E+04, time = 6.61 | CG iter. 10 -- res = 0.34757E+04, tol = 0.47486E+04, time = 6.54 | CG iter. 11 -- res = 0.15995E+04, tol = 0.47486E+04, time = 6.36 | CG iter. 12 -- res = 0.83493E+03, tol = 0.47486E+04, time = 7.36 | CG iter. 13 -- res = 0.48067E+03, tol = 0.47486E+04, time = 6.43 | CG iter. 14 -- res = 0.26871E+03, tol = 0.47486E+04, time = 6.74 | CG iter. 15 -- res = 0.13425E+03, tol = 0.47486E+04, time = 6.61 | CG iter. 16 -- res = 0.64902E+02, tol = 0.47486E+04, time = 6.62 | CG iter. 17 -- res = 0.30268E+02, tol = 0.47486E+04, time = 6.52 | CG iter. 18 -- res = 0.15224E+02, tol = 0.47486E+04, time = 6.34 | CG iter. 19 -- res = 0.81606E+01, tol = 0.47486E+04, time = 6.90 | CG iter. 20 -- res = 0.45616E+01, tol = 0.47486E+04, time = 6.25 | CG iter. 21 -- res = 0.25108E+01, tol = 0.47486E+04, time = 6.65 | CG iter. 22 -- res = 0.13154E+01, tol = 0.47486E+04, time = 6.72 | CG iter. 23 -- res = 0.66509E+00, tol = 0.47486E+04, time = 6.48 | CG iter. 24 -- res = 0.35040E+00, tol = 0.47486E+04, time = 6.90 | CG iter. 25 -- res = 0.19509E+00, tol = 0.47486E+04, time = 6.65 | CG iter. 26 -- res = 0.11014E+00, tol = 0.47486E+04, time = 6.42 | CG iter. 27 -- res = 0.61445E-01, tol = 0.47486E+04, time = 12.44 | CG iter. 28 -- res = 0.33406E-01, tol = 0.47486E+04, time = 6.48 | CG iter. 29 -- res = 0.17522E-01, tol = 0.47486E+04, time = 6.15 | CG iter. 30 -- res = 0.93570E-02, tol = 0.47486E+04, time = 6.54 | CG iter. 31 -- res = 0.51593E-02, tol = 0.47486E+04, time = 6.64 | CG iter. 32 -- res = 0.28603E-02, tol = 0.47486E+04, time = 7.00 | CG iter. 33 -- res = 0.15821E-02, tol = 0.47486E+04, time = 6.86 | CG iter. 34 -- res = 0.84468E-03, tol = 0.47486E+04, time = 6.60 | CG iter. 35 -- res = 0.43936E-03, tol = 0.47486E+04, time = 6.47 | Final CG iter 36 -- res = 0.43936E-03, tol = 0.47486E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.549 2.749 | New value 0.435 | Old value 1.549 | Difference -1.113 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.30 | CG iter. 1 -- res = 0.71078E+05, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.26762E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.63061E+00, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.97311E-03, tol = 0.47627E+18, time = 2.23 | Final CG iter 5 -- res = 0.22309E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7713294.918 | (Sampled value in CG: 7690832.654 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.552898 | New value = -3.611639 | poltype: 1 pol: 1 CPU time specind = 1.2406111E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.21518E+07, tol = 0.30747E+01, time = 2.92 | CG iter. 2 -- res = 0.77240E+06, tol = 0.30747E+01, time = 2.58 | CG iter. 3 -- res = 0.14773E+06, tol = 0.30747E+01, time = 2.45 | CG iter. 4 -- res = 0.56419E+05, tol = 0.30747E+01, time = 2.90 | CG iter. 5 -- res = 0.31915E+05, tol = 0.30747E+01, time = 2.89 | CG iter. 6 -- res = 0.17246E+05, tol = 0.30747E+01, time = 3.09 | CG iter. 7 -- res = 0.72324E+04, tol = 0.30747E+01, time = 2.83 | CG iter. 8 -- res = 0.31408E+04, tol = 0.30747E+01, time = 2.44 | CG iter. 9 -- res = 0.13608E+04, tol = 0.30747E+01, time = 2.97 | CG iter. 10 -- res = 0.54580E+03, tol = 0.30747E+01, time = 2.79 | CG iter. 11 -- res = 0.22233E+03, tol = 0.30747E+01, time = 3.60 | CG iter. 12 -- res = 0.10878E+03, tol = 0.30747E+01, time = 3.55 | CG iter. 13 -- res = 0.56807E+02, tol = 0.30747E+01, time = 3.21 | CG iter. 14 -- res = 0.27885E+02, tol = 0.30747E+01, time = 3.24 | CG iter. 15 -- res = 0.13018E+02, tol = 0.30747E+01, time = 3.07 | CG iter. 16 -- res = 0.55043E+01, tol = 0.30747E+01, time = 2.61 | CG iter. 17 -- res = 0.23389E+01, tol = 0.30747E+01, time = 2.91 | CG iter. 18 -- res = 0.10945E+01, tol = 0.30747E+01, time = 2.65 | CG iter. 19 -- res = 0.52514E+00, tol = 0.30747E+01, time = 2.81 | CG iter. 20 -- res = 0.27199E+00, tol = 0.30747E+01, time = 2.94 | CG iter. 21 -- res = 0.14135E+00, tol = 0.30747E+01, time = 2.74 | CG iter. 22 -- res = 0.64879E-01, tol = 0.30747E+01, time = 2.89 | CG iter. 23 -- res = 0.28065E-01, tol = 0.30747E+01, time = 2.77 | CG iter. 24 -- res = 0.13121E-01, tol = 0.30747E+01, time = 2.62 | CG iter. 25 -- res = 0.65572E-02, tol = 0.30747E+01, time = 2.64 | CG iter. 26 -- res = 0.33303E-02, tol = 0.30747E+01, time = 2.77 | CG iter. 27 -- res = 0.17169E-02, tol = 0.30747E+01, time = 2.49 | CG iter. 28 -- res = 0.80259E-03, tol = 0.30747E+01, time = 2.60 | CG iter. 29 -- res = 0.36145E-03, tol = 0.30747E+01, time = 2.74 | CG iter. 30 -- res = 0.17196E-03, tol = 0.30747E+01, time = 2.59 | CG iter. 31 -- res = 0.82894E-04, tol = 0.30747E+01, time = 2.84 | CG iter. 32 -- res = 0.41807E-04, tol = 0.30747E+01, time = 2.96 | CG iter. 33 -- res = 0.20536E-04, tol = 0.30747E+01, time = 3.09 | CG iter. 34 -- res = 0.10075E-04, tol = 0.30747E+01, time = 2.84 | CG iter. 35 -- res = 0.48898E-05, tol = 0.30747E+01, time = 2.79 | CG iter. 36 -- res = 0.22394E-05, tol = 0.30747E+01, time = 2.67 | CG iter. 37 -- res = 0.10171E-05, tol = 0.30747E+01, time = 2.85 | CG iter. 38 -- res = 0.50188E-06, tol = 0.30747E+01, time = 2.77 | CG iter. 39 -- res = 0.25824E-06, tol = 0.30747E+01, time = 2.73 | CG iter. 40 -- res = 0.12533E-06, tol = 0.30747E+01, time = 2.98 | CG iter. 41 -- res = 0.58131E-07, tol = 0.30747E+01, time = 2.85 | CG iter. 42 -- res = 0.26718E-07, tol = 0.30747E+01, time = 2.73 | CG iter. 43 -- res = 0.12674E-07, tol = 0.30747E+01, time = 3.17 | CG iter. 44 -- res = 0.61477E-08, tol = 0.30747E+01, time = 2.87 | CG iter. 45 -- res = 0.29739E-08, tol = 0.30747E+01, time = 2.88 | CG iter. 46 -- res = 0.15118E-08, tol = 0.30747E+01, time = 2.78 | CG iter. 47 -- res = 0.70326E-09, tol = 0.30747E+01, time = 2.56 | CG iter. 48 -- res = 0.32066E-09, tol = 0.30747E+01, time = 2.75 | CG iter. 49 -- res = 0.15050E-09, tol = 0.30747E+01, time = 3.29 | CG iter. 50 -- res = 0.72884E-10, tol = 0.30747E+01, time = 3.21 | Final CG iter 51 -- res = 0.72884E-10, tol = 0.30747E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.928 5.304 | New value -2.613 | Old value 8.928 | Difference -11.541 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.13140E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.54832E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.25089E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.25713E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.42990E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7713294.918 | (Sampled value in CG: 7693720.465 ) | CPU time specind = 1196.622 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.70012E+08, tol = 0.57672E+04, time = 14.20 | CG iter. 2 -- res = 0.59388E+08, tol = 0.57672E+04, time = 16.84 | CG iter. 3 -- res = 0.15459E+08, tol = 0.57672E+04, time = 12.13 | CG iter. 4 -- res = 0.64886E+07, tol = 0.57672E+04, time = 12.02 | CG iter. 5 -- res = 0.38935E+07, tol = 0.57672E+04, time = 12.80 | CG iter. 6 -- res = 0.23236E+07, tol = 0.57672E+04, time = 11.84 | CG iter. 7 -- res = 0.13603E+07, tol = 0.57672E+04, time = 12.31 | CG iter. 8 -- res = 0.88739E+06, tol = 0.57672E+04, time = 13.01 | CG iter. 9 -- res = 0.56803E+06, tol = 0.57672E+04, time = 13.45 | CG iter. 10 -- res = 0.33867E+06, tol = 0.57672E+04, time = 11.87 | CG iter. 11 -- res = 0.18013E+06, tol = 0.57672E+04, time = 12.10 | CG iter. 12 -- res = 0.96390E+05, tol = 0.57672E+04, time = 11.77 | CG iter. 13 -- res = 0.52762E+05, tol = 0.57672E+04, time = 11.96 | CG iter. 14 -- res = 0.30297E+05, tol = 0.57672E+04, time = 11.98 | CG iter. 15 -- res = 0.19322E+05, tol = 0.57672E+04, time = 11.91 | CG iter. 16 -- res = 0.13441E+05, tol = 0.57672E+04, time = 11.59 | CG iter. 17 -- res = 0.97030E+04, tol = 0.57672E+04, time = 12.00 | CG iter. 18 -- res = 0.69068E+04, tol = 0.57672E+04, time = 12.05 | CG iter. 19 -- res = 0.47431E+04, tol = 0.57672E+04, time = 11.41 | CG iter. 20 -- res = 0.33285E+04, tol = 0.57672E+04, time = 12.18 | CG iter. 21 -- res = 0.25073E+04, tol = 0.57672E+04, time = 11.74 | CG iter. 22 -- res = 0.21197E+04, tol = 0.57672E+04, time = 11.72 | CG iter. 23 -- res = 0.20446E+04, tol = 0.57672E+04, time = 12.32 | CG iter. 24 -- res = 0.21766E+04, tol = 0.57672E+04, time = 11.94 | CG iter. 25 -- res = 0.23259E+04, tol = 0.57672E+04, time = 12.12 | CG iter. 26 -- res = 0.23398E+04, tol = 0.57672E+04, time = 17.75 | CG iter. 27 -- res = 0.21700E+04, tol = 0.57672E+04, time = 12.06 | CG iter. 28 -- res = 0.18464E+04, tol = 0.57672E+04, time = 12.22 | CG iter. 29 -- res = 0.15814E+04, tol = 0.57672E+04, time = 11.59 | CG iter. 30 -- res = 0.14242E+04, tol = 0.57672E+04, time = 11.81 | CG iter. 31 -- res = 0.13015E+04, tol = 0.57672E+04, time = 11.71 | CG iter. 32 -- res = 0.11192E+04, tol = 0.57672E+04, time = 11.29 | CG iter. 33 -- res = 0.92150E+03, tol = 0.57672E+04, time = 13.65 | CG iter. 34 -- res = 0.71746E+03, tol = 0.57672E+04, time = 12.22 | CG iter. 35 -- res = 0.55679E+03, tol = 0.57672E+04, time = 11.84 | CG iter. 36 -- res = 0.45242E+03, tol = 0.57672E+04, time = 11.89 | CG iter. 37 -- res = 0.40645E+03, tol = 0.57672E+04, time = 12.21 | CG iter. 38 -- res = 0.39093E+03, tol = 0.57672E+04, time = 11.99 | CG iter. 39 -- res = 0.38371E+03, tol = 0.57672E+04, time = 11.70 | CG iter. 40 -- res = 0.36574E+03, tol = 0.57672E+04, time = 11.83 | CG iter. 41 -- res = 0.33113E+03, tol = 0.57672E+04, time = 11.99 | CG iter. 42 -- res = 0.29166E+03, tol = 0.57672E+04, time = 13.01 | CG iter. 43 -- res = 0.26423E+03, tol = 0.57672E+04, time = 11.97 | CG iter. 44 -- res = 0.24921E+03, tol = 0.57672E+04, time = 11.90 | CG iter. 45 -- res = 0.23939E+03, tol = 0.57672E+04, time = 11.69 | CG iter. 46 -- res = 0.22474E+03, tol = 0.57672E+04, time = 12.27 | CG iter. 47 -- res = 0.20088E+03, tol = 0.57672E+04, time = 11.97 | CG iter. 48 -- res = 0.17420E+03, tol = 0.57672E+04, time = 11.92 | CG iter. 49 -- res = 0.14942E+03, tol = 0.57672E+04, time = 11.78 | CG iter. 50 -- res = 0.13188E+03, tol = 0.57672E+04, time = 18.07 | CG iter. 51 -- res = 0.12283E+03, tol = 0.57672E+04, time = 12.01 | CG iter. 52 -- res = 0.12037E+03, tol = 0.57672E+04, time = 11.97 | CG iter. 53 -- res = 0.11918E+03, tol = 0.57672E+04, time = 12.22 | CG iter. 54 -- res = 0.11466E+03, tol = 0.57672E+04, time = 12.22 | CG iter. 55 -- res = 0.10472E+03, tol = 0.57672E+04, time = 11.67 | CG iter. 56 -- res = 0.95970E+02, tol = 0.57672E+04, time = 11.95 | CG iter. 57 -- res = 0.89347E+02, tol = 0.57672E+04, time = 13.58 | CG iter. 58 -- res = 0.86171E+02, tol = 0.57672E+04, time = 12.88 | CG iter. 59 -- res = 0.83108E+02, tol = 0.57672E+04, time = 11.87 | CG iter. 60 -- res = 0.79379E+02, tol = 0.57672E+04, time = 11.85 | Final CG iter 61 -- res = 0.79379E+02, tol = 0.57672E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.793 ( -229.357 -2231.025 2513.462 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8455872.150 | Old band monopole 7713328.095 | Change to band monopole 742544.055 | Change to component monopole -742540.861 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.399 2.739 | New value 5.563 | Old value 0.399 | Difference 5.164 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.664 ( 6.847 11.360 -10.722 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.992 6.053 | New value 9.821 | Old value 3.992 | Difference 5.829 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.14690E+07, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.49301E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.20424E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.45848E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.35258E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8455835.780 | (Sampled value in CG: 8428552.986 ) | Chain = 1 -- chisq = 0.81598243E+09 | Chain = 1 -- wall time = 5669.100 sec Available RAM: MemAvailable: 384232136 kB Available Swap: SwapFree: 1123906460 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 290 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444392 | --> Sampling calibration, mode = relcal | relcal = 1.3432225E-02 7.4097764E-04 -1.5952422E-03 -1.2577960E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1059370 0.1123944 9411336.33140528 | BP delta = 0.1059370 0.1088939 9411394.25121711 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632459 | --> Sampling calibration, mode = relcal | relcal = -2.8207542E-03 -7.0429267E-04 1.6779412E-03 1.6145189E-03 -4.0843652E-04 6.4102304E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5403380 15214736.7924173 | BP delta = 0.0000000E+00 -0.5497848 15214737.5884957 | BP chisq diff = 0.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18335668814783 | --> Sampling calibration, mode = relcal | relcal = -7.5239703E-02 -5.8725018E-02 9.2147984E-02 4.1816734E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2832893E-05 5.3409874E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2466E-05 | 2: delta_r/delta_0: 9.9669E-07 | 3: delta_s/delta_0: 1.8957E-07 | 4: delta_r/delta_0: 2.0639E-08 | 5: delta_s/delta_0: 7.3761E-09 | 6: delta_r/delta_0: 1.3991E-09 | 7: delta_s/delta_0: 3.3419E-10 | 8: delta_r/delta_0: 1.1302E-10 | 9: delta_s/delta_0: 2.7715E-10 | 10: delta_r/delta_0: 8.4359E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.059107396351438E-003 2.735581439014893E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2465E-05 | 2: delta_r/delta_0: 9.9667E-07 | 3: delta_s/delta_0: 1.8958E-07 | 4: delta_r/delta_0: 2.0641E-08 | 5: delta_s/delta_0: 7.3804E-09 | 6: delta_r/delta_0: 1.3992E-09 | 7: delta_s/delta_0: 3.3420E-10 | 8: delta_r/delta_0: 1.1304E-10 | 9: delta_s/delta_0: 2.7721E-10 | 10: delta_r/delta_0: 8.4385E-11 | Reached bicg-stab tolerance | BP delta = 6.7953065E-02 8.7930769E-02 3553869.76576786 | BP delta = 6.7953065E-02 8.8068143E-02 3550762.21761606 | BP chisq diff = -3107.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595548 | --> Sampling calibration, mode = relcal | relcal = -0.1065777 -9.5551178E-02 0.1448475 5.7281330E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7632385E-03 1.6031457E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9246E-05 | 2: delta_r/delta_0: 1.1936E-06 | 3: delta_s/delta_0: 2.4380E-07 | 4: delta_r/delta_0: 4.7716E-08 | 5: delta_s/delta_0: 1.7559E-08 | 6: delta_r/delta_0: 6.6904E-09 | 7: delta_s/delta_0: 1.0395E-08 | 8: delta_r/delta_0: 1.1043E-09 | 9: delta_s/delta_0: 9.5131E-10 | 10: delta_r/delta_0: 1.5740E-10 | 11: delta_s/delta_0: 2.0417E-09 | 12: delta_r/delta_0: 1.8704E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.506397482631499E-003 2.810927123443077E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.9245E-05 | 2: delta_r/delta_0: 1.1935E-06 | 3: delta_s/delta_0: 2.4377E-07 | 4: delta_r/delta_0: 4.7671E-08 | 5: delta_s/delta_0: 1.7577E-08 | 6: delta_r/delta_0: 6.6880E-09 | 7: delta_s/delta_0: 1.0396E-08 | 8: delta_r/delta_0: 1.1038E-09 | 9: delta_s/delta_0: 9.5107E-10 | 10: delta_r/delta_0: 1.5713E-10 | 11: delta_s/delta_0: 2.0390E-09 | 12: delta_r/delta_0: 1.8697E-11 | Reached bicg-stab tolerance | BP delta = -0.3230846 -0.2979554 2841501.52070857 | BP delta = -0.3230846 -0.2994910 2841633.31970616 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81227829 | --> Sampling calibration, mode = relcal | relcal = 0.2955837 0.2247073 -0.2837768 -0.2365143 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7734888E-04 5.5953525E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3080E-04 | 2: delta_r/delta_0: 5.8997E-06 | 3: delta_s/delta_0: 9.1875E-06 | 4: delta_r/delta_0: 1.0702E-06 | 5: delta_s/delta_0: 1.9641E-07 | 6: delta_r/delta_0: 1.1698E-07 | 7: delta_s/delta_0: 6.8239E-07 | 8: delta_r/delta_0: 2.5434E-08 | 9: delta_s/delta_0: 3.7738E-08 | 10: delta_r/delta_0: 2.1284E-08 | 11: delta_s/delta_0: 1.0935E-09 | 12: delta_r/delta_0: 7.8644E-10 | 13: delta_s/delta_0: 2.1153E-08 | 14: delta_r/delta_0: 3.0986E-09 | 15: delta_s/delta_0: 8.1103E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.942246324556446E-002 4.021432233481986E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3082E-04 | 2: delta_r/delta_0: 5.9001E-06 | 3: delta_s/delta_0: 9.1882E-06 | 4: delta_r/delta_0: 1.0701E-06 | 5: delta_s/delta_0: 1.9640E-07 | 6: delta_r/delta_0: 1.1695E-07 | 7: delta_s/delta_0: 6.8161E-07 | 8: delta_r/delta_0: 2.5438E-08 | 9: delta_s/delta_0: 3.7779E-08 | 10: delta_r/delta_0: 2.1290E-08 | 11: delta_s/delta_0: 1.0935E-09 | 12: delta_r/delta_0: 7.8647E-10 | 13: delta_s/delta_0: 2.1418E-08 | 14: delta_r/delta_0: 3.1279E-09 | 15: delta_s/delta_0: 8.1106E-11 | Reached bicg-stab tolerance | BP delta = -0.3326117 -0.3572189 2827510.96274150 | BP delta = -0.3326117 -0.3412990 2827542.43999879 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95913236 | --> Sampling calibration, mode = relcal | relcal = 0.1065748 0.1394794 -0.1102647 -0.1357895 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0980007E-02 1.2874528E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6095E-04 | 2: delta_r/delta_0: 1.1342E-05 | 3: delta_s/delta_0: 8.4122E-06 | 4: delta_r/delta_0: 8.7925E-07 | 5: delta_s/delta_0: 3.0805E-07 | 6: delta_r/delta_0: 1.3955E-07 | 7: delta_s/delta_0: 2.8346E-07 | 8: delta_r/delta_0: 3.4572E-08 | 9: delta_s/delta_0: 1.8259E-07 | 10: delta_r/delta_0: 2.4455E-08 | 11: delta_s/delta_0: 2.1376E-09 | 12: delta_r/delta_0: 1.2350E-09 | 13: delta_s/delta_0: 8.5215E-10 | 14: delta_r/delta_0: 3.6153E-10 | 15: delta_s/delta_0: 7.6250E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.236274516105965E-002 3.697292042037179E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.6088E-04 | 2: delta_r/delta_0: 1.1341E-05 | 3: delta_s/delta_0: 8.4122E-06 | 4: delta_r/delta_0: 8.7933E-07 | 5: delta_s/delta_0: 3.0803E-07 | 6: delta_r/delta_0: 1.3957E-07 | 7: delta_s/delta_0: 2.8394E-07 | 8: delta_r/delta_0: 3.4570E-08 | 9: delta_s/delta_0: 1.8507E-07 | 10: delta_r/delta_0: 2.4955E-08 | 11: delta_s/delta_0: 2.1373E-09 | 12: delta_r/delta_0: 1.2322E-09 | 13: delta_s/delta_0: 8.5652E-10 | 14: delta_r/delta_0: 3.6004E-10 | 15: delta_s/delta_0: 7.6190E-11 | Reached bicg-stab tolerance | BP delta = 6.1763108E-02 0.1655996 3004021.47862449 | BP delta = 6.1763108E-02 0.1625785 3004176.77789801 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178082 | New value = -3.206585 | poltype: 2 pol: 1 CPU time specind = 2.2350073E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153045 | New value = -3.149339 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175268 | New value = -3.042265 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117869 | New value = -3.149077 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216951 | New value = -3.119313 | poltype: 2 pol: 2 CPU time specind = 2.1256924E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.13529E+08, tol = 0.81316E+01, time = 5.94 | CG iter. 2 -- res = 0.32705E+06, tol = 0.81316E+01, time = 5.93 | CG iter. 3 -- res = 0.45675E+05, tol = 0.81316E+01, time = 5.25 | CG iter. 4 -- res = 0.19791E+05, tol = 0.81316E+01, time = 5.49 | CG iter. 5 -- res = 0.99522E+04, tol = 0.81316E+01, time = 5.41 | CG iter. 6 -- res = 0.55919E+04, tol = 0.81316E+01, time = 5.65 | CG iter. 7 -- res = 0.39394E+04, tol = 0.81316E+01, time = 5.71 | CG iter. 8 -- res = 0.29324E+04, tol = 0.81316E+01, time = 6.01 | CG iter. 9 -- res = 0.25497E+04, tol = 0.81316E+01, time = 5.85 | CG iter. 10 -- res = 0.26698E+04, tol = 0.81316E+01, time = 5.67 | CG iter. 11 -- res = 0.24772E+04, tol = 0.81316E+01, time = 5.67 | CG iter. 12 -- res = 0.18862E+04, tol = 0.81316E+01, time = 5.38 | CG iter. 13 -- res = 0.13319E+04, tol = 0.81316E+01, time = 5.09 | CG iter. 14 -- res = 0.10624E+04, tol = 0.81316E+01, time = 5.44 | CG iter. 15 -- res = 0.92057E+03, tol = 0.81316E+01, time = 5.84 | CG iter. 16 -- res = 0.79405E+03, tol = 0.81316E+01, time = 5.49 | CG iter. 17 -- res = 0.58857E+03, tol = 0.81316E+01, time = 5.97 | CG iter. 18 -- res = 0.46149E+03, tol = 0.81316E+01, time = 5.77 | CG iter. 19 -- res = 0.38866E+03, tol = 0.81316E+01, time = 5.44 | CG iter. 20 -- res = 0.31787E+03, tol = 0.81316E+01, time = 5.66 | CG iter. 21 -- res = 0.22951E+03, tol = 0.81316E+01, time = 5.66 | CG iter. 22 -- res = 0.17250E+03, tol = 0.81316E+01, time = 5.53 | CG iter. 23 -- res = 0.14582E+03, tol = 0.81316E+01, time = 5.84 | CG iter. 24 -- res = 0.13228E+03, tol = 0.81316E+01, time = 5.63 | CG iter. 25 -- res = 0.10753E+03, tol = 0.81316E+01, time = 5.53 | CG iter. 26 -- res = 0.83725E+02, tol = 0.81316E+01, time = 5.85 | CG iter. 27 -- res = 0.67977E+02, tol = 0.81316E+01, time = 6.09 | CG iter. 28 -- res = 0.59264E+02, tol = 0.81316E+01, time = 5.99 | CG iter. 29 -- res = 0.49232E+02, tol = 0.81316E+01, time = 5.78 | CG iter. 30 -- res = 0.38360E+02, tol = 0.81316E+01, time = 5.80 | CG iter. 31 -- res = 0.31005E+02, tol = 0.81316E+01, time = 5.81 | CG iter. 32 -- res = 0.27928E+02, tol = 0.81316E+01, time = 5.83 | CG iter. 33 -- res = 0.24973E+02, tol = 0.81316E+01, time = 11.91 | CG iter. 34 -- res = 0.19578E+02, tol = 0.81316E+01, time = 5.74 | CG iter. 35 -- res = 0.15681E+02, tol = 0.81316E+01, time = 5.50 | CG iter. 36 -- res = 0.13815E+02, tol = 0.81316E+01, time = 6.25 | CG iter. 37 -- res = 0.12313E+02, tol = 0.81316E+01, time = 5.74 | CG iter. 38 -- res = 0.10184E+02, tol = 0.81316E+01, time = 5.96 | CG iter. 39 -- res = 0.81909E+01, tol = 0.81316E+01, time = 5.63 | CG iter. 40 -- res = 0.69073E+01, tol = 0.81316E+01, time = 5.35 | CG iter. 41 -- res = 0.61653E+01, tol = 0.81316E+01, time = 5.79 | CG iter. 42 -- res = 0.51226E+01, tol = 0.81316E+01, time = 5.72 | CG iter. 43 -- res = 0.42941E+01, tol = 0.81316E+01, time = 5.93 | CG iter. 44 -- res = 0.36109E+01, tol = 0.81316E+01, time = 5.84 | CG iter. 45 -- res = 0.32346E+01, tol = 0.81316E+01, time = 5.70 | CG iter. 46 -- res = 0.29129E+01, tol = 0.81316E+01, time = 5.61 | CG iter. 47 -- res = 0.23634E+01, tol = 0.81316E+01, time = 5.57 | CG iter. 48 -- res = 0.19289E+01, tol = 0.81316E+01, time = 7.12 | CG iter. 49 -- res = 0.16383E+01, tol = 0.81316E+01, time = 6.23 | CG iter. 50 -- res = 0.14834E+01, tol = 0.81316E+01, time = 5.90 | Final CG iter 51 -- res = 0.14834E+01, tol = 0.81316E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10677718.265 | Old band monopole 8455872.150 | Change to band monopole 2221846.114 | Change to component monopole -2221836.558 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.17339E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.58602E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.24545E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.24681E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.13777E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10677672.337 | (Sampled value in CG: 10658307.149 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.447518 | New value = 1.522372 | poltype: 2 pol: 1 CPU time specind = 1.7729998E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.470334 | New value = 1.460761 | poltype: 2 pol: 2 CPU time specind = 4.3828487E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.25165E+08, tol = 0.47697E+04, time = 6.53 | CG iter. 2 -- res = 0.52922E+07, tol = 0.47697E+04, time = 6.47 | CG iter. 3 -- res = 0.83019E+06, tol = 0.47697E+04, time = 6.54 | CG iter. 4 -- res = 0.34329E+06, tol = 0.47697E+04, time = 6.51 | CG iter. 5 -- res = 0.14825E+06, tol = 0.47697E+04, time = 6.71 | CG iter. 6 -- res = 0.80565E+05, tol = 0.47697E+04, time = 6.15 | CG iter. 7 -- res = 0.44572E+05, tol = 0.47697E+04, time = 6.50 | CG iter. 8 -- res = 0.20918E+05, tol = 0.47697E+04, time = 6.90 | CG iter. 9 -- res = 0.87987E+04, tol = 0.47697E+04, time = 6.37 | CG iter. 10 -- res = 0.35669E+04, tol = 0.47697E+04, time = 6.14 | CG iter. 11 -- res = 0.16444E+04, tol = 0.47697E+04, time = 6.27 | CG iter. 12 -- res = 0.87075E+03, tol = 0.47697E+04, time = 6.49 | CG iter. 13 -- res = 0.49252E+03, tol = 0.47697E+04, time = 12.96 | CG iter. 14 -- res = 0.27817E+03, tol = 0.47697E+04, time = 6.60 | CG iter. 15 -- res = 0.13997E+03, tol = 0.47697E+04, time = 6.52 | CG iter. 16 -- res = 0.65874E+02, tol = 0.47697E+04, time = 6.94 | CG iter. 17 -- res = 0.31220E+02, tol = 0.47697E+04, time = 5.98 | CG iter. 18 -- res = 0.15983E+02, tol = 0.47697E+04, time = 6.37 | CG iter. 19 -- res = 0.88016E+01, tol = 0.47697E+04, time = 6.58 | CG iter. 20 -- res = 0.50341E+01, tol = 0.47697E+04, time = 6.51 | CG iter. 21 -- res = 0.27055E+01, tol = 0.47697E+04, time = 6.28 | CG iter. 22 -- res = 0.13690E+01, tol = 0.47697E+04, time = 6.03 | CG iter. 23 -- res = 0.67599E+00, tol = 0.47697E+04, time = 6.83 | CG iter. 24 -- res = 0.34811E+00, tol = 0.47697E+04, time = 6.28 | CG iter. 25 -- res = 0.18964E+00, tol = 0.47697E+04, time = 6.50 | CG iter. 26 -- res = 0.10636E+00, tol = 0.47697E+04, time = 7.91 | CG iter. 27 -- res = 0.59263E-01, tol = 0.47697E+04, time = 6.96 | CG iter. 28 -- res = 0.31526E-01, tol = 0.47697E+04, time = 6.51 | CG iter. 29 -- res = 0.16642E-01, tol = 0.47697E+04, time = 6.84 | CG iter. 30 -- res = 0.88392E-02, tol = 0.47697E+04, time = 6.42 | CG iter. 31 -- res = 0.48600E-02, tol = 0.47697E+04, time = 6.75 | CG iter. 32 -- res = 0.26999E-02, tol = 0.47697E+04, time = 6.54 | CG iter. 33 -- res = 0.14925E-02, tol = 0.47697E+04, time = 6.43 | CG iter. 34 -- res = 0.79618E-03, tol = 0.47697E+04, time = 6.39 | CG iter. 35 -- res = 0.40999E-03, tol = 0.47697E+04, time = 6.61 | Final CG iter 36 -- res = 0.40999E-03, tol = 0.47697E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.604 2.753 | New value 0.504 | Old value 5.604 | Difference -5.100 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.13599E+07, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.32320E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.11797E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.17712E-02, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.78515E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10677672.337 | (Sampled value in CG: 10658414.952 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.611639 | New value = -3.471856 | poltype: 1 pol: 1 CPU time specind = 1.2440920E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.23625E+07, tol = 0.25492E+01, time = 2.79 | CG iter. 2 -- res = 0.95048E+06, tol = 0.25492E+01, time = 2.66 | CG iter. 3 -- res = 0.18972E+06, tol = 0.25492E+01, time = 2.79 | CG iter. 4 -- res = 0.74837E+05, tol = 0.25492E+01, time = 2.69 | CG iter. 5 -- res = 0.42044E+05, tol = 0.25492E+01, time = 2.67 | CG iter. 6 -- res = 0.20831E+05, tol = 0.25492E+01, time = 2.77 | CG iter. 7 -- res = 0.85312E+04, tol = 0.25492E+01, time = 2.69 | CG iter. 8 -- res = 0.42337E+04, tol = 0.25492E+01, time = 2.54 | CG iter. 9 -- res = 0.19790E+04, tol = 0.25492E+01, time = 2.69 | CG iter. 10 -- res = 0.80073E+03, tol = 0.25492E+01, time = 2.46 | CG iter. 11 -- res = 0.32755E+03, tol = 0.25492E+01, time = 3.19 | CG iter. 12 -- res = 0.14900E+03, tol = 0.25492E+01, time = 2.75 | CG iter. 13 -- res = 0.74265E+02, tol = 0.25492E+01, time = 2.83 | CG iter. 14 -- res = 0.37146E+02, tol = 0.25492E+01, time = 2.43 | CG iter. 15 -- res = 0.17767E+02, tol = 0.25492E+01, time = 2.40 | CG iter. 16 -- res = 0.84836E+01, tol = 0.25492E+01, time = 2.87 | CG iter. 17 -- res = 0.35817E+01, tol = 0.25492E+01, time = 2.60 | CG iter. 18 -- res = 0.15816E+01, tol = 0.25492E+01, time = 2.69 | CG iter. 19 -- res = 0.74729E+00, tol = 0.25492E+01, time = 3.24 | CG iter. 20 -- res = 0.38011E+00, tol = 0.25492E+01, time = 2.57 | CG iter. 21 -- res = 0.19324E+00, tol = 0.25492E+01, time = 2.72 | CG iter. 22 -- res = 0.99661E-01, tol = 0.25492E+01, time = 2.78 | CG iter. 23 -- res = 0.48817E-01, tol = 0.25492E+01, time = 2.52 | CG iter. 24 -- res = 0.21700E-01, tol = 0.25492E+01, time = 2.64 | CG iter. 25 -- res = 0.10245E-01, tol = 0.25492E+01, time = 2.61 | CG iter. 26 -- res = 0.48884E-02, tol = 0.25492E+01, time = 2.48 | CG iter. 27 -- res = 0.25236E-02, tol = 0.25492E+01, time = 2.80 | CG iter. 28 -- res = 0.13022E-02, tol = 0.25492E+01, time = 2.86 | CG iter. 29 -- res = 0.64109E-03, tol = 0.25492E+01, time = 2.67 | CG iter. 30 -- res = 0.31508E-03, tol = 0.25492E+01, time = 2.57 | CG iter. 31 -- res = 0.13927E-03, tol = 0.25492E+01, time = 2.40 | CG iter. 32 -- res = 0.67744E-04, tol = 0.25492E+01, time = 2.85 | CG iter. 33 -- res = 0.33285E-04, tol = 0.25492E+01, time = 2.44 | CG iter. 34 -- res = 0.16717E-04, tol = 0.25492E+01, time = 2.38 | CG iter. 35 -- res = 0.87221E-05, tol = 0.25492E+01, time = 2.71 | CG iter. 36 -- res = 0.42902E-05, tol = 0.25492E+01, time = 2.88 | CG iter. 37 -- res = 0.19330E-05, tol = 0.25492E+01, time = 2.47 | CG iter. 38 -- res = 0.90358E-06, tol = 0.25492E+01, time = 2.83 | CG iter. 39 -- res = 0.42398E-06, tol = 0.25492E+01, time = 2.64 | CG iter. 40 -- res = 0.21031E-06, tol = 0.25492E+01, time = 2.77 | CG iter. 41 -- res = 0.11041E-06, tol = 0.25492E+01, time = 2.91 | CG iter. 42 -- res = 0.54338E-07, tol = 0.25492E+01, time = 2.44 | CG iter. 43 -- res = 0.25515E-07, tol = 0.25492E+01, time = 2.78 | CG iter. 44 -- res = 0.11590E-07, tol = 0.25492E+01, time = 2.80 | CG iter. 45 -- res = 0.52936E-08, tol = 0.25492E+01, time = 2.74 | CG iter. 46 -- res = 0.25591E-08, tol = 0.25492E+01, time = 2.79 | CG iter. 47 -- res = 0.13079E-08, tol = 0.25492E+01, time = 2.86 | CG iter. 48 -- res = 0.67492E-09, tol = 0.25492E+01, time = 2.71 | CG iter. 49 -- res = 0.32233E-09, tol = 0.25492E+01, time = 2.39 | CG iter. 50 -- res = 0.14312E-09, tol = 0.25492E+01, time = 2.57 | Final CG iter 51 -- res = 0.14312E-09, tol = 0.25492E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.788 6.492 | New value -11.508 | Old value 6.788 | Difference -18.296 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.33052E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.89893E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.29084E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.17537E-02, tol = 0.47627E+18, time = 2.33 | Final CG iter 5 -- res = 0.24898E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10677672.337 | (Sampled value in CG: 10661683.128 ) | CPU time specind = 1174.788 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.72187E+08, tol = 0.57576E+04, time = 12.10 | CG iter. 2 -- res = 0.59920E+08, tol = 0.57576E+04, time = 12.84 | CG iter. 3 -- res = 0.15597E+08, tol = 0.57576E+04, time = 12.54 | CG iter. 4 -- res = 0.67991E+07, tol = 0.57576E+04, time = 12.00 | CG iter. 5 -- res = 0.40864E+07, tol = 0.57576E+04, time = 11.54 | CG iter. 6 -- res = 0.24156E+07, tol = 0.57576E+04, time = 11.68 | CG iter. 7 -- res = 0.14421E+07, tol = 0.57576E+04, time = 11.75 | CG iter. 8 -- res = 0.90320E+06, tol = 0.57576E+04, time = 11.90 | CG iter. 9 -- res = 0.56535E+06, tol = 0.57576E+04, time = 12.53 | CG iter. 10 -- res = 0.33365E+06, tol = 0.57576E+04, time = 12.06 | CG iter. 11 -- res = 0.17938E+06, tol = 0.57576E+04, time = 11.67 | CG iter. 12 -- res = 0.95554E+05, tol = 0.57576E+04, time = 11.59 | CG iter. 13 -- res = 0.53163E+05, tol = 0.57576E+04, time = 11.72 | CG iter. 14 -- res = 0.31628E+05, tol = 0.57576E+04, time = 12.05 | CG iter. 15 -- res = 0.20441E+05, tol = 0.57576E+04, time = 11.59 | CG iter. 16 -- res = 0.14612E+05, tol = 0.57576E+04, time = 11.52 | CG iter. 17 -- res = 0.11071E+05, tol = 0.57576E+04, time = 11.93 | CG iter. 18 -- res = 0.81679E+04, tol = 0.57576E+04, time = 11.72 | CG iter. 19 -- res = 0.57753E+04, tol = 0.57576E+04, time = 11.77 | CG iter. 20 -- res = 0.42362E+04, tol = 0.57576E+04, time = 18.30 | CG iter. 21 -- res = 0.33603E+04, tol = 0.57576E+04, time = 11.75 | CG iter. 22 -- res = 0.30185E+04, tol = 0.57576E+04, time = 12.27 | CG iter. 23 -- res = 0.31116E+04, tol = 0.57576E+04, time = 12.11 | CG iter. 24 -- res = 0.33927E+04, tol = 0.57576E+04, time = 11.85 | CG iter. 25 -- res = 0.36549E+04, tol = 0.57576E+04, time = 11.62 | CG iter. 26 -- res = 0.35692E+04, tol = 0.57576E+04, time = 12.14 | CG iter. 27 -- res = 0.31353E+04, tol = 0.57576E+04, time = 13.13 | CG iter. 28 -- res = 0.25844E+04, tol = 0.57576E+04, time = 12.44 | CG iter. 29 -- res = 0.21765E+04, tol = 0.57576E+04, time = 11.79 | CG iter. 30 -- res = 0.19026E+04, tol = 0.57576E+04, time = 11.55 | CG iter. 31 -- res = 0.16476E+04, tol = 0.57576E+04, time = 11.86 | CG iter. 32 -- res = 0.13707E+04, tol = 0.57576E+04, time = 11.88 | CG iter. 33 -- res = 0.10988E+04, tol = 0.57576E+04, time = 11.81 | CG iter. 34 -- res = 0.87515E+03, tol = 0.57576E+04, time = 11.55 | CG iter. 35 -- res = 0.71155E+03, tol = 0.57576E+04, time = 11.99 | CG iter. 36 -- res = 0.61090E+03, tol = 0.57576E+04, time = 12.58 | CG iter. 37 -- res = 0.56596E+03, tol = 0.57576E+04, time = 11.40 | CG iter. 38 -- res = 0.54139E+03, tol = 0.57576E+04, time = 11.54 | CG iter. 39 -- res = 0.52141E+03, tol = 0.57576E+04, time = 11.80 | CG iter. 40 -- res = 0.50029E+03, tol = 0.57576E+04, time = 12.02 | CG iter. 41 -- res = 0.44526E+03, tol = 0.57576E+04, time = 12.15 | CG iter. 42 -- res = 0.37677E+03, tol = 0.57576E+04, time = 11.76 | CG iter. 43 -- res = 0.33397E+03, tol = 0.57576E+04, time = 11.62 | CG iter. 44 -- res = 0.30708E+03, tol = 0.57576E+04, time = 13.25 | CG iter. 45 -- res = 0.28569E+03, tol = 0.57576E+04, time = 16.92 | CG iter. 46 -- res = 0.26005E+03, tol = 0.57576E+04, time = 11.33 | CG iter. 47 -- res = 0.22360E+03, tol = 0.57576E+04, time = 11.76 | CG iter. 48 -- res = 0.18514E+03, tol = 0.57576E+04, time = 11.53 | CG iter. 49 -- res = 0.15116E+03, tol = 0.57576E+04, time = 11.52 | CG iter. 50 -- res = 0.12732E+03, tol = 0.57576E+04, time = 11.62 | CG iter. 51 -- res = 0.11520E+03, tol = 0.57576E+04, time = 11.47 | CG iter. 52 -- res = 0.11269E+03, tol = 0.57576E+04, time = 13.61 | CG iter. 53 -- res = 0.11163E+03, tol = 0.57576E+04, time = 12.10 | CG iter. 54 -- res = 0.10389E+03, tol = 0.57576E+04, time = 11.44 | CG iter. 55 -- res = 0.91769E+02, tol = 0.57576E+04, time = 11.52 | CG iter. 56 -- res = 0.80355E+02, tol = 0.57576E+04, time = 11.87 | CG iter. 57 -- res = 0.71462E+02, tol = 0.57576E+04, time = 11.59 | CG iter. 58 -- res = 0.65907E+02, tol = 0.57576E+04, time = 11.68 | CG iter. 59 -- res = 0.62592E+02, tol = 0.57576E+04, time = 11.90 | CG iter. 60 -- res = 0.60165E+02, tol = 0.57576E+04, time = 12.02 | Final CG iter 61 -- res = 0.60166E+02, tol = 0.57576E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.035 ( -229.438 -2230.661 2513.273 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10349982.755 | Old band monopole 10677718.265 | Change to band monopole -327735.509 | Change to component monopole 327734.099 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.485 2.737 | New value -0.305 | Old value 0.485 | Difference -0.790 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.122 ( 6.352 10.631 -10.171 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.146 7.161 | New value -2.887 | Old value -10.146 | Difference 7.258 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.17203E+06, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.52149E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.23058E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.26637E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.80906E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10349938.238 | (Sampled value in CG: 10329662.306 ) | Chain = 1 -- chisq = 0.81542378E+09 | Chain = 1 -- wall time = 6065.554 sec Available RAM: MemAvailable: 384489940 kB Available Swap: SwapFree: 1124765092 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 291 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445229 | --> Sampling calibration, mode = relcal | relcal = 1.3421469E-02 7.4515550E-04 -1.5961708E-03 -1.2570454E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1059370 0.1123944 97050399.3689127 | BP delta = 9.5735580E-02 0.1021930 97050407.0144494 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632314 | --> Sampling calibration, mode = relcal | relcal = -2.8205873E-03 -7.0456660E-04 1.6784032E-03 1.6135060E-03 -4.0705097E-04 6.4029568E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5497848 15219063.3360653 | BP delta = 0.0000000E+00 -0.5431347 15219065.7600447 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102397 | --> Sampling calibration, mode = relcal | relcal = 3.7092179E-02 1.3708433E-02 5.7483111E-03 -7.1688625E-03 8.2384013E-03 2.3913200E-03 -7.5933253E-03 -7.1800267E-03 -1.5299097E-02 -1.4795003E-02 -3.0476048E-03 -1.2094727E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.203735 132211402.019426 | BP delta = 0.0000000E+00 -1.210223 132211402.588562 | BP chisq diff = 0.6, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18030959606071 | --> Sampling calibration, mode = relcal | relcal = -7.4088842E-02 -5.7926070E-02 9.0927452E-02 4.1087463E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7445733E-05 3.1906245E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.4251E-04 | 2: delta_r/delta_0: 1.7338E-05 | 3: delta_s/delta_0: 1.9735E-07 | 4: delta_r/delta_0: 2.0470E-08 | 5: delta_s/delta_0: 6.2908E-09 | 6: delta_r/delta_0: 1.0525E-09 | 7: delta_s/delta_0: 1.5309E-08 | 8: delta_r/delta_0: 1.9004E-10 | 9: delta_s/delta_0: 7.7508E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.642085562264084E-004 2.742800017596795E-005 | BP delta = 6.7953065E-02 8.8068143E-02 50487070.5712317 | BP delta = 6.6476561E-02 8.6591639E-02 50487069.6251138 | BP chisq diff = -0.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02589985 | --> Sampling calibration, mode = relcal | relcal = -0.1066029 -9.5484890E-02 0.1448488 5.7238977E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2696598E-03 1.6749139E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5237E-05 | 2: delta_r/delta_0: 1.2683E-06 | 3: delta_s/delta_0: 2.4891E-07 | 4: delta_r/delta_0: 4.2884E-08 | 5: delta_s/delta_0: 2.0810E-08 | 6: delta_r/delta_0: 6.4301E-09 | 7: delta_s/delta_0: 7.6986E-09 | 8: delta_r/delta_0: 1.3017E-09 | 9: delta_s/delta_0: 7.4545E-10 | 10: delta_r/delta_0: 1.3050E-10 | 11: delta_s/delta_0: 1.7495E-10 | 12: delta_r/delta_0: 2.7123E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.625805739847270E-003 2.811090869416990E-005 | BP delta = -0.3230846 -0.2979554 57393009.0167942 | BP delta = -0.3183354 -0.2932063 57393008.8841055 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81215508 | --> Sampling calibration, mode = relcal | relcal = 0.2954482 0.2248445 -0.2837534 -0.2365393 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3468914E-04 5.9218500E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9381E-04 | 2: delta_r/delta_0: 5.0862E-06 | 3: delta_s/delta_0: 6.8791E-06 | 4: delta_r/delta_0: 9.7217E-07 | 5: delta_s/delta_0: 1.8596E-07 | 6: delta_r/delta_0: 1.1884E-07 | 7: delta_s/delta_0: 7.2477E-07 | 8: delta_r/delta_0: 2.4140E-08 | 9: delta_s/delta_0: 3.3175E-08 | 10: delta_r/delta_0: 2.2370E-08 | 11: delta_s/delta_0: 1.1301E-09 | 12: delta_r/delta_0: 7.4358E-10 | 13: delta_s/delta_0: 5.5937E-09 | 14: delta_r/delta_0: 1.1052E-09 | 15: delta_s/delta_0: 7.4459E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.875693668385310E-002 4.022088871524500E-005 | BP delta = -0.3326117 -0.3572189 72486525.9355370 | BP delta = -0.3344170 -0.3590243 72486525.9591866 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95895935 | --> Sampling calibration, mode = relcal | relcal = 0.1064127 0.1395677 -0.1102906 -0.1356898 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2167119E-03 1.2960996E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2016E-04 | 2: delta_r/delta_0: 1.0341E-05 | 3: delta_s/delta_0: 1.0519E-05 | 4: delta_r/delta_0: 9.9037E-07 | 5: delta_s/delta_0: 2.6734E-07 | 6: delta_r/delta_0: 1.2810E-07 | 7: delta_s/delta_0: 3.0616E-07 | 8: delta_r/delta_0: 3.1984E-08 | 9: delta_s/delta_0: 3.4217E-07 | 10: delta_r/delta_0: 1.3745E-07 | 11: delta_s/delta_0: 1.7439E-09 | 12: delta_r/delta_0: 8.5777E-10 | 13: delta_s/delta_0: 2.9215E-08 | 14: delta_r/delta_0: 3.7992E-10 | 15: delta_s/delta_0: 6.7340E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.203611667051111E-002 3.697937509661040E-005 | BP delta = 6.1763108E-02 0.1655996 72786975.1163386 | BP delta = 5.4730199E-02 0.1585667 72786975.0712700 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52153524 | --> Sampling calibration, mode = relcal | relcal = -5.1121734E-02 -3.6937422E-03 2.7288759E-02 2.7526716E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0521612E-04 1.7183976E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5044E-05 | 2: delta_r/delta_0: 4.5559E-06 | 3: delta_s/delta_0: 6.4856E-05 | 4: delta_r/delta_0: 8.1901E-06 | 5: delta_s/delta_0: 4.4976E-08 | 6: delta_r/delta_0: 3.0941E-08 | 7: delta_s/delta_0: 2.1017E-07 | 8: delta_r/delta_0: 6.5624E-09 | 9: delta_s/delta_0: 2.4558E-09 | 10: delta_r/delta_0: 6.9853E-10 | 11: delta_s/delta_0: 8.7262E-10 | 12: delta_r/delta_0: 3.5025E-10 | 13: delta_s/delta_0: 3.0318E-10 | 14: delta_r/delta_0: 8.4758E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.131023108061427E-002 5.483695206264051E-005 | BP delta = 0.1006821 0.1904612 91250683.9792480 | BP delta = 0.1078512 0.1976304 91250683.9173703 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42151269 | --> Sampling calibration, mode = relcal | relcal = 4.5591880E-02 3.9678231E-02 -2.8355304E-02 -5.6914806E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6659063E-03 3.0248507E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0876E-05 | 2: delta_r/delta_0: 3.7760E-06 | 3: delta_s/delta_0: 2.8058E-06 | 4: delta_r/delta_0: 4.7941E-07 | 5: delta_s/delta_0: 6.5367E-08 | 6: delta_r/delta_0: 3.8648E-08 | 7: delta_s/delta_0: 7.1234E-08 | 8: delta_r/delta_0: 1.1111E-08 | 9: delta_s/delta_0: 2.3793E-09 | 10: delta_r/delta_0: 1.1904E-09 | 11: delta_s/delta_0: 7.5768E-10 | 12: delta_r/delta_0: 4.5507E-10 | 13: delta_s/delta_0: 9.1804E-10 | 14: delta_r/delta_0: 7.4077E-10 | 15: delta_s/delta_0: 1.6719E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.466432429456979E-002 4.996607591554358E-005 | BP delta = 0.1112376 8.3633028E-03 90179040.6238838 | BP delta = 5.8388457E-02 -4.4485826E-02 90179041.0368488 | BP chisq diff = 0.4, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28166548 | --> Sampling calibration, mode = relcal | relcal = 2.4197178E-02 4.5038227E-02 -2.3314210E-02 -4.5921192E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2005886E-02 3.1473478E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0619E-04 | 2: delta_r/delta_0: 8.5180E-06 | 3: delta_s/delta_0: 1.4282E-06 | 4: delta_r/delta_0: 2.2987E-07 | 5: delta_s/delta_0: 7.6456E-08 | 6: delta_r/delta_0: 1.8158E-08 | 7: delta_s/delta_0: 8.6722E-09 | 8: delta_r/delta_0: 5.7484E-09 | 9: delta_s/delta_0: 7.1964E-07 | 10: delta_r/delta_0: 1.6016E-08 | 11: delta_s/delta_0: 1.0628E-09 | 12: delta_r/delta_0: 4.7496E-10 | 13: delta_s/delta_0: 5.1102E-10 | 14: delta_r/delta_0: 3.1108E-10 | 15: delta_s/delta_0: 1.1118E-10 | 16: delta_r/delta_0: 9.7724E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.001423247129613E-002 7.841974395576552E-005 | BP delta = -0.2239126 -0.3775392 160913031.673880 | BP delta = -0.2399882 -0.3936148 160913031.587345 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29396892 | --> Sampling calibration, mode = relcal | relcal = 6.2857958E-04 1.0205583E-02 -3.8649878E-03 -6.9691744E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8596109E-02 1.6264241E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3062E-04 | 2: delta_r/delta_0: 1.0967E-05 | 3: delta_s/delta_0: 1.6991E-06 | 4: delta_r/delta_0: 2.7366E-07 | 5: delta_s/delta_0: 9.6389E-08 | 6: delta_r/delta_0: 2.2866E-08 | 7: delta_s/delta_0: 1.1607E-08 | 8: delta_r/delta_0: 7.5459E-09 | 9: delta_s/delta_0: 5.3174E-08 | 10: delta_r/delta_0: 6.3032E-09 | 11: delta_s/delta_0: 1.9406E-09 | 12: delta_r/delta_0: 3.8418E-10 | 13: delta_s/delta_0: 5.5213E-10 | 14: delta_r/delta_0: 2.1584E-10 | 15: delta_s/delta_0: 5.6288E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.058722289426117E-002 8.305462958483385E-005 | BP delta = -0.7938536 -0.7478800 157860464.810135 | BP delta = -0.7906070 -0.7446334 157860464.831452 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26505990 | --> Sampling calibration, mode = relcal | relcal = -5.5458206E-03 1.5033216E-02 -2.4193579E-03 -7.0680375E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0580299E-03 3.4337416E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4111E-04 | 2: delta_r/delta_0: 1.2125E-05 | 3: delta_s/delta_0: 2.1066E-06 | 4: delta_r/delta_0: 2.4696E-07 | 5: delta_s/delta_0: 9.5367E-08 | 6: delta_r/delta_0: 2.1225E-08 | 7: delta_s/delta_0: 9.1246E-09 | 8: delta_r/delta_0: 5.9033E-09 | 9: delta_s/delta_0: 6.6407E-09 | 10: delta_r/delta_0: 4.4873E-09 | 11: delta_s/delta_0: 2.0764E-07 | 12: delta_r/delta_0: 2.9211E-09 | 13: delta_s/delta_0: 5.3935E-09 | 14: delta_r/delta_0: 1.3896E-09 | 15: delta_s/delta_0: 6.4997E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.013669352622773E-003 9.154109744953084E-005 | BP delta = 0.3375673 0.3785090 157023344.170787 | BP delta = 0.3717383 0.4126799 157023344.210299 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25664993 | --> Sampling calibration, mode = relcal | relcal = -3.1657077E-02 -2.5916358E-02 3.6972489E-02 2.0600948E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6675612E-02 1.9511869E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4533E-04 | 2: delta_r/delta_0: 1.1902E-05 | 3: delta_s/delta_0: 1.9011E-06 | 4: delta_r/delta_0: 4.3589E-07 | 5: delta_s/delta_0: 1.1690E-07 | 6: delta_r/delta_0: 3.4916E-08 | 7: delta_s/delta_0: 1.7286E-08 | 8: delta_r/delta_0: 1.0129E-08 | 9: delta_s/delta_0: 1.8179E-07 | 10: delta_r/delta_0: 8.6978E-09 | 11: delta_s/delta_0: 3.7006E-09 | 12: delta_r/delta_0: 1.7094E-09 | 13: delta_s/delta_0: 4.7838E-09 | 14: delta_r/delta_0: 3.2264E-09 | 15: delta_s/delta_0: 2.0895E-10 | 16: delta_r/delta_0: 1.2496E-10 | 17: delta_s/delta_0: 8.3537E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.108970595747687E-002 8.671035471633111E-005 | BP delta = -0.8221069 -0.9729988 158514279.787224 | BP delta = -0.7956595 -0.9465514 158514279.873257 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.206585 | New value = -3.140573 | poltype: 2 pol: 1 CPU time specind = 2.8110981E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149339 | New value = -3.067591 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.042265 | New value = -3.133698 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149077 | New value = -3.131708 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119313 | New value = -3.139676 | poltype: 2 pol: 2 CPU time specind = 1.6670942E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.80 | CG iter. 1 -- res = 0.13590E+08, tol = 0.68901E+01, time = 6.78 | CG iter. 2 -- res = 0.32083E+06, tol = 0.68901E+01, time = 10.62 | CG iter. 3 -- res = 0.60475E+05, tol = 0.68901E+01, time = 5.54 | CG iter. 4 -- res = 0.45819E+05, tol = 0.68901E+01, time = 5.48 | CG iter. 5 -- res = 0.39492E+05, tol = 0.68901E+01, time = 5.63 | CG iter. 6 -- res = 0.36377E+05, tol = 0.68901E+01, time = 5.66 | CG iter. 7 -- res = 0.34277E+05, tol = 0.68901E+01, time = 5.61 | CG iter. 8 -- res = 0.27359E+05, tol = 0.68901E+01, time = 5.90 | CG iter. 9 -- res = 0.23151E+05, tol = 0.68901E+01, time = 5.46 | CG iter. 10 -- res = 0.19415E+05, tol = 0.68901E+01, time = 5.62 | CG iter. 11 -- res = 0.13595E+05, tol = 0.68901E+01, time = 5.73 | CG iter. 12 -- res = 0.95164E+04, tol = 0.68901E+01, time = 5.59 | CG iter. 13 -- res = 0.74262E+04, tol = 0.68901E+01, time = 5.61 | CG iter. 14 -- res = 0.68258E+04, tol = 0.68901E+01, time = 5.59 | CG iter. 15 -- res = 0.57285E+04, tol = 0.68901E+01, time = 5.92 | CG iter. 16 -- res = 0.40462E+04, tol = 0.68901E+01, time = 5.87 | CG iter. 17 -- res = 0.28922E+04, tol = 0.68901E+01, time = 6.87 | CG iter. 18 -- res = 0.22018E+04, tol = 0.68901E+01, time = 6.31 | CG iter. 19 -- res = 0.18111E+04, tol = 0.68901E+01, time = 5.73 | CG iter. 20 -- res = 0.14569E+04, tol = 0.68901E+01, time = 6.05 | CG iter. 21 -- res = 0.10418E+04, tol = 0.68901E+01, time = 5.22 | CG iter. 22 -- res = 0.83770E+03, tol = 0.68901E+01, time = 5.87 | CG iter. 23 -- res = 0.72714E+03, tol = 0.68901E+01, time = 5.75 | CG iter. 24 -- res = 0.58818E+03, tol = 0.68901E+01, time = 5.73 | CG iter. 25 -- res = 0.42131E+03, tol = 0.68901E+01, time = 5.76 | CG iter. 26 -- res = 0.32415E+03, tol = 0.68901E+01, time = 5.88 | CG iter. 27 -- res = 0.28274E+03, tol = 0.68901E+01, time = 5.74 | CG iter. 28 -- res = 0.24113E+03, tol = 0.68901E+01, time = 5.59 | CG iter. 29 -- res = 0.18444E+03, tol = 0.68901E+01, time = 5.44 | CG iter. 30 -- res = 0.14278E+03, tol = 0.68901E+01, time = 5.60 | CG iter. 31 -- res = 0.12052E+03, tol = 0.68901E+01, time = 5.40 | CG iter. 32 -- res = 0.10474E+03, tol = 0.68901E+01, time = 5.46 | CG iter. 33 -- res = 0.82651E+02, tol = 0.68901E+01, time = 5.97 | CG iter. 34 -- res = 0.62658E+02, tol = 0.68901E+01, time = 5.65 | CG iter. 35 -- res = 0.53661E+02, tol = 0.68901E+01, time = 6.60 | CG iter. 36 -- res = 0.47275E+02, tol = 0.68901E+01, time = 5.85 | CG iter. 37 -- res = 0.40508E+02, tol = 0.68901E+01, time = 5.61 | CG iter. 38 -- res = 0.31525E+02, tol = 0.68901E+01, time = 5.45 | CG iter. 39 -- res = 0.24728E+02, tol = 0.68901E+01, time = 5.93 | CG iter. 40 -- res = 0.21878E+02, tol = 0.68901E+01, time = 5.46 | CG iter. 41 -- res = 0.18483E+02, tol = 0.68901E+01, time = 6.05 | CG iter. 42 -- res = 0.14399E+02, tol = 0.68901E+01, time = 5.74 | CG iter. 43 -- res = 0.11442E+02, tol = 0.68901E+01, time = 5.65 | CG iter. 44 -- res = 0.98953E+01, tol = 0.68901E+01, time = 5.75 | CG iter. 45 -- res = 0.78923E+01, tol = 0.68901E+01, time = 5.72 | CG iter. 46 -- res = 0.62653E+01, tol = 0.68901E+01, time = 6.16 | CG iter. 47 -- res = 0.48435E+01, tol = 0.68901E+01, time = 5.74 | CG iter. 48 -- res = 0.40253E+01, tol = 0.68901E+01, time = 5.77 | CG iter. 49 -- res = 0.33771E+01, tol = 0.68901E+01, time = 6.06 | CG iter. 50 -- res = 0.27664E+01, tol = 0.68901E+01, time = 5.44 | Final CG iter 51 -- res = 0.27664E+01, tol = 0.68901E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7630578.557 | Old band monopole 10349982.755 | Change to band monopole -2719404.198 | Change to component monopole 2719392.501 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.56729E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.23045E+03, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.54398E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.18979E-01, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.18753E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7630545.737 | (Sampled value in CG: 7683457.192 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.522372 | New value = 1.533563 | poltype: 2 pol: 1 CPU time specind = 1.2030125E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.460761 | New value = 1.491189 | poltype: 2 pol: 2 CPU time specind = 1.9321203E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.24047E+08, tol = 0.47623E+04, time = 6.65 | CG iter. 2 -- res = 0.54296E+07, tol = 0.47623E+04, time = 6.88 | CG iter. 3 -- res = 0.87958E+06, tol = 0.47623E+04, time = 6.33 | CG iter. 4 -- res = 0.36940E+06, tol = 0.47623E+04, time = 6.38 | CG iter. 5 -- res = 0.15889E+06, tol = 0.47623E+04, time = 6.55 | CG iter. 6 -- res = 0.82397E+05, tol = 0.47623E+04, time = 6.42 | CG iter. 7 -- res = 0.45159E+05, tol = 0.47623E+04, time = 6.68 | CG iter. 8 -- res = 0.21603E+05, tol = 0.47623E+04, time = 6.20 | CG iter. 9 -- res = 0.92121E+04, tol = 0.47623E+04, time = 6.17 | CG iter. 10 -- res = 0.37510E+04, tol = 0.47623E+04, time = 6.62 | CG iter. 11 -- res = 0.17216E+04, tol = 0.47623E+04, time = 6.45 | CG iter. 12 -- res = 0.89411E+03, tol = 0.47623E+04, time = 6.60 | CG iter. 13 -- res = 0.50783E+03, tol = 0.47623E+04, time = 6.43 | CG iter. 14 -- res = 0.28257E+03, tol = 0.47623E+04, time = 6.38 | CG iter. 15 -- res = 0.14187E+03, tol = 0.47623E+04, time = 6.36 | CG iter. 16 -- res = 0.67209E+02, tol = 0.47623E+04, time = 6.91 | CG iter. 17 -- res = 0.31542E+02, tol = 0.47623E+04, time = 6.00 | CG iter. 18 -- res = 0.15841E+02, tol = 0.47623E+04, time = 6.81 | CG iter. 19 -- res = 0.84717E+01, tol = 0.47623E+04, time = 6.09 | CG iter. 20 -- res = 0.47838E+01, tol = 0.47623E+04, time = 6.35 | CG iter. 21 -- res = 0.26410E+01, tol = 0.47623E+04, time = 6.22 | CG iter. 22 -- res = 0.13551E+01, tol = 0.47623E+04, time = 6.27 | CG iter. 23 -- res = 0.67194E+00, tol = 0.47623E+04, time = 6.50 | CG iter. 24 -- res = 0.34514E+00, tol = 0.47623E+04, time = 6.79 | CG iter. 25 -- res = 0.19211E+00, tol = 0.47623E+04, time = 6.40 | CG iter. 26 -- res = 0.11344E+00, tol = 0.47623E+04, time = 6.46 | CG iter. 27 -- res = 0.64631E-01, tol = 0.47623E+04, time = 6.36 | CG iter. 28 -- res = 0.35335E-01, tol = 0.47623E+04, time = 6.68 | CG iter. 29 -- res = 0.18351E-01, tol = 0.47623E+04, time = 6.88 | CG iter. 30 -- res = 0.94545E-02, tol = 0.47623E+04, time = 6.38 | CG iter. 31 -- res = 0.50780E-02, tol = 0.47623E+04, time = 13.08 | CG iter. 32 -- res = 0.28690E-02, tol = 0.47623E+04, time = 6.32 | CG iter. 33 -- res = 0.16257E-02, tol = 0.47623E+04, time = 6.17 | CG iter. 34 -- res = 0.90197E-03, tol = 0.47623E+04, time = 6.36 | CG iter. 35 -- res = 0.48088E-03, tol = 0.47623E+04, time = 6.35 | Final CG iter 36 -- res = 0.48088E-03, tol = 0.47623E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.319 2.714 | New value 4.225 | Old value -0.319 | Difference 4.544 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.10713E+07, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.50893E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.15369E+01, tol = 0.47627E+18, time = 1.88 | Final CG iter 4 -- res = 0.42485E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7630545.737 | (Sampled value in CG: 7683026.038 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.471856 | New value = -3.632298 | poltype: 1 pol: 1 CPU time specind = 1.1594057E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.23444E+07, tol = 0.31931E+01, time = 2.74 | CG iter. 2 -- res = 0.92903E+06, tol = 0.31931E+01, time = 2.55 | CG iter. 3 -- res = 0.18833E+06, tol = 0.31931E+01, time = 2.74 | CG iter. 4 -- res = 0.73189E+05, tol = 0.31931E+01, time = 2.67 | CG iter. 5 -- res = 0.43158E+05, tol = 0.31931E+01, time = 2.62 | CG iter. 6 -- res = 0.23387E+05, tol = 0.31931E+01, time = 2.64 | CG iter. 7 -- res = 0.85144E+04, tol = 0.31931E+01, time = 2.58 | CG iter. 8 -- res = 0.35176E+04, tol = 0.31931E+01, time = 2.47 | CG iter. 9 -- res = 0.15519E+04, tol = 0.31931E+01, time = 2.63 | CG iter. 10 -- res = 0.61808E+03, tol = 0.31931E+01, time = 2.56 | CG iter. 11 -- res = 0.25284E+03, tol = 0.31931E+01, time = 2.90 | CG iter. 12 -- res = 0.13205E+03, tol = 0.31931E+01, time = 2.64 | CG iter. 13 -- res = 0.69192E+02, tol = 0.31931E+01, time = 2.92 | CG iter. 14 -- res = 0.33572E+02, tol = 0.31931E+01, time = 2.75 | CG iter. 15 -- res = 0.14693E+02, tol = 0.31931E+01, time = 2.62 | CG iter. 16 -- res = 0.66464E+01, tol = 0.31931E+01, time = 2.83 | CG iter. 17 -- res = 0.27669E+01, tol = 0.31931E+01, time = 2.55 | CG iter. 18 -- res = 0.12955E+01, tol = 0.31931E+01, time = 2.93 | CG iter. 19 -- res = 0.65157E+00, tol = 0.31931E+01, time = 2.44 | CG iter. 20 -- res = 0.33505E+00, tol = 0.31931E+01, time = 2.89 | CG iter. 21 -- res = 0.16346E+00, tol = 0.31931E+01, time = 2.91 | CG iter. 22 -- res = 0.69847E-01, tol = 0.31931E+01, time = 2.53 | CG iter. 23 -- res = 0.31176E-01, tol = 0.31931E+01, time = 2.66 | CG iter. 24 -- res = 0.14750E-01, tol = 0.31931E+01, time = 2.48 | CG iter. 25 -- res = 0.75012E-02, tol = 0.31931E+01, time = 2.98 | CG iter. 26 -- res = 0.37856E-02, tol = 0.31931E+01, time = 2.63 | CG iter. 27 -- res = 0.18505E-02, tol = 0.31931E+01, time = 2.49 | CG iter. 28 -- res = 0.88100E-03, tol = 0.31931E+01, time = 3.75 | CG iter. 29 -- res = 0.38259E-03, tol = 0.31931E+01, time = 3.09 | CG iter. 30 -- res = 0.18201E-03, tol = 0.31931E+01, time = 2.89 | CG iter. 31 -- res = 0.91482E-04, tol = 0.31931E+01, time = 3.35 | CG iter. 32 -- res = 0.45414E-04, tol = 0.31931E+01, time = 2.75 | CG iter. 33 -- res = 0.22222E-04, tol = 0.31931E+01, time = 2.67 | CG iter. 34 -- res = 0.10608E-04, tol = 0.31931E+01, time = 2.72 | CG iter. 35 -- res = 0.50200E-05, tol = 0.31931E+01, time = 2.57 | CG iter. 36 -- res = 0.22902E-05, tol = 0.31931E+01, time = 2.61 | CG iter. 37 -- res = 0.10972E-05, tol = 0.31931E+01, time = 2.89 | CG iter. 38 -- res = 0.56651E-06, tol = 0.31931E+01, time = 2.60 | CG iter. 39 -- res = 0.27499E-06, tol = 0.31931E+01, time = 2.79 | CG iter. 40 -- res = 0.13032E-06, tol = 0.31931E+01, time = 2.49 | CG iter. 41 -- res = 0.60325E-07, tol = 0.31931E+01, time = 2.56 | CG iter. 42 -- res = 0.28669E-07, tol = 0.31931E+01, time = 2.74 | CG iter. 43 -- res = 0.13242E-07, tol = 0.31931E+01, time = 2.83 | CG iter. 44 -- res = 0.65571E-08, tol = 0.31931E+01, time = 2.55 | CG iter. 45 -- res = 0.32486E-08, tol = 0.31931E+01, time = 2.90 | CG iter. 46 -- res = 0.15547E-08, tol = 0.31931E+01, time = 2.40 | CG iter. 47 -- res = 0.75283E-09, tol = 0.31931E+01, time = 2.80 | CG iter. 48 -- res = 0.34317E-09, tol = 0.31931E+01, time = 2.58 | CG iter. 49 -- res = 0.15414E-09, tol = 0.31931E+01, time = 2.81 | CG iter. 50 -- res = 0.72673E-10, tol = 0.31931E+01, time = 2.45 | Final CG iter 51 -- res = 0.72673E-10, tol = 0.31931E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.781 6.137 | New value -5.141 | Old value 1.781 | Difference -6.922 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.50904E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.55361E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.21856E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.65071E-02, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.89825E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7630545.737 | (Sampled value in CG: 7672554.128 ) | CPU time specind = 1165.412 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.68368E+08, tol = 0.57831E+04, time = 11.38 | CG iter. 2 -- res = 0.58883E+08, tol = 0.57831E+04, time = 11.24 | CG iter. 3 -- res = 0.15391E+08, tol = 0.57831E+04, time = 11.51 | CG iter. 4 -- res = 0.66826E+07, tol = 0.57831E+04, time = 11.41 | CG iter. 5 -- res = 0.39968E+07, tol = 0.57831E+04, time = 11.07 | CG iter. 6 -- res = 0.22794E+07, tol = 0.57831E+04, time = 18.56 | CG iter. 7 -- res = 0.13282E+07, tol = 0.57831E+04, time = 11.91 | CG iter. 8 -- res = 0.86413E+06, tol = 0.57831E+04, time = 11.54 | CG iter. 9 -- res = 0.55916E+06, tol = 0.57831E+04, time = 11.58 | CG iter. 10 -- res = 0.33812E+06, tol = 0.57831E+04, time = 11.51 | CG iter. 11 -- res = 0.18856E+06, tol = 0.57831E+04, time = 11.65 | CG iter. 12 -- res = 0.10479E+06, tol = 0.57831E+04, time = 11.94 | CG iter. 13 -- res = 0.58997E+05, tol = 0.57831E+04, time = 13.05 | CG iter. 14 -- res = 0.36790E+05, tol = 0.57831E+04, time = 12.12 | CG iter. 15 -- res = 0.26307E+05, tol = 0.57831E+04, time = 11.31 | CG iter. 16 -- res = 0.21055E+05, tol = 0.57831E+04, time = 11.32 | CG iter. 17 -- res = 0.17560E+05, tol = 0.57831E+04, time = 11.56 | CG iter. 18 -- res = 0.14427E+05, tol = 0.57831E+04, time = 11.63 | CG iter. 19 -- res = 0.11957E+05, tol = 0.57831E+04, time = 11.61 | CG iter. 20 -- res = 0.10204E+05, tol = 0.57831E+04, time = 11.88 | CG iter. 21 -- res = 0.94174E+04, tol = 0.57831E+04, time = 11.90 | CG iter. 22 -- res = 0.97021E+04, tol = 0.57831E+04, time = 12.14 | CG iter. 23 -- res = 0.10450E+05, tol = 0.57831E+04, time = 11.31 | CG iter. 24 -- res = 0.10801E+05, tol = 0.57831E+04, time = 11.79 | CG iter. 25 -- res = 0.10460E+05, tol = 0.57831E+04, time = 11.95 | CG iter. 26 -- res = 0.87815E+04, tol = 0.57831E+04, time = 11.30 | CG iter. 27 -- res = 0.66851E+04, tol = 0.57831E+04, time = 11.32 | CG iter. 28 -- res = 0.51327E+04, tol = 0.57831E+04, time = 11.66 | CG iter. 29 -- res = 0.41461E+04, tol = 0.57831E+04, time = 11.63 | CG iter. 30 -- res = 0.34598E+04, tol = 0.57831E+04, time = 11.47 | CG iter. 31 -- res = 0.29577E+04, tol = 0.57831E+04, time = 18.02 | CG iter. 32 -- res = 0.26037E+04, tol = 0.57831E+04, time = 11.84 | CG iter. 33 -- res = 0.22277E+04, tol = 0.57831E+04, time = 11.38 | CG iter. 34 -- res = 0.18710E+04, tol = 0.57831E+04, time = 11.64 | CG iter. 35 -- res = 0.16119E+04, tol = 0.57831E+04, time = 12.45 | CG iter. 36 -- res = 0.14471E+04, tol = 0.57831E+04, time = 11.25 | CG iter. 37 -- res = 0.14085E+04, tol = 0.57831E+04, time = 12.55 | CG iter. 38 -- res = 0.13696E+04, tol = 0.57831E+04, time = 13.50 | CG iter. 39 -- res = 0.13141E+04, tol = 0.57831E+04, time = 12.31 | CG iter. 40 -- res = 0.11621E+04, tol = 0.57831E+04, time = 11.47 | CG iter. 41 -- res = 0.96690E+03, tol = 0.57831E+04, time = 11.95 | CG iter. 42 -- res = 0.79140E+03, tol = 0.57831E+04, time = 11.78 | CG iter. 43 -- res = 0.67512E+03, tol = 0.57831E+04, time = 11.12 | CG iter. 44 -- res = 0.61853E+03, tol = 0.57831E+04, time = 12.22 | CG iter. 45 -- res = 0.57703E+03, tol = 0.57831E+04, time = 11.37 | CG iter. 46 -- res = 0.54136E+03, tol = 0.57831E+04, time = 11.31 | CG iter. 47 -- res = 0.49079E+03, tol = 0.57831E+04, time = 11.51 | CG iter. 48 -- res = 0.42671E+03, tol = 0.57831E+04, time = 11.75 | CG iter. 49 -- res = 0.37510E+03, tol = 0.57831E+04, time = 11.37 | CG iter. 50 -- res = 0.34395E+03, tol = 0.57831E+04, time = 11.97 | CG iter. 51 -- res = 0.33708E+03, tol = 0.57831E+04, time = 11.40 | CG iter. 52 -- res = 0.33129E+03, tol = 0.57831E+04, time = 11.79 | CG iter. 53 -- res = 0.31462E+03, tol = 0.57831E+04, time = 11.55 | CG iter. 54 -- res = 0.28871E+03, tol = 0.57831E+04, time = 11.47 | CG iter. 55 -- res = 0.25635E+03, tol = 0.57831E+04, time = 11.72 | CG iter. 56 -- res = 0.22453E+03, tol = 0.57831E+04, time = 18.05 | CG iter. 57 -- res = 0.19622E+03, tol = 0.57831E+04, time = 11.64 | CG iter. 58 -- res = 0.18054E+03, tol = 0.57831E+04, time = 11.50 | CG iter. 59 -- res = 0.17223E+03, tol = 0.57831E+04, time = 11.68 | CG iter. 60 -- res = 0.16670E+03, tol = 0.57831E+04, time = 11.80 | Final CG iter 61 -- res = 0.16670E+03, tol = 0.57831E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.739 ( -229.675 -2231.299 2513.961 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7674406.618 | Old band monopole 7630578.557 | Change to band monopole 43828.061 | Change to component monopole -43827.872 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.260 2.741 | New value 2.736 | Old value 4.260 | Difference -1.524 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.237 ( 6.643 12.175 -12.114 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.982 4.849 | New value 1.617 | Old value -0.982 | Difference 2.599 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.40 | CG iter. 1 -- res = 0.16251E+06, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.36365E+02, tol = 0.47627E+18, time = 2.39 | CG iter. 3 -- res = 0.14907E+01, tol = 0.47627E+18, time = 2.17 | CG iter. 4 -- res = 0.30141E-02, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.26330E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7674373.609 | (Sampled value in CG: 7653250.647 ) | Chain = 1 -- chisq = 0.81507700E+09 | Chain = 1 -- wall time = 16363.832 sec Available RAM: MemAvailable: 469860076 kB Available Swap: SwapFree: 1054209956 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 292 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443758 | --> Sampling calibration, mode = relcal | relcal = 1.3425639E-02 7.4963842E-04 -1.5936624E-03 -1.2581615E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1059370 0.1123944 9402951.42746378 | BP delta = 0.1059370 0.1134911 9402962.07027772 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632439 | --> Sampling calibration, mode = relcal | relcal = -2.8208010E-03 -7.0320192E-04 1.6789760E-03 1.6134582E-03 -4.0801134E-04 6.3958025E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5497848 15218032.5248911 | BP delta = 0.0000000E+00 -0.5485412 15218033.7341514 | BP chisq diff = 1.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18532617136166 | --> Sampling calibration, mode = relcal | relcal = -7.6108858E-02 -5.9213232E-02 9.3012802E-02 4.2309284E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.6394672E-04 6.1413283E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9980E-05 | 2: delta_r/delta_0: 1.5029E-06 | 3: delta_s/delta_0: 1.9948E-07 | 4: delta_r/delta_0: 2.5768E-08 | 5: delta_s/delta_0: 6.9834E-09 | 6: delta_r/delta_0: 2.5744E-09 | 7: delta_s/delta_0: 8.0298E-10 | 8: delta_r/delta_0: 1.6193E-10 | 9: delta_s/delta_0: 2.2784E-10 | 10: delta_r/delta_0: 6.6303E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.229016138922117E-003 2.730938935232433E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9981E-05 | 2: delta_r/delta_0: 1.5030E-06 | 3: delta_s/delta_0: 1.9948E-07 | 4: delta_r/delta_0: 2.5768E-08 | 5: delta_s/delta_0: 6.9830E-09 | 6: delta_r/delta_0: 2.5744E-09 | 7: delta_s/delta_0: 8.0302E-10 | 8: delta_r/delta_0: 1.6192E-10 | 9: delta_s/delta_0: 2.2779E-10 | 10: delta_r/delta_0: 6.6283E-11 | Reached bicg-stab tolerance | BP delta = 6.6476561E-02 8.6591639E-02 3526239.54398119 | BP delta = 6.6476561E-02 8.6984277E-02 3527777.93428403 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02602453 | --> Sampling calibration, mode = relcal | relcal = -0.1066591 -9.5601507E-02 0.1450051 5.7255473E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0464323E-03 1.5048604E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1942E-05 | 2: delta_r/delta_0: 1.5314E-06 | 3: delta_s/delta_0: 2.5354E-07 | 4: delta_r/delta_0: 3.2666E-08 | 5: delta_s/delta_0: 2.6490E-08 | 6: delta_r/delta_0: 5.9467E-09 | 7: delta_s/delta_0: 3.8232E-09 | 8: delta_r/delta_0: 1.7510E-09 | 9: delta_s/delta_0: 7.7627E-10 | 10: delta_r/delta_0: 5.8199E-10 | 11: delta_s/delta_0: 1.2329E-09 | 12: delta_r/delta_0: 1.0214E-10 | 13: delta_s/delta_0: 5.6976E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.771563005492021E-003 2.810768616735619E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1942E-05 | 2: delta_r/delta_0: 1.5314E-06 | 3: delta_s/delta_0: 2.5354E-07 | 4: delta_r/delta_0: 3.2664E-08 | 5: delta_s/delta_0: 2.6492E-08 | 6: delta_r/delta_0: 5.9465E-09 | 7: delta_s/delta_0: 3.8231E-09 | 8: delta_r/delta_0: 1.7510E-09 | 9: delta_s/delta_0: 7.7625E-10 | 10: delta_r/delta_0: 5.8198E-10 | 11: delta_s/delta_0: 1.2328E-09 | 12: delta_r/delta_0: 1.0214E-10 | 13: delta_s/delta_0: 5.6911E-11 | Reached bicg-stab tolerance | BP delta = -0.3183354 -0.2932063 2841439.49185748 | BP delta = -0.3183354 -0.2895305 2841439.03178914 | BP chisq diff = -0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81225862 | --> Sampling calibration, mode = relcal | relcal = 0.2954122 0.2248452 -0.2837409 -0.2365165 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.9082587E-04 5.8414713E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3202E-04 | 2: delta_r/delta_0: 1.7585E-05 | 3: delta_s/delta_0: 1.6305E-06 | 4: delta_r/delta_0: 4.7087E-07 | 5: delta_s/delta_0: 2.2731E-07 | 6: delta_r/delta_0: 1.2523E-07 | 7: delta_s/delta_0: 9.5400E-07 | 8: delta_r/delta_0: 6.3176E-08 | 9: delta_s/delta_0: 1.7721E-08 | 10: delta_r/delta_0: 7.5125E-09 | 11: delta_s/delta_0: 1.4654E-09 | 12: delta_r/delta_0: 4.9433E-10 | 13: delta_s/delta_0: 4.9925E-10 | 14: delta_r/delta_0: 3.8991E-10 | 15: delta_s/delta_0: 5.4919E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.251808727737297E-002 4.021463969086718E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.3218E-04 | 2: delta_r/delta_0: 1.7589E-05 | 3: delta_s/delta_0: 1.6304E-06 | 4: delta_r/delta_0: 4.7087E-07 | 5: delta_s/delta_0: 2.2728E-07 | 6: delta_r/delta_0: 1.2524E-07 | 7: delta_s/delta_0: 9.5255E-07 | 8: delta_r/delta_0: 6.3027E-08 | 9: delta_s/delta_0: 1.7720E-08 | 10: delta_r/delta_0: 7.5128E-09 | 11: delta_s/delta_0: 1.4652E-09 | 12: delta_r/delta_0: 4.9440E-10 | 13: delta_s/delta_0: 4.9950E-10 | 14: delta_r/delta_0: 3.9012E-10 | 15: delta_s/delta_0: 5.4925E-11 | Reached bicg-stab tolerance | BP delta = -0.3344170 -0.3590243 2827255.46778488 | BP delta = -0.3344170 -0.3636067 2827313.02725156 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95923386 | --> Sampling calibration, mode = relcal | relcal = 0.1064441 0.1396235 -0.1102670 -0.1358007 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1231814E-02 1.4561695E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2879E-04 | 2: delta_r/delta_0: 8.1911E-06 | 3: delta_s/delta_0: 1.0022E-05 | 4: delta_r/delta_0: 1.0182E-06 | 5: delta_s/delta_0: 2.4001E-07 | 6: delta_r/delta_0: 1.3156E-07 | 7: delta_s/delta_0: 5.0973E-07 | 8: delta_r/delta_0: 3.0423E-08 | 9: delta_s/delta_0: 2.4278E-07 | 10: delta_r/delta_0: 4.8076E-08 | 11: delta_s/delta_0: 1.9309E-09 | 12: delta_r/delta_0: 1.0893E-09 | 13: delta_s/delta_0: 8.0350E-10 | 14: delta_r/delta_0: 3.0265E-10 | 15: delta_s/delta_0: 7.2980E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.099987390070909E-002 3.696876746260534E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2884E-04 | 2: delta_r/delta_0: 8.1920E-06 | 3: delta_s/delta_0: 1.0022E-05 | 4: delta_r/delta_0: 1.0180E-06 | 5: delta_s/delta_0: 2.4000E-07 | 6: delta_r/delta_0: 1.3152E-07 | 7: delta_s/delta_0: 5.0910E-07 | 8: delta_r/delta_0: 3.0425E-08 | 9: delta_s/delta_0: 2.3868E-07 | 10: delta_r/delta_0: 4.6957E-08 | 11: delta_s/delta_0: 1.9308E-09 | 12: delta_r/delta_0: 1.0914E-09 | 13: delta_s/delta_0: 8.0010E-10 | 14: delta_r/delta_0: 3.0374E-10 | 15: delta_s/delta_0: 7.3046E-11 | Reached bicg-stab tolerance | BP delta = 5.4730199E-02 0.1585667 3004352.82367081 | BP delta = 5.4730199E-02 0.1705629 3004436.87799850 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140573 | New value = -3.190364 | poltype: 2 pol: 1 CPU time specind = 2.5490046E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.067591 | New value = -3.160647 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133698 | New value = -3.161695 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131708 | New value = -3.132543 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139676 | New value = -3.075343 | poltype: 2 pol: 2 CPU time specind = 7.3370934E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.13549E+08, tol = 0.88574E+01, time = 5.72 | CG iter. 2 -- res = 0.36501E+06, tol = 0.88574E+01, time = 5.80 | CG iter. 3 -- res = 0.51182E+05, tol = 0.88574E+01, time = 5.98 | CG iter. 4 -- res = 0.26542E+05, tol = 0.88574E+01, time = 5.74 | CG iter. 5 -- res = 0.17315E+05, tol = 0.88574E+01, time = 6.07 | CG iter. 6 -- res = 0.12944E+05, tol = 0.88574E+01, time = 5.98 | CG iter. 7 -- res = 0.11866E+05, tol = 0.88574E+01, time = 5.95 | CG iter. 8 -- res = 0.10693E+05, tol = 0.88574E+01, time = 6.13 | CG iter. 9 -- res = 0.98943E+04, tol = 0.88574E+01, time = 5.80 | CG iter. 10 -- res = 0.93283E+04, tol = 0.88574E+01, time = 5.95 | CG iter. 11 -- res = 0.69470E+04, tol = 0.88574E+01, time = 5.56 | CG iter. 12 -- res = 0.45573E+04, tol = 0.88574E+01, time = 6.08 | CG iter. 13 -- res = 0.32511E+04, tol = 0.88574E+01, time = 5.89 | CG iter. 14 -- res = 0.28045E+04, tol = 0.88574E+01, time = 5.83 | CG iter. 15 -- res = 0.25460E+04, tol = 0.88574E+01, time = 5.74 | CG iter. 16 -- res = 0.20861E+04, tol = 0.88574E+01, time = 6.05 | CG iter. 17 -- res = 0.15472E+04, tol = 0.88574E+01, time = 6.39 | CG iter. 18 -- res = 0.12249E+04, tol = 0.88574E+01, time = 5.85 | CG iter. 19 -- res = 0.10365E+04, tol = 0.88574E+01, time = 6.12 | CG iter. 20 -- res = 0.81778E+03, tol = 0.88574E+01, time = 6.00 | CG iter. 21 -- res = 0.59868E+03, tol = 0.88574E+01, time = 6.25 | CG iter. 22 -- res = 0.47042E+03, tol = 0.88574E+01, time = 5.71 | CG iter. 23 -- res = 0.40353E+03, tol = 0.88574E+01, time = 5.93 | CG iter. 24 -- res = 0.33771E+03, tol = 0.88574E+01, time = 5.99 | CG iter. 25 -- res = 0.25054E+03, tol = 0.88574E+01, time = 5.91 | CG iter. 26 -- res = 0.18300E+03, tol = 0.88574E+01, time = 5.77 | CG iter. 27 -- res = 0.14454E+03, tol = 0.88574E+01, time = 5.97 | CG iter. 28 -- res = 0.11796E+03, tol = 0.88574E+01, time = 5.74 | CG iter. 29 -- res = 0.91255E+02, tol = 0.88574E+01, time = 5.50 | CG iter. 30 -- res = 0.68025E+02, tol = 0.88574E+01, time = 6.01 | CG iter. 31 -- res = 0.53706E+02, tol = 0.88574E+01, time = 5.97 | CG iter. 32 -- res = 0.44481E+02, tol = 0.88574E+01, time = 5.79 | CG iter. 33 -- res = 0.35734E+02, tol = 0.88574E+01, time = 6.00 | CG iter. 34 -- res = 0.25672E+02, tol = 0.88574E+01, time = 12.30 | CG iter. 35 -- res = 0.19359E+02, tol = 0.88574E+01, time = 5.94 | CG iter. 36 -- res = 0.15824E+02, tol = 0.88574E+01, time = 6.07 | CG iter. 37 -- res = 0.13064E+02, tol = 0.88574E+01, time = 5.82 | CG iter. 38 -- res = 0.99012E+01, tol = 0.88574E+01, time = 6.25 | CG iter. 39 -- res = 0.70008E+01, tol = 0.88574E+01, time = 6.01 | CG iter. 40 -- res = 0.56338E+01, tol = 0.88574E+01, time = 6.34 | CG iter. 41 -- res = 0.47060E+01, tol = 0.88574E+01, time = 5.54 | CG iter. 42 -- res = 0.37270E+01, tol = 0.88574E+01, time = 6.17 | CG iter. 43 -- res = 0.28075E+01, tol = 0.88574E+01, time = 6.12 | CG iter. 44 -- res = 0.21586E+01, tol = 0.88574E+01, time = 6.13 | CG iter. 45 -- res = 0.17472E+01, tol = 0.88574E+01, time = 6.08 | CG iter. 46 -- res = 0.14177E+01, tol = 0.88574E+01, time = 5.86 | CG iter. 47 -- res = 0.10477E+01, tol = 0.88574E+01, time = 6.00 | CG iter. 48 -- res = 0.77912E+00, tol = 0.88574E+01, time = 7.29 | CG iter. 49 -- res = 0.63234E+00, tol = 0.88574E+01, time = 6.36 | CG iter. 50 -- res = 0.51959E+00, tol = 0.88574E+01, time = 6.20 | Final CG iter 51 -- res = 0.51959E+00, tol = 0.88574E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9420883.822 | Old band monopole 7674406.618 | Change to band monopole 1746477.203 | Change to component monopole -1746469.691 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.34124E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.98786E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.32201E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.10119E-01, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.31617E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9420843.300 | (Sampled value in CG: 9377358.936 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.533563 | New value = 1.493660 | poltype: 2 pol: 1 CPU time specind = 2.4569988E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.491189 | New value = 1.477652 | poltype: 2 pol: 2 CPU time specind = 4.5320988E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.24335E+08, tol = 0.47575E+04, time = 6.63 | CG iter. 2 -- res = 0.52700E+07, tol = 0.47575E+04, time = 7.11 | CG iter. 3 -- res = 0.84609E+06, tol = 0.47575E+04, time = 6.65 | CG iter. 4 -- res = 0.35113E+06, tol = 0.47575E+04, time = 6.73 | CG iter. 5 -- res = 0.14725E+06, tol = 0.47575E+04, time = 6.94 | CG iter. 6 -- res = 0.77905E+05, tol = 0.47575E+04, time = 6.74 | CG iter. 7 -- res = 0.42595E+05, tol = 0.47575E+04, time = 6.83 | CG iter. 8 -- res = 0.20214E+05, tol = 0.47575E+04, time = 6.85 | CG iter. 9 -- res = 0.88469E+04, tol = 0.47575E+04, time = 7.44 | CG iter. 10 -- res = 0.36023E+04, tol = 0.47575E+04, time = 6.64 | CG iter. 11 -- res = 0.16391E+04, tol = 0.47575E+04, time = 6.89 | CG iter. 12 -- res = 0.83886E+03, tol = 0.47575E+04, time = 12.65 | CG iter. 13 -- res = 0.48075E+03, tol = 0.47575E+04, time = 6.93 | CG iter. 14 -- res = 0.27597E+03, tol = 0.47575E+04, time = 6.60 | CG iter. 15 -- res = 0.14193E+03, tol = 0.47575E+04, time = 6.81 | CG iter. 16 -- res = 0.66556E+02, tol = 0.47575E+04, time = 6.80 | CG iter. 17 -- res = 0.31161E+02, tol = 0.47575E+04, time = 6.58 | CG iter. 18 -- res = 0.15638E+02, tol = 0.47575E+04, time = 6.93 | CG iter. 19 -- res = 0.84434E+01, tol = 0.47575E+04, time = 6.68 | CG iter. 20 -- res = 0.47111E+01, tol = 0.47575E+04, time = 6.90 | CG iter. 21 -- res = 0.25632E+01, tol = 0.47575E+04, time = 6.93 | CG iter. 22 -- res = 0.13225E+01, tol = 0.47575E+04, time = 6.70 | CG iter. 23 -- res = 0.66560E+00, tol = 0.47575E+04, time = 6.39 | CG iter. 24 -- res = 0.34429E+00, tol = 0.47575E+04, time = 7.77 | CG iter. 25 -- res = 0.18784E+00, tol = 0.47575E+04, time = 7.41 | CG iter. 26 -- res = 0.10544E+00, tol = 0.47575E+04, time = 7.28 | CG iter. 27 -- res = 0.59297E-01, tol = 0.47575E+04, time = 7.12 | CG iter. 28 -- res = 0.31595E-01, tol = 0.47575E+04, time = 6.82 | CG iter. 29 -- res = 0.16477E-01, tol = 0.47575E+04, time = 6.58 | CG iter. 30 -- res = 0.86333E-02, tol = 0.47575E+04, time = 6.96 | CG iter. 31 -- res = 0.46867E-02, tol = 0.47575E+04, time = 6.45 | CG iter. 32 -- res = 0.26733E-02, tol = 0.47575E+04, time = 6.76 | CG iter. 33 -- res = 0.14909E-02, tol = 0.47575E+04, time = 6.80 | CG iter. 34 -- res = 0.79804E-03, tol = 0.47575E+04, time = 6.85 | CG iter. 35 -- res = 0.40721E-03, tol = 0.47575E+04, time = 6.85 | Final CG iter 36 -- res = 0.40721E-03, tol = 0.47575E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.756 2.747 | New value 2.624 | Old value 2.756 | Difference -0.132 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.62099E+04, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.21295E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.73540E+00, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.40348E-03, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.95230E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9420843.300 | (Sampled value in CG: 9378121.052 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.632298 | New value = -3.817010 | poltype: 1 pol: 1 CPU time specind = 1.3059139E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.23717E+07, tol = 0.29862E+01, time = 2.96 | CG iter. 2 -- res = 0.72318E+06, tol = 0.29862E+01, time = 2.84 | CG iter. 3 -- res = 0.14210E+06, tol = 0.29862E+01, time = 2.98 | CG iter. 4 -- res = 0.67808E+05, tol = 0.29862E+01, time = 2.73 | CG iter. 5 -- res = 0.41802E+05, tol = 0.29862E+01, time = 2.88 | CG iter. 6 -- res = 0.18781E+05, tol = 0.29862E+01, time = 2.75 | CG iter. 7 -- res = 0.60030E+04, tol = 0.29862E+01, time = 2.81 | CG iter. 8 -- res = 0.23912E+04, tol = 0.29862E+01, time = 2.98 | CG iter. 9 -- res = 0.10173E+04, tol = 0.29862E+01, time = 2.90 | CG iter. 10 -- res = 0.42657E+03, tol = 0.29862E+01, time = 3.29 | CG iter. 11 -- res = 0.20390E+03, tol = 0.29862E+01, time = 2.69 | CG iter. 12 -- res = 0.10755E+03, tol = 0.29862E+01, time = 2.96 | CG iter. 13 -- res = 0.53469E+02, tol = 0.29862E+01, time = 2.81 | CG iter. 14 -- res = 0.23092E+02, tol = 0.29862E+01, time = 2.60 | CG iter. 15 -- res = 0.94357E+01, tol = 0.29862E+01, time = 2.84 | CG iter. 16 -- res = 0.40798E+01, tol = 0.29862E+01, time = 2.70 | CG iter. 17 -- res = 0.18995E+01, tol = 0.29862E+01, time = 2.79 | CG iter. 18 -- res = 0.91197E+00, tol = 0.29862E+01, time = 3.08 | CG iter. 19 -- res = 0.45919E+00, tol = 0.29862E+01, time = 2.79 | CG iter. 20 -- res = 0.21286E+00, tol = 0.29862E+01, time = 2.69 | CG iter. 21 -- res = 0.95102E-01, tol = 0.29862E+01, time = 3.02 | CG iter. 22 -- res = 0.42172E-01, tol = 0.29862E+01, time = 2.72 | CG iter. 23 -- res = 0.19734E-01, tol = 0.29862E+01, time = 2.73 | CG iter. 24 -- res = 0.10493E-01, tol = 0.29862E+01, time = 2.95 | CG iter. 25 -- res = 0.51410E-02, tol = 0.29862E+01, time = 2.93 | CG iter. 26 -- res = 0.23063E-02, tol = 0.29862E+01, time = 3.00 | CG iter. 27 -- res = 0.10308E-02, tol = 0.29862E+01, time = 2.93 | CG iter. 28 -- res = 0.47665E-03, tol = 0.29862E+01, time = 2.56 | CG iter. 29 -- res = 0.22753E-03, tol = 0.29862E+01, time = 3.06 | CG iter. 30 -- res = 0.11807E-03, tol = 0.29862E+01, time = 2.76 | CG iter. 31 -- res = 0.57755E-04, tol = 0.29862E+01, time = 3.02 | CG iter. 32 -- res = 0.26510E-04, tol = 0.29862E+01, time = 2.72 | CG iter. 33 -- res = 0.11135E-04, tol = 0.29862E+01, time = 2.87 | CG iter. 34 -- res = 0.51623E-05, tol = 0.29862E+01, time = 2.81 | CG iter. 35 -- res = 0.26905E-05, tol = 0.29862E+01, time = 2.91 | CG iter. 36 -- res = 0.13257E-05, tol = 0.29862E+01, time = 2.75 | CG iter. 37 -- res = 0.62034E-06, tol = 0.29862E+01, time = 2.99 | CG iter. 38 -- res = 0.27007E-06, tol = 0.29862E+01, time = 2.78 | CG iter. 39 -- res = 0.12557E-06, tol = 0.29862E+01, time = 2.50 | CG iter. 40 -- res = 0.56952E-07, tol = 0.29862E+01, time = 2.89 | CG iter. 41 -- res = 0.29565E-07, tol = 0.29862E+01, time = 2.75 | CG iter. 42 -- res = 0.14417E-07, tol = 0.29862E+01, time = 3.08 | CG iter. 43 -- res = 0.65510E-08, tol = 0.29862E+01, time = 9.32 | CG iter. 44 -- res = 0.30033E-08, tol = 0.29862E+01, time = 2.90 | CG iter. 45 -- res = 0.13720E-08, tol = 0.29862E+01, time = 2.91 | CG iter. 46 -- res = 0.65934E-09, tol = 0.29862E+01, time = 2.60 | CG iter. 47 -- res = 0.31685E-09, tol = 0.29862E+01, time = 2.70 | CG iter. 48 -- res = 0.15605E-09, tol = 0.29862E+01, time = 2.98 | CG iter. 49 -- res = 0.74092E-10, tol = 0.29862E+01, time = 2.80 | CG iter. 50 -- res = 0.33506E-10, tol = 0.29862E+01, time = 2.88 | Final CG iter 51 -- res = 0.33506E-10, tol = 0.29862E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.145 6.081 | New value -5.893 | Old value -2.145 | Difference -3.749 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.14534E+05, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.21610E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.74969E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.16705E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.88678E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9420843.300 | (Sampled value in CG: 9389233.622 ) | CPU time specind = 1230.255 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.43 | CG iter. 1 -- res = 0.69658E+08, tol = 0.58251E+04, time = 12.20 | CG iter. 2 -- res = 0.58871E+08, tol = 0.58251E+04, time = 12.10 | CG iter. 3 -- res = 0.15902E+08, tol = 0.58251E+04, time = 11.88 | CG iter. 4 -- res = 0.68728E+07, tol = 0.58251E+04, time = 12.09 | CG iter. 5 -- res = 0.40943E+07, tol = 0.58251E+04, time = 11.79 | CG iter. 6 -- res = 0.23253E+07, tol = 0.58251E+04, time = 11.97 | CG iter. 7 -- res = 0.13381E+07, tol = 0.58251E+04, time = 12.06 | CG iter. 8 -- res = 0.87816E+06, tol = 0.58251E+04, time = 12.82 | CG iter. 9 -- res = 0.57290E+06, tol = 0.58251E+04, time = 12.61 | CG iter. 10 -- res = 0.34523E+06, tol = 0.58251E+04, time = 12.34 | CG iter. 11 -- res = 0.18606E+06, tol = 0.58251E+04, time = 12.03 | CG iter. 12 -- res = 0.99390E+05, tol = 0.58251E+04, time = 12.61 | CG iter. 13 -- res = 0.54612E+05, tol = 0.58251E+04, time = 12.33 | CG iter. 14 -- res = 0.32742E+05, tol = 0.58251E+04, time = 11.95 | CG iter. 15 -- res = 0.22052E+05, tol = 0.58251E+04, time = 11.77 | CG iter. 16 -- res = 0.15712E+05, tol = 0.58251E+04, time = 18.62 | CG iter. 17 -- res = 0.11820E+05, tol = 0.58251E+04, time = 12.31 | CG iter. 18 -- res = 0.88362E+04, tol = 0.58251E+04, time = 11.90 | CG iter. 19 -- res = 0.66071E+04, tol = 0.58251E+04, time = 12.38 | CG iter. 20 -- res = 0.50464E+04, tol = 0.58251E+04, time = 11.91 | CG iter. 21 -- res = 0.41611E+04, tol = 0.58251E+04, time = 11.76 | CG iter. 22 -- res = 0.39193E+04, tol = 0.58251E+04, time = 12.26 | CG iter. 23 -- res = 0.41706E+04, tol = 0.58251E+04, time = 13.61 | CG iter. 24 -- res = 0.46098E+04, tol = 0.58251E+04, time = 12.64 | CG iter. 25 -- res = 0.47834E+04, tol = 0.58251E+04, time = 12.39 | CG iter. 26 -- res = 0.45160E+04, tol = 0.58251E+04, time = 12.27 | CG iter. 27 -- res = 0.39110E+04, tol = 0.58251E+04, time = 12.28 | CG iter. 28 -- res = 0.32111E+04, tol = 0.58251E+04, time = 11.96 | CG iter. 29 -- res = 0.26527E+04, tol = 0.58251E+04, time = 12.65 | CG iter. 30 -- res = 0.22028E+04, tol = 0.58251E+04, time = 12.31 | CG iter. 31 -- res = 0.18622E+04, tol = 0.58251E+04, time = 11.62 | CG iter. 32 -- res = 0.16034E+04, tol = 0.58251E+04, time = 11.94 | CG iter. 33 -- res = 0.13491E+04, tol = 0.58251E+04, time = 12.78 | CG iter. 34 -- res = 0.10710E+04, tol = 0.58251E+04, time = 11.86 | CG iter. 35 -- res = 0.84102E+03, tol = 0.58251E+04, time = 11.94 | CG iter. 36 -- res = 0.69941E+03, tol = 0.58251E+04, time = 11.98 | CG iter. 37 -- res = 0.66809E+03, tol = 0.58251E+04, time = 11.80 | CG iter. 38 -- res = 0.66325E+03, tol = 0.58251E+04, time = 12.49 | CG iter. 39 -- res = 0.63865E+03, tol = 0.58251E+04, time = 12.37 | CG iter. 40 -- res = 0.59433E+03, tol = 0.58251E+04, time = 17.37 | CG iter. 41 -- res = 0.52439E+03, tol = 0.58251E+04, time = 12.29 | CG iter. 42 -- res = 0.45485E+03, tol = 0.58251E+04, time = 12.44 | CG iter. 43 -- res = 0.40043E+03, tol = 0.58251E+04, time = 12.17 | CG iter. 44 -- res = 0.36703E+03, tol = 0.58251E+04, time = 12.23 | CG iter. 45 -- res = 0.34706E+03, tol = 0.58251E+04, time = 11.93 | CG iter. 46 -- res = 0.31859E+03, tol = 0.58251E+04, time = 12.41 | CG iter. 47 -- res = 0.28916E+03, tol = 0.58251E+04, time = 13.90 | CG iter. 48 -- res = 0.25276E+03, tol = 0.58251E+04, time = 12.41 | CG iter. 49 -- res = 0.21790E+03, tol = 0.58251E+04, time = 12.11 | CG iter. 50 -- res = 0.19785E+03, tol = 0.58251E+04, time = 12.19 | CG iter. 51 -- res = 0.19386E+03, tol = 0.58251E+04, time = 12.21 | CG iter. 52 -- res = 0.19547E+03, tol = 0.58251E+04, time = 12.03 | CG iter. 53 -- res = 0.19065E+03, tol = 0.58251E+04, time = 12.01 | CG iter. 54 -- res = 0.18062E+03, tol = 0.58251E+04, time = 11.99 | CG iter. 55 -- res = 0.17334E+03, tol = 0.58251E+04, time = 12.22 | CG iter. 56 -- res = 0.16010E+03, tol = 0.58251E+04, time = 12.85 | CG iter. 57 -- res = 0.14530E+03, tol = 0.58251E+04, time = 11.81 | CG iter. 58 -- res = 0.13716E+03, tol = 0.58251E+04, time = 12.21 | CG iter. 59 -- res = 0.13121E+03, tol = 0.58251E+04, time = 12.23 | CG iter. 60 -- res = 0.12823E+03, tol = 0.58251E+04, time = 12.06 | Final CG iter 61 -- res = 0.12823E+03, tol = 0.58251E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.624 ( -229.530 -2229.441 2511.701 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7769280.337 | Old band monopole 9420883.822 | Change to band monopole -1651603.484 | Change to component monopole 1651596.380 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.624 2.768 | New value -1.521 | Old value 2.624 | Difference -4.145 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.379 ( 7.431 8.183 -6.787 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.411 6.426 | New value 2.393 | Old value 3.411 | Difference -1.018 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.98116E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.45780E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.19337E+01, tol = 0.47627E+18, time = 6.34 | CG iter. 4 -- res = 0.29089E-02, tol = 0.47627E+18, time = 4.38 | Final CG iter 5 -- res = 0.67229E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7769246.920 | (Sampled value in CG: 7745810.761 ) | Chain = 1 -- chisq = 0.81554666E+09 | Chain = 1 -- wall time = 6205.655 sec Available RAM: MemAvailable: 377130292 kB Available Swap: SwapFree: 1122206152 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 293 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447017 | --> Sampling calibration, mode = relcal | relcal = 1.3427069E-02 7.5423607E-04 -1.5962456E-03 -1.2585060E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1059370 0.1123944 97046355.7624837 | BP delta = 0.1192503 0.1257077 97046361.8887027 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632191 | --> Sampling calibration, mode = relcal | relcal = -2.8197204E-03 -7.0245529E-04 1.6780983E-03 1.6127166E-03 -4.0814065E-04 6.3950144E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5485412 15219284.1437808 | BP delta = 0.0000000E+00 -0.5526207 15219282.2811823 | BP chisq diff = -1.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17764371665450 | --> Sampling calibration, mode = relcal | relcal = -7.3128507E-02 -5.7062130E-02 8.9715384E-02 4.0475257E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6416180E-04 1.8155839E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4395E-04 | 2: delta_r/delta_0: 2.1227E-06 | 3: delta_s/delta_0: 1.7153E-07 | 4: delta_r/delta_0: 2.8915E-08 | 5: delta_s/delta_0: 1.5545E-08 | 6: delta_r/delta_0: 2.9602E-09 | 7: delta_s/delta_0: 1.7383E-09 | 8: delta_r/delta_0: 1.5938E-10 | 9: delta_s/delta_0: 5.9144E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.005863224536995E-004 2.749162386063569E-005 | BP delta = 6.6476561E-02 8.6591639E-02 50485840.1386899 | BP delta = 6.6187292E-02 8.6302370E-02 50485839.6920248 | BP chisq diff = -0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02577934 | --> Sampling calibration, mode = relcal | relcal = -0.1066144 -9.5507964E-02 0.1448948 5.7227541E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2857403E-03 1.5221009E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1409E-05 | 2: delta_r/delta_0: 1.2217E-06 | 3: delta_s/delta_0: 2.4302E-07 | 4: delta_r/delta_0: 4.7191E-08 | 5: delta_s/delta_0: 1.7705E-08 | 6: delta_r/delta_0: 6.3936E-09 | 7: delta_s/delta_0: 8.6605E-09 | 8: delta_r/delta_0: 1.0827E-09 | 9: delta_s/delta_0: 9.1048E-10 | 10: delta_r/delta_0: 2.0745E-10 | 11: delta_s/delta_0: 3.5486E-09 | 12: delta_r/delta_0: 1.8078E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.657421462367826E-003 2.811433293799866E-005 | BP delta = -0.3183354 -0.2895305 57391626.8566155 | BP delta = -0.3110400 -0.2822351 57391626.6520169 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81197715 | --> Sampling calibration, mode = relcal | relcal = 0.2953483 0.2247917 -0.2837119 -0.2364281 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.4480293E-04 5.3971033E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6032E-04 | 2: delta_r/delta_0: 4.3990E-06 | 3: delta_s/delta_0: 6.6477E-06 | 4: delta_r/delta_0: 1.0270E-06 | 5: delta_s/delta_0: 1.6565E-07 | 6: delta_r/delta_0: 1.1068E-07 | 7: delta_s/delta_0: 7.4870E-07 | 8: delta_r/delta_0: 2.2460E-08 | 9: delta_s/delta_0: 2.5104E-07 | 10: delta_r/delta_0: 8.9992E-08 | 11: delta_s/delta_0: 1.5868E-09 | 12: delta_r/delta_0: 1.1339E-09 | 13: delta_s/delta_0: 3.9418E-10 | 14: delta_r/delta_0: 2.8845E-10 | 15: delta_s/delta_0: 5.2217E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.821629206220731E-002 4.022946769180450E-005 | BP delta = -0.3344170 -0.3590243 72489752.2926215 | BP delta = -0.3541440 -0.3787512 72489753.2878264 | BP chisq diff = 1.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95867385 | --> Sampling calibration, mode = relcal | relcal = 0.1064132 0.1394680 -0.1102012 -0.1356801 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0537622E-02 1.2042915E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7817E-04 | 2: delta_r/delta_0: 1.1747E-05 | 3: delta_s/delta_0: 1.3730E-04 | 4: delta_r/delta_0: 5.6948E-06 | 5: delta_s/delta_0: 2.7317E-07 | 6: delta_r/delta_0: 1.2173E-07 | 7: delta_s/delta_0: 5.0954E-07 | 8: delta_r/delta_0: 3.4422E-08 | 9: delta_s/delta_0: 9.7037E-09 | 10: delta_r/delta_0: 3.0320E-09 | 11: delta_s/delta_0: 3.3774E-09 | 12: delta_r/delta_0: 2.3764E-09 | 13: delta_s/delta_0: 4.0736E-10 | 14: delta_r/delta_0: 1.7758E-10 | 15: delta_s/delta_0: 9.2818E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.211166125254005E-002 3.698991741137917E-005 | BP delta = 5.4730199E-02 0.1585667 72787816.1430141 | BP delta = 9.9072337E-02 0.2029088 72787814.8276149 | BP chisq diff = -1.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190364 | New value = -3.125070 | poltype: 2 pol: 1 CPU time specind = 1.3089895E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160647 | New value = -3.272816 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161695 | New value = -3.214773 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132543 | New value = -3.120995 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.075343 | New value = -3.063506 | poltype: 2 pol: 2 CPU time specind = 5.6228638E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.13636E+08, tol = 0.87711E+01, time = 5.84 | CG iter. 2 -- res = 0.36151E+06, tol = 0.87711E+01, time = 5.97 | CG iter. 3 -- res = 0.71880E+05, tol = 0.87711E+01, time = 5.92 | CG iter. 4 -- res = 0.50513E+05, tol = 0.87711E+01, time = 5.61 | CG iter. 5 -- res = 0.41493E+05, tol = 0.87711E+01, time = 5.91 | CG iter. 6 -- res = 0.38123E+05, tol = 0.87711E+01, time = 5.69 | CG iter. 7 -- res = 0.36411E+05, tol = 0.87711E+01, time = 5.63 | CG iter. 8 -- res = 0.27536E+05, tol = 0.87711E+01, time = 5.88 | CG iter. 9 -- res = 0.22535E+05, tol = 0.87711E+01, time = 6.23 | CG iter. 10 -- res = 0.18171E+05, tol = 0.87711E+01, time = 5.60 | CG iter. 11 -- res = 0.13482E+05, tol = 0.87711E+01, time = 5.83 | CG iter. 12 -- res = 0.91817E+04, tol = 0.87711E+01, time = 6.26 | CG iter. 13 -- res = 0.69276E+04, tol = 0.87711E+01, time = 6.28 | CG iter. 14 -- res = 0.59790E+04, tol = 0.87711E+01, time = 6.08 | CG iter. 15 -- res = 0.51350E+04, tol = 0.87711E+01, time = 6.24 | CG iter. 16 -- res = 0.37534E+04, tol = 0.87711E+01, time = 6.18 | CG iter. 17 -- res = 0.25029E+04, tol = 0.87711E+01, time = 6.07 | CG iter. 18 -- res = 0.18553E+04, tol = 0.87711E+01, time = 5.45 | CG iter. 19 -- res = 0.15016E+04, tol = 0.87711E+01, time = 6.22 | CG iter. 20 -- res = 0.12133E+04, tol = 0.87711E+01, time = 5.98 | CG iter. 21 -- res = 0.85872E+03, tol = 0.87711E+01, time = 5.78 | CG iter. 22 -- res = 0.62175E+03, tol = 0.87711E+01, time = 5.93 | CG iter. 23 -- res = 0.50432E+03, tol = 0.87711E+01, time = 5.84 | CG iter. 24 -- res = 0.40935E+03, tol = 0.87711E+01, time = 5.77 | CG iter. 25 -- res = 0.29387E+03, tol = 0.87711E+01, time = 5.83 | CG iter. 26 -- res = 0.19925E+03, tol = 0.87711E+01, time = 5.90 | CG iter. 27 -- res = 0.15457E+03, tol = 0.87711E+01, time = 5.78 | CG iter. 28 -- res = 0.12423E+03, tol = 0.87711E+01, time = 5.59 | CG iter. 29 -- res = 0.99109E+02, tol = 0.87711E+01, time = 5.72 | CG iter. 30 -- res = 0.68908E+02, tol = 0.87711E+01, time = 12.90 | CG iter. 31 -- res = 0.52416E+02, tol = 0.87711E+01, time = 5.86 | CG iter. 32 -- res = 0.42086E+02, tol = 0.87711E+01, time = 5.89 | CG iter. 33 -- res = 0.33228E+02, tol = 0.87711E+01, time = 5.84 | CG iter. 34 -- res = 0.23980E+02, tol = 0.87711E+01, time = 5.37 | CG iter. 35 -- res = 0.17410E+02, tol = 0.87711E+01, time = 5.65 | CG iter. 36 -- res = 0.13588E+02, tol = 0.87711E+01, time = 5.98 | CG iter. 37 -- res = 0.11017E+02, tol = 0.87711E+01, time = 5.91 | CG iter. 38 -- res = 0.80467E+01, tol = 0.87711E+01, time = 6.35 | CG iter. 39 -- res = 0.60314E+01, tol = 0.87711E+01, time = 5.68 | CG iter. 40 -- res = 0.46903E+01, tol = 0.87711E+01, time = 6.14 | CG iter. 41 -- res = 0.37559E+01, tol = 0.87711E+01, time = 5.89 | CG iter. 42 -- res = 0.29397E+01, tol = 0.87711E+01, time = 5.66 | CG iter. 43 -- res = 0.22486E+01, tol = 0.87711E+01, time = 5.78 | CG iter. 44 -- res = 0.16509E+01, tol = 0.87711E+01, time = 7.18 | CG iter. 45 -- res = 0.13085E+01, tol = 0.87711E+01, time = 6.72 | CG iter. 46 -- res = 0.10643E+01, tol = 0.87711E+01, time = 6.60 | CG iter. 47 -- res = 0.82120E+00, tol = 0.87711E+01, time = 5.99 | CG iter. 48 -- res = 0.62660E+00, tol = 0.87711E+01, time = 6.04 | CG iter. 49 -- res = 0.52131E+00, tol = 0.87711E+01, time = 5.83 | CG iter. 50 -- res = 0.45080E+00, tol = 0.87711E+01, time = 5.84 | Final CG iter 51 -- res = 0.45080E+00, tol = 0.87711E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11219066.156 | Old band monopole 7769280.337 | Change to band monopole 3449785.819 | Change to component monopole -3449770.981 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.64900E+04, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.16045E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.75001E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.30785E-03, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.19350E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11219017.901 | (Sampled value in CG: 11289806.986 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493660 | New value = 1.483002 | poltype: 2 pol: 1 CPU time specind = 2.0250082E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477652 | New value = 1.555416 | poltype: 2 pol: 2 CPU time specind = 4.6470165E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.24038E+08, tol = 0.47518E+04, time = 6.68 | CG iter. 2 -- res = 0.54254E+07, tol = 0.47518E+04, time = 6.86 | CG iter. 3 -- res = 0.85114E+06, tol = 0.47518E+04, time = 6.72 | CG iter. 4 -- res = 0.35012E+06, tol = 0.47518E+04, time = 6.74 | CG iter. 5 -- res = 0.15234E+06, tol = 0.47518E+04, time = 6.97 | CG iter. 6 -- res = 0.80287E+05, tol = 0.47518E+04, time = 6.74 | CG iter. 7 -- res = 0.43928E+05, tol = 0.47518E+04, time = 6.89 | CG iter. 8 -- res = 0.21143E+05, tol = 0.47518E+04, time = 13.65 | CG iter. 9 -- res = 0.93426E+04, tol = 0.47518E+04, time = 6.77 | CG iter. 10 -- res = 0.37608E+04, tol = 0.47518E+04, time = 6.55 | CG iter. 11 -- res = 0.16965E+04, tol = 0.47518E+04, time = 6.85 | CG iter. 12 -- res = 0.86730E+03, tol = 0.47518E+04, time = 6.73 | CG iter. 13 -- res = 0.48238E+03, tol = 0.47518E+04, time = 6.73 | CG iter. 14 -- res = 0.27587E+03, tol = 0.47518E+04, time = 6.43 | CG iter. 15 -- res = 0.14620E+03, tol = 0.47518E+04, time = 6.60 | CG iter. 16 -- res = 0.69720E+02, tol = 0.47518E+04, time = 6.97 | CG iter. 17 -- res = 0.32327E+02, tol = 0.47518E+04, time = 6.62 | CG iter. 18 -- res = 0.16171E+02, tol = 0.47518E+04, time = 6.44 | CG iter. 19 -- res = 0.88805E+01, tol = 0.47518E+04, time = 6.57 | CG iter. 20 -- res = 0.50974E+01, tol = 0.47518E+04, time = 6.77 | CG iter. 21 -- res = 0.28186E+01, tol = 0.47518E+04, time = 7.67 | CG iter. 22 -- res = 0.14477E+01, tol = 0.47518E+04, time = 7.15 | CG iter. 23 -- res = 0.71114E+00, tol = 0.47518E+04, time = 7.11 | CG iter. 24 -- res = 0.36448E+00, tol = 0.47518E+04, time = 6.87 | CG iter. 25 -- res = 0.19955E+00, tol = 0.47518E+04, time = 6.95 | CG iter. 26 -- res = 0.11431E+00, tol = 0.47518E+04, time = 6.92 | CG iter. 27 -- res = 0.64875E-01, tol = 0.47518E+04, time = 6.64 | CG iter. 28 -- res = 0.35077E-01, tol = 0.47518E+04, time = 6.47 | CG iter. 29 -- res = 0.18400E-01, tol = 0.47518E+04, time = 6.65 | CG iter. 30 -- res = 0.97101E-02, tol = 0.47518E+04, time = 6.50 | CG iter. 31 -- res = 0.52669E-02, tol = 0.47518E+04, time = 6.54 | CG iter. 32 -- res = 0.30068E-02, tol = 0.47518E+04, time = 6.43 | CG iter. 33 -- res = 0.17129E-02, tol = 0.47518E+04, time = 6.57 | CG iter. 34 -- res = 0.94462E-03, tol = 0.47518E+04, time = 6.97 | CG iter. 35 -- res = 0.49508E-03, tol = 0.47518E+04, time = 6.51 | Final CG iter 36 -- res = 0.49508E-03, tol = 0.47518E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.594 2.718 | New value -5.367 | Old value -1.594 | Difference -3.773 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.73995E+06, tol = 0.47627E+18, time = 2.24 | CG iter. 2 -- res = 0.77763E+02, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.18651E+01, tol = 0.47627E+18, time = 2.41 | Final CG iter 4 -- res = 0.28034E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11219017.901 | (Sampled value in CG: 11291867.067 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.817010 | New value = -3.461052 | poltype: 1 pol: 1 CPU time specind = 1.2021065E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.34556E+07, tol = 0.20780E+01, time = 2.94 | CG iter. 2 -- res = 0.15317E+07, tol = 0.20780E+01, time = 3.37 | CG iter. 3 -- res = 0.33092E+06, tol = 0.20780E+01, time = 2.98 | CG iter. 4 -- res = 0.14727E+06, tol = 0.20780E+01, time = 2.84 | CG iter. 5 -- res = 0.86748E+05, tol = 0.20780E+01, time = 3.07 | CG iter. 6 -- res = 0.39368E+05, tol = 0.20780E+01, time = 2.87 | CG iter. 7 -- res = 0.13921E+05, tol = 0.20780E+01, time = 3.34 | CG iter. 8 -- res = 0.64512E+04, tol = 0.20780E+01, time = 2.83 | CG iter. 9 -- res = 0.32418E+04, tol = 0.20780E+01, time = 2.83 | CG iter. 10 -- res = 0.13283E+04, tol = 0.20780E+01, time = 2.89 | CG iter. 11 -- res = 0.51530E+03, tol = 0.20780E+01, time = 2.78 | CG iter. 12 -- res = 0.23818E+03, tol = 0.20780E+01, time = 3.05 | CG iter. 13 -- res = 0.11785E+03, tol = 0.20780E+01, time = 3.04 | CG iter. 14 -- res = 0.59929E+02, tol = 0.20780E+01, time = 2.62 | CG iter. 15 -- res = 0.29495E+02, tol = 0.20780E+01, time = 3.01 | CG iter. 16 -- res = 0.14593E+02, tol = 0.20780E+01, time = 3.03 | CG iter. 17 -- res = 0.60527E+01, tol = 0.20780E+01, time = 2.41 | CG iter. 18 -- res = 0.27808E+01, tol = 0.20780E+01, time = 2.63 | CG iter. 19 -- res = 0.12338E+01, tol = 0.20780E+01, time = 2.66 | CG iter. 20 -- res = 0.62093E+00, tol = 0.20780E+01, time = 3.04 | CG iter. 21 -- res = 0.31474E+00, tol = 0.20780E+01, time = 2.80 | CG iter. 22 -- res = 0.15194E+00, tol = 0.20780E+01, time = 2.91 | CG iter. 23 -- res = 0.73099E-01, tol = 0.20780E+01, time = 2.87 | CG iter. 24 -- res = 0.33492E-01, tol = 0.20780E+01, time = 3.06 | CG iter. 25 -- res = 0.15034E-01, tol = 0.20780E+01, time = 2.87 | CG iter. 26 -- res = 0.69380E-02, tol = 0.20780E+01, time = 2.37 | CG iter. 27 -- res = 0.35560E-02, tol = 0.20780E+01, time = 3.00 | CG iter. 28 -- res = 0.18995E-02, tol = 0.20780E+01, time = 2.93 | CG iter. 29 -- res = 0.89356E-03, tol = 0.20780E+01, time = 3.01 | CG iter. 30 -- res = 0.44352E-03, tol = 0.20780E+01, time = 3.02 | CG iter. 31 -- res = 0.21347E-03, tol = 0.20780E+01, time = 2.83 | CG iter. 32 -- res = 0.10298E-03, tol = 0.20780E+01, time = 2.93 | CG iter. 33 -- res = 0.48946E-04, tol = 0.20780E+01, time = 2.75 | CG iter. 34 -- res = 0.24873E-04, tol = 0.20780E+01, time = 3.03 | CG iter. 35 -- res = 0.13117E-04, tol = 0.20780E+01, time = 3.55 | CG iter. 36 -- res = 0.67553E-05, tol = 0.20780E+01, time = 8.83 | CG iter. 37 -- res = 0.32173E-05, tol = 0.20780E+01, time = 2.41 | CG iter. 38 -- res = 0.15202E-05, tol = 0.20780E+01, time = 2.92 | CG iter. 39 -- res = 0.69870E-06, tol = 0.20780E+01, time = 2.85 | CG iter. 40 -- res = 0.34673E-06, tol = 0.20780E+01, time = 3.06 | CG iter. 41 -- res = 0.18252E-06, tol = 0.20780E+01, time = 2.80 | CG iter. 42 -- res = 0.93462E-07, tol = 0.20780E+01, time = 2.78 | CG iter. 43 -- res = 0.43040E-07, tol = 0.20780E+01, time = 2.89 | CG iter. 44 -- res = 0.20029E-07, tol = 0.20780E+01, time = 2.66 | CG iter. 45 -- res = 0.92194E-08, tol = 0.20780E+01, time = 2.77 | CG iter. 46 -- res = 0.44734E-08, tol = 0.20780E+01, time = 2.78 | CG iter. 47 -- res = 0.23390E-08, tol = 0.20780E+01, time = 2.73 | CG iter. 48 -- res = 0.12034E-08, tol = 0.20780E+01, time = 2.69 | CG iter. 49 -- res = 0.59260E-09, tol = 0.20780E+01, time = 2.70 | CG iter. 50 -- res = 0.27185E-09, tol = 0.20780E+01, time = 2.53 | Final CG iter 51 -- res = 0.27185E-09, tol = 0.20780E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.297 4.616 | New value -4.889 | Old value 8.297 | Difference -13.187 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.17896E+06, tol = 0.47627E+18, time = 3.19 | CG iter. 2 -- res = 0.11656E+03, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.32894E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.15972E-01, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.32614E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11219017.901 | (Sampled value in CG: 11273487.875 ) | CPU time specind = 1228.242 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.69472E+08, tol = 0.57436E+04, time = 12.28 | CG iter. 2 -- res = 0.59666E+08, tol = 0.57436E+04, time = 12.28 | CG iter. 3 -- res = 0.16083E+08, tol = 0.57436E+04, time = 11.68 | CG iter. 4 -- res = 0.68205E+07, tol = 0.57436E+04, time = 12.11 | CG iter. 5 -- res = 0.40833E+07, tol = 0.57436E+04, time = 11.70 | CG iter. 6 -- res = 0.23224E+07, tol = 0.57436E+04, time = 11.65 | CG iter. 7 -- res = 0.13714E+07, tol = 0.57436E+04, time = 12.48 | CG iter. 8 -- res = 0.92833E+06, tol = 0.57436E+04, time = 11.78 | CG iter. 9 -- res = 0.59582E+06, tol = 0.57436E+04, time = 12.59 | CG iter. 10 -- res = 0.36232E+06, tol = 0.57436E+04, time = 12.17 | CG iter. 11 -- res = 0.20043E+06, tol = 0.57436E+04, time = 12.46 | CG iter. 12 -- res = 0.10812E+06, tol = 0.57436E+04, time = 11.85 | CG iter. 13 -- res = 0.61144E+05, tol = 0.57436E+04, time = 12.33 | CG iter. 14 -- res = 0.37870E+05, tol = 0.57436E+04, time = 18.85 | CG iter. 15 -- res = 0.27478E+05, tol = 0.57436E+04, time = 12.28 | CG iter. 16 -- res = 0.21782E+05, tol = 0.57436E+04, time = 12.24 | CG iter. 17 -- res = 0.18151E+05, tol = 0.57436E+04, time = 12.46 | CG iter. 18 -- res = 0.15354E+05, tol = 0.57436E+04, time = 11.73 | CG iter. 19 -- res = 0.12926E+05, tol = 0.57436E+04, time = 12.51 | CG iter. 20 -- res = 0.11509E+05, tol = 0.57436E+04, time = 12.20 | CG iter. 21 -- res = 0.10556E+05, tol = 0.57436E+04, time = 13.99 | CG iter. 22 -- res = 0.10618E+05, tol = 0.57436E+04, time = 12.61 | CG iter. 23 -- res = 0.11428E+05, tol = 0.57436E+04, time = 12.34 | CG iter. 24 -- res = 0.11863E+05, tol = 0.57436E+04, time = 12.00 | CG iter. 25 -- res = 0.11042E+05, tol = 0.57436E+04, time = 12.33 | CG iter. 26 -- res = 0.92986E+04, tol = 0.57436E+04, time = 12.28 | CG iter. 27 -- res = 0.73409E+04, tol = 0.57436E+04, time = 12.43 | CG iter. 28 -- res = 0.56464E+04, tol = 0.57436E+04, time = 11.86 | CG iter. 29 -- res = 0.44771E+04, tol = 0.57436E+04, time = 12.65 | CG iter. 30 -- res = 0.38462E+04, tol = 0.57436E+04, time = 12.15 | CG iter. 31 -- res = 0.34613E+04, tol = 0.57436E+04, time = 12.29 | CG iter. 32 -- res = 0.31447E+04, tol = 0.57436E+04, time = 12.40 | CG iter. 33 -- res = 0.27235E+04, tol = 0.57436E+04, time = 12.30 | CG iter. 34 -- res = 0.22192E+04, tol = 0.57436E+04, time = 12.02 | CG iter. 35 -- res = 0.18962E+04, tol = 0.57436E+04, time = 12.16 | CG iter. 36 -- res = 0.17174E+04, tol = 0.57436E+04, time = 12.02 | CG iter. 37 -- res = 0.16781E+04, tol = 0.57436E+04, time = 11.95 | CG iter. 38 -- res = 0.16581E+04, tol = 0.57436E+04, time = 18.62 | CG iter. 39 -- res = 0.15409E+04, tol = 0.57436E+04, time = 12.35 | CG iter. 40 -- res = 0.13443E+04, tol = 0.57436E+04, time = 12.11 | CG iter. 41 -- res = 0.10991E+04, tol = 0.57436E+04, time = 12.19 | CG iter. 42 -- res = 0.90726E+03, tol = 0.57436E+04, time = 11.97 | CG iter. 43 -- res = 0.77269E+03, tol = 0.57436E+04, time = 12.65 | CG iter. 44 -- res = 0.69450E+03, tol = 0.57436E+04, time = 12.27 | CG iter. 45 -- res = 0.63698E+03, tol = 0.57436E+04, time = 13.71 | CG iter. 46 -- res = 0.58754E+03, tol = 0.57436E+04, time = 12.36 | CG iter. 47 -- res = 0.54621E+03, tol = 0.57436E+04, time = 12.37 | CG iter. 48 -- res = 0.47505E+03, tol = 0.57436E+04, time = 12.43 | CG iter. 49 -- res = 0.41115E+03, tol = 0.57436E+04, time = 11.92 | CG iter. 50 -- res = 0.37464E+03, tol = 0.57436E+04, time = 12.06 | CG iter. 51 -- res = 0.35721E+03, tol = 0.57436E+04, time = 12.13 | CG iter. 52 -- res = 0.34991E+03, tol = 0.57436E+04, time = 12.28 | CG iter. 53 -- res = 0.34150E+03, tol = 0.57436E+04, time = 11.75 | CG iter. 54 -- res = 0.31332E+03, tol = 0.57436E+04, time = 12.46 | CG iter. 55 -- res = 0.28098E+03, tol = 0.57436E+04, time = 12.22 | CG iter. 56 -- res = 0.25213E+03, tol = 0.57436E+04, time = 12.11 | CG iter. 57 -- res = 0.21426E+03, tol = 0.57436E+04, time = 12.22 | CG iter. 58 -- res = 0.19219E+03, tol = 0.57436E+04, time = 12.31 | CG iter. 59 -- res = 0.18103E+03, tol = 0.57436E+04, time = 11.96 | CG iter. 60 -- res = 0.17349E+03, tol = 0.57436E+04, time = 12.08 | Final CG iter 61 -- res = 0.17349E+03, tol = 0.57436E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.072 ( -229.600 -2232.749 2515.700 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9729819.325 | Old band monopole 11219066.156 | Change to band monopole -1489246.831 | Change to component monopole 1489240.425 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.354 2.735 | New value -2.106 | Old value -5.354 | Difference 3.249 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.567 ( 6.300 15.075 -15.658 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.135 4.467 | New value 1.765 | Old value -5.135 | Difference 6.900 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.89787E+06, tol = 0.47627E+18, time = 2.11 | CG iter. 2 -- res = 0.16953E+03, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.40618E+01, tol = 0.47627E+18, time = 2.23 | CG iter. 4 -- res = 0.10506E-01, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.24121E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9729777.475 | (Sampled value in CG: 9702983.433 ) | Chain = 1 -- chisq = 0.81571152E+09 | Chain = 1 -- wall time = 5718.871 sec Available RAM: MemAvailable: 376668680 kB Available Swap: SwapFree: 1122865864 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 294 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442573 | --> Sampling calibration, mode = relcal | relcal = 1.3434258E-02 7.4660097E-04 -1.6022028E-03 -1.2578656E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1059370 0.1123944 9407425.53830782 | BP delta = 0.1059370 0.1054802 9407464.37173901 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632497 | --> Sampling calibration, mode = relcal | relcal = -2.8212671E-03 -7.0390321E-04 1.6784712E-03 1.6148958E-03 -4.0924136E-04 6.4104475E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5526207 15218148.2260853 | BP delta = 0.0000000E+00 -0.5579991 15218151.4986013 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18057786519710 | --> Sampling calibration, mode = relcal | relcal = -7.5374961E-02 -5.8656458E-02 9.2137404E-02 4.1894015E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3569036E-04 4.8440066E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2825E-05 | 2: delta_r/delta_0: 1.0239E-06 | 3: delta_s/delta_0: 1.9379E-07 | 4: delta_r/delta_0: 2.5254E-08 | 5: delta_s/delta_0: 7.7619E-09 | 6: delta_r/delta_0: 2.1735E-09 | 7: delta_s/delta_0: 5.0106E-10 | 8: delta_r/delta_0: 1.2525E-10 | 9: delta_s/delta_0: 6.9971E-10 | 10: delta_r/delta_0: 2.4905E-10 | 11: delta_s/delta_0: 1.6134E-10 | 12: delta_r/delta_0: 6.5825E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.032333246528167E-003 2.741984295820835E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2825E-05 | 2: delta_r/delta_0: 1.0238E-06 | 3: delta_s/delta_0: 1.9379E-07 | 4: delta_r/delta_0: 2.5255E-08 | 5: delta_s/delta_0: 7.7629E-09 | 6: delta_r/delta_0: 2.1736E-09 | 7: delta_s/delta_0: 5.0103E-10 | 8: delta_r/delta_0: 1.2525E-10 | 9: delta_s/delta_0: 6.9980E-10 | 10: delta_r/delta_0: 2.4909E-10 | 11: delta_s/delta_0: 1.6135E-10 | 12: delta_r/delta_0: 6.5829E-11 | Reached bicg-stab tolerance | BP delta = 6.6187292E-02 8.6302370E-02 3540404.92812267 | BP delta = 6.6187292E-02 8.6335249E-02 3539301.92463463 | BP chisq diff = -1103.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02611030 | --> Sampling calibration, mode = relcal | relcal = -0.1065947 -9.5586896E-02 0.1448906 5.7290979E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1064062E-03 2.0578087E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7414E-05 | 2: delta_r/delta_0: 1.4547E-06 | 3: delta_s/delta_0: 2.5015E-07 | 4: delta_r/delta_0: 3.4665E-08 | 5: delta_s/delta_0: 2.7004E-08 | 6: delta_r/delta_0: 5.9761E-09 | 7: delta_s/delta_0: 4.1503E-09 | 8: delta_r/delta_0: 1.5476E-09 | 9: delta_s/delta_0: 7.7543E-10 | 10: delta_r/delta_0: 5.8195E-10 | 11: delta_s/delta_0: 1.1752E-09 | 12: delta_r/delta_0: 7.9885E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.005293820063701E-002 2.810516416180112E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.7414E-05 | 2: delta_r/delta_0: 1.4547E-06 | 3: delta_s/delta_0: 2.5015E-07 | 4: delta_r/delta_0: 3.4645E-08 | 5: delta_s/delta_0: 2.7015E-08 | 6: delta_r/delta_0: 5.9745E-09 | 7: delta_s/delta_0: 4.1466E-09 | 8: delta_r/delta_0: 1.5473E-09 | 9: delta_s/delta_0: 7.7529E-10 | 10: delta_r/delta_0: 5.8182E-10 | 11: delta_s/delta_0: 1.1731E-09 | 12: delta_r/delta_0: 7.9918E-11 | Reached bicg-stab tolerance | BP delta = -0.3110400 -0.2822351 2841760.83051166 | BP delta = -0.3110400 -0.2852390 2841827.98986533 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243502 | --> Sampling calibration, mode = relcal | relcal = 0.2955342 0.2248887 -0.2838400 -0.2365829 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.0210535E-04 4.7409479E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7910E-03 | 2: delta_r/delta_0: 4.2623E-05 | 3: delta_s/delta_0: 1.4146E-06 | 4: delta_r/delta_0: 5.4212E-07 | 5: delta_s/delta_0: 3.4517E-07 | 6: delta_r/delta_0: 1.4281E-07 | 7: delta_s/delta_0: 4.8050E-07 | 8: delta_r/delta_0: 2.3134E-07 | 9: delta_s/delta_0: 1.6774E-08 | 10: delta_r/delta_0: 8.5723E-09 | 11: delta_s/delta_0: 2.7229E-08 | 12: delta_r/delta_0: 5.2688E-10 | 13: delta_s/delta_0: 5.2660E-10 | 14: delta_r/delta_0: 3.6280E-10 | 15: delta_s/delta_0: 5.6286E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.534893298617904E-002 4.020692108461684E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7912E-03 | 2: delta_r/delta_0: 4.2627E-05 | 3: delta_s/delta_0: 1.4146E-06 | 4: delta_r/delta_0: 5.4212E-07 | 5: delta_s/delta_0: 3.4514E-07 | 6: delta_r/delta_0: 1.4281E-07 | 7: delta_s/delta_0: 4.8060E-07 | 8: delta_r/delta_0: 2.3137E-07 | 9: delta_s/delta_0: 1.6773E-08 | 10: delta_r/delta_0: 8.5719E-09 | 11: delta_s/delta_0: 2.7218E-08 | 12: delta_r/delta_0: 5.2696E-10 | 13: delta_s/delta_0: 5.2662E-10 | 14: delta_r/delta_0: 3.6283E-10 | 15: delta_s/delta_0: 5.6287E-11 | Reached bicg-stab tolerance | BP delta = -0.3541440 -0.3787512 2826919.70164144 | BP delta = -0.3541440 -0.3723811 2826924.62564932 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95937275 | --> Sampling calibration, mode = relcal | relcal = 0.1065923 0.1395198 -0.1102516 -0.1358605 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8070232E-03 1.3657624E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1727E-02 | 2: delta_r/delta_0: 5.1473E-04 | 3: delta_s/delta_0: 1.8948E-02 | 4: delta_r/delta_0: 4.9136E-04 | 5: delta_s/delta_0: 7.5110E-06 | 6: delta_r/delta_0: 8.0498E-07 | 7: delta_s/delta_0: 1.3598E-05 | 8: delta_r/delta_0: 2.2848E-06 | 9: delta_s/delta_0: 2.7330E-02 | 10: delta_r/delta_0: 7.5910E-04 | 11: delta_s/delta_0: 1.7891E-06 | 12: delta_r/delta_0: 9.0544E-08 | 13: delta_s/delta_0: 2.7271E-08 | 14: delta_r/delta_0: 1.0072E-08 | 15: delta_s/delta_0: 7.4204E-09 | 16: delta_r/delta_0: 1.8366E-09 | 17: delta_s/delta_0: 1.8564E-09 | 18: delta_r/delta_0: 6.1675E-10 | 19: delta_s/delta_0: 6.6037E-09 | 20: delta_r/delta_0: 2.5936E-09 | 21: delta_s/delta_0: 2.9864E-10 | 22: delta_r/delta_0: 1.8566E-10 | 23: delta_s/delta_0: 2.3393E-10 | 24: delta_r/delta_0: 1.6596E-10 | 25: delta_s/delta_0: 3.0010E-10 | 26: delta_r/delta_0: 1.1546E-10 | 27: delta_s/delta_0: 2.2581E-09 | 28: delta_r/delta_0: 1.5815E-09 | 29: delta_s/delta_0: 3.3987E-09 | 30: delta_r/delta_0: 2.0212E-09 | 31: delta_s/delta_0: 3.4486E-08 | 32: delta_r/delta_0: 2.4973E-09 | 33: delta_s/delta_0: 8.4169E-09 | 34: delta_r/delta_0: 2.0693E-09 | 35: delta_s/delta_0: 1.0552E-07 | 36: delta_r/delta_0: 4.3343E-08 | 37: delta_s/delta_0: 1.6617E-09 | 38: delta_r/delta_0: 1.0787E-09 | 39: delta_s/delta_0: 7.3716E-10 | 40: delta_r/delta_0: 1.8402E-10 | 41: delta_s/delta_0: 2.0429E-10 | 42: delta_r/delta_0: 1.5296E-10 | 43: delta_s/delta_0: 4.5634E-09 | 44: delta_r/delta_0: 4.7922E-10 | 45: delta_s/delta_0: 2.4656E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 5.677175796610625E-002 3.696329337218304E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1728E-02 | 2: delta_r/delta_0: 5.1474E-04 | 3: delta_s/delta_0: 1.8949E-02 | 4: delta_r/delta_0: 4.9139E-04 | 5: delta_s/delta_0: 7.5112E-06 | 6: delta_r/delta_0: 8.0501E-07 | 7: delta_s/delta_0: 1.3600E-05 | 8: delta_r/delta_0: 2.2849E-06 | 9: delta_s/delta_0: 2.7369E-02 | 10: delta_r/delta_0: 7.6022E-04 | 11: delta_s/delta_0: 1.7893E-06 | 12: delta_r/delta_0: 9.0556E-08 | 13: delta_s/delta_0: 2.7275E-08 | 14: delta_r/delta_0: 1.0074E-08 | 15: delta_s/delta_0: 7.4214E-09 | 16: delta_r/delta_0: 1.8369E-09 | 17: delta_s/delta_0: 1.8567E-09 | 18: delta_r/delta_0: 6.1684E-10 | 19: delta_s/delta_0: 6.6061E-09 | 20: delta_r/delta_0: 2.5944E-09 | 21: delta_s/delta_0: 2.9868E-10 | 22: delta_r/delta_0: 1.8568E-10 | 23: delta_s/delta_0: 2.3396E-10 | 24: delta_r/delta_0: 1.6598E-10 | 25: delta_s/delta_0: 3.0010E-10 | 26: delta_r/delta_0: 1.1547E-10 | 27: delta_s/delta_0: 2.2582E-09 | 28: delta_r/delta_0: 1.5816E-09 | 29: delta_s/delta_0: 3.3995E-09 | 30: delta_r/delta_0: 2.0217E-09 | 31: delta_s/delta_0: 3.4494E-08 | 32: delta_r/delta_0: 2.4977E-09 | 33: delta_s/delta_0: 8.4622E-09 | 34: delta_r/delta_0: 2.0728E-09 | 35: delta_s/delta_0: 1.1236E-07 | 36: delta_r/delta_0: 4.5942E-08 | 37: delta_s/delta_0: 1.6639E-09 | 38: delta_r/delta_0: 1.0788E-09 | 39: delta_s/delta_0: 7.3567E-10 | 40: delta_r/delta_0: 1.8370E-10 | 41: delta_s/delta_0: 2.0394E-10 | 42: delta_r/delta_0: 1.5268E-10 | 43: delta_s/delta_0: 4.5611E-09 | 44: delta_r/delta_0: 4.7843E-10 | 45: delta_s/delta_0: 2.4585E-11 | Reached bicg-stab tolerance | BP delta = 9.9072337E-02 0.2029088 4198884.90410469 | BP delta = 9.9072337E-02 0.1978355 4199034.45791733 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125070 | New value = -3.084793 | poltype: 2 pol: 1 CPU time specind = 1.1853933E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.272816 | New value = -3.173062 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.214773 | New value = -3.191881 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120995 | New value = -3.147628 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.063506 | New value = -3.145875 | poltype: 2 pol: 2 CPU time specind = 9.3028545E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.13614E+08, tol = 0.74875E+01, time = 5.81 | CG iter. 2 -- res = 0.37970E+06, tol = 0.74875E+01, time = 5.36 | CG iter. 3 -- res = 0.74821E+05, tol = 0.74875E+01, time = 5.80 | CG iter. 4 -- res = 0.60836E+05, tol = 0.74875E+01, time = 5.31 | CG iter. 5 -- res = 0.56679E+05, tol = 0.74875E+01, time = 5.78 | CG iter. 6 -- res = 0.56079E+05, tol = 0.74875E+01, time = 5.66 | CG iter. 7 -- res = 0.54039E+05, tol = 0.74875E+01, time = 5.64 | CG iter. 8 -- res = 0.40175E+05, tol = 0.74875E+01, time = 5.73 | CG iter. 9 -- res = 0.31131E+05, tol = 0.74875E+01, time = 5.38 | CG iter. 10 -- res = 0.24636E+05, tol = 0.74875E+01, time = 5.74 | CG iter. 11 -- res = 0.16817E+05, tol = 0.74875E+01, time = 5.54 | CG iter. 12 -- res = 0.11693E+05, tol = 0.74875E+01, time = 5.61 | CG iter. 13 -- res = 0.87904E+04, tol = 0.74875E+01, time = 5.68 | CG iter. 14 -- res = 0.75407E+04, tol = 0.74875E+01, time = 5.51 | CG iter. 15 -- res = 0.62760E+04, tol = 0.74875E+01, time = 5.73 | CG iter. 16 -- res = 0.45436E+04, tol = 0.74875E+01, time = 5.72 | CG iter. 17 -- res = 0.29082E+04, tol = 0.74875E+01, time = 5.51 | CG iter. 18 -- res = 0.22696E+04, tol = 0.74875E+01, time = 5.96 | CG iter. 19 -- res = 0.19841E+04, tol = 0.74875E+01, time = 5.60 | CG iter. 20 -- res = 0.15556E+04, tol = 0.74875E+01, time = 5.49 | CG iter. 21 -- res = 0.11276E+04, tol = 0.74875E+01, time = 5.65 | CG iter. 22 -- res = 0.87645E+03, tol = 0.74875E+01, time = 5.83 | CG iter. 23 -- res = 0.76116E+03, tol = 0.74875E+01, time = 5.90 | CG iter. 24 -- res = 0.63079E+03, tol = 0.74875E+01, time = 5.50 | CG iter. 25 -- res = 0.47554E+03, tol = 0.74875E+01, time = 6.06 | CG iter. 26 -- res = 0.34568E+03, tol = 0.74875E+01, time = 5.60 | CG iter. 27 -- res = 0.29744E+03, tol = 0.74875E+01, time = 5.58 | CG iter. 28 -- res = 0.25686E+03, tol = 0.74875E+01, time = 6.05 | CG iter. 29 -- res = 0.19723E+03, tol = 0.74875E+01, time = 5.47 | CG iter. 30 -- res = 0.14753E+03, tol = 0.74875E+01, time = 5.67 | CG iter. 31 -- res = 0.11970E+03, tol = 0.74875E+01, time = 5.84 | CG iter. 32 -- res = 0.98323E+02, tol = 0.74875E+01, time = 5.88 | CG iter. 33 -- res = 0.77542E+02, tol = 0.74875E+01, time = 5.75 | CG iter. 34 -- res = 0.55183E+02, tol = 0.74875E+01, time = 5.62 | CG iter. 35 -- res = 0.42509E+02, tol = 0.74875E+01, time = 11.93 | CG iter. 36 -- res = 0.35123E+02, tol = 0.74875E+01, time = 5.59 | CG iter. 37 -- res = 0.28086E+02, tol = 0.74875E+01, time = 5.60 | CG iter. 38 -- res = 0.20010E+02, tol = 0.74875E+01, time = 5.47 | CG iter. 39 -- res = 0.14568E+02, tol = 0.74875E+01, time = 5.45 | CG iter. 40 -- res = 0.11384E+02, tol = 0.74875E+01, time = 5.94 | CG iter. 41 -- res = 0.92335E+01, tol = 0.74875E+01, time = 6.08 | CG iter. 42 -- res = 0.67413E+01, tol = 0.74875E+01, time = 5.78 | CG iter. 43 -- res = 0.50407E+01, tol = 0.74875E+01, time = 5.72 | CG iter. 44 -- res = 0.38896E+01, tol = 0.74875E+01, time = 5.81 | CG iter. 45 -- res = 0.30261E+01, tol = 0.74875E+01, time = 5.55 | CG iter. 46 -- res = 0.23381E+01, tol = 0.74875E+01, time = 6.00 | CG iter. 47 -- res = 0.17157E+01, tol = 0.74875E+01, time = 5.59 | CG iter. 48 -- res = 0.12571E+01, tol = 0.74875E+01, time = 5.98 | CG iter. 49 -- res = 0.10014E+01, tol = 0.74875E+01, time = 5.58 | CG iter. 50 -- res = 0.75423E+00, tol = 0.74875E+01, time = 6.99 | Final CG iter 51 -- res = 0.75423E+00, tol = 0.74875E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10046499.743 | Old band monopole 9729819.325 | Change to band monopole 316680.418 | Change to component monopole -316679.056 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.79138E+05, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.64772E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.21822E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.10374E-01, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.25962E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10046456.531 | (Sampled value in CG: 10099958.086 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.483002 | New value = 1.483883 | poltype: 2 pol: 1 CPU time specind = 2.1178007E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.555416 | New value = 1.473582 | poltype: 2 pol: 2 CPU time specind = 7.2371960E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.23991E+08, tol = 0.47518E+04, time = 6.11 | CG iter. 2 -- res = 0.52648E+07, tol = 0.47518E+04, time = 6.55 | CG iter. 3 -- res = 0.83542E+06, tol = 0.47518E+04, time = 6.23 | CG iter. 4 -- res = 0.35259E+06, tol = 0.47518E+04, time = 6.66 | CG iter. 5 -- res = 0.15227E+06, tol = 0.47518E+04, time = 6.33 | CG iter. 6 -- res = 0.79834E+05, tol = 0.47518E+04, time = 6.30 | CG iter. 7 -- res = 0.43217E+05, tol = 0.47518E+04, time = 6.65 | CG iter. 8 -- res = 0.21274E+05, tol = 0.47518E+04, time = 6.14 | CG iter. 9 -- res = 0.92865E+04, tol = 0.47518E+04, time = 6.98 | CG iter. 10 -- res = 0.37865E+04, tol = 0.47518E+04, time = 6.25 | CG iter. 11 -- res = 0.16726E+04, tol = 0.47518E+04, time = 6.53 | CG iter. 12 -- res = 0.86250E+03, tol = 0.47518E+04, time = 6.34 | CG iter. 13 -- res = 0.50006E+03, tol = 0.47518E+04, time = 6.24 | CG iter. 14 -- res = 0.28596E+03, tol = 0.47518E+04, time = 9.21 | CG iter. 15 -- res = 0.14617E+03, tol = 0.47518E+04, time = 9.95 | CG iter. 16 -- res = 0.66925E+02, tol = 0.47518E+04, time = 6.77 | CG iter. 17 -- res = 0.30931E+02, tol = 0.47518E+04, time = 6.45 | CG iter. 18 -- res = 0.15782E+02, tol = 0.47518E+04, time = 6.71 | CG iter. 19 -- res = 0.87061E+01, tol = 0.47518E+04, time = 6.45 | CG iter. 20 -- res = 0.49792E+01, tol = 0.47518E+04, time = 6.32 | CG iter. 21 -- res = 0.26720E+01, tol = 0.47518E+04, time = 6.87 | CG iter. 22 -- res = 0.13803E+01, tol = 0.47518E+04, time = 6.81 | CG iter. 23 -- res = 0.67640E+00, tol = 0.47518E+04, time = 6.51 | CG iter. 24 -- res = 0.34207E+00, tol = 0.47518E+04, time = 6.52 | CG iter. 25 -- res = 0.19023E+00, tol = 0.47518E+04, time = 6.55 | CG iter. 26 -- res = 0.10750E+00, tol = 0.47518E+04, time = 6.37 | CG iter. 27 -- res = 0.60594E-01, tol = 0.47518E+04, time = 7.23 | CG iter. 28 -- res = 0.32674E-01, tol = 0.47518E+04, time = 7.73 | CG iter. 29 -- res = 0.17041E-01, tol = 0.47518E+04, time = 6.91 | CG iter. 30 -- res = 0.86779E-02, tol = 0.47518E+04, time = 6.44 | CG iter. 31 -- res = 0.47618E-02, tol = 0.47518E+04, time = 6.79 | CG iter. 32 -- res = 0.26754E-02, tol = 0.47518E+04, time = 6.53 | CG iter. 33 -- res = 0.14953E-02, tol = 0.47518E+04, time = 6.48 | CG iter. 34 -- res = 0.81860E-03, tol = 0.47518E+04, time = 6.54 | CG iter. 35 -- res = 0.42672E-03, tol = 0.47518E+04, time = 6.59 | Final CG iter 36 -- res = 0.42672E-03, tol = 0.47518E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.092 2.718 | New value -0.635 | Old value -2.092 | Difference 1.457 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.11321E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.46626E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.13176E+01, tol = 0.47627E+18, time = 2.08 | Final CG iter 4 -- res = 0.25187E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10046456.531 | (Sampled value in CG: 10100896.832 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.461052 | New value = -3.572806 | poltype: 1 pol: 1 CPU time specind = 1.2370825E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.22731E+07, tol = 0.30470E+01, time = 2.78 | CG iter. 2 -- res = 0.89053E+06, tol = 0.30470E+01, time = 2.54 | CG iter. 3 -- res = 0.16665E+06, tol = 0.30470E+01, time = 2.93 | CG iter. 4 -- res = 0.67443E+05, tol = 0.30470E+01, time = 2.85 | CG iter. 5 -- res = 0.39975E+05, tol = 0.30470E+01, time = 2.83 | CG iter. 6 -- res = 0.21559E+05, tol = 0.30470E+01, time = 3.11 | CG iter. 7 -- res = 0.84028E+04, tol = 0.30470E+01, time = 2.67 | CG iter. 8 -- res = 0.36130E+04, tol = 0.30470E+01, time = 2.75 | CG iter. 9 -- res = 0.15392E+04, tol = 0.30470E+01, time = 2.75 | CG iter. 10 -- res = 0.58075E+03, tol = 0.30470E+01, time = 2.67 | CG iter. 11 -- res = 0.25065E+03, tol = 0.30470E+01, time = 3.06 | CG iter. 12 -- res = 0.12643E+03, tol = 0.30470E+01, time = 2.71 | CG iter. 13 -- res = 0.64849E+02, tol = 0.30470E+01, time = 2.54 | CG iter. 14 -- res = 0.32799E+02, tol = 0.30470E+01, time = 2.91 | CG iter. 15 -- res = 0.15820E+02, tol = 0.30470E+01, time = 2.60 | CG iter. 16 -- res = 0.65483E+01, tol = 0.30470E+01, time = 2.59 | CG iter. 17 -- res = 0.26991E+01, tol = 0.30470E+01, time = 2.74 | CG iter. 18 -- res = 0.12553E+01, tol = 0.30470E+01, time = 2.91 | CG iter. 19 -- res = 0.62547E+00, tol = 0.30470E+01, time = 3.50 | CG iter. 20 -- res = 0.31476E+00, tol = 0.30470E+01, time = 2.91 | CG iter. 21 -- res = 0.15670E+00, tol = 0.30470E+01, time = 2.85 | CG iter. 22 -- res = 0.70579E-01, tol = 0.30470E+01, time = 2.94 | CG iter. 23 -- res = 0.31664E-01, tol = 0.30470E+01, time = 2.61 | CG iter. 24 -- res = 0.14477E-01, tol = 0.30470E+01, time = 2.91 | CG iter. 25 -- res = 0.70215E-02, tol = 0.30470E+01, time = 2.66 | CG iter. 26 -- res = 0.35557E-02, tol = 0.30470E+01, time = 2.68 | CG iter. 27 -- res = 0.17920E-02, tol = 0.30470E+01, time = 2.59 | CG iter. 28 -- res = 0.85881E-03, tol = 0.30470E+01, time = 2.82 | CG iter. 29 -- res = 0.39707E-03, tol = 0.30470E+01, time = 2.77 | CG iter. 30 -- res = 0.18067E-03, tol = 0.30470E+01, time = 2.71 | CG iter. 31 -- res = 0.88487E-04, tol = 0.30470E+01, time = 2.82 | CG iter. 32 -- res = 0.44152E-04, tol = 0.30470E+01, time = 2.56 | CG iter. 33 -- res = 0.21669E-04, tol = 0.30470E+01, time = 2.64 | CG iter. 34 -- res = 0.10507E-04, tol = 0.30470E+01, time = 2.79 | CG iter. 35 -- res = 0.49875E-05, tol = 0.30470E+01, time = 2.83 | CG iter. 36 -- res = 0.24436E-05, tol = 0.30470E+01, time = 2.96 | CG iter. 37 -- res = 0.11448E-05, tol = 0.30470E+01, time = 2.88 | CG iter. 38 -- res = 0.56632E-06, tol = 0.30470E+01, time = 2.78 | CG iter. 39 -- res = 0.27996E-06, tol = 0.30470E+01, time = 2.70 | CG iter. 40 -- res = 0.13755E-06, tol = 0.30470E+01, time = 2.95 | CG iter. 41 -- res = 0.69121E-07, tol = 0.30470E+01, time = 2.75 | CG iter. 42 -- res = 0.32239E-07, tol = 0.30470E+01, time = 2.73 | CG iter. 43 -- res = 0.14471E-07, tol = 0.30470E+01, time = 2.95 | CG iter. 44 -- res = 0.71103E-08, tol = 0.30470E+01, time = 2.99 | CG iter. 45 -- res = 0.35990E-08, tol = 0.30470E+01, time = 2.75 | CG iter. 46 -- res = 0.17593E-08, tol = 0.30470E+01, time = 2.87 | CG iter. 47 -- res = 0.87078E-09, tol = 0.30470E+01, time = 2.57 | CG iter. 48 -- res = 0.41549E-09, tol = 0.30470E+01, time = 3.03 | CG iter. 49 -- res = 0.18524E-09, tol = 0.30470E+01, time = 2.96 | CG iter. 50 -- res = 0.91279E-10, tol = 0.30470E+01, time = 2.83 | Final CG iter 51 -- res = 0.91279E-10, tol = 0.30470E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.323 3.925 | New value -1.597 | Old value 5.323 | Difference -6.920 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.50311E+05, tol = 0.47627E+18, time = 2.24 | CG iter. 2 -- res = 0.52338E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.19615E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.66172E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.74196E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10046456.531 | (Sampled value in CG: 10091774.729 ) | CPU time specind = 1190.245 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.68335E+08, tol = 0.57601E+04, time = 11.98 | CG iter. 2 -- res = 0.59476E+08, tol = 0.57601E+04, time = 13.85 | CG iter. 3 -- res = 0.16161E+08, tol = 0.57601E+04, time = 12.33 | CG iter. 4 -- res = 0.66574E+07, tol = 0.57601E+04, time = 11.67 | CG iter. 5 -- res = 0.39553E+07, tol = 0.57601E+04, time = 11.70 | CG iter. 6 -- res = 0.22678E+07, tol = 0.57601E+04, time = 11.88 | CG iter. 7 -- res = 0.13322E+07, tol = 0.57601E+04, time = 12.17 | CG iter. 8 -- res = 0.89681E+06, tol = 0.57601E+04, time = 11.75 | CG iter. 9 -- res = 0.58730E+06, tol = 0.57601E+04, time = 11.99 | CG iter. 10 -- res = 0.35419E+06, tol = 0.57601E+04, time = 12.07 | CG iter. 11 -- res = 0.20175E+06, tol = 0.57601E+04, time = 11.32 | CG iter. 12 -- res = 0.11356E+06, tol = 0.57601E+04, time = 12.07 | CG iter. 13 -- res = 0.64969E+05, tol = 0.57601E+04, time = 12.08 | CG iter. 14 -- res = 0.42512E+05, tol = 0.57601E+04, time = 11.85 | CG iter. 15 -- res = 0.32831E+05, tol = 0.57601E+04, time = 11.29 | CG iter. 16 -- res = 0.27072E+05, tol = 0.57601E+04, time = 11.98 | CG iter. 17 -- res = 0.24172E+05, tol = 0.57601E+04, time = 11.83 | CG iter. 18 -- res = 0.21765E+05, tol = 0.57601E+04, time = 11.73 | CG iter. 19 -- res = 0.18740E+05, tol = 0.57601E+04, time = 18.66 | CG iter. 20 -- res = 0.16627E+05, tol = 0.57601E+04, time = 11.67 | CG iter. 21 -- res = 0.15886E+05, tol = 0.57601E+04, time = 11.75 | CG iter. 22 -- res = 0.16330E+05, tol = 0.57601E+04, time = 12.00 | CG iter. 23 -- res = 0.16887E+05, tol = 0.57601E+04, time = 11.50 | CG iter. 24 -- res = 0.16793E+05, tol = 0.57601E+04, time = 12.00 | CG iter. 25 -- res = 0.15043E+05, tol = 0.57601E+04, time = 11.65 | CG iter. 26 -- res = 0.12002E+05, tol = 0.57601E+04, time = 13.00 | CG iter. 27 -- res = 0.90861E+04, tol = 0.57601E+04, time = 12.85 | CG iter. 28 -- res = 0.67494E+04, tol = 0.57601E+04, time = 12.33 | CG iter. 29 -- res = 0.53859E+04, tol = 0.57601E+04, time = 11.89 | CG iter. 30 -- res = 0.45861E+04, tol = 0.57601E+04, time = 11.69 | CG iter. 31 -- res = 0.40639E+04, tol = 0.57601E+04, time = 12.11 | CG iter. 32 -- res = 0.35651E+04, tol = 0.57601E+04, time = 12.20 | CG iter. 33 -- res = 0.31187E+04, tol = 0.57601E+04, time = 12.19 | CG iter. 34 -- res = 0.27574E+04, tol = 0.57601E+04, time = 11.42 | CG iter. 35 -- res = 0.24799E+04, tol = 0.57601E+04, time = 12.26 | CG iter. 36 -- res = 0.22944E+04, tol = 0.57601E+04, time = 11.63 | CG iter. 37 -- res = 0.22104E+04, tol = 0.57601E+04, time = 12.21 | CG iter. 38 -- res = 0.21783E+04, tol = 0.57601E+04, time = 11.93 | CG iter. 39 -- res = 0.20501E+04, tol = 0.57601E+04, time = 11.39 | CG iter. 40 -- res = 0.17776E+04, tol = 0.57601E+04, time = 11.50 | CG iter. 41 -- res = 0.14711E+04, tol = 0.57601E+04, time = 11.85 | CG iter. 42 -- res = 0.12110E+04, tol = 0.57601E+04, time = 11.94 | CG iter. 43 -- res = 0.10017E+04, tol = 0.57601E+04, time = 12.33 | CG iter. 44 -- res = 0.87799E+03, tol = 0.57601E+04, time = 17.50 | CG iter. 45 -- res = 0.81433E+03, tol = 0.57601E+04, time = 12.34 | CG iter. 46 -- res = 0.76607E+03, tol = 0.57601E+04, time = 11.77 | CG iter. 47 -- res = 0.71905E+03, tol = 0.57601E+04, time = 11.80 | CG iter. 48 -- res = 0.63605E+03, tol = 0.57601E+04, time = 12.03 | CG iter. 49 -- res = 0.55519E+03, tol = 0.57601E+04, time = 12.20 | CG iter. 50 -- res = 0.50515E+03, tol = 0.57601E+04, time = 12.87 | CG iter. 51 -- res = 0.47011E+03, tol = 0.57601E+04, time = 13.99 | CG iter. 52 -- res = 0.45850E+03, tol = 0.57601E+04, time = 12.15 | CG iter. 53 -- res = 0.43643E+03, tol = 0.57601E+04, time = 12.25 | CG iter. 54 -- res = 0.40244E+03, tol = 0.57601E+04, time = 11.58 | CG iter. 55 -- res = 0.36027E+03, tol = 0.57601E+04, time = 11.88 | CG iter. 56 -- res = 0.31179E+03, tol = 0.57601E+04, time = 11.70 | CG iter. 57 -- res = 0.27269E+03, tol = 0.57601E+04, time = 11.92 | CG iter. 58 -- res = 0.24793E+03, tol = 0.57601E+04, time = 11.50 | CG iter. 59 -- res = 0.23345E+03, tol = 0.57601E+04, time = 11.83 | CG iter. 60 -- res = 0.22179E+03, tol = 0.57601E+04, time = 12.11 | Final CG iter 61 -- res = 0.22179E+03, tol = 0.57601E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.706 ( -229.503 -2231.028 2513.744 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 5834501.430 | Old band monopole 10046499.743 | Change to band monopole -4211998.313 | Change to component monopole 4211980.196 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.651 2.714 | New value -1.905 | Old value -0.651 | Difference -1.254 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.203 ( 5.755 11.623 -12.370 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.324 4.872 | New value 7.892 | Old value 1.324 | Difference 6.568 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.11187E+07, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.32907E+03, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.49482E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.42972E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.65193E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 5834476.335 | (Sampled value in CG: 5813399.037 ) | Chain = 1 -- chisq = 0.81554178E+09 | Chain = 1 -- wall time = 6523.502 sec Available RAM: MemAvailable: 376081464 kB Available Swap: SwapFree: 1124241352 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 295 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442920 | --> Sampling calibration, mode = relcal | relcal = 1.3422837E-02 7.4897503E-04 -1.5939863E-03 -1.2577825E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1059370 0.1123944 97046085.3994206 | BP delta = 9.9017553E-02 0.1054750 97046093.1391479 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632488 | --> Sampling calibration, mode = relcal | relcal = -2.8213467E-03 -7.0401083E-04 1.6783761E-03 1.6126899E-03 -4.0810474E-04 6.4239634E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5526207 15222723.2445390 | BP delta = 0.0000000E+00 -0.5576270 15222725.1051790 | BP chisq diff = 1.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18121052042541 | --> Sampling calibration, mode = relcal | relcal = -7.5196318E-02 -5.8553323E-02 9.2034884E-02 4.1714761E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.8760787E-04 4.6924343E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1024E-05 | 2: delta_r/delta_0: 9.1699E-07 | 3: delta_s/delta_0: 2.0651E-07 | 4: delta_r/delta_0: 1.7365E-08 | 5: delta_s/delta_0: 6.5072E-09 | 6: delta_r/delta_0: 1.0694E-09 | 7: delta_s/delta_0: 2.2102E-10 | 8: delta_r/delta_0: 9.6642E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.018660803295225E-003 2.740565127075335E-005 | BP delta = 6.6187292E-02 8.6335249E-02 50481398.0412178 | BP delta = 6.3732833E-02 8.3880782E-02 50481398.8312287 | BP chisq diff = 0.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599727 | --> Sampling calibration, mode = relcal | relcal = -0.1067029 -9.5534950E-02 0.1449355 5.7302281E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9126143E-03 1.2207939E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2335E-05 | 2: delta_r/delta_0: 1.3750E-06 | 3: delta_s/delta_0: 2.5097E-07 | 4: delta_r/delta_0: 4.2417E-08 | 5: delta_s/delta_0: 2.3694E-08 | 6: delta_r/delta_0: 6.7993E-09 | 7: delta_s/delta_0: 5.5003E-09 | 8: delta_r/delta_0: 1.7400E-09 | 9: delta_s/delta_0: 8.4990E-10 | 10: delta_r/delta_0: 6.3103E-10 | 11: delta_s/delta_0: 1.0121E-09 | 12: delta_r/delta_0: 1.1008E-10 | 13: delta_s/delta_0: 8.4797E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.878039242297826E-003 2.810862612153987E-005 | BP delta = -0.3110400 -0.2822351 57393733.9369808 | BP delta = -0.3150221 -0.2862171 57393734.1731147 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81239972 | --> Sampling calibration, mode = relcal | relcal = 0.2955496 0.2248581 -0.2837649 -0.2366429 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.6334157E-05 5.0980304E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2258E-04 | 2: delta_r/delta_0: 5.7086E-06 | 3: delta_s/delta_0: 5.9119E-05 | 4: delta_r/delta_0: 4.0441E-06 | 5: delta_s/delta_0: 1.9012E-07 | 6: delta_r/delta_0: 1.0936E-07 | 7: delta_s/delta_0: 7.8517E-07 | 8: delta_r/delta_0: 2.3710E-08 | 9: delta_s/delta_0: 8.1257E-08 | 10: delta_r/delta_0: 3.7657E-08 | 11: delta_s/delta_0: 9.4006E-10 | 12: delta_r/delta_0: 6.2091E-10 | 13: delta_s/delta_0: 1.8233E-07 | 14: delta_r/delta_0: 6.5074E-09 | 15: delta_s/delta_0: 5.0778E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.914919784645344E-002 4.020862303001426E-005 | BP delta = -0.3541440 -0.3787512 72484994.7313330 | BP delta = -0.3458495 -0.3704567 72484994.5738751 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95920919 | --> Sampling calibration, mode = relcal | relcal = 0.1064972 0.1396754 -0.1104105 -0.1357621 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8234592E-03 1.4614667E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7793E-02 | 2: delta_r/delta_0: 4.2584E-04 | 3: delta_s/delta_0: 4.6121E-04 | 4: delta_r/delta_0: 1.6572E-05 | 5: delta_s/delta_0: 1.0388E-06 | 6: delta_r/delta_0: 4.0699E-07 | 7: delta_s/delta_0: 4.0737E-07 | 8: delta_r/delta_0: 9.3689E-08 | 9: delta_s/delta_0: 4.7621E-08 | 10: delta_r/delta_0: 8.1110E-09 | 11: delta_s/delta_0: 2.8057E-08 | 12: delta_r/delta_0: 1.7257E-08 | 13: delta_s/delta_0: 5.2428E-10 | 14: delta_r/delta_0: 2.7595E-10 | 15: delta_s/delta_0: 5.4558E-08 | 16: delta_r/delta_0: 6.4914E-10 | 17: delta_s/delta_0: 4.4322E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.792443764495713E-002 3.697061363123346E-005 | BP delta = 9.9072337E-02 0.2029088 72787479.2577166 | BP delta = 7.6442070E-02 0.1802786 72787479.0742176 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.084793 | New value = -3.131649 | poltype: 2 pol: 1 CPU time specind = 1.2181997E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173062 | New value = -3.179899 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191881 | New value = -3.104228 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147628 | New value = -3.109094 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145875 | New value = -3.037065 | poltype: 2 pol: 2 CPU time specind = 1.3392925E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.13569E+08, tol = 0.10596E+02, time = 6.72 | CG iter. 2 -- res = 0.36272E+06, tol = 0.10596E+02, time = 6.53 | CG iter. 3 -- res = 0.62948E+05, tol = 0.10596E+02, time = 6.10 | CG iter. 4 -- res = 0.46778E+05, tol = 0.10596E+02, time = 5.73 | CG iter. 5 -- res = 0.39889E+05, tol = 0.10596E+02, time = 5.47 | CG iter. 6 -- res = 0.36803E+05, tol = 0.10596E+02, time = 5.95 | CG iter. 7 -- res = 0.36307E+05, tol = 0.10596E+02, time = 5.55 | CG iter. 8 -- res = 0.29389E+05, tol = 0.10596E+02, time = 5.50 | CG iter. 9 -- res = 0.23462E+05, tol = 0.10596E+02, time = 5.90 | CG iter. 10 -- res = 0.19434E+05, tol = 0.10596E+02, time = 5.42 | CG iter. 11 -- res = 0.13556E+05, tol = 0.10596E+02, time = 5.80 | CG iter. 12 -- res = 0.91617E+04, tol = 0.10596E+02, time = 5.86 | CG iter. 13 -- res = 0.71335E+04, tol = 0.10596E+02, time = 5.77 | CG iter. 14 -- res = 0.61468E+04, tol = 0.10596E+02, time = 5.72 | CG iter. 15 -- res = 0.52671E+04, tol = 0.10596E+02, time = 5.53 | CG iter. 16 -- res = 0.39590E+04, tol = 0.10596E+02, time = 5.93 | CG iter. 17 -- res = 0.26954E+04, tol = 0.10596E+02, time = 5.97 | CG iter. 18 -- res = 0.20959E+04, tol = 0.10596E+02, time = 6.03 | CG iter. 19 -- res = 0.18087E+04, tol = 0.10596E+02, time = 5.50 | CG iter. 20 -- res = 0.14114E+04, tol = 0.10596E+02, time = 6.78 | CG iter. 21 -- res = 0.10741E+04, tol = 0.10596E+02, time = 5.55 | CG iter. 22 -- res = 0.83732E+03, tol = 0.10596E+02, time = 5.91 | CG iter. 23 -- res = 0.71172E+03, tol = 0.10596E+02, time = 5.86 | CG iter. 24 -- res = 0.59586E+03, tol = 0.10596E+02, time = 5.62 | CG iter. 25 -- res = 0.45309E+03, tol = 0.10596E+02, time = 5.66 | CG iter. 26 -- res = 0.33018E+03, tol = 0.10596E+02, time = 5.77 | CG iter. 27 -- res = 0.28015E+03, tol = 0.10596E+02, time = 5.73 | CG iter. 28 -- res = 0.25315E+03, tol = 0.10596E+02, time = 6.04 | CG iter. 29 -- res = 0.20418E+03, tol = 0.10596E+02, time = 5.90 | CG iter. 30 -- res = 0.15694E+03, tol = 0.10596E+02, time = 5.77 | CG iter. 31 -- res = 0.13256E+03, tol = 0.10596E+02, time = 6.05 | CG iter. 32 -- res = 0.11402E+03, tol = 0.10596E+02, time = 5.63 | CG iter. 33 -- res = 0.94772E+02, tol = 0.10596E+02, time = 5.67 | CG iter. 34 -- res = 0.72666E+02, tol = 0.10596E+02, time = 6.43 | CG iter. 35 -- res = 0.57959E+02, tol = 0.10596E+02, time = 5.24 | CG iter. 36 -- res = 0.51054E+02, tol = 0.10596E+02, time = 5.73 | CG iter. 37 -- res = 0.42110E+02, tol = 0.10596E+02, time = 12.08 | CG iter. 38 -- res = 0.32405E+02, tol = 0.10596E+02, time = 5.74 | CG iter. 39 -- res = 0.25244E+02, tol = 0.10596E+02, time = 6.21 | CG iter. 40 -- res = 0.22260E+02, tol = 0.10596E+02, time = 5.75 | CG iter. 41 -- res = 0.18800E+02, tol = 0.10596E+02, time = 6.40 | CG iter. 42 -- res = 0.14682E+02, tol = 0.10596E+02, time = 5.70 | CG iter. 43 -- res = 0.11395E+02, tol = 0.10596E+02, time = 5.82 | CG iter. 44 -- res = 0.90027E+01, tol = 0.10596E+02, time = 5.54 | CG iter. 45 -- res = 0.75644E+01, tol = 0.10596E+02, time = 5.57 | CG iter. 46 -- res = 0.61563E+01, tol = 0.10596E+02, time = 6.12 | CG iter. 47 -- res = 0.45962E+01, tol = 0.10596E+02, time = 5.75 | CG iter. 48 -- res = 0.35324E+01, tol = 0.10596E+02, time = 5.59 | CG iter. 49 -- res = 0.28652E+01, tol = 0.10596E+02, time = 5.49 | CG iter. 50 -- res = 0.23926E+01, tol = 0.10596E+02, time = 5.65 | Final CG iter 51 -- res = 0.23926E+01, tol = 0.10596E+02 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6476251.967 | Old band monopole 5834501.430 | Change to band monopole 641750.537 | Change to component monopole -641747.777 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.36241E+06, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.16793E+03, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.37050E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.26206E-01, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.85765E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6476224.111 | (Sampled value in CG: 6404977.980 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.483883 | New value = 1.510203 | poltype: 2 pol: 1 CPU time specind = 2.3699045E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473582 | New value = 1.486076 | poltype: 2 pol: 2 CPU time specind = 1.8675804E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.24163E+08, tol = 0.47571E+04, time = 6.55 | CG iter. 2 -- res = 0.52383E+07, tol = 0.47571E+04, time = 6.82 | CG iter. 3 -- res = 0.84580E+06, tol = 0.47571E+04, time = 6.51 | CG iter. 4 -- res = 0.35569E+06, tol = 0.47571E+04, time = 6.49 | CG iter. 5 -- res = 0.15543E+06, tol = 0.47571E+04, time = 6.76 | CG iter. 6 -- res = 0.82553E+05, tol = 0.47571E+04, time = 6.56 | CG iter. 7 -- res = 0.44499E+05, tol = 0.47571E+04, time = 6.65 | CG iter. 8 -- res = 0.21641E+05, tol = 0.47571E+04, time = 6.65 | CG iter. 9 -- res = 0.95339E+04, tol = 0.47571E+04, time = 6.68 | CG iter. 10 -- res = 0.37467E+04, tol = 0.47571E+04, time = 6.35 | CG iter. 11 -- res = 0.16735E+04, tol = 0.47571E+04, time = 6.14 | CG iter. 12 -- res = 0.88052E+03, tol = 0.47571E+04, time = 6.41 | CG iter. 13 -- res = 0.50311E+03, tol = 0.47571E+04, time = 6.84 | CG iter. 14 -- res = 0.28439E+03, tol = 0.47571E+04, time = 6.70 | CG iter. 15 -- res = 0.14437E+03, tol = 0.47571E+04, time = 6.41 | CG iter. 16 -- res = 0.69095E+02, tol = 0.47571E+04, time = 12.86 | CG iter. 17 -- res = 0.32544E+02, tol = 0.47571E+04, time = 6.79 | CG iter. 18 -- res = 0.16054E+02, tol = 0.47571E+04, time = 6.36 | CG iter. 19 -- res = 0.89502E+01, tol = 0.47571E+04, time = 6.16 | CG iter. 20 -- res = 0.51524E+01, tol = 0.47571E+04, time = 6.65 | CG iter. 21 -- res = 0.27840E+01, tol = 0.47571E+04, time = 6.57 | CG iter. 22 -- res = 0.14403E+01, tol = 0.47571E+04, time = 6.53 | CG iter. 23 -- res = 0.71388E+00, tol = 0.47571E+04, time = 6.61 | CG iter. 24 -- res = 0.36586E+00, tol = 0.47571E+04, time = 6.61 | CG iter. 25 -- res = 0.19799E+00, tol = 0.47571E+04, time = 6.55 | CG iter. 26 -- res = 0.11323E+00, tol = 0.47571E+04, time = 6.32 | CG iter. 27 -- res = 0.64651E-01, tol = 0.47571E+04, time = 6.54 | CG iter. 28 -- res = 0.35322E-01, tol = 0.47571E+04, time = 6.80 | CG iter. 29 -- res = 0.18595E-01, tol = 0.47571E+04, time = 8.01 | CG iter. 30 -- res = 0.95620E-02, tol = 0.47571E+04, time = 7.25 | CG iter. 31 -- res = 0.51241E-02, tol = 0.47571E+04, time = 6.72 | CG iter. 32 -- res = 0.29252E-02, tol = 0.47571E+04, time = 6.63 | CG iter. 33 -- res = 0.16753E-02, tol = 0.47571E+04, time = 6.48 | CG iter. 34 -- res = 0.91132E-03, tol = 0.47571E+04, time = 6.80 | CG iter. 35 -- res = 0.47603E-03, tol = 0.47571E+04, time = 6.62 | Final CG iter 36 -- res = 0.47603E-03, tol = 0.47571E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.900 2.723 | New value -6.523 | Old value -1.900 | Difference -4.623 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.11107E+07, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.70557E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.15475E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.11756E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.19473E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6476224.111 | (Sampled value in CG: 6406597.246 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.572806 | New value = -3.544437 | poltype: 1 pol: 1 CPU time specind = 1.2326002E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.25781E+07, tol = 0.28622E+01, time = 2.84 | CG iter. 2 -- res = 0.10655E+07, tol = 0.28622E+01, time = 2.94 | CG iter. 3 -- res = 0.20433E+06, tol = 0.28622E+01, time = 2.98 | CG iter. 4 -- res = 0.87962E+05, tol = 0.28622E+01, time = 2.91 | CG iter. 5 -- res = 0.52394E+05, tol = 0.28622E+01, time = 3.02 | CG iter. 6 -- res = 0.26185E+05, tol = 0.28622E+01, time = 2.72 | CG iter. 7 -- res = 0.97967E+04, tol = 0.28622E+01, time = 2.47 | CG iter. 8 -- res = 0.42950E+04, tol = 0.28622E+01, time = 2.80 | CG iter. 9 -- res = 0.19299E+04, tol = 0.28622E+01, time = 2.74 | CG iter. 10 -- res = 0.77813E+03, tol = 0.28622E+01, time = 2.68 | CG iter. 11 -- res = 0.31827E+03, tol = 0.28622E+01, time = 2.71 | CG iter. 12 -- res = 0.14968E+03, tol = 0.28622E+01, time = 2.94 | CG iter. 13 -- res = 0.76814E+02, tol = 0.28622E+01, time = 2.82 | CG iter. 14 -- res = 0.38900E+02, tol = 0.28622E+01, time = 2.70 | CG iter. 15 -- res = 0.18317E+02, tol = 0.28622E+01, time = 2.78 | CG iter. 16 -- res = 0.82388E+01, tol = 0.28622E+01, time = 2.66 | CG iter. 17 -- res = 0.33657E+01, tol = 0.28622E+01, time = 2.52 | CG iter. 18 -- res = 0.15410E+01, tol = 0.28622E+01, time = 2.72 | CG iter. 19 -- res = 0.73142E+00, tol = 0.28622E+01, time = 2.55 | CG iter. 20 -- res = 0.38348E+00, tol = 0.28622E+01, time = 2.83 | CG iter. 21 -- res = 0.19426E+00, tol = 0.28622E+01, time = 2.86 | CG iter. 22 -- res = 0.91457E-01, tol = 0.28622E+01, time = 2.49 | CG iter. 23 -- res = 0.40057E-01, tol = 0.28622E+01, time = 2.62 | CG iter. 24 -- res = 0.18368E-01, tol = 0.28622E+01, time = 2.94 | CG iter. 25 -- res = 0.90683E-02, tol = 0.28622E+01, time = 2.66 | CG iter. 26 -- res = 0.45299E-02, tol = 0.28622E+01, time = 2.68 | CG iter. 27 -- res = 0.23574E-02, tol = 0.28622E+01, time = 2.75 | CG iter. 28 -- res = 0.11637E-02, tol = 0.28622E+01, time = 2.79 | CG iter. 29 -- res = 0.53919E-03, tol = 0.28622E+01, time = 3.04 | CG iter. 30 -- res = 0.24824E-03, tol = 0.28622E+01, time = 2.72 | CG iter. 31 -- res = 0.11941E-03, tol = 0.28622E+01, time = 2.80 | CG iter. 32 -- res = 0.59850E-04, tol = 0.28622E+01, time = 2.78 | CG iter. 33 -- res = 0.29586E-04, tol = 0.28622E+01, time = 2.77 | CG iter. 34 -- res = 0.14839E-04, tol = 0.28622E+01, time = 2.69 | CG iter. 35 -- res = 0.73715E-05, tol = 0.28622E+01, time = 2.75 | CG iter. 36 -- res = 0.35226E-05, tol = 0.28622E+01, time = 2.62 | CG iter. 37 -- res = 0.15536E-05, tol = 0.28622E+01, time = 2.73 | CG iter. 38 -- res = 0.76571E-06, tol = 0.28622E+01, time = 3.04 | CG iter. 39 -- res = 0.38702E-06, tol = 0.28622E+01, time = 3.10 | CG iter. 40 -- res = 0.19022E-06, tol = 0.28622E+01, time = 2.78 | CG iter. 41 -- res = 0.91636E-07, tol = 0.28622E+01, time = 2.87 | CG iter. 42 -- res = 0.45555E-07, tol = 0.28622E+01, time = 3.04 | CG iter. 43 -- res = 0.19914E-07, tol = 0.28622E+01, time = 2.92 | CG iter. 44 -- res = 0.94476E-08, tol = 0.28622E+01, time = 2.90 | CG iter. 45 -- res = 0.46277E-08, tol = 0.28622E+01, time = 2.83 | CG iter. 46 -- res = 0.22597E-08, tol = 0.28622E+01, time = 2.68 | CG iter. 47 -- res = 0.11557E-08, tol = 0.28622E+01, time = 2.93 | CG iter. 48 -- res = 0.55780E-09, tol = 0.28622E+01, time = 2.82 | CG iter. 49 -- res = 0.26215E-09, tol = 0.28622E+01, time = 2.66 | CG iter. 50 -- res = 0.11542E-09, tol = 0.28622E+01, time = 2.92 | Final CG iter 51 -- res = 0.11542E-09, tol = 0.28622E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.415 5.858 | New value 13.881 | Old value 3.415 | Difference 10.466 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.11323E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.74636E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.24556E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.10897E-01, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.84000E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6476224.111 | (Sampled value in CG: 6424026.784 ) | CPU time specind = 1199.820 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.68627E+08, tol = 0.57577E+04, time = 11.75 | CG iter. 2 -- res = 0.59062E+08, tol = 0.57577E+04, time = 12.67 | CG iter. 3 -- res = 0.15710E+08, tol = 0.57577E+04, time = 13.46 | CG iter. 4 -- res = 0.66676E+07, tol = 0.57577E+04, time = 12.41 | CG iter. 5 -- res = 0.39010E+07, tol = 0.57577E+04, time = 11.51 | CG iter. 6 -- res = 0.22200E+07, tol = 0.57577E+04, time = 11.65 | CG iter. 7 -- res = 0.13055E+07, tol = 0.57577E+04, time = 12.06 | CG iter. 8 -- res = 0.85998E+06, tol = 0.57577E+04, time = 11.75 | CG iter. 9 -- res = 0.56037E+06, tol = 0.57577E+04, time = 11.89 | CG iter. 10 -- res = 0.33052E+06, tol = 0.57577E+04, time = 12.07 | CG iter. 11 -- res = 0.18123E+06, tol = 0.57577E+04, time = 13.04 | CG iter. 12 -- res = 0.10070E+06, tol = 0.57577E+04, time = 12.27 | CG iter. 13 -- res = 0.56948E+05, tol = 0.57577E+04, time = 11.74 | CG iter. 14 -- res = 0.35821E+05, tol = 0.57577E+04, time = 12.47 | CG iter. 15 -- res = 0.26423E+05, tol = 0.57577E+04, time = 12.20 | CG iter. 16 -- res = 0.20918E+05, tol = 0.57577E+04, time = 12.13 | CG iter. 17 -- res = 0.17409E+05, tol = 0.57577E+04, time = 11.93 | CG iter. 18 -- res = 0.14587E+05, tol = 0.57577E+04, time = 11.81 | CG iter. 19 -- res = 0.12389E+05, tol = 0.57577E+04, time = 12.31 | CG iter. 20 -- res = 0.10444E+05, tol = 0.57577E+04, time = 18.12 | CG iter. 21 -- res = 0.94005E+04, tol = 0.57577E+04, time = 11.64 | CG iter. 22 -- res = 0.93635E+04, tol = 0.57577E+04, time = 11.68 | CG iter. 23 -- res = 0.10177E+05, tol = 0.57577E+04, time = 11.53 | CG iter. 24 -- res = 0.10673E+05, tol = 0.57577E+04, time = 11.90 | CG iter. 25 -- res = 0.99525E+04, tol = 0.57577E+04, time = 12.43 | CG iter. 26 -- res = 0.83647E+04, tol = 0.57577E+04, time = 11.49 | CG iter. 27 -- res = 0.65429E+04, tol = 0.57577E+04, time = 13.48 | CG iter. 28 -- res = 0.49628E+04, tol = 0.57577E+04, time = 12.38 | CG iter. 29 -- res = 0.38855E+04, tol = 0.57577E+04, time = 12.39 | CG iter. 30 -- res = 0.32697E+04, tol = 0.57577E+04, time = 11.64 | CG iter. 31 -- res = 0.28311E+04, tol = 0.57577E+04, time = 12.37 | CG iter. 32 -- res = 0.24356E+04, tol = 0.57577E+04, time = 11.56 | CG iter. 33 -- res = 0.20654E+04, tol = 0.57577E+04, time = 12.06 | CG iter. 34 -- res = 0.17153E+04, tol = 0.57577E+04, time = 12.24 | CG iter. 35 -- res = 0.14535E+04, tol = 0.57577E+04, time = 12.09 | CG iter. 36 -- res = 0.13222E+04, tol = 0.57577E+04, time = 11.95 | CG iter. 37 -- res = 0.12656E+04, tol = 0.57577E+04, time = 11.96 | CG iter. 38 -- res = 0.12408E+04, tol = 0.57577E+04, time = 12.21 | CG iter. 39 -- res = 0.11545E+04, tol = 0.57577E+04, time = 12.23 | CG iter. 40 -- res = 0.10129E+04, tol = 0.57577E+04, time = 11.95 | CG iter. 41 -- res = 0.82507E+03, tol = 0.57577E+04, time = 12.00 | CG iter. 42 -- res = 0.66267E+03, tol = 0.57577E+04, time = 12.01 | CG iter. 43 -- res = 0.55120E+03, tol = 0.57577E+04, time = 12.16 | CG iter. 44 -- res = 0.48943E+03, tol = 0.57577E+04, time = 17.92 | CG iter. 45 -- res = 0.45068E+03, tol = 0.57577E+04, time = 11.77 | CG iter. 46 -- res = 0.40664E+03, tol = 0.57577E+04, time = 12.36 | CG iter. 47 -- res = 0.35820E+03, tol = 0.57577E+04, time = 11.78 | CG iter. 48 -- res = 0.30767E+03, tol = 0.57577E+04, time = 11.68 | CG iter. 49 -- res = 0.26690E+03, tol = 0.57577E+04, time = 11.96 | CG iter. 50 -- res = 0.24202E+03, tol = 0.57577E+04, time = 11.53 | CG iter. 51 -- res = 0.23228E+03, tol = 0.57577E+04, time = 13.96 | CG iter. 52 -- res = 0.22651E+03, tol = 0.57577E+04, time = 12.59 | CG iter. 53 -- res = 0.21455E+03, tol = 0.57577E+04, time = 11.98 | CG iter. 54 -- res = 0.19722E+03, tol = 0.57577E+04, time = 12.04 | CG iter. 55 -- res = 0.17132E+03, tol = 0.57577E+04, time = 12.03 | CG iter. 56 -- res = 0.14429E+03, tol = 0.57577E+04, time = 12.05 | CG iter. 57 -- res = 0.12550E+03, tol = 0.57577E+04, time = 11.52 | CG iter. 58 -- res = 0.11539E+03, tol = 0.57577E+04, time = 11.86 | CG iter. 59 -- res = 0.11112E+03, tol = 0.57577E+04, time = 12.00 | CG iter. 60 -- res = 0.10547E+03, tol = 0.57577E+04, time = 12.52 | Final CG iter 61 -- res = 0.10547E+03, tol = 0.57577E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.814 ( -229.457 -2230.876 2513.589 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6809848.228 | Old band monopole 6476251.967 | Change to band monopole 333596.261 | Change to component monopole -333594.826 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.502 2.742 | New value 1.192 | Old value -6.502 | Difference 7.695 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.241 ( 6.085 11.509 -11.573 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 19.746 5.051 | New value 1.693 | Old value 19.746 | Difference -18.053 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.32825E+07, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.80705E+02, tol = 0.47627E+18, time = 2.33 | CG iter. 3 -- res = 0.28538E+01, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.44955E-02, tol = 0.47627E+18, time = 2.27 | Final CG iter 5 -- res = 0.95661E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6809818.938 | (Sampled value in CG: 6789647.000 ) | Chain = 1 -- chisq = 0.81552694E+09 | Chain = 1 -- wall time = 5697.280 sec Available RAM: MemAvailable: 376739288 kB Available Swap: SwapFree: 1124707068 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 296 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442847 | --> Sampling calibration, mode = relcal | relcal = 1.3432138E-02 7.4896065E-04 -1.5999610E-03 -1.2581137E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1059370 0.1123944 9406629.78950067 | BP delta = 0.1059370 0.1202831 9406646.22598900 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632445 | --> Sampling calibration, mode = relcal | relcal = -2.8214909E-03 -7.0352614E-04 1.6791808E-03 1.6137639E-03 -4.0880806E-04 6.4088037E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5576270 15217650.9918907 | BP delta = 0.0000000E+00 -0.5592312 15217648.6018465 | BP chisq diff = -2.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102382 | --> Sampling calibration, mode = relcal | relcal = 3.7079584E-02 1.3718874E-02 5.7523544E-03 -7.1578859E-03 8.2453471E-03 2.3899025E-03 -7.5998609E-03 -7.1815802E-03 -1.5297965E-02 -1.4798643E-02 -3.0507927E-03 -1.2099335E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.210223 132208247.801053 | BP delta = 0.0000000E+00 -1.183385 132208241.681021 | BP chisq diff = -6.1, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17848854548723 | --> Sampling calibration, mode = relcal | relcal = -7.4365325E-02 -5.7908706E-02 9.1081060E-02 4.1192975E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.6301250E-05 3.5586951E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2557E-04 | 2: delta_r/delta_0: 1.0162E-05 | 3: delta_s/delta_0: 2.0006E-07 | 4: delta_r/delta_0: 1.9339E-08 | 5: delta_s/delta_0: 5.8804E-09 | 6: delta_r/delta_0: 1.0500E-09 | 7: delta_s/delta_0: 1.2173E-08 | 8: delta_r/delta_0: 1.7255E-10 | 9: delta_s/delta_0: 9.1310E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.427166600613160E-004 2.746980354091975E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2550E-04 | 2: delta_r/delta_0: 1.0160E-05 | 3: delta_s/delta_0: 2.0006E-07 | 4: delta_r/delta_0: 1.9339E-08 | 5: delta_s/delta_0: 5.8805E-09 | 6: delta_r/delta_0: 1.0500E-09 | 7: delta_s/delta_0: 1.2170E-08 | 8: delta_r/delta_0: 1.7253E-10 | 9: delta_s/delta_0: 9.1317E-11 | Reached bicg-stab tolerance | BP delta = 6.3732833E-02 8.3880782E-02 3610416.29156466 | BP delta = 6.3732833E-02 8.3666503E-02 3608911.75524454 | BP chisq diff = -1504.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02598816 | --> Sampling calibration, mode = relcal | relcal = -0.1066399 -9.5519133E-02 0.1449012 5.7257805E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9866607E-03 1.7039349E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0264E-05 | 2: delta_r/delta_0: 1.2033E-06 | 3: delta_s/delta_0: 2.3554E-07 | 4: delta_r/delta_0: 5.0730E-08 | 5: delta_s/delta_0: 1.6517E-08 | 6: delta_r/delta_0: 6.4719E-09 | 7: delta_s/delta_0: 1.7473E-07 | 8: delta_r/delta_0: 1.4178E-08 | 9: delta_s/delta_0: 8.6534E-10 | 10: delta_r/delta_0: 5.2616E-10 | 11: delta_s/delta_0: 4.0057E-09 | 12: delta_r/delta_0: 5.8693E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.591180404532091E-003 2.810861631422307E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.0264E-05 | 2: delta_r/delta_0: 1.2033E-06 | 3: delta_s/delta_0: 2.3553E-07 | 4: delta_r/delta_0: 5.0719E-08 | 5: delta_s/delta_0: 1.6522E-08 | 6: delta_r/delta_0: 6.4711E-09 | 7: delta_s/delta_0: 1.7463E-07 | 8: delta_r/delta_0: 1.4171E-08 | 9: delta_s/delta_0: 8.6535E-10 | 10: delta_r/delta_0: 5.2589E-10 | 11: delta_s/delta_0: 4.0053E-09 | 12: delta_r/delta_0: 5.8632E-11 | Reached bicg-stab tolerance | BP delta = -0.3150221 -0.2862171 2841588.36095749 | BP delta = -0.3150221 -0.2862683 2841613.97933192 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231870 | --> Sampling calibration, mode = relcal | relcal = 0.2955667 0.2248857 -0.2838282 -0.2366242 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.6055270E-04 5.9021241E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0233E-04 | 2: delta_r/delta_0: 5.2725E-06 | 3: delta_s/delta_0: 1.5084E-05 | 4: delta_r/delta_0: 1.5453E-06 | 5: delta_s/delta_0: 1.8385E-07 | 6: delta_r/delta_0: 1.1438E-07 | 7: delta_s/delta_0: 7.9720E-07 | 8: delta_r/delta_0: 2.4274E-08 | 9: delta_s/delta_0: 7.3446E-08 | 10: delta_r/delta_0: 3.4405E-08 | 11: delta_s/delta_0: 1.0257E-09 | 12: delta_r/delta_0: 6.7020E-10 | 13: delta_s/delta_0: 6.2375E-08 | 14: delta_r/delta_0: 7.2878E-10 | 15: delta_s/delta_0: 5.7423E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.904539380151511E-002 4.021354734238730E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0236E-04 | 2: delta_r/delta_0: 5.2732E-06 | 3: delta_s/delta_0: 1.5089E-05 | 4: delta_r/delta_0: 1.5453E-06 | 5: delta_s/delta_0: 1.8383E-07 | 6: delta_r/delta_0: 1.1431E-07 | 7: delta_s/delta_0: 7.9529E-07 | 8: delta_r/delta_0: 2.4281E-08 | 9: delta_s/delta_0: 7.3887E-08 | 10: delta_r/delta_0: 3.4499E-08 | 11: delta_s/delta_0: 1.0249E-09 | 12: delta_r/delta_0: 6.7049E-10 | 13: delta_s/delta_0: 6.0448E-08 | 14: delta_r/delta_0: 6.9692E-10 | 15: delta_s/delta_0: 5.7459E-11 | Reached bicg-stab tolerance | BP delta = -0.3458495 -0.3704567 2827130.57365192 | BP delta = -0.3458495 -0.3548609 2827213.36759321 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95915627 | --> Sampling calibration, mode = relcal | relcal = 0.1064314 0.1395431 -0.1102741 -0.1357004 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0942730E-02 1.2752595E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2732E-04 | 2: delta_r/delta_0: 1.7717E-05 | 3: delta_s/delta_0: 2.5695E-05 | 4: delta_r/delta_0: 1.7144E-06 | 5: delta_s/delta_0: 3.5391E-07 | 6: delta_r/delta_0: 1.6703E-07 | 7: delta_s/delta_0: 5.1444E-07 | 8: delta_r/delta_0: 3.9292E-08 | 9: delta_s/delta_0: 2.5062E-08 | 10: delta_r/delta_0: 3.4809E-09 | 11: delta_s/delta_0: 2.5111E-09 | 12: delta_r/delta_0: 9.6199E-10 | 13: delta_s/delta_0: 2.1680E-09 | 14: delta_r/delta_0: 2.3803E-10 | 15: delta_s/delta_0: 6.6211E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.381168197765636E-002 3.697136878412282E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.2737E-04 | 2: delta_r/delta_0: 1.7718E-05 | 3: delta_s/delta_0: 2.5695E-05 | 4: delta_r/delta_0: 1.7143E-06 | 5: delta_s/delta_0: 3.5391E-07 | 6: delta_r/delta_0: 1.6701E-07 | 7: delta_s/delta_0: 5.1424E-07 | 8: delta_r/delta_0: 3.9292E-08 | 9: delta_s/delta_0: 2.5043E-08 | 10: delta_r/delta_0: 3.4785E-09 | 11: delta_s/delta_0: 2.5107E-09 | 12: delta_r/delta_0: 9.6198E-10 | 13: delta_s/delta_0: 2.1693E-09 | 14: delta_r/delta_0: 2.3865E-10 | 15: delta_s/delta_0: 6.6210E-11 | Reached bicg-stab tolerance | BP delta = 7.6442070E-02 0.1802786 3004452.84107642 | BP delta = 7.6442070E-02 0.1751160 3004462.52773519 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52156130 | --> Sampling calibration, mode = relcal | relcal = -5.1063288E-02 -3.7082906E-03 2.7296070E-02 2.7475510E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1531341E-04 2.3720518E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6410E-05 | 2: delta_r/delta_0: 4.5808E-06 | 3: delta_s/delta_0: 1.7416E-06 | 4: delta_r/delta_0: 1.2056E-07 | 5: delta_s/delta_0: 6.0350E-08 | 6: delta_r/delta_0: 3.4109E-08 | 7: delta_s/delta_0: 1.8820E-08 | 8: delta_r/delta_0: 1.0558E-08 | 9: delta_s/delta_0: 9.1260E-09 | 10: delta_r/delta_0: 1.6109E-09 | 11: delta_s/delta_0: 7.6122E-10 | 12: delta_r/delta_0: 6.0600E-10 | 13: delta_s/delta_0: 9.8858E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.168333277491383E-002 5.483359083614988E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6410E-05 | 2: delta_r/delta_0: 4.5808E-06 | 3: delta_s/delta_0: 1.7415E-06 | 4: delta_r/delta_0: 1.2055E-07 | 5: delta_s/delta_0: 6.0350E-08 | 6: delta_r/delta_0: 3.4109E-08 | 7: delta_s/delta_0: 1.8821E-08 | 8: delta_r/delta_0: 1.0558E-08 | 9: delta_s/delta_0: 9.1249E-09 | 10: delta_r/delta_0: 1.6109E-09 | 11: delta_s/delta_0: 7.6133E-10 | 12: delta_r/delta_0: 6.0604E-10 | 13: delta_s/delta_0: 9.9038E-11 | Reached bicg-stab tolerance | BP delta = 0.1078512 0.1976304 2435918.15262573 | BP delta = 0.1078512 0.1877595 2435920.11272320 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42155444 | --> Sampling calibration, mode = relcal | relcal = 4.5543656E-02 3.9703004E-02 -2.8276213E-02 -5.6970447E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7019065E-03 4.3867119E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1024E-05 | 2: delta_r/delta_0: 3.7257E-06 | 3: delta_s/delta_0: 2.7413E-06 | 4: delta_r/delta_0: 4.5963E-07 | 5: delta_s/delta_0: 6.0362E-08 | 6: delta_r/delta_0: 3.6003E-08 | 7: delta_s/delta_0: 2.4929E-07 | 8: delta_r/delta_0: 5.0073E-09 | 9: delta_s/delta_0: 2.9233E-09 | 10: delta_r/delta_0: 1.4005E-09 | 11: delta_s/delta_0: 1.0870E-09 | 12: delta_r/delta_0: 7.1050E-10 | 13: delta_s/delta_0: 8.6483E-10 | 14: delta_r/delta_0: 2.2700E-10 | 15: delta_s/delta_0: 3.6163E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.456207040964354E-002 4.996045417614979E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1024E-05 | 2: delta_r/delta_0: 3.7257E-06 | 3: delta_s/delta_0: 2.7413E-06 | 4: delta_r/delta_0: 4.5963E-07 | 5: delta_s/delta_0: 6.0363E-08 | 6: delta_r/delta_0: 3.6004E-08 | 7: delta_s/delta_0: 2.4929E-07 | 8: delta_r/delta_0: 5.0072E-09 | 9: delta_s/delta_0: 2.9233E-09 | 10: delta_r/delta_0: 1.4005E-09 | 11: delta_s/delta_0: 1.0870E-09 | 12: delta_r/delta_0: 7.1048E-10 | 13: delta_s/delta_0: 8.6482E-10 | 14: delta_r/delta_0: 2.2699E-10 | 15: delta_s/delta_0: 3.6164E-11 | Reached bicg-stab tolerance | BP delta = 5.8388457E-02 -4.4485826E-02 2321934.42523618 | BP delta = 5.8388457E-02 -4.0921293E-02 2321933.24078791 | BP chisq diff = -1.2, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28161215 | --> Sampling calibration, mode = relcal | relcal = 2.4183813E-02 4.5095842E-02 -2.3301302E-02 -4.5978356E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1178132E-02 3.2925666E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0657E-04 | 2: delta_r/delta_0: 8.7579E-06 | 3: delta_s/delta_0: 1.4854E-06 | 4: delta_r/delta_0: 1.8590E-07 | 5: delta_s/delta_0: 7.2827E-08 | 6: delta_r/delta_0: 1.6716E-08 | 7: delta_s/delta_0: 7.6874E-09 | 8: delta_r/delta_0: 5.1995E-09 | 9: delta_s/delta_0: 7.8311E-09 | 10: delta_r/delta_0: 4.0799E-09 | 11: delta_s/delta_0: 2.8625E-08 | 12: delta_r/delta_0: 2.4639E-09 | 13: delta_s/delta_0: 6.8187E-07 | 14: delta_r/delta_0: 3.8949E-07 | 15: delta_s/delta_0: 9.8969E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.007215409635863E-002 7.843626369234155E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0657E-04 | 2: delta_r/delta_0: 8.7579E-06 | 3: delta_s/delta_0: 1.4854E-06 | 4: delta_r/delta_0: 1.8589E-07 | 5: delta_s/delta_0: 7.2818E-08 | 6: delta_r/delta_0: 1.6715E-08 | 7: delta_s/delta_0: 7.6872E-09 | 8: delta_r/delta_0: 5.1993E-09 | 9: delta_s/delta_0: 7.8314E-09 | 10: delta_r/delta_0: 4.0799E-09 | 11: delta_s/delta_0: 2.8621E-08 | 12: delta_r/delta_0: 2.4644E-09 | 13: delta_s/delta_0: 6.5402E-07 | 14: delta_r/delta_0: 3.7371E-07 | 15: delta_s/delta_0: 9.8980E-11 | Reached bicg-stab tolerance | BP delta = -0.2399882 -0.3936148 2490582.41578820 | BP delta = -0.2399882 -0.3640078 2490595.50679357 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29394348 | --> Sampling calibration, mode = relcal | relcal = 4.7286699E-04 1.0270419E-02 -3.8107682E-03 -6.9325175E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3748638E-02 1.5209486E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2989E-04 | 2: delta_r/delta_0: 1.1009E-05 | 3: delta_s/delta_0: 1.7502E-06 | 4: delta_r/delta_0: 2.7757E-07 | 5: delta_s/delta_0: 1.0254E-07 | 6: delta_r/delta_0: 2.2725E-08 | 7: delta_s/delta_0: 1.0390E-08 | 8: delta_r/delta_0: 7.2486E-09 | 9: delta_s/delta_0: 5.0870E-09 | 10: delta_r/delta_0: 1.5045E-09 | 11: delta_s/delta_0: 4.3502E-05 | 12: delta_r/delta_0: 2.5452E-08 | 13: delta_s/delta_0: 1.6132E-08 | 14: delta_r/delta_0: 2.5450E-09 | 15: delta_s/delta_0: 9.0179E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.062052011642940E-002 8.306014979683907E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2989E-04 | 2: delta_r/delta_0: 1.1009E-05 | 3: delta_s/delta_0: 1.7502E-06 | 4: delta_r/delta_0: 2.7757E-07 | 5: delta_s/delta_0: 1.0254E-07 | 6: delta_r/delta_0: 2.2725E-08 | 7: delta_s/delta_0: 1.0390E-08 | 8: delta_r/delta_0: 7.2487E-09 | 9: delta_s/delta_0: 5.0870E-09 | 10: delta_r/delta_0: 1.5048E-09 | 11: delta_s/delta_0: 4.3554E-05 | 12: delta_r/delta_0: 2.5487E-08 | 13: delta_s/delta_0: 1.6158E-08 | 14: delta_r/delta_0: 2.5471E-09 | 15: delta_s/delta_0: 9.0186E-11 | Reached bicg-stab tolerance | BP delta = -0.7906070 -0.7446334 2737846.61474446 | BP delta = -0.7906070 -0.7459611 2737849.27610030 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26506034 | --> Sampling calibration, mode = relcal | relcal = -5.6746970E-03 1.5004344E-02 -2.3968027E-03 -6.9328444E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.2193003E-03 4.8950505E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4057E-04 | 2: delta_r/delta_0: 1.1982E-05 | 3: delta_s/delta_0: 2.1613E-06 | 4: delta_r/delta_0: 2.4185E-07 | 5: delta_s/delta_0: 1.0410E-07 | 6: delta_r/delta_0: 2.0975E-08 | 7: delta_s/delta_0: 9.3654E-09 | 8: delta_r/delta_0: 5.8011E-09 | 9: delta_s/delta_0: 6.6881E-09 | 10: delta_r/delta_0: 4.6378E-09 | 11: delta_s/delta_0: 5.0531E-07 | 12: delta_r/delta_0: 1.5499E-08 | 13: delta_s/delta_0: 1.5653E-08 | 14: delta_r/delta_0: 6.8196E-09 | 15: delta_s/delta_0: 8.3964E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.871774755773403E-003 9.153566333325292E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4057E-04 | 2: delta_r/delta_0: 1.1982E-05 | 3: delta_s/delta_0: 2.1613E-06 | 4: delta_r/delta_0: 2.4185E-07 | 5: delta_s/delta_0: 1.0410E-07 | 6: delta_r/delta_0: 2.0975E-08 | 7: delta_s/delta_0: 9.3654E-09 | 8: delta_r/delta_0: 5.8011E-09 | 9: delta_s/delta_0: 6.6881E-09 | 10: delta_r/delta_0: 4.6378E-09 | 11: delta_s/delta_0: 5.0531E-07 | 12: delta_r/delta_0: 1.5499E-08 | 13: delta_s/delta_0: 1.5653E-08 | 14: delta_r/delta_0: 6.8198E-09 | 15: delta_s/delta_0: 8.3964E-11 | Reached bicg-stab tolerance | BP delta = 0.3717383 0.4126799 2516822.41184531 | BP delta = 0.3717383 0.4161394 2516822.37994670 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25654650 | --> Sampling calibration, mode = relcal | relcal = -3.1750385E-02 -2.5947392E-02 3.6887057E-02 2.0810721E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4683939E-02 1.9143913E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4650E-04 | 2: delta_r/delta_0: 1.2298E-05 | 3: delta_s/delta_0: 1.9349E-06 | 4: delta_r/delta_0: 3.5373E-07 | 5: delta_s/delta_0: 1.3720E-07 | 6: delta_r/delta_0: 2.6439E-08 | 7: delta_s/delta_0: 1.1337E-08 | 8: delta_r/delta_0: 6.0600E-09 | 9: delta_s/delta_0: 1.0510E-08 | 10: delta_r/delta_0: 3.6178E-09 | 11: delta_s/delta_0: 4.3094E-08 | 12: delta_r/delta_0: 1.4669E-08 | 13: delta_s/delta_0: 3.7661E-10 | 14: delta_r/delta_0: 2.7294E-10 | 15: delta_s/delta_0: 1.1548E-10 | 16: delta_r/delta_0: 9.7695E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.857126952769756E-003 8.675668251055653E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4650E-04 | 2: delta_r/delta_0: 1.2298E-05 | 3: delta_s/delta_0: 1.9349E-06 | 4: delta_r/delta_0: 3.5373E-07 | 5: delta_s/delta_0: 1.3720E-07 | 6: delta_r/delta_0: 2.6440E-08 | 7: delta_s/delta_0: 1.1338E-08 | 8: delta_r/delta_0: 6.0600E-09 | 9: delta_s/delta_0: 1.0509E-08 | 10: delta_r/delta_0: 3.6178E-09 | 11: delta_s/delta_0: 4.3115E-08 | 12: delta_r/delta_0: 1.4678E-08 | 13: delta_s/delta_0: 3.7672E-10 | 14: delta_r/delta_0: 2.7301E-10 | 15: delta_s/delta_0: 1.1547E-10 | 16: delta_r/delta_0: 9.7681E-11 | Reached bicg-stab tolerance | BP delta = -0.7956595 -0.9465514 2705833.66342589 | BP delta = -0.7956595 -0.9537111 2705825.39747901 | BP chisq diff = -8.3, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131649 | New value = -3.104973 | poltype: 2 pol: 1 CPU time specind = 6.0387850E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179899 | New value = -3.152889 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.104228 | New value = -3.211655 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109094 | New value = -3.106623 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.037065 | New value = -3.230670 | poltype: 2 pol: 2 CPU time specind = 3.7571192E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.22 | CG iter. 1 -- res = 0.13567E+08, tol = 0.97435E+01, time = 5.57 | CG iter. 2 -- res = 0.33574E+06, tol = 0.97435E+01, time = 6.39 | CG iter. 3 -- res = 0.52583E+05, tol = 0.97435E+01, time = 6.22 | CG iter. 4 -- res = 0.27052E+05, tol = 0.97435E+01, time = 6.18 | CG iter. 5 -- res = 0.15222E+05, tol = 0.97435E+01, time = 5.55 | CG iter. 6 -- res = 0.11176E+05, tol = 0.97435E+01, time = 5.56 | CG iter. 7 -- res = 0.10040E+05, tol = 0.97435E+01, time = 5.30 | CG iter. 8 -- res = 0.84512E+04, tol = 0.97435E+01, time = 5.30 | CG iter. 9 -- res = 0.71404E+04, tol = 0.97435E+01, time = 5.59 | CG iter. 10 -- res = 0.65865E+04, tol = 0.97435E+01, time = 5.40 | CG iter. 11 -- res = 0.50612E+04, tol = 0.97435E+01, time = 5.35 | CG iter. 12 -- res = 0.33647E+04, tol = 0.97435E+01, time = 5.60 | CG iter. 13 -- res = 0.21871E+04, tol = 0.97435E+01, time = 5.63 | CG iter. 14 -- res = 0.16714E+04, tol = 0.97435E+01, time = 5.81 | CG iter. 15 -- res = 0.14559E+04, tol = 0.97435E+01, time = 5.45 | CG iter. 16 -- res = 0.11546E+04, tol = 0.97435E+01, time = 5.51 | CG iter. 17 -- res = 0.80387E+03, tol = 0.97435E+01, time = 5.29 | CG iter. 18 -- res = 0.57650E+03, tol = 0.97435E+01, time = 5.61 | CG iter. 19 -- res = 0.46854E+03, tol = 0.97435E+01, time = 5.95 | CG iter. 20 -- res = 0.36313E+03, tol = 0.97435E+01, time = 5.49 | CG iter. 21 -- res = 0.25646E+03, tol = 0.97435E+01, time = 5.23 | CG iter. 22 -- res = 0.18099E+03, tol = 0.97435E+01, time = 5.40 | CG iter. 23 -- res = 0.14632E+03, tol = 0.97435E+01, time = 5.35 | CG iter. 24 -- res = 0.12128E+03, tol = 0.97435E+01, time = 5.63 | CG iter. 25 -- res = 0.88485E+02, tol = 0.97435E+01, time = 5.63 | CG iter. 26 -- res = 0.61632E+02, tol = 0.97435E+01, time = 5.30 | CG iter. 27 -- res = 0.45749E+02, tol = 0.97435E+01, time = 5.56 | CG iter. 28 -- res = 0.36388E+02, tol = 0.97435E+01, time = 5.85 | CG iter. 29 -- res = 0.28243E+02, tol = 0.97435E+01, time = 5.56 | CG iter. 30 -- res = 0.20360E+02, tol = 0.97435E+01, time = 5.27 | CG iter. 31 -- res = 0.15336E+02, tol = 0.97435E+01, time = 5.63 | CG iter. 32 -- res = 0.12561E+02, tol = 0.97435E+01, time = 5.44 | CG iter. 33 -- res = 0.10019E+02, tol = 0.97435E+01, time = 5.39 | CG iter. 34 -- res = 0.72704E+01, tol = 0.97435E+01, time = 5.49 | CG iter. 35 -- res = 0.52470E+01, tol = 0.97435E+01, time = 5.32 | CG iter. 36 -- res = 0.42875E+01, tol = 0.97435E+01, time = 5.66 | CG iter. 37 -- res = 0.36441E+01, tol = 0.97435E+01, time = 5.52 | CG iter. 38 -- res = 0.27884E+01, tol = 0.97435E+01, time = 5.69 | CG iter. 39 -- res = 0.20516E+01, tol = 0.97435E+01, time = 5.30 | CG iter. 40 -- res = 0.16693E+01, tol = 0.97435E+01, time = 11.87 | CG iter. 41 -- res = 0.13455E+01, tol = 0.97435E+01, time = 5.35 | CG iter. 42 -- res = 0.11026E+01, tol = 0.97435E+01, time = 5.46 | CG iter. 43 -- res = 0.83600E+00, tol = 0.97435E+01, time = 5.56 | CG iter. 44 -- res = 0.66062E+00, tol = 0.97435E+01, time = 5.44 | CG iter. 45 -- res = 0.55293E+00, tol = 0.97435E+01, time = 5.96 | CG iter. 46 -- res = 0.46126E+00, tol = 0.97435E+01, time = 5.65 | CG iter. 47 -- res = 0.36463E+00, tol = 0.97435E+01, time = 5.16 | CG iter. 48 -- res = 0.27674E+00, tol = 0.97435E+01, time = 5.47 | CG iter. 49 -- res = 0.23426E+00, tol = 0.97435E+01, time = 5.37 | CG iter. 50 -- res = 0.20107E+00, tol = 0.97435E+01, time = 5.65 | Final CG iter 51 -- res = 0.20107E+00, tol = 0.97435E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9486238.594 | Old band monopole 6809848.228 | Change to band monopole 2676390.365 | Change to component monopole -2676378.854 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.24389E+05, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.32181E+02, tol = 0.47627E+18, time = 2.31 | CG iter. 3 -- res = 0.12069E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.45023E-02, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.10058E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9486197.791 | (Sampled value in CG: 9523434.786 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.510203 | New value = 1.485202 | poltype: 2 pol: 1 CPU time specind = 1.2660027E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.486076 | New value = 1.503431 | poltype: 2 pol: 2 CPU time specind = 1.5872955E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.24130E+08, tol = 0.47548E+04, time = 6.47 | CG iter. 2 -- res = 0.52926E+07, tol = 0.47548E+04, time = 6.06 | CG iter. 3 -- res = 0.84375E+06, tol = 0.47548E+04, time = 6.08 | CG iter. 4 -- res = 0.34816E+06, tol = 0.47548E+04, time = 6.83 | CG iter. 5 -- res = 0.14949E+06, tol = 0.47548E+04, time = 6.03 | CG iter. 6 -- res = 0.80512E+05, tol = 0.47548E+04, time = 6.15 | CG iter. 7 -- res = 0.44130E+05, tol = 0.47548E+04, time = 6.35 | CG iter. 8 -- res = 0.21045E+05, tol = 0.47548E+04, time = 6.31 | CG iter. 9 -- res = 0.94119E+04, tol = 0.47548E+04, time = 6.31 | CG iter. 10 -- res = 0.37668E+04, tol = 0.47548E+04, time = 6.15 | CG iter. 11 -- res = 0.17110E+04, tol = 0.47548E+04, time = 6.29 | CG iter. 12 -- res = 0.87096E+03, tol = 0.47548E+04, time = 6.37 | CG iter. 13 -- res = 0.49414E+03, tol = 0.47548E+04, time = 6.13 | CG iter. 14 -- res = 0.28641E+03, tol = 0.47548E+04, time = 6.38 | CG iter. 15 -- res = 0.14753E+03, tol = 0.47548E+04, time = 6.45 | CG iter. 16 -- res = 0.66873E+02, tol = 0.47548E+04, time = 6.11 | CG iter. 17 -- res = 0.31222E+02, tol = 0.47548E+04, time = 6.67 | CG iter. 18 -- res = 0.16109E+02, tol = 0.47548E+04, time = 6.03 | CG iter. 19 -- res = 0.88057E+01, tol = 0.47548E+04, time = 6.20 | CG iter. 20 -- res = 0.50004E+01, tol = 0.47548E+04, time = 12.66 | CG iter. 21 -- res = 0.27441E+01, tol = 0.47548E+04, time = 6.54 | CG iter. 22 -- res = 0.14054E+01, tol = 0.47548E+04, time = 6.16 | CG iter. 23 -- res = 0.69630E+00, tol = 0.47548E+04, time = 6.17 | CG iter. 24 -- res = 0.34906E+00, tol = 0.47548E+04, time = 5.87 | CG iter. 25 -- res = 0.18996E+00, tol = 0.47548E+04, time = 6.21 | CG iter. 26 -- res = 0.10874E+00, tol = 0.47548E+04, time = 6.17 | CG iter. 27 -- res = 0.62037E-01, tol = 0.47548E+04, time = 6.29 | CG iter. 28 -- res = 0.33792E-01, tol = 0.47548E+04, time = 6.29 | CG iter. 29 -- res = 0.17651E-01, tol = 0.47548E+04, time = 6.32 | CG iter. 30 -- res = 0.92124E-02, tol = 0.47548E+04, time = 6.13 | CG iter. 31 -- res = 0.49499E-02, tol = 0.47548E+04, time = 6.30 | CG iter. 32 -- res = 0.28182E-02, tol = 0.47548E+04, time = 6.10 | CG iter. 33 -- res = 0.15859E-02, tol = 0.47548E+04, time = 6.25 | CG iter. 34 -- res = 0.86723E-03, tol = 0.47548E+04, time = 7.90 | CG iter. 35 -- res = 0.45035E-03, tol = 0.47548E+04, time = 6.51 | Final CG iter 36 -- res = 0.45035E-03, tol = 0.47548E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.215 2.743 | New value -3.868 | Old value 1.215 | Difference -5.083 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.13354E+07, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.31335E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.95476E+00, tol = 0.47627E+18, time = 1.86 | Final CG iter 4 -- res = 0.69481E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9486197.791 | (Sampled value in CG: 9525605.835 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.544437 | New value = -3.673160 | poltype: 1 pol: 1 CPU time specind = 2.8436899E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.20955E+07, tol = 0.28314E+01, time = 2.56 | CG iter. 2 -- res = 0.65945E+06, tol = 0.28314E+01, time = 2.69 | CG iter. 3 -- res = 0.12762E+06, tol = 0.28314E+01, time = 3.51 | CG iter. 4 -- res = 0.51172E+05, tol = 0.28314E+01, time = 3.40 | CG iter. 5 -- res = 0.30435E+05, tol = 0.28314E+01, time = 2.94 | CG iter. 6 -- res = 0.15508E+05, tol = 0.28314E+01, time = 2.70 | CG iter. 7 -- res = 0.62312E+04, tol = 0.28314E+01, time = 3.08 | CG iter. 8 -- res = 0.26654E+04, tol = 0.28314E+01, time = 2.71 | CG iter. 9 -- res = 0.10552E+04, tol = 0.28314E+01, time = 2.42 | CG iter. 10 -- res = 0.41920E+03, tol = 0.28314E+01, time = 2.42 | CG iter. 11 -- res = 0.19671E+03, tol = 0.28314E+01, time = 2.49 | CG iter. 12 -- res = 0.99807E+02, tol = 0.28314E+01, time = 2.44 | CG iter. 13 -- res = 0.50446E+02, tol = 0.28314E+01, time = 2.71 | CG iter. 14 -- res = 0.23609E+02, tol = 0.28314E+01, time = 2.50 | CG iter. 15 -- res = 0.10362E+02, tol = 0.28314E+01, time = 2.43 | CG iter. 16 -- res = 0.43879E+01, tol = 0.28314E+01, time = 2.45 | CG iter. 17 -- res = 0.18922E+01, tol = 0.28314E+01, time = 2.63 | CG iter. 18 -- res = 0.91256E+00, tol = 0.28314E+01, time = 2.86 | CG iter. 19 -- res = 0.48131E+00, tol = 0.28314E+01, time = 2.50 | CG iter. 20 -- res = 0.24525E+00, tol = 0.28314E+01, time = 2.59 | CG iter. 21 -- res = 0.11125E+00, tol = 0.28314E+01, time = 2.37 | CG iter. 22 -- res = 0.49198E-01, tol = 0.28314E+01, time = 2.75 | CG iter. 23 -- res = 0.22003E-01, tol = 0.28314E+01, time = 2.47 | CG iter. 24 -- res = 0.10976E-01, tol = 0.28314E+01, time = 2.78 | CG iter. 25 -- res = 0.54571E-02, tol = 0.28314E+01, time = 2.39 | CG iter. 26 -- res = 0.27037E-02, tol = 0.28314E+01, time = 2.67 | CG iter. 27 -- res = 0.12751E-02, tol = 0.28314E+01, time = 2.55 | CG iter. 28 -- res = 0.61636E-03, tol = 0.28314E+01, time = 2.56 | CG iter. 29 -- res = 0.27465E-03, tol = 0.28314E+01, time = 2.63 | CG iter. 30 -- res = 0.13038E-03, tol = 0.28314E+01, time = 2.48 | CG iter. 31 -- res = 0.65265E-04, tol = 0.28314E+01, time = 2.66 | CG iter. 32 -- res = 0.33118E-04, tol = 0.28314E+01, time = 2.42 | CG iter. 33 -- res = 0.15592E-04, tol = 0.28314E+01, time = 2.68 | CG iter. 34 -- res = 0.74488E-05, tol = 0.28314E+01, time = 2.79 | CG iter. 35 -- res = 0.35315E-05, tol = 0.28314E+01, time = 2.47 | CG iter. 36 -- res = 0.16536E-05, tol = 0.28314E+01, time = 2.43 | CG iter. 37 -- res = 0.81378E-06, tol = 0.28314E+01, time = 2.58 | CG iter. 38 -- res = 0.41143E-06, tol = 0.28314E+01, time = 2.55 | CG iter. 39 -- res = 0.19992E-06, tol = 0.28314E+01, time = 2.89 | CG iter. 40 -- res = 0.92440E-07, tol = 0.28314E+01, time = 2.58 | CG iter. 41 -- res = 0.44540E-07, tol = 0.28314E+01, time = 2.48 | CG iter. 42 -- res = 0.21134E-07, tol = 0.28314E+01, time = 2.51 | CG iter. 43 -- res = 0.10058E-07, tol = 0.28314E+01, time = 2.21 | CG iter. 44 -- res = 0.49688E-08, tol = 0.28314E+01, time = 2.63 | CG iter. 45 -- res = 0.24357E-08, tol = 0.28314E+01, time = 3.22 | CG iter. 46 -- res = 0.11396E-08, tol = 0.28314E+01, time = 2.78 | CG iter. 47 -- res = 0.53373E-09, tol = 0.28314E+01, time = 2.68 | CG iter. 48 -- res = 0.25046E-09, tol = 0.28314E+01, time = 2.36 | CG iter. 49 -- res = 0.12111E-09, tol = 0.28314E+01, time = 2.62 | CG iter. 50 -- res = 0.58995E-10, tol = 0.28314E+01, time = 2.35 | Final CG iter 51 -- res = 0.58995E-10, tol = 0.28314E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.852 4.556 | New value -4.032 | Old value 4.852 | Difference -8.884 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.75777E+05, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.51911E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.21576E+01, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.58244E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.25607E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9486197.791 | (Sampled value in CG: 9516922.941 ) | CPU time specind = 1138.901 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.68583E+08, tol = 0.57712E+04, time = 17.44 | CG iter. 2 -- res = 0.59175E+08, tol = 0.57712E+04, time = 11.44 | CG iter. 3 -- res = 0.16187E+08, tol = 0.57712E+04, time = 11.62 | CG iter. 4 -- res = 0.69440E+07, tol = 0.57712E+04, time = 11.06 | CG iter. 5 -- res = 0.41633E+07, tol = 0.57712E+04, time = 11.63 | CG iter. 6 -- res = 0.24158E+07, tol = 0.57712E+04, time = 10.93 | CG iter. 7 -- res = 0.13851E+07, tol = 0.57712E+04, time = 11.13 | CG iter. 8 -- res = 0.91321E+06, tol = 0.57712E+04, time = 12.68 | CG iter. 9 -- res = 0.58002E+06, tol = 0.57712E+04, time = 11.95 | CG iter. 10 -- res = 0.34796E+06, tol = 0.57712E+04, time = 11.29 | CG iter. 11 -- res = 0.19229E+06, tol = 0.57712E+04, time = 11.07 | CG iter. 12 -- res = 0.10056E+06, tol = 0.57712E+04, time = 10.99 | CG iter. 13 -- res = 0.53382E+05, tol = 0.57712E+04, time = 11.48 | CG iter. 14 -- res = 0.30720E+05, tol = 0.57712E+04, time = 11.20 | CG iter. 15 -- res = 0.20061E+05, tol = 0.57712E+04, time = 10.94 | CG iter. 16 -- res = 0.14113E+05, tol = 0.57712E+04, time = 11.35 | CG iter. 17 -- res = 0.10391E+05, tol = 0.57712E+04, time = 11.22 | CG iter. 18 -- res = 0.76472E+04, tol = 0.57712E+04, time = 11.35 | CG iter. 19 -- res = 0.54786E+04, tol = 0.57712E+04, time = 11.33 | CG iter. 20 -- res = 0.39678E+04, tol = 0.57712E+04, time = 11.53 | CG iter. 21 -- res = 0.30718E+04, tol = 0.57712E+04, time = 11.24 | CG iter. 22 -- res = 0.26609E+04, tol = 0.57712E+04, time = 10.50 | CG iter. 23 -- res = 0.26667E+04, tol = 0.57712E+04, time = 11.08 | CG iter. 24 -- res = 0.29012E+04, tol = 0.57712E+04, time = 11.69 | CG iter. 25 -- res = 0.30510E+04, tol = 0.57712E+04, time = 11.21 | CG iter. 26 -- res = 0.30230E+04, tol = 0.57712E+04, time = 11.34 | CG iter. 27 -- res = 0.27058E+04, tol = 0.57712E+04, time = 17.70 | CG iter. 28 -- res = 0.22106E+04, tol = 0.57712E+04, time = 11.16 | CG iter. 29 -- res = 0.18250E+04, tol = 0.57712E+04, time = 11.05 | CG iter. 30 -- res = 0.15950E+04, tol = 0.57712E+04, time = 11.07 | CG iter. 31 -- res = 0.14040E+04, tol = 0.57712E+04, time = 11.37 | CG iter. 32 -- res = 0.12115E+04, tol = 0.57712E+04, time = 10.97 | CG iter. 33 -- res = 0.98853E+03, tol = 0.57712E+04, time = 10.99 | CG iter. 34 -- res = 0.75827E+03, tol = 0.57712E+04, time = 13.15 | CG iter. 35 -- res = 0.57868E+03, tol = 0.57712E+04, time = 11.46 | CG iter. 36 -- res = 0.47629E+03, tol = 0.57712E+04, time = 11.28 | CG iter. 37 -- res = 0.43472E+03, tol = 0.57712E+04, time = 11.08 | CG iter. 38 -- res = 0.41680E+03, tol = 0.57712E+04, time = 11.36 | CG iter. 39 -- res = 0.41053E+03, tol = 0.57712E+04, time = 11.39 | CG iter. 40 -- res = 0.38644E+03, tol = 0.57712E+04, time = 11.62 | CG iter. 41 -- res = 0.34638E+03, tol = 0.57712E+04, time = 11.27 | CG iter. 42 -- res = 0.29744E+03, tol = 0.57712E+04, time = 11.43 | CG iter. 43 -- res = 0.25086E+03, tol = 0.57712E+04, time = 11.06 | CG iter. 44 -- res = 0.22105E+03, tol = 0.57712E+04, time = 11.75 | CG iter. 45 -- res = 0.20192E+03, tol = 0.57712E+04, time = 11.12 | CG iter. 46 -- res = 0.17901E+03, tol = 0.57712E+04, time = 11.43 | CG iter. 47 -- res = 0.15741E+03, tol = 0.57712E+04, time = 11.74 | CG iter. 48 -- res = 0.13322E+03, tol = 0.57712E+04, time = 10.93 | CG iter. 49 -- res = 0.11262E+03, tol = 0.57712E+04, time = 11.15 | CG iter. 50 -- res = 0.97164E+02, tol = 0.57712E+04, time = 11.35 | CG iter. 51 -- res = 0.87254E+02, tol = 0.57712E+04, time = 11.21 | CG iter. 52 -- res = 0.79572E+02, tol = 0.57712E+04, time = 12.33 | CG iter. 53 -- res = 0.76484E+02, tol = 0.57712E+04, time = 16.44 | CG iter. 54 -- res = 0.74410E+02, tol = 0.57712E+04, time = 11.36 | CG iter. 55 -- res = 0.69124E+02, tol = 0.57712E+04, time = 11.49 | CG iter. 56 -- res = 0.62458E+02, tol = 0.57712E+04, time = 11.29 | CG iter. 57 -- res = 0.55915E+02, tol = 0.57712E+04, time = 11.00 | CG iter. 58 -- res = 0.48168E+02, tol = 0.57712E+04, time = 11.05 | CG iter. 59 -- res = 0.43090E+02, tol = 0.57712E+04, time = 10.99 | CG iter. 60 -- res = 0.39820E+02, tol = 0.57712E+04, time = 12.89 | Final CG iter 61 -- res = 0.39820E+02, tol = 0.57712E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.739 ( -229.624 -2231.852 2514.486 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8145586.396 | Old band monopole 9486238.594 | Change to band monopole -1340652.197 | Change to component monopole 1340646.431 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.897 2.757 | New value 0.118 | Old value -3.897 | Difference 4.014 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.472 ( 6.462 13.127 -13.435 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.001 3.877 | New value 2.106 | Old value 3.001 | Difference -0.895 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.95851E+06, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.70861E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.28954E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.63347E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.11299E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8145551.360 | (Sampled value in CG: 8120596.346 ) | Chain = 1 -- chisq = 0.81547438E+09 | Chain = 1 -- wall time = 18191.403 sec Available RAM: MemAvailable: 497821928 kB Available Swap: SwapFree: 1054821344 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 297 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442092 | --> Sampling calibration, mode = relcal | relcal = 1.3434405E-02 7.3543604E-04 -1.5901150E-03 -1.2579726E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1059370 0.1123944 97039010.5925036 | BP delta = 0.1184339 0.1248914 97039010.5442179 | BP chisq diff = -0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632583 | --> Sampling calibration, mode = relcal | relcal = -2.8215738E-03 -7.0368929E-04 1.6795653E-03 1.6131545E-03 -4.0849761E-04 6.4104097E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5592312 15215809.6596129 | BP delta = 0.0000000E+00 -0.5622612 15215812.0622657 | BP chisq diff = 2.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17485622049505 | --> Sampling calibration, mode = relcal | relcal = -7.4164398E-02 -5.7525713E-02 9.0703122E-02 4.0986985E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8191929E-04 2.9083025E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6586E-03 | 2: delta_r/delta_0: 3.2217E-05 | 3: delta_s/delta_0: 2.1693E-07 | 4: delta_r/delta_0: 2.5776E-08 | 5: delta_s/delta_0: 3.1487E-08 | 6: delta_r/delta_0: 7.6562E-09 | 7: delta_s/delta_0: 5.9626E-10 | 8: delta_r/delta_0: 2.2795E-10 | 9: delta_s/delta_0: 2.0431E-10 | 10: delta_r/delta_0: 1.2194E-10 | 11: delta_s/delta_0: 6.2653E-10 | 12: delta_r/delta_0: 1.2130E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.088207219119705E-003 2.755468572264012E-005 | BP delta = 6.3732833E-02 8.3666503E-02 50482825.6033931 | BP delta = 6.7336656E-02 8.7270327E-02 50482829.5193834 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02610494 | --> Sampling calibration, mode = relcal | relcal = -0.1066493 -9.5606439E-02 0.1449558 5.7299916E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0664629E-03 9.7341044E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4470E-05 | 2: delta_r/delta_0: 1.2591E-06 | 3: delta_s/delta_0: 2.4249E-07 | 4: delta_r/delta_0: 4.3870E-08 | 5: delta_s/delta_0: 1.9070E-08 | 6: delta_r/delta_0: 6.1080E-09 | 7: delta_s/delta_0: 6.4210E-09 | 8: delta_r/delta_0: 1.1420E-09 | 9: delta_s/delta_0: 9.2856E-10 | 10: delta_r/delta_0: 2.4572E-10 | 11: delta_s/delta_0: 5.4377E-09 | 12: delta_r/delta_0: 2.4851E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.766161178206764E-003 2.810561602188417E-005 | BP delta = -0.3150221 -0.2862171 57391212.2805078 | BP delta = -0.3180173 -0.2892123 57391212.2307171 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81246738 | --> Sampling calibration, mode = relcal | relcal = 0.2954398 0.2249929 -0.2838615 -0.2365711 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.2058040E-04 5.4092375E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2434E-04 | 2: delta_r/delta_0: 1.0347E-05 | 3: delta_s/delta_0: 6.6309E-06 | 4: delta_r/delta_0: 5.3002E-07 | 5: delta_s/delta_0: 3.9587E-07 | 6: delta_r/delta_0: 2.0261E-07 | 7: delta_s/delta_0: 6.2723E-08 | 8: delta_r/delta_0: 4.4390E-08 | 9: delta_s/delta_0: 5.4505E-08 | 10: delta_r/delta_0: 7.0608E-09 | 11: delta_s/delta_0: 9.5113E-10 | 12: delta_r/delta_0: 4.7738E-10 | 13: delta_s/delta_0: 4.7627E-10 | 14: delta_r/delta_0: 2.6104E-10 | 15: delta_s/delta_0: 4.8029E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.108317258843208E-002 4.020532154790217E-005 | BP delta = -0.3458495 -0.3704567 72485269.6042828 | BP delta = -0.3408765 -0.3654837 72485269.4714711 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95932863 | --> Sampling calibration, mode = relcal | relcal = 0.1065833 0.1394882 -0.1102715 -0.1358000 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8661976E-03 1.2247579E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0853E-03 | 2: delta_r/delta_0: 5.0153E-05 | 3: delta_s/delta_0: 1.1265E-03 | 4: delta_r/delta_0: 4.6632E-05 | 5: delta_s/delta_0: 5.1450E-07 | 6: delta_r/delta_0: 1.9574E-07 | 7: delta_s/delta_0: 4.3838E-07 | 8: delta_r/delta_0: 5.1824E-08 | 9: delta_s/delta_0: 1.5338E-08 | 10: delta_r/delta_0: 6.7784E-09 | 11: delta_s/delta_0: 2.5959E-09 | 12: delta_r/delta_0: 1.2767E-09 | 13: delta_s/delta_0: 1.0481E-09 | 14: delta_r/delta_0: 1.0532E-10 | 15: delta_s/delta_0: 7.6756E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.773988085332975E-002 3.696488682128907E-005 | BP delta = 7.6442070E-02 0.1802786 72795132.7231314 | BP delta = 0.1124538 0.2162903 72795133.6114526 | BP chisq diff = 0.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.104973 | New value = -3.153363 | poltype: 2 pol: 1 CPU time specind = 1.9611120E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152889 | New value = -3.229165 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.211655 | New value = -3.194532 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106623 | New value = -3.162820 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230670 | New value = -3.167438 | poltype: 2 pol: 2 CPU time specind = 1.9831896E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.13583E+08, tol = 0.85726E+01, time = 5.94 | CG iter. 2 -- res = 0.36309E+06, tol = 0.85726E+01, time = 5.80 | CG iter. 3 -- res = 0.67199E+05, tol = 0.85726E+01, time = 5.75 | CG iter. 4 -- res = 0.54532E+05, tol = 0.85726E+01, time = 6.12 | CG iter. 5 -- res = 0.53722E+05, tol = 0.85726E+01, time = 5.89 | CG iter. 6 -- res = 0.56677E+05, tol = 0.85726E+01, time = 5.66 | CG iter. 7 -- res = 0.58511E+05, tol = 0.85726E+01, time = 7.22 | CG iter. 8 -- res = 0.46990E+05, tol = 0.85726E+01, time = 6.53 | CG iter. 9 -- res = 0.38211E+05, tol = 0.85726E+01, time = 6.56 | CG iter. 10 -- res = 0.30336E+05, tol = 0.85726E+01, time = 6.44 | CG iter. 11 -- res = 0.20721E+05, tol = 0.85726E+01, time = 5.67 | CG iter. 12 -- res = 0.14401E+05, tol = 0.85726E+01, time = 5.94 | CG iter. 13 -- res = 0.11524E+05, tol = 0.85726E+01, time = 6.02 | CG iter. 14 -- res = 0.10536E+05, tol = 0.85726E+01, time = 5.88 | CG iter. 15 -- res = 0.92703E+04, tol = 0.85726E+01, time = 6.09 | CG iter. 16 -- res = 0.68453E+04, tol = 0.85726E+01, time = 5.71 | CG iter. 17 -- res = 0.47697E+04, tol = 0.85726E+01, time = 6.13 | CG iter. 18 -- res = 0.38147E+04, tol = 0.85726E+01, time = 5.74 | CG iter. 19 -- res = 0.32437E+04, tol = 0.85726E+01, time = 5.93 | CG iter. 20 -- res = 0.27260E+04, tol = 0.85726E+01, time = 6.06 | CG iter. 21 -- res = 0.21199E+04, tol = 0.85726E+01, time = 5.53 | CG iter. 22 -- res = 0.16860E+04, tol = 0.85726E+01, time = 5.90 | CG iter. 23 -- res = 0.14768E+04, tol = 0.85726E+01, time = 6.20 | CG iter. 24 -- res = 0.12573E+04, tol = 0.85726E+01, time = 6.03 | CG iter. 25 -- res = 0.98078E+03, tol = 0.85726E+01, time = 6.16 | CG iter. 26 -- res = 0.79255E+03, tol = 0.85726E+01, time = 5.85 | CG iter. 27 -- res = 0.71844E+03, tol = 0.85726E+01, time = 5.88 | CG iter. 28 -- res = 0.65922E+03, tol = 0.85726E+01, time = 5.94 | CG iter. 29 -- res = 0.53676E+03, tol = 0.85726E+01, time = 5.91 | CG iter. 30 -- res = 0.43514E+03, tol = 0.85726E+01, time = 6.09 | CG iter. 31 -- res = 0.37405E+03, tol = 0.85726E+01, time = 6.07 | CG iter. 32 -- res = 0.33320E+03, tol = 0.85726E+01, time = 5.92 | CG iter. 33 -- res = 0.27991E+03, tol = 0.85726E+01, time = 6.15 | CG iter. 34 -- res = 0.21445E+03, tol = 0.85726E+01, time = 5.80 | CG iter. 35 -- res = 0.17566E+03, tol = 0.85726E+01, time = 5.69 | CG iter. 36 -- res = 0.15390E+03, tol = 0.85726E+01, time = 5.51 | CG iter. 37 -- res = 0.12906E+03, tol = 0.85726E+01, time = 6.17 | CG iter. 38 -- res = 0.95502E+02, tol = 0.85726E+01, time = 5.84 | CG iter. 39 -- res = 0.73109E+02, tol = 0.85726E+01, time = 5.84 | CG iter. 40 -- res = 0.61771E+02, tol = 0.85726E+01, time = 6.15 | CG iter. 41 -- res = 0.50511E+02, tol = 0.85726E+01, time = 6.13 | CG iter. 42 -- res = 0.39252E+02, tol = 0.85726E+01, time = 12.15 | CG iter. 43 -- res = 0.29842E+02, tol = 0.85726E+01, time = 5.84 | CG iter. 44 -- res = 0.24064E+02, tol = 0.85726E+01, time = 6.09 | CG iter. 45 -- res = 0.20138E+02, tol = 0.85726E+01, time = 5.70 | CG iter. 46 -- res = 0.15865E+02, tol = 0.85726E+01, time = 6.04 | CG iter. 47 -- res = 0.12152E+02, tol = 0.85726E+01, time = 5.84 | CG iter. 48 -- res = 0.94647E+01, tol = 0.85726E+01, time = 5.83 | CG iter. 49 -- res = 0.77268E+01, tol = 0.85726E+01, time = 5.88 | CG iter. 50 -- res = 0.63609E+01, tol = 0.85726E+01, time = 6.03 | Final CG iter 51 -- res = 0.63609E+01, tol = 0.85726E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8165096.573 | Old band monopole 8145586.396 | Change to band monopole 19510.176 | Change to component monopole -19510.093 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.17902E+06, tol = 0.47627E+18, time = 3.21 | CG iter. 2 -- res = 0.13274E+03, tol = 0.47627E+18, time = 2.45 | CG iter. 3 -- res = 0.38010E+01, tol = 0.47627E+18, time = 2.45 | CG iter. 4 -- res = 0.21111E-01, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.32045E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8165061.453 | (Sampled value in CG: 8109682.907 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485202 | New value = 1.519964 | poltype: 2 pol: 1 CPU time specind = 1.8857002E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.503431 | New value = 1.473661 | poltype: 2 pol: 2 CPU time specind = 1.1303902E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.24259E+08, tol = 0.47615E+04, time = 6.35 | CG iter. 2 -- res = 0.53988E+07, tol = 0.47615E+04, time = 7.11 | CG iter. 3 -- res = 0.83142E+06, tol = 0.47615E+04, time = 6.69 | CG iter. 4 -- res = 0.34766E+06, tol = 0.47615E+04, time = 6.49 | CG iter. 5 -- res = 0.15086E+06, tol = 0.47615E+04, time = 6.72 | CG iter. 6 -- res = 0.79867E+05, tol = 0.47615E+04, time = 6.32 | CG iter. 7 -- res = 0.44519E+05, tol = 0.47615E+04, time = 6.97 | CG iter. 8 -- res = 0.21376E+05, tol = 0.47615E+04, time = 6.45 | CG iter. 9 -- res = 0.92209E+04, tol = 0.47615E+04, time = 6.66 | CG iter. 10 -- res = 0.36995E+04, tol = 0.47615E+04, time = 6.60 | CG iter. 11 -- res = 0.16642E+04, tol = 0.47615E+04, time = 6.62 | CG iter. 12 -- res = 0.84692E+03, tol = 0.47615E+04, time = 7.03 | CG iter. 13 -- res = 0.49047E+03, tol = 0.47615E+04, time = 6.82 | CG iter. 14 -- res = 0.27750E+03, tol = 0.47615E+04, time = 6.61 | CG iter. 15 -- res = 0.14337E+03, tol = 0.47615E+04, time = 6.61 | CG iter. 16 -- res = 0.68025E+02, tol = 0.47615E+04, time = 6.87 | CG iter. 17 -- res = 0.31948E+02, tol = 0.47615E+04, time = 6.38 | CG iter. 18 -- res = 0.15896E+02, tol = 0.47615E+04, time = 6.75 | CG iter. 19 -- res = 0.86119E+01, tol = 0.47615E+04, time = 10.95 | CG iter. 20 -- res = 0.49287E+01, tol = 0.47615E+04, time = 9.49 | CG iter. 21 -- res = 0.26969E+01, tol = 0.47615E+04, time = 6.79 | CG iter. 22 -- res = 0.13727E+01, tol = 0.47615E+04, time = 6.80 | CG iter. 23 -- res = 0.68267E+00, tol = 0.47615E+04, time = 7.06 | CG iter. 24 -- res = 0.34652E+00, tol = 0.47615E+04, time = 6.83 | CG iter. 25 -- res = 0.19038E+00, tol = 0.47615E+04, time = 6.73 | CG iter. 26 -- res = 0.10897E+00, tol = 0.47615E+04, time = 6.73 | CG iter. 27 -- res = 0.61100E-01, tol = 0.47615E+04, time = 6.90 | CG iter. 28 -- res = 0.32798E-01, tol = 0.47615E+04, time = 6.71 | CG iter. 29 -- res = 0.17172E-01, tol = 0.47615E+04, time = 6.85 | CG iter. 30 -- res = 0.92044E-02, tol = 0.47615E+04, time = 6.78 | CG iter. 31 -- res = 0.50838E-02, tol = 0.47615E+04, time = 6.81 | CG iter. 32 -- res = 0.29245E-02, tol = 0.47615E+04, time = 8.45 | CG iter. 33 -- res = 0.16816E-02, tol = 0.47615E+04, time = 7.27 | CG iter. 34 -- res = 0.90521E-03, tol = 0.47615E+04, time = 6.48 | CG iter. 35 -- res = 0.47496E-03, tol = 0.47615E+04, time = 6.51 | Final CG iter 36 -- res = 0.47496E-03, tol = 0.47615E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.156 2.741 | New value -0.468 | Old value 0.156 | Difference -0.625 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.25773E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.42061E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.13048E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.75653E-03, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.24846E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8165061.453 | (Sampled value in CG: 8109972.007 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.673160 | New value = -3.432969 | poltype: 1 pol: 1 CPU time specind = 1.2568951E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.26822E+07, tol = 0.28288E+01, time = 2.59 | CG iter. 2 -- res = 0.12663E+07, tol = 0.28288E+01, time = 2.63 | CG iter. 3 -- res = 0.25286E+06, tol = 0.28288E+01, time = 2.73 | CG iter. 4 -- res = 0.10490E+06, tol = 0.28288E+01, time = 2.78 | CG iter. 5 -- res = 0.61722E+05, tol = 0.28288E+01, time = 2.60 | CG iter. 6 -- res = 0.31607E+05, tol = 0.28288E+01, time = 3.11 | CG iter. 7 -- res = 0.12413E+05, tol = 0.28288E+01, time = 3.13 | CG iter. 8 -- res = 0.56240E+04, tol = 0.28288E+01, time = 2.73 | CG iter. 9 -- res = 0.26185E+04, tol = 0.28288E+01, time = 2.87 | CG iter. 10 -- res = 0.10792E+04, tol = 0.28288E+01, time = 2.86 | CG iter. 11 -- res = 0.42705E+03, tol = 0.28288E+01, time = 2.88 | CG iter. 12 -- res = 0.19562E+03, tol = 0.28288E+01, time = 2.95 | CG iter. 13 -- res = 0.97874E+02, tol = 0.28288E+01, time = 3.16 | CG iter. 14 -- res = 0.52149E+02, tol = 0.28288E+01, time = 2.85 | CG iter. 15 -- res = 0.25772E+02, tol = 0.28288E+01, time = 2.82 | CG iter. 16 -- res = 0.12435E+02, tol = 0.28288E+01, time = 2.76 | CG iter. 17 -- res = 0.52967E+01, tol = 0.28288E+01, time = 2.92 | CG iter. 18 -- res = 0.23743E+01, tol = 0.28288E+01, time = 2.83 | CG iter. 19 -- res = 0.10387E+01, tol = 0.28288E+01, time = 3.24 | CG iter. 20 -- res = 0.50906E+00, tol = 0.28288E+01, time = 2.98 | CG iter. 21 -- res = 0.26840E+00, tol = 0.28288E+01, time = 2.78 | CG iter. 22 -- res = 0.13160E+00, tol = 0.28288E+01, time = 2.80 | CG iter. 23 -- res = 0.60995E-01, tol = 0.28288E+01, time = 2.79 | CG iter. 24 -- res = 0.26937E-01, tol = 0.28288E+01, time = 2.78 | CG iter. 25 -- res = 0.12324E-01, tol = 0.28288E+01, time = 2.90 | CG iter. 26 -- res = 0.58803E-02, tol = 0.28288E+01, time = 2.86 | CG iter. 27 -- res = 0.29484E-02, tol = 0.28288E+01, time = 2.62 | CG iter. 28 -- res = 0.15825E-02, tol = 0.28288E+01, time = 2.56 | CG iter. 29 -- res = 0.77368E-03, tol = 0.28288E+01, time = 2.69 | CG iter. 30 -- res = 0.37240E-03, tol = 0.28288E+01, time = 2.64 | CG iter. 31 -- res = 0.17717E-03, tol = 0.28288E+01, time = 2.67 | CG iter. 32 -- res = 0.82731E-04, tol = 0.28288E+01, time = 2.97 | CG iter. 33 -- res = 0.40059E-04, tol = 0.28288E+01, time = 2.87 | CG iter. 34 -- res = 0.20184E-04, tol = 0.28288E+01, time = 2.78 | CG iter. 35 -- res = 0.10474E-04, tol = 0.28288E+01, time = 2.69 | CG iter. 36 -- res = 0.54049E-05, tol = 0.28288E+01, time = 2.95 | CG iter. 37 -- res = 0.24744E-05, tol = 0.28288E+01, time = 2.76 | CG iter. 38 -- res = 0.12040E-05, tol = 0.28288E+01, time = 2.92 | CG iter. 39 -- res = 0.56327E-06, tol = 0.28288E+01, time = 2.70 | CG iter. 40 -- res = 0.27452E-06, tol = 0.28288E+01, time = 2.77 | CG iter. 41 -- res = 0.13711E-06, tol = 0.28288E+01, time = 2.73 | CG iter. 42 -- res = 0.70702E-07, tol = 0.28288E+01, time = 2.75 | CG iter. 43 -- res = 0.33832E-07, tol = 0.28288E+01, time = 2.64 | CG iter. 44 -- res = 0.15527E-07, tol = 0.28288E+01, time = 3.02 | CG iter. 45 -- res = 0.69881E-08, tol = 0.28288E+01, time = 2.89 | CG iter. 46 -- res = 0.33997E-08, tol = 0.28288E+01, time = 2.73 | CG iter. 47 -- res = 0.16913E-08, tol = 0.28288E+01, time = 2.71 | CG iter. 48 -- res = 0.86889E-09, tol = 0.28288E+01, time = 2.65 | CG iter. 49 -- res = 0.43876E-09, tol = 0.28288E+01, time = 3.00 | CG iter. 50 -- res = 0.20086E-09, tol = 0.28288E+01, time = 2.74 | Final CG iter 51 -- res = 0.20086E-09, tol = 0.28288E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.777 4.515 | New value 7.181 | Old value -1.777 | Difference 8.958 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.84313E+05, tol = 0.47627E+18, time = 7.95 | CG iter. 2 -- res = 0.78123E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.28940E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.12008E-01, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.10750E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8165061.453 | (Sampled value in CG: 8121124.616 ) | CPU time specind = 1231.938 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.69155E+08, tol = 0.57545E+04, time = 12.56 | CG iter. 2 -- res = 0.58876E+08, tol = 0.57545E+04, time = 12.54 | CG iter. 3 -- res = 0.15200E+08, tol = 0.57545E+04, time = 14.06 | CG iter. 4 -- res = 0.64580E+07, tol = 0.57545E+04, time = 12.27 | CG iter. 5 -- res = 0.38212E+07, tol = 0.57545E+04, time = 12.12 | CG iter. 6 -- res = 0.22303E+07, tol = 0.57545E+04, time = 12.55 | CG iter. 7 -- res = 0.13448E+07, tol = 0.57545E+04, time = 11.83 | CG iter. 8 -- res = 0.90516E+06, tol = 0.57545E+04, time = 11.88 | CG iter. 9 -- res = 0.58566E+06, tol = 0.57545E+04, time = 12.32 | CG iter. 10 -- res = 0.34351E+06, tol = 0.57545E+04, time = 11.89 | CG iter. 11 -- res = 0.19109E+06, tol = 0.57545E+04, time = 11.51 | CG iter. 12 -- res = 0.10793E+06, tol = 0.57545E+04, time = 12.60 | CG iter. 13 -- res = 0.62366E+05, tol = 0.57545E+04, time = 12.11 | CG iter. 14 -- res = 0.40173E+05, tol = 0.57545E+04, time = 12.87 | CG iter. 15 -- res = 0.30298E+05, tol = 0.57545E+04, time = 12.18 | CG iter. 16 -- res = 0.25822E+05, tol = 0.57545E+04, time = 12.50 | CG iter. 17 -- res = 0.23635E+05, tol = 0.57545E+04, time = 11.98 | CG iter. 18 -- res = 0.21428E+05, tol = 0.57545E+04, time = 12.31 | CG iter. 19 -- res = 0.19047E+05, tol = 0.57545E+04, time = 11.94 | CG iter. 20 -- res = 0.17189E+05, tol = 0.57545E+04, time = 18.67 | CG iter. 21 -- res = 0.16822E+05, tol = 0.57545E+04, time = 11.71 | CG iter. 22 -- res = 0.17787E+05, tol = 0.57545E+04, time = 11.93 | CG iter. 23 -- res = 0.19066E+05, tol = 0.57545E+04, time = 12.15 | CG iter. 24 -- res = 0.19353E+05, tol = 0.57545E+04, time = 12.24 | CG iter. 25 -- res = 0.17126E+05, tol = 0.57545E+04, time = 12.87 | CG iter. 26 -- res = 0.13231E+05, tol = 0.57545E+04, time = 12.32 | CG iter. 27 -- res = 0.99423E+04, tol = 0.57545E+04, time = 13.62 | CG iter. 28 -- res = 0.75486E+04, tol = 0.57545E+04, time = 12.47 | CG iter. 29 -- res = 0.59690E+04, tol = 0.57545E+04, time = 11.94 | CG iter. 30 -- res = 0.49945E+04, tol = 0.57545E+04, time = 12.01 | CG iter. 31 -- res = 0.44221E+04, tol = 0.57545E+04, time = 12.69 | CG iter. 32 -- res = 0.39742E+04, tol = 0.57545E+04, time = 12.47 | CG iter. 33 -- res = 0.33498E+04, tol = 0.57545E+04, time = 11.96 | CG iter. 34 -- res = 0.27198E+04, tol = 0.57545E+04, time = 12.25 | CG iter. 35 -- res = 0.23278E+04, tol = 0.57545E+04, time = 12.56 | CG iter. 36 -- res = 0.21474E+04, tol = 0.57545E+04, time = 12.26 | CG iter. 37 -- res = 0.21175E+04, tol = 0.57545E+04, time = 11.63 | CG iter. 38 -- res = 0.20868E+04, tol = 0.57545E+04, time = 12.13 | CG iter. 39 -- res = 0.19183E+04, tol = 0.57545E+04, time = 12.00 | CG iter. 40 -- res = 0.16125E+04, tol = 0.57545E+04, time = 12.08 | CG iter. 41 -- res = 0.13164E+04, tol = 0.57545E+04, time = 12.22 | CG iter. 42 -- res = 0.10663E+04, tol = 0.57545E+04, time = 11.82 | CG iter. 43 -- res = 0.89905E+03, tol = 0.57545E+04, time = 12.41 | CG iter. 44 -- res = 0.80756E+03, tol = 0.57545E+04, time = 18.55 | CG iter. 45 -- res = 0.73237E+03, tol = 0.57545E+04, time = 12.78 | CG iter. 46 -- res = 0.65176E+03, tol = 0.57545E+04, time = 12.26 | CG iter. 47 -- res = 0.58197E+03, tol = 0.57545E+04, time = 12.11 | CG iter. 48 -- res = 0.50601E+03, tol = 0.57545E+04, time = 12.28 | CG iter. 49 -- res = 0.43069E+03, tol = 0.57545E+04, time = 11.88 | CG iter. 50 -- res = 0.39350E+03, tol = 0.57545E+04, time = 12.03 | CG iter. 51 -- res = 0.38611E+03, tol = 0.57545E+04, time = 13.93 | CG iter. 52 -- res = 0.39146E+03, tol = 0.57545E+04, time = 12.18 | CG iter. 53 -- res = 0.36456E+03, tol = 0.57545E+04, time = 12.14 | CG iter. 54 -- res = 0.31673E+03, tol = 0.57545E+04, time = 12.27 | CG iter. 55 -- res = 0.27402E+03, tol = 0.57545E+04, time = 12.07 | CG iter. 56 -- res = 0.23595E+03, tol = 0.57545E+04, time = 12.17 | CG iter. 57 -- res = 0.20754E+03, tol = 0.57545E+04, time = 11.82 | CG iter. 58 -- res = 0.19062E+03, tol = 0.57545E+04, time = 12.57 | CG iter. 59 -- res = 0.17878E+03, tol = 0.57545E+04, time = 12.45 | CG iter. 60 -- res = 0.16198E+03, tol = 0.57545E+04, time = 12.91 | Final CG iter 61 -- res = 0.16198E+03, tol = 0.57545E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.940 ( -229.596 -2233.314 2516.362 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6854497.085 | Old band monopole 8165096.573 | Change to band monopole -1310599.488 | Change to component monopole 1310593.851 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.472 2.733 | New value 2.381 | Old value -0.472 | Difference 2.853 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.167 ( 6.435 17.701 -18.623 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.208 4.157 | New value -5.724 | Old value 11.208 | Difference -16.932 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.48700E+06, tol = 0.47627E+18, time = 2.32 | CG iter. 2 -- res = 0.48072E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.21860E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.49985E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.89266E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6854467.602 | (Sampled value in CG: 6836662.533 ) | Chain = 1 -- chisq = 0.81571671E+09 | Chain = 1 -- wall time = 5813.150 sec Available RAM: MemAvailable: 383936884 kB Available Swap: SwapFree: 1125362400 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 298 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06439102 | --> Sampling calibration, mode = relcal | relcal = 1.3426900E-02 7.4146717E-04 -1.5862763E-03 -1.2582091E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1184339 0.1248914 9406248.15718643 | BP delta = 0.1184339 0.1297495 9406328.49976788 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632812 | --> Sampling calibration, mode = relcal | relcal = -2.8226955E-03 -7.0385786E-04 1.6791723E-03 1.6147005E-03 -4.0888047E-04 6.4156100E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5622612 15219306.4875681 | BP delta = 0.0000000E+00 -0.5688061 15219301.7592561 | BP chisq diff = -4.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18268613498332 | --> Sampling calibration, mode = relcal | relcal = -7.6963760E-02 -5.9638523E-02 9.3854770E-02 4.2747512E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0940942E-04 7.2264955E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6565E-05 | 2: delta_r/delta_0: 2.0701E-06 | 3: delta_s/delta_0: 2.1984E-07 | 4: delta_r/delta_0: 3.5985E-08 | 5: delta_s/delta_0: 1.0259E-08 | 6: delta_r/delta_0: 3.7665E-09 | 7: delta_s/delta_0: 1.2355E-09 | 8: delta_r/delta_0: 4.2829E-10 | 9: delta_s/delta_0: 6.4725E-10 | 10: delta_r/delta_0: 1.7526E-10 | 11: delta_s/delta_0: 1.5860E-10 | 12: delta_r/delta_0: 2.7314E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.264049612370289E-003 2.736884456122602E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6566E-05 | 2: delta_r/delta_0: 2.0701E-06 | 3: delta_s/delta_0: 2.1983E-07 | 4: delta_r/delta_0: 3.5983E-08 | 5: delta_s/delta_0: 1.0259E-08 | 6: delta_r/delta_0: 3.7663E-09 | 7: delta_s/delta_0: 1.2354E-09 | 8: delta_r/delta_0: 4.2827E-10 | 9: delta_s/delta_0: 6.4704E-10 | 10: delta_r/delta_0: 1.7519E-10 | 11: delta_s/delta_0: 1.5854E-10 | 12: delta_r/delta_0: 2.7303E-11 | Reached bicg-stab tolerance | BP delta = 6.3732833E-02 8.3666503E-02 3457791.42961408 | BP delta = 6.3732833E-02 8.3798721E-02 3458987.34275969 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02622822 | --> Sampling calibration, mode = relcal | relcal = -0.1067615 -9.5579624E-02 0.1450023 5.7338841E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1592455E-03 1.4144719E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1325E-05 | 2: delta_r/delta_0: 1.3564E-06 | 3: delta_s/delta_0: 2.6339E-07 | 4: delta_r/delta_0: 3.2169E-08 | 5: delta_s/delta_0: 2.5698E-08 | 6: delta_r/delta_0: 6.4241E-09 | 7: delta_s/delta_0: 5.5435E-09 | 8: delta_r/delta_0: 1.7095E-09 | 9: delta_s/delta_0: 7.9587E-10 | 10: delta_r/delta_0: 5.8934E-10 | 11: delta_s/delta_0: 1.2972E-09 | 12: delta_r/delta_0: 9.5363E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.882498185966570E-003 2.810226354308232E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1324E-05 | 2: delta_r/delta_0: 1.3563E-06 | 3: delta_s/delta_0: 2.6338E-07 | 4: delta_r/delta_0: 3.2153E-08 | 5: delta_s/delta_0: 2.5714E-08 | 6: delta_r/delta_0: 6.4252E-09 | 7: delta_s/delta_0: 5.5478E-09 | 8: delta_r/delta_0: 1.7094E-09 | 9: delta_s/delta_0: 7.9578E-10 | 10: delta_r/delta_0: 5.8922E-10 | 11: delta_s/delta_0: 1.2975E-09 | 12: delta_r/delta_0: 9.5306E-11 | Reached bicg-stab tolerance | BP delta = -0.3180173 -0.2892123 2841409.80463968 | BP delta = -0.3180173 -0.2912863 2841473.58605740 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81283203 | --> Sampling calibration, mode = relcal | relcal = 0.2956007 0.2250494 -0.2839685 -0.2366816 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1884047E-04 5.3862869E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0902E-03 | 2: delta_r/delta_0: 2.6101E-05 | 3: delta_s/delta_0: 1.7935E-06 | 4: delta_r/delta_0: 5.0877E-07 | 5: delta_s/delta_0: 2.7596E-07 | 6: delta_r/delta_0: 1.3259E-07 | 7: delta_s/delta_0: 2.4057E-07 | 8: delta_r/delta_0: 1.4868E-07 | 9: delta_s/delta_0: 1.5619E-08 | 10: delta_r/delta_0: 9.3853E-09 | 11: delta_s/delta_0: 3.3881E-08 | 12: delta_r/delta_0: 6.3161E-10 | 13: delta_s/delta_0: 6.2107E-10 | 14: delta_r/delta_0: 3.7603E-10 | 15: delta_s/delta_0: 4.5214E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.408553260998312E-002 4.018705458466964E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0901E-03 | 2: delta_r/delta_0: 2.6098E-05 | 3: delta_s/delta_0: 1.7935E-06 | 4: delta_r/delta_0: 5.0877E-07 | 5: delta_s/delta_0: 2.7600E-07 | 6: delta_r/delta_0: 1.3259E-07 | 7: delta_s/delta_0: 2.4052E-07 | 8: delta_r/delta_0: 1.4867E-07 | 9: delta_s/delta_0: 1.5620E-08 | 10: delta_r/delta_0: 9.3875E-09 | 11: delta_s/delta_0: 3.3894E-08 | 12: delta_r/delta_0: 6.3159E-10 | 13: delta_s/delta_0: 6.2098E-10 | 14: delta_r/delta_0: 3.7540E-10 | 15: delta_s/delta_0: 4.5153E-11 | Reached bicg-stab tolerance | BP delta = -0.3408765 -0.3654837 2827150.19955185 | BP delta = -0.3408765 -0.3784708 2827151.62799265 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95983557 | --> Sampling calibration, mode = relcal | relcal = 0.1067756 0.1395942 -0.1103355 -0.1360342 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0172731E-02 1.2201879E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8551E-02 | 2: delta_r/delta_0: 1.6269E-03 | 3: delta_s/delta_0: 3.8273E-03 | 4: delta_r/delta_0: 1.9265E-04 | 5: delta_s/delta_0: 6.0015E-05 | 6: delta_r/delta_0: 2.3124E-05 | 7: delta_s/delta_0: 1.0922E-04 | 8: delta_r/delta_0: 1.4255E-05 | 9: delta_s/delta_0: 4.5441E-05 | 10: delta_r/delta_0: 7.0012E-06 | 11: delta_s/delta_0: 7.6294E-07 | 12: delta_r/delta_0: 7.4800E-08 | 13: delta_s/delta_0: 3.2673E-04 | 14: delta_r/delta_0: 2.6029E-05 | 15: delta_s/delta_0: 3.3999E-09 | 16: delta_r/delta_0: 1.2095E-09 | 17: delta_s/delta_0: 6.7883E-10 | 18: delta_r/delta_0: 2.5967E-10 | 19: delta_s/delta_0: 1.7600E-10 | 20: delta_r/delta_0: 1.0283E-10 | 21: delta_s/delta_0: 9.5823E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.235575878189224 3.694630775155515E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8374E-02 | 2: delta_r/delta_0: 1.6227E-03 | 3: delta_s/delta_0: 3.8190E-03 | 4: delta_r/delta_0: 1.9226E-04 | 5: delta_s/delta_0: 5.9130E-05 | 6: delta_r/delta_0: 2.2747E-05 | 7: delta_s/delta_0: 1.0936E-04 | 8: delta_r/delta_0: 1.4252E-05 | 9: delta_s/delta_0: 4.5795E-05 | 10: delta_r/delta_0: 7.0478E-06 | 11: delta_s/delta_0: 7.6203E-07 | 12: delta_r/delta_0: 7.5299E-08 | 13: delta_s/delta_0: 3.0599E-04 | 14: delta_r/delta_0: 2.4556E-05 | 15: delta_s/delta_0: 3.4216E-09 | 16: delta_r/delta_0: 1.2151E-09 | 17: delta_s/delta_0: 6.8405E-10 | 18: delta_r/delta_0: 2.6172E-10 | 19: delta_s/delta_0: 1.7767E-10 | 20: delta_r/delta_0: 1.0345E-10 | 21: delta_s/delta_0: 9.6369E-11 | Reached bicg-stab tolerance | BP delta = 0.1124538 0.2162903 3003971.69183787 | BP delta = 0.1124538 0.2209972 3003989.73839243 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153363 | New value = -3.115767 | poltype: 2 pol: 1 CPU time specind = 1.0673046E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.229165 | New value = -3.181099 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194532 | New value = -3.150277 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162820 | New value = -3.016552 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167438 | New value = -3.136549 | poltype: 2 pol: 2 CPU time specind = 3.3850670E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.13610E+08, tol = 0.96660E+01, time = 5.43 | CG iter. 2 -- res = 0.36029E+06, tol = 0.96660E+01, time = 5.75 | CG iter. 3 -- res = 0.77024E+05, tol = 0.96660E+01, time = 5.83 | CG iter. 4 -- res = 0.73222E+05, tol = 0.96660E+01, time = 5.62 | CG iter. 5 -- res = 0.73145E+05, tol = 0.96660E+01, time = 5.88 | CG iter. 6 -- res = 0.78508E+05, tol = 0.96660E+01, time = 5.53 | CG iter. 7 -- res = 0.79734E+05, tol = 0.96660E+01, time = 5.76 | CG iter. 8 -- res = 0.63494E+05, tol = 0.96660E+01, time = 5.94 | CG iter. 9 -- res = 0.48151E+05, tol = 0.96660E+01, time = 5.78 | CG iter. 10 -- res = 0.36867E+05, tol = 0.96660E+01, time = 5.70 | CG iter. 11 -- res = 0.24973E+05, tol = 0.96660E+01, time = 5.77 | CG iter. 12 -- res = 0.17163E+05, tol = 0.96660E+01, time = 5.51 | CG iter. 13 -- res = 0.14346E+05, tol = 0.96660E+01, time = 6.09 | CG iter. 14 -- res = 0.13059E+05, tol = 0.96660E+01, time = 7.10 | CG iter. 15 -- res = 0.11203E+05, tol = 0.96660E+01, time = 6.66 | CG iter. 16 -- res = 0.81248E+04, tol = 0.96660E+01, time = 5.81 | CG iter. 17 -- res = 0.57351E+04, tol = 0.96660E+01, time = 5.79 | CG iter. 18 -- res = 0.45737E+04, tol = 0.96660E+01, time = 5.94 | CG iter. 19 -- res = 0.40532E+04, tol = 0.96660E+01, time = 5.80 | CG iter. 20 -- res = 0.31748E+04, tol = 0.96660E+01, time = 5.40 | CG iter. 21 -- res = 0.23609E+04, tol = 0.96660E+01, time = 6.20 | CG iter. 22 -- res = 0.19021E+04, tol = 0.96660E+01, time = 5.99 | CG iter. 23 -- res = 0.16938E+04, tol = 0.96660E+01, time = 5.52 | CG iter. 24 -- res = 0.14296E+04, tol = 0.96660E+01, time = 6.14 | CG iter. 25 -- res = 0.11006E+04, tol = 0.96660E+01, time = 5.88 | CG iter. 26 -- res = 0.89655E+03, tol = 0.96660E+01, time = 5.86 | CG iter. 27 -- res = 0.80061E+03, tol = 0.96660E+01, time = 5.84 | CG iter. 28 -- res = 0.71627E+03, tol = 0.96660E+01, time = 5.76 | CG iter. 29 -- res = 0.57213E+03, tol = 0.96660E+01, time = 5.75 | CG iter. 30 -- res = 0.43330E+03, tol = 0.96660E+01, time = 5.78 | CG iter. 31 -- res = 0.35436E+03, tol = 0.96660E+01, time = 5.82 | CG iter. 32 -- res = 0.30030E+03, tol = 0.96660E+01, time = 5.74 | CG iter. 33 -- res = 0.22894E+03, tol = 0.96660E+01, time = 5.82 | CG iter. 34 -- res = 0.16907E+03, tol = 0.96660E+01, time = 5.69 | CG iter. 35 -- res = 0.13311E+03, tol = 0.96660E+01, time = 5.61 | CG iter. 36 -- res = 0.11103E+03, tol = 0.96660E+01, time = 6.62 | CG iter. 37 -- res = 0.84949E+02, tol = 0.96660E+01, time = 5.84 | CG iter. 38 -- res = 0.62043E+02, tol = 0.96660E+01, time = 5.65 | CG iter. 39 -- res = 0.43330E+02, tol = 0.96660E+01, time = 5.72 | CG iter. 40 -- res = 0.34554E+02, tol = 0.96660E+01, time = 5.54 | CG iter. 41 -- res = 0.28186E+02, tol = 0.96660E+01, time = 6.00 | CG iter. 42 -- res = 0.20840E+02, tol = 0.96660E+01, time = 6.06 | CG iter. 43 -- res = 0.15609E+02, tol = 0.96660E+01, time = 5.91 | CG iter. 44 -- res = 0.12155E+02, tol = 0.96660E+01, time = 5.38 | CG iter. 45 -- res = 0.97294E+01, tol = 0.96660E+01, time = 5.92 | CG iter. 46 -- res = 0.74120E+01, tol = 0.96660E+01, time = 5.73 | CG iter. 47 -- res = 0.55299E+01, tol = 0.96660E+01, time = 5.85 | CG iter. 48 -- res = 0.40992E+01, tol = 0.96660E+01, time = 5.91 | CG iter. 49 -- res = 0.32407E+01, tol = 0.96660E+01, time = 12.54 | CG iter. 50 -- res = 0.25079E+01, tol = 0.96660E+01, time = 5.90 | Final CG iter 51 -- res = 0.25079E+01, tol = 0.96660E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11302124.679 | Old band monopole 6854497.085 | Change to band monopole 4447627.594 | Change to component monopole -4447608.464 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.10473E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.67709E+02, tol = 0.47627E+18, time = 2.44 | CG iter. 3 -- res = 0.26705E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.88244E-02, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.74035E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11302076.066 | (Sampled value in CG: 11348908.681 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519964 | New value = 1.540318 | poltype: 2 pol: 1 CPU time specind = 1.0336876E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473661 | New value = 1.510536 | poltype: 2 pol: 2 CPU time specind = 1.5906096E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.24113E+08, tol = 0.47673E+04, time = 6.31 | CG iter. 2 -- res = 0.53143E+07, tol = 0.47673E+04, time = 6.61 | CG iter. 3 -- res = 0.84602E+06, tol = 0.47673E+04, time = 6.27 | CG iter. 4 -- res = 0.34622E+06, tol = 0.47673E+04, time = 6.58 | CG iter. 5 -- res = 0.14461E+06, tol = 0.47673E+04, time = 6.60 | CG iter. 6 -- res = 0.77492E+05, tol = 0.47673E+04, time = 6.64 | CG iter. 7 -- res = 0.42545E+05, tol = 0.47673E+04, time = 6.51 | CG iter. 8 -- res = 0.20287E+05, tol = 0.47673E+04, time = 6.83 | CG iter. 9 -- res = 0.89205E+04, tol = 0.47673E+04, time = 6.58 | CG iter. 10 -- res = 0.36644E+04, tol = 0.47673E+04, time = 6.93 | CG iter. 11 -- res = 0.16603E+04, tol = 0.47673E+04, time = 7.25 | CG iter. 12 -- res = 0.84874E+03, tol = 0.47673E+04, time = 6.71 | CG iter. 13 -- res = 0.48150E+03, tol = 0.47673E+04, time = 6.42 | CG iter. 14 -- res = 0.27537E+03, tol = 0.47673E+04, time = 6.64 | CG iter. 15 -- res = 0.14340E+03, tol = 0.47673E+04, time = 6.60 | CG iter. 16 -- res = 0.67102E+02, tol = 0.47673E+04, time = 6.78 | CG iter. 17 -- res = 0.30511E+02, tol = 0.47673E+04, time = 6.75 | CG iter. 18 -- res = 0.15386E+02, tol = 0.47673E+04, time = 6.85 | CG iter. 19 -- res = 0.84373E+01, tol = 0.47673E+04, time = 6.80 | CG iter. 20 -- res = 0.47394E+01, tol = 0.47673E+04, time = 6.70 | CG iter. 21 -- res = 0.26720E+01, tol = 0.47673E+04, time = 6.73 | CG iter. 22 -- res = 0.13864E+01, tol = 0.47673E+04, time = 6.53 | CG iter. 23 -- res = 0.68121E+00, tol = 0.47673E+04, time = 6.86 | CG iter. 24 -- res = 0.34424E+00, tol = 0.47673E+04, time = 6.65 | CG iter. 25 -- res = 0.18637E+00, tol = 0.47673E+04, time = 6.60 | CG iter. 26 -- res = 0.10615E+00, tol = 0.47673E+04, time = 12.80 | CG iter. 27 -- res = 0.58988E-01, tol = 0.47673E+04, time = 6.52 | CG iter. 28 -- res = 0.31179E-01, tol = 0.47673E+04, time = 6.31 | CG iter. 29 -- res = 0.15987E-01, tol = 0.47673E+04, time = 6.50 | CG iter. 30 -- res = 0.85765E-02, tol = 0.47673E+04, time = 6.38 | CG iter. 31 -- res = 0.47460E-02, tol = 0.47673E+04, time = 6.74 | CG iter. 32 -- res = 0.26887E-02, tol = 0.47673E+04, time = 6.51 | CG iter. 33 -- res = 0.15492E-02, tol = 0.47673E+04, time = 6.59 | CG iter. 34 -- res = 0.83624E-03, tol = 0.47673E+04, time = 6.69 | CG iter. 35 -- res = 0.42877E-03, tol = 0.47673E+04, time = 5.98 | Final CG iter 36 -- res = 0.42877E-03, tol = 0.47673E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.399 2.729 | New value -1.381 | Old value 2.399 | Difference -3.780 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.74297E+06, tol = 0.47627E+18, time = 2.37 | CG iter. 2 -- res = 0.48485E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.15033E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.66920E-03, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.93000E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11302076.066 | (Sampled value in CG: 11349339.115 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.432969 | New value = -3.632401 | poltype: 1 pol: 1 CPU time specind = 1.0061979E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.22560E+07, tol = 0.36706E+01, time = 2.91 | CG iter. 2 -- res = 0.86354E+06, tol = 0.36706E+01, time = 2.71 | CG iter. 3 -- res = 0.15954E+06, tol = 0.36706E+01, time = 2.77 | CG iter. 4 -- res = 0.63361E+05, tol = 0.36706E+01, time = 2.74 | CG iter. 5 -- res = 0.40253E+05, tol = 0.36706E+01, time = 2.89 | CG iter. 6 -- res = 0.20123E+05, tol = 0.36706E+01, time = 3.05 | CG iter. 7 -- res = 0.73673E+04, tol = 0.36706E+01, time = 2.70 | CG iter. 8 -- res = 0.31075E+04, tol = 0.36706E+01, time = 3.54 | CG iter. 9 -- res = 0.13943E+04, tol = 0.36706E+01, time = 3.26 | CG iter. 10 -- res = 0.56170E+03, tol = 0.36706E+01, time = 3.08 | CG iter. 11 -- res = 0.23924E+03, tol = 0.36706E+01, time = 3.07 | CG iter. 12 -- res = 0.12148E+03, tol = 0.36706E+01, time = 2.94 | CG iter. 13 -- res = 0.65490E+02, tol = 0.36706E+01, time = 2.81 | CG iter. 14 -- res = 0.31690E+02, tol = 0.36706E+01, time = 2.77 | CG iter. 15 -- res = 0.13638E+02, tol = 0.36706E+01, time = 2.90 | CG iter. 16 -- res = 0.54965E+01, tol = 0.36706E+01, time = 2.94 | CG iter. 17 -- res = 0.23500E+01, tol = 0.36706E+01, time = 2.94 | CG iter. 18 -- res = 0.11566E+01, tol = 0.36706E+01, time = 2.48 | CG iter. 19 -- res = 0.59589E+00, tol = 0.36706E+01, time = 3.05 | CG iter. 20 -- res = 0.30203E+00, tol = 0.36706E+01, time = 2.92 | CG iter. 21 -- res = 0.14241E+00, tol = 0.36706E+01, time = 2.71 | CG iter. 22 -- res = 0.64586E-01, tol = 0.36706E+01, time = 2.73 | CG iter. 23 -- res = 0.29295E-01, tol = 0.36706E+01, time = 2.68 | CG iter. 24 -- res = 0.13500E-01, tol = 0.36706E+01, time = 2.75 | CG iter. 25 -- res = 0.67390E-02, tol = 0.36706E+01, time = 2.69 | CG iter. 26 -- res = 0.34606E-02, tol = 0.36706E+01, time = 2.88 | CG iter. 27 -- res = 0.17713E-02, tol = 0.36706E+01, time = 2.79 | CG iter. 28 -- res = 0.84447E-03, tol = 0.36706E+01, time = 2.95 | CG iter. 29 -- res = 0.36248E-03, tol = 0.36706E+01, time = 2.71 | CG iter. 30 -- res = 0.17133E-03, tol = 0.36706E+01, time = 2.65 | CG iter. 31 -- res = 0.87755E-04, tol = 0.36706E+01, time = 2.87 | CG iter. 32 -- res = 0.45006E-04, tol = 0.36706E+01, time = 2.76 | CG iter. 33 -- res = 0.22236E-04, tol = 0.36706E+01, time = 2.77 | CG iter. 34 -- res = 0.10208E-04, tol = 0.36706E+01, time = 2.70 | CG iter. 35 -- res = 0.46448E-05, tol = 0.36706E+01, time = 3.01 | CG iter. 36 -- res = 0.21905E-05, tol = 0.36706E+01, time = 3.06 | CG iter. 37 -- res = 0.10760E-05, tol = 0.36706E+01, time = 2.90 | CG iter. 38 -- res = 0.56501E-06, tol = 0.36706E+01, time = 2.87 | CG iter. 39 -- res = 0.26330E-06, tol = 0.36706E+01, time = 2.66 | CG iter. 40 -- res = 0.12329E-06, tol = 0.36706E+01, time = 2.54 | CG iter. 41 -- res = 0.57377E-07, tol = 0.36706E+01, time = 2.86 | CG iter. 42 -- res = 0.26873E-07, tol = 0.36706E+01, time = 2.94 | CG iter. 43 -- res = 0.12403E-07, tol = 0.36706E+01, time = 2.86 | CG iter. 44 -- res = 0.64561E-08, tol = 0.36706E+01, time = 2.98 | CG iter. 45 -- res = 0.31205E-08, tol = 0.36706E+01, time = 2.76 | CG iter. 46 -- res = 0.14238E-08, tol = 0.36706E+01, time = 3.68 | CG iter. 47 -- res = 0.66605E-09, tol = 0.36706E+01, time = 2.69 | CG iter. 48 -- res = 0.32378E-09, tol = 0.36706E+01, time = 2.77 | CG iter. 49 -- res = 0.15135E-09, tol = 0.36706E+01, time = 2.82 | CG iter. 50 -- res = 0.73053E-10, tol = 0.36706E+01, time = 2.64 | Final CG iter 51 -- res = 0.73053E-10, tol = 0.36706E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.020 3.946 | New value 2.804 | Old value -4.020 | Difference 6.823 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.24 | CG iter. 1 -- res = 0.47385E+05, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.37446E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.13961E+01, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.42627E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.36100E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11302076.066 | (Sampled value in CG: 11339570.082 ) | CPU time specind = 1207.520 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.69421E+08, tol = 0.57737E+04, time = 18.13 | CG iter. 2 -- res = 0.58982E+08, tol = 0.57737E+04, time = 11.98 | CG iter. 3 -- res = 0.15466E+08, tol = 0.57737E+04, time = 11.75 | CG iter. 4 -- res = 0.64488E+07, tol = 0.57737E+04, time = 11.86 | CG iter. 5 -- res = 0.38257E+07, tol = 0.57737E+04, time = 11.94 | CG iter. 6 -- res = 0.21885E+07, tol = 0.57737E+04, time = 12.05 | CG iter. 7 -- res = 0.12866E+07, tol = 0.57737E+04, time = 11.88 | CG iter. 8 -- res = 0.86937E+06, tol = 0.57737E+04, time = 13.49 | CG iter. 9 -- res = 0.57425E+06, tol = 0.57737E+04, time = 12.62 | CG iter. 10 -- res = 0.34779E+06, tol = 0.57737E+04, time = 12.20 | CG iter. 11 -- res = 0.19212E+06, tol = 0.57737E+04, time = 11.84 | CG iter. 12 -- res = 0.10893E+06, tol = 0.57737E+04, time = 11.83 | CG iter. 13 -- res = 0.66458E+05, tol = 0.57737E+04, time = 11.88 | CG iter. 14 -- res = 0.45861E+05, tol = 0.57737E+04, time = 12.10 | CG iter. 15 -- res = 0.36362E+05, tol = 0.57737E+04, time = 12.06 | CG iter. 16 -- res = 0.32229E+05, tol = 0.57737E+04, time = 12.26 | CG iter. 17 -- res = 0.30482E+05, tol = 0.57737E+04, time = 11.92 | CG iter. 18 -- res = 0.28400E+05, tol = 0.57737E+04, time = 11.56 | CG iter. 19 -- res = 0.25958E+05, tol = 0.57737E+04, time = 11.87 | CG iter. 20 -- res = 0.23999E+05, tol = 0.57737E+04, time = 12.00 | CG iter. 21 -- res = 0.23712E+05, tol = 0.57737E+04, time = 11.69 | CG iter. 22 -- res = 0.24547E+05, tol = 0.57737E+04, time = 11.63 | CG iter. 23 -- res = 0.25252E+05, tol = 0.57737E+04, time = 12.06 | CG iter. 24 -- res = 0.24283E+05, tol = 0.57737E+04, time = 11.69 | CG iter. 25 -- res = 0.21224E+05, tol = 0.57737E+04, time = 18.39 | CG iter. 26 -- res = 0.16127E+05, tol = 0.57737E+04, time = 12.04 | CG iter. 27 -- res = 0.12012E+05, tol = 0.57737E+04, time = 12.32 | CG iter. 28 -- res = 0.90861E+04, tol = 0.57737E+04, time = 12.06 | CG iter. 29 -- res = 0.71038E+04, tol = 0.57737E+04, time = 11.82 | CG iter. 30 -- res = 0.60575E+04, tol = 0.57737E+04, time = 11.81 | CG iter. 31 -- res = 0.54035E+04, tol = 0.57737E+04, time = 11.43 | CG iter. 32 -- res = 0.48048E+04, tol = 0.57737E+04, time = 13.39 | CG iter. 33 -- res = 0.42119E+04, tol = 0.57737E+04, time = 12.48 | CG iter. 34 -- res = 0.36815E+04, tol = 0.57737E+04, time = 11.97 | CG iter. 35 -- res = 0.32995E+04, tol = 0.57737E+04, time = 11.19 | CG iter. 36 -- res = 0.29874E+04, tol = 0.57737E+04, time = 12.47 | CG iter. 37 -- res = 0.28420E+04, tol = 0.57737E+04, time = 11.88 | CG iter. 38 -- res = 0.26810E+04, tol = 0.57737E+04, time = 11.34 | CG iter. 39 -- res = 0.24143E+04, tol = 0.57737E+04, time = 12.18 | CG iter. 40 -- res = 0.20099E+04, tol = 0.57737E+04, time = 12.17 | CG iter. 41 -- res = 0.16284E+04, tol = 0.57737E+04, time = 12.20 | CG iter. 42 -- res = 0.12777E+04, tol = 0.57737E+04, time = 11.71 | CG iter. 43 -- res = 0.10451E+04, tol = 0.57737E+04, time = 12.04 | CG iter. 44 -- res = 0.90368E+03, tol = 0.57737E+04, time = 11.61 | CG iter. 45 -- res = 0.79911E+03, tol = 0.57737E+04, time = 12.43 | CG iter. 46 -- res = 0.71659E+03, tol = 0.57737E+04, time = 12.91 | CG iter. 47 -- res = 0.64275E+03, tol = 0.57737E+04, time = 11.70 | CG iter. 48 -- res = 0.56478E+03, tol = 0.57737E+04, time = 12.30 | CG iter. 49 -- res = 0.49537E+03, tol = 0.57737E+04, time = 13.54 | CG iter. 50 -- res = 0.43628E+03, tol = 0.57737E+04, time = 16.62 | CG iter. 51 -- res = 0.41105E+03, tol = 0.57737E+04, time = 11.78 | CG iter. 52 -- res = 0.39557E+03, tol = 0.57737E+04, time = 11.78 | CG iter. 53 -- res = 0.37184E+03, tol = 0.57737E+04, time = 11.88 | CG iter. 54 -- res = 0.33192E+03, tol = 0.57737E+04, time = 11.76 | CG iter. 55 -- res = 0.27805E+03, tol = 0.57737E+04, time = 12.07 | CG iter. 56 -- res = 0.23224E+03, tol = 0.57737E+04, time = 11.70 | CG iter. 57 -- res = 0.19736E+03, tol = 0.57737E+04, time = 14.35 | CG iter. 58 -- res = 0.17568E+03, tol = 0.57737E+04, time = 12.03 | CG iter. 59 -- res = 0.16467E+03, tol = 0.57737E+04, time = 12.13 | CG iter. 60 -- res = 0.15572E+03, tol = 0.57737E+04, time = 11.50 | Final CG iter 61 -- res = 0.15572E+03, tol = 0.57737E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.649 ( -229.497 -2229.602 2512.054 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9542974.274 | Old band monopole 11302124.679 | Change to band monopole -1759150.405 | Change to component monopole 1759142.839 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.442 2.722 | New value -1.859 | Old value -1.442 | Difference -0.417 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.041 ( 5.975 9.602 -9.568 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.686 5.143 | New value -3.310 | Old value 4.686 | Difference -7.996 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.23969E+05, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.26023E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.67627E+00, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.14153E-02, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.17929E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9542933.227 | (Sampled value in CG: 9523791.543 ) | Chain = 1 -- chisq = 0.81548160E+09 | Chain = 1 -- wall time = 6228.702 sec Available RAM: MemAvailable: 383847724 kB Available Swap: SwapFree: 1126353376 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 299 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443942 | --> Sampling calibration, mode = relcal | relcal = 1.3415295E-02 7.4704329E-04 -1.5824336E-03 -1.2579905E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1184339 0.1248914 97042280.6127502 | BP delta = 0.1345041 0.1409615 97042286.1369402 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632492 | --> Sampling calibration, mode = relcal | relcal = -2.8220036E-03 -7.0410740E-04 1.6782554E-03 1.6142995E-03 -4.0731160E-04 6.4086763E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5688061 15224026.8165615 | BP delta = 0.0000000E+00 -0.5614583 15224027.8832134 | BP chisq diff = 1.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18386583938530 | --> Sampling calibration, mode = relcal | relcal = -7.5488269E-02 -5.8936361E-02 9.2508994E-02 4.1915637E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9478172E-04 5.8166096E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3984E-05 | 2: delta_r/delta_0: 1.0891E-06 | 3: delta_s/delta_0: 1.8777E-07 | 4: delta_r/delta_0: 2.2020E-08 | 5: delta_s/delta_0: 7.2333E-09 | 6: delta_r/delta_0: 1.6159E-09 | 7: delta_s/delta_0: 2.9271E-10 | 8: delta_r/delta_0: 1.0833E-10 | 9: delta_s/delta_0: 2.0521E-10 | 10: delta_r/delta_0: 7.9438E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.221063449019065E-003 2.734364002702475E-005 | BP delta = 6.3732833E-02 8.3666503E-02 50483257.1425571 | BP delta = 6.4102128E-02 8.4035799E-02 50483256.8220760 | BP chisq diff = -0.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02583859 | --> Sampling calibration, mode = relcal | relcal = -0.1066901 -9.5566615E-02 0.1449238 5.7332952E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2939687E-03 1.4670809E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0292E-05 | 2: delta_r/delta_0: 1.2083E-06 | 3: delta_s/delta_0: 2.4276E-07 | 4: delta_r/delta_0: 4.8705E-08 | 5: delta_s/delta_0: 1.7599E-08 | 6: delta_r/delta_0: 6.9463E-09 | 7: delta_s/delta_0: 9.7617E-09 | 8: delta_r/delta_0: 1.2225E-09 | 9: delta_s/delta_0: 1.0317E-09 | 10: delta_r/delta_0: 2.1564E-10 | 11: delta_s/delta_0: 2.6213E-09 | 12: delta_r/delta_0: 1.9660E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.842043024030397E-003 2.811272745785430E-005 | BP delta = -0.3180173 -0.2892123 57388895.7791694 | BP delta = -0.3521491 -0.3233441 57388898.6913056 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81234002 | --> Sampling calibration, mode = relcal | relcal = 0.2955313 0.2248143 -0.2838696 -0.2364760 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.5665959E-04 5.4351799E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2412E-04 | 2: delta_r/delta_0: 3.7533E-06 | 3: delta_s/delta_0: 3.3522E-06 | 4: delta_r/delta_0: 7.3511E-07 | 5: delta_s/delta_0: 1.4990E-07 | 6: delta_r/delta_0: 1.0125E-07 | 7: delta_s/delta_0: 7.0030E-07 | 8: delta_r/delta_0: 2.1292E-08 | 9: delta_s/delta_0: 1.8101E-08 | 10: delta_r/delta_0: 1.1146E-08 | 11: delta_s/delta_0: 2.2842E-09 | 12: delta_r/delta_0: 7.2628E-10 | 13: delta_s/delta_0: 2.9962E-10 | 14: delta_r/delta_0: 1.8042E-10 | 15: delta_s/delta_0: 4.0157E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.742004399773846E-002 4.021149456059236E-005 | BP delta = -0.3408765 -0.3654837 72486009.0216706 | BP delta = -0.3608721 -0.3854794 72486010.0107991 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95910054 | --> Sampling calibration, mode = relcal | relcal = 0.1065070 0.1396109 -0.1103037 -0.1358141 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0159784E-02 1.1946056E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.1321E-04 | 2: delta_r/delta_0: 1.9780E-05 | 3: delta_s/delta_0: 3.8810E-05 | 4: delta_r/delta_0: 2.3557E-06 | 5: delta_s/delta_0: 3.6565E-07 | 6: delta_r/delta_0: 1.7502E-07 | 7: delta_s/delta_0: 5.9790E-07 | 8: delta_r/delta_0: 4.1316E-08 | 9: delta_s/delta_0: 1.3712E-08 | 10: delta_r/delta_0: 3.6134E-09 | 11: delta_s/delta_0: 2.5974E-09 | 12: delta_r/delta_0: 9.7577E-10 | 13: delta_s/delta_0: 4.9691E-09 | 14: delta_r/delta_0: 6.2101E-10 | 15: delta_s/delta_0: 6.9658E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.419081118991757E-002 3.697444833051302E-005 | BP delta = 0.1124538 0.2162903 72789159.4342636 | BP delta = 6.7925856E-02 0.1717624 72789159.9408258 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115767 | New value = -3.106617 | poltype: 2 pol: 1 CPU time specind = 1.0248184E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181099 | New value = -3.079608 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150277 | New value = -3.164453 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.016552 | New value = -3.119292 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136549 | New value = -3.125692 | poltype: 2 pol: 2 CPU time specind = 2.0318031E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.13549E+08, tol = 0.76221E+01, time = 5.71 | CG iter. 2 -- res = 0.31962E+06, tol = 0.76221E+01, time = 5.76 | CG iter. 3 -- res = 0.45666E+05, tol = 0.76221E+01, time = 6.24 | CG iter. 4 -- res = 0.21939E+05, tol = 0.76221E+01, time = 5.73 | CG iter. 5 -- res = 0.11216E+05, tol = 0.76221E+01, time = 5.87 | CG iter. 6 -- res = 0.71623E+04, tol = 0.76221E+01, time = 5.92 | CG iter. 7 -- res = 0.58740E+04, tol = 0.76221E+01, time = 5.70 | CG iter. 8 -- res = 0.48657E+04, tol = 0.76221E+01, time = 5.71 | CG iter. 9 -- res = 0.47760E+04, tol = 0.76221E+01, time = 5.48 | CG iter. 10 -- res = 0.50848E+04, tol = 0.76221E+01, time = 6.11 | CG iter. 11 -- res = 0.41518E+04, tol = 0.76221E+01, time = 5.87 | CG iter. 12 -- res = 0.27732E+04, tol = 0.76221E+01, time = 5.78 | CG iter. 13 -- res = 0.17832E+04, tol = 0.76221E+01, time = 5.66 | CG iter. 14 -- res = 0.12744E+04, tol = 0.76221E+01, time = 7.52 | CG iter. 15 -- res = 0.10464E+04, tol = 0.76221E+01, time = 6.18 | CG iter. 16 -- res = 0.83488E+03, tol = 0.76221E+01, time = 6.30 | CG iter. 17 -- res = 0.59344E+03, tol = 0.76221E+01, time = 5.95 | CG iter. 18 -- res = 0.44527E+03, tol = 0.76221E+01, time = 6.06 | CG iter. 19 -- res = 0.36705E+03, tol = 0.76221E+01, time = 5.42 | CG iter. 20 -- res = 0.28008E+03, tol = 0.76221E+01, time = 6.15 | CG iter. 21 -- res = 0.19228E+03, tol = 0.76221E+01, time = 5.78 | CG iter. 22 -- res = 0.13654E+03, tol = 0.76221E+01, time = 5.48 | CG iter. 23 -- res = 0.11306E+03, tol = 0.76221E+01, time = 6.07 | CG iter. 24 -- res = 0.96380E+02, tol = 0.76221E+01, time = 5.87 | CG iter. 25 -- res = 0.76033E+02, tol = 0.76221E+01, time = 5.78 | CG iter. 26 -- res = 0.56274E+02, tol = 0.76221E+01, time = 6.13 | CG iter. 27 -- res = 0.45240E+02, tol = 0.76221E+01, time = 5.66 | CG iter. 28 -- res = 0.39572E+02, tol = 0.76221E+01, time = 5.87 | CG iter. 29 -- res = 0.32174E+02, tol = 0.76221E+01, time = 6.05 | CG iter. 30 -- res = 0.25335E+02, tol = 0.76221E+01, time = 5.73 | CG iter. 31 -- res = 0.22509E+02, tol = 0.76221E+01, time = 5.88 | CG iter. 32 -- res = 0.19971E+02, tol = 0.76221E+01, time = 5.92 | CG iter. 33 -- res = 0.17441E+02, tol = 0.76221E+01, time = 6.47 | CG iter. 34 -- res = 0.13238E+02, tol = 0.76221E+01, time = 5.86 | CG iter. 35 -- res = 0.10028E+02, tol = 0.76221E+01, time = 5.61 | CG iter. 36 -- res = 0.83224E+01, tol = 0.76221E+01, time = 5.87 | CG iter. 37 -- res = 0.68145E+01, tol = 0.76221E+01, time = 6.13 | CG iter. 38 -- res = 0.51520E+01, tol = 0.76221E+01, time = 5.86 | CG iter. 39 -- res = 0.36733E+01, tol = 0.76221E+01, time = 5.86 | CG iter. 40 -- res = 0.28577E+01, tol = 0.76221E+01, time = 5.77 | CG iter. 41 -- res = 0.22706E+01, tol = 0.76221E+01, time = 5.79 | CG iter. 42 -- res = 0.16893E+01, tol = 0.76221E+01, time = 5.89 | CG iter. 43 -- res = 0.12417E+01, tol = 0.76221E+01, time = 5.99 | CG iter. 44 -- res = 0.95576E+00, tol = 0.76221E+01, time = 5.81 | CG iter. 45 -- res = 0.79356E+00, tol = 0.76221E+01, time = 5.75 | CG iter. 46 -- res = 0.64410E+00, tol = 0.76221E+01, time = 5.62 | CG iter. 47 -- res = 0.47330E+00, tol = 0.76221E+01, time = 5.93 | CG iter. 48 -- res = 0.35204E+00, tol = 0.76221E+01, time = 5.66 | CG iter. 49 -- res = 0.26926E+00, tol = 0.76221E+01, time = 7.70 | CG iter. 50 -- res = 0.20594E+00, tol = 0.76221E+01, time = 10.44 | Final CG iter 51 -- res = 0.20594E+00, tol = 0.76221E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9080731.228 | Old band monopole 9542974.274 | Change to band monopole -462243.045 | Change to component monopole 462241.057 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.17766E+05, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.17490E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.50282E+00, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.52983E-03, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.12173E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9080692.170 | (Sampled value in CG: 9090147.551 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.540318 | New value = 1.466023 | poltype: 2 pol: 1 CPU time specind = 1.0181904E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.510536 | New value = 1.517199 | poltype: 2 pol: 2 CPU time specind = 1.9629955E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.25154E+08, tol = 0.47465E+04, time = 6.47 | CG iter. 2 -- res = 0.52766E+07, tol = 0.47465E+04, time = 6.93 | CG iter. 3 -- res = 0.82068E+06, tol = 0.47465E+04, time = 6.44 | CG iter. 4 -- res = 0.33997E+06, tol = 0.47465E+04, time = 6.87 | CG iter. 5 -- res = 0.14388E+06, tol = 0.47465E+04, time = 6.81 | CG iter. 6 -- res = 0.76855E+05, tol = 0.47465E+04, time = 6.91 | CG iter. 7 -- res = 0.42886E+05, tol = 0.47465E+04, time = 7.15 | CG iter. 8 -- res = 0.20482E+05, tol = 0.47465E+04, time = 6.82 | CG iter. 9 -- res = 0.89704E+04, tol = 0.47465E+04, time = 6.45 | CG iter. 10 -- res = 0.36862E+04, tol = 0.47465E+04, time = 7.02 | CG iter. 11 -- res = 0.16340E+04, tol = 0.47465E+04, time = 6.42 | CG iter. 12 -- res = 0.85694E+03, tol = 0.47465E+04, time = 6.79 | CG iter. 13 -- res = 0.49048E+03, tol = 0.47465E+04, time = 6.55 | CG iter. 14 -- res = 0.27873E+03, tol = 0.47465E+04, time = 6.88 | CG iter. 15 -- res = 0.14018E+03, tol = 0.47465E+04, time = 6.84 | CG iter. 16 -- res = 0.66253E+02, tol = 0.47465E+04, time = 6.95 | CG iter. 17 -- res = 0.31145E+02, tol = 0.47465E+04, time = 6.54 | CG iter. 18 -- res = 0.15533E+02, tol = 0.47465E+04, time = 6.51 | CG iter. 19 -- res = 0.85380E+01, tol = 0.47465E+04, time = 6.87 | CG iter. 20 -- res = 0.48999E+01, tol = 0.47465E+04, time = 6.54 | CG iter. 21 -- res = 0.26879E+01, tol = 0.47465E+04, time = 6.67 | CG iter. 22 -- res = 0.13906E+01, tol = 0.47465E+04, time = 6.99 | CG iter. 23 -- res = 0.70131E+00, tol = 0.47465E+04, time = 6.71 | CG iter. 24 -- res = 0.35583E+00, tol = 0.47465E+04, time = 6.47 | CG iter. 25 -- res = 0.19493E+00, tol = 0.47465E+04, time = 6.78 | CG iter. 26 -- res = 0.11148E+00, tol = 0.47465E+04, time = 12.75 | CG iter. 27 -- res = 0.61063E-01, tol = 0.47465E+04, time = 6.62 | CG iter. 28 -- res = 0.32609E-01, tol = 0.47465E+04, time = 6.48 | CG iter. 29 -- res = 0.16957E-01, tol = 0.47465E+04, time = 6.41 | CG iter. 30 -- res = 0.90968E-02, tol = 0.47465E+04, time = 6.62 | CG iter. 31 -- res = 0.50358E-02, tol = 0.47465E+04, time = 6.67 | CG iter. 32 -- res = 0.28956E-02, tol = 0.47465E+04, time = 6.98 | CG iter. 33 -- res = 0.16084E-02, tol = 0.47465E+04, time = 6.69 | CG iter. 34 -- res = 0.86196E-03, tol = 0.47465E+04, time = 6.40 | CG iter. 35 -- res = 0.44516E-03, tol = 0.47465E+04, time = 6.67 | Final CG iter 36 -- res = 0.44516E-03, tol = 0.47465E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.818 2.735 | New value -3.581 | Old value -1.818 | Difference -1.763 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.17168E+06, tol = 0.47627E+18, time = 2.19 | CG iter. 2 -- res = 0.17476E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.48229E+00, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.45486E-03, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.32395E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9080692.170 | (Sampled value in CG: 9089821.626 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.632401 | New value = -3.502154 | poltype: 1 pol: 1 CPU time specind = 1.0545015E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.26641E+07, tol = 0.27537E+01, time = 2.56 | CG iter. 2 -- res = 0.93353E+06, tol = 0.27537E+01, time = 2.79 | CG iter. 3 -- res = 0.18527E+06, tol = 0.27537E+01, time = 2.72 | CG iter. 4 -- res = 0.86369E+05, tol = 0.27537E+01, time = 2.80 | CG iter. 5 -- res = 0.49963E+05, tol = 0.27537E+01, time = 2.60 | CG iter. 6 -- res = 0.22863E+05, tol = 0.27537E+01, time = 2.54 | CG iter. 7 -- res = 0.85972E+04, tol = 0.27537E+01, time = 2.72 | CG iter. 8 -- res = 0.40643E+04, tol = 0.27537E+01, time = 3.49 | CG iter. 9 -- res = 0.20138E+04, tol = 0.27537E+01, time = 3.79 | CG iter. 10 -- res = 0.81428E+03, tol = 0.27537E+01, time = 2.84 | CG iter. 11 -- res = 0.31453E+03, tol = 0.27537E+01, time = 2.92 | CG iter. 12 -- res = 0.14568E+03, tol = 0.27537E+01, time = 2.95 | CG iter. 13 -- res = 0.69366E+02, tol = 0.27537E+01, time = 2.81 | CG iter. 14 -- res = 0.36044E+02, tol = 0.27537E+01, time = 2.69 | CG iter. 15 -- res = 0.18751E+02, tol = 0.27537E+01, time = 3.05 | CG iter. 16 -- res = 0.87370E+01, tol = 0.27537E+01, time = 2.55 | CG iter. 17 -- res = 0.37267E+01, tol = 0.27537E+01, time = 3.16 | CG iter. 18 -- res = 0.16334E+01, tol = 0.27537E+01, time = 2.63 | CG iter. 19 -- res = 0.72308E+00, tol = 0.27537E+01, time = 3.11 | CG iter. 20 -- res = 0.36139E+00, tol = 0.27537E+01, time = 2.46 | CG iter. 21 -- res = 0.19220E+00, tol = 0.27537E+01, time = 2.93 | CG iter. 22 -- res = 0.95219E-01, tol = 0.27537E+01, time = 2.99 | CG iter. 23 -- res = 0.42459E-01, tol = 0.27537E+01, time = 2.66 | CG iter. 24 -- res = 0.18858E-01, tol = 0.27537E+01, time = 2.66 | CG iter. 25 -- res = 0.90056E-02, tol = 0.27537E+01, time = 2.78 | CG iter. 26 -- res = 0.42983E-02, tol = 0.27537E+01, time = 2.75 | CG iter. 27 -- res = 0.21569E-02, tol = 0.27537E+01, time = 2.85 | CG iter. 28 -- res = 0.11455E-02, tol = 0.27537E+01, time = 2.78 | CG iter. 29 -- res = 0.54934E-03, tol = 0.27537E+01, time = 2.64 | CG iter. 30 -- res = 0.26375E-03, tol = 0.27537E+01, time = 2.79 | CG iter. 31 -- res = 0.12804E-03, tol = 0.27537E+01, time = 3.10 | CG iter. 32 -- res = 0.58176E-04, tol = 0.27537E+01, time = 2.89 | CG iter. 33 -- res = 0.28743E-04, tol = 0.27537E+01, time = 2.55 | CG iter. 34 -- res = 0.14936E-04, tol = 0.27537E+01, time = 2.82 | CG iter. 35 -- res = 0.73380E-05, tol = 0.27537E+01, time = 2.87 | CG iter. 36 -- res = 0.35712E-05, tol = 0.27537E+01, time = 2.77 | CG iter. 37 -- res = 0.16625E-05, tol = 0.27537E+01, time = 2.78 | CG iter. 38 -- res = 0.78538E-06, tol = 0.27537E+01, time = 2.75 | CG iter. 39 -- res = 0.37696E-06, tol = 0.27537E+01, time = 2.55 | CG iter. 40 -- res = 0.18768E-06, tol = 0.27537E+01, time = 2.83 | CG iter. 41 -- res = 0.97453E-07, tol = 0.27537E+01, time = 2.83 | CG iter. 42 -- res = 0.46542E-07, tol = 0.27537E+01, time = 2.81 | CG iter. 43 -- res = 0.21622E-07, tol = 0.27537E+01, time = 2.84 | CG iter. 44 -- res = 0.10184E-07, tol = 0.27537E+01, time = 2.62 | CG iter. 45 -- res = 0.46991E-08, tol = 0.27537E+01, time = 2.66 | CG iter. 46 -- res = 0.22855E-08, tol = 0.27537E+01, time = 2.87 | CG iter. 47 -- res = 0.11353E-08, tol = 0.27537E+01, time = 2.86 | CG iter. 48 -- res = 0.59190E-09, tol = 0.27537E+01, time = 2.62 | CG iter. 49 -- res = 0.27473E-09, tol = 0.27537E+01, time = 2.54 | CG iter. 50 -- res = 0.12239E-09, tol = 0.27537E+01, time = 2.73 | Final CG iter 51 -- res = 0.12239E-09, tol = 0.27537E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.211 5.160 | New value 0.033 | Old value -2.211 | Difference 2.244 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.50661E+04, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.12101E+02, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.21395E+00, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.42987E-03, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.23909E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9080692.170 | (Sampled value in CG: 9091281.540 ) | CPU time specind = 1208.936 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.72043E+08, tol = 0.57505E+04, time = 17.93 | CG iter. 2 -- res = 0.60069E+08, tol = 0.57505E+04, time = 11.88 | CG iter. 3 -- res = 0.15918E+08, tol = 0.57505E+04, time = 12.74 | CG iter. 4 -- res = 0.69118E+07, tol = 0.57505E+04, time = 12.10 | CG iter. 5 -- res = 0.42949E+07, tol = 0.57505E+04, time = 12.19 | CG iter. 6 -- res = 0.24667E+07, tol = 0.57505E+04, time = 12.18 | CG iter. 7 -- res = 0.14193E+07, tol = 0.57505E+04, time = 11.48 | CG iter. 8 -- res = 0.90297E+06, tol = 0.57505E+04, time = 14.05 | CG iter. 9 -- res = 0.56433E+06, tol = 0.57505E+04, time = 12.45 | CG iter. 10 -- res = 0.33250E+06, tol = 0.57505E+04, time = 11.91 | CG iter. 11 -- res = 0.18472E+06, tol = 0.57505E+04, time = 12.39 | CG iter. 12 -- res = 0.10370E+06, tol = 0.57505E+04, time = 11.82 | CG iter. 13 -- res = 0.56242E+05, tol = 0.57505E+04, time = 11.90 | CG iter. 14 -- res = 0.31941E+05, tol = 0.57505E+04, time = 11.98 | CG iter. 15 -- res = 0.19934E+05, tol = 0.57505E+04, time = 11.81 | CG iter. 16 -- res = 0.13723E+05, tol = 0.57505E+04, time = 11.79 | CG iter. 17 -- res = 0.10112E+05, tol = 0.57505E+04, time = 13.06 | CG iter. 18 -- res = 0.71754E+04, tol = 0.57505E+04, time = 11.55 | CG iter. 19 -- res = 0.50360E+04, tol = 0.57505E+04, time = 12.13 | CG iter. 20 -- res = 0.35097E+04, tol = 0.57505E+04, time = 12.29 | CG iter. 21 -- res = 0.25970E+04, tol = 0.57505E+04, time = 11.85 | CG iter. 22 -- res = 0.22790E+04, tol = 0.57505E+04, time = 12.13 | CG iter. 23 -- res = 0.22921E+04, tol = 0.57505E+04, time = 11.90 | CG iter. 24 -- res = 0.24482E+04, tol = 0.57505E+04, time = 12.15 | CG iter. 25 -- res = 0.26436E+04, tol = 0.57505E+04, time = 18.09 | CG iter. 26 -- res = 0.26750E+04, tol = 0.57505E+04, time = 12.08 | CG iter. 27 -- res = 0.24878E+04, tol = 0.57505E+04, time = 11.75 | CG iter. 28 -- res = 0.21424E+04, tol = 0.57505E+04, time = 11.94 | CG iter. 29 -- res = 0.18656E+04, tol = 0.57505E+04, time = 11.57 | CG iter. 30 -- res = 0.16740E+04, tol = 0.57505E+04, time = 11.77 | CG iter. 31 -- res = 0.14942E+04, tol = 0.57505E+04, time = 12.30 | CG iter. 32 -- res = 0.12628E+04, tol = 0.57505E+04, time = 13.27 | CG iter. 33 -- res = 0.10128E+04, tol = 0.57505E+04, time = 12.51 | CG iter. 34 -- res = 0.77486E+03, tol = 0.57505E+04, time = 12.61 | CG iter. 35 -- res = 0.59402E+03, tol = 0.57505E+04, time = 11.80 | CG iter. 36 -- res = 0.48298E+03, tol = 0.57505E+04, time = 11.77 | CG iter. 37 -- res = 0.43247E+03, tol = 0.57505E+04, time = 12.03 | CG iter. 38 -- res = 0.42265E+03, tol = 0.57505E+04, time = 12.04 | CG iter. 39 -- res = 0.40687E+03, tol = 0.57505E+04, time = 12.40 | CG iter. 40 -- res = 0.37631E+03, tol = 0.57505E+04, time = 12.48 | CG iter. 41 -- res = 0.34514E+03, tol = 0.57505E+04, time = 11.94 | CG iter. 42 -- res = 0.31091E+03, tol = 0.57505E+04, time = 11.90 | CG iter. 43 -- res = 0.28820E+03, tol = 0.57505E+04, time = 12.21 | CG iter. 44 -- res = 0.27003E+03, tol = 0.57505E+04, time = 12.21 | CG iter. 45 -- res = 0.25133E+03, tol = 0.57505E+04, time = 11.74 | CG iter. 46 -- res = 0.24024E+03, tol = 0.57505E+04, time = 12.04 | CG iter. 47 -- res = 0.21903E+03, tol = 0.57505E+04, time = 12.03 | CG iter. 48 -- res = 0.18368E+03, tol = 0.57505E+04, time = 12.13 | CG iter. 49 -- res = 0.15399E+03, tol = 0.57505E+04, time = 18.80 | CG iter. 50 -- res = 0.13124E+03, tol = 0.57505E+04, time = 11.62 | CG iter. 51 -- res = 0.11966E+03, tol = 0.57505E+04, time = 11.68 | CG iter. 52 -- res = 0.11549E+03, tol = 0.57505E+04, time = 12.35 | CG iter. 53 -- res = 0.11353E+03, tol = 0.57505E+04, time = 11.70 | CG iter. 54 -- res = 0.10756E+03, tol = 0.57505E+04, time = 12.07 | CG iter. 55 -- res = 0.10090E+03, tol = 0.57505E+04, time = 11.40 | CG iter. 56 -- res = 0.92242E+02, tol = 0.57505E+04, time = 12.56 | CG iter. 57 -- res = 0.83019E+02, tol = 0.57505E+04, time = 13.90 | CG iter. 58 -- res = 0.78900E+02, tol = 0.57505E+04, time = 12.24 | CG iter. 59 -- res = 0.75853E+02, tol = 0.57505E+04, time = 11.83 | CG iter. 60 -- res = 0.72948E+02, tol = 0.57505E+04, time = 11.82 | Final CG iter 61 -- res = 0.72948E+02, tol = 0.57505E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.816 ( -229.279 -2230.184 2512.645 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10140389.303 | Old band monopole 9080731.228 | Change to band monopole 1059658.075 | Change to component monopole -1059653.517 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.596 2.742 | New value -0.789 | Old value -3.596 | Difference 2.807 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.720 ( 5.669 9.437 -9.174 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.716 5.385 | New value 4.480 | Old value 4.716 | Difference -0.236 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.41127E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.27788E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.74737E+00, tol = 0.47627E+18, time = 2.23 | CG iter. 4 -- res = 0.38331E-03, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.37767E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10140345.687 | (Sampled value in CG: 10110686.215 ) | Chain = 1 -- chisq = 0.81588403E+09 | Chain = 1 -- wall time = 5702.616 sec Available RAM: MemAvailable: 383629500 kB Available Swap: SwapFree: 1126557408 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 300 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445592 | --> Sampling calibration, mode = relcal | relcal = 1.3420718E-02 7.5234490E-04 -1.5979551E-03 -1.2575108E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1184339 0.1248914 9410282.00407653 | BP delta = 0.1184339 0.1223250 9410305.54593622 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632341 | --> Sampling calibration, mode = relcal | relcal = -2.8204692E-03 -7.0489675E-04 1.6775083E-03 1.6147965E-03 -4.0651343E-04 6.3957443E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5614583 15218561.5262821 | BP delta = 0.0000000E+00 -0.5539821 15218564.8659885 | BP chisq diff = 3.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17939341268399 | --> Sampling calibration, mode = relcal | relcal = -7.3870271E-02 -5.7624206E-02 9.0604506E-02 4.0889971E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8231615E-04 2.7456819E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8599E-03 | 2: delta_r/delta_0: 3.6062E-05 | 3: delta_s/delta_0: 2.1273E-07 | 4: delta_r/delta_0: 2.8311E-08 | 5: delta_s/delta_0: 4.1638E-08 | 6: delta_r/delta_0: 1.0247E-08 | 7: delta_s/delta_0: 1.3604E-09 | 8: delta_r/delta_0: 2.2482E-10 | 9: delta_s/delta_0: 2.0540E-10 | 10: delta_r/delta_0: 9.2786E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.932958270317034E-003 2.744940598587828E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8604E-03 | 2: delta_r/delta_0: 3.6078E-05 | 3: delta_s/delta_0: 2.1271E-07 | 4: delta_r/delta_0: 2.8309E-08 | 5: delta_s/delta_0: 4.1611E-08 | 6: delta_r/delta_0: 1.0242E-08 | 7: delta_s/delta_0: 1.3604E-09 | 8: delta_r/delta_0: 2.2478E-10 | 9: delta_s/delta_0: 2.0536E-10 | 10: delta_r/delta_0: 9.2764E-11 | Reached bicg-stab tolerance | BP delta = 6.4102128E-02 8.4035799E-02 3638179.78802122 | BP delta = 6.4102128E-02 8.4321208E-02 3634223.96825031 | BP chisq diff = -3955.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02577746 | --> Sampling calibration, mode = relcal | relcal = -0.1066688 -9.5515184E-02 0.1449208 5.7263121E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3353316E-03 1.7506357E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3595E-05 | 2: delta_r/delta_0: 1.2536E-06 | 3: delta_s/delta_0: 2.6117E-07 | 4: delta_r/delta_0: 4.2228E-08 | 5: delta_s/delta_0: 2.3258E-08 | 6: delta_r/delta_0: 7.1102E-09 | 7: delta_s/delta_0: 9.5013E-09 | 8: delta_r/delta_0: 1.4420E-09 | 9: delta_s/delta_0: 6.1989E-10 | 10: delta_r/delta_0: 3.5915E-10 | 11: delta_s/delta_0: 8.2569E-10 | 12: delta_r/delta_0: 4.2446E-10 | 13: delta_s/delta_0: 1.4248E-10 | 14: delta_r/delta_0: 1.5207E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.892889127878609E-003 2.811446543455670E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3595E-05 | 2: delta_r/delta_0: 1.2536E-06 | 3: delta_s/delta_0: 2.6116E-07 | 4: delta_r/delta_0: 4.2209E-08 | 5: delta_s/delta_0: 2.3264E-08 | 6: delta_r/delta_0: 7.1091E-09 | 7: delta_s/delta_0: 9.5017E-09 | 8: delta_r/delta_0: 1.4418E-09 | 9: delta_s/delta_0: 6.1980E-10 | 10: delta_r/delta_0: 3.5951E-10 | 11: delta_s/delta_0: 8.5030E-10 | 12: delta_r/delta_0: 4.3148E-10 | 13: delta_s/delta_0: 1.4258E-10 | 14: delta_r/delta_0: 1.4860E-11 | Reached bicg-stab tolerance | BP delta = -0.3180173 -0.2892123 2841356.34092067 | BP delta = -0.3180173 -0.2877511 2841391.94693168 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81206547 | --> Sampling calibration, mode = relcal | relcal = 0.2954089 0.2247825 -0.2837252 -0.2364663 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2642350E-04 5.0031100E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3116E-04 | 2: delta_r/delta_0: 5.9218E-06 | 3: delta_s/delta_0: 5.5530E-05 | 4: delta_r/delta_0: 3.8264E-06 | 5: delta_s/delta_0: 1.9834E-07 | 6: delta_r/delta_0: 1.1496E-07 | 7: delta_s/delta_0: 7.3056E-07 | 8: delta_r/delta_0: 2.6035E-08 | 9: delta_s/delta_0: 2.4014E-07 | 10: delta_r/delta_0: 2.9152E-08 | 11: delta_s/delta_0: 1.2015E-09 | 12: delta_r/delta_0: 7.3587E-10 | 13: delta_s/delta_0: 1.1589E-09 | 14: delta_r/delta_0: 1.6019E-10 | 15: delta_s/delta_0: 5.5416E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.970849357822711E-002 4.022486186684673E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3116E-04 | 2: delta_r/delta_0: 5.9217E-06 | 3: delta_s/delta_0: 5.5526E-05 | 4: delta_r/delta_0: 3.8264E-06 | 5: delta_s/delta_0: 1.9835E-07 | 6: delta_r/delta_0: 1.1498E-07 | 7: delta_s/delta_0: 7.3094E-07 | 8: delta_r/delta_0: 2.6035E-08 | 9: delta_s/delta_0: 2.4061E-07 | 10: delta_r/delta_0: 2.9247E-08 | 11: delta_s/delta_0: 1.2017E-09 | 12: delta_r/delta_0: 7.3572E-10 | 13: delta_s/delta_0: 1.1595E-09 | 14: delta_r/delta_0: 1.6007E-10 | 15: delta_s/delta_0: 5.5404E-11 | Reached bicg-stab tolerance | BP delta = -0.3408765 -0.3654837 2827250.91172011 | BP delta = -0.3408765 -0.3746078 2827254.47634267 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95882315 | --> Sampling calibration, mode = relcal | relcal = 0.1065068 0.1395088 -0.1102777 -0.1357379 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0064289E-02 1.3378582E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1685E-03 | 2: delta_r/delta_0: 2.8254E-05 | 3: delta_s/delta_0: 2.7234E-04 | 4: delta_r/delta_0: 9.9215E-06 | 5: delta_s/delta_0: 4.0657E-07 | 6: delta_r/delta_0: 1.6084E-07 | 7: delta_s/delta_0: 2.0953E-07 | 8: delta_r/delta_0: 4.6432E-08 | 9: delta_s/delta_0: 1.5334E-08 | 10: delta_r/delta_0: 6.2030E-09 | 11: delta_s/delta_0: 2.2340E-09 | 12: delta_r/delta_0: 1.4270E-09 | 13: delta_s/delta_0: 2.0078E-10 | 14: delta_r/delta_0: 1.0670E-10 | 15: delta_s/delta_0: 9.8841E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.535584003885242E-002 3.698504497987934E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1685E-03 | 2: delta_r/delta_0: 2.8252E-05 | 3: delta_s/delta_0: 2.7230E-04 | 4: delta_r/delta_0: 9.9203E-06 | 5: delta_s/delta_0: 4.0656E-07 | 6: delta_r/delta_0: 1.6084E-07 | 7: delta_s/delta_0: 2.0945E-07 | 8: delta_r/delta_0: 4.6431E-08 | 9: delta_s/delta_0: 1.5337E-08 | 10: delta_r/delta_0: 6.2016E-09 | 11: delta_s/delta_0: 2.2337E-09 | 12: delta_r/delta_0: 1.4271E-09 | 13: delta_s/delta_0: 2.0080E-10 | 14: delta_r/delta_0: 1.0672E-10 | 15: delta_s/delta_0: 9.8861E-11 | Reached bicg-stab tolerance | BP delta = 6.7925856E-02 0.1717624 3003887.79297806 | BP delta = 6.7925856E-02 0.1728325 3003897.97796840 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106617 | New value = -3.185559 | poltype: 2 pol: 1 CPU time specind = 1.9478798E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.079608 | New value = -3.198245 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164453 | New value = -3.132062 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119292 | New value = -3.224126 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125692 | New value = -3.170158 | poltype: 2 pol: 2 CPU time specind = 4.5721531E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.43 | CG iter. 1 -- res = 0.13604E+08, tol = 0.70586E+01, time = 5.51 | CG iter. 2 -- res = 0.37024E+06, tol = 0.70586E+01, time = 5.97 | CG iter. 3 -- res = 0.78695E+05, tol = 0.70586E+01, time = 5.76 | CG iter. 4 -- res = 0.74050E+05, tol = 0.70586E+01, time = 5.54 | CG iter. 5 -- res = 0.80326E+05, tol = 0.70586E+01, time = 6.29 | CG iter. 6 -- res = 0.84538E+05, tol = 0.70586E+01, time = 5.96 | CG iter. 7 -- res = 0.78650E+05, tol = 0.70586E+01, time = 5.50 | CG iter. 8 -- res = 0.60215E+05, tol = 0.70586E+01, time = 5.89 | CG iter. 9 -- res = 0.48915E+05, tol = 0.70586E+01, time = 5.62 | CG iter. 10 -- res = 0.39709E+05, tol = 0.70586E+01, time = 6.23 | CG iter. 11 -- res = 0.27695E+05, tol = 0.70586E+01, time = 6.07 | CG iter. 12 -- res = 0.21656E+05, tol = 0.70586E+01, time = 5.84 | CG iter. 13 -- res = 0.18828E+05, tol = 0.70586E+01, time = 5.70 | CG iter. 14 -- res = 0.16706E+05, tol = 0.70586E+01, time = 5.92 | CG iter. 15 -- res = 0.13578E+05, tol = 0.70586E+01, time = 5.77 | CG iter. 16 -- res = 0.95958E+04, tol = 0.70586E+01, time = 5.48 | CG iter. 17 -- res = 0.70921E+04, tol = 0.70586E+01, time = 5.76 | CG iter. 18 -- res = 0.59637E+04, tol = 0.70586E+01, time = 5.72 | CG iter. 19 -- res = 0.54133E+04, tol = 0.70586E+01, time = 5.78 | CG iter. 20 -- res = 0.43960E+04, tol = 0.70586E+01, time = 5.90 | CG iter. 21 -- res = 0.33250E+04, tol = 0.70586E+01, time = 5.55 | CG iter. 22 -- res = 0.28914E+04, tol = 0.70586E+01, time = 5.82 | CG iter. 23 -- res = 0.25547E+04, tol = 0.70586E+01, time = 5.77 | CG iter. 24 -- res = 0.21600E+04, tol = 0.70586E+01, time = 5.72 | CG iter. 25 -- res = 0.16625E+04, tol = 0.70586E+01, time = 5.67 | CG iter. 26 -- res = 0.13978E+04, tol = 0.70586E+01, time = 6.31 | CG iter. 27 -- res = 0.12425E+04, tol = 0.70586E+01, time = 11.35 | CG iter. 28 -- res = 0.11420E+04, tol = 0.70586E+01, time = 5.61 | CG iter. 29 -- res = 0.93758E+03, tol = 0.70586E+01, time = 5.51 | CG iter. 30 -- res = 0.76919E+03, tol = 0.70586E+01, time = 5.78 | CG iter. 31 -- res = 0.68653E+03, tol = 0.70586E+01, time = 5.92 | CG iter. 32 -- res = 0.60529E+03, tol = 0.70586E+01, time = 5.43 | CG iter. 33 -- res = 0.51178E+03, tol = 0.70586E+01, time = 5.95 | CG iter. 34 -- res = 0.40410E+03, tol = 0.70586E+01, time = 5.59 | CG iter. 35 -- res = 0.34475E+03, tol = 0.70586E+01, time = 5.77 | CG iter. 36 -- res = 0.31132E+03, tol = 0.70586E+01, time = 5.11 | CG iter. 37 -- res = 0.27106E+03, tol = 0.70586E+01, time = 5.71 | CG iter. 38 -- res = 0.20620E+03, tol = 0.70586E+01, time = 5.48 | CG iter. 39 -- res = 0.16727E+03, tol = 0.70586E+01, time = 5.78 | CG iter. 40 -- res = 0.14383E+03, tol = 0.70586E+01, time = 6.34 | CG iter. 41 -- res = 0.12203E+03, tol = 0.70586E+01, time = 6.06 | CG iter. 42 -- res = 0.93829E+02, tol = 0.70586E+01, time = 7.02 | CG iter. 43 -- res = 0.73581E+02, tol = 0.70586E+01, time = 6.52 | CG iter. 44 -- res = 0.61001E+02, tol = 0.70586E+01, time = 5.65 | CG iter. 45 -- res = 0.51289E+02, tol = 0.70586E+01, time = 5.74 | CG iter. 46 -- res = 0.40157E+02, tol = 0.70586E+01, time = 5.95 | CG iter. 47 -- res = 0.31209E+02, tol = 0.70586E+01, time = 5.96 | CG iter. 48 -- res = 0.25029E+02, tol = 0.70586E+01, time = 5.58 | CG iter. 49 -- res = 0.21569E+02, tol = 0.70586E+01, time = 5.54 | CG iter. 50 -- res = 0.17228E+02, tol = 0.70586E+01, time = 6.29 | Final CG iter 51 -- res = 0.17228E+02, tol = 0.70586E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7586890.361 | Old band monopole 10140389.303 | Change to band monopole -2553498.942 | Change to component monopole 2553487.959 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.83587E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.81343E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.26259E+01, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.13106E-01, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.51891E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7586857.728 | (Sampled value in CG: 7525321.603 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.466023 | New value = 1.511226 | poltype: 2 pol: 1 CPU time specind = 1.5586853E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.517199 | New value = 1.482303 | poltype: 2 pol: 2 CPU time specind = 2.2789001E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.24421E+08, tol = 0.47594E+04, time = 6.00 | CG iter. 2 -- res = 0.54241E+07, tol = 0.47594E+04, time = 6.36 | CG iter. 3 -- res = 0.83235E+06, tol = 0.47594E+04, time = 6.83 | CG iter. 4 -- res = 0.35547E+06, tol = 0.47594E+04, time = 6.56 | CG iter. 5 -- res = 0.15684E+06, tol = 0.47594E+04, time = 6.70 | CG iter. 6 -- res = 0.81075E+05, tol = 0.47594E+04, time = 6.62 | CG iter. 7 -- res = 0.44093E+05, tol = 0.47594E+04, time = 13.43 | CG iter. 8 -- res = 0.20834E+05, tol = 0.47594E+04, time = 6.48 | CG iter. 9 -- res = 0.90127E+04, tol = 0.47594E+04, time = 6.83 | CG iter. 10 -- res = 0.37295E+04, tol = 0.47594E+04, time = 6.65 | CG iter. 11 -- res = 0.17328E+04, tol = 0.47594E+04, time = 6.37 | CG iter. 12 -- res = 0.89532E+03, tol = 0.47594E+04, time = 6.38 | CG iter. 13 -- res = 0.50126E+03, tol = 0.47594E+04, time = 6.69 | CG iter. 14 -- res = 0.27921E+03, tol = 0.47594E+04, time = 6.33 | CG iter. 15 -- res = 0.14143E+03, tol = 0.47594E+04, time = 6.63 | CG iter. 16 -- res = 0.66663E+02, tol = 0.47594E+04, time = 6.38 | CG iter. 17 -- res = 0.32300E+02, tol = 0.47594E+04, time = 6.34 | CG iter. 18 -- res = 0.16726E+02, tol = 0.47594E+04, time = 6.67 | CG iter. 19 -- res = 0.89713E+01, tol = 0.47594E+04, time = 6.52 | CG iter. 20 -- res = 0.50631E+01, tol = 0.47594E+04, time = 8.45 | CG iter. 21 -- res = 0.27870E+01, tol = 0.47594E+04, time = 7.30 | CG iter. 22 -- res = 0.14135E+01, tol = 0.47594E+04, time = 6.65 | CG iter. 23 -- res = 0.69488E+00, tol = 0.47594E+04, time = 6.95 | CG iter. 24 -- res = 0.35939E+00, tol = 0.47594E+04, time = 5.95 | CG iter. 25 -- res = 0.20029E+00, tol = 0.47594E+04, time = 6.56 | CG iter. 26 -- res = 0.11575E+00, tol = 0.47594E+04, time = 6.80 | CG iter. 27 -- res = 0.65171E-01, tol = 0.47594E+04, time = 6.49 | CG iter. 28 -- res = 0.34188E-01, tol = 0.47594E+04, time = 6.38 | CG iter. 29 -- res = 0.18053E-01, tol = 0.47594E+04, time = 6.72 | CG iter. 30 -- res = 0.92201E-02, tol = 0.47594E+04, time = 6.56 | CG iter. 31 -- res = 0.49606E-02, tol = 0.47594E+04, time = 6.53 | CG iter. 32 -- res = 0.28069E-02, tol = 0.47594E+04, time = 6.66 | CG iter. 33 -- res = 0.15944E-02, tol = 0.47594E+04, time = 6.25 | CG iter. 34 -- res = 0.87634E-03, tol = 0.47594E+04, time = 6.47 | CG iter. 35 -- res = 0.44923E-03, tol = 0.47594E+04, time = 6.55 | Final CG iter 36 -- res = 0.44923E-03, tol = 0.47594E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.827 2.729 | New value 1.140 | Old value -0.827 | Difference 1.967 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.40 | CG iter. 1 -- res = 0.20889E+06, tol = 0.47627E+18, time = 2.27 | CG iter. 2 -- res = 0.70012E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.21726E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.87883E-03, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.22667E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7586857.728 | (Sampled value in CG: 7525755.598 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.502154 | New value = -3.470307 | poltype: 1 pol: 1 CPU time specind = 1.1265993E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.39402E+07, tol = 0.28243E+01, time = 2.47 | CG iter. 2 -- res = 0.16699E+07, tol = 0.28243E+01, time = 2.67 | CG iter. 3 -- res = 0.38881E+06, tol = 0.28243E+01, time = 2.62 | CG iter. 4 -- res = 0.19396E+06, tol = 0.28243E+01, time = 2.56 | CG iter. 5 -- res = 0.11258E+06, tol = 0.28243E+01, time = 2.88 | CG iter. 6 -- res = 0.45948E+05, tol = 0.28243E+01, time = 2.95 | CG iter. 7 -- res = 0.15916E+05, tol = 0.28243E+01, time = 2.83 | CG iter. 8 -- res = 0.71394E+04, tol = 0.28243E+01, time = 2.87 | CG iter. 9 -- res = 0.35765E+04, tol = 0.28243E+01, time = 2.36 | CG iter. 10 -- res = 0.14795E+04, tol = 0.28243E+01, time = 2.72 | CG iter. 11 -- res = 0.57790E+03, tol = 0.28243E+01, time = 3.15 | CG iter. 12 -- res = 0.27473E+03, tol = 0.28243E+01, time = 2.94 | CG iter. 13 -- res = 0.13410E+03, tol = 0.28243E+01, time = 2.86 | CG iter. 14 -- res = 0.68820E+02, tol = 0.28243E+01, time = 2.71 | CG iter. 15 -- res = 0.33882E+02, tol = 0.28243E+01, time = 2.78 | CG iter. 16 -- res = 0.14857E+02, tol = 0.28243E+01, time = 2.65 | CG iter. 17 -- res = 0.61214E+01, tol = 0.28243E+01, time = 2.92 | CG iter. 18 -- res = 0.28162E+01, tol = 0.28243E+01, time = 2.41 | CG iter. 19 -- res = 0.12983E+01, tol = 0.28243E+01, time = 2.73 | CG iter. 20 -- res = 0.68056E+00, tol = 0.28243E+01, time = 2.59 | CG iter. 21 -- res = 0.34980E+00, tol = 0.28243E+01, time = 2.68 | CG iter. 22 -- res = 0.17219E+00, tol = 0.28243E+01, time = 2.49 | CG iter. 23 -- res = 0.77266E-01, tol = 0.28243E+01, time = 2.53 | CG iter. 24 -- res = 0.36172E-01, tol = 0.28243E+01, time = 2.78 | CG iter. 25 -- res = 0.16935E-01, tol = 0.28243E+01, time = 2.88 | CG iter. 26 -- res = 0.80292E-02, tol = 0.28243E+01, time = 2.64 | CG iter. 27 -- res = 0.41665E-02, tol = 0.28243E+01, time = 2.53 | CG iter. 28 -- res = 0.21571E-02, tol = 0.28243E+01, time = 2.92 | CG iter. 29 -- res = 0.10212E-02, tol = 0.28243E+01, time = 2.62 | CG iter. 30 -- res = 0.49965E-03, tol = 0.28243E+01, time = 2.61 | CG iter. 31 -- res = 0.23031E-03, tol = 0.28243E+01, time = 2.53 | CG iter. 32 -- res = 0.10697E-03, tol = 0.28243E+01, time = 2.92 | CG iter. 33 -- res = 0.54425E-04, tol = 0.28243E+01, time = 2.76 | CG iter. 34 -- res = 0.28330E-04, tol = 0.28243E+01, time = 2.73 | CG iter. 35 -- res = 0.14787E-04, tol = 0.28243E+01, time = 2.50 | CG iter. 36 -- res = 0.72301E-05, tol = 0.28243E+01, time = 2.95 | CG iter. 37 -- res = 0.34384E-05, tol = 0.28243E+01, time = 2.62 | CG iter. 38 -- res = 0.15770E-05, tol = 0.28243E+01, time = 2.94 | CG iter. 39 -- res = 0.76044E-06, tol = 0.28243E+01, time = 9.41 | CG iter. 40 -- res = 0.38928E-06, tol = 0.28243E+01, time = 2.77 | CG iter. 41 -- res = 0.19982E-06, tol = 0.28243E+01, time = 2.65 | CG iter. 42 -- res = 0.99127E-07, tol = 0.28243E+01, time = 2.66 | CG iter. 43 -- res = 0.46635E-07, tol = 0.28243E+01, time = 2.74 | CG iter. 44 -- res = 0.21496E-07, tol = 0.28243E+01, time = 2.66 | CG iter. 45 -- res = 0.10269E-07, tol = 0.28243E+01, time = 2.84 | CG iter. 46 -- res = 0.49360E-08, tol = 0.28243E+01, time = 2.58 | CG iter. 47 -- res = 0.25570E-08, tol = 0.28243E+01, time = 2.78 | CG iter. 48 -- res = 0.12744E-08, tol = 0.28243E+01, time = 2.98 | CG iter. 49 -- res = 0.58620E-09, tol = 0.28243E+01, time = 2.78 | CG iter. 50 -- res = 0.26969E-09, tol = 0.28243E+01, time = 2.78 | Final CG iter 51 -- res = 0.26969E-09, tol = 0.28243E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.644 6.345 | New value -2.671 | Old value -1.644 | Difference -1.027 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.37148E+04, tol = 0.47627E+18, time = 2.30 | CG iter. 2 -- res = 0.16197E+02, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.57690E+00, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.35835E-03, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.23440E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7586857.728 | (Sampled value in CG: 7538237.831 ) | CPU time specind = 1195.829 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.69851E+08, tol = 0.57586E+04, time = 11.97 | CG iter. 2 -- res = 0.59011E+08, tol = 0.57586E+04, time = 11.27 | CG iter. 3 -- res = 0.15911E+08, tol = 0.57586E+04, time = 11.92 | CG iter. 4 -- res = 0.68309E+07, tol = 0.57586E+04, time = 11.86 | CG iter. 5 -- res = 0.40343E+07, tol = 0.57586E+04, time = 12.23 | CG iter. 6 -- res = 0.23201E+07, tol = 0.57586E+04, time = 12.00 | CG iter. 7 -- res = 0.13622E+07, tol = 0.57586E+04, time = 12.49 | CG iter. 8 -- res = 0.90340E+06, tol = 0.57586E+04, time = 13.53 | CG iter. 9 -- res = 0.58515E+06, tol = 0.57586E+04, time = 12.29 | CG iter. 10 -- res = 0.34970E+06, tol = 0.57586E+04, time = 12.16 | CG iter. 11 -- res = 0.19534E+06, tol = 0.57586E+04, time = 11.82 | CG iter. 12 -- res = 0.11221E+06, tol = 0.57586E+04, time = 12.17 | CG iter. 13 -- res = 0.69452E+05, tol = 0.57586E+04, time = 11.72 | CG iter. 14 -- res = 0.48182E+05, tol = 0.57586E+04, time = 12.04 | CG iter. 15 -- res = 0.39259E+05, tol = 0.57586E+04, time = 22.69 | CG iter. 16 -- res = 0.35752E+05, tol = 0.57586E+04, time = 12.10 | CG iter. 17 -- res = 0.34317E+05, tol = 0.57586E+04, time = 11.75 | CG iter. 18 -- res = 0.32002E+05, tol = 0.57586E+04, time = 11.76 | CG iter. 19 -- res = 0.29495E+05, tol = 0.57586E+04, time = 11.97 | CG iter. 20 -- res = 0.27562E+05, tol = 0.57586E+04, time = 11.55 | CG iter. 21 -- res = 0.26847E+05, tol = 0.57586E+04, time = 12.18 | CG iter. 22 -- res = 0.27458E+05, tol = 0.57586E+04, time = 13.18 | CG iter. 23 -- res = 0.27692E+05, tol = 0.57586E+04, time = 12.37 | CG iter. 24 -- res = 0.26336E+05, tol = 0.57586E+04, time = 11.59 | CG iter. 25 -- res = 0.22623E+05, tol = 0.57586E+04, time = 11.68 | CG iter. 26 -- res = 0.17224E+05, tol = 0.57586E+04, time = 12.31 | CG iter. 27 -- res = 0.12467E+05, tol = 0.57586E+04, time = 12.07 | CG iter. 28 -- res = 0.92316E+04, tol = 0.57586E+04, time = 12.40 | CG iter. 29 -- res = 0.75284E+04, tol = 0.57586E+04, time = 12.43 | CG iter. 30 -- res = 0.65456E+04, tol = 0.57586E+04, time = 12.23 | CG iter. 31 -- res = 0.58786E+04, tol = 0.57586E+04, time = 12.11 | CG iter. 32 -- res = 0.52668E+04, tol = 0.57586E+04, time = 12.05 | CG iter. 33 -- res = 0.46285E+04, tol = 0.57586E+04, time = 12.28 | CG iter. 34 -- res = 0.39873E+04, tol = 0.57586E+04, time = 11.45 | CG iter. 35 -- res = 0.34687E+04, tol = 0.57586E+04, time = 11.64 | CG iter. 36 -- res = 0.32091E+04, tol = 0.57586E+04, time = 12.34 | CG iter. 37 -- res = 0.31531E+04, tol = 0.57586E+04, time = 12.05 | CG iter. 38 -- res = 0.30279E+04, tol = 0.57586E+04, time = 12.00 | CG iter. 39 -- res = 0.26514E+04, tol = 0.57586E+04, time = 18.64 | CG iter. 40 -- res = 0.22134E+04, tol = 0.57586E+04, time = 11.64 | CG iter. 41 -- res = 0.17876E+04, tol = 0.57586E+04, time = 11.90 | CG iter. 42 -- res = 0.14909E+04, tol = 0.57586E+04, time = 11.61 | CG iter. 43 -- res = 0.12901E+04, tol = 0.57586E+04, time = 11.15 | CG iter. 44 -- res = 0.11730E+04, tol = 0.57586E+04, time = 11.93 | CG iter. 45 -- res = 0.11425E+04, tol = 0.57586E+04, time = 11.59 | CG iter. 46 -- res = 0.10878E+04, tol = 0.57586E+04, time = 13.37 | CG iter. 47 -- res = 0.95473E+03, tol = 0.57586E+04, time = 12.68 | CG iter. 48 -- res = 0.81935E+03, tol = 0.57586E+04, time = 12.36 | CG iter. 49 -- res = 0.71983E+03, tol = 0.57586E+04, time = 11.54 | CG iter. 50 -- res = 0.66953E+03, tol = 0.57586E+04, time = 11.96 | CG iter. 51 -- res = 0.64128E+03, tol = 0.57586E+04, time = 11.91 | CG iter. 52 -- res = 0.61791E+03, tol = 0.57586E+04, time = 11.45 | CG iter. 53 -- res = 0.58491E+03, tol = 0.57586E+04, time = 11.14 | CG iter. 54 -- res = 0.52873E+03, tol = 0.57586E+04, time = 11.85 | CG iter. 55 -- res = 0.45285E+03, tol = 0.57586E+04, time = 12.63 | CG iter. 56 -- res = 0.37666E+03, tol = 0.57586E+04, time = 11.80 | CG iter. 57 -- res = 0.33203E+03, tol = 0.57586E+04, time = 11.70 | CG iter. 58 -- res = 0.30997E+03, tol = 0.57586E+04, time = 11.74 | CG iter. 59 -- res = 0.29578E+03, tol = 0.57586E+04, time = 12.14 | CG iter. 60 -- res = 0.27626E+03, tol = 0.57586E+04, time = 11.83 | Final CG iter 61 -- res = 0.27626E+03, tol = 0.57586E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.963 ( -229.563 -2231.892 2514.592 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8011756.913 | Old band monopole 7586890.361 | Change to band monopole 424866.552 | Change to component monopole -424864.725 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.137 2.724 | New value 1.712 | Old value 1.137 | Difference 0.575 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.311 ( 6.657 13.595 -13.298 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.243 4.006 | New value 6.101 | Old value 6.243 | Difference -0.142 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.24755E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.23203E+02, tol = 0.47627E+18, time = 6.30 | CG iter. 3 -- res = 0.61169E+00, tol = 0.47627E+18, time = 4.41 | CG iter. 4 -- res = 0.13986E-02, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.56086E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8011722.453 | (Sampled value in CG: 7991053.436 ) | Chain = 1 -- chisq = 0.81574488E+09 | Chain = 1 -- wall time = 6125.337 sec Available RAM: MemAvailable: 383909716 kB Available Swap: SwapFree: 1127150816 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 301 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442720 | --> Sampling calibration, mode = relcal | relcal = 1.3429989E-02 7.4606197E-04 -1.5993596E-03 -1.2576692E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1184339 0.1248914 97050428.6914455 | BP delta = 0.1002820 0.1067394 97050445.7561974 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632534 | --> Sampling calibration, mode = relcal | relcal = -2.8207251E-03 -7.0510455E-04 1.6782456E-03 1.6146495E-03 -4.0669116E-04 6.3962565E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5539821 15218544.0038199 | BP delta = 0.0000000E+00 -0.5588722 15218548.0831445 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102122 | --> Sampling calibration, mode = relcal | relcal = 3.7080247E-02 1.3715589E-02 5.7439501E-03 -7.1604792E-03 8.2431370E-03 2.3897120E-03 -7.5950660E-03 -7.1795708E-03 -1.5297458E-02 -1.4798594E-02 -3.0500670E-03 -1.2091400E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.183385 132209765.572845 | BP delta = 0.0000000E+00 -1.182050 132209767.547900 | BP chisq diff = 2.0, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18259313732930 | --> Sampling calibration, mode = relcal | relcal = -7.5486593E-02 -5.8847565E-02 9.2376955E-02 4.1957203E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0958070E-04 5.2123796E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4482E-05 | 2: delta_r/delta_0: 1.1126E-06 | 3: delta_s/delta_0: 1.8965E-07 | 4: delta_r/delta_0: 2.1834E-08 | 5: delta_s/delta_0: 6.0027E-09 | 6: delta_r/delta_0: 1.7837E-09 | 7: delta_s/delta_0: 3.6908E-10 | 8: delta_r/delta_0: 1.1687E-10 | 9: delta_s/delta_0: 1.6676E-10 | 10: delta_r/delta_0: 6.8516E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.313772079259045E-003 2.737288525435942E-005 | BP delta = 6.4102128E-02 8.4321208E-02 50482037.3144928 | BP delta = 6.6799112E-02 8.7018199E-02 50482035.5667529 | BP chisq diff = -1.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599215 | --> Sampling calibration, mode = relcal | relcal = -0.1066621 -9.5541902E-02 0.1450235 5.7180483E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3587706E-03 1.4705515E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4474E-05 | 2: delta_r/delta_0: 1.2591E-06 | 3: delta_s/delta_0: 2.5478E-07 | 4: delta_r/delta_0: 4.0808E-08 | 5: delta_s/delta_0: 2.2461E-08 | 6: delta_r/delta_0: 6.4741E-09 | 7: delta_s/delta_0: 1.0040E-08 | 8: delta_r/delta_0: 1.2115E-09 | 9: delta_s/delta_0: 1.1397E-09 | 10: delta_r/delta_0: 5.8881E-10 | 11: delta_s/delta_0: 8.9827E-10 | 12: delta_r/delta_0: 3.5397E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.856366106034959E-003 2.810869558690832E-005 | BP delta = -0.3180173 -0.2892123 57389304.1899305 | BP delta = -0.3263620 -0.2975571 57389304.3613041 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81227905 | --> Sampling calibration, mode = relcal | relcal = 0.2954555 0.2248825 -0.2837489 -0.2365891 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.5245272E-04 5.4929019E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1080E-03 | 2: delta_r/delta_0: 2.6484E-05 | 3: delta_s/delta_0: 1.4424E-06 | 4: delta_r/delta_0: 5.1619E-07 | 5: delta_s/delta_0: 3.1548E-07 | 6: delta_r/delta_0: 1.3532E-07 | 7: delta_s/delta_0: 2.9723E-05 | 8: delta_r/delta_0: 5.1152E-06 | 9: delta_s/delta_0: 1.8204E-08 | 10: delta_r/delta_0: 8.1670E-09 | 11: delta_s/delta_0: 3.8189E-09 | 12: delta_r/delta_0: 5.9947E-10 | 13: delta_s/delta_0: 5.5985E-10 | 14: delta_r/delta_0: 4.0578E-10 | 15: delta_s/delta_0: 7.1895E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.412029039004050E-002 4.021454416344325E-005 | BP delta = -0.3408765 -0.3654837 72484648.5658531 | BP delta = -0.2904369 -0.3150442 72484648.1587084 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95921835 | --> Sampling calibration, mode = relcal | relcal = 0.1065507 0.1394808 -0.1102233 -0.1358082 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0415636E-02 1.3299475E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5715E-03 | 2: delta_r/delta_0: 3.7985E-05 | 3: delta_s/delta_0: 1.1048E-03 | 4: delta_r/delta_0: 4.1354E-05 | 5: delta_s/delta_0: 4.6739E-07 | 6: delta_r/delta_0: 1.7361E-07 | 7: delta_s/delta_0: 2.5601E-07 | 8: delta_r/delta_0: 4.8046E-08 | 9: delta_s/delta_0: 1.7067E-08 | 10: delta_r/delta_0: 5.2723E-09 | 11: delta_s/delta_0: 1.8555E-09 | 12: delta_r/delta_0: 1.3460E-09 | 13: delta_s/delta_0: 2.0566E-10 | 14: delta_r/delta_0: 1.3380E-10 | 15: delta_s/delta_0: 1.3785E-10 | 16: delta_r/delta_0: 7.3455E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.644597142365072E-002 3.696922065239415E-005 | BP delta = 6.7925856E-02 0.1717624 72791321.3630061 | BP delta = 2.6275590E-02 0.1301121 72791320.7734456 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52150519 | --> Sampling calibration, mode = relcal | relcal = -5.1034227E-02 -3.6298481E-03 2.7336389E-02 2.7327688E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.1447689E-05 2.7817024E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3298E-05 | 2: delta_r/delta_0: 4.4048E-06 | 3: delta_s/delta_0: 5.0318E-07 | 4: delta_r/delta_0: 1.7081E-07 | 5: delta_s/delta_0: 2.3523E-07 | 6: delta_r/delta_0: 2.8087E-08 | 7: delta_s/delta_0: 2.3788E-08 | 8: delta_r/delta_0: 8.1703E-09 | 9: delta_s/delta_0: 5.3703E-08 | 10: delta_r/delta_0: 4.2013E-09 | 11: delta_s/delta_0: 1.1387E-09 | 12: delta_r/delta_0: 4.5607E-10 | 13: delta_s/delta_0: 5.6519E-10 | 14: delta_r/delta_0: 1.1681E-10 | 15: delta_s/delta_0: 1.3429E-10 | 16: delta_r/delta_0: 2.0192E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.274587038795291E-002 5.483973521348088E-005 | BP delta = 0.1078512 0.1976304 91249769.3459410 | BP delta = 0.1047714 0.1945506 91249769.3729618 | BP chisq diff = 0.0, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42153093 | --> Sampling calibration, mode = relcal | relcal = 4.5612667E-02 3.9587013E-02 -2.8251987E-02 -5.6947697E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8070749E-03 4.1953367E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7950E-05 | 2: delta_r/delta_0: 3.3178E-06 | 3: delta_s/delta_0: 1.8927E-06 | 4: delta_r/delta_0: 2.4310E-07 | 5: delta_s/delta_0: 6.5545E-08 | 6: delta_r/delta_0: 3.4213E-08 | 7: delta_s/delta_0: 1.9145E-07 | 8: delta_r/delta_0: 4.3911E-09 | 9: delta_s/delta_0: 2.8161E-09 | 10: delta_r/delta_0: 2.0144E-09 | 11: delta_s/delta_0: 2.0648E-09 | 12: delta_r/delta_0: 1.2857E-09 | 13: delta_s/delta_0: 1.3143E-10 | 14: delta_r/delta_0: 6.1898E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.399149559003197E-002 4.996243283284578E-005 | BP delta = 5.8388457E-02 -4.0921293E-02 90177705.3567553 | BP delta = 5.1093444E-02 -4.8216309E-02 90177705.4302553 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28158016 | --> Sampling calibration, mode = relcal | relcal = 2.4249280E-02 4.5160595E-02 -2.3432551E-02 -4.5977324E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1504681E-02 4.6359049E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0570E-04 | 2: delta_r/delta_0: 8.6314E-06 | 3: delta_s/delta_0: 1.4177E-06 | 4: delta_r/delta_0: 2.1971E-07 | 5: delta_s/delta_0: 8.4884E-08 | 6: delta_r/delta_0: 1.8562E-08 | 7: delta_s/delta_0: 8.9121E-09 | 8: delta_r/delta_0: 5.8921E-09 | 9: delta_s/delta_0: 6.3300E-08 | 10: delta_r/delta_0: 5.6992E-09 | 11: delta_s/delta_0: 1.8171E-09 | 12: delta_r/delta_0: 9.3429E-10 | 13: delta_s/delta_0: 3.9998E-10 | 14: delta_r/delta_0: 1.2837E-10 | 15: delta_s/delta_0: 7.9233E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.880898145907150E-003 7.845249040466039E-005 | BP delta = -0.2399882 -0.3936148 160928927.245211 | BP delta = -0.2458979 -0.3995245 160928927.187594 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29381741 | --> Sampling calibration, mode = relcal | relcal = 5.2005373E-04 1.0296049E-02 -3.7703528E-03 -7.0457500E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8640745E-02 1.5774578E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3270E-04 | 2: delta_r/delta_0: 1.1290E-05 | 3: delta_s/delta_0: 1.8291E-06 | 4: delta_r/delta_0: 2.7911E-07 | 5: delta_s/delta_0: 1.0837E-07 | 6: delta_r/delta_0: 2.6013E-08 | 7: delta_s/delta_0: 1.2410E-08 | 8: delta_r/delta_0: 8.6016E-09 | 9: delta_s/delta_0: 8.8897E-09 | 10: delta_r/delta_0: 5.8708E-09 | 11: delta_s/delta_0: 1.9474E-07 | 12: delta_r/delta_0: 3.8320E-09 | 13: delta_s/delta_0: 3.8169E-09 | 14: delta_r/delta_0: 1.5632E-09 | 15: delta_s/delta_0: 7.6629E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.075364140755766E-002 8.309650100033987E-005 | BP delta = -0.7906070 -0.7446334 157852787.251390 | BP delta = -0.8037840 -0.7578103 157852787.164197 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26495812 | --> Sampling calibration, mode = relcal | relcal = -5.5884430E-03 1.5026611E-02 -2.3607011E-03 -7.0774681E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0284694E-03 4.3757176E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4081E-04 | 2: delta_r/delta_0: 1.2103E-05 | 3: delta_s/delta_0: 2.0788E-06 | 4: delta_r/delta_0: 2.3595E-07 | 5: delta_s/delta_0: 8.8814E-08 | 6: delta_r/delta_0: 1.8986E-08 | 7: delta_s/delta_0: 7.9946E-09 | 8: delta_r/delta_0: 5.0453E-09 | 9: delta_s/delta_0: 4.7938E-09 | 10: delta_r/delta_0: 3.4060E-09 | 11: delta_s/delta_0: 1.4782E-05 | 12: delta_r/delta_0: 4.7957E-07 | 13: delta_s/delta_0: 7.4849E-10 | 14: delta_r/delta_0: 4.6497E-10 | 15: delta_s/delta_0: 8.3320E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.242892048533602E-003 9.157305501266050E-005 | BP delta = 0.3717383 0.4161394 157024697.631613 | BP delta = 0.3431881 0.3875892 157024697.498295 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25658426 | --> Sampling calibration, mode = relcal | relcal = -3.1674404E-02 -2.5943752E-02 3.6820926E-02 2.0797232E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5548689E-02 2.1781800E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4518E-04 | 2: delta_r/delta_0: 1.2068E-05 | 3: delta_s/delta_0: 1.8412E-06 | 4: delta_r/delta_0: 3.9768E-07 | 5: delta_s/delta_0: 1.4615E-07 | 6: delta_r/delta_0: 3.0365E-08 | 7: delta_s/delta_0: 1.5650E-08 | 8: delta_r/delta_0: 7.2997E-09 | 9: delta_s/delta_0: 8.5255E-08 | 10: delta_r/delta_0: 5.3896E-09 | 11: delta_s/delta_0: 7.2089E-09 | 12: delta_r/delta_0: 4.0116E-09 | 13: delta_s/delta_0: 2.6830E-10 | 14: delta_r/delta_0: 2.0823E-10 | 15: delta_s/delta_0: 1.2057E-10 | 16: delta_r/delta_0: 1.0186E-10 | 17: delta_s/delta_0: 9.2193E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.168288902717035E-002 8.674181768126799E-005 | BP delta = -0.7956595 -0.9537111 158531031.314804 | BP delta = -0.8076026 -0.9656542 158531031.283156 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185559 | New value = -3.207506 | poltype: 2 pol: 1 CPU time specind = 1.7605066E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.198245 | New value = -3.100120 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132062 | New value = -3.190019 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.224126 | New value = -3.168969 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170158 | New value = -3.157859 | poltype: 2 pol: 2 CPU time specind = 2.2428989E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.13530E+08, tol = 0.85435E+01, time = 5.93 | CG iter. 2 -- res = 0.30222E+06, tol = 0.85435E+01, time = 5.81 | CG iter. 3 -- res = 0.44175E+05, tol = 0.85435E+01, time = 5.76 | CG iter. 4 -- res = 0.19439E+05, tol = 0.85435E+01, time = 5.22 | CG iter. 5 -- res = 0.88187E+04, tol = 0.85435E+01, time = 6.04 | CG iter. 6 -- res = 0.43963E+04, tol = 0.85435E+01, time = 5.62 | CG iter. 7 -- res = 0.26733E+04, tol = 0.85435E+01, time = 11.74 | CG iter. 8 -- res = 0.17135E+04, tol = 0.85435E+01, time = 5.75 | CG iter. 9 -- res = 0.13370E+04, tol = 0.85435E+01, time = 5.61 | CG iter. 10 -- res = 0.13417E+04, tol = 0.85435E+01, time = 5.47 | CG iter. 11 -- res = 0.12851E+04, tol = 0.85435E+01, time = 5.55 | CG iter. 12 -- res = 0.10202E+04, tol = 0.85435E+01, time = 5.78 | CG iter. 13 -- res = 0.73304E+03, tol = 0.85435E+01, time = 5.41 | CG iter. 14 -- res = 0.56253E+03, tol = 0.85435E+01, time = 5.58 | CG iter. 15 -- res = 0.46296E+03, tol = 0.85435E+01, time = 5.70 | CG iter. 16 -- res = 0.39181E+03, tol = 0.85435E+01, time = 5.50 | CG iter. 17 -- res = 0.29809E+03, tol = 0.85435E+01, time = 5.81 | CG iter. 18 -- res = 0.24110E+03, tol = 0.85435E+01, time = 5.71 | CG iter. 19 -- res = 0.21114E+03, tol = 0.85435E+01, time = 5.46 | CG iter. 20 -- res = 0.17172E+03, tol = 0.85435E+01, time = 5.62 | CG iter. 21 -- res = 0.12186E+03, tol = 0.85435E+01, time = 5.95 | CG iter. 22 -- res = 0.89857E+02, tol = 0.85435E+01, time = 7.05 | CG iter. 23 -- res = 0.72782E+02, tol = 0.85435E+01, time = 6.35 | CG iter. 24 -- res = 0.62580E+02, tol = 0.85435E+01, time = 6.01 | CG iter. 25 -- res = 0.49993E+02, tol = 0.85435E+01, time = 5.47 | CG iter. 26 -- res = 0.37566E+02, tol = 0.85435E+01, time = 6.09 | CG iter. 27 -- res = 0.29621E+02, tol = 0.85435E+01, time = 5.62 | CG iter. 28 -- res = 0.24775E+02, tol = 0.85435E+01, time = 5.84 | CG iter. 29 -- res = 0.20027E+02, tol = 0.85435E+01, time = 5.78 | CG iter. 30 -- res = 0.15131E+02, tol = 0.85435E+01, time = 5.37 | CG iter. 31 -- res = 0.12065E+02, tol = 0.85435E+01, time = 5.65 | CG iter. 32 -- res = 0.10165E+02, tol = 0.85435E+01, time = 5.92 | CG iter. 33 -- res = 0.88710E+01, tol = 0.85435E+01, time = 5.56 | CG iter. 34 -- res = 0.67607E+01, tol = 0.85435E+01, time = 5.64 | CG iter. 35 -- res = 0.52617E+01, tol = 0.85435E+01, time = 5.64 | CG iter. 36 -- res = 0.45273E+01, tol = 0.85435E+01, time = 5.87 | CG iter. 37 -- res = 0.38923E+01, tol = 0.85435E+01, time = 5.86 | CG iter. 38 -- res = 0.30217E+01, tol = 0.85435E+01, time = 5.69 | CG iter. 39 -- res = 0.23304E+01, tol = 0.85435E+01, time = 5.64 | CG iter. 40 -- res = 0.18720E+01, tol = 0.85435E+01, time = 5.73 | CG iter. 41 -- res = 0.16181E+01, tol = 0.85435E+01, time = 5.69 | CG iter. 42 -- res = 0.12843E+01, tol = 0.85435E+01, time = 5.48 | CG iter. 43 -- res = 0.99654E+00, tol = 0.85435E+01, time = 5.84 | CG iter. 44 -- res = 0.79627E+00, tol = 0.85435E+01, time = 5.62 | CG iter. 45 -- res = 0.68646E+00, tol = 0.85435E+01, time = 5.98 | CG iter. 46 -- res = 0.59393E+00, tol = 0.85435E+01, time = 5.65 | CG iter. 47 -- res = 0.47824E+00, tol = 0.85435E+01, time = 5.60 | CG iter. 48 -- res = 0.38699E+00, tol = 0.85435E+01, time = 5.84 | CG iter. 49 -- res = 0.33556E+00, tol = 0.85435E+01, time = 5.42 | CG iter. 50 -- res = 0.28781E+00, tol = 0.85435E+01, time = 5.76 | Final CG iter 51 -- res = 0.28781E+00, tol = 0.85435E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6488882.590 | Old band monopole 8011756.913 | Change to band monopole -1522874.324 | Change to component monopole 1522867.774 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.45556E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.11368E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.93936E-01, tol = 0.47627E+18, time = 2.14 | Final CG iter 4 -- res = 0.10687E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6488854.680 | (Sampled value in CG: 6473327.512 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.511226 | New value = 1.457381 | poltype: 2 pol: 1 CPU time specind = 1.2818098E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.482303 | New value = 1.479149 | poltype: 2 pol: 2 CPU time specind = 1.7135859E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.24576E+08, tol = 0.47502E+04, time = 6.32 | CG iter. 2 -- res = 0.52677E+07, tol = 0.47502E+04, time = 6.75 | CG iter. 3 -- res = 0.82554E+06, tol = 0.47502E+04, time = 7.82 | CG iter. 4 -- res = 0.34145E+06, tol = 0.47502E+04, time = 7.11 | CG iter. 5 -- res = 0.14719E+06, tol = 0.47502E+04, time = 6.40 | CG iter. 6 -- res = 0.77038E+05, tol = 0.47502E+04, time = 6.83 | CG iter. 7 -- res = 0.42093E+05, tol = 0.47502E+04, time = 6.56 | CG iter. 8 -- res = 0.20213E+05, tol = 0.47502E+04, time = 6.55 | CG iter. 9 -- res = 0.90453E+04, tol = 0.47502E+04, time = 6.73 | CG iter. 10 -- res = 0.37010E+04, tol = 0.47502E+04, time = 6.96 | CG iter. 11 -- res = 0.16584E+04, tol = 0.47502E+04, time = 6.94 | CG iter. 12 -- res = 0.85123E+03, tol = 0.47502E+04, time = 6.48 | CG iter. 13 -- res = 0.48407E+03, tol = 0.47502E+04, time = 6.92 | CG iter. 14 -- res = 0.27292E+03, tol = 0.47502E+04, time = 6.37 | CG iter. 15 -- res = 0.13925E+03, tol = 0.47502E+04, time = 6.64 | CG iter. 16 -- res = 0.67936E+02, tol = 0.47502E+04, time = 6.60 | CG iter. 17 -- res = 0.32081E+02, tol = 0.47502E+04, time = 6.48 | CG iter. 18 -- res = 0.15767E+02, tol = 0.47502E+04, time = 6.65 | CG iter. 19 -- res = 0.84661E+01, tol = 0.47502E+04, time = 7.01 | CG iter. 20 -- res = 0.47998E+01, tol = 0.47502E+04, time = 6.19 | CG iter. 21 -- res = 0.26465E+01, tol = 0.47502E+04, time = 6.76 | CG iter. 22 -- res = 0.13818E+01, tol = 0.47502E+04, time = 6.55 | CG iter. 23 -- res = 0.69021E+00, tol = 0.47502E+04, time = 6.34 | CG iter. 24 -- res = 0.35732E+00, tol = 0.47502E+04, time = 6.63 | CG iter. 25 -- res = 0.19461E+00, tol = 0.47502E+04, time = 6.25 | CG iter. 26 -- res = 0.11002E+00, tol = 0.47502E+04, time = 6.64 | CG iter. 27 -- res = 0.61758E-01, tol = 0.47502E+04, time = 6.51 | CG iter. 28 -- res = 0.32414E-01, tol = 0.47502E+04, time = 6.64 | CG iter. 29 -- res = 0.16963E-01, tol = 0.47502E+04, time = 6.43 | CG iter. 30 -- res = 0.90659E-02, tol = 0.47502E+04, time = 6.41 | CG iter. 31 -- res = 0.49462E-02, tol = 0.47502E+04, time = 6.44 | CG iter. 32 -- res = 0.27908E-02, tol = 0.47502E+04, time = 6.52 | CG iter. 33 -- res = 0.15483E-02, tol = 0.47502E+04, time = 6.56 | CG iter. 34 -- res = 0.83322E-03, tol = 0.47502E+04, time = 10.22 | CG iter. 35 -- res = 0.43729E-03, tol = 0.47502E+04, time = 8.87 | Final CG iter 36 -- res = 0.43729E-03, tol = 0.47502E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.761 2.745 | New value -1.645 | Old value 1.761 | Difference -3.406 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.60585E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.26099E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.40618E+00, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.62969E-03, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.14722E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6488854.680 | (Sampled value in CG: 6472765.526 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.470307 | New value = -3.643995 | poltype: 1 pol: 1 CPU time specind = 1.0483027E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.21359E+07, tol = 0.33413E+01, time = 8.11 | CG iter. 2 -- res = 0.66867E+06, tol = 0.33413E+01, time = 2.40 | CG iter. 3 -- res = 0.12528E+06, tol = 0.33413E+01, time = 2.77 | CG iter. 4 -- res = 0.51739E+05, tol = 0.33413E+01, time = 2.61 | CG iter. 5 -- res = 0.31487E+05, tol = 0.33413E+01, time = 2.72 | CG iter. 6 -- res = 0.16696E+05, tol = 0.33413E+01, time = 2.62 | CG iter. 7 -- res = 0.63140E+04, tol = 0.33413E+01, time = 2.60 | CG iter. 8 -- res = 0.28364E+04, tol = 0.33413E+01, time = 2.73 | CG iter. 9 -- res = 0.12000E+04, tol = 0.33413E+01, time = 2.45 | CG iter. 10 -- res = 0.48845E+03, tol = 0.33413E+01, time = 2.58 | CG iter. 11 -- res = 0.20662E+03, tol = 0.33413E+01, time = 2.59 | CG iter. 12 -- res = 0.10063E+03, tol = 0.33413E+01, time = 2.97 | CG iter. 13 -- res = 0.52903E+02, tol = 0.33413E+01, time = 2.64 | CG iter. 14 -- res = 0.26236E+02, tol = 0.33413E+01, time = 2.86 | CG iter. 15 -- res = 0.11573E+02, tol = 0.33413E+01, time = 2.39 | CG iter. 16 -- res = 0.50074E+01, tol = 0.33413E+01, time = 2.62 | CG iter. 17 -- res = 0.21593E+01, tol = 0.33413E+01, time = 2.47 | CG iter. 18 -- res = 0.10047E+01, tol = 0.33413E+01, time = 2.83 | CG iter. 19 -- res = 0.49584E+00, tol = 0.33413E+01, time = 2.67 | CG iter. 20 -- res = 0.26079E+00, tol = 0.33413E+01, time = 2.73 | CG iter. 21 -- res = 0.12200E+00, tol = 0.33413E+01, time = 2.70 | CG iter. 22 -- res = 0.55118E-01, tol = 0.33413E+01, time = 2.85 | CG iter. 23 -- res = 0.24603E-01, tol = 0.33413E+01, time = 2.90 | CG iter. 24 -- res = 0.11721E-01, tol = 0.33413E+01, time = 2.60 | CG iter. 25 -- res = 0.60693E-02, tol = 0.33413E+01, time = 2.96 | CG iter. 26 -- res = 0.32007E-02, tol = 0.33413E+01, time = 2.62 | CG iter. 27 -- res = 0.15574E-02, tol = 0.33413E+01, time = 2.45 | CG iter. 28 -- res = 0.72697E-03, tol = 0.33413E+01, time = 2.77 | CG iter. 29 -- res = 0.32430E-03, tol = 0.33413E+01, time = 2.64 | CG iter. 30 -- res = 0.15296E-03, tol = 0.33413E+01, time = 2.47 | CG iter. 31 -- res = 0.80643E-04, tol = 0.33413E+01, time = 3.08 | CG iter. 32 -- res = 0.41772E-04, tol = 0.33413E+01, time = 4.25 | CG iter. 33 -- res = 0.19616E-04, tol = 0.33413E+01, time = 2.94 | CG iter. 34 -- res = 0.90720E-05, tol = 0.33413E+01, time = 3.00 | CG iter. 35 -- res = 0.40826E-05, tol = 0.33413E+01, time = 3.26 | CG iter. 36 -- res = 0.20027E-05, tol = 0.33413E+01, time = 2.73 | CG iter. 37 -- res = 0.10061E-05, tol = 0.33413E+01, time = 2.68 | CG iter. 38 -- res = 0.50852E-06, tol = 0.33413E+01, time = 2.92 | CG iter. 39 -- res = 0.24577E-06, tol = 0.33413E+01, time = 2.53 | CG iter. 40 -- res = 0.10884E-06, tol = 0.33413E+01, time = 2.73 | CG iter. 41 -- res = 0.51747E-07, tol = 0.33413E+01, time = 2.77 | CG iter. 42 -- res = 0.25264E-07, tol = 0.33413E+01, time = 2.92 | CG iter. 43 -- res = 0.12022E-07, tol = 0.33413E+01, time = 2.70 | CG iter. 44 -- res = 0.58680E-08, tol = 0.33413E+01, time = 2.64 | CG iter. 45 -- res = 0.29463E-08, tol = 0.33413E+01, time = 2.70 | CG iter. 46 -- res = 0.13749E-08, tol = 0.33413E+01, time = 2.72 | CG iter. 47 -- res = 0.64412E-09, tol = 0.33413E+01, time = 2.58 | CG iter. 48 -- res = 0.29866E-09, tol = 0.33413E+01, time = 2.48 | CG iter. 49 -- res = 0.14347E-09, tol = 0.33413E+01, time = 2.93 | CG iter. 50 -- res = 0.67170E-10, tol = 0.33413E+01, time = 2.87 | Final CG iter 51 -- res = 0.67170E-10, tol = 0.33413E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.978 4.593 | New value -8.481 | Old value 4.978 | Difference -13.459 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.17753E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.59106E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.25402E+01, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.92745E-03, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.49732E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6488854.680 | (Sampled value in CG: 6477514.511 ) | CPU time specind = 1189.506 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.70358E+08, tol = 0.57746E+04, time = 11.49 | CG iter. 2 -- res = 0.59195E+08, tol = 0.57746E+04, time = 11.36 | CG iter. 3 -- res = 0.15482E+08, tol = 0.57746E+04, time = 11.92 | CG iter. 4 -- res = 0.66784E+07, tol = 0.57746E+04, time = 11.81 | CG iter. 5 -- res = 0.40021E+07, tol = 0.57746E+04, time = 12.15 | CG iter. 6 -- res = 0.22708E+07, tol = 0.57746E+04, time = 11.98 | CG iter. 7 -- res = 0.13247E+07, tol = 0.57746E+04, time = 17.44 | CG iter. 8 -- res = 0.86042E+06, tol = 0.57746E+04, time = 11.92 | CG iter. 9 -- res = 0.55106E+06, tol = 0.57746E+04, time = 11.46 | CG iter. 10 -- res = 0.33245E+06, tol = 0.57746E+04, time = 11.97 | CG iter. 11 -- res = 0.17305E+06, tol = 0.57746E+04, time = 11.76 | CG iter. 12 -- res = 0.89793E+05, tol = 0.57746E+04, time = 11.76 | CG iter. 13 -- res = 0.49757E+05, tol = 0.57746E+04, time = 12.05 | CG iter. 14 -- res = 0.29216E+05, tol = 0.57746E+04, time = 13.31 | CG iter. 15 -- res = 0.18811E+05, tol = 0.57746E+04, time = 11.97 | CG iter. 16 -- res = 0.12709E+05, tol = 0.57746E+04, time = 11.40 | CG iter. 17 -- res = 0.87999E+04, tol = 0.57746E+04, time = 11.60 | CG iter. 18 -- res = 0.60923E+04, tol = 0.57746E+04, time = 11.75 | CG iter. 19 -- res = 0.40966E+04, tol = 0.57746E+04, time = 11.88 | CG iter. 20 -- res = 0.27363E+04, tol = 0.57746E+04, time = 11.47 | CG iter. 21 -- res = 0.19064E+04, tol = 0.57746E+04, time = 11.40 | CG iter. 22 -- res = 0.14871E+04, tol = 0.57746E+04, time = 11.70 | CG iter. 23 -- res = 0.13467E+04, tol = 0.57746E+04, time = 12.02 | CG iter. 24 -- res = 0.13874E+04, tol = 0.57746E+04, time = 11.62 | CG iter. 25 -- res = 0.15027E+04, tol = 0.57746E+04, time = 11.51 | CG iter. 26 -- res = 0.15339E+04, tol = 0.57746E+04, time = 12.08 | CG iter. 27 -- res = 0.14680E+04, tol = 0.57746E+04, time = 11.44 | CG iter. 28 -- res = 0.13186E+04, tol = 0.57746E+04, time = 12.04 | CG iter. 29 -- res = 0.12051E+04, tol = 0.57746E+04, time = 12.01 | CG iter. 30 -- res = 0.11327E+04, tol = 0.57746E+04, time = 11.55 | CG iter. 31 -- res = 0.10425E+04, tol = 0.57746E+04, time = 11.98 | CG iter. 32 -- res = 0.92758E+03, tol = 0.57746E+04, time = 17.39 | CG iter. 33 -- res = 0.77700E+03, tol = 0.57746E+04, time = 11.64 | CG iter. 34 -- res = 0.61172E+03, tol = 0.57746E+04, time = 11.13 | CG iter. 35 -- res = 0.47276E+03, tol = 0.57746E+04, time = 11.59 | CG iter. 36 -- res = 0.38758E+03, tol = 0.57746E+04, time = 11.48 | CG iter. 37 -- res = 0.34776E+03, tol = 0.57746E+04, time = 11.77 | CG iter. 38 -- res = 0.33026E+03, tol = 0.57746E+04, time = 12.06 | CG iter. 39 -- res = 0.32983E+03, tol = 0.57746E+04, time = 13.07 | CG iter. 40 -- res = 0.31685E+03, tol = 0.57746E+04, time = 12.06 | CG iter. 41 -- res = 0.29002E+03, tol = 0.57746E+04, time = 11.69 | CG iter. 42 -- res = 0.26162E+03, tol = 0.57746E+04, time = 11.92 | CG iter. 43 -- res = 0.24377E+03, tol = 0.57746E+04, time = 11.74 | CG iter. 44 -- res = 0.23213E+03, tol = 0.57746E+04, time = 11.27 | CG iter. 45 -- res = 0.22288E+03, tol = 0.57746E+04, time = 11.47 | CG iter. 46 -- res = 0.21444E+03, tol = 0.57746E+04, time = 11.69 | CG iter. 47 -- res = 0.19740E+03, tol = 0.57746E+04, time = 11.42 | CG iter. 48 -- res = 0.16960E+03, tol = 0.57746E+04, time = 12.86 | CG iter. 49 -- res = 0.14304E+03, tol = 0.57746E+04, time = 11.67 | CG iter. 50 -- res = 0.12224E+03, tol = 0.57746E+04, time = 11.76 | CG iter. 51 -- res = 0.11048E+03, tol = 0.57746E+04, time = 11.63 | CG iter. 52 -- res = 0.10530E+03, tol = 0.57746E+04, time = 11.58 | CG iter. 53 -- res = 0.10048E+03, tol = 0.57746E+04, time = 12.05 | CG iter. 54 -- res = 0.97203E+02, tol = 0.57746E+04, time = 11.42 | CG iter. 55 -- res = 0.96519E+02, tol = 0.57746E+04, time = 12.02 | CG iter. 56 -- res = 0.89642E+02, tol = 0.57746E+04, time = 15.70 | CG iter. 57 -- res = 0.81786E+02, tol = 0.57746E+04, time = 14.48 | CG iter. 58 -- res = 0.76543E+02, tol = 0.57746E+04, time = 11.71 | CG iter. 59 -- res = 0.73808E+02, tol = 0.57746E+04, time = 11.63 | CG iter. 60 -- res = 0.71110E+02, tol = 0.57746E+04, time = 11.70 | Final CG iter 61 -- res = 0.71110E+02, tol = 0.57746E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.745 ( -229.682 -2230.950 2513.313 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11323584.633 | Old band monopole 6488882.590 | Change to band monopole 4834702.043 | Change to component monopole -4834681.248 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.680 2.720 | New value 4.498 | Old value -1.680 | Difference 6.178 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.689 ( 7.508 10.914 -9.849 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.428 5.185 | New value 1.715 | Old value -0.428 | Difference 2.143 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.20064E+07, tol = 0.47627E+18, time = 3.17 | CG iter. 2 -- res = 0.35436E+02, tol = 0.47627E+18, time = 2.41 | CG iter. 3 -- res = 0.13817E+01, tol = 0.47627E+18, time = 3.60 | CG iter. 4 -- res = 0.35223E-02, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.12403E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11323535.927 | (Sampled value in CG: 11294385.110 ) | Chain = 1 -- chisq = 0.81594620E+09 | Chain = 1 -- wall time = 16890.711 sec Available RAM: MemAvailable: 466671888 kB Available Swap: SwapFree: 1057160556 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 302 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444630 | --> Sampling calibration, mode = relcal | relcal = 1.3435899E-02 7.4178394E-04 -1.5927150E-03 -1.2584968E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1184339 0.1248914 9410670.99490113 | BP delta = 0.1184339 0.1197653 9410681.24201270 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632308 | --> Sampling calibration, mode = relcal | relcal = -2.8209635E-03 -7.0389762E-04 1.6783446E-03 1.6136419E-03 -4.0833213E-04 6.4120675E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5539821 15216775.8364964 | BP delta = 0.0000000E+00 -0.5600343 15216774.2975663 | BP chisq diff = -1.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17922624882714 | --> Sampling calibration, mode = relcal | relcal = -7.4225798E-02 -5.7903942E-02 9.1047458E-02 4.1082282E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4539829E-05 3.2799821E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5440E-03 | 2: delta_r/delta_0: 3.4997E-05 | 3: delta_s/delta_0: 1.9734E-07 | 4: delta_r/delta_0: 2.0616E-08 | 5: delta_s/delta_0: 7.5110E-09 | 6: delta_r/delta_0: 1.5109E-09 | 7: delta_s/delta_0: 5.7417E-09 | 8: delta_r/delta_0: 1.0508E-10 | 9: delta_s/delta_0: 7.1031E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.185561545056991E-003 2.745284199006309E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5445E-03 | 2: delta_r/delta_0: 3.5006E-05 | 3: delta_s/delta_0: 1.9734E-07 | 4: delta_r/delta_0: 2.0616E-08 | 5: delta_s/delta_0: 7.5110E-09 | 6: delta_r/delta_0: 1.5108E-09 | 7: delta_s/delta_0: 5.7451E-09 | 8: delta_r/delta_0: 1.0508E-10 | 9: delta_s/delta_0: 7.1021E-11 | Reached bicg-stab tolerance | BP delta = 6.6799112E-02 8.7018199E-02 3608906.47531328 | BP delta = 6.6799112E-02 8.7106660E-02 3610693.20721812 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02588016 | --> Sampling calibration, mode = relcal | relcal = -0.1066746 -9.5504701E-02 0.1449469 5.7232480E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4271055E-03 1.5054973E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7870E-05 | 2: delta_r/delta_0: 1.1851E-06 | 3: delta_s/delta_0: 2.5083E-07 | 4: delta_r/delta_0: 4.6323E-08 | 5: delta_s/delta_0: 1.8992E-08 | 6: delta_r/delta_0: 6.9590E-09 | 7: delta_s/delta_0: 1.2667E-08 | 8: delta_r/delta_0: 1.0744E-09 | 9: delta_s/delta_0: 9.7242E-10 | 10: delta_r/delta_0: 1.4440E-10 | 11: delta_s/delta_0: 2.0262E-09 | 12: delta_r/delta_0: 1.9601E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.885471979853034E-003 2.811163936266686E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7870E-05 | 2: delta_r/delta_0: 1.1851E-06 | 3: delta_s/delta_0: 2.5081E-07 | 4: delta_r/delta_0: 4.6285E-08 | 5: delta_s/delta_0: 1.9005E-08 | 6: delta_r/delta_0: 6.9575E-09 | 7: delta_s/delta_0: 1.2672E-08 | 8: delta_r/delta_0: 1.0741E-09 | 9: delta_s/delta_0: 9.7220E-10 | 10: delta_r/delta_0: 1.4430E-10 | 11: delta_s/delta_0: 2.0235E-09 | 12: delta_r/delta_0: 1.9600E-11 | Reached bicg-stab tolerance | BP delta = -0.3263620 -0.2975571 2841626.41400965 | BP delta = -0.3263620 -0.3012061 2841745.77248011 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81209455 | --> Sampling calibration, mode = relcal | relcal = 0.2953368 0.2248487 -0.2837257 -0.2364597 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1515532E-03 5.5430871E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1248E-03 | 2: delta_r/delta_0: 2.6903E-05 | 3: delta_s/delta_0: 6.0254E-06 | 4: delta_r/delta_0: 5.8035E-07 | 5: delta_s/delta_0: 7.6052E-04 | 6: delta_r/delta_0: 5.8973E-05 | 7: delta_s/delta_0: 7.7610E-08 | 8: delta_r/delta_0: 4.2554E-08 | 9: delta_s/delta_0: 1.7549E-07 | 10: delta_r/delta_0: 1.6013E-08 | 11: delta_s/delta_0: 1.0944E-07 | 12: delta_r/delta_0: 3.0943E-08 | 13: delta_s/delta_0: 2.7754E-10 | 14: delta_r/delta_0: 1.6998E-10 | 15: delta_s/delta_0: 4.5889E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.414871996117518E-002 4.022358678605805E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1247E-03 | 2: delta_r/delta_0: 2.6901E-05 | 3: delta_s/delta_0: 6.0254E-06 | 4: delta_r/delta_0: 5.8033E-07 | 5: delta_s/delta_0: 7.6637E-04 | 6: delta_r/delta_0: 5.9450E-05 | 7: delta_s/delta_0: 7.7607E-08 | 8: delta_r/delta_0: 4.2551E-08 | 9: delta_s/delta_0: 1.7557E-07 | 10: delta_r/delta_0: 1.6015E-08 | 11: delta_s/delta_0: 1.0933E-07 | 12: delta_r/delta_0: 3.0919E-08 | 13: delta_s/delta_0: 2.7752E-10 | 14: delta_r/delta_0: 1.6998E-10 | 15: delta_s/delta_0: 4.5886E-11 | Reached bicg-stab tolerance | BP delta = -0.2904369 -0.3150442 2827380.61455919 | BP delta = -0.2904369 -0.3173727 2827381.22271373 | BP chisq diff = 0.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95893126 | --> Sampling calibration, mode = relcal | relcal = 0.1063420 0.1395723 -0.1101698 -0.1357445 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0835023E-02 1.3515710E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7674E-04 | 2: delta_r/delta_0: 9.3304E-06 | 3: delta_s/delta_0: 1.2430E-03 | 4: delta_r/delta_0: 5.7004E-05 | 5: delta_s/delta_0: 2.3966E-07 | 6: delta_r/delta_0: 1.1371E-07 | 7: delta_s/delta_0: 3.5140E-07 | 8: delta_r/delta_0: 3.2185E-08 | 9: delta_s/delta_0: 1.2632E-08 | 10: delta_r/delta_0: 2.0891E-09 | 11: delta_s/delta_0: 2.1949E-09 | 12: delta_r/delta_0: 1.2806E-09 | 13: delta_s/delta_0: 1.9700E-10 | 14: delta_r/delta_0: 9.1731E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.136733691734384E-002 3.698039372477087E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7678E-04 | 2: delta_r/delta_0: 9.3312E-06 | 3: delta_s/delta_0: 1.2419E-03 | 4: delta_r/delta_0: 5.6929E-05 | 5: delta_s/delta_0: 2.3965E-07 | 6: delta_r/delta_0: 1.1369E-07 | 7: delta_s/delta_0: 3.5044E-07 | 8: delta_r/delta_0: 3.2185E-08 | 9: delta_s/delta_0: 1.2625E-08 | 10: delta_r/delta_0: 2.0927E-09 | 11: delta_s/delta_0: 2.1955E-09 | 12: delta_r/delta_0: 1.2820E-09 | 13: delta_s/delta_0: 1.9689E-10 | 14: delta_r/delta_0: 9.1801E-11 | Reached bicg-stab tolerance | BP delta = 2.6275590E-02 0.1301121 3003777.84592039 | BP delta = 2.6275590E-02 0.1417348 3003784.78520917 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.207506 | New value = -3.238959 | poltype: 2 pol: 1 CPU time specind = 1.1891127E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.100120 | New value = -3.141852 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190019 | New value = -3.149631 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168969 | New value = -3.165833 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157859 | New value = -3.144237 | poltype: 2 pol: 2 CPU time specind = 6.1678886E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.13534E+08, tol = 0.61344E+01, time = 5.73 | CG iter. 2 -- res = 0.34373E+06, tol = 0.61344E+01, time = 6.12 | CG iter. 3 -- res = 0.49360E+05, tol = 0.61344E+01, time = 6.18 | CG iter. 4 -- res = 0.22426E+05, tol = 0.61344E+01, time = 7.41 | CG iter. 5 -- res = 0.13339E+05, tol = 0.61344E+01, time = 6.76 | CG iter. 6 -- res = 0.81469E+04, tol = 0.61344E+01, time = 5.96 | CG iter. 7 -- res = 0.66481E+04, tol = 0.61344E+01, time = 5.88 | CG iter. 8 -- res = 0.58455E+04, tol = 0.61344E+01, time = 5.90 | CG iter. 9 -- res = 0.56753E+04, tol = 0.61344E+01, time = 5.97 | CG iter. 10 -- res = 0.63344E+04, tol = 0.61344E+01, time = 5.79 | CG iter. 11 -- res = 0.55268E+04, tol = 0.61344E+01, time = 6.01 | CG iter. 12 -- res = 0.38858E+04, tol = 0.61344E+01, time = 6.11 | CG iter. 13 -- res = 0.26465E+04, tol = 0.61344E+01, time = 6.01 | CG iter. 14 -- res = 0.21525E+04, tol = 0.61344E+01, time = 6.23 | CG iter. 15 -- res = 0.17899E+04, tol = 0.61344E+01, time = 5.76 | CG iter. 16 -- res = 0.14476E+04, tol = 0.61344E+01, time = 6.05 | CG iter. 17 -- res = 0.11009E+04, tol = 0.61344E+01, time = 6.09 | CG iter. 18 -- res = 0.90422E+03, tol = 0.61344E+01, time = 5.83 | CG iter. 19 -- res = 0.77216E+03, tol = 0.61344E+01, time = 6.17 | CG iter. 20 -- res = 0.63359E+03, tol = 0.61344E+01, time = 5.38 | CG iter. 21 -- res = 0.45767E+03, tol = 0.61344E+01, time = 6.03 | CG iter. 22 -- res = 0.37125E+03, tol = 0.61344E+01, time = 5.90 | CG iter. 23 -- res = 0.33424E+03, tol = 0.61344E+01, time = 5.85 | CG iter. 24 -- res = 0.30380E+03, tol = 0.61344E+01, time = 5.93 | CG iter. 25 -- res = 0.25135E+03, tol = 0.61344E+01, time = 6.27 | CG iter. 26 -- res = 0.19676E+03, tol = 0.61344E+01, time = 5.97 | CG iter. 27 -- res = 0.17331E+03, tol = 0.61344E+01, time = 5.83 | CG iter. 28 -- res = 0.16102E+03, tol = 0.61344E+01, time = 5.70 | CG iter. 29 -- res = 0.13700E+03, tol = 0.61344E+01, time = 6.00 | CG iter. 30 -- res = 0.11225E+03, tol = 0.61344E+01, time = 5.97 | CG iter. 31 -- res = 0.10066E+03, tol = 0.61344E+01, time = 5.83 | CG iter. 32 -- res = 0.97443E+02, tol = 0.61344E+01, time = 6.01 | CG iter. 33 -- res = 0.86204E+02, tol = 0.61344E+01, time = 5.54 | CG iter. 34 -- res = 0.70109E+02, tol = 0.61344E+01, time = 5.59 | CG iter. 35 -- res = 0.58777E+02, tol = 0.61344E+01, time = 6.03 | CG iter. 36 -- res = 0.54572E+02, tol = 0.61344E+01, time = 5.94 | CG iter. 37 -- res = 0.49850E+02, tol = 0.61344E+01, time = 5.98 | CG iter. 38 -- res = 0.41736E+02, tol = 0.61344E+01, time = 5.67 | CG iter. 39 -- res = 0.33960E+02, tol = 0.61344E+01, time = 11.85 | CG iter. 40 -- res = 0.29793E+02, tol = 0.61344E+01, time = 5.96 | CG iter. 41 -- res = 0.26762E+02, tol = 0.61344E+01, time = 5.93 | CG iter. 42 -- res = 0.22133E+02, tol = 0.61344E+01, time = 5.96 | CG iter. 43 -- res = 0.18015E+02, tol = 0.61344E+01, time = 5.79 | CG iter. 44 -- res = 0.15184E+02, tol = 0.61344E+01, time = 5.55 | CG iter. 45 -- res = 0.12928E+02, tol = 0.61344E+01, time = 5.99 | CG iter. 46 -- res = 0.10893E+02, tol = 0.61344E+01, time = 5.90 | CG iter. 47 -- res = 0.88799E+01, tol = 0.61344E+01, time = 5.97 | CG iter. 48 -- res = 0.73240E+01, tol = 0.61344E+01, time = 5.85 | CG iter. 49 -- res = 0.63181E+01, tol = 0.61344E+01, time = 5.84 | CG iter. 50 -- res = 0.54287E+01, tol = 0.61344E+01, time = 5.77 | Final CG iter 51 -- res = 0.54287E+01, tol = 0.61344E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9632750.003 | Old band monopole 11323584.633 | Change to band monopole -1690834.629 | Change to component monopole 1690827.356 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.34518E+03, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.94489E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.52613E-01, tol = 0.47627E+18, time = 2.33 | Final CG iter 4 -- res = 0.80159E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9632708.571 | (Sampled value in CG: 9618934.986 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.457381 | New value = 1.475610 | poltype: 2 pol: 1 CPU time specind = 1.4339924E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.479149 | New value = 1.479812 | poltype: 2 pol: 2 CPU time specind = 1.4487028E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.24085E+08, tol = 0.47589E+04, time = 6.48 | CG iter. 2 -- res = 0.53503E+07, tol = 0.47589E+04, time = 7.39 | CG iter. 3 -- res = 0.83188E+06, tol = 0.47589E+04, time = 6.82 | CG iter. 4 -- res = 0.35783E+06, tol = 0.47589E+04, time = 7.10 | CG iter. 5 -- res = 0.15528E+06, tol = 0.47589E+04, time = 6.82 | CG iter. 6 -- res = 0.80069E+05, tol = 0.47589E+04, time = 6.73 | CG iter. 7 -- res = 0.44406E+05, tol = 0.47589E+04, time = 6.87 | CG iter. 8 -- res = 0.21626E+05, tol = 0.47589E+04, time = 6.64 | CG iter. 9 -- res = 0.94732E+04, tol = 0.47589E+04, time = 6.78 | CG iter. 10 -- res = 0.38355E+04, tol = 0.47589E+04, time = 7.07 | CG iter. 11 -- res = 0.16962E+04, tol = 0.47589E+04, time = 6.76 | CG iter. 12 -- res = 0.87588E+03, tol = 0.47589E+04, time = 6.97 | CG iter. 13 -- res = 0.50417E+03, tol = 0.47589E+04, time = 7.03 | CG iter. 14 -- res = 0.28557E+03, tol = 0.47589E+04, time = 6.49 | CG iter. 15 -- res = 0.14494E+03, tol = 0.47589E+04, time = 6.66 | CG iter. 16 -- res = 0.68754E+02, tol = 0.47589E+04, time = 6.74 | CG iter. 17 -- res = 0.32254E+02, tol = 0.47589E+04, time = 13.61 | CG iter. 18 -- res = 0.16208E+02, tol = 0.47589E+04, time = 6.84 | CG iter. 19 -- res = 0.87618E+01, tol = 0.47589E+04, time = 7.33 | CG iter. 20 -- res = 0.48630E+01, tol = 0.47589E+04, time = 6.93 | CG iter. 21 -- res = 0.26929E+01, tol = 0.47589E+04, time = 6.51 | CG iter. 22 -- res = 0.14083E+01, tol = 0.47589E+04, time = 6.50 | CG iter. 23 -- res = 0.71438E+00, tol = 0.47589E+04, time = 6.89 | CG iter. 24 -- res = 0.36459E+00, tol = 0.47589E+04, time = 6.72 | CG iter. 25 -- res = 0.19918E+00, tol = 0.47589E+04, time = 6.51 | CG iter. 26 -- res = 0.11366E+00, tol = 0.47589E+04, time = 6.47 | CG iter. 27 -- res = 0.63227E-01, tol = 0.47589E+04, time = 6.68 | CG iter. 28 -- res = 0.33676E-01, tol = 0.47589E+04, time = 6.69 | CG iter. 29 -- res = 0.17396E-01, tol = 0.47589E+04, time = 7.32 | CG iter. 30 -- res = 0.91175E-02, tol = 0.47589E+04, time = 7.59 | CG iter. 31 -- res = 0.49754E-02, tol = 0.47589E+04, time = 7.38 | CG iter. 32 -- res = 0.28365E-02, tol = 0.47589E+04, time = 6.63 | CG iter. 33 -- res = 0.16124E-02, tol = 0.47589E+04, time = 6.56 | CG iter. 34 -- res = 0.90189E-03, tol = 0.47589E+04, time = 6.70 | CG iter. 35 -- res = 0.47183E-03, tol = 0.47589E+04, time = 6.62 | Final CG iter 36 -- res = 0.47183E-03, tol = 0.47589E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.546 2.754 | New value -4.568 | Old value 4.546 | Difference -9.114 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.42956E+07, tol = 0.47627E+18, time = 2.17 | CG iter. 2 -- res = 0.22555E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.55812E+00, tol = 0.47627E+18, time = 2.27 | CG iter. 4 -- res = 0.80635E-03, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.39910E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9632708.571 | (Sampled value in CG: 9619321.921 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.643995 | New value = -3.527511 | poltype: 1 pol: 1 CPU time specind = 1.1601925E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.30 | CG iter. 1 -- res = 0.21906E+07, tol = 0.24114E+01, time = 2.96 | CG iter. 2 -- res = 0.79266E+06, tol = 0.24114E+01, time = 2.95 | CG iter. 3 -- res = 0.14244E+06, tol = 0.24114E+01, time = 2.78 | CG iter. 4 -- res = 0.59097E+05, tol = 0.24114E+01, time = 2.69 | CG iter. 5 -- res = 0.34554E+05, tol = 0.24114E+01, time = 3.10 | CG iter. 6 -- res = 0.17992E+05, tol = 0.24114E+01, time = 2.87 | CG iter. 7 -- res = 0.75380E+04, tol = 0.24114E+01, time = 3.08 | CG iter. 8 -- res = 0.35391E+04, tol = 0.24114E+01, time = 2.60 | CG iter. 9 -- res = 0.15144E+04, tol = 0.24114E+01, time = 2.79 | CG iter. 10 -- res = 0.59279E+03, tol = 0.24114E+01, time = 2.78 | CG iter. 11 -- res = 0.24102E+03, tol = 0.24114E+01, time = 2.87 | CG iter. 12 -- res = 0.11346E+03, tol = 0.24114E+01, time = 2.77 | CG iter. 13 -- res = 0.58159E+02, tol = 0.24114E+01, time = 2.86 | CG iter. 14 -- res = 0.29541E+02, tol = 0.24114E+01, time = 2.96 | CG iter. 15 -- res = 0.13908E+02, tol = 0.24114E+01, time = 3.00 | CG iter. 16 -- res = 0.59749E+01, tol = 0.24114E+01, time = 3.07 | CG iter. 17 -- res = 0.25277E+01, tol = 0.24114E+01, time = 2.78 | CG iter. 18 -- res = 0.11496E+01, tol = 0.24114E+01, time = 3.04 | CG iter. 19 -- res = 0.56620E+00, tol = 0.24114E+01, time = 2.92 | CG iter. 20 -- res = 0.29627E+00, tol = 0.24114E+01, time = 2.78 | CG iter. 21 -- res = 0.15097E+00, tol = 0.24114E+01, time = 2.98 | CG iter. 22 -- res = 0.72712E-01, tol = 0.24114E+01, time = 2.60 | CG iter. 23 -- res = 0.32560E-01, tol = 0.24114E+01, time = 3.67 | CG iter. 24 -- res = 0.15044E-01, tol = 0.24114E+01, time = 2.89 | CG iter. 25 -- res = 0.69483E-02, tol = 0.24114E+01, time = 2.88 | CG iter. 26 -- res = 0.35267E-02, tol = 0.24114E+01, time = 2.80 | CG iter. 27 -- res = 0.18340E-02, tol = 0.24114E+01, time = 2.91 | CG iter. 28 -- res = 0.93506E-03, tol = 0.24114E+01, time = 2.48 | CG iter. 29 -- res = 0.43168E-03, tol = 0.24114E+01, time = 2.78 | CG iter. 30 -- res = 0.19494E-03, tol = 0.24114E+01, time = 2.83 | CG iter. 31 -- res = 0.91066E-04, tol = 0.24114E+01, time = 2.99 | CG iter. 32 -- res = 0.45362E-04, tol = 0.24114E+01, time = 2.96 | CG iter. 33 -- res = 0.24445E-04, tol = 0.24114E+01, time = 2.82 | CG iter. 34 -- res = 0.11962E-04, tol = 0.24114E+01, time = 2.38 | CG iter. 35 -- res = 0.55987E-05, tol = 0.24114E+01, time = 3.16 | CG iter. 36 -- res = 0.27346E-05, tol = 0.24114E+01, time = 2.76 | CG iter. 37 -- res = 0.12393E-05, tol = 0.24114E+01, time = 3.38 | CG iter. 38 -- res = 0.61697E-06, tol = 0.24114E+01, time = 2.78 | CG iter. 39 -- res = 0.30425E-06, tol = 0.24114E+01, time = 2.52 | CG iter. 40 -- res = 0.15100E-06, tol = 0.24114E+01, time = 2.72 | CG iter. 41 -- res = 0.75991E-07, tol = 0.24114E+01, time = 2.90 | CG iter. 42 -- res = 0.35847E-07, tol = 0.24114E+01, time = 2.95 | CG iter. 43 -- res = 0.15884E-07, tol = 0.24114E+01, time = 2.82 | CG iter. 44 -- res = 0.74612E-08, tol = 0.24114E+01, time = 2.80 | CG iter. 45 -- res = 0.35904E-08, tol = 0.24114E+01, time = 2.84 | CG iter. 46 -- res = 0.17874E-08, tol = 0.24114E+01, time = 2.63 | CG iter. 47 -- res = 0.87794E-09, tol = 0.24114E+01, time = 2.80 | CG iter. 48 -- res = 0.43234E-09, tol = 0.24114E+01, time = 3.10 | CG iter. 49 -- res = 0.20942E-09, tol = 0.24114E+01, time = 2.99 | CG iter. 50 -- res = 0.90540E-10, tol = 0.24114E+01, time = 2.73 | Final CG iter 51 -- res = 0.90540E-10, tol = 0.24114E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.144 5.322 | New value 3.596 | Old value 0.144 | Difference 3.452 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.12297E+05, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.24250E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.61831E+00, tol = 0.47627E+18, time = 2.52 | CG iter. 4 -- res = 0.10107E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.40735E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9632708.571 | (Sampled value in CG: 9619495.932 ) | CPU time specind = 1213.450 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.68465E+08, tol = 0.57519E+04, time = 12.28 | CG iter. 2 -- res = 0.58130E+08, tol = 0.57519E+04, time = 13.65 | CG iter. 3 -- res = 0.14997E+08, tol = 0.57519E+04, time = 13.04 | CG iter. 4 -- res = 0.65633E+07, tol = 0.57519E+04, time = 12.16 | CG iter. 5 -- res = 0.38960E+07, tol = 0.57519E+04, time = 12.28 | CG iter. 6 -- res = 0.22205E+07, tol = 0.57519E+04, time = 12.02 | CG iter. 7 -- res = 0.13139E+07, tol = 0.57519E+04, time = 12.13 | CG iter. 8 -- res = 0.84921E+06, tol = 0.57519E+04, time = 12.26 | CG iter. 9 -- res = 0.52654E+06, tol = 0.57519E+04, time = 11.92 | CG iter. 10 -- res = 0.30875E+06, tol = 0.57519E+04, time = 12.59 | CG iter. 11 -- res = 0.16340E+06, tol = 0.57519E+04, time = 12.29 | CG iter. 12 -- res = 0.87192E+05, tol = 0.57519E+04, time = 12.33 | CG iter. 13 -- res = 0.49444E+05, tol = 0.57519E+04, time = 12.67 | CG iter. 14 -- res = 0.29487E+05, tol = 0.57519E+04, time = 12.56 | CG iter. 15 -- res = 0.19092E+05, tol = 0.57519E+04, time = 11.96 | CG iter. 16 -- res = 0.13602E+05, tol = 0.57519E+04, time = 12.54 | CG iter. 17 -- res = 0.98846E+04, tol = 0.57519E+04, time = 12.35 | CG iter. 18 -- res = 0.72043E+04, tol = 0.57519E+04, time = 11.99 | CG iter. 19 -- res = 0.50128E+04, tol = 0.57519E+04, time = 19.04 | CG iter. 20 -- res = 0.35782E+04, tol = 0.57519E+04, time = 12.45 | CG iter. 21 -- res = 0.28440E+04, tol = 0.57519E+04, time = 12.26 | CG iter. 22 -- res = 0.26529E+04, tol = 0.57519E+04, time = 11.37 | CG iter. 23 -- res = 0.28255E+04, tol = 0.57519E+04, time = 12.27 | CG iter. 24 -- res = 0.31432E+04, tol = 0.57519E+04, time = 12.46 | CG iter. 25 -- res = 0.34085E+04, tol = 0.57519E+04, time = 12.05 | CG iter. 26 -- res = 0.34444E+04, tol = 0.57519E+04, time = 13.84 | CG iter. 27 -- res = 0.31711E+04, tol = 0.57519E+04, time = 12.15 | CG iter. 28 -- res = 0.27711E+04, tol = 0.57519E+04, time = 12.11 | CG iter. 29 -- res = 0.24231E+04, tol = 0.57519E+04, time = 12.14 | CG iter. 30 -- res = 0.21082E+04, tol = 0.57519E+04, time = 12.40 | CG iter. 31 -- res = 0.17920E+04, tol = 0.57519E+04, time = 11.72 | CG iter. 32 -- res = 0.14885E+04, tol = 0.57519E+04, time = 11.96 | CG iter. 33 -- res = 0.11892E+04, tol = 0.57519E+04, time = 12.09 | CG iter. 34 -- res = 0.92284E+03, tol = 0.57519E+04, time = 12.27 | CG iter. 35 -- res = 0.70823E+03, tol = 0.57519E+04, time = 13.21 | CG iter. 36 -- res = 0.56584E+03, tol = 0.57519E+04, time = 12.28 | CG iter. 37 -- res = 0.50499E+03, tol = 0.57519E+04, time = 12.25 | CG iter. 38 -- res = 0.48111E+03, tol = 0.57519E+04, time = 12.37 | CG iter. 39 -- res = 0.47696E+03, tol = 0.57519E+04, time = 11.97 | CG iter. 40 -- res = 0.45113E+03, tol = 0.57519E+04, time = 12.54 | CG iter. 41 -- res = 0.40390E+03, tol = 0.57519E+04, time = 12.17 | CG iter. 42 -- res = 0.35659E+03, tol = 0.57519E+04, time = 12.36 | CG iter. 43 -- res = 0.31867E+03, tol = 0.57519E+04, time = 18.44 | CG iter. 44 -- res = 0.29962E+03, tol = 0.57519E+04, time = 12.28 | CG iter. 45 -- res = 0.28508E+03, tol = 0.57519E+04, time = 12.37 | CG iter. 46 -- res = 0.26392E+03, tol = 0.57519E+04, time = 12.06 | CG iter. 47 -- res = 0.23630E+03, tol = 0.57519E+04, time = 16.32 | CG iter. 48 -- res = 0.19638E+03, tol = 0.57519E+04, time = 12.52 | CG iter. 49 -- res = 0.16136E+03, tol = 0.57519E+04, time = 13.51 | CG iter. 50 -- res = 0.13898E+03, tol = 0.57519E+04, time = 13.90 | CG iter. 51 -- res = 0.12653E+03, tol = 0.57519E+04, time = 12.45 | CG iter. 52 -- res = 0.11904E+03, tol = 0.57519E+04, time = 12.18 | CG iter. 53 -- res = 0.11460E+03, tol = 0.57519E+04, time = 12.43 | CG iter. 54 -- res = 0.10893E+03, tol = 0.57519E+04, time = 12.12 | CG iter. 55 -- res = 0.10079E+03, tol = 0.57519E+04, time = 12.23 | CG iter. 56 -- res = 0.91601E+02, tol = 0.57519E+04, time = 12.57 | CG iter. 57 -- res = 0.84853E+02, tol = 0.57519E+04, time = 12.07 | CG iter. 58 -- res = 0.79844E+02, tol = 0.57519E+04, time = 12.40 | CG iter. 59 -- res = 0.77268E+02, tol = 0.57519E+04, time = 11.76 | CG iter. 60 -- res = 0.74418E+02, tol = 0.57519E+04, time = 12.40 | Final CG iter 61 -- res = 0.74418E+02, tol = 0.57519E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.922 ( -229.695 -2232.470 2515.079 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10595370.805 | Old band monopole 9632750.003 | Change to band monopole 962620.801 | Change to component monopole -962616.661 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.664 2.701 | New value 0.255 | Old value -4.664 | Difference 4.919 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.423 ( 7.407 14.304 -13.507 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.783 5.786 | New value -1.520 | Old value 6.783 | Difference -8.303 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.12847E+07, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.36784E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.14624E+01, tol = 0.47627E+18, time = 2.29 | CG iter. 4 -- res = 0.35715E-02, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.34903E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10595325.232 | (Sampled value in CG: 10572624.646 ) | Chain = 1 -- chisq = 0.81603996E+09 | Chain = 1 -- wall time = 6169.296 sec Available RAM: MemAvailable: 380318976 kB Available Swap: SwapFree: 1109363820 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 303 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443181 | --> Sampling calibration, mode = relcal | relcal = 1.3428446E-02 7.3953858E-04 -1.5837018E-03 -1.2584283E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1184339 0.1248914 97047855.0238573 | BP delta = 0.1226899 0.1291474 97047854.0005205 | BP chisq diff = -1.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632462 | --> Sampling calibration, mode = relcal | relcal = -2.8212166E-03 -7.0390775E-04 1.6774635E-03 1.6149330E-03 -4.0857214E-04 6.4129988E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5600343 15217128.7527422 | BP delta = 0.0000000E+00 -0.5635968 15217133.0092411 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18374735923684 | --> Sampling calibration, mode = relcal | relcal = -7.5894423E-02 -5.9156962E-02 9.2856906E-02 4.2194478E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7311980E-04 5.9268270E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8626E-05 | 2: delta_r/delta_0: 1.3807E-06 | 3: delta_s/delta_0: 1.9606E-07 | 4: delta_r/delta_0: 2.7731E-08 | 5: delta_s/delta_0: 7.5636E-09 | 6: delta_r/delta_0: 2.7840E-09 | 7: delta_s/delta_0: 9.3297E-10 | 8: delta_r/delta_0: 1.7869E-10 | 9: delta_s/delta_0: 2.9178E-10 | 10: delta_r/delta_0: 8.6125E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.898711589013823E-004 2.734568573432717E-005 | BP delta = 6.6799112E-02 8.7018199E-02 50483131.6270736 | BP delta = 6.1499681E-02 8.1718765E-02 50483139.0009940 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02601058 | --> Sampling calibration, mode = relcal | relcal = -0.1067345 -9.5470905E-02 0.1448976 5.7307903E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5022728E-03 1.2449740E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1411E-05 | 2: delta_r/delta_0: 1.2227E-06 | 3: delta_s/delta_0: 2.5782E-07 | 4: delta_r/delta_0: 4.3834E-08 | 5: delta_s/delta_0: 2.1576E-08 | 6: delta_r/delta_0: 6.9241E-09 | 7: delta_s/delta_0: 9.0255E-09 | 8: delta_r/delta_0: 1.3777E-09 | 9: delta_s/delta_0: 1.2672E-07 | 10: delta_r/delta_0: 4.8468E-08 | 11: delta_s/delta_0: 1.7669E-10 | 12: delta_r/delta_0: 3.5844E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.762893535929643E-003 2.810794595033566E-005 | BP delta = -0.3263620 -0.2975571 57390145.9187081 | BP delta = -0.3364009 -0.3075959 57390147.3039940 | BP chisq diff = 1.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231836 | --> Sampling calibration, mode = relcal | relcal = 0.2955619 0.2247992 -0.2837957 -0.2365653 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.4144207E-04 5.6161741E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4373E-03 | 2: delta_r/delta_0: 8.1813E-05 | 3: delta_s/delta_0: 3.7536E-06 | 4: delta_r/delta_0: 6.4742E-07 | 5: delta_s/delta_0: 9.6756E-07 | 6: delta_r/delta_0: 2.0131E-07 | 7: delta_s/delta_0: 1.6222E-07 | 8: delta_r/delta_0: 9.0476E-08 | 9: delta_s/delta_0: 3.8653E-08 | 10: delta_r/delta_0: 8.6976E-09 | 11: delta_s/delta_0: 9.9600E-08 | 12: delta_r/delta_0: 3.8289E-08 | 13: delta_s/delta_0: 5.6186E-10 | 14: delta_r/delta_0: 2.4408E-10 | 15: delta_s/delta_0: 6.3672E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.822525791484542E-002 4.021281597386102E-005 | BP delta = -0.2904369 -0.3173727 72485444.1703746 | BP delta = -0.2731095 -0.3000453 72485444.2431237 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95927905 | --> Sampling calibration, mode = relcal | relcal = 0.1065143 0.1396483 -0.1102493 -0.1359133 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9028600E-03 1.4019842E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4748E-04 | 2: delta_r/delta_0: 8.6646E-06 | 3: delta_s/delta_0: 1.6536E-05 | 4: delta_r/delta_0: 1.4128E-06 | 5: delta_s/delta_0: 2.4792E-07 | 6: delta_r/delta_0: 1.3894E-07 | 7: delta_s/delta_0: 6.3361E-07 | 8: delta_r/delta_0: 3.1617E-08 | 9: delta_s/delta_0: 8.9268E-07 | 10: delta_r/delta_0: 2.8800E-07 | 11: delta_s/delta_0: 1.9499E-09 | 12: delta_r/delta_0: 7.6366E-10 | 13: delta_s/delta_0: 3.3993E-09 | 14: delta_r/delta_0: 5.8770E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.147999980644846E-002 3.696747416773425E-005 | BP delta = 2.6275590E-02 0.1301121 72786381.3887406 | BP delta = 3.7576035E-02 0.1414125 72786381.5788387 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.238959 | New value = -3.135414 | poltype: 2 pol: 1 CPU time specind = 1.7339945E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141852 | New value = -3.139765 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149631 | New value = -3.203811 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165833 | New value = -3.124730 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144237 | New value = -3.135775 | poltype: 2 pol: 2 CPU time specind = 4.0030479E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.39 | CG iter. 1 -- res = 0.13673E+08, tol = 0.66791E+01, time = 5.82 | CG iter. 2 -- res = 0.38518E+06, tol = 0.66791E+01, time = 5.73 | CG iter. 3 -- res = 0.11212E+06, tol = 0.66791E+01, time = 6.06 | CG iter. 4 -- res = 0.14441E+06, tol = 0.66791E+01, time = 5.83 | CG iter. 5 -- res = 0.16609E+06, tol = 0.66791E+01, time = 5.89 | CG iter. 6 -- res = 0.15850E+06, tol = 0.66791E+01, time = 5.91 | CG iter. 7 -- res = 0.13433E+06, tol = 0.66791E+01, time = 6.07 | CG iter. 8 -- res = 0.93072E+05, tol = 0.66791E+01, time = 5.79 | CG iter. 9 -- res = 0.73466E+05, tol = 0.66791E+01, time = 5.68 | CG iter. 10 -- res = 0.60065E+05, tol = 0.66791E+01, time = 5.84 | CG iter. 11 -- res = 0.43321E+05, tol = 0.66791E+01, time = 6.30 | CG iter. 12 -- res = 0.32362E+05, tol = 0.66791E+01, time = 32.66 | CG iter. 13 -- res = 0.26923E+05, tol = 0.66791E+01, time = 5.93 | CG iter. 14 -- res = 0.23748E+05, tol = 0.66791E+01, time = 6.07 | CG iter. 15 -- res = 0.17969E+05, tol = 0.66791E+01, time = 6.05 | CG iter. 16 -- res = 0.12603E+05, tol = 0.66791E+01, time = 6.18 | CG iter. 17 -- res = 0.95736E+04, tol = 0.66791E+01, time = 6.38 | CG iter. 18 -- res = 0.82085E+04, tol = 0.66791E+01, time = 5.97 | CG iter. 19 -- res = 0.72494E+04, tol = 0.66791E+01, time = 6.16 | CG iter. 20 -- res = 0.56037E+04, tol = 0.66791E+01, time = 5.72 | CG iter. 21 -- res = 0.40993E+04, tol = 0.66791E+01, time = 5.61 | CG iter. 22 -- res = 0.33684E+04, tol = 0.66791E+01, time = 5.60 | CG iter. 23 -- res = 0.29560E+04, tol = 0.66791E+01, time = 6.05 | CG iter. 24 -- res = 0.24140E+04, tol = 0.66791E+01, time = 5.93 | CG iter. 25 -- res = 0.18344E+04, tol = 0.66791E+01, time = 6.12 | CG iter. 26 -- res = 0.15478E+04, tol = 0.66791E+01, time = 5.79 | CG iter. 27 -- res = 0.14194E+04, tol = 0.66791E+01, time = 5.59 | CG iter. 28 -- res = 0.11926E+04, tol = 0.66791E+01, time = 5.85 | CG iter. 29 -- res = 0.93653E+03, tol = 0.66791E+01, time = 12.40 | CG iter. 30 -- res = 0.73703E+03, tol = 0.66791E+01, time = 6.13 | CG iter. 31 -- res = 0.65195E+03, tol = 0.66791E+01, time = 6.17 | CG iter. 32 -- res = 0.57401E+03, tol = 0.66791E+01, time = 5.88 | CG iter. 33 -- res = 0.42360E+03, tol = 0.66791E+01, time = 5.69 | CG iter. 34 -- res = 0.32837E+03, tol = 0.66791E+01, time = 6.02 | CG iter. 35 -- res = 0.27657E+03, tol = 0.66791E+01, time = 5.66 | CG iter. 36 -- res = 0.23433E+03, tol = 0.66791E+01, time = 5.79 | CG iter. 37 -- res = 0.18402E+03, tol = 0.66791E+01, time = 5.87 | CG iter. 38 -- res = 0.13469E+03, tol = 0.66791E+01, time = 6.04 | CG iter. 39 -- res = 0.10897E+03, tol = 0.66791E+01, time = 5.58 | CG iter. 40 -- res = 0.92118E+02, tol = 0.66791E+01, time = 6.15 | CG iter. 41 -- res = 0.72719E+02, tol = 0.66791E+01, time = 6.02 | CG iter. 42 -- res = 0.52906E+02, tol = 0.66791E+01, time = 5.86 | CG iter. 43 -- res = 0.41060E+02, tol = 0.66791E+01, time = 7.10 | CG iter. 44 -- res = 0.34256E+02, tol = 0.66791E+01, time = 6.64 | CG iter. 45 -- res = 0.27260E+02, tol = 0.66791E+01, time = 6.48 | CG iter. 46 -- res = 0.20508E+02, tol = 0.66791E+01, time = 5.74 | CG iter. 47 -- res = 0.16018E+02, tol = 0.66791E+01, time = 5.77 | CG iter. 48 -- res = 0.13244E+02, tol = 0.66791E+01, time = 6.21 | CG iter. 49 -- res = 0.10551E+02, tol = 0.66791E+01, time = 5.78 | CG iter. 50 -- res = 0.77532E+01, tol = 0.66791E+01, time = 5.79 | Final CG iter 51 -- res = 0.77532E+01, tol = 0.66791E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8161010.604 | Old band monopole 10595370.805 | Change to band monopole -2434360.201 | Change to component monopole 2434349.730 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.81881E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.25306E+03, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.45675E+01, tol = 0.47627E+18, time = 2.29 | CG iter. 4 -- res = 0.31592E-01, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.55274E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8160975.501 | (Sampled value in CG: 8237467.012 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475610 | New value = 1.501631 | poltype: 2 pol: 1 CPU time specind = 1.9149065E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.479812 | New value = 1.527262 | poltype: 2 pol: 2 CPU time specind = 2.0067930E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.50 | CG iter. 1 -- res = 0.24187E+08, tol = 0.47584E+04, time = 6.75 | CG iter. 2 -- res = 0.53607E+07, tol = 0.47584E+04, time = 6.59 | CG iter. 3 -- res = 0.84587E+06, tol = 0.47584E+04, time = 6.89 | CG iter. 4 -- res = 0.36132E+06, tol = 0.47584E+04, time = 6.72 | CG iter. 5 -- res = 0.15854E+06, tol = 0.47584E+04, time = 6.71 | CG iter. 6 -- res = 0.82554E+05, tol = 0.47584E+04, time = 6.67 | CG iter. 7 -- res = 0.44315E+05, tol = 0.47584E+04, time = 6.64 | CG iter. 8 -- res = 0.21410E+05, tol = 0.47584E+04, time = 12.93 | CG iter. 9 -- res = 0.94090E+04, tol = 0.47584E+04, time = 6.83 | CG iter. 10 -- res = 0.38761E+04, tol = 0.47584E+04, time = 6.49 | CG iter. 11 -- res = 0.17400E+04, tol = 0.47584E+04, time = 6.82 | CG iter. 12 -- res = 0.89303E+03, tol = 0.47584E+04, time = 6.89 | CG iter. 13 -- res = 0.51575E+03, tol = 0.47584E+04, time = 6.46 | CG iter. 14 -- res = 0.29166E+03, tol = 0.47584E+04, time = 7.08 | CG iter. 15 -- res = 0.15009E+03, tol = 0.47584E+04, time = 6.40 | CG iter. 16 -- res = 0.70629E+02, tol = 0.47584E+04, time = 6.62 | CG iter. 17 -- res = 0.32988E+02, tol = 0.47584E+04, time = 6.72 | CG iter. 18 -- res = 0.16607E+02, tol = 0.47584E+04, time = 7.06 | CG iter. 19 -- res = 0.91822E+01, tol = 0.47584E+04, time = 6.69 | CG iter. 20 -- res = 0.53184E+01, tol = 0.47584E+04, time = 7.09 | CG iter. 21 -- res = 0.28824E+01, tol = 0.47584E+04, time = 8.20 | CG iter. 22 -- res = 0.14708E+01, tol = 0.47584E+04, time = 7.15 | CG iter. 23 -- res = 0.72659E+00, tol = 0.47584E+04, time = 6.55 | CG iter. 24 -- res = 0.37316E+00, tol = 0.47584E+04, time = 6.58 | CG iter. 25 -- res = 0.20647E+00, tol = 0.47584E+04, time = 6.72 | CG iter. 26 -- res = 0.11662E+00, tol = 0.47584E+04, time = 7.09 | CG iter. 27 -- res = 0.65604E-01, tol = 0.47584E+04, time = 7.03 | CG iter. 28 -- res = 0.35534E-01, tol = 0.47584E+04, time = 6.73 | CG iter. 29 -- res = 0.18789E-01, tol = 0.47584E+04, time = 6.44 | CG iter. 30 -- res = 0.97228E-02, tol = 0.47584E+04, time = 6.97 | CG iter. 31 -- res = 0.52950E-02, tol = 0.47584E+04, time = 6.64 | CG iter. 32 -- res = 0.29943E-02, tol = 0.47584E+04, time = 6.70 | CG iter. 33 -- res = 0.16662E-02, tol = 0.47584E+04, time = 7.39 | CG iter. 34 -- res = 0.89495E-03, tol = 0.47584E+04, time = 6.59 | CG iter. 35 -- res = 0.47536E-03, tol = 0.47584E+04, time = 6.75 | Final CG iter 36 -- res = 0.47536E-03, tol = 0.47584E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.357 2.768 | New value -2.519 | Old value 0.357 | Difference -2.876 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.43384E+06, tol = 0.47627E+18, time = 2.16 | CG iter. 2 -- res = 0.90085E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.22835E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.89112E-03, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.10177E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8160975.501 | (Sampled value in CG: 8238368.535 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.527511 | New value = -3.482566 | poltype: 1 pol: 1 CPU time specind = 1.1188030E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.35320E+07, tol = 0.27748E+01, time = 2.85 | CG iter. 2 -- res = 0.15095E+07, tol = 0.27748E+01, time = 2.61 | CG iter. 3 -- res = 0.33345E+06, tol = 0.27748E+01, time = 2.93 | CG iter. 4 -- res = 0.16057E+06, tol = 0.27748E+01, time = 2.95 | CG iter. 5 -- res = 0.92976E+05, tol = 0.27748E+01, time = 2.61 | CG iter. 6 -- res = 0.42196E+05, tol = 0.27748E+01, time = 2.89 | CG iter. 7 -- res = 0.14165E+05, tol = 0.27748E+01, time = 2.89 | CG iter. 8 -- res = 0.61896E+04, tol = 0.27748E+01, time = 2.72 | CG iter. 9 -- res = 0.30479E+04, tol = 0.27748E+01, time = 2.87 | CG iter. 10 -- res = 0.11989E+04, tol = 0.27748E+01, time = 2.97 | CG iter. 11 -- res = 0.48084E+03, tol = 0.27748E+01, time = 2.83 | CG iter. 12 -- res = 0.22494E+03, tol = 0.27748E+01, time = 2.87 | CG iter. 13 -- res = 0.10957E+03, tol = 0.27748E+01, time = 2.86 | CG iter. 14 -- res = 0.57413E+02, tol = 0.27748E+01, time = 2.99 | CG iter. 15 -- res = 0.27825E+02, tol = 0.27748E+01, time = 2.67 | CG iter. 16 -- res = 0.12964E+02, tol = 0.27748E+01, time = 2.96 | CG iter. 17 -- res = 0.53383E+01, tol = 0.27748E+01, time = 2.86 | CG iter. 18 -- res = 0.23989E+01, tol = 0.27748E+01, time = 2.70 | CG iter. 19 -- res = 0.11442E+01, tol = 0.27748E+01, time = 3.03 | CG iter. 20 -- res = 0.57791E+00, tol = 0.27748E+01, time = 3.22 | CG iter. 21 -- res = 0.28816E+00, tol = 0.27748E+01, time = 2.95 | CG iter. 22 -- res = 0.13759E+00, tol = 0.27748E+01, time = 2.93 | CG iter. 23 -- res = 0.62083E-01, tol = 0.27748E+01, time = 3.22 | CG iter. 24 -- res = 0.28536E-01, tol = 0.27748E+01, time = 2.80 | CG iter. 25 -- res = 0.13382E-01, tol = 0.27748E+01, time = 2.82 | CG iter. 26 -- res = 0.63279E-02, tol = 0.27748E+01, time = 2.70 | CG iter. 27 -- res = 0.32530E-02, tol = 0.27748E+01, time = 2.80 | CG iter. 28 -- res = 0.16807E-02, tol = 0.27748E+01, time = 3.18 | CG iter. 29 -- res = 0.79043E-03, tol = 0.27748E+01, time = 2.80 | CG iter. 30 -- res = 0.37072E-03, tol = 0.27748E+01, time = 2.78 | CG iter. 31 -- res = 0.17238E-03, tol = 0.27748E+01, time = 2.97 | CG iter. 32 -- res = 0.82913E-04, tol = 0.27748E+01, time = 2.93 | CG iter. 33 -- res = 0.41335E-04, tol = 0.27748E+01, time = 8.23 | CG iter. 34 -- res = 0.20420E-04, tol = 0.27748E+01, time = 4.07 | CG iter. 35 -- res = 0.10709E-04, tol = 0.27748E+01, time = 2.85 | CG iter. 36 -- res = 0.50824E-05, tol = 0.27748E+01, time = 2.98 | CG iter. 37 -- res = 0.23076E-05, tol = 0.27748E+01, time = 2.69 | CG iter. 38 -- res = 0.10856E-05, tol = 0.27748E+01, time = 2.82 | CG iter. 39 -- res = 0.52563E-06, tol = 0.27748E+01, time = 2.71 | CG iter. 40 -- res = 0.26549E-06, tol = 0.27748E+01, time = 3.06 | CG iter. 41 -- res = 0.13547E-06, tol = 0.27748E+01, time = 3.19 | CG iter. 42 -- res = 0.68354E-07, tol = 0.27748E+01, time = 2.68 | CG iter. 43 -- res = 0.29567E-07, tol = 0.27748E+01, time = 2.69 | CG iter. 44 -- res = 0.13526E-07, tol = 0.27748E+01, time = 2.59 | CG iter. 45 -- res = 0.65898E-08, tol = 0.27748E+01, time = 2.69 | CG iter. 46 -- res = 0.32413E-08, tol = 0.27748E+01, time = 3.21 | CG iter. 47 -- res = 0.16713E-08, tol = 0.27748E+01, time = 3.15 | CG iter. 48 -- res = 0.86817E-09, tol = 0.27748E+01, time = 2.61 | CG iter. 49 -- res = 0.38658E-09, tol = 0.27748E+01, time = 2.93 | CG iter. 50 -- res = 0.18084E-09, tol = 0.27748E+01, time = 2.64 | Final CG iter 51 -- res = 0.18084E-09, tol = 0.27748E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.283 4.716 | New value -4.982 | Old value 4.283 | Difference -9.266 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.20 | CG iter. 1 -- res = 0.94564E+05, tol = 0.47627E+18, time = 2.58 | CG iter. 2 -- res = 0.72302E+02, tol = 0.47627E+18, time = 2.83 | CG iter. 3 -- res = 0.22344E+01, tol = 0.47627E+18, time = 2.79 | CG iter. 4 -- res = 0.88265E-02, tol = 0.47627E+18, time = 2.45 | Final CG iter 5 -- res = 0.11612E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8160975.501 | (Sampled value in CG: 8222232.470 ) | CPU time specind = 1258.611 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.68781E+08, tol = 0.57542E+04, time = 11.76 | CG iter. 2 -- res = 0.59192E+08, tol = 0.57542E+04, time = 12.21 | CG iter. 3 -- res = 0.15589E+08, tol = 0.57542E+04, time = 12.28 | CG iter. 4 -- res = 0.66515E+07, tol = 0.57542E+04, time = 12.60 | CG iter. 5 -- res = 0.39302E+07, tol = 0.57542E+04, time = 12.66 | CG iter. 6 -- res = 0.22794E+07, tol = 0.57542E+04, time = 12.20 | CG iter. 7 -- res = 0.13736E+07, tol = 0.57542E+04, time = 11.64 | CG iter. 8 -- res = 0.91101E+06, tol = 0.57542E+04, time = 12.22 | CG iter. 9 -- res = 0.59569E+06, tol = 0.57542E+04, time = 11.96 | CG iter. 10 -- res = 0.36999E+06, tol = 0.57542E+04, time = 12.06 | CG iter. 11 -- res = 0.21325E+06, tol = 0.57542E+04, time = 12.41 | CG iter. 12 -- res = 0.13088E+06, tol = 0.57542E+04, time = 11.97 | CG iter. 13 -- res = 0.85696E+05, tol = 0.57542E+04, time = 18.98 | CG iter. 14 -- res = 0.63589E+05, tol = 0.57542E+04, time = 12.15 | CG iter. 15 -- res = 0.56940E+05, tol = 0.57542E+04, time = 12.30 | CG iter. 16 -- res = 0.58208E+05, tol = 0.57542E+04, time = 11.72 | CG iter. 17 -- res = 0.58818E+05, tol = 0.57542E+04, time = 11.81 | CG iter. 18 -- res = 0.55618E+05, tol = 0.57542E+04, time = 11.99 | CG iter. 19 -- res = 0.50484E+05, tol = 0.57542E+04, time = 11.73 | CG iter. 20 -- res = 0.46702E+05, tol = 0.57542E+04, time = 13.21 | CG iter. 21 -- res = 0.44462E+05, tol = 0.57542E+04, time = 13.05 | CG iter. 22 -- res = 0.43408E+05, tol = 0.57542E+04, time = 12.07 | CG iter. 23 -- res = 0.41488E+05, tol = 0.57542E+04, time = 12.40 | CG iter. 24 -- res = 0.36681E+05, tol = 0.57542E+04, time = 11.72 | CG iter. 25 -- res = 0.29064E+05, tol = 0.57542E+04, time = 12.19 | CG iter. 26 -- res = 0.21399E+05, tol = 0.57542E+04, time = 12.58 | CG iter. 27 -- res = 0.15691E+05, tol = 0.57542E+04, time = 12.42 | CG iter. 28 -- res = 0.12152E+05, tol = 0.57542E+04, time = 11.98 | CG iter. 29 -- res = 0.10452E+05, tol = 0.57542E+04, time = 12.08 | CG iter. 30 -- res = 0.95070E+04, tol = 0.57542E+04, time = 12.25 | CG iter. 31 -- res = 0.88714E+04, tol = 0.57542E+04, time = 11.99 | CG iter. 32 -- res = 0.81663E+04, tol = 0.57542E+04, time = 12.58 | CG iter. 33 -- res = 0.72966E+04, tol = 0.57542E+04, time = 12.75 | CG iter. 34 -- res = 0.63786E+04, tol = 0.57542E+04, time = 11.61 | CG iter. 35 -- res = 0.54927E+04, tol = 0.57542E+04, time = 12.33 | CG iter. 36 -- res = 0.50314E+04, tol = 0.57542E+04, time = 12.62 | CG iter. 37 -- res = 0.48395E+04, tol = 0.57542E+04, time = 22.25 | CG iter. 38 -- res = 0.44857E+04, tol = 0.57542E+04, time = 14.15 | CG iter. 39 -- res = 0.37999E+04, tol = 0.57542E+04, time = 12.00 | CG iter. 40 -- res = 0.30393E+04, tol = 0.57542E+04, time = 12.15 | CG iter. 41 -- res = 0.24490E+04, tol = 0.57542E+04, time = 11.67 | CG iter. 42 -- res = 0.20516E+04, tol = 0.57542E+04, time = 11.94 | CG iter. 43 -- res = 0.17984E+04, tol = 0.57542E+04, time = 12.36 | CG iter. 44 -- res = 0.16936E+04, tol = 0.57542E+04, time = 13.99 | CG iter. 45 -- res = 0.16147E+04, tol = 0.57542E+04, time = 12.40 | CG iter. 46 -- res = 0.15270E+04, tol = 0.57542E+04, time = 12.14 | CG iter. 47 -- res = 0.13792E+04, tol = 0.57542E+04, time = 11.76 | CG iter. 48 -- res = 0.11831E+04, tol = 0.57542E+04, time = 12.13 | CG iter. 49 -- res = 0.10298E+04, tol = 0.57542E+04, time = 12.10 | CG iter. 50 -- res = 0.96380E+03, tol = 0.57542E+04, time = 12.53 | CG iter. 51 -- res = 0.92592E+03, tol = 0.57542E+04, time = 12.75 | CG iter. 52 -- res = 0.87755E+03, tol = 0.57542E+04, time = 12.77 | CG iter. 53 -- res = 0.79609E+03, tol = 0.57542E+04, time = 13.03 | CG iter. 54 -- res = 0.68368E+03, tol = 0.57542E+04, time = 11.88 | CG iter. 55 -- res = 0.58716E+03, tol = 0.57542E+04, time = 11.71 | CG iter. 56 -- res = 0.51612E+03, tol = 0.57542E+04, time = 12.81 | CG iter. 57 -- res = 0.46703E+03, tol = 0.57542E+04, time = 12.13 | CG iter. 58 -- res = 0.44343E+03, tol = 0.57542E+04, time = 11.46 | CG iter. 59 -- res = 0.43523E+03, tol = 0.57542E+04, time = 12.22 | CG iter. 60 -- res = 0.41551E+03, tol = 0.57542E+04, time = 11.98 | Final CG iter 61 -- res = 0.41551E+03, tol = 0.57542E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.801 ( -229.487 -2230.481 2513.127 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9917654.028 | Old band monopole 8161010.604 | Change to band monopole 1756643.424 | Change to component monopole -1756635.868 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.568 2.735 | New value 0.739 | Old value -2.568 | Difference 3.307 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.082 ( 5.979 9.933 -9.795 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.741 5.659 | New value -0.226 | Old value -5.741 | Difference 5.515 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.49 | CG iter. 1 -- res = 0.57064E+06, tol = 0.47627E+18, time = 2.14 | CG iter. 2 -- res = 0.23044E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.34181E+00, tol = 0.47627E+18, time = 2.27 | CG iter. 4 -- res = 0.37090E-03, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.92956E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9917611.370 | (Sampled value in CG: 9900205.806 ) | Chain = 1 -- chisq = 0.81587362E+09 | Chain = 1 -- wall time = 5775.833 sec Available RAM: MemAvailable: 380330668 kB Available Swap: SwapFree: 1109752428 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 304 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445882 | --> Sampling calibration, mode = relcal | relcal = 1.3436505E-02 7.4181252E-04 -1.5891501E-03 -1.2589167E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1226899 0.1291474 9407920.42917711 | BP delta = 0.1226899 0.1342698 9407931.87922616 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632281 | --> Sampling calibration, mode = relcal | relcal = -2.8203183E-03 -7.0454919E-04 1.6771737E-03 1.6143786E-03 -4.0775700E-04 6.4107211E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5600343 15221165.6687857 | BP delta = 0.0000000E+00 -0.5607028 15221167.5096744 | BP chisq diff = 1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18071018193454 | --> Sampling calibration, mode = relcal | relcal = -7.4306555E-02 -5.8039531E-02 9.1167562E-02 4.1178524E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -9.3017159E-05 3.4618538E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2020E-04 | 2: delta_r/delta_0: 5.4415E-06 | 3: delta_s/delta_0: 2.0411E-07 | 4: delta_r/delta_0: 1.7864E-08 | 5: delta_s/delta_0: 5.0484E-09 | 6: delta_r/delta_0: 9.5512E-10 | 7: delta_s/delta_0: 1.2892E-08 | 8: delta_r/delta_0: 1.6958E-10 | 9: delta_s/delta_0: 1.0280E-10 | 10: delta_r/delta_0: 3.3860E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.263288064545049E-004 2.741811836281673E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2021E-04 | 2: delta_r/delta_0: 5.4417E-06 | 3: delta_s/delta_0: 2.0411E-07 | 4: delta_r/delta_0: 1.7864E-08 | 5: delta_s/delta_0: 5.0484E-09 | 6: delta_r/delta_0: 9.5516E-10 | 7: delta_s/delta_0: 1.2895E-08 | 8: delta_r/delta_0: 1.6959E-10 | 9: delta_s/delta_0: 1.0279E-10 | 10: delta_r/delta_0: 3.3859E-11 | Reached bicg-stab tolerance | BP delta = 6.6799112E-02 8.7018199E-02 3598747.33458459 | BP delta = 6.6799112E-02 8.6931534E-02 3599318.04463654 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02580231 | --> Sampling calibration, mode = relcal | relcal = -0.1066413 -9.5545053E-02 0.1449221 5.7264227E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1690437E-03 1.4010250E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6074E-05 | 2: delta_r/delta_0: 1.1635E-06 | 3: delta_s/delta_0: 2.4976E-07 | 4: delta_r/delta_0: 4.6427E-08 | 5: delta_s/delta_0: 1.7825E-08 | 6: delta_r/delta_0: 6.6977E-09 | 7: delta_s/delta_0: 1.1277E-08 | 8: delta_r/delta_0: 1.0490E-09 | 9: delta_s/delta_0: 9.5074E-10 | 10: delta_r/delta_0: 1.3096E-10 | 11: delta_s/delta_0: 2.2926E-09 | 12: delta_r/delta_0: 1.8446E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.677773540529306E-003 2.811371385967050E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6074E-05 | 2: delta_r/delta_0: 1.1635E-06 | 3: delta_s/delta_0: 2.4978E-07 | 4: delta_r/delta_0: 4.6461E-08 | 5: delta_s/delta_0: 1.7818E-08 | 6: delta_r/delta_0: 6.7000E-09 | 7: delta_s/delta_0: 1.1280E-08 | 8: delta_r/delta_0: 1.0494E-09 | 9: delta_s/delta_0: 9.5101E-10 | 10: delta_r/delta_0: 1.3101E-10 | 11: delta_s/delta_0: 2.2949E-09 | 12: delta_r/delta_0: 1.8439E-11 | Reached bicg-stab tolerance | BP delta = -0.3364009 -0.3075959 2841319.94773888 | BP delta = -0.3364009 -0.3045588 2841326.01130285 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81206147 | --> Sampling calibration, mode = relcal | relcal = 0.2955134 0.2247525 -0.2837842 -0.2364818 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6933998E-04 4.6962630E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3733E-04 | 2: delta_r/delta_0: 1.7739E-05 | 3: delta_s/delta_0: 2.7180E-04 | 4: delta_r/delta_0: 9.8457E-06 | 5: delta_s/delta_0: 3.2795E-07 | 6: delta_r/delta_0: 1.3593E-07 | 7: delta_s/delta_0: 3.9662E-07 | 8: delta_r/delta_0: 3.7542E-08 | 9: delta_s/delta_0: 1.5567E-08 | 10: delta_r/delta_0: 2.0568E-09 | 11: delta_s/delta_0: 2.2605E-09 | 12: delta_r/delta_0: 1.1893E-09 | 13: delta_s/delta_0: 3.3074E-10 | 14: delta_r/delta_0: 7.8066E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.293766032139724E-002 4.022647308371079E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.3711E-04 | 2: delta_r/delta_0: 1.7734E-05 | 3: delta_s/delta_0: 2.7199E-04 | 4: delta_r/delta_0: 9.8555E-06 | 5: delta_s/delta_0: 3.2791E-07 | 6: delta_r/delta_0: 1.3594E-07 | 7: delta_s/delta_0: 3.9812E-07 | 8: delta_r/delta_0: 3.7540E-08 | 9: delta_s/delta_0: 1.5554E-08 | 10: delta_r/delta_0: 2.0547E-09 | 11: delta_s/delta_0: 2.2600E-09 | 12: delta_r/delta_0: 1.1887E-09 | 13: delta_s/delta_0: 3.3090E-10 | 14: delta_r/delta_0: 7.8042E-11 | Reached bicg-stab tolerance | BP delta = -0.2731095 -0.3000453 2826879.47764958 | BP delta = -0.2731095 -0.2885669 2826958.68223028 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95886974 | --> Sampling calibration, mode = relcal | relcal = 0.1065998 0.1394785 -0.1102579 -0.1358205 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0461894E-02 1.3009081E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0173E-04 | 2: delta_r/delta_0: 9.9197E-06 | 3: delta_s/delta_0: 2.4365E-02 | 4: delta_r/delta_0: 1.0900E-03 | 5: delta_s/delta_0: 2.5111E-07 | 6: delta_r/delta_0: 1.1982E-07 | 7: delta_s/delta_0: 5.0276E-07 | 8: delta_r/delta_0: 3.3063E-08 | 9: delta_s/delta_0: 1.2996E-08 | 10: delta_r/delta_0: 1.6659E-09 | 11: delta_s/delta_0: 2.0963E-09 | 12: delta_r/delta_0: 1.1053E-09 | 13: delta_s/delta_0: 1.7408E-10 | 14: delta_r/delta_0: 7.4624E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.156763834341901E-002 3.698382807277330E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.0175E-04 | 2: delta_r/delta_0: 9.9201E-06 | 3: delta_s/delta_0: 2.4324E-02 | 4: delta_r/delta_0: 1.0879E-03 | 5: delta_s/delta_0: 2.5110E-07 | 6: delta_r/delta_0: 1.1980E-07 | 7: delta_s/delta_0: 5.0216E-07 | 8: delta_r/delta_0: 3.3063E-08 | 9: delta_s/delta_0: 1.2987E-08 | 10: delta_r/delta_0: 1.6668E-09 | 11: delta_s/delta_0: 2.0963E-09 | 12: delta_r/delta_0: 1.1057E-09 | 13: delta_s/delta_0: 1.7406E-10 | 14: delta_r/delta_0: 7.4642E-11 | Reached bicg-stab tolerance | BP delta = 3.7576035E-02 0.1414125 3003473.70032409 | BP delta = 3.7576035E-02 0.1516181 3003448.22329124 | BP chisq diff = -25.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135414 | New value = -3.235035 | poltype: 2 pol: 1 CPU time specind = 1.8181801E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139765 | New value = -3.184407 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203811 | New value = -3.122731 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124730 | New value = -3.114809 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135775 | New value = -3.135848 | poltype: 2 pol: 2 CPU time specind = 4.4980049E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.13574E+08, tol = 0.71452E+01, time = 5.89 | CG iter. 2 -- res = 0.35877E+06, tol = 0.71452E+01, time = 5.70 | CG iter. 3 -- res = 0.66150E+05, tol = 0.71452E+01, time = 5.56 | CG iter. 4 -- res = 0.54061E+05, tol = 0.71452E+01, time = 5.64 | CG iter. 5 -- res = 0.53490E+05, tol = 0.71452E+01, time = 12.47 | CG iter. 6 -- res = 0.54357E+05, tol = 0.71452E+01, time = 5.30 | CG iter. 7 -- res = 0.52903E+05, tol = 0.71452E+01, time = 5.56 | CG iter. 8 -- res = 0.43678E+05, tol = 0.71452E+01, time = 5.89 | CG iter. 9 -- res = 0.37827E+05, tol = 0.71452E+01, time = 5.95 | CG iter. 10 -- res = 0.31152E+05, tol = 0.71452E+01, time = 5.84 | CG iter. 11 -- res = 0.21955E+05, tol = 0.71452E+01, time = 6.06 | CG iter. 12 -- res = 0.15818E+05, tol = 0.71452E+01, time = 5.72 | CG iter. 13 -- res = 0.13931E+05, tol = 0.71452E+01, time = 5.78 | CG iter. 14 -- res = 0.13652E+05, tol = 0.71452E+01, time = 5.64 | CG iter. 15 -- res = 0.11599E+05, tol = 0.71452E+01, time = 6.06 | CG iter. 16 -- res = 0.86524E+04, tol = 0.71452E+01, time = 6.02 | CG iter. 17 -- res = 0.66294E+04, tol = 0.71452E+01, time = 5.53 | CG iter. 18 -- res = 0.55509E+04, tol = 0.71452E+01, time = 6.11 | CG iter. 19 -- res = 0.49030E+04, tol = 0.71452E+01, time = 5.54 | CG iter. 20 -- res = 0.39872E+04, tol = 0.71452E+01, time = 7.44 | CG iter. 21 -- res = 0.31489E+04, tol = 0.71452E+01, time = 6.92 | CG iter. 22 -- res = 0.27755E+04, tol = 0.71452E+01, time = 5.60 | CG iter. 23 -- res = 0.24340E+04, tol = 0.71452E+01, time = 5.98 | CG iter. 24 -- res = 0.20915E+04, tol = 0.71452E+01, time = 5.82 | CG iter. 25 -- res = 0.16301E+04, tol = 0.71452E+01, time = 5.47 | CG iter. 26 -- res = 0.12992E+04, tol = 0.71452E+01, time = 5.79 | CG iter. 27 -- res = 0.12278E+04, tol = 0.71452E+01, time = 5.72 | CG iter. 28 -- res = 0.11135E+04, tol = 0.71452E+01, time = 5.79 | CG iter. 29 -- res = 0.90383E+03, tol = 0.71452E+01, time = 5.53 | CG iter. 30 -- res = 0.74031E+03, tol = 0.71452E+01, time = 5.96 | CG iter. 31 -- res = 0.68485E+03, tol = 0.71452E+01, time = 5.77 | CG iter. 32 -- res = 0.61668E+03, tol = 0.71452E+01, time = 5.99 | CG iter. 33 -- res = 0.50538E+03, tol = 0.71452E+01, time = 6.24 | CG iter. 34 -- res = 0.42734E+03, tol = 0.71452E+01, time = 6.35 | CG iter. 35 -- res = 0.37399E+03, tol = 0.71452E+01, time = 5.79 | CG iter. 36 -- res = 0.34161E+03, tol = 0.71452E+01, time = 5.75 | CG iter. 37 -- res = 0.29469E+03, tol = 0.71452E+01, time = 5.62 | CG iter. 38 -- res = 0.24143E+03, tol = 0.71452E+01, time = 5.92 | CG iter. 39 -- res = 0.20189E+03, tol = 0.71452E+01, time = 5.51 | CG iter. 40 -- res = 0.18366E+03, tol = 0.71452E+01, time = 5.79 | CG iter. 41 -- res = 0.15855E+03, tol = 0.71452E+01, time = 5.91 | CG iter. 42 -- res = 0.12776E+03, tol = 0.71452E+01, time = 6.06 | CG iter. 43 -- res = 0.10829E+03, tol = 0.71452E+01, time = 6.08 | CG iter. 44 -- res = 0.99106E+02, tol = 0.71452E+01, time = 5.57 | CG iter. 45 -- res = 0.84937E+02, tol = 0.71452E+01, time = 5.41 | CG iter. 46 -- res = 0.68922E+02, tol = 0.71452E+01, time = 5.87 | CG iter. 47 -- res = 0.55472E+02, tol = 0.71452E+01, time = 5.70 | CG iter. 48 -- res = 0.45763E+02, tol = 0.71452E+01, time = 5.91 | CG iter. 49 -- res = 0.39551E+02, tol = 0.71452E+01, time = 5.79 | CG iter. 50 -- res = 0.33577E+02, tol = 0.71452E+01, time = 5.78 | Final CG iter 51 -- res = 0.33577E+02, tol = 0.71452E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8333142.204 | Old band monopole 9917654.028 | Change to band monopole -1584511.824 | Change to component monopole 1584505.009 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.22640E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.11428E+03, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.26741E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.17469E-01, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.71608E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8333106.361 | (Sampled value in CG: 8275125.323 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501631 | New value = 1.519933 | poltype: 2 pol: 1 CPU time specind = 1.0843992E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.527262 | New value = 1.477439 | poltype: 2 pol: 2 CPU time specind = 2.8131008E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.35 | CG iter. 1 -- res = 0.24080E+08, tol = 0.47616E+04, time = 7.96 | CG iter. 2 -- res = 0.52963E+07, tol = 0.47616E+04, time = 6.83 | CG iter. 3 -- res = 0.82346E+06, tol = 0.47616E+04, time = 6.57 | CG iter. 4 -- res = 0.33870E+06, tol = 0.47616E+04, time = 6.79 | CG iter. 5 -- res = 0.14701E+06, tol = 0.47616E+04, time = 6.96 | CG iter. 6 -- res = 0.78969E+05, tol = 0.47616E+04, time = 6.44 | CG iter. 7 -- res = 0.43087E+05, tol = 0.47616E+04, time = 6.67 | CG iter. 8 -- res = 0.20337E+05, tol = 0.47616E+04, time = 6.98 | CG iter. 9 -- res = 0.88284E+04, tol = 0.47616E+04, time = 6.55 | CG iter. 10 -- res = 0.36290E+04, tol = 0.47616E+04, time = 6.96 | CG iter. 11 -- res = 0.16514E+04, tol = 0.47616E+04, time = 6.68 | CG iter. 12 -- res = 0.84209E+03, tol = 0.47616E+04, time = 6.11 | CG iter. 13 -- res = 0.48603E+03, tol = 0.47616E+04, time = 7.18 | CG iter. 14 -- res = 0.27603E+03, tol = 0.47616E+04, time = 6.05 | CG iter. 15 -- res = 0.14184E+03, tol = 0.47616E+04, time = 6.40 | CG iter. 16 -- res = 0.66607E+02, tol = 0.47616E+04, time = 6.51 | CG iter. 17 -- res = 0.30442E+02, tol = 0.47616E+04, time = 7.31 | CG iter. 18 -- res = 0.15133E+02, tol = 0.47616E+04, time = 6.80 | CG iter. 19 -- res = 0.83284E+01, tol = 0.47616E+04, time = 6.65 | CG iter. 20 -- res = 0.46940E+01, tol = 0.47616E+04, time = 6.71 | CG iter. 21 -- res = 0.25688E+01, tol = 0.47616E+04, time = 6.69 | CG iter. 22 -- res = 0.13345E+01, tol = 0.47616E+04, time = 6.58 | CG iter. 23 -- res = 0.67248E+00, tol = 0.47616E+04, time = 6.20 | CG iter. 24 -- res = 0.33455E+00, tol = 0.47616E+04, time = 6.56 | CG iter. 25 -- res = 0.18124E+00, tol = 0.47616E+04, time = 6.73 | CG iter. 26 -- res = 0.10216E+00, tol = 0.47616E+04, time = 6.37 | CG iter. 27 -- res = 0.56941E-01, tol = 0.47616E+04, time = 6.68 | CG iter. 28 -- res = 0.30700E-01, tol = 0.47616E+04, time = 6.33 | CG iter. 29 -- res = 0.16248E-01, tol = 0.47616E+04, time = 6.78 | CG iter. 30 -- res = 0.85696E-02, tol = 0.47616E+04, time = 6.83 | CG iter. 31 -- res = 0.46511E-02, tol = 0.47616E+04, time = 6.84 | CG iter. 32 -- res = 0.25933E-02, tol = 0.47616E+04, time = 13.04 | CG iter. 33 -- res = 0.14472E-02, tol = 0.47616E+04, time = 6.58 | CG iter. 34 -- res = 0.78649E-03, tol = 0.47616E+04, time = 6.47 | CG iter. 35 -- res = 0.40872E-03, tol = 0.47616E+04, time = 7.16 | Final CG iter 36 -- res = 0.40872E-03, tol = 0.47616E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.768 2.736 | New value 1.825 | Old value 0.768 | Difference 1.057 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.99 | CG iter. 1 -- res = 0.61910E+05, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.43977E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.10538E+01, tol = 0.47627E+18, time = 2.34 | CG iter. 4 -- res = 0.10304E-03, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.20888E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8333106.361 | (Sampled value in CG: 8276313.892 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.482566 | New value = -3.655670 | poltype: 1 pol: 1 CPU time specind = 1.1756897E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.43468E+07, tol = 0.31754E+01, time = 2.45 | CG iter. 2 -- res = 0.13513E+07, tol = 0.31754E+01, time = 3.00 | CG iter. 3 -- res = 0.34409E+06, tol = 0.31754E+01, time = 2.68 | CG iter. 4 -- res = 0.20874E+06, tol = 0.31754E+01, time = 2.95 | CG iter. 5 -- res = 0.11411E+06, tol = 0.31754E+01, time = 2.76 | CG iter. 6 -- res = 0.42104E+05, tol = 0.31754E+01, time = 2.64 | CG iter. 7 -- res = 0.13310E+05, tol = 0.31754E+01, time = 3.00 | CG iter. 8 -- res = 0.59993E+04, tol = 0.31754E+01, time = 2.70 | CG iter. 9 -- res = 0.29226E+04, tol = 0.31754E+01, time = 2.89 | CG iter. 10 -- res = 0.11320E+04, tol = 0.31754E+01, time = 2.78 | CG iter. 11 -- res = 0.45314E+03, tol = 0.31754E+01, time = 2.95 | CG iter. 12 -- res = 0.23967E+03, tol = 0.31754E+01, time = 2.94 | CG iter. 13 -- res = 0.12001E+03, tol = 0.31754E+01, time = 2.73 | CG iter. 14 -- res = 0.58220E+02, tol = 0.31754E+01, time = 2.94 | CG iter. 15 -- res = 0.25459E+02, tol = 0.31754E+01, time = 2.97 | CG iter. 16 -- res = 0.10980E+02, tol = 0.31754E+01, time = 2.85 | CG iter. 17 -- res = 0.46653E+01, tol = 0.31754E+01, time = 2.99 | CG iter. 18 -- res = 0.22794E+01, tol = 0.31754E+01, time = 2.87 | CG iter. 19 -- res = 0.11400E+01, tol = 0.31754E+01, time = 3.74 | CG iter. 20 -- res = 0.56173E+00, tol = 0.31754E+01, time = 3.15 | CG iter. 21 -- res = 0.24995E+00, tol = 0.31754E+01, time = 3.27 | CG iter. 22 -- res = 0.10877E+00, tol = 0.31754E+01, time = 3.03 | CG iter. 23 -- res = 0.49894E-01, tol = 0.31754E+01, time = 3.04 | CG iter. 24 -- res = 0.22610E-01, tol = 0.31754E+01, time = 2.99 | CG iter. 25 -- res = 0.11104E-01, tol = 0.31754E+01, time = 2.70 | CG iter. 26 -- res = 0.56010E-02, tol = 0.31754E+01, time = 2.84 | CG iter. 27 -- res = 0.27438E-02, tol = 0.31754E+01, time = 2.41 | CG iter. 28 -- res = 0.13384E-02, tol = 0.31754E+01, time = 2.95 | CG iter. 29 -- res = 0.56318E-03, tol = 0.31754E+01, time = 2.85 | CG iter. 30 -- res = 0.26877E-03, tol = 0.31754E+01, time = 2.98 | CG iter. 31 -- res = 0.13754E-03, tol = 0.31754E+01, time = 2.97 | CG iter. 32 -- res = 0.69701E-04, tol = 0.31754E+01, time = 2.66 | CG iter. 33 -- res = 0.33031E-04, tol = 0.31754E+01, time = 2.75 | CG iter. 34 -- res = 0.15617E-04, tol = 0.31754E+01, time = 2.96 | CG iter. 35 -- res = 0.72382E-05, tol = 0.31754E+01, time = 3.03 | CG iter. 36 -- res = 0.33993E-05, tol = 0.31754E+01, time = 3.03 | CG iter. 37 -- res = 0.16902E-05, tol = 0.31754E+01, time = 2.89 | CG iter. 38 -- res = 0.84228E-06, tol = 0.31754E+01, time = 2.54 | CG iter. 39 -- res = 0.40006E-06, tol = 0.31754E+01, time = 2.81 | CG iter. 40 -- res = 0.18201E-06, tol = 0.31754E+01, time = 2.87 | CG iter. 41 -- res = 0.84437E-07, tol = 0.31754E+01, time = 2.66 | CG iter. 42 -- res = 0.39975E-07, tol = 0.31754E+01, time = 3.11 | CG iter. 43 -- res = 0.18267E-07, tol = 0.31754E+01, time = 2.95 | CG iter. 44 -- res = 0.93720E-08, tol = 0.31754E+01, time = 2.93 | CG iter. 45 -- res = 0.44814E-08, tol = 0.31754E+01, time = 2.30 | CG iter. 46 -- res = 0.20357E-08, tol = 0.31754E+01, time = 2.76 | CG iter. 47 -- res = 0.99678E-09, tol = 0.31754E+01, time = 2.60 | CG iter. 48 -- res = 0.47819E-09, tol = 0.31754E+01, time = 2.80 | CG iter. 49 -- res = 0.22125E-09, tol = 0.31754E+01, time = 2.66 | CG iter. 50 -- res = 0.10849E-09, tol = 0.31754E+01, time = 2.85 | Final CG iter 51 -- res = 0.10849E-09, tol = 0.31754E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.673 6.992 | New value -12.142 | Old value -6.673 | Difference -5.470 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.18 | CG iter. 1 -- res = 0.30268E+05, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.39133E+02, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.14681E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.51186E-02, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.35571E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8333106.361 | (Sampled value in CG: 8289323.505 ) | CPU time specind = 1211.226 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.68783E+08, tol = 0.57879E+04, time = 12.04 | CG iter. 2 -- res = 0.58263E+08, tol = 0.57879E+04, time = 12.05 | CG iter. 3 -- res = 0.15052E+08, tol = 0.57879E+04, time = 17.31 | CG iter. 4 -- res = 0.64369E+07, tol = 0.57879E+04, time = 13.54 | CG iter. 5 -- res = 0.37870E+07, tol = 0.57879E+04, time = 11.94 | CG iter. 6 -- res = 0.22302E+07, tol = 0.57879E+04, time = 12.32 | CG iter. 7 -- res = 0.13153E+07, tol = 0.57879E+04, time = 12.08 | CG iter. 8 -- res = 0.85155E+06, tol = 0.57879E+04, time = 11.61 | CG iter. 9 -- res = 0.55713E+06, tol = 0.57879E+04, time = 11.42 | CG iter. 10 -- res = 0.34500E+06, tol = 0.57879E+04, time = 12.52 | CG iter. 11 -- res = 0.19251E+06, tol = 0.57879E+04, time = 13.81 | CG iter. 12 -- res = 0.10811E+06, tol = 0.57879E+04, time = 11.87 | CG iter. 13 -- res = 0.62393E+05, tol = 0.57879E+04, time = 11.93 | CG iter. 14 -- res = 0.41513E+05, tol = 0.57879E+04, time = 11.77 | CG iter. 15 -- res = 0.32644E+05, tol = 0.57879E+04, time = 11.71 | CG iter. 16 -- res = 0.28768E+05, tol = 0.57879E+04, time = 11.64 | CG iter. 17 -- res = 0.26851E+05, tol = 0.57879E+04, time = 12.08 | CG iter. 18 -- res = 0.24308E+05, tol = 0.57879E+04, time = 11.67 | CG iter. 19 -- res = 0.21404E+05, tol = 0.57879E+04, time = 11.95 | CG iter. 20 -- res = 0.19511E+05, tol = 0.57879E+04, time = 12.36 | CG iter. 21 -- res = 0.19176E+05, tol = 0.57879E+04, time = 11.76 | CG iter. 22 -- res = 0.20061E+05, tol = 0.57879E+04, time = 11.68 | CG iter. 23 -- res = 0.21126E+05, tol = 0.57879E+04, time = 12.50 | CG iter. 24 -- res = 0.20529E+05, tol = 0.57879E+04, time = 12.27 | CG iter. 25 -- res = 0.17883E+05, tol = 0.57879E+04, time = 12.08 | CG iter. 26 -- res = 0.13729E+05, tol = 0.57879E+04, time = 11.83 | CG iter. 27 -- res = 0.98923E+04, tol = 0.57879E+04, time = 11.83 | CG iter. 28 -- res = 0.74091E+04, tol = 0.57879E+04, time = 18.13 | CG iter. 29 -- res = 0.59842E+04, tol = 0.57879E+04, time = 11.82 | CG iter. 30 -- res = 0.52197E+04, tol = 0.57879E+04, time = 11.77 | CG iter. 31 -- res = 0.46361E+04, tol = 0.57879E+04, time = 12.10 | CG iter. 32 -- res = 0.40841E+04, tol = 0.57879E+04, time = 12.28 | CG iter. 33 -- res = 0.35599E+04, tol = 0.57879E+04, time = 11.96 | CG iter. 34 -- res = 0.30818E+04, tol = 0.57879E+04, time = 12.03 | CG iter. 35 -- res = 0.28018E+04, tol = 0.57879E+04, time = 13.45 | CG iter. 36 -- res = 0.26363E+04, tol = 0.57879E+04, time = 11.64 | CG iter. 37 -- res = 0.25100E+04, tol = 0.57879E+04, time = 11.75 | CG iter. 38 -- res = 0.23848E+04, tol = 0.57879E+04, time = 11.91 | CG iter. 39 -- res = 0.21589E+04, tol = 0.57879E+04, time = 12.41 | CG iter. 40 -- res = 0.18449E+04, tol = 0.57879E+04, time = 11.63 | CG iter. 41 -- res = 0.15043E+04, tol = 0.57879E+04, time = 12.09 | CG iter. 42 -- res = 0.12211E+04, tol = 0.57879E+04, time = 11.71 | CG iter. 43 -- res = 0.10576E+04, tol = 0.57879E+04, time = 12.38 | CG iter. 44 -- res = 0.98889E+03, tol = 0.57879E+04, time = 12.69 | CG iter. 45 -- res = 0.93633E+03, tol = 0.57879E+04, time = 13.57 | CG iter. 46 -- res = 0.86867E+03, tol = 0.57879E+04, time = 12.27 | CG iter. 47 -- res = 0.78298E+03, tol = 0.57879E+04, time = 11.61 | CG iter. 48 -- res = 0.69028E+03, tol = 0.57879E+04, time = 11.71 | CG iter. 49 -- res = 0.61423E+03, tol = 0.57879E+04, time = 11.72 | CG iter. 50 -- res = 0.56970E+03, tol = 0.57879E+04, time = 12.31 | CG iter. 51 -- res = 0.55099E+03, tol = 0.57879E+04, time = 12.16 | CG iter. 52 -- res = 0.54236E+03, tol = 0.57879E+04, time = 18.38 | CG iter. 53 -- res = 0.51332E+03, tol = 0.57879E+04, time = 12.25 | CG iter. 54 -- res = 0.45461E+03, tol = 0.57879E+04, time = 12.07 | CG iter. 55 -- res = 0.38003E+03, tol = 0.57879E+04, time = 12.38 | CG iter. 56 -- res = 0.32678E+03, tol = 0.57879E+04, time = 11.87 | CG iter. 57 -- res = 0.29800E+03, tol = 0.57879E+04, time = 12.27 | CG iter. 58 -- res = 0.28246E+03, tol = 0.57879E+04, time = 12.20 | CG iter. 59 -- res = 0.27264E+03, tol = 0.57879E+04, time = 14.80 | CG iter. 60 -- res = 0.25191E+03, tol = 0.57879E+04, time = 11.86 | Final CG iter 61 -- res = 0.25191E+03, tol = 0.57879E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.754 ( -229.771 -2231.546 2514.179 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7566941.092 | Old band monopole 8333142.204 | Change to band monopole -766201.112 | Change to component monopole 766197.816 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.822 2.737 | New value -0.921 | Old value 1.822 | Difference -2.744 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.190 ( 7.711 12.255 -11.385 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.566 5.069 | New value -1.189 | Old value -2.566 | Difference 1.377 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 21.95 | CG iter. 1 -- res = 0.44201E+06, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.41904E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.17812E+01, tol = 0.47627E+18, time = 2.23 | CG iter. 4 -- res = 0.29851E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.35431E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7566908.545 | (Sampled value in CG: 7547018.535 ) | Chain = 1 -- chisq = 0.81559524E+09 | Chain = 1 -- wall time = 6108.668 sec Available RAM: MemAvailable: 379861432 kB Available Swap: SwapFree: 1110370156 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 305 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444929 | --> Sampling calibration, mode = relcal | relcal = 1.3431760E-02 7.4716227E-04 -1.5841105E-03 -1.2594812E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1226899 0.1291474 97050291.2778331 | BP delta = 0.1191990 0.1256565 97050288.2412622 | BP chisq diff = -3.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632354 | --> Sampling calibration, mode = relcal | relcal = -2.8205586E-03 -7.0494687E-04 1.6774657E-03 1.6151282E-03 -4.0757100E-04 6.4048258E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5607028 15215437.2411740 | BP delta = 0.0000000E+00 -0.5594687 15215437.6086256 | BP chisq diff = 0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18346528268999 | --> Sampling calibration, mode = relcal | relcal = -7.5565964E-02 -5.8834594E-02 9.2434578E-02 4.1965984E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5977546E-04 5.5004628E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4000E-05 | 2: delta_r/delta_0: 1.1002E-06 | 3: delta_s/delta_0: 1.9207E-07 | 4: delta_r/delta_0: 2.2971E-08 | 5: delta_s/delta_0: 5.7779E-09 | 6: delta_r/delta_0: 2.2059E-09 | 7: delta_s/delta_0: 9.1818E-10 | 8: delta_r/delta_0: 1.3113E-10 | 9: delta_s/delta_0: 1.0910E-09 | 10: delta_r/delta_0: 1.2627E-10 | 11: delta_s/delta_0: 1.1465E-10 | 12: delta_r/delta_0: 2.4477E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.021114313758453E-003 2.735295771604231E-005 | BP delta = 6.6799112E-02 8.7018199E-02 50484080.1561139 | BP delta = 6.0563181E-02 8.0782264E-02 50484087.7359642 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02592065 | --> Sampling calibration, mode = relcal | relcal = -0.1066462 -9.5545486E-02 0.1449739 5.7217803E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1374011E-03 1.2138154E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1467E-05 | 2: delta_r/delta_0: 1.2247E-06 | 3: delta_s/delta_0: 2.5783E-07 | 4: delta_r/delta_0: 4.2800E-08 | 5: delta_s/delta_0: 2.1201E-08 | 6: delta_r/delta_0: 6.9346E-09 | 7: delta_s/delta_0: 6.3590E-09 | 8: delta_r/delta_0: 1.6333E-09 | 9: delta_s/delta_0: 8.0341E-10 | 10: delta_r/delta_0: 6.0270E-10 | 11: delta_s/delta_0: 2.6275E-09 | 12: delta_r/delta_0: 4.6391E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.859718218994189E-003 2.811047394338796E-005 | BP delta = -0.3364009 -0.3075959 57392467.0879323 | BP delta = -0.3471044 -0.3182994 57392468.0715876 | BP chisq diff = 1.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81218787 | --> Sampling calibration, mode = relcal | relcal = 0.2953759 0.2248947 -0.2837939 -0.2364766 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.2348551E-05 5.7287533E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7359E-04 | 2: delta_r/delta_0: 1.6207E-05 | 3: delta_s/delta_0: 9.7739E-04 | 4: delta_r/delta_0: 3.6259E-05 | 5: delta_s/delta_0: 3.0929E-07 | 6: delta_r/delta_0: 1.3278E-07 | 7: delta_s/delta_0: 4.7832E-07 | 8: delta_r/delta_0: 3.6230E-08 | 9: delta_s/delta_0: 1.4820E-08 | 10: delta_r/delta_0: 1.8562E-09 | 11: delta_s/delta_0: 2.2023E-09 | 12: delta_r/delta_0: 1.1317E-09 | 13: delta_s/delta_0: 2.4788E-10 | 14: delta_r/delta_0: 7.3070E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.236996692964833E-002 4.021885362957753E-005 | BP delta = -0.2731095 -0.3000453 72485118.8990309 | BP delta = -0.2872518 -0.3141876 72485119.1759252 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95913765 | --> Sampling calibration, mode = relcal | relcal = 0.1066427 0.1395078 -0.1103696 -0.1357809 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9239200E-03 1.3936654E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9734E-04 | 2: delta_r/delta_0: 5.1450E-06 | 3: delta_s/delta_0: 5.0798E-06 | 4: delta_r/delta_0: 7.9231E-07 | 5: delta_s/delta_0: 1.8818E-07 | 6: delta_r/delta_0: 1.1376E-07 | 7: delta_s/delta_0: 5.5651E-07 | 8: delta_r/delta_0: 2.4724E-08 | 9: delta_s/delta_0: 8.4214E-08 | 10: delta_r/delta_0: 4.0401E-08 | 11: delta_s/delta_0: 1.7183E-09 | 12: delta_r/delta_0: 1.1760E-09 | 13: delta_s/delta_0: 4.4853E-10 | 14: delta_r/delta_0: 3.3190E-10 | 15: delta_s/delta_0: 7.1092E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.930463899428482E-002 3.697354034040949E-005 | BP delta = 3.7576035E-02 0.1516181 72788670.8823053 | BP delta = 6.6922151E-02 0.1809642 72788670.5533924 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.235035 | New value = -3.080073 | poltype: 2 pol: 1 CPU time specind = 1.1075020E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184407 | New value = -3.146222 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.122731 | New value = -3.151285 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114809 | New value = -3.094600 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135848 | New value = -3.191803 | poltype: 2 pol: 2 CPU time specind = 4.9266100E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.14119E+08, tol = 0.89755E+01, time = 5.70 | CG iter. 2 -- res = 0.55643E+06, tol = 0.89755E+01, time = 12.57 | CG iter. 3 -- res = 0.38950E+06, tol = 0.89755E+01, time = 5.63 | CG iter. 4 -- res = 0.76306E+06, tol = 0.89755E+01, time = 5.52 | CG iter. 5 -- res = 0.62771E+06, tol = 0.89755E+01, time = 5.98 | CG iter. 6 -- res = 0.47616E+06, tol = 0.89755E+01, time = 6.10 | CG iter. 7 -- res = 0.31679E+06, tol = 0.89755E+01, time = 5.59 | CG iter. 8 -- res = 0.22494E+06, tol = 0.89755E+01, time = 5.68 | CG iter. 9 -- res = 0.20156E+06, tol = 0.89755E+01, time = 5.48 | CG iter. 10 -- res = 0.15629E+06, tol = 0.89755E+01, time = 5.86 | CG iter. 11 -- res = 0.10645E+06, tol = 0.89755E+01, time = 5.64 | CG iter. 12 -- res = 0.81364E+05, tol = 0.89755E+01, time = 6.02 | CG iter. 13 -- res = 0.64090E+05, tol = 0.89755E+01, time = 5.62 | CG iter. 14 -- res = 0.51995E+05, tol = 0.89755E+01, time = 5.64 | CG iter. 15 -- res = 0.38961E+05, tol = 0.89755E+01, time = 6.07 | CG iter. 16 -- res = 0.25794E+05, tol = 0.89755E+01, time = 6.06 | CG iter. 17 -- res = 0.19878E+05, tol = 0.89755E+01, time = 7.31 | CG iter. 18 -- res = 0.17895E+05, tol = 0.89755E+01, time = 6.43 | CG iter. 19 -- res = 0.14501E+05, tol = 0.89755E+01, time = 5.91 | CG iter. 20 -- res = 0.10102E+05, tol = 0.89755E+01, time = 5.64 | CG iter. 21 -- res = 0.75784E+04, tol = 0.89755E+01, time = 6.05 | CG iter. 22 -- res = 0.65603E+04, tol = 0.89755E+01, time = 5.69 | CG iter. 23 -- res = 0.55432E+04, tol = 0.89755E+01, time = 6.19 | CG iter. 24 -- res = 0.41540E+04, tol = 0.89755E+01, time = 5.51 | CG iter. 25 -- res = 0.30498E+04, tol = 0.89755E+01, time = 6.08 | CG iter. 26 -- res = 0.25679E+04, tol = 0.89755E+01, time = 5.65 | CG iter. 27 -- res = 0.22699E+04, tol = 0.89755E+01, time = 5.48 | CG iter. 28 -- res = 0.17421E+04, tol = 0.89755E+01, time = 5.93 | CG iter. 29 -- res = 0.12022E+04, tol = 0.89755E+01, time = 6.09 | CG iter. 30 -- res = 0.97096E+03, tol = 0.89755E+01, time = 5.49 | CG iter. 31 -- res = 0.80628E+03, tol = 0.89755E+01, time = 5.82 | CG iter. 32 -- res = 0.64777E+03, tol = 0.89755E+01, time = 5.83 | CG iter. 33 -- res = 0.46195E+03, tol = 0.89755E+01, time = 5.65 | CG iter. 34 -- res = 0.33780E+03, tol = 0.89755E+01, time = 5.60 | CG iter. 35 -- res = 0.27714E+03, tol = 0.89755E+01, time = 6.17 | CG iter. 36 -- res = 0.22798E+03, tol = 0.89755E+01, time = 5.73 | CG iter. 37 -- res = 0.16655E+03, tol = 0.89755E+01, time = 5.51 | CG iter. 38 -- res = 0.11707E+03, tol = 0.89755E+01, time = 5.81 | CG iter. 39 -- res = 0.91908E+02, tol = 0.89755E+01, time = 5.92 | CG iter. 40 -- res = 0.73000E+02, tol = 0.89755E+01, time = 5.93 | CG iter. 41 -- res = 0.55705E+02, tol = 0.89755E+01, time = 5.77 | CG iter. 42 -- res = 0.38878E+02, tol = 0.89755E+01, time = 5.97 | CG iter. 43 -- res = 0.29804E+02, tol = 0.89755E+01, time = 5.79 | CG iter. 44 -- res = 0.23846E+02, tol = 0.89755E+01, time = 6.27 | CG iter. 45 -- res = 0.18185E+02, tol = 0.89755E+01, time = 5.90 | CG iter. 46 -- res = 0.12876E+02, tol = 0.89755E+01, time = 5.73 | CG iter. 47 -- res = 0.95817E+01, tol = 0.89755E+01, time = 5.79 | CG iter. 48 -- res = 0.70232E+01, tol = 0.89755E+01, time = 5.91 | CG iter. 49 -- res = 0.54415E+01, tol = 0.89755E+01, time = 5.54 | CG iter. 50 -- res = 0.37919E+01, tol = 0.89755E+01, time = 5.79 | Final CG iter 51 -- res = 0.37919E+01, tol = 0.89755E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9464496.670 | Old band monopole 7566941.092 | Change to band monopole 1897555.578 | Change to component monopole -1897547.416 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.25 | CG iter. 1 -- res = 0.85492E+06, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.60306E+03, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.48378E+01, tol = 0.47627E+18, time = 2.25 | CG iter. 4 -- res = 0.95658E-01, tol = 0.47627E+18, time = 2.23 | Final CG iter 5 -- res = 0.69638E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9464455.961 | (Sampled value in CG: 9671082.894 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519933 | New value = 1.504404 | poltype: 2 pol: 1 CPU time specind = 2.1005869E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477439 | New value = 1.529155 | poltype: 2 pol: 2 CPU time specind = 1.7588139E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.24066E+08, tol = 0.47559E+04, time = 6.38 | CG iter. 2 -- res = 0.54017E+07, tol = 0.47559E+04, time = 7.00 | CG iter. 3 -- res = 0.85088E+06, tol = 0.47559E+04, time = 6.41 | CG iter. 4 -- res = 0.35703E+06, tol = 0.47559E+04, time = 6.54 | CG iter. 5 -- res = 0.15264E+06, tol = 0.47559E+04, time = 6.87 | CG iter. 6 -- res = 0.79816E+05, tol = 0.47559E+04, time = 6.62 | CG iter. 7 -- res = 0.44075E+05, tol = 0.47559E+04, time = 6.91 | CG iter. 8 -- res = 0.21434E+05, tol = 0.47559E+04, time = 6.47 | CG iter. 9 -- res = 0.93698E+04, tol = 0.47559E+04, time = 6.98 | CG iter. 10 -- res = 0.38010E+04, tol = 0.47559E+04, time = 6.82 | CG iter. 11 -- res = 0.16754E+04, tol = 0.47559E+04, time = 6.54 | CG iter. 12 -- res = 0.86394E+03, tol = 0.47559E+04, time = 6.66 | CG iter. 13 -- res = 0.48692E+03, tol = 0.47559E+04, time = 6.42 | CG iter. 14 -- res = 0.27013E+03, tol = 0.47559E+04, time = 6.66 | CG iter. 15 -- res = 0.14372E+03, tol = 0.47559E+04, time = 6.50 | CG iter. 16 -- res = 0.68351E+02, tol = 0.47559E+04, time = 6.73 | CG iter. 17 -- res = 0.31183E+02, tol = 0.47559E+04, time = 6.86 | CG iter. 18 -- res = 0.15716E+02, tol = 0.47559E+04, time = 6.91 | CG iter. 19 -- res = 0.84820E+01, tol = 0.47559E+04, time = 6.76 | CG iter. 20 -- res = 0.47488E+01, tol = 0.47559E+04, time = 6.86 | CG iter. 21 -- res = 0.25523E+01, tol = 0.47559E+04, time = 6.96 | CG iter. 22 -- res = 0.13208E+01, tol = 0.47559E+04, time = 6.40 | CG iter. 23 -- res = 0.67097E+00, tol = 0.47559E+04, time = 6.70 | CG iter. 24 -- res = 0.34880E+00, tol = 0.47559E+04, time = 6.44 | CG iter. 25 -- res = 0.19227E+00, tol = 0.47559E+04, time = 6.61 | CG iter. 26 -- res = 0.10892E+00, tol = 0.47559E+04, time = 6.48 | CG iter. 27 -- res = 0.61837E-01, tol = 0.47559E+04, time = 6.81 | CG iter. 28 -- res = 0.34003E-01, tol = 0.47559E+04, time = 6.85 | CG iter. 29 -- res = 0.17914E-01, tol = 0.47559E+04, time = 6.77 | CG iter. 30 -- res = 0.92337E-02, tol = 0.47559E+04, time = 12.87 | CG iter. 31 -- res = 0.49526E-02, tol = 0.47559E+04, time = 7.05 | CG iter. 32 -- res = 0.27877E-02, tol = 0.47559E+04, time = 6.39 | CG iter. 33 -- res = 0.15921E-02, tol = 0.47559E+04, time = 6.41 | CG iter. 34 -- res = 0.86239E-03, tol = 0.47559E+04, time = 6.25 | CG iter. 35 -- res = 0.45923E-03, tol = 0.47559E+04, time = 6.90 | Final CG iter 36 -- res = 0.45923E-03, tol = 0.47559E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.905 2.737 | New value 0.955 | Old value -0.905 | Difference 1.860 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.22502E+06, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.39321E+03, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.23686E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.32971E-03, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.42945E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9464455.961 | (Sampled value in CG: 9670520.987 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.655670 | New value = -3.695137 | poltype: 1 pol: 1 CPU time specind = 1.2125969E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.56863E+07, tol = 0.24682E+01, time = 2.69 | CG iter. 2 -- res = 0.25886E+07, tol = 0.24682E+01, time = 2.76 | CG iter. 3 -- res = 0.58594E+06, tol = 0.24682E+01, time = 2.62 | CG iter. 4 -- res = 0.29649E+06, tol = 0.24682E+01, time = 2.57 | CG iter. 5 -- res = 0.17186E+06, tol = 0.24682E+01, time = 2.88 | CG iter. 6 -- res = 0.68071E+05, tol = 0.24682E+01, time = 2.68 | CG iter. 7 -- res = 0.19178E+05, tol = 0.24682E+01, time = 2.88 | CG iter. 8 -- res = 0.79615E+04, tol = 0.24682E+01, time = 2.94 | CG iter. 9 -- res = 0.40235E+04, tol = 0.24682E+01, time = 2.74 | CG iter. 10 -- res = 0.16343E+04, tol = 0.24682E+01, time = 2.41 | CG iter. 11 -- res = 0.64181E+03, tol = 0.24682E+01, time = 2.88 | CG iter. 12 -- res = 0.32641E+03, tol = 0.24682E+01, time = 2.59 | CG iter. 13 -- res = 0.16629E+03, tol = 0.24682E+01, time = 2.90 | CG iter. 14 -- res = 0.75501E+02, tol = 0.24682E+01, time = 4.34 | CG iter. 15 -- res = 0.33451E+02, tol = 0.24682E+01, time = 3.29 | CG iter. 16 -- res = 0.14174E+02, tol = 0.24682E+01, time = 3.00 | CG iter. 17 -- res = 0.64182E+01, tol = 0.24682E+01, time = 3.58 | CG iter. 18 -- res = 0.32256E+01, tol = 0.24682E+01, time = 2.86 | CG iter. 19 -- res = 0.15809E+01, tol = 0.24682E+01, time = 2.99 | CG iter. 20 -- res = 0.75362E+00, tol = 0.24682E+01, time = 2.91 | CG iter. 21 -- res = 0.33054E+00, tol = 0.24682E+01, time = 2.77 | CG iter. 22 -- res = 0.14086E+00, tol = 0.24682E+01, time = 2.79 | CG iter. 23 -- res = 0.64432E-01, tol = 0.24682E+01, time = 2.72 | CG iter. 24 -- res = 0.31083E-01, tol = 0.24682E+01, time = 2.71 | CG iter. 25 -- res = 0.15572E-01, tol = 0.24682E+01, time = 2.84 | CG iter. 26 -- res = 0.78066E-02, tol = 0.24682E+01, time = 2.79 | CG iter. 27 -- res = 0.37369E-02, tol = 0.24682E+01, time = 2.80 | CG iter. 28 -- res = 0.16860E-02, tol = 0.24682E+01, time = 2.73 | CG iter. 29 -- res = 0.75231E-03, tol = 0.24682E+01, time = 2.68 | CG iter. 30 -- res = 0.38123E-03, tol = 0.24682E+01, time = 2.56 | CG iter. 31 -- res = 0.18474E-03, tol = 0.24682E+01, time = 3.23 | CG iter. 32 -- res = 0.93898E-04, tol = 0.24682E+01, time = 2.83 | CG iter. 33 -- res = 0.44812E-04, tol = 0.24682E+01, time = 2.76 | CG iter. 34 -- res = 0.19956E-04, tol = 0.24682E+01, time = 2.92 | CG iter. 35 -- res = 0.97872E-05, tol = 0.24682E+01, time = 2.58 | CG iter. 36 -- res = 0.47275E-05, tol = 0.24682E+01, time = 2.86 | CG iter. 37 -- res = 0.23622E-05, tol = 0.24682E+01, time = 2.53 | CG iter. 38 -- res = 0.11962E-05, tol = 0.24682E+01, time = 2.84 | CG iter. 39 -- res = 0.56939E-06, tol = 0.24682E+01, time = 2.81 | CG iter. 40 -- res = 0.25718E-06, tol = 0.24682E+01, time = 2.87 | CG iter. 41 -- res = 0.11532E-06, tol = 0.24682E+01, time = 3.11 | CG iter. 42 -- res = 0.57156E-07, tol = 0.24682E+01, time = 2.81 | CG iter. 43 -- res = 0.26921E-07, tol = 0.24682E+01, time = 2.60 | CG iter. 44 -- res = 0.13567E-07, tol = 0.24682E+01, time = 2.74 | CG iter. 45 -- res = 0.62361E-08, tol = 0.24682E+01, time = 2.93 | CG iter. 46 -- res = 0.28759E-08, tol = 0.24682E+01, time = 3.02 | CG iter. 47 -- res = 0.13487E-08, tol = 0.24682E+01, time = 2.80 | CG iter. 48 -- res = 0.63370E-09, tol = 0.24682E+01, time = 2.64 | CG iter. 49 -- res = 0.31024E-09, tol = 0.24682E+01, time = 2.93 | CG iter. 50 -- res = 0.14497E-09, tol = 0.24682E+01, time = 2.68 | Final CG iter 51 -- res = 0.14497E-09, tol = 0.24682E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.140 3.021 | New value -3.562 | Old value 10.140 | Difference -13.702 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.50 | CG iter. 1 -- res = 0.21083E+06, tol = 0.47627E+18, time = 2.28 | CG iter. 2 -- res = 0.27500E+03, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.31579E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.23561E-01, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.18849E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9464455.961 | (Sampled value in CG: 9617113.187 ) | CPU time specind = 1212.091 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.69159E+08, tol = 0.57837E+04, time = 12.38 | CG iter. 2 -- res = 0.60050E+08, tol = 0.57837E+04, time = 18.02 | CG iter. 3 -- res = 0.16132E+08, tol = 0.57837E+04, time = 12.37 | CG iter. 4 -- res = 0.68383E+07, tol = 0.57837E+04, time = 12.03 | CG iter. 5 -- res = 0.40884E+07, tol = 0.57837E+04, time = 12.28 | CG iter. 6 -- res = 0.24652E+07, tol = 0.57837E+04, time = 11.85 | CG iter. 7 -- res = 0.15471E+07, tol = 0.57837E+04, time = 11.87 | CG iter. 8 -- res = 0.10876E+07, tol = 0.57837E+04, time = 12.09 | CG iter. 9 -- res = 0.77427E+06, tol = 0.57837E+04, time = 14.26 | CG iter. 10 -- res = 0.52124E+06, tol = 0.57837E+04, time = 12.13 | CG iter. 11 -- res = 0.33728E+06, tol = 0.57837E+04, time = 12.23 | CG iter. 12 -- res = 0.23271E+06, tol = 0.57837E+04, time = 12.02 | CG iter. 13 -- res = 0.17961E+06, tol = 0.57837E+04, time = 12.21 | CG iter. 14 -- res = 0.16541E+06, tol = 0.57837E+04, time = 12.68 | CG iter. 15 -- res = 0.17664E+06, tol = 0.57837E+04, time = 11.65 | CG iter. 16 -- res = 0.19215E+06, tol = 0.57837E+04, time = 12.27 | CG iter. 17 -- res = 0.19200E+06, tol = 0.57837E+04, time = 12.35 | CG iter. 18 -- res = 0.17126E+06, tol = 0.57837E+04, time = 13.40 | CG iter. 19 -- res = 0.14195E+06, tol = 0.57837E+04, time = 12.16 | CG iter. 20 -- res = 0.11887E+06, tol = 0.57837E+04, time = 12.16 | CG iter. 21 -- res = 0.10182E+06, tol = 0.57837E+04, time = 12.02 | CG iter. 22 -- res = 0.89452E+05, tol = 0.57837E+04, time = 11.81 | CG iter. 23 -- res = 0.79269E+05, tol = 0.57837E+04, time = 11.97 | CG iter. 24 -- res = 0.65610E+05, tol = 0.57837E+04, time = 12.11 | CG iter. 25 -- res = 0.51205E+05, tol = 0.57837E+04, time = 11.65 | CG iter. 26 -- res = 0.39638E+05, tol = 0.57837E+04, time = 18.24 | CG iter. 27 -- res = 0.32043E+05, tol = 0.57837E+04, time = 12.22 | CG iter. 28 -- res = 0.27552E+05, tol = 0.57837E+04, time = 11.70 | CG iter. 29 -- res = 0.25959E+05, tol = 0.57837E+04, time = 12.42 | CG iter. 30 -- res = 0.25941E+05, tol = 0.57837E+04, time = 11.98 | CG iter. 31 -- res = 0.24961E+05, tol = 0.57837E+04, time = 11.78 | CG iter. 32 -- res = 0.23075E+05, tol = 0.57837E+04, time = 11.83 | CG iter. 33 -- res = 0.19379E+05, tol = 0.57837E+04, time = 13.68 | CG iter. 34 -- res = 0.15239E+05, tol = 0.57837E+04, time = 12.31 | CG iter. 35 -- res = 0.12348E+05, tol = 0.57837E+04, time = 11.25 | CG iter. 36 -- res = 0.10732E+05, tol = 0.57837E+04, time = 12.25 | CG iter. 37 -- res = 0.98368E+04, tol = 0.57837E+04, time = 12.21 | CG iter. 38 -- res = 0.89079E+04, tol = 0.57837E+04, time = 11.78 | CG iter. 39 -- res = 0.79259E+04, tol = 0.57837E+04, time = 12.16 | CG iter. 40 -- res = 0.67271E+04, tol = 0.57837E+04, time = 12.67 | CG iter. 41 -- res = 0.56515E+04, tol = 0.57837E+04, time = 12.27 | CG iter. 42 -- res = 0.49253E+04, tol = 0.57837E+04, time = 12.63 | CG iter. 43 -- res = 0.46144E+04, tol = 0.57837E+04, time = 12.02 | CG iter. 44 -- res = 0.44712E+04, tol = 0.57837E+04, time = 11.67 | CG iter. 45 -- res = 0.42307E+04, tol = 0.57837E+04, time = 12.04 | CG iter. 46 -- res = 0.38943E+04, tol = 0.57837E+04, time = 11.80 | CG iter. 47 -- res = 0.34329E+04, tol = 0.57837E+04, time = 12.02 | CG iter. 48 -- res = 0.28819E+04, tol = 0.57837E+04, time = 12.36 | CG iter. 49 -- res = 0.24908E+04, tol = 0.57837E+04, time = 12.09 | CG iter. 50 -- res = 0.22696E+04, tol = 0.57837E+04, time = 18.82 | CG iter. 51 -- res = 0.21218E+04, tol = 0.57837E+04, time = 11.76 | CG iter. 52 -- res = 0.20136E+04, tol = 0.57837E+04, time = 12.56 | CG iter. 53 -- res = 0.18471E+04, tol = 0.57837E+04, time = 11.96 | CG iter. 54 -- res = 0.16523E+04, tol = 0.57837E+04, time = 12.27 | CG iter. 55 -- res = 0.14553E+04, tol = 0.57837E+04, time = 11.79 | CG iter. 56 -- res = 0.13310E+04, tol = 0.57837E+04, time = 12.41 | CG iter. 57 -- res = 0.12773E+04, tol = 0.57837E+04, time = 13.72 | CG iter. 58 -- res = 0.11908E+04, tol = 0.57837E+04, time = 12.70 | CG iter. 59 -- res = 0.11054E+04, tol = 0.57837E+04, time = 12.13 | CG iter. 60 -- res = 0.10224E+04, tol = 0.57837E+04, time = 11.61 | Final CG iter 61 -- res = 0.10224E+04, tol = 0.57837E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.738 ( -229.450 -2230.407 2513.001 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9603576.456 | Old band monopole 9464496.670 | Change to band monopole 139079.787 | Change to component monopole -139079.189 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.941 2.724 | New value -0.430 | Old value 0.941 | Difference -1.371 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.242 ( 5.759 9.147 -9.394 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.384 4.752 | New value -5.778 | Old value -6.384 | Difference 0.606 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.11379E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.31187E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.75773E+00, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.14024E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.38316E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9603535.149 | (Sampled value in CG: 9583709.501 ) | Chain = 1 -- chisq = 0.81552090E+09 | Chain = 1 -- wall time = 5722.131 sec Available RAM: MemAvailable: 380082248 kB Available Swap: SwapFree: 1110808940 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 306 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446458 | --> Sampling calibration, mode = relcal | relcal = 1.3436954E-02 7.3890033E-04 -1.5893176E-03 -1.2586537E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191990 0.1256565 9405300.55610824 | BP delta = 0.1191990 0.1198117 9405327.15798124 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632282 | --> Sampling calibration, mode = relcal | relcal = -2.8201488E-03 -7.0360611E-04 1.6774161E-03 1.6146495E-03 -4.0783582E-04 6.3952507E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5594687 15221718.6019628 | BP delta = 0.0000000E+00 -0.5595195 15221718.0514314 | BP chisq diff = -0.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102306 | --> Sampling calibration, mode = relcal | relcal = 3.7079252E-02 1.3717989E-02 5.7493593E-03 -7.1644736E-03 8.2376301E-03 2.3951284E-03 -7.5945552E-03 -7.1786591E-03 -1.5296699E-02 -1.4798003E-02 -3.0519778E-03 -1.2094993E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.182050 132209302.230060 | BP delta = 0.0000000E+00 -1.144301 132209298.125123 | BP chisq diff = -4.1, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17990100159405 | --> Sampling calibration, mode = relcal | relcal = -7.4098632E-02 -5.7751637E-02 9.0873130E-02 4.0977135E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4867031E-05 3.2632088E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2539E-03 | 2: delta_r/delta_0: 5.1982E-05 | 3: delta_s/delta_0: 1.9529E-07 | 4: delta_r/delta_0: 2.1366E-08 | 5: delta_s/delta_0: 8.1580E-09 | 6: delta_r/delta_0: 1.6689E-09 | 7: delta_s/delta_0: 3.9889E-09 | 8: delta_r/delta_0: 1.1557E-10 | 9: delta_s/delta_0: 7.6434E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.061289540237715E-003 2.743753568866088E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2546E-03 | 2: delta_r/delta_0: 5.1995E-05 | 3: delta_s/delta_0: 1.9528E-07 | 4: delta_r/delta_0: 2.1366E-08 | 5: delta_s/delta_0: 8.1580E-09 | 6: delta_r/delta_0: 1.6689E-09 | 7: delta_s/delta_0: 3.9895E-09 | 8: delta_r/delta_0: 1.1557E-10 | 9: delta_s/delta_0: 7.6425E-11 | Reached bicg-stab tolerance | BP delta = 6.6799112E-02 8.7018199E-02 3637108.02182904 | BP delta = 6.6799112E-02 8.6658970E-02 3638635.35298661 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02578488 | --> Sampling calibration, mode = relcal | relcal = -0.1066398 -9.5474161E-02 0.1448468 5.7267129E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7855113E-03 1.3998919E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7625E-05 | 2: delta_r/delta_0: 1.1860E-06 | 3: delta_s/delta_0: 2.6137E-07 | 4: delta_r/delta_0: 4.4383E-08 | 5: delta_s/delta_0: 1.9082E-08 | 6: delta_r/delta_0: 6.7724E-09 | 7: delta_s/delta_0: 5.5682E-09 | 8: delta_r/delta_0: 1.5930E-09 | 9: delta_s/delta_0: 7.9197E-10 | 10: delta_r/delta_0: 5.8645E-10 | 11: delta_s/delta_0: 1.0522E-09 | 12: delta_r/delta_0: 7.1105E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.682161283571977E-003 2.811402913531516E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7625E-05 | 2: delta_r/delta_0: 1.1860E-06 | 3: delta_s/delta_0: 2.6137E-07 | 4: delta_r/delta_0: 4.4382E-08 | 5: delta_s/delta_0: 1.9082E-08 | 6: delta_r/delta_0: 6.7723E-09 | 7: delta_s/delta_0: 5.5682E-09 | 8: delta_r/delta_0: 1.5930E-09 | 9: delta_s/delta_0: 7.9196E-10 | 10: delta_r/delta_0: 5.8645E-10 | 11: delta_s/delta_0: 1.0522E-09 | 12: delta_r/delta_0: 7.1104E-11 | Reached bicg-stab tolerance | BP delta = -0.3471044 -0.3182994 2841569.29373989 | BP delta = -0.3471044 -0.3186495 2841570.54943861 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81202048 | --> Sampling calibration, mode = relcal | relcal = 0.2953691 0.2248140 -0.2836898 -0.2364933 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.4033784E-04 5.4950258E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7225E-04 | 2: delta_r/delta_0: 9.1347E-06 | 3: delta_s/delta_0: 1.7044E-04 | 4: delta_r/delta_0: 8.0876E-06 | 5: delta_s/delta_0: 2.3502E-07 | 6: delta_r/delta_0: 1.1432E-07 | 7: delta_s/delta_0: 3.2184E-07 | 8: delta_r/delta_0: 3.0109E-08 | 9: delta_s/delta_0: 3.6700E-08 | 10: delta_r/delta_0: 1.9294E-09 | 11: delta_s/delta_0: 1.4848E-09 | 12: delta_r/delta_0: 8.2739E-10 | 13: delta_s/delta_0: 8.2205E-10 | 14: delta_r/delta_0: 7.5917E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.078902241063886E-002 4.022727216083420E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7225E-04 | 2: delta_r/delta_0: 9.1346E-06 | 3: delta_s/delta_0: 1.7044E-04 | 4: delta_r/delta_0: 8.0876E-06 | 5: delta_s/delta_0: 2.3502E-07 | 6: delta_r/delta_0: 1.1432E-07 | 7: delta_s/delta_0: 3.2186E-07 | 8: delta_r/delta_0: 3.0109E-08 | 9: delta_s/delta_0: 3.6702E-08 | 10: delta_r/delta_0: 1.9295E-09 | 11: delta_s/delta_0: 1.4848E-09 | 12: delta_r/delta_0: 8.2739E-10 | 13: delta_s/delta_0: 8.2210E-10 | 14: delta_r/delta_0: 7.5915E-11 | Reached bicg-stab tolerance | BP delta = -0.2872518 -0.3141876 2827192.67830182 | BP delta = -0.2872518 -0.3179809 2827192.62733040 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95882876 | --> Sampling calibration, mode = relcal | relcal = 0.1064740 0.1395120 -0.1102524 -0.1357336 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0276491E-02 1.3140877E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5809E-04 | 2: delta_r/delta_0: 1.1266E-05 | 3: delta_s/delta_0: 6.6911E-05 | 4: delta_r/delta_0: 3.7784E-06 | 5: delta_s/delta_0: 2.6227E-07 | 6: delta_r/delta_0: 1.3473E-07 | 7: delta_s/delta_0: 5.8408E-07 | 8: delta_r/delta_0: 3.4051E-08 | 9: delta_s/delta_0: 1.0721E-08 | 10: delta_r/delta_0: 3.4218E-09 | 11: delta_s/delta_0: 1.8217E-09 | 12: delta_r/delta_0: 9.1418E-10 | 13: delta_s/delta_0: 3.0395E-07 | 14: delta_r/delta_0: 3.1915E-08 | 15: delta_s/delta_0: 5.6300E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.191239363566014E-002 3.698451103707108E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5807E-04 | 2: delta_r/delta_0: 1.1266E-05 | 3: delta_s/delta_0: 6.6914E-05 | 4: delta_r/delta_0: 3.7788E-06 | 5: delta_s/delta_0: 2.6227E-07 | 6: delta_r/delta_0: 1.3474E-07 | 7: delta_s/delta_0: 5.8426E-07 | 8: delta_r/delta_0: 3.4051E-08 | 9: delta_s/delta_0: 1.0722E-08 | 10: delta_r/delta_0: 3.4209E-09 | 11: delta_s/delta_0: 1.8215E-09 | 12: delta_r/delta_0: 9.1476E-10 | 13: delta_s/delta_0: 2.9865E-07 | 14: delta_r/delta_0: 3.1385E-08 | 15: delta_s/delta_0: 5.6331E-11 | Reached bicg-stab tolerance | BP delta = 6.6922151E-02 0.1809642 3003559.75745543 | BP delta = 6.6922151E-02 0.1873115 3003553.34217238 | BP chisq diff = -6.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52155761 | --> Sampling calibration, mode = relcal | relcal = -5.1137105E-02 -3.6680466E-03 2.7405711E-02 2.7399439E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7776305E-04 2.0216871E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0748E-05 | 2: delta_r/delta_0: 4.0842E-06 | 3: delta_s/delta_0: 2.3482E-06 | 4: delta_r/delta_0: 2.9915E-07 | 5: delta_s/delta_0: 7.1773E-08 | 6: delta_r/delta_0: 2.7252E-08 | 7: delta_s/delta_0: 4.8769E-07 | 8: delta_r/delta_0: 9.9883E-08 | 9: delta_s/delta_0: 3.5363E-09 | 10: delta_r/delta_0: 1.9823E-09 | 11: delta_s/delta_0: 9.4186E-08 | 12: delta_r/delta_0: 9.4512E-10 | 13: delta_s/delta_0: 4.0513E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.094723380754802E-002 5.483476013230776E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.0748E-05 | 2: delta_r/delta_0: 4.0842E-06 | 3: delta_s/delta_0: 2.3482E-06 | 4: delta_r/delta_0: 2.9915E-07 | 5: delta_s/delta_0: 7.1773E-08 | 6: delta_r/delta_0: 2.7252E-08 | 7: delta_s/delta_0: 4.8769E-07 | 8: delta_r/delta_0: 9.9883E-08 | 9: delta_s/delta_0: 3.5363E-09 | 10: delta_r/delta_0: 1.9823E-09 | 11: delta_s/delta_0: 9.4193E-08 | 12: delta_r/delta_0: 9.4524E-10 | 13: delta_s/delta_0: 4.0513E-11 | Reached bicg-stab tolerance | BP delta = 0.1047714 0.1945506 2435162.92623432 | BP delta = 0.1047714 0.1962442 2435162.84706887 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42149960 | --> Sampling calibration, mode = relcal | relcal = 4.5556512E-02 3.9574880E-02 -2.8211612E-02 -5.6919780E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2634998E-03 2.9103602E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6981E-05 | 2: delta_r/delta_0: 3.3663E-06 | 3: delta_s/delta_0: 1.9433E-06 | 4: delta_r/delta_0: 2.5943E-07 | 5: delta_s/delta_0: 6.6588E-08 | 6: delta_r/delta_0: 3.5094E-08 | 7: delta_s/delta_0: 3.1344E-07 | 8: delta_r/delta_0: 3.8584E-09 | 9: delta_s/delta_0: 2.9198E-09 | 10: delta_r/delta_0: 1.2320E-09 | 11: delta_s/delta_0: 6.1139E-09 | 12: delta_r/delta_0: 1.9060E-09 | 13: delta_s/delta_0: 2.7123E-10 | 14: delta_r/delta_0: 6.3994E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.417538790587678E-002 4.996484923595865E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6981E-05 | 2: delta_r/delta_0: 3.3663E-06 | 3: delta_s/delta_0: 1.9433E-06 | 4: delta_r/delta_0: 2.5943E-07 | 5: delta_s/delta_0: 6.6588E-08 | 6: delta_r/delta_0: 3.5094E-08 | 7: delta_s/delta_0: 3.1343E-07 | 8: delta_r/delta_0: 3.8584E-09 | 9: delta_s/delta_0: 2.9197E-09 | 10: delta_r/delta_0: 1.2320E-09 | 11: delta_s/delta_0: 6.1154E-09 | 12: delta_r/delta_0: 1.9061E-09 | 13: delta_s/delta_0: 2.7125E-10 | 14: delta_r/delta_0: 6.4021E-11 | Reached bicg-stab tolerance | BP delta = 5.1093444E-02 -4.8216309E-02 2321977.04836080 | BP delta = 5.1093444E-02 -4.7400866E-02 2321974.13774137 | BP chisq diff = -2.9, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28166097 | --> Sampling calibration, mode = relcal | relcal = 2.4222145E-02 4.5225043E-02 -2.3499282E-02 -4.5947906E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2160068E-03 3.0251723E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0623E-04 | 2: delta_r/delta_0: 8.4878E-06 | 3: delta_s/delta_0: 1.3381E-06 | 4: delta_r/delta_0: 1.9064E-07 | 5: delta_s/delta_0: 6.2630E-08 | 6: delta_r/delta_0: 1.6916E-08 | 7: delta_s/delta_0: 8.7444E-09 | 8: delta_r/delta_0: 5.7607E-09 | 9: delta_s/delta_0: 4.4694E-07 | 10: delta_r/delta_0: 8.6218E-09 | 11: delta_s/delta_0: 1.7099E-09 | 12: delta_r/delta_0: 8.3617E-10 | 13: delta_s/delta_0: 1.3752E-10 | 14: delta_r/delta_0: 1.0090E-10 | 15: delta_s/delta_0: 8.5916E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.047559261617921E-002 7.842803425414339E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0623E-04 | 2: delta_r/delta_0: 8.4878E-06 | 3: delta_s/delta_0: 1.3381E-06 | 4: delta_r/delta_0: 1.9063E-07 | 5: delta_s/delta_0: 6.2631E-08 | 6: delta_r/delta_0: 1.6916E-08 | 7: delta_s/delta_0: 8.7442E-09 | 8: delta_r/delta_0: 5.7606E-09 | 9: delta_s/delta_0: 4.4694E-07 | 10: delta_r/delta_0: 8.6218E-09 | 11: delta_s/delta_0: 1.7099E-09 | 12: delta_r/delta_0: 8.3616E-10 | 13: delta_s/delta_0: 1.3752E-10 | 14: delta_r/delta_0: 1.0090E-10 | 15: delta_s/delta_0: 8.5900E-11 | Reached bicg-stab tolerance | BP delta = -0.2458979 -0.3995245 2489887.94533689 | BP delta = -0.2458979 -0.3924602 2489889.54820600 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29395122 | --> Sampling calibration, mode = relcal | relcal = 5.6574203E-04 1.0266244E-02 -3.8406074E-03 -6.9913790E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4863075E-02 1.8021572E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2999E-04 | 2: delta_r/delta_0: 1.0964E-05 | 3: delta_s/delta_0: 1.7289E-06 | 4: delta_r/delta_0: 2.9651E-07 | 5: delta_s/delta_0: 1.0910E-07 | 6: delta_r/delta_0: 2.3023E-08 | 7: delta_s/delta_0: 1.0436E-08 | 8: delta_r/delta_0: 7.0068E-09 | 9: delta_s/delta_0: 7.3859E-09 | 10: delta_r/delta_0: 4.7017E-09 | 11: delta_s/delta_0: 8.2764E-08 | 12: delta_r/delta_0: 2.5622E-09 | 13: delta_s/delta_0: 2.8896E-09 | 14: delta_r/delta_0: 1.2157E-09 | 15: delta_s/delta_0: 9.4199E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.021884528072712E-002 8.305737598125754E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2999E-04 | 2: delta_r/delta_0: 1.0964E-05 | 3: delta_s/delta_0: 1.7289E-06 | 4: delta_r/delta_0: 2.9650E-07 | 5: delta_s/delta_0: 1.0908E-07 | 6: delta_r/delta_0: 2.3023E-08 | 7: delta_s/delta_0: 1.0436E-08 | 8: delta_r/delta_0: 7.0068E-09 | 9: delta_s/delta_0: 7.3860E-09 | 10: delta_r/delta_0: 4.7017E-09 | 11: delta_s/delta_0: 8.2823E-08 | 12: delta_r/delta_0: 2.5679E-09 | 13: delta_s/delta_0: 2.9025E-09 | 14: delta_r/delta_0: 1.2228E-09 | 15: delta_s/delta_0: 9.4243E-11 | Reached bicg-stab tolerance | BP delta = -0.8037840 -0.7578103 2738345.06962658 | BP delta = -0.8037840 -0.7754623 2738351.72172258 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26505668 | --> Sampling calibration, mode = relcal | relcal = -5.6041805E-03 1.5008017E-02 -2.2766856E-03 -7.1271514E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5634671E-04 3.5395718E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4166E-04 | 2: delta_r/delta_0: 1.2152E-05 | 3: delta_s/delta_0: 2.0678E-06 | 4: delta_r/delta_0: 2.6920E-07 | 5: delta_s/delta_0: 1.1490E-07 | 6: delta_r/delta_0: 2.3121E-08 | 7: delta_s/delta_0: 9.5295E-09 | 8: delta_r/delta_0: 6.1931E-09 | 9: delta_s/delta_0: 6.9006E-09 | 10: delta_r/delta_0: 4.4568E-09 | 11: delta_s/delta_0: 4.6616E-06 | 12: delta_r/delta_0: 4.1220E-07 | 13: delta_s/delta_0: 5.6964E-10 | 14: delta_r/delta_0: 3.7192E-10 | 15: delta_s/delta_0: 1.0816E-10 | 16: delta_r/delta_0: 8.3924E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.009573860627187E-003 9.153927615255355E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4166E-04 | 2: delta_r/delta_0: 1.2152E-05 | 3: delta_s/delta_0: 2.0678E-06 | 4: delta_r/delta_0: 2.6921E-07 | 5: delta_s/delta_0: 1.1490E-07 | 6: delta_r/delta_0: 2.3121E-08 | 7: delta_s/delta_0: 9.5299E-09 | 8: delta_r/delta_0: 6.1933E-09 | 9: delta_s/delta_0: 6.9009E-09 | 10: delta_r/delta_0: 4.4569E-09 | 11: delta_s/delta_0: 4.6558E-06 | 12: delta_r/delta_0: 4.1168E-07 | 13: delta_s/delta_0: 5.6924E-10 | 14: delta_r/delta_0: 3.7172E-10 | 15: delta_s/delta_0: 1.0819E-10 | 16: delta_r/delta_0: 8.3938E-11 | Reached bicg-stab tolerance | BP delta = 0.3431881 0.3875892 2516559.00019571 | BP delta = 0.3431881 0.3748104 2516559.26669324 | BP chisq diff = 0.3, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25670585 | --> Sampling calibration, mode = relcal | relcal = -3.1691417E-02 -2.5995443E-02 3.6995549E-02 2.0691307E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3483576E-02 1.8686334E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5225E-04 | 2: delta_r/delta_0: 1.1145E-05 | 3: delta_s/delta_0: 1.1769E-05 | 4: delta_r/delta_0: 8.7587E-07 | 5: delta_s/delta_0: 1.2891E-07 | 6: delta_r/delta_0: 2.5880E-08 | 7: delta_s/delta_0: 2.3495E-08 | 8: delta_r/delta_0: 9.0023E-09 | 9: delta_s/delta_0: 8.9045E-08 | 10: delta_r/delta_0: 1.0594E-09 | 11: delta_s/delta_0: 1.6812E-08 | 12: delta_r/delta_0: 6.0671E-09 | 13: delta_s/delta_0: 6.6556E-10 | 14: delta_r/delta_0: 1.8753E-10 | 15: delta_s/delta_0: 1.3909E-10 | 16: delta_r/delta_0: 1.0704E-10 | 17: delta_s/delta_0: 1.4354E-10 | 18: delta_r/delta_0: 7.2595E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.179816963078174E-002 8.669341558191554E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5225E-04 | 2: delta_r/delta_0: 1.1145E-05 | 3: delta_s/delta_0: 1.1770E-05 | 4: delta_r/delta_0: 8.7592E-07 | 5: delta_s/delta_0: 1.2891E-07 | 6: delta_r/delta_0: 2.5877E-08 | 7: delta_s/delta_0: 2.3490E-08 | 8: delta_r/delta_0: 9.0019E-09 | 9: delta_s/delta_0: 8.9157E-08 | 10: delta_r/delta_0: 1.0591E-09 | 11: delta_s/delta_0: 1.6809E-08 | 12: delta_r/delta_0: 6.0663E-09 | 13: delta_s/delta_0: 6.6536E-10 | 14: delta_r/delta_0: 1.8755E-10 | 15: delta_s/delta_0: 1.3909E-10 | 16: delta_r/delta_0: 1.0707E-10 | 17: delta_s/delta_0: 1.4353E-10 | 18: delta_r/delta_0: 7.2637E-11 | Reached bicg-stab tolerance | BP delta = -0.8076026 -0.9656542 2706496.96048018 | BP delta = -0.8076026 -0.9807319 2706468.34910471 | BP chisq diff = -28.6, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.080073 | New value = -3.145908 | poltype: 2 pol: 1 CPU time specind = 1.6909838E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146222 | New value = -3.160735 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.151285 | New value = -3.214610 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094600 | New value = -3.163623 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191803 | New value = -3.023374 | poltype: 2 pol: 2 CPU time specind = 4.1918755E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.13610E+08, tol = 0.74966E+01, time = 5.38 | CG iter. 2 -- res = 0.36263E+06, tol = 0.74966E+01, time = 5.30 | CG iter. 3 -- res = 0.82045E+05, tol = 0.74966E+01, time = 5.44 | CG iter. 4 -- res = 0.83177E+05, tol = 0.74966E+01, time = 5.39 | CG iter. 5 -- res = 0.89627E+05, tol = 0.74966E+01, time = 5.43 | CG iter. 6 -- res = 0.86462E+05, tol = 0.74966E+01, time = 5.58 | CG iter. 7 -- res = 0.77391E+05, tol = 0.74966E+01, time = 5.35 | CG iter. 8 -- res = 0.57824E+05, tol = 0.74966E+01, time = 5.47 | CG iter. 9 -- res = 0.46495E+05, tol = 0.74966E+01, time = 6.17 | CG iter. 10 -- res = 0.38048E+05, tol = 0.74966E+01, time = 6.37 | CG iter. 11 -- res = 0.26248E+05, tol = 0.74966E+01, time = 6.05 | CG iter. 12 -- res = 0.19378E+05, tol = 0.74966E+01, time = 5.44 | CG iter. 13 -- res = 0.16339E+05, tol = 0.74966E+01, time = 5.56 | CG iter. 14 -- res = 0.14013E+05, tol = 0.74966E+01, time = 5.47 | CG iter. 15 -- res = 0.11109E+05, tol = 0.74966E+01, time = 5.66 | CG iter. 16 -- res = 0.77671E+04, tol = 0.74966E+01, time = 5.43 | CG iter. 17 -- res = 0.55857E+04, tol = 0.74966E+01, time = 5.45 | CG iter. 18 -- res = 0.47762E+04, tol = 0.74966E+01, time = 5.51 | CG iter. 19 -- res = 0.41904E+04, tol = 0.74966E+01, time = 5.56 | CG iter. 20 -- res = 0.33861E+04, tol = 0.74966E+01, time = 5.45 | CG iter. 21 -- res = 0.25552E+04, tol = 0.74966E+01, time = 5.46 | CG iter. 22 -- res = 0.20347E+04, tol = 0.74966E+01, time = 5.58 | CG iter. 23 -- res = 0.17597E+04, tol = 0.74966E+01, time = 5.45 | CG iter. 24 -- res = 0.14247E+04, tol = 0.74966E+01, time = 5.74 | CG iter. 25 -- res = 0.10566E+04, tol = 0.74966E+01, time = 5.78 | CG iter. 26 -- res = 0.84127E+03, tol = 0.74966E+01, time = 5.40 | CG iter. 27 -- res = 0.78174E+03, tol = 0.74966E+01, time = 5.69 | CG iter. 28 -- res = 0.69475E+03, tol = 0.74966E+01, time = 5.52 | CG iter. 29 -- res = 0.55340E+03, tol = 0.74966E+01, time = 6.50 | CG iter. 30 -- res = 0.44038E+03, tol = 0.74966E+01, time = 5.56 | CG iter. 31 -- res = 0.37395E+03, tol = 0.74966E+01, time = 5.46 | CG iter. 32 -- res = 0.32972E+03, tol = 0.74966E+01, time = 5.86 | CG iter. 33 -- res = 0.26751E+03, tol = 0.74966E+01, time = 5.60 | CG iter. 34 -- res = 0.20615E+03, tol = 0.74966E+01, time = 5.48 | CG iter. 35 -- res = 0.17249E+03, tol = 0.74966E+01, time = 5.41 | CG iter. 36 -- res = 0.15455E+03, tol = 0.74966E+01, time = 5.43 | CG iter. 37 -- res = 0.12491E+03, tol = 0.74966E+01, time = 5.66 | CG iter. 38 -- res = 0.95010E+02, tol = 0.74966E+01, time = 5.70 | CG iter. 39 -- res = 0.73330E+02, tol = 0.74966E+01, time = 5.92 | CG iter. 40 -- res = 0.65297E+02, tol = 0.74966E+01, time = 5.62 | CG iter. 41 -- res = 0.52878E+02, tol = 0.74966E+01, time = 5.54 | CG iter. 42 -- res = 0.40469E+02, tol = 0.74966E+01, time = 5.43 | CG iter. 43 -- res = 0.32012E+02, tol = 0.74966E+01, time = 5.33 | CG iter. 44 -- res = 0.26625E+02, tol = 0.74966E+01, time = 5.38 | CG iter. 45 -- res = 0.21508E+02, tol = 0.74966E+01, time = 5.29 | CG iter. 46 -- res = 0.16801E+02, tol = 0.74966E+01, time = 10.22 | CG iter. 47 -- res = 0.12785E+02, tol = 0.74966E+01, time = 7.27 | CG iter. 48 -- res = 0.10306E+02, tol = 0.74966E+01, time = 5.45 | CG iter. 49 -- res = 0.85107E+01, tol = 0.74966E+01, time = 5.41 | CG iter. 50 -- res = 0.66920E+01, tol = 0.74966E+01, time = 5.80 | Final CG iter 51 -- res = 0.66920E+01, tol = 0.74966E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6423618.005 | Old band monopole 9603576.456 | Change to band monopole -3179958.452 | Change to component monopole 3179944.774 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.27105E+05, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.61443E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.19367E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.51329E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.17437E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6423590.376 | (Sampled value in CG: 6352163.170 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504404 | New value = 1.557250 | poltype: 2 pol: 1 CPU time specind = 1.3448954E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.529155 | New value = 1.501219 | poltype: 2 pol: 2 CPU time specind = 3.6127090E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.34 | CG iter. 1 -- res = 0.24612E+08, tol = 0.47676E+04, time = 6.52 | CG iter. 2 -- res = 0.53665E+07, tol = 0.47676E+04, time = 6.13 | CG iter. 3 -- res = 0.83748E+06, tol = 0.47676E+04, time = 6.57 | CG iter. 4 -- res = 0.35016E+06, tol = 0.47676E+04, time = 6.49 | CG iter. 5 -- res = 0.15099E+06, tol = 0.47676E+04, time = 6.23 | CG iter. 6 -- res = 0.78995E+05, tol = 0.47676E+04, time = 6.10 | CG iter. 7 -- res = 0.43673E+05, tol = 0.47676E+04, time = 6.28 | CG iter. 8 -- res = 0.21371E+05, tol = 0.47676E+04, time = 6.15 | CG iter. 9 -- res = 0.92798E+04, tol = 0.47676E+04, time = 6.46 | CG iter. 10 -- res = 0.37592E+04, tol = 0.47676E+04, time = 6.23 | CG iter. 11 -- res = 0.17044E+04, tol = 0.47676E+04, time = 6.34 | CG iter. 12 -- res = 0.87074E+03, tol = 0.47676E+04, time = 6.37 | CG iter. 13 -- res = 0.49198E+03, tol = 0.47676E+04, time = 6.27 | CG iter. 14 -- res = 0.28341E+03, tol = 0.47676E+04, time = 6.06 | CG iter. 15 -- res = 0.14689E+03, tol = 0.47676E+04, time = 6.28 | CG iter. 16 -- res = 0.69247E+02, tol = 0.47676E+04, time = 6.34 | CG iter. 17 -- res = 0.32062E+02, tol = 0.47676E+04, time = 6.30 | CG iter. 18 -- res = 0.15974E+02, tol = 0.47676E+04, time = 6.29 | CG iter. 19 -- res = 0.86799E+01, tol = 0.47676E+04, time = 6.34 | CG iter. 20 -- res = 0.49788E+01, tol = 0.47676E+04, time = 6.28 | CG iter. 21 -- res = 0.27537E+01, tol = 0.47676E+04, time = 6.31 | CG iter. 22 -- res = 0.14171E+01, tol = 0.47676E+04, time = 6.21 | CG iter. 23 -- res = 0.70384E+00, tol = 0.47676E+04, time = 6.14 | CG iter. 24 -- res = 0.35120E+00, tol = 0.47676E+04, time = 6.23 | CG iter. 25 -- res = 0.19169E+00, tol = 0.47676E+04, time = 7.91 | CG iter. 26 -- res = 0.11059E+00, tol = 0.47676E+04, time = 10.86 | CG iter. 27 -- res = 0.62361E-01, tol = 0.47676E+04, time = 6.50 | CG iter. 28 -- res = 0.33207E-01, tol = 0.47676E+04, time = 6.20 | CG iter. 29 -- res = 0.17493E-01, tol = 0.47676E+04, time = 5.96 | CG iter. 30 -- res = 0.91902E-02, tol = 0.47676E+04, time = 6.22 | CG iter. 31 -- res = 0.50048E-02, tol = 0.47676E+04, time = 6.45 | CG iter. 32 -- res = 0.28173E-02, tol = 0.47676E+04, time = 5.77 | CG iter. 33 -- res = 0.15842E-02, tol = 0.47676E+04, time = 6.02 | CG iter. 34 -- res = 0.85322E-03, tol = 0.47676E+04, time = 5.99 | CG iter. 35 -- res = 0.44531E-03, tol = 0.47676E+04, time = 6.29 | Final CG iter 36 -- res = 0.44531E-03, tol = 0.47676E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.423 2.760 | New value -2.529 | Old value -0.423 | Difference -2.105 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.23898E+06, tol = 0.47627E+18, time = 2.11 | CG iter. 2 -- res = 0.76800E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.19716E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.18044E-02, tol = 0.47627E+18, time = 1.76 | Final CG iter 5 -- res = 0.34242E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6423590.376 | (Sampled value in CG: 6352326.285 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.695137 | New value = -3.728940 | poltype: 1 pol: 1 CPU time specind = 1.2340069E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.36314E+07, tol = 0.25138E+01, time = 2.75 | CG iter. 2 -- res = 0.11337E+07, tol = 0.25138E+01, time = 2.66 | CG iter. 3 -- res = 0.27006E+06, tol = 0.25138E+01, time = 2.62 | CG iter. 4 -- res = 0.15568E+06, tol = 0.25138E+01, time = 2.41 | CG iter. 5 -- res = 0.89219E+05, tol = 0.25138E+01, time = 2.45 | CG iter. 6 -- res = 0.33521E+05, tol = 0.25138E+01, time = 2.80 | CG iter. 7 -- res = 0.10761E+05, tol = 0.25138E+01, time = 2.62 | CG iter. 8 -- res = 0.47515E+04, tol = 0.25138E+01, time = 2.53 | CG iter. 9 -- res = 0.22628E+04, tol = 0.25138E+01, time = 2.87 | CG iter. 10 -- res = 0.91267E+03, tol = 0.25138E+01, time = 2.30 | CG iter. 11 -- res = 0.38721E+03, tol = 0.25138E+01, time = 2.55 | CG iter. 12 -- res = 0.19486E+03, tol = 0.25138E+01, time = 2.61 | CG iter. 13 -- res = 0.96647E+02, tol = 0.25138E+01, time = 2.45 | CG iter. 14 -- res = 0.45145E+02, tol = 0.25138E+01, time = 2.81 | CG iter. 15 -- res = 0.18828E+02, tol = 0.25138E+01, time = 4.15 | CG iter. 16 -- res = 0.75350E+01, tol = 0.25138E+01, time = 2.89 | CG iter. 17 -- res = 0.34674E+01, tol = 0.25138E+01, time = 2.85 | CG iter. 18 -- res = 0.17713E+01, tol = 0.25138E+01, time = 2.70 | CG iter. 19 -- res = 0.84467E+00, tol = 0.25138E+01, time = 2.78 | CG iter. 20 -- res = 0.40162E+00, tol = 0.25138E+01, time = 2.51 | CG iter. 21 -- res = 0.17886E+00, tol = 0.25138E+01, time = 2.59 | CG iter. 22 -- res = 0.80864E-01, tol = 0.25138E+01, time = 2.32 | CG iter. 23 -- res = 0.36738E-01, tol = 0.25138E+01, time = 2.56 | CG iter. 24 -- res = 0.18252E-01, tol = 0.25138E+01, time = 2.53 | CG iter. 25 -- res = 0.96247E-02, tol = 0.25138E+01, time = 2.63 | CG iter. 26 -- res = 0.47989E-02, tol = 0.25138E+01, time = 2.56 | CG iter. 27 -- res = 0.22656E-02, tol = 0.25138E+01, time = 2.49 | CG iter. 28 -- res = 0.10198E-02, tol = 0.25138E+01, time = 2.35 | CG iter. 29 -- res = 0.46059E-03, tol = 0.25138E+01, time = 2.86 | CG iter. 30 -- res = 0.23071E-03, tol = 0.25138E+01, time = 2.64 | CG iter. 31 -- res = 0.11571E-03, tol = 0.25138E+01, time = 2.28 | CG iter. 32 -- res = 0.59830E-04, tol = 0.25138E+01, time = 2.66 | CG iter. 33 -- res = 0.27124E-04, tol = 0.25138E+01, time = 2.78 | CG iter. 34 -- res = 0.12516E-04, tol = 0.25138E+01, time = 2.62 | CG iter. 35 -- res = 0.58444E-05, tol = 0.25138E+01, time = 2.59 | CG iter. 36 -- res = 0.29187E-05, tol = 0.25138E+01, time = 2.88 | CG iter. 37 -- res = 0.14212E-05, tol = 0.25138E+01, time = 2.40 | CG iter. 38 -- res = 0.71400E-06, tol = 0.25138E+01, time = 2.71 | CG iter. 39 -- res = 0.33606E-06, tol = 0.25138E+01, time = 2.75 | CG iter. 40 -- res = 0.14420E-06, tol = 0.25138E+01, time = 2.50 | CG iter. 41 -- res = 0.67697E-07, tol = 0.25138E+01, time = 2.60 | CG iter. 42 -- res = 0.33732E-07, tol = 0.25138E+01, time = 2.44 | CG iter. 43 -- res = 0.15948E-07, tol = 0.25138E+01, time = 2.75 | CG iter. 44 -- res = 0.77683E-08, tol = 0.25138E+01, time = 2.57 | CG iter. 45 -- res = 0.35723E-08, tol = 0.25138E+01, time = 2.48 | CG iter. 46 -- res = 0.16588E-08, tol = 0.25138E+01, time = 2.70 | CG iter. 47 -- res = 0.77903E-09, tol = 0.25138E+01, time = 2.64 | CG iter. 48 -- res = 0.38840E-09, tol = 0.25138E+01, time = 2.54 | CG iter. 49 -- res = 0.19208E-09, tol = 0.25138E+01, time = 2.51 | CG iter. 50 -- res = 0.90589E-10, tol = 0.25138E+01, time = 2.47 | Final CG iter 51 -- res = 0.90589E-10, tol = 0.25138E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -11.476 5.719 | New value 1.160 | Old value -11.476 | Difference 12.637 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.15366E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.92114E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.34389E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.11013E-01, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.18533E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6423590.376 | (Sampled value in CG: 6378071.843 ) | CPU time specind = 1156.787 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.70135E+08, tol = 0.58004E+04, time = 11.04 | CG iter. 2 -- res = 0.59595E+08, tol = 0.58004E+04, time = 11.23 | CG iter. 3 -- res = 0.16087E+08, tol = 0.58004E+04, time = 17.25 | CG iter. 4 -- res = 0.69538E+07, tol = 0.58004E+04, time = 12.84 | CG iter. 5 -- res = 0.42175E+07, tol = 0.58004E+04, time = 11.33 | CG iter. 6 -- res = 0.25035E+07, tol = 0.58004E+04, time = 11.10 | CG iter. 7 -- res = 0.14304E+07, tol = 0.58004E+04, time = 11.26 | CG iter. 8 -- res = 0.93549E+06, tol = 0.58004E+04, time = 11.06 | CG iter. 9 -- res = 0.62196E+06, tol = 0.58004E+04, time = 11.08 | CG iter. 10 -- res = 0.38030E+06, tol = 0.58004E+04, time = 11.46 | CG iter. 11 -- res = 0.21723E+06, tol = 0.58004E+04, time = 13.12 | CG iter. 12 -- res = 0.12276E+06, tol = 0.58004E+04, time = 11.84 | CG iter. 13 -- res = 0.71990E+05, tol = 0.58004E+04, time = 11.02 | CG iter. 14 -- res = 0.49362E+05, tol = 0.58004E+04, time = 11.26 | CG iter. 15 -- res = 0.39451E+05, tol = 0.58004E+04, time = 11.39 | CG iter. 16 -- res = 0.34565E+05, tol = 0.58004E+04, time = 10.80 | CG iter. 17 -- res = 0.32380E+05, tol = 0.58004E+04, time = 11.14 | CG iter. 18 -- res = 0.30146E+05, tol = 0.58004E+04, time = 11.13 | CG iter. 19 -- res = 0.27057E+05, tol = 0.58004E+04, time = 11.56 | CG iter. 20 -- res = 0.25081E+05, tol = 0.58004E+04, time = 12.19 | CG iter. 21 -- res = 0.24059E+05, tol = 0.58004E+04, time = 11.67 | CG iter. 22 -- res = 0.24282E+05, tol = 0.58004E+04, time = 11.55 | CG iter. 23 -- res = 0.24144E+05, tol = 0.58004E+04, time = 10.86 | CG iter. 24 -- res = 0.22995E+05, tol = 0.58004E+04, time = 11.34 | CG iter. 25 -- res = 0.19859E+05, tol = 0.58004E+04, time = 11.33 | CG iter. 26 -- res = 0.15110E+05, tol = 0.58004E+04, time = 10.78 | CG iter. 27 -- res = 0.10678E+05, tol = 0.58004E+04, time = 10.92 | CG iter. 28 -- res = 0.80655E+04, tol = 0.58004E+04, time = 11.23 | CG iter. 29 -- res = 0.65854E+04, tol = 0.58004E+04, time = 18.15 | CG iter. 30 -- res = 0.57416E+04, tol = 0.58004E+04, time = 10.92 | CG iter. 31 -- res = 0.51415E+04, tol = 0.58004E+04, time = 11.50 | CG iter. 32 -- res = 0.47155E+04, tol = 0.58004E+04, time = 11.33 | CG iter. 33 -- res = 0.41397E+04, tol = 0.58004E+04, time = 10.98 | CG iter. 34 -- res = 0.34794E+04, tol = 0.58004E+04, time = 11.74 | CG iter. 35 -- res = 0.29886E+04, tol = 0.58004E+04, time = 11.36 | CG iter. 36 -- res = 0.27507E+04, tol = 0.58004E+04, time = 10.72 | CG iter. 37 -- res = 0.26703E+04, tol = 0.58004E+04, time = 13.15 | CG iter. 38 -- res = 0.24453E+04, tol = 0.58004E+04, time = 11.55 | CG iter. 39 -- res = 0.21219E+04, tol = 0.58004E+04, time = 11.22 | CG iter. 40 -- res = 0.17502E+04, tol = 0.58004E+04, time = 11.44 | CG iter. 41 -- res = 0.13771E+04, tol = 0.58004E+04, time = 11.33 | CG iter. 42 -- res = 0.11142E+04, tol = 0.58004E+04, time = 11.09 | CG iter. 43 -- res = 0.94884E+03, tol = 0.58004E+04, time = 11.07 | CG iter. 44 -- res = 0.84819E+03, tol = 0.58004E+04, time = 11.68 | CG iter. 45 -- res = 0.78666E+03, tol = 0.58004E+04, time = 11.14 | CG iter. 46 -- res = 0.71609E+03, tol = 0.58004E+04, time = 11.60 | CG iter. 47 -- res = 0.64338E+03, tol = 0.58004E+04, time = 11.56 | CG iter. 48 -- res = 0.56105E+03, tol = 0.58004E+04, time = 10.78 | CG iter. 49 -- res = 0.49065E+03, tol = 0.58004E+04, time = 11.05 | CG iter. 50 -- res = 0.44574E+03, tol = 0.58004E+04, time = 11.27 | CG iter. 51 -- res = 0.41724E+03, tol = 0.58004E+04, time = 10.98 | CG iter. 52 -- res = 0.39362E+03, tol = 0.58004E+04, time = 11.08 | CG iter. 53 -- res = 0.35436E+03, tol = 0.58004E+04, time = 11.67 | CG iter. 54 -- res = 0.30862E+03, tol = 0.58004E+04, time = 11.32 | CG iter. 55 -- res = 0.26472E+03, tol = 0.58004E+04, time = 17.57 | CG iter. 56 -- res = 0.22046E+03, tol = 0.58004E+04, time = 11.19 | CG iter. 57 -- res = 0.18903E+03, tol = 0.58004E+04, time = 10.95 | CG iter. 58 -- res = 0.17119E+03, tol = 0.58004E+04, time = 10.88 | CG iter. 59 -- res = 0.16213E+03, tol = 0.58004E+04, time = 11.54 | CG iter. 60 -- res = 0.15223E+03, tol = 0.58004E+04, time = 10.89 | Final CG iter 61 -- res = 0.15223E+03, tol = 0.58004E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.824 ( -229.777 -2231.182 2513.920 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11463627.630 | Old band monopole 6423618.005 | Change to band monopole 5040009.625 | Change to component monopole -5039987.947 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.554 2.724 | New value -3.564 | Old value -2.554 | Difference -1.009 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.020 ( 6.879 11.934 -11.653 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.978 4.586 | New value -4.120 | Old value 7.978 | Difference -12.098 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.88197E+06, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.29719E+03, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.44251E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.30980E-02, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.58348E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11463578.322 | (Sampled value in CG: 11446446.172 ) | Chain = 1 -- chisq = 0.81475821E+09 | Chain = 1 -- wall time = 17933.060 sec Available RAM: MemAvailable: 493389920 kB Available Swap: SwapFree: 1054193440 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 307 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444434 | --> Sampling calibration, mode = relcal | relcal = 1.3424930E-02 7.3517219E-04 -1.5789921E-03 -1.2581110E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191990 0.1256565 97041137.8616855 | BP delta = 0.1363877 0.1428451 97041149.1874137 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632363 | --> Sampling calibration, mode = relcal | relcal = -2.8201507E-03 -7.0369919E-04 1.6784426E-03 1.6125764E-03 -4.0753421E-04 6.4036512E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5595195 15214771.5601142 | BP delta = 0.0000000E+00 -0.5634893 15214774.9089688 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17941343690823 | --> Sampling calibration, mode = relcal | relcal = -7.4813232E-02 -5.8156285E-02 9.1576517E-02 4.1393004E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.2859501E-04 3.7759098E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0075E-05 | 2: delta_r/delta_0: 8.0633E-07 | 3: delta_s/delta_0: 2.4861E-07 | 4: delta_r/delta_0: 1.3329E-08 | 5: delta_s/delta_0: 4.1748E-09 | 6: delta_r/delta_0: 8.6264E-10 | 7: delta_s/delta_0: 2.3278E-09 | 8: delta_r/delta_0: 1.1991E-10 | 9: delta_s/delta_0: 6.0622E-10 | 10: delta_r/delta_0: 3.0999E-10 | 11: delta_s/delta_0: 9.9998E-10 | 12: delta_r/delta_0: 8.5226E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.552592870059738E-004 2.744782202620946E-005 | BP delta = 6.6799112E-02 8.7018199E-02 50481711.7387339 | BP delta = 7.2444476E-02 9.2663564E-02 50481711.2032227 | BP chisq diff = -0.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02598106 | --> Sampling calibration, mode = relcal | relcal = -0.1066947 -9.5524959E-02 0.1448834 5.7336282E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4490700E-03 1.4425039E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2784E-05 | 2: delta_r/delta_0: 1.2450E-06 | 3: delta_s/delta_0: 2.6564E-07 | 4: delta_r/delta_0: 4.6747E-08 | 5: delta_s/delta_0: 2.5448E-08 | 6: delta_r/delta_0: 7.3189E-09 | 7: delta_s/delta_0: 5.1258E-09 | 8: delta_r/delta_0: 1.9204E-09 | 9: delta_s/delta_0: 8.9743E-10 | 10: delta_r/delta_0: 6.7103E-10 | 11: delta_s/delta_0: 1.1486E-08 | 12: delta_r/delta_0: 2.1719E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.765975160908656E-003 2.810892577891171E-005 | BP delta = -0.3471044 -0.3182994 57395109.0142808 | BP delta = -0.3427054 -0.3139005 57395108.7675662 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81221917 | --> Sampling calibration, mode = relcal | relcal = 0.2954776 0.2248310 -0.2837735 -0.2365350 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.7191058E-04 5.1552858E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2768E-03 | 2: delta_r/delta_0: 3.0426E-05 | 3: delta_s/delta_0: 2.1666E-06 | 4: delta_r/delta_0: 5.0360E-07 | 5: delta_s/delta_0: 2.9254E-07 | 6: delta_r/delta_0: 1.4258E-07 | 7: delta_s/delta_0: 1.1668E-04 | 8: delta_r/delta_0: 1.6146E-05 | 9: delta_s/delta_0: 1.8951E-08 | 10: delta_r/delta_0: 7.6074E-09 | 11: delta_s/delta_0: 3.9065E-09 | 12: delta_r/delta_0: 7.2686E-10 | 13: delta_s/delta_0: 2.5598E-08 | 14: delta_r/delta_0: 1.5943E-08 | 15: delta_s/delta_0: 9.2058E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.417262524420206E-002 4.021771065692740E-005 | BP delta = -0.2872518 -0.3179809 72483865.3063895 | BP delta = -0.3184599 -0.3491890 72483866.4825901 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95914544 | --> Sampling calibration, mode = relcal | relcal = 0.1065499 0.1395677 -0.1102589 -0.1358587 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7552808E-03 1.2724100E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5004E-04 | 2: delta_r/delta_0: 1.3441E-05 | 3: delta_s/delta_0: 2.8973E-03 | 4: delta_r/delta_0: 1.2349E-04 | 5: delta_s/delta_0: 2.8885E-07 | 6: delta_r/delta_0: 1.3191E-07 | 7: delta_s/delta_0: 5.2292E-07 | 8: delta_r/delta_0: 3.5364E-08 | 9: delta_s/delta_0: 2.0655E-08 | 10: delta_r/delta_0: 1.9124E-09 | 11: delta_s/delta_0: 2.0702E-09 | 12: delta_r/delta_0: 1.0183E-09 | 13: delta_s/delta_0: 3.6401E-10 | 14: delta_r/delta_0: 7.1985E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.255719020485992E-002 3.697287473108430E-005 | BP delta = 6.6922151E-02 0.1873115 72784403.8259328 | BP delta = 8.7042727E-02 0.2074321 72784403.4749065 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145908 | New value = -3.127532 | poltype: 2 pol: 1 CPU time specind = 1.1834860E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160735 | New value = -3.129205 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.214610 | New value = -3.161154 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163623 | New value = -3.119396 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.023374 | New value = -3.241391 | poltype: 2 pol: 2 CPU time specind = 1.2824059E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.49 | CG iter. 1 -- res = 0.13560E+08, tol = 0.62271E+01, time = 8.18 | CG iter. 2 -- res = 0.34154E+06, tol = 0.62271E+01, time = 5.70 | CG iter. 3 -- res = 0.50313E+05, tol = 0.62271E+01, time = 5.86 | CG iter. 4 -- res = 0.22175E+05, tol = 0.62271E+01, time = 6.00 | CG iter. 5 -- res = 0.11051E+05, tol = 0.62271E+01, time = 5.89 | CG iter. 6 -- res = 0.59026E+04, tol = 0.62271E+01, time = 5.91 | CG iter. 7 -- res = 0.42622E+04, tol = 0.62271E+01, time = 5.84 | CG iter. 8 -- res = 0.31257E+04, tol = 0.62271E+01, time = 5.60 | CG iter. 9 -- res = 0.27170E+04, tol = 0.62271E+01, time = 5.97 | CG iter. 10 -- res = 0.29349E+04, tol = 0.62271E+01, time = 5.86 | CG iter. 11 -- res = 0.27152E+04, tol = 0.62271E+01, time = 5.90 | CG iter. 12 -- res = 0.19036E+04, tol = 0.62271E+01, time = 6.18 | CG iter. 13 -- res = 0.12537E+04, tol = 0.62271E+01, time = 5.85 | CG iter. 14 -- res = 0.90065E+03, tol = 0.62271E+01, time = 6.07 | CG iter. 15 -- res = 0.75018E+03, tol = 0.62271E+01, time = 7.42 | CG iter. 16 -- res = 0.61182E+03, tol = 0.62271E+01, time = 6.05 | CG iter. 17 -- res = 0.45553E+03, tol = 0.62271E+01, time = 6.35 | CG iter. 18 -- res = 0.35210E+03, tol = 0.62271E+01, time = 5.92 | CG iter. 19 -- res = 0.29292E+03, tol = 0.62271E+01, time = 5.96 | CG iter. 20 -- res = 0.24018E+03, tol = 0.62271E+01, time = 5.81 | CG iter. 21 -- res = 0.16442E+03, tol = 0.62271E+01, time = 6.45 | CG iter. 22 -- res = 0.11779E+03, tol = 0.62271E+01, time = 5.81 | CG iter. 23 -- res = 0.91052E+02, tol = 0.62271E+01, time = 5.89 | CG iter. 24 -- res = 0.73611E+02, tol = 0.62271E+01, time = 5.88 | CG iter. 25 -- res = 0.57306E+02, tol = 0.62271E+01, time = 5.72 | CG iter. 26 -- res = 0.39422E+02, tol = 0.62271E+01, time = 5.66 | CG iter. 27 -- res = 0.29803E+02, tol = 0.62271E+01, time = 6.21 | CG iter. 28 -- res = 0.23316E+02, tol = 0.62271E+01, time = 5.66 | CG iter. 29 -- res = 0.18327E+02, tol = 0.62271E+01, time = 5.80 | CG iter. 30 -- res = 0.12664E+02, tol = 0.62271E+01, time = 5.85 | CG iter. 31 -- res = 0.94025E+01, tol = 0.62271E+01, time = 5.61 | CG iter. 32 -- res = 0.75252E+01, tol = 0.62271E+01, time = 6.08 | CG iter. 33 -- res = 0.58421E+01, tol = 0.62271E+01, time = 6.19 | CG iter. 34 -- res = 0.42838E+01, tol = 0.62271E+01, time = 5.89 | CG iter. 35 -- res = 0.29890E+01, tol = 0.62271E+01, time = 6.48 | CG iter. 36 -- res = 0.22748E+01, tol = 0.62271E+01, time = 6.21 | CG iter. 37 -- res = 0.18392E+01, tol = 0.62271E+01, time = 5.93 | CG iter. 38 -- res = 0.14215E+01, tol = 0.62271E+01, time = 5.97 | CG iter. 39 -- res = 0.10108E+01, tol = 0.62271E+01, time = 5.96 | CG iter. 40 -- res = 0.78731E+00, tol = 0.62271E+01, time = 5.71 | CG iter. 41 -- res = 0.62161E+00, tol = 0.62271E+01, time = 5.69 | CG iter. 42 -- res = 0.46467E+00, tol = 0.62271E+01, time = 6.32 | CG iter. 43 -- res = 0.33859E+00, tol = 0.62271E+01, time = 6.09 | CG iter. 44 -- res = 0.24498E+00, tol = 0.62271E+01, time = 6.20 | CG iter. 45 -- res = 0.19048E+00, tol = 0.62271E+01, time = 5.68 | CG iter. 46 -- res = 0.14891E+00, tol = 0.62271E+01, time = 5.81 | CG iter. 47 -- res = 0.11233E+00, tol = 0.62271E+01, time = 5.64 | CG iter. 48 -- res = 0.80303E-01, tol = 0.62271E+01, time = 5.96 | CG iter. 49 -- res = 0.61803E-01, tol = 0.62271E+01, time = 6.76 | CG iter. 50 -- res = 0.48836E-01, tol = 0.62271E+01, time = 11.75 | Final CG iter 51 -- res = 0.48836E-01, tol = 0.62271E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10455782.835 | Old band monopole 11463627.630 | Change to band monopole -1007844.795 | Change to component monopole 1007840.460 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.62445E+05, tol = 0.47627E+18, time = 2.18 | CG iter. 2 -- res = 0.38679E+02, tol = 0.47627E+18, time = 2.28 | CG iter. 3 -- res = 0.18289E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.18066E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.28300E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10455737.863 | (Sampled value in CG: 10471391.029 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.557250 | New value = 1.516316 | poltype: 2 pol: 1 CPU time specind = 1.2058973E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501219 | New value = 1.496219 | poltype: 2 pol: 2 CPU time specind = 3.5650730E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.24372E+08, tol = 0.47539E+04, time = 6.86 | CG iter. 2 -- res = 0.53137E+07, tol = 0.47539E+04, time = 6.98 | CG iter. 3 -- res = 0.83981E+06, tol = 0.47539E+04, time = 6.43 | CG iter. 4 -- res = 0.36144E+06, tol = 0.47539E+04, time = 7.11 | CG iter. 5 -- res = 0.15960E+06, tol = 0.47539E+04, time = 6.79 | CG iter. 6 -- res = 0.83482E+05, tol = 0.47539E+04, time = 6.72 | CG iter. 7 -- res = 0.44497E+05, tol = 0.47539E+04, time = 6.94 | CG iter. 8 -- res = 0.20997E+05, tol = 0.47539E+04, time = 6.71 | CG iter. 9 -- res = 0.91408E+04, tol = 0.47539E+04, time = 6.82 | CG iter. 10 -- res = 0.38006E+04, tol = 0.47539E+04, time = 6.66 | CG iter. 11 -- res = 0.17638E+04, tol = 0.47539E+04, time = 7.55 | CG iter. 12 -- res = 0.90490E+03, tol = 0.47539E+04, time = 6.84 | CG iter. 13 -- res = 0.50171E+03, tol = 0.47539E+04, time = 6.88 | CG iter. 14 -- res = 0.27925E+03, tol = 0.47539E+04, time = 6.51 | CG iter. 15 -- res = 0.14157E+03, tol = 0.47539E+04, time = 6.74 | CG iter. 16 -- res = 0.66576E+02, tol = 0.47539E+04, time = 6.47 | CG iter. 17 -- res = 0.31187E+02, tol = 0.47539E+04, time = 6.82 | CG iter. 18 -- res = 0.15676E+02, tol = 0.47539E+04, time = 6.77 | CG iter. 19 -- res = 0.84042E+01, tol = 0.47539E+04, time = 6.59 | CG iter. 20 -- res = 0.47858E+01, tol = 0.47539E+04, time = 6.43 | CG iter. 21 -- res = 0.26599E+01, tol = 0.47539E+04, time = 6.76 | CG iter. 22 -- res = 0.13897E+01, tol = 0.47539E+04, time = 6.80 | CG iter. 23 -- res = 0.67312E+00, tol = 0.47539E+04, time = 6.64 | CG iter. 24 -- res = 0.34236E+00, tol = 0.47539E+04, time = 6.57 | CG iter. 25 -- res = 0.18714E+00, tol = 0.47539E+04, time = 6.53 | CG iter. 26 -- res = 0.10747E+00, tol = 0.47539E+04, time = 13.24 | CG iter. 27 -- res = 0.60952E-01, tol = 0.47539E+04, time = 6.35 | CG iter. 28 -- res = 0.32388E-01, tol = 0.47539E+04, time = 6.72 | CG iter. 29 -- res = 0.16820E-01, tol = 0.47539E+04, time = 6.55 | CG iter. 30 -- res = 0.87166E-02, tol = 0.47539E+04, time = 6.62 | CG iter. 31 -- res = 0.48658E-02, tol = 0.47539E+04, time = 6.43 | CG iter. 32 -- res = 0.27090E-02, tol = 0.47539E+04, time = 6.90 | CG iter. 33 -- res = 0.15181E-02, tol = 0.47539E+04, time = 6.93 | CG iter. 34 -- res = 0.81618E-03, tol = 0.47539E+04, time = 6.47 | CG iter. 35 -- res = 0.42394E-03, tol = 0.47539E+04, time = 6.50 | Final CG iter 36 -- res = 0.42394E-03, tol = 0.47539E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.552 2.728 | New value -2.130 | Old value -3.552 | Difference 1.423 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.10725E+06, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.16266E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.37478E+00, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.63841E-03, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.16860E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10455737.863 | (Sampled value in CG: 10471157.840 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.728940 | New value = -3.585857 | poltype: 1 pol: 1 CPU time specind = 1.1929989E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.23137E+07, tol = 0.28886E+01, time = 2.99 | CG iter. 2 -- res = 0.78119E+06, tol = 0.28886E+01, time = 3.18 | CG iter. 3 -- res = 0.16184E+06, tol = 0.28886E+01, time = 2.84 | CG iter. 4 -- res = 0.65148E+05, tol = 0.28886E+01, time = 2.83 | CG iter. 5 -- res = 0.37406E+05, tol = 0.28886E+01, time = 2.78 | CG iter. 6 -- res = 0.18376E+05, tol = 0.28886E+01, time = 2.73 | CG iter. 7 -- res = 0.71126E+04, tol = 0.28886E+01, time = 4.22 | CG iter. 8 -- res = 0.31525E+04, tol = 0.28886E+01, time = 3.27 | CG iter. 9 -- res = 0.13939E+04, tol = 0.28886E+01, time = 3.27 | CG iter. 10 -- res = 0.55648E+03, tol = 0.28886E+01, time = 3.10 | CG iter. 11 -- res = 0.23498E+03, tol = 0.28886E+01, time = 2.99 | CG iter. 12 -- res = 0.11499E+03, tol = 0.28886E+01, time = 2.90 | CG iter. 13 -- res = 0.60405E+02, tol = 0.28886E+01, time = 2.72 | CG iter. 14 -- res = 0.31050E+02, tol = 0.28886E+01, time = 2.94 | CG iter. 15 -- res = 0.14344E+02, tol = 0.28886E+01, time = 2.77 | CG iter. 16 -- res = 0.61534E+01, tol = 0.28886E+01, time = 3.10 | CG iter. 17 -- res = 0.25215E+01, tol = 0.28886E+01, time = 2.85 | CG iter. 18 -- res = 0.11450E+01, tol = 0.28886E+01, time = 3.03 | CG iter. 19 -- res = 0.57346E+00, tol = 0.28886E+01, time = 2.38 | CG iter. 20 -- res = 0.29993E+00, tol = 0.28886E+01, time = 2.58 | CG iter. 21 -- res = 0.15003E+00, tol = 0.28886E+01, time = 2.83 | CG iter. 22 -- res = 0.70329E-01, tol = 0.28886E+01, time = 2.90 | CG iter. 23 -- res = 0.31833E-01, tol = 0.28886E+01, time = 2.98 | CG iter. 24 -- res = 0.14027E-01, tol = 0.28886E+01, time = 2.77 | CG iter. 25 -- res = 0.69791E-02, tol = 0.28886E+01, time = 2.95 | CG iter. 26 -- res = 0.35757E-02, tol = 0.28886E+01, time = 3.15 | CG iter. 27 -- res = 0.18251E-02, tol = 0.28886E+01, time = 2.74 | CG iter. 28 -- res = 0.91051E-03, tol = 0.28886E+01, time = 3.04 | CG iter. 29 -- res = 0.40776E-03, tol = 0.28886E+01, time = 3.02 | CG iter. 30 -- res = 0.19281E-03, tol = 0.28886E+01, time = 2.84 | CG iter. 31 -- res = 0.92900E-04, tol = 0.28886E+01, time = 2.74 | CG iter. 32 -- res = 0.46875E-04, tol = 0.28886E+01, time = 2.89 | CG iter. 33 -- res = 0.23905E-04, tol = 0.28886E+01, time = 2.88 | CG iter. 34 -- res = 0.11816E-04, tol = 0.28886E+01, time = 2.88 | CG iter. 35 -- res = 0.55537E-05, tol = 0.28886E+01, time = 2.61 | CG iter. 36 -- res = 0.26275E-05, tol = 0.28886E+01, time = 3.11 | CG iter. 37 -- res = 0.12301E-05, tol = 0.28886E+01, time = 2.70 | CG iter. 38 -- res = 0.61251E-06, tol = 0.28886E+01, time = 2.81 | CG iter. 39 -- res = 0.31093E-06, tol = 0.28886E+01, time = 2.83 | CG iter. 40 -- res = 0.14644E-06, tol = 0.28886E+01, time = 2.84 | CG iter. 41 -- res = 0.72318E-07, tol = 0.28886E+01, time = 2.71 | CG iter. 42 -- res = 0.34181E-07, tol = 0.28886E+01, time = 3.00 | CG iter. 43 -- res = 0.14980E-07, tol = 0.28886E+01, time = 3.26 | CG iter. 44 -- res = 0.73623E-08, tol = 0.28886E+01, time = 3.51 | CG iter. 45 -- res = 0.35345E-08, tol = 0.28886E+01, time = 3.11 | CG iter. 46 -- res = 0.17353E-08, tol = 0.28886E+01, time = 3.12 | CG iter. 47 -- res = 0.86548E-09, tol = 0.28886E+01, time = 4.17 | CG iter. 48 -- res = 0.39570E-09, tol = 0.28886E+01, time = 3.09 | CG iter. 49 -- res = 0.17348E-09, tol = 0.28886E+01, time = 2.95 | CG iter. 50 -- res = 0.82080E-10, tol = 0.28886E+01, time = 2.94 | Final CG iter 51 -- res = 0.82080E-10, tol = 0.28886E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.834 4.004 | New value 1.927 | Old value -1.834 | Difference 3.761 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.13903E+05, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.23594E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.71059E+00, tol = 0.47627E+18, time = 2.64 | CG iter. 4 -- res = 0.13962E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.45162E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10455737.863 | (Sampled value in CG: 10471938.670 ) | CPU time specind = 1226.199 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.69374E+08, tol = 0.57631E+04, time = 13.13 | CG iter. 2 -- res = 0.59307E+08, tol = 0.57631E+04, time = 12.00 | CG iter. 3 -- res = 0.15967E+08, tol = 0.57631E+04, time = 11.85 | CG iter. 4 -- res = 0.66633E+07, tol = 0.57631E+04, time = 11.79 | CG iter. 5 -- res = 0.39072E+07, tol = 0.57631E+04, time = 12.41 | CG iter. 6 -- res = 0.22719E+07, tol = 0.57631E+04, time = 12.27 | CG iter. 7 -- res = 0.13430E+07, tol = 0.57631E+04, time = 15.12 | CG iter. 8 -- res = 0.87740E+06, tol = 0.57631E+04, time = 11.98 | CG iter. 9 -- res = 0.55450E+06, tol = 0.57631E+04, time = 11.78 | CG iter. 10 -- res = 0.32075E+06, tol = 0.57631E+04, time = 12.18 | CG iter. 11 -- res = 0.17375E+06, tol = 0.57631E+04, time = 12.05 | CG iter. 12 -- res = 0.92752E+05, tol = 0.57631E+04, time = 12.08 | CG iter. 13 -- res = 0.49692E+05, tol = 0.57631E+04, time = 12.33 | CG iter. 14 -- res = 0.28463E+05, tol = 0.57631E+04, time = 11.66 | CG iter. 15 -- res = 0.18212E+05, tol = 0.57631E+04, time = 12.17 | CG iter. 16 -- res = 0.12574E+05, tol = 0.57631E+04, time = 11.52 | CG iter. 17 -- res = 0.90460E+04, tol = 0.57631E+04, time = 12.03 | CG iter. 18 -- res = 0.63627E+04, tol = 0.57631E+04, time = 12.25 | CG iter. 19 -- res = 0.43376E+04, tol = 0.57631E+04, time = 12.23 | CG iter. 20 -- res = 0.29569E+04, tol = 0.57631E+04, time = 12.47 | CG iter. 21 -- res = 0.20983E+04, tol = 0.57631E+04, time = 11.85 | CG iter. 22 -- res = 0.16664E+04, tol = 0.57631E+04, time = 12.03 | CG iter. 23 -- res = 0.15194E+04, tol = 0.57631E+04, time = 11.98 | CG iter. 24 -- res = 0.15767E+04, tol = 0.57631E+04, time = 18.20 | CG iter. 25 -- res = 0.16820E+04, tol = 0.57631E+04, time = 11.95 | CG iter. 26 -- res = 0.16783E+04, tol = 0.57631E+04, time = 13.69 | CG iter. 27 -- res = 0.15801E+04, tol = 0.57631E+04, time = 12.26 | CG iter. 28 -- res = 0.14115E+04, tol = 0.57631E+04, time = 12.16 | CG iter. 29 -- res = 0.12362E+04, tol = 0.57631E+04, time = 12.20 | CG iter. 30 -- res = 0.11034E+04, tol = 0.57631E+04, time = 12.12 | CG iter. 31 -- res = 0.99349E+03, tol = 0.57631E+04, time = 14.42 | CG iter. 32 -- res = 0.86469E+03, tol = 0.57631E+04, time = 11.79 | CG iter. 33 -- res = 0.70782E+03, tol = 0.57631E+04, time = 12.14 | CG iter. 34 -- res = 0.55535E+03, tol = 0.57631E+04, time = 12.08 | CG iter. 35 -- res = 0.43598E+03, tol = 0.57631E+04, time = 12.00 | CG iter. 36 -- res = 0.34587E+03, tol = 0.57631E+04, time = 12.15 | CG iter. 37 -- res = 0.30208E+03, tol = 0.57631E+04, time = 12.33 | CG iter. 38 -- res = 0.28082E+03, tol = 0.57631E+04, time = 12.17 | CG iter. 39 -- res = 0.27193E+03, tol = 0.57631E+04, time = 12.82 | CG iter. 40 -- res = 0.25683E+03, tol = 0.57631E+04, time = 12.54 | CG iter. 41 -- res = 0.23567E+03, tol = 0.57631E+04, time = 12.17 | CG iter. 42 -- res = 0.20708E+03, tol = 0.57631E+04, time = 12.12 | CG iter. 43 -- res = 0.18400E+03, tol = 0.57631E+04, time = 12.09 | CG iter. 44 -- res = 0.16947E+03, tol = 0.57631E+04, time = 12.20 | CG iter. 45 -- res = 0.16020E+03, tol = 0.57631E+04, time = 11.86 | CG iter. 46 -- res = 0.15150E+03, tol = 0.57631E+04, time = 11.87 | CG iter. 47 -- res = 0.13490E+03, tol = 0.57631E+04, time = 11.94 | CG iter. 48 -- res = 0.11440E+03, tol = 0.57631E+04, time = 17.85 | CG iter. 49 -- res = 0.95110E+02, tol = 0.57631E+04, time = 11.77 | CG iter. 50 -- res = 0.79348E+02, tol = 0.57631E+04, time = 11.98 | CG iter. 51 -- res = 0.68657E+02, tol = 0.57631E+04, time = 12.20 | CG iter. 52 -- res = 0.63923E+02, tol = 0.57631E+04, time = 12.07 | CG iter. 53 -- res = 0.61514E+02, tol = 0.57631E+04, time = 12.05 | CG iter. 54 -- res = 0.57933E+02, tol = 0.57631E+04, time = 11.87 | CG iter. 55 -- res = 0.53761E+02, tol = 0.57631E+04, time = 13.55 | CG iter. 56 -- res = 0.48005E+02, tol = 0.57631E+04, time = 12.00 | CG iter. 57 -- res = 0.42666E+02, tol = 0.57631E+04, time = 11.79 | CG iter. 58 -- res = 0.39587E+02, tol = 0.57631E+04, time = 12.38 | CG iter. 59 -- res = 0.38494E+02, tol = 0.57631E+04, time = 12.28 | CG iter. 60 -- res = 0.37327E+02, tol = 0.57631E+04, time = 12.41 | Final CG iter 61 -- res = 0.37327E+02, tol = 0.57631E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.838 ( -229.503 -2231.447 2514.283 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9438123.029 | Old band monopole 10455782.835 | Change to band monopole -1017659.806 | Change to component monopole 1017655.429 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.152 2.710 | New value -1.090 | Old value -2.152 | Difference 1.062 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.322 ( 6.155 12.676 -13.047 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.144 3.575 | New value 1.618 | Old value 6.144 | Difference -4.527 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.77929E+05, tol = 0.47627E+18, time = 2.27 | CG iter. 2 -- res = 0.31863E+02, tol = 0.47627E+18, time = 2.48 | CG iter. 3 -- res = 0.10412E+01, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.22335E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.14873E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9438082.434 | (Sampled value in CG: 9417866.682 ) | Chain = 1 -- chisq = 0.81536259E+09 | Chain = 1 -- wall time = 5795.694 sec Available RAM: MemAvailable: 384024976 kB Available Swap: SwapFree: 1120920352 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 308 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442846 | --> Sampling calibration, mode = relcal | relcal = 1.3436710E-02 7.4469752E-04 -1.5989153E-03 -1.2582493E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191990 0.1256565 9406845.00037053 | BP delta = 0.1191990 0.1144082 9406897.34896921 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632443 | --> Sampling calibration, mode = relcal | relcal = -2.8203961E-03 -7.0369337E-04 1.6779989E-03 1.6131731E-03 -4.0795264E-04 6.4087007E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5595195 15221178.4041017 | BP delta = 0.0000000E+00 -0.5597116 15221177.2809459 | BP chisq diff = -1.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18482283360280 | --> Sampling calibration, mode = relcal | relcal = -7.6207094E-02 -5.9418079E-02 9.3180887E-02 4.2444285E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9845481E-04 6.5475567E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1518E-05 | 2: delta_r/delta_0: 1.6183E-06 | 3: delta_s/delta_0: 2.0317E-07 | 4: delta_r/delta_0: 2.9828E-08 | 5: delta_s/delta_0: 9.0311E-09 | 6: delta_r/delta_0: 2.9375E-09 | 7: delta_s/delta_0: 6.3315E-10 | 8: delta_r/delta_0: 1.8010E-10 | 9: delta_s/delta_0: 1.2741E-10 | 10: delta_r/delta_0: 5.8447E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.418544720048557E-003 2.732086614899761E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1518E-05 | 2: delta_r/delta_0: 1.6183E-06 | 3: delta_s/delta_0: 2.0317E-07 | 4: delta_r/delta_0: 2.9829E-08 | 5: delta_s/delta_0: 9.0314E-09 | 6: delta_r/delta_0: 2.9375E-09 | 7: delta_s/delta_0: 6.3315E-10 | 8: delta_r/delta_0: 1.8010E-10 | 9: delta_s/delta_0: 1.2742E-10 | 10: delta_r/delta_0: 5.8451E-11 | Reached bicg-stab tolerance | BP delta = 7.2444476E-02 9.2663564E-02 3503202.58854454 | BP delta = 7.2444476E-02 9.2718534E-02 3502774.53222903 | BP chisq diff = -428.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02605804 | --> Sampling calibration, mode = relcal | relcal = -0.1067036 -9.5511548E-02 0.1449730 5.7242166E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0953989E-03 9.8045729E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4368E-05 | 2: delta_r/delta_0: 1.1510E-06 | 3: delta_s/delta_0: 2.4315E-07 | 4: delta_r/delta_0: 5.0159E-08 | 5: delta_s/delta_0: 1.5988E-08 | 6: delta_r/delta_0: 6.5591E-09 | 7: delta_s/delta_0: 2.4806E-08 | 8: delta_r/delta_0: 9.8684E-10 | 9: delta_s/delta_0: 8.7335E-10 | 10: delta_r/delta_0: 1.9552E-10 | 11: delta_s/delta_0: 1.8295E-09 | 12: delta_r/delta_0: 2.2692E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.541424776717048E-003 2.810682255229042E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.4368E-05 | 2: delta_r/delta_0: 1.1510E-06 | 3: delta_s/delta_0: 2.4316E-07 | 4: delta_r/delta_0: 5.0171E-08 | 5: delta_s/delta_0: 1.5985E-08 | 6: delta_r/delta_0: 6.5599E-09 | 7: delta_s/delta_0: 2.4814E-08 | 8: delta_r/delta_0: 9.8737E-10 | 9: delta_s/delta_0: 8.7340E-10 | 10: delta_r/delta_0: 1.9567E-10 | 11: delta_s/delta_0: 1.8315E-09 | 12: delta_r/delta_0: 2.2701E-11 | Reached bicg-stab tolerance | BP delta = -0.3427054 -0.3139005 2841704.35775128 | BP delta = -0.3427054 -0.3122878 2841694.26912444 | BP chisq diff = -10.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81238190 | --> Sampling calibration, mode = relcal | relcal = 0.2954586 0.2248613 -0.2837728 -0.2365471 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.5184968E-04 4.6282900E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.6907E-04 | 2: delta_r/delta_0: 2.3154E-05 | 3: delta_s/delta_0: 2.0555E-05 | 4: delta_r/delta_0: 9.0725E-07 | 5: delta_s/delta_0: 4.3561E-07 | 6: delta_r/delta_0: 1.8830E-07 | 7: delta_s/delta_0: 7.2476E-08 | 8: delta_r/delta_0: 4.4108E-08 | 9: delta_s/delta_0: 4.8438E-08 | 10: delta_r/delta_0: 4.4451E-09 | 11: delta_s/delta_0: 5.0445E-09 | 12: delta_r/delta_0: 3.0653E-09 | 13: delta_s/delta_0: 1.6027E-10 | 14: delta_r/delta_0: 1.2993E-10 | 15: delta_s/delta_0: 5.0172E-10 | 16: delta_r/delta_0: 1.2582E-10 | 17: delta_s/delta_0: 2.0524E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.361328908663590E-002 4.020855870108855E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.6891E-04 | 2: delta_r/delta_0: 2.3150E-05 | 3: delta_s/delta_0: 2.0556E-05 | 4: delta_r/delta_0: 9.0730E-07 | 5: delta_s/delta_0: 4.3556E-07 | 6: delta_r/delta_0: 1.8828E-07 | 7: delta_s/delta_0: 7.2545E-08 | 8: delta_r/delta_0: 4.4107E-08 | 9: delta_s/delta_0: 4.8324E-08 | 10: delta_r/delta_0: 4.4451E-09 | 11: delta_s/delta_0: 5.0405E-09 | 12: delta_r/delta_0: 3.0593E-09 | 13: delta_s/delta_0: 1.6005E-10 | 14: delta_r/delta_0: 1.2975E-10 | 15: delta_s/delta_0: 5.0023E-10 | 16: delta_r/delta_0: 1.2562E-10 | 17: delta_s/delta_0: 2.0507E-11 | Reached bicg-stab tolerance | BP delta = -0.2872518 -0.3179809 2827366.23821407 | BP delta = -0.2872518 -0.3300011 2827362.85138421 | BP chisq diff = -3.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95928441 | --> Sampling calibration, mode = relcal | relcal = 0.1064070 0.1396030 -0.1102603 -0.1357497 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3488954E-03 1.3146002E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2001E-03 | 2: delta_r/delta_0: 5.3008E-05 | 3: delta_s/delta_0: 5.4868E-04 | 4: delta_r/delta_0: 2.4032E-05 | 5: delta_s/delta_0: 5.5036E-07 | 6: delta_r/delta_0: 2.1242E-07 | 7: delta_s/delta_0: 6.6269E-07 | 8: delta_r/delta_0: 5.2881E-08 | 9: delta_s/delta_0: 1.4759E-08 | 10: delta_r/delta_0: 5.8328E-09 | 11: delta_s/delta_0: 2.7733E-09 | 12: delta_r/delta_0: 1.3150E-09 | 13: delta_s/delta_0: 1.2795E-08 | 14: delta_r/delta_0: 1.1443E-09 | 15: delta_s/delta_0: 8.3467E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.837811579362509E-002 3.696663125519774E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2006E-03 | 2: delta_r/delta_0: 5.3017E-05 | 3: delta_s/delta_0: 5.4862E-04 | 4: delta_r/delta_0: 2.4030E-05 | 5: delta_s/delta_0: 5.5041E-07 | 6: delta_r/delta_0: 2.1244E-07 | 7: delta_s/delta_0: 6.6287E-07 | 8: delta_r/delta_0: 5.2884E-08 | 9: delta_s/delta_0: 1.4755E-08 | 10: delta_r/delta_0: 5.8352E-09 | 11: delta_s/delta_0: 2.7736E-09 | 12: delta_r/delta_0: 1.3148E-09 | 13: delta_s/delta_0: 1.2760E-08 | 14: delta_r/delta_0: 1.1413E-09 | 15: delta_s/delta_0: 8.3453E-11 | Reached bicg-stab tolerance | BP delta = 8.7042727E-02 0.2074321 3003991.50562436 | BP delta = 8.7042727E-02 0.2130057 3004018.18818708 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127532 | New value = -3.075717 | poltype: 2 pol: 1 CPU time specind = 2.0844936E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129205 | New value = -3.147378 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161154 | New value = -3.117476 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119396 | New value = -3.150553 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.241391 | New value = -3.139913 | poltype: 2 pol: 2 CPU time specind = 8.7459087E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.13702E+08, tol = 0.77111E+01, time = 5.57 | CG iter. 2 -- res = 0.38343E+06, tol = 0.77111E+01, time = 6.18 | CG iter. 3 -- res = 0.11085E+06, tol = 0.77111E+01, time = 6.01 | CG iter. 4 -- res = 0.13585E+06, tol = 0.77111E+01, time = 5.68 | CG iter. 5 -- res = 0.14699E+06, tol = 0.77111E+01, time = 5.52 | CG iter. 6 -- res = 0.14754E+06, tol = 0.77111E+01, time = 5.60 | CG iter. 7 -- res = 0.11729E+06, tol = 0.77111E+01, time = 5.70 | CG iter. 8 -- res = 0.78863E+05, tol = 0.77111E+01, time = 5.98 | CG iter. 9 -- res = 0.58162E+05, tol = 0.77111E+01, time = 5.66 | CG iter. 10 -- res = 0.45125E+05, tol = 0.77111E+01, time = 5.77 | CG iter. 11 -- res = 0.32064E+05, tol = 0.77111E+01, time = 5.58 | CG iter. 12 -- res = 0.23046E+05, tol = 0.77111E+01, time = 6.03 | CG iter. 13 -- res = 0.17883E+05, tol = 0.77111E+01, time = 5.59 | CG iter. 14 -- res = 0.14927E+05, tol = 0.77111E+01, time = 5.97 | CG iter. 15 -- res = 0.11840E+05, tol = 0.77111E+01, time = 6.01 | CG iter. 16 -- res = 0.77660E+04, tol = 0.77111E+01, time = 5.83 | CG iter. 17 -- res = 0.53445E+04, tol = 0.77111E+01, time = 5.77 | CG iter. 18 -- res = 0.44111E+04, tol = 0.77111E+01, time = 5.57 | CG iter. 19 -- res = 0.38191E+04, tol = 0.77111E+01, time = 5.74 | CG iter. 20 -- res = 0.28718E+04, tol = 0.77111E+01, time = 7.52 | CG iter. 21 -- res = 0.20515E+04, tol = 0.77111E+01, time = 10.84 | CG iter. 22 -- res = 0.16387E+04, tol = 0.77111E+01, time = 5.85 | CG iter. 23 -- res = 0.14064E+04, tol = 0.77111E+01, time = 6.08 | CG iter. 24 -- res = 0.11326E+04, tol = 0.77111E+01, time = 5.65 | CG iter. 25 -- res = 0.81794E+03, tol = 0.77111E+01, time = 5.82 | CG iter. 26 -- res = 0.64788E+03, tol = 0.77111E+01, time = 5.98 | CG iter. 27 -- res = 0.57701E+03, tol = 0.77111E+01, time = 6.10 | CG iter. 28 -- res = 0.48176E+03, tol = 0.77111E+01, time = 5.57 | CG iter. 29 -- res = 0.35107E+03, tol = 0.77111E+01, time = 5.78 | CG iter. 30 -- res = 0.26472E+03, tol = 0.77111E+01, time = 6.05 | CG iter. 31 -- res = 0.22183E+03, tol = 0.77111E+01, time = 5.92 | CG iter. 32 -- res = 0.17739E+03, tol = 0.77111E+01, time = 5.84 | CG iter. 33 -- res = 0.13255E+03, tol = 0.77111E+01, time = 5.86 | CG iter. 34 -- res = 0.95545E+02, tol = 0.77111E+01, time = 5.71 | CG iter. 35 -- res = 0.73008E+02, tol = 0.77111E+01, time = 7.11 | CG iter. 36 -- res = 0.59049E+02, tol = 0.77111E+01, time = 6.25 | CG iter. 37 -- res = 0.44511E+02, tol = 0.77111E+01, time = 5.82 | CG iter. 38 -- res = 0.30355E+02, tol = 0.77111E+01, time = 5.97 | CG iter. 39 -- res = 0.22594E+02, tol = 0.77111E+01, time = 5.44 | CG iter. 40 -- res = 0.17737E+02, tol = 0.77111E+01, time = 5.74 | CG iter. 41 -- res = 0.14208E+02, tol = 0.77111E+01, time = 5.92 | CG iter. 42 -- res = 0.10128E+02, tol = 0.77111E+01, time = 5.73 | CG iter. 43 -- res = 0.75418E+01, tol = 0.77111E+01, time = 5.56 | CG iter. 44 -- res = 0.58390E+01, tol = 0.77111E+01, time = 5.98 | CG iter. 45 -- res = 0.45479E+01, tol = 0.77111E+01, time = 6.12 | CG iter. 46 -- res = 0.32723E+01, tol = 0.77111E+01, time = 5.97 | CG iter. 47 -- res = 0.23457E+01, tol = 0.77111E+01, time = 6.07 | CG iter. 48 -- res = 0.17126E+01, tol = 0.77111E+01, time = 5.88 | CG iter. 49 -- res = 0.12947E+01, tol = 0.77111E+01, time = 6.13 | CG iter. 50 -- res = 0.97548E+00, tol = 0.77111E+01, time = 5.77 | Final CG iter 51 -- res = 0.97548E+00, tol = 0.77111E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6724686.974 | Old band monopole 9438123.029 | Change to band monopole -2713436.055 | Change to component monopole 2713424.384 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.80643E+06, tol = 0.47627E+18, time = 2.35 | CG iter. 2 -- res = 0.23067E+03, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.48381E+01, tol = 0.47627E+18, time = 2.35 | CG iter. 4 -- res = 0.29235E-01, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.62157E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6724658.050 | (Sampled value in CG: 6799609.203 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.516316 | New value = 1.517128 | poltype: 2 pol: 1 CPU time specind = 1.2253046E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496219 | New value = 1.526489 | poltype: 2 pol: 2 CPU time specind = 3.8218498E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.24015E+08, tol = 0.47587E+04, time = 12.85 | CG iter. 2 -- res = 0.52994E+07, tol = 0.47587E+04, time = 6.86 | CG iter. 3 -- res = 0.82569E+06, tol = 0.47587E+04, time = 6.80 | CG iter. 4 -- res = 0.34610E+06, tol = 0.47587E+04, time = 6.45 | CG iter. 5 -- res = 0.14966E+06, tol = 0.47587E+04, time = 6.89 | CG iter. 6 -- res = 0.78542E+05, tol = 0.47587E+04, time = 6.71 | CG iter. 7 -- res = 0.43506E+05, tol = 0.47587E+04, time = 6.39 | CG iter. 8 -- res = 0.21087E+05, tol = 0.47587E+04, time = 6.78 | CG iter. 9 -- res = 0.90453E+04, tol = 0.47587E+04, time = 6.82 | CG iter. 10 -- res = 0.36853E+04, tol = 0.47587E+04, time = 6.39 | CG iter. 11 -- res = 0.16695E+04, tol = 0.47587E+04, time = 6.48 | CG iter. 12 -- res = 0.85914E+03, tol = 0.47587E+04, time = 6.71 | CG iter. 13 -- res = 0.47946E+03, tol = 0.47587E+04, time = 6.71 | CG iter. 14 -- res = 0.27163E+03, tol = 0.47587E+04, time = 7.71 | CG iter. 15 -- res = 0.14033E+03, tol = 0.47587E+04, time = 7.35 | CG iter. 16 -- res = 0.68087E+02, tol = 0.47587E+04, time = 6.48 | CG iter. 17 -- res = 0.31757E+02, tol = 0.47587E+04, time = 6.78 | CG iter. 18 -- res = 0.15936E+02, tol = 0.47587E+04, time = 6.23 | CG iter. 19 -- res = 0.86672E+01, tol = 0.47587E+04, time = 6.66 | CG iter. 20 -- res = 0.49159E+01, tol = 0.47587E+04, time = 6.74 | CG iter. 21 -- res = 0.27611E+01, tol = 0.47587E+04, time = 6.55 | CG iter. 22 -- res = 0.14251E+01, tol = 0.47587E+04, time = 6.83 | CG iter. 23 -- res = 0.70062E+00, tol = 0.47587E+04, time = 6.44 | CG iter. 24 -- res = 0.35101E+00, tol = 0.47587E+04, time = 6.52 | CG iter. 25 -- res = 0.18893E+00, tol = 0.47587E+04, time = 7.03 | CG iter. 26 -- res = 0.10857E+00, tol = 0.47587E+04, time = 6.34 | CG iter. 27 -- res = 0.60930E-01, tol = 0.47587E+04, time = 6.83 | CG iter. 28 -- res = 0.32267E-01, tol = 0.47587E+04, time = 6.58 | CG iter. 29 -- res = 0.16638E-01, tol = 0.47587E+04, time = 6.39 | CG iter. 30 -- res = 0.87579E-02, tol = 0.47587E+04, time = 6.44 | CG iter. 31 -- res = 0.48732E-02, tol = 0.47587E+04, time = 6.90 | CG iter. 32 -- res = 0.28478E-02, tol = 0.47587E+04, time = 6.45 | CG iter. 33 -- res = 0.16348E-02, tol = 0.47587E+04, time = 6.53 | CG iter. 34 -- res = 0.89364E-03, tol = 0.47587E+04, time = 6.31 | CG iter. 35 -- res = 0.46255E-03, tol = 0.47587E+04, time = 6.86 | Final CG iter 36 -- res = 0.46255E-03, tol = 0.47587E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.054 2.732 | New value 3.441 | Old value -1.054 | Difference 4.495 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.10493E+07, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.90960E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.24124E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.21099E-03, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.25832E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6724658.050 | (Sampled value in CG: 6801130.827 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.585857 | New value = -3.471534 | poltype: 1 pol: 1 CPU time specind = 1.2199163E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.32297E+07, tol = 0.29439E+01, time = 2.74 | CG iter. 2 -- res = 0.11881E+07, tol = 0.29439E+01, time = 2.80 | CG iter. 3 -- res = 0.25945E+06, tol = 0.29439E+01, time = 2.83 | CG iter. 4 -- res = 0.13370E+06, tol = 0.29439E+01, time = 2.70 | CG iter. 5 -- res = 0.77492E+05, tol = 0.29439E+01, time = 2.64 | CG iter. 6 -- res = 0.33510E+05, tol = 0.29439E+01, time = 2.75 | CG iter. 7 -- res = 0.11765E+05, tol = 0.29439E+01, time = 2.72 | CG iter. 8 -- res = 0.54600E+04, tol = 0.29439E+01, time = 2.65 | CG iter. 9 -- res = 0.26214E+04, tol = 0.29439E+01, time = 2.64 | CG iter. 10 -- res = 0.10616E+04, tol = 0.29439E+01, time = 2.86 | CG iter. 11 -- res = 0.40813E+03, tol = 0.29439E+01, time = 2.60 | CG iter. 12 -- res = 0.18830E+03, tol = 0.29439E+01, time = 2.69 | CG iter. 13 -- res = 0.91995E+02, tol = 0.29439E+01, time = 2.80 | CG iter. 14 -- res = 0.48023E+02, tol = 0.29439E+01, time = 2.86 | CG iter. 15 -- res = 0.24224E+02, tol = 0.29439E+01, time = 2.93 | CG iter. 16 -- res = 0.11124E+02, tol = 0.29439E+01, time = 2.81 | CG iter. 17 -- res = 0.47529E+01, tol = 0.29439E+01, time = 2.83 | CG iter. 18 -- res = 0.21005E+01, tol = 0.29439E+01, time = 2.86 | CG iter. 19 -- res = 0.98619E+00, tol = 0.29439E+01, time = 4.33 | CG iter. 20 -- res = 0.49238E+00, tol = 0.29439E+01, time = 7.65 | CG iter. 21 -- res = 0.24492E+00, tol = 0.29439E+01, time = 3.00 | CG iter. 22 -- res = 0.12222E+00, tol = 0.29439E+01, time = 2.78 | CG iter. 23 -- res = 0.56594E-01, tol = 0.29439E+01, time = 2.74 | CG iter. 24 -- res = 0.25123E-01, tol = 0.29439E+01, time = 2.80 | CG iter. 25 -- res = 0.11884E-01, tol = 0.29439E+01, time = 3.03 | CG iter. 26 -- res = 0.56744E-02, tol = 0.29439E+01, time = 2.87 | CG iter. 27 -- res = 0.28666E-02, tol = 0.29439E+01, time = 2.54 | CG iter. 28 -- res = 0.15301E-02, tol = 0.29439E+01, time = 2.73 | CG iter. 29 -- res = 0.74486E-03, tol = 0.29439E+01, time = 3.08 | CG iter. 30 -- res = 0.35396E-03, tol = 0.29439E+01, time = 2.56 | CG iter. 31 -- res = 0.16384E-03, tol = 0.29439E+01, time = 2.98 | CG iter. 32 -- res = 0.77302E-04, tol = 0.29439E+01, time = 2.88 | CG iter. 33 -- res = 0.36605E-04, tol = 0.29439E+01, time = 2.70 | CG iter. 34 -- res = 0.18555E-04, tol = 0.29439E+01, time = 2.94 | CG iter. 35 -- res = 0.96028E-05, tol = 0.29439E+01, time = 2.98 | CG iter. 36 -- res = 0.48005E-05, tol = 0.29439E+01, time = 2.78 | CG iter. 37 -- res = 0.22276E-05, tol = 0.29439E+01, time = 2.86 | CG iter. 38 -- res = 0.98686E-06, tol = 0.29439E+01, time = 2.56 | CG iter. 39 -- res = 0.47998E-06, tol = 0.29439E+01, time = 2.66 | CG iter. 40 -- res = 0.23911E-06, tol = 0.29439E+01, time = 2.75 | CG iter. 41 -- res = 0.11814E-06, tol = 0.29439E+01, time = 2.42 | CG iter. 42 -- res = 0.59991E-07, tol = 0.29439E+01, time = 2.91 | CG iter. 43 -- res = 0.28362E-07, tol = 0.29439E+01, time = 2.46 | CG iter. 44 -- res = 0.13114E-07, tol = 0.29439E+01, time = 2.67 | CG iter. 45 -- res = 0.60802E-08, tol = 0.29439E+01, time = 2.76 | CG iter. 46 -- res = 0.28859E-08, tol = 0.29439E+01, time = 3.08 | CG iter. 47 -- res = 0.14896E-08, tol = 0.29439E+01, time = 3.02 | CG iter. 48 -- res = 0.77816E-09, tol = 0.29439E+01, time = 2.77 | CG iter. 49 -- res = 0.37450E-09, tol = 0.29439E+01, time = 2.98 | CG iter. 50 -- res = 0.17010E-09, tol = 0.29439E+01, time = 3.95 | Final CG iter 51 -- res = 0.17010E-09, tol = 0.29439E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.156 2.990 | New value 2.376 | Old value 5.156 | Difference -2.780 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.13717E+05, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.39056E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.12679E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.86318E-03, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.10821E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6724658.050 | (Sampled value in CG: 6784618.628 ) | CPU time specind = 1216.789 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.68345E+08, tol = 0.57680E+04, time = 11.91 | CG iter. 2 -- res = 0.58877E+08, tol = 0.57680E+04, time = 12.14 | CG iter. 3 -- res = 0.15421E+08, tol = 0.57680E+04, time = 11.96 | CG iter. 4 -- res = 0.65582E+07, tol = 0.57680E+04, time = 11.75 | CG iter. 5 -- res = 0.39631E+07, tol = 0.57680E+04, time = 11.85 | CG iter. 6 -- res = 0.23363E+07, tol = 0.57680E+04, time = 11.87 | CG iter. 7 -- res = 0.14053E+07, tol = 0.57680E+04, time = 12.42 | CG iter. 8 -- res = 0.92913E+06, tol = 0.57680E+04, time = 12.33 | CG iter. 9 -- res = 0.61533E+06, tol = 0.57680E+04, time = 12.11 | CG iter. 10 -- res = 0.37676E+06, tol = 0.57680E+04, time = 19.67 | CG iter. 11 -- res = 0.21598E+06, tol = 0.57680E+04, time = 12.07 | CG iter. 12 -- res = 0.12730E+06, tol = 0.57680E+04, time = 11.71 | CG iter. 13 -- res = 0.79468E+05, tol = 0.57680E+04, time = 12.06 | CG iter. 14 -- res = 0.55600E+05, tol = 0.57680E+04, time = 12.36 | CG iter. 15 -- res = 0.46681E+05, tol = 0.57680E+04, time = 11.58 | CG iter. 16 -- res = 0.44625E+05, tol = 0.57680E+04, time = 12.16 | CG iter. 17 -- res = 0.44052E+05, tol = 0.57680E+04, time = 12.82 | CG iter. 18 -- res = 0.42063E+05, tol = 0.57680E+04, time = 13.11 | CG iter. 19 -- res = 0.38969E+05, tol = 0.57680E+04, time = 12.25 | CG iter. 20 -- res = 0.35772E+05, tol = 0.57680E+04, time = 12.12 | CG iter. 21 -- res = 0.34149E+05, tol = 0.57680E+04, time = 11.78 | CG iter. 22 -- res = 0.33568E+05, tol = 0.57680E+04, time = 11.32 | CG iter. 23 -- res = 0.32847E+05, tol = 0.57680E+04, time = 11.93 | CG iter. 24 -- res = 0.30005E+05, tol = 0.57680E+04, time = 11.98 | CG iter. 25 -- res = 0.24610E+05, tol = 0.57680E+04, time = 11.67 | CG iter. 26 -- res = 0.18581E+05, tol = 0.57680E+04, time = 12.78 | CG iter. 27 -- res = 0.13896E+05, tol = 0.57680E+04, time = 12.05 | CG iter. 28 -- res = 0.10648E+05, tol = 0.57680E+04, time = 11.96 | CG iter. 29 -- res = 0.89566E+04, tol = 0.57680E+04, time = 11.82 | CG iter. 30 -- res = 0.80246E+04, tol = 0.57680E+04, time = 12.30 | CG iter. 31 -- res = 0.74287E+04, tol = 0.57680E+04, time = 11.95 | CG iter. 32 -- res = 0.68731E+04, tol = 0.57680E+04, time = 12.12 | CG iter. 33 -- res = 0.60302E+04, tol = 0.57680E+04, time = 11.91 | CG iter. 34 -- res = 0.51172E+04, tol = 0.57680E+04, time = 11.85 | CG iter. 35 -- res = 0.43602E+04, tol = 0.57680E+04, time = 18.29 | CG iter. 36 -- res = 0.39744E+04, tol = 0.57680E+04, time = 12.36 | CG iter. 37 -- res = 0.37656E+04, tol = 0.57680E+04, time = 11.86 | CG iter. 38 -- res = 0.35433E+04, tol = 0.57680E+04, time = 12.22 | CG iter. 39 -- res = 0.31526E+04, tol = 0.57680E+04, time = 11.68 | CG iter. 40 -- res = 0.26184E+04, tol = 0.57680E+04, time = 12.31 | CG iter. 41 -- res = 0.20829E+04, tol = 0.57680E+04, time = 11.88 | CG iter. 42 -- res = 0.16852E+04, tol = 0.57680E+04, time = 14.18 | CG iter. 43 -- res = 0.14545E+04, tol = 0.57680E+04, time = 12.14 | CG iter. 44 -- res = 0.13657E+04, tol = 0.57680E+04, time = 11.73 | CG iter. 45 -- res = 0.13256E+04, tol = 0.57680E+04, time = 11.96 | CG iter. 46 -- res = 0.12538E+04, tol = 0.57680E+04, time = 11.90 | CG iter. 47 -- res = 0.11195E+04, tol = 0.57680E+04, time = 11.84 | CG iter. 48 -- res = 0.95999E+03, tol = 0.57680E+04, time = 12.00 | CG iter. 49 -- res = 0.85038E+03, tol = 0.57680E+04, time = 12.15 | CG iter. 50 -- res = 0.76485E+03, tol = 0.57680E+04, time = 12.01 | CG iter. 51 -- res = 0.70840E+03, tol = 0.57680E+04, time = 11.99 | CG iter. 52 -- res = 0.68051E+03, tol = 0.57680E+04, time = 11.66 | CG iter. 53 -- res = 0.63664E+03, tol = 0.57680E+04, time = 11.52 | CG iter. 54 -- res = 0.57635E+03, tol = 0.57680E+04, time = 11.67 | CG iter. 55 -- res = 0.49718E+03, tol = 0.57680E+04, time = 11.52 | CG iter. 56 -- res = 0.41903E+03, tol = 0.57680E+04, time = 12.07 | CG iter. 57 -- res = 0.36646E+03, tol = 0.57680E+04, time = 11.95 | CG iter. 58 -- res = 0.34012E+03, tol = 0.57680E+04, time = 11.42 | CG iter. 59 -- res = 0.32807E+03, tol = 0.57680E+04, time = 18.89 | CG iter. 60 -- res = 0.32298E+03, tol = 0.57680E+04, time = 11.85 | Final CG iter 61 -- res = 0.32298E+03, tol = 0.57680E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.825 ( -229.112 -2229.505 2512.091 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8811866.818 | Old band monopole 6724686.974 | Change to band monopole 2087179.843 | Change to component monopole -2087170.866 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.439 2.751 | New value -5.116 | Old value 3.439 | Difference -8.554 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.338 ( 4.681 8.197 -8.501 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.752 5.975 | New value -3.767 | Old value -1.752 | Difference -2.015 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.38724E+07, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.51842E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.22024E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.30701E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.89330E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8811828.916 | (Sampled value in CG: 8788286.813 ) | Chain = 1 -- chisq = 0.81558118E+09 | Chain = 1 -- wall time = 6162.097 sec Available RAM: MemAvailable: 384124496 kB Available Swap: SwapFree: 1121866272 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 309 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446716 | --> Sampling calibration, mode = relcal | relcal = 1.3438102E-02 7.3847960E-04 -1.5942777E-03 -1.2582303E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191990 0.1256565 97037393.3990691 | BP delta = 0.1141909 0.1206483 97037396.9605291 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632211 | --> Sampling calibration, mode = relcal | relcal = -2.8199658E-03 -7.0493337E-04 1.6783479E-03 1.6141493E-03 -4.0826239E-04 6.4066442E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5597116 15219657.4994646 | BP delta = 0.0000000E+00 -0.5654715 15219656.8233867 | BP chisq diff = -0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17955689946943 | --> Sampling calibration, mode = relcal | relcal = -7.3702581E-02 -5.7580043E-02 9.0513431E-02 4.0769197E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4606994E-04 3.0665335E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5376E-04 | 2: delta_r/delta_0: 1.3783E-05 | 3: delta_s/delta_0: 1.5296E-06 | 4: delta_r/delta_0: 2.7938E-07 | 5: delta_s/delta_0: 7.1748E-07 | 6: delta_r/delta_0: 6.3136E-08 | 7: delta_s/delta_0: 6.6301E-09 | 8: delta_r/delta_0: 4.4160E-09 | 9: delta_s/delta_0: 2.9850E-09 | 10: delta_r/delta_0: 2.0680E-09 | 11: delta_s/delta_0: 2.3514E-09 | 12: delta_r/delta_0: 1.8100E-10 | 13: delta_s/delta_0: 1.9797E-10 | 14: delta_r/delta_0: 1.1089E-10 | 15: delta_s/delta_0: 1.0606E-10 | 16: delta_r/delta_0: 4.1269E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.293873871197642E-002 2.744602359361138E-005 | BP delta = 7.2444476E-02 9.2718534E-02 50483716.4039614 | BP delta = 6.8495788E-02 8.8769846E-02 50483712.0468393 | BP chisq diff = -4.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02577694 | --> Sampling calibration, mode = relcal | relcal = -0.1066907 -9.5563196E-02 0.1449714 5.7282515E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1332481E-03 1.5929686E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2942E-05 | 2: delta_r/delta_0: 1.1378E-06 | 3: delta_s/delta_0: 2.3670E-07 | 4: delta_r/delta_0: 5.1527E-08 | 5: delta_s/delta_0: 1.4736E-08 | 6: delta_r/delta_0: 6.6573E-09 | 7: delta_s/delta_0: 2.8200E-08 | 8: delta_r/delta_0: 1.2063E-09 | 9: delta_s/delta_0: 8.5136E-10 | 10: delta_r/delta_0: 2.8669E-10 | 11: delta_s/delta_0: 3.7836E-09 | 12: delta_r/delta_0: 2.6018E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.395892129543199E-003 2.811447415253314E-005 | BP delta = -0.3427054 -0.3122878 57388584.3670713 | BP delta = -0.3457080 -0.3152904 57388585.0289477 | BP chisq diff = 0.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81205657 | --> Sampling calibration, mode = relcal | relcal = 0.2952968 0.2248480 -0.2836144 -0.2365304 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0507604E-03 5.1706592E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7347E-04 | 2: delta_r/delta_0: 4.6639E-06 | 3: delta_s/delta_0: 3.3550E-06 | 4: delta_r/delta_0: 6.6150E-07 | 5: delta_s/delta_0: 1.8613E-07 | 6: delta_r/delta_0: 1.0838E-07 | 7: delta_s/delta_0: 5.3240E-07 | 8: delta_r/delta_0: 2.3253E-08 | 9: delta_s/delta_0: 2.0804E-08 | 10: delta_r/delta_0: 1.3589E-08 | 11: delta_s/delta_0: 1.4655E-09 | 12: delta_r/delta_0: 6.2761E-10 | 13: delta_s/delta_0: 8.5788E-10 | 14: delta_r/delta_0: 6.0612E-10 | 15: delta_s/delta_0: 6.9214E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.846336527505717E-002 4.022450918974152E-005 | BP delta = -0.2872518 -0.3300011 72482305.7150913 | BP delta = -0.2830986 -0.3258479 72482305.6617851 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95881033 | --> Sampling calibration, mode = relcal | relcal = 0.1065781 0.1394309 -0.1102933 -0.1357157 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8273195E-03 1.3357059E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0897E-04 | 2: delta_r/delta_0: 1.2461E-05 | 3: delta_s/delta_0: 1.1504E-05 | 4: delta_r/delta_0: 1.0231E-06 | 5: delta_s/delta_0: 3.0241E-07 | 6: delta_r/delta_0: 1.4253E-07 | 7: delta_s/delta_0: 3.5380E-07 | 8: delta_r/delta_0: 3.5036E-08 | 9: delta_s/delta_0: 2.5453E-07 | 10: delta_r/delta_0: 5.0741E-08 | 11: delta_s/delta_0: 2.1109E-09 | 12: delta_r/delta_0: 8.9498E-10 | 13: delta_s/delta_0: 3.1273E-09 | 14: delta_r/delta_0: 8.4456E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.233242031420886E-002 3.698546712006754E-005 | BP delta = 8.7042727E-02 0.2074321 72784390.1479197 | BP delta = 0.1077776 0.2281670 72784390.8671870 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.075717 | New value = -3.157173 | poltype: 2 pol: 1 CPU time specind = 2.3272038E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147378 | New value = -3.114624 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117476 | New value = -3.176042 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150553 | New value = -3.213310 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139913 | New value = -3.233365 | poltype: 2 pol: 2 CPU time specind = 5.1591396E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.13653E+08, tol = 0.81118E+01, time = 5.94 | CG iter. 2 -- res = 0.37879E+06, tol = 0.81118E+01, time = 5.62 | CG iter. 3 -- res = 0.99856E+05, tol = 0.81118E+01, time = 5.84 | CG iter. 4 -- res = 0.12494E+06, tol = 0.81118E+01, time = 5.58 | CG iter. 5 -- res = 0.13867E+06, tol = 0.81118E+01, time = 6.27 | CG iter. 6 -- res = 0.13395E+06, tol = 0.81118E+01, time = 5.78 | CG iter. 7 -- res = 0.11384E+06, tol = 0.81118E+01, time = 5.87 | CG iter. 8 -- res = 0.83054E+05, tol = 0.81118E+01, time = 5.58 | CG iter. 9 -- res = 0.65757E+05, tol = 0.81118E+01, time = 6.00 | CG iter. 10 -- res = 0.54778E+05, tol = 0.81118E+01, time = 7.30 | CG iter. 11 -- res = 0.38552E+05, tol = 0.81118E+01, time = 10.27 | CG iter. 12 -- res = 0.28000E+05, tol = 0.81118E+01, time = 5.86 | CG iter. 13 -- res = 0.24193E+05, tol = 0.81118E+01, time = 6.00 | CG iter. 14 -- res = 0.21434E+05, tol = 0.81118E+01, time = 5.91 | CG iter. 15 -- res = 0.16485E+05, tol = 0.81118E+01, time = 5.66 | CG iter. 16 -- res = 0.11678E+05, tol = 0.81118E+01, time = 5.90 | CG iter. 17 -- res = 0.87435E+04, tol = 0.81118E+01, time = 5.61 | CG iter. 18 -- res = 0.74283E+04, tol = 0.81118E+01, time = 6.02 | CG iter. 19 -- res = 0.66562E+04, tol = 0.81118E+01, time = 6.04 | CG iter. 20 -- res = 0.51812E+04, tol = 0.81118E+01, time = 5.53 | CG iter. 21 -- res = 0.39777E+04, tol = 0.81118E+01, time = 5.89 | CG iter. 22 -- res = 0.34068E+04, tol = 0.81118E+01, time = 5.90 | CG iter. 23 -- res = 0.29476E+04, tol = 0.81118E+01, time = 5.47 | CG iter. 24 -- res = 0.24181E+04, tol = 0.81118E+01, time = 5.72 | CG iter. 25 -- res = 0.18302E+04, tol = 0.81118E+01, time = 6.71 | CG iter. 26 -- res = 0.15468E+04, tol = 0.81118E+01, time = 7.67 | CG iter. 27 -- res = 0.14390E+04, tol = 0.81118E+01, time = 6.00 | CG iter. 28 -- res = 0.12416E+04, tol = 0.81118E+01, time = 5.78 | CG iter. 29 -- res = 0.96844E+03, tol = 0.81118E+01, time = 6.10 | CG iter. 30 -- res = 0.78829E+03, tol = 0.81118E+01, time = 5.58 | CG iter. 31 -- res = 0.73740E+03, tol = 0.81118E+01, time = 5.55 | CG iter. 32 -- res = 0.63213E+03, tol = 0.81118E+01, time = 5.62 | CG iter. 33 -- res = 0.49912E+03, tol = 0.81118E+01, time = 5.72 | CG iter. 34 -- res = 0.37972E+03, tol = 0.81118E+01, time = 5.50 | CG iter. 35 -- res = 0.32967E+03, tol = 0.81118E+01, time = 5.87 | CG iter. 36 -- res = 0.29312E+03, tol = 0.81118E+01, time = 5.75 | CG iter. 37 -- res = 0.23555E+03, tol = 0.81118E+01, time = 5.67 | CG iter. 38 -- res = 0.17504E+03, tol = 0.81118E+01, time = 5.85 | CG iter. 39 -- res = 0.14576E+03, tol = 0.81118E+01, time = 5.77 | CG iter. 40 -- res = 0.12404E+03, tol = 0.81118E+01, time = 5.53 | CG iter. 41 -- res = 0.97652E+02, tol = 0.81118E+01, time = 5.63 | CG iter. 42 -- res = 0.73266E+02, tol = 0.81118E+01, time = 5.77 | CG iter. 43 -- res = 0.58175E+02, tol = 0.81118E+01, time = 5.93 | CG iter. 44 -- res = 0.49536E+02, tol = 0.81118E+01, time = 5.76 | CG iter. 45 -- res = 0.40218E+02, tol = 0.81118E+01, time = 5.75 | CG iter. 46 -- res = 0.30247E+02, tol = 0.81118E+01, time = 5.88 | CG iter. 47 -- res = 0.22816E+02, tol = 0.81118E+01, time = 5.76 | CG iter. 48 -- res = 0.19184E+02, tol = 0.81118E+01, time = 5.85 | CG iter. 49 -- res = 0.15460E+02, tol = 0.81118E+01, time = 5.77 | CG iter. 50 -- res = 0.12015E+02, tol = 0.81118E+01, time = 5.94 | Final CG iter 51 -- res = 0.12015E+02, tol = 0.81118E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6995869.469 | Old band monopole 8811866.818 | Change to band monopole -1815997.348 | Change to component monopole 1815989.537 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.24581E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.17805E+03, tol = 0.47627E+18, time = 2.31 | CG iter. 3 -- res = 0.33070E+01, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.32822E-01, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.13976E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6995839.379 | (Sampled value in CG: 6905079.296 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.517128 | New value = 1.514965 | poltype: 2 pol: 1 CPU time specind = 1.7940044E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526489 | New value = 1.480877 | poltype: 2 pol: 2 CPU time specind = 4.5568943E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.24000E+08, tol = 0.47533E+04, time = 6.45 | CG iter. 2 -- res = 0.52803E+07, tol = 0.47533E+04, time = 6.64 | CG iter. 3 -- res = 0.82845E+06, tol = 0.47533E+04, time = 6.59 | CG iter. 4 -- res = 0.34636E+06, tol = 0.47533E+04, time = 6.49 | CG iter. 5 -- res = 0.14951E+06, tol = 0.47533E+04, time = 7.74 | CG iter. 6 -- res = 0.79479E+05, tol = 0.47533E+04, time = 7.72 | CG iter. 7 -- res = 0.43720E+05, tol = 0.47533E+04, time = 6.65 | CG iter. 8 -- res = 0.20688E+05, tol = 0.47533E+04, time = 6.69 | CG iter. 9 -- res = 0.90418E+04, tol = 0.47533E+04, time = 6.39 | CG iter. 10 -- res = 0.37351E+04, tol = 0.47533E+04, time = 6.35 | CG iter. 11 -- res = 0.16482E+04, tol = 0.47533E+04, time = 6.32 | CG iter. 12 -- res = 0.83887E+03, tol = 0.47533E+04, time = 6.73 | CG iter. 13 -- res = 0.48190E+03, tol = 0.47533E+04, time = 6.52 | CG iter. 14 -- res = 0.27692E+03, tol = 0.47533E+04, time = 6.41 | CG iter. 15 -- res = 0.14167E+03, tol = 0.47533E+04, time = 6.64 | CG iter. 16 -- res = 0.65936E+02, tol = 0.47533E+04, time = 6.45 | CG iter. 17 -- res = 0.30714E+02, tol = 0.47533E+04, time = 6.59 | CG iter. 18 -- res = 0.15086E+02, tol = 0.47533E+04, time = 6.38 | CG iter. 19 -- res = 0.81730E+01, tol = 0.47533E+04, time = 6.58 | CG iter. 20 -- res = 0.47591E+01, tol = 0.47533E+04, time = 6.90 | CG iter. 21 -- res = 0.26759E+01, tol = 0.47533E+04, time = 6.59 | CG iter. 22 -- res = 0.13516E+01, tol = 0.47533E+04, time = 7.34 | CG iter. 23 -- res = 0.66763E+00, tol = 0.47533E+04, time = 6.59 | CG iter. 24 -- res = 0.33690E+00, tol = 0.47533E+04, time = 6.97 | CG iter. 25 -- res = 0.18832E+00, tol = 0.47533E+04, time = 6.51 | CG iter. 26 -- res = 0.10881E+00, tol = 0.47533E+04, time = 6.48 | CG iter. 27 -- res = 0.60436E-01, tol = 0.47533E+04, time = 6.93 | CG iter. 28 -- res = 0.32472E-01, tol = 0.47533E+04, time = 6.69 | CG iter. 29 -- res = 0.17144E-01, tol = 0.47533E+04, time = 6.73 | CG iter. 30 -- res = 0.89500E-02, tol = 0.47533E+04, time = 6.82 | CG iter. 31 -- res = 0.48027E-02, tol = 0.47533E+04, time = 6.49 | CG iter. 32 -- res = 0.27208E-02, tol = 0.47533E+04, time = 6.31 | CG iter. 33 -- res = 0.15274E-02, tol = 0.47533E+04, time = 6.76 | CG iter. 34 -- res = 0.82844E-03, tol = 0.47533E+04, time = 6.54 | CG iter. 35 -- res = 0.43019E-03, tol = 0.47533E+04, time = 6.51 | Final CG iter 36 -- res = 0.43019E-03, tol = 0.47533E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.200 2.712 | New value -1.020 | Old value -5.200 | Difference 4.180 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.91448E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.11159E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.21834E+01, tol = 0.47627E+18, time = 2.42 | CG iter. 4 -- res = 0.25433E-03, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.26242E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6995839.379 | (Sampled value in CG: 6905582.110 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.471534 | New value = -3.441595 | poltype: 1 pol: 1 CPU time specind = 1.2101889E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.37922E+07, tol = 0.33577E+01, time = 2.87 | CG iter. 2 -- res = 0.18030E+07, tol = 0.33577E+01, time = 6.52 | CG iter. 3 -- res = 0.38298E+06, tol = 0.33577E+01, time = 5.53 | CG iter. 4 -- res = 0.18284E+06, tol = 0.33577E+01, time = 2.74 | CG iter. 5 -- res = 0.10948E+06, tol = 0.33577E+01, time = 3.13 | CG iter. 6 -- res = 0.48551E+05, tol = 0.33577E+01, time = 3.08 | CG iter. 7 -- res = 0.17127E+05, tol = 0.33577E+01, time = 2.75 | CG iter. 8 -- res = 0.73096E+04, tol = 0.33577E+01, time = 2.65 | CG iter. 9 -- res = 0.34752E+04, tol = 0.33577E+01, time = 2.73 | CG iter. 10 -- res = 0.14238E+04, tol = 0.33577E+01, time = 3.13 | CG iter. 11 -- res = 0.57135E+03, tol = 0.33577E+01, time = 3.06 | CG iter. 12 -- res = 0.25784E+03, tol = 0.33577E+01, time = 2.54 | CG iter. 13 -- res = 0.12428E+03, tol = 0.33577E+01, time = 2.99 | CG iter. 14 -- res = 0.65572E+02, tol = 0.33577E+01, time = 2.68 | CG iter. 15 -- res = 0.32883E+02, tol = 0.33577E+01, time = 3.07 | CG iter. 16 -- res = 0.15415E+02, tol = 0.33577E+01, time = 2.55 | CG iter. 17 -- res = 0.65515E+01, tol = 0.33577E+01, time = 2.90 | CG iter. 18 -- res = 0.29844E+01, tol = 0.33577E+01, time = 2.33 | CG iter. 19 -- res = 0.14200E+01, tol = 0.33577E+01, time = 2.86 | CG iter. 20 -- res = 0.71885E+00, tol = 0.33577E+01, time = 2.73 | CG iter. 21 -- res = 0.35421E+00, tol = 0.33577E+01, time = 2.92 | CG iter. 22 -- res = 0.17275E+00, tol = 0.33577E+01, time = 2.66 | CG iter. 23 -- res = 0.80128E-01, tol = 0.33577E+01, time = 2.95 | CG iter. 24 -- res = 0.37153E-01, tol = 0.33577E+01, time = 3.05 | CG iter. 25 -- res = 0.17726E-01, tol = 0.33577E+01, time = 2.44 | CG iter. 26 -- res = 0.83362E-02, tol = 0.33577E+01, time = 2.64 | CG iter. 27 -- res = 0.41964E-02, tol = 0.33577E+01, time = 2.68 | CG iter. 28 -- res = 0.21821E-02, tol = 0.33577E+01, time = 2.49 | CG iter. 29 -- res = 0.10922E-02, tol = 0.33577E+01, time = 2.62 | CG iter. 30 -- res = 0.54255E-03, tol = 0.33577E+01, time = 2.64 | CG iter. 31 -- res = 0.24536E-03, tol = 0.33577E+01, time = 2.71 | CG iter. 32 -- res = 0.11921E-03, tol = 0.33577E+01, time = 2.99 | CG iter. 33 -- res = 0.56337E-04, tol = 0.33577E+01, time = 4.12 | CG iter. 34 -- res = 0.28255E-04, tol = 0.33577E+01, time = 3.28 | CG iter. 35 -- res = 0.14758E-04, tol = 0.33577E+01, time = 2.96 | CG iter. 36 -- res = 0.74998E-05, tol = 0.33577E+01, time = 2.77 | CG iter. 37 -- res = 0.34310E-05, tol = 0.33577E+01, time = 3.22 | CG iter. 38 -- res = 0.16115E-05, tol = 0.33577E+01, time = 2.89 | CG iter. 39 -- res = 0.74959E-06, tol = 0.33577E+01, time = 2.90 | CG iter. 40 -- res = 0.36367E-06, tol = 0.33577E+01, time = 3.24 | CG iter. 41 -- res = 0.18867E-06, tol = 0.33577E+01, time = 2.88 | CG iter. 42 -- res = 0.97286E-07, tol = 0.33577E+01, time = 2.84 | CG iter. 43 -- res = 0.44780E-07, tol = 0.33577E+01, time = 2.91 | CG iter. 44 -- res = 0.20630E-07, tol = 0.33577E+01, time = 2.71 | CG iter. 45 -- res = 0.96431E-08, tol = 0.33577E+01, time = 2.79 | CG iter. 46 -- res = 0.47075E-08, tol = 0.33577E+01, time = 2.86 | CG iter. 47 -- res = 0.23743E-08, tol = 0.33577E+01, time = 2.87 | CG iter. 48 -- res = 0.12374E-08, tol = 0.33577E+01, time = 2.83 | CG iter. 49 -- res = 0.59519E-09, tol = 0.33577E+01, time = 2.78 | CG iter. 50 -- res = 0.27883E-09, tol = 0.33577E+01, time = 2.74 | Final CG iter 51 -- res = 0.27883E-09, tol = 0.33577E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.025 6.931 | New value -5.897 | Old value -10.025 | Difference 4.128 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.23233E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.58602E+02, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.18426E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.37723E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.49564E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6995839.379 | (Sampled value in CG: 6931108.537 ) | CPU time specind = 1208.340 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.68270E+08, tol = 0.57562E+04, time = 11.87 | CG iter. 2 -- res = 0.58405E+08, tol = 0.57562E+04, time = 12.54 | CG iter. 3 -- res = 0.14846E+08, tol = 0.57562E+04, time = 11.97 | CG iter. 4 -- res = 0.62140E+07, tol = 0.57562E+04, time = 11.29 | CG iter. 5 -- res = 0.37130E+07, tol = 0.57562E+04, time = 12.10 | CG iter. 6 -- res = 0.22021E+07, tol = 0.57562E+04, time = 15.93 | CG iter. 7 -- res = 0.13471E+07, tol = 0.57562E+04, time = 14.24 | CG iter. 8 -- res = 0.90594E+06, tol = 0.57562E+04, time = 11.64 | CG iter. 9 -- res = 0.59493E+06, tol = 0.57562E+04, time = 12.39 | CG iter. 10 -- res = 0.36467E+06, tol = 0.57562E+04, time = 12.34 | CG iter. 11 -- res = 0.21127E+06, tol = 0.57562E+04, time = 12.19 | CG iter. 12 -- res = 0.12427E+06, tol = 0.57562E+04, time = 11.89 | CG iter. 13 -- res = 0.80849E+05, tol = 0.57562E+04, time = 12.59 | CG iter. 14 -- res = 0.60014E+05, tol = 0.57562E+04, time = 13.66 | CG iter. 15 -- res = 0.53030E+05, tol = 0.57562E+04, time = 12.22 | CG iter. 16 -- res = 0.52736E+05, tol = 0.57562E+04, time = 12.23 | CG iter. 17 -- res = 0.52794E+05, tol = 0.57562E+04, time = 12.25 | CG iter. 18 -- res = 0.50960E+05, tol = 0.57562E+04, time = 11.45 | CG iter. 19 -- res = 0.46499E+05, tol = 0.57562E+04, time = 11.93 | CG iter. 20 -- res = 0.42460E+05, tol = 0.57562E+04, time = 12.42 | CG iter. 21 -- res = 0.40020E+05, tol = 0.57562E+04, time = 11.96 | CG iter. 22 -- res = 0.39653E+05, tol = 0.57562E+04, time = 12.28 | CG iter. 23 -- res = 0.38890E+05, tol = 0.57562E+04, time = 11.41 | CG iter. 24 -- res = 0.34036E+05, tol = 0.57562E+04, time = 12.29 | CG iter. 25 -- res = 0.26631E+05, tol = 0.57562E+04, time = 11.71 | CG iter. 26 -- res = 0.19541E+05, tol = 0.57562E+04, time = 11.82 | CG iter. 27 -- res = 0.14777E+05, tol = 0.57562E+04, time = 12.05 | CG iter. 28 -- res = 0.11255E+05, tol = 0.57562E+04, time = 12.10 | CG iter. 29 -- res = 0.94966E+04, tol = 0.57562E+04, time = 12.01 | CG iter. 30 -- res = 0.88121E+04, tol = 0.57562E+04, time = 12.18 | CG iter. 31 -- res = 0.81832E+04, tol = 0.57562E+04, time = 18.10 | CG iter. 32 -- res = 0.72903E+04, tol = 0.57562E+04, time = 11.52 | CG iter. 33 -- res = 0.64168E+04, tol = 0.57562E+04, time = 11.76 | CG iter. 34 -- res = 0.56702E+04, tol = 0.57562E+04, time = 11.99 | CG iter. 35 -- res = 0.51710E+04, tol = 0.57562E+04, time = 12.12 | CG iter. 36 -- res = 0.46364E+04, tol = 0.57562E+04, time = 12.27 | CG iter. 37 -- res = 0.43417E+04, tol = 0.57562E+04, time = 11.90 | CG iter. 38 -- res = 0.39642E+04, tol = 0.57562E+04, time = 13.65 | CG iter. 39 -- res = 0.33973E+04, tol = 0.57562E+04, time = 12.12 | CG iter. 40 -- res = 0.27233E+04, tol = 0.57562E+04, time = 11.72 | CG iter. 41 -- res = 0.21805E+04, tol = 0.57562E+04, time = 11.90 | CG iter. 42 -- res = 0.17782E+04, tol = 0.57562E+04, time = 12.25 | CG iter. 43 -- res = 0.15647E+04, tol = 0.57562E+04, time = 12.06 | CG iter. 44 -- res = 0.14712E+04, tol = 0.57562E+04, time = 11.82 | CG iter. 45 -- res = 0.13804E+04, tol = 0.57562E+04, time = 12.02 | CG iter. 46 -- res = 0.12906E+04, tol = 0.57562E+04, time = 12.01 | CG iter. 47 -- res = 0.11638E+04, tol = 0.57562E+04, time = 12.64 | CG iter. 48 -- res = 0.10104E+04, tol = 0.57562E+04, time = 12.39 | CG iter. 49 -- res = 0.88610E+03, tol = 0.57562E+04, time = 12.06 | CG iter. 50 -- res = 0.80425E+03, tol = 0.57562E+04, time = 12.10 | CG iter. 51 -- res = 0.74748E+03, tol = 0.57562E+04, time = 11.93 | CG iter. 52 -- res = 0.70103E+03, tol = 0.57562E+04, time = 12.27 | CG iter. 53 -- res = 0.64640E+03, tol = 0.57562E+04, time = 11.86 | CG iter. 54 -- res = 0.57529E+03, tol = 0.57562E+04, time = 12.10 | CG iter. 55 -- res = 0.49164E+03, tol = 0.57562E+04, time = 18.27 | CG iter. 56 -- res = 0.40924E+03, tol = 0.57562E+04, time = 11.72 | CG iter. 57 -- res = 0.36488E+03, tol = 0.57562E+04, time = 12.45 | CG iter. 58 -- res = 0.34717E+03, tol = 0.57562E+04, time = 12.21 | CG iter. 59 -- res = 0.33746E+03, tol = 0.57562E+04, time = 12.51 | CG iter. 60 -- res = 0.31848E+03, tol = 0.57562E+04, time = 11.90 | Final CG iter 61 -- res = 0.31848E+03, tol = 0.57562E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.969 ( -229.457 -2231.733 2514.690 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9717388.948 | Old band monopole 6995869.469 | Change to band monopole 2721519.478 | Change to component monopole -2721507.773 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.975 2.707 | New value 0.435 | Old value -0.975 | Difference 1.409 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.635 ( 6.318 13.233 -13.544 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.994 4.901 | New value 0.616 | Old value 4.994 | Difference -4.378 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.18229E+06, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.47102E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.18690E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.46664E-02, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.47220E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9717347.151 | (Sampled value in CG: 9692123.720 ) | Chain = 1 -- chisq = 0.81563616E+09 | Chain = 1 -- wall time = 5750.036 sec Available RAM: MemAvailable: 383648704 kB Available Swap: SwapFree: 1122629408 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 310 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443510 | --> Sampling calibration, mode = relcal | relcal = 1.3421019E-02 7.4788940E-04 -1.5858029E-03 -1.2583105E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191990 0.1256565 9408339.83014955 | BP delta = 0.1191990 0.1214950 9408394.98549429 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632470 | --> Sampling calibration, mode = relcal | relcal = -2.8211735E-03 -7.0332887E-04 1.6794598E-03 1.6131480E-03 -4.0872389E-04 6.4061850E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5654715 15216028.3541851 | BP delta = 0.0000000E+00 -0.5720587 15216028.3806185 | BP chisq diff = 0.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17845154210158 | --> Sampling calibration, mode = relcal | relcal = -7.4512772E-02 -5.7971127E-02 9.1186576E-02 4.1297324E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7009202E-04 3.5018553E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3555E-05 | 2: delta_r/delta_0: 2.0032E-06 | 3: delta_s/delta_0: 2.1901E-07 | 4: delta_r/delta_0: 1.4171E-08 | 5: delta_s/delta_0: 4.6265E-09 | 6: delta_r/delta_0: 9.5504E-10 | 7: delta_s/delta_0: 2.2072E-09 | 8: delta_r/delta_0: 8.8788E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.101434315431668E-003 2.747061882883999E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.3559E-05 | 2: delta_r/delta_0: 2.0033E-06 | 3: delta_s/delta_0: 2.1901E-07 | 4: delta_r/delta_0: 1.4171E-08 | 5: delta_s/delta_0: 4.6265E-09 | 6: delta_r/delta_0: 9.5502E-10 | 7: delta_s/delta_0: 2.2067E-09 | 8: delta_r/delta_0: 8.8787E-11 | Reached bicg-stab tolerance | BP delta = 6.8495788E-02 8.8769846E-02 3598123.42990935 | BP delta = 6.8495788E-02 8.8535063E-02 3598957.63760916 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02602196 | --> Sampling calibration, mode = relcal | relcal = -0.1066389 -9.5523916E-02 0.1448365 5.7326298E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0340725E-03 1.1508226E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3841E-05 | 2: delta_r/delta_0: 1.1443E-06 | 3: delta_s/delta_0: 2.3862E-07 | 4: delta_r/delta_0: 5.0840E-08 | 5: delta_s/delta_0: 1.5219E-08 | 6: delta_r/delta_0: 6.8871E-09 | 7: delta_s/delta_0: 1.1910E-08 | 8: delta_r/delta_0: 1.0620E-09 | 9: delta_s/delta_0: 9.2765E-10 | 10: delta_r/delta_0: 2.0600E-10 | 11: delta_s/delta_0: 3.1777E-09 | 12: delta_r/delta_0: 2.5358E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.468274329436326E-003 2.810756790333958E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3841E-05 | 2: delta_r/delta_0: 1.1442E-06 | 3: delta_s/delta_0: 2.3860E-07 | 4: delta_r/delta_0: 5.0814E-08 | 5: delta_s/delta_0: 1.5223E-08 | 6: delta_r/delta_0: 6.8850E-09 | 7: delta_s/delta_0: 1.1900E-08 | 8: delta_r/delta_0: 1.0616E-09 | 9: delta_s/delta_0: 9.2752E-10 | 10: delta_r/delta_0: 2.0579E-10 | 11: delta_s/delta_0: 3.1736E-09 | 12: delta_r/delta_0: 2.5329E-11 | Reached bicg-stab tolerance | BP delta = -0.3457080 -0.3152904 2841613.28099598 | BP delta = -0.3457080 -0.3175569 2841644.94156774 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81229940 | --> Sampling calibration, mode = relcal | relcal = 0.2953957 0.2249114 -0.2837481 -0.2365589 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2749174E-03 5.1799389E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0972E-03 | 2: delta_r/delta_0: 9.7264E-05 | 3: delta_s/delta_0: 4.5774E-06 | 4: delta_r/delta_0: 6.4344E-07 | 5: delta_s/delta_0: 1.9477E-06 | 6: delta_r/delta_0: 2.1197E-07 | 7: delta_s/delta_0: 1.3805E-07 | 8: delta_r/delta_0: 6.7742E-08 | 9: delta_s/delta_0: 6.7784E-08 | 10: delta_r/delta_0: 9.9812E-09 | 11: delta_s/delta_0: 3.7279E-09 | 12: delta_r/delta_0: 4.5203E-10 | 13: delta_s/delta_0: 5.6328E-10 | 14: delta_r/delta_0: 3.0302E-10 | 15: delta_s/delta_0: 1.0830E-10 | 16: delta_r/delta_0: 3.7074E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.869692235280033E-002 4.021307659667260E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.0970E-03 | 2: delta_r/delta_0: 9.7259E-05 | 3: delta_s/delta_0: 4.5774E-06 | 4: delta_r/delta_0: 6.4344E-07 | 5: delta_s/delta_0: 1.9479E-06 | 6: delta_r/delta_0: 2.1197E-07 | 7: delta_s/delta_0: 1.3805E-07 | 8: delta_r/delta_0: 6.7742E-08 | 9: delta_s/delta_0: 6.7781E-08 | 10: delta_r/delta_0: 9.9812E-09 | 11: delta_s/delta_0: 3.7286E-09 | 12: delta_r/delta_0: 4.5196E-10 | 13: delta_s/delta_0: 5.6326E-10 | 14: delta_r/delta_0: 3.0300E-10 | 15: delta_s/delta_0: 1.0830E-10 | 16: delta_r/delta_0: 3.7073E-11 | Reached bicg-stab tolerance | BP delta = -0.2830986 -0.3258479 2827385.52017497 | BP delta = -0.2830986 -0.3164012 2827388.27115558 | BP chisq diff = 2.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95925665 | --> Sampling calibration, mode = relcal | relcal = 0.1064229 0.1396210 -0.1102501 -0.1357938 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7566042E-03 1.4038785E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6168E-03 | 2: delta_r/delta_0: 3.9030E-05 | 3: delta_s/delta_0: 4.0189E-05 | 4: delta_r/delta_0: 2.4478E-06 | 5: delta_s/delta_0: 5.4678E-07 | 6: delta_r/delta_0: 1.9356E-07 | 7: delta_s/delta_0: 2.1413E-07 | 8: delta_r/delta_0: 4.7101E-08 | 9: delta_s/delta_0: 8.5951E-08 | 10: delta_r/delta_0: 6.2959E-09 | 11: delta_s/delta_0: 2.7154E-09 | 12: delta_r/delta_0: 1.1289E-09 | 13: delta_s/delta_0: 1.6882E-09 | 14: delta_r/delta_0: 1.2668E-10 | 15: delta_s/delta_0: 5.5980E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.711177376206341E-002 3.696810940118805E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6168E-03 | 2: delta_r/delta_0: 3.9032E-05 | 3: delta_s/delta_0: 4.0189E-05 | 4: delta_r/delta_0: 2.4478E-06 | 5: delta_s/delta_0: 5.4679E-07 | 6: delta_r/delta_0: 1.9356E-07 | 7: delta_s/delta_0: 2.1402E-07 | 8: delta_r/delta_0: 4.7101E-08 | 9: delta_s/delta_0: 8.5945E-08 | 10: delta_r/delta_0: 6.2922E-09 | 11: delta_s/delta_0: 2.7152E-09 | 12: delta_r/delta_0: 1.1289E-09 | 13: delta_s/delta_0: 1.6867E-09 | 14: delta_r/delta_0: 1.2680E-10 | 15: delta_s/delta_0: 5.6304E-11 | Reached bicg-stab tolerance | BP delta = 8.7042727E-02 0.2074321 3004092.27173897 | BP delta = 8.7042727E-02 0.2019774 3004095.63677508 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157173 | New value = -3.268512 | poltype: 2 pol: 1 CPU time specind = 2.5377989E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114624 | New value = -3.165299 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176042 | New value = -3.203031 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.213310 | New value = -3.115837 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.233365 | New value = -3.131421 | poltype: 2 pol: 2 CPU time specind = 1.3499975E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.13563E+08, tol = 0.72392E+01, time = 5.75 | CG iter. 2 -- res = 0.35322E+06, tol = 0.72392E+01, time = 5.70 | CG iter. 3 -- res = 0.60489E+05, tol = 0.72392E+01, time = 5.85 | CG iter. 4 -- res = 0.42980E+05, tol = 0.72392E+01, time = 5.61 | CG iter. 5 -- res = 0.39073E+05, tol = 0.72392E+01, time = 5.74 | CG iter. 6 -- res = 0.37558E+05, tol = 0.72392E+01, time = 5.82 | CG iter. 7 -- res = 0.37463E+05, tol = 0.72392E+01, time = 6.90 | CG iter. 8 -- res = 0.32698E+05, tol = 0.72392E+01, time = 5.96 | CG iter. 9 -- res = 0.29974E+05, tol = 0.72392E+01, time = 6.38 | CG iter. 10 -- res = 0.25363E+05, tol = 0.72392E+01, time = 6.10 | CG iter. 11 -- res = 0.17419E+05, tol = 0.72392E+01, time = 5.78 | CG iter. 12 -- res = 0.12403E+05, tol = 0.72392E+01, time = 5.89 | CG iter. 13 -- res = 0.10921E+05, tol = 0.72392E+01, time = 5.42 | CG iter. 14 -- res = 0.10529E+05, tol = 0.72392E+01, time = 5.82 | CG iter. 15 -- res = 0.93456E+04, tol = 0.72392E+01, time = 5.80 | CG iter. 16 -- res = 0.70308E+04, tol = 0.72392E+01, time = 5.80 | CG iter. 17 -- res = 0.49735E+04, tol = 0.72392E+01, time = 5.58 | CG iter. 18 -- res = 0.40547E+04, tol = 0.72392E+01, time = 5.64 | CG iter. 19 -- res = 0.35085E+04, tol = 0.72392E+01, time = 5.93 | CG iter. 20 -- res = 0.28318E+04, tol = 0.72392E+01, time = 6.06 | CG iter. 21 -- res = 0.22816E+04, tol = 0.72392E+01, time = 5.62 | CG iter. 22 -- res = 0.19768E+04, tol = 0.72392E+01, time = 5.44 | CG iter. 23 -- res = 0.18445E+04, tol = 0.72392E+01, time = 5.89 | CG iter. 24 -- res = 0.15903E+04, tol = 0.72392E+01, time = 5.51 | CG iter. 25 -- res = 0.12295E+04, tol = 0.72392E+01, time = 5.43 | CG iter. 26 -- res = 0.10059E+04, tol = 0.72392E+01, time = 5.98 | CG iter. 27 -- res = 0.90860E+03, tol = 0.72392E+01, time = 5.59 | CG iter. 28 -- res = 0.82234E+03, tol = 0.72392E+01, time = 5.99 | CG iter. 29 -- res = 0.69041E+03, tol = 0.72392E+01, time = 5.76 | CG iter. 30 -- res = 0.56043E+03, tol = 0.72392E+01, time = 5.56 | CG iter. 31 -- res = 0.52397E+03, tol = 0.72392E+01, time = 5.78 | CG iter. 32 -- res = 0.46281E+03, tol = 0.72392E+01, time = 5.95 | CG iter. 33 -- res = 0.38142E+03, tol = 0.72392E+01, time = 5.54 | CG iter. 34 -- res = 0.30559E+03, tol = 0.72392E+01, time = 5.94 | CG iter. 35 -- res = 0.26681E+03, tol = 0.72392E+01, time = 5.99 | CG iter. 36 -- res = 0.25260E+03, tol = 0.72392E+01, time = 5.91 | CG iter. 37 -- res = 0.22761E+03, tol = 0.72392E+01, time = 5.65 | CG iter. 38 -- res = 0.18677E+03, tol = 0.72392E+01, time = 5.89 | CG iter. 39 -- res = 0.15340E+03, tol = 0.72392E+01, time = 5.46 | CG iter. 40 -- res = 0.14165E+03, tol = 0.72392E+01, time = 5.77 | CG iter. 41 -- res = 0.12668E+03, tol = 0.72392E+01, time = 5.85 | CG iter. 42 -- res = 0.10698E+03, tol = 0.72392E+01, time = 5.84 | CG iter. 43 -- res = 0.93085E+02, tol = 0.72392E+01, time = 13.03 | CG iter. 44 -- res = 0.82975E+02, tol = 0.72392E+01, time = 5.84 | CG iter. 45 -- res = 0.74241E+02, tol = 0.72392E+01, time = 5.52 | CG iter. 46 -- res = 0.62659E+02, tol = 0.72392E+01, time = 5.67 | CG iter. 47 -- res = 0.51895E+02, tol = 0.72392E+01, time = 5.68 | CG iter. 48 -- res = 0.44392E+02, tol = 0.72392E+01, time = 5.91 | CG iter. 49 -- res = 0.38915E+02, tol = 0.72392E+01, time = 5.61 | CG iter. 50 -- res = 0.33544E+02, tol = 0.72392E+01, time = 5.48 | Final CG iter 51 -- res = 0.33544E+02, tol = 0.72392E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9949084.900 | Old band monopole 9717388.948 | Change to band monopole 231695.952 | Change to component monopole -231694.956 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.41342E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.19221E+03, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.47705E+01, tol = 0.47627E+18, time = 2.46 | CG iter. 4 -- res = 0.17260E-01, tol = 0.47627E+18, time = 2.83 | Final CG iter 5 -- res = 0.28729E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9949042.107 | (Sampled value in CG: 9900364.751 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.514965 | New value = 1.475052 | poltype: 2 pol: 1 CPU time specind = 1.5195131E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.480877 | New value = 1.540625 | poltype: 2 pol: 2 CPU time specind = 4.3718815E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.24364E+08, tol = 0.47522E+04, time = 6.18 | CG iter. 2 -- res = 0.52644E+07, tol = 0.47522E+04, time = 6.41 | CG iter. 3 -- res = 0.83904E+06, tol = 0.47522E+04, time = 6.76 | CG iter. 4 -- res = 0.35840E+06, tol = 0.47522E+04, time = 6.40 | CG iter. 5 -- res = 0.15329E+06, tol = 0.47522E+04, time = 6.38 | CG iter. 6 -- res = 0.79944E+05, tol = 0.47522E+04, time = 7.22 | CG iter. 7 -- res = 0.44169E+05, tol = 0.47522E+04, time = 6.20 | CG iter. 8 -- res = 0.21234E+05, tol = 0.47522E+04, time = 6.52 | CG iter. 9 -- res = 0.93099E+04, tol = 0.47522E+04, time = 6.43 | CG iter. 10 -- res = 0.38000E+04, tol = 0.47522E+04, time = 6.33 | CG iter. 11 -- res = 0.17381E+04, tol = 0.47522E+04, time = 6.82 | CG iter. 12 -- res = 0.89154E+03, tol = 0.47522E+04, time = 6.40 | CG iter. 13 -- res = 0.50187E+03, tol = 0.47522E+04, time = 6.16 | CG iter. 14 -- res = 0.28286E+03, tol = 0.47522E+04, time = 6.44 | CG iter. 15 -- res = 0.14690E+03, tol = 0.47522E+04, time = 6.51 | CG iter. 16 -- res = 0.70319E+02, tol = 0.47522E+04, time = 6.49 | CG iter. 17 -- res = 0.33033E+02, tol = 0.47522E+04, time = 6.45 | CG iter. 18 -- res = 0.16361E+02, tol = 0.47522E+04, time = 6.33 | CG iter. 19 -- res = 0.87623E+01, tol = 0.47522E+04, time = 6.48 | CG iter. 20 -- res = 0.49822E+01, tol = 0.47522E+04, time = 6.20 | CG iter. 21 -- res = 0.28245E+01, tol = 0.47522E+04, time = 12.92 | CG iter. 22 -- res = 0.14570E+01, tol = 0.47522E+04, time = 6.60 | CG iter. 23 -- res = 0.71853E+00, tol = 0.47522E+04, time = 6.35 | CG iter. 24 -- res = 0.36524E+00, tol = 0.47522E+04, time = 6.29 | CG iter. 25 -- res = 0.19733E+00, tol = 0.47522E+04, time = 6.55 | CG iter. 26 -- res = 0.11188E+00, tol = 0.47522E+04, time = 6.56 | CG iter. 27 -- res = 0.64432E-01, tol = 0.47522E+04, time = 6.72 | CG iter. 28 -- res = 0.35188E-01, tol = 0.47522E+04, time = 6.61 | CG iter. 29 -- res = 0.18018E-01, tol = 0.47522E+04, time = 6.47 | CG iter. 30 -- res = 0.93237E-02, tol = 0.47522E+04, time = 6.78 | CG iter. 31 -- res = 0.50533E-02, tol = 0.47522E+04, time = 6.50 | CG iter. 32 -- res = 0.28882E-02, tol = 0.47522E+04, time = 6.49 | CG iter. 33 -- res = 0.16403E-02, tol = 0.47522E+04, time = 6.43 | CG iter. 34 -- res = 0.88299E-03, tol = 0.47522E+04, time = 7.77 | CG iter. 35 -- res = 0.45666E-03, tol = 0.47522E+04, time = 6.99 | Final CG iter 36 -- res = 0.45666E-03, tol = 0.47522E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.453 2.734 | New value 3.189 | Old value 0.453 | Difference 2.736 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.39272E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.46999E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.14971E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.15121E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.52147E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9949042.107 | (Sampled value in CG: 9901480.611 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.441595 | New value = -3.728952 | poltype: 1 pol: 1 CPU time specind = 1.8870115E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.42435E+07, tol = 0.36580E+01, time = 2.92 | CG iter. 2 -- res = 0.13074E+07, tol = 0.36580E+01, time = 2.95 | CG iter. 3 -- res = 0.32999E+06, tol = 0.36580E+01, time = 2.94 | CG iter. 4 -- res = 0.19647E+06, tol = 0.36580E+01, time = 2.89 | CG iter. 5 -- res = 0.10918E+06, tol = 0.36580E+01, time = 2.70 | CG iter. 6 -- res = 0.38297E+05, tol = 0.36580E+01, time = 2.38 | CG iter. 7 -- res = 0.11431E+05, tol = 0.36580E+01, time = 2.78 | CG iter. 8 -- res = 0.53186E+04, tol = 0.36580E+01, time = 2.30 | CG iter. 9 -- res = 0.25413E+04, tol = 0.36580E+01, time = 2.80 | CG iter. 10 -- res = 0.98676E+03, tol = 0.36580E+01, time = 2.79 | CG iter. 11 -- res = 0.38409E+03, tol = 0.36580E+01, time = 2.83 | CG iter. 12 -- res = 0.20764E+03, tol = 0.36580E+01, time = 3.03 | CG iter. 13 -- res = 0.10775E+03, tol = 0.36580E+01, time = 2.64 | CG iter. 14 -- res = 0.46317E+02, tol = 0.36580E+01, time = 2.78 | CG iter. 15 -- res = 0.20246E+02, tol = 0.36580E+01, time = 2.74 | CG iter. 16 -- res = 0.86708E+01, tol = 0.36580E+01, time = 2.67 | CG iter. 17 -- res = 0.38911E+01, tol = 0.36580E+01, time = 3.04 | CG iter. 18 -- res = 0.19478E+01, tol = 0.36580E+01, time = 2.95 | CG iter. 19 -- res = 0.96287E+00, tol = 0.36580E+01, time = 2.20 | CG iter. 20 -- res = 0.45620E+00, tol = 0.36580E+01, time = 2.91 | CG iter. 21 -- res = 0.20064E+00, tol = 0.36580E+01, time = 2.63 | CG iter. 22 -- res = 0.86783E-01, tol = 0.36580E+01, time = 2.60 | CG iter. 23 -- res = 0.39357E-01, tol = 0.36580E+01, time = 2.92 | CG iter. 24 -- res = 0.19645E-01, tol = 0.36580E+01, time = 2.75 | CG iter. 25 -- res = 0.99093E-02, tol = 0.36580E+01, time = 2.73 | CG iter. 26 -- res = 0.48061E-02, tol = 0.36580E+01, time = 2.59 | CG iter. 27 -- res = 0.22357E-02, tol = 0.36580E+01, time = 2.45 | CG iter. 28 -- res = 0.10248E-02, tol = 0.36580E+01, time = 2.85 | CG iter. 29 -- res = 0.43523E-03, tol = 0.36580E+01, time = 2.88 | CG iter. 30 -- res = 0.22409E-03, tol = 0.36580E+01, time = 2.91 | CG iter. 31 -- res = 0.11182E-03, tol = 0.36580E+01, time = 2.52 | CG iter. 32 -- res = 0.56702E-04, tol = 0.36580E+01, time = 2.83 | CG iter. 33 -- res = 0.26314E-04, tol = 0.36580E+01, time = 2.82 | CG iter. 34 -- res = 0.11465E-04, tol = 0.36580E+01, time = 2.87 | CG iter. 35 -- res = 0.56408E-05, tol = 0.36580E+01, time = 2.54 | CG iter. 36 -- res = 0.27634E-05, tol = 0.36580E+01, time = 2.58 | CG iter. 37 -- res = 0.13611E-05, tol = 0.36580E+01, time = 3.33 | CG iter. 38 -- res = 0.66462E-06, tol = 0.36580E+01, time = 2.82 | CG iter. 39 -- res = 0.30158E-06, tol = 0.36580E+01, time = 2.75 | CG iter. 40 -- res = 0.13928E-06, tol = 0.36580E+01, time = 2.78 | CG iter. 41 -- res = 0.65084E-07, tol = 0.36580E+01, time = 2.63 | CG iter. 42 -- res = 0.32194E-07, tol = 0.36580E+01, time = 2.85 | CG iter. 43 -- res = 0.15037E-07, tol = 0.36580E+01, time = 2.59 | CG iter. 44 -- res = 0.74651E-08, tol = 0.36580E+01, time = 2.84 | CG iter. 45 -- res = 0.34325E-08, tol = 0.36580E+01, time = 2.67 | CG iter. 46 -- res = 0.16292E-08, tol = 0.36580E+01, time = 2.69 | CG iter. 47 -- res = 0.78855E-09, tol = 0.36580E+01, time = 2.84 | CG iter. 48 -- res = 0.36851E-09, tol = 0.36580E+01, time = 2.82 | CG iter. 49 -- res = 0.17497E-09, tol = 0.36580E+01, time = 2.74 | CG iter. 50 -- res = 0.85262E-10, tol = 0.36580E+01, time = 2.76 | Final CG iter 51 -- res = 0.85262E-10, tol = 0.36580E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.965 6.327 | New value 10.362 | Old value -5.965 | Difference 16.327 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.25548E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.10951E+03, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.30401E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.10105E-01, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.35929E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9949042.107 | (Sampled value in CG: 9910683.852 ) | CPU time specind = 1191.760 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.69782E+08, tol = 0.58035E+04, time = 12.00 | CG iter. 2 -- res = 0.59414E+08, tol = 0.58035E+04, time = 11.88 | CG iter. 3 -- res = 0.15826E+08, tol = 0.58035E+04, time = 11.65 | CG iter. 4 -- res = 0.67954E+07, tol = 0.58035E+04, time = 11.86 | CG iter. 5 -- res = 0.40956E+07, tol = 0.58035E+04, time = 11.86 | CG iter. 6 -- res = 0.23791E+07, tol = 0.58035E+04, time = 13.63 | CG iter. 7 -- res = 0.13485E+07, tol = 0.58035E+04, time = 13.10 | CG iter. 8 -- res = 0.88033E+06, tol = 0.58035E+04, time = 11.81 | CG iter. 9 -- res = 0.57323E+06, tol = 0.58035E+04, time = 11.83 | CG iter. 10 -- res = 0.34817E+06, tol = 0.58035E+04, time = 12.04 | CG iter. 11 -- res = 0.19253E+06, tol = 0.58035E+04, time = 11.80 | CG iter. 12 -- res = 0.10876E+06, tol = 0.58035E+04, time = 11.95 | CG iter. 13 -- res = 0.63981E+05, tol = 0.58035E+04, time = 12.15 | CG iter. 14 -- res = 0.43268E+05, tol = 0.58035E+04, time = 12.11 | CG iter. 15 -- res = 0.34474E+05, tol = 0.58035E+04, time = 11.67 | CG iter. 16 -- res = 0.30066E+05, tol = 0.58035E+04, time = 11.43 | CG iter. 17 -- res = 0.27372E+05, tol = 0.58035E+04, time = 12.09 | CG iter. 18 -- res = 0.24853E+05, tol = 0.58035E+04, time = 11.70 | CG iter. 19 -- res = 0.21965E+05, tol = 0.58035E+04, time = 11.46 | CG iter. 20 -- res = 0.20468E+05, tol = 0.58035E+04, time = 11.84 | CG iter. 21 -- res = 0.20100E+05, tol = 0.58035E+04, time = 11.84 | CG iter. 22 -- res = 0.21424E+05, tol = 0.58035E+04, time = 12.04 | CG iter. 23 -- res = 0.23149E+05, tol = 0.58035E+04, time = 11.97 | CG iter. 24 -- res = 0.22661E+05, tol = 0.58035E+04, time = 17.78 | CG iter. 25 -- res = 0.19489E+05, tol = 0.58035E+04, time = 11.66 | CG iter. 26 -- res = 0.15185E+05, tol = 0.58035E+04, time = 11.58 | CG iter. 27 -- res = 0.11418E+05, tol = 0.58035E+04, time = 11.86 | CG iter. 28 -- res = 0.87514E+04, tol = 0.58035E+04, time = 11.69 | CG iter. 29 -- res = 0.71976E+04, tol = 0.58035E+04, time = 11.95 | CG iter. 30 -- res = 0.64130E+04, tol = 0.58035E+04, time = 11.67 | CG iter. 31 -- res = 0.58014E+04, tol = 0.58035E+04, time = 12.70 | CG iter. 32 -- res = 0.51563E+04, tol = 0.58035E+04, time = 12.29 | CG iter. 33 -- res = 0.45871E+04, tol = 0.58035E+04, time = 11.91 | CG iter. 34 -- res = 0.41168E+04, tol = 0.58035E+04, time = 11.69 | CG iter. 35 -- res = 0.36853E+04, tol = 0.58035E+04, time = 11.63 | CG iter. 36 -- res = 0.34465E+04, tol = 0.58035E+04, time = 12.16 | CG iter. 37 -- res = 0.34643E+04, tol = 0.58035E+04, time = 11.88 | CG iter. 38 -- res = 0.34901E+04, tol = 0.58035E+04, time = 11.90 | CG iter. 39 -- res = 0.32779E+04, tol = 0.58035E+04, time = 11.91 | CG iter. 40 -- res = 0.28040E+04, tol = 0.58035E+04, time = 11.98 | CG iter. 41 -- res = 0.23215E+04, tol = 0.58035E+04, time = 11.75 | CG iter. 42 -- res = 0.19656E+04, tol = 0.58035E+04, time = 11.68 | CG iter. 43 -- res = 0.17348E+04, tol = 0.58035E+04, time = 11.63 | CG iter. 44 -- res = 0.16522E+04, tol = 0.58035E+04, time = 11.88 | CG iter. 45 -- res = 0.15814E+04, tol = 0.58035E+04, time = 11.51 | CG iter. 46 -- res = 0.14406E+04, tol = 0.58035E+04, time = 11.92 | CG iter. 47 -- res = 0.13133E+04, tol = 0.58035E+04, time = 12.00 | CG iter. 48 -- res = 0.11727E+04, tol = 0.58035E+04, time = 18.22 | CG iter. 49 -- res = 0.10660E+04, tol = 0.58035E+04, time = 11.43 | CG iter. 50 -- res = 0.10277E+04, tol = 0.58035E+04, time = 12.05 | CG iter. 51 -- res = 0.99433E+03, tol = 0.58035E+04, time = 11.67 | CG iter. 52 -- res = 0.94974E+03, tol = 0.58035E+04, time = 11.95 | CG iter. 53 -- res = 0.89012E+03, tol = 0.58035E+04, time = 11.60 | CG iter. 54 -- res = 0.81253E+03, tol = 0.58035E+04, time = 11.84 | CG iter. 55 -- res = 0.71174E+03, tol = 0.58035E+04, time = 11.47 | CG iter. 56 -- res = 0.62565E+03, tol = 0.58035E+04, time = 13.57 | CG iter. 57 -- res = 0.57250E+03, tol = 0.58035E+04, time = 12.04 | CG iter. 58 -- res = 0.51909E+03, tol = 0.58035E+04, time = 11.89 | CG iter. 59 -- res = 0.48574E+03, tol = 0.58035E+04, time = 11.85 | CG iter. 60 -- res = 0.45459E+03, tol = 0.58035E+04, time = 11.63 | Final CG iter 61 -- res = 0.45459E+03, tol = 0.58035E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.625 ( -229.804 -2231.776 2514.234 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9032320.664 | Old band monopole 9949084.900 | Change to band monopole -916764.236 | Change to component monopole 916760.292 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.200 2.736 | New value -3.336 | Old value 3.200 | Difference -6.536 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.499 ( 8.603 13.712 -12.577 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 24.153 4.442 | New value -10.854 | Old value 24.153 | Difference -35.007 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.28904E+07, tol = 0.47627E+18, time = 2.19 | CG iter. 2 -- res = 0.26062E+03, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.49166E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.14876E-01, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.33082E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9032281.814 | (Sampled value in CG: 9005523.012 ) | Chain = 1 -- chisq = 0.81572222E+09 | Chain = 1 -- wall time = 6076.116 sec Available RAM: MemAvailable: 383736760 kB Available Swap: SwapFree: 1123251232 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 311 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443003 | --> Sampling calibration, mode = relcal | relcal = 1.3429677E-02 7.3003210E-04 -1.5821595E-03 -1.2577550E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191990 0.1256565 97040728.3895164 | BP delta = 0.1180594 0.1245169 97040727.8778894 | BP chisq diff = -0.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632532 | --> Sampling calibration, mode = relcal | relcal = -2.8211209E-03 -7.0467178E-04 1.6782308E-03 1.6141222E-03 -4.0707079E-04 6.4051052E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5720587 15219414.5929777 | BP delta = 0.0000000E+00 -0.5758455 15219420.2233990 | BP chisq diff = 5.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102212 | --> Sampling calibration, mode = relcal | relcal = 3.7073638E-02 1.3707327E-02 5.7501136E-03 -7.1622436E-03 8.2380800E-03 2.3971880E-03 -7.5920415E-03 -7.1789580E-03 -1.5297859E-02 -1.4794228E-02 -3.0488351E-03 -1.2092181E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.144301 132210897.020320 | BP delta = 0.0000000E+00 -1.198967 132210899.964780 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18337799031404 | --> Sampling calibration, mode = relcal | relcal = -7.6210283E-02 -5.9289522E-02 9.3103260E-02 4.2396545E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8113357E-04 6.2470259E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0572E-05 | 2: delta_r/delta_0: 1.5178E-06 | 3: delta_s/delta_0: 1.9838E-07 | 4: delta_r/delta_0: 2.5923E-08 | 5: delta_s/delta_0: 7.2113E-09 | 6: delta_r/delta_0: 2.5371E-09 | 7: delta_s/delta_0: 5.9833E-10 | 8: delta_r/delta_0: 1.9299E-10 | 9: delta_s/delta_0: 1.1057E-10 | 10: delta_r/delta_0: 5.8951E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.469751653103272E-003 2.735391475678341E-005 | BP delta = 6.8495788E-02 8.8769846E-02 50483806.3019967 | BP delta = 7.4514151E-02 9.4788209E-02 50483797.0756165 | BP chisq diff = -9.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02611814 | --> Sampling calibration, mode = relcal | relcal = -0.1067522 -9.5554091E-02 0.1449797 5.7326540E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7753133E-03 1.2863252E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6216E-05 | 2: delta_r/delta_0: 1.1717E-06 | 3: delta_s/delta_0: 2.5671E-07 | 4: delta_r/delta_0: 4.5148E-08 | 5: delta_s/delta_0: 1.8168E-08 | 6: delta_r/delta_0: 6.8574E-09 | 7: delta_s/delta_0: 6.7744E-09 | 8: delta_r/delta_0: 1.4868E-09 | 9: delta_s/delta_0: 7.2946E-10 | 10: delta_r/delta_0: 5.4109E-10 | 11: delta_s/delta_0: 1.8988E-09 | 12: delta_r/delta_0: 2.4490E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.660446641744308E-003 2.810513933604126E-005 | BP delta = -0.3457080 -0.3152904 57395042.1329463 | BP delta = -0.3467144 -0.3162968 57395042.2920403 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243443 | --> Sampling calibration, mode = relcal | relcal = 0.2955854 0.2248641 -0.2838641 -0.2365853 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.0849014E-04 5.3944886E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5402E-03 | 2: delta_r/delta_0: 6.0442E-05 | 3: delta_s/delta_0: 4.4700E-06 | 4: delta_r/delta_0: 6.2326E-07 | 5: delta_s/delta_0: 7.6940E-07 | 6: delta_r/delta_0: 1.7139E-07 | 7: delta_s/delta_0: 1.4959E-07 | 8: delta_r/delta_0: 9.3142E-08 | 9: delta_s/delta_0: 2.7352E-08 | 10: delta_r/delta_0: 7.5777E-09 | 11: delta_s/delta_0: 2.2482E-08 | 12: delta_r/delta_0: 7.2671E-09 | 13: delta_s/delta_0: 4.9028E-10 | 14: delta_r/delta_0: 1.8755E-10 | 15: delta_s/delta_0: 4.2258E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.728739814908404E-002 4.020673785704340E-005 | BP delta = -0.2830986 -0.3164012 72482027.3170830 | BP delta = -0.2657299 -0.2990325 72482027.1921834 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95945070 | --> Sampling calibration, mode = relcal | relcal = 0.1067474 0.1396295 -0.1104573 -0.1359196 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0361159E-02 1.4528213E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0881E-04 | 2: delta_r/delta_0: 1.4916E-05 | 3: delta_s/delta_0: 9.2596E-06 | 4: delta_r/delta_0: 9.4233E-07 | 5: delta_s/delta_0: 4.0935E-07 | 6: delta_r/delta_0: 1.7461E-07 | 7: delta_s/delta_0: 3.9045E-07 | 8: delta_r/delta_0: 3.8069E-08 | 9: delta_s/delta_0: 3.7263E-08 | 10: delta_r/delta_0: 6.2281E-09 | 11: delta_s/delta_0: 5.4965E-09 | 12: delta_r/delta_0: 3.4820E-09 | 13: delta_s/delta_0: 1.2591E-09 | 14: delta_r/delta_0: 4.7596E-10 | 15: delta_s/delta_0: 6.1549E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.365789391190631E-002 3.696180025199270E-005 | BP delta = 8.7042727E-02 0.2074321 72782212.4466275 | BP delta = 0.1010362 0.2214255 72782212.7225084 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52156964 | --> Sampling calibration, mode = relcal | relcal = -5.0991066E-02 -3.7482088E-03 2.7230654E-02 2.7508622E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.4090873E-04 2.1833722E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8726E-05 | 2: delta_r/delta_0: 4.5431E-06 | 3: delta_s/delta_0: 5.4791E-07 | 4: delta_r/delta_0: 1.7077E-07 | 5: delta_s/delta_0: 1.6120E-07 | 6: delta_r/delta_0: 2.7971E-08 | 7: delta_s/delta_0: 2.3977E-08 | 8: delta_r/delta_0: 9.0285E-09 | 9: delta_s/delta_0: 2.3713E-08 | 10: delta_r/delta_0: 2.9919E-09 | 11: delta_s/delta_0: 1.2504E-09 | 12: delta_r/delta_0: 4.2339E-10 | 13: delta_s/delta_0: 2.7555E-10 | 14: delta_r/delta_0: 6.8403E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.208939594900205E-002 5.483280042875221E-005 | BP delta = 0.1047714 0.1962442 91248075.6360334 | BP delta = 9.4025083E-02 0.1854978 91248075.7576092 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42156088 | --> Sampling calibration, mode = relcal | relcal = 4.5599215E-02 3.9654333E-02 -2.8269019E-02 -5.6984529E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8197872E-03 4.4547045E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9522E-05 | 2: delta_r/delta_0: 3.2893E-06 | 3: delta_s/delta_0: 1.8448E-06 | 4: delta_r/delta_0: 2.3508E-07 | 5: delta_s/delta_0: 6.9751E-08 | 6: delta_r/delta_0: 3.5500E-08 | 7: delta_s/delta_0: 5.8402E-07 | 8: delta_r/delta_0: 7.5498E-09 | 9: delta_s/delta_0: 3.4021E-09 | 10: delta_r/delta_0: 1.5584E-09 | 11: delta_s/delta_0: 2.4428E-09 | 12: delta_r/delta_0: 4.0105E-10 | 13: delta_s/delta_0: 1.7041E-10 | 14: delta_r/delta_0: 3.4072E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.409594665426164E-002 4.995875738430303E-005 | BP delta = 5.1093444E-02 -4.7400866E-02 90179585.1684228 | BP delta = 1.9821491E-02 -7.8672819E-02 90179585.4838151 | BP chisq diff = 0.3, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28158028 | --> Sampling calibration, mode = relcal | relcal = 2.4170145E-02 4.5166291E-02 -2.3399554E-02 -4.5936882E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0376943E-02 2.9920384E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0598E-04 | 2: delta_r/delta_0: 8.7939E-06 | 3: delta_s/delta_0: 1.4634E-06 | 4: delta_r/delta_0: 2.6196E-07 | 5: delta_s/delta_0: 1.0961E-07 | 6: delta_r/delta_0: 1.9253E-08 | 7: delta_s/delta_0: 8.6897E-09 | 8: delta_r/delta_0: 4.5300E-09 | 9: delta_s/delta_0: 8.2669E-08 | 10: delta_r/delta_0: 4.2030E-09 | 11: delta_s/delta_0: 8.0524E-10 | 12: delta_r/delta_0: 2.9317E-10 | 13: delta_s/delta_0: 2.7228E-10 | 14: delta_r/delta_0: 1.8240E-10 | 15: delta_s/delta_0: 8.1773E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.118968090675052E-003 7.844782203090118E-005 | BP delta = -0.2458979 -0.3995245 160929467.690314 | BP delta = -0.2572389 -0.4108655 160929467.547111 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29386518 | --> Sampling calibration, mode = relcal | relcal = 5.6317187E-04 1.0259054E-02 -3.8493515E-03 -6.9728740E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5405674E-02 1.5926197E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3233E-04 | 2: delta_r/delta_0: 1.1240E-05 | 3: delta_s/delta_0: 1.8181E-06 | 4: delta_r/delta_0: 2.5738E-07 | 5: delta_s/delta_0: 9.3745E-08 | 6: delta_r/delta_0: 2.2053E-08 | 7: delta_s/delta_0: 1.0052E-08 | 8: delta_r/delta_0: 6.8263E-09 | 9: delta_s/delta_0: 4.8536E-09 | 10: delta_r/delta_0: 3.1680E-09 | 11: delta_s/delta_0: 5.5509E-02 | 12: delta_r/delta_0: 5.1133E-05 | 13: delta_s/delta_0: 6.1308E-10 | 14: delta_r/delta_0: 9.0203E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.600104937063297E-003 8.308315366348820E-005 | BP delta = -0.8037840 -0.7578103 157876896.335894 | BP delta = -0.8095682 -0.7635946 157876896.288491 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26502527 | --> Sampling calibration, mode = relcal | relcal = -5.5681453E-03 1.5041640E-02 -2.3874717E-03 -7.0860228E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.1727972E-04 2.8493491E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4074E-04 | 2: delta_r/delta_0: 1.1858E-05 | 3: delta_s/delta_0: 2.1433E-06 | 4: delta_r/delta_0: 2.0332E-07 | 5: delta_s/delta_0: 8.5915E-08 | 6: delta_r/delta_0: 1.7410E-08 | 7: delta_s/delta_0: 8.9579E-09 | 8: delta_r/delta_0: 5.9075E-09 | 9: delta_s/delta_0: 8.8920E-08 | 10: delta_r/delta_0: 1.1784E-08 | 11: delta_s/delta_0: 1.9761E-09 | 12: delta_r/delta_0: 4.3002E-10 | 13: delta_s/delta_0: 1.1214E-09 | 14: delta_r/delta_0: 2.3170E-10 | 15: delta_s/delta_0: 6.4951E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.534484645153096E-003 9.154880060922828E-005 | BP delta = 0.3431881 0.3748104 157025492.069234 | BP delta = 0.3112194 0.3428417 157025491.919984 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25643200 | --> Sampling calibration, mode = relcal | relcal = -3.1754535E-02 -2.5925506E-02 3.6849685E-02 2.0830357E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5194459E-02 1.8637044E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5111E-04 | 2: delta_r/delta_0: 1.2318E-05 | 3: delta_s/delta_0: 2.0364E-06 | 4: delta_r/delta_0: 3.6502E-07 | 5: delta_s/delta_0: 1.2388E-07 | 6: delta_r/delta_0: 3.0678E-08 | 7: delta_s/delta_0: 1.3274E-08 | 8: delta_r/delta_0: 7.7981E-09 | 9: delta_s/delta_0: 1.6464E-08 | 10: delta_r/delta_0: 5.0053E-09 | 11: delta_s/delta_0: 1.6416E-08 | 12: delta_r/delta_0: 3.4534E-09 | 13: delta_s/delta_0: 4.5456E-09 | 14: delta_r/delta_0: 2.7087E-09 | 15: delta_s/delta_0: 1.0760E-10 | 16: delta_r/delta_0: 9.0159E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.775622557402313E-003 8.679296602170004E-005 | BP delta = -0.8076026 -0.9807319 158542374.642544 | BP delta = -0.8079543 -0.9810835 158542374.642520 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.268512 | New value = -3.160318 | poltype: 2 pol: 1 CPU time specind = 2.4764061E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165299 | New value = -3.230541 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203031 | New value = -3.157799 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115837 | New value = -3.124885 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131421 | New value = -3.054942 | poltype: 2 pol: 2 CPU time specind = 2.1353006E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.13 | CG iter. 1 -- res = 0.13643E+08, tol = 0.76714E+01, time = 5.54 | CG iter. 2 -- res = 0.38623E+06, tol = 0.76714E+01, time = 6.25 | CG iter. 3 -- res = 0.91443E+05, tol = 0.76714E+01, time = 5.49 | CG iter. 4 -- res = 0.10157E+06, tol = 0.76714E+01, time = 5.58 | CG iter. 5 -- res = 0.11090E+06, tol = 0.76714E+01, time = 7.29 | CG iter. 6 -- res = 0.11251E+06, tol = 0.76714E+01, time = 5.81 | CG iter. 7 -- res = 0.10204E+06, tol = 0.76714E+01, time = 6.09 | CG iter. 8 -- res = 0.77430E+05, tol = 0.76714E+01, time = 5.91 | CG iter. 9 -- res = 0.63159E+05, tol = 0.76714E+01, time = 5.67 | CG iter. 10 -- res = 0.49905E+05, tol = 0.76714E+01, time = 6.04 | CG iter. 11 -- res = 0.35252E+05, tol = 0.76714E+01, time = 6.00 | CG iter. 12 -- res = 0.25890E+05, tol = 0.76714E+01, time = 5.57 | CG iter. 13 -- res = 0.22388E+05, tol = 0.76714E+01, time = 5.86 | CG iter. 14 -- res = 0.20383E+05, tol = 0.76714E+01, time = 5.97 | CG iter. 15 -- res = 0.16220E+05, tol = 0.76714E+01, time = 5.61 | CG iter. 16 -- res = 0.11735E+05, tol = 0.76714E+01, time = 5.90 | CG iter. 17 -- res = 0.86552E+04, tol = 0.76714E+01, time = 5.54 | CG iter. 18 -- res = 0.75852E+04, tol = 0.76714E+01, time = 5.95 | CG iter. 19 -- res = 0.67098E+04, tol = 0.76714E+01, time = 5.48 | CG iter. 20 -- res = 0.53375E+04, tol = 0.76714E+01, time = 5.70 | CG iter. 21 -- res = 0.40739E+04, tol = 0.76714E+01, time = 5.54 | CG iter. 22 -- res = 0.34704E+04, tol = 0.76714E+01, time = 5.52 | CG iter. 23 -- res = 0.31449E+04, tol = 0.76714E+01, time = 5.45 | CG iter. 24 -- res = 0.25107E+04, tol = 0.76714E+01, time = 5.83 | CG iter. 25 -- res = 0.19843E+04, tol = 0.76714E+01, time = 5.61 | CG iter. 26 -- res = 0.15974E+04, tol = 0.76714E+01, time = 5.50 | CG iter. 27 -- res = 0.14862E+04, tol = 0.76714E+01, time = 5.73 | CG iter. 28 -- res = 0.13212E+04, tol = 0.76714E+01, time = 5.38 | CG iter. 29 -- res = 0.10629E+04, tol = 0.76714E+01, time = 5.68 | CG iter. 30 -- res = 0.85378E+03, tol = 0.76714E+01, time = 5.78 | CG iter. 31 -- res = 0.77827E+03, tol = 0.76714E+01, time = 5.93 | CG iter. 32 -- res = 0.68804E+03, tol = 0.76714E+01, time = 5.75 | CG iter. 33 -- res = 0.54824E+03, tol = 0.76714E+01, time = 5.81 | CG iter. 34 -- res = 0.43085E+03, tol = 0.76714E+01, time = 5.66 | CG iter. 35 -- res = 0.35082E+03, tol = 0.76714E+01, time = 5.37 | CG iter. 36 -- res = 0.31596E+03, tol = 0.76714E+01, time = 5.76 | CG iter. 37 -- res = 0.25999E+03, tol = 0.76714E+01, time = 5.35 | CG iter. 38 -- res = 0.19336E+03, tol = 0.76714E+01, time = 5.98 | CG iter. 39 -- res = 0.15409E+03, tol = 0.76714E+01, time = 5.57 | CG iter. 40 -- res = 0.12815E+03, tol = 0.76714E+01, time = 5.68 | CG iter. 41 -- res = 0.10803E+03, tol = 0.76714E+01, time = 11.44 | CG iter. 42 -- res = 0.80128E+02, tol = 0.76714E+01, time = 6.58 | CG iter. 43 -- res = 0.62767E+02, tol = 0.76714E+01, time = 5.67 | CG iter. 44 -- res = 0.51315E+02, tol = 0.76714E+01, time = 5.46 | CG iter. 45 -- res = 0.41969E+02, tol = 0.76714E+01, time = 5.63 | CG iter. 46 -- res = 0.31745E+02, tol = 0.76714E+01, time = 5.83 | CG iter. 47 -- res = 0.24430E+02, tol = 0.76714E+01, time = 5.23 | CG iter. 48 -- res = 0.20005E+02, tol = 0.76714E+01, time = 5.64 | CG iter. 49 -- res = 0.16620E+02, tol = 0.76714E+01, time = 5.71 | CG iter. 50 -- res = 0.13195E+02, tol = 0.76714E+01, time = 5.47 | Final CG iter 51 -- res = 0.13195E+02, tol = 0.76714E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8545680.752 | Old band monopole 9032320.664 | Change to band monopole -486639.912 | Change to component monopole 486637.819 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.44726E+06, tol = 0.47627E+18, time = 3.12 | CG iter. 2 -- res = 0.16535E+03, tol = 0.47627E+18, time = 2.36 | CG iter. 3 -- res = 0.29090E+01, tol = 0.47627E+18, time = 2.17 | CG iter. 4 -- res = 0.25901E-01, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.33460E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8545643.996 | (Sampled value in CG: 8619575.545 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475052 | New value = 1.552850 | poltype: 2 pol: 1 CPU time specind = 1.5641928E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.540625 | New value = 1.530242 | poltype: 2 pol: 2 CPU time specind = 1.6215086E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.25328E+08, tol = 0.47646E+04, time = 6.25 | CG iter. 2 -- res = 0.53666E+07, tol = 0.47646E+04, time = 6.67 | CG iter. 3 -- res = 0.84276E+06, tol = 0.47646E+04, time = 6.51 | CG iter. 4 -- res = 0.34438E+06, tol = 0.47646E+04, time = 6.43 | CG iter. 5 -- res = 0.14990E+06, tol = 0.47646E+04, time = 7.16 | CG iter. 6 -- res = 0.79670E+05, tol = 0.47646E+04, time = 6.19 | CG iter. 7 -- res = 0.43469E+05, tol = 0.47646E+04, time = 6.38 | CG iter. 8 -- res = 0.20343E+05, tol = 0.47646E+04, time = 6.48 | CG iter. 9 -- res = 0.87893E+04, tol = 0.47646E+04, time = 6.29 | CG iter. 10 -- res = 0.36047E+04, tol = 0.47646E+04, time = 6.72 | CG iter. 11 -- res = 0.16184E+04, tol = 0.47646E+04, time = 6.28 | CG iter. 12 -- res = 0.83885E+03, tol = 0.47646E+04, time = 6.33 | CG iter. 13 -- res = 0.48288E+03, tol = 0.47646E+04, time = 6.16 | CG iter. 14 -- res = 0.26488E+03, tol = 0.47646E+04, time = 6.50 | CG iter. 15 -- res = 0.13633E+03, tol = 0.47646E+04, time = 6.31 | CG iter. 16 -- res = 0.67197E+02, tol = 0.47646E+04, time = 6.63 | CG iter. 17 -- res = 0.31767E+02, tol = 0.47646E+04, time = 6.35 | CG iter. 18 -- res = 0.15570E+02, tol = 0.47646E+04, time = 6.44 | CG iter. 19 -- res = 0.81847E+01, tol = 0.47646E+04, time = 6.29 | CG iter. 20 -- res = 0.45540E+01, tol = 0.47646E+04, time = 12.69 | CG iter. 21 -- res = 0.24489E+01, tol = 0.47646E+04, time = 6.66 | CG iter. 22 -- res = 0.12604E+01, tol = 0.47646E+04, time = 6.44 | CG iter. 23 -- res = 0.63520E+00, tol = 0.47646E+04, time = 6.49 | CG iter. 24 -- res = 0.33756E+00, tol = 0.47646E+04, time = 6.42 | CG iter. 25 -- res = 0.18737E+00, tol = 0.47646E+04, time = 6.72 | CG iter. 26 -- res = 0.10702E+00, tol = 0.47646E+04, time = 6.62 | CG iter. 27 -- res = 0.59548E-01, tol = 0.47646E+04, time = 6.06 | CG iter. 28 -- res = 0.31755E-01, tol = 0.47646E+04, time = 6.24 | CG iter. 29 -- res = 0.16225E-01, tol = 0.47646E+04, time = 6.17 | CG iter. 30 -- res = 0.85344E-02, tol = 0.47646E+04, time = 6.48 | CG iter. 31 -- res = 0.47663E-02, tol = 0.47646E+04, time = 6.48 | CG iter. 32 -- res = 0.26780E-02, tol = 0.47646E+04, time = 6.31 | CG iter. 33 -- res = 0.14846E-02, tol = 0.47646E+04, time = 7.72 | CG iter. 34 -- res = 0.79858E-03, tol = 0.47646E+04, time = 6.84 | CG iter. 35 -- res = 0.42096E-03, tol = 0.47646E+04, time = 6.46 | Final CG iter 36 -- res = 0.42096E-03, tol = 0.47646E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.336 2.721 | New value 0.081 | Old value -3.336 | Difference 3.417 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.62196E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.84172E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.21715E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.19935E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.24377E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8545643.996 | (Sampled value in CG: 8619095.154 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.728952 | New value = -3.541221 | poltype: 1 pol: 1 CPU time specind = 2.2353888E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.34204E+07, tol = 0.23513E+01, time = 2.74 | CG iter. 2 -- res = 0.14788E+07, tol = 0.23513E+01, time = 3.21 | CG iter. 3 -- res = 0.31740E+06, tol = 0.23513E+01, time = 2.90 | CG iter. 4 -- res = 0.14791E+06, tol = 0.23513E+01, time = 2.86 | CG iter. 5 -- res = 0.89846E+05, tol = 0.23513E+01, time = 2.53 | CG iter. 6 -- res = 0.39025E+05, tol = 0.23513E+01, time = 2.62 | CG iter. 7 -- res = 0.12792E+05, tol = 0.23513E+01, time = 2.73 | CG iter. 8 -- res = 0.56665E+04, tol = 0.23513E+01, time = 2.63 | CG iter. 9 -- res = 0.26491E+04, tol = 0.23513E+01, time = 2.53 | CG iter. 10 -- res = 0.10544E+04, tol = 0.23513E+01, time = 2.73 | CG iter. 11 -- res = 0.42981E+03, tol = 0.23513E+01, time = 2.58 | CG iter. 12 -- res = 0.21187E+03, tol = 0.23513E+01, time = 2.39 | CG iter. 13 -- res = 0.10728E+03, tol = 0.23513E+01, time = 2.68 | CG iter. 14 -- res = 0.54895E+02, tol = 0.23513E+01, time = 2.54 | CG iter. 15 -- res = 0.26038E+02, tol = 0.23513E+01, time = 2.62 | CG iter. 16 -- res = 0.11506E+02, tol = 0.23513E+01, time = 2.61 | CG iter. 17 -- res = 0.46960E+01, tol = 0.23513E+01, time = 3.02 | CG iter. 18 -- res = 0.21645E+01, tol = 0.23513E+01, time = 2.65 | CG iter. 19 -- res = 0.10692E+01, tol = 0.23513E+01, time = 2.75 | CG iter. 20 -- res = 0.56120E+00, tol = 0.23513E+01, time = 2.60 | CG iter. 21 -- res = 0.27381E+00, tol = 0.23513E+01, time = 2.78 | CG iter. 22 -- res = 0.12708E+00, tol = 0.23513E+01, time = 2.76 | CG iter. 23 -- res = 0.54168E-01, tol = 0.23513E+01, time = 2.51 | CG iter. 24 -- res = 0.25440E-01, tol = 0.23513E+01, time = 2.98 | CG iter. 25 -- res = 0.12410E-01, tol = 0.23513E+01, time = 2.68 | CG iter. 26 -- res = 0.59609E-02, tol = 0.23513E+01, time = 2.55 | CG iter. 27 -- res = 0.33075E-02, tol = 0.23513E+01, time = 2.76 | CG iter. 28 -- res = 0.16363E-02, tol = 0.23513E+01, time = 2.93 | CG iter. 29 -- res = 0.74000E-03, tol = 0.23513E+01, time = 2.56 | CG iter. 30 -- res = 0.34992E-03, tol = 0.23513E+01, time = 2.64 | CG iter. 31 -- res = 0.16673E-03, tol = 0.23513E+01, time = 2.53 | CG iter. 32 -- res = 0.83535E-04, tol = 0.23513E+01, time = 2.68 | CG iter. 33 -- res = 0.42765E-04, tol = 0.23513E+01, time = 2.33 | CG iter. 34 -- res = 0.21416E-04, tol = 0.23513E+01, time = 3.29 | CG iter. 35 -- res = 0.10156E-04, tol = 0.23513E+01, time = 2.57 | CG iter. 36 -- res = 0.50899E-05, tol = 0.23513E+01, time = 2.67 | CG iter. 37 -- res = 0.23001E-05, tol = 0.23513E+01, time = 2.61 | CG iter. 38 -- res = 0.11317E-05, tol = 0.23513E+01, time = 2.80 | CG iter. 39 -- res = 0.56342E-06, tol = 0.23513E+01, time = 2.62 | CG iter. 40 -- res = 0.27157E-06, tol = 0.23513E+01, time = 3.48 | CG iter. 41 -- res = 0.13265E-06, tol = 0.23513E+01, time = 2.61 | CG iter. 42 -- res = 0.63723E-07, tol = 0.23513E+01, time = 2.42 | CG iter. 43 -- res = 0.29223E-07, tol = 0.23513E+01, time = 2.51 | CG iter. 44 -- res = 0.13480E-07, tol = 0.23513E+01, time = 2.73 | CG iter. 45 -- res = 0.67744E-08, tol = 0.23513E+01, time = 2.72 | CG iter. 46 -- res = 0.33753E-08, tol = 0.23513E+01, time = 2.80 | CG iter. 47 -- res = 0.17654E-08, tol = 0.23513E+01, time = 2.49 | CG iter. 48 -- res = 0.84874E-09, tol = 0.23513E+01, time = 2.40 | CG iter. 49 -- res = 0.37844E-09, tol = 0.23513E+01, time = 2.64 | CG iter. 50 -- res = 0.17272E-09, tol = 0.23513E+01, time = 2.89 | Final CG iter 51 -- res = 0.17272E-09, tol = 0.23513E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.741 3.504 | New value 2.285 | Old value -5.741 | Difference 8.026 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.64521E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.63046E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.22040E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.77636E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.13214E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8545643.996 | (Sampled value in CG: 8603281.804 ) | CPU time specind = 1178.591 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.71846E+08, tol = 0.57683E+04, time = 11.79 | CG iter. 2 -- res = 0.60572E+08, tol = 0.57683E+04, time = 11.79 | CG iter. 3 -- res = 0.16042E+08, tol = 0.57683E+04, time = 11.16 | CG iter. 4 -- res = 0.67769E+07, tol = 0.57683E+04, time = 11.39 | CG iter. 5 -- res = 0.41459E+07, tol = 0.57683E+04, time = 11.80 | CG iter. 6 -- res = 0.24537E+07, tol = 0.57683E+04, time = 11.54 | CG iter. 7 -- res = 0.14637E+07, tol = 0.57683E+04, time = 12.64 | CG iter. 8 -- res = 0.97852E+06, tol = 0.57683E+04, time = 11.91 | CG iter. 9 -- res = 0.62561E+06, tol = 0.57683E+04, time = 11.47 | CG iter. 10 -- res = 0.38834E+06, tol = 0.57683E+04, time = 11.62 | CG iter. 11 -- res = 0.22771E+06, tol = 0.57683E+04, time = 12.14 | CG iter. 12 -- res = 0.13366E+06, tol = 0.57683E+04, time = 11.56 | CG iter. 13 -- res = 0.85216E+05, tol = 0.57683E+04, time = 11.78 | CG iter. 14 -- res = 0.62017E+05, tol = 0.57683E+04, time = 11.60 | CG iter. 15 -- res = 0.52930E+05, tol = 0.57683E+04, time = 11.97 | CG iter. 16 -- res = 0.51775E+05, tol = 0.57683E+04, time = 11.75 | CG iter. 17 -- res = 0.52284E+05, tol = 0.57683E+04, time = 11.60 | CG iter. 18 -- res = 0.50874E+05, tol = 0.57683E+04, time = 11.66 | CG iter. 19 -- res = 0.46501E+05, tol = 0.57683E+04, time = 11.51 | CG iter. 20 -- res = 0.43052E+05, tol = 0.57683E+04, time = 11.41 | CG iter. 21 -- res = 0.40211E+05, tol = 0.57683E+04, time = 11.26 | CG iter. 22 -- res = 0.39864E+05, tol = 0.57683E+04, time = 11.45 | CG iter. 23 -- res = 0.38991E+05, tol = 0.57683E+04, time = 11.02 | CG iter. 24 -- res = 0.34756E+05, tol = 0.57683E+04, time = 11.62 | CG iter. 25 -- res = 0.28066E+05, tol = 0.57683E+04, time = 17.72 | CG iter. 26 -- res = 0.20707E+05, tol = 0.57683E+04, time = 11.36 | CG iter. 27 -- res = 0.15172E+05, tol = 0.57683E+04, time = 11.31 | CG iter. 28 -- res = 0.11825E+05, tol = 0.57683E+04, time = 10.88 | CG iter. 29 -- res = 0.10034E+05, tol = 0.57683E+04, time = 11.88 | CG iter. 30 -- res = 0.91116E+04, tol = 0.57683E+04, time = 12.04 | CG iter. 31 -- res = 0.83452E+04, tol = 0.57683E+04, time = 11.61 | CG iter. 32 -- res = 0.75171E+04, tol = 0.57683E+04, time = 12.81 | CG iter. 33 -- res = 0.66258E+04, tol = 0.57683E+04, time = 12.00 | CG iter. 34 -- res = 0.59762E+04, tol = 0.57683E+04, time = 11.34 | CG iter. 35 -- res = 0.53705E+04, tol = 0.57683E+04, time = 11.61 | CG iter. 36 -- res = 0.47267E+04, tol = 0.57683E+04, time = 11.32 | CG iter. 37 -- res = 0.43296E+04, tol = 0.57683E+04, time = 11.40 | CG iter. 38 -- res = 0.39378E+04, tol = 0.57683E+04, time = 11.70 | CG iter. 39 -- res = 0.34060E+04, tol = 0.57683E+04, time = 11.49 | CG iter. 40 -- res = 0.28021E+04, tol = 0.57683E+04, time = 11.77 | CG iter. 41 -- res = 0.22564E+04, tol = 0.57683E+04, time = 11.73 | CG iter. 42 -- res = 0.18579E+04, tol = 0.57683E+04, time = 11.56 | CG iter. 43 -- res = 0.16179E+04, tol = 0.57683E+04, time = 11.19 | CG iter. 44 -- res = 0.15176E+04, tol = 0.57683E+04, time = 11.82 | CG iter. 45 -- res = 0.14230E+04, tol = 0.57683E+04, time = 11.58 | CG iter. 46 -- res = 0.13010E+04, tol = 0.57683E+04, time = 11.36 | CG iter. 47 -- res = 0.11743E+04, tol = 0.57683E+04, time = 11.69 | CG iter. 48 -- res = 0.10296E+04, tol = 0.57683E+04, time = 11.82 | CG iter. 49 -- res = 0.90725E+03, tol = 0.57683E+04, time = 11.31 | CG iter. 50 -- res = 0.82347E+03, tol = 0.57683E+04, time = 18.08 | CG iter. 51 -- res = 0.76319E+03, tol = 0.57683E+04, time = 11.80 | CG iter. 52 -- res = 0.72224E+03, tol = 0.57683E+04, time = 11.62 | CG iter. 53 -- res = 0.66673E+03, tol = 0.57683E+04, time = 11.66 | CG iter. 54 -- res = 0.57716E+03, tol = 0.57683E+04, time = 11.23 | CG iter. 55 -- res = 0.50064E+03, tol = 0.57683E+04, time = 11.41 | CG iter. 56 -- res = 0.43466E+03, tol = 0.57683E+04, time = 11.55 | CG iter. 57 -- res = 0.38373E+03, tol = 0.57683E+04, time = 12.50 | CG iter. 58 -- res = 0.36111E+03, tol = 0.57683E+04, time = 12.66 | CG iter. 59 -- res = 0.34987E+03, tol = 0.57683E+04, time = 11.74 | CG iter. 60 -- res = 0.33223E+03, tol = 0.57683E+04, time = 11.55 | Final CG iter 61 -- res = 0.33223E+03, tol = 0.57683E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.830 ( -229.466 -2229.919 2512.527 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8954806.403 | Old band monopole 8545680.752 | Change to band monopole 409125.651 | Change to component monopole -409123.891 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.115 2.739 | New value 2.980 | Old value 0.115 | Difference 2.865 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.726 ( 6.301 9.961 -9.593 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.156 5.334 | New value -1.655 | Old value -3.156 | Difference 1.501 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.42855E+06, tol = 0.47627E+18, time = 2.10 | CG iter. 2 -- res = 0.18725E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.19164E+00, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.28038E-03, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.82223E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8954767.886 | (Sampled value in CG: 8942639.090 ) | Chain = 1 -- chisq = 0.81503254E+09 | Chain = 1 -- wall time = 16778.874 sec Available RAM: MemAvailable: 470535044 kB Available Swap: SwapFree: 1102113136 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 312 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445487 | --> Sampling calibration, mode = relcal | relcal = 1.3425499E-02 7.4118905E-04 -1.5872988E-03 -1.2579390E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1180594 0.1245169 9401744.18625493 | BP delta = 0.1180594 0.1221418 9401770.87074367 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632339 | --> Sampling calibration, mode = relcal | relcal = -2.8209938E-03 -7.0296857E-04 1.6782266E-03 1.6148000E-03 -4.0964069E-04 6.4057653E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5758455 15218429.4133567 | BP delta = 0.0000000E+00 -0.5795441 15218429.8474295 | BP chisq diff = 0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17844811299234 | --> Sampling calibration, mode = relcal | relcal = -7.3915921E-02 -5.7639431E-02 9.0632558E-02 4.0922794E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7153777E-04 2.9495910E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2906E-03 | 2: delta_r/delta_0: 2.4836E-05 | 3: delta_s/delta_0: 2.3012E-07 | 4: delta_r/delta_0: 3.1453E-08 | 5: delta_s/delta_0: 5.9650E-08 | 6: delta_r/delta_0: 1.3372E-08 | 7: delta_s/delta_0: 8.6640E-10 | 8: delta_r/delta_0: 2.5441E-10 | 9: delta_s/delta_0: 2.3096E-10 | 10: delta_r/delta_0: 1.2410E-10 | 11: delta_s/delta_0: 5.9162E-10 | 12: delta_r/delta_0: 1.2285E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.351104103139772E-003 2.747159099480736E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2904E-03 | 2: delta_r/delta_0: 2.4827E-05 | 3: delta_s/delta_0: 2.3015E-07 | 4: delta_r/delta_0: 3.1460E-08 | 5: delta_s/delta_0: 5.9734E-08 | 6: delta_r/delta_0: 1.3386E-08 | 7: delta_s/delta_0: 8.6654E-10 | 8: delta_r/delta_0: 2.5453E-10 | 9: delta_s/delta_0: 2.3108E-10 | 10: delta_r/delta_0: 1.2420E-10 | 11: delta_s/delta_0: 5.9180E-10 | 12: delta_r/delta_0: 1.2288E-11 | Reached bicg-stab tolerance | BP delta = 7.4514151E-02 9.4788209E-02 3643028.79687036 | BP delta = 7.4514151E-02 9.4634958E-02 3647202.81403065 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02587617 | --> Sampling calibration, mode = relcal | relcal = -0.1066659 -9.5570035E-02 0.1449492 5.7286676E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3425435E-03 1.6680092E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5719E-05 | 2: delta_r/delta_0: 1.1659E-06 | 3: delta_s/delta_0: 2.5111E-07 | 4: delta_r/delta_0: 4.8196E-08 | 5: delta_s/delta_0: 1.7777E-08 | 6: delta_r/delta_0: 6.8298E-09 | 7: delta_s/delta_0: 1.3422E-08 | 8: delta_r/delta_0: 9.5856E-10 | 9: delta_s/delta_0: 9.4452E-10 | 10: delta_r/delta_0: 1.4148E-10 | 11: delta_s/delta_0: 1.6565E-09 | 12: delta_r/delta_0: 1.9131E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.763743487230530E-003 2.811157575402679E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5719E-05 | 2: delta_r/delta_0: 1.1659E-06 | 3: delta_s/delta_0: 2.5113E-07 | 4: delta_r/delta_0: 4.8216E-08 | 5: delta_s/delta_0: 1.7770E-08 | 6: delta_r/delta_0: 6.8314E-09 | 7: delta_s/delta_0: 1.3431E-08 | 8: delta_r/delta_0: 9.5884E-10 | 9: delta_s/delta_0: 9.4471E-10 | 10: delta_r/delta_0: 1.4159E-10 | 11: delta_s/delta_0: 1.6592E-09 | 12: delta_r/delta_0: 1.9137E-11 | Reached bicg-stab tolerance | BP delta = -0.3467144 -0.3162968 2841320.46300886 | BP delta = -0.3467144 -0.3177495 2841413.68845322 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81216619 | --> Sampling calibration, mode = relcal | relcal = 0.2954686 0.2248579 -0.2837732 -0.2365534 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7298730E-04 5.0787339E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5755E-04 | 2: delta_r/delta_0: 1.8232E-05 | 3: delta_s/delta_0: 9.0394E-05 | 4: delta_r/delta_0: 3.6524E-06 | 5: delta_s/delta_0: 3.4106E-07 | 6: delta_r/delta_0: 1.3838E-07 | 7: delta_s/delta_0: 4.4566E-07 | 8: delta_r/delta_0: 3.8527E-08 | 9: delta_s/delta_0: 1.4742E-08 | 10: delta_r/delta_0: 1.9162E-09 | 11: delta_s/delta_0: 2.4635E-09 | 12: delta_r/delta_0: 1.2470E-09 | 13: delta_s/delta_0: 1.6589E-10 | 14: delta_r/delta_0: 8.3254E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.282074608179958E-002 4.022094360422828E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.5751E-04 | 2: delta_r/delta_0: 1.8231E-05 | 3: delta_s/delta_0: 9.0399E-05 | 4: delta_r/delta_0: 3.6528E-06 | 5: delta_s/delta_0: 3.4105E-07 | 6: delta_r/delta_0: 1.3837E-07 | 7: delta_s/delta_0: 4.4585E-07 | 8: delta_r/delta_0: 3.8527E-08 | 9: delta_s/delta_0: 1.4742E-08 | 10: delta_r/delta_0: 1.9160E-09 | 11: delta_s/delta_0: 2.4634E-09 | 12: delta_r/delta_0: 1.2470E-09 | 13: delta_s/delta_0: 1.6589E-10 | 14: delta_r/delta_0: 8.3254E-11 | Reached bicg-stab tolerance | BP delta = -0.2657299 -0.2990325 2827325.12299015 | BP delta = -0.2657299 -0.3067091 2827334.68059955 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95896424 | --> Sampling calibration, mode = relcal | relcal = 0.1064976 0.1394823 -0.1101720 -0.1358080 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0804501E-03 1.3734161E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5585E-03 | 2: delta_r/delta_0: 3.7621E-05 | 3: delta_s/delta_0: 8.8518E-04 | 4: delta_r/delta_0: 3.7078E-05 | 5: delta_s/delta_0: 4.5258E-07 | 6: delta_r/delta_0: 1.7293E-07 | 7: delta_s/delta_0: 3.7520E-07 | 8: delta_r/delta_0: 4.7298E-08 | 9: delta_s/delta_0: 1.5812E-08 | 10: delta_r/delta_0: 6.4727E-09 | 11: delta_s/delta_0: 2.4529E-09 | 12: delta_r/delta_0: 1.1785E-09 | 13: delta_s/delta_0: 1.2756E-09 | 14: delta_r/delta_0: 1.2721E-10 | 15: delta_s/delta_0: 7.8104E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.626912779172822E-002 3.697914990377234E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5586E-03 | 2: delta_r/delta_0: 3.7624E-05 | 3: delta_s/delta_0: 8.8504E-04 | 4: delta_r/delta_0: 3.7072E-05 | 5: delta_s/delta_0: 4.5260E-07 | 6: delta_r/delta_0: 1.7294E-07 | 7: delta_s/delta_0: 3.7519E-07 | 8: delta_r/delta_0: 4.7299E-08 | 9: delta_s/delta_0: 1.5812E-08 | 10: delta_r/delta_0: 6.4736E-09 | 11: delta_s/delta_0: 2.4529E-09 | 12: delta_r/delta_0: 1.1785E-09 | 13: delta_s/delta_0: 1.2753E-09 | 14: delta_r/delta_0: 1.2719E-10 | 15: delta_s/delta_0: 7.8101E-11 | Reached bicg-stab tolerance | BP delta = 0.1010362 0.2214255 3004167.65837343 | BP delta = 0.1010362 0.2235927 3004182.37568476 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160318 | New value = -3.185165 | poltype: 2 pol: 1 CPU time specind = 1.2623787E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230541 | New value = -3.085305 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157799 | New value = -3.090198 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124885 | New value = -3.138150 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.054942 | New value = -3.118188 | poltype: 2 pol: 2 CPU time specind = 6.5531731E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.13553E+08, tol = 0.78673E+01, time = 5.62 | CG iter. 2 -- res = 0.31298E+06, tol = 0.78673E+01, time = 5.89 | CG iter. 3 -- res = 0.48242E+05, tol = 0.78673E+01, time = 5.63 | CG iter. 4 -- res = 0.25912E+05, tol = 0.78673E+01, time = 5.83 | CG iter. 5 -- res = 0.16345E+05, tol = 0.78673E+01, time = 5.89 | CG iter. 6 -- res = 0.12834E+05, tol = 0.78673E+01, time = 5.55 | CG iter. 7 -- res = 0.12086E+05, tol = 0.78673E+01, time = 5.79 | CG iter. 8 -- res = 0.11591E+05, tol = 0.78673E+01, time = 6.00 | CG iter. 9 -- res = 0.11967E+05, tol = 0.78673E+01, time = 5.58 | CG iter. 10 -- res = 0.11753E+05, tol = 0.78673E+01, time = 5.63 | CG iter. 11 -- res = 0.87321E+04, tol = 0.78673E+01, time = 6.08 | CG iter. 12 -- res = 0.57608E+04, tol = 0.78673E+01, time = 5.91 | CG iter. 13 -- res = 0.38759E+04, tol = 0.78673E+01, time = 6.06 | CG iter. 14 -- res = 0.32139E+04, tol = 0.78673E+01, time = 5.49 | CG iter. 15 -- res = 0.29280E+04, tol = 0.78673E+01, time = 5.55 | CG iter. 16 -- res = 0.23416E+04, tol = 0.78673E+01, time = 6.07 | CG iter. 17 -- res = 0.18085E+04, tol = 0.78673E+01, time = 5.41 | CG iter. 18 -- res = 0.15037E+04, tol = 0.78673E+01, time = 5.84 | CG iter. 19 -- res = 0.13280E+04, tol = 0.78673E+01, time = 11.73 | CG iter. 20 -- res = 0.10766E+04, tol = 0.78673E+01, time = 5.66 | CG iter. 21 -- res = 0.81710E+03, tol = 0.78673E+01, time = 6.05 | CG iter. 22 -- res = 0.61940E+03, tol = 0.78673E+01, time = 5.51 | CG iter. 23 -- res = 0.56345E+03, tol = 0.78673E+01, time = 5.99 | CG iter. 24 -- res = 0.48902E+03, tol = 0.78673E+01, time = 6.04 | CG iter. 25 -- res = 0.37965E+03, tol = 0.78673E+01, time = 5.58 | CG iter. 26 -- res = 0.29688E+03, tol = 0.78673E+01, time = 6.27 | CG iter. 27 -- res = 0.26372E+03, tol = 0.78673E+01, time = 6.03 | CG iter. 28 -- res = 0.24962E+03, tol = 0.78673E+01, time = 5.91 | CG iter. 29 -- res = 0.20848E+03, tol = 0.78673E+01, time = 5.42 | CG iter. 30 -- res = 0.17873E+03, tol = 0.78673E+01, time = 6.11 | CG iter. 31 -- res = 0.16370E+03, tol = 0.78673E+01, time = 5.78 | CG iter. 32 -- res = 0.15081E+03, tol = 0.78673E+01, time = 5.92 | CG iter. 33 -- res = 0.12887E+03, tol = 0.78673E+01, time = 6.70 | CG iter. 34 -- res = 0.99535E+02, tol = 0.78673E+01, time = 6.69 | CG iter. 35 -- res = 0.84249E+02, tol = 0.78673E+01, time = 6.30 | CG iter. 36 -- res = 0.76329E+02, tol = 0.78673E+01, time = 5.84 | CG iter. 37 -- res = 0.63691E+02, tol = 0.78673E+01, time = 5.49 | CG iter. 38 -- res = 0.50484E+02, tol = 0.78673E+01, time = 5.53 | CG iter. 39 -- res = 0.38779E+02, tol = 0.78673E+01, time = 6.15 | CG iter. 40 -- res = 0.33252E+02, tol = 0.78673E+01, time = 5.84 | CG iter. 41 -- res = 0.26974E+02, tol = 0.78673E+01, time = 5.86 | CG iter. 42 -- res = 0.20335E+02, tol = 0.78673E+01, time = 5.83 | CG iter. 43 -- res = 0.15640E+02, tol = 0.78673E+01, time = 5.92 | CG iter. 44 -- res = 0.12487E+02, tol = 0.78673E+01, time = 6.18 | CG iter. 45 -- res = 0.10513E+02, tol = 0.78673E+01, time = 5.76 | CG iter. 46 -- res = 0.84164E+01, tol = 0.78673E+01, time = 5.57 | CG iter. 47 -- res = 0.65567E+01, tol = 0.78673E+01, time = 5.88 | CG iter. 48 -- res = 0.51885E+01, tol = 0.78673E+01, time = 5.74 | CG iter. 49 -- res = 0.44435E+01, tol = 0.78673E+01, time = 5.74 | CG iter. 50 -- res = 0.35406E+01, tol = 0.78673E+01, time = 5.45 | Final CG iter 51 -- res = 0.35406E+01, tol = 0.78673E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8870586.427 | Old band monopole 8954806.403 | Change to band monopole -84219.976 | Change to component monopole 84219.613 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.26410E+05, tol = 0.47627E+18, time = 2.17 | CG iter. 2 -- res = 0.30514E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.12352E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.26793E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.21287E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8870548.273 | (Sampled value in CG: 8848864.514 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.552850 | New value = 1.498903 | poltype: 2 pol: 1 CPU time specind = 2.4049997E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.530242 | New value = 1.493717 | poltype: 2 pol: 2 CPU time specind = 4.6169758E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.24633E+08, tol = 0.47584E+04, time = 6.42 | CG iter. 2 -- res = 0.53282E+07, tol = 0.47584E+04, time = 6.61 | CG iter. 3 -- res = 0.82119E+06, tol = 0.47584E+04, time = 6.97 | CG iter. 4 -- res = 0.33995E+06, tol = 0.47584E+04, time = 6.97 | CG iter. 5 -- res = 0.14952E+06, tol = 0.47584E+04, time = 6.71 | CG iter. 6 -- res = 0.78379E+05, tol = 0.47584E+04, time = 6.61 | CG iter. 7 -- res = 0.42010E+05, tol = 0.47584E+04, time = 6.88 | CG iter. 8 -- res = 0.20393E+05, tol = 0.47584E+04, time = 6.72 | CG iter. 9 -- res = 0.89122E+04, tol = 0.47584E+04, time = 6.70 | CG iter. 10 -- res = 0.36435E+04, tol = 0.47584E+04, time = 6.66 | CG iter. 11 -- res = 0.16355E+04, tol = 0.47584E+04, time = 6.81 | CG iter. 12 -- res = 0.84099E+03, tol = 0.47584E+04, time = 7.81 | CG iter. 13 -- res = 0.48436E+03, tol = 0.47584E+04, time = 7.54 | CG iter. 14 -- res = 0.27206E+03, tol = 0.47584E+04, time = 6.95 | CG iter. 15 -- res = 0.13977E+03, tol = 0.47584E+04, time = 6.33 | CG iter. 16 -- res = 0.66383E+02, tol = 0.47584E+04, time = 6.27 | CG iter. 17 -- res = 0.30680E+02, tol = 0.47584E+04, time = 6.48 | CG iter. 18 -- res = 0.15482E+02, tol = 0.47584E+04, time = 6.77 | CG iter. 19 -- res = 0.83634E+01, tol = 0.47584E+04, time = 6.54 | CG iter. 20 -- res = 0.47165E+01, tol = 0.47584E+04, time = 6.56 | CG iter. 21 -- res = 0.26179E+01, tol = 0.47584E+04, time = 6.65 | CG iter. 22 -- res = 0.13497E+01, tol = 0.47584E+04, time = 6.64 | CG iter. 23 -- res = 0.66457E+00, tol = 0.47584E+04, time = 6.88 | CG iter. 24 -- res = 0.33540E+00, tol = 0.47584E+04, time = 6.53 | CG iter. 25 -- res = 0.18699E+00, tol = 0.47584E+04, time = 6.89 | CG iter. 26 -- res = 0.10876E+00, tol = 0.47584E+04, time = 6.33 | CG iter. 27 -- res = 0.61158E-01, tol = 0.47584E+04, time = 6.26 | CG iter. 28 -- res = 0.33299E-01, tol = 0.47584E+04, time = 6.48 | CG iter. 29 -- res = 0.17229E-01, tol = 0.47584E+04, time = 6.80 | CG iter. 30 -- res = 0.88849E-02, tol = 0.47584E+04, time = 6.45 | CG iter. 31 -- res = 0.48758E-02, tol = 0.47584E+04, time = 6.61 | CG iter. 32 -- res = 0.27671E-02, tol = 0.47584E+04, time = 6.47 | CG iter. 33 -- res = 0.15653E-02, tol = 0.47584E+04, time = 6.65 | CG iter. 34 -- res = 0.85381E-03, tol = 0.47584E+04, time = 6.61 | CG iter. 35 -- res = 0.44724E-03, tol = 0.47584E+04, time = 6.81 | Final CG iter 36 -- res = 0.44724E-03, tol = 0.47584E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.006 2.756 | New value 2.647 | Old value 3.006 | Difference -0.359 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.13349E+05, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.16631E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.44666E+00, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.82911E-03, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.30835E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8870548.273 | (Sampled value in CG: 8849780.464 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.541221 | New value = -3.632573 | poltype: 1 pol: 1 CPU time specind = 1.2687922E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.21729E+07, tol = 0.33771E+01, time = 2.90 | CG iter. 2 -- res = 0.71177E+06, tol = 0.33771E+01, time = 2.91 | CG iter. 3 -- res = 0.13601E+06, tol = 0.33771E+01, time = 2.67 | CG iter. 4 -- res = 0.57998E+05, tol = 0.33771E+01, time = 2.83 | CG iter. 5 -- res = 0.33616E+05, tol = 0.33771E+01, time = 2.86 | CG iter. 6 -- res = 0.17488E+05, tol = 0.33771E+01, time = 2.78 | CG iter. 7 -- res = 0.68309E+04, tol = 0.33771E+01, time = 3.13 | CG iter. 8 -- res = 0.28804E+04, tol = 0.33771E+01, time = 2.66 | CG iter. 9 -- res = 0.11931E+04, tol = 0.33771E+01, time = 2.63 | CG iter. 10 -- res = 0.44787E+03, tol = 0.33771E+01, time = 2.64 | CG iter. 11 -- res = 0.18963E+03, tol = 0.33771E+01, time = 2.41 | CG iter. 12 -- res = 0.96977E+02, tol = 0.33771E+01, time = 2.83 | CG iter. 13 -- res = 0.50548E+02, tol = 0.33771E+01, time = 2.79 | CG iter. 14 -- res = 0.25472E+02, tol = 0.33771E+01, time = 2.90 | CG iter. 15 -- res = 0.11294E+02, tol = 0.33771E+01, time = 2.82 | CG iter. 16 -- res = 0.47994E+01, tol = 0.33771E+01, time = 2.75 | CG iter. 17 -- res = 0.20500E+01, tol = 0.33771E+01, time = 2.58 | CG iter. 18 -- res = 0.99624E+00, tol = 0.33771E+01, time = 6.99 | CG iter. 19 -- res = 0.49142E+00, tol = 0.33771E+01, time = 5.06 | CG iter. 20 -- res = 0.25108E+00, tol = 0.33771E+01, time = 2.71 | CG iter. 21 -- res = 0.11805E+00, tol = 0.33771E+01, time = 2.76 | CG iter. 22 -- res = 0.52899E-01, tol = 0.33771E+01, time = 2.74 | CG iter. 23 -- res = 0.23519E-01, tol = 0.33771E+01, time = 2.91 | CG iter. 24 -- res = 0.10946E-01, tol = 0.33771E+01, time = 2.66 | CG iter. 25 -- res = 0.56602E-02, tol = 0.33771E+01, time = 2.72 | CG iter. 26 -- res = 0.29401E-02, tol = 0.33771E+01, time = 2.65 | CG iter. 27 -- res = 0.13970E-02, tol = 0.33771E+01, time = 3.10 | CG iter. 28 -- res = 0.65856E-03, tol = 0.33771E+01, time = 3.00 | CG iter. 29 -- res = 0.28585E-03, tol = 0.33771E+01, time = 2.68 | CG iter. 30 -- res = 0.13813E-03, tol = 0.33771E+01, time = 2.70 | CG iter. 31 -- res = 0.68886E-04, tol = 0.33771E+01, time = 2.58 | CG iter. 32 -- res = 0.37238E-04, tol = 0.33771E+01, time = 3.03 | CG iter. 33 -- res = 0.18057E-04, tol = 0.33771E+01, time = 2.58 | CG iter. 34 -- res = 0.83882E-05, tol = 0.33771E+01, time = 2.74 | CG iter. 35 -- res = 0.38441E-05, tol = 0.33771E+01, time = 2.73 | CG iter. 36 -- res = 0.19296E-05, tol = 0.33771E+01, time = 2.52 | CG iter. 37 -- res = 0.98088E-06, tol = 0.33771E+01, time = 3.00 | CG iter. 38 -- res = 0.48367E-06, tol = 0.33771E+01, time = 2.79 | CG iter. 39 -- res = 0.23207E-06, tol = 0.33771E+01, time = 2.82 | CG iter. 40 -- res = 0.11091E-06, tol = 0.33771E+01, time = 2.80 | CG iter. 41 -- res = 0.53468E-07, tol = 0.33771E+01, time = 2.90 | CG iter. 42 -- res = 0.25536E-07, tol = 0.33771E+01, time = 2.74 | CG iter. 43 -- res = 0.12150E-07, tol = 0.33771E+01, time = 2.96 | CG iter. 44 -- res = 0.60002E-08, tol = 0.33771E+01, time = 2.79 | CG iter. 45 -- res = 0.29404E-08, tol = 0.33771E+01, time = 2.83 | CG iter. 46 -- res = 0.13928E-08, tol = 0.33771E+01, time = 2.81 | CG iter. 47 -- res = 0.64187E-09, tol = 0.33771E+01, time = 2.84 | CG iter. 48 -- res = 0.30612E-09, tol = 0.33771E+01, time = 2.80 | CG iter. 49 -- res = 0.14843E-09, tol = 0.33771E+01, time = 4.00 | CG iter. 50 -- res = 0.69233E-10, tol = 0.33771E+01, time = 3.24 | Final CG iter 51 -- res = 0.69233E-10, tol = 0.33771E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.447 5.630 | New value -3.066 | Old value -2.447 | Difference -0.619 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.79851E+03, tol = 0.47627E+18, time = 2.28 | CG iter. 2 -- res = 0.10236E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.94331E-01, tol = 0.47627E+18, time = 2.48 | CG iter. 4 -- res = 0.82785E-04, tol = 0.47627E+18, time = 2.18 | Final CG iter 5 -- res = 0.39664E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8870548.273 | (Sampled value in CG: 8857342.944 ) | CPU time specind = 1209.916 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.69769E+08, tol = 0.57776E+04, time = 12.51 | CG iter. 2 -- res = 0.59324E+08, tol = 0.57776E+04, time = 11.91 | CG iter. 3 -- res = 0.15571E+08, tol = 0.57776E+04, time = 12.23 | CG iter. 4 -- res = 0.65239E+07, tol = 0.57776E+04, time = 11.76 | CG iter. 5 -- res = 0.38603E+07, tol = 0.57776E+04, time = 12.54 | CG iter. 6 -- res = 0.22226E+07, tol = 0.57776E+04, time = 11.93 | CG iter. 7 -- res = 0.13131E+07, tol = 0.57776E+04, time = 12.01 | CG iter. 8 -- res = 0.86764E+06, tol = 0.57776E+04, time = 12.20 | CG iter. 9 -- res = 0.54123E+06, tol = 0.57776E+04, time = 12.17 | CG iter. 10 -- res = 0.31747E+06, tol = 0.57776E+04, time = 18.10 | CG iter. 11 -- res = 0.17131E+06, tol = 0.57776E+04, time = 12.13 | CG iter. 12 -- res = 0.92623E+05, tol = 0.57776E+04, time = 12.33 | CG iter. 13 -- res = 0.51908E+05, tol = 0.57776E+04, time = 12.24 | CG iter. 14 -- res = 0.32829E+05, tol = 0.57776E+04, time = 12.29 | CG iter. 15 -- res = 0.22479E+05, tol = 0.57776E+04, time = 12.23 | CG iter. 16 -- res = 0.16867E+05, tol = 0.57776E+04, time = 12.19 | CG iter. 17 -- res = 0.13517E+05, tol = 0.57776E+04, time = 13.96 | CG iter. 18 -- res = 0.11122E+05, tol = 0.57776E+04, time = 12.12 | CG iter. 19 -- res = 0.90031E+04, tol = 0.57776E+04, time = 12.58 | CG iter. 20 -- res = 0.76994E+04, tol = 0.57776E+04, time = 11.82 | CG iter. 21 -- res = 0.68051E+04, tol = 0.57776E+04, time = 12.53 | CG iter. 22 -- res = 0.69252E+04, tol = 0.57776E+04, time = 12.21 | CG iter. 23 -- res = 0.76941E+04, tol = 0.57776E+04, time = 12.20 | CG iter. 24 -- res = 0.86119E+04, tol = 0.57776E+04, time = 12.15 | CG iter. 25 -- res = 0.86293E+04, tol = 0.57776E+04, time = 12.44 | CG iter. 26 -- res = 0.76213E+04, tol = 0.57776E+04, time = 13.03 | CG iter. 27 -- res = 0.61273E+04, tol = 0.57776E+04, time = 12.25 | CG iter. 28 -- res = 0.46126E+04, tol = 0.57776E+04, time = 12.00 | CG iter. 29 -- res = 0.36872E+04, tol = 0.57776E+04, time = 11.54 | CG iter. 30 -- res = 0.30856E+04, tol = 0.57776E+04, time = 12.38 | CG iter. 31 -- res = 0.25432E+04, tol = 0.57776E+04, time = 11.68 | CG iter. 32 -- res = 0.20567E+04, tol = 0.57776E+04, time = 12.57 | CG iter. 33 -- res = 0.16316E+04, tol = 0.57776E+04, time = 11.89 | CG iter. 34 -- res = 0.12768E+04, tol = 0.57776E+04, time = 18.65 | CG iter. 35 -- res = 0.10586E+04, tol = 0.57776E+04, time = 11.85 | CG iter. 36 -- res = 0.96008E+03, tol = 0.57776E+04, time = 12.11 | CG iter. 37 -- res = 0.93180E+03, tol = 0.57776E+04, time = 12.03 | CG iter. 38 -- res = 0.92906E+03, tol = 0.57776E+04, time = 12.18 | CG iter. 39 -- res = 0.88191E+03, tol = 0.57776E+04, time = 12.33 | CG iter. 40 -- res = 0.76234E+03, tol = 0.57776E+04, time = 12.30 | CG iter. 41 -- res = 0.64230E+03, tol = 0.57776E+04, time = 13.40 | CG iter. 42 -- res = 0.52514E+03, tol = 0.57776E+04, time = 12.48 | CG iter. 43 -- res = 0.43545E+03, tol = 0.57776E+04, time = 12.17 | CG iter. 44 -- res = 0.37734E+03, tol = 0.57776E+04, time = 11.86 | CG iter. 45 -- res = 0.33750E+03, tol = 0.57776E+04, time = 11.65 | CG iter. 46 -- res = 0.29336E+03, tol = 0.57776E+04, time = 11.91 | CG iter. 47 -- res = 0.24239E+03, tol = 0.57776E+04, time = 11.73 | CG iter. 48 -- res = 0.19860E+03, tol = 0.57776E+04, time = 12.16 | CG iter. 49 -- res = 0.16437E+03, tol = 0.57776E+04, time = 12.01 | CG iter. 50 -- res = 0.14125E+03, tol = 0.57776E+04, time = 12.12 | CG iter. 51 -- res = 0.12477E+03, tol = 0.57776E+04, time = 11.85 | CG iter. 52 -- res = 0.11563E+03, tol = 0.57776E+04, time = 11.39 | CG iter. 53 -- res = 0.10999E+03, tol = 0.57776E+04, time = 12.06 | CG iter. 54 -- res = 0.99409E+02, tol = 0.57776E+04, time = 12.70 | CG iter. 55 -- res = 0.85415E+02, tol = 0.57776E+04, time = 11.95 | CG iter. 56 -- res = 0.74116E+02, tol = 0.57776E+04, time = 11.64 | CG iter. 57 -- res = 0.63413E+02, tol = 0.57776E+04, time = 11.84 | CG iter. 58 -- res = 0.56733E+02, tol = 0.57776E+04, time = 18.66 | CG iter. 59 -- res = 0.52970E+02, tol = 0.57776E+04, time = 12.35 | CG iter. 60 -- res = 0.47399E+02, tol = 0.57776E+04, time = 12.09 | Final CG iter 61 -- res = 0.47399E+02, tol = 0.57776E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.727 ( -229.676 -2232.077 2514.728 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7813842.099 | Old band monopole 8870586.427 | Change to band monopole -1056744.328 | Change to component monopole 1056739.783 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.612 2.734 | New value 0.728 | Old value 2.612 | Difference -1.885 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.601 ( 7.388 13.886 -13.562 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.526 4.588 | New value -0.864 | Old value 7.526 | Difference -8.390 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.18689E+06, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.27796E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.70355E+00, tol = 0.47627E+18, time = 2.28 | CG iter. 4 -- res = 0.68072E-03, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.11213E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7813808.490 | (Sampled value in CG: 7787054.942 ) | Chain = 1 -- chisq = 0.81528574E+09 | Chain = 1 -- wall time = 6206.514 sec Available RAM: MemAvailable: 382497480 kB Available Swap: SwapFree: 1163195248 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 313 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443072 | --> Sampling calibration, mode = relcal | relcal = 1.3422715E-02 7.4963324E-04 -1.5951137E-03 -1.2577235E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1180594 0.1245169 97035665.7274346 | BP delta = 0.1180396 0.1244971 97035665.7287459 | BP chisq diff = 0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632543 | --> Sampling calibration, mode = relcal | relcal = -2.8213304E-03 -7.0495572E-04 1.6783767E-03 1.6141786E-03 -4.0691480E-04 6.4064539E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5795441 15219390.9397871 | BP delta = 0.0000000E+00 -0.5732233 15219400.9242582 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18312617639668 | --> Sampling calibration, mode = relcal | relcal = -7.6077841E-02 -5.9131201E-02 9.2950739E-02 4.2258307E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3875580E-04 6.0017817E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8841E-05 | 2: delta_r/delta_0: 1.3890E-06 | 3: delta_s/delta_0: 1.9608E-07 | 4: delta_r/delta_0: 2.8614E-08 | 5: delta_s/delta_0: 8.5647E-09 | 6: delta_r/delta_0: 2.7358E-09 | 7: delta_s/delta_0: 5.7600E-10 | 8: delta_r/delta_0: 1.6055E-10 | 9: delta_s/delta_0: 2.0999E-10 | 10: delta_r/delta_0: 7.8978E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.424996892574160E-003 2.736000098691111E-005 | BP delta = 7.4514151E-02 9.4788209E-02 50483450.4653020 | BP delta = 7.2163224E-02 9.2437282E-02 50483454.0245228 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02612800 | --> Sampling calibration, mode = relcal | relcal = -0.1066643 -9.5593914E-02 0.1449122 5.7346005E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1150486E-03 1.1224573E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7060E-05 | 2: delta_r/delta_0: 1.1748E-06 | 3: delta_s/delta_0: 2.5827E-07 | 4: delta_r/delta_0: 3.9368E-08 | 5: delta_s/delta_0: 1.8846E-08 | 6: delta_r/delta_0: 6.2555E-09 | 7: delta_s/delta_0: 7.3595E-09 | 8: delta_r/delta_0: 1.2584E-09 | 9: delta_s/delta_0: 3.8670E-09 | 10: delta_r/delta_0: 2.3306E-09 | 11: delta_s/delta_0: 1.2223E-10 | 12: delta_r/delta_0: 9.5610E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.702196619598031E-003 2.810483511443442E-005 | BP delta = -0.3467144 -0.3162968 57392503.1361050 | BP delta = -0.3307866 -0.3003689 57392501.9015822 | BP chisq diff = -1.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81247314 | --> Sampling calibration, mode = relcal | relcal = 0.2955842 0.2248653 -0.2838970 -0.2365526 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.2640157E-05 4.5203865E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6240E-03 | 2: delta_r/delta_0: 6.2272E-05 | 3: delta_s/delta_0: 2.6187E-05 | 4: delta_r/delta_0: 1.1598E-06 | 5: delta_s/delta_0: 7.1161E-07 | 6: delta_r/delta_0: 3.0195E-07 | 7: delta_s/delta_0: 1.0817E-07 | 8: delta_r/delta_0: 5.9473E-08 | 9: delta_s/delta_0: 5.6722E-08 | 10: delta_r/delta_0: 7.9324E-09 | 11: delta_s/delta_0: 1.9367E-09 | 12: delta_r/delta_0: 1.2111E-09 | 13: delta_s/delta_0: 3.5795E-10 | 14: delta_r/delta_0: 2.2199E-10 | 15: delta_s/delta_0: 1.4446E-10 | 16: delta_r/delta_0: 2.7515E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.699670384004206E-002 4.020517972803423E-005 | BP delta = -0.2657299 -0.2990325 72480815.4487374 | BP delta = -0.1884454 -0.2217480 72480817.6730108 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95938419 | --> Sampling calibration, mode = relcal | relcal = 0.1065428 0.1396067 -0.1102530 -0.1358964 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0082025E-02 1.3376785E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.9795E-03 | 2: delta_r/delta_0: 1.9109E-04 | 3: delta_s/delta_0: 6.2237E-04 | 4: delta_r/delta_0: 3.0100E-05 | 5: delta_s/delta_0: 9.5821E-07 | 6: delta_r/delta_0: 3.2944E-07 | 7: delta_s/delta_0: 7.6634E-07 | 8: delta_r/delta_0: 7.6534E-08 | 9: delta_s/delta_0: 2.8753E-08 | 10: delta_r/delta_0: 7.4693E-09 | 11: delta_s/delta_0: 4.0166E-09 | 12: delta_r/delta_0: 1.6161E-09 | 13: delta_s/delta_0: 2.7986E-08 | 14: delta_r/delta_0: 3.9175E-09 | 15: delta_s/delta_0: 1.0260E-10 | 16: delta_r/delta_0: 5.0844E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.481431029065719E-002 3.696377687948811E-005 | BP delta = 0.1010362 0.2214255 72779240.9543680 | BP delta = 7.0554949E-02 0.1909443 72779241.2945022 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185165 | New value = -3.156164 | poltype: 2 pol: 1 CPU time specind = 1.9501925E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.085305 | New value = -3.124078 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.090198 | New value = -3.136102 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138150 | New value = -3.156660 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118188 | New value = -3.182066 | poltype: 2 pol: 2 CPU time specind = 8.6188316E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.13580E+08, tol = 0.87108E+01, time = 5.73 | CG iter. 2 -- res = 0.32424E+06, tol = 0.87108E+01, time = 5.79 | CG iter. 3 -- res = 0.51654E+05, tol = 0.87108E+01, time = 6.03 | CG iter. 4 -- res = 0.30148E+05, tol = 0.87108E+01, time = 5.67 | CG iter. 5 -- res = 0.20845E+05, tol = 0.87108E+01, time = 6.08 | CG iter. 6 -- res = 0.18022E+05, tol = 0.87108E+01, time = 5.68 | CG iter. 7 -- res = 0.18459E+05, tol = 0.87108E+01, time = 6.20 | CG iter. 8 -- res = 0.16798E+05, tol = 0.87108E+01, time = 11.00 | CG iter. 9 -- res = 0.16372E+05, tol = 0.87108E+01, time = 5.67 | CG iter. 10 -- res = 0.14775E+05, tol = 0.87108E+01, time = 6.28 | CG iter. 11 -- res = 0.10026E+05, tol = 0.87108E+01, time = 5.42 | CG iter. 12 -- res = 0.65115E+04, tol = 0.87108E+01, time = 5.89 | CG iter. 13 -- res = 0.48445E+04, tol = 0.87108E+01, time = 5.62 | CG iter. 14 -- res = 0.43889E+04, tol = 0.87108E+01, time = 5.46 | CG iter. 15 -- res = 0.39131E+04, tol = 0.87108E+01, time = 6.14 | CG iter. 16 -- res = 0.31247E+04, tol = 0.87108E+01, time = 5.70 | CG iter. 17 -- res = 0.23168E+04, tol = 0.87108E+01, time = 5.82 | CG iter. 18 -- res = 0.18177E+04, tol = 0.87108E+01, time = 5.84 | CG iter. 19 -- res = 0.15326E+04, tol = 0.87108E+01, time = 5.64 | CG iter. 20 -- res = 0.12366E+04, tol = 0.87108E+01, time = 5.29 | CG iter. 21 -- res = 0.92085E+03, tol = 0.87108E+01, time = 5.48 | CG iter. 22 -- res = 0.75912E+03, tol = 0.87108E+01, time = 6.45 | CG iter. 23 -- res = 0.68251E+03, tol = 0.87108E+01, time = 6.61 | CG iter. 24 -- res = 0.60699E+03, tol = 0.87108E+01, time = 6.48 | CG iter. 25 -- res = 0.46447E+03, tol = 0.87108E+01, time = 5.94 | CG iter. 26 -- res = 0.36078E+03, tol = 0.87108E+01, time = 5.73 | CG iter. 27 -- res = 0.32999E+03, tol = 0.87108E+01, time = 5.88 | CG iter. 28 -- res = 0.30247E+03, tol = 0.87108E+01, time = 5.70 | CG iter. 29 -- res = 0.25290E+03, tol = 0.87108E+01, time = 5.24 | CG iter. 30 -- res = 0.20310E+03, tol = 0.87108E+01, time = 5.75 | CG iter. 31 -- res = 0.18236E+03, tol = 0.87108E+01, time = 5.88 | CG iter. 32 -- res = 0.16694E+03, tol = 0.87108E+01, time = 5.70 | CG iter. 33 -- res = 0.13375E+03, tol = 0.87108E+01, time = 5.87 | CG iter. 34 -- res = 0.10410E+03, tol = 0.87108E+01, time = 5.51 | CG iter. 35 -- res = 0.84515E+02, tol = 0.87108E+01, time = 5.64 | CG iter. 36 -- res = 0.72635E+02, tol = 0.87108E+01, time = 6.32 | CG iter. 37 -- res = 0.60325E+02, tol = 0.87108E+01, time = 5.48 | CG iter. 38 -- res = 0.45910E+02, tol = 0.87108E+01, time = 6.17 | CG iter. 39 -- res = 0.33931E+02, tol = 0.87108E+01, time = 5.70 | CG iter. 40 -- res = 0.27819E+02, tol = 0.87108E+01, time = 5.92 | CG iter. 41 -- res = 0.22607E+02, tol = 0.87108E+01, time = 5.71 | CG iter. 42 -- res = 0.16352E+02, tol = 0.87108E+01, time = 5.62 | CG iter. 43 -- res = 0.12465E+02, tol = 0.87108E+01, time = 6.04 | CG iter. 44 -- res = 0.99430E+01, tol = 0.87108E+01, time = 5.83 | CG iter. 45 -- res = 0.83647E+01, tol = 0.87108E+01, time = 6.31 | CG iter. 46 -- res = 0.64598E+01, tol = 0.87108E+01, time = 5.82 | CG iter. 47 -- res = 0.49183E+01, tol = 0.87108E+01, time = 5.94 | CG iter. 48 -- res = 0.38251E+01, tol = 0.87108E+01, time = 5.94 | CG iter. 49 -- res = 0.31781E+01, tol = 0.87108E+01, time = 5.79 | CG iter. 50 -- res = 0.25741E+01, tol = 0.87108E+01, time = 6.07 | Final CG iter 51 -- res = 0.25741E+01, tol = 0.87108E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8238913.348 | Old band monopole 7813842.099 | Change to band monopole 425071.249 | Change to component monopole -425069.421 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.22528E+05, tol = 0.47627E+18, time = 2.24 | CG iter. 2 -- res = 0.20382E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.78424E+00, tol = 0.47627E+18, time = 2.41 | CG iter. 4 -- res = 0.20629E-02, tol = 0.47627E+18, time = 2.23 | Final CG iter 5 -- res = 0.22681E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8238877.911 | (Sampled value in CG: 8261967.664 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498903 | New value = 1.460621 | poltype: 2 pol: 1 CPU time specind = 1.8736124E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493717 | New value = 1.527551 | poltype: 2 pol: 2 CPU time specind = 6.7758560E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.24311E+08, tol = 0.47502E+04, time = 6.57 | CG iter. 2 -- res = 0.54564E+07, tol = 0.47502E+04, time = 8.36 | CG iter. 3 -- res = 0.87531E+06, tol = 0.47502E+04, time = 7.13 | CG iter. 4 -- res = 0.37053E+06, tol = 0.47502E+04, time = 6.72 | CG iter. 5 -- res = 0.16365E+06, tol = 0.47502E+04, time = 6.71 | CG iter. 6 -- res = 0.82140E+05, tol = 0.47502E+04, time = 6.63 | CG iter. 7 -- res = 0.44543E+05, tol = 0.47502E+04, time = 6.45 | CG iter. 8 -- res = 0.21907E+05, tol = 0.47502E+04, time = 6.82 | CG iter. 9 -- res = 0.95529E+04, tol = 0.47502E+04, time = 6.18 | CG iter. 10 -- res = 0.38250E+04, tol = 0.47502E+04, time = 6.50 | CG iter. 11 -- res = 0.16968E+04, tol = 0.47502E+04, time = 6.35 | CG iter. 12 -- res = 0.86323E+03, tol = 0.47502E+04, time = 6.67 | CG iter. 13 -- res = 0.49418E+03, tol = 0.47502E+04, time = 6.97 | CG iter. 14 -- res = 0.28008E+03, tol = 0.47502E+04, time = 6.55 | CG iter. 15 -- res = 0.14317E+03, tol = 0.47502E+04, time = 6.78 | CG iter. 16 -- res = 0.66712E+02, tol = 0.47502E+04, time = 6.64 | CG iter. 17 -- res = 0.31227E+02, tol = 0.47502E+04, time = 7.14 | CG iter. 18 -- res = 0.15376E+02, tol = 0.47502E+04, time = 7.18 | CG iter. 19 -- res = 0.83435E+01, tol = 0.47502E+04, time = 6.53 | CG iter. 20 -- res = 0.46216E+01, tol = 0.47502E+04, time = 6.95 | CG iter. 21 -- res = 0.24649E+01, tol = 0.47502E+04, time = 6.75 | CG iter. 22 -- res = 0.12325E+01, tol = 0.47502E+04, time = 7.02 | CG iter. 23 -- res = 0.62320E+00, tol = 0.47502E+04, time = 6.18 | CG iter. 24 -- res = 0.32149E+00, tol = 0.47502E+04, time = 6.65 | CG iter. 25 -- res = 0.17536E+00, tol = 0.47502E+04, time = 6.56 | CG iter. 26 -- res = 0.10174E+00, tol = 0.47502E+04, time = 6.77 | CG iter. 27 -- res = 0.55747E-01, tol = 0.47502E+04, time = 6.38 | CG iter. 28 -- res = 0.29350E-01, tol = 0.47502E+04, time = 6.77 | CG iter. 29 -- res = 0.15167E-01, tol = 0.47502E+04, time = 6.59 | CG iter. 30 -- res = 0.78892E-02, tol = 0.47502E+04, time = 6.22 | CG iter. 31 -- res = 0.43040E-02, tol = 0.47502E+04, time = 6.42 | CG iter. 32 -- res = 0.24955E-02, tol = 0.47502E+04, time = 6.88 | CG iter. 33 -- res = 0.14503E-02, tol = 0.47502E+04, time = 14.12 | CG iter. 34 -- res = 0.82217E-03, tol = 0.47502E+04, time = 6.41 | CG iter. 35 -- res = 0.42127E-03, tol = 0.47502E+04, time = 8.02 | Final CG iter 36 -- res = 0.42127E-03, tol = 0.47502E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.757 2.751 | New value -2.336 | Old value 0.757 | Difference -3.093 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.49524E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.26797E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.54349E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.35200E-03, tol = 0.47627E+18, time = 2.25 | Final CG iter 5 -- res = 0.76897E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8238877.911 | (Sampled value in CG: 8262351.429 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.632573 | New value = -3.485150 | poltype: 1 pol: 1 CPU time specind = 1.3005018E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.28928E+07, tol = 0.28339E+01, time = 2.41 | CG iter. 2 -- res = 0.99608E+06, tol = 0.28339E+01, time = 2.72 | CG iter. 3 -- res = 0.21848E+06, tol = 0.28339E+01, time = 3.06 | CG iter. 4 -- res = 0.10742E+06, tol = 0.28339E+01, time = 2.70 | CG iter. 5 -- res = 0.60990E+05, tol = 0.28339E+01, time = 2.84 | CG iter. 6 -- res = 0.27015E+05, tol = 0.28339E+01, time = 2.88 | CG iter. 7 -- res = 0.97060E+04, tol = 0.28339E+01, time = 2.86 | CG iter. 8 -- res = 0.48113E+04, tol = 0.28339E+01, time = 2.71 | CG iter. 9 -- res = 0.23529E+04, tol = 0.28339E+01, time = 2.78 | CG iter. 10 -- res = 0.94348E+03, tol = 0.28339E+01, time = 3.09 | CG iter. 11 -- res = 0.36692E+03, tol = 0.28339E+01, time = 3.18 | CG iter. 12 -- res = 0.17150E+03, tol = 0.28339E+01, time = 2.86 | CG iter. 13 -- res = 0.82482E+02, tol = 0.28339E+01, time = 2.84 | CG iter. 14 -- res = 0.42687E+02, tol = 0.28339E+01, time = 2.80 | CG iter. 15 -- res = 0.21565E+02, tol = 0.28339E+01, time = 2.97 | CG iter. 16 -- res = 0.10352E+02, tol = 0.28339E+01, time = 2.76 | CG iter. 17 -- res = 0.43513E+01, tol = 0.28339E+01, time = 2.77 | CG iter. 18 -- res = 0.18493E+01, tol = 0.28339E+01, time = 2.81 | CG iter. 19 -- res = 0.83883E+00, tol = 0.28339E+01, time = 2.77 | CG iter. 20 -- res = 0.43037E+00, tol = 0.28339E+01, time = 2.82 | CG iter. 21 -- res = 0.22842E+00, tol = 0.28339E+01, time = 2.92 | CG iter. 22 -- res = 0.11029E+00, tol = 0.28339E+01, time = 2.94 | CG iter. 23 -- res = 0.49918E-01, tol = 0.28339E+01, time = 2.71 | CG iter. 24 -- res = 0.22285E-01, tol = 0.28339E+01, time = 2.69 | CG iter. 25 -- res = 0.10658E-01, tol = 0.28339E+01, time = 4.35 | CG iter. 26 -- res = 0.50359E-02, tol = 0.28339E+01, time = 3.48 | CG iter. 27 -- res = 0.26606E-02, tol = 0.28339E+01, time = 2.84 | CG iter. 28 -- res = 0.14019E-02, tol = 0.28339E+01, time = 3.70 | CG iter. 29 -- res = 0.68800E-03, tol = 0.28339E+01, time = 2.93 | CG iter. 30 -- res = 0.33083E-03, tol = 0.28339E+01, time = 2.78 | CG iter. 31 -- res = 0.15133E-03, tol = 0.28339E+01, time = 2.98 | CG iter. 32 -- res = 0.70635E-04, tol = 0.28339E+01, time = 2.56 | CG iter. 33 -- res = 0.35489E-04, tol = 0.28339E+01, time = 3.01 | CG iter. 34 -- res = 0.17745E-04, tol = 0.28339E+01, time = 3.02 | CG iter. 35 -- res = 0.90540E-05, tol = 0.28339E+01, time = 2.54 | CG iter. 36 -- res = 0.43765E-05, tol = 0.28339E+01, time = 2.89 | CG iter. 37 -- res = 0.19836E-05, tol = 0.28339E+01, time = 2.85 | CG iter. 38 -- res = 0.94190E-06, tol = 0.28339E+01, time = 2.86 | CG iter. 39 -- res = 0.45132E-06, tol = 0.28339E+01, time = 2.83 | CG iter. 40 -- res = 0.22321E-06, tol = 0.28339E+01, time = 2.84 | CG iter. 41 -- res = 0.11451E-06, tol = 0.28339E+01, time = 2.51 | CG iter. 42 -- res = 0.55367E-07, tol = 0.28339E+01, time = 2.78 | CG iter. 43 -- res = 0.25535E-07, tol = 0.28339E+01, time = 2.64 | CG iter. 44 -- res = 0.11937E-07, tol = 0.28339E+01, time = 2.77 | CG iter. 45 -- res = 0.57102E-08, tol = 0.28339E+01, time = 3.05 | CG iter. 46 -- res = 0.28206E-08, tol = 0.28339E+01, time = 2.80 | CG iter. 47 -- res = 0.14374E-08, tol = 0.28339E+01, time = 2.56 | CG iter. 48 -- res = 0.70683E-09, tol = 0.28339E+01, time = 2.67 | CG iter. 49 -- res = 0.34087E-09, tol = 0.28339E+01, time = 2.33 | CG iter. 50 -- res = 0.15369E-09, tol = 0.28339E+01, time = 2.80 | Final CG iter 51 -- res = 0.15369E-09, tol = 0.28339E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.774 4.331 | New value -2.739 | Old value 0.774 | Difference -3.512 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.14063E+05, tol = 0.47627E+18, time = 2.58 | CG iter. 2 -- res = 0.25797E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.65156E+00, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.11279E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.31364E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8238877.911 | (Sampled value in CG: 8260911.956 ) | CPU time specind = 1213.762 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.69459E+08, tol = 0.57495E+04, time = 11.92 | CG iter. 2 -- res = 0.58894E+08, tol = 0.57495E+04, time = 11.99 | CG iter. 3 -- res = 0.15532E+08, tol = 0.57495E+04, time = 12.34 | CG iter. 4 -- res = 0.65226E+07, tol = 0.57495E+04, time = 18.73 | CG iter. 5 -- res = 0.38682E+07, tol = 0.57495E+04, time = 12.25 | CG iter. 6 -- res = 0.22224E+07, tol = 0.57495E+04, time = 12.30 | CG iter. 7 -- res = 0.13167E+07, tol = 0.57495E+04, time = 11.82 | CG iter. 8 -- res = 0.87584E+06, tol = 0.57495E+04, time = 12.18 | CG iter. 9 -- res = 0.55542E+06, tol = 0.57495E+04, time = 12.07 | CG iter. 10 -- res = 0.33447E+06, tol = 0.57495E+04, time = 12.22 | CG iter. 11 -- res = 0.18535E+06, tol = 0.57495E+04, time = 13.20 | CG iter. 12 -- res = 0.99112E+05, tol = 0.57495E+04, time = 14.37 | CG iter. 13 -- res = 0.55199E+05, tol = 0.57495E+04, time = 12.41 | CG iter. 14 -- res = 0.32954E+05, tol = 0.57495E+04, time = 11.65 | CG iter. 15 -- res = 0.21875E+05, tol = 0.57495E+04, time = 12.30 | CG iter. 16 -- res = 0.16174E+05, tol = 0.57495E+04, time = 12.22 | CG iter. 17 -- res = 0.12666E+05, tol = 0.57495E+04, time = 12.31 | CG iter. 18 -- res = 0.99615E+04, tol = 0.57495E+04, time = 12.11 | CG iter. 19 -- res = 0.77490E+04, tol = 0.57495E+04, time = 12.12 | CG iter. 20 -- res = 0.63568E+04, tol = 0.57495E+04, time = 12.33 | CG iter. 21 -- res = 0.55803E+04, tol = 0.57495E+04, time = 12.10 | CG iter. 22 -- res = 0.56020E+04, tol = 0.57495E+04, time = 12.26 | CG iter. 23 -- res = 0.61471E+04, tol = 0.57495E+04, time = 12.19 | CG iter. 24 -- res = 0.68514E+04, tol = 0.57495E+04, time = 11.90 | CG iter. 25 -- res = 0.71294E+04, tol = 0.57495E+04, time = 12.19 | CG iter. 26 -- res = 0.66138E+04, tol = 0.57495E+04, time = 12.06 | CG iter. 27 -- res = 0.55025E+04, tol = 0.57495E+04, time = 12.48 | CG iter. 28 -- res = 0.42786E+04, tol = 0.57495E+04, time = 18.64 | CG iter. 29 -- res = 0.34406E+04, tol = 0.57495E+04, time = 12.55 | CG iter. 30 -- res = 0.28562E+04, tol = 0.57495E+04, time = 11.75 | CG iter. 31 -- res = 0.23720E+04, tol = 0.57495E+04, time = 11.57 | CG iter. 32 -- res = 0.19474E+04, tol = 0.57495E+04, time = 12.12 | CG iter. 33 -- res = 0.15605E+04, tol = 0.57495E+04, time = 11.79 | CG iter. 34 -- res = 0.12231E+04, tol = 0.57495E+04, time = 11.57 | CG iter. 35 -- res = 0.10124E+04, tol = 0.57495E+04, time = 13.27 | CG iter. 36 -- res = 0.88616E+03, tol = 0.57495E+04, time = 12.60 | CG iter. 37 -- res = 0.83284E+03, tol = 0.57495E+04, time = 11.80 | CG iter. 38 -- res = 0.82456E+03, tol = 0.57495E+04, time = 11.65 | CG iter. 39 -- res = 0.79671E+03, tol = 0.57495E+04, time = 12.48 | CG iter. 40 -- res = 0.74600E+03, tol = 0.57495E+04, time = 12.22 | CG iter. 41 -- res = 0.66448E+03, tol = 0.57495E+04, time = 11.50 | CG iter. 42 -- res = 0.56434E+03, tol = 0.57495E+04, time = 11.95 | CG iter. 43 -- res = 0.49198E+03, tol = 0.57495E+04, time = 12.10 | CG iter. 44 -- res = 0.42851E+03, tol = 0.57495E+04, time = 13.15 | CG iter. 45 -- res = 0.37876E+03, tol = 0.57495E+04, time = 12.30 | CG iter. 46 -- res = 0.33763E+03, tol = 0.57495E+04, time = 11.85 | CG iter. 47 -- res = 0.29281E+03, tol = 0.57495E+04, time = 12.65 | CG iter. 48 -- res = 0.24586E+03, tol = 0.57495E+04, time = 12.20 | CG iter. 49 -- res = 0.20563E+03, tol = 0.57495E+04, time = 11.89 | CG iter. 50 -- res = 0.17918E+03, tol = 0.57495E+04, time = 12.10 | CG iter. 51 -- res = 0.16544E+03, tol = 0.57495E+04, time = 12.24 | CG iter. 52 -- res = 0.15911E+03, tol = 0.57495E+04, time = 13.68 | CG iter. 53 -- res = 0.15534E+03, tol = 0.57495E+04, time = 16.57 | CG iter. 54 -- res = 0.14833E+03, tol = 0.57495E+04, time = 12.04 | CG iter. 55 -- res = 0.13573E+03, tol = 0.57495E+04, time = 11.98 | CG iter. 56 -- res = 0.12153E+03, tol = 0.57495E+04, time = 12.43 | CG iter. 57 -- res = 0.10761E+03, tol = 0.57495E+04, time = 12.30 | CG iter. 58 -- res = 0.97600E+02, tol = 0.57495E+04, time = 12.07 | CG iter. 59 -- res = 0.90190E+02, tol = 0.57495E+04, time = 12.88 | CG iter. 60 -- res = 0.83630E+02, tol = 0.57495E+04, time = 13.55 | Final CG iter 61 -- res = 0.83630E+02, tol = 0.57495E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.823 ( -229.322 -2230.602 2512.979 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6261340.764 | Old band monopole 8238913.348 | Change to band monopole -1977572.585 | Change to component monopole 1977564.079 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.403 2.723 | New value -4.946 | Old value -2.403 | Difference -2.543 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.495 ( 6.474 10.811 -10.141 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.900 5.796 | New value -5.476 | Old value -1.900 | Difference -3.576 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.41783E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.47551E+02, tol = 0.47627E+18, time = 2.28 | CG iter. 3 -- res = 0.20498E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.32982E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.18672E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6261313.832 | (Sampled value in CG: 6237755.095 ) | Chain = 1 -- chisq = 0.81584433E+09 | Chain = 1 -- wall time = 5770.961 sec Available RAM: MemAvailable: 382068144 kB Available Swap: SwapFree: 1163943792 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 314 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444966 | --> Sampling calibration, mode = relcal | relcal = 1.3429034E-02 7.4862834E-04 -1.5958046E-03 -1.2581858E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1180396 0.1244971 9412452.05502866 | BP delta = 0.1180396 0.1204889 9412476.16311249 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632370 | --> Sampling calibration, mode = relcal | relcal = -2.8207165E-03 -7.0489018E-04 1.6782685E-03 1.6148407E-03 -4.0703913E-04 6.3953648E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5795441 15219728.8430786 | BP delta = 0.0000000E+00 -0.5721691 15219732.6983686 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18084880988915 | --> Sampling calibration, mode = relcal | relcal = -7.4460350E-02 -5.8090914E-02 9.1320612E-02 4.1230652E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.7070579E-06 3.5401550E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9977E-05 | 2: delta_r/delta_0: 1.8805E-06 | 3: delta_s/delta_0: 2.1927E-07 | 4: delta_r/delta_0: 1.7013E-08 | 5: delta_s/delta_0: 5.6415E-09 | 6: delta_r/delta_0: 1.2734E-09 | 7: delta_s/delta_0: 5.3549E-09 | 8: delta_r/delta_0: 8.4131E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.018282861482835E-004 2.741495464663968E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9975E-05 | 2: delta_r/delta_0: 1.8804E-06 | 3: delta_s/delta_0: 2.1927E-07 | 4: delta_r/delta_0: 1.7014E-08 | 5: delta_s/delta_0: 5.6416E-09 | 6: delta_r/delta_0: 1.2735E-09 | 7: delta_s/delta_0: 5.3539E-09 | 8: delta_r/delta_0: 8.4130E-11 | Reached bicg-stab tolerance | BP delta = 7.4514151E-02 9.4788209E-02 3589232.65852190 | BP delta = 7.4514151E-02 9.4637521E-02 3588741.78434030 | BP chisq diff = -490.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02592002 | --> Sampling calibration, mode = relcal | relcal = -0.1066571 -9.5553547E-02 0.1449288 5.7281800E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9626102E-03 8.1153575E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8002E-05 | 2: delta_r/delta_0: 1.1891E-06 | 3: delta_s/delta_0: 2.6276E-07 | 4: delta_r/delta_0: 4.6622E-08 | 5: delta_s/delta_0: 2.0802E-08 | 6: delta_r/delta_0: 7.1174E-09 | 7: delta_s/delta_0: 1.1539E-08 | 8: delta_r/delta_0: 1.2250E-09 | 9: delta_s/delta_0: 1.0478E-09 | 10: delta_r/delta_0: 2.1129E-10 | 11: delta_s/delta_0: 2.8216E-09 | 12: delta_r/delta_0: 3.5333E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.699192591584192E-003 2.811046501202599E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8002E-05 | 2: delta_r/delta_0: 1.1891E-06 | 3: delta_s/delta_0: 2.6278E-07 | 4: delta_r/delta_0: 4.6654E-08 | 5: delta_s/delta_0: 2.0796E-08 | 6: delta_r/delta_0: 7.1192E-09 | 7: delta_s/delta_0: 1.1538E-08 | 8: delta_r/delta_0: 1.2253E-09 | 9: delta_s/delta_0: 1.0481E-09 | 10: delta_r/delta_0: 2.1128E-10 | 11: delta_s/delta_0: 2.8232E-09 | 12: delta_r/delta_0: 3.5344E-11 | Reached bicg-stab tolerance | BP delta = -0.3307866 -0.3003689 2841126.81026293 | BP delta = -0.3307866 -0.2949434 2841135.27713619 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81225786 | --> Sampling calibration, mode = relcal | relcal = 0.2954584 0.2249087 -0.2838295 -0.2365376 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.0990256E-04 5.2109850E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7302E-04 | 2: delta_r/delta_0: 9.1916E-06 | 3: delta_s/delta_0: 6.3175E-06 | 4: delta_r/delta_0: 7.9250E-07 | 5: delta_s/delta_0: 3.0747E-07 | 6: delta_r/delta_0: 1.5094E-07 | 7: delta_s/delta_0: 5.1725E-07 | 8: delta_r/delta_0: 2.9962E-08 | 9: delta_s/delta_0: 3.8375E-08 | 10: delta_r/delta_0: 2.9246E-08 | 11: delta_s/delta_0: 1.3678E-09 | 12: delta_r/delta_0: 9.1858E-10 | 13: delta_s/delta_0: 4.9135E-09 | 14: delta_r/delta_0: 1.4584E-09 | 15: delta_s/delta_0: 8.1604E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.121016715829356E-002 4.021601498323623E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7295E-04 | 2: delta_r/delta_0: 9.1901E-06 | 3: delta_s/delta_0: 6.3167E-06 | 4: delta_r/delta_0: 7.9248E-07 | 5: delta_s/delta_0: 3.0749E-07 | 6: delta_r/delta_0: 1.5096E-07 | 7: delta_s/delta_0: 5.1738E-07 | 8: delta_r/delta_0: 2.9960E-08 | 9: delta_s/delta_0: 3.8351E-08 | 10: delta_r/delta_0: 2.9231E-08 | 11: delta_s/delta_0: 1.3665E-09 | 12: delta_r/delta_0: 9.1810E-10 | 13: delta_s/delta_0: 4.8943E-09 | 14: delta_r/delta_0: 1.4568E-09 | 15: delta_s/delta_0: 8.1620E-11 | Reached bicg-stab tolerance | BP delta = -0.2657299 -0.2990325 2827361.10330153 | BP delta = -0.2657299 -0.3177122 2827479.41946278 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95906620 | --> Sampling calibration, mode = relcal | relcal = 0.1065158 0.1395207 -0.1103231 -0.1357134 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0794839E-02 1.4122505E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8909E-04 | 2: delta_r/delta_0: 1.2025E-05 | 3: delta_s/delta_0: 9.6748E-06 | 4: delta_r/delta_0: 9.5011E-07 | 5: delta_s/delta_0: 3.2930E-07 | 6: delta_r/delta_0: 1.5593E-07 | 7: delta_s/delta_0: 4.7630E-07 | 8: delta_r/delta_0: 3.3364E-08 | 9: delta_s/delta_0: 2.3792E-07 | 10: delta_r/delta_0: 1.4295E-07 | 11: delta_s/delta_0: 2.1284E-09 | 12: delta_r/delta_0: 9.1942E-10 | 13: delta_s/delta_0: 8.2612E-08 | 14: delta_r/delta_0: 1.8964E-09 | 15: delta_s/delta_0: 6.9292E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.233721603757074E-002 3.697531863577881E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.8901E-04 | 2: delta_r/delta_0: 1.2023E-05 | 3: delta_s/delta_0: 9.6749E-06 | 4: delta_r/delta_0: 9.5027E-07 | 5: delta_s/delta_0: 3.2936E-07 | 6: delta_r/delta_0: 1.5600E-07 | 7: delta_s/delta_0: 4.7691E-07 | 8: delta_r/delta_0: 3.3364E-08 | 9: delta_s/delta_0: 2.3584E-07 | 10: delta_r/delta_0: 1.4202E-07 | 11: delta_s/delta_0: 2.1288E-09 | 12: delta_r/delta_0: 9.1945E-10 | 13: delta_s/delta_0: 8.4941E-08 | 14: delta_r/delta_0: 1.9736E-09 | 15: delta_s/delta_0: 6.9311E-11 | Reached bicg-stab tolerance | BP delta = 7.0554949E-02 0.1909443 3004140.26801693 | BP delta = 7.0554949E-02 0.1818008 3004195.29081805 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156164 | New value = -3.246963 | poltype: 2 pol: 1 CPU time specind = 2.1870852E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124078 | New value = -3.201001 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136102 | New value = -3.152849 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156660 | New value = -3.231178 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182066 | New value = -3.229071 | poltype: 2 pol: 2 CPU time specind = 1.3433933E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.13574E+08, tol = 0.98971E+01, time = 5.62 | CG iter. 2 -- res = 0.34865E+06, tol = 0.98971E+01, time = 5.49 | CG iter. 3 -- res = 0.62537E+05, tol = 0.98971E+01, time = 5.73 | CG iter. 4 -- res = 0.40703E+05, tol = 0.98971E+01, time = 5.65 | CG iter. 5 -- res = 0.35987E+05, tol = 0.98971E+01, time = 5.80 | CG iter. 6 -- res = 0.34711E+05, tol = 0.98971E+01, time = 6.14 | CG iter. 7 -- res = 0.34819E+05, tol = 0.98971E+01, time = 5.65 | CG iter. 8 -- res = 0.31234E+05, tol = 0.98971E+01, time = 6.04 | CG iter. 9 -- res = 0.28133E+05, tol = 0.98971E+01, time = 5.77 | CG iter. 10 -- res = 0.24805E+05, tol = 0.98971E+01, time = 5.80 | CG iter. 11 -- res = 0.17845E+05, tol = 0.98971E+01, time = 5.83 | CG iter. 12 -- res = 0.12350E+05, tol = 0.98971E+01, time = 5.65 | CG iter. 13 -- res = 0.99226E+04, tol = 0.98971E+01, time = 5.68 | CG iter. 14 -- res = 0.94404E+04, tol = 0.98971E+01, time = 5.80 | CG iter. 15 -- res = 0.83661E+04, tol = 0.98971E+01, time = 5.47 | CG iter. 16 -- res = 0.65663E+04, tol = 0.98971E+01, time = 5.43 | CG iter. 17 -- res = 0.48835E+04, tol = 0.98971E+01, time = 5.79 | CG iter. 18 -- res = 0.40213E+04, tol = 0.98971E+01, time = 5.90 | CG iter. 19 -- res = 0.35161E+04, tol = 0.98971E+01, time = 5.84 | CG iter. 20 -- res = 0.29911E+04, tol = 0.98971E+01, time = 5.62 | CG iter. 21 -- res = 0.23571E+04, tol = 0.98971E+01, time = 5.60 | CG iter. 22 -- res = 0.20325E+04, tol = 0.98971E+01, time = 5.95 | CG iter. 23 -- res = 0.18690E+04, tol = 0.98971E+01, time = 5.49 | CG iter. 24 -- res = 0.16063E+04, tol = 0.98971E+01, time = 5.81 | CG iter. 25 -- res = 0.13081E+04, tol = 0.98971E+01, time = 6.13 | CG iter. 26 -- res = 0.10405E+04, tol = 0.98971E+01, time = 5.98 | CG iter. 27 -- res = 0.94537E+03, tol = 0.98971E+01, time = 5.94 | CG iter. 28 -- res = 0.89477E+03, tol = 0.98971E+01, time = 5.57 | CG iter. 29 -- res = 0.75327E+03, tol = 0.98971E+01, time = 5.69 | CG iter. 30 -- res = 0.62270E+03, tol = 0.98971E+01, time = 5.68 | CG iter. 31 -- res = 0.55461E+03, tol = 0.98971E+01, time = 5.65 | CG iter. 32 -- res = 0.50875E+03, tol = 0.98971E+01, time = 12.03 | CG iter. 33 -- res = 0.43300E+03, tol = 0.98971E+01, time = 5.61 | CG iter. 34 -- res = 0.35791E+03, tol = 0.98971E+01, time = 5.79 | CG iter. 35 -- res = 0.30728E+03, tol = 0.98971E+01, time = 5.51 | CG iter. 36 -- res = 0.28144E+03, tol = 0.98971E+01, time = 5.80 | CG iter. 37 -- res = 0.24788E+03, tol = 0.98971E+01, time = 5.56 | CG iter. 38 -- res = 0.20477E+03, tol = 0.98971E+01, time = 5.60 | CG iter. 39 -- res = 0.16739E+03, tol = 0.98971E+01, time = 5.45 | CG iter. 40 -- res = 0.15251E+03, tol = 0.98971E+01, time = 5.74 | CG iter. 41 -- res = 0.13664E+03, tol = 0.98971E+01, time = 5.59 | CG iter. 42 -- res = 0.10998E+03, tol = 0.98971E+01, time = 5.72 | CG iter. 43 -- res = 0.93331E+02, tol = 0.98971E+01, time = 5.58 | CG iter. 44 -- res = 0.80042E+02, tol = 0.98971E+01, time = 5.84 | CG iter. 45 -- res = 0.69449E+02, tol = 0.98971E+01, time = 5.65 | CG iter. 46 -- res = 0.57785E+02, tol = 0.98971E+01, time = 5.78 | CG iter. 47 -- res = 0.46564E+02, tol = 0.98971E+01, time = 6.93 | CG iter. 48 -- res = 0.38646E+02, tol = 0.98971E+01, time = 6.37 | CG iter. 49 -- res = 0.33272E+02, tol = 0.98971E+01, time = 5.93 | CG iter. 50 -- res = 0.28671E+02, tol = 0.98971E+01, time = 5.65 | Final CG iter 51 -- res = 0.28671E+02, tol = 0.98971E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9195795.579 | Old band monopole 6261340.764 | Change to band monopole 2934454.815 | Change to component monopole -2934442.194 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.82043E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.29320E+03, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.42711E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.21765E-01, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.21608E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9195756.026 | (Sampled value in CG: 9139032.886 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.460621 | New value = 1.548309 | poltype: 2 pol: 1 CPU time specind = 2.4160862E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.527551 | New value = 1.501045 | poltype: 2 pol: 2 CPU time specind = 3.8349628E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.25634E+08, tol = 0.47623E+04, time = 6.27 | CG iter. 2 -- res = 0.53598E+07, tol = 0.47623E+04, time = 6.51 | CG iter. 3 -- res = 0.83448E+06, tol = 0.47623E+04, time = 6.40 | CG iter. 4 -- res = 0.34576E+06, tol = 0.47623E+04, time = 6.56 | CG iter. 5 -- res = 0.14889E+06, tol = 0.47623E+04, time = 6.50 | CG iter. 6 -- res = 0.80854E+05, tol = 0.47623E+04, time = 6.59 | CG iter. 7 -- res = 0.43941E+05, tol = 0.47623E+04, time = 6.85 | CG iter. 8 -- res = 0.20735E+05, tol = 0.47623E+04, time = 6.53 | CG iter. 9 -- res = 0.88940E+04, tol = 0.47623E+04, time = 6.41 | CG iter. 10 -- res = 0.36442E+04, tol = 0.47623E+04, time = 7.00 | CG iter. 11 -- res = 0.16569E+04, tol = 0.47623E+04, time = 6.38 | CG iter. 12 -- res = 0.86390E+03, tol = 0.47623E+04, time = 12.55 | CG iter. 13 -- res = 0.50415E+03, tol = 0.47623E+04, time = 6.56 | CG iter. 14 -- res = 0.28151E+03, tol = 0.47623E+04, time = 6.55 | CG iter. 15 -- res = 0.14333E+03, tol = 0.47623E+04, time = 6.44 | CG iter. 16 -- res = 0.67081E+02, tol = 0.47623E+04, time = 6.65 | CG iter. 17 -- res = 0.31154E+02, tol = 0.47623E+04, time = 6.73 | CG iter. 18 -- res = 0.15361E+02, tol = 0.47623E+04, time = 6.58 | CG iter. 19 -- res = 0.84810E+01, tol = 0.47623E+04, time = 6.63 | CG iter. 20 -- res = 0.49110E+01, tol = 0.47623E+04, time = 6.69 | CG iter. 21 -- res = 0.27005E+01, tol = 0.47623E+04, time = 6.65 | CG iter. 22 -- res = 0.13507E+01, tol = 0.47623E+04, time = 6.39 | CG iter. 23 -- res = 0.65716E+00, tol = 0.47623E+04, time = 6.58 | CG iter. 24 -- res = 0.33927E+00, tol = 0.47623E+04, time = 6.25 | CG iter. 25 -- res = 0.18768E+00, tol = 0.47623E+04, time = 8.08 | CG iter. 26 -- res = 0.10722E+00, tol = 0.47623E+04, time = 7.25 | CG iter. 27 -- res = 0.60284E-01, tol = 0.47623E+04, time = 6.34 | CG iter. 28 -- res = 0.32156E-01, tol = 0.47623E+04, time = 6.89 | CG iter. 29 -- res = 0.16898E-01, tol = 0.47623E+04, time = 6.20 | CG iter. 30 -- res = 0.88824E-02, tol = 0.47623E+04, time = 6.63 | CG iter. 31 -- res = 0.48242E-02, tol = 0.47623E+04, time = 6.63 | CG iter. 32 -- res = 0.27097E-02, tol = 0.47623E+04, time = 6.32 | CG iter. 33 -- res = 0.15048E-02, tol = 0.47623E+04, time = 6.67 | CG iter. 34 -- res = 0.80361E-03, tol = 0.47623E+04, time = 6.31 | CG iter. 35 -- res = 0.41843E-03, tol = 0.47623E+04, time = 6.56 | Final CG iter 36 -- res = 0.41843E-03, tol = 0.47623E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.983 2.700 | New value 4.176 | Old value -4.983 | Difference 9.159 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.43602E+07, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.54895E+02, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.15788E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.12790E-02, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.26868E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9195756.026 | (Sampled value in CG: 9139283.065 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.485150 | New value = -3.589297 | poltype: 1 pol: 1 CPU time specind = 2.4279833E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.45125E+07, tol = 0.29188E+01, time = 2.60 | CG iter. 2 -- res = 0.13458E+07, tol = 0.29188E+01, time = 2.64 | CG iter. 3 -- res = 0.34824E+06, tol = 0.29188E+01, time = 2.68 | CG iter. 4 -- res = 0.21623E+06, tol = 0.29188E+01, time = 2.71 | CG iter. 5 -- res = 0.11567E+06, tol = 0.29188E+01, time = 2.64 | CG iter. 6 -- res = 0.41146E+05, tol = 0.29188E+01, time = 2.58 | CG iter. 7 -- res = 0.13925E+05, tol = 0.29188E+01, time = 2.77 | CG iter. 8 -- res = 0.69304E+04, tol = 0.29188E+01, time = 2.84 | CG iter. 9 -- res = 0.33614E+04, tol = 0.29188E+01, time = 2.74 | CG iter. 10 -- res = 0.12539E+04, tol = 0.29188E+01, time = 2.86 | CG iter. 11 -- res = 0.51153E+03, tol = 0.29188E+01, time = 2.71 | CG iter. 12 -- res = 0.25451E+03, tol = 0.29188E+01, time = 2.79 | CG iter. 13 -- res = 0.12862E+03, tol = 0.29188E+01, time = 2.55 | CG iter. 14 -- res = 0.65860E+02, tol = 0.29188E+01, time = 2.60 | CG iter. 15 -- res = 0.29700E+02, tol = 0.29188E+01, time = 3.64 | CG iter. 16 -- res = 0.13384E+02, tol = 0.29188E+01, time = 2.74 | CG iter. 17 -- res = 0.54564E+01, tol = 0.29188E+01, time = 2.77 | CG iter. 18 -- res = 0.25129E+01, tol = 0.29188E+01, time = 2.83 | CG iter. 19 -- res = 0.12033E+01, tol = 0.29188E+01, time = 2.66 | CG iter. 20 -- res = 0.61859E+00, tol = 0.29188E+01, time = 2.97 | CG iter. 21 -- res = 0.30313E+00, tol = 0.29188E+01, time = 2.85 | CG iter. 22 -- res = 0.13361E+00, tol = 0.29188E+01, time = 2.81 | CG iter. 23 -- res = 0.59691E-01, tol = 0.29188E+01, time = 2.52 | CG iter. 24 -- res = 0.26515E-01, tol = 0.29188E+01, time = 2.80 | CG iter. 25 -- res = 0.12977E-01, tol = 0.29188E+01, time = 2.64 | CG iter. 26 -- res = 0.65015E-02, tol = 0.29188E+01, time = 2.75 | CG iter. 27 -- res = 0.32436E-02, tol = 0.29188E+01, time = 2.75 | CG iter. 28 -- res = 0.16662E-02, tol = 0.29188E+01, time = 2.55 | CG iter. 29 -- res = 0.72212E-03, tol = 0.29188E+01, time = 2.59 | CG iter. 30 -- res = 0.33893E-03, tol = 0.29188E+01, time = 2.95 | CG iter. 31 -- res = 0.16541E-03, tol = 0.29188E+01, time = 2.74 | CG iter. 32 -- res = 0.86114E-04, tol = 0.29188E+01, time = 2.56 | CG iter. 33 -- res = 0.42513E-04, tol = 0.29188E+01, time = 2.86 | CG iter. 34 -- res = 0.21064E-04, tol = 0.29188E+01, time = 2.68 | CG iter. 35 -- res = 0.97722E-05, tol = 0.29188E+01, time = 2.96 | CG iter. 36 -- res = 0.45792E-05, tol = 0.29188E+01, time = 2.61 | CG iter. 37 -- res = 0.22074E-05, tol = 0.29188E+01, time = 2.73 | CG iter. 38 -- res = 0.11426E-05, tol = 0.29188E+01, time = 2.77 | CG iter. 39 -- res = 0.57766E-06, tol = 0.29188E+01, time = 2.66 | CG iter. 40 -- res = 0.26828E-06, tol = 0.29188E+01, time = 2.81 | CG iter. 41 -- res = 0.12828E-06, tol = 0.29188E+01, time = 2.92 | CG iter. 42 -- res = 0.59846E-07, tol = 0.29188E+01, time = 2.70 | CG iter. 43 -- res = 0.27645E-07, tol = 0.29188E+01, time = 2.58 | CG iter. 44 -- res = 0.13548E-07, tol = 0.29188E+01, time = 2.53 | CG iter. 45 -- res = 0.65990E-08, tol = 0.29188E+01, time = 2.64 | CG iter. 46 -- res = 0.30790E-08, tol = 0.29188E+01, time = 2.55 | CG iter. 47 -- res = 0.15704E-08, tol = 0.29188E+01, time = 2.53 | CG iter. 48 -- res = 0.74618E-09, tol = 0.29188E+01, time = 2.74 | CG iter. 49 -- res = 0.32508E-09, tol = 0.29188E+01, time = 2.73 | CG iter. 50 -- res = 0.14710E-09, tol = 0.29188E+01, time = 3.65 | Final CG iter 51 -- res = 0.14710E-09, tol = 0.29188E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -12.047 6.895 | New value 1.447 | Old value -12.047 | Difference 13.495 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.18399E+06, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.96127E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.37664E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.10402E-01, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.12418E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9195756.026 | (Sampled value in CG: 9152391.536 ) | CPU time specind = 1191.564 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.73951E+08, tol = 0.57819E+04, time = 13.86 | CG iter. 2 -- res = 0.60825E+08, tol = 0.57819E+04, time = 12.01 | CG iter. 3 -- res = 0.15882E+08, tol = 0.57819E+04, time = 12.15 | CG iter. 4 -- res = 0.70224E+07, tol = 0.57819E+04, time = 12.16 | CG iter. 5 -- res = 0.43641E+07, tol = 0.57819E+04, time = 11.62 | CG iter. 6 -- res = 0.25426E+07, tol = 0.57819E+04, time = 12.21 | CG iter. 7 -- res = 0.14692E+07, tol = 0.57819E+04, time = 11.50 | CG iter. 8 -- res = 0.94121E+06, tol = 0.57819E+04, time = 11.88 | CG iter. 9 -- res = 0.58519E+06, tol = 0.57819E+04, time = 11.42 | CG iter. 10 -- res = 0.34585E+06, tol = 0.57819E+04, time = 11.91 | CG iter. 11 -- res = 0.19147E+06, tol = 0.57819E+04, time = 11.90 | CG iter. 12 -- res = 0.10629E+06, tol = 0.57819E+04, time = 11.67 | CG iter. 13 -- res = 0.61481E+05, tol = 0.57819E+04, time = 11.78 | CG iter. 14 -- res = 0.38059E+05, tol = 0.57819E+04, time = 11.57 | CG iter. 15 -- res = 0.26806E+05, tol = 0.57819E+04, time = 11.90 | CG iter. 16 -- res = 0.21676E+05, tol = 0.57819E+04, time = 12.04 | CG iter. 17 -- res = 0.18957E+05, tol = 0.57819E+04, time = 11.39 | CG iter. 18 -- res = 0.16251E+05, tol = 0.57819E+04, time = 18.89 | CG iter. 19 -- res = 0.13800E+05, tol = 0.57819E+04, time = 11.49 | CG iter. 20 -- res = 0.12062E+05, tol = 0.57819E+04, time = 12.15 | CG iter. 21 -- res = 0.11223E+05, tol = 0.57819E+04, time = 11.91 | CG iter. 22 -- res = 0.11419E+05, tol = 0.57819E+04, time = 11.60 | CG iter. 23 -- res = 0.12413E+05, tol = 0.57819E+04, time = 11.50 | CG iter. 24 -- res = 0.13359E+05, tol = 0.57819E+04, time = 11.39 | CG iter. 25 -- res = 0.12476E+05, tol = 0.57819E+04, time = 13.40 | CG iter. 26 -- res = 0.10281E+05, tol = 0.57819E+04, time = 12.24 | CG iter. 27 -- res = 0.77774E+04, tol = 0.57819E+04, time = 11.89 | CG iter. 28 -- res = 0.59595E+04, tol = 0.57819E+04, time = 12.03 | CG iter. 29 -- res = 0.48004E+04, tol = 0.57819E+04, time = 11.44 | CG iter. 30 -- res = 0.41000E+04, tol = 0.57819E+04, time = 11.66 | CG iter. 31 -- res = 0.35171E+04, tol = 0.57819E+04, time = 12.01 | CG iter. 32 -- res = 0.29632E+04, tol = 0.57819E+04, time = 11.50 | CG iter. 33 -- res = 0.24875E+04, tol = 0.57819E+04, time = 11.26 | CG iter. 34 -- res = 0.20648E+04, tol = 0.57819E+04, time = 12.12 | CG iter. 35 -- res = 0.17927E+04, tol = 0.57819E+04, time = 12.21 | CG iter. 36 -- res = 0.16844E+04, tol = 0.57819E+04, time = 11.89 | CG iter. 37 -- res = 0.16997E+04, tol = 0.57819E+04, time = 11.87 | CG iter. 38 -- res = 0.17187E+04, tol = 0.57819E+04, time = 11.59 | CG iter. 39 -- res = 0.16357E+04, tol = 0.57819E+04, time = 11.73 | CG iter. 40 -- res = 0.14255E+04, tol = 0.57819E+04, time = 11.96 | CG iter. 41 -- res = 0.11781E+04, tol = 0.57819E+04, time = 11.94 | CG iter. 42 -- res = 0.97789E+03, tol = 0.57819E+04, time = 11.57 | CG iter. 43 -- res = 0.86042E+03, tol = 0.57819E+04, time = 17.78 | CG iter. 44 -- res = 0.79641E+03, tol = 0.57819E+04, time = 12.06 | CG iter. 45 -- res = 0.72396E+03, tol = 0.57819E+04, time = 11.70 | CG iter. 46 -- res = 0.64670E+03, tol = 0.57819E+04, time = 11.60 | CG iter. 47 -- res = 0.57384E+03, tol = 0.57819E+04, time = 11.74 | CG iter. 48 -- res = 0.49839E+03, tol = 0.57819E+04, time = 11.76 | CG iter. 49 -- res = 0.43612E+03, tol = 0.57819E+04, time = 11.91 | CG iter. 50 -- res = 0.40541E+03, tol = 0.57819E+04, time = 13.64 | CG iter. 51 -- res = 0.39496E+03, tol = 0.57819E+04, time = 12.28 | CG iter. 52 -- res = 0.39100E+03, tol = 0.57819E+04, time = 11.66 | CG iter. 53 -- res = 0.37758E+03, tol = 0.57819E+04, time = 11.64 | CG iter. 54 -- res = 0.34374E+03, tol = 0.57819E+04, time = 11.79 | CG iter. 55 -- res = 0.30590E+03, tol = 0.57819E+04, time = 11.56 | CG iter. 56 -- res = 0.27061E+03, tol = 0.57819E+04, time = 11.32 | CG iter. 57 -- res = 0.24300E+03, tol = 0.57819E+04, time = 11.56 | CG iter. 58 -- res = 0.22725E+03, tol = 0.57819E+04, time = 11.46 | CG iter. 59 -- res = 0.21837E+03, tol = 0.57819E+04, time = 11.04 | CG iter. 60 -- res = 0.20946E+03, tol = 0.57819E+04, time = 11.90 | Final CG iter 61 -- res = 0.20946E+03, tol = 0.57819E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.855 ( -229.653 -2231.010 2513.582 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8457341.635 | Old band monopole 9195795.579 | Change to band monopole -738453.944 | Change to component monopole 738450.767 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.290 2.749 | New value -5.120 | Old value 4.290 | Difference -9.409 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.007 ( 7.498 12.264 -11.305 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.487 4.685 | New value 3.470 | Old value 8.487 | Difference -5.017 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.45747E+07, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.20957E+02, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.42617E+00, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.67472E-03, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.98838E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8457305.258 | (Sampled value in CG: 8440429.320 ) | Chain = 1 -- chisq = 0.81514660E+09 | Chain = 1 -- wall time = 6108.213 sec Available RAM: MemAvailable: 381562948 kB Available Swap: SwapFree: 1164638064 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 315 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445097 | --> Sampling calibration, mode = relcal | relcal = 1.3433883E-02 7.5678719E-04 -1.6065536E-03 -1.2584116E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1180396 0.1244971 97044784.6403820 | BP delta = 0.1232145 0.1296720 97044787.9129273 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632401 | --> Sampling calibration, mode = relcal | relcal = -2.8205088E-03 -7.0473511E-04 1.6784011E-03 1.6136629E-03 -4.0750005E-04 6.4067973E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5795441 15218226.7416437 | BP delta = 0.0000000E+00 -0.5708725 15218221.0550866 | BP chisq diff = -5.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18164071306032 | --> Sampling calibration, mode = relcal | relcal = -7.5103693E-02 -5.8459152E-02 9.1902979E-02 4.1659866E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0911470E-04 4.7743721E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0826E-05 | 2: delta_r/delta_0: 8.8840E-07 | 3: delta_s/delta_0: 2.2339E-07 | 4: delta_r/delta_0: 1.7500E-08 | 5: delta_s/delta_0: 7.8316E-09 | 6: delta_r/delta_0: 1.1017E-09 | 7: delta_s/delta_0: 2.5504E-10 | 8: delta_r/delta_0: 1.3354E-10 | 9: delta_s/delta_0: 4.4326E-08 | 10: delta_r/delta_0: 1.7565E-08 | 11: delta_s/delta_0: 7.9122E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.160627724959248E-003 2.739569452029602E-005 | BP delta = 7.4514151E-02 9.4637521E-02 50484273.9046851 | BP delta = 7.7035934E-02 9.7159296E-02 50484273.1140940 | BP chisq diff = -0.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02600609 | --> Sampling calibration, mode = relcal | relcal = -0.1066552 -9.5526256E-02 0.1449211 5.7260390E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3182446E-03 1.2743336E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4248E-05 | 2: delta_r/delta_0: 1.2635E-06 | 3: delta_s/delta_0: 2.6189E-07 | 4: delta_r/delta_0: 4.0392E-08 | 5: delta_s/delta_0: 2.2808E-08 | 6: delta_r/delta_0: 6.7251E-09 | 7: delta_s/delta_0: 6.4622E-09 | 8: delta_r/delta_0: 1.5388E-09 | 9: delta_s/delta_0: 8.0351E-10 | 10: delta_r/delta_0: 5.9583E-10 | 11: delta_s/delta_0: 6.0964E-10 | 12: delta_r/delta_0: 8.9657E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.007470977624629E-002 2.810804385589514E-005 | BP delta = -0.3307866 -0.3003689 57389734.7267265 | BP delta = -0.3297135 -0.2992958 57389734.6968398 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81229984 | --> Sampling calibration, mode = relcal | relcal = 0.2954693 0.2249082 -0.2838178 -0.2365596 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6299918E-06 6.0239127E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6157E-04 | 2: delta_r/delta_0: 1.5956E-05 | 3: delta_s/delta_0: 8.3073E-04 | 4: delta_r/delta_0: 3.3774E-05 | 5: delta_s/delta_0: 3.0955E-07 | 6: delta_r/delta_0: 1.4083E-07 | 7: delta_s/delta_0: 5.7852E-07 | 8: delta_r/delta_0: 3.6053E-08 | 9: delta_s/delta_0: 1.4462E-08 | 10: delta_r/delta_0: 2.3360E-09 | 11: delta_s/delta_0: 2.1965E-09 | 12: delta_r/delta_0: 1.1374E-09 | 13: delta_s/delta_0: 1.2677E-09 | 14: delta_r/delta_0: 1.4297E-10 | 15: delta_s/delta_0: 6.9755E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.271668804698291E-002 4.021333357049840E-005 | BP delta = -0.2657299 -0.2990325 72481105.2727313 | BP delta = -0.2736622 -0.3069648 72481105.4078664 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95916398 | --> Sampling calibration, mode = relcal | relcal = 0.1064563 0.1396750 -0.1102004 -0.1359310 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0917991E-03 1.1967737E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3391E-04 | 2: delta_r/delta_0: 1.5457E-05 | 3: delta_s/delta_0: 2.1842E-04 | 4: delta_r/delta_0: 1.0069E-05 | 5: delta_s/delta_0: 3.0766E-07 | 6: delta_r/delta_0: 1.3836E-07 | 7: delta_s/delta_0: 4.3441E-07 | 8: delta_r/delta_0: 3.7814E-08 | 9: delta_s/delta_0: 1.3429E-08 | 10: delta_r/delta_0: 4.0800E-09 | 11: delta_s/delta_0: 1.9305E-09 | 12: delta_r/delta_0: 9.3510E-10 | 13: delta_s/delta_0: 3.7154E-08 | 14: delta_r/delta_0: 3.8072E-09 | 15: delta_s/delta_0: 5.5180E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.330913799371456E-002 3.697178229928137E-005 | BP delta = 7.0554949E-02 0.1909443 72783132.1703691 | BP delta = 8.7667905E-02 0.2080573 72783132.6014837 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.246963 | New value = -3.045173 | poltype: 2 pol: 1 CPU time specind = 2.0816088E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.201001 | New value = -3.192610 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152849 | New value = -3.177852 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.231178 | New value = -3.185254 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.229071 | New value = -3.075169 | poltype: 2 pol: 2 CPU time specind = 8.8188648E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.14858E+08, tol = 0.83226E+01, time = 5.53 | CG iter. 2 -- res = 0.83728E+06, tol = 0.83226E+01, time = 5.76 | CG iter. 3 -- res = 0.10580E+07, tol = 0.83226E+01, time = 5.81 | CG iter. 4 -- res = 0.16476E+07, tol = 0.83226E+01, time = 5.64 | CG iter. 5 -- res = 0.12416E+07, tol = 0.83226E+01, time = 5.72 | CG iter. 6 -- res = 0.74213E+06, tol = 0.83226E+01, time = 5.87 | CG iter. 7 -- res = 0.46795E+06, tol = 0.83226E+01, time = 5.51 | CG iter. 8 -- res = 0.42962E+06, tol = 0.83226E+01, time = 6.07 | CG iter. 9 -- res = 0.34724E+06, tol = 0.83226E+01, time = 5.68 | CG iter. 10 -- res = 0.25992E+06, tol = 0.83226E+01, time = 5.47 | CG iter. 11 -- res = 0.18330E+06, tol = 0.83226E+01, time = 5.75 | CG iter. 12 -- res = 0.12052E+06, tol = 0.83226E+01, time = 5.66 | CG iter. 13 -- res = 0.96722E+05, tol = 0.83226E+01, time = 5.61 | CG iter. 14 -- res = 0.80967E+05, tol = 0.83226E+01, time = 5.73 | CG iter. 15 -- res = 0.53849E+05, tol = 0.83226E+01, time = 5.81 | CG iter. 16 -- res = 0.35098E+05, tol = 0.83226E+01, time = 6.14 | CG iter. 17 -- res = 0.28043E+05, tol = 0.83226E+01, time = 7.35 | CG iter. 18 -- res = 0.24443E+05, tol = 0.83226E+01, time = 5.91 | CG iter. 19 -- res = 0.18522E+05, tol = 0.83226E+01, time = 5.89 | CG iter. 20 -- res = 0.12859E+05, tol = 0.83226E+01, time = 6.11 | CG iter. 21 -- res = 0.97204E+04, tol = 0.83226E+01, time = 5.93 | CG iter. 22 -- res = 0.82779E+04, tol = 0.83226E+01, time = 5.99 | CG iter. 23 -- res = 0.66617E+04, tol = 0.83226E+01, time = 5.65 | CG iter. 24 -- res = 0.46650E+04, tol = 0.83226E+01, time = 6.14 | CG iter. 25 -- res = 0.33440E+04, tol = 0.83226E+01, time = 5.59 | CG iter. 26 -- res = 0.27677E+04, tol = 0.83226E+01, time = 5.58 | CG iter. 27 -- res = 0.23580E+04, tol = 0.83226E+01, time = 5.77 | CG iter. 28 -- res = 0.16811E+04, tol = 0.83226E+01, time = 5.65 | CG iter. 29 -- res = 0.11302E+04, tol = 0.83226E+01, time = 6.17 | CG iter. 30 -- res = 0.87136E+03, tol = 0.83226E+01, time = 5.68 | CG iter. 31 -- res = 0.71207E+03, tol = 0.83226E+01, time = 5.83 | CG iter. 32 -- res = 0.54560E+03, tol = 0.83226E+01, time = 12.51 | CG iter. 33 -- res = 0.37911E+03, tol = 0.83226E+01, time = 5.49 | CG iter. 34 -- res = 0.26923E+03, tol = 0.83226E+01, time = 5.96 | CG iter. 35 -- res = 0.21557E+03, tol = 0.83226E+01, time = 5.26 | CG iter. 36 -- res = 0.16798E+03, tol = 0.83226E+01, time = 5.48 | CG iter. 37 -- res = 0.11839E+03, tol = 0.83226E+01, time = 5.97 | CG iter. 38 -- res = 0.81449E+02, tol = 0.83226E+01, time = 5.63 | CG iter. 39 -- res = 0.61067E+02, tol = 0.83226E+01, time = 5.93 | CG iter. 40 -- res = 0.47464E+02, tol = 0.83226E+01, time = 5.69 | CG iter. 41 -- res = 0.35982E+02, tol = 0.83226E+01, time = 5.44 | CG iter. 42 -- res = 0.24886E+02, tol = 0.83226E+01, time = 5.84 | CG iter. 43 -- res = 0.17674E+02, tol = 0.83226E+01, time = 6.05 | CG iter. 44 -- res = 0.13817E+02, tol = 0.83226E+01, time = 5.63 | CG iter. 45 -- res = 0.10224E+02, tol = 0.83226E+01, time = 5.86 | CG iter. 46 -- res = 0.68335E+01, tol = 0.83226E+01, time = 5.79 | CG iter. 47 -- res = 0.46945E+01, tol = 0.83226E+01, time = 6.97 | CG iter. 48 -- res = 0.34358E+01, tol = 0.83226E+01, time = 6.16 | CG iter. 49 -- res = 0.25628E+01, tol = 0.83226E+01, time = 6.84 | CG iter. 50 -- res = 0.17310E+01, tol = 0.83226E+01, time = 5.56 | Final CG iter 51 -- res = 0.17310E+01, tol = 0.83226E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10515225.109 | Old band monopole 8457341.635 | Change to band monopole 2057883.474 | Change to component monopole -2057874.622 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.14778E+07, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.12878E+04, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.49269E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.17784E+00, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.29188E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10515179.881 | (Sampled value in CG: 10823661.102 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.548309 | New value = 1.471106 | poltype: 2 pol: 1 CPU time specind = 1.3481855E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501045 | New value = 1.541967 | poltype: 2 pol: 2 CPU time specind = 2.1472216E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.25251E+08, tol = 0.47434E+04, time = 6.18 | CG iter. 2 -- res = 0.54355E+07, tol = 0.47434E+04, time = 6.69 | CG iter. 3 -- res = 0.86603E+06, tol = 0.47434E+04, time = 6.15 | CG iter. 4 -- res = 0.35682E+06, tol = 0.47434E+04, time = 6.33 | CG iter. 5 -- res = 0.15470E+06, tol = 0.47434E+04, time = 6.51 | CG iter. 6 -- res = 0.79615E+05, tol = 0.47434E+04, time = 6.71 | CG iter. 7 -- res = 0.43644E+05, tol = 0.47434E+04, time = 6.43 | CG iter. 8 -- res = 0.21426E+05, tol = 0.47434E+04, time = 6.60 | CG iter. 9 -- res = 0.95113E+04, tol = 0.47434E+04, time = 6.57 | CG iter. 10 -- res = 0.37767E+04, tol = 0.47434E+04, time = 6.64 | CG iter. 11 -- res = 0.17032E+04, tol = 0.47434E+04, time = 6.46 | CG iter. 12 -- res = 0.86727E+03, tol = 0.47434E+04, time = 12.29 | CG iter. 13 -- res = 0.49114E+03, tol = 0.47434E+04, time = 6.42 | CG iter. 14 -- res = 0.28118E+03, tol = 0.47434E+04, time = 6.46 | CG iter. 15 -- res = 0.14419E+03, tol = 0.47434E+04, time = 6.51 | CG iter. 16 -- res = 0.67739E+02, tol = 0.47434E+04, time = 6.72 | CG iter. 17 -- res = 0.31561E+02, tol = 0.47434E+04, time = 6.30 | CG iter. 18 -- res = 0.16051E+02, tol = 0.47434E+04, time = 6.65 | CG iter. 19 -- res = 0.85678E+01, tol = 0.47434E+04, time = 6.67 | CG iter. 20 -- res = 0.47875E+01, tol = 0.47434E+04, time = 6.38 | CG iter. 21 -- res = 0.26084E+01, tol = 0.47434E+04, time = 6.98 | CG iter. 22 -- res = 0.13475E+01, tol = 0.47434E+04, time = 6.48 | CG iter. 23 -- res = 0.68122E+00, tol = 0.47434E+04, time = 6.40 | CG iter. 24 -- res = 0.35561E+00, tol = 0.47434E+04, time = 6.57 | CG iter. 25 -- res = 0.19275E+00, tol = 0.47434E+04, time = 8.05 | CG iter. 26 -- res = 0.10799E+00, tol = 0.47434E+04, time = 6.75 | CG iter. 27 -- res = 0.62009E-01, tol = 0.47434E+04, time = 6.22 | CG iter. 28 -- res = 0.32983E-01, tol = 0.47434E+04, time = 7.02 | CG iter. 29 -- res = 0.16952E-01, tol = 0.47434E+04, time = 6.15 | CG iter. 30 -- res = 0.89581E-02, tol = 0.47434E+04, time = 6.37 | CG iter. 31 -- res = 0.48803E-02, tol = 0.47434E+04, time = 6.48 | CG iter. 32 -- res = 0.27133E-02, tol = 0.47434E+04, time = 6.34 | CG iter. 33 -- res = 0.15308E-02, tol = 0.47434E+04, time = 6.67 | CG iter. 34 -- res = 0.83648E-03, tol = 0.47434E+04, time = 6.63 | CG iter. 35 -- res = 0.43231E-03, tol = 0.47434E+04, time = 6.48 | Final CG iter 36 -- res = 0.43231E-03, tol = 0.47434E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.151 2.727 | New value -0.641 | Old value -5.151 | Difference 4.509 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.11652E+07, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.10244E+04, tol = 0.47627E+18, time = 2.74 | CG iter. 3 -- res = 0.25730E+01, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.50179E-02, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.75099E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10515179.881 | (Sampled value in CG: 10825189.682 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.589297 | New value = -3.565597 | poltype: 1 pol: 1 CPU time specind = 1.3169050E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.10053E+08, tol = 0.28756E+01, time = 2.66 | CG iter. 2 -- res = 0.51099E+07, tol = 0.28756E+01, time = 2.81 | CG iter. 3 -- res = 0.11772E+07, tol = 0.28756E+01, time = 2.46 | CG iter. 4 -- res = 0.61019E+06, tol = 0.28756E+01, time = 2.79 | CG iter. 5 -- res = 0.34788E+06, tol = 0.28756E+01, time = 2.62 | CG iter. 6 -- res = 0.12939E+06, tol = 0.28756E+01, time = 2.76 | CG iter. 7 -- res = 0.37517E+05, tol = 0.28756E+01, time = 2.62 | CG iter. 8 -- res = 0.15755E+05, tol = 0.28756E+01, time = 3.04 | CG iter. 9 -- res = 0.86173E+04, tol = 0.28756E+01, time = 2.69 | CG iter. 10 -- res = 0.35199E+04, tol = 0.28756E+01, time = 2.84 | CG iter. 11 -- res = 0.13188E+04, tol = 0.28756E+01, time = 2.29 | CG iter. 12 -- res = 0.62643E+03, tol = 0.28756E+01, time = 2.83 | CG iter. 13 -- res = 0.30823E+03, tol = 0.28756E+01, time = 2.51 | CG iter. 14 -- res = 0.14633E+03, tol = 0.28756E+01, time = 2.67 | CG iter. 15 -- res = 0.66973E+02, tol = 0.28756E+01, time = 2.73 | CG iter. 16 -- res = 0.30161E+02, tol = 0.28756E+01, time = 2.78 | CG iter. 17 -- res = 0.12930E+02, tol = 0.28756E+01, time = 2.82 | CG iter. 18 -- res = 0.60498E+01, tol = 0.28756E+01, time = 2.59 | CG iter. 19 -- res = 0.28407E+01, tol = 0.28756E+01, time = 2.85 | CG iter. 20 -- res = 0.14291E+01, tol = 0.28756E+01, time = 2.72 | CG iter. 21 -- res = 0.70362E+00, tol = 0.28756E+01, time = 2.83 | CG iter. 22 -- res = 0.31949E+00, tol = 0.28756E+01, time = 2.73 | CG iter. 23 -- res = 0.14861E+00, tol = 0.28756E+01, time = 2.82 | CG iter. 24 -- res = 0.71454E-01, tol = 0.28756E+01, time = 2.68 | CG iter. 25 -- res = 0.33774E-01, tol = 0.28756E+01, time = 2.49 | CG iter. 26 -- res = 0.16348E-01, tol = 0.28756E+01, time = 2.90 | CG iter. 27 -- res = 0.79025E-02, tol = 0.28756E+01, time = 2.94 | CG iter. 28 -- res = 0.39169E-02, tol = 0.28756E+01, time = 2.84 | CG iter. 29 -- res = 0.18036E-02, tol = 0.28756E+01, time = 2.84 | CG iter. 30 -- res = 0.86245E-03, tol = 0.28756E+01, time = 2.55 | CG iter. 31 -- res = 0.40843E-03, tol = 0.28756E+01, time = 2.91 | CG iter. 32 -- res = 0.19665E-03, tol = 0.28756E+01, time = 3.18 | CG iter. 33 -- res = 0.98128E-04, tol = 0.28756E+01, time = 2.80 | CG iter. 34 -- res = 0.48400E-04, tol = 0.28756E+01, time = 3.07 | CG iter. 35 -- res = 0.24791E-04, tol = 0.28756E+01, time = 2.72 | CG iter. 36 -- res = 0.11555E-04, tol = 0.28756E+01, time = 3.02 | CG iter. 37 -- res = 0.51518E-05, tol = 0.28756E+01, time = 2.67 | CG iter. 38 -- res = 0.25504E-05, tol = 0.28756E+01, time = 2.86 | CG iter. 39 -- res = 0.12351E-05, tol = 0.28756E+01, time = 2.73 | CG iter. 40 -- res = 0.62494E-06, tol = 0.28756E+01, time = 3.08 | CG iter. 41 -- res = 0.30577E-06, tol = 0.28756E+01, time = 2.97 | CG iter. 42 -- res = 0.14448E-06, tol = 0.28756E+01, time = 2.84 | CG iter. 43 -- res = 0.64019E-07, tol = 0.28756E+01, time = 2.80 | CG iter. 44 -- res = 0.30804E-07, tol = 0.28756E+01, time = 2.73 | CG iter. 45 -- res = 0.14876E-07, tol = 0.28756E+01, time = 2.81 | CG iter. 46 -- res = 0.72399E-08, tol = 0.28756E+01, time = 2.76 | CG iter. 47 -- res = 0.36257E-08, tol = 0.28756E+01, time = 9.26 | CG iter. 48 -- res = 0.17343E-08, tol = 0.28756E+01, time = 2.68 | CG iter. 49 -- res = 0.80060E-09, tol = 0.28756E+01, time = 2.58 | CG iter. 50 -- res = 0.36792E-09, tol = 0.28756E+01, time = 2.69 | Final CG iter 51 -- res = 0.36792E-09, tol = 0.28756E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 19.746 2.017 | New value -0.404 | Old value 19.746 | Difference -20.150 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.46101E+06, tol = 0.47627E+18, time = 2.11 | CG iter. 2 -- res = 0.60004E+03, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.36506E+01, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.59823E-01, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.19883E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10515179.881 | (Sampled value in CG: 10735745.459 ) | CPU time specind = 1205.738 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.74061E+08, tol = 0.57587E+04, time = 11.97 | CG iter. 2 -- res = 0.63480E+08, tol = 0.57587E+04, time = 11.98 | CG iter. 3 -- res = 0.17614E+08, tol = 0.57587E+04, time = 11.68 | CG iter. 4 -- res = 0.77588E+07, tol = 0.57587E+04, time = 11.75 | CG iter. 5 -- res = 0.51358E+07, tol = 0.57587E+04, time = 11.62 | CG iter. 6 -- res = 0.32549E+07, tol = 0.57587E+04, time = 12.04 | CG iter. 7 -- res = 0.19881E+07, tol = 0.57587E+04, time = 11.97 | CG iter. 8 -- res = 0.14086E+07, tol = 0.57587E+04, time = 12.07 | CG iter. 9 -- res = 0.10269E+07, tol = 0.57587E+04, time = 12.13 | CG iter. 10 -- res = 0.74478E+06, tol = 0.57587E+04, time = 12.19 | CG iter. 11 -- res = 0.54265E+06, tol = 0.57587E+04, time = 11.38 | CG iter. 12 -- res = 0.41755E+06, tol = 0.57587E+04, time = 11.76 | CG iter. 13 -- res = 0.34795E+06, tol = 0.57587E+04, time = 11.69 | CG iter. 14 -- res = 0.32740E+06, tol = 0.57587E+04, time = 12.02 | CG iter. 15 -- res = 0.35017E+06, tol = 0.57587E+04, time = 11.75 | CG iter. 16 -- res = 0.37648E+06, tol = 0.57587E+04, time = 11.68 | CG iter. 17 -- res = 0.35995E+06, tol = 0.57587E+04, time = 19.06 | CG iter. 18 -- res = 0.30135E+06, tol = 0.57587E+04, time = 11.50 | CG iter. 19 -- res = 0.23347E+06, tol = 0.57587E+04, time = 12.02 | CG iter. 20 -- res = 0.18183E+06, tol = 0.57587E+04, time = 11.77 | CG iter. 21 -- res = 0.14935E+06, tol = 0.57587E+04, time = 11.88 | CG iter. 22 -- res = 0.12810E+06, tol = 0.57587E+04, time = 12.20 | CG iter. 23 -- res = 0.11295E+06, tol = 0.57587E+04, time = 12.16 | CG iter. 24 -- res = 0.98567E+05, tol = 0.57587E+04, time = 13.80 | CG iter. 25 -- res = 0.80049E+05, tol = 0.57587E+04, time = 12.59 | CG iter. 26 -- res = 0.64205E+05, tol = 0.57587E+04, time = 11.99 | CG iter. 27 -- res = 0.53600E+05, tol = 0.57587E+04, time = 12.00 | CG iter. 28 -- res = 0.47960E+05, tol = 0.57587E+04, time = 11.90 | CG iter. 29 -- res = 0.46694E+05, tol = 0.57587E+04, time = 11.91 | CG iter. 30 -- res = 0.45740E+05, tol = 0.57587E+04, time = 12.01 | CG iter. 31 -- res = 0.41530E+05, tol = 0.57587E+04, time = 11.71 | CG iter. 32 -- res = 0.35022E+05, tol = 0.57587E+04, time = 11.65 | CG iter. 33 -- res = 0.28662E+05, tol = 0.57587E+04, time = 11.86 | CG iter. 34 -- res = 0.23095E+05, tol = 0.57587E+04, time = 12.32 | CG iter. 35 -- res = 0.19028E+05, tol = 0.57587E+04, time = 11.51 | CG iter. 36 -- res = 0.16535E+05, tol = 0.57587E+04, time = 11.78 | CG iter. 37 -- res = 0.15104E+05, tol = 0.57587E+04, time = 11.83 | CG iter. 38 -- res = 0.13644E+05, tol = 0.57587E+04, time = 11.51 | CG iter. 39 -- res = 0.12044E+05, tol = 0.57587E+04, time = 11.57 | CG iter. 40 -- res = 0.10355E+05, tol = 0.57587E+04, time = 12.40 | CG iter. 41 -- res = 0.89858E+04, tol = 0.57587E+04, time = 12.81 | CG iter. 42 -- res = 0.79935E+04, tol = 0.57587E+04, time = 17.72 | CG iter. 43 -- res = 0.73860E+04, tol = 0.57587E+04, time = 11.52 | CG iter. 44 -- res = 0.69908E+04, tol = 0.57587E+04, time = 11.50 | CG iter. 45 -- res = 0.64934E+04, tol = 0.57587E+04, time = 12.07 | CG iter. 46 -- res = 0.59302E+04, tol = 0.57587E+04, time = 11.76 | CG iter. 47 -- res = 0.51448E+04, tol = 0.57587E+04, time = 11.70 | CG iter. 48 -- res = 0.42799E+04, tol = 0.57587E+04, time = 11.52 | CG iter. 49 -- res = 0.36927E+04, tol = 0.57587E+04, time = 13.41 | CG iter. 50 -- res = 0.33398E+04, tol = 0.57587E+04, time = 12.45 | CG iter. 51 -- res = 0.31268E+04, tol = 0.57587E+04, time = 11.98 | CG iter. 52 -- res = 0.29869E+04, tol = 0.57587E+04, time = 12.17 | CG iter. 53 -- res = 0.27786E+04, tol = 0.57587E+04, time = 11.76 | CG iter. 54 -- res = 0.25066E+04, tol = 0.57587E+04, time = 11.53 | CG iter. 55 -- res = 0.21931E+04, tol = 0.57587E+04, time = 12.03 | CG iter. 56 -- res = 0.19270E+04, tol = 0.57587E+04, time = 11.68 | CG iter. 57 -- res = 0.17511E+04, tol = 0.57587E+04, time = 12.18 | CG iter. 58 -- res = 0.16568E+04, tol = 0.57587E+04, time = 12.62 | CG iter. 59 -- res = 0.15823E+04, tol = 0.57587E+04, time = 11.77 | CG iter. 60 -- res = 0.14416E+04, tol = 0.57587E+04, time = 11.70 | Final CG iter 61 -- res = 0.14416E+04, tol = 0.57587E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.813 ( -229.368 -2230.904 2513.690 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8532142.632 | Old band monopole 10515225.109 | Change to band monopole -1983082.477 | Change to component monopole 1983073.947 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.673 2.725 | New value 4.349 | Old value -0.673 | Difference 5.022 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.736 ( 5.313 10.680 -11.856 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.826 4.635 | New value -2.804 | Old value -2.826 | Difference 0.022 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.16534E+07, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.13510E+03, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.33838E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.68945E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.12507E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8532105.934 | (Sampled value in CG: 8504077.418 ) | Chain = 1 -- chisq = 0.81502789E+09 | Chain = 1 -- wall time = 5719.872 sec Available RAM: MemAvailable: 381894332 kB Available Swap: SwapFree: 1165532016 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 316 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444877 | --> Sampling calibration, mode = relcal | relcal = 1.3416276E-02 7.4561860E-04 -1.5898868E-03 -1.2572007E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1180396 0.1244971 9408080.75036921 | BP delta = 0.1180396 0.1141030 9408132.42393993 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632398 | --> Sampling calibration, mode = relcal | relcal = -2.8202785E-03 -7.0475257E-04 1.6789827E-03 1.6130737E-03 -4.0778590E-04 6.4076047E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5708725 15215326.0290054 | BP delta = 0.0000000E+00 -0.5644305 15215326.1358192 | BP chisq diff = 0.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102078 | --> Sampling calibration, mode = relcal | relcal = 3.7075862E-02 1.3714436E-02 5.7562101E-03 -7.1608713E-03 8.2360934E-03 2.3912604E-03 -7.5995028E-03 -7.1762362E-03 -1.5296271E-02 -1.4795277E-02 -3.0518603E-03 -1.2093845E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.144301 132207656.679618 | BP delta = 0.0000000E+00 -1.175674 132207655.407266 | BP chisq diff = -1.3, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18363131534201 | --> Sampling calibration, mode = relcal | relcal = -7.5389273E-02 -5.8800582E-02 9.2274465E-02 4.1915391E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.9277466E-05 5.6719524E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3632E-05 | 2: delta_r/delta_0: 1.0515E-06 | 3: delta_s/delta_0: 1.8736E-07 | 4: delta_r/delta_0: 2.1486E-08 | 5: delta_s/delta_0: 6.0604E-09 | 6: delta_r/delta_0: 1.5634E-09 | 7: delta_s/delta_0: 2.8945E-10 | 8: delta_r/delta_0: 1.1484E-10 | 9: delta_s/delta_0: 1.6315E-10 | 10: delta_r/delta_0: 5.7552E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.296463218552543E-003 2.734944575404476E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3631E-05 | 2: delta_r/delta_0: 1.0515E-06 | 3: delta_s/delta_0: 1.8737E-07 | 4: delta_r/delta_0: 2.1487E-08 | 5: delta_s/delta_0: 6.0618E-09 | 6: delta_r/delta_0: 1.5635E-09 | 7: delta_s/delta_0: 2.8948E-10 | 8: delta_r/delta_0: 1.1485E-10 | 9: delta_s/delta_0: 1.6319E-10 | 10: delta_r/delta_0: 5.7564E-11 | Reached bicg-stab tolerance | BP delta = 7.7035934E-02 9.7159296E-02 3533918.03629671 | BP delta = 7.7035934E-02 9.7764209E-02 3532125.11559832 | BP chisq diff = -1792.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02602103 | --> Sampling calibration, mode = relcal | relcal = -0.1066577 -9.5620036E-02 0.1449654 5.7312265E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9858146E-03 1.6291091E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7869E-05 | 2: delta_r/delta_0: 1.1818E-06 | 3: delta_s/delta_0: 2.5278E-07 | 4: delta_r/delta_0: 4.2996E-08 | 5: delta_s/delta_0: 1.8265E-08 | 6: delta_r/delta_0: 6.4640E-09 | 7: delta_s/delta_0: 6.9838E-09 | 8: delta_r/delta_0: 1.3255E-09 | 9: delta_s/delta_0: 5.9683E-10 | 10: delta_r/delta_0: 3.9841E-10 | 11: delta_s/delta_0: 1.5086E-10 | 12: delta_r/delta_0: 1.0087E-10 | 13: delta_s/delta_0: 8.8107E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.605816772117992E-003 2.810795228716918E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7870E-05 | 2: delta_r/delta_0: 1.1819E-06 | 3: delta_s/delta_0: 2.5281E-07 | 4: delta_r/delta_0: 4.3051E-08 | 5: delta_s/delta_0: 1.8248E-08 | 6: delta_r/delta_0: 6.4673E-09 | 7: delta_s/delta_0: 6.9852E-09 | 8: delta_r/delta_0: 1.3260E-09 | 9: delta_s/delta_0: 5.9698E-10 | 10: delta_r/delta_0: 3.9823E-10 | 11: delta_s/delta_0: 1.5093E-10 | 12: delta_r/delta_0: 1.0093E-10 | 13: delta_s/delta_0: 8.8228E-11 | Reached bicg-stab tolerance | BP delta = -0.3297135 -0.2992958 2841556.49268156 | BP delta = -0.3297135 -0.2940873 2841652.26873972 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224151 | --> Sampling calibration, mode = relcal | relcal = 0.2953980 0.2249064 -0.2837921 -0.2365123 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.1088684E-04 5.1419213E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7845E-03 | 2: delta_r/delta_0: 6.6115E-05 | 3: delta_s/delta_0: 8.3214E-06 | 4: delta_r/delta_0: 6.8272E-07 | 5: delta_s/delta_0: 2.8088E-06 | 6: delta_r/delta_0: 7.4504E-07 | 7: delta_s/delta_0: 9.9531E-08 | 8: delta_r/delta_0: 5.4525E-08 | 9: delta_s/delta_0: 4.1668E-07 | 10: delta_r/delta_0: 9.6091E-09 | 11: delta_s/delta_0: 6.9458E-08 | 12: delta_r/delta_0: 2.7013E-08 | 13: delta_s/delta_0: 3.2027E-10 | 14: delta_r/delta_0: 2.5125E-10 | 15: delta_s/delta_0: 6.9810E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.721979090451094E-002 4.021659860452717E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7830E-03 | 2: delta_r/delta_0: 6.6081E-05 | 3: delta_s/delta_0: 8.3217E-06 | 4: delta_r/delta_0: 6.8274E-07 | 5: delta_s/delta_0: 2.8060E-06 | 6: delta_r/delta_0: 7.4452E-07 | 7: delta_s/delta_0: 9.9514E-08 | 8: delta_r/delta_0: 5.4528E-08 | 9: delta_s/delta_0: 4.1734E-07 | 10: delta_r/delta_0: 9.6084E-09 | 11: delta_s/delta_0: 6.8905E-08 | 12: delta_r/delta_0: 2.6805E-08 | 13: delta_s/delta_0: 3.2017E-10 | 14: delta_r/delta_0: 2.5124E-10 | 15: delta_s/delta_0: 6.9846E-11 | Reached bicg-stab tolerance | BP delta = -0.2736622 -0.3069648 2827250.38647629 | BP delta = -0.2736622 -0.3170739 2827348.30437356 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95910903 | --> Sampling calibration, mode = relcal | relcal = 0.1065826 0.1395818 -0.1103609 -0.1358035 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0573698E-02 1.1692152E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2564E-03 | 2: delta_r/delta_0: 1.0193E-04 | 3: delta_s/delta_0: 5.5454E-04 | 4: delta_r/delta_0: 1.9058E-05 | 5: delta_s/delta_0: 6.7927E-07 | 6: delta_r/delta_0: 2.4837E-07 | 7: delta_s/delta_0: 1.6528E-07 | 8: delta_r/delta_0: 6.0444E-08 | 9: delta_s/delta_0: 5.3687E-08 | 10: delta_r/delta_0: 4.0104E-09 | 11: delta_s/delta_0: 3.7684E-09 | 12: delta_r/delta_0: 1.8086E-09 | 13: delta_s/delta_0: 2.3425E-10 | 14: delta_r/delta_0: 1.0232E-10 | 15: delta_s/delta_0: 9.5429E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.092967837062193E-002 3.697450268543895E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2533E-03 | 2: delta_r/delta_0: 1.0186E-04 | 3: delta_s/delta_0: 5.5434E-04 | 4: delta_r/delta_0: 1.9054E-05 | 5: delta_s/delta_0: 6.7905E-07 | 6: delta_r/delta_0: 2.4830E-07 | 7: delta_s/delta_0: 1.6569E-07 | 8: delta_r/delta_0: 6.0436E-08 | 9: delta_s/delta_0: 5.3599E-08 | 10: delta_r/delta_0: 4.0065E-09 | 11: delta_s/delta_0: 3.7664E-09 | 12: delta_r/delta_0: 1.8075E-09 | 13: delta_s/delta_0: 2.3494E-10 | 14: delta_r/delta_0: 1.0229E-10 | 15: delta_s/delta_0: 9.5422E-11 | Reached bicg-stab tolerance | BP delta = 8.7667905E-02 0.2080573 3004122.19377734 | BP delta = 8.7667905E-02 0.1956690 3004169.79705106 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52154265 | --> Sampling calibration, mode = relcal | relcal = -5.1004771E-02 -3.7801752E-03 2.7298223E-02 2.7486721E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3147452E-03 3.0702862E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6979E-05 | 2: delta_r/delta_0: 4.5524E-06 | 3: delta_s/delta_0: 1.0052E-06 | 4: delta_r/delta_0: 1.0650E-07 | 5: delta_s/delta_0: 7.5882E-08 | 6: delta_r/delta_0: 4.4239E-08 | 7: delta_s/delta_0: 1.6131E-08 | 8: delta_r/delta_0: 1.2861E-08 | 9: delta_s/delta_0: 1.2037E-07 | 10: delta_r/delta_0: 1.1633E-09 | 11: delta_s/delta_0: 5.0329E-10 | 12: delta_r/delta_0: 3.9227E-10 | 13: delta_s/delta_0: 6.8012E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.182896753679708E-002 5.483581550267891E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6979E-05 | 2: delta_r/delta_0: 4.5524E-06 | 3: delta_s/delta_0: 1.0053E-06 | 4: delta_r/delta_0: 1.0650E-07 | 5: delta_s/delta_0: 7.5882E-08 | 6: delta_r/delta_0: 4.4236E-08 | 7: delta_s/delta_0: 1.6131E-08 | 8: delta_r/delta_0: 1.2860E-08 | 9: delta_s/delta_0: 1.2037E-07 | 10: delta_r/delta_0: 1.1633E-09 | 11: delta_s/delta_0: 5.0320E-10 | 12: delta_r/delta_0: 3.9222E-10 | 13: delta_s/delta_0: 6.7939E-11 | Reached bicg-stab tolerance | BP delta = 9.4025083E-02 0.1854978 2435240.37208057 | BP delta = 9.4025083E-02 0.1898578 2435251.30874094 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42151345 | --> Sampling calibration, mode = relcal | relcal = 4.5586850E-02 3.9659332E-02 -2.8332144E-02 -5.6914039E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7493315E-03 4.5919656E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1066E-05 | 2: delta_r/delta_0: 3.8637E-06 | 3: delta_s/delta_0: 5.6796E-06 | 4: delta_r/delta_0: 8.7682E-07 | 5: delta_s/delta_0: 5.9200E-08 | 6: delta_r/delta_0: 3.8050E-08 | 7: delta_s/delta_0: 3.4004E-08 | 8: delta_r/delta_0: 1.3615E-08 | 9: delta_s/delta_0: 2.9875E-09 | 10: delta_r/delta_0: 5.5316E-10 | 11: delta_s/delta_0: 7.0655E-10 | 12: delta_r/delta_0: 3.1009E-10 | 13: delta_s/delta_0: 1.1636E-09 | 14: delta_r/delta_0: 2.3400E-10 | 15: delta_s/delta_0: 2.2886E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.512976652011033E-002 4.996505352240127E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1066E-05 | 2: delta_r/delta_0: 3.8637E-06 | 3: delta_s/delta_0: 5.6796E-06 | 4: delta_r/delta_0: 8.7682E-07 | 5: delta_s/delta_0: 5.9200E-08 | 6: delta_r/delta_0: 3.8050E-08 | 7: delta_s/delta_0: 3.4005E-08 | 8: delta_r/delta_0: 1.3615E-08 | 9: delta_s/delta_0: 2.9875E-09 | 10: delta_r/delta_0: 5.5316E-10 | 11: delta_s/delta_0: 7.0655E-10 | 12: delta_r/delta_0: 3.1009E-10 | 13: delta_s/delta_0: 1.1636E-09 | 14: delta_r/delta_0: 2.3400E-10 | 15: delta_s/delta_0: 2.2886E-11 | Reached bicg-stab tolerance | BP delta = 1.9821491E-02 -7.8672819E-02 2322241.22915029 | BP delta = 1.9821491E-02 -8.1918456E-02 2322241.28412514 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28159808 | --> Sampling calibration, mode = relcal | relcal = 2.4165597E-02 4.5155965E-02 -2.3407506E-02 -4.5914054E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.7001792E-03 2.9416766E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1197E-04 | 2: delta_r/delta_0: 8.7445E-06 | 3: delta_s/delta_0: 1.5364E-06 | 4: delta_r/delta_0: 2.2103E-07 | 5: delta_s/delta_0: 6.4984E-08 | 6: delta_r/delta_0: 1.8903E-08 | 7: delta_s/delta_0: 8.6917E-09 | 8: delta_r/delta_0: 5.6390E-09 | 9: delta_s/delta_0: 2.1489E-08 | 10: delta_r/delta_0: 4.7390E-09 | 11: delta_s/delta_0: 4.5070E-09 | 12: delta_r/delta_0: 1.4337E-09 | 13: delta_s/delta_0: 1.0176E-09 | 14: delta_r/delta_0: 5.0350E-10 | 15: delta_s/delta_0: 6.6784E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.084073896159887E-003 7.844348103245970E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1197E-04 | 2: delta_r/delta_0: 8.7446E-06 | 3: delta_s/delta_0: 1.5364E-06 | 4: delta_r/delta_0: 2.2104E-07 | 5: delta_s/delta_0: 6.4991E-08 | 6: delta_r/delta_0: 1.8904E-08 | 7: delta_s/delta_0: 8.6919E-09 | 8: delta_r/delta_0: 5.6391E-09 | 9: delta_s/delta_0: 2.1487E-08 | 10: delta_r/delta_0: 4.7389E-09 | 11: delta_s/delta_0: 4.5076E-09 | 12: delta_r/delta_0: 1.4339E-09 | 13: delta_s/delta_0: 1.0165E-09 | 14: delta_r/delta_0: 5.0290E-10 | 15: delta_s/delta_0: 6.6787E-11 | Reached bicg-stab tolerance | BP delta = -0.2572389 -0.4108655 2490197.86748773 | BP delta = -0.2572389 -0.4319275 2490182.62095458 | BP chisq diff = -15.2, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29397009 | --> Sampling calibration, mode = relcal | relcal = 5.6330481E-04 1.0335509E-02 -3.8247325E-03 -7.0740809E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2895497E-02 1.8084258E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3168E-04 | 2: delta_r/delta_0: 1.0677E-05 | 3: delta_s/delta_0: 1.6983E-06 | 4: delta_r/delta_0: 3.0590E-07 | 5: delta_s/delta_0: 8.0710E-08 | 6: delta_r/delta_0: 2.4962E-08 | 7: delta_s/delta_0: 1.3291E-08 | 8: delta_r/delta_0: 7.8394E-09 | 9: delta_s/delta_0: 6.3324E-09 | 10: delta_r/delta_0: 4.0539E-09 | 11: delta_s/delta_0: 4.6091E-08 | 12: delta_r/delta_0: 2.7619E-08 | 13: delta_s/delta_0: 1.7418E-08 | 14: delta_r/delta_0: 4.0364E-10 | 15: delta_s/delta_0: 7.5959E-10 | 16: delta_r/delta_0: 1.4847E-10 | 17: delta_s/delta_0: 3.2710E-10 | 18: delta_r/delta_0: 8.1295E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.952743508700493E-003 8.305071160454127E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3168E-04 | 2: delta_r/delta_0: 1.0677E-05 | 3: delta_s/delta_0: 1.6983E-06 | 4: delta_r/delta_0: 3.0590E-07 | 5: delta_s/delta_0: 8.0710E-08 | 6: delta_r/delta_0: 2.4962E-08 | 7: delta_s/delta_0: 1.3291E-08 | 8: delta_r/delta_0: 7.8394E-09 | 9: delta_s/delta_0: 6.3323E-09 | 10: delta_r/delta_0: 4.0539E-09 | 11: delta_s/delta_0: 4.6091E-08 | 12: delta_r/delta_0: 2.7619E-08 | 13: delta_s/delta_0: 1.7418E-08 | 14: delta_r/delta_0: 4.0368E-10 | 15: delta_s/delta_0: 7.5960E-10 | 16: delta_r/delta_0: 1.4849E-10 | 17: delta_s/delta_0: 3.2711E-10 | 18: delta_r/delta_0: 8.1295E-11 | Reached bicg-stab tolerance | BP delta = -0.8095682 -0.7635946 2738257.83685213 | BP delta = -0.8095682 -0.7649446 2738257.64601842 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26501024 | --> Sampling calibration, mode = relcal | relcal = -5.6649284E-03 1.5022721E-02 -2.3567849E-03 -7.0010084E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1482331E-03 7.3671708E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4541E-04 | 2: delta_r/delta_0: 1.2240E-05 | 3: delta_s/delta_0: 2.1661E-06 | 4: delta_r/delta_0: 3.1735E-07 | 5: delta_s/delta_0: 1.1226E-07 | 6: delta_r/delta_0: 2.6106E-08 | 7: delta_s/delta_0: 1.0299E-08 | 8: delta_r/delta_0: 6.5631E-09 | 9: delta_s/delta_0: 6.3836E-09 | 10: delta_r/delta_0: 4.4007E-09 | 11: delta_s/delta_0: 1.6757E-06 | 12: delta_r/delta_0: 3.2709E-08 | 13: delta_s/delta_0: 1.2321E-07 | 14: delta_r/delta_0: 6.3667E-08 | 15: delta_s/delta_0: 8.3836E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.165741565327364E-003 9.155336046356366E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4541E-04 | 2: delta_r/delta_0: 1.2240E-05 | 3: delta_s/delta_0: 2.1661E-06 | 4: delta_r/delta_0: 3.1735E-07 | 5: delta_s/delta_0: 1.1226E-07 | 6: delta_r/delta_0: 2.6106E-08 | 7: delta_s/delta_0: 1.0299E-08 | 8: delta_r/delta_0: 6.5631E-09 | 9: delta_s/delta_0: 6.3836E-09 | 10: delta_r/delta_0: 4.4007E-09 | 11: delta_s/delta_0: 1.6757E-06 | 12: delta_r/delta_0: 3.2709E-08 | 13: delta_s/delta_0: 1.2320E-07 | 14: delta_r/delta_0: 6.3659E-08 | 15: delta_s/delta_0: 8.3836E-11 | Reached bicg-stab tolerance | BP delta = 0.3112194 0.3428417 2516501.47791292 | BP delta = 0.3112194 0.3348266 2516501.58451692 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25660609 | --> Sampling calibration, mode = relcal | relcal = -3.1705953E-02 -2.5921782E-02 3.6807172E-02 2.0820566E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2119326E-02 1.7269194E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4637E-04 | 2: delta_r/delta_0: 1.2255E-05 | 3: delta_s/delta_0: 2.0155E-06 | 4: delta_r/delta_0: 3.2197E-07 | 5: delta_s/delta_0: 1.1636E-07 | 6: delta_r/delta_0: 2.9239E-08 | 7: delta_s/delta_0: 1.4552E-08 | 8: delta_r/delta_0: 9.7398E-09 | 9: delta_s/delta_0: 6.9241E-08 | 10: delta_r/delta_0: 8.9142E-09 | 11: delta_s/delta_0: 2.5569E-09 | 12: delta_r/delta_0: 1.4072E-09 | 13: delta_s/delta_0: 6.8718E-10 | 14: delta_r/delta_0: 2.4690E-10 | 15: delta_s/delta_0: 1.3771E-10 | 16: delta_r/delta_0: 1.1875E-10 | 17: delta_s/delta_0: 1.2970E-10 | 18: delta_r/delta_0: 9.0991E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.107090851070468E-002 8.672743537600083E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4637E-04 | 2: delta_r/delta_0: 1.2255E-05 | 3: delta_s/delta_0: 2.0155E-06 | 4: delta_r/delta_0: 3.2197E-07 | 5: delta_s/delta_0: 1.1636E-07 | 6: delta_r/delta_0: 2.9239E-08 | 7: delta_s/delta_0: 1.4552E-08 | 8: delta_r/delta_0: 9.7397E-09 | 9: delta_s/delta_0: 6.9237E-08 | 10: delta_r/delta_0: 8.9141E-09 | 11: delta_s/delta_0: 2.5568E-09 | 12: delta_r/delta_0: 1.4070E-09 | 13: delta_s/delta_0: 6.8718E-10 | 14: delta_r/delta_0: 2.4690E-10 | 15: delta_s/delta_0: 1.3771E-10 | 16: delta_r/delta_0: 1.1875E-10 | 17: delta_s/delta_0: 1.2970E-10 | 18: delta_r/delta_0: 9.0991E-11 | Reached bicg-stab tolerance | BP delta = -0.8079543 -0.9810835 2705884.04985630 | BP delta = -0.8079543 -0.9781415 2705881.15060177 | BP chisq diff = -2.9, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.045173 | New value = -3.087392 | poltype: 2 pol: 1 CPU time specind = 3.3396959E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.192610 | New value = -3.180866 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177852 | New value = -3.167266 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185254 | New value = -3.070109 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.075169 | New value = -3.148627 | poltype: 2 pol: 2 CPU time specind = 2.1194935E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.57 | CG iter. 1 -- res = 0.13603E+08, tol = 0.84553E+01, time = 5.08 | CG iter. 2 -- res = 0.37623E+06, tol = 0.84553E+01, time = 5.44 | CG iter. 3 -- res = 0.73101E+05, tol = 0.84553E+01, time = 5.50 | CG iter. 4 -- res = 0.57177E+05, tol = 0.84553E+01, time = 5.40 | CG iter. 5 -- res = 0.50519E+05, tol = 0.84553E+01, time = 5.30 | CG iter. 6 -- res = 0.48274E+05, tol = 0.84553E+01, time = 5.56 | CG iter. 7 -- res = 0.43712E+05, tol = 0.84553E+01, time = 10.64 | CG iter. 8 -- res = 0.29961E+05, tol = 0.84553E+01, time = 6.52 | CG iter. 9 -- res = 0.22456E+05, tol = 0.84553E+01, time = 5.49 | CG iter. 10 -- res = 0.17961E+05, tol = 0.84553E+01, time = 5.60 | CG iter. 11 -- res = 0.12288E+05, tol = 0.84553E+01, time = 5.88 | CG iter. 12 -- res = 0.83607E+04, tol = 0.84553E+01, time = 5.49 | CG iter. 13 -- res = 0.62811E+04, tol = 0.84553E+01, time = 5.38 | CG iter. 14 -- res = 0.51549E+04, tol = 0.84553E+01, time = 5.63 | CG iter. 15 -- res = 0.42134E+04, tol = 0.84553E+01, time = 5.71 | CG iter. 16 -- res = 0.29205E+04, tol = 0.84553E+01, time = 5.55 | CG iter. 17 -- res = 0.18848E+04, tol = 0.84553E+01, time = 5.48 | CG iter. 18 -- res = 0.14370E+04, tol = 0.84553E+01, time = 5.41 | CG iter. 19 -- res = 0.12222E+04, tol = 0.84553E+01, time = 5.48 | CG iter. 20 -- res = 0.95849E+03, tol = 0.84553E+01, time = 5.42 | CG iter. 21 -- res = 0.67898E+03, tol = 0.84553E+01, time = 5.57 | CG iter. 22 -- res = 0.50075E+03, tol = 0.84553E+01, time = 5.60 | CG iter. 23 -- res = 0.40007E+03, tol = 0.84553E+01, time = 7.03 | CG iter. 24 -- res = 0.31407E+03, tol = 0.84553E+01, time = 5.93 | CG iter. 25 -- res = 0.21803E+03, tol = 0.84553E+01, time = 6.13 | CG iter. 26 -- res = 0.15711E+03, tol = 0.84553E+01, time = 6.84 | CG iter. 27 -- res = 0.12552E+03, tol = 0.84553E+01, time = 5.45 | CG iter. 28 -- res = 0.10556E+03, tol = 0.84553E+01, time = 5.60 | CG iter. 29 -- res = 0.80003E+02, tol = 0.84553E+01, time = 4.95 | CG iter. 30 -- res = 0.57870E+02, tol = 0.84553E+01, time = 5.69 | CG iter. 31 -- res = 0.44187E+02, tol = 0.84553E+01, time = 5.68 | CG iter. 32 -- res = 0.36948E+02, tol = 0.84553E+01, time = 5.36 | CG iter. 33 -- res = 0.28759E+02, tol = 0.84553E+01, time = 5.64 | CG iter. 34 -- res = 0.21053E+02, tol = 0.84553E+01, time = 5.34 | CG iter. 35 -- res = 0.16312E+02, tol = 0.84553E+01, time = 5.49 | CG iter. 36 -- res = 0.13849E+02, tol = 0.84553E+01, time = 5.76 | CG iter. 37 -- res = 0.11246E+02, tol = 0.84553E+01, time = 5.45 | CG iter. 38 -- res = 0.84203E+01, tol = 0.84553E+01, time = 5.12 | CG iter. 39 -- res = 0.63213E+01, tol = 0.84553E+01, time = 5.85 | CG iter. 40 -- res = 0.51633E+01, tol = 0.84553E+01, time = 5.68 | CG iter. 41 -- res = 0.42797E+01, tol = 0.84553E+01, time = 5.68 | CG iter. 42 -- res = 0.33348E+01, tol = 0.84553E+01, time = 5.75 | CG iter. 43 -- res = 0.25866E+01, tol = 0.84553E+01, time = 5.80 | CG iter. 44 -- res = 0.20469E+01, tol = 0.84553E+01, time = 5.50 | CG iter. 45 -- res = 0.16522E+01, tol = 0.84553E+01, time = 5.65 | CG iter. 46 -- res = 0.13378E+01, tol = 0.84553E+01, time = 5.50 | CG iter. 47 -- res = 0.10251E+01, tol = 0.84553E+01, time = 5.19 | CG iter. 48 -- res = 0.79742E+00, tol = 0.84553E+01, time = 5.65 | CG iter. 49 -- res = 0.65402E+00, tol = 0.84553E+01, time = 5.35 | CG iter. 50 -- res = 0.52768E+00, tol = 0.84553E+01, time = 5.16 | Final CG iter 51 -- res = 0.52768E+00, tol = 0.84553E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8882686.030 | Old band monopole 8532142.632 | Change to band monopole 350543.398 | Change to component monopole -350541.890 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.27526E+06, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.13082E+03, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.28318E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.21971E-01, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.21562E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8882647.824 | (Sampled value in CG: 8806820.303 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.471106 | New value = 1.509068 | poltype: 2 pol: 1 CPU time specind = 1.5330076E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.541967 | New value = 1.536055 | poltype: 2 pol: 2 CPU time specind = 9.6118450E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.24328E+08, tol = 0.47647E+04, time = 5.99 | CG iter. 2 -- res = 0.53742E+07, tol = 0.47647E+04, time = 6.21 | CG iter. 3 -- res = 0.85480E+06, tol = 0.47647E+04, time = 6.31 | CG iter. 4 -- res = 0.36137E+06, tol = 0.47647E+04, time = 6.50 | CG iter. 5 -- res = 0.15973E+06, tol = 0.47647E+04, time = 7.32 | CG iter. 6 -- res = 0.82639E+05, tol = 0.47647E+04, time = 6.49 | CG iter. 7 -- res = 0.44392E+05, tol = 0.47647E+04, time = 6.77 | CG iter. 8 -- res = 0.21083E+05, tol = 0.47647E+04, time = 6.48 | CG iter. 9 -- res = 0.91660E+04, tol = 0.47647E+04, time = 6.47 | CG iter. 10 -- res = 0.38299E+04, tol = 0.47647E+04, time = 6.24 | CG iter. 11 -- res = 0.17669E+04, tol = 0.47647E+04, time = 5.98 | CG iter. 12 -- res = 0.88858E+03, tol = 0.47647E+04, time = 6.06 | CG iter. 13 -- res = 0.50017E+03, tol = 0.47647E+04, time = 6.35 | CG iter. 14 -- res = 0.28213E+03, tol = 0.47647E+04, time = 6.30 | CG iter. 15 -- res = 0.14423E+03, tol = 0.47647E+04, time = 6.55 | CG iter. 16 -- res = 0.69603E+02, tol = 0.47647E+04, time = 6.39 | CG iter. 17 -- res = 0.32851E+02, tol = 0.47647E+04, time = 6.18 | CG iter. 18 -- res = 0.16466E+02, tol = 0.47647E+04, time = 6.30 | CG iter. 19 -- res = 0.92085E+01, tol = 0.47647E+04, time = 5.79 | CG iter. 20 -- res = 0.52324E+01, tol = 0.47647E+04, time = 6.36 | CG iter. 21 -- res = 0.28295E+01, tol = 0.47647E+04, time = 6.52 | CG iter. 22 -- res = 0.14251E+01, tol = 0.47647E+04, time = 6.66 | CG iter. 23 -- res = 0.68810E+00, tol = 0.47647E+04, time = 6.61 | CG iter. 24 -- res = 0.35334E+00, tol = 0.47647E+04, time = 6.14 | CG iter. 25 -- res = 0.19526E+00, tol = 0.47647E+04, time = 6.04 | CG iter. 26 -- res = 0.11007E+00, tol = 0.47647E+04, time = 6.24 | CG iter. 27 -- res = 0.61469E-01, tol = 0.47647E+04, time = 6.01 | CG iter. 28 -- res = 0.33200E-01, tol = 0.47647E+04, time = 6.01 | CG iter. 29 -- res = 0.17612E-01, tol = 0.47647E+04, time = 6.17 | CG iter. 30 -- res = 0.94896E-02, tol = 0.47647E+04, time = 6.01 | CG iter. 31 -- res = 0.52037E-02, tol = 0.47647E+04, time = 6.24 | CG iter. 32 -- res = 0.28950E-02, tol = 0.47647E+04, time = 5.98 | CG iter. 33 -- res = 0.16359E-02, tol = 0.47647E+04, time = 6.53 | CG iter. 34 -- res = 0.89498E-03, tol = 0.47647E+04, time = 6.13 | CG iter. 35 -- res = 0.46982E-03, tol = 0.47647E+04, time = 6.10 | Final CG iter 36 -- res = 0.46982E-03, tol = 0.47647E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.442 2.775 | New value 0.619 | Old value 4.442 | Difference -3.822 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.76829E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.83561E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.17334E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.18332E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.23209E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8882647.824 | (Sampled value in CG: 8806286.909 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.565597 | New value = -3.619128 | poltype: 1 pol: 1 CPU time specind = 1.3701916E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.27580E+07, tol = 0.25419E+01, time = 2.28 | CG iter. 2 -- res = 0.10028E+07, tol = 0.25419E+01, time = 2.66 | CG iter. 3 -- res = 0.20798E+06, tol = 0.25419E+01, time = 2.58 | CG iter. 4 -- res = 0.96002E+05, tol = 0.25419E+01, time = 2.54 | CG iter. 5 -- res = 0.55905E+05, tol = 0.25419E+01, time = 2.56 | CG iter. 6 -- res = 0.24640E+05, tol = 0.25419E+01, time = 2.57 | CG iter. 7 -- res = 0.86269E+04, tol = 0.25419E+01, time = 2.71 | CG iter. 8 -- res = 0.36258E+04, tol = 0.25419E+01, time = 2.44 | CG iter. 9 -- res = 0.16321E+04, tol = 0.25419E+01, time = 2.44 | CG iter. 10 -- res = 0.65370E+03, tol = 0.25419E+01, time = 2.62 | CG iter. 11 -- res = 0.27066E+03, tol = 0.25419E+01, time = 2.16 | CG iter. 12 -- res = 0.14041E+03, tol = 0.25419E+01, time = 2.62 | CG iter. 13 -- res = 0.71593E+02, tol = 0.25419E+01, time = 2.98 | CG iter. 14 -- res = 0.36023E+02, tol = 0.25419E+01, time = 8.67 | CG iter. 15 -- res = 0.16246E+02, tol = 0.25419E+01, time = 2.45 | CG iter. 16 -- res = 0.70042E+01, tol = 0.25419E+01, time = 2.61 | CG iter. 17 -- res = 0.29683E+01, tol = 0.25419E+01, time = 2.63 | CG iter. 18 -- res = 0.12914E+01, tol = 0.25419E+01, time = 2.56 | CG iter. 19 -- res = 0.64712E+00, tol = 0.25419E+01, time = 2.76 | CG iter. 20 -- res = 0.33816E+00, tol = 0.25419E+01, time = 2.32 | CG iter. 21 -- res = 0.16521E+00, tol = 0.25419E+01, time = 2.62 | CG iter. 22 -- res = 0.72712E-01, tol = 0.25419E+01, time = 2.65 | CG iter. 23 -- res = 0.32661E-01, tol = 0.25419E+01, time = 2.52 | CG iter. 24 -- res = 0.15635E-01, tol = 0.25419E+01, time = 2.74 | CG iter. 25 -- res = 0.79679E-02, tol = 0.25419E+01, time = 2.41 | CG iter. 26 -- res = 0.40454E-02, tol = 0.25419E+01, time = 2.75 | CG iter. 27 -- res = 0.20028E-02, tol = 0.25419E+01, time = 2.46 | CG iter. 28 -- res = 0.96399E-03, tol = 0.25419E+01, time = 2.33 | CG iter. 29 -- res = 0.43093E-03, tol = 0.25419E+01, time = 2.68 | CG iter. 30 -- res = 0.19900E-03, tol = 0.25419E+01, time = 2.74 | CG iter. 31 -- res = 0.94503E-04, tol = 0.25419E+01, time = 2.75 | CG iter. 32 -- res = 0.49425E-04, tol = 0.25419E+01, time = 2.42 | CG iter. 33 -- res = 0.24576E-04, tol = 0.25419E+01, time = 2.55 | CG iter. 34 -- res = 0.11984E-04, tol = 0.25419E+01, time = 2.51 | CG iter. 35 -- res = 0.56193E-05, tol = 0.25419E+01, time = 2.72 | CG iter. 36 -- res = 0.26030E-05, tol = 0.25419E+01, time = 2.62 | CG iter. 37 -- res = 0.12155E-05, tol = 0.25419E+01, time = 2.66 | CG iter. 38 -- res = 0.62886E-06, tol = 0.25419E+01, time = 2.57 | CG iter. 39 -- res = 0.32070E-06, tol = 0.25419E+01, time = 2.61 | CG iter. 40 -- res = 0.15886E-06, tol = 0.25419E+01, time = 2.61 | CG iter. 41 -- res = 0.74608E-07, tol = 0.25419E+01, time = 2.45 | CG iter. 42 -- res = 0.33647E-07, tol = 0.25419E+01, time = 2.85 | CG iter. 43 -- res = 0.15782E-07, tol = 0.25419E+01, time = 2.64 | CG iter. 44 -- res = 0.77823E-08, tol = 0.25419E+01, time = 2.45 | CG iter. 45 -- res = 0.37970E-08, tol = 0.25419E+01, time = 2.66 | CG iter. 46 -- res = 0.18989E-08, tol = 0.25419E+01, time = 3.21 | CG iter. 47 -- res = 0.93905E-09, tol = 0.25419E+01, time = 3.52 | CG iter. 48 -- res = 0.42673E-09, tol = 0.25419E+01, time = 2.99 | CG iter. 49 -- res = 0.19372E-09, tol = 0.25419E+01, time = 2.87 | CG iter. 50 -- res = 0.93794E-10, tol = 0.25419E+01, time = 3.25 | Final CG iter 51 -- res = 0.93794E-10, tol = 0.25419E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.821 5.770 | New value -0.800 | Old value -7.821 | Difference 7.021 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.51084E+05, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.44112E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.16086E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.44734E-02, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.52314E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8882647.824 | (Sampled value in CG: 8840203.392 ) | CPU time specind = 1149.725 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.69432E+08, tol = 0.57716E+04, time = 11.21 | CG iter. 2 -- res = 0.59323E+08, tol = 0.57716E+04, time = 11.40 | CG iter. 3 -- res = 0.15551E+08, tol = 0.57716E+04, time = 11.25 | CG iter. 4 -- res = 0.66302E+07, tol = 0.57716E+04, time = 11.36 | CG iter. 5 -- res = 0.39449E+07, tol = 0.57716E+04, time = 11.06 | CG iter. 6 -- res = 0.22633E+07, tol = 0.57716E+04, time = 11.45 | CG iter. 7 -- res = 0.13306E+07, tol = 0.57716E+04, time = 11.21 | CG iter. 8 -- res = 0.87710E+06, tol = 0.57716E+04, time = 10.97 | CG iter. 9 -- res = 0.57014E+06, tol = 0.57716E+04, time = 11.29 | CG iter. 10 -- res = 0.35211E+06, tol = 0.57716E+04, time = 12.19 | CG iter. 11 -- res = 0.19360E+06, tol = 0.57716E+04, time = 16.14 | CG iter. 12 -- res = 0.10713E+06, tol = 0.57716E+04, time = 11.09 | CG iter. 13 -- res = 0.64426E+05, tol = 0.57716E+04, time = 11.54 | CG iter. 14 -- res = 0.40684E+05, tol = 0.57716E+04, time = 11.20 | CG iter. 15 -- res = 0.28713E+05, tol = 0.57716E+04, time = 11.05 | CG iter. 16 -- res = 0.23262E+05, tol = 0.57716E+04, time = 11.20 | CG iter. 17 -- res = 0.20381E+05, tol = 0.57716E+04, time = 11.34 | CG iter. 18 -- res = 0.17458E+05, tol = 0.57716E+04, time = 13.10 | CG iter. 19 -- res = 0.14891E+05, tol = 0.57716E+04, time = 11.32 | CG iter. 20 -- res = 0.12670E+05, tol = 0.57716E+04, time = 11.25 | CG iter. 21 -- res = 0.11886E+05, tol = 0.57716E+04, time = 10.86 | CG iter. 22 -- res = 0.12002E+05, tol = 0.57716E+04, time = 10.75 | CG iter. 23 -- res = 0.12372E+05, tol = 0.57716E+04, time = 10.96 | CG iter. 24 -- res = 0.12499E+05, tol = 0.57716E+04, time = 10.98 | CG iter. 25 -- res = 0.11431E+05, tol = 0.57716E+04, time = 11.03 | CG iter. 26 -- res = 0.94412E+04, tol = 0.57716E+04, time = 11.40 | CG iter. 27 -- res = 0.71473E+04, tol = 0.57716E+04, time = 11.26 | CG iter. 28 -- res = 0.52174E+04, tol = 0.57716E+04, time = 11.17 | CG iter. 29 -- res = 0.41775E+04, tol = 0.57716E+04, time = 11.57 | CG iter. 30 -- res = 0.36096E+04, tol = 0.57716E+04, time = 11.56 | CG iter. 31 -- res = 0.31691E+04, tol = 0.57716E+04, time = 11.10 | CG iter. 32 -- res = 0.28177E+04, tol = 0.57716E+04, time = 11.24 | CG iter. 33 -- res = 0.24513E+04, tol = 0.57716E+04, time = 11.42 | CG iter. 34 -- res = 0.20776E+04, tol = 0.57716E+04, time = 11.18 | CG iter. 35 -- res = 0.17672E+04, tol = 0.57716E+04, time = 11.37 | CG iter. 36 -- res = 0.15355E+04, tol = 0.57716E+04, time = 12.18 | CG iter. 37 -- res = 0.14234E+04, tol = 0.57716E+04, time = 16.85 | CG iter. 38 -- res = 0.13648E+04, tol = 0.57716E+04, time = 10.69 | CG iter. 39 -- res = 0.12407E+04, tol = 0.57716E+04, time = 11.31 | CG iter. 40 -- res = 0.10484E+04, tol = 0.57716E+04, time = 11.08 | CG iter. 41 -- res = 0.84834E+03, tol = 0.57716E+04, time = 11.01 | CG iter. 42 -- res = 0.66572E+03, tol = 0.57716E+04, time = 11.25 | CG iter. 43 -- res = 0.54457E+03, tol = 0.57716E+04, time = 10.99 | CG iter. 44 -- res = 0.46988E+03, tol = 0.57716E+04, time = 12.37 | CG iter. 45 -- res = 0.42094E+03, tol = 0.57716E+04, time = 11.82 | CG iter. 46 -- res = 0.38645E+03, tol = 0.57716E+04, time = 10.99 | CG iter. 47 -- res = 0.35068E+03, tol = 0.57716E+04, time = 11.30 | CG iter. 48 -- res = 0.30801E+03, tol = 0.57716E+04, time = 11.24 | CG iter. 49 -- res = 0.26650E+03, tol = 0.57716E+04, time = 10.85 | CG iter. 50 -- res = 0.23787E+03, tol = 0.57716E+04, time = 11.60 | CG iter. 51 -- res = 0.21724E+03, tol = 0.57716E+04, time = 11.29 | CG iter. 52 -- res = 0.20601E+03, tol = 0.57716E+04, time = 10.96 | CG iter. 53 -- res = 0.19716E+03, tol = 0.57716E+04, time = 10.91 | CG iter. 54 -- res = 0.17478E+03, tol = 0.57716E+04, time = 11.77 | CG iter. 55 -- res = 0.14865E+03, tol = 0.57716E+04, time = 11.69 | CG iter. 56 -- res = 0.12407E+03, tol = 0.57716E+04, time = 11.40 | CG iter. 57 -- res = 0.10443E+03, tol = 0.57716E+04, time = 10.94 | CG iter. 58 -- res = 0.91796E+02, tol = 0.57716E+04, time = 11.26 | CG iter. 59 -- res = 0.85709E+02, tol = 0.57716E+04, time = 11.13 | CG iter. 60 -- res = 0.81790E+02, tol = 0.57716E+04, time = 11.06 | Final CG iter 61 -- res = 0.81790E+02, tol = 0.57716E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.799 ( -229.423 -2230.135 2512.718 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11056840.215 | Old band monopole 8882686.030 | Change to band monopole 2174154.185 | Change to component monopole -2174144.834 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.536 2.736 | New value 1.143 | Old value 0.536 | Difference 0.607 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.164 ( 5.903 9.127 -9.456 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.904 4.856 | New value -7.464 | Old value 5.904 | Difference -13.368 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.42894E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.11554E+03, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.38219E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.23711E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.61361E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11056792.658 | (Sampled value in CG: 11038343.083 ) | Chain = 1 -- chisq = 0.81485441E+09 | Chain = 1 -- wall time = 18041.125 sec Available RAM: MemAvailable: 492929328 kB Available Swap: SwapFree: 1060216016 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 317 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446142 | --> Sampling calibration, mode = relcal | relcal = 1.3444887E-02 7.3598855E-04 -1.5944734E-03 -1.2586402E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1180396 0.1244971 97036160.9702623 | BP delta = 0.1246227 0.1310802 97036162.4059553 | BP chisq diff = 1.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632272 | --> Sampling calibration, mode = relcal | relcal = -2.8196964E-03 -7.0352154E-04 1.6789408E-03 1.6126178E-03 -4.0813696E-04 6.3979626E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5644305 15222137.0618587 | BP delta = 0.0000000E+00 -0.5637494 15222136.5247119 | BP chisq diff = -0.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17707715620201 | --> Sampling calibration, mode = relcal | relcal = -7.3386647E-02 -5.7237480E-02 9.0025775E-02 4.0598352E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1405052E-04 2.2523345E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8282E-04 | 2: delta_r/delta_0: 2.7577E-06 | 3: delta_s/delta_0: 1.6671E-07 | 4: delta_r/delta_0: 2.9859E-08 | 5: delta_s/delta_0: 1.1765E-08 | 6: delta_r/delta_0: 2.7528E-09 | 7: delta_s/delta_0: 8.0094E-10 | 8: delta_r/delta_0: 1.6619E-10 | 9: delta_s/delta_0: 7.1392E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 3.223335678667550E-004 2.750414484987614E-005 | BP delta = 7.7035934E-02 9.7764209E-02 50484567.2810666 | BP delta = 7.7739984E-02 9.8468259E-02 50484568.3835194 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02591422 | --> Sampling calibration, mode = relcal | relcal = -0.1067022 -9.5528454E-02 0.1449530 5.7277594E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3516455E-03 1.4058512E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6976E-05 | 2: delta_r/delta_0: 1.1765E-06 | 3: delta_s/delta_0: 2.4431E-07 | 4: delta_r/delta_0: 5.3572E-08 | 5: delta_s/delta_0: 1.6898E-08 | 6: delta_r/delta_0: 7.3224E-09 | 7: delta_s/delta_0: 1.4372E-08 | 8: delta_r/delta_0: 1.0376E-09 | 9: delta_s/delta_0: 9.7968E-10 | 10: delta_r/delta_0: 1.7374E-10 | 11: delta_s/delta_0: 1.6499E-09 | 12: delta_r/delta_0: 1.6114E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.743208612033368E-003 2.811079758032883E-005 | BP delta = -0.3297135 -0.2992958 57390865.0192309 | BP delta = -0.3446740 -0.3142564 57390867.4715074 | BP chisq diff = 2.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81213883 | --> Sampling calibration, mode = relcal | relcal = 0.2954089 0.2247578 -0.2836703 -0.2364964 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2479796E-04 4.8057754E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2378E-04 | 2: delta_r/delta_0: 8.0378E-06 | 3: delta_s/delta_0: 1.1322E-05 | 4: delta_r/delta_0: 1.1167E-06 | 5: delta_s/delta_0: 2.3615E-07 | 6: delta_r/delta_0: 1.2810E-07 | 7: delta_s/delta_0: 4.9244E-07 | 8: delta_r/delta_0: 3.0344E-08 | 9: delta_s/delta_0: 1.3094E-07 | 10: delta_r/delta_0: 5.7439E-08 | 11: delta_s/delta_0: 1.5105E-09 | 12: delta_r/delta_0: 9.3123E-10 | 13: delta_s/delta_0: 3.3417E-08 | 14: delta_r/delta_0: 2.1204E-10 | 15: delta_s/delta_0: 7.3607E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.088585487109658E-002 4.022087585112415E-005 | BP delta = -0.2736622 -0.3069648 72481310.6125842 | BP delta = -0.2256106 -0.2589131 72481310.9227995 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95895467 | --> Sampling calibration, mode = relcal | relcal = 0.1065075 0.1394799 -0.1101661 -0.1358214 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0051404E-02 1.2208349E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4828E-04 | 2: delta_r/delta_0: 1.1030E-05 | 3: delta_s/delta_0: 9.6034E-06 | 4: delta_r/delta_0: 9.5717E-07 | 5: delta_s/delta_0: 2.9769E-07 | 6: delta_r/delta_0: 1.4683E-07 | 7: delta_s/delta_0: 4.1380E-07 | 8: delta_r/delta_0: 3.4553E-08 | 9: delta_s/delta_0: 9.6860E-08 | 10: delta_r/delta_0: 1.5180E-08 | 11: delta_s/delta_0: 2.2696E-09 | 12: delta_r/delta_0: 1.1901E-09 | 13: delta_s/delta_0: 8.5712E-10 | 14: delta_r/delta_0: 3.6427E-10 | 15: delta_s/delta_0: 7.8783E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.227877832704086E-002 3.697960238839252E-005 | BP delta = 8.7667905E-02 0.2080573 72784259.0336065 | BP delta = 0.1011705 0.2215599 72784258.9119200 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.087392 | New value = -3.143014 | poltype: 2 pol: 1 CPU time specind = 1.1180162E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.180866 | New value = -3.212170 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167266 | New value = -3.161570 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.070109 | New value = -3.132826 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148627 | New value = -3.074437 | poltype: 2 pol: 2 CPU time specind = 3.4170151E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.13606E+08, tol = 0.64896E+01, time = 5.71 | CG iter. 2 -- res = 0.35799E+06, tol = 0.64896E+01, time = 6.00 | CG iter. 3 -- res = 0.82178E+05, tol = 0.64896E+01, time = 6.04 | CG iter. 4 -- res = 0.83201E+05, tol = 0.64896E+01, time = 5.60 | CG iter. 5 -- res = 0.92176E+05, tol = 0.64896E+01, time = 6.08 | CG iter. 6 -- res = 0.95698E+05, tol = 0.64896E+01, time = 5.89 | CG iter. 7 -- res = 0.89984E+05, tol = 0.64896E+01, time = 5.87 | CG iter. 8 -- res = 0.66745E+05, tol = 0.64896E+01, time = 6.28 | CG iter. 9 -- res = 0.50035E+05, tol = 0.64896E+01, time = 5.93 | CG iter. 10 -- res = 0.38896E+05, tol = 0.64896E+01, time = 5.81 | CG iter. 11 -- res = 0.26586E+05, tol = 0.64896E+01, time = 6.02 | CG iter. 12 -- res = 0.19615E+05, tol = 0.64896E+01, time = 5.65 | CG iter. 13 -- res = 0.17035E+05, tol = 0.64896E+01, time = 10.93 | CG iter. 14 -- res = 0.14983E+05, tol = 0.64896E+01, time = 6.73 | CG iter. 15 -- res = 0.12006E+05, tol = 0.64896E+01, time = 5.69 | CG iter. 16 -- res = 0.84749E+04, tol = 0.64896E+01, time = 5.49 | CG iter. 17 -- res = 0.60574E+04, tol = 0.64896E+01, time = 6.37 | CG iter. 18 -- res = 0.50030E+04, tol = 0.64896E+01, time = 5.74 | CG iter. 19 -- res = 0.43020E+04, tol = 0.64896E+01, time = 5.46 | CG iter. 20 -- res = 0.34336E+04, tol = 0.64896E+01, time = 5.94 | CG iter. 21 -- res = 0.27025E+04, tol = 0.64896E+01, time = 5.59 | CG iter. 22 -- res = 0.21695E+04, tol = 0.64896E+01, time = 5.72 | CG iter. 23 -- res = 0.18570E+04, tol = 0.64896E+01, time = 5.79 | CG iter. 24 -- res = 0.15628E+04, tol = 0.64896E+01, time = 5.72 | CG iter. 25 -- res = 0.12014E+04, tol = 0.64896E+01, time = 5.96 | CG iter. 26 -- res = 0.97237E+03, tol = 0.64896E+01, time = 5.90 | CG iter. 27 -- res = 0.90590E+03, tol = 0.64896E+01, time = 5.70 | CG iter. 28 -- res = 0.83086E+03, tol = 0.64896E+01, time = 7.18 | CG iter. 29 -- res = 0.65762E+03, tol = 0.64896E+01, time = 6.12 | CG iter. 30 -- res = 0.53203E+03, tol = 0.64896E+01, time = 6.09 | CG iter. 31 -- res = 0.44919E+03, tol = 0.64896E+01, time = 5.86 | CG iter. 32 -- res = 0.39914E+03, tol = 0.64896E+01, time = 5.92 | CG iter. 33 -- res = 0.31678E+03, tol = 0.64896E+01, time = 5.95 | CG iter. 34 -- res = 0.24468E+03, tol = 0.64896E+01, time = 5.71 | CG iter. 35 -- res = 0.20352E+03, tol = 0.64896E+01, time = 5.75 | CG iter. 36 -- res = 0.18074E+03, tol = 0.64896E+01, time = 5.94 | CG iter. 37 -- res = 0.14744E+03, tol = 0.64896E+01, time = 6.03 | CG iter. 38 -- res = 0.11041E+03, tol = 0.64896E+01, time = 5.50 | CG iter. 39 -- res = 0.84457E+02, tol = 0.64896E+01, time = 5.53 | CG iter. 40 -- res = 0.68959E+02, tol = 0.64896E+01, time = 6.18 | CG iter. 41 -- res = 0.55769E+02, tol = 0.64896E+01, time = 5.87 | CG iter. 42 -- res = 0.43136E+02, tol = 0.64896E+01, time = 5.34 | CG iter. 43 -- res = 0.33030E+02, tol = 0.64896E+01, time = 5.70 | CG iter. 44 -- res = 0.26837E+02, tol = 0.64896E+01, time = 5.89 | CG iter. 45 -- res = 0.21937E+02, tol = 0.64896E+01, time = 5.95 | CG iter. 46 -- res = 0.17170E+02, tol = 0.64896E+01, time = 5.66 | CG iter. 47 -- res = 0.12994E+02, tol = 0.64896E+01, time = 6.47 | CG iter. 48 -- res = 0.10150E+02, tol = 0.64896E+01, time = 5.94 | CG iter. 49 -- res = 0.83815E+01, tol = 0.64896E+01, time = 5.66 | CG iter. 50 -- res = 0.64165E+01, tol = 0.64896E+01, time = 5.91 | Final CG iter 51 -- res = 0.64165E+01, tol = 0.64896E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9428211.795 | Old band monopole 11056840.215 | Change to band monopole -1628628.421 | Change to component monopole 1628621.416 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.42273E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.61598E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.22420E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.91726E-02, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.60167E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9428171.242 | (Sampled value in CG: 9373987.865 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509068 | New value = 1.540615 | poltype: 2 pol: 1 CPU time specind = 1.1309862E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.536055 | New value = 1.526040 | poltype: 2 pol: 2 CPU time specind = 2.2189617E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.24243E+08, tol = 0.47658E+04, time = 6.90 | CG iter. 2 -- res = 0.54305E+07, tol = 0.47658E+04, time = 6.45 | CG iter. 3 -- res = 0.86516E+06, tol = 0.47658E+04, time = 7.07 | CG iter. 4 -- res = 0.36142E+06, tol = 0.47658E+04, time = 6.17 | CG iter. 5 -- res = 0.15750E+06, tol = 0.47658E+04, time = 6.66 | CG iter. 6 -- res = 0.82124E+05, tol = 0.47658E+04, time = 6.60 | CG iter. 7 -- res = 0.44834E+05, tol = 0.47658E+04, time = 7.36 | CG iter. 8 -- res = 0.21746E+05, tol = 0.47658E+04, time = 7.68 | CG iter. 9 -- res = 0.93642E+04, tol = 0.47658E+04, time = 7.30 | CG iter. 10 -- res = 0.37831E+04, tol = 0.47658E+04, time = 6.86 | CG iter. 11 -- res = 0.17065E+04, tol = 0.47658E+04, time = 6.68 | CG iter. 12 -- res = 0.86034E+03, tol = 0.47658E+04, time = 6.57 | CG iter. 13 -- res = 0.49180E+03, tol = 0.47658E+04, time = 6.77 | CG iter. 14 -- res = 0.27829E+03, tol = 0.47658E+04, time = 6.79 | CG iter. 15 -- res = 0.14343E+03, tol = 0.47658E+04, time = 6.50 | CG iter. 16 -- res = 0.68713E+02, tol = 0.47658E+04, time = 6.65 | CG iter. 17 -- res = 0.31932E+02, tol = 0.47658E+04, time = 6.71 | CG iter. 18 -- res = 0.16025E+02, tol = 0.47658E+04, time = 6.61 | CG iter. 19 -- res = 0.86827E+01, tol = 0.47658E+04, time = 6.33 | CG iter. 20 -- res = 0.50030E+01, tol = 0.47658E+04, time = 7.09 | CG iter. 21 -- res = 0.28087E+01, tol = 0.47658E+04, time = 6.78 | CG iter. 22 -- res = 0.14413E+01, tol = 0.47658E+04, time = 6.50 | CG iter. 23 -- res = 0.72693E+00, tol = 0.47658E+04, time = 6.78 | CG iter. 24 -- res = 0.37372E+00, tol = 0.47658E+04, time = 6.58 | CG iter. 25 -- res = 0.20504E+00, tol = 0.47658E+04, time = 6.60 | CG iter. 26 -- res = 0.11743E+00, tol = 0.47658E+04, time = 6.58 | CG iter. 27 -- res = 0.67344E-01, tol = 0.47658E+04, time = 6.74 | CG iter. 28 -- res = 0.36911E-01, tol = 0.47658E+04, time = 6.62 | CG iter. 29 -- res = 0.18971E-01, tol = 0.47658E+04, time = 6.66 | CG iter. 30 -- res = 0.98218E-02, tol = 0.47658E+04, time = 6.82 | CG iter. 31 -- res = 0.54086E-02, tol = 0.47658E+04, time = 6.74 | CG iter. 32 -- res = 0.30880E-02, tol = 0.47658E+04, time = 6.91 | CG iter. 33 -- res = 0.17217E-02, tol = 0.47658E+04, time = 6.71 | CG iter. 34 -- res = 0.92692E-03, tol = 0.47658E+04, time = 7.11 | CG iter. 35 -- res = 0.48418E-03, tol = 0.47658E+04, time = 6.38 | Final CG iter 36 -- res = 0.48418E-03, tol = 0.47658E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.119 2.726 | New value 6.145 | Old value 1.119 | Difference 5.026 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.13060E+07, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.48966E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.14424E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.71105E-04, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.24355E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9428171.242 | (Sampled value in CG: 9375167.711 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.619128 | New value = -3.462466 | poltype: 1 pol: 1 CPU time specind = 1.1044979E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.30732E+07, tol = 0.28603E+01, time = 2.77 | CG iter. 2 -- res = 0.12570E+07, tol = 0.28603E+01, time = 2.93 | CG iter. 3 -- res = 0.26879E+06, tol = 0.28603E+01, time = 2.54 | CG iter. 4 -- res = 0.12959E+06, tol = 0.28603E+01, time = 2.83 | CG iter. 5 -- res = 0.77181E+05, tol = 0.28603E+01, time = 3.14 | CG iter. 6 -- res = 0.35358E+05, tol = 0.28603E+01, time = 8.66 | CG iter. 7 -- res = 0.13004E+05, tol = 0.28603E+01, time = 2.81 | CG iter. 8 -- res = 0.58828E+04, tol = 0.28603E+01, time = 2.87 | CG iter. 9 -- res = 0.27915E+04, tol = 0.28603E+01, time = 2.90 | CG iter. 10 -- res = 0.11350E+04, tol = 0.28603E+01, time = 2.93 | CG iter. 11 -- res = 0.46295E+03, tol = 0.28603E+01, time = 3.30 | CG iter. 12 -- res = 0.20848E+03, tol = 0.28603E+01, time = 2.47 | CG iter. 13 -- res = 0.10411E+03, tol = 0.28603E+01, time = 2.50 | CG iter. 14 -- res = 0.55132E+02, tol = 0.28603E+01, time = 2.74 | CG iter. 15 -- res = 0.25924E+02, tol = 0.28603E+01, time = 2.78 | CG iter. 16 -- res = 0.11901E+02, tol = 0.28603E+01, time = 3.11 | CG iter. 17 -- res = 0.49246E+01, tol = 0.28603E+01, time = 2.62 | CG iter. 18 -- res = 0.21870E+01, tol = 0.28603E+01, time = 2.67 | CG iter. 19 -- res = 0.10379E+01, tol = 0.28603E+01, time = 2.74 | CG iter. 20 -- res = 0.53991E+00, tol = 0.28603E+01, time = 2.79 | CG iter. 21 -- res = 0.27531E+00, tol = 0.28603E+01, time = 2.89 | CG iter. 22 -- res = 0.13429E+00, tol = 0.28603E+01, time = 2.89 | CG iter. 23 -- res = 0.60466E-01, tol = 0.28603E+01, time = 2.69 | CG iter. 24 -- res = 0.27498E-01, tol = 0.28603E+01, time = 2.74 | CG iter. 25 -- res = 0.12745E-01, tol = 0.28603E+01, time = 2.90 | CG iter. 26 -- res = 0.61808E-02, tol = 0.28603E+01, time = 2.67 | CG iter. 27 -- res = 0.31305E-02, tol = 0.28603E+01, time = 3.03 | CG iter. 28 -- res = 0.16393E-02, tol = 0.28603E+01, time = 2.73 | CG iter. 29 -- res = 0.78390E-03, tol = 0.28603E+01, time = 2.84 | CG iter. 30 -- res = 0.37306E-03, tol = 0.28603E+01, time = 2.78 | CG iter. 31 -- res = 0.17445E-03, tol = 0.28603E+01, time = 2.86 | CG iter. 32 -- res = 0.80160E-04, tol = 0.28603E+01, time = 2.80 | CG iter. 33 -- res = 0.39653E-04, tol = 0.28603E+01, time = 2.79 | CG iter. 34 -- res = 0.20209E-04, tol = 0.28603E+01, time = 3.07 | CG iter. 35 -- res = 0.10432E-04, tol = 0.28603E+01, time = 2.97 | CG iter. 36 -- res = 0.51399E-05, tol = 0.28603E+01, time = 3.98 | CG iter. 37 -- res = 0.23911E-05, tol = 0.28603E+01, time = 3.14 | CG iter. 38 -- res = 0.11287E-05, tol = 0.28603E+01, time = 2.89 | CG iter. 39 -- res = 0.55321E-06, tol = 0.28603E+01, time = 3.19 | CG iter. 40 -- res = 0.26915E-06, tol = 0.28603E+01, time = 2.82 | CG iter. 41 -- res = 0.14523E-06, tol = 0.28603E+01, time = 2.55 | CG iter. 42 -- res = 0.73027E-07, tol = 0.28603E+01, time = 2.82 | CG iter. 43 -- res = 0.33623E-07, tol = 0.28603E+01, time = 3.02 | CG iter. 44 -- res = 0.15216E-07, tol = 0.28603E+01, time = 2.72 | CG iter. 45 -- res = 0.72103E-08, tol = 0.28603E+01, time = 2.89 | CG iter. 46 -- res = 0.35688E-08, tol = 0.28603E+01, time = 2.83 | CG iter. 47 -- res = 0.18404E-08, tol = 0.28603E+01, time = 2.85 | CG iter. 48 -- res = 0.93053E-09, tol = 0.28603E+01, time = 2.78 | CG iter. 49 -- res = 0.44175E-09, tol = 0.28603E+01, time = 2.87 | CG iter. 50 -- res = 0.20128E-09, tol = 0.28603E+01, time = 2.79 | Final CG iter 51 -- res = 0.20128E-09, tol = 0.28603E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -11.535 5.227 | New value -0.253 | Old value -11.535 | Difference 11.282 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.12779E+06, tol = 0.47627E+18, time = 2.16 | CG iter. 2 -- res = 0.92809E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.40028E+01, tol = 0.47627E+18, time = 2.18 | CG iter. 4 -- res = 0.81376E-02, tol = 0.47627E+18, time = 2.46 | Final CG iter 5 -- res = 0.74416E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9428171.242 | (Sampled value in CG: 9394077.591 ) | CPU time specind = 1214.521 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.69040E+08, tol = 0.57644E+04, time = 11.98 | CG iter. 2 -- res = 0.58734E+08, tol = 0.57644E+04, time = 11.64 | CG iter. 3 -- res = 0.15173E+08, tol = 0.57644E+04, time = 11.86 | CG iter. 4 -- res = 0.64460E+07, tol = 0.57644E+04, time = 12.09 | CG iter. 5 -- res = 0.38479E+07, tol = 0.57644E+04, time = 12.16 | CG iter. 6 -- res = 0.22195E+07, tol = 0.57644E+04, time = 12.07 | CG iter. 7 -- res = 0.13135E+07, tol = 0.57644E+04, time = 18.92 | CG iter. 8 -- res = 0.87759E+06, tol = 0.57644E+04, time = 12.16 | CG iter. 9 -- res = 0.57882E+06, tol = 0.57644E+04, time = 12.17 | CG iter. 10 -- res = 0.35246E+06, tol = 0.57644E+04, time = 12.08 | CG iter. 11 -- res = 0.19816E+06, tol = 0.57644E+04, time = 11.99 | CG iter. 12 -- res = 0.11423E+06, tol = 0.57644E+04, time = 12.06 | CG iter. 13 -- res = 0.70127E+05, tol = 0.57644E+04, time = 12.36 | CG iter. 14 -- res = 0.49233E+05, tol = 0.57644E+04, time = 14.27 | CG iter. 15 -- res = 0.39218E+05, tol = 0.57644E+04, time = 12.07 | CG iter. 16 -- res = 0.35830E+05, tol = 0.57644E+04, time = 12.13 | CG iter. 17 -- res = 0.34728E+05, tol = 0.57644E+04, time = 11.65 | CG iter. 18 -- res = 0.32554E+05, tol = 0.57644E+04, time = 12.06 | CG iter. 19 -- res = 0.30135E+05, tol = 0.57644E+04, time = 11.44 | CG iter. 20 -- res = 0.27932E+05, tol = 0.57644E+04, time = 11.78 | CG iter. 21 -- res = 0.27216E+05, tol = 0.57644E+04, time = 11.98 | CG iter. 22 -- res = 0.27873E+05, tol = 0.57644E+04, time = 12.41 | CG iter. 23 -- res = 0.27649E+05, tol = 0.57644E+04, time = 12.85 | CG iter. 24 -- res = 0.25604E+05, tol = 0.57644E+04, time = 11.82 | CG iter. 25 -- res = 0.21057E+05, tol = 0.57644E+04, time = 12.25 | CG iter. 26 -- res = 0.15992E+05, tol = 0.57644E+04, time = 12.29 | CG iter. 27 -- res = 0.11877E+05, tol = 0.57644E+04, time = 11.99 | CG iter. 28 -- res = 0.88090E+04, tol = 0.57644E+04, time = 12.25 | CG iter. 29 -- res = 0.70551E+04, tol = 0.57644E+04, time = 12.05 | CG iter. 30 -- res = 0.61117E+04, tol = 0.57644E+04, time = 12.19 | CG iter. 31 -- res = 0.54408E+04, tol = 0.57644E+04, time = 18.84 | CG iter. 32 -- res = 0.48572E+04, tol = 0.57644E+04, time = 11.89 | CG iter. 33 -- res = 0.42840E+04, tol = 0.57644E+04, time = 12.20 | CG iter. 34 -- res = 0.36895E+04, tol = 0.57644E+04, time = 12.11 | CG iter. 35 -- res = 0.33158E+04, tol = 0.57644E+04, time = 12.11 | CG iter. 36 -- res = 0.31056E+04, tol = 0.57644E+04, time = 11.88 | CG iter. 37 -- res = 0.29407E+04, tol = 0.57644E+04, time = 11.99 | CG iter. 38 -- res = 0.28115E+04, tol = 0.57644E+04, time = 13.33 | CG iter. 39 -- res = 0.25253E+04, tol = 0.57644E+04, time = 13.03 | CG iter. 40 -- res = 0.20986E+04, tol = 0.57644E+04, time = 11.99 | CG iter. 41 -- res = 0.16719E+04, tol = 0.57644E+04, time = 12.64 | CG iter. 42 -- res = 0.13196E+04, tol = 0.57644E+04, time = 12.87 | CG iter. 43 -- res = 0.10865E+04, tol = 0.57644E+04, time = 11.96 | CG iter. 44 -- res = 0.96216E+03, tol = 0.57644E+04, time = 12.20 | CG iter. 45 -- res = 0.87380E+03, tol = 0.57644E+04, time = 11.74 | CG iter. 46 -- res = 0.79498E+03, tol = 0.57644E+04, time = 11.94 | CG iter. 47 -- res = 0.70585E+03, tol = 0.57644E+04, time = 12.30 | CG iter. 48 -- res = 0.61212E+03, tol = 0.57644E+04, time = 12.54 | CG iter. 49 -- res = 0.53769E+03, tol = 0.57644E+04, time = 12.20 | CG iter. 50 -- res = 0.48229E+03, tol = 0.57644E+04, time = 12.03 | CG iter. 51 -- res = 0.44895E+03, tol = 0.57644E+04, time = 12.05 | CG iter. 52 -- res = 0.42529E+03, tol = 0.57644E+04, time = 12.21 | CG iter. 53 -- res = 0.38866E+03, tol = 0.57644E+04, time = 12.18 | CG iter. 54 -- res = 0.34366E+03, tol = 0.57644E+04, time = 11.87 | CG iter. 55 -- res = 0.29305E+03, tol = 0.57644E+04, time = 18.43 | CG iter. 56 -- res = 0.25179E+03, tol = 0.57644E+04, time = 12.18 | CG iter. 57 -- res = 0.21910E+03, tol = 0.57644E+04, time = 12.01 | CG iter. 58 -- res = 0.19716E+03, tol = 0.57644E+04, time = 12.12 | CG iter. 59 -- res = 0.18339E+03, tol = 0.57644E+04, time = 12.26 | CG iter. 60 -- res = 0.16714E+03, tol = 0.57644E+04, time = 11.84 | Final CG iter 61 -- res = 0.16714E+03, tol = 0.57644E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.033 ( -229.593 -2232.622 2515.770 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9535276.281 | Old band monopole 9428211.795 | Change to band monopole 107064.486 | Change to component monopole -107064.026 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 6.207 2.746 | New value -1.412 | Old value 6.207 | Difference -7.619 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.314 ( 6.362 15.382 -16.431 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.780 3.845 | New value -6.835 | Old value 5.780 | Difference -12.615 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.30827E+07, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.67641E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.31245E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.61502E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.11615E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9535235.268 | (Sampled value in CG: 9512521.305 ) | Chain = 1 -- chisq = 0.81486312E+09 | Chain = 1 -- wall time = 5793.916 sec Available RAM: MemAvailable: 377917444 kB Available Swap: SwapFree: 1130853840 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 318 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442993 | --> Sampling calibration, mode = relcal | relcal = 1.3422884E-02 7.4439927E-04 -1.5882091E-03 -1.2579074E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1246227 0.1310802 9405795.94807538 | BP delta = 0.1246227 0.1269928 9405842.75132579 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632533 | --> Sampling calibration, mode = relcal | relcal = -2.8219654E-03 -7.0392323E-04 1.6796859E-03 1.6143691E-03 -4.0850931E-04 6.4034294E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5637494 15218556.4747009 | BP delta = 0.0000000E+00 -0.5715924 15218558.9024008 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18047325751155 | --> Sampling calibration, mode = relcal | relcal = -7.5639531E-02 -5.8717903E-02 9.2379011E-02 4.1978423E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1960918E-04 4.9300678E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3930E-05 | 2: delta_r/delta_0: 1.0806E-06 | 3: delta_s/delta_0: 1.8963E-07 | 4: delta_r/delta_0: 2.2184E-08 | 5: delta_s/delta_0: 6.4810E-09 | 6: delta_r/delta_0: 1.7392E-09 | 7: delta_s/delta_0: 3.5979E-10 | 8: delta_r/delta_0: 1.1017E-10 | 9: delta_s/delta_0: 2.0884E-10 | 10: delta_r/delta_0: 8.3649E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.332321979962658E-003 2.742209723010259E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3931E-05 | 2: delta_r/delta_0: 1.0806E-06 | 3: delta_s/delta_0: 1.8963E-07 | 4: delta_r/delta_0: 2.2181E-08 | 5: delta_s/delta_0: 6.4773E-09 | 6: delta_r/delta_0: 1.7391E-09 | 7: delta_s/delta_0: 3.5979E-10 | 8: delta_r/delta_0: 1.1016E-10 | 9: delta_s/delta_0: 2.0872E-10 | 10: delta_r/delta_0: 8.3603E-11 | Reached bicg-stab tolerance | BP delta = 7.7035934E-02 9.7764209E-02 3532062.79091495 | BP delta = 7.7035934E-02 9.7207509E-02 3537547.88667162 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02622571 | --> Sampling calibration, mode = relcal | relcal = -0.1067366 -9.5554873E-02 0.1449723 5.7319228E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8847957E-03 1.6670594E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3207E-05 | 2: delta_r/delta_0: 1.1412E-06 | 3: delta_s/delta_0: 2.3227E-07 | 4: delta_r/delta_0: 5.5496E-08 | 5: delta_s/delta_0: 1.4652E-08 | 6: delta_r/delta_0: 7.6398E-09 | 7: delta_s/delta_0: 2.1580E-08 | 8: delta_r/delta_0: 1.1822E-09 | 9: delta_s/delta_0: 8.8783E-10 | 10: delta_r/delta_0: 3.3143E-10 | 11: delta_s/delta_0: 4.6732E-09 | 12: delta_r/delta_0: 3.3871E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.652379751808954E-003 2.810202691876575E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3207E-05 | 2: delta_r/delta_0: 1.1412E-06 | 3: delta_s/delta_0: 2.3227E-07 | 4: delta_r/delta_0: 5.5494E-08 | 5: delta_s/delta_0: 1.4652E-08 | 6: delta_r/delta_0: 7.6397E-09 | 7: delta_s/delta_0: 2.1577E-08 | 8: delta_r/delta_0: 1.1822E-09 | 9: delta_s/delta_0: 8.8785E-10 | 10: delta_r/delta_0: 3.3141E-10 | 11: delta_s/delta_0: 4.6727E-09 | 12: delta_r/delta_0: 3.3868E-11 | Reached bicg-stab tolerance | BP delta = -0.3446740 -0.3142564 2841547.14021627 | BP delta = -0.3446740 -0.3134034 2841548.22737141 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81252831 | --> Sampling calibration, mode = relcal | relcal = 0.2955350 0.2249393 -0.2838192 -0.2366551 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.8287777E-04 5.2811611E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7963E-03 | 2: delta_r/delta_0: 8.8132E-05 | 3: delta_s/delta_0: 1.6477E-05 | 4: delta_r/delta_0: 1.5875E-06 | 5: delta_s/delta_0: 7.3495E-07 | 6: delta_r/delta_0: 1.1501E-07 | 7: delta_s/delta_0: 1.3714E-08 | 8: delta_r/delta_0: 3.8404E-09 | 9: delta_s/delta_0: 2.3225E-08 | 10: delta_r/delta_0: 4.1268E-09 | 11: delta_s/delta_0: 2.3780E-08 | 12: delta_r/delta_0: 1.0408E-08 | 13: delta_s/delta_0: 1.8055E-09 | 14: delta_r/delta_0: 1.2959E-10 | 15: delta_s/delta_0: 9.0698E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.045446934384878E-002 4.020197166048750E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7976E-03 | 2: delta_r/delta_0: 8.8163E-05 | 3: delta_s/delta_0: 1.6485E-05 | 4: delta_r/delta_0: 1.5886E-06 | 5: delta_s/delta_0: 7.3465E-07 | 6: delta_r/delta_0: 1.1521E-07 | 7: delta_s/delta_0: 1.3710E-08 | 8: delta_r/delta_0: 3.8541E-09 | 9: delta_s/delta_0: 2.3400E-08 | 10: delta_r/delta_0: 4.1615E-09 | 11: delta_s/delta_0: 2.4139E-08 | 12: delta_r/delta_0: 1.0542E-08 | 13: delta_s/delta_0: 1.8067E-09 | 14: delta_r/delta_0: 1.2960E-10 | 15: delta_s/delta_0: 9.0630E-11 | Reached bicg-stab tolerance | BP delta = -0.2256106 -0.2589131 2827278.28627567 | BP delta = -0.2256106 -0.2714611 2827328.54954460 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95950621 | --> Sampling calibration, mode = relcal | relcal = 0.1064852 0.1396447 -0.1101947 -0.1359351 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0147544E-02 1.3288124E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1142E+00 | 2: delta_r/delta_0: 2.6491E-02 | 3: delta_s/delta_0: 3.4592E-04 | 4: delta_r/delta_0: 9.6654E-06 | 5: delta_s/delta_0: 2.7715E-06 | 6: delta_r/delta_0: 1.4797E-06 | 7: delta_s/delta_0: 1.0323E-06 | 8: delta_r/delta_0: 3.5157E-07 | 9: delta_s/delta_0: 2.7415E-07 | 10: delta_r/delta_0: 2.7139E-08 | 11: delta_s/delta_0: 7.7129E-09 | 12: delta_r/delta_0: 4.0597E-09 | 13: delta_s/delta_0: 7.2179E-10 | 14: delta_r/delta_0: 5.4269E-10 | 15: delta_s/delta_0: 1.9274E-10 | 16: delta_r/delta_0: 1.3887E-10 | 17: delta_s/delta_0: 9.5042E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.277180720039895E-002 3.695861127664702E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1299E+00 | 2: delta_r/delta_0: 2.6865E-02 | 3: delta_s/delta_0: 3.4521E-04 | 4: delta_r/delta_0: 9.6523E-06 | 5: delta_s/delta_0: 2.7655E-06 | 6: delta_r/delta_0: 1.4765E-06 | 7: delta_s/delta_0: 1.0316E-06 | 8: delta_r/delta_0: 3.5102E-07 | 9: delta_s/delta_0: 2.7360E-07 | 10: delta_r/delta_0: 2.7066E-08 | 11: delta_s/delta_0: 7.7062E-09 | 12: delta_r/delta_0: 4.0529E-09 | 13: delta_s/delta_0: 7.2167E-10 | 14: delta_r/delta_0: 5.4277E-10 | 15: delta_s/delta_0: 1.9239E-10 | 16: delta_r/delta_0: 1.3891E-10 | 17: delta_s/delta_0: 9.5348E-11 | Reached bicg-stab tolerance | BP delta = 0.1011705 0.2215599 3004196.08293064 | BP delta = 0.1011705 0.2114363 3004190.49220583 | BP chisq diff = -5.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143014 | New value = -3.047024 | poltype: 2 pol: 1 CPU time specind = 1.1656046E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.212170 | New value = -3.176839 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161570 | New value = -3.043531 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132826 | New value = -3.034047 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.074437 | New value = -3.114736 | poltype: 2 pol: 2 CPU time specind = 3.1664133E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.13995E+08, tol = 0.76718E+01, time = 7.25 | CG iter. 2 -- res = 0.49934E+06, tol = 0.76718E+01, time = 6.32 | CG iter. 3 -- res = 0.30717E+06, tol = 0.76718E+01, time = 5.85 | CG iter. 4 -- res = 0.52962E+06, tol = 0.76718E+01, time = 5.60 | CG iter. 5 -- res = 0.49700E+06, tol = 0.76718E+01, time = 5.83 | CG iter. 6 -- res = 0.37131E+06, tol = 0.76718E+01, time = 5.69 | CG iter. 7 -- res = 0.22475E+06, tol = 0.76718E+01, time = 5.70 | CG iter. 8 -- res = 0.15455E+06, tol = 0.76718E+01, time = 6.07 | CG iter. 9 -- res = 0.12742E+06, tol = 0.76718E+01, time = 5.80 | CG iter. 10 -- res = 0.10012E+06, tol = 0.76718E+01, time = 5.59 | CG iter. 11 -- res = 0.71047E+05, tol = 0.76718E+01, time = 5.76 | CG iter. 12 -- res = 0.48063E+05, tol = 0.76718E+01, time = 5.79 | CG iter. 13 -- res = 0.36445E+05, tol = 0.76718E+01, time = 5.57 | CG iter. 14 -- res = 0.30592E+05, tol = 0.76718E+01, time = 5.97 | CG iter. 15 -- res = 0.21726E+05, tol = 0.76718E+01, time = 5.72 | CG iter. 16 -- res = 0.14064E+05, tol = 0.76718E+01, time = 5.51 | CG iter. 17 -- res = 0.10227E+05, tol = 0.76718E+01, time = 6.07 | CG iter. 18 -- res = 0.88303E+04, tol = 0.76718E+01, time = 5.74 | CG iter. 19 -- res = 0.70446E+04, tol = 0.76718E+01, time = 5.73 | CG iter. 20 -- res = 0.48181E+04, tol = 0.76718E+01, time = 6.27 | CG iter. 21 -- res = 0.33253E+04, tol = 0.76718E+01, time = 5.88 | CG iter. 22 -- res = 0.27957E+04, tol = 0.76718E+01, time = 5.96 | CG iter. 23 -- res = 0.23306E+04, tol = 0.76718E+01, time = 5.57 | CG iter. 24 -- res = 0.16958E+04, tol = 0.76718E+01, time = 5.84 | CG iter. 25 -- res = 0.12241E+04, tol = 0.76718E+01, time = 5.72 | CG iter. 26 -- res = 0.95741E+03, tol = 0.76718E+01, time = 5.44 | CG iter. 27 -- res = 0.81996E+03, tol = 0.76718E+01, time = 5.69 | CG iter. 28 -- res = 0.63496E+03, tol = 0.76718E+01, time = 5.78 | CG iter. 29 -- res = 0.43033E+03, tol = 0.76718E+01, time = 5.78 | CG iter. 30 -- res = 0.32333E+03, tol = 0.76718E+01, time = 5.82 | CG iter. 31 -- res = 0.26361E+03, tol = 0.76718E+01, time = 5.93 | CG iter. 32 -- res = 0.20453E+03, tol = 0.76718E+01, time = 5.82 | CG iter. 33 -- res = 0.14644E+03, tol = 0.76718E+01, time = 5.60 | CG iter. 34 -- res = 0.10562E+03, tol = 0.76718E+01, time = 5.68 | CG iter. 35 -- res = 0.79045E+02, tol = 0.76718E+01, time = 5.52 | CG iter. 36 -- res = 0.63704E+02, tol = 0.76718E+01, time = 5.71 | CG iter. 37 -- res = 0.45857E+02, tol = 0.76718E+01, time = 11.81 | CG iter. 38 -- res = 0.31972E+02, tol = 0.76718E+01, time = 5.90 | CG iter. 39 -- res = 0.23754E+02, tol = 0.76718E+01, time = 5.52 | CG iter. 40 -- res = 0.18710E+02, tol = 0.76718E+01, time = 5.63 | CG iter. 41 -- res = 0.14335E+02, tol = 0.76718E+01, time = 5.66 | CG iter. 42 -- res = 0.99447E+01, tol = 0.76718E+01, time = 5.70 | CG iter. 43 -- res = 0.71530E+01, tol = 0.76718E+01, time = 5.84 | CG iter. 44 -- res = 0.55533E+01, tol = 0.76718E+01, time = 5.90 | CG iter. 45 -- res = 0.42356E+01, tol = 0.76718E+01, time = 5.90 | CG iter. 46 -- res = 0.29093E+01, tol = 0.76718E+01, time = 5.51 | CG iter. 47 -- res = 0.19752E+01, tol = 0.76718E+01, time = 5.94 | CG iter. 48 -- res = 0.14762E+01, tol = 0.76718E+01, time = 5.65 | CG iter. 49 -- res = 0.10947E+01, tol = 0.76718E+01, time = 5.45 | CG iter. 50 -- res = 0.77150E+00, tol = 0.76718E+01, time = 5.62 | Final CG iter 51 -- res = 0.77150E+00, tol = 0.76718E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7729438.514 | Old band monopole 9535276.281 | Change to band monopole -1805837.767 | Change to component monopole 1805830.000 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.14072E+07, tol = 0.47627E+18, time = 2.25 | CG iter. 2 -- res = 0.69212E+03, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.54343E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.11715E+00, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.48956E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7729405.268 | (Sampled value in CG: 7891015.397 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.540615 | New value = 1.537235 | poltype: 2 pol: 1 CPU time specind = 1.5502214E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526040 | New value = 1.433515 | poltype: 2 pol: 2 CPU time specind = 3.0369759E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.23972E+08, tol = 0.47611E+04, time = 6.29 | CG iter. 2 -- res = 0.51080E+07, tol = 0.47611E+04, time = 6.50 | CG iter. 3 -- res = 0.83750E+06, tol = 0.47611E+04, time = 6.74 | CG iter. 4 -- res = 0.36341E+06, tol = 0.47611E+04, time = 6.58 | CG iter. 5 -- res = 0.15856E+06, tol = 0.47611E+04, time = 6.27 | CG iter. 6 -- res = 0.82831E+05, tol = 0.47611E+04, time = 6.28 | CG iter. 7 -- res = 0.44947E+05, tol = 0.47611E+04, time = 6.53 | CG iter. 8 -- res = 0.21996E+05, tol = 0.47611E+04, time = 6.23 | CG iter. 9 -- res = 0.93559E+04, tol = 0.47611E+04, time = 6.61 | CG iter. 10 -- res = 0.37639E+04, tol = 0.47611E+04, time = 6.43 | CG iter. 11 -- res = 0.16939E+04, tol = 0.47611E+04, time = 6.57 | CG iter. 12 -- res = 0.89241E+03, tol = 0.47611E+04, time = 6.48 | CG iter. 13 -- res = 0.50186E+03, tol = 0.47611E+04, time = 6.71 | CG iter. 14 -- res = 0.28100E+03, tol = 0.47611E+04, time = 6.76 | CG iter. 15 -- res = 0.14460E+03, tol = 0.47611E+04, time = 6.08 | CG iter. 16 -- res = 0.67515E+02, tol = 0.47611E+04, time = 12.46 | CG iter. 17 -- res = 0.31925E+02, tol = 0.47611E+04, time = 6.99 | CG iter. 18 -- res = 0.16339E+02, tol = 0.47611E+04, time = 6.60 | CG iter. 19 -- res = 0.90800E+01, tol = 0.47611E+04, time = 6.40 | CG iter. 20 -- res = 0.51932E+01, tol = 0.47611E+04, time = 6.76 | CG iter. 21 -- res = 0.27684E+01, tol = 0.47611E+04, time = 6.49 | CG iter. 22 -- res = 0.14090E+01, tol = 0.47611E+04, time = 6.48 | CG iter. 23 -- res = 0.70063E+00, tol = 0.47611E+04, time = 6.80 | CG iter. 24 -- res = 0.36157E+00, tol = 0.47611E+04, time = 6.46 | CG iter. 25 -- res = 0.19828E+00, tol = 0.47611E+04, time = 6.56 | CG iter. 26 -- res = 0.11456E+00, tol = 0.47611E+04, time = 6.56 | CG iter. 27 -- res = 0.65332E-01, tol = 0.47611E+04, time = 6.66 | CG iter. 28 -- res = 0.35769E-01, tol = 0.47611E+04, time = 6.78 | CG iter. 29 -- res = 0.18444E-01, tol = 0.47611E+04, time = 7.67 | CG iter. 30 -- res = 0.96010E-02, tol = 0.47611E+04, time = 7.13 | CG iter. 31 -- res = 0.52656E-02, tol = 0.47611E+04, time = 6.90 | CG iter. 32 -- res = 0.30099E-02, tol = 0.47611E+04, time = 6.51 | CG iter. 33 -- res = 0.16944E-02, tol = 0.47611E+04, time = 6.60 | CG iter. 34 -- res = 0.89985E-03, tol = 0.47611E+04, time = 6.68 | CG iter. 35 -- res = 0.46305E-03, tol = 0.47611E+04, time = 6.71 | Final CG iter 36 -- res = 0.46305E-03, tol = 0.47611E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.424 2.739 | New value -0.920 | Old value -1.424 | Difference 0.503 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.41100E+05, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.96211E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.22693E+01, tol = 0.47627E+18, time = 1.94 | Final CG iter 4 -- res = 0.20801E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7729405.268 | (Sampled value in CG: 7889759.020 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.462466 | New value = -3.567414 | poltype: 1 pol: 1 CPU time specind = 2.3417950E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.38899E+07, tol = 0.35216E+01, time = 2.77 | CG iter. 2 -- res = 0.20072E+07, tol = 0.35216E+01, time = 2.87 | CG iter. 3 -- res = 0.41517E+06, tol = 0.35216E+01, time = 2.63 | CG iter. 4 -- res = 0.18311E+06, tol = 0.35216E+01, time = 2.75 | CG iter. 5 -- res = 0.11180E+06, tol = 0.35216E+01, time = 2.89 | CG iter. 6 -- res = 0.51454E+05, tol = 0.35216E+01, time = 2.93 | CG iter. 7 -- res = 0.16548E+05, tol = 0.35216E+01, time = 2.92 | CG iter. 8 -- res = 0.65418E+04, tol = 0.35216E+01, time = 2.94 | CG iter. 9 -- res = 0.31685E+04, tol = 0.35216E+01, time = 2.69 | CG iter. 10 -- res = 0.12822E+04, tol = 0.35216E+01, time = 2.95 | CG iter. 11 -- res = 0.53293E+03, tol = 0.35216E+01, time = 2.40 | CG iter. 12 -- res = 0.25313E+03, tol = 0.35216E+01, time = 2.93 | CG iter. 13 -- res = 0.12799E+03, tol = 0.35216E+01, time = 2.66 | CG iter. 14 -- res = 0.64580E+02, tol = 0.35216E+01, time = 3.00 | CG iter. 15 -- res = 0.29559E+02, tol = 0.35216E+01, time = 2.69 | CG iter. 16 -- res = 0.12867E+02, tol = 0.35216E+01, time = 2.86 | CG iter. 17 -- res = 0.54404E+01, tol = 0.35216E+01, time = 2.96 | CG iter. 18 -- res = 0.25293E+01, tol = 0.35216E+01, time = 2.70 | CG iter. 19 -- res = 0.12891E+01, tol = 0.35216E+01, time = 2.70 | CG iter. 20 -- res = 0.65652E+00, tol = 0.35216E+01, time = 2.89 | CG iter. 21 -- res = 0.30980E+00, tol = 0.35216E+01, time = 2.82 | CG iter. 22 -- res = 0.13913E+00, tol = 0.35216E+01, time = 2.90 | CG iter. 23 -- res = 0.61756E-01, tol = 0.35216E+01, time = 3.12 | CG iter. 24 -- res = 0.28411E-01, tol = 0.35216E+01, time = 2.81 | CG iter. 25 -- res = 0.14455E-01, tol = 0.35216E+01, time = 2.81 | CG iter. 26 -- res = 0.70800E-02, tol = 0.35216E+01, time = 2.94 | CG iter. 27 -- res = 0.35828E-02, tol = 0.35216E+01, time = 2.73 | CG iter. 28 -- res = 0.17618E-02, tol = 0.35216E+01, time = 2.61 | CG iter. 29 -- res = 0.79264E-03, tol = 0.35216E+01, time = 2.75 | CG iter. 30 -- res = 0.37481E-03, tol = 0.35216E+01, time = 3.05 | CG iter. 31 -- res = 0.18290E-03, tol = 0.35216E+01, time = 2.78 | CG iter. 32 -- res = 0.88554E-04, tol = 0.35216E+01, time = 2.80 | CG iter. 33 -- res = 0.44745E-04, tol = 0.35216E+01, time = 2.90 | CG iter. 34 -- res = 0.21378E-04, tol = 0.35216E+01, time = 2.65 | CG iter. 35 -- res = 0.10712E-04, tol = 0.35216E+01, time = 2.95 | CG iter. 36 -- res = 0.52861E-05, tol = 0.35216E+01, time = 2.77 | CG iter. 37 -- res = 0.22828E-05, tol = 0.35216E+01, time = 2.82 | CG iter. 38 -- res = 0.11595E-05, tol = 0.35216E+01, time = 2.50 | CG iter. 39 -- res = 0.56732E-06, tol = 0.35216E+01, time = 2.52 | CG iter. 40 -- res = 0.29405E-06, tol = 0.35216E+01, time = 3.04 | CG iter. 41 -- res = 0.13751E-06, tol = 0.35216E+01, time = 2.83 | CG iter. 42 -- res = 0.64836E-07, tol = 0.35216E+01, time = 2.88 | CG iter. 43 -- res = 0.28634E-07, tol = 0.35216E+01, time = 2.70 | CG iter. 44 -- res = 0.14201E-07, tol = 0.35216E+01, time = 2.57 | CG iter. 45 -- res = 0.70331E-08, tol = 0.35216E+01, time = 3.03 | CG iter. 46 -- res = 0.35124E-08, tol = 0.35216E+01, time = 2.84 | CG iter. 47 -- res = 0.17125E-08, tol = 0.35216E+01, time = 3.10 | CG iter. 48 -- res = 0.80271E-09, tol = 0.35216E+01, time = 3.03 | CG iter. 49 -- res = 0.35104E-09, tol = 0.35216E+01, time = 2.63 | CG iter. 50 -- res = 0.16711E-09, tol = 0.35216E+01, time = 2.78 | Final CG iter 51 -- res = 0.16711E-09, tol = 0.35216E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.674 2.932 | New value -1.596 | Old value 1.674 | Difference -3.270 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.28360E+05, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.88009E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.27094E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.22913E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.32356E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7729405.268 | (Sampled value in CG: 7850266.668 ) | CPU time specind = 1198.169 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.68695E+08, tol = 0.57688E+04, time = 11.93 | CG iter. 2 -- res = 0.59752E+08, tol = 0.57688E+04, time = 11.71 | CG iter. 3 -- res = 0.15952E+08, tol = 0.57688E+04, time = 13.97 | CG iter. 4 -- res = 0.68040E+07, tol = 0.57688E+04, time = 11.48 | CG iter. 5 -- res = 0.40317E+07, tol = 0.57688E+04, time = 12.27 | CG iter. 6 -- res = 0.23528E+07, tol = 0.57688E+04, time = 11.95 | CG iter. 7 -- res = 0.14443E+07, tol = 0.57688E+04, time = 12.12 | CG iter. 8 -- res = 0.10087E+07, tol = 0.57688E+04, time = 12.13 | CG iter. 9 -- res = 0.70251E+06, tol = 0.57688E+04, time = 12.08 | CG iter. 10 -- res = 0.45636E+06, tol = 0.57688E+04, time = 12.22 | CG iter. 11 -- res = 0.28337E+06, tol = 0.57688E+04, time = 11.95 | CG iter. 12 -- res = 0.18303E+06, tol = 0.57688E+04, time = 11.66 | CG iter. 13 -- res = 0.13415E+06, tol = 0.57688E+04, time = 11.67 | CG iter. 14 -- res = 0.11522E+06, tol = 0.57688E+04, time = 11.88 | CG iter. 15 -- res = 0.11335E+06, tol = 0.57688E+04, time = 11.49 | CG iter. 16 -- res = 0.11950E+06, tol = 0.57688E+04, time = 11.70 | CG iter. 17 -- res = 0.12237E+06, tol = 0.57688E+04, time = 12.44 | CG iter. 18 -- res = 0.11150E+06, tol = 0.57688E+04, time = 11.87 | CG iter. 19 -- res = 0.94939E+05, tol = 0.57688E+04, time = 11.97 | CG iter. 20 -- res = 0.81203E+05, tol = 0.57688E+04, time = 18.42 | CG iter. 21 -- res = 0.71623E+05, tol = 0.57688E+04, time = 12.23 | CG iter. 22 -- res = 0.64397E+05, tol = 0.57688E+04, time = 11.60 | CG iter. 23 -- res = 0.56345E+05, tol = 0.57688E+04, time = 11.60 | CG iter. 24 -- res = 0.47479E+05, tol = 0.57688E+04, time = 11.99 | CG iter. 25 -- res = 0.37009E+05, tol = 0.57688E+04, time = 11.66 | CG iter. 26 -- res = 0.28343E+05, tol = 0.57688E+04, time = 12.04 | CG iter. 27 -- res = 0.21998E+05, tol = 0.57688E+04, time = 13.81 | CG iter. 28 -- res = 0.18161E+05, tol = 0.57688E+04, time = 12.26 | CG iter. 29 -- res = 0.16610E+05, tol = 0.57688E+04, time = 11.68 | CG iter. 30 -- res = 0.16150E+05, tol = 0.57688E+04, time = 11.99 | CG iter. 31 -- res = 0.15520E+05, tol = 0.57688E+04, time = 12.14 | CG iter. 32 -- res = 0.14169E+05, tol = 0.57688E+04, time = 11.44 | CG iter. 33 -- res = 0.12564E+05, tol = 0.57688E+04, time = 11.92 | CG iter. 34 -- res = 0.10145E+05, tol = 0.57688E+04, time = 11.68 | CG iter. 35 -- res = 0.82506E+04, tol = 0.57688E+04, time = 11.99 | CG iter. 36 -- res = 0.70250E+04, tol = 0.57688E+04, time = 11.65 | CG iter. 37 -- res = 0.61687E+04, tol = 0.57688E+04, time = 11.61 | CG iter. 38 -- res = 0.55355E+04, tol = 0.57688E+04, time = 12.19 | CG iter. 39 -- res = 0.47669E+04, tol = 0.57688E+04, time = 12.09 | CG iter. 40 -- res = 0.39801E+04, tol = 0.57688E+04, time = 11.89 | CG iter. 41 -- res = 0.32355E+04, tol = 0.57688E+04, time = 11.69 | CG iter. 42 -- res = 0.27085E+04, tol = 0.57688E+04, time = 11.89 | CG iter. 43 -- res = 0.24213E+04, tol = 0.57688E+04, time = 11.90 | CG iter. 44 -- res = 0.23090E+04, tol = 0.57688E+04, time = 12.69 | CG iter. 45 -- res = 0.21817E+04, tol = 0.57688E+04, time = 18.05 | CG iter. 46 -- res = 0.20427E+04, tol = 0.57688E+04, time = 11.19 | CG iter. 47 -- res = 0.18090E+04, tol = 0.57688E+04, time = 11.34 | CG iter. 48 -- res = 0.15178E+04, tol = 0.57688E+04, time = 12.19 | CG iter. 49 -- res = 0.12894E+04, tol = 0.57688E+04, time = 12.03 | CG iter. 50 -- res = 0.11024E+04, tol = 0.57688E+04, time = 11.91 | CG iter. 51 -- res = 0.97285E+03, tol = 0.57688E+04, time = 12.08 | CG iter. 52 -- res = 0.89572E+03, tol = 0.57688E+04, time = 13.44 | CG iter. 53 -- res = 0.81762E+03, tol = 0.57688E+04, time = 12.27 | CG iter. 54 -- res = 0.72202E+03, tol = 0.57688E+04, time = 12.63 | CG iter. 55 -- res = 0.62646E+03, tol = 0.57688E+04, time = 11.91 | CG iter. 56 -- res = 0.55418E+03, tol = 0.57688E+04, time = 11.95 | CG iter. 57 -- res = 0.48448E+03, tol = 0.57688E+04, time = 12.02 | CG iter. 58 -- res = 0.44275E+03, tol = 0.57688E+04, time = 11.99 | CG iter. 59 -- res = 0.42790E+03, tol = 0.57688E+04, time = 11.65 | CG iter. 60 -- res = 0.40953E+03, tol = 0.57688E+04, time = 12.28 | Final CG iter 61 -- res = 0.40953E+03, tol = 0.57688E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.763 ( -229.519 -2230.917 2513.806 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9329150.388 | Old band monopole 7729438.514 | Change to band monopole 1599711.874 | Change to component monopole -1599704.993 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.963 2.739 | New value -1.734 | Old value -0.963 | Difference -0.771 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.346 ( 5.155 11.649 -13.004 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.202 3.555 | New value 4.419 | Old value -2.202 | Difference 6.621 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.36434E+05, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.19398E+02, tol = 0.47627E+18, time = 2.32 | CG iter. 3 -- res = 0.49403E+00, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.81210E-03, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.26685E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9329110.262 | (Sampled value in CG: 9307630.299 ) | Chain = 1 -- chisq = 0.81475995E+09 | Chain = 1 -- wall time = 6132.705 sec Available RAM: MemAvailable: 377836444 kB Available Swap: SwapFree: 1132171984 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 319 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443488 | --> Sampling calibration, mode = relcal | relcal = 1.3416559E-02 7.5388898E-04 -1.5983600E-03 -1.2572088E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1246227 0.1310802 97044984.0441102 | BP delta = 0.1236660 0.1301234 97044983.4531980 | BP chisq diff = -0.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632600 | --> Sampling calibration, mode = relcal | relcal = -2.8215717E-03 -7.0351514E-04 1.6785038E-03 1.6132710E-03 -4.0793093E-04 6.4124283E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5637494 15213818.4622390 | BP delta = 0.0000000E+00 -0.5541158 15213816.5227014 | BP chisq diff = -1.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17853647137091 | --> Sampling calibration, mode = relcal | relcal = -7.4698143E-02 -5.8076657E-02 9.1374427E-02 4.1400377E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9591733E-04 3.7874198E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3394E-05 | 2: delta_r/delta_0: 1.5087E-06 | 3: delta_s/delta_0: 2.2534E-07 | 4: delta_r/delta_0: 1.5148E-08 | 5: delta_s/delta_0: 6.7851E-09 | 6: delta_r/delta_0: 1.7747E-09 | 7: delta_s/delta_0: 1.4369E-09 | 8: delta_r/delta_0: 7.9414E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.146402796152024E-003 2.746826434498029E-005 | BP delta = 7.7035934E-02 9.7764209E-02 50483114.5364087 | BP delta = 8.1861287E-02 0.1025896 50483117.5123794 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02603691 | --> Sampling calibration, mode = relcal | relcal = -0.1066949 -9.5509075E-02 0.1449099 5.7294074E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2420857E-03 1.6087909E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5078E-05 | 2: delta_r/delta_0: 1.1543E-06 | 3: delta_s/delta_0: 2.4828E-07 | 4: delta_r/delta_0: 4.7554E-08 | 5: delta_s/delta_0: 1.7589E-08 | 6: delta_r/delta_0: 6.8308E-09 | 7: delta_s/delta_0: 6.1006E-09 | 8: delta_r/delta_0: 1.4964E-09 | 9: delta_s/delta_0: 7.8124E-10 | 10: delta_r/delta_0: 5.7630E-10 | 11: delta_s/delta_0: 6.9579E-10 | 12: delta_r/delta_0: 7.2889E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.523455967592151E-003 2.810722560420504E-005 | BP delta = -0.3446740 -0.3142564 57390021.4611384 | BP delta = -0.3489985 -0.3185809 57390022.1442482 | BP chisq diff = 0.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81244392 | --> Sampling calibration, mode = relcal | relcal = 0.2955764 0.2249606 -0.2838426 -0.2366944 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.4966600E-04 4.5880931E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5801E-03 | 2: delta_r/delta_0: 6.1385E-05 | 3: delta_s/delta_0: 7.4832E-04 | 4: delta_r/delta_0: 3.1133E-05 | 5: delta_s/delta_0: 5.7609E-07 | 6: delta_r/delta_0: 2.1248E-07 | 7: delta_s/delta_0: 5.3343E-07 | 8: delta_r/delta_0: 5.2227E-08 | 9: delta_s/delta_0: 5.3510E-08 | 10: delta_r/delta_0: 6.5592E-09 | 11: delta_s/delta_0: 3.0662E-09 | 12: delta_r/delta_0: 1.4342E-09 | 13: delta_s/delta_0: 6.0158E-10 | 14: delta_r/delta_0: 8.2662E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.790369043746318E-002 4.020763027399861E-005 | BP delta = -0.2256106 -0.2589131 72481809.9073604 | BP delta = -0.2408284 -0.2741309 72481809.8353319 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95931713 | --> Sampling calibration, mode = relcal | relcal = 0.1065800 0.1395988 -0.1104511 -0.1357277 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2955781E-03 1.2727706E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3569E-03 | 2: delta_r/delta_0: 3.2795E-05 | 3: delta_s/delta_0: 9.8230E-05 | 4: delta_r/delta_0: 4.8040E-06 | 5: delta_s/delta_0: 4.4454E-07 | 6: delta_r/delta_0: 1.7538E-07 | 7: delta_s/delta_0: 2.7409E-07 | 8: delta_r/delta_0: 4.6933E-08 | 9: delta_s/delta_0: 2.8669E-08 | 10: delta_r/delta_0: 3.2302E-09 | 11: delta_s/delta_0: 2.8506E-09 | 12: delta_r/delta_0: 1.4454E-09 | 13: delta_s/delta_0: 7.5450E-10 | 14: delta_r/delta_0: 1.0377E-10 | 15: delta_s/delta_0: 9.9213E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.630697354471777E-002 3.696664046591398E-005 | BP delta = 0.1011705 0.2114363 72781316.8263323 | BP delta = 0.1172822 0.2275480 72781316.7568971 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.047024 | New value = -3.175881 | poltype: 2 pol: 1 CPU time specind = 2.0245075E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176839 | New value = -3.143271 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.043531 | New value = -3.201672 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.034047 | New value = -3.088279 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114736 | New value = -3.169724 | poltype: 2 pol: 2 CPU time specind = 5.1140785E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.13724E+08, tol = 0.76874E+01, time = 5.34 | CG iter. 2 -- res = 0.41372E+06, tol = 0.76874E+01, time = 5.50 | CG iter. 3 -- res = 0.15071E+06, tol = 0.76874E+01, time = 5.82 | CG iter. 4 -- res = 0.25312E+06, tol = 0.76874E+01, time = 7.16 | CG iter. 5 -- res = 0.26241E+06, tol = 0.76874E+01, time = 6.06 | CG iter. 6 -- res = 0.20761E+06, tol = 0.76874E+01, time = 6.19 | CG iter. 7 -- res = 0.15395E+06, tol = 0.76874E+01, time = 5.73 | CG iter. 8 -- res = 0.11222E+06, tol = 0.76874E+01, time = 5.68 | CG iter. 9 -- res = 0.10037E+06, tol = 0.76874E+01, time = 5.83 | CG iter. 10 -- res = 0.81585E+05, tol = 0.76874E+01, time = 6.08 | CG iter. 11 -- res = 0.58261E+05, tol = 0.76874E+01, time = 5.71 | CG iter. 12 -- res = 0.46949E+05, tol = 0.76874E+01, time = 5.58 | CG iter. 13 -- res = 0.40073E+05, tol = 0.76874E+01, time = 5.76 | CG iter. 14 -- res = 0.33594E+05, tol = 0.76874E+01, time = 5.85 | CG iter. 15 -- res = 0.24233E+05, tol = 0.76874E+01, time = 5.83 | CG iter. 16 -- res = 0.17155E+05, tol = 0.76874E+01, time = 5.47 | CG iter. 17 -- res = 0.13620E+05, tol = 0.76874E+01, time = 5.99 | CG iter. 18 -- res = 0.11945E+05, tol = 0.76874E+01, time = 5.81 | CG iter. 19 -- res = 0.10083E+05, tol = 0.76874E+01, time = 5.78 | CG iter. 20 -- res = 0.73194E+04, tol = 0.76874E+01, time = 5.75 | CG iter. 21 -- res = 0.56296E+04, tol = 0.76874E+01, time = 6.03 | CG iter. 22 -- res = 0.47903E+04, tol = 0.76874E+01, time = 5.87 | CG iter. 23 -- res = 0.40570E+04, tol = 0.76874E+01, time = 6.06 | CG iter. 24 -- res = 0.31326E+04, tol = 0.76874E+01, time = 5.87 | CG iter. 25 -- res = 0.24472E+04, tol = 0.76874E+01, time = 5.66 | CG iter. 26 -- res = 0.21121E+04, tol = 0.76874E+01, time = 5.84 | CG iter. 27 -- res = 0.18850E+04, tol = 0.76874E+01, time = 5.90 | CG iter. 28 -- res = 0.15873E+04, tol = 0.76874E+01, time = 6.07 | CG iter. 29 -- res = 0.12026E+04, tol = 0.76874E+01, time = 6.00 | CG iter. 30 -- res = 0.99701E+03, tol = 0.76874E+01, time = 5.53 | CG iter. 31 -- res = 0.91550E+03, tol = 0.76874E+01, time = 5.59 | CG iter. 32 -- res = 0.79453E+03, tol = 0.76874E+01, time = 5.80 | CG iter. 33 -- res = 0.61230E+03, tol = 0.76874E+01, time = 5.53 | CG iter. 34 -- res = 0.48946E+03, tol = 0.76874E+01, time = 5.57 | CG iter. 35 -- res = 0.44640E+03, tol = 0.76874E+01, time = 5.90 | CG iter. 36 -- res = 0.39201E+03, tol = 0.76874E+01, time = 5.50 | CG iter. 37 -- res = 0.31932E+03, tol = 0.76874E+01, time = 6.19 | CG iter. 38 -- res = 0.25312E+03, tol = 0.76874E+01, time = 5.56 | CG iter. 39 -- res = 0.21682E+03, tol = 0.76874E+01, time = 5.61 | CG iter. 40 -- res = 0.19579E+03, tol = 0.76874E+01, time = 11.61 | CG iter. 41 -- res = 0.16391E+03, tol = 0.76874E+01, time = 5.98 | CG iter. 42 -- res = 0.12532E+03, tol = 0.76874E+01, time = 5.93 | CG iter. 43 -- res = 0.10599E+03, tol = 0.76874E+01, time = 5.51 | CG iter. 44 -- res = 0.94030E+02, tol = 0.76874E+01, time = 6.13 | CG iter. 45 -- res = 0.76676E+02, tol = 0.76874E+01, time = 5.72 | CG iter. 46 -- res = 0.60833E+02, tol = 0.76874E+01, time = 5.46 | CG iter. 47 -- res = 0.48496E+02, tol = 0.76874E+01, time = 5.56 | CG iter. 48 -- res = 0.40621E+02, tol = 0.76874E+01, time = 5.56 | CG iter. 49 -- res = 0.34557E+02, tol = 0.76874E+01, time = 5.47 | CG iter. 50 -- res = 0.26867E+02, tol = 0.76874E+01, time = 5.50 | Final CG iter 51 -- res = 0.26867E+02, tol = 0.76874E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8610356.235 | Old band monopole 9329150.388 | Change to band monopole -718794.154 | Change to component monopole 718791.062 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.10783E+07, tol = 0.47627E+18, time = 2.34 | CG iter. 2 -- res = 0.55640E+03, tol = 0.47627E+18, time = 2.41 | CG iter. 3 -- res = 0.42220E+01, tol = 0.47627E+18, time = 2.18 | CG iter. 4 -- res = 0.86239E-01, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.79301E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8610319.200 | (Sampled value in CG: 8483748.772 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.537235 | New value = 1.533899 | poltype: 2 pol: 1 CPU time specind = 2.3847103E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.433515 | New value = 1.479686 | poltype: 2 pol: 2 CPU time specind = 2.6438236E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.24002E+08, tol = 0.47604E+04, time = 6.62 | CG iter. 2 -- res = 0.52994E+07, tol = 0.47604E+04, time = 6.38 | CG iter. 3 -- res = 0.83681E+06, tol = 0.47604E+04, time = 6.94 | CG iter. 4 -- res = 0.34903E+06, tol = 0.47604E+04, time = 7.02 | CG iter. 5 -- res = 0.15351E+06, tol = 0.47604E+04, time = 6.87 | CG iter. 6 -- res = 0.81844E+05, tol = 0.47604E+04, time = 6.53 | CG iter. 7 -- res = 0.44247E+05, tol = 0.47604E+04, time = 6.58 | CG iter. 8 -- res = 0.21363E+05, tol = 0.47604E+04, time = 6.82 | CG iter. 9 -- res = 0.91559E+04, tol = 0.47604E+04, time = 6.56 | CG iter. 10 -- res = 0.37005E+04, tol = 0.47604E+04, time = 6.13 | CG iter. 11 -- res = 0.17049E+04, tol = 0.47604E+04, time = 6.77 | CG iter. 12 -- res = 0.87339E+03, tol = 0.47604E+04, time = 6.67 | CG iter. 13 -- res = 0.49529E+03, tol = 0.47604E+04, time = 6.65 | CG iter. 14 -- res = 0.28151E+03, tol = 0.47604E+04, time = 6.55 | CG iter. 15 -- res = 0.14505E+03, tol = 0.47604E+04, time = 6.60 | CG iter. 16 -- res = 0.68946E+02, tol = 0.47604E+04, time = 6.88 | CG iter. 17 -- res = 0.32101E+02, tol = 0.47604E+04, time = 6.24 | CG iter. 18 -- res = 0.15925E+02, tol = 0.47604E+04, time = 10.96 | CG iter. 19 -- res = 0.88717E+01, tol = 0.47604E+04, time = 8.50 | CG iter. 20 -- res = 0.50762E+01, tol = 0.47604E+04, time = 6.45 | CG iter. 21 -- res = 0.27288E+01, tol = 0.47604E+04, time = 6.56 | CG iter. 22 -- res = 0.13928E+01, tol = 0.47604E+04, time = 7.05 | CG iter. 23 -- res = 0.69135E+00, tol = 0.47604E+04, time = 6.62 | CG iter. 24 -- res = 0.35244E+00, tol = 0.47604E+04, time = 6.50 | CG iter. 25 -- res = 0.19321E+00, tol = 0.47604E+04, time = 6.43 | CG iter. 26 -- res = 0.11037E+00, tol = 0.47604E+04, time = 6.43 | CG iter. 27 -- res = 0.62810E-01, tol = 0.47604E+04, time = 6.28 | CG iter. 28 -- res = 0.33941E-01, tol = 0.47604E+04, time = 6.55 | CG iter. 29 -- res = 0.17635E-01, tol = 0.47604E+04, time = 6.41 | CG iter. 30 -- res = 0.91060E-02, tol = 0.47604E+04, time = 6.65 | CG iter. 31 -- res = 0.49624E-02, tol = 0.47604E+04, time = 7.60 | CG iter. 32 -- res = 0.28343E-02, tol = 0.47604E+04, time = 7.44 | CG iter. 33 -- res = 0.15936E-02, tol = 0.47604E+04, time = 6.70 | CG iter. 34 -- res = 0.85441E-03, tol = 0.47604E+04, time = 6.93 | CG iter. 35 -- res = 0.44773E-03, tol = 0.47604E+04, time = 6.88 | Final CG iter 36 -- res = 0.44773E-03, tol = 0.47604E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.753 2.709 | New value 3.880 | Old value -1.753 | Difference 5.633 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.34 | CG iter. 1 -- res = 0.16621E+07, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.19830E+03, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.18739E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.43793E-03, tol = 0.47627E+18, time = 2.30 | Final CG iter 5 -- res = 0.70171E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8610319.200 | (Sampled value in CG: 8483807.665 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.567414 | New value = -3.658842 | poltype: 1 pol: 1 CPU time specind = 2.7663946E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.65353E+07, tol = 0.34984E+01, time = 2.34 | CG iter. 2 -- res = 0.27985E+07, tol = 0.34984E+01, time = 2.71 | CG iter. 3 -- res = 0.67846E+06, tol = 0.34984E+01, time = 2.98 | CG iter. 4 -- res = 0.35995E+06, tol = 0.34984E+01, time = 2.71 | CG iter. 5 -- res = 0.20482E+06, tol = 0.34984E+01, time = 2.93 | CG iter. 6 -- res = 0.76760E+05, tol = 0.34984E+01, time = 2.52 | CG iter. 7 -- res = 0.22523E+05, tol = 0.34984E+01, time = 2.69 | CG iter. 8 -- res = 0.96280E+04, tol = 0.34984E+01, time = 2.45 | CG iter. 9 -- res = 0.48677E+04, tol = 0.34984E+01, time = 2.94 | CG iter. 10 -- res = 0.19910E+04, tol = 0.34984E+01, time = 2.72 | CG iter. 11 -- res = 0.78415E+03, tol = 0.34984E+01, time = 2.72 | CG iter. 12 -- res = 0.38619E+03, tol = 0.34984E+01, time = 2.58 | CG iter. 13 -- res = 0.19583E+03, tol = 0.34984E+01, time = 2.57 | CG iter. 14 -- res = 0.92243E+02, tol = 0.34984E+01, time = 2.64 | CG iter. 15 -- res = 0.40264E+02, tol = 0.34984E+01, time = 2.85 | CG iter. 16 -- res = 0.17495E+02, tol = 0.34984E+01, time = 2.73 | CG iter. 17 -- res = 0.76283E+01, tol = 0.34984E+01, time = 2.59 | CG iter. 18 -- res = 0.37996E+01, tol = 0.34984E+01, time = 2.51 | CG iter. 19 -- res = 0.19150E+01, tol = 0.34984E+01, time = 2.74 | CG iter. 20 -- res = 0.90264E+00, tol = 0.34984E+01, time = 2.95 | CG iter. 21 -- res = 0.40120E+00, tol = 0.34984E+01, time = 2.78 | CG iter. 22 -- res = 0.17109E+00, tol = 0.34984E+01, time = 2.92 | CG iter. 23 -- res = 0.77319E-01, tol = 0.34984E+01, time = 3.03 | CG iter. 24 -- res = 0.36666E-01, tol = 0.34984E+01, time = 2.59 | CG iter. 25 -- res = 0.18550E-01, tol = 0.34984E+01, time = 3.02 | CG iter. 26 -- res = 0.92122E-02, tol = 0.34984E+01, time = 3.50 | CG iter. 27 -- res = 0.43954E-02, tol = 0.34984E+01, time = 2.91 | CG iter. 28 -- res = 0.20658E-02, tol = 0.34984E+01, time = 2.49 | CG iter. 29 -- res = 0.90033E-03, tol = 0.34984E+01, time = 2.95 | CG iter. 30 -- res = 0.44234E-03, tol = 0.34984E+01, time = 2.93 | CG iter. 31 -- res = 0.21940E-03, tol = 0.34984E+01, time = 2.59 | CG iter. 32 -- res = 0.11279E-03, tol = 0.34984E+01, time = 2.77 | CG iter. 33 -- res = 0.54039E-04, tol = 0.34984E+01, time = 2.89 | CG iter. 34 -- res = 0.24563E-04, tol = 0.34984E+01, time = 2.52 | CG iter. 35 -- res = 0.12087E-04, tol = 0.34984E+01, time = 3.06 | CG iter. 36 -- res = 0.60176E-05, tol = 0.34984E+01, time = 2.96 | CG iter. 37 -- res = 0.28572E-05, tol = 0.34984E+01, time = 2.74 | CG iter. 38 -- res = 0.14286E-05, tol = 0.34984E+01, time = 2.40 | CG iter. 39 -- res = 0.70191E-06, tol = 0.34984E+01, time = 2.63 | CG iter. 40 -- res = 0.32241E-06, tol = 0.34984E+01, time = 2.94 | CG iter. 41 -- res = 0.15392E-06, tol = 0.34984E+01, time = 3.32 | CG iter. 42 -- res = 0.71619E-07, tol = 0.34984E+01, time = 2.63 | CG iter. 43 -- res = 0.32861E-07, tol = 0.34984E+01, time = 2.53 | CG iter. 44 -- res = 0.15982E-07, tol = 0.34984E+01, time = 2.76 | CG iter. 45 -- res = 0.78866E-08, tol = 0.34984E+01, time = 2.99 | CG iter. 46 -- res = 0.37083E-08, tol = 0.34984E+01, time = 2.75 | CG iter. 47 -- res = 0.17865E-08, tol = 0.34984E+01, time = 2.79 | CG iter. 48 -- res = 0.81683E-09, tol = 0.34984E+01, time = 2.84 | CG iter. 49 -- res = 0.38500E-09, tol = 0.34984E+01, time = 2.52 | CG iter. 50 -- res = 0.18941E-09, tol = 0.34984E+01, time = 2.57 | Final CG iter 51 -- res = 0.18941E-09, tol = 0.34984E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.978 5.831 | New value -10.937 | Old value -6.978 | Difference -3.960 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.27 | CG iter. 1 -- res = 0.22321E+05, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.55878E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.14692E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.45992E-02, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.38266E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8610319.200 | (Sampled value in CG: 8524338.089 ) | CPU time specind = 1207.506 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.68634E+08, tol = 0.57875E+04, time = 12.00 | CG iter. 2 -- res = 0.58695E+08, tol = 0.57875E+04, time = 12.05 | CG iter. 3 -- res = 0.15186E+08, tol = 0.57875E+04, time = 13.31 | CG iter. 4 -- res = 0.65424E+07, tol = 0.57875E+04, time = 12.31 | CG iter. 5 -- res = 0.39249E+07, tol = 0.57875E+04, time = 11.43 | CG iter. 6 -- res = 0.22967E+07, tol = 0.57875E+04, time = 11.86 | CG iter. 7 -- res = 0.13953E+07, tol = 0.57875E+04, time = 11.94 | CG iter. 8 -- res = 0.94477E+06, tol = 0.57875E+04, time = 11.86 | CG iter. 9 -- res = 0.63511E+06, tol = 0.57875E+04, time = 11.87 | CG iter. 10 -- res = 0.39585E+06, tol = 0.57875E+04, time = 11.82 | CG iter. 11 -- res = 0.23340E+06, tol = 0.57875E+04, time = 12.37 | CG iter. 12 -- res = 0.15068E+06, tol = 0.57875E+04, time = 11.79 | CG iter. 13 -- res = 0.11032E+06, tol = 0.57875E+04, time = 12.00 | CG iter. 14 -- res = 0.95488E+05, tol = 0.57875E+04, time = 12.16 | CG iter. 15 -- res = 0.94481E+05, tol = 0.57875E+04, time = 11.97 | CG iter. 16 -- res = 0.97903E+05, tol = 0.57875E+04, time = 12.14 | CG iter. 17 -- res = 0.10124E+06, tol = 0.57875E+04, time = 11.70 | CG iter. 18 -- res = 0.95567E+05, tol = 0.57875E+04, time = 11.96 | CG iter. 19 -- res = 0.84951E+05, tol = 0.57875E+04, time = 12.14 | CG iter. 20 -- res = 0.74799E+05, tol = 0.57875E+04, time = 17.11 | CG iter. 21 -- res = 0.67988E+05, tol = 0.57875E+04, time = 13.57 | CG iter. 22 -- res = 0.63467E+05, tol = 0.57875E+04, time = 11.88 | CG iter. 23 -- res = 0.55235E+05, tol = 0.57875E+04, time = 11.74 | CG iter. 24 -- res = 0.45526E+05, tol = 0.57875E+04, time = 12.28 | CG iter. 25 -- res = 0.34738E+05, tol = 0.57875E+04, time = 11.95 | CG iter. 26 -- res = 0.25489E+05, tol = 0.57875E+04, time = 12.24 | CG iter. 27 -- res = 0.19629E+05, tol = 0.57875E+04, time = 12.99 | CG iter. 28 -- res = 0.16046E+05, tol = 0.57875E+04, time = 13.82 | CG iter. 29 -- res = 0.14462E+05, tol = 0.57875E+04, time = 11.74 | CG iter. 30 -- res = 0.13948E+05, tol = 0.57875E+04, time = 11.83 | CG iter. 31 -- res = 0.13325E+05, tol = 0.57875E+04, time = 12.23 | CG iter. 32 -- res = 0.11823E+05, tol = 0.57875E+04, time = 11.81 | CG iter. 33 -- res = 0.10116E+05, tol = 0.57875E+04, time = 11.83 | CG iter. 34 -- res = 0.84700E+04, tol = 0.57875E+04, time = 12.17 | CG iter. 35 -- res = 0.72161E+04, tol = 0.57875E+04, time = 11.87 | CG iter. 36 -- res = 0.63712E+04, tol = 0.57875E+04, time = 12.60 | CG iter. 37 -- res = 0.57318E+04, tol = 0.57875E+04, time = 11.67 | CG iter. 38 -- res = 0.50433E+04, tol = 0.57875E+04, time = 12.11 | CG iter. 39 -- res = 0.42574E+04, tol = 0.57875E+04, time = 12.10 | CG iter. 40 -- res = 0.34890E+04, tol = 0.57875E+04, time = 11.99 | CG iter. 41 -- res = 0.29805E+04, tol = 0.57875E+04, time = 11.94 | CG iter. 42 -- res = 0.26495E+04, tol = 0.57875E+04, time = 12.31 | CG iter. 43 -- res = 0.23702E+04, tol = 0.57875E+04, time = 11.47 | CG iter. 44 -- res = 0.22377E+04, tol = 0.57875E+04, time = 12.58 | CG iter. 45 -- res = 0.21130E+04, tol = 0.57875E+04, time = 17.75 | CG iter. 46 -- res = 0.19283E+04, tol = 0.57875E+04, time = 12.35 | CG iter. 47 -- res = 0.16977E+04, tol = 0.57875E+04, time = 12.01 | CG iter. 48 -- res = 0.14984E+04, tol = 0.57875E+04, time = 12.02 | CG iter. 49 -- res = 0.13162E+04, tol = 0.57875E+04, time = 12.14 | CG iter. 50 -- res = 0.11543E+04, tol = 0.57875E+04, time = 11.93 | CG iter. 51 -- res = 0.10398E+04, tol = 0.57875E+04, time = 12.14 | CG iter. 52 -- res = 0.96971E+03, tol = 0.57875E+04, time = 13.40 | CG iter. 53 -- res = 0.85811E+03, tol = 0.57875E+04, time = 12.09 | CG iter. 54 -- res = 0.74286E+03, tol = 0.57875E+04, time = 11.84 | CG iter. 55 -- res = 0.65230E+03, tol = 0.57875E+04, time = 11.77 | CG iter. 56 -- res = 0.59035E+03, tol = 0.57875E+04, time = 11.67 | CG iter. 57 -- res = 0.53081E+03, tol = 0.57875E+04, time = 12.07 | CG iter. 58 -- res = 0.49899E+03, tol = 0.57875E+04, time = 11.91 | CG iter. 59 -- res = 0.47912E+03, tol = 0.57875E+04, time = 11.71 | CG iter. 60 -- res = 0.45572E+03, tol = 0.57875E+04, time = 11.87 | Final CG iter 61 -- res = 0.45572E+03, tol = 0.57875E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.877 ( -229.694 -2231.590 2514.343 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10387963.699 | Old band monopole 8610356.235 | Change to band monopole 1777607.464 | Change to component monopole -1777599.818 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.958 2.746 | New value 3.306 | Old value 3.958 | Difference -0.652 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.544 ( 7.251 13.544 -13.487 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.023 4.124 | New value 5.885 | Old value 3.023 | Difference 2.863 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.54 | CG iter. 1 -- res = 0.28883E+05, tol = 0.47627E+18, time = 2.28 | CG iter. 2 -- res = 0.17153E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.57822E+00, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.14180E-02, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.43930E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10387919.018 | (Sampled value in CG: 10362940.215 ) | Chain = 1 -- chisq = 0.81498609E+09 | Chain = 1 -- wall time = 5693.302 sec Available RAM: MemAvailable: 376905016 kB Available Swap: SwapFree: 1132659920 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 320 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442799 | --> Sampling calibration, mode = relcal | relcal = 1.3441266E-02 7.5404439E-04 -1.6084551E-03 -1.2586854E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1236660 0.1301234 9408404.66626351 | BP delta = 0.1236660 0.1350739 9408387.75631679 | BP chisq diff = -16.9, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632595 | --> Sampling calibration, mode = relcal | relcal = -2.8217037E-03 -7.0551870E-04 1.6796809E-03 1.6133151E-03 -4.0684280E-04 6.4106920E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5541158 15221215.2511905 | BP delta = 0.0000000E+00 -0.5568418 15221217.7905453 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18019754937208 | --> Sampling calibration, mode = relcal | relcal = -7.5523011E-02 -5.8595333E-02 9.2201777E-02 4.1916564E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5674739E-04 4.7177183E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1873E-05 | 2: delta_r/delta_0: 9.7702E-07 | 3: delta_s/delta_0: 1.9627E-07 | 4: delta_r/delta_0: 1.9709E-08 | 5: delta_s/delta_0: 5.4604E-09 | 6: delta_r/delta_0: 1.5057E-09 | 7: delta_s/delta_0: 3.1283E-10 | 8: delta_r/delta_0: 1.4949E-10 | 9: delta_s/delta_0: 3.1796E-10 | 10: delta_r/delta_0: 7.3828E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.198593649215036E-003 2.742880981149391E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1872E-05 | 2: delta_r/delta_0: 9.7698E-07 | 3: delta_s/delta_0: 1.9627E-07 | 4: delta_r/delta_0: 1.9712E-08 | 5: delta_s/delta_0: 5.4650E-09 | 6: delta_r/delta_0: 1.5059E-09 | 7: delta_s/delta_0: 3.1287E-10 | 8: delta_r/delta_0: 1.4951E-10 | 9: delta_s/delta_0: 3.1825E-10 | 10: delta_r/delta_0: 7.3888E-11 | Reached bicg-stab tolerance | BP delta = 7.7035934E-02 9.7764209E-02 3547944.04422001 | BP delta = 7.7035934E-02 9.8129116E-02 3541792.27877199 | BP chisq diff = -6151.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02616362 | --> Sampling calibration, mode = relcal | relcal = -0.1067429 -9.5560193E-02 0.1450085 5.7294600E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1142607E-03 1.4876092E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2897E-05 | 2: delta_r/delta_0: 1.1411E-06 | 3: delta_s/delta_0: 2.3923E-07 | 4: delta_r/delta_0: 5.2866E-08 | 5: delta_s/delta_0: 1.5399E-08 | 6: delta_r/delta_0: 7.0431E-09 | 7: delta_s/delta_0: 2.5169E-08 | 8: delta_r/delta_0: 1.0417E-09 | 9: delta_s/delta_0: 9.1116E-10 | 10: delta_r/delta_0: 2.2281E-10 | 11: delta_s/delta_0: 2.0055E-09 | 12: delta_r/delta_0: 2.3211E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.570372453477428E-003 2.810364677825677E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2897E-05 | 2: delta_r/delta_0: 1.1411E-06 | 3: delta_s/delta_0: 2.3924E-07 | 4: delta_r/delta_0: 5.2870E-08 | 5: delta_s/delta_0: 1.5398E-08 | 6: delta_r/delta_0: 7.0435E-09 | 7: delta_s/delta_0: 2.5174E-08 | 8: delta_r/delta_0: 1.0419E-09 | 9: delta_s/delta_0: 9.1117E-10 | 10: delta_r/delta_0: 2.2286E-10 | 11: delta_s/delta_0: 2.0063E-09 | 12: delta_r/delta_0: 2.3215E-11 | Reached bicg-stab tolerance | BP delta = -0.3489985 -0.3185809 2841628.52683293 | BP delta = -0.3489985 -0.3180277 2841628.79911552 | BP chisq diff = 0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81255186 | --> Sampling calibration, mode = relcal | relcal = 0.2955834 0.2249111 -0.2838352 -0.2366593 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.7732576E-04 6.1105508E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7332E-03 | 2: delta_r/delta_0: 4.1351E-05 | 3: delta_s/delta_0: 1.7163E-03 | 4: delta_r/delta_0: 7.0317E-05 | 5: delta_s/delta_0: 4.7359E-07 | 6: delta_r/delta_0: 1.8390E-07 | 7: delta_s/delta_0: 6.8923E-07 | 8: delta_r/delta_0: 4.5772E-08 | 9: delta_s/delta_0: 1.3476E-07 | 10: delta_r/delta_0: 3.0986E-08 | 11: delta_s/delta_0: 2.5570E-09 | 12: delta_r/delta_0: 1.1323E-09 | 13: delta_s/delta_0: 5.4844E-10 | 14: delta_r/delta_0: 6.6287E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.572633056924343E-002 4.020118572670136E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7327E-03 | 2: delta_r/delta_0: 4.1340E-05 | 3: delta_s/delta_0: 1.7149E-03 | 4: delta_r/delta_0: 7.0267E-05 | 5: delta_s/delta_0: 4.7353E-07 | 6: delta_r/delta_0: 1.8391E-07 | 7: delta_s/delta_0: 6.8985E-07 | 8: delta_r/delta_0: 4.5770E-08 | 9: delta_s/delta_0: 1.3493E-07 | 10: delta_r/delta_0: 3.1058E-08 | 11: delta_s/delta_0: 2.5569E-09 | 12: delta_r/delta_0: 1.1321E-09 | 13: delta_s/delta_0: 5.4847E-10 | 14: delta_r/delta_0: 6.6266E-11 | Reached bicg-stab tolerance | BP delta = -0.2408284 -0.2741309 2827115.35112983 | BP delta = -0.2408284 -0.2754102 2827143.13289253 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95946581 | --> Sampling calibration, mode = relcal | relcal = 0.1064591 0.1395422 -0.1101906 -0.1358107 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8401923E-03 1.2861677E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7440E-03 | 2: delta_r/delta_0: 6.5978E-05 | 3: delta_s/delta_0: 6.3346E-05 | 4: delta_r/delta_0: 3.7977E-06 | 5: delta_s/delta_0: 7.0015E-07 | 6: delta_r/delta_0: 2.5000E-07 | 7: delta_s/delta_0: 4.3747E-07 | 8: delta_r/delta_0: 5.7502E-08 | 9: delta_s/delta_0: 2.9566E-08 | 10: delta_r/delta_0: 6.0511E-09 | 11: delta_s/delta_0: 3.7260E-09 | 12: delta_r/delta_0: 1.3958E-09 | 13: delta_s/delta_0: 3.1457E-09 | 14: delta_r/delta_0: 1.5113E-09 | 15: delta_s/delta_0: 9.8798E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.981042715679459E-002 3.695932936927499E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7475E-03 | 2: delta_r/delta_0: 6.6061E-05 | 3: delta_s/delta_0: 6.3390E-05 | 4: delta_r/delta_0: 3.8007E-06 | 5: delta_s/delta_0: 7.0077E-07 | 6: delta_r/delta_0: 2.5021E-07 | 7: delta_s/delta_0: 4.3846E-07 | 8: delta_r/delta_0: 5.7536E-08 | 9: delta_s/delta_0: 2.9486E-08 | 10: delta_r/delta_0: 6.0649E-09 | 11: delta_s/delta_0: 3.7276E-09 | 12: delta_r/delta_0: 1.3945E-09 | 13: delta_s/delta_0: 3.1572E-09 | 14: delta_r/delta_0: 1.5164E-09 | 15: delta_s/delta_0: 9.8738E-11 | Reached bicg-stab tolerance | BP delta = 0.1172822 0.2275480 3004186.50208758 | BP delta = 0.1172822 0.2352237 3004330.48962620 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175881 | New value = -3.114736 | poltype: 2 pol: 1 CPU time specind = 1.8076181E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143271 | New value = -3.187239 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.201672 | New value = -3.094998 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.088279 | New value = -3.203923 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.169724 | New value = -3.080614 | poltype: 2 pol: 2 CPU time specind = 5.3739548E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.13620E+08, tol = 0.68640E+01, time = 5.41 | CG iter. 2 -- res = 0.35721E+06, tol = 0.68640E+01, time = 5.40 | CG iter. 3 -- res = 0.75684E+05, tol = 0.68640E+01, time = 5.55 | CG iter. 4 -- res = 0.70377E+05, tol = 0.68640E+01, time = 5.41 | CG iter. 5 -- res = 0.70927E+05, tol = 0.68640E+01, time = 5.64 | CG iter. 6 -- res = 0.69250E+05, tol = 0.68640E+01, time = 5.68 | CG iter. 7 -- res = 0.65626E+05, tol = 0.68640E+01, time = 5.59 | CG iter. 8 -- res = 0.48634E+05, tol = 0.68640E+01, time = 5.82 | CG iter. 9 -- res = 0.36503E+05, tol = 0.68640E+01, time = 5.60 | CG iter. 10 -- res = 0.28887E+05, tol = 0.68640E+01, time = 5.94 | CG iter. 11 -- res = 0.20152E+05, tol = 0.68640E+01, time = 5.47 | CG iter. 12 -- res = 0.14135E+05, tol = 0.68640E+01, time = 6.25 | CG iter. 13 -- res = 0.11210E+05, tol = 0.68640E+01, time = 5.49 | CG iter. 14 -- res = 0.98469E+04, tol = 0.68640E+01, time = 5.62 | CG iter. 15 -- res = 0.80381E+04, tol = 0.68640E+01, time = 5.93 | CG iter. 16 -- res = 0.56186E+04, tol = 0.68640E+01, time = 5.41 | CG iter. 17 -- res = 0.39305E+04, tol = 0.68640E+01, time = 6.16 | CG iter. 18 -- res = 0.32494E+04, tol = 0.68640E+01, time = 5.39 | CG iter. 19 -- res = 0.27517E+04, tol = 0.68640E+01, time = 5.57 | CG iter. 20 -- res = 0.22475E+04, tol = 0.68640E+01, time = 5.51 | CG iter. 21 -- res = 0.16210E+04, tol = 0.68640E+01, time = 5.27 | CG iter. 22 -- res = 0.12989E+04, tol = 0.68640E+01, time = 11.86 | CG iter. 23 -- res = 0.11432E+04, tol = 0.68640E+01, time = 5.73 | CG iter. 24 -- res = 0.93895E+03, tol = 0.68640E+01, time = 6.35 | CG iter. 25 -- res = 0.67173E+03, tol = 0.68640E+01, time = 5.75 | CG iter. 26 -- res = 0.53053E+03, tol = 0.68640E+01, time = 5.58 | CG iter. 27 -- res = 0.47341E+03, tol = 0.68640E+01, time = 5.58 | CG iter. 28 -- res = 0.42317E+03, tol = 0.68640E+01, time = 5.33 | CG iter. 29 -- res = 0.32297E+03, tol = 0.68640E+01, time = 5.66 | CG iter. 30 -- res = 0.25053E+03, tol = 0.68640E+01, time = 5.48 | CG iter. 31 -- res = 0.21581E+03, tol = 0.68640E+01, time = 5.49 | CG iter. 32 -- res = 0.18303E+03, tol = 0.68640E+01, time = 6.09 | CG iter. 33 -- res = 0.14381E+03, tol = 0.68640E+01, time = 5.55 | CG iter. 34 -- res = 0.10882E+03, tol = 0.68640E+01, time = 5.38 | CG iter. 35 -- res = 0.88635E+02, tol = 0.68640E+01, time = 5.42 | CG iter. 36 -- res = 0.76337E+02, tol = 0.68640E+01, time = 5.82 | CG iter. 37 -- res = 0.61345E+02, tol = 0.68640E+01, time = 7.22 | CG iter. 38 -- res = 0.44407E+02, tol = 0.68640E+01, time = 5.70 | CG iter. 39 -- res = 0.34425E+02, tol = 0.68640E+01, time = 5.92 | CG iter. 40 -- res = 0.28678E+02, tol = 0.68640E+01, time = 5.76 | CG iter. 41 -- res = 0.23475E+02, tol = 0.68640E+01, time = 5.65 | CG iter. 42 -- res = 0.17861E+02, tol = 0.68640E+01, time = 5.76 | CG iter. 43 -- res = 0.13514E+02, tol = 0.68640E+01, time = 5.47 | CG iter. 44 -- res = 0.10938E+02, tol = 0.68640E+01, time = 5.36 | CG iter. 45 -- res = 0.87924E+01, tol = 0.68640E+01, time = 5.34 | CG iter. 46 -- res = 0.67295E+01, tol = 0.68640E+01, time = 5.51 | CG iter. 47 -- res = 0.50187E+01, tol = 0.68640E+01, time = 5.50 | CG iter. 48 -- res = 0.38445E+01, tol = 0.68640E+01, time = 5.59 | CG iter. 49 -- res = 0.31722E+01, tol = 0.68640E+01, time = 5.53 | CG iter. 50 -- res = 0.24676E+01, tol = 0.68640E+01, time = 5.71 | Final CG iter 51 -- res = 0.24676E+01, tol = 0.68640E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6643076.302 | Old band monopole 10387963.699 | Change to band monopole -3744887.397 | Change to component monopole 3744871.289 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.89410E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.32145E+03, tol = 0.47627E+18, time = 2.29 | CG iter. 3 -- res = 0.35219E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.25360E-01, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.30782E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6643047.729 | (Sampled value in CG: 6703547.260 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.533899 | New value = 1.473170 | poltype: 2 pol: 1 CPU time specind = 3.3220053E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.479686 | New value = 1.520729 | poltype: 2 pol: 2 CPU time specind = 3.7438869E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.24787E+08, tol = 0.47543E+04, time = 6.47 | CG iter. 2 -- res = 0.53357E+07, tol = 0.47543E+04, time = 6.45 | CG iter. 3 -- res = 0.84342E+06, tol = 0.47543E+04, time = 13.03 | CG iter. 4 -- res = 0.35155E+06, tol = 0.47543E+04, time = 6.21 | CG iter. 5 -- res = 0.15271E+06, tol = 0.47543E+04, time = 6.51 | CG iter. 6 -- res = 0.79984E+05, tol = 0.47543E+04, time = 6.65 | CG iter. 7 -- res = 0.43465E+05, tol = 0.47543E+04, time = 6.35 | CG iter. 8 -- res = 0.21507E+05, tol = 0.47543E+04, time = 6.43 | CG iter. 9 -- res = 0.92588E+04, tol = 0.47543E+04, time = 6.59 | CG iter. 10 -- res = 0.37136E+04, tol = 0.47543E+04, time = 6.26 | CG iter. 11 -- res = 0.16848E+04, tol = 0.47543E+04, time = 6.62 | CG iter. 12 -- res = 0.87806E+03, tol = 0.47543E+04, time = 6.40 | CG iter. 13 -- res = 0.49227E+03, tol = 0.47543E+04, time = 6.75 | CG iter. 14 -- res = 0.27837E+03, tol = 0.47543E+04, time = 6.43 | CG iter. 15 -- res = 0.14248E+03, tol = 0.47543E+04, time = 6.71 | CG iter. 16 -- res = 0.68320E+02, tol = 0.47543E+04, time = 7.90 | CG iter. 17 -- res = 0.32138E+02, tol = 0.47543E+04, time = 7.12 | CG iter. 18 -- res = 0.16042E+02, tol = 0.47543E+04, time = 6.77 | CG iter. 19 -- res = 0.88311E+01, tol = 0.47543E+04, time = 6.40 | CG iter. 20 -- res = 0.50379E+01, tol = 0.47543E+04, time = 6.35 | CG iter. 21 -- res = 0.27610E+01, tol = 0.47543E+04, time = 6.62 | CG iter. 22 -- res = 0.13935E+01, tol = 0.47543E+04, time = 6.43 | CG iter. 23 -- res = 0.68161E+00, tol = 0.47543E+04, time = 6.27 | CG iter. 24 -- res = 0.34335E+00, tol = 0.47543E+04, time = 6.59 | CG iter. 25 -- res = 0.19079E+00, tol = 0.47543E+04, time = 6.69 | CG iter. 26 -- res = 0.10975E+00, tol = 0.47543E+04, time = 6.33 | CG iter. 27 -- res = 0.62209E-01, tol = 0.47543E+04, time = 6.23 | CG iter. 28 -- res = 0.33524E-01, tol = 0.47543E+04, time = 6.48 | CG iter. 29 -- res = 0.17119E-01, tol = 0.47543E+04, time = 6.57 | CG iter. 30 -- res = 0.89767E-02, tol = 0.47543E+04, time = 6.47 | CG iter. 31 -- res = 0.47881E-02, tol = 0.47543E+04, time = 6.70 | CG iter. 32 -- res = 0.27032E-02, tol = 0.47543E+04, time = 6.27 | CG iter. 33 -- res = 0.15234E-02, tol = 0.47543E+04, time = 6.50 | CG iter. 34 -- res = 0.81175E-03, tol = 0.47543E+04, time = 6.66 | CG iter. 35 -- res = 0.41448E-03, tol = 0.47543E+04, time = 6.17 | Final CG iter 36 -- res = 0.41448E-03, tol = 0.47543E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.291 2.740 | New value -0.489 | Old value 3.291 | Difference -3.780 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.74742E+06, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.63033E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.18731E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.11969E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.25591E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6643047.729 | (Sampled value in CG: 6702812.668 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.658842 | New value = -3.659037 | poltype: 1 pol: 1 CPU time specind = 1.1993885E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.31157E+07, tol = 0.28612E+01, time = 2.79 | CG iter. 2 -- res = 0.98906E+06, tol = 0.28612E+01, time = 2.84 | CG iter. 3 -- res = 0.22725E+06, tol = 0.28612E+01, time = 2.74 | CG iter. 4 -- res = 0.12153E+06, tol = 0.28612E+01, time = 2.62 | CG iter. 5 -- res = 0.72921E+05, tol = 0.28612E+01, time = 2.51 | CG iter. 6 -- res = 0.29338E+05, tol = 0.28612E+01, time = 2.56 | CG iter. 7 -- res = 0.97138E+04, tol = 0.28612E+01, time = 2.79 | CG iter. 8 -- res = 0.42534E+04, tol = 0.28612E+01, time = 2.72 | CG iter. 9 -- res = 0.19284E+04, tol = 0.28612E+01, time = 2.72 | CG iter. 10 -- res = 0.77800E+03, tol = 0.28612E+01, time = 2.93 | CG iter. 11 -- res = 0.33396E+03, tol = 0.28612E+01, time = 2.66 | CG iter. 12 -- res = 0.17452E+03, tol = 0.28612E+01, time = 2.71 | CG iter. 13 -- res = 0.88226E+02, tol = 0.28612E+01, time = 2.66 | CG iter. 14 -- res = 0.42950E+02, tol = 0.28612E+01, time = 2.65 | CG iter. 15 -- res = 0.18943E+02, tol = 0.28612E+01, time = 2.56 | CG iter. 16 -- res = 0.77954E+01, tol = 0.28612E+01, time = 2.69 | CG iter. 17 -- res = 0.33886E+01, tol = 0.28612E+01, time = 2.81 | CG iter. 18 -- res = 0.16294E+01, tol = 0.28612E+01, time = 2.78 | CG iter. 19 -- res = 0.81261E+00, tol = 0.28612E+01, time = 2.73 | CG iter. 20 -- res = 0.41943E+00, tol = 0.28612E+01, time = 2.72 | CG iter. 21 -- res = 0.19810E+00, tol = 0.28612E+01, time = 2.69 | CG iter. 22 -- res = 0.87611E-01, tol = 0.28612E+01, time = 2.75 | CG iter. 23 -- res = 0.37894E-01, tol = 0.28612E+01, time = 2.68 | CG iter. 24 -- res = 0.18771E-01, tol = 0.28612E+01, time = 2.71 | CG iter. 25 -- res = 0.96526E-02, tol = 0.28612E+01, time = 2.84 | CG iter. 26 -- res = 0.48620E-02, tol = 0.28612E+01, time = 2.64 | CG iter. 27 -- res = 0.23088E-02, tol = 0.28612E+01, time = 2.78 | CG iter. 28 -- res = 0.10866E-02, tol = 0.28612E+01, time = 2.85 | CG iter. 29 -- res = 0.48280E-03, tol = 0.28612E+01, time = 2.72 | CG iter. 30 -- res = 0.23720E-03, tol = 0.28612E+01, time = 2.79 | CG iter. 31 -- res = 0.11653E-03, tol = 0.28612E+01, time = 9.31 | CG iter. 32 -- res = 0.60767E-04, tol = 0.28612E+01, time = 2.60 | CG iter. 33 -- res = 0.29043E-04, tol = 0.28612E+01, time = 2.53 | CG iter. 34 -- res = 0.13766E-04, tol = 0.28612E+01, time = 2.72 | CG iter. 35 -- res = 0.66189E-05, tol = 0.28612E+01, time = 2.66 | CG iter. 36 -- res = 0.31769E-05, tol = 0.28612E+01, time = 2.70 | CG iter. 37 -- res = 0.15314E-05, tol = 0.28612E+01, time = 2.76 | CG iter. 38 -- res = 0.78392E-06, tol = 0.28612E+01, time = 2.69 | CG iter. 39 -- res = 0.37571E-06, tol = 0.28612E+01, time = 2.74 | CG iter. 40 -- res = 0.17052E-06, tol = 0.28612E+01, time = 3.22 | CG iter. 41 -- res = 0.80188E-07, tol = 0.28612E+01, time = 3.03 | CG iter. 42 -- res = 0.37401E-07, tol = 0.28612E+01, time = 2.52 | CG iter. 43 -- res = 0.18018E-07, tol = 0.28612E+01, time = 2.85 | CG iter. 44 -- res = 0.89283E-08, tol = 0.28612E+01, time = 2.79 | CG iter. 45 -- res = 0.41670E-08, tol = 0.28612E+01, time = 2.91 | CG iter. 46 -- res = 0.18690E-08, tol = 0.28612E+01, time = 2.72 | CG iter. 47 -- res = 0.88827E-09, tol = 0.28612E+01, time = 2.93 | CG iter. 48 -- res = 0.42297E-09, tol = 0.28612E+01, time = 2.72 | CG iter. 49 -- res = 0.19710E-09, tol = 0.28612E+01, time = 2.77 | CG iter. 50 -- res = 0.96858E-10, tol = 0.28612E+01, time = 2.67 | Final CG iter 51 -- res = 0.96858E-10, tol = 0.28612E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.842 3.405 | New value 0.640 | Old value 10.842 | Difference -10.202 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.10693E+06, tol = 0.47627E+18, time = 2.30 | CG iter. 2 -- res = 0.74223E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.25765E+01, tol = 0.47627E+18, time = 2.32 | CG iter. 4 -- res = 0.10528E-01, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.12238E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6643047.729 | (Sampled value in CG: 6692488.058 ) | CPU time specind = 1186.849 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.70920E+08, tol = 0.57743E+04, time = 11.73 | CG iter. 2 -- res = 0.59761E+08, tol = 0.57743E+04, time = 11.67 | CG iter. 3 -- res = 0.15739E+08, tol = 0.57743E+04, time = 12.32 | CG iter. 4 -- res = 0.68383E+07, tol = 0.57743E+04, time = 11.92 | CG iter. 5 -- res = 0.41728E+07, tol = 0.57743E+04, time = 11.51 | CG iter. 6 -- res = 0.24805E+07, tol = 0.57743E+04, time = 11.60 | CG iter. 7 -- res = 0.14666E+07, tol = 0.57743E+04, time = 11.63 | CG iter. 8 -- res = 0.96364E+06, tol = 0.57743E+04, time = 11.93 | CG iter. 9 -- res = 0.60315E+06, tol = 0.57743E+04, time = 11.59 | CG iter. 10 -- res = 0.36612E+06, tol = 0.57743E+04, time = 11.92 | CG iter. 11 -- res = 0.20845E+06, tol = 0.57743E+04, time = 12.10 | CG iter. 12 -- res = 0.11633E+06, tol = 0.57743E+04, time = 11.47 | CG iter. 13 -- res = 0.66663E+05, tol = 0.57743E+04, time = 16.13 | CG iter. 14 -- res = 0.41780E+05, tol = 0.57743E+04, time = 13.72 | CG iter. 15 -- res = 0.31184E+05, tol = 0.57743E+04, time = 11.77 | CG iter. 16 -- res = 0.25984E+05, tol = 0.57743E+04, time = 11.50 | CG iter. 17 -- res = 0.23239E+05, tol = 0.57743E+04, time = 12.06 | CG iter. 18 -- res = 0.20390E+05, tol = 0.57743E+04, time = 11.25 | CG iter. 19 -- res = 0.17624E+05, tol = 0.57743E+04, time = 11.80 | CG iter. 20 -- res = 0.15754E+05, tol = 0.57743E+04, time = 11.71 | CG iter. 21 -- res = 0.14781E+05, tol = 0.57743E+04, time = 13.41 | CG iter. 22 -- res = 0.15020E+05, tol = 0.57743E+04, time = 12.18 | CG iter. 23 -- res = 0.15269E+05, tol = 0.57743E+04, time = 11.67 | CG iter. 24 -- res = 0.15161E+05, tol = 0.57743E+04, time = 11.44 | CG iter. 25 -- res = 0.13641E+05, tol = 0.57743E+04, time = 11.49 | CG iter. 26 -- res = 0.10845E+05, tol = 0.57743E+04, time = 12.10 | CG iter. 27 -- res = 0.81339E+04, tol = 0.57743E+04, time = 11.79 | CG iter. 28 -- res = 0.59879E+04, tol = 0.57743E+04, time = 12.00 | CG iter. 29 -- res = 0.47203E+04, tol = 0.57743E+04, time = 12.00 | CG iter. 30 -- res = 0.40847E+04, tol = 0.57743E+04, time = 12.91 | CG iter. 31 -- res = 0.36480E+04, tol = 0.57743E+04, time = 13.17 | CG iter. 32 -- res = 0.32127E+04, tol = 0.57743E+04, time = 11.38 | CG iter. 33 -- res = 0.26771E+04, tol = 0.57743E+04, time = 11.63 | CG iter. 34 -- res = 0.21659E+04, tol = 0.57743E+04, time = 11.93 | CG iter. 35 -- res = 0.18158E+04, tol = 0.57743E+04, time = 11.73 | CG iter. 36 -- res = 0.16245E+04, tol = 0.57743E+04, time = 11.99 | CG iter. 37 -- res = 0.15600E+04, tol = 0.57743E+04, time = 11.91 | CG iter. 38 -- res = 0.15100E+04, tol = 0.57743E+04, time = 18.72 | CG iter. 39 -- res = 0.13165E+04, tol = 0.57743E+04, time = 11.84 | CG iter. 40 -- res = 0.10990E+04, tol = 0.57743E+04, time = 11.70 | CG iter. 41 -- res = 0.88771E+03, tol = 0.57743E+04, time = 11.69 | CG iter. 42 -- res = 0.70051E+03, tol = 0.57743E+04, time = 11.76 | CG iter. 43 -- res = 0.57334E+03, tol = 0.57743E+04, time = 11.87 | CG iter. 44 -- res = 0.49657E+03, tol = 0.57743E+04, time = 11.67 | CG iter. 45 -- res = 0.44447E+03, tol = 0.57743E+04, time = 13.01 | CG iter. 46 -- res = 0.40870E+03, tol = 0.57743E+04, time = 12.35 | CG iter. 47 -- res = 0.36251E+03, tol = 0.57743E+04, time = 11.92 | CG iter. 48 -- res = 0.30804E+03, tol = 0.57743E+04, time = 11.39 | CG iter. 49 -- res = 0.26869E+03, tol = 0.57743E+04, time = 12.68 | CG iter. 50 -- res = 0.23725E+03, tol = 0.57743E+04, time = 11.72 | CG iter. 51 -- res = 0.21908E+03, tol = 0.57743E+04, time = 11.30 | CG iter. 52 -- res = 0.20401E+03, tol = 0.57743E+04, time = 11.80 | CG iter. 53 -- res = 0.19023E+03, tol = 0.57743E+04, time = 11.77 | CG iter. 54 -- res = 0.17039E+03, tol = 0.57743E+04, time = 11.78 | CG iter. 55 -- res = 0.14482E+03, tol = 0.57743E+04, time = 11.73 | CG iter. 56 -- res = 0.11977E+03, tol = 0.57743E+04, time = 11.24 | CG iter. 57 -- res = 0.10387E+03, tol = 0.57743E+04, time = 11.09 | CG iter. 58 -- res = 0.93072E+02, tol = 0.57743E+04, time = 11.79 | CG iter. 59 -- res = 0.80982E+02, tol = 0.57743E+04, time = 11.29 | CG iter. 60 -- res = 0.73636E+02, tol = 0.57743E+04, time = 11.70 | Final CG iter 61 -- res = 0.73636E+02, tol = 0.57743E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.794 ( -229.594 -2231.224 2513.865 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8806606.294 | Old band monopole 6643076.302 | Change to band monopole 2163529.992 | Change to component monopole -2163520.686 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.512 2.745 | New value -0.423 | Old value -0.512 | Difference 0.090 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.562 ( 6.837 12.290 -12.364 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.696 4.252 | New value 0.152 | Old value 3.696 | Difference -3.544 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.61607E+05, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.40317E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.17964E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.37074E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.22512E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8806568.415 | (Sampled value in CG: 8781976.493 ) | Chain = 1 -- chisq = 0.81551160E+09 | Chain = 1 -- wall time = 6077.831 sec Available RAM: MemAvailable: 377391800 kB Available Swap: SwapFree: 1133354448 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 321 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443840 | --> Sampling calibration, mode = relcal | relcal = 1.3428637E-02 7.3767581E-04 -1.5871535E-03 -1.2579159E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1236660 0.1350739 97041464.3732653 | BP delta = 0.1294400 0.1408480 97041464.7990831 | BP chisq diff = 0.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632505 | --> Sampling calibration, mode = relcal | relcal = -2.8215991E-03 -7.0422556E-04 1.6796147E-03 1.6145330E-03 -4.0859703E-04 6.4027397E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5541158 15217920.5876528 | BP delta = 0.0000000E+00 -0.5551047 15217920.6564351 | BP chisq diff = 0.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102303 | --> Sampling calibration, mode = relcal | relcal = 3.7079196E-02 1.3711102E-02 5.7566431E-03 -7.1628713E-03 8.2429638E-03 2.3909996E-03 -7.6012257E-03 -7.1769003E-03 -1.5295577E-02 -1.4798190E-02 -3.0539604E-03 -1.2092178E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.175674 132208560.032055 | BP delta = 0.0000000E+00 -1.210565 132208559.437886 | BP chisq diff = -0.6, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18409691949397 | --> Sampling calibration, mode = relcal | relcal = -7.6096937E-02 -5.9218608E-02 9.3026690E-02 4.2288851E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.2956330E-05 6.1177900E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9314E-05 | 2: delta_r/delta_0: 1.4000E-06 | 3: delta_s/delta_0: 1.9340E-07 | 4: delta_r/delta_0: 2.2584E-08 | 5: delta_s/delta_0: 5.3786E-09 | 6: delta_r/delta_0: 1.8662E-09 | 7: delta_s/delta_0: 5.3997E-10 | 8: delta_r/delta_0: 1.5591E-10 | 9: delta_s/delta_0: 1.0633E-10 | 10: delta_r/delta_0: 4.7579E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.241273335184116E-003 2.733793975873051E-005 | BP delta = 7.7035934E-02 9.8129116E-02 50484775.5096325 | BP delta = 8.0611281E-02 0.1017045 50484770.7922671 | BP chisq diff = -4.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02608751 | --> Sampling calibration, mode = relcal | relcal = -0.1066409 -9.5592648E-02 0.1449578 5.7275794E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2599538E-03 1.2022923E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2314E-05 | 2: delta_r/delta_0: 1.1422E-06 | 3: delta_s/delta_0: 2.4919E-07 | 4: delta_r/delta_0: 5.3752E-08 | 5: delta_s/delta_0: 1.6493E-08 | 6: delta_r/delta_0: 7.2042E-09 | 7: delta_s/delta_0: 1.2198E-08 | 8: delta_r/delta_0: 1.0998E-09 | 9: delta_s/delta_0: 9.8911E-10 | 10: delta_r/delta_0: 1.6417E-10 | 11: delta_s/delta_0: 2.8561E-09 | 12: delta_r/delta_0: 2.5143E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.453075066246435E-003 2.810574152956021E-005 | BP delta = -0.3489985 -0.3180277 57392337.6981442 | BP delta = -0.3454308 -0.3144599 57392337.1362949 | BP chisq diff = -0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81247344 | --> Sampling calibration, mode = relcal | relcal = 0.2955436 0.2248606 -0.2837860 -0.2366181 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.0711435E-04 5.9049567E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.5780E-04 | 2: delta_r/delta_0: 2.2981E-05 | 3: delta_s/delta_0: 2.3490E-05 | 4: delta_r/delta_0: 1.5745E-06 | 5: delta_s/delta_0: 4.1412E-07 | 6: delta_r/delta_0: 1.7267E-07 | 7: delta_s/delta_0: 4.2394E-07 | 8: delta_r/delta_0: 3.9312E-08 | 9: delta_s/delta_0: 8.0052E-06 | 10: delta_r/delta_0: 2.8604E-06 | 11: delta_s/delta_0: 2.1962E-09 | 12: delta_r/delta_0: 9.1447E-10 | 13: delta_s/delta_0: 3.4605E-08 | 14: delta_r/delta_0: 1.0768E-09 | 15: delta_s/delta_0: 6.6416E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.418320153684169E-002 4.020436249265527E-005 | BP delta = -0.2408284 -0.2741309 72480694.6736712 | BP delta = -0.2791305 -0.3124330 72480694.5309504 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95934841 | --> Sampling calibration, mode = relcal | relcal = 0.1064319 0.1396005 -0.1102944 -0.1357379 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1896709E-03 1.4381354E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5145E-03 | 2: delta_r/delta_0: 3.6587E-05 | 3: delta_s/delta_0: 2.0277E-05 | 4: delta_r/delta_0: 1.6374E-06 | 5: delta_s/delta_0: 7.1142E-07 | 6: delta_r/delta_0: 2.2635E-07 | 7: delta_s/delta_0: 3.4101E-07 | 8: delta_r/delta_0: 4.8688E-08 | 9: delta_s/delta_0: 4.7642E-07 | 10: delta_r/delta_0: 1.0567E-07 | 11: delta_s/delta_0: 3.2462E-09 | 12: delta_r/delta_0: 1.8468E-09 | 13: delta_s/delta_0: 9.9360E-10 | 14: delta_r/delta_0: 5.6255E-10 | 15: delta_s/delta_0: 1.1235E-10 | 16: delta_r/delta_0: 4.7393E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.747337393027940E-002 3.696398858248249E-005 | BP delta = 0.1172822 0.2275480 72788784.1576207 | BP delta = 0.1445927 0.2548585 72788785.4944539 | BP chisq diff = 1.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52160606 | --> Sampling calibration, mode = relcal | relcal = -5.1087279E-02 -3.6568772E-03 2.7291985E-02 2.7452173E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.3587335E-04 2.0705708E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5786E-05 | 2: delta_r/delta_0: 4.5287E-06 | 3: delta_s/delta_0: 7.7802E-06 | 4: delta_r/delta_0: 1.2627E-06 | 5: delta_s/delta_0: 5.5823E-08 | 6: delta_r/delta_0: 3.4288E-08 | 7: delta_s/delta_0: 1.2836E-07 | 8: delta_r/delta_0: 7.5784E-09 | 9: delta_s/delta_0: 9.0022E-09 | 10: delta_r/delta_0: 5.1802E-09 | 11: delta_s/delta_0: 4.9361E-10 | 12: delta_r/delta_0: 3.4989E-10 | 13: delta_s/delta_0: 7.3561E-09 | 14: delta_r/delta_0: 8.2073E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.171046722861169E-002 5.482838979600461E-005 | BP delta = 9.4025083E-02 0.1854978 91248602.1109093 | BP delta = 6.6884957E-02 0.1583577 91248602.4250220 | BP chisq diff = 0.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42158036 | --> Sampling calibration, mode = relcal | relcal = 4.5583881E-02 3.9667718E-02 -2.8317938E-02 -5.6933660E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4962684E-03 3.9192620E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9955E-05 | 2: delta_r/delta_0: 3.7985E-06 | 3: delta_s/delta_0: 3.1511E-06 | 4: delta_r/delta_0: 5.2775E-07 | 5: delta_s/delta_0: 5.7303E-08 | 6: delta_r/delta_0: 3.5051E-08 | 7: delta_s/delta_0: 3.6655E-08 | 8: delta_r/delta_0: 1.2771E-08 | 9: delta_s/delta_0: 2.2314E-09 | 10: delta_r/delta_0: 1.1669E-09 | 11: delta_s/delta_0: 9.0756E-10 | 12: delta_r/delta_0: 5.2295E-10 | 13: delta_s/delta_0: 4.4059E-09 | 14: delta_r/delta_0: 2.2771E-10 | 15: delta_s/delta_0: 2.1476E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.449296935641583E-002 4.995770651510347E-005 | BP delta = 1.9821491E-02 -8.1918456E-02 90176923.3679196 | BP delta = 6.2102843E-02 -3.9637104E-02 90176922.8718904 | BP chisq diff = -0.5, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28163580 | --> Sampling calibration, mode = relcal | relcal = 2.4206964E-02 4.5133632E-02 -2.3390397E-02 -4.5950200E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0915007E-02 2.5198716E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0644E-04 | 2: delta_r/delta_0: 8.7532E-06 | 3: delta_s/delta_0: 1.4508E-06 | 4: delta_r/delta_0: 1.8038E-07 | 5: delta_s/delta_0: 6.6923E-08 | 6: delta_r/delta_0: 1.6536E-08 | 7: delta_s/delta_0: 8.2762E-09 | 8: delta_r/delta_0: 5.2321E-09 | 9: delta_s/delta_0: 2.0865E-07 | 10: delta_r/delta_0: 6.4864E-09 | 11: delta_s/delta_0: 1.1866E-09 | 12: delta_r/delta_0: 3.0457E-10 | 13: delta_s/delta_0: 3.0640E-10 | 14: delta_r/delta_0: 1.5282E-10 | 15: delta_s/delta_0: 5.2769E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.691818910388790E-003 7.843313262913870E-005 | BP delta = -0.2572389 -0.4319275 160941183.072308 | BP delta = -0.3174680 -0.4921567 160941182.007593 | BP chisq diff = -1.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29386921 | --> Sampling calibration, mode = relcal | relcal = 5.7525188E-04 1.0245046E-02 -3.8342928E-03 -6.9860052E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5215289E-02 1.7204264E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3705E-04 | 2: delta_r/delta_0: 1.1279E-05 | 3: delta_s/delta_0: 1.8408E-06 | 4: delta_r/delta_0: 3.0121E-07 | 5: delta_s/delta_0: 1.0920E-07 | 6: delta_r/delta_0: 2.6159E-08 | 7: delta_s/delta_0: 1.1698E-08 | 8: delta_r/delta_0: 7.6639E-09 | 9: delta_s/delta_0: 7.7507E-09 | 10: delta_r/delta_0: 4.8600E-09 | 11: delta_s/delta_0: 2.6938E-06 | 12: delta_r/delta_0: 2.5265E-07 | 13: delta_s/delta_0: 5.1297E-10 | 14: delta_r/delta_0: 2.2149E-10 | 15: delta_s/delta_0: 6.3737E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.001310927905285E-002 8.308122073382549E-005 | BP delta = -0.8095682 -0.7649446 157881080.585709 | BP delta = -0.8388229 -0.7941992 157881080.278494 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26503043 | --> Sampling calibration, mode = relcal | relcal = -5.6791529E-03 1.5060824E-02 -2.3674944E-03 -7.0141777E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.1646111E-03 4.4198995E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4356E-04 | 2: delta_r/delta_0: 1.2231E-05 | 3: delta_s/delta_0: 2.1571E-06 | 4: delta_r/delta_0: 2.6742E-07 | 5: delta_s/delta_0: 8.4036E-08 | 6: delta_r/delta_0: 2.1437E-08 | 7: delta_s/delta_0: 9.8977E-09 | 8: delta_r/delta_0: 6.6228E-09 | 9: delta_s/delta_0: 7.9030E-09 | 10: delta_r/delta_0: 4.9906E-09 | 11: delta_s/delta_0: 2.8065E-07 | 12: delta_r/delta_0: 1.6312E-08 | 13: delta_s/delta_0: 3.4013E-08 | 14: delta_r/delta_0: 1.9035E-08 | 15: delta_s/delta_0: 9.4952E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.791037734874120E-003 9.154850338605105E-005 | BP delta = 0.3112194 0.3428417 157026324.455743 | BP delta = 0.3263376 0.3579600 157026324.537827 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25652609 | --> Sampling calibration, mode = relcal | relcal = -3.1749573E-02 -2.5920164E-02 3.6880583E-02 2.0789154E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5412701E-02 1.4107264E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4970E-04 | 2: delta_r/delta_0: 1.2279E-05 | 3: delta_s/delta_0: 1.9889E-06 | 4: delta_r/delta_0: 3.7443E-07 | 5: delta_s/delta_0: 1.3649E-07 | 6: delta_r/delta_0: 2.9565E-08 | 7: delta_s/delta_0: 1.2368E-08 | 8: delta_r/delta_0: 7.0558E-09 | 9: delta_s/delta_0: 1.4012E-08 | 10: delta_r/delta_0: 4.5942E-09 | 11: delta_s/delta_0: 4.3717E-09 | 12: delta_r/delta_0: 3.5782E-10 | 13: delta_s/delta_0: 9.7040E-10 | 14: delta_r/delta_0: 3.1130E-10 | 15: delta_s/delta_0: 1.1510E-10 | 16: delta_r/delta_0: 9.8140E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.589381338091249E-003 8.676245361165359E-005 | BP delta = -0.8079543 -0.9781415 158552162.994231 | BP delta = -0.8190600 -0.9892473 158552162.857844 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114736 | New value = -3.202009 | poltype: 2 pol: 1 CPU time specind = 2.8633833E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187239 | New value = -3.164118 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094998 | New value = -3.174737 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.203923 | New value = -3.161868 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.080614 | New value = -3.158494 | poltype: 2 pol: 2 CPU time specind = 4.9489975E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.13584E+08, tol = 0.78976E+01, time = 5.48 | CG iter. 2 -- res = 0.36329E+06, tol = 0.78976E+01, time = 5.47 | CG iter. 3 -- res = 0.62878E+05, tol = 0.78976E+01, time = 5.76 | CG iter. 4 -- res = 0.49034E+05, tol = 0.78976E+01, time = 5.72 | CG iter. 5 -- res = 0.45776E+05, tol = 0.78976E+01, time = 5.80 | CG iter. 6 -- res = 0.42495E+05, tol = 0.78976E+01, time = 5.65 | CG iter. 7 -- res = 0.41493E+05, tol = 0.78976E+01, time = 6.37 | CG iter. 8 -- res = 0.33185E+05, tol = 0.78976E+01, time = 5.27 | CG iter. 9 -- res = 0.27785E+05, tol = 0.78976E+01, time = 5.65 | CG iter. 10 -- res = 0.23357E+05, tol = 0.78976E+01, time = 5.57 | CG iter. 11 -- res = 0.16202E+05, tol = 0.78976E+01, time = 5.63 | CG iter. 12 -- res = 0.11340E+05, tol = 0.78976E+01, time = 5.94 | CG iter. 13 -- res = 0.95822E+04, tol = 0.78976E+01, time = 5.84 | CG iter. 14 -- res = 0.86723E+04, tol = 0.78976E+01, time = 5.74 | CG iter. 15 -- res = 0.73143E+04, tol = 0.78976E+01, time = 5.41 | CG iter. 16 -- res = 0.55536E+04, tol = 0.78976E+01, time = 5.33 | CG iter. 17 -- res = 0.38839E+04, tol = 0.78976E+01, time = 5.54 | CG iter. 18 -- res = 0.31516E+04, tol = 0.78976E+01, time = 5.60 | CG iter. 19 -- res = 0.26863E+04, tol = 0.78976E+01, time = 5.89 | CG iter. 20 -- res = 0.21459E+04, tol = 0.78976E+01, time = 5.59 | CG iter. 21 -- res = 0.16092E+04, tol = 0.78976E+01, time = 5.77 | CG iter. 22 -- res = 0.13500E+04, tol = 0.78976E+01, time = 5.13 | CG iter. 23 -- res = 0.11870E+04, tol = 0.78976E+01, time = 5.53 | CG iter. 24 -- res = 0.92231E+03, tol = 0.78976E+01, time = 5.31 | CG iter. 25 -- res = 0.68836E+03, tol = 0.78976E+01, time = 13.27 | CG iter. 26 -- res = 0.52717E+03, tol = 0.78976E+01, time = 5.59 | CG iter. 27 -- res = 0.46850E+03, tol = 0.78976E+01, time = 6.90 | CG iter. 28 -- res = 0.40037E+03, tol = 0.78976E+01, time = 6.05 | CG iter. 29 -- res = 0.31756E+03, tol = 0.78976E+01, time = 5.40 | CG iter. 30 -- res = 0.24223E+03, tol = 0.78976E+01, time = 5.65 | CG iter. 31 -- res = 0.20040E+03, tol = 0.78976E+01, time = 5.77 | CG iter. 32 -- res = 0.17130E+03, tol = 0.78976E+01, time = 6.02 | CG iter. 33 -- res = 0.13605E+03, tol = 0.78976E+01, time = 5.79 | CG iter. 34 -- res = 0.10349E+03, tol = 0.78976E+01, time = 5.48 | CG iter. 35 -- res = 0.86062E+02, tol = 0.78976E+01, time = 5.72 | CG iter. 36 -- res = 0.75435E+02, tol = 0.78976E+01, time = 5.72 | CG iter. 37 -- res = 0.64133E+02, tol = 0.78976E+01, time = 5.45 | CG iter. 38 -- res = 0.50094E+02, tol = 0.78976E+01, time = 5.45 | CG iter. 39 -- res = 0.41368E+02, tol = 0.78976E+01, time = 6.78 | CG iter. 40 -- res = 0.36640E+02, tol = 0.78976E+01, time = 6.37 | CG iter. 41 -- res = 0.31953E+02, tol = 0.78976E+01, time = 5.84 | CG iter. 42 -- res = 0.26479E+02, tol = 0.78976E+01, time = 5.69 | CG iter. 43 -- res = 0.22195E+02, tol = 0.78976E+01, time = 5.78 | CG iter. 44 -- res = 0.19560E+02, tol = 0.78976E+01, time = 5.75 | CG iter. 45 -- res = 0.17358E+02, tol = 0.78976E+01, time = 5.37 | CG iter. 46 -- res = 0.14673E+02, tol = 0.78976E+01, time = 6.03 | CG iter. 47 -- res = 0.11819E+02, tol = 0.78976E+01, time = 5.20 | CG iter. 48 -- res = 0.10262E+02, tol = 0.78976E+01, time = 5.79 | CG iter. 49 -- res = 0.91243E+01, tol = 0.78976E+01, time = 5.53 | CG iter. 50 -- res = 0.79921E+01, tol = 0.78976E+01, time = 5.66 | Final CG iter 51 -- res = 0.79921E+01, tol = 0.78976E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8330780.002 | Old band monopole 8806606.294 | Change to band monopole -475826.292 | Change to component monopole 475824.245 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.37275E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.13660E+03, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.26823E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.21299E-01, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.27557E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8330744.170 | (Sampled value in CG: 8261745.893 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473170 | New value = 1.485638 | poltype: 2 pol: 1 CPU time specind = 1.7953157E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.520729 | New value = 1.534235 | poltype: 2 pol: 2 CPU time specind = 2.7511120E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.24048E+08, tol = 0.47545E+04, time = 6.23 | CG iter. 2 -- res = 0.53555E+07, tol = 0.47545E+04, time = 6.00 | CG iter. 3 -- res = 0.84212E+06, tol = 0.47545E+04, time = 6.65 | CG iter. 4 -- res = 0.34543E+06, tol = 0.47545E+04, time = 6.60 | CG iter. 5 -- res = 0.14522E+06, tol = 0.47545E+04, time = 12.76 | CG iter. 6 -- res = 0.76527E+05, tol = 0.47545E+04, time = 6.75 | CG iter. 7 -- res = 0.42997E+05, tol = 0.47545E+04, time = 6.14 | CG iter. 8 -- res = 0.20832E+05, tol = 0.47545E+04, time = 6.80 | CG iter. 9 -- res = 0.89490E+04, tol = 0.47545E+04, time = 6.44 | CG iter. 10 -- res = 0.36523E+04, tol = 0.47545E+04, time = 6.57 | CG iter. 11 -- res = 0.16398E+04, tol = 0.47545E+04, time = 6.40 | CG iter. 12 -- res = 0.85165E+03, tol = 0.47545E+04, time = 6.60 | CG iter. 13 -- res = 0.48506E+03, tol = 0.47545E+04, time = 6.43 | CG iter. 14 -- res = 0.27755E+03, tol = 0.47545E+04, time = 6.25 | CG iter. 15 -- res = 0.14425E+03, tol = 0.47545E+04, time = 6.45 | CG iter. 16 -- res = 0.67622E+02, tol = 0.47545E+04, time = 6.49 | CG iter. 17 -- res = 0.30586E+02, tol = 0.47545E+04, time = 6.75 | CG iter. 18 -- res = 0.15000E+02, tol = 0.47545E+04, time = 7.19 | CG iter. 19 -- res = 0.81029E+01, tol = 0.47545E+04, time = 7.04 | CG iter. 20 -- res = 0.45495E+01, tol = 0.47545E+04, time = 6.71 | CG iter. 21 -- res = 0.25229E+01, tol = 0.47545E+04, time = 6.55 | CG iter. 22 -- res = 0.13266E+01, tol = 0.47545E+04, time = 6.32 | CG iter. 23 -- res = 0.66035E+00, tol = 0.47545E+04, time = 6.90 | CG iter. 24 -- res = 0.33474E+00, tol = 0.47545E+04, time = 6.31 | CG iter. 25 -- res = 0.18263E+00, tol = 0.47545E+04, time = 6.57 | CG iter. 26 -- res = 0.10433E+00, tol = 0.47545E+04, time = 6.31 | CG iter. 27 -- res = 0.59031E-01, tol = 0.47545E+04, time = 6.46 | CG iter. 28 -- res = 0.31388E-01, tol = 0.47545E+04, time = 6.30 | CG iter. 29 -- res = 0.16137E-01, tol = 0.47545E+04, time = 6.70 | CG iter. 30 -- res = 0.84497E-02, tol = 0.47545E+04, time = 6.56 | CG iter. 31 -- res = 0.46582E-02, tol = 0.47545E+04, time = 6.40 | CG iter. 32 -- res = 0.26522E-02, tol = 0.47545E+04, time = 6.23 | CG iter. 33 -- res = 0.14986E-02, tol = 0.47545E+04, time = 6.41 | CG iter. 34 -- res = 0.82554E-03, tol = 0.47545E+04, time = 6.42 | CG iter. 35 -- res = 0.42872E-03, tol = 0.47545E+04, time = 6.89 | Final CG iter 36 -- res = 0.42872E-03, tol = 0.47545E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.452 2.739 | New value 0.476 | Old value -0.452 | Difference 0.929 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.49498E+05, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.61288E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.17072E+01, tol = 0.47627E+18, time = 2.23 | Final CG iter 4 -- res = 0.32901E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8330744.170 | (Sampled value in CG: 8264128.367 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.659037 | New value = -3.674221 | poltype: 1 pol: 1 CPU time specind = 3.0320883E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.32327E+07, tol = 0.25532E+01, time = 2.76 | CG iter. 2 -- res = 0.12908E+07, tol = 0.25532E+01, time = 2.80 | CG iter. 3 -- res = 0.28321E+06, tol = 0.25532E+01, time = 2.68 | CG iter. 4 -- res = 0.13253E+06, tol = 0.25532E+01, time = 2.51 | CG iter. 5 -- res = 0.80488E+05, tol = 0.25532E+01, time = 2.68 | CG iter. 6 -- res = 0.35756E+05, tol = 0.25532E+01, time = 2.79 | CG iter. 7 -- res = 0.11140E+05, tol = 0.25532E+01, time = 2.55 | CG iter. 8 -- res = 0.45055E+04, tol = 0.25532E+01, time = 2.59 | CG iter. 9 -- res = 0.20499E+04, tol = 0.25532E+01, time = 2.41 | CG iter. 10 -- res = 0.82019E+03, tol = 0.25532E+01, time = 2.79 | CG iter. 11 -- res = 0.34812E+03, tol = 0.25532E+01, time = 2.67 | CG iter. 12 -- res = 0.17597E+03, tol = 0.25532E+01, time = 2.72 | CG iter. 13 -- res = 0.91678E+02, tol = 0.25532E+01, time = 2.68 | CG iter. 14 -- res = 0.42684E+02, tol = 0.25532E+01, time = 2.51 | CG iter. 15 -- res = 0.18340E+02, tol = 0.25532E+01, time = 2.83 | CG iter. 16 -- res = 0.77101E+01, tol = 0.25532E+01, time = 2.97 | CG iter. 17 -- res = 0.35477E+01, tol = 0.25532E+01, time = 2.51 | CG iter. 18 -- res = 0.17022E+01, tol = 0.25532E+01, time = 2.84 | CG iter. 19 -- res = 0.84371E+00, tol = 0.25532E+01, time = 2.62 | CG iter. 20 -- res = 0.42478E+00, tol = 0.25532E+01, time = 2.89 | CG iter. 21 -- res = 0.19138E+00, tol = 0.25532E+01, time = 2.69 | CG iter. 22 -- res = 0.82058E-01, tol = 0.25532E+01, time = 2.75 | CG iter. 23 -- res = 0.36587E-01, tol = 0.25532E+01, time = 2.56 | CG iter. 24 -- res = 0.18330E-01, tol = 0.25532E+01, time = 2.80 | CG iter. 25 -- res = 0.94518E-02, tol = 0.25532E+01, time = 2.43 | CG iter. 26 -- res = 0.46074E-02, tol = 0.25532E+01, time = 2.74 | CG iter. 27 -- res = 0.21939E-02, tol = 0.25532E+01, time = 2.78 | CG iter. 28 -- res = 0.10070E-02, tol = 0.25532E+01, time = 2.59 | CG iter. 29 -- res = 0.44412E-03, tol = 0.25532E+01, time = 2.65 | CG iter. 30 -- res = 0.21569E-03, tol = 0.25532E+01, time = 2.74 | CG iter. 31 -- res = 0.10864E-03, tol = 0.25532E+01, time = 2.65 | CG iter. 32 -- res = 0.54171E-04, tol = 0.25532E+01, time = 2.75 | CG iter. 33 -- res = 0.25800E-04, tol = 0.25532E+01, time = 2.71 | CG iter. 34 -- res = 0.11472E-04, tol = 0.25532E+01, time = 2.61 | CG iter. 35 -- res = 0.53540E-05, tol = 0.25532E+01, time = 2.65 | CG iter. 36 -- res = 0.26255E-05, tol = 0.25532E+01, time = 2.58 | CG iter. 37 -- res = 0.13078E-05, tol = 0.25532E+01, time = 2.94 | CG iter. 38 -- res = 0.65022E-06, tol = 0.25532E+01, time = 2.43 | CG iter. 39 -- res = 0.31042E-06, tol = 0.25532E+01, time = 4.55 | CG iter. 40 -- res = 0.14015E-06, tol = 0.25532E+01, time = 7.32 | CG iter. 41 -- res = 0.64399E-07, tol = 0.25532E+01, time = 2.58 | CG iter. 42 -- res = 0.30774E-07, tol = 0.25532E+01, time = 2.41 | CG iter. 43 -- res = 0.14534E-07, tol = 0.25532E+01, time = 2.55 | CG iter. 44 -- res = 0.71076E-08, tol = 0.25532E+01, time = 2.43 | CG iter. 45 -- res = 0.34375E-08, tol = 0.25532E+01, time = 2.88 | CG iter. 46 -- res = 0.16358E-08, tol = 0.25532E+01, time = 2.65 | CG iter. 47 -- res = 0.76789E-09, tol = 0.25532E+01, time = 2.72 | CG iter. 48 -- res = 0.36265E-09, tol = 0.25532E+01, time = 2.90 | CG iter. 49 -- res = 0.17427E-09, tol = 0.25532E+01, time = 2.43 | CG iter. 50 -- res = 0.85472E-10, tol = 0.25532E+01, time = 2.73 | Final CG iter 51 -- res = 0.85472E-10, tol = 0.25532E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.459 5.897 | New value -1.533 | Old value -7.459 | Difference 5.926 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.37489E+05, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.40568E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.13283E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.34810E-02, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.35959E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8330744.170 | (Sampled value in CG: 8283287.732 ) | CPU time specind = 1177.661 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.68506E+08, tol = 0.57850E+04, time = 11.42 | CG iter. 2 -- res = 0.58058E+08, tol = 0.57850E+04, time = 11.40 | CG iter. 3 -- res = 0.14943E+08, tol = 0.57850E+04, time = 11.49 | CG iter. 4 -- res = 0.62735E+07, tol = 0.57850E+04, time = 11.58 | CG iter. 5 -- res = 0.36323E+07, tol = 0.57850E+04, time = 11.77 | CG iter. 6 -- res = 0.20707E+07, tol = 0.57850E+04, time = 11.79 | CG iter. 7 -- res = 0.12572E+07, tol = 0.57850E+04, time = 11.52 | CG iter. 8 -- res = 0.86423E+06, tol = 0.57850E+04, time = 12.09 | CG iter. 9 -- res = 0.54869E+06, tol = 0.57850E+04, time = 11.66 | CG iter. 10 -- res = 0.32068E+06, tol = 0.57850E+04, time = 11.68 | CG iter. 11 -- res = 0.17366E+06, tol = 0.57850E+04, time = 11.29 | CG iter. 12 -- res = 0.97858E+05, tol = 0.57850E+04, time = 11.43 | CG iter. 13 -- res = 0.57879E+05, tol = 0.57850E+04, time = 11.54 | CG iter. 14 -- res = 0.38597E+05, tol = 0.57850E+04, time = 11.42 | CG iter. 15 -- res = 0.28988E+05, tol = 0.57850E+04, time = 11.59 | CG iter. 16 -- res = 0.23923E+05, tol = 0.57850E+04, time = 18.15 | CG iter. 17 -- res = 0.20918E+05, tol = 0.57850E+04, time = 11.42 | CG iter. 18 -- res = 0.18110E+05, tol = 0.57850E+04, time = 11.86 | CG iter. 19 -- res = 0.15549E+05, tol = 0.57850E+04, time = 11.78 | CG iter. 20 -- res = 0.13787E+05, tol = 0.57850E+04, time = 11.72 | CG iter. 21 -- res = 0.13013E+05, tol = 0.57850E+04, time = 11.44 | CG iter. 22 -- res = 0.13402E+05, tol = 0.57850E+04, time = 11.56 | CG iter. 23 -- res = 0.14042E+05, tol = 0.57850E+04, time = 12.61 | CG iter. 24 -- res = 0.13930E+05, tol = 0.57850E+04, time = 12.49 | CG iter. 25 -- res = 0.12380E+05, tol = 0.57850E+04, time = 11.27 | CG iter. 26 -- res = 0.97791E+04, tol = 0.57850E+04, time = 11.53 | CG iter. 27 -- res = 0.74186E+04, tol = 0.57850E+04, time = 11.42 | CG iter. 28 -- res = 0.56089E+04, tol = 0.57850E+04, time = 11.82 | CG iter. 29 -- res = 0.45985E+04, tol = 0.57850E+04, time = 11.09 | CG iter. 30 -- res = 0.39125E+04, tol = 0.57850E+04, time = 11.78 | CG iter. 31 -- res = 0.34231E+04, tol = 0.57850E+04, time = 11.65 | CG iter. 32 -- res = 0.29820E+04, tol = 0.57850E+04, time = 11.30 | CG iter. 33 -- res = 0.25470E+04, tol = 0.57850E+04, time = 11.86 | CG iter. 34 -- res = 0.22130E+04, tol = 0.57850E+04, time = 11.43 | CG iter. 35 -- res = 0.19488E+04, tol = 0.57850E+04, time = 11.17 | CG iter. 36 -- res = 0.17650E+04, tol = 0.57850E+04, time = 11.88 | CG iter. 37 -- res = 0.17412E+04, tol = 0.57850E+04, time = 11.28 | CG iter. 38 -- res = 0.16831E+04, tol = 0.57850E+04, time = 11.75 | CG iter. 39 -- res = 0.15212E+04, tol = 0.57850E+04, time = 11.94 | CG iter. 40 -- res = 0.12973E+04, tol = 0.57850E+04, time = 11.56 | CG iter. 41 -- res = 0.10661E+04, tol = 0.57850E+04, time = 18.83 | CG iter. 42 -- res = 0.86883E+03, tol = 0.57850E+04, time = 11.29 | CG iter. 43 -- res = 0.73098E+03, tol = 0.57850E+04, time = 11.11 | CG iter. 44 -- res = 0.67807E+03, tol = 0.57850E+04, time = 11.80 | CG iter. 45 -- res = 0.64066E+03, tol = 0.57850E+04, time = 11.77 | CG iter. 46 -- res = 0.58628E+03, tol = 0.57850E+04, time = 11.21 | CG iter. 47 -- res = 0.53248E+03, tol = 0.57850E+04, time = 11.66 | CG iter. 48 -- res = 0.46938E+03, tol = 0.57850E+04, time = 11.48 | CG iter. 49 -- res = 0.41995E+03, tol = 0.57850E+04, time = 13.57 | CG iter. 50 -- res = 0.38932E+03, tol = 0.57850E+04, time = 11.52 | CG iter. 51 -- res = 0.37645E+03, tol = 0.57850E+04, time = 11.62 | CG iter. 52 -- res = 0.37144E+03, tol = 0.57850E+04, time = 11.26 | CG iter. 53 -- res = 0.36298E+03, tol = 0.57850E+04, time = 11.35 | CG iter. 54 -- res = 0.32704E+03, tol = 0.57850E+04, time = 11.90 | CG iter. 55 -- res = 0.28030E+03, tol = 0.57850E+04, time = 11.71 | CG iter. 56 -- res = 0.24340E+03, tol = 0.57850E+04, time = 11.71 | CG iter. 57 -- res = 0.21643E+03, tol = 0.57850E+04, time = 11.20 | CG iter. 58 -- res = 0.20095E+03, tol = 0.57850E+04, time = 12.38 | CG iter. 59 -- res = 0.19240E+03, tol = 0.57850E+04, time = 11.48 | CG iter. 60 -- res = 0.18491E+03, tol = 0.57850E+04, time = 11.38 | Final CG iter 61 -- res = 0.18491E+03, tol = 0.57850E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.758 ( -229.645 -2229.888 2512.300 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7674055.800 | Old band monopole 8330780.002 | Change to band monopole -656724.202 | Change to component monopole 656721.378 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.481 2.717 | New value 3.241 | Old value 0.481 | Difference 2.760 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.260 ( 7.540 9.595 -8.409 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.579 5.756 | New value -1.292 | Old value 4.579 | Difference -5.871 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.39287E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.25033E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.47496E+00, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.34504E-03, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.15455E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7674022.792 | (Sampled value in CG: 7652499.606 ) | Chain = 1 -- chisq = 0.81575664E+09 | Chain = 1 -- wall time = 17054.992 sec Available RAM: MemAvailable: 478285952 kB Available Swap: SwapFree: 1056170568 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 322 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446739 | --> Sampling calibration, mode = relcal | relcal = 1.3430950E-02 7.5359154E-04 -1.6067221E-03 -1.2577820E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1294400 0.1408480 9403809.38042576 | BP delta = 0.1294400 0.1362567 9403866.05537369 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632291 | --> Sampling calibration, mode = relcal | relcal = -2.8200117E-03 -7.0406415E-04 1.6768534E-03 1.6137977E-03 -4.0780459E-04 6.4122933E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5551047 15221364.4124404 | BP delta = 0.0000000E+00 -0.5623184 15221363.1103746 | BP chisq diff = -1.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18332264059263 | --> Sampling calibration, mode = relcal | relcal = -7.4789733E-02 -5.8527708E-02 9.1798007E-02 4.1519433E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.3356805E-05 4.7616065E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1752E-05 | 2: delta_r/delta_0: 7.8810E-07 | 3: delta_s/delta_0: 2.4564E-07 | 4: delta_r/delta_0: 1.1520E-08 | 5: delta_s/delta_0: 1.1690E-07 | 6: delta_r/delta_0: 1.4930E-08 | 7: delta_s/delta_0: 1.7924E-10 | 8: delta_r/delta_0: 8.6838E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.751043189422327E-004 2.735746517130224E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1752E-05 | 2: delta_r/delta_0: 7.8812E-07 | 3: delta_s/delta_0: 2.4564E-07 | 4: delta_r/delta_0: 1.1521E-08 | 5: delta_s/delta_0: 1.1668E-07 | 6: delta_r/delta_0: 1.4907E-08 | 7: delta_s/delta_0: 1.7924E-10 | 8: delta_r/delta_0: 8.6838E-11 | Reached bicg-stab tolerance | BP delta = 8.0611281E-02 0.1017045 3569661.24229998 | BP delta = 8.0611281E-02 0.1016048 3572714.82727938 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02584325 | --> Sampling calibration, mode = relcal | relcal = -0.1065635 -9.5543720E-02 0.1448724 5.7234783E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5641290E-03 1.4123319E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4918E-05 | 2: delta_r/delta_0: 1.1591E-06 | 3: delta_s/delta_0: 2.6069E-07 | 4: delta_r/delta_0: 4.2754E-08 | 5: delta_s/delta_0: 1.7864E-08 | 6: delta_r/delta_0: 6.5774E-09 | 7: delta_s/delta_0: 5.3631E-09 | 8: delta_r/delta_0: 1.6153E-09 | 9: delta_s/delta_0: 8.2261E-10 | 10: delta_r/delta_0: 5.9537E-10 | 11: delta_s/delta_0: 1.1099E-09 | 12: delta_r/delta_0: 8.1434E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.537922047219221E-003 2.811241530755311E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.4919E-05 | 2: delta_r/delta_0: 1.1592E-06 | 3: delta_s/delta_0: 2.6070E-07 | 4: delta_r/delta_0: 4.2771E-08 | 5: delta_s/delta_0: 1.7855E-08 | 6: delta_r/delta_0: 6.5778E-09 | 7: delta_s/delta_0: 5.3621E-09 | 8: delta_r/delta_0: 1.6154E-09 | 9: delta_s/delta_0: 8.2270E-10 | 10: delta_r/delta_0: 5.9541E-10 | 11: delta_s/delta_0: 1.1099E-09 | 12: delta_r/delta_0: 8.1435E-11 | Reached bicg-stab tolerance | BP delta = -0.3454308 -0.3144599 2841540.99333631 | BP delta = -0.3454308 -0.3137222 2841569.06701009 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81213795 | --> Sampling calibration, mode = relcal | relcal = 0.2954047 0.2247450 -0.2837236 -0.2364260 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0195291E-03 5.2906480E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9708E-04 | 2: delta_r/delta_0: 5.1564E-06 | 3: delta_s/delta_0: 4.3867E-06 | 4: delta_r/delta_0: 7.3924E-07 | 5: delta_s/delta_0: 1.9363E-07 | 6: delta_r/delta_0: 1.1609E-07 | 7: delta_s/delta_0: 6.1486E-07 | 8: delta_r/delta_0: 2.3433E-08 | 9: delta_s/delta_0: 2.4837E-08 | 10: delta_r/delta_0: 1.6879E-08 | 11: delta_s/delta_0: 1.1859E-09 | 12: delta_r/delta_0: 7.1805E-10 | 13: delta_s/delta_0: 3.3036E-09 | 14: delta_r/delta_0: 1.3964E-09 | 15: delta_s/delta_0: 8.6114E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.872056950393312E-002 4.022030534959099E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9704E-04 | 2: delta_r/delta_0: 5.1558E-06 | 3: delta_s/delta_0: 4.3862E-06 | 4: delta_r/delta_0: 7.3929E-07 | 5: delta_s/delta_0: 1.9374E-07 | 6: delta_r/delta_0: 1.1616E-07 | 7: delta_s/delta_0: 6.1536E-07 | 8: delta_r/delta_0: 2.3426E-08 | 9: delta_s/delta_0: 2.4807E-08 | 10: delta_r/delta_0: 1.6865E-08 | 11: delta_s/delta_0: 1.1840E-09 | 12: delta_r/delta_0: 7.1567E-10 | 13: delta_s/delta_0: 3.2243E-09 | 14: delta_r/delta_0: 1.3754E-09 | 15: delta_s/delta_0: 8.5969E-11 | Reached bicg-stab tolerance | BP delta = -0.2791305 -0.3124330 2827541.34907738 | BP delta = -0.2791305 -0.3215948 2827831.80398167 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95894101 | --> Sampling calibration, mode = relcal | relcal = 0.1065330 0.1394701 -0.1102328 -0.1357702 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0600611E-02 1.4080213E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1627E-03 | 2: delta_r/delta_0: 2.8177E-05 | 3: delta_s/delta_0: 1.4604E-05 | 4: delta_r/delta_0: 1.3312E-06 | 5: delta_s/delta_0: 7.7837E-07 | 6: delta_r/delta_0: 2.3104E-07 | 7: delta_s/delta_0: 3.8473E-07 | 8: delta_r/delta_0: 4.5759E-08 | 9: delta_s/delta_0: 9.8033E-06 | 10: delta_r/delta_0: 3.7328E-06 | 11: delta_s/delta_0: 3.4881E-09 | 12: delta_r/delta_0: 2.1336E-09 | 13: delta_s/delta_0: 1.0125E-09 | 14: delta_r/delta_0: 6.5935E-10 | 15: delta_s/delta_0: 1.1651E-10 | 16: delta_r/delta_0: 7.8747E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.660642384337379E-002 3.697976251521806E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1623E-03 | 2: delta_r/delta_0: 2.8167E-05 | 3: delta_s/delta_0: 1.4599E-05 | 4: delta_r/delta_0: 1.3308E-06 | 5: delta_s/delta_0: 7.7813E-07 | 6: delta_r/delta_0: 2.3110E-07 | 7: delta_s/delta_0: 3.8548E-07 | 8: delta_r/delta_0: 4.5753E-08 | 9: delta_s/delta_0: 9.0523E-06 | 10: delta_r/delta_0: 3.4593E-06 | 11: delta_s/delta_0: 3.4851E-09 | 12: delta_r/delta_0: 2.1301E-09 | 13: delta_s/delta_0: 1.0108E-09 | 14: delta_r/delta_0: 6.5902E-10 | 15: delta_s/delta_0: 1.1691E-10 | 16: delta_r/delta_0: 7.8633E-11 | Reached bicg-stab tolerance | BP delta = 0.1445927 0.2548585 3004091.73222067 | BP delta = 0.1445927 0.2547783 3004318.06760040 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.202009 | New value = -3.182632 | poltype: 2 pol: 1 CPU time specind = 1.2835026E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164118 | New value = -3.116379 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174737 | New value = -3.172552 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161868 | New value = -3.223488 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158494 | New value = -3.082104 | poltype: 2 pol: 2 CPU time specind = 5.7990551E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.13536E+08, tol = 0.87083E+01, time = 5.91 | CG iter. 2 -- res = 0.32414E+06, tol = 0.87083E+01, time = 11.89 | CG iter. 3 -- res = 0.44586E+05, tol = 0.87083E+01, time = 5.42 | CG iter. 4 -- res = 0.19914E+05, tol = 0.87083E+01, time = 5.98 | CG iter. 5 -- res = 0.97503E+04, tol = 0.87083E+01, time = 5.91 | CG iter. 6 -- res = 0.48760E+04, tol = 0.87083E+01, time = 5.69 | CG iter. 7 -- res = 0.31787E+04, tol = 0.87083E+01, time = 5.75 | CG iter. 8 -- res = 0.21668E+04, tol = 0.87083E+01, time = 5.92 | CG iter. 9 -- res = 0.17540E+04, tol = 0.87083E+01, time = 5.99 | CG iter. 10 -- res = 0.18086E+04, tol = 0.87083E+01, time = 5.68 | CG iter. 11 -- res = 0.17946E+04, tol = 0.87083E+01, time = 5.76 | CG iter. 12 -- res = 0.13901E+04, tol = 0.87083E+01, time = 5.89 | CG iter. 13 -- res = 0.99410E+03, tol = 0.87083E+01, time = 5.75 | CG iter. 14 -- res = 0.75329E+03, tol = 0.87083E+01, time = 5.66 | CG iter. 15 -- res = 0.64507E+03, tol = 0.87083E+01, time = 6.07 | CG iter. 16 -- res = 0.53184E+03, tol = 0.87083E+01, time = 5.68 | CG iter. 17 -- res = 0.39063E+03, tol = 0.87083E+01, time = 7.27 | CG iter. 18 -- res = 0.30294E+03, tol = 0.87083E+01, time = 6.52 | CG iter. 19 -- res = 0.26787E+03, tol = 0.87083E+01, time = 5.99 | CG iter. 20 -- res = 0.21844E+03, tol = 0.87083E+01, time = 6.09 | CG iter. 21 -- res = 0.15719E+03, tol = 0.87083E+01, time = 5.48 | CG iter. 22 -- res = 0.11339E+03, tol = 0.87083E+01, time = 6.09 | CG iter. 23 -- res = 0.89830E+02, tol = 0.87083E+01, time = 5.90 | CG iter. 24 -- res = 0.78125E+02, tol = 0.87083E+01, time = 5.71 | CG iter. 25 -- res = 0.61055E+02, tol = 0.87083E+01, time = 5.60 | CG iter. 26 -- res = 0.44340E+02, tol = 0.87083E+01, time = 5.94 | CG iter. 27 -- res = 0.35193E+02, tol = 0.87083E+01, time = 6.15 | CG iter. 28 -- res = 0.28100E+02, tol = 0.87083E+01, time = 5.89 | CG iter. 29 -- res = 0.21349E+02, tol = 0.87083E+01, time = 5.52 | CG iter. 30 -- res = 0.16036E+02, tol = 0.87083E+01, time = 6.04 | CG iter. 31 -- res = 0.12255E+02, tol = 0.87083E+01, time = 5.87 | CG iter. 32 -- res = 0.98111E+01, tol = 0.87083E+01, time = 5.84 | CG iter. 33 -- res = 0.83321E+01, tol = 0.87083E+01, time = 5.76 | CG iter. 34 -- res = 0.60850E+01, tol = 0.87083E+01, time = 5.76 | CG iter. 35 -- res = 0.46424E+01, tol = 0.87083E+01, time = 5.87 | CG iter. 36 -- res = 0.37880E+01, tol = 0.87083E+01, time = 5.91 | CG iter. 37 -- res = 0.31567E+01, tol = 0.87083E+01, time = 5.84 | CG iter. 38 -- res = 0.25419E+01, tol = 0.87083E+01, time = 5.63 | CG iter. 39 -- res = 0.19828E+01, tol = 0.87083E+01, time = 5.81 | CG iter. 40 -- res = 0.16416E+01, tol = 0.87083E+01, time = 5.90 | CG iter. 41 -- res = 0.13933E+01, tol = 0.87083E+01, time = 6.79 | CG iter. 42 -- res = 0.11420E+01, tol = 0.87083E+01, time = 5.35 | CG iter. 43 -- res = 0.90129E+00, tol = 0.87083E+01, time = 6.11 | CG iter. 44 -- res = 0.71907E+00, tol = 0.87083E+01, time = 5.92 | CG iter. 45 -- res = 0.61113E+00, tol = 0.87083E+01, time = 5.78 | CG iter. 46 -- res = 0.51628E+00, tol = 0.87083E+01, time = 6.04 | CG iter. 47 -- res = 0.41515E+00, tol = 0.87083E+01, time = 5.91 | CG iter. 48 -- res = 0.33613E+00, tol = 0.87083E+01, time = 6.14 | CG iter. 49 -- res = 0.28877E+00, tol = 0.87083E+01, time = 5.74 | CG iter. 50 -- res = 0.25136E+00, tol = 0.87083E+01, time = 5.68 | Final CG iter 51 -- res = 0.25136E+00, tol = 0.87083E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10790366.691 | Old band monopole 7674055.800 | Change to band monopole 3116310.892 | Change to component monopole -3116297.488 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.46363E+05, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.29960E+02, tol = 0.47627E+18, time = 2.38 | CG iter. 3 -- res = 0.12182E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.96216E-03, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.34867E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10790320.280 | (Sampled value in CG: 10802716.574 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485638 | New value = 1.531965 | poltype: 2 pol: 1 CPU time specind = 1.4459133E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.534235 | New value = 1.534744 | poltype: 2 pol: 2 CPU time specind = 1.2028933E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.24495E+08, tol = 0.47676E+04, time = 6.60 | CG iter. 2 -- res = 0.54424E+07, tol = 0.47676E+04, time = 6.97 | CG iter. 3 -- res = 0.84284E+06, tol = 0.47676E+04, time = 6.45 | CG iter. 4 -- res = 0.35454E+06, tol = 0.47676E+04, time = 6.75 | CG iter. 5 -- res = 0.15266E+06, tol = 0.47676E+04, time = 6.74 | CG iter. 6 -- res = 0.79214E+05, tol = 0.47676E+04, time = 6.65 | CG iter. 7 -- res = 0.43739E+05, tol = 0.47676E+04, time = 6.58 | CG iter. 8 -- res = 0.21033E+05, tol = 0.47676E+04, time = 6.68 | CG iter. 9 -- res = 0.91372E+04, tol = 0.47676E+04, time = 6.57 | CG iter. 10 -- res = 0.37772E+04, tol = 0.47676E+04, time = 6.90 | CG iter. 11 -- res = 0.17330E+04, tol = 0.47676E+04, time = 6.71 | CG iter. 12 -- res = 0.90198E+03, tol = 0.47676E+04, time = 6.61 | CG iter. 13 -- res = 0.50831E+03, tol = 0.47676E+04, time = 6.78 | CG iter. 14 -- res = 0.28040E+03, tol = 0.47676E+04, time = 7.27 | CG iter. 15 -- res = 0.14371E+03, tol = 0.47676E+04, time = 6.74 | CG iter. 16 -- res = 0.68632E+02, tol = 0.47676E+04, time = 6.39 | CG iter. 17 -- res = 0.32362E+02, tol = 0.47676E+04, time = 6.82 | CG iter. 18 -- res = 0.16062E+02, tol = 0.47676E+04, time = 6.72 | CG iter. 19 -- res = 0.86912E+01, tol = 0.47676E+04, time = 6.48 | CG iter. 20 -- res = 0.49679E+01, tol = 0.47676E+04, time = 6.59 | CG iter. 21 -- res = 0.27531E+01, tol = 0.47676E+04, time = 6.68 | CG iter. 22 -- res = 0.14246E+01, tol = 0.47676E+04, time = 6.46 | CG iter. 23 -- res = 0.71165E+00, tol = 0.47676E+04, time = 6.73 | CG iter. 24 -- res = 0.36656E+00, tol = 0.47676E+04, time = 6.37 | CG iter. 25 -- res = 0.20054E+00, tol = 0.47676E+04, time = 6.98 | CG iter. 26 -- res = 0.11293E+00, tol = 0.47676E+04, time = 6.52 | CG iter. 27 -- res = 0.64359E-01, tol = 0.47676E+04, time = 6.68 | CG iter. 28 -- res = 0.35036E-01, tol = 0.47676E+04, time = 6.78 | CG iter. 29 -- res = 0.18513E-01, tol = 0.47676E+04, time = 12.08 | CG iter. 30 -- res = 0.95030E-02, tol = 0.47676E+04, time = 11.26 | CG iter. 31 -- res = 0.50721E-02, tol = 0.47676E+04, time = 6.65 | CG iter. 32 -- res = 0.28318E-02, tol = 0.47676E+04, time = 7.02 | CG iter. 33 -- res = 0.15970E-02, tol = 0.47676E+04, time = 6.84 | CG iter. 34 -- res = 0.86811E-03, tol = 0.47676E+04, time = 6.67 | CG iter. 35 -- res = 0.45565E-03, tol = 0.47676E+04, time = 6.41 | Final CG iter 36 -- res = 0.45565E-03, tol = 0.47676E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.323 2.769 | New value 2.555 | Old value 3.323 | Difference -0.768 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.35257E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.19440E+02, tol = 0.47627E+18, time = 2.44 | CG iter. 3 -- res = 0.38889E+00, tol = 0.47627E+18, time = 3.06 | CG iter. 4 -- res = 0.67430E-03, tol = 0.47627E+18, time = 2.62 | Final CG iter 5 -- res = 0.18625E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10790320.280 | (Sampled value in CG: 10804266.451 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.674221 | New value = -3.491794 | poltype: 1 pol: 1 CPU time specind = 2.5116920E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.21578E+07, tol = 0.24386E+01, time = 2.73 | CG iter. 2 -- res = 0.82235E+06, tol = 0.24386E+01, time = 3.38 | CG iter. 3 -- res = 0.16044E+06, tol = 0.24386E+01, time = 2.83 | CG iter. 4 -- res = 0.57954E+05, tol = 0.24386E+01, time = 2.56 | CG iter. 5 -- res = 0.32845E+05, tol = 0.24386E+01, time = 2.85 | CG iter. 6 -- res = 0.17518E+05, tol = 0.24386E+01, time = 3.01 | CG iter. 7 -- res = 0.74611E+04, tol = 0.24386E+01, time = 2.81 | CG iter. 8 -- res = 0.35646E+04, tol = 0.24386E+01, time = 3.14 | CG iter. 9 -- res = 0.15703E+04, tol = 0.24386E+01, time = 2.89 | CG iter. 10 -- res = 0.60430E+03, tol = 0.24386E+01, time = 3.63 | CG iter. 11 -- res = 0.24723E+03, tol = 0.24386E+01, time = 3.53 | CG iter. 12 -- res = 0.11557E+03, tol = 0.24386E+01, time = 3.30 | CG iter. 13 -- res = 0.61523E+02, tol = 0.24386E+01, time = 3.37 | CG iter. 14 -- res = 0.31388E+02, tol = 0.24386E+01, time = 2.78 | CG iter. 15 -- res = 0.15522E+02, tol = 0.24386E+01, time = 2.80 | CG iter. 16 -- res = 0.72805E+01, tol = 0.24386E+01, time = 2.81 | CG iter. 17 -- res = 0.30945E+01, tol = 0.24386E+01, time = 2.63 | CG iter. 18 -- res = 0.13370E+01, tol = 0.24386E+01, time = 2.94 | CG iter. 19 -- res = 0.63291E+00, tol = 0.24386E+01, time = 2.56 | CG iter. 20 -- res = 0.31755E+00, tol = 0.24386E+01, time = 3.11 | CG iter. 21 -- res = 0.17266E+00, tol = 0.24386E+01, time = 2.74 | CG iter. 22 -- res = 0.84535E-01, tol = 0.24386E+01, time = 2.68 | CG iter. 23 -- res = 0.37683E-01, tol = 0.24386E+01, time = 2.68 | CG iter. 24 -- res = 0.17271E-01, tol = 0.24386E+01, time = 2.73 | CG iter. 25 -- res = 0.80985E-02, tol = 0.24386E+01, time = 2.77 | CG iter. 26 -- res = 0.40685E-02, tol = 0.24386E+01, time = 2.94 | CG iter. 27 -- res = 0.21159E-02, tol = 0.24386E+01, time = 2.99 | CG iter. 28 -- res = 0.11118E-02, tol = 0.24386E+01, time = 2.93 | CG iter. 29 -- res = 0.52827E-03, tol = 0.24386E+01, time = 2.85 | CG iter. 30 -- res = 0.24575E-03, tol = 0.24386E+01, time = 2.61 | CG iter. 31 -- res = 0.12113E-03, tol = 0.24386E+01, time = 3.15 | CG iter. 32 -- res = 0.58681E-04, tol = 0.24386E+01, time = 2.74 | CG iter. 33 -- res = 0.29694E-04, tol = 0.24386E+01, time = 2.66 | CG iter. 34 -- res = 0.14785E-04, tol = 0.24386E+01, time = 2.86 | CG iter. 35 -- res = 0.75410E-05, tol = 0.24386E+01, time = 2.70 | CG iter. 36 -- res = 0.35772E-05, tol = 0.24386E+01, time = 3.00 | CG iter. 37 -- res = 0.16243E-05, tol = 0.24386E+01, time = 2.78 | CG iter. 38 -- res = 0.80476E-06, tol = 0.24386E+01, time = 3.12 | CG iter. 39 -- res = 0.37790E-06, tol = 0.24386E+01, time = 2.45 | CG iter. 40 -- res = 0.18216E-06, tol = 0.24386E+01, time = 2.76 | CG iter. 41 -- res = 0.92324E-07, tol = 0.24386E+01, time = 2.75 | CG iter. 42 -- res = 0.44197E-07, tol = 0.24386E+01, time = 2.95 | CG iter. 43 -- res = 0.21226E-07, tol = 0.24386E+01, time = 3.34 | CG iter. 44 -- res = 0.98080E-08, tol = 0.24386E+01, time = 2.68 | CG iter. 45 -- res = 0.45539E-08, tol = 0.24386E+01, time = 2.73 | CG iter. 46 -- res = 0.22233E-08, tol = 0.24386E+01, time = 2.95 | CG iter. 47 -- res = 0.11318E-08, tol = 0.24386E+01, time = 2.89 | CG iter. 48 -- res = 0.58121E-09, tol = 0.24386E+01, time = 3.55 | CG iter. 49 -- res = 0.27470E-09, tol = 0.24386E+01, time = 2.84 | CG iter. 50 -- res = 0.11736E-09, tol = 0.24386E+01, time = 2.65 | Final CG iter 51 -- res = 0.11736E-09, tol = 0.24386E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.493 5.353 | New value 0.654 | Old value -0.493 | Difference 1.147 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.22371E+04, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.14016E+02, tol = 0.47627E+18, time = 2.43 | CG iter. 3 -- res = 0.16058E+00, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.29091E-03, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.34632E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10790320.280 | (Sampled value in CG: 10804094.479 ) | CPU time specind = 1222.791 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.69571E+08, tol = 0.57616E+04, time = 18.50 | CG iter. 2 -- res = 0.58872E+08, tol = 0.57616E+04, time = 12.18 | CG iter. 3 -- res = 0.15240E+08, tol = 0.57616E+04, time = 12.08 | CG iter. 4 -- res = 0.65267E+07, tol = 0.57616E+04, time = 12.11 | CG iter. 5 -- res = 0.38919E+07, tol = 0.57616E+04, time = 11.91 | CG iter. 6 -- res = 0.22545E+07, tol = 0.57616E+04, time = 12.59 | CG iter. 7 -- res = 0.13340E+07, tol = 0.57616E+04, time = 12.03 | CG iter. 8 -- res = 0.88111E+06, tol = 0.57616E+04, time = 13.76 | CG iter. 9 -- res = 0.56955E+06, tol = 0.57616E+04, time = 12.42 | CG iter. 10 -- res = 0.33548E+06, tol = 0.57616E+04, time = 11.78 | CG iter. 11 -- res = 0.17933E+06, tol = 0.57616E+04, time = 12.07 | CG iter. 12 -- res = 0.96918E+05, tol = 0.57616E+04, time = 12.48 | CG iter. 13 -- res = 0.51313E+05, tol = 0.57616E+04, time = 12.35 | CG iter. 14 -- res = 0.29524E+05, tol = 0.57616E+04, time = 12.02 | CG iter. 15 -- res = 0.18737E+05, tol = 0.57616E+04, time = 12.27 | CG iter. 16 -- res = 0.12968E+05, tol = 0.57616E+04, time = 12.19 | CG iter. 17 -- res = 0.92298E+04, tol = 0.57616E+04, time = 11.78 | CG iter. 18 -- res = 0.64627E+04, tol = 0.57616E+04, time = 12.18 | CG iter. 19 -- res = 0.44384E+04, tol = 0.57616E+04, time = 12.09 | CG iter. 20 -- res = 0.31423E+04, tol = 0.57616E+04, time = 12.14 | CG iter. 21 -- res = 0.23284E+04, tol = 0.57616E+04, time = 12.40 | CG iter. 22 -- res = 0.19884E+04, tol = 0.57616E+04, time = 12.08 | CG iter. 23 -- res = 0.19738E+04, tol = 0.57616E+04, time = 11.81 | CG iter. 24 -- res = 0.21297E+04, tol = 0.57616E+04, time = 12.14 | CG iter. 25 -- res = 0.22967E+04, tol = 0.57616E+04, time = 18.73 | CG iter. 26 -- res = 0.23582E+04, tol = 0.57616E+04, time = 12.21 | CG iter. 27 -- res = 0.22273E+04, tol = 0.57616E+04, time = 11.90 | CG iter. 28 -- res = 0.19219E+04, tol = 0.57616E+04, time = 12.46 | CG iter. 29 -- res = 0.17009E+04, tol = 0.57616E+04, time = 12.07 | CG iter. 30 -- res = 0.15086E+04, tol = 0.57616E+04, time = 11.86 | CG iter. 31 -- res = 0.13224E+04, tol = 0.57616E+04, time = 12.30 | CG iter. 32 -- res = 0.11502E+04, tol = 0.57616E+04, time = 14.30 | CG iter. 33 -- res = 0.94780E+03, tol = 0.57616E+04, time = 12.60 | CG iter. 34 -- res = 0.73634E+03, tol = 0.57616E+04, time = 12.07 | CG iter. 35 -- res = 0.54657E+03, tol = 0.57616E+04, time = 12.13 | CG iter. 36 -- res = 0.43627E+03, tol = 0.57616E+04, time = 12.30 | CG iter. 37 -- res = 0.37827E+03, tol = 0.57616E+04, time = 11.82 | CG iter. 38 -- res = 0.34979E+03, tol = 0.57616E+04, time = 11.73 | CG iter. 39 -- res = 0.33188E+03, tol = 0.57616E+04, time = 12.22 | CG iter. 40 -- res = 0.30904E+03, tol = 0.57616E+04, time = 12.03 | CG iter. 41 -- res = 0.27888E+03, tol = 0.57616E+04, time = 13.06 | CG iter. 42 -- res = 0.24480E+03, tol = 0.57616E+04, time = 12.22 | CG iter. 43 -- res = 0.21454E+03, tol = 0.57616E+04, time = 11.98 | CG iter. 44 -- res = 0.19567E+03, tol = 0.57616E+04, time = 12.13 | CG iter. 45 -- res = 0.18269E+03, tol = 0.57616E+04, time = 11.47 | CG iter. 46 -- res = 0.16721E+03, tol = 0.57616E+04, time = 11.94 | CG iter. 47 -- res = 0.14560E+03, tol = 0.57616E+04, time = 11.90 | CG iter. 48 -- res = 0.12010E+03, tol = 0.57616E+04, time = 12.05 | CG iter. 49 -- res = 0.97416E+02, tol = 0.57616E+04, time = 18.50 | CG iter. 50 -- res = 0.80938E+02, tol = 0.57616E+04, time = 11.83 | CG iter. 51 -- res = 0.70774E+02, tol = 0.57616E+04, time = 11.92 | CG iter. 52 -- res = 0.64808E+02, tol = 0.57616E+04, time = 11.86 | CG iter. 53 -- res = 0.60980E+02, tol = 0.57616E+04, time = 11.68 | CG iter. 54 -- res = 0.57440E+02, tol = 0.57616E+04, time = 11.93 | CG iter. 55 -- res = 0.53648E+02, tol = 0.57616E+04, time = 12.08 | CG iter. 56 -- res = 0.48735E+02, tol = 0.57616E+04, time = 14.20 | CG iter. 57 -- res = 0.44614E+02, tol = 0.57616E+04, time = 12.78 | CG iter. 58 -- res = 0.40608E+02, tol = 0.57616E+04, time = 11.93 | CG iter. 59 -- res = 0.38033E+02, tol = 0.57616E+04, time = 12.20 | CG iter. 60 -- res = 0.35886E+02, tol = 0.57616E+04, time = 11.64 | Final CG iter 61 -- res = 0.35886E+02, tol = 0.57616E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.945 ( -229.618 -2230.460 2513.030 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8058848.857 | Old band monopole 10790366.691 | Change to band monopole -2731517.835 | Change to component monopole 2731506.086 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.554 2.745 | New value -0.128 | Old value 2.554 | Difference -2.682 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.100 ( 6.639 10.507 -9.842 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.916 6.205 | New value -4.641 | Old value 0.916 | Difference -5.557 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.42154E+06, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.32084E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.13669E+01, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.16521E-02, tol = 0.47627E+18, time = 2.34 | Final CG iter 5 -- res = 0.12299E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8058814.194 | (Sampled value in CG: 8042359.370 ) | Chain = 1 -- chisq = 0.81533334E+09 | Chain = 1 -- wall time = 6215.449 sec Available RAM: MemAvailable: 377748560 kB Available Swap: SwapFree: 1112625224 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 323 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446368 | --> Sampling calibration, mode = relcal | relcal = 1.3429557E-02 7.4605923E-04 -1.6005946E-03 -1.2575022E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1294400 0.1408480 97036787.7874381 | BP delta = 0.1191229 0.1305309 97036784.9160860 | BP chisq diff = -2.9, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632299 | --> Sampling calibration, mode = relcal | relcal = -2.8209335E-03 -7.0263568E-04 1.6785268E-03 1.6131084E-03 -4.0814772E-04 6.4008171E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5623184 15219000.4644869 | BP delta = 0.0000000E+00 -0.5599695 15219001.6485426 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17985195997926 | --> Sampling calibration, mode = relcal | relcal = -7.4022003E-02 -5.7684749E-02 9.0811007E-02 4.0895741E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.2730215E-04 3.4572156E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1493E-02 | 2: delta_r/delta_0: 4.7356E-04 | 3: delta_s/delta_0: 1.9381E-07 | 4: delta_r/delta_0: 2.2304E-08 | 5: delta_s/delta_0: 8.5159E-09 | 6: delta_r/delta_0: 1.6498E-09 | 7: delta_s/delta_0: 7.1214E-09 | 8: delta_r/delta_0: 1.5406E-10 | 9: delta_s/delta_0: 8.6876E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.139974379308483E-003 2.743895384278755E-005 | BP delta = 8.0611281E-02 0.1017045 50483205.9300723 | BP delta = 8.2293458E-02 0.1033866 50483207.3076187 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02594812 | --> Sampling calibration, mode = relcal | relcal = -0.1066357 -9.5520794E-02 0.1448946 5.7261910E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0191140E-03 1.5435258E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0793E-05 | 2: delta_r/delta_0: 1.1272E-06 | 3: delta_s/delta_0: 2.2846E-07 | 4: delta_r/delta_0: 5.6056E-08 | 5: delta_s/delta_0: 1.4639E-08 | 6: delta_r/delta_0: 7.5739E-09 | 7: delta_s/delta_0: 3.5755E-07 | 8: delta_r/delta_0: 1.6724E-08 | 9: delta_s/delta_0: 8.6804E-10 | 10: delta_r/delta_0: 4.8076E-10 | 11: delta_s/delta_0: 8.0762E-09 | 12: delta_r/delta_0: 4.1198E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.397579706403179E-003 2.810933918610894E-005 | BP delta = -0.3454308 -0.3144599 57390534.0481578 | BP delta = -0.3572603 -0.3262894 57390536.8099785 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81208691 | --> Sampling calibration, mode = relcal | relcal = 0.2953276 0.2248870 -0.2837854 -0.2364292 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8440536E-03 5.1978114E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.0711E-04 | 2: delta_r/delta_0: 1.9391E-05 | 3: delta_s/delta_0: 1.3646E-05 | 4: delta_r/delta_0: 7.5038E-07 | 5: delta_s/delta_0: 4.3231E-07 | 6: delta_r/delta_0: 2.0212E-07 | 7: delta_s/delta_0: 7.7571E-08 | 8: delta_r/delta_0: 4.7782E-08 | 9: delta_s/delta_0: 4.4054E-08 | 10: delta_r/delta_0: 6.7927E-09 | 11: delta_s/delta_0: 1.4323E-09 | 12: delta_r/delta_0: 9.8013E-10 | 13: delta_s/delta_0: 3.3079E-10 | 14: delta_r/delta_0: 2.0471E-10 | 15: delta_s/delta_0: 8.1051E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.306053485087068E-002 4.022436896835308E-005 | BP delta = -0.2791305 -0.3124330 72479116.3207470 | BP delta = -0.2084168 -0.2417194 72479117.1100130 | BP chisq diff = 0.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95889579 | --> Sampling calibration, mode = relcal | relcal = 0.1065323 0.1394346 -0.1102775 -0.1356893 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0022268E-02 1.4190880E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9519E+00 | 2: delta_r/delta_0: 7.0305E-02 | 3: delta_s/delta_0: 4.2389E-02 | 4: delta_r/delta_0: 2.2360E-03 | 5: delta_s/delta_0: 7.0660E-06 | 6: delta_r/delta_0: 3.0663E-06 | 7: delta_s/delta_0: 5.9184E-06 | 8: delta_r/delta_0: 1.7242E-06 | 9: delta_s/delta_0: 1.4939E-01 | 10: delta_r/delta_0: 2.0957E-02 | 11: delta_s/delta_0: 4.3219E-08 | 12: delta_r/delta_0: 3.7008E-09 | 13: delta_s/delta_0: 9.5956E-08 | 14: delta_r/delta_0: 1.8127E-08 | 15: delta_s/delta_0: 4.3789E-09 | 16: delta_r/delta_0: 3.7527E-10 | 17: delta_s/delta_0: 1.7290E-10 | 18: delta_r/delta_0: 1.2205E-10 | 19: delta_s/delta_0: 6.3524E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.100277921751075 3.698163122892767E-005 | BP delta = 0.1445927 0.2548585 72786455.6559493 | BP delta = 0.1515485 0.2618143 72786455.8017310 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182632 | New value = -3.109761 | poltype: 2 pol: 1 CPU time specind = 9.8371029E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116379 | New value = -3.217513 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172552 | New value = -3.123798 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.223488 | New value = -3.086412 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.082104 | New value = -3.206891 | poltype: 2 pol: 2 CPU time specind = 2.0426989E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.13645E+08, tol = 0.85805E+01, time = 6.04 | CG iter. 2 -- res = 0.37469E+06, tol = 0.85805E+01, time = 5.88 | CG iter. 3 -- res = 0.84481E+05, tol = 0.85805E+01, time = 5.78 | CG iter. 4 -- res = 0.78849E+05, tol = 0.85805E+01, time = 5.68 | CG iter. 5 -- res = 0.75694E+05, tol = 0.85805E+01, time = 6.09 | CG iter. 6 -- res = 0.73696E+05, tol = 0.85805E+01, time = 6.34 | CG iter. 7 -- res = 0.64486E+05, tol = 0.85805E+01, time = 5.85 | CG iter. 8 -- res = 0.44610E+05, tol = 0.85805E+01, time = 7.34 | CG iter. 9 -- res = 0.36441E+05, tol = 0.85805E+01, time = 6.60 | CG iter. 10 -- res = 0.29241E+05, tol = 0.85805E+01, time = 5.68 | CG iter. 11 -- res = 0.20716E+05, tol = 0.85805E+01, time = 6.02 | CG iter. 12 -- res = 0.14625E+05, tol = 0.85805E+01, time = 5.56 | CG iter. 13 -- res = 0.11566E+05, tol = 0.85805E+01, time = 5.91 | CG iter. 14 -- res = 0.98482E+04, tol = 0.85805E+01, time = 5.48 | CG iter. 15 -- res = 0.77836E+04, tol = 0.85805E+01, time = 5.69 | CG iter. 16 -- res = 0.54575E+04, tol = 0.85805E+01, time = 6.22 | CG iter. 17 -- res = 0.37284E+04, tol = 0.85805E+01, time = 6.06 | CG iter. 18 -- res = 0.29133E+04, tol = 0.85805E+01, time = 6.04 | CG iter. 19 -- res = 0.24164E+04, tol = 0.85805E+01, time = 5.77 | CG iter. 20 -- res = 0.18820E+04, tol = 0.85805E+01, time = 5.94 | CG iter. 21 -- res = 0.12990E+04, tol = 0.85805E+01, time = 5.82 | CG iter. 22 -- res = 0.10038E+04, tol = 0.85805E+01, time = 5.49 | CG iter. 23 -- res = 0.88258E+03, tol = 0.85805E+01, time = 5.68 | CG iter. 24 -- res = 0.71278E+03, tol = 0.85805E+01, time = 5.80 | CG iter. 25 -- res = 0.51232E+03, tol = 0.85805E+01, time = 5.88 | CG iter. 26 -- res = 0.38373E+03, tol = 0.85805E+01, time = 6.42 | CG iter. 27 -- res = 0.32513E+03, tol = 0.85805E+01, time = 5.89 | CG iter. 28 -- res = 0.27740E+03, tol = 0.85805E+01, time = 5.81 | CG iter. 29 -- res = 0.21292E+03, tol = 0.85805E+01, time = 5.71 | CG iter. 30 -- res = 0.15748E+03, tol = 0.85805E+01, time = 6.49 | CG iter. 31 -- res = 0.12829E+03, tol = 0.85805E+01, time = 6.09 | CG iter. 32 -- res = 0.10856E+03, tol = 0.85805E+01, time = 5.82 | CG iter. 33 -- res = 0.89313E+02, tol = 0.85805E+01, time = 6.06 | CG iter. 34 -- res = 0.66893E+02, tol = 0.85805E+01, time = 5.73 | CG iter. 35 -- res = 0.53143E+02, tol = 0.85805E+01, time = 5.85 | CG iter. 36 -- res = 0.45513E+02, tol = 0.85805E+01, time = 5.92 | CG iter. 37 -- res = 0.37483E+02, tol = 0.85805E+01, time = 5.94 | CG iter. 38 -- res = 0.28563E+02, tol = 0.85805E+01, time = 5.87 | CG iter. 39 -- res = 0.22411E+02, tol = 0.85805E+01, time = 5.78 | CG iter. 40 -- res = 0.18940E+02, tol = 0.85805E+01, time = 5.96 | CG iter. 41 -- res = 0.16137E+02, tol = 0.85805E+01, time = 5.82 | CG iter. 42 -- res = 0.12297E+02, tol = 0.85805E+01, time = 6.02 | CG iter. 43 -- res = 0.94040E+01, tol = 0.85805E+01, time = 12.11 | CG iter. 44 -- res = 0.77826E+01, tol = 0.85805E+01, time = 5.52 | CG iter. 45 -- res = 0.63671E+01, tol = 0.85805E+01, time = 6.12 | CG iter. 46 -- res = 0.49829E+01, tol = 0.85805E+01, time = 5.85 | CG iter. 47 -- res = 0.38368E+01, tol = 0.85805E+01, time = 5.44 | CG iter. 48 -- res = 0.30096E+01, tol = 0.85805E+01, time = 6.45 | CG iter. 49 -- res = 0.25379E+01, tol = 0.85805E+01, time = 5.53 | CG iter. 50 -- res = 0.20766E+01, tol = 0.85805E+01, time = 5.85 | Final CG iter 51 -- res = 0.20766E+01, tol = 0.85805E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9277900.170 | Old band monopole 8058848.857 | Change to band monopole 1219051.313 | Change to component monopole -1219046.070 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.16796E+06, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.14103E+03, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.26862E+01, tol = 0.47627E+18, time = 2.82 | CG iter. 4 -- res = 0.25224E-01, tol = 0.47627E+18, time = 2.88 | Final CG iter 5 -- res = 0.76029E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9277860.264 | (Sampled value in CG: 9365024.512 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.531965 | New value = 1.472317 | poltype: 2 pol: 1 CPU time specind = 1.2600899E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.534744 | New value = 1.511420 | poltype: 2 pol: 2 CPU time specind = 1.5023947E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.24725E+08, tol = 0.47498E+04, time = 6.67 | CG iter. 2 -- res = 0.53114E+07, tol = 0.47498E+04, time = 6.87 | CG iter. 3 -- res = 0.82776E+06, tol = 0.47498E+04, time = 7.00 | CG iter. 4 -- res = 0.34871E+06, tol = 0.47498E+04, time = 6.77 | CG iter. 5 -- res = 0.15179E+06, tol = 0.47498E+04, time = 6.64 | CG iter. 6 -- res = 0.80326E+05, tol = 0.47498E+04, time = 6.81 | CG iter. 7 -- res = 0.44158E+05, tol = 0.47498E+04, time = 6.68 | CG iter. 8 -- res = 0.21326E+05, tol = 0.47498E+04, time = 6.47 | CG iter. 9 -- res = 0.93028E+04, tol = 0.47498E+04, time = 6.67 | CG iter. 10 -- res = 0.38065E+04, tol = 0.47498E+04, time = 6.59 | CG iter. 11 -- res = 0.16862E+04, tol = 0.47498E+04, time = 6.72 | CG iter. 12 -- res = 0.86403E+03, tol = 0.47498E+04, time = 6.38 | CG iter. 13 -- res = 0.49650E+03, tol = 0.47498E+04, time = 6.75 | CG iter. 14 -- res = 0.28433E+03, tol = 0.47498E+04, time = 6.36 | CG iter. 15 -- res = 0.14583E+03, tol = 0.47498E+04, time = 6.60 | CG iter. 16 -- res = 0.69310E+02, tol = 0.47498E+04, time = 6.54 | CG iter. 17 -- res = 0.32496E+02, tol = 0.47498E+04, time = 6.90 | CG iter. 18 -- res = 0.16291E+02, tol = 0.47498E+04, time = 6.84 | CG iter. 19 -- res = 0.89816E+01, tol = 0.47498E+04, time = 6.70 | CG iter. 20 -- res = 0.51473E+01, tol = 0.47498E+04, time = 13.78 | CG iter. 21 -- res = 0.27715E+01, tol = 0.47498E+04, time = 6.80 | CG iter. 22 -- res = 0.14118E+01, tol = 0.47498E+04, time = 6.84 | CG iter. 23 -- res = 0.71747E+00, tol = 0.47498E+04, time = 6.83 | CG iter. 24 -- res = 0.36491E+00, tol = 0.47498E+04, time = 6.71 | CG iter. 25 -- res = 0.19862E+00, tol = 0.47498E+04, time = 6.59 | CG iter. 26 -- res = 0.11157E+00, tol = 0.47498E+04, time = 6.86 | CG iter. 27 -- res = 0.61394E-01, tol = 0.47498E+04, time = 6.73 | CG iter. 28 -- res = 0.32701E-01, tol = 0.47498E+04, time = 6.78 | CG iter. 29 -- res = 0.17308E-01, tol = 0.47498E+04, time = 7.00 | CG iter. 30 -- res = 0.92005E-02, tol = 0.47498E+04, time = 6.40 | CG iter. 31 -- res = 0.50164E-02, tol = 0.47498E+04, time = 6.57 | CG iter. 32 -- res = 0.28512E-02, tol = 0.47498E+04, time = 6.85 | CG iter. 33 -- res = 0.16001E-02, tol = 0.47498E+04, time = 8.13 | CG iter. 34 -- res = 0.85613E-03, tol = 0.47498E+04, time = 6.93 | CG iter. 35 -- res = 0.44410E-03, tol = 0.47498E+04, time = 6.83 | Final CG iter 36 -- res = 0.44410E-03, tol = 0.47498E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.142 2.766 | New value -2.672 | Old value -0.142 | Difference -2.531 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.34865E+06, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.10095E+03, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.14826E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.13469E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.31208E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9277860.264 | (Sampled value in CG: 9366387.375 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.491794 | New value = -3.582679 | poltype: 1 pol: 1 CPU time specind = 1.9653797E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.30084E+07, tol = 0.30425E+01, time = 2.92 | CG iter. 2 -- res = 0.13268E+07, tol = 0.30425E+01, time = 3.00 | CG iter. 3 -- res = 0.28619E+06, tol = 0.30425E+01, time = 2.54 | CG iter. 4 -- res = 0.12080E+06, tol = 0.30425E+01, time = 2.66 | CG iter. 5 -- res = 0.74466E+05, tol = 0.30425E+01, time = 2.81 | CG iter. 6 -- res = 0.36061E+05, tol = 0.30425E+01, time = 2.84 | CG iter. 7 -- res = 0.12765E+05, tol = 0.30425E+01, time = 2.57 | CG iter. 8 -- res = 0.56797E+04, tol = 0.30425E+01, time = 2.93 | CG iter. 9 -- res = 0.24272E+04, tol = 0.30425E+01, time = 2.63 | CG iter. 10 -- res = 0.99658E+03, tol = 0.30425E+01, time = 2.87 | CG iter. 11 -- res = 0.42063E+03, tol = 0.30425E+01, time = 2.95 | CG iter. 12 -- res = 0.20501E+03, tol = 0.30425E+01, time = 3.14 | CG iter. 13 -- res = 0.10326E+03, tol = 0.30425E+01, time = 2.90 | CG iter. 14 -- res = 0.50461E+02, tol = 0.30425E+01, time = 2.74 | CG iter. 15 -- res = 0.22944E+02, tol = 0.30425E+01, time = 3.07 | CG iter. 16 -- res = 0.96324E+01, tol = 0.30425E+01, time = 2.90 | CG iter. 17 -- res = 0.40917E+01, tol = 0.30425E+01, time = 2.99 | CG iter. 18 -- res = 0.19000E+01, tol = 0.30425E+01, time = 2.53 | CG iter. 19 -- res = 0.91639E+00, tol = 0.30425E+01, time = 2.97 | CG iter. 20 -- res = 0.48500E+00, tol = 0.30425E+01, time = 2.65 | CG iter. 21 -- res = 0.24498E+00, tol = 0.30425E+01, time = 2.85 | CG iter. 22 -- res = 0.10980E+00, tol = 0.30425E+01, time = 2.60 | CG iter. 23 -- res = 0.48775E-01, tol = 0.30425E+01, time = 2.91 | CG iter. 24 -- res = 0.22937E-01, tol = 0.30425E+01, time = 2.62 | CG iter. 25 -- res = 0.11142E-01, tol = 0.30425E+01, time = 2.79 | CG iter. 26 -- res = 0.57027E-02, tol = 0.30425E+01, time = 2.48 | CG iter. 27 -- res = 0.29709E-02, tol = 0.30425E+01, time = 2.77 | CG iter. 28 -- res = 0.14530E-02, tol = 0.30425E+01, time = 2.86 | CG iter. 29 -- res = 0.65165E-03, tol = 0.30425E+01, time = 2.61 | CG iter. 30 -- res = 0.30432E-03, tol = 0.30425E+01, time = 3.02 | CG iter. 31 -- res = 0.14484E-03, tol = 0.30425E+01, time = 2.78 | CG iter. 32 -- res = 0.71978E-04, tol = 0.30425E+01, time = 2.58 | CG iter. 33 -- res = 0.35766E-04, tol = 0.30425E+01, time = 3.06 | CG iter. 34 -- res = 0.17763E-04, tol = 0.30425E+01, time = 2.35 | CG iter. 35 -- res = 0.89926E-05, tol = 0.30425E+01, time = 2.96 | CG iter. 36 -- res = 0.42249E-05, tol = 0.30425E+01, time = 2.82 | CG iter. 37 -- res = 0.18611E-05, tol = 0.30425E+01, time = 2.76 | CG iter. 38 -- res = 0.92629E-06, tol = 0.30425E+01, time = 2.59 | CG iter. 39 -- res = 0.47474E-06, tol = 0.30425E+01, time = 2.90 | CG iter. 40 -- res = 0.23377E-06, tol = 0.30425E+01, time = 2.79 | CG iter. 41 -- res = 0.11005E-06, tol = 0.30425E+01, time = 2.93 | CG iter. 42 -- res = 0.52444E-07, tol = 0.30425E+01, time = 2.87 | CG iter. 43 -- res = 0.24111E-07, tol = 0.30425E+01, time = 2.54 | CG iter. 44 -- res = 0.11405E-07, tol = 0.30425E+01, time = 2.91 | CG iter. 45 -- res = 0.56914E-08, tol = 0.30425E+01, time = 2.99 | CG iter. 46 -- res = 0.28310E-08, tol = 0.30425E+01, time = 3.03 | CG iter. 47 -- res = 0.14126E-08, tol = 0.30425E+01, time = 2.68 | CG iter. 48 -- res = 0.63858E-09, tol = 0.30425E+01, time = 2.50 | CG iter. 49 -- res = 0.28772E-09, tol = 0.30425E+01, time = 2.72 | CG iter. 50 -- res = 0.13860E-09, tol = 0.30425E+01, time = 3.06 | Final CG iter 51 -- res = 0.13860E-09, tol = 0.30425E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.947 4.782 | New value 0.457 | Old value 1.947 | Difference -1.490 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.78889E+04, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.27999E+02, tol = 0.47627E+18, time = 4.03 | CG iter. 3 -- res = 0.12407E+01, tol = 0.47627E+18, time = 6.62 | CG iter. 4 -- res = 0.57869E-03, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.14537E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9277860.264 | (Sampled value in CG: 9347448.697 ) | CPU time specind = 1230.637 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.70800E+08, tol = 0.57571E+04, time = 12.16 | CG iter. 2 -- res = 0.59802E+08, tol = 0.57571E+04, time = 11.99 | CG iter. 3 -- res = 0.15660E+08, tol = 0.57571E+04, time = 11.77 | CG iter. 4 -- res = 0.67332E+07, tol = 0.57571E+04, time = 14.22 | CG iter. 5 -- res = 0.40810E+07, tol = 0.57571E+04, time = 12.31 | CG iter. 6 -- res = 0.23813E+07, tol = 0.57571E+04, time = 11.61 | CG iter. 7 -- res = 0.14188E+07, tol = 0.57571E+04, time = 12.24 | CG iter. 8 -- res = 0.95266E+06, tol = 0.57571E+04, time = 12.17 | CG iter. 9 -- res = 0.62297E+06, tol = 0.57571E+04, time = 11.76 | CG iter. 10 -- res = 0.37261E+06, tol = 0.57571E+04, time = 12.15 | CG iter. 11 -- res = 0.20293E+06, tol = 0.57571E+04, time = 12.02 | CG iter. 12 -- res = 0.11615E+06, tol = 0.57571E+04, time = 12.71 | CG iter. 13 -- res = 0.68894E+05, tol = 0.57571E+04, time = 13.98 | CG iter. 14 -- res = 0.43992E+05, tol = 0.57571E+04, time = 12.42 | CG iter. 15 -- res = 0.32929E+05, tol = 0.57571E+04, time = 16.06 | CG iter. 16 -- res = 0.28120E+05, tol = 0.57571E+04, time = 16.60 | CG iter. 17 -- res = 0.25396E+05, tol = 0.57571E+04, time = 16.93 | CG iter. 18 -- res = 0.22713E+05, tol = 0.57571E+04, time = 16.36 | CG iter. 19 -- res = 0.20043E+05, tol = 0.57571E+04, time = 22.02 | CG iter. 20 -- res = 0.18414E+05, tol = 0.57571E+04, time = 19.72 | CG iter. 21 -- res = 0.17096E+05, tol = 0.57571E+04, time = 16.67 | CG iter. 22 -- res = 0.17166E+05, tol = 0.57571E+04, time = 13.66 | CG iter. 23 -- res = 0.17314E+05, tol = 0.57571E+04, time = 12.50 | CG iter. 24 -- res = 0.16740E+05, tol = 0.57571E+04, time = 13.52 | CG iter. 25 -- res = 0.14454E+05, tol = 0.57571E+04, time = 13.30 | CG iter. 26 -- res = 0.11276E+05, tol = 0.57571E+04, time = 12.45 | CG iter. 27 -- res = 0.84966E+04, tol = 0.57571E+04, time = 12.14 | CG iter. 28 -- res = 0.63999E+04, tol = 0.57571E+04, time = 11.83 | CG iter. 29 -- res = 0.52818E+04, tol = 0.57571E+04, time = 12.28 | CG iter. 30 -- res = 0.45617E+04, tol = 0.57571E+04, time = 12.04 | CG iter. 31 -- res = 0.40132E+04, tol = 0.57571E+04, time = 12.16 | CG iter. 32 -- res = 0.36364E+04, tol = 0.57571E+04, time = 12.37 | CG iter. 33 -- res = 0.32233E+04, tol = 0.57571E+04, time = 12.58 | CG iter. 34 -- res = 0.27442E+04, tol = 0.57571E+04, time = 12.05 | CG iter. 35 -- res = 0.23383E+04, tol = 0.57571E+04, time = 12.43 | CG iter. 36 -- res = 0.20956E+04, tol = 0.57571E+04, time = 12.09 | CG iter. 37 -- res = 0.19889E+04, tol = 0.57571E+04, time = 12.48 | CG iter. 38 -- res = 0.18946E+04, tol = 0.57571E+04, time = 12.95 | CG iter. 39 -- res = 0.17085E+04, tol = 0.57571E+04, time = 11.69 | CG iter. 40 -- res = 0.14496E+04, tol = 0.57571E+04, time = 11.94 | CG iter. 41 -- res = 0.11697E+04, tol = 0.57571E+04, time = 14.61 | CG iter. 42 -- res = 0.94976E+03, tol = 0.57571E+04, time = 17.42 | CG iter. 43 -- res = 0.80626E+03, tol = 0.57571E+04, time = 13.16 | CG iter. 44 -- res = 0.72244E+03, tol = 0.57571E+04, time = 12.06 | CG iter. 45 -- res = 0.66317E+03, tol = 0.57571E+04, time = 12.11 | CG iter. 46 -- res = 0.60961E+03, tol = 0.57571E+04, time = 12.34 | CG iter. 47 -- res = 0.55300E+03, tol = 0.57571E+04, time = 12.33 | CG iter. 48 -- res = 0.49409E+03, tol = 0.57571E+04, time = 13.70 | CG iter. 49 -- res = 0.45124E+03, tol = 0.57571E+04, time = 11.96 | CG iter. 50 -- res = 0.41227E+03, tol = 0.57571E+04, time = 12.18 | CG iter. 51 -- res = 0.38015E+03, tol = 0.57571E+04, time = 12.18 | CG iter. 52 -- res = 0.37317E+03, tol = 0.57571E+04, time = 12.02 | CG iter. 53 -- res = 0.35318E+03, tol = 0.57571E+04, time = 12.45 | CG iter. 54 -- res = 0.31592E+03, tol = 0.57571E+04, time = 12.08 | CG iter. 55 -- res = 0.27162E+03, tol = 0.57571E+04, time = 12.60 | CG iter. 56 -- res = 0.23564E+03, tol = 0.57571E+04, time = 12.37 | CG iter. 57 -- res = 0.20815E+03, tol = 0.57571E+04, time = 12.92 | CG iter. 58 -- res = 0.18903E+03, tol = 0.57571E+04, time = 12.29 | CG iter. 59 -- res = 0.17495E+03, tol = 0.57571E+04, time = 11.97 | CG iter. 60 -- res = 0.16898E+03, tol = 0.57571E+04, time = 11.86 | Final CG iter 61 -- res = 0.16898E+03, tol = 0.57571E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.841 ( -229.601 -2231.843 2514.630 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8237665.046 | Old band monopole 9277900.170 | Change to band monopole -1040235.124 | Change to component monopole 1040230.650 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.732 2.738 | New value 3.361 | Old value -2.732 | Difference 6.093 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.727 ( 6.486 12.745 -13.216 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.163 3.676 | New value -3.165 | Old value 7.163 | Difference -10.328 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.19230E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.24870E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.79516E+00, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.13851E-02, tol = 0.47627E+18, time = 2.27 | Final CG iter 5 -- res = 0.46396E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8237629.614 | (Sampled value in CG: 8211306.278 ) | Chain = 1 -- chisq = 0.81545953E+09 | Chain = 1 -- wall time = 5806.769 sec Available RAM: MemAvailable: 377653876 kB Available Swap: SwapFree: 1113654656 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 324 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444047 | --> Sampling calibration, mode = relcal | relcal = 1.3432181E-02 7.4114843E-04 -1.5942788E-03 -1.2579050E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191229 0.1305309 9406957.64900311 | BP delta = 0.1191229 0.1259057 9406980.49047476 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632504 | --> Sampling calibration, mode = relcal | relcal = -2.8206164E-03 -7.0461660E-04 1.6786502E-03 1.6140076E-03 -4.0762566E-04 6.4020097E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5623184 15217606.9538526 | BP delta = 0.0000000E+00 -0.5557406 15217603.9255417 | BP chisq diff = -3.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18234161324453 | --> Sampling calibration, mode = relcal | relcal = -7.5353339E-02 -5.8773048E-02 9.2297502E-02 4.1828886E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.0545448E-04 5.0255209E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3218E-05 | 2: delta_r/delta_0: 1.0444E-06 | 3: delta_s/delta_0: 1.9200E-07 | 4: delta_r/delta_0: 3.0742E-08 | 5: delta_s/delta_0: 1.5136E-08 | 6: delta_r/delta_0: 2.2434E-09 | 7: delta_s/delta_0: 3.2451E-10 | 8: delta_r/delta_0: 1.3919E-10 | 9: delta_s/delta_0: 2.7315E-10 | 10: delta_r/delta_0: 9.8471E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.230223261185607E-003 2.737923792471203E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3218E-05 | 2: delta_r/delta_0: 1.0444E-06 | 3: delta_s/delta_0: 1.9200E-07 | 4: delta_r/delta_0: 3.0743E-08 | 5: delta_s/delta_0: 1.5138E-08 | 6: delta_r/delta_0: 2.2435E-09 | 7: delta_s/delta_0: 3.2451E-10 | 8: delta_r/delta_0: 1.3920E-10 | 9: delta_s/delta_0: 2.7317E-10 | 10: delta_r/delta_0: 9.8481E-11 | Reached bicg-stab tolerance | BP delta = 8.0611281E-02 0.1017045 3537824.47120868 | BP delta = 8.0611281E-02 0.1020296 3536754.97897496 | BP chisq diff = -1069.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02606656 | --> Sampling calibration, mode = relcal | relcal = -0.1066257 -9.5511369E-02 0.1449419 5.7195149E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0120392E-03 1.6047492E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8312E-05 | 2: delta_r/delta_0: 1.1873E-06 | 3: delta_s/delta_0: 2.6505E-07 | 4: delta_r/delta_0: 3.7474E-08 | 5: delta_s/delta_0: 1.9577E-08 | 6: delta_r/delta_0: 6.4680E-09 | 7: delta_s/delta_0: 4.9461E-09 | 8: delta_r/delta_0: 1.7284E-09 | 9: delta_s/delta_0: 8.0970E-10 | 10: delta_r/delta_0: 6.0922E-10 | 11: delta_s/delta_0: 3.4901E-09 | 12: delta_r/delta_0: 4.5460E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.625326688117008E-003 2.810632520634409E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8312E-05 | 2: delta_r/delta_0: 1.1872E-06 | 3: delta_s/delta_0: 2.6504E-07 | 4: delta_r/delta_0: 3.7462E-08 | 5: delta_s/delta_0: 1.9579E-08 | 6: delta_r/delta_0: 6.4674E-09 | 7: delta_s/delta_0: 4.9461E-09 | 8: delta_r/delta_0: 1.7282E-09 | 9: delta_s/delta_0: 8.0958E-10 | 10: delta_r/delta_0: 6.0914E-10 | 11: delta_s/delta_0: 3.4886E-09 | 12: delta_r/delta_0: 4.5467E-11 | Reached bicg-stab tolerance | BP delta = -0.3454308 -0.3144599 2841307.77257020 | BP delta = -0.3454308 -0.3109105 2841338.22352696 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81235819 | --> Sampling calibration, mode = relcal | relcal = 0.2955324 0.2248299 -0.2837632 -0.2365991 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5132796E-04 5.2822470E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.7174E-02 | 2: delta_r/delta_0: 2.0490E-03 | 3: delta_s/delta_0: 3.6259E-03 | 4: delta_r/delta_0: 1.9842E-04 | 5: delta_s/delta_0: 7.1784E-05 | 6: delta_r/delta_0: 2.8494E-05 | 7: delta_s/delta_0: 1.9251E-04 | 8: delta_r/delta_0: 2.0152E-05 | 9: delta_s/delta_0: 5.3512E-06 | 10: delta_r/delta_0: 2.0684E-06 | 11: delta_s/delta_0: 8.5426E-07 | 12: delta_r/delta_0: 5.8673E-08 | 13: delta_s/delta_0: 4.2044E-07 | 14: delta_r/delta_0: 5.1031E-09 | 15: delta_s/delta_0: 3.0231E-09 | 16: delta_r/delta_0: 8.6536E-10 | 17: delta_s/delta_0: 1.4083E-09 | 18: delta_r/delta_0: 1.8122E-10 | 19: delta_s/delta_0: 1.7109E-10 | 20: delta_r/delta_0: 4.8034E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.229245758846704 4.020987698657189E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.6302E-02 | 2: delta_r/delta_0: 2.0285E-03 | 3: delta_s/delta_0: 3.5915E-03 | 4: delta_r/delta_0: 1.9661E-04 | 5: delta_s/delta_0: 6.7993E-05 | 6: delta_r/delta_0: 2.6878E-05 | 7: delta_s/delta_0: 1.9313E-04 | 8: delta_r/delta_0: 2.0083E-05 | 9: delta_s/delta_0: 5.3884E-06 | 10: delta_r/delta_0: 2.0812E-06 | 11: delta_s/delta_0: 8.5959E-07 | 12: delta_r/delta_0: 5.9023E-08 | 13: delta_s/delta_0: 4.1873E-07 | 14: delta_r/delta_0: 5.1323E-09 | 15: delta_s/delta_0: 3.0761E-09 | 16: delta_r/delta_0: 8.6838E-10 | 17: delta_s/delta_0: 1.4418E-09 | 18: delta_r/delta_0: 1.8361E-10 | 19: delta_s/delta_0: 1.7201E-10 | 20: delta_r/delta_0: 4.8938E-11 | Reached bicg-stab tolerance | BP delta = -0.2084168 -0.2417194 2827342.88222107 | BP delta = -0.2084168 -0.2341172 2827466.73912211 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95925561 | --> Sampling calibration, mode = relcal | relcal = 0.1066355 0.1396365 -0.1103590 -0.1359129 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1063991E-02 1.3194879E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0629E-03 | 2: delta_r/delta_0: 7.1879E-05 | 3: delta_s/delta_0: 5.3456E-06 | 4: delta_r/delta_0: 8.5342E-07 | 5: delta_s/delta_0: 1.7807E-04 | 6: delta_r/delta_0: 1.3242E-05 | 7: delta_s/delta_0: 6.4384E-08 | 8: delta_r/delta_0: 2.9333E-08 | 9: delta_s/delta_0: 2.1878E-07 | 10: delta_r/delta_0: 4.8527E-09 | 11: delta_s/delta_0: 2.9286E-09 | 12: delta_r/delta_0: 6.4359E-10 | 13: delta_s/delta_0: 6.2730E-10 | 14: delta_r/delta_0: 3.8293E-10 | 15: delta_s/delta_0: 8.1914E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.019125726538106E-002 3.696940224784262E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.0644E-03 | 2: delta_r/delta_0: 7.1916E-05 | 3: delta_s/delta_0: 5.3484E-06 | 4: delta_r/delta_0: 8.5316E-07 | 5: delta_s/delta_0: 1.7779E-04 | 6: delta_r/delta_0: 1.3144E-05 | 7: delta_s/delta_0: 6.4390E-08 | 8: delta_r/delta_0: 2.9298E-08 | 9: delta_s/delta_0: 2.1699E-07 | 10: delta_r/delta_0: 4.8495E-09 | 11: delta_s/delta_0: 2.9310E-09 | 12: delta_r/delta_0: 6.4097E-10 | 13: delta_s/delta_0: 6.3047E-10 | 14: delta_r/delta_0: 3.8403E-10 | 15: delta_s/delta_0: 8.1873E-11 | Reached bicg-stab tolerance | BP delta = 0.1515485 0.2618143 3003849.64727595 | BP delta = 0.1515485 0.2492203 3003992.55270953 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109761 | New value = -3.106268 | poltype: 2 pol: 1 CPU time specind = 1.8059015E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.217513 | New value = -3.173092 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123798 | New value = -3.165727 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.086412 | New value = -3.210661 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.206891 | New value = -3.144773 | poltype: 2 pol: 2 CPU time specind = 5.6560040E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.13562E+08, tol = 0.85116E+01, time = 5.51 | CG iter. 2 -- res = 0.32692E+06, tol = 0.85116E+01, time = 5.74 | CG iter. 3 -- res = 0.46314E+05, tol = 0.85116E+01, time = 5.84 | CG iter. 4 -- res = 0.20400E+05, tol = 0.85116E+01, time = 5.54 | CG iter. 5 -- res = 0.95984E+04, tol = 0.85116E+01, time = 5.98 | CG iter. 6 -- res = 0.53644E+04, tol = 0.85116E+01, time = 6.00 | CG iter. 7 -- res = 0.37912E+04, tol = 0.85116E+01, time = 5.38 | CG iter. 8 -- res = 0.28292E+04, tol = 0.85116E+01, time = 5.68 | CG iter. 9 -- res = 0.25206E+04, tol = 0.85116E+01, time = 5.78 | CG iter. 10 -- res = 0.29004E+04, tol = 0.85116E+01, time = 5.72 | CG iter. 11 -- res = 0.29067E+04, tol = 0.85116E+01, time = 5.41 | CG iter. 12 -- res = 0.22917E+04, tol = 0.85116E+01, time = 5.70 | CG iter. 13 -- res = 0.15768E+04, tol = 0.85116E+01, time = 5.71 | CG iter. 14 -- res = 0.11231E+04, tol = 0.85116E+01, time = 7.07 | CG iter. 15 -- res = 0.89918E+03, tol = 0.85116E+01, time = 6.19 | CG iter. 16 -- res = 0.72482E+03, tol = 0.85116E+01, time = 5.77 | CG iter. 17 -- res = 0.53583E+03, tol = 0.85116E+01, time = 5.53 | CG iter. 18 -- res = 0.39808E+03, tol = 0.85116E+01, time = 5.81 | CG iter. 19 -- res = 0.34460E+03, tol = 0.85116E+01, time = 5.89 | CG iter. 20 -- res = 0.29044E+03, tol = 0.85116E+01, time = 5.80 | CG iter. 21 -- res = 0.21881E+03, tol = 0.85116E+01, time = 6.02 | CG iter. 22 -- res = 0.16126E+03, tol = 0.85116E+01, time = 5.78 | CG iter. 23 -- res = 0.13218E+03, tol = 0.85116E+01, time = 5.69 | CG iter. 24 -- res = 0.12309E+03, tol = 0.85116E+01, time = 5.94 | CG iter. 25 -- res = 0.10276E+03, tol = 0.85116E+01, time = 5.98 | CG iter. 26 -- res = 0.81459E+02, tol = 0.85116E+01, time = 5.96 | CG iter. 27 -- res = 0.65227E+02, tol = 0.85116E+01, time = 5.81 | CG iter. 28 -- res = 0.56904E+02, tol = 0.85116E+01, time = 5.34 | CG iter. 29 -- res = 0.47177E+02, tol = 0.85116E+01, time = 5.52 | CG iter. 30 -- res = 0.36534E+02, tol = 0.85116E+01, time = 5.64 | CG iter. 31 -- res = 0.29947E+02, tol = 0.85116E+01, time = 6.29 | CG iter. 32 -- res = 0.25257E+02, tol = 0.85116E+01, time = 5.42 | CG iter. 33 -- res = 0.20507E+02, tol = 0.85116E+01, time = 5.51 | CG iter. 34 -- res = 0.15093E+02, tol = 0.85116E+01, time = 5.86 | CG iter. 35 -- res = 0.10270E+02, tol = 0.85116E+01, time = 5.61 | CG iter. 36 -- res = 0.79082E+01, tol = 0.85116E+01, time = 5.92 | CG iter. 37 -- res = 0.62673E+01, tol = 0.85116E+01, time = 5.86 | CG iter. 38 -- res = 0.46243E+01, tol = 0.85116E+01, time = 5.46 | CG iter. 39 -- res = 0.32150E+01, tol = 0.85116E+01, time = 5.79 | CG iter. 40 -- res = 0.23302E+01, tol = 0.85116E+01, time = 5.56 | CG iter. 41 -- res = 0.17635E+01, tol = 0.85116E+01, time = 5.24 | CG iter. 42 -- res = 0.13287E+01, tol = 0.85116E+01, time = 5.65 | CG iter. 43 -- res = 0.95599E+00, tol = 0.85116E+01, time = 5.63 | CG iter. 44 -- res = 0.71367E+00, tol = 0.85116E+01, time = 6.00 | CG iter. 45 -- res = 0.54974E+00, tol = 0.85116E+01, time = 5.84 | CG iter. 46 -- res = 0.45052E+00, tol = 0.85116E+01, time = 5.84 | CG iter. 47 -- res = 0.34246E+00, tol = 0.85116E+01, time = 5.85 | CG iter. 48 -- res = 0.24941E+00, tol = 0.85116E+01, time = 5.76 | CG iter. 49 -- res = 0.18519E+00, tol = 0.85116E+01, time = 6.10 | CG iter. 50 -- res = 0.14002E+00, tol = 0.85116E+01, time = 12.57 | Final CG iter 51 -- res = 0.14002E+00, tol = 0.85116E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9292873.381 | Old band monopole 8237665.046 | Change to band monopole 1055208.335 | Change to component monopole -1055203.797 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.18928E+05, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.22170E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.54637E+00, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.51629E-04, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.22765E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9292833.411 | (Sampled value in CG: 9295429.404 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.472317 | New value = 1.529872 | poltype: 2 pol: 1 CPU time specind = 2.4490833E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.511420 | New value = 1.512302 | poltype: 2 pol: 2 CPU time specind = 9.5040798E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.24725E+08, tol = 0.47677E+04, time = 6.18 | CG iter. 2 -- res = 0.53696E+07, tol = 0.47677E+04, time = 6.68 | CG iter. 3 -- res = 0.87403E+06, tol = 0.47677E+04, time = 6.60 | CG iter. 4 -- res = 0.36705E+06, tol = 0.47677E+04, time = 6.56 | CG iter. 5 -- res = 0.15711E+06, tol = 0.47677E+04, time = 6.54 | CG iter. 6 -- res = 0.79835E+05, tol = 0.47677E+04, time = 6.50 | CG iter. 7 -- res = 0.43604E+05, tol = 0.47677E+04, time = 7.13 | CG iter. 8 -- res = 0.21169E+05, tol = 0.47677E+04, time = 6.79 | CG iter. 9 -- res = 0.91528E+04, tol = 0.47677E+04, time = 7.03 | CG iter. 10 -- res = 0.37713E+04, tol = 0.47677E+04, time = 6.61 | CG iter. 11 -- res = 0.17053E+04, tol = 0.47677E+04, time = 6.53 | CG iter. 12 -- res = 0.87957E+03, tol = 0.47677E+04, time = 6.99 | CG iter. 13 -- res = 0.50340E+03, tol = 0.47677E+04, time = 6.53 | CG iter. 14 -- res = 0.28271E+03, tol = 0.47677E+04, time = 6.82 | CG iter. 15 -- res = 0.14645E+03, tol = 0.47677E+04, time = 6.76 | CG iter. 16 -- res = 0.68863E+02, tol = 0.47677E+04, time = 6.64 | CG iter. 17 -- res = 0.32003E+02, tol = 0.47677E+04, time = 6.68 | CG iter. 18 -- res = 0.16186E+02, tol = 0.47677E+04, time = 6.38 | CG iter. 19 -- res = 0.88058E+01, tol = 0.47677E+04, time = 6.88 | CG iter. 20 -- res = 0.49578E+01, tol = 0.47677E+04, time = 6.32 | CG iter. 21 -- res = 0.27144E+01, tol = 0.47677E+04, time = 6.38 | CG iter. 22 -- res = 0.13984E+01, tol = 0.47677E+04, time = 6.45 | CG iter. 23 -- res = 0.70806E+00, tol = 0.47677E+04, time = 6.68 | CG iter. 24 -- res = 0.36253E+00, tol = 0.47677E+04, time = 6.86 | CG iter. 25 -- res = 0.19368E+00, tol = 0.47677E+04, time = 6.49 | CG iter. 26 -- res = 0.11075E+00, tol = 0.47677E+04, time = 6.46 | CG iter. 27 -- res = 0.64353E-01, tol = 0.47677E+04, time = 13.09 | CG iter. 28 -- res = 0.34453E-01, tol = 0.47677E+04, time = 6.82 | CG iter. 29 -- res = 0.17653E-01, tol = 0.47677E+04, time = 6.36 | CG iter. 30 -- res = 0.91309E-02, tol = 0.47677E+04, time = 6.44 | CG iter. 31 -- res = 0.49957E-02, tol = 0.47677E+04, time = 6.59 | CG iter. 32 -- res = 0.28059E-02, tol = 0.47677E+04, time = 6.90 | CG iter. 33 -- res = 0.15852E-02, tol = 0.47677E+04, time = 6.66 | CG iter. 34 -- res = 0.86055E-03, tol = 0.47677E+04, time = 6.82 | CG iter. 35 -- res = 0.44107E-03, tol = 0.47677E+04, time = 6.83 | Final CG iter 36 -- res = 0.44107E-03, tol = 0.47677E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.401 2.723 | New value 1.701 | Old value 3.401 | Difference -1.700 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.15597E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.19524E+02, tol = 0.47627E+18, time = 2.33 | CG iter. 3 -- res = 0.44091E+00, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.90373E-04, tol = 0.47627E+18, time = 2.39 | Final CG iter 5 -- res = 0.33571E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9292833.411 | (Sampled value in CG: 9296522.039 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.582679 | New value = -3.767046 | poltype: 1 pol: 1 CPU time specind = 1.3077021E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.21659E+07, tol = 0.25045E+01, time = 2.76 | CG iter. 2 -- res = 0.57484E+06, tol = 0.25045E+01, time = 2.55 | CG iter. 3 -- res = 0.11149E+06, tol = 0.25045E+01, time = 2.96 | CG iter. 4 -- res = 0.49854E+05, tol = 0.25045E+01, time = 2.72 | CG iter. 5 -- res = 0.31585E+05, tol = 0.25045E+01, time = 2.78 | CG iter. 6 -- res = 0.15072E+05, tol = 0.25045E+01, time = 2.67 | CG iter. 7 -- res = 0.55887E+04, tol = 0.25045E+01, time = 2.76 | CG iter. 8 -- res = 0.23768E+04, tol = 0.25045E+01, time = 2.56 | CG iter. 9 -- res = 0.10587E+04, tol = 0.25045E+01, time = 2.87 | CG iter. 10 -- res = 0.41112E+03, tol = 0.25045E+01, time = 4.04 | CG iter. 11 -- res = 0.18234E+03, tol = 0.25045E+01, time = 3.30 | CG iter. 12 -- res = 0.94622E+02, tol = 0.25045E+01, time = 3.00 | CG iter. 13 -- res = 0.49678E+02, tol = 0.25045E+01, time = 3.27 | CG iter. 14 -- res = 0.22853E+02, tol = 0.25045E+01, time = 2.75 | CG iter. 15 -- res = 0.92614E+01, tol = 0.25045E+01, time = 2.84 | CG iter. 16 -- res = 0.39621E+01, tol = 0.25045E+01, time = 2.63 | CG iter. 17 -- res = 0.18155E+01, tol = 0.25045E+01, time = 2.67 | CG iter. 18 -- res = 0.86361E+00, tol = 0.25045E+01, time = 2.88 | CG iter. 19 -- res = 0.43075E+00, tol = 0.25045E+01, time = 2.99 | CG iter. 20 -- res = 0.20313E+00, tol = 0.25045E+01, time = 2.78 | CG iter. 21 -- res = 0.90516E-01, tol = 0.25045E+01, time = 2.97 | CG iter. 22 -- res = 0.39556E-01, tol = 0.25045E+01, time = 2.67 | CG iter. 23 -- res = 0.18299E-01, tol = 0.25045E+01, time = 2.71 | CG iter. 24 -- res = 0.91872E-02, tol = 0.25045E+01, time = 2.82 | CG iter. 25 -- res = 0.45818E-02, tol = 0.25045E+01, time = 2.72 | CG iter. 26 -- res = 0.22975E-02, tol = 0.25045E+01, time = 2.55 | CG iter. 27 -- res = 0.10286E-02, tol = 0.25045E+01, time = 2.83 | CG iter. 28 -- res = 0.46131E-03, tol = 0.25045E+01, time = 2.98 | CG iter. 29 -- res = 0.21854E-03, tol = 0.25045E+01, time = 2.50 | CG iter. 30 -- res = 0.11399E-03, tol = 0.25045E+01, time = 2.70 | CG iter. 31 -- res = 0.59391E-04, tol = 0.25045E+01, time = 2.81 | CG iter. 32 -- res = 0.28125E-04, tol = 0.25045E+01, time = 2.76 | CG iter. 33 -- res = 0.12566E-04, tol = 0.25045E+01, time = 2.93 | CG iter. 34 -- res = 0.57819E-05, tol = 0.25045E+01, time = 2.56 | CG iter. 35 -- res = 0.26952E-05, tol = 0.25045E+01, time = 2.86 | CG iter. 36 -- res = 0.13896E-05, tol = 0.25045E+01, time = 2.62 | CG iter. 37 -- res = 0.68315E-06, tol = 0.25045E+01, time = 3.11 | CG iter. 38 -- res = 0.31830E-06, tol = 0.25045E+01, time = 2.71 | CG iter. 39 -- res = 0.14668E-06, tol = 0.25045E+01, time = 3.04 | CG iter. 40 -- res = 0.66933E-07, tol = 0.25045E+01, time = 2.86 | CG iter. 41 -- res = 0.32230E-07, tol = 0.25045E+01, time = 2.72 | CG iter. 42 -- res = 0.16660E-07, tol = 0.25045E+01, time = 2.74 | CG iter. 43 -- res = 0.80309E-08, tol = 0.25045E+01, time = 2.46 | CG iter. 44 -- res = 0.38071E-08, tol = 0.25045E+01, time = 2.73 | CG iter. 45 -- res = 0.16896E-08, tol = 0.25045E+01, time = 2.63 | CG iter. 46 -- res = 0.79133E-09, tol = 0.25045E+01, time = 2.65 | CG iter. 47 -- res = 0.39453E-09, tol = 0.25045E+01, time = 2.94 | CG iter. 48 -- res = 0.19632E-09, tol = 0.25045E+01, time = 2.73 | CG iter. 49 -- res = 0.94940E-10, tol = 0.25045E+01, time = 3.20 | CG iter. 50 -- res = 0.43454E-10, tol = 0.25045E+01, time = 2.65 | Final CG iter 51 -- res = 0.43454E-10, tol = 0.25045E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.681 3.811 | New value 2.701 | Old value -3.681 | Difference 6.382 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.38497E+05, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.22727E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.86733E+00, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.37692E-03, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.37908E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9292833.411 | (Sampled value in CG: 9300217.949 ) | CPU time specind = 1201.168 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.52 | CG iter. 1 -- res = 0.70924E+08, tol = 0.58049E+04, time = 18.29 | CG iter. 2 -- res = 0.60412E+08, tol = 0.58049E+04, time = 12.07 | CG iter. 3 -- res = 0.16620E+08, tol = 0.58049E+04, time = 11.87 | CG iter. 4 -- res = 0.70633E+07, tol = 0.58049E+04, time = 11.49 | CG iter. 5 -- res = 0.43098E+07, tol = 0.58049E+04, time = 11.83 | CG iter. 6 -- res = 0.24948E+07, tol = 0.58049E+04, time = 12.05 | CG iter. 7 -- res = 0.14106E+07, tol = 0.58049E+04, time = 11.47 | CG iter. 8 -- res = 0.91175E+06, tol = 0.58049E+04, time = 12.58 | CG iter. 9 -- res = 0.58239E+06, tol = 0.58049E+04, time = 13.66 | CG iter. 10 -- res = 0.34862E+06, tol = 0.58049E+04, time = 11.98 | CG iter. 11 -- res = 0.18635E+06, tol = 0.58049E+04, time = 11.99 | CG iter. 12 -- res = 0.10042E+06, tol = 0.58049E+04, time = 11.81 | CG iter. 13 -- res = 0.54718E+05, tol = 0.58049E+04, time = 11.79 | CG iter. 14 -- res = 0.30954E+05, tol = 0.58049E+04, time = 11.84 | CG iter. 15 -- res = 0.19602E+05, tol = 0.58049E+04, time = 12.09 | CG iter. 16 -- res = 0.13941E+05, tol = 0.58049E+04, time = 11.79 | CG iter. 17 -- res = 0.10395E+05, tol = 0.58049E+04, time = 12.34 | CG iter. 18 -- res = 0.75896E+04, tol = 0.58049E+04, time = 12.13 | CG iter. 19 -- res = 0.55753E+04, tol = 0.58049E+04, time = 12.03 | CG iter. 20 -- res = 0.42298E+04, tol = 0.58049E+04, time = 11.88 | CG iter. 21 -- res = 0.33820E+04, tol = 0.58049E+04, time = 11.73 | CG iter. 22 -- res = 0.31177E+04, tol = 0.58049E+04, time = 11.91 | CG iter. 23 -- res = 0.33305E+04, tol = 0.58049E+04, time = 11.88 | CG iter. 24 -- res = 0.37870E+04, tol = 0.58049E+04, time = 12.31 | CG iter. 25 -- res = 0.41562E+04, tol = 0.58049E+04, time = 12.00 | CG iter. 26 -- res = 0.41188E+04, tol = 0.58049E+04, time = 18.51 | CG iter. 27 -- res = 0.37179E+04, tol = 0.58049E+04, time = 11.87 | CG iter. 28 -- res = 0.31438E+04, tol = 0.58049E+04, time = 12.24 | CG iter. 29 -- res = 0.26084E+04, tol = 0.58049E+04, time = 11.92 | CG iter. 30 -- res = 0.22357E+04, tol = 0.58049E+04, time = 11.79 | CG iter. 31 -- res = 0.18956E+04, tol = 0.58049E+04, time = 11.88 | CG iter. 32 -- res = 0.15990E+04, tol = 0.58049E+04, time = 12.11 | CG iter. 33 -- res = 0.12899E+04, tol = 0.58049E+04, time = 13.63 | CG iter. 34 -- res = 0.98229E+03, tol = 0.58049E+04, time = 11.87 | CG iter. 35 -- res = 0.75207E+03, tol = 0.58049E+04, time = 12.02 | CG iter. 36 -- res = 0.60874E+03, tol = 0.58049E+04, time = 12.04 | CG iter. 37 -- res = 0.53475E+03, tol = 0.58049E+04, time = 12.00 | CG iter. 38 -- res = 0.50678E+03, tol = 0.58049E+04, time = 12.11 | CG iter. 39 -- res = 0.49644E+03, tol = 0.58049E+04, time = 11.51 | CG iter. 40 -- res = 0.47929E+03, tol = 0.58049E+04, time = 12.21 | CG iter. 41 -- res = 0.43453E+03, tol = 0.58049E+04, time = 11.54 | CG iter. 42 -- res = 0.36755E+03, tol = 0.58049E+04, time = 12.88 | CG iter. 43 -- res = 0.31939E+03, tol = 0.58049E+04, time = 11.66 | CG iter. 44 -- res = 0.28666E+03, tol = 0.58049E+04, time = 11.45 | CG iter. 45 -- res = 0.25688E+03, tol = 0.58049E+04, time = 11.61 | CG iter. 46 -- res = 0.23107E+03, tol = 0.58049E+04, time = 12.02 | CG iter. 47 -- res = 0.20280E+03, tol = 0.58049E+04, time = 11.47 | CG iter. 48 -- res = 0.16500E+03, tol = 0.58049E+04, time = 12.03 | CG iter. 49 -- res = 0.12975E+03, tol = 0.58049E+04, time = 12.04 | CG iter. 50 -- res = 0.10782E+03, tol = 0.58049E+04, time = 18.31 | CG iter. 51 -- res = 0.93794E+02, tol = 0.58049E+04, time = 11.74 | CG iter. 52 -- res = 0.83776E+02, tol = 0.58049E+04, time = 11.81 | CG iter. 53 -- res = 0.76624E+02, tol = 0.58049E+04, time = 11.78 | CG iter. 54 -- res = 0.71292E+02, tol = 0.58049E+04, time = 12.16 | CG iter. 55 -- res = 0.64970E+02, tol = 0.58049E+04, time = 12.04 | CG iter. 56 -- res = 0.57509E+02, tol = 0.58049E+04, time = 11.61 | CG iter. 57 -- res = 0.51641E+02, tol = 0.58049E+04, time = 13.23 | CG iter. 58 -- res = 0.47667E+02, tol = 0.58049E+04, time = 12.57 | CG iter. 59 -- res = 0.44841E+02, tol = 0.58049E+04, time = 11.68 | CG iter. 60 -- res = 0.43078E+02, tol = 0.58049E+04, time = 11.60 | Final CG iter 61 -- res = 0.43078E+02, tol = 0.58049E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.762 ( -229.695 -2230.236 2512.811 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7781755.961 | Old band monopole 9292873.381 | Change to band monopole -1511117.420 | Change to component monopole 1511110.920 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.692 2.742 | New value -1.133 | Old value 1.692 | Difference -2.825 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.901 ( 6.471 9.920 -10.047 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.390 4.305 | New value -3.264 | Old value 6.390 | Difference -9.654 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.41337E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.12384E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.22713E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.20080E-03, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.11583E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7781722.490 | (Sampled value in CG: 7767235.768 ) | Chain = 1 -- chisq = 0.81465496E+09 | Chain = 1 -- wall time = 6176.938 sec Available RAM: MemAvailable: 377108428 kB Available Swap: SwapFree: 1114380928 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 325 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445837 | --> Sampling calibration, mode = relcal | relcal = 1.3432074E-02 7.3959469E-04 -1.5961819E-03 -1.2575487E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191229 0.1305309 97031718.7619766 | BP delta = 0.1311658 0.1425738 97031722.2903672 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632357 | --> Sampling calibration, mode = relcal | relcal = -2.8205253E-03 -7.0367736E-04 1.6779322E-03 1.6139658E-03 -4.0782968E-04 6.4013427E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5557406 15216568.0634372 | BP delta = 0.0000000E+00 -0.5519567 15216571.0943240 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18343015273298 | --> Sampling calibration, mode = relcal | relcal = -7.5179912E-02 -5.8727745E-02 9.2168652E-02 4.1739006E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6634394E-04 5.3180191E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1923E-05 | 2: delta_r/delta_0: 9.8392E-07 | 3: delta_s/delta_0: 1.9549E-07 | 4: delta_r/delta_0: 2.1214E-08 | 5: delta_s/delta_0: 5.9466E-09 | 6: delta_r/delta_0: 1.6398E-09 | 7: delta_s/delta_0: 2.9679E-10 | 8: delta_r/delta_0: 1.0385E-10 | 9: delta_s/delta_0: 3.7536E-10 | 10: delta_r/delta_0: 1.4544E-10 | 11: delta_s/delta_0: 2.4949E-10 | 12: delta_r/delta_0: 9.0417E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.054449813903930E-003 2.735426882767341E-005 | BP delta = 8.0611281E-02 0.1020296 50484235.5813166 | BP delta = 7.9306670E-02 0.1007250 50484236.6559977 | BP chisq diff = 1.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599963 | --> Sampling calibration, mode = relcal | relcal = -0.1065938 -9.5567718E-02 0.1449464 5.7215184E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6949732E-03 1.1998017E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3998E-05 | 2: delta_r/delta_0: 1.1524E-06 | 3: delta_s/delta_0: 2.4194E-07 | 4: delta_r/delta_0: 5.5220E-08 | 5: delta_s/delta_0: 1.5835E-08 | 6: delta_r/delta_0: 7.4923E-09 | 7: delta_s/delta_0: 8.3913E-09 | 8: delta_r/delta_0: 1.3510E-09 | 9: delta_s/delta_0: 1.2091E-09 | 10: delta_r/delta_0: 4.3091E-10 | 11: delta_s/delta_0: 1.3237E-09 | 12: delta_r/delta_0: 2.8949E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.646950100299688E-003 2.810815328653384E-005 | BP delta = -0.3454308 -0.3144599 57391123.7797422 | BP delta = -0.3580975 -0.3271266 57391125.6252826 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81219499 | --> Sampling calibration, mode = relcal | relcal = 0.2954051 0.2248338 -0.2837298 -0.2365091 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7733957E-04 4.7788406E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4524E-03 | 2: delta_r/delta_0: 3.4691E-05 | 3: delta_s/delta_0: 4.9022E-05 | 4: delta_r/delta_0: 2.7737E-06 | 5: delta_s/delta_0: 4.9753E-07 | 6: delta_r/delta_0: 2.1037E-07 | 7: delta_s/delta_0: 6.8979E-07 | 8: delta_r/delta_0: 4.4105E-08 | 9: delta_s/delta_0: 2.2706E-05 | 10: delta_r/delta_0: 9.4538E-06 | 11: delta_s/delta_0: 2.6600E-09 | 12: delta_r/delta_0: 9.9609E-10 | 13: delta_s/delta_0: 1.1958E-08 | 14: delta_r/delta_0: 8.5954E-10 | 15: delta_s/delta_0: 7.1642E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.583963813890306E-002 4.021779658273123E-005 | BP delta = -0.2084168 -0.2417194 72480796.6821117 | BP delta = -0.2359670 -0.2692696 72480797.2652472 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95909891 | --> Sampling calibration, mode = relcal | relcal = 0.1064150 0.1397112 -0.1103510 -0.1357753 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0634213E-02 1.3126209E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5971E-03 | 2: delta_r/delta_0: 3.8534E-05 | 3: delta_s/delta_0: 2.0820E-05 | 4: delta_r/delta_0: 1.6992E-06 | 5: delta_s/delta_0: 7.5873E-07 | 6: delta_r/delta_0: 2.3779E-07 | 7: delta_s/delta_0: 3.9177E-07 | 8: delta_r/delta_0: 4.9120E-08 | 9: delta_s/delta_0: 3.3747E-05 | 10: delta_r/delta_0: 1.1553E-05 | 11: delta_s/delta_0: 3.2796E-09 | 12: delta_r/delta_0: 1.6868E-09 | 13: delta_s/delta_0: 1.6055E-09 | 14: delta_r/delta_0: 4.1143E-10 | 15: delta_s/delta_0: 1.1484E-10 | 16: delta_r/delta_0: 3.7344E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.761555838179517E-002 3.697474860160195E-005 | BP delta = 0.1515485 0.2618143 72780217.4256319 | BP delta = 0.1795623 0.2898281 72780217.5636438 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106268 | New value = -3.163105 | poltype: 2 pol: 1 CPU time specind = 1.3007879E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173092 | New value = -3.223435 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165727 | New value = -3.220403 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.210661 | New value = -3.211808 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144773 | New value = -3.111875 | poltype: 2 pol: 2 CPU time specind = 4.6741962E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.38 | CG iter. 1 -- res = 0.13573E+08, tol = 0.87944E+01, time = 5.52 | CG iter. 2 -- res = 0.36201E+06, tol = 0.87944E+01, time = 5.75 | CG iter. 3 -- res = 0.61336E+05, tol = 0.87944E+01, time = 5.65 | CG iter. 4 -- res = 0.41645E+05, tol = 0.87944E+01, time = 5.83 | CG iter. 5 -- res = 0.35576E+05, tol = 0.87944E+01, time = 5.49 | CG iter. 6 -- res = 0.32719E+05, tol = 0.87944E+01, time = 5.70 | CG iter. 7 -- res = 0.32243E+05, tol = 0.87944E+01, time = 5.81 | CG iter. 8 -- res = 0.26597E+05, tol = 0.87944E+01, time = 6.02 | CG iter. 9 -- res = 0.21298E+05, tol = 0.87944E+01, time = 5.45 | CG iter. 10 -- res = 0.18374E+05, tol = 0.87944E+01, time = 5.98 | CG iter. 11 -- res = 0.13325E+05, tol = 0.87944E+01, time = 5.67 | CG iter. 12 -- res = 0.88986E+04, tol = 0.87944E+01, time = 5.50 | CG iter. 13 -- res = 0.70169E+04, tol = 0.87944E+01, time = 7.47 | CG iter. 14 -- res = 0.61358E+04, tol = 0.87944E+01, time = 6.33 | CG iter. 15 -- res = 0.52380E+04, tol = 0.87944E+01, time = 5.62 | CG iter. 16 -- res = 0.38994E+04, tol = 0.87944E+01, time = 5.76 | CG iter. 17 -- res = 0.26556E+04, tol = 0.87944E+01, time = 5.98 | CG iter. 18 -- res = 0.20736E+04, tol = 0.87944E+01, time = 5.76 | CG iter. 19 -- res = 0.17366E+04, tol = 0.87944E+01, time = 5.54 | CG iter. 20 -- res = 0.14171E+04, tol = 0.87944E+01, time = 5.99 | CG iter. 21 -- res = 0.10748E+04, tol = 0.87944E+01, time = 5.57 | CG iter. 22 -- res = 0.83997E+03, tol = 0.87944E+01, time = 5.49 | CG iter. 23 -- res = 0.70847E+03, tol = 0.87944E+01, time = 6.04 | CG iter. 24 -- res = 0.57215E+03, tol = 0.87944E+01, time = 5.98 | CG iter. 25 -- res = 0.42417E+03, tol = 0.87944E+01, time = 5.79 | CG iter. 26 -- res = 0.31358E+03, tol = 0.87944E+01, time = 5.55 | CG iter. 27 -- res = 0.25890E+03, tol = 0.87944E+01, time = 5.95 | CG iter. 28 -- res = 0.22619E+03, tol = 0.87944E+01, time = 5.51 | CG iter. 29 -- res = 0.17704E+03, tol = 0.87944E+01, time = 6.00 | CG iter. 30 -- res = 0.13631E+03, tol = 0.87944E+01, time = 5.63 | CG iter. 31 -- res = 0.11085E+03, tol = 0.87944E+01, time = 6.28 | CG iter. 32 -- res = 0.93561E+02, tol = 0.87944E+01, time = 5.71 | CG iter. 33 -- res = 0.76442E+02, tol = 0.87944E+01, time = 6.04 | CG iter. 34 -- res = 0.57999E+02, tol = 0.87944E+01, time = 5.63 | CG iter. 35 -- res = 0.46265E+02, tol = 0.87944E+01, time = 5.91 | CG iter. 36 -- res = 0.40768E+02, tol = 0.87944E+01, time = 6.06 | CG iter. 37 -- res = 0.36167E+02, tol = 0.87944E+01, time = 5.54 | CG iter. 38 -- res = 0.28840E+02, tol = 0.87944E+01, time = 5.70 | CG iter. 39 -- res = 0.22248E+02, tol = 0.87944E+01, time = 5.89 | CG iter. 40 -- res = 0.19473E+02, tol = 0.87944E+01, time = 5.67 | CG iter. 41 -- res = 0.16724E+02, tol = 0.87944E+01, time = 5.66 | CG iter. 42 -- res = 0.14114E+02, tol = 0.87944E+01, time = 5.78 | CG iter. 43 -- res = 0.11312E+02, tol = 0.87944E+01, time = 5.93 | CG iter. 44 -- res = 0.97748E+01, tol = 0.87944E+01, time = 6.00 | CG iter. 45 -- res = 0.83707E+01, tol = 0.87944E+01, time = 5.87 | CG iter. 46 -- res = 0.70584E+01, tol = 0.87944E+01, time = 6.00 | CG iter. 47 -- res = 0.57824E+01, tol = 0.87944E+01, time = 5.93 | CG iter. 48 -- res = 0.46840E+01, tol = 0.87944E+01, time = 7.10 | CG iter. 49 -- res = 0.39278E+01, tol = 0.87944E+01, time = 10.39 | CG iter. 50 -- res = 0.34030E+01, tol = 0.87944E+01, time = 5.51 | Final CG iter 51 -- res = 0.34030E+01, tol = 0.87944E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8941129.978 | Old band monopole 7781755.961 | Change to band monopole 1159374.017 | Change to component monopole -1159369.030 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.40737E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.15291E+03, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.45137E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.18577E-01, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.34178E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8941091.521 | (Sampled value in CG: 8881770.722 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.529872 | New value = 1.498440 | poltype: 2 pol: 1 CPU time specind = 2.2388220E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.512302 | New value = 1.484054 | poltype: 2 pol: 2 CPU time specind = 4.7421455E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.49 | CG iter. 1 -- res = 0.24217E+08, tol = 0.47538E+04, time = 6.43 | CG iter. 2 -- res = 0.53312E+07, tol = 0.47538E+04, time = 6.62 | CG iter. 3 -- res = 0.86394E+06, tol = 0.47538E+04, time = 6.54 | CG iter. 4 -- res = 0.36016E+06, tol = 0.47538E+04, time = 6.49 | CG iter. 5 -- res = 0.15135E+06, tol = 0.47538E+04, time = 6.47 | CG iter. 6 -- res = 0.80275E+05, tol = 0.47538E+04, time = 6.35 | CG iter. 7 -- res = 0.44279E+05, tol = 0.47538E+04, time = 6.49 | CG iter. 8 -- res = 0.21142E+05, tol = 0.47538E+04, time = 6.69 | CG iter. 9 -- res = 0.90807E+04, tol = 0.47538E+04, time = 6.40 | CG iter. 10 -- res = 0.36780E+04, tol = 0.47538E+04, time = 6.74 | CG iter. 11 -- res = 0.16654E+04, tol = 0.47538E+04, time = 6.78 | CG iter. 12 -- res = 0.86561E+03, tol = 0.47538E+04, time = 7.01 | CG iter. 13 -- res = 0.49512E+03, tol = 0.47538E+04, time = 6.30 | CG iter. 14 -- res = 0.27702E+03, tol = 0.47538E+04, time = 6.70 | CG iter. 15 -- res = 0.14368E+03, tol = 0.47538E+04, time = 6.47 | CG iter. 16 -- res = 0.68614E+02, tol = 0.47538E+04, time = 6.39 | CG iter. 17 -- res = 0.31577E+02, tol = 0.47538E+04, time = 6.41 | CG iter. 18 -- res = 0.15515E+02, tol = 0.47538E+04, time = 6.91 | CG iter. 19 -- res = 0.84499E+01, tol = 0.47538E+04, time = 6.73 | CG iter. 20 -- res = 0.48603E+01, tol = 0.47538E+04, time = 6.63 | CG iter. 21 -- res = 0.27273E+01, tol = 0.47538E+04, time = 6.34 | CG iter. 22 -- res = 0.14255E+01, tol = 0.47538E+04, time = 6.70 | CG iter. 23 -- res = 0.70406E+00, tol = 0.47538E+04, time = 6.46 | CG iter. 24 -- res = 0.36020E+00, tol = 0.47538E+04, time = 6.73 | CG iter. 25 -- res = 0.20229E+00, tol = 0.47538E+04, time = 7.73 | CG iter. 26 -- res = 0.11667E+00, tol = 0.47538E+04, time = 12.27 | CG iter. 27 -- res = 0.66958E-01, tol = 0.47538E+04, time = 6.58 | CG iter. 28 -- res = 0.36304E-01, tol = 0.47538E+04, time = 6.78 | CG iter. 29 -- res = 0.19010E-01, tol = 0.47538E+04, time = 6.38 | CG iter. 30 -- res = 0.99340E-02, tol = 0.47538E+04, time = 6.15 | CG iter. 31 -- res = 0.53847E-02, tol = 0.47538E+04, time = 6.60 | CG iter. 32 -- res = 0.30504E-02, tol = 0.47538E+04, time = 6.22 | CG iter. 33 -- res = 0.17182E-02, tol = 0.47538E+04, time = 6.64 | CG iter. 34 -- res = 0.92885E-03, tol = 0.47538E+04, time = 6.53 | CG iter. 35 -- res = 0.48329E-03, tol = 0.47538E+04, time = 6.40 | Final CG iter 36 -- res = 0.48329E-03, tol = 0.47538E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.166 2.744 | New value 5.922 | Old value -1.166 | Difference 7.088 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.26041E+07, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.64673E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.19040E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.22034E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.27334E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8941091.521 | (Sampled value in CG: 8880882.516 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.767046 | New value = -3.545615 | poltype: 1 pol: 1 CPU time specind = 1.9196033E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.46 | CG iter. 1 -- res = 0.24285E+07, tol = 0.26434E+01, time = 2.82 | CG iter. 2 -- res = 0.12776E+07, tol = 0.26434E+01, time = 2.77 | CG iter. 3 -- res = 0.24236E+06, tol = 0.26434E+01, time = 2.61 | CG iter. 4 -- res = 0.83899E+05, tol = 0.26434E+01, time = 2.81 | CG iter. 5 -- res = 0.47412E+05, tol = 0.26434E+01, time = 2.72 | CG iter. 6 -- res = 0.26425E+05, tol = 0.26434E+01, time = 2.66 | CG iter. 7 -- res = 0.10730E+05, tol = 0.26434E+01, time = 2.77 | CG iter. 8 -- res = 0.45492E+04, tol = 0.26434E+01, time = 4.24 | CG iter. 9 -- res = 0.20221E+04, tol = 0.26434E+01, time = 2.92 | CG iter. 10 -- res = 0.82448E+03, tol = 0.26434E+01, time = 3.09 | CG iter. 11 -- res = 0.33632E+03, tol = 0.26434E+01, time = 2.81 | CG iter. 12 -- res = 0.15880E+03, tol = 0.26434E+01, time = 3.02 | CG iter. 13 -- res = 0.78735E+02, tol = 0.26434E+01, time = 2.57 | CG iter. 14 -- res = 0.40365E+02, tol = 0.26434E+01, time = 2.95 | CG iter. 15 -- res = 0.19345E+02, tol = 0.26434E+01, time = 2.84 | CG iter. 16 -- res = 0.86736E+01, tol = 0.26434E+01, time = 2.96 | CG iter. 17 -- res = 0.36187E+01, tol = 0.26434E+01, time = 2.59 | CG iter. 18 -- res = 0.16219E+01, tol = 0.26434E+01, time = 2.77 | CG iter. 19 -- res = 0.76965E+00, tol = 0.26434E+01, time = 2.72 | CG iter. 20 -- res = 0.38917E+00, tol = 0.26434E+01, time = 2.60 | CG iter. 21 -- res = 0.19090E+00, tol = 0.26434E+01, time = 2.95 | CG iter. 22 -- res = 0.88617E-01, tol = 0.26434E+01, time = 2.61 | CG iter. 23 -- res = 0.40392E-01, tol = 0.26434E+01, time = 2.86 | CG iter. 24 -- res = 0.18226E-01, tol = 0.26434E+01, time = 2.42 | CG iter. 25 -- res = 0.87410E-02, tol = 0.26434E+01, time = 2.80 | CG iter. 26 -- res = 0.42757E-02, tol = 0.26434E+01, time = 2.75 | CG iter. 27 -- res = 0.21984E-02, tol = 0.26434E+01, time = 2.94 | CG iter. 28 -- res = 0.11118E-02, tol = 0.26434E+01, time = 2.70 | CG iter. 29 -- res = 0.50054E-03, tol = 0.26434E+01, time = 2.68 | CG iter. 30 -- res = 0.23753E-03, tol = 0.26434E+01, time = 2.53 | CG iter. 31 -- res = 0.11197E-03, tol = 0.26434E+01, time = 2.73 | CG iter. 32 -- res = 0.53071E-04, tol = 0.26434E+01, time = 3.05 | CG iter. 33 -- res = 0.26962E-04, tol = 0.26434E+01, time = 2.61 | CG iter. 34 -- res = 0.13306E-04, tol = 0.26434E+01, time = 2.75 | CG iter. 35 -- res = 0.64613E-05, tol = 0.26434E+01, time = 2.75 | CG iter. 36 -- res = 0.31254E-05, tol = 0.26434E+01, time = 2.97 | CG iter. 37 -- res = 0.13781E-05, tol = 0.26434E+01, time = 2.69 | CG iter. 38 -- res = 0.70258E-06, tol = 0.26434E+01, time = 2.68 | CG iter. 39 -- res = 0.32213E-06, tol = 0.26434E+01, time = 2.65 | CG iter. 40 -- res = 0.16615E-06, tol = 0.26434E+01, time = 2.71 | CG iter. 41 -- res = 0.82592E-07, tol = 0.26434E+01, time = 2.82 | CG iter. 42 -- res = 0.39270E-07, tol = 0.26434E+01, time = 2.69 | CG iter. 43 -- res = 0.17593E-07, tol = 0.26434E+01, time = 2.98 | CG iter. 44 -- res = 0.82833E-08, tol = 0.26434E+01, time = 2.88 | CG iter. 45 -- res = 0.40331E-08, tol = 0.26434E+01, time = 2.73 | CG iter. 46 -- res = 0.19287E-08, tol = 0.26434E+01, time = 2.87 | CG iter. 47 -- res = 0.95433E-09, tol = 0.26434E+01, time = 2.58 | CG iter. 48 -- res = 0.46877E-09, tol = 0.26434E+01, time = 2.65 | CG iter. 49 -- res = 0.22090E-09, tol = 0.26434E+01, time = 2.85 | CG iter. 50 -- res = 0.98013E-10, tol = 0.26434E+01, time = 2.85 | Final CG iter 51 -- res = 0.98013E-10, tol = 0.26434E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.891 5.487 | New value 6.967 | Old value -7.891 | Difference 14.858 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.22541E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.91371E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.33493E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.10011E-01, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.37319E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8941091.521 | (Sampled value in CG: 8897186.478 ) | CPU time specind = 1192.912 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.68794E+08, tol = 0.57685E+04, time = 18.04 | CG iter. 2 -- res = 0.58733E+08, tol = 0.57685E+04, time = 12.03 | CG iter. 3 -- res = 0.15144E+08, tol = 0.57685E+04, time = 12.18 | CG iter. 4 -- res = 0.63169E+07, tol = 0.57685E+04, time = 12.18 | CG iter. 5 -- res = 0.37175E+07, tol = 0.57685E+04, time = 12.02 | CG iter. 6 -- res = 0.21657E+07, tol = 0.57685E+04, time = 11.72 | CG iter. 7 -- res = 0.12833E+07, tol = 0.57685E+04, time = 11.85 | CG iter. 8 -- res = 0.83014E+06, tol = 0.57685E+04, time = 13.85 | CG iter. 9 -- res = 0.52693E+06, tol = 0.57685E+04, time = 12.39 | CG iter. 10 -- res = 0.31539E+06, tol = 0.57685E+04, time = 11.90 | CG iter. 11 -- res = 0.17160E+06, tol = 0.57685E+04, time = 11.52 | CG iter. 12 -- res = 0.95700E+05, tol = 0.57685E+04, time = 12.22 | CG iter. 13 -- res = 0.55479E+05, tol = 0.57685E+04, time = 11.54 | CG iter. 14 -- res = 0.35614E+05, tol = 0.57685E+04, time = 11.78 | CG iter. 15 -- res = 0.25458E+05, tol = 0.57685E+04, time = 12.12 | CG iter. 16 -- res = 0.20106E+05, tol = 0.57685E+04, time = 11.53 | CG iter. 17 -- res = 0.17275E+05, tol = 0.57685E+04, time = 12.66 | CG iter. 18 -- res = 0.14327E+05, tol = 0.57685E+04, time = 12.00 | CG iter. 19 -- res = 0.11726E+05, tol = 0.57685E+04, time = 11.72 | CG iter. 20 -- res = 0.10242E+05, tol = 0.57685E+04, time = 11.57 | CG iter. 21 -- res = 0.96550E+04, tol = 0.57685E+04, time = 11.51 | CG iter. 22 -- res = 0.96478E+04, tol = 0.57685E+04, time = 12.24 | CG iter. 23 -- res = 0.10237E+05, tol = 0.57685E+04, time = 12.17 | CG iter. 24 -- res = 0.10683E+05, tol = 0.57685E+04, time = 11.94 | CG iter. 25 -- res = 0.10152E+05, tol = 0.57685E+04, time = 18.87 | CG iter. 26 -- res = 0.85161E+04, tol = 0.57685E+04, time = 11.61 | CG iter. 27 -- res = 0.64602E+04, tol = 0.57685E+04, time = 11.71 | CG iter. 28 -- res = 0.48545E+04, tol = 0.57685E+04, time = 11.67 | CG iter. 29 -- res = 0.38422E+04, tol = 0.57685E+04, time = 12.27 | CG iter. 30 -- res = 0.31878E+04, tol = 0.57685E+04, time = 11.69 | CG iter. 31 -- res = 0.27392E+04, tol = 0.57685E+04, time = 12.11 | CG iter. 32 -- res = 0.23290E+04, tol = 0.57685E+04, time = 13.00 | CG iter. 33 -- res = 0.19421E+04, tol = 0.57685E+04, time = 13.13 | CG iter. 34 -- res = 0.16315E+04, tol = 0.57685E+04, time = 12.06 | CG iter. 35 -- res = 0.14151E+04, tol = 0.57685E+04, time = 11.96 | CG iter. 36 -- res = 0.12667E+04, tol = 0.57685E+04, time = 12.05 | CG iter. 37 -- res = 0.12225E+04, tol = 0.57685E+04, time = 11.88 | CG iter. 38 -- res = 0.12007E+04, tol = 0.57685E+04, time = 12.06 | CG iter. 39 -- res = 0.11524E+04, tol = 0.57685E+04, time = 12.05 | CG iter. 40 -- res = 0.10380E+04, tol = 0.57685E+04, time = 11.40 | CG iter. 41 -- res = 0.82755E+03, tol = 0.57685E+04, time = 12.01 | CG iter. 42 -- res = 0.65997E+03, tol = 0.57685E+04, time = 11.86 | CG iter. 43 -- res = 0.56479E+03, tol = 0.57685E+04, time = 12.07 | CG iter. 44 -- res = 0.50628E+03, tol = 0.57685E+04, time = 11.49 | CG iter. 45 -- res = 0.46339E+03, tol = 0.57685E+04, time = 11.73 | CG iter. 46 -- res = 0.42208E+03, tol = 0.57685E+04, time = 11.99 | CG iter. 47 -- res = 0.37713E+03, tol = 0.57685E+04, time = 11.65 | CG iter. 48 -- res = 0.32436E+03, tol = 0.57685E+04, time = 12.26 | CG iter. 49 -- res = 0.28144E+03, tol = 0.57685E+04, time = 12.25 | CG iter. 50 -- res = 0.25601E+03, tol = 0.57685E+04, time = 17.87 | CG iter. 51 -- res = 0.24831E+03, tol = 0.57685E+04, time = 11.83 | CG iter. 52 -- res = 0.25034E+03, tol = 0.57685E+04, time = 11.27 | CG iter. 53 -- res = 0.23899E+03, tol = 0.57685E+04, time = 12.16 | CG iter. 54 -- res = 0.21880E+03, tol = 0.57685E+04, time = 11.52 | CG iter. 55 -- res = 0.19226E+03, tol = 0.57685E+04, time = 12.12 | CG iter. 56 -- res = 0.16392E+03, tol = 0.57685E+04, time = 11.82 | CG iter. 57 -- res = 0.14645E+03, tol = 0.57685E+04, time = 13.78 | CG iter. 58 -- res = 0.13989E+03, tol = 0.57685E+04, time = 12.27 | CG iter. 59 -- res = 0.13225E+03, tol = 0.57685E+04, time = 12.15 | CG iter. 60 -- res = 0.12366E+03, tol = 0.57685E+04, time = 11.59 | Final CG iter 61 -- res = 0.12366E+03, tol = 0.57685E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.797 ( -229.418 -2230.384 2512.981 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7722820.710 | Old band monopole 8941129.978 | Change to band monopole -1218309.268 | Change to component monopole 1218304.028 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.974 2.759 | New value -4.763 | Old value 5.974 | Difference -10.737 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.392 ( 6.361 10.175 -9.797 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.893 6.295 | New value 12.815 | Old value 10.893 | Difference 1.922 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.60717E+07, tol = 0.47627E+18, time = 2.11 | CG iter. 2 -- res = 0.52037E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.19870E+01, tol = 0.47627E+18, time = 2.18 | CG iter. 4 -- res = 0.36390E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.30732E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7722787.492 | (Sampled value in CG: 7698739.290 ) | Chain = 1 -- chisq = 0.81544828E+09 | Chain = 1 -- wall time = 5704.467 sec Available RAM: MemAvailable: 377319328 kB Available Swap: SwapFree: 1115454592 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 326 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446385 | --> Sampling calibration, mode = relcal | relcal = 1.3430553E-02 7.4921409E-04 -1.6008422E-03 -1.2578926E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191229 0.1305309 9404506.24966216 | BP delta = 0.1191229 0.1269543 9404544.18678391 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632353 | --> Sampling calibration, mode = relcal | relcal = -2.8208341E-03 -7.0307840E-04 1.6769927E-03 1.6148899E-03 -4.0807421E-04 6.4010400E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5557406 15216528.0382031 | BP delta = 0.0000000E+00 -0.5462604 15216537.0161939 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102491 | --> Sampling calibration, mode = relcal | relcal = 3.7074942E-02 1.3716242E-02 5.7530389E-03 -7.1671330E-03 8.2483087E-03 2.3962855E-03 -7.5992355E-03 -7.1819900E-03 -1.5297998E-02 -1.4794802E-02 -3.0558191E-03 -1.2091842E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.210565 132210073.636241 | BP delta = 0.0000000E+00 -1.171227 132210069.291829 | BP chisq diff = -4.3, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18460119236830 | --> Sampling calibration, mode = relcal | relcal = -7.5030319E-02 -5.8730308E-02 9.2023820E-02 4.1736811E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.0170498E-04 4.8457207E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1986E-05 | 2: delta_r/delta_0: 9.7923E-07 | 3: delta_s/delta_0: 1.9402E-07 | 4: delta_r/delta_0: 1.9061E-08 | 5: delta_s/delta_0: 4.7185E-09 | 6: delta_r/delta_0: 1.3499E-09 | 7: delta_s/delta_0: 2.9551E-10 | 8: delta_r/delta_0: 9.2319E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.010203861948215E-003 2.732752504062859E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1985E-05 | 2: delta_r/delta_0: 9.7923E-07 | 3: delta_s/delta_0: 1.9402E-07 | 4: delta_r/delta_0: 1.9062E-08 | 5: delta_s/delta_0: 4.7192E-09 | 6: delta_r/delta_0: 1.3499E-09 | 7: delta_s/delta_0: 2.9552E-10 | 8: delta_r/delta_0: 9.2324E-11 | Reached bicg-stab tolerance | BP delta = 7.9306670E-02 0.1007250 3554379.79460457 | BP delta = 7.9306670E-02 0.1004073 3553586.24675009 | BP chisq diff = -793.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596119 | --> Sampling calibration, mode = relcal | relcal = -0.1066411 -9.5507219E-02 0.1449163 5.7231952E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8851458E-03 1.5183170E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4159E-05 | 2: delta_r/delta_0: 1.1480E-06 | 3: delta_s/delta_0: 2.4883E-07 | 4: delta_r/delta_0: 4.9497E-08 | 5: delta_s/delta_0: 1.7258E-08 | 6: delta_r/delta_0: 6.9787E-09 | 7: delta_s/delta_0: 6.2994E-09 | 8: delta_r/delta_0: 1.4829E-09 | 9: delta_s/delta_0: 7.2486E-10 | 10: delta_r/delta_0: 5.3398E-10 | 11: delta_s/delta_0: 5.5796E-10 | 12: delta_r/delta_0: 7.2813E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.461043750816231E-003 2.810935044069329E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.4159E-05 | 2: delta_r/delta_0: 1.1481E-06 | 3: delta_s/delta_0: 2.4885E-07 | 4: delta_r/delta_0: 4.9530E-08 | 5: delta_s/delta_0: 1.7253E-08 | 6: delta_r/delta_0: 6.9810E-09 | 7: delta_s/delta_0: 6.3004E-09 | 8: delta_r/delta_0: 1.4833E-09 | 9: delta_s/delta_0: 7.2502E-10 | 10: delta_r/delta_0: 5.3405E-10 | 11: delta_s/delta_0: 5.5886E-10 | 12: delta_r/delta_0: 7.2768E-11 | Reached bicg-stab tolerance | BP delta = -0.3454308 -0.3144599 2841488.48295588 | BP delta = -0.3454308 -0.3111057 2841499.83979260 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81208246 | --> Sampling calibration, mode = relcal | relcal = 0.2954902 0.2248567 -0.2837799 -0.2365670 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1639045E-04 5.4996908E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7024E-02 | 2: delta_r/delta_0: 6.3289E-04 | 3: delta_s/delta_0: 4.2746E-04 | 4: delta_r/delta_0: 8.8610E-05 | 5: delta_s/delta_0: 1.5612E-03 | 6: delta_r/delta_0: 3.1807E-04 | 7: delta_s/delta_0: 5.9449E-06 | 8: delta_r/delta_0: 5.9839E-07 | 9: delta_s/delta_0: 4.4746E-06 | 10: delta_r/delta_0: 5.6017E-08 | 11: delta_s/delta_0: 1.5049E-08 | 12: delta_r/delta_0: 3.5552E-09 | 13: delta_s/delta_0: 3.7155E-09 | 14: delta_r/delta_0: 1.9978E-09 | 15: delta_s/delta_0: 3.8002E-10 | 16: delta_r/delta_0: 2.4106E-10 | 17: delta_s/delta_0: 1.5434E-10 | 18: delta_r/delta_0: 8.2198E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.121515834572298 4.022602434032315E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7080E-02 | 2: delta_r/delta_0: 6.3421E-04 | 3: delta_s/delta_0: 4.2249E-04 | 4: delta_r/delta_0: 8.7600E-05 | 5: delta_s/delta_0: 1.5619E-03 | 6: delta_r/delta_0: 3.1842E-04 | 7: delta_s/delta_0: 5.9207E-06 | 8: delta_r/delta_0: 5.9638E-07 | 9: delta_s/delta_0: 4.4718E-06 | 10: delta_r/delta_0: 5.5855E-08 | 11: delta_s/delta_0: 1.5001E-08 | 12: delta_r/delta_0: 3.5467E-09 | 13: delta_s/delta_0: 3.7051E-09 | 14: delta_r/delta_0: 1.9909E-09 | 15: delta_s/delta_0: 3.7951E-10 | 16: delta_r/delta_0: 2.4062E-10 | 17: delta_s/delta_0: 1.5410E-10 | 18: delta_r/delta_0: 8.2001E-11 | Reached bicg-stab tolerance | BP delta = -0.2084168 -0.2417194 2827366.83403685 | BP delta = -0.2084168 -0.2530253 2827565.59167351 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95895645 | --> Sampling calibration, mode = relcal | relcal = 0.1064205 0.1394559 -0.1102056 -0.1356709 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0463869E-02 1.2429860E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1213E-03 | 2: delta_r/delta_0: 7.3156E-05 | 3: delta_s/delta_0: 6.4851E-06 | 4: delta_r/delta_0: 5.0796E-07 | 5: delta_s/delta_0: 2.4095E-03 | 6: delta_r/delta_0: 4.4628E-05 | 7: delta_s/delta_0: 6.4218E-08 | 8: delta_r/delta_0: 2.4774E-08 | 9: delta_s/delta_0: 7.7525E-08 | 10: delta_r/delta_0: 4.3225E-09 | 11: delta_s/delta_0: 1.6004E-09 | 12: delta_r/delta_0: 6.8393E-10 | 13: delta_s/delta_0: 5.3524E-10 | 14: delta_r/delta_0: 3.8140E-10 | 15: delta_s/delta_0: 5.8748E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.179387276226366E-002 3.697900894888982E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.1239E-03 | 2: delta_r/delta_0: 7.3218E-05 | 3: delta_s/delta_0: 6.4953E-06 | 4: delta_r/delta_0: 5.0849E-07 | 5: delta_s/delta_0: 2.4540E-03 | 6: delta_r/delta_0: 4.5486E-05 | 7: delta_s/delta_0: 6.4350E-08 | 8: delta_r/delta_0: 2.4764E-08 | 9: delta_s/delta_0: 7.7093E-08 | 10: delta_r/delta_0: 4.3286E-09 | 11: delta_s/delta_0: 1.6056E-09 | 12: delta_r/delta_0: 6.8431E-10 | 13: delta_s/delta_0: 5.3744E-10 | 14: delta_r/delta_0: 3.8215E-10 | 15: delta_s/delta_0: 5.8616E-11 | Reached bicg-stab tolerance | BP delta = 0.1795623 0.2898281 3004247.93761297 | BP delta = 0.1795623 0.2990571 3004336.61570339 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52158402 | --> Sampling calibration, mode = relcal | relcal = -5.1051397E-02 -3.7123880E-03 2.7241154E-02 2.7522631E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7394897E-04 2.7683857E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5051E-05 | 2: delta_r/delta_0: 4.5014E-06 | 3: delta_s/delta_0: 5.4367E-06 | 4: delta_r/delta_0: 8.7596E-07 | 5: delta_s/delta_0: 5.1268E-08 | 6: delta_r/delta_0: 3.0653E-08 | 7: delta_s/delta_0: 1.0246E-07 | 8: delta_r/delta_0: 7.0053E-09 | 9: delta_s/delta_0: 1.6202E-09 | 10: delta_r/delta_0: 7.3203E-10 | 11: delta_s/delta_0: 8.7114E-10 | 12: delta_r/delta_0: 3.2405E-10 | 13: delta_s/delta_0: 1.1907E-09 | 14: delta_r/delta_0: 2.8010E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.114506178132901E-002 5.483175769574972E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5051E-05 | 2: delta_r/delta_0: 4.5014E-06 | 3: delta_s/delta_0: 5.4367E-06 | 4: delta_r/delta_0: 8.7596E-07 | 5: delta_s/delta_0: 5.1269E-08 | 6: delta_r/delta_0: 3.0653E-08 | 7: delta_s/delta_0: 1.0245E-07 | 8: delta_r/delta_0: 7.0055E-09 | 9: delta_s/delta_0: 1.6207E-09 | 10: delta_r/delta_0: 7.3305E-10 | 11: delta_s/delta_0: 8.7110E-10 | 12: delta_r/delta_0: 3.2432E-10 | 13: delta_s/delta_0: 1.1969E-09 | 14: delta_r/delta_0: 2.8056E-11 | Reached bicg-stab tolerance | BP delta = 6.6884957E-02 0.1583577 2435236.49747264 | BP delta = 6.6884957E-02 0.1405839 2435238.15395405 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42156584 | --> Sampling calibration, mode = relcal | relcal = 4.5575630E-02 3.9656226E-02 -2.8251328E-02 -5.6980528E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1493998E-03 4.5271465E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5490E-05 | 2: delta_r/delta_0: 3.1298E-06 | 3: delta_s/delta_0: 1.6882E-06 | 4: delta_r/delta_0: 2.0054E-07 | 5: delta_s/delta_0: 7.7987E-08 | 6: delta_r/delta_0: 3.7387E-08 | 7: delta_s/delta_0: 3.1155E-05 | 8: delta_r/delta_0: 1.5192E-06 | 9: delta_s/delta_0: 3.2939E-09 | 10: delta_r/delta_0: 1.6020E-09 | 11: delta_s/delta_0: 2.6071E-08 | 12: delta_r/delta_0: 5.0629E-09 | 13: delta_s/delta_0: 7.4513E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.450755880366805E-002 4.995844786712100E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.5491E-05 | 2: delta_r/delta_0: 3.1297E-06 | 3: delta_s/delta_0: 1.6882E-06 | 4: delta_r/delta_0: 2.0054E-07 | 5: delta_s/delta_0: 7.7986E-08 | 6: delta_r/delta_0: 3.7387E-08 | 7: delta_s/delta_0: 3.1122E-05 | 8: delta_r/delta_0: 1.5175E-06 | 9: delta_s/delta_0: 3.2937E-09 | 10: delta_r/delta_0: 1.6020E-09 | 11: delta_s/delta_0: 2.6114E-08 | 12: delta_r/delta_0: 5.0678E-09 | 13: delta_s/delta_0: 7.4501E-11 | Reached bicg-stab tolerance | BP delta = 6.2102843E-02 -3.9637104E-02 2322333.55800663 | BP delta = 6.2102843E-02 -6.2597960E-02 2322331.51789975 | BP chisq diff = -2.0, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28167989 | --> Sampling calibration, mode = relcal | relcal = 2.4205996E-02 4.5078341E-02 -2.3330089E-02 -4.5954246E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0983219E-02 1.8572545E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0608E-04 | 2: delta_r/delta_0: 8.6734E-06 | 3: delta_s/delta_0: 1.4409E-06 | 4: delta_r/delta_0: 1.8664E-07 | 5: delta_s/delta_0: 7.8131E-08 | 6: delta_r/delta_0: 1.8376E-08 | 7: delta_s/delta_0: 9.1651E-09 | 8: delta_r/delta_0: 6.3525E-09 | 9: delta_s/delta_0: 7.9757E-08 | 10: delta_r/delta_0: 7.0711E-09 | 11: delta_s/delta_0: 2.0495E-09 | 12: delta_r/delta_0: 1.0889E-09 | 13: delta_s/delta_0: 6.4742E-03 | 14: delta_r/delta_0: 3.0175E-03 | 15: delta_s/delta_0: 7.0458E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.033924533261500E-002 7.841777379666580E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0608E-04 | 2: delta_r/delta_0: 8.6734E-06 | 3: delta_s/delta_0: 1.4409E-06 | 4: delta_r/delta_0: 1.8665E-07 | 5: delta_s/delta_0: 7.8138E-08 | 6: delta_r/delta_0: 1.8377E-08 | 7: delta_s/delta_0: 9.1653E-09 | 8: delta_r/delta_0: 6.3525E-09 | 9: delta_s/delta_0: 7.9753E-08 | 10: delta_r/delta_0: 7.0708E-09 | 11: delta_s/delta_0: 2.0494E-09 | 12: delta_r/delta_0: 1.0889E-09 | 13: delta_s/delta_0: 3.1936E-03 | 14: delta_r/delta_0: 1.4886E-03 | 15: delta_s/delta_0: 7.0460E-11 | Reached bicg-stab tolerance | BP delta = -0.3174680 -0.4921567 2489921.62981149 | BP delta = -0.3174680 -0.4996822 2489912.04359700 | BP chisq diff = -9.6, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29398614 | --> Sampling calibration, mode = relcal | relcal = 4.4652491E-04 1.0291554E-02 -3.8032923E-03 -6.9347871E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5738823E-02 1.5236304E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3033E-04 | 2: delta_r/delta_0: 1.0854E-05 | 3: delta_s/delta_0: 1.6549E-06 | 4: delta_r/delta_0: 3.3913E-07 | 5: delta_s/delta_0: 9.9542E-08 | 6: delta_r/delta_0: 2.5059E-08 | 7: delta_s/delta_0: 1.0500E-08 | 8: delta_r/delta_0: 7.0799E-09 | 9: delta_s/delta_0: 4.7356E-09 | 10: delta_r/delta_0: 1.3972E-09 | 11: delta_s/delta_0: 2.0986E-05 | 12: delta_r/delta_0: 1.6035E-08 | 13: delta_s/delta_0: 4.2914E-10 | 14: delta_r/delta_0: 1.5064E-10 | 15: delta_s/delta_0: 1.1689E-10 | 16: delta_r/delta_0: 8.3943E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.012046770006881E-002 8.304688414248921E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3033E-04 | 2: delta_r/delta_0: 1.0854E-05 | 3: delta_s/delta_0: 1.6549E-06 | 4: delta_r/delta_0: 3.3913E-07 | 5: delta_s/delta_0: 9.9545E-08 | 6: delta_r/delta_0: 2.5058E-08 | 7: delta_s/delta_0: 1.0499E-08 | 8: delta_r/delta_0: 7.0798E-09 | 9: delta_s/delta_0: 4.7356E-09 | 10: delta_r/delta_0: 1.3976E-09 | 11: delta_s/delta_0: 2.0950E-05 | 12: delta_r/delta_0: 1.6012E-08 | 13: delta_s/delta_0: 4.2873E-10 | 14: delta_r/delta_0: 1.5068E-10 | 15: delta_s/delta_0: 1.1689E-10 | 16: delta_r/delta_0: 8.3951E-11 | Reached bicg-stab tolerance | BP delta = -0.8388229 -0.7941992 2738538.28818858 | BP delta = -0.8388229 -0.7894765 2738543.01326992 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26509847 | --> Sampling calibration, mode = relcal | relcal = -5.6620901E-03 1.5077725E-02 -2.3275709E-03 -7.0880642E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1920379E-03 3.8265123E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4118E-04 | 2: delta_r/delta_0: 1.2146E-05 | 3: delta_s/delta_0: 2.0616E-06 | 4: delta_r/delta_0: 2.6576E-07 | 5: delta_s/delta_0: 1.0894E-07 | 6: delta_r/delta_0: 2.1600E-08 | 7: delta_s/delta_0: 8.3987E-09 | 8: delta_r/delta_0: 5.3087E-09 | 9: delta_s/delta_0: 5.3694E-09 | 10: delta_r/delta_0: 3.6509E-09 | 11: delta_s/delta_0: 2.0565E-07 | 12: delta_r/delta_0: 1.7996E-09 | 13: delta_s/delta_0: 3.9617E-09 | 14: delta_r/delta_0: 1.0645E-09 | 15: delta_s/delta_0: 5.5837E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.085792073267145E-003 9.152638887610030E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4118E-04 | 2: delta_r/delta_0: 1.2146E-05 | 3: delta_s/delta_0: 2.0616E-06 | 4: delta_r/delta_0: 2.6577E-07 | 5: delta_s/delta_0: 1.0893E-07 | 6: delta_r/delta_0: 2.1601E-08 | 7: delta_s/delta_0: 8.3990E-09 | 8: delta_r/delta_0: 5.3089E-09 | 9: delta_s/delta_0: 5.3696E-09 | 10: delta_r/delta_0: 3.6509E-09 | 11: delta_s/delta_0: 2.0560E-07 | 12: delta_r/delta_0: 1.7989E-09 | 13: delta_s/delta_0: 3.9616E-09 | 14: delta_r/delta_0: 1.0643E-09 | 15: delta_s/delta_0: 5.5834E-11 | Reached bicg-stab tolerance | BP delta = 0.3263376 0.3579600 2516506.90279697 | BP delta = 0.3263376 0.3470508 2516507.58814279 | BP chisq diff = 0.7, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25663806 | --> Sampling calibration, mode = relcal | relcal = -3.1566046E-02 -2.5996109E-02 3.7005853E-02 2.0556303E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3911072E-02 1.8377131E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4406E-04 | 2: delta_r/delta_0: 1.2198E-05 | 3: delta_s/delta_0: 2.0315E-06 | 4: delta_r/delta_0: 3.5059E-07 | 5: delta_s/delta_0: 1.2730E-07 | 6: delta_r/delta_0: 2.8296E-08 | 7: delta_s/delta_0: 1.3373E-08 | 8: delta_r/delta_0: 8.2753E-09 | 9: delta_s/delta_0: 3.7981E-08 | 10: delta_r/delta_0: 6.2923E-09 | 11: delta_s/delta_0: 5.1612E-09 | 12: delta_r/delta_0: 1.5311E-09 | 13: delta_s/delta_0: 1.4914E-09 | 14: delta_r/delta_0: 8.5533E-10 | 15: delta_s/delta_0: 1.3309E-10 | 16: delta_r/delta_0: 1.1356E-10 | 17: delta_s/delta_0: 9.3400E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.070942807864066E-002 8.671496725983859E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4406E-04 | 2: delta_r/delta_0: 1.2198E-05 | 3: delta_s/delta_0: 2.0315E-06 | 4: delta_r/delta_0: 3.5057E-07 | 5: delta_s/delta_0: 1.2727E-07 | 6: delta_r/delta_0: 2.8295E-08 | 7: delta_s/delta_0: 1.3372E-08 | 8: delta_r/delta_0: 8.2751E-09 | 9: delta_s/delta_0: 3.7975E-08 | 10: delta_r/delta_0: 6.2917E-09 | 11: delta_s/delta_0: 5.1669E-09 | 12: delta_r/delta_0: 1.5335E-09 | 13: delta_s/delta_0: 1.4937E-09 | 14: delta_r/delta_0: 8.5739E-10 | 15: delta_s/delta_0: 1.3314E-10 | 16: delta_r/delta_0: 1.1359E-10 | 17: delta_s/delta_0: 9.3397E-11 | Reached bicg-stab tolerance | BP delta = -0.8190600 -0.9892473 2705801.01294780 | BP delta = -0.8190600 -1.011623 2705775.13113058 | BP chisq diff = -25.9, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163105 | New value = -3.198181 | poltype: 2 pol: 1 CPU time specind = 4.3866158E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.223435 | New value = -3.173407 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.220403 | New value = -3.138703 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.211808 | New value = -3.181076 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111875 | New value = -3.179488 | poltype: 2 pol: 2 CPU time specind = 3.3066988E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.13529E+08, tol = 0.87295E+01, time = 6.28 | CG iter. 2 -- res = 0.33357E+06, tol = 0.87295E+01, time = 10.45 | CG iter. 3 -- res = 0.46749E+05, tol = 0.87295E+01, time = 5.16 | CG iter. 4 -- res = 0.22312E+05, tol = 0.87295E+01, time = 5.61 | CG iter. 5 -- res = 0.12268E+05, tol = 0.87295E+01, time = 5.51 | CG iter. 6 -- res = 0.79542E+04, tol = 0.87295E+01, time = 5.57 | CG iter. 7 -- res = 0.63104E+04, tol = 0.87295E+01, time = 5.62 | CG iter. 8 -- res = 0.49414E+04, tol = 0.87295E+01, time = 5.43 | CG iter. 9 -- res = 0.44901E+04, tol = 0.87295E+01, time = 5.31 | CG iter. 10 -- res = 0.47463E+04, tol = 0.87295E+01, time = 5.37 | CG iter. 11 -- res = 0.42724E+04, tol = 0.87295E+01, time = 5.48 | CG iter. 12 -- res = 0.29864E+04, tol = 0.87295E+01, time = 5.68 | CG iter. 13 -- res = 0.20883E+04, tol = 0.87295E+01, time = 5.59 | CG iter. 14 -- res = 0.17176E+04, tol = 0.87295E+01, time = 5.15 | CG iter. 15 -- res = 0.14901E+04, tol = 0.87295E+01, time = 5.51 | CG iter. 16 -- res = 0.12891E+04, tol = 0.87295E+01, time = 5.38 | CG iter. 17 -- res = 0.94447E+03, tol = 0.87295E+01, time = 6.32 | CG iter. 18 -- res = 0.74850E+03, tol = 0.87295E+01, time = 6.10 | CG iter. 19 -- res = 0.62238E+03, tol = 0.87295E+01, time = 6.04 | CG iter. 20 -- res = 0.50130E+03, tol = 0.87295E+01, time = 5.65 | CG iter. 21 -- res = 0.37816E+03, tol = 0.87295E+01, time = 5.43 | CG iter. 22 -- res = 0.30253E+03, tol = 0.87295E+01, time = 5.26 | CG iter. 23 -- res = 0.27473E+03, tol = 0.87295E+01, time = 5.23 | CG iter. 24 -- res = 0.25511E+03, tol = 0.87295E+01, time = 5.32 | CG iter. 25 -- res = 0.21193E+03, tol = 0.87295E+01, time = 5.24 | CG iter. 26 -- res = 0.16723E+03, tol = 0.87295E+01, time = 5.39 | CG iter. 27 -- res = 0.13930E+03, tol = 0.87295E+01, time = 5.17 | CG iter. 28 -- res = 0.12949E+03, tol = 0.87295E+01, time = 5.46 | CG iter. 29 -- res = 0.10854E+03, tol = 0.87295E+01, time = 5.30 | CG iter. 30 -- res = 0.88745E+02, tol = 0.87295E+01, time = 5.26 | CG iter. 31 -- res = 0.75639E+02, tol = 0.87295E+01, time = 5.57 | CG iter. 32 -- res = 0.68331E+02, tol = 0.87295E+01, time = 5.61 | CG iter. 33 -- res = 0.59035E+02, tol = 0.87295E+01, time = 5.47 | CG iter. 34 -- res = 0.45467E+02, tol = 0.87295E+01, time = 5.12 | CG iter. 35 -- res = 0.37470E+02, tol = 0.87295E+01, time = 5.57 | CG iter. 36 -- res = 0.32836E+02, tol = 0.87295E+01, time = 5.41 | CG iter. 37 -- res = 0.29866E+02, tol = 0.87295E+01, time = 6.14 | CG iter. 38 -- res = 0.24748E+02, tol = 0.87295E+01, time = 5.89 | CG iter. 39 -- res = 0.19332E+02, tol = 0.87295E+01, time = 6.79 | CG iter. 40 -- res = 0.16853E+02, tol = 0.87295E+01, time = 5.19 | CG iter. 41 -- res = 0.15006E+02, tol = 0.87295E+01, time = 5.58 | CG iter. 42 -- res = 0.11965E+02, tol = 0.87295E+01, time = 5.30 | CG iter. 43 -- res = 0.99162E+01, tol = 0.87295E+01, time = 5.44 | CG iter. 44 -- res = 0.84039E+01, tol = 0.87295E+01, time = 5.69 | CG iter. 45 -- res = 0.73821E+01, tol = 0.87295E+01, time = 5.42 | CG iter. 46 -- res = 0.61223E+01, tol = 0.87295E+01, time = 5.46 | CG iter. 47 -- res = 0.48980E+01, tol = 0.87295E+01, time = 5.56 | CG iter. 48 -- res = 0.38468E+01, tol = 0.87295E+01, time = 5.49 | CG iter. 49 -- res = 0.32691E+01, tol = 0.87295E+01, time = 5.48 | CG iter. 50 -- res = 0.27638E+01, tol = 0.87295E+01, time = 5.76 | Final CG iter 51 -- res = 0.27638E+01, tol = 0.87295E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7276682.071 | Old band monopole 7722820.710 | Change to band monopole -446138.639 | Change to component monopole 446136.720 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.47101E+05, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.29350E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.11991E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.31630E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.37470E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7276650.773 | (Sampled value in CG: 7248598.569 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498440 | New value = 1.464535 | poltype: 2 pol: 1 CPU time specind = 1.4753103E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484054 | New value = 1.484204 | poltype: 2 pol: 2 CPU time specind = 3.2510996E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.24246E+08, tol = 0.47443E+04, time = 7.05 | CG iter. 2 -- res = 0.52653E+07, tol = 0.47443E+04, time = 6.55 | CG iter. 3 -- res = 0.82490E+06, tol = 0.47443E+04, time = 6.35 | CG iter. 4 -- res = 0.34242E+06, tol = 0.47443E+04, time = 5.95 | CG iter. 5 -- res = 0.14642E+06, tol = 0.47443E+04, time = 6.72 | CG iter. 6 -- res = 0.77550E+05, tol = 0.47443E+04, time = 6.27 | CG iter. 7 -- res = 0.42310E+05, tol = 0.47443E+04, time = 6.37 | CG iter. 8 -- res = 0.20077E+05, tol = 0.47443E+04, time = 6.48 | CG iter. 9 -- res = 0.87144E+04, tol = 0.47443E+04, time = 6.35 | CG iter. 10 -- res = 0.35378E+04, tol = 0.47443E+04, time = 5.83 | CG iter. 11 -- res = 0.15882E+04, tol = 0.47443E+04, time = 6.23 | CG iter. 12 -- res = 0.82821E+03, tol = 0.47443E+04, time = 6.62 | CG iter. 13 -- res = 0.46427E+03, tol = 0.47443E+04, time = 5.71 | CG iter. 14 -- res = 0.26067E+03, tol = 0.47443E+04, time = 6.33 | CG iter. 15 -- res = 0.13519E+03, tol = 0.47443E+04, time = 6.58 | CG iter. 16 -- res = 0.64155E+02, tol = 0.47443E+04, time = 6.02 | CG iter. 17 -- res = 0.30802E+02, tol = 0.47443E+04, time = 6.26 | CG iter. 18 -- res = 0.15403E+02, tol = 0.47443E+04, time = 6.25 | CG iter. 19 -- res = 0.82065E+01, tol = 0.47443E+04, time = 6.04 | CG iter. 20 -- res = 0.45784E+01, tol = 0.47443E+04, time = 6.35 | CG iter. 21 -- res = 0.24575E+01, tol = 0.47443E+04, time = 6.07 | CG iter. 22 -- res = 0.12452E+01, tol = 0.47443E+04, time = 6.16 | CG iter. 23 -- res = 0.62629E+00, tol = 0.47443E+04, time = 6.34 | CG iter. 24 -- res = 0.32482E+00, tol = 0.47443E+04, time = 6.07 | CG iter. 25 -- res = 0.18129E+00, tol = 0.47443E+04, time = 6.21 | CG iter. 26 -- res = 0.10387E+00, tol = 0.47443E+04, time = 6.27 | CG iter. 27 -- res = 0.58397E-01, tol = 0.47443E+04, time = 5.91 | CG iter. 28 -- res = 0.31439E-01, tol = 0.47443E+04, time = 6.35 | CG iter. 29 -- res = 0.15981E-01, tol = 0.47443E+04, time = 6.09 | CG iter. 30 -- res = 0.84204E-02, tol = 0.47443E+04, time = 6.15 | CG iter. 31 -- res = 0.46683E-02, tol = 0.47443E+04, time = 5.95 | CG iter. 32 -- res = 0.27276E-02, tol = 0.47443E+04, time = 6.15 | CG iter. 33 -- res = 0.15981E-02, tol = 0.47443E+04, time = 6.45 | CG iter. 34 -- res = 0.85146E-03, tol = 0.47443E+04, time = 12.64 | CG iter. 35 -- res = 0.44359E-03, tol = 0.47443E+04, time = 6.10 | Final CG iter 36 -- res = 0.44359E-03, tol = 0.47443E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.901 2.689 | New value -1.268 | Old value -4.901 | Difference 3.633 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.68524E+06, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.30609E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.86969E+00, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.11820E-02, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.15065E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7276650.773 | (Sampled value in CG: 7247934.657 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.545615 | New value = -3.681557 | poltype: 1 pol: 1 CPU time specind = 2.6465178E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.21897E+07, tol = 0.28652E+01, time = 2.38 | CG iter. 2 -- res = 0.70308E+06, tol = 0.28652E+01, time = 3.10 | CG iter. 3 -- res = 0.13615E+06, tol = 0.28652E+01, time = 8.57 | CG iter. 4 -- res = 0.55716E+05, tol = 0.28652E+01, time = 2.49 | CG iter. 5 -- res = 0.34296E+05, tol = 0.28652E+01, time = 2.48 | CG iter. 6 -- res = 0.17559E+05, tol = 0.28652E+01, time = 2.73 | CG iter. 7 -- res = 0.65634E+04, tol = 0.28652E+01, time = 2.68 | CG iter. 8 -- res = 0.28100E+04, tol = 0.28652E+01, time = 2.24 | CG iter. 9 -- res = 0.11425E+04, tol = 0.28652E+01, time = 2.68 | CG iter. 10 -- res = 0.46706E+03, tol = 0.28652E+01, time = 2.34 | CG iter. 11 -- res = 0.20221E+03, tol = 0.28652E+01, time = 2.40 | CG iter. 12 -- res = 0.10315E+03, tol = 0.28652E+01, time = 2.32 | CG iter. 13 -- res = 0.53564E+02, tol = 0.28652E+01, time = 3.04 | CG iter. 14 -- res = 0.25526E+02, tol = 0.28652E+01, time = 2.51 | CG iter. 15 -- res = 0.10927E+02, tol = 0.28652E+01, time = 2.70 | CG iter. 16 -- res = 0.45541E+01, tol = 0.28652E+01, time = 2.29 | CG iter. 17 -- res = 0.20113E+01, tol = 0.28652E+01, time = 2.86 | CG iter. 18 -- res = 0.99482E+00, tol = 0.28652E+01, time = 2.58 | CG iter. 19 -- res = 0.48215E+00, tol = 0.28652E+01, time = 2.38 | CG iter. 20 -- res = 0.24021E+00, tol = 0.28652E+01, time = 2.59 | CG iter. 21 -- res = 0.11079E+00, tol = 0.28652E+01, time = 2.51 | CG iter. 22 -- res = 0.48705E-01, tol = 0.28652E+01, time = 2.44 | CG iter. 23 -- res = 0.21845E-01, tol = 0.28652E+01, time = 2.81 | CG iter. 24 -- res = 0.10446E-01, tol = 0.28652E+01, time = 2.70 | CG iter. 25 -- res = 0.54770E-02, tol = 0.28652E+01, time = 2.50 | CG iter. 26 -- res = 0.26949E-02, tol = 0.28652E+01, time = 2.70 | CG iter. 27 -- res = 0.12416E-02, tol = 0.28652E+01, time = 2.63 | CG iter. 28 -- res = 0.55541E-03, tol = 0.28652E+01, time = 2.43 | CG iter. 29 -- res = 0.25335E-03, tol = 0.28652E+01, time = 2.67 | CG iter. 30 -- res = 0.12647E-03, tol = 0.28652E+01, time = 2.36 | CG iter. 31 -- res = 0.65451E-04, tol = 0.28652E+01, time = 2.56 | CG iter. 32 -- res = 0.33132E-04, tol = 0.28652E+01, time = 2.43 | CG iter. 33 -- res = 0.15592E-04, tol = 0.28652E+01, time = 2.69 | CG iter. 34 -- res = 0.69168E-05, tol = 0.28652E+01, time = 2.62 | CG iter. 35 -- res = 0.32256E-05, tol = 0.28652E+01, time = 2.36 | CG iter. 36 -- res = 0.16261E-05, tol = 0.28652E+01, time = 3.50 | CG iter. 37 -- res = 0.80471E-06, tol = 0.28652E+01, time = 3.44 | CG iter. 38 -- res = 0.40342E-06, tol = 0.28652E+01, time = 2.90 | CG iter. 39 -- res = 0.19004E-06, tol = 0.28652E+01, time = 2.80 | CG iter. 40 -- res = 0.85116E-07, tol = 0.28652E+01, time = 2.95 | CG iter. 41 -- res = 0.40267E-07, tol = 0.28652E+01, time = 2.64 | CG iter. 42 -- res = 0.19454E-07, tol = 0.28652E+01, time = 2.72 | CG iter. 43 -- res = 0.94551E-08, tol = 0.28652E+01, time = 2.61 | CG iter. 44 -- res = 0.46623E-08, tol = 0.28652E+01, time = 2.64 | CG iter. 45 -- res = 0.21638E-08, tol = 0.28652E+01, time = 2.41 | CG iter. 46 -- res = 0.10008E-08, tol = 0.28652E+01, time = 2.51 | CG iter. 47 -- res = 0.47052E-09, tol = 0.28652E+01, time = 2.61 | CG iter. 48 -- res = 0.22678E-09, tol = 0.28652E+01, time = 2.37 | CG iter. 49 -- res = 0.10702E-09, tol = 0.28652E+01, time = 2.59 | CG iter. 50 -- res = 0.52109E-10, tol = 0.28652E+01, time = 2.55 | Final CG iter 51 -- res = 0.52109E-10, tol = 0.28652E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.533 7.143 | New value -6.772 | Old value 10.533 | Difference -17.305 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.28544E+06, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.79392E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.29925E+01, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.22953E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.65773E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7276650.773 | (Sampled value in CG: 7257684.702 ) | CPU time specind = 1144.449 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.68998E+08, tol = 0.57832E+04, time = 11.05 | CG iter. 2 -- res = 0.58618E+08, tol = 0.57832E+04, time = 11.17 | CG iter. 3 -- res = 0.15135E+08, tol = 0.57832E+04, time = 11.01 | CG iter. 4 -- res = 0.63912E+07, tol = 0.57832E+04, time = 11.18 | CG iter. 5 -- res = 0.37097E+07, tol = 0.57832E+04, time = 11.00 | CG iter. 6 -- res = 0.21263E+07, tol = 0.57832E+04, time = 11.41 | CG iter. 7 -- res = 0.12891E+07, tol = 0.57832E+04, time = 11.28 | CG iter. 8 -- res = 0.86694E+06, tol = 0.57832E+04, time = 18.04 | CG iter. 9 -- res = 0.55375E+06, tol = 0.57832E+04, time = 11.14 | CG iter. 10 -- res = 0.32783E+06, tol = 0.57832E+04, time = 11.24 | CG iter. 11 -- res = 0.17337E+06, tol = 0.57832E+04, time = 11.31 | CG iter. 12 -- res = 0.92390E+05, tol = 0.57832E+04, time = 11.05 | CG iter. 13 -- res = 0.49705E+05, tol = 0.57832E+04, time = 11.50 | CG iter. 14 -- res = 0.29154E+05, tol = 0.57832E+04, time = 11.35 | CG iter. 15 -- res = 0.18840E+05, tol = 0.57832E+04, time = 11.44 | CG iter. 16 -- res = 0.12963E+05, tol = 0.57832E+04, time = 12.49 | CG iter. 17 -- res = 0.94056E+04, tol = 0.57832E+04, time = 11.55 | CG iter. 18 -- res = 0.65954E+04, tol = 0.57832E+04, time = 11.62 | CG iter. 19 -- res = 0.45273E+04, tol = 0.57832E+04, time = 10.88 | CG iter. 20 -- res = 0.32161E+04, tol = 0.57832E+04, time = 11.10 | CG iter. 21 -- res = 0.25024E+04, tol = 0.57832E+04, time = 11.87 | CG iter. 22 -- res = 0.22067E+04, tol = 0.57832E+04, time = 11.21 | CG iter. 23 -- res = 0.22126E+04, tol = 0.57832E+04, time = 11.41 | CG iter. 24 -- res = 0.24081E+04, tol = 0.57832E+04, time = 11.11 | CG iter. 25 -- res = 0.25574E+04, tol = 0.57832E+04, time = 11.51 | CG iter. 26 -- res = 0.25659E+04, tol = 0.57832E+04, time = 11.29 | CG iter. 27 -- res = 0.23705E+04, tol = 0.57832E+04, time = 11.02 | CG iter. 28 -- res = 0.20498E+04, tol = 0.57832E+04, time = 11.14 | CG iter. 29 -- res = 0.17934E+04, tol = 0.57832E+04, time = 11.08 | CG iter. 30 -- res = 0.15810E+04, tol = 0.57832E+04, time = 11.27 | CG iter. 31 -- res = 0.13935E+04, tol = 0.57832E+04, time = 11.16 | CG iter. 32 -- res = 0.11804E+04, tol = 0.57832E+04, time = 11.11 | CG iter. 33 -- res = 0.94422E+03, tol = 0.57832E+04, time = 11.22 | CG iter. 34 -- res = 0.74291E+03, tol = 0.57832E+04, time = 17.92 | CG iter. 35 -- res = 0.58294E+03, tol = 0.57832E+04, time = 11.01 | CG iter. 36 -- res = 0.46893E+03, tol = 0.57832E+04, time = 10.97 | CG iter. 37 -- res = 0.42514E+03, tol = 0.57832E+04, time = 11.38 | CG iter. 38 -- res = 0.40561E+03, tol = 0.57832E+04, time = 10.79 | CG iter. 39 -- res = 0.39154E+03, tol = 0.57832E+04, time = 11.38 | CG iter. 40 -- res = 0.36769E+03, tol = 0.57832E+04, time = 10.90 | CG iter. 41 -- res = 0.33181E+03, tol = 0.57832E+04, time = 10.93 | CG iter. 42 -- res = 0.29206E+03, tol = 0.57832E+04, time = 12.68 | CG iter. 43 -- res = 0.26487E+03, tol = 0.57832E+04, time = 11.74 | CG iter. 44 -- res = 0.25126E+03, tol = 0.57832E+04, time = 11.10 | CG iter. 45 -- res = 0.24265E+03, tol = 0.57832E+04, time = 11.18 | CG iter. 46 -- res = 0.22794E+03, tol = 0.57832E+04, time = 11.39 | CG iter. 47 -- res = 0.20675E+03, tol = 0.57832E+04, time = 10.94 | CG iter. 48 -- res = 0.17537E+03, tol = 0.57832E+04, time = 10.65 | CG iter. 49 -- res = 0.14753E+03, tol = 0.57832E+04, time = 11.13 | CG iter. 50 -- res = 0.12703E+03, tol = 0.57832E+04, time = 10.84 | CG iter. 51 -- res = 0.11977E+03, tol = 0.57832E+04, time = 10.93 | CG iter. 52 -- res = 0.11881E+03, tol = 0.57832E+04, time = 11.23 | CG iter. 53 -- res = 0.11984E+03, tol = 0.57832E+04, time = 11.07 | CG iter. 54 -- res = 0.12025E+03, tol = 0.57832E+04, time = 11.06 | CG iter. 55 -- res = 0.11056E+03, tol = 0.57832E+04, time = 11.12 | CG iter. 56 -- res = 0.98089E+02, tol = 0.57832E+04, time = 11.12 | CG iter. 57 -- res = 0.87174E+02, tol = 0.57832E+04, time = 11.31 | CG iter. 58 -- res = 0.83070E+02, tol = 0.57832E+04, time = 11.44 | CG iter. 59 -- res = 0.80308E+02, tol = 0.57832E+04, time = 10.68 | CG iter. 60 -- res = 0.78260E+02, tol = 0.57832E+04, time = 17.93 | Final CG iter 61 -- res = 0.78260E+02, tol = 0.57832E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.708 ( -229.405 -2229.886 2512.179 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7342162.416 | Old band monopole 7276682.071 | Change to band monopole 65480.345 | Change to component monopole -65480.064 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.203 2.727 | New value -0.699 | Old value -1.203 | Difference 0.504 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.604 ( 7.349 8.946 -7.729 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.384 6.233 | New value 0.181 | Old value 2.384 | Difference -2.203 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.29781E+05, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.25416E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.83018E+00, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.17113E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.11576E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7342130.836 | (Sampled value in CG: 7316449.592 ) | Chain = 1 -- chisq = 0.81572061E+09 | Chain = 1 -- wall time = 17872.914 sec Available RAM: MemAvailable: 488099484 kB Available Swap: SwapFree: 1056391240 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 327 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447358 | --> Sampling calibration, mode = relcal | relcal = 1.3440056E-02 7.5215602E-04 -1.6081829E-03 -1.2584029E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1191229 0.1305309 97040382.7249484 | BP delta = 0.1202832 0.1316912 97040382.3299064 | BP chisq diff = -0.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632225 | --> Sampling calibration, mode = relcal | relcal = -2.8201714E-03 -7.0319907E-04 1.6790326E-03 1.6111826E-03 -4.0738485E-04 6.4054033E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5557406 15217300.0165183 | BP delta = 0.0000000E+00 -0.5522184 15217301.2721472 | BP chisq diff = 1.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18012563946671 | --> Sampling calibration, mode = relcal | relcal = -7.3686935E-02 -5.7609677E-02 9.0503916E-02 4.0792696E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5449506E-04 2.4676770E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.6177E-04 | 2: delta_r/delta_0: 1.6065E-05 | 3: delta_s/delta_0: 3.5337E-07 | 4: delta_r/delta_0: 5.5986E-08 | 5: delta_s/delta_0: 2.2849E-05 | 6: delta_r/delta_0: 2.5194E-06 | 7: delta_s/delta_0: 9.9552E-10 | 8: delta_r/delta_0: 6.0612E-10 | 9: delta_s/delta_0: 1.0226E-09 | 10: delta_r/delta_0: 5.1127E-10 | 11: delta_s/delta_0: 6.5931E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.136046167363871E-003 2.743299757204411E-005 | BP delta = 7.9306670E-02 0.1004073 50487363.0262616 | BP delta = 8.2152203E-02 0.1032528 50487366.2359247 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02591559 | --> Sampling calibration, mode = relcal | relcal = -0.1066581 -9.5567383E-02 0.1450011 5.7224389E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9085474E-03 1.2762558E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0464E-05 | 2: delta_r/delta_0: 1.1296E-06 | 3: delta_s/delta_0: 2.3411E-07 | 4: delta_r/delta_0: 5.3868E-08 | 5: delta_s/delta_0: 1.4300E-08 | 6: delta_r/delta_0: 6.8712E-09 | 7: delta_s/delta_0: 9.2850E-08 | 8: delta_r/delta_0: 4.1116E-09 | 9: delta_s/delta_0: 8.2123E-10 | 10: delta_r/delta_0: 3.9710E-10 | 11: delta_s/delta_0: 5.3493E-09 | 12: delta_r/delta_0: 3.3472E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.300699467011300E-003 2.811059713449908E-005 | BP delta = -0.3454308 -0.3144599 57389039.3940236 | BP delta = -0.3370052 -0.3060343 57389037.7426334 | BP chisq diff = -1.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81203850 | --> Sampling calibration, mode = relcal | relcal = 0.2952693 0.2249036 -0.2837414 -0.2364316 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9418327E-04 4.8549450E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0545E-03 | 2: delta_r/delta_0: 2.5273E-05 | 3: delta_s/delta_0: 1.4513E-05 | 4: delta_r/delta_0: 1.2330E-06 | 5: delta_s/delta_0: 5.4906E-07 | 6: delta_r/delta_0: 1.9904E-07 | 7: delta_s/delta_0: 4.0441E-07 | 8: delta_r/delta_0: 4.0128E-08 | 9: delta_s/delta_0: 1.8090E-07 | 10: delta_r/delta_0: 9.7982E-08 | 11: delta_s/delta_0: 2.5525E-09 | 12: delta_r/delta_0: 1.1039E-09 | 13: delta_s/delta_0: 2.7725E-07 | 14: delta_r/delta_0: 1.6445E-08 | 15: delta_s/delta_0: 8.6332E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.498033824729296E-002 4.022622280887482E-005 | BP delta = -0.2084168 -0.2417194 72481892.6437627 | BP delta = -0.1776496 -0.2109522 72481893.2855501 | BP chisq diff = 0.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95882362 | --> Sampling calibration, mode = relcal | relcal = 0.1065475 0.1395685 -0.1103134 -0.1358026 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7157033E-03 1.3216837E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9720E-03 | 2: delta_r/delta_0: 1.1701E-04 | 3: delta_s/delta_0: 1.2471E-05 | 4: delta_r/delta_0: 1.0206E-06 | 5: delta_s/delta_0: 4.6367E-03 | 6: delta_r/delta_0: 1.3903E-04 | 7: delta_s/delta_0: 1.0161E-07 | 8: delta_r/delta_0: 2.1172E-08 | 9: delta_s/delta_0: 3.8218E-08 | 10: delta_r/delta_0: 4.7333E-09 | 11: delta_s/delta_0: 3.0476E-09 | 12: delta_r/delta_0: 1.2105E-09 | 13: delta_s/delta_0: 7.7289E-10 | 14: delta_r/delta_0: 2.8705E-10 | 15: delta_s/delta_0: 2.8849E-10 | 16: delta_r/delta_0: 1.1492E-10 | 17: delta_s/delta_0: 1.4747E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.664750727811782E-002 3.698582778454931E-005 | BP delta = 0.1795623 0.2898281 72783722.7042681 | BP delta = 0.2289350 0.3392008 72783725.6126322 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.198181 | New value = -3.078432 | poltype: 2 pol: 1 CPU time specind = 1.3321161E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173407 | New value = -3.148192 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138703 | New value = -3.144920 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181076 | New value = -3.144793 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179488 | New value = -3.158046 | poltype: 2 pol: 2 CPU time specind = 7.8549385E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.13927E+08, tol = 0.91310E+01, time = 5.95 | CG iter. 2 -- res = 0.45888E+06, tol = 0.91310E+01, time = 5.71 | CG iter. 3 -- res = 0.20425E+06, tol = 0.91310E+01, time = 5.70 | CG iter. 4 -- res = 0.31586E+06, tol = 0.91310E+01, time = 5.65 | CG iter. 5 -- res = 0.29798E+06, tol = 0.91310E+01, time = 12.00 | CG iter. 6 -- res = 0.24651E+06, tol = 0.91310E+01, time = 5.67 | CG iter. 7 -- res = 0.16186E+06, tol = 0.91310E+01, time = 6.02 | CG iter. 8 -- res = 0.11120E+06, tol = 0.91310E+01, time = 5.85 | CG iter. 9 -- res = 0.93235E+05, tol = 0.91310E+01, time = 5.77 | CG iter. 10 -- res = 0.73622E+05, tol = 0.91310E+01, time = 5.85 | CG iter. 11 -- res = 0.51710E+05, tol = 0.91310E+01, time = 5.99 | CG iter. 12 -- res = 0.38721E+05, tol = 0.91310E+01, time = 5.71 | CG iter. 13 -- res = 0.28931E+05, tol = 0.91310E+01, time = 5.72 | CG iter. 14 -- res = 0.23668E+05, tol = 0.91310E+01, time = 5.81 | CG iter. 15 -- res = 0.17681E+05, tol = 0.91310E+01, time = 5.57 | CG iter. 16 -- res = 0.11466E+05, tol = 0.91310E+01, time = 6.28 | CG iter. 17 -- res = 0.79369E+04, tol = 0.91310E+01, time = 5.72 | CG iter. 18 -- res = 0.68146E+04, tol = 0.91310E+01, time = 5.61 | CG iter. 19 -- res = 0.55539E+04, tol = 0.91310E+01, time = 6.78 | CG iter. 20 -- res = 0.39765E+04, tol = 0.91310E+01, time = 6.56 | CG iter. 21 -- res = 0.27775E+04, tol = 0.91310E+01, time = 6.63 | CG iter. 22 -- res = 0.22184E+04, tol = 0.91310E+01, time = 5.63 | CG iter. 23 -- res = 0.18772E+04, tol = 0.91310E+01, time = 5.82 | CG iter. 24 -- res = 0.14180E+04, tol = 0.91310E+01, time = 5.73 | CG iter. 25 -- res = 0.99850E+03, tol = 0.91310E+01, time = 5.86 | CG iter. 26 -- res = 0.78854E+03, tol = 0.91310E+01, time = 5.68 | CG iter. 27 -- res = 0.67072E+03, tol = 0.91310E+01, time = 6.17 | CG iter. 28 -- res = 0.53030E+03, tol = 0.91310E+01, time = 5.89 | CG iter. 29 -- res = 0.38067E+03, tol = 0.91310E+01, time = 6.10 | CG iter. 30 -- res = 0.28324E+03, tol = 0.91310E+01, time = 5.79 | CG iter. 31 -- res = 0.24413E+03, tol = 0.91310E+01, time = 6.23 | CG iter. 32 -- res = 0.20074E+03, tol = 0.91310E+01, time = 6.19 | CG iter. 33 -- res = 0.14744E+03, tol = 0.91310E+01, time = 6.03 | CG iter. 34 -- res = 0.11034E+03, tol = 0.91310E+01, time = 6.06 | CG iter. 35 -- res = 0.91091E+02, tol = 0.91310E+01, time = 5.85 | CG iter. 36 -- res = 0.77599E+02, tol = 0.91310E+01, time = 5.70 | CG iter. 37 -- res = 0.59300E+02, tol = 0.91310E+01, time = 6.11 | CG iter. 38 -- res = 0.43106E+02, tol = 0.91310E+01, time = 5.67 | CG iter. 39 -- res = 0.33353E+02, tol = 0.91310E+01, time = 5.85 | CG iter. 40 -- res = 0.27652E+02, tol = 0.91310E+01, time = 5.93 | CG iter. 41 -- res = 0.21642E+02, tol = 0.91310E+01, time = 5.96 | CG iter. 42 -- res = 0.16048E+02, tol = 0.91310E+01, time = 5.57 | CG iter. 43 -- res = 0.12173E+02, tol = 0.91310E+01, time = 6.25 | CG iter. 44 -- res = 0.96676E+01, tol = 0.91310E+01, time = 5.79 | CG iter. 45 -- res = 0.77692E+01, tol = 0.91310E+01, time = 5.97 | CG iter. 46 -- res = 0.58332E+01, tol = 0.91310E+01, time = 6.08 | CG iter. 47 -- res = 0.43770E+01, tol = 0.91310E+01, time = 5.76 | CG iter. 48 -- res = 0.33779E+01, tol = 0.91310E+01, time = 5.77 | CG iter. 49 -- res = 0.26565E+01, tol = 0.91310E+01, time = 5.97 | CG iter. 50 -- res = 0.19269E+01, tol = 0.91310E+01, time = 5.80 | Final CG iter 51 -- res = 0.19269E+01, tol = 0.91310E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8562797.217 | Old band monopole 7342162.416 | Change to band monopole 1220634.800 | Change to component monopole -1220629.550 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.47 | CG iter. 1 -- res = 0.70522E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.54246E+03, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.38318E+01, tol = 0.47627E+18, time = 2.42 | CG iter. 4 -- res = 0.94336E-01, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.29474E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8562760.386 | (Sampled value in CG: 8739359.589 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.464535 | New value = 1.502657 | poltype: 2 pol: 1 CPU time specind = 2.1241903E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484204 | New value = 1.503480 | poltype: 2 pol: 2 CPU time specind = 9.2489719E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.24325E+08, tol = 0.47577E+04, time = 7.31 | CG iter. 2 -- res = 0.53081E+07, tol = 0.47577E+04, time = 7.15 | CG iter. 3 -- res = 0.84060E+06, tol = 0.47577E+04, time = 6.21 | CG iter. 4 -- res = 0.35163E+06, tol = 0.47577E+04, time = 7.02 | CG iter. 5 -- res = 0.14899E+06, tol = 0.47577E+04, time = 6.70 | CG iter. 6 -- res = 0.79308E+05, tol = 0.47577E+04, time = 6.44 | CG iter. 7 -- res = 0.43935E+05, tol = 0.47577E+04, time = 6.49 | CG iter. 8 -- res = 0.21271E+05, tol = 0.47577E+04, time = 6.96 | CG iter. 9 -- res = 0.91757E+04, tol = 0.47577E+04, time = 6.72 | CG iter. 10 -- res = 0.36731E+04, tol = 0.47577E+04, time = 6.63 | CG iter. 11 -- res = 0.16610E+04, tol = 0.47577E+04, time = 6.93 | CG iter. 12 -- res = 0.86006E+03, tol = 0.47577E+04, time = 6.95 | CG iter. 13 -- res = 0.48662E+03, tol = 0.47577E+04, time = 6.72 | CG iter. 14 -- res = 0.27787E+03, tol = 0.47577E+04, time = 6.36 | CG iter. 15 -- res = 0.14337E+03, tol = 0.47577E+04, time = 6.82 | CG iter. 16 -- res = 0.68896E+02, tol = 0.47577E+04, time = 7.28 | CG iter. 17 -- res = 0.32107E+02, tol = 0.47577E+04, time = 6.55 | CG iter. 18 -- res = 0.15856E+02, tol = 0.47577E+04, time = 7.08 | CG iter. 19 -- res = 0.87990E+01, tol = 0.47577E+04, time = 6.77 | CG iter. 20 -- res = 0.50243E+01, tol = 0.47577E+04, time = 7.02 | CG iter. 21 -- res = 0.28135E+01, tol = 0.47577E+04, time = 6.64 | CG iter. 22 -- res = 0.14256E+01, tol = 0.47577E+04, time = 6.64 | CG iter. 23 -- res = 0.71327E+00, tol = 0.47577E+04, time = 6.60 | CG iter. 24 -- res = 0.36979E+00, tol = 0.47577E+04, time = 6.54 | CG iter. 25 -- res = 0.19998E+00, tol = 0.47577E+04, time = 6.89 | CG iter. 26 -- res = 0.11474E+00, tol = 0.47577E+04, time = 6.94 | CG iter. 27 -- res = 0.65130E-01, tol = 0.47577E+04, time = 6.68 | CG iter. 28 -- res = 0.34120E-01, tol = 0.47577E+04, time = 6.94 | CG iter. 29 -- res = 0.17839E-01, tol = 0.47577E+04, time = 6.27 | CG iter. 30 -- res = 0.94376E-02, tol = 0.47577E+04, time = 6.70 | CG iter. 31 -- res = 0.51893E-02, tol = 0.47577E+04, time = 12.64 | CG iter. 32 -- res = 0.29473E-02, tol = 0.47577E+04, time = 6.67 | CG iter. 33 -- res = 0.16435E-02, tol = 0.47577E+04, time = 6.72 | CG iter. 34 -- res = 0.89194E-03, tol = 0.47577E+04, time = 6.86 | CG iter. 35 -- res = 0.46388E-03, tol = 0.47577E+04, time = 6.75 | Final CG iter 36 -- res = 0.46388E-03, tol = 0.47577E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.638 2.751 | New value 3.173 | Old value -0.638 | Difference 3.811 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.78755E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.36524E+03, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.28741E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.32352E-03, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.10924E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8562760.386 | (Sampled value in CG: 8739254.129 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.681557 | New value = -3.534552 | poltype: 1 pol: 1 CPU time specind = 1.3181925E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.42302E+07, tol = 0.19979E+01, time = 2.97 | CG iter. 2 -- res = 0.24285E+07, tol = 0.19979E+01, time = 2.90 | CG iter. 3 -- res = 0.50744E+06, tol = 0.19979E+01, time = 2.96 | CG iter. 4 -- res = 0.21186E+06, tol = 0.19979E+01, time = 2.79 | CG iter. 5 -- res = 0.12545E+06, tol = 0.19979E+01, time = 2.83 | CG iter. 6 -- res = 0.59149E+05, tol = 0.19979E+01, time = 2.55 | CG iter. 7 -- res = 0.18630E+05, tol = 0.19979E+01, time = 2.45 | CG iter. 8 -- res = 0.74171E+04, tol = 0.19979E+01, time = 2.86 | CG iter. 9 -- res = 0.36356E+04, tol = 0.19979E+01, time = 2.42 | CG iter. 10 -- res = 0.15095E+04, tol = 0.19979E+01, time = 2.90 | CG iter. 11 -- res = 0.59360E+03, tol = 0.19979E+01, time = 2.86 | CG iter. 12 -- res = 0.28364E+03, tol = 0.19979E+01, time = 2.75 | CG iter. 13 -- res = 0.13819E+03, tol = 0.19979E+01, time = 2.91 | CG iter. 14 -- res = 0.71670E+02, tol = 0.19979E+01, time = 2.91 | CG iter. 15 -- res = 0.32743E+02, tol = 0.19979E+01, time = 2.64 | CG iter. 16 -- res = 0.14399E+02, tol = 0.19979E+01, time = 2.71 | CG iter. 17 -- res = 0.62134E+01, tol = 0.19979E+01, time = 3.92 | CG iter. 18 -- res = 0.28869E+01, tol = 0.19979E+01, time = 3.24 | CG iter. 19 -- res = 0.13542E+01, tol = 0.19979E+01, time = 3.11 | CG iter. 20 -- res = 0.71140E+00, tol = 0.19979E+01, time = 2.89 | CG iter. 21 -- res = 0.35265E+00, tol = 0.19979E+01, time = 2.87 | CG iter. 22 -- res = 0.15568E+00, tol = 0.19979E+01, time = 2.93 | CG iter. 23 -- res = 0.68007E-01, tol = 0.19979E+01, time = 3.03 | CG iter. 24 -- res = 0.31388E-01, tol = 0.19979E+01, time = 2.95 | CG iter. 25 -- res = 0.14661E-01, tol = 0.19979E+01, time = 2.69 | CG iter. 26 -- res = 0.72016E-02, tol = 0.19979E+01, time = 2.65 | CG iter. 27 -- res = 0.36493E-02, tol = 0.19979E+01, time = 2.97 | CG iter. 28 -- res = 0.18056E-02, tol = 0.19979E+01, time = 2.85 | CG iter. 29 -- res = 0.81979E-03, tol = 0.19979E+01, time = 2.98 | CG iter. 30 -- res = 0.39565E-03, tol = 0.19979E+01, time = 2.97 | CG iter. 31 -- res = 0.18782E-03, tol = 0.19979E+01, time = 2.54 | CG iter. 32 -- res = 0.88287E-04, tol = 0.19979E+01, time = 2.57 | CG iter. 33 -- res = 0.45128E-04, tol = 0.19979E+01, time = 2.64 | CG iter. 34 -- res = 0.21536E-04, tol = 0.19979E+01, time = 2.61 | CG iter. 35 -- res = 0.11221E-04, tol = 0.19979E+01, time = 2.71 | CG iter. 36 -- res = 0.54407E-05, tol = 0.19979E+01, time = 2.46 | CG iter. 37 -- res = 0.24624E-05, tol = 0.19979E+01, time = 2.60 | CG iter. 38 -- res = 0.11950E-05, tol = 0.19979E+01, time = 2.71 | CG iter. 39 -- res = 0.58779E-06, tol = 0.19979E+01, time = 2.70 | CG iter. 40 -- res = 0.29683E-06, tol = 0.19979E+01, time = 2.55 | CG iter. 41 -- res = 0.14878E-06, tol = 0.19979E+01, time = 2.89 | CG iter. 42 -- res = 0.72695E-07, tol = 0.19979E+01, time = 3.07 | CG iter. 43 -- res = 0.32762E-07, tol = 0.19979E+01, time = 2.83 | CG iter. 44 -- res = 0.14958E-07, tol = 0.19979E+01, time = 2.34 | CG iter. 45 -- res = 0.71670E-08, tol = 0.19979E+01, time = 2.77 | CG iter. 46 -- res = 0.36468E-08, tol = 0.19979E+01, time = 2.91 | CG iter. 47 -- res = 0.18590E-08, tol = 0.19979E+01, time = 2.76 | CG iter. 48 -- res = 0.91340E-09, tol = 0.19979E+01, time = 3.00 | CG iter. 49 -- res = 0.42534E-09, tol = 0.19979E+01, time = 3.00 | CG iter. 50 -- res = 0.19248E-09, tol = 0.19979E+01, time = 2.22 | Final CG iter 51 -- res = 0.19248E-09, tol = 0.19979E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.970 3.718 | New value -6.405 | Old value 9.970 | Difference -16.375 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.28730E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.29587E+03, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.45133E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.40708E-01, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.30776E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8562760.386 | (Sampled value in CG: 8695791.883 ) | CPU time specind = 1216.678 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.69673E+08, tol = 0.57637E+04, time = 11.84 | CG iter. 2 -- res = 0.59633E+08, tol = 0.57637E+04, time = 11.84 | CG iter. 3 -- res = 0.15800E+08, tol = 0.57637E+04, time = 17.98 | CG iter. 4 -- res = 0.67795E+07, tol = 0.57637E+04, time = 11.58 | CG iter. 5 -- res = 0.40326E+07, tol = 0.57637E+04, time = 12.00 | CG iter. 6 -- res = 0.23528E+07, tol = 0.57637E+04, time = 12.25 | CG iter. 7 -- res = 0.14463E+07, tol = 0.57637E+04, time = 12.02 | CG iter. 8 -- res = 0.10101E+07, tol = 0.57637E+04, time = 11.92 | CG iter. 9 -- res = 0.66816E+06, tol = 0.57637E+04, time = 11.90 | CG iter. 10 -- res = 0.43157E+06, tol = 0.57637E+04, time = 13.88 | CG iter. 11 -- res = 0.26164E+06, tol = 0.57637E+04, time = 12.64 | CG iter. 12 -- res = 0.16350E+06, tol = 0.57637E+04, time = 11.94 | CG iter. 13 -- res = 0.10968E+06, tol = 0.57637E+04, time = 12.36 | CG iter. 14 -- res = 0.88221E+05, tol = 0.57637E+04, time = 12.15 | CG iter. 15 -- res = 0.84086E+05, tol = 0.57637E+04, time = 12.32 | CG iter. 16 -- res = 0.85446E+05, tol = 0.57637E+04, time = 11.85 | CG iter. 17 -- res = 0.84813E+05, tol = 0.57637E+04, time = 11.38 | CG iter. 18 -- res = 0.79464E+05, tol = 0.57637E+04, time = 12.04 | CG iter. 19 -- res = 0.70577E+05, tol = 0.57637E+04, time = 12.24 | CG iter. 20 -- res = 0.61241E+05, tol = 0.57637E+04, time = 11.94 | CG iter. 21 -- res = 0.54579E+05, tol = 0.57637E+04, time = 12.18 | CG iter. 22 -- res = 0.49087E+05, tol = 0.57637E+04, time = 12.26 | CG iter. 23 -- res = 0.44056E+05, tol = 0.57637E+04, time = 12.13 | CG iter. 24 -- res = 0.37814E+05, tol = 0.57637E+04, time = 12.39 | CG iter. 25 -- res = 0.30165E+05, tol = 0.57637E+04, time = 11.89 | CG iter. 26 -- res = 0.22605E+05, tol = 0.57637E+04, time = 12.21 | CG iter. 27 -- res = 0.17630E+05, tol = 0.57637E+04, time = 18.38 | CG iter. 28 -- res = 0.14335E+05, tol = 0.57637E+04, time = 12.31 | CG iter. 29 -- res = 0.12713E+05, tol = 0.57637E+04, time = 12.04 | CG iter. 30 -- res = 0.12189E+05, tol = 0.57637E+04, time = 12.10 | CG iter. 31 -- res = 0.11745E+05, tol = 0.57637E+04, time = 11.97 | CG iter. 32 -- res = 0.10669E+05, tol = 0.57637E+04, time = 11.72 | CG iter. 33 -- res = 0.92030E+04, tol = 0.57637E+04, time = 12.05 | CG iter. 34 -- res = 0.75213E+04, tol = 0.57637E+04, time = 13.50 | CG iter. 35 -- res = 0.61859E+04, tol = 0.57637E+04, time = 12.73 | CG iter. 36 -- res = 0.53699E+04, tol = 0.57637E+04, time = 12.04 | CG iter. 37 -- res = 0.49626E+04, tol = 0.57637E+04, time = 11.76 | CG iter. 38 -- res = 0.44892E+04, tol = 0.57637E+04, time = 11.94 | CG iter. 39 -- res = 0.39163E+04, tol = 0.57637E+04, time = 11.21 | CG iter. 40 -- res = 0.32292E+04, tol = 0.57637E+04, time = 12.09 | CG iter. 41 -- res = 0.25749E+04, tol = 0.57637E+04, time = 11.93 | CG iter. 42 -- res = 0.21869E+04, tol = 0.57637E+04, time = 11.74 | CG iter. 43 -- res = 0.20140E+04, tol = 0.57637E+04, time = 12.68 | CG iter. 44 -- res = 0.19838E+04, tol = 0.57637E+04, time = 11.88 | CG iter. 45 -- res = 0.19510E+04, tol = 0.57637E+04, time = 12.00 | CG iter. 46 -- res = 0.18592E+04, tol = 0.57637E+04, time = 12.21 | CG iter. 47 -- res = 0.16648E+04, tol = 0.57637E+04, time = 11.93 | CG iter. 48 -- res = 0.13855E+04, tol = 0.57637E+04, time = 11.84 | CG iter. 49 -- res = 0.11729E+04, tol = 0.57637E+04, time = 12.12 | CG iter. 50 -- res = 0.10757E+04, tol = 0.57637E+04, time = 11.99 | CG iter. 51 -- res = 0.99857E+03, tol = 0.57637E+04, time = 16.71 | CG iter. 52 -- res = 0.91675E+03, tol = 0.57637E+04, time = 13.42 | CG iter. 53 -- res = 0.84112E+03, tol = 0.57637E+04, time = 12.17 | CG iter. 54 -- res = 0.75772E+03, tol = 0.57637E+04, time = 11.85 | CG iter. 55 -- res = 0.66081E+03, tol = 0.57637E+04, time = 11.84 | CG iter. 56 -- res = 0.57594E+03, tol = 0.57637E+04, time = 12.04 | CG iter. 57 -- res = 0.52100E+03, tol = 0.57637E+04, time = 12.08 | CG iter. 58 -- res = 0.50137E+03, tol = 0.57637E+04, time = 12.91 | CG iter. 59 -- res = 0.48884E+03, tol = 0.57637E+04, time = 14.06 | CG iter. 60 -- res = 0.45999E+03, tol = 0.57637E+04, time = 11.82 | Final CG iter 61 -- res = 0.45999E+03, tol = 0.57637E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.900 ( -229.287 -2231.487 2514.267 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9488502.850 | Old band monopole 8562797.217 | Change to band monopole 925705.634 | Change to component monopole -925701.652 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.172 2.737 | New value -3.990 | Old value 3.172 | Difference -7.162 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.074 ( 5.281 12.241 -13.017 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.460 4.415 | New value 0.175 | Old value -10.460 | Difference 10.635 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.27251E+07, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.55549E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.24177E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.34016E-02, tol = 0.47627E+18, time = 2.22 | Final CG iter 5 -- res = 0.57632E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9488462.038 | (Sampled value in CG: 9470289.935 ) | Chain = 1 -- chisq = 0.81516743E+09 | Chain = 1 -- wall time = 5810.517 sec Available RAM: MemAvailable: 378540668 kB Available Swap: SwapFree: 1117109832 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 328 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444797 | --> Sampling calibration, mode = relcal | relcal = 1.3429547E-02 7.4933702E-04 -1.6001534E-03 -1.2578730E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1202832 0.1316912 9404537.48095902 | BP delta = 0.1202832 0.1312657 9404533.03257130 | BP chisq diff = -4.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632422 | --> Sampling calibration, mode = relcal | relcal = -2.8212243E-03 -7.0329220E-04 1.6787016E-03 1.6133320E-03 -4.0766742E-04 6.4015028E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5522184 15216723.2749499 | BP delta = 0.0000000E+00 -0.5500934 15216723.0594301 | BP chisq diff = -0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18212798314459 | --> Sampling calibration, mode = relcal | relcal = -7.5338513E-02 -5.8565542E-02 9.2162810E-02 4.1741252E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3031308E-04 4.3235514E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1527E-05 | 2: delta_r/delta_0: 9.6345E-07 | 3: delta_s/delta_0: 2.0290E-07 | 4: delta_r/delta_0: 2.4378E-08 | 5: delta_s/delta_0: 7.4346E-09 | 6: delta_r/delta_0: 2.0031E-09 | 7: delta_s/delta_0: 7.5378E-10 | 8: delta_r/delta_0: 1.7244E-10 | 9: delta_s/delta_0: 1.8721E-09 | 10: delta_r/delta_0: 6.0242E-10 | 11: delta_s/delta_0: 1.1237E-07 | 12: delta_r/delta_0: 8.3441E-09 | 13: delta_s/delta_0: 7.1695E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.136495901893822E-004 2.738457120798468E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1527E-05 | 2: delta_r/delta_0: 9.6345E-07 | 3: delta_s/delta_0: 2.0290E-07 | 4: delta_r/delta_0: 2.4377E-08 | 5: delta_s/delta_0: 7.4338E-09 | 6: delta_r/delta_0: 2.0031E-09 | 7: delta_s/delta_0: 7.5385E-10 | 8: delta_r/delta_0: 1.7244E-10 | 9: delta_s/delta_0: 1.8719E-09 | 10: delta_r/delta_0: 6.0237E-10 | 11: delta_s/delta_0: 1.1270E-07 | 12: delta_r/delta_0: 8.3660E-09 | 13: delta_s/delta_0: 7.1691E-12 | Reached bicg-stab tolerance | BP delta = 7.9306670E-02 0.1004073 3541615.20014787 | BP delta = 7.9306670E-02 0.1002352 3542573.08775082 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02612365 | --> Sampling calibration, mode = relcal | relcal = -0.1066312 -9.5500521E-02 0.1448450 5.7286728E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1711508E-03 1.5867164E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5690E-05 | 2: delta_r/delta_0: 1.1610E-06 | 3: delta_s/delta_0: 2.5713E-07 | 4: delta_r/delta_0: 4.3015E-08 | 5: delta_s/delta_0: 1.8010E-08 | 6: delta_r/delta_0: 6.2845E-09 | 7: delta_s/delta_0: 7.4903E-09 | 8: delta_r/delta_0: 1.1988E-09 | 9: delta_s/delta_0: 1.3568E-09 | 10: delta_r/delta_0: 9.4241E-10 | 11: delta_s/delta_0: 2.9391E-10 | 12: delta_r/delta_0: 5.9475E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.473194094183389E-003 2.810465861870607E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5690E-05 | 2: delta_r/delta_0: 1.1611E-06 | 3: delta_s/delta_0: 2.5716E-07 | 4: delta_r/delta_0: 4.3079E-08 | 5: delta_s/delta_0: 1.7997E-08 | 6: delta_r/delta_0: 6.2880E-09 | 7: delta_s/delta_0: 7.4910E-09 | 8: delta_r/delta_0: 1.1994E-09 | 9: delta_s/delta_0: 1.3566E-09 | 10: delta_r/delta_0: 9.4199E-10 | 11: delta_s/delta_0: 2.9476E-10 | 12: delta_r/delta_0: 5.9445E-11 | Reached bicg-stab tolerance | BP delta = -0.3370052 -0.3060343 2841585.25071688 | BP delta = -0.3370052 -0.3054554 2841614.15836182 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231514 | --> Sampling calibration, mode = relcal | relcal = 0.2954678 0.2248932 -0.2837884 -0.2365725 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.7220083E-04 4.9606478E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7050E-03 | 2: delta_r/delta_0: 3.9284E-05 | 3: delta_s/delta_0: 1.0242E-05 | 4: delta_r/delta_0: 1.0562E-06 | 5: delta_s/delta_0: 8.5104E-07 | 6: delta_r/delta_0: 6.7194E-08 | 7: delta_s/delta_0: 4.9447E-08 | 8: delta_r/delta_0: 2.6065E-08 | 9: delta_s/delta_0: 4.2627E-07 | 10: delta_r/delta_0: 5.8049E-09 | 11: delta_s/delta_0: 1.9365E-08 | 12: delta_r/delta_0: 4.9313E-09 | 13: delta_s/delta_0: 3.8215E-10 | 14: delta_r/delta_0: 1.3452E-10 | 15: delta_s/delta_0: 5.0853E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.062283481362594E-002 4.021307975224077E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7050E-03 | 2: delta_r/delta_0: 3.9283E-05 | 3: delta_s/delta_0: 1.0242E-05 | 4: delta_r/delta_0: 1.0562E-06 | 5: delta_s/delta_0: 8.5097E-07 | 6: delta_r/delta_0: 6.7191E-08 | 7: delta_s/delta_0: 4.9447E-08 | 8: delta_r/delta_0: 2.6066E-08 | 9: delta_s/delta_0: 4.2623E-07 | 10: delta_r/delta_0: 5.8039E-09 | 11: delta_s/delta_0: 1.9368E-08 | 12: delta_r/delta_0: 4.9320E-09 | 13: delta_s/delta_0: 3.8216E-10 | 14: delta_r/delta_0: 1.3453E-10 | 15: delta_s/delta_0: 5.0855E-11 | Reached bicg-stab tolerance | BP delta = -0.1776496 -0.2109522 2826923.22194036 | BP delta = -0.1776496 -0.2157282 2826920.41615758 | BP chisq diff = -2.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95926500 | --> Sampling calibration, mode = relcal | relcal = 0.1066006 0.1395527 -0.1104103 -0.1357431 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0237969E-02 1.3741761E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1334E-03 | 2: delta_r/delta_0: 4.9916E-05 | 3: delta_s/delta_0: 4.0045E-06 | 4: delta_r/delta_0: 5.8309E-07 | 5: delta_s/delta_0: 7.2333E-05 | 6: delta_r/delta_0: 2.3616E-06 | 7: delta_s/delta_0: 5.0064E-08 | 8: delta_r/delta_0: 3.1757E-08 | 9: delta_s/delta_0: 3.1461E-07 | 10: delta_r/delta_0: 5.0584E-09 | 11: delta_s/delta_0: 1.5709E-09 | 12: delta_r/delta_0: 8.8971E-10 | 13: delta_s/delta_0: 6.7919E-08 | 14: delta_r/delta_0: 6.1919E-09 | 15: delta_s/delta_0: 3.4514E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.572155475104659E-002 3.696814075513940E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1340E-03 | 2: delta_r/delta_0: 4.9928E-05 | 3: delta_s/delta_0: 4.0056E-06 | 4: delta_r/delta_0: 5.8303E-07 | 5: delta_s/delta_0: 7.2494E-05 | 6: delta_r/delta_0: 2.3644E-06 | 7: delta_s/delta_0: 5.0068E-08 | 8: delta_r/delta_0: 3.1754E-08 | 9: delta_s/delta_0: 3.1379E-07 | 10: delta_r/delta_0: 5.0593E-09 | 11: delta_s/delta_0: 1.5719E-09 | 12: delta_r/delta_0: 8.8930E-10 | 13: delta_s/delta_0: 7.3194E-08 | 14: delta_r/delta_0: 6.5590E-09 | 15: delta_s/delta_0: 3.4483E-11 | Reached bicg-stab tolerance | BP delta = 0.1795623 0.2898281 3004268.14554476 | BP delta = 0.1795623 0.2722791 3004299.48456562 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.078432 | New value = -3.187581 | poltype: 2 pol: 1 CPU time specind = 1.6654015E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148192 | New value = -3.139484 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144920 | New value = -3.173836 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144793 | New value = -3.168991 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158046 | New value = -3.173446 | poltype: 2 pol: 2 CPU time specind = 2.9163122E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.13643E+08, tol = 0.74926E+01, time = 5.35 | CG iter. 2 -- res = 0.38552E+06, tol = 0.74926E+01, time = 5.44 | CG iter. 3 -- res = 0.93126E+05, tol = 0.74926E+01, time = 6.05 | CG iter. 4 -- res = 0.10454E+06, tol = 0.74926E+01, time = 5.71 | CG iter. 5 -- res = 0.11396E+06, tol = 0.74926E+01, time = 5.61 | CG iter. 6 -- res = 0.10365E+06, tol = 0.74926E+01, time = 5.91 | CG iter. 7 -- res = 0.85628E+05, tol = 0.74926E+01, time = 5.39 | CG iter. 8 -- res = 0.61924E+05, tol = 0.74926E+01, time = 5.45 | CG iter. 9 -- res = 0.51447E+05, tol = 0.74926E+01, time = 5.76 | CG iter. 10 -- res = 0.43229E+05, tol = 0.74926E+01, time = 5.62 | CG iter. 11 -- res = 0.31552E+05, tol = 0.74926E+01, time = 5.86 | CG iter. 12 -- res = 0.23581E+05, tol = 0.74926E+01, time = 5.94 | CG iter. 13 -- res = 0.21105E+05, tol = 0.74926E+01, time = 5.90 | CG iter. 14 -- res = 0.17821E+05, tol = 0.74926E+01, time = 5.02 | CG iter. 15 -- res = 0.13919E+05, tol = 0.74926E+01, time = 5.65 | CG iter. 16 -- res = 0.97211E+04, tol = 0.74926E+01, time = 5.79 | CG iter. 17 -- res = 0.71097E+04, tol = 0.74926E+01, time = 5.70 | CG iter. 18 -- res = 0.61474E+04, tol = 0.74926E+01, time = 5.59 | CG iter. 19 -- res = 0.53293E+04, tol = 0.74926E+01, time = 5.62 | CG iter. 20 -- res = 0.41107E+04, tol = 0.74926E+01, time = 5.62 | CG iter. 21 -- res = 0.31166E+04, tol = 0.74926E+01, time = 5.72 | CG iter. 22 -- res = 0.25634E+04, tol = 0.74926E+01, time = 5.89 | CG iter. 23 -- res = 0.21795E+04, tol = 0.74926E+01, time = 6.16 | CG iter. 24 -- res = 0.17306E+04, tol = 0.74926E+01, time = 5.63 | CG iter. 25 -- res = 0.12508E+04, tol = 0.74926E+01, time = 5.84 | CG iter. 26 -- res = 0.10215E+04, tol = 0.74926E+01, time = 5.58 | CG iter. 27 -- res = 0.89283E+03, tol = 0.74926E+01, time = 5.85 | CG iter. 28 -- res = 0.75220E+03, tol = 0.74926E+01, time = 12.37 | CG iter. 29 -- res = 0.56583E+03, tol = 0.74926E+01, time = 5.70 | CG iter. 30 -- res = 0.45034E+03, tol = 0.74926E+01, time = 5.72 | CG iter. 31 -- res = 0.39958E+03, tol = 0.74926E+01, time = 5.64 | CG iter. 32 -- res = 0.33713E+03, tol = 0.74926E+01, time = 5.81 | CG iter. 33 -- res = 0.27153E+03, tol = 0.74926E+01, time = 5.72 | CG iter. 34 -- res = 0.20837E+03, tol = 0.74926E+01, time = 5.84 | CG iter. 35 -- res = 0.17936E+03, tol = 0.74926E+01, time = 5.54 | CG iter. 36 -- res = 0.16206E+03, tol = 0.74926E+01, time = 5.72 | CG iter. 37 -- res = 0.13495E+03, tol = 0.74926E+01, time = 5.73 | CG iter. 38 -- res = 0.10618E+03, tol = 0.74926E+01, time = 5.98 | CG iter. 39 -- res = 0.86106E+02, tol = 0.74926E+01, time = 5.84 | CG iter. 40 -- res = 0.80281E+02, tol = 0.74926E+01, time = 5.59 | CG iter. 41 -- res = 0.68903E+02, tol = 0.74926E+01, time = 6.01 | CG iter. 42 -- res = 0.56395E+02, tol = 0.74926E+01, time = 5.58 | CG iter. 43 -- res = 0.46899E+02, tol = 0.74926E+01, time = 7.05 | CG iter. 44 -- res = 0.42136E+02, tol = 0.74926E+01, time = 6.08 | CG iter. 45 -- res = 0.36248E+02, tol = 0.74926E+01, time = 6.06 | CG iter. 46 -- res = 0.29416E+02, tol = 0.74926E+01, time = 6.02 | CG iter. 47 -- res = 0.23839E+02, tol = 0.74926E+01, time = 6.10 | CG iter. 48 -- res = 0.19994E+02, tol = 0.74926E+01, time = 5.69 | CG iter. 49 -- res = 0.17940E+02, tol = 0.74926E+01, time = 5.70 | CG iter. 50 -- res = 0.14761E+02, tol = 0.74926E+01, time = 6.01 | Final CG iter 51 -- res = 0.14761E+02, tol = 0.74926E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7731745.614 | Old band monopole 9488502.850 | Change to band monopole -1756757.236 | Change to component monopole 1756749.680 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.45849E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.22367E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.38615E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.38432E-01, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.77075E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7731712.358 | (Sampled value in CG: 7636710.982 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.502657 | New value = 1.464108 | poltype: 2 pol: 1 CPU time specind = 1.9846916E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.503480 | New value = 1.504482 | poltype: 2 pol: 2 CPU time specind = 2.0515919E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.24314E+08, tol = 0.47449E+04, time = 6.38 | CG iter. 2 -- res = 0.53837E+07, tol = 0.47449E+04, time = 7.04 | CG iter. 3 -- res = 0.82534E+06, tol = 0.47449E+04, time = 6.39 | CG iter. 4 -- res = 0.34503E+06, tol = 0.47449E+04, time = 6.31 | CG iter. 5 -- res = 0.15252E+06, tol = 0.47449E+04, time = 6.67 | CG iter. 6 -- res = 0.79821E+05, tol = 0.47449E+04, time = 6.41 | CG iter. 7 -- res = 0.43197E+05, tol = 0.47449E+04, time = 6.81 | CG iter. 8 -- res = 0.20811E+05, tol = 0.47449E+04, time = 12.88 | CG iter. 9 -- res = 0.91129E+04, tol = 0.47449E+04, time = 6.83 | CG iter. 10 -- res = 0.36334E+04, tol = 0.47449E+04, time = 6.38 | CG iter. 11 -- res = 0.16677E+04, tol = 0.47449E+04, time = 6.74 | CG iter. 12 -- res = 0.87713E+03, tol = 0.47449E+04, time = 6.37 | CG iter. 13 -- res = 0.50274E+03, tol = 0.47449E+04, time = 6.66 | CG iter. 14 -- res = 0.28100E+03, tol = 0.47449E+04, time = 6.52 | CG iter. 15 -- res = 0.14297E+03, tol = 0.47449E+04, time = 6.76 | CG iter. 16 -- res = 0.67697E+02, tol = 0.47449E+04, time = 6.32 | CG iter. 17 -- res = 0.32089E+02, tol = 0.47449E+04, time = 6.64 | CG iter. 18 -- res = 0.15982E+02, tol = 0.47449E+04, time = 6.69 | CG iter. 19 -- res = 0.85654E+01, tol = 0.47449E+04, time = 6.35 | CG iter. 20 -- res = 0.49371E+01, tol = 0.47449E+04, time = 6.36 | CG iter. 21 -- res = 0.27347E+01, tol = 0.47449E+04, time = 8.03 | CG iter. 22 -- res = 0.14091E+01, tol = 0.47449E+04, time = 6.97 | CG iter. 23 -- res = 0.68469E+00, tol = 0.47449E+04, time = 6.69 | CG iter. 24 -- res = 0.34821E+00, tol = 0.47449E+04, time = 6.78 | CG iter. 25 -- res = 0.19070E+00, tol = 0.47449E+04, time = 6.43 | CG iter. 26 -- res = 0.11001E+00, tol = 0.47449E+04, time = 6.40 | CG iter. 27 -- res = 0.62766E-01, tol = 0.47449E+04, time = 6.50 | CG iter. 28 -- res = 0.33534E-01, tol = 0.47449E+04, time = 6.71 | CG iter. 29 -- res = 0.17389E-01, tol = 0.47449E+04, time = 6.64 | CG iter. 30 -- res = 0.90298E-02, tol = 0.47449E+04, time = 6.22 | CG iter. 31 -- res = 0.48962E-02, tol = 0.47449E+04, time = 6.35 | CG iter. 32 -- res = 0.27195E-02, tol = 0.47449E+04, time = 6.30 | CG iter. 33 -- res = 0.15356E-02, tol = 0.47449E+04, time = 6.71 | CG iter. 34 -- res = 0.82962E-03, tol = 0.47449E+04, time = 6.62 | CG iter. 35 -- res = 0.43355E-03, tol = 0.47449E+04, time = 7.13 | Final CG iter 36 -- res = 0.43355E-03, tol = 0.47449E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.038 2.736 | New value -0.212 | Old value -4.038 | Difference 3.826 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.77129E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.12666E+03, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.29024E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.20405E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.33528E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7731712.358 | (Sampled value in CG: 7638488.893 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.534552 | New value = -3.416416 | poltype: 1 pol: 1 CPU time specind = 1.8724918E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.37992E+07, tol = 0.33114E+01, time = 2.42 | CG iter. 2 -- res = 0.23649E+07, tol = 0.33114E+01, time = 2.57 | CG iter. 3 -- res = 0.47721E+06, tol = 0.33114E+01, time = 2.70 | CG iter. 4 -- res = 0.19288E+06, tol = 0.33114E+01, time = 3.24 | CG iter. 5 -- res = 0.10714E+06, tol = 0.33114E+01, time = 2.45 | CG iter. 6 -- res = 0.55956E+05, tol = 0.33114E+01, time = 2.80 | CG iter. 7 -- res = 0.20451E+05, tol = 0.33114E+01, time = 3.35 | CG iter. 8 -- res = 0.80055E+04, tol = 0.33114E+01, time = 2.89 | CG iter. 9 -- res = 0.38634E+04, tol = 0.33114E+01, time = 2.78 | CG iter. 10 -- res = 0.16456E+04, tol = 0.33114E+01, time = 2.75 | CG iter. 11 -- res = 0.63011E+03, tol = 0.33114E+01, time = 2.61 | CG iter. 12 -- res = 0.28472E+03, tol = 0.33114E+01, time = 2.84 | CG iter. 13 -- res = 0.13784E+03, tol = 0.33114E+01, time = 2.79 | CG iter. 14 -- res = 0.70031E+02, tol = 0.33114E+01, time = 2.84 | CG iter. 15 -- res = 0.35116E+02, tol = 0.33114E+01, time = 2.51 | CG iter. 16 -- res = 0.17228E+02, tol = 0.33114E+01, time = 2.79 | CG iter. 17 -- res = 0.72477E+01, tol = 0.33114E+01, time = 2.63 | CG iter. 18 -- res = 0.32382E+01, tol = 0.33114E+01, time = 2.77 | CG iter. 19 -- res = 0.14794E+01, tol = 0.33114E+01, time = 2.63 | CG iter. 20 -- res = 0.72133E+00, tol = 0.33114E+01, time = 2.55 | CG iter. 21 -- res = 0.36640E+00, tol = 0.33114E+01, time = 2.80 | CG iter. 22 -- res = 0.17318E+00, tol = 0.33114E+01, time = 2.70 | CG iter. 23 -- res = 0.79850E-01, tol = 0.33114E+01, time = 2.60 | CG iter. 24 -- res = 0.36766E-01, tol = 0.33114E+01, time = 3.04 | CG iter. 25 -- res = 0.17374E-01, tol = 0.33114E+01, time = 2.54 | CG iter. 26 -- res = 0.82111E-02, tol = 0.33114E+01, time = 2.61 | CG iter. 27 -- res = 0.40576E-02, tol = 0.33114E+01, time = 2.81 | CG iter. 28 -- res = 0.21257E-02, tol = 0.33114E+01, time = 2.62 | CG iter. 29 -- res = 0.10255E-02, tol = 0.33114E+01, time = 2.89 | CG iter. 30 -- res = 0.51687E-03, tol = 0.33114E+01, time = 2.91 | CG iter. 31 -- res = 0.23888E-03, tol = 0.33114E+01, time = 2.77 | CG iter. 32 -- res = 0.10954E-03, tol = 0.33114E+01, time = 2.72 | CG iter. 33 -- res = 0.52419E-04, tol = 0.33114E+01, time = 2.59 | CG iter. 34 -- res = 0.25464E-04, tol = 0.33114E+01, time = 2.82 | CG iter. 35 -- res = 0.13067E-04, tol = 0.33114E+01, time = 2.60 | CG iter. 36 -- res = 0.68954E-05, tol = 0.33114E+01, time = 2.63 | CG iter. 37 -- res = 0.32195E-05, tol = 0.33114E+01, time = 2.84 | CG iter. 38 -- res = 0.15324E-05, tol = 0.33114E+01, time = 2.65 | CG iter. 39 -- res = 0.71798E-06, tol = 0.33114E+01, time = 2.89 | CG iter. 40 -- res = 0.33234E-06, tol = 0.33114E+01, time = 8.03 | CG iter. 41 -- res = 0.17358E-06, tol = 0.33114E+01, time = 3.74 | CG iter. 42 -- res = 0.90155E-07, tol = 0.33114E+01, time = 2.72 | CG iter. 43 -- res = 0.43878E-07, tol = 0.33114E+01, time = 2.61 | CG iter. 44 -- res = 0.20863E-07, tol = 0.33114E+01, time = 2.59 | CG iter. 45 -- res = 0.95783E-08, tol = 0.33114E+01, time = 2.55 | CG iter. 46 -- res = 0.45031E-08, tol = 0.33114E+01, time = 2.42 | CG iter. 47 -- res = 0.22473E-08, tol = 0.33114E+01, time = 2.96 | CG iter. 48 -- res = 0.11787E-08, tol = 0.33114E+01, time = 2.92 | CG iter. 49 -- res = 0.59852E-09, tol = 0.33114E+01, time = 2.66 | CG iter. 50 -- res = 0.27778E-09, tol = 0.33114E+01, time = 2.92 | Final CG iter 51 -- res = 0.27778E-09, tol = 0.33114E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.500 6.337 | New value 6.460 | Old value -8.500 | Difference 14.960 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.23614E+06, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.12137E+03, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.34633E+01, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.18084E-01, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.11447E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7731712.358 | (Sampled value in CG: 7667279.014 ) | CPU time specind = 1196.843 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.69148E+08, tol = 0.57499E+04, time = 11.92 | CG iter. 2 -- res = 0.58481E+08, tol = 0.57499E+04, time = 11.73 | CG iter. 3 -- res = 0.15166E+08, tol = 0.57499E+04, time = 11.87 | CG iter. 4 -- res = 0.66401E+07, tol = 0.57499E+04, time = 12.03 | CG iter. 5 -- res = 0.39952E+07, tol = 0.57499E+04, time = 11.64 | CG iter. 6 -- res = 0.23171E+07, tol = 0.57499E+04, time = 11.76 | CG iter. 7 -- res = 0.13788E+07, tol = 0.57499E+04, time = 11.95 | CG iter. 8 -- res = 0.91507E+06, tol = 0.57499E+04, time = 11.92 | CG iter. 9 -- res = 0.59020E+06, tol = 0.57499E+04, time = 11.82 | CG iter. 10 -- res = 0.36894E+06, tol = 0.57499E+04, time = 11.39 | CG iter. 11 -- res = 0.21695E+06, tol = 0.57499E+04, time = 11.56 | CG iter. 12 -- res = 0.12618E+06, tol = 0.57499E+04, time = 11.77 | CG iter. 13 -- res = 0.77923E+05, tol = 0.57499E+04, time = 11.68 | CG iter. 14 -- res = 0.57315E+05, tol = 0.57499E+04, time = 11.77 | CG iter. 15 -- res = 0.50001E+05, tol = 0.57499E+04, time = 11.37 | CG iter. 16 -- res = 0.47728E+05, tol = 0.57499E+04, time = 17.98 | CG iter. 17 -- res = 0.46030E+05, tol = 0.57499E+04, time = 11.32 | CG iter. 18 -- res = 0.42899E+05, tol = 0.57499E+04, time = 11.87 | CG iter. 19 -- res = 0.38364E+05, tol = 0.57499E+04, time = 12.26 | CG iter. 20 -- res = 0.34779E+05, tol = 0.57499E+04, time = 11.93 | CG iter. 21 -- res = 0.32900E+05, tol = 0.57499E+04, time = 11.52 | CG iter. 22 -- res = 0.32396E+05, tol = 0.57499E+04, time = 11.89 | CG iter. 23 -- res = 0.31390E+05, tol = 0.57499E+04, time = 13.27 | CG iter. 24 -- res = 0.28200E+05, tol = 0.57499E+04, time = 11.87 | CG iter. 25 -- res = 0.22363E+05, tol = 0.57499E+04, time = 11.78 | CG iter. 26 -- res = 0.16373E+05, tol = 0.57499E+04, time = 11.80 | CG iter. 27 -- res = 0.11928E+05, tol = 0.57499E+04, time = 11.69 | CG iter. 28 -- res = 0.93564E+04, tol = 0.57499E+04, time = 11.72 | CG iter. 29 -- res = 0.79948E+04, tol = 0.57499E+04, time = 11.50 | CG iter. 30 -- res = 0.72878E+04, tol = 0.57499E+04, time = 11.76 | CG iter. 31 -- res = 0.67161E+04, tol = 0.57499E+04, time = 11.99 | CG iter. 32 -- res = 0.60845E+04, tol = 0.57499E+04, time = 12.60 | CG iter. 33 -- res = 0.52791E+04, tol = 0.57499E+04, time = 11.73 | CG iter. 34 -- res = 0.45238E+04, tol = 0.57499E+04, time = 11.67 | CG iter. 35 -- res = 0.39599E+04, tol = 0.57499E+04, time = 12.22 | CG iter. 36 -- res = 0.35770E+04, tol = 0.57499E+04, time = 11.99 | CG iter. 37 -- res = 0.34118E+04, tol = 0.57499E+04, time = 12.12 | CG iter. 38 -- res = 0.31468E+04, tol = 0.57499E+04, time = 11.99 | CG iter. 39 -- res = 0.26911E+04, tol = 0.57499E+04, time = 11.45 | CG iter. 40 -- res = 0.21615E+04, tol = 0.57499E+04, time = 12.31 | CG iter. 41 -- res = 0.17325E+04, tol = 0.57499E+04, time = 17.25 | CG iter. 42 -- res = 0.14338E+04, tol = 0.57499E+04, time = 11.84 | CG iter. 43 -- res = 0.12840E+04, tol = 0.57499E+04, time = 11.66 | CG iter. 44 -- res = 0.11960E+04, tol = 0.57499E+04, time = 11.59 | CG iter. 45 -- res = 0.11204E+04, tol = 0.57499E+04, time = 11.47 | CG iter. 46 -- res = 0.10322E+04, tol = 0.57499E+04, time = 11.92 | CG iter. 47 -- res = 0.93536E+03, tol = 0.57499E+04, time = 11.78 | CG iter. 48 -- res = 0.83226E+03, tol = 0.57499E+04, time = 12.78 | CG iter. 49 -- res = 0.72553E+03, tol = 0.57499E+04, time = 12.31 | CG iter. 50 -- res = 0.64708E+03, tol = 0.57499E+04, time = 11.96 | CG iter. 51 -- res = 0.60882E+03, tol = 0.57499E+04, time = 12.10 | CG iter. 52 -- res = 0.58850E+03, tol = 0.57499E+04, time = 12.00 | CG iter. 53 -- res = 0.55447E+03, tol = 0.57499E+04, time = 11.20 | CG iter. 54 -- res = 0.48300E+03, tol = 0.57499E+04, time = 11.85 | CG iter. 55 -- res = 0.39598E+03, tol = 0.57499E+04, time = 11.88 | CG iter. 56 -- res = 0.33630E+03, tol = 0.57499E+04, time = 12.01 | CG iter. 57 -- res = 0.30340E+03, tol = 0.57499E+04, time = 11.99 | CG iter. 58 -- res = 0.29487E+03, tol = 0.57499E+04, time = 12.17 | CG iter. 59 -- res = 0.29333E+03, tol = 0.57499E+04, time = 12.06 | CG iter. 60 -- res = 0.28726E+03, tol = 0.57499E+04, time = 11.74 | Final CG iter 61 -- res = 0.28726E+03, tol = 0.57499E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.896 ( -229.252 -2231.006 2513.431 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9208880.198 | Old band monopole 7731745.614 | Change to band monopole 1477134.584 | Change to component monopole -1477128.230 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.229 2.731 | New value 1.506 | Old value -0.229 | Difference 1.736 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.807 ( 6.302 11.936 -11.339 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 16.132 5.627 | New value -3.922 | Old value 16.132 | Difference -20.053 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.49376E+06, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.11639E+03, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.37560E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.63430E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.50744E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9208840.588 | (Sampled value in CG: 9179547.939 ) | Chain = 1 -- chisq = 0.81608812E+09 | Chain = 1 -- wall time = 6130.053 sec Available RAM: MemAvailable: 378380324 kB Available Swap: SwapFree: 1118047560 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 329 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445553 | --> Sampling calibration, mode = relcal | relcal = 1.3429039E-02 7.4066076E-04 -1.5926939E-03 -1.2577007E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1202832 0.1312657 97039107.3368556 | BP delta = 0.1201504 0.1311329 97039107.4532542 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632472 | --> Sampling calibration, mode = relcal | relcal = -2.8209232E-03 -7.0336525E-04 1.6792688E-03 1.6139770E-03 -4.0835075E-04 6.3939329E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5500934 15220528.6882294 | BP delta = 0.0000000E+00 -0.5534428 15220528.4962689 | BP chisq diff = -0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18127311908782 | --> Sampling calibration, mode = relcal | relcal = -7.4665666E-02 -5.8325455E-02 9.1575913E-02 4.1415203E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2059221E-04 4.3448773E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8816E-05 | 2: delta_r/delta_0: 7.8188E-07 | 3: delta_s/delta_0: 2.5063E-07 | 4: delta_r/delta_0: 1.4629E-08 | 5: delta_s/delta_0: 5.3343E-09 | 6: delta_r/delta_0: 1.5089E-09 | 7: delta_s/delta_0: 2.7912E-09 | 8: delta_r/delta_0: 8.0109E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.032720607752011E-004 2.740511538086199E-005 | BP delta = 7.9306670E-02 0.1004073 50486084.8622229 | BP delta = 8.2466997E-02 0.1035676 50486086.8342199 | BP chisq diff = 2.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02602797 | --> Sampling calibration, mode = relcal | relcal = -0.1066209 -9.5580846E-02 0.1449662 5.7235584E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9750408E-03 1.0506297E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1947E-05 | 2: delta_r/delta_0: 1.1357E-06 | 3: delta_s/delta_0: 2.4182E-07 | 4: delta_r/delta_0: 4.9709E-08 | 5: delta_s/delta_0: 1.5775E-08 | 6: delta_r/delta_0: 6.6546E-09 | 7: delta_s/delta_0: 1.1603E-07 | 8: delta_r/delta_0: 5.6584E-09 | 9: delta_s/delta_0: 8.5360E-10 | 10: delta_r/delta_0: 3.4968E-10 | 11: delta_s/delta_0: 6.6168E-09 | 12: delta_r/delta_0: 2.9544E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.454268115089672E-003 2.810739034765913E-005 | BP delta = -0.3370052 -0.3060343 57389001.8776854 | BP delta = -0.3304819 -0.2995110 57389000.5611703 | BP chisq diff = -1.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81233681 | --> Sampling calibration, mode = relcal | relcal = 0.2954969 0.2249320 -0.2838514 -0.2365775 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1013319E-03 5.8115763E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7765E-03 | 2: delta_r/delta_0: 1.3510E-04 | 3: delta_s/delta_0: 1.5728E-05 | 4: delta_r/delta_0: 1.3304E-06 | 5: delta_s/delta_0: 4.0812E-04 | 6: delta_r/delta_0: 1.4996E-05 | 7: delta_s/delta_0: 1.2013E-07 | 8: delta_r/delta_0: 2.2670E-08 | 9: delta_s/delta_0: 1.8685E-08 | 10: delta_r/delta_0: 8.1937E-09 | 11: delta_s/delta_0: 3.3653E-09 | 12: delta_r/delta_0: 7.8506E-10 | 13: delta_s/delta_0: 3.5001E-10 | 14: delta_r/delta_0: 2.5093E-10 | 15: delta_s/delta_0: 1.3548E-08 | 16: delta_r/delta_0: 8.0315E-09 | 17: delta_s/delta_0: 1.5215E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.526670167374637E-002 4.021282558901835E-005 | BP delta = -0.1776496 -0.2157282 72482513.1378095 | BP delta = -0.1558576 -0.1939361 72482513.9730088 | BP chisq diff = 0.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95920633 | --> Sampling calibration, mode = relcal | relcal = 0.1064733 0.1396848 -0.1103671 -0.1357910 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0725248E-02 1.3789978E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1724E-03 | 2: delta_r/delta_0: 7.4828E-05 | 3: delta_s/delta_0: 6.3823E-06 | 4: delta_r/delta_0: 5.2430E-07 | 5: delta_s/delta_0: 1.9241E-05 | 6: delta_r/delta_0: 4.4065E-07 | 7: delta_s/delta_0: 5.8487E-08 | 8: delta_r/delta_0: 3.8072E-08 | 9: delta_s/delta_0: 3.6373E-07 | 10: delta_r/delta_0: 7.6025E-09 | 11: delta_s/delta_0: 1.7943E-09 | 12: delta_r/delta_0: 1.1091E-09 | 13: delta_s/delta_0: 1.0477E-09 | 14: delta_r/delta_0: 7.2578E-10 | 15: delta_s/delta_0: 4.2895E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.892236994396545E-002 3.697014921934136E-005 | BP delta = 0.1795623 0.2898281 72785880.0031227 | BP delta = 0.2175832 0.3278490 72785884.0467668 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187581 | New value = -3.172515 | poltype: 2 pol: 1 CPU time specind = 1.3138771E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139484 | New value = -3.175777 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173836 | New value = -3.148163 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168991 | New value = -3.166953 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173446 | New value = -3.216900 | poltype: 2 pol: 2 CPU time specind = 3.9238930E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.13542E+08, tol = 0.75845E+01, time = 5.71 | CG iter. 2 -- res = 0.32328E+06, tol = 0.75845E+01, time = 5.78 | CG iter. 3 -- res = 0.45549E+05, tol = 0.75845E+01, time = 5.78 | CG iter. 4 -- res = 0.18936E+05, tol = 0.75845E+01, time = 5.47 | CG iter. 5 -- res = 0.88684E+04, tol = 0.75845E+01, time = 5.66 | CG iter. 6 -- res = 0.43100E+04, tol = 0.75845E+01, time = 5.61 | CG iter. 7 -- res = 0.25241E+04, tol = 0.75845E+01, time = 5.80 | CG iter. 8 -- res = 0.15432E+04, tol = 0.75845E+01, time = 5.77 | CG iter. 9 -- res = 0.11786E+04, tol = 0.75845E+01, time = 5.86 | CG iter. 10 -- res = 0.11614E+04, tol = 0.75845E+01, time = 5.72 | CG iter. 11 -- res = 0.11065E+04, tol = 0.75845E+01, time = 5.63 | CG iter. 12 -- res = 0.91558E+03, tol = 0.75845E+01, time = 5.45 | CG iter. 13 -- res = 0.65310E+03, tol = 0.75845E+01, time = 6.03 | CG iter. 14 -- res = 0.49117E+03, tol = 0.75845E+01, time = 6.52 | CG iter. 15 -- res = 0.40939E+03, tol = 0.75845E+01, time = 5.56 | CG iter. 16 -- res = 0.34216E+03, tol = 0.75845E+01, time = 5.68 | CG iter. 17 -- res = 0.26148E+03, tol = 0.75845E+01, time = 5.75 | CG iter. 18 -- res = 0.20497E+03, tol = 0.75845E+01, time = 5.93 | CG iter. 19 -- res = 0.17737E+03, tol = 0.75845E+01, time = 5.83 | CG iter. 20 -- res = 0.14893E+03, tol = 0.75845E+01, time = 5.70 | CG iter. 21 -- res = 0.11277E+03, tol = 0.75845E+01, time = 5.53 | CG iter. 22 -- res = 0.78544E+02, tol = 0.75845E+01, time = 6.00 | CG iter. 23 -- res = 0.64469E+02, tol = 0.75845E+01, time = 5.75 | CG iter. 24 -- res = 0.55442E+02, tol = 0.75845E+01, time = 5.71 | CG iter. 25 -- res = 0.44953E+02, tol = 0.75845E+01, time = 5.90 | CG iter. 26 -- res = 0.33139E+02, tol = 0.75845E+01, time = 5.68 | CG iter. 27 -- res = 0.24206E+02, tol = 0.75845E+01, time = 5.62 | CG iter. 28 -- res = 0.19548E+02, tol = 0.75845E+01, time = 5.52 | CG iter. 29 -- res = 0.15143E+02, tol = 0.75845E+01, time = 6.02 | CG iter. 30 -- res = 0.11158E+02, tol = 0.75845E+01, time = 5.33 | CG iter. 31 -- res = 0.82227E+01, tol = 0.75845E+01, time = 12.19 | CG iter. 32 -- res = 0.64376E+01, tol = 0.75845E+01, time = 5.43 | CG iter. 33 -- res = 0.52935E+01, tol = 0.75845E+01, time = 5.74 | CG iter. 34 -- res = 0.40350E+01, tol = 0.75845E+01, time = 5.71 | CG iter. 35 -- res = 0.29176E+01, tol = 0.75845E+01, time = 5.47 | CG iter. 36 -- res = 0.23288E+01, tol = 0.75845E+01, time = 6.47 | CG iter. 37 -- res = 0.18778E+01, tol = 0.75845E+01, time = 5.69 | CG iter. 38 -- res = 0.15131E+01, tol = 0.75845E+01, time = 5.69 | CG iter. 39 -- res = 0.10703E+01, tol = 0.75845E+01, time = 5.63 | CG iter. 40 -- res = 0.80909E+00, tol = 0.75845E+01, time = 5.89 | CG iter. 41 -- res = 0.65735E+00, tol = 0.75845E+01, time = 6.21 | CG iter. 42 -- res = 0.53428E+00, tol = 0.75845E+01, time = 5.40 | CG iter. 43 -- res = 0.40838E+00, tol = 0.75845E+01, time = 5.77 | CG iter. 44 -- res = 0.31071E+00, tol = 0.75845E+01, time = 5.94 | CG iter. 45 -- res = 0.25731E+00, tol = 0.75845E+01, time = 5.94 | CG iter. 46 -- res = 0.21548E+00, tol = 0.75845E+01, time = 7.42 | CG iter. 47 -- res = 0.17012E+00, tol = 0.75845E+01, time = 6.30 | CG iter. 48 -- res = 0.13071E+00, tol = 0.75845E+01, time = 5.92 | CG iter. 49 -- res = 0.10448E+00, tol = 0.75845E+01, time = 5.98 | CG iter. 50 -- res = 0.86225E-01, tol = 0.75845E+01, time = 5.66 | Final CG iter 51 -- res = 0.86225E-01, tol = 0.75845E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7962505.718 | Old band monopole 9208880.198 | Change to band monopole -1246374.479 | Change to component monopole 1246369.118 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.54454E+05, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.32598E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.15043E+01, tol = 0.47627E+18, time = 2.49 | CG iter. 4 -- res = 0.69004E-03, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.10729E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7962471.470 | (Sampled value in CG: 7972222.105 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.464108 | New value = 1.504023 | poltype: 2 pol: 1 CPU time specind = 1.9182920E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504482 | New value = 1.507618 | poltype: 2 pol: 2 CPU time specind = 1.5114069E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.24349E+08, tol = 0.47607E+04, time = 6.69 | CG iter. 2 -- res = 0.53634E+07, tol = 0.47607E+04, time = 6.89 | CG iter. 3 -- res = 0.84990E+06, tol = 0.47607E+04, time = 6.76 | CG iter. 4 -- res = 0.35385E+06, tol = 0.47607E+04, time = 6.76 | CG iter. 5 -- res = 0.14968E+06, tol = 0.47607E+04, time = 7.04 | CG iter. 6 -- res = 0.79062E+05, tol = 0.47607E+04, time = 6.84 | CG iter. 7 -- res = 0.43103E+05, tol = 0.47607E+04, time = 6.31 | CG iter. 8 -- res = 0.20993E+05, tol = 0.47607E+04, time = 6.30 | CG iter. 9 -- res = 0.91911E+04, tol = 0.47607E+04, time = 6.53 | CG iter. 10 -- res = 0.36895E+04, tol = 0.47607E+04, time = 7.67 | CG iter. 11 -- res = 0.16732E+04, tol = 0.47607E+04, time = 11.52 | CG iter. 12 -- res = 0.86337E+03, tol = 0.47607E+04, time = 6.74 | CG iter. 13 -- res = 0.48194E+03, tol = 0.47607E+04, time = 6.53 | CG iter. 14 -- res = 0.27327E+03, tol = 0.47607E+04, time = 6.81 | CG iter. 15 -- res = 0.14307E+03, tol = 0.47607E+04, time = 6.55 | CG iter. 16 -- res = 0.68388E+02, tol = 0.47607E+04, time = 6.90 | CG iter. 17 -- res = 0.31832E+02, tol = 0.47607E+04, time = 6.23 | CG iter. 18 -- res = 0.16015E+02, tol = 0.47607E+04, time = 6.54 | CG iter. 19 -- res = 0.85227E+01, tol = 0.47607E+04, time = 6.80 | CG iter. 20 -- res = 0.47207E+01, tol = 0.47607E+04, time = 6.68 | CG iter. 21 -- res = 0.25524E+01, tol = 0.47607E+04, time = 6.33 | CG iter. 22 -- res = 0.13124E+01, tol = 0.47607E+04, time = 6.77 | CG iter. 23 -- res = 0.68874E+00, tol = 0.47607E+04, time = 7.39 | CG iter. 24 -- res = 0.36128E+00, tol = 0.47607E+04, time = 7.44 | CG iter. 25 -- res = 0.19540E+00, tol = 0.47607E+04, time = 7.21 | CG iter. 26 -- res = 0.10992E+00, tol = 0.47607E+04, time = 6.73 | CG iter. 27 -- res = 0.62371E-01, tol = 0.47607E+04, time = 6.42 | CG iter. 28 -- res = 0.33092E-01, tol = 0.47607E+04, time = 6.59 | CG iter. 29 -- res = 0.17282E-01, tol = 0.47607E+04, time = 6.53 | CG iter. 30 -- res = 0.91102E-02, tol = 0.47607E+04, time = 6.76 | CG iter. 31 -- res = 0.49613E-02, tol = 0.47607E+04, time = 6.34 | CG iter. 32 -- res = 0.28016E-02, tol = 0.47607E+04, time = 6.32 | CG iter. 33 -- res = 0.15869E-02, tol = 0.47607E+04, time = 6.93 | CG iter. 34 -- res = 0.84440E-03, tol = 0.47607E+04, time = 6.40 | CG iter. 35 -- res = 0.43430E-03, tol = 0.47607E+04, time = 6.30 | Final CG iter 36 -- res = 0.43430E-03, tol = 0.47607E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.529 2.735 | New value 1.730 | Old value 1.529 | Difference 0.200 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.61996E+04, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.12148E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.15202E+00, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.30131E-03, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.17329E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7962471.470 | (Sampled value in CG: 7971723.830 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.416416 | New value = -3.541173 | poltype: 1 pol: 1 CPU time specind = 2.2575855E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.21523E+07, tol = 0.29343E+01, time = 2.68 | CG iter. 2 -- res = 0.76363E+06, tol = 0.29343E+01, time = 2.63 | CG iter. 3 -- res = 0.14382E+06, tol = 0.29343E+01, time = 2.66 | CG iter. 4 -- res = 0.54718E+05, tol = 0.29343E+01, time = 2.66 | CG iter. 5 -- res = 0.29868E+05, tol = 0.29343E+01, time = 2.54 | CG iter. 6 -- res = 0.15866E+05, tol = 0.29343E+01, time = 2.69 | CG iter. 7 -- res = 0.67845E+04, tol = 0.29343E+01, time = 2.57 | CG iter. 8 -- res = 0.31760E+04, tol = 0.29343E+01, time = 3.05 | CG iter. 9 -- res = 0.14369E+04, tol = 0.29343E+01, time = 2.40 | CG iter. 10 -- res = 0.56897E+03, tol = 0.29343E+01, time = 2.67 | CG iter. 11 -- res = 0.23659E+03, tol = 0.29343E+01, time = 2.71 | CG iter. 12 -- res = 0.10652E+03, tol = 0.29343E+01, time = 2.67 | CG iter. 13 -- res = 0.52325E+02, tol = 0.29343E+01, time = 2.76 | CG iter. 14 -- res = 0.27206E+02, tol = 0.29343E+01, time = 2.75 | CG iter. 15 -- res = 0.12677E+02, tol = 0.29343E+01, time = 2.51 | CG iter. 16 -- res = 0.58814E+01, tol = 0.29343E+01, time = 3.03 | CG iter. 17 -- res = 0.23921E+01, tol = 0.29343E+01, time = 2.89 | CG iter. 18 -- res = 0.10274E+01, tol = 0.29343E+01, time = 2.81 | CG iter. 19 -- res = 0.49461E+00, tol = 0.29343E+01, time = 2.89 | CG iter. 20 -- res = 0.24743E+00, tol = 0.29343E+01, time = 2.82 | CG iter. 21 -- res = 0.12985E+00, tol = 0.29343E+01, time = 2.78 | CG iter. 22 -- res = 0.61278E-01, tol = 0.29343E+01, time = 2.60 | CG iter. 23 -- res = 0.29328E-01, tol = 0.29343E+01, time = 2.66 | CG iter. 24 -- res = 0.13371E-01, tol = 0.29343E+01, time = 2.53 | CG iter. 25 -- res = 0.62970E-02, tol = 0.29343E+01, time = 2.75 | CG iter. 26 -- res = 0.32460E-02, tol = 0.29343E+01, time = 2.77 | CG iter. 27 -- res = 0.16342E-02, tol = 0.29343E+01, time = 2.48 | CG iter. 28 -- res = 0.84451E-03, tol = 0.29343E+01, time = 2.95 | CG iter. 29 -- res = 0.39218E-03, tol = 0.29343E+01, time = 2.75 | CG iter. 30 -- res = 0.18193E-03, tol = 0.29343E+01, time = 2.76 | CG iter. 31 -- res = 0.85405E-04, tol = 0.29343E+01, time = 2.52 | CG iter. 32 -- res = 0.41249E-04, tol = 0.29343E+01, time = 2.75 | CG iter. 33 -- res = 0.20273E-04, tol = 0.29343E+01, time = 2.72 | CG iter. 34 -- res = 0.10251E-04, tol = 0.29343E+01, time = 2.68 | CG iter. 35 -- res = 0.51507E-05, tol = 0.29343E+01, time = 3.14 | CG iter. 36 -- res = 0.24513E-05, tol = 0.29343E+01, time = 2.88 | CG iter. 37 -- res = 0.11151E-05, tol = 0.29343E+01, time = 2.35 | CG iter. 38 -- res = 0.52744E-06, tol = 0.29343E+01, time = 2.42 | CG iter. 39 -- res = 0.26403E-06, tol = 0.29343E+01, time = 2.93 | CG iter. 40 -- res = 0.13908E-06, tol = 0.29343E+01, time = 2.87 | CG iter. 41 -- res = 0.69539E-07, tol = 0.29343E+01, time = 2.91 | CG iter. 42 -- res = 0.31821E-07, tol = 0.29343E+01, time = 2.51 | CG iter. 43 -- res = 0.14599E-07, tol = 0.29343E+01, time = 2.48 | CG iter. 44 -- res = 0.68831E-08, tol = 0.29343E+01, time = 2.62 | CG iter. 45 -- res = 0.33955E-08, tol = 0.29343E+01, time = 3.39 | CG iter. 46 -- res = 0.17216E-08, tol = 0.29343E+01, time = 8.67 | CG iter. 47 -- res = 0.84623E-09, tol = 0.29343E+01, time = 2.59 | CG iter. 48 -- res = 0.39619E-09, tol = 0.29343E+01, time = 2.84 | CG iter. 49 -- res = 0.18809E-09, tol = 0.29343E+01, time = 2.69 | CG iter. 50 -- res = 0.87086E-10, tol = 0.29343E+01, time = 2.78 | Final CG iter 51 -- res = 0.87086E-10, tol = 0.29343E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.488 5.627 | New value -8.335 | Old value -3.488 | Difference -4.847 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.23943E+05, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.25413E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.85808E+00, tol = 0.47627E+18, time = 2.25 | CG iter. 4 -- res = 0.94967E-03, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.25894E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7962471.470 | (Sampled value in CG: 7974748.902 ) | CPU time specind = 1202.082 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.69447E+08, tol = 0.57634E+04, time = 12.17 | CG iter. 2 -- res = 0.58682E+08, tol = 0.57634E+04, time = 12.28 | CG iter. 3 -- res = 0.15184E+08, tol = 0.57634E+04, time = 11.85 | CG iter. 4 -- res = 0.65653E+07, tol = 0.57634E+04, time = 11.69 | CG iter. 5 -- res = 0.38930E+07, tol = 0.57634E+04, time = 12.04 | CG iter. 6 -- res = 0.22465E+07, tol = 0.57634E+04, time = 12.02 | CG iter. 7 -- res = 0.13540E+07, tol = 0.57634E+04, time = 11.85 | CG iter. 8 -- res = 0.89665E+06, tol = 0.57634E+04, time = 12.48 | CG iter. 9 -- res = 0.56578E+06, tol = 0.57634E+04, time = 11.96 | CG iter. 10 -- res = 0.33622E+06, tol = 0.57634E+04, time = 12.38 | CG iter. 11 -- res = 0.17894E+06, tol = 0.57634E+04, time = 11.71 | CG iter. 12 -- res = 0.93752E+05, tol = 0.57634E+04, time = 12.01 | CG iter. 13 -- res = 0.49646E+05, tol = 0.57634E+04, time = 11.90 | CG iter. 14 -- res = 0.28547E+05, tol = 0.57634E+04, time = 12.03 | CG iter. 15 -- res = 0.18124E+05, tol = 0.57634E+04, time = 11.67 | CG iter. 16 -- res = 0.12280E+05, tol = 0.57634E+04, time = 11.88 | CG iter. 17 -- res = 0.85834E+04, tol = 0.57634E+04, time = 17.58 | CG iter. 18 -- res = 0.58516E+04, tol = 0.57634E+04, time = 12.59 | CG iter. 19 -- res = 0.38935E+04, tol = 0.57634E+04, time = 11.96 | CG iter. 20 -- res = 0.25735E+04, tol = 0.57634E+04, time = 11.81 | CG iter. 21 -- res = 0.17965E+04, tol = 0.57634E+04, time = 11.56 | CG iter. 22 -- res = 0.13999E+04, tol = 0.57634E+04, time = 11.91 | CG iter. 23 -- res = 0.12576E+04, tol = 0.57634E+04, time = 11.69 | CG iter. 24 -- res = 0.12714E+04, tol = 0.57634E+04, time = 13.91 | CG iter. 25 -- res = 0.13483E+04, tol = 0.57634E+04, time = 12.17 | CG iter. 26 -- res = 0.13797E+04, tol = 0.57634E+04, time = 11.98 | CG iter. 27 -- res = 0.13342E+04, tol = 0.57634E+04, time = 11.83 | CG iter. 28 -- res = 0.12380E+04, tol = 0.57634E+04, time = 11.45 | CG iter. 29 -- res = 0.11539E+04, tol = 0.57634E+04, time = 11.80 | CG iter. 30 -- res = 0.10829E+04, tol = 0.57634E+04, time = 11.71 | CG iter. 31 -- res = 0.98626E+03, tol = 0.57634E+04, time = 11.50 | CG iter. 32 -- res = 0.86243E+03, tol = 0.57634E+04, time = 11.82 | CG iter. 33 -- res = 0.71409E+03, tol = 0.57634E+04, time = 12.52 | CG iter. 34 -- res = 0.56633E+03, tol = 0.57634E+04, time = 11.90 | CG iter. 35 -- res = 0.43214E+03, tol = 0.57634E+04, time = 11.65 | CG iter. 36 -- res = 0.34426E+03, tol = 0.57634E+04, time = 11.63 | CG iter. 37 -- res = 0.29212E+03, tol = 0.57634E+04, time = 12.01 | CG iter. 38 -- res = 0.26330E+03, tol = 0.57634E+04, time = 12.33 | CG iter. 39 -- res = 0.24588E+03, tol = 0.57634E+04, time = 11.44 | CG iter. 40 -- res = 0.22364E+03, tol = 0.57634E+04, time = 11.95 | CG iter. 41 -- res = 0.19969E+03, tol = 0.57634E+04, time = 18.20 | CG iter. 42 -- res = 0.17576E+03, tol = 0.57634E+04, time = 11.74 | CG iter. 43 -- res = 0.15678E+03, tol = 0.57634E+04, time = 11.66 | CG iter. 44 -- res = 0.14593E+03, tol = 0.57634E+04, time = 12.02 | CG iter. 45 -- res = 0.14051E+03, tol = 0.57634E+04, time = 12.12 | CG iter. 46 -- res = 0.13422E+03, tol = 0.57634E+04, time = 11.94 | CG iter. 47 -- res = 0.12339E+03, tol = 0.57634E+04, time = 12.13 | CG iter. 48 -- res = 0.10644E+03, tol = 0.57634E+04, time = 12.61 | CG iter. 49 -- res = 0.86638E+02, tol = 0.57634E+04, time = 12.32 | CG iter. 50 -- res = 0.72613E+02, tol = 0.57634E+04, time = 11.97 | CG iter. 51 -- res = 0.64046E+02, tol = 0.57634E+04, time = 11.84 | CG iter. 52 -- res = 0.58644E+02, tol = 0.57634E+04, time = 11.91 | CG iter. 53 -- res = 0.55885E+02, tol = 0.57634E+04, time = 11.73 | CG iter. 54 -- res = 0.53482E+02, tol = 0.57634E+04, time = 11.76 | CG iter. 55 -- res = 0.50112E+02, tol = 0.57634E+04, time = 12.20 | CG iter. 56 -- res = 0.46219E+02, tol = 0.57634E+04, time = 11.75 | CG iter. 57 -- res = 0.42697E+02, tol = 0.57634E+04, time = 12.14 | CG iter. 58 -- res = 0.39860E+02, tol = 0.57634E+04, time = 11.38 | CG iter. 59 -- res = 0.37171E+02, tol = 0.57634E+04, time = 11.73 | CG iter. 60 -- res = 0.35445E+02, tol = 0.57634E+04, time = 12.22 | Final CG iter 61 -- res = 0.35445E+02, tol = 0.57634E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.728 ( -229.418 -2230.947 2513.403 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6726721.386 | Old band monopole 7962505.718 | Change to band monopole -1235784.333 | Change to component monopole 1235779.017 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.769 2.764 | New value 0.819 | Old value 1.769 | Difference -0.950 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.088 ( 6.527 12.121 -11.465 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.207 5.539 | New value -0.759 | Old value -4.207 | Difference 3.448 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.17471E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.54248E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.22572E+01, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.26574E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.22753E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6726692.453 | (Sampled value in CG: 6708106.917 ) | Chain = 1 -- chisq = 0.81535846E+09 | Chain = 1 -- wall time = 5695.292 sec Available RAM: MemAvailable: 377929184 kB Available Swap: SwapFree: 1118658440 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 330 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444856 | --> Sampling calibration, mode = relcal | relcal = 1.3413730E-02 7.6335028E-04 -1.5976145E-03 -1.2579466E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1202832 0.1312657 9407422.35094456 | BP delta = 0.1202832 0.1241602 9407423.53012655 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632442 | --> Sampling calibration, mode = relcal | relcal = -2.8214662E-03 -7.0538325E-04 1.6793344E-03 1.6147027E-03 -4.0732042E-04 6.4013264E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5534428 15219293.8802656 | BP delta = 0.0000000E+00 -0.5563263 15219295.3357267 | BP chisq diff = 1.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18007067456423 | --> Sampling calibration, mode = relcal | relcal = -7.4605010E-02 -5.8135308E-02 9.1438174E-02 4.1302145E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.4844244E-05 3.9815228E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4874E-05 | 2: delta_r/delta_0: 1.0751E-06 | 3: delta_s/delta_0: 2.3350E-07 | 4: delta_r/delta_0: 1.1953E-08 | 5: delta_s/delta_0: 4.8843E-09 | 6: delta_r/delta_0: 1.1145E-09 | 7: delta_s/delta_0: 1.3638E-09 | 8: delta_r/delta_0: 7.3344E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.610466532922251E-004 2.743303476969374E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.4875E-05 | 2: delta_r/delta_0: 1.0751E-06 | 3: delta_s/delta_0: 2.3350E-07 | 4: delta_r/delta_0: 1.1952E-08 | 5: delta_s/delta_0: 4.8842E-09 | 6: delta_r/delta_0: 1.1145E-09 | 7: delta_s/delta_0: 1.3638E-09 | 8: delta_r/delta_0: 7.3344E-11 | Reached bicg-stab tolerance | BP delta = 8.2466997E-02 0.1035676 3579185.35311174 | BP delta = 8.2466997E-02 0.1034725 3579317.51480950 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02606081 | --> Sampling calibration, mode = relcal | relcal = -0.1066395 -9.5525250E-02 0.1449083 5.7256442E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7691035E-03 1.2448629E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7060E-05 | 2: delta_r/delta_0: 1.1770E-06 | 3: delta_s/delta_0: 2.5815E-07 | 4: delta_r/delta_0: 4.2140E-08 | 5: delta_s/delta_0: 1.8979E-08 | 6: delta_r/delta_0: 6.5020E-09 | 7: delta_s/delta_0: 8.4821E-09 | 8: delta_r/delta_0: 1.2084E-09 | 9: delta_s/delta_0: 1.1288E-09 | 10: delta_r/delta_0: 6.0766E-10 | 11: delta_s/delta_0: 2.1576E-09 | 12: delta_r/delta_0: 2.9998E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.771835384715332E-003 2.810642701380126E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7060E-05 | 2: delta_r/delta_0: 1.1769E-06 | 3: delta_s/delta_0: 2.5814E-07 | 4: delta_r/delta_0: 4.2125E-08 | 5: delta_s/delta_0: 1.8985E-08 | 6: delta_r/delta_0: 6.5009E-09 | 7: delta_s/delta_0: 8.4793E-09 | 8: delta_r/delta_0: 1.2082E-09 | 9: delta_s/delta_0: 1.1288E-09 | 10: delta_r/delta_0: 6.0804E-10 | 11: delta_s/delta_0: 2.1561E-09 | 12: delta_r/delta_0: 3.0021E-11 | Reached bicg-stab tolerance | BP delta = -0.3304819 -0.2995110 2841458.43288937 | BP delta = -0.3304819 -0.3011201 2841487.30303283 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81235583 | --> Sampling calibration, mode = relcal | relcal = 0.2954477 0.2249054 -0.2837824 -0.2365707 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1827399E-04 5.8806641E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6692E-03 | 2: delta_r/delta_0: 6.1952E-05 | 3: delta_s/delta_0: 5.2626E-05 | 4: delta_r/delta_0: 9.9495E-07 | 5: delta_s/delta_0: 6.7305E-05 | 6: delta_r/delta_0: 5.8590E-06 | 7: delta_s/delta_0: 7.9158E-08 | 8: delta_r/delta_0: 2.6456E-08 | 9: delta_s/delta_0: 4.2449E-08 | 10: delta_r/delta_0: 5.2145E-09 | 11: delta_s/delta_0: 2.1180E-09 | 12: delta_r/delta_0: 5.3295E-10 | 13: delta_s/delta_0: 2.7617E-10 | 14: delta_r/delta_0: 1.3403E-10 | 15: delta_s/delta_0: 1.8709E-10 | 16: delta_r/delta_0: 1.0070E-10 | 17: delta_s/delta_0: 1.5039E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.143267437148896E-002 4.021063391744604E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6726E-03 | 2: delta_r/delta_0: 6.2033E-05 | 3: delta_s/delta_0: 5.2239E-05 | 4: delta_r/delta_0: 9.8686E-07 | 5: delta_s/delta_0: 6.7009E-05 | 6: delta_r/delta_0: 5.8281E-06 | 7: delta_s/delta_0: 7.9499E-08 | 8: delta_r/delta_0: 2.6437E-08 | 9: delta_s/delta_0: 4.2098E-08 | 10: delta_r/delta_0: 5.2204E-09 | 11: delta_s/delta_0: 2.1198E-09 | 12: delta_r/delta_0: 5.3340E-10 | 13: delta_s/delta_0: 2.7647E-10 | 14: delta_r/delta_0: 1.3436E-10 | 15: delta_s/delta_0: 1.8908E-10 | 16: delta_r/delta_0: 1.0184E-10 | 17: delta_s/delta_0: 1.5055E-11 | Reached bicg-stab tolerance | BP delta = -0.1558576 -0.1939361 2827365.50655769 | BP delta = -0.1558576 -0.2000223 2827623.39420755 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95920579 | --> Sampling calibration, mode = relcal | relcal = 0.1065833 0.1395486 -0.1102915 -0.1358404 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3291700E-03 1.3791176E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9225E-03 | 2: delta_r/delta_0: 6.8611E-05 | 3: delta_s/delta_0: 5.4671E-06 | 4: delta_r/delta_0: 5.8247E-07 | 5: delta_s/delta_0: 1.5512E-03 | 6: delta_r/delta_0: 3.4257E-05 | 7: delta_s/delta_0: 5.5379E-08 | 8: delta_r/delta_0: 2.5906E-08 | 9: delta_s/delta_0: 1.0816E-07 | 10: delta_r/delta_0: 4.2454E-09 | 11: delta_s/delta_0: 1.5321E-09 | 12: delta_r/delta_0: 6.4930E-10 | 13: delta_s/delta_0: 4.8663E-10 | 14: delta_r/delta_0: 3.5407E-10 | 15: delta_s/delta_0: 4.2719E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.214237023195039E-002 3.697028864954270E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.9162E-03 | 2: delta_r/delta_0: 6.8461E-05 | 3: delta_s/delta_0: 5.4475E-06 | 4: delta_r/delta_0: 5.8396E-07 | 5: delta_s/delta_0: 1.4800E-03 | 6: delta_r/delta_0: 3.2855E-05 | 7: delta_s/delta_0: 5.5362E-08 | 8: delta_r/delta_0: 2.5975E-08 | 9: delta_s/delta_0: 1.0954E-07 | 10: delta_r/delta_0: 4.2394E-09 | 11: delta_s/delta_0: 1.5272E-09 | 12: delta_r/delta_0: 6.5072E-10 | 13: delta_s/delta_0: 4.8825E-10 | 14: delta_r/delta_0: 3.5392E-10 | 15: delta_s/delta_0: 4.2872E-11 | Reached bicg-stab tolerance | BP delta = 0.1795623 0.2898281 3004412.75958550 | BP delta = 0.1795623 0.3004061 3004659.22172182 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172515 | New value = -3.099379 | poltype: 2 pol: 1 CPU time specind = 1.8331051E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175777 | New value = -3.152944 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148163 | New value = -3.116953 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166953 | New value = -3.093503 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216900 | New value = -3.190787 | poltype: 2 pol: 2 CPU time specind = 6.6108704E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.13658E+08, tol = 0.96753E+01, time = 5.40 | CG iter. 2 -- res = 0.37483E+06, tol = 0.96753E+01, time = 5.67 | CG iter. 3 -- res = 0.95033E+05, tol = 0.96753E+01, time = 5.93 | CG iter. 4 -- res = 0.98648E+05, tol = 0.96753E+01, time = 5.37 | CG iter. 5 -- res = 0.97524E+05, tol = 0.96753E+01, time = 5.71 | CG iter. 6 -- res = 0.92145E+05, tol = 0.96753E+01, time = 5.78 | CG iter. 7 -- res = 0.75306E+05, tol = 0.96753E+01, time = 5.46 | CG iter. 8 -- res = 0.51890E+05, tol = 0.96753E+01, time = 5.98 | CG iter. 9 -- res = 0.41669E+05, tol = 0.96753E+01, time = 5.57 | CG iter. 10 -- res = 0.33854E+05, tol = 0.96753E+01, time = 12.16 | CG iter. 11 -- res = 0.23624E+05, tol = 0.96753E+01, time = 5.91 | CG iter. 12 -- res = 0.17502E+05, tol = 0.96753E+01, time = 5.76 | CG iter. 13 -- res = 0.13857E+05, tol = 0.96753E+01, time = 5.70 | CG iter. 14 -- res = 0.11813E+05, tol = 0.96753E+01, time = 5.54 | CG iter. 15 -- res = 0.90280E+04, tol = 0.96753E+01, time = 5.89 | CG iter. 16 -- res = 0.61499E+04, tol = 0.96753E+01, time = 5.81 | CG iter. 17 -- res = 0.39967E+04, tol = 0.96753E+01, time = 5.78 | CG iter. 18 -- res = 0.32333E+04, tol = 0.96753E+01, time = 5.59 | CG iter. 19 -- res = 0.27883E+04, tol = 0.96753E+01, time = 5.79 | CG iter. 20 -- res = 0.21394E+04, tol = 0.96753E+01, time = 5.44 | CG iter. 21 -- res = 0.14875E+04, tol = 0.96753E+01, time = 5.56 | CG iter. 22 -- res = 0.11793E+04, tol = 0.96753E+01, time = 5.42 | CG iter. 23 -- res = 0.10005E+04, tol = 0.96753E+01, time = 5.72 | CG iter. 24 -- res = 0.78218E+03, tol = 0.96753E+01, time = 5.66 | CG iter. 25 -- res = 0.56758E+03, tol = 0.96753E+01, time = 7.13 | CG iter. 26 -- res = 0.43138E+03, tol = 0.96753E+01, time = 5.83 | CG iter. 27 -- res = 0.37211E+03, tol = 0.96753E+01, time = 5.71 | CG iter. 28 -- res = 0.31637E+03, tol = 0.96753E+01, time = 5.59 | CG iter. 29 -- res = 0.23334E+03, tol = 0.96753E+01, time = 5.88 | CG iter. 30 -- res = 0.17640E+03, tol = 0.96753E+01, time = 5.84 | CG iter. 31 -- res = 0.14866E+03, tol = 0.96753E+01, time = 5.51 | CG iter. 32 -- res = 0.12395E+03, tol = 0.96753E+01, time = 5.83 | CG iter. 33 -- res = 0.98420E+02, tol = 0.96753E+01, time = 5.73 | CG iter. 34 -- res = 0.72755E+02, tol = 0.96753E+01, time = 5.51 | CG iter. 35 -- res = 0.59847E+02, tol = 0.96753E+01, time = 5.53 | CG iter. 36 -- res = 0.51687E+02, tol = 0.96753E+01, time = 5.46 | CG iter. 37 -- res = 0.42351E+02, tol = 0.96753E+01, time = 5.73 | CG iter. 38 -- res = 0.31802E+02, tol = 0.96753E+01, time = 5.44 | CG iter. 39 -- res = 0.24438E+02, tol = 0.96753E+01, time = 5.79 | CG iter. 40 -- res = 0.20717E+02, tol = 0.96753E+01, time = 5.94 | CG iter. 41 -- res = 0.16439E+02, tol = 0.96753E+01, time = 5.35 | CG iter. 42 -- res = 0.12388E+02, tol = 0.96753E+01, time = 5.69 | CG iter. 43 -- res = 0.95336E+01, tol = 0.96753E+01, time = 5.71 | CG iter. 44 -- res = 0.76871E+01, tol = 0.96753E+01, time = 5.47 | CG iter. 45 -- res = 0.61960E+01, tol = 0.96753E+01, time = 5.79 | CG iter. 46 -- res = 0.46974E+01, tol = 0.96753E+01, time = 5.48 | CG iter. 47 -- res = 0.35932E+01, tol = 0.96753E+01, time = 5.25 | CG iter. 48 -- res = 0.28453E+01, tol = 0.96753E+01, time = 5.74 | CG iter. 49 -- res = 0.23031E+01, tol = 0.96753E+01, time = 5.43 | CG iter. 50 -- res = 0.17696E+01, tol = 0.96753E+01, time = 5.64 | Final CG iter 51 -- res = 0.17696E+01, tol = 0.96753E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6999019.352 | Old band monopole 6726721.386 | Change to band monopole 272297.966 | Change to component monopole -272296.795 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.29 | CG iter. 1 -- res = 0.37890E+06, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.24132E+03, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.43245E+01, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.43938E-01, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.15390E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6998989.247 | (Sampled value in CG: 7100986.393 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504023 | New value = 1.477002 | poltype: 2 pol: 1 CPU time specind = 1.3240099E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.507618 | New value = 1.490303 | poltype: 2 pol: 2 CPU time specind = 4.2750835E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.24133E+08, tol = 0.47530E+04, time = 6.30 | CG iter. 2 -- res = 0.54147E+07, tol = 0.47530E+04, time = 6.41 | CG iter. 3 -- res = 0.85769E+06, tol = 0.47530E+04, time = 6.36 | CG iter. 4 -- res = 0.35034E+06, tol = 0.47530E+04, time = 6.63 | CG iter. 5 -- res = 0.15318E+06, tol = 0.47530E+04, time = 6.23 | CG iter. 6 -- res = 0.80670E+05, tol = 0.47530E+04, time = 7.34 | CG iter. 7 -- res = 0.43521E+05, tol = 0.47530E+04, time = 7.06 | CG iter. 8 -- res = 0.21246E+05, tol = 0.47530E+04, time = 6.83 | CG iter. 9 -- res = 0.93336E+04, tol = 0.47530E+04, time = 6.64 | CG iter. 10 -- res = 0.38570E+04, tol = 0.47530E+04, time = 6.86 | CG iter. 11 -- res = 0.17176E+04, tol = 0.47530E+04, time = 6.32 | CG iter. 12 -- res = 0.88116E+03, tol = 0.47530E+04, time = 6.45 | CG iter. 13 -- res = 0.50798E+03, tol = 0.47530E+04, time = 6.60 | CG iter. 14 -- res = 0.28699E+03, tol = 0.47530E+04, time = 6.27 | CG iter. 15 -- res = 0.14563E+03, tol = 0.47530E+04, time = 6.34 | CG iter. 16 -- res = 0.67211E+02, tol = 0.47530E+04, time = 6.62 | CG iter. 17 -- res = 0.31720E+02, tol = 0.47530E+04, time = 6.82 | CG iter. 18 -- res = 0.16010E+02, tol = 0.47530E+04, time = 6.63 | CG iter. 19 -- res = 0.86910E+01, tol = 0.47530E+04, time = 6.45 | CG iter. 20 -- res = 0.49370E+01, tol = 0.47530E+04, time = 6.78 | CG iter. 21 -- res = 0.26893E+01, tol = 0.47530E+04, time = 6.61 | CG iter. 22 -- res = 0.14110E+01, tol = 0.47530E+04, time = 6.48 | CG iter. 23 -- res = 0.70649E+00, tol = 0.47530E+04, time = 7.05 | CG iter. 24 -- res = 0.36017E+00, tol = 0.47530E+04, time = 6.68 | CG iter. 25 -- res = 0.19681E+00, tol = 0.47530E+04, time = 6.83 | CG iter. 26 -- res = 0.11256E+00, tol = 0.47530E+04, time = 6.25 | CG iter. 27 -- res = 0.63051E-01, tol = 0.47530E+04, time = 6.66 | CG iter. 28 -- res = 0.34071E-01, tol = 0.47530E+04, time = 6.81 | CG iter. 29 -- res = 0.17973E-01, tol = 0.47530E+04, time = 6.66 | CG iter. 30 -- res = 0.93419E-02, tol = 0.47530E+04, time = 6.51 | CG iter. 31 -- res = 0.52240E-02, tol = 0.47530E+04, time = 6.51 | CG iter. 32 -- res = 0.30414E-02, tol = 0.47530E+04, time = 6.61 | CG iter. 33 -- res = 0.17642E-02, tol = 0.47530E+04, time = 6.76 | CG iter. 34 -- res = 0.95635E-03, tol = 0.47530E+04, time = 6.66 | CG iter. 35 -- res = 0.48804E-03, tol = 0.47530E+04, time = 6.53 | Final CG iter 36 -- res = 0.48804E-03, tol = 0.47530E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.778 2.736 | New value -1.524 | Old value 0.778 | Difference -2.302 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.28523E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.12656E+03, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.20200E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.19612E-03, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.66962E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6998989.247 | (Sampled value in CG: 7099053.561 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.541173 | New value = -3.520208 | poltype: 1 pol: 1 CPU time specind = 1.9074917E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.31411E+07, tol = 0.28148E+01, time = 2.41 | CG iter. 2 -- res = 0.13033E+07, tol = 0.28148E+01, time = 2.65 | CG iter. 3 -- res = 0.28667E+06, tol = 0.28148E+01, time = 2.72 | CG iter. 4 -- res = 0.13027E+06, tol = 0.28148E+01, time = 2.56 | CG iter. 5 -- res = 0.74634E+05, tol = 0.28148E+01, time = 2.54 | CG iter. 6 -- res = 0.35276E+05, tol = 0.28148E+01, time = 2.90 | CG iter. 7 -- res = 0.12176E+05, tol = 0.28148E+01, time = 2.97 | CG iter. 8 -- res = 0.52322E+04, tol = 0.28148E+01, time = 9.45 | CG iter. 9 -- res = 0.24812E+04, tol = 0.28148E+01, time = 2.66 | CG iter. 10 -- res = 0.10040E+04, tol = 0.28148E+01, time = 2.72 | CG iter. 11 -- res = 0.40916E+03, tol = 0.28148E+01, time = 2.82 | CG iter. 12 -- res = 0.19269E+03, tol = 0.28148E+01, time = 2.76 | CG iter. 13 -- res = 0.97938E+02, tol = 0.28148E+01, time = 2.56 | CG iter. 14 -- res = 0.49158E+02, tol = 0.28148E+01, time = 2.94 | CG iter. 15 -- res = 0.24374E+02, tol = 0.28148E+01, time = 2.46 | CG iter. 16 -- res = 0.11047E+02, tol = 0.28148E+01, time = 2.70 | CG iter. 17 -- res = 0.43730E+01, tol = 0.28148E+01, time = 2.73 | CG iter. 18 -- res = 0.20073E+01, tol = 0.28148E+01, time = 2.56 | CG iter. 19 -- res = 0.99429E+00, tol = 0.28148E+01, time = 2.46 | CG iter. 20 -- res = 0.50788E+00, tol = 0.28148E+01, time = 2.87 | CG iter. 21 -- res = 0.25485E+00, tol = 0.28148E+01, time = 2.57 | CG iter. 22 -- res = 0.11569E+00, tol = 0.28148E+01, time = 2.72 | CG iter. 23 -- res = 0.51935E-01, tol = 0.28148E+01, time = 2.62 | CG iter. 24 -- res = 0.25000E-01, tol = 0.28148E+01, time = 2.54 | CG iter. 25 -- res = 0.11539E-01, tol = 0.28148E+01, time = 2.61 | CG iter. 26 -- res = 0.56449E-02, tol = 0.28148E+01, time = 2.77 | CG iter. 27 -- res = 0.28987E-02, tol = 0.28148E+01, time = 2.84 | CG iter. 28 -- res = 0.14170E-02, tol = 0.28148E+01, time = 2.80 | CG iter. 29 -- res = 0.65951E-03, tol = 0.28148E+01, time = 2.41 | CG iter. 30 -- res = 0.30668E-03, tol = 0.28148E+01, time = 2.98 | CG iter. 31 -- res = 0.14615E-03, tol = 0.28148E+01, time = 2.53 | CG iter. 32 -- res = 0.72246E-04, tol = 0.28148E+01, time = 2.70 | CG iter. 33 -- res = 0.36999E-04, tol = 0.28148E+01, time = 2.89 | CG iter. 34 -- res = 0.17939E-04, tol = 0.28148E+01, time = 2.78 | CG iter. 35 -- res = 0.91672E-05, tol = 0.28148E+01, time = 2.44 | CG iter. 36 -- res = 0.46103E-05, tol = 0.28148E+01, time = 2.81 | CG iter. 37 -- res = 0.20245E-05, tol = 0.28148E+01, time = 2.63 | CG iter. 38 -- res = 0.99717E-06, tol = 0.28148E+01, time = 2.50 | CG iter. 39 -- res = 0.50483E-06, tol = 0.28148E+01, time = 3.81 | CG iter. 40 -- res = 0.25176E-06, tol = 0.28148E+01, time = 3.40 | CG iter. 41 -- res = 0.12783E-06, tol = 0.28148E+01, time = 3.15 | CG iter. 42 -- res = 0.62381E-07, tol = 0.28148E+01, time = 2.91 | CG iter. 43 -- res = 0.27508E-07, tol = 0.28148E+01, time = 2.73 | CG iter. 44 -- res = 0.12823E-07, tol = 0.28148E+01, time = 2.75 | CG iter. 45 -- res = 0.62265E-08, tol = 0.28148E+01, time = 2.73 | CG iter. 46 -- res = 0.31634E-08, tol = 0.28148E+01, time = 2.76 | CG iter. 47 -- res = 0.16387E-08, tol = 0.28148E+01, time = 2.79 | CG iter. 48 -- res = 0.79435E-09, tol = 0.28148E+01, time = 2.82 | CG iter. 49 -- res = 0.37117E-09, tol = 0.28148E+01, time = 2.91 | CG iter. 50 -- res = 0.16825E-09, tol = 0.28148E+01, time = 2.60 | Final CG iter 51 -- res = 0.16825E-09, tol = 0.28148E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.347 4.501 | New value 2.462 | Old value 5.347 | Difference -2.885 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.16192E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.56005E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.18452E+01, tol = 0.47627E+18, time = 1.75 | CG iter. 4 -- res = 0.17303E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.13240E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6998989.247 | (Sampled value in CG: 7077786.441 ) | CPU time specind = 1182.346 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.68927E+08, tol = 0.57554E+04, time = 11.55 | CG iter. 2 -- res = 0.58974E+08, tol = 0.57554E+04, time = 12.25 | CG iter. 3 -- res = 0.15629E+08, tol = 0.57554E+04, time = 11.63 | CG iter. 4 -- res = 0.67206E+07, tol = 0.57554E+04, time = 11.21 | CG iter. 5 -- res = 0.40317E+07, tol = 0.57554E+04, time = 11.84 | CG iter. 6 -- res = 0.23701E+07, tol = 0.57554E+04, time = 11.52 | CG iter. 7 -- res = 0.14143E+07, tol = 0.57554E+04, time = 11.59 | CG iter. 8 -- res = 0.93661E+06, tol = 0.57554E+04, time = 18.52 | CG iter. 9 -- res = 0.60440E+06, tol = 0.57554E+04, time = 11.50 | CG iter. 10 -- res = 0.37451E+06, tol = 0.57554E+04, time = 11.75 | CG iter. 11 -- res = 0.21709E+06, tol = 0.57554E+04, time = 11.21 | CG iter. 12 -- res = 0.12003E+06, tol = 0.57554E+04, time = 11.83 | CG iter. 13 -- res = 0.70159E+05, tol = 0.57554E+04, time = 11.52 | CG iter. 14 -- res = 0.47527E+05, tol = 0.57554E+04, time = 11.75 | CG iter. 15 -- res = 0.37919E+05, tol = 0.57554E+04, time = 12.37 | CG iter. 16 -- res = 0.33543E+05, tol = 0.57554E+04, time = 13.00 | CG iter. 17 -- res = 0.31294E+05, tol = 0.57554E+04, time = 11.58 | CG iter. 18 -- res = 0.28616E+05, tol = 0.57554E+04, time = 11.66 | CG iter. 19 -- res = 0.25504E+05, tol = 0.57554E+04, time = 11.91 | CG iter. 20 -- res = 0.23045E+05, tol = 0.57554E+04, time = 11.59 | CG iter. 21 -- res = 0.21665E+05, tol = 0.57554E+04, time = 10.85 | CG iter. 22 -- res = 0.21288E+05, tol = 0.57554E+04, time = 12.03 | CG iter. 23 -- res = 0.20633E+05, tol = 0.57554E+04, time = 11.57 | CG iter. 24 -- res = 0.19703E+05, tol = 0.57554E+04, time = 11.94 | CG iter. 25 -- res = 0.16762E+05, tol = 0.57554E+04, time = 11.66 | CG iter. 26 -- res = 0.13060E+05, tol = 0.57554E+04, time = 11.71 | CG iter. 27 -- res = 0.97045E+04, tol = 0.57554E+04, time = 11.29 | CG iter. 28 -- res = 0.73770E+04, tol = 0.57554E+04, time = 12.04 | CG iter. 29 -- res = 0.60505E+04, tol = 0.57554E+04, time = 11.85 | CG iter. 30 -- res = 0.53940E+04, tol = 0.57554E+04, time = 11.79 | CG iter. 31 -- res = 0.48883E+04, tol = 0.57554E+04, time = 11.39 | CG iter. 32 -- res = 0.43536E+04, tol = 0.57554E+04, time = 11.85 | CG iter. 33 -- res = 0.37553E+04, tol = 0.57554E+04, time = 18.01 | CG iter. 34 -- res = 0.31378E+04, tol = 0.57554E+04, time = 11.59 | CG iter. 35 -- res = 0.26815E+04, tol = 0.57554E+04, time = 11.73 | CG iter. 36 -- res = 0.24527E+04, tol = 0.57554E+04, time = 11.51 | CG iter. 37 -- res = 0.23335E+04, tol = 0.57554E+04, time = 11.75 | CG iter. 38 -- res = 0.21974E+04, tol = 0.57554E+04, time = 11.81 | CG iter. 39 -- res = 0.19419E+04, tol = 0.57554E+04, time = 11.72 | CG iter. 40 -- res = 0.16175E+04, tol = 0.57554E+04, time = 11.68 | CG iter. 41 -- res = 0.12877E+04, tol = 0.57554E+04, time = 13.51 | CG iter. 42 -- res = 0.10362E+04, tol = 0.57554E+04, time = 11.81 | CG iter. 43 -- res = 0.88077E+03, tol = 0.57554E+04, time = 11.67 | CG iter. 44 -- res = 0.81196E+03, tol = 0.57554E+04, time = 11.51 | CG iter. 45 -- res = 0.77920E+03, tol = 0.57554E+04, time = 11.86 | CG iter. 46 -- res = 0.73200E+03, tol = 0.57554E+04, time = 12.09 | CG iter. 47 -- res = 0.66452E+03, tol = 0.57554E+04, time = 11.40 | CG iter. 48 -- res = 0.58163E+03, tol = 0.57554E+04, time = 11.66 | CG iter. 49 -- res = 0.50786E+03, tol = 0.57554E+04, time = 11.29 | CG iter. 50 -- res = 0.45491E+03, tol = 0.57554E+04, time = 12.40 | CG iter. 51 -- res = 0.41838E+03, tol = 0.57554E+04, time = 11.95 | CG iter. 52 -- res = 0.39120E+03, tol = 0.57554E+04, time = 11.66 | CG iter. 53 -- res = 0.36661E+03, tol = 0.57554E+04, time = 12.00 | CG iter. 54 -- res = 0.33175E+03, tol = 0.57554E+04, time = 11.18 | CG iter. 55 -- res = 0.28068E+03, tol = 0.57554E+04, time = 11.48 | CG iter. 56 -- res = 0.23816E+03, tol = 0.57554E+04, time = 11.67 | CG iter. 57 -- res = 0.20888E+03, tol = 0.57554E+04, time = 11.50 | CG iter. 58 -- res = 0.19505E+03, tol = 0.57554E+04, time = 17.99 | CG iter. 59 -- res = 0.18502E+03, tol = 0.57554E+04, time = 11.34 | CG iter. 60 -- res = 0.17400E+03, tol = 0.57554E+04, time = 11.51 | Final CG iter 61 -- res = 0.17400E+03, tol = 0.57554E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.829 ( -229.362 -2231.435 2514.126 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8199325.770 | Old band monopole 6999019.352 | Change to band monopole 1200306.419 | Change to component monopole -1200301.256 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.500 2.754 | New value -2.023 | Old value -1.500 | Difference -0.522 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.399 ( 5.888 12.707 -13.146 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.513 4.799 | New value -1.493 | Old value 4.513 | Difference -6.005 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.65272E+05, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.40065E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.17393E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.33459E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.11571E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8199290.503 | (Sampled value in CG: 8176079.669 ) | Chain = 1 -- chisq = 0.81557679E+09 | Chain = 1 -- wall time = 6089.461 sec Available RAM: MemAvailable: 377940212 kB Available Swap: SwapFree: 1119205256 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 331 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443807 | --> Sampling calibration, mode = relcal | relcal = 1.3422460E-02 7.4841251E-04 -1.5964408E-03 -1.2574432E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1202832 0.1312657 97049269.0230376 | BP delta = 0.1166104 0.1275928 97049271.2326745 | BP chisq diff = 2.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632550 | --> Sampling calibration, mode = relcal | relcal = -2.8215740E-03 -7.0443121E-04 1.6779794E-03 1.6140186E-03 -4.0739102E-04 6.4139819E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5563263 15218959.0165851 | BP delta = 0.0000000E+00 -0.5573621 15218956.1228651 | BP chisq diff = -2.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102423 | --> Sampling calibration, mode = relcal | relcal = 3.7074983E-02 1.3713726E-02 5.7518152E-03 -7.1661933E-03 8.2434230E-03 2.3942951E-03 -7.5921617E-03 -7.1803862E-03 -1.5299249E-02 -1.4797212E-02 -3.0512537E-03 -1.2091785E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.171227 132208415.476190 | BP delta = 0.0000000E+00 -1.201003 132208413.184907 | BP chisq diff = -2.3, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18257656271281 | --> Sampling calibration, mode = relcal | relcal = -7.5506300E-02 -5.8814656E-02 9.2368752E-02 4.1952200E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.4221221E-04 4.9502328E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4334E-05 | 2: delta_r/delta_0: 1.0738E-06 | 3: delta_s/delta_0: 1.8686E-07 | 4: delta_r/delta_0: 2.2810E-08 | 5: delta_s/delta_0: 6.0517E-09 | 6: delta_r/delta_0: 1.9951E-09 | 7: delta_s/delta_0: 4.5018E-10 | 8: delta_r/delta_0: 1.1223E-10 | 9: delta_s/delta_0: 2.7826E-10 | 10: delta_r/delta_0: 1.0072E-10 | 11: delta_s/delta_0: 4.4840E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.156915517199864E-003 2.737384455137145E-005 | BP delta = 8.2466997E-02 0.1035676 50485347.9246413 | BP delta = 8.0958001E-02 0.1020586 50485349.0541352 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02609262 | --> Sampling calibration, mode = relcal | relcal = -0.1067070 -9.5545366E-02 0.1449534 5.7298891E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1407143E-03 1.3086417E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1013E-05 | 2: delta_r/delta_0: 1.2242E-06 | 3: delta_s/delta_0: 2.7503E-07 | 4: delta_r/delta_0: 3.6432E-08 | 5: delta_s/delta_0: 2.1174E-08 | 6: delta_r/delta_0: 6.5040E-09 | 7: delta_s/delta_0: 5.1328E-09 | 8: delta_r/delta_0: 1.7076E-09 | 9: delta_s/delta_0: 8.0202E-10 | 10: delta_r/delta_0: 5.9745E-10 | 11: delta_s/delta_0: 3.4516E-09 | 12: delta_r/delta_0: 4.3851E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.782940847858280E-003 2.810591540654953E-005 | BP delta = -0.3304819 -0.2995110 57389498.6219380 | BP delta = -0.3133228 -0.2823519 57389496.9909651 | BP chisq diff = -1.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81247109 | --> Sampling calibration, mode = relcal | relcal = 0.2955668 0.2248427 -0.2838686 -0.2365409 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0696023E-03 5.6980294E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8259E-03 | 2: delta_r/delta_0: 4.2227E-05 | 3: delta_s/delta_0: 8.7573E-06 | 4: delta_r/delta_0: 4.1177E-07 | 5: delta_s/delta_0: 2.0524E-05 | 6: delta_r/delta_0: 1.5441E-06 | 7: delta_s/delta_0: 5.5137E-08 | 8: delta_r/delta_0: 3.3374E-08 | 9: delta_s/delta_0: 2.3711E-07 | 10: delta_r/delta_0: 4.4071E-09 | 11: delta_s/delta_0: 1.4911E-09 | 12: delta_r/delta_0: 5.7252E-10 | 13: delta_s/delta_0: 6.3928E-10 | 14: delta_r/delta_0: 6.5460E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.667046429193471E-002 4.020460442707338E-005 | BP delta = -0.1558576 -0.1939361 72486168.7935261 | BP delta = -0.1037449 -0.1418235 72486171.8333932 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95933269 | --> Sampling calibration, mode = relcal | relcal = 0.1065847 0.1395224 -0.1104028 -0.1357043 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8079247E-03 1.5024766E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4187E-03 | 2: delta_r/delta_0: 3.3099E-05 | 3: delta_s/delta_0: 1.2943E-05 | 4: delta_r/delta_0: 3.2526E-07 | 5: delta_s/delta_0: 1.8979E-05 | 6: delta_r/delta_0: 1.5273E-06 | 7: delta_s/delta_0: 4.6207E-08 | 8: delta_r/delta_0: 3.2126E-08 | 9: delta_s/delta_0: 6.3113E-07 | 10: delta_r/delta_0: 4.5437E-09 | 11: delta_s/delta_0: 1.9352E-09 | 12: delta_r/delta_0: 6.0036E-10 | 13: delta_s/delta_0: 5.8206E-10 | 14: delta_r/delta_0: 4.1319E-10 | 15: delta_s/delta_0: 3.0359E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.811665676793890E-002 3.696515605031550E-005 | BP delta = 0.1795623 0.2898281 72786440.1552577 | BP delta = 0.1659398 0.2762056 72786439.2437706 | BP chisq diff = -0.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52167825 | --> Sampling calibration, mode = relcal | relcal = -5.1068783E-02 -3.7014314E-03 2.7290823E-02 2.7479393E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9584983E-03 1.2730524E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3445E-05 | 2: delta_r/delta_0: 3.9622E-06 | 3: delta_s/delta_0: 2.1889E-06 | 4: delta_r/delta_0: 2.5466E-07 | 5: delta_s/delta_0: 6.4290E-08 | 6: delta_r/delta_0: 2.6042E-08 | 7: delta_s/delta_0: 2.8702E-07 | 8: delta_r/delta_0: 6.3309E-08 | 9: delta_s/delta_0: 3.5260E-09 | 10: delta_r/delta_0: 2.0226E-09 | 11: delta_s/delta_0: 2.6641E-05 | 12: delta_r/delta_0: 7.5390E-07 | 13: delta_s/delta_0: 4.8586E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.093871811209070E-002 5.482150423259988E-005 | BP delta = 6.6884957E-02 0.1583577 91247667.0286586 | BP delta = 7.2327264E-02 0.1638000 91247666.9890977 | BP chisq diff = -0.0, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42153839 | --> Sampling calibration, mode = relcal | relcal = 4.5630444E-02 3.9597660E-02 -2.8281057E-02 -5.6947045E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6280493E-03 4.1563027E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4921E-05 | 2: delta_r/delta_0: 3.7594E-06 | 3: delta_s/delta_0: 3.7325E-05 | 4: delta_r/delta_0: 2.9495E-06 | 5: delta_s/delta_0: 6.6198E-08 | 6: delta_r/delta_0: 3.6380E-08 | 7: delta_s/delta_0: 3.4322E-08 | 8: delta_r/delta_0: 1.2066E-08 | 9: delta_s/delta_0: 2.3630E-08 | 10: delta_r/delta_0: 1.1412E-09 | 11: delta_s/delta_0: 4.0242E-10 | 12: delta_r/delta_0: 2.8186E-10 | 13: delta_s/delta_0: 1.0052E-09 | 14: delta_r/delta_0: 2.6615E-10 | 15: delta_s/delta_0: 2.2618E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.534330961718139E-002 4.996227852326286E-005 | BP delta = 6.2102843E-02 -6.2597960E-02 90179065.4577840 | BP delta = 0.1155126 -9.1882385E-03 90179065.0586047 | BP chisq diff = -0.4, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28161721 | --> Sampling calibration, mode = relcal | relcal = 2.4101580E-02 4.5171168E-02 -2.3345126E-02 -4.5927621E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1691104E-02 2.2339884E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0662E-04 | 2: delta_r/delta_0: 8.7927E-06 | 3: delta_s/delta_0: 1.5454E-06 | 4: delta_r/delta_0: 2.1759E-07 | 5: delta_s/delta_0: 8.3704E-08 | 6: delta_r/delta_0: 1.9643E-08 | 7: delta_s/delta_0: 9.8089E-09 | 8: delta_r/delta_0: 6.0901E-09 | 9: delta_s/delta_0: 6.6521E-07 | 10: delta_r/delta_0: 1.0199E-08 | 11: delta_s/delta_0: 7.4116E-10 | 12: delta_r/delta_0: 2.1553E-10 | 13: delta_s/delta_0: 2.3845E-10 | 14: delta_r/delta_0: 1.2621E-10 | 15: delta_s/delta_0: 8.0581E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.625905873548526E-003 7.843461744529367E-005 | BP delta = -0.3174680 -0.4996822 160948578.783250 | BP delta = -0.3156406 -0.4978548 160948578.811292 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29387926 | --> Sampling calibration, mode = relcal | relcal = 4.9497909E-04 1.0257786E-02 -3.8092141E-03 -6.9435514E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4287439E-02 1.6312590E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3209E-04 | 2: delta_r/delta_0: 1.1277E-05 | 3: delta_s/delta_0: 1.9282E-06 | 4: delta_r/delta_0: 2.7837E-07 | 5: delta_s/delta_0: 9.6186E-08 | 6: delta_r/delta_0: 2.4052E-08 | 7: delta_s/delta_0: 1.1249E-08 | 8: delta_r/delta_0: 7.6896E-09 | 9: delta_s/delta_0: 6.1409E-09 | 10: delta_r/delta_0: 4.5725E-09 | 11: delta_s/delta_0: 1.6713E-06 | 12: delta_r/delta_0: 1.3426E-09 | 13: delta_s/delta_0: 8.0278E-10 | 14: delta_r/delta_0: 3.4422E-10 | 15: delta_s/delta_0: 1.6630E-10 | 16: delta_r/delta_0: 5.3539E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.011501118993246E-002 8.307612349991258E-005 | BP delta = -0.8388229 -0.7941992 157879317.676564 | BP delta = -0.8241410 -0.7795172 157879317.878830 | BP chisq diff = 0.2, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26507454 | --> Sampling calibration, mode = relcal | relcal = -5.5883187E-03 1.4975519E-02 -2.3417759E-03 -7.0454245E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.8983473E-03 3.3269038E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4229E-04 | 2: delta_r/delta_0: 1.1533E-05 | 3: delta_s/delta_0: 1.9246E-06 | 4: delta_r/delta_0: 2.3311E-07 | 5: delta_s/delta_0: 8.1919E-08 | 6: delta_r/delta_0: 1.7237E-08 | 7: delta_s/delta_0: 8.8965E-09 | 8: delta_r/delta_0: 4.7482E-09 | 9: delta_s/delta_0: 6.6862E-09 | 10: delta_r/delta_0: 1.8693E-09 | 11: delta_s/delta_0: 9.9787E-06 | 12: delta_r/delta_0: 3.2074E-06 | 13: delta_s/delta_0: 3.4147E-09 | 14: delta_r/delta_0: 6.3049E-10 | 15: delta_s/delta_0: 7.3897E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.785619855756694E-003 9.153043672198345E-005 | BP delta = 0.3263376 0.3470508 157024486.013400 | BP delta = 0.3464280 0.3671412 157024486.138078 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25658454 | --> Sampling calibration, mode = relcal | relcal = -3.1593129E-02 -2.5917416E-02 3.6880299E-02 2.0630244E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0030975E-02 1.9097023E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4550E-04 | 2: delta_r/delta_0: 1.2374E-05 | 3: delta_s/delta_0: 1.9947E-06 | 4: delta_r/delta_0: 3.7959E-07 | 5: delta_s/delta_0: 1.3066E-07 | 6: delta_r/delta_0: 2.9780E-08 | 7: delta_s/delta_0: 1.4060E-08 | 8: delta_r/delta_0: 7.8753E-09 | 9: delta_s/delta_0: 5.7202E-08 | 10: delta_r/delta_0: 5.8694E-09 | 11: delta_s/delta_0: 2.5708E-09 | 12: delta_r/delta_0: 1.0032E-09 | 13: delta_s/delta_0: 1.0378E-09 | 14: delta_r/delta_0: 7.0323E-10 | 15: delta_s/delta_0: 1.7721E-10 | 16: delta_r/delta_0: 1.3330E-10 | 17: delta_s/delta_0: 1.0776E-10 | 18: delta_r/delta_0: 9.6156E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.873681836569222E-003 8.673638002085513E-005 | BP delta = -0.8190600 -1.011623 158546978.301426 | BP delta = -0.8273849 -1.019948 158546978.191413 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.099379 | New value = -3.192452 | poltype: 2 pol: 1 CPU time specind = 1.8171072E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152944 | New value = -3.121309 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116953 | New value = -3.105254 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.093503 | New value = -3.219882 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190787 | New value = -3.161344 | poltype: 2 pol: 2 CPU time specind = 2.7504921E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.13584E+08, tol = 0.84073E+01, time = 5.31 | CG iter. 2 -- res = 0.36130E+06, tol = 0.84073E+01, time = 5.82 | CG iter. 3 -- res = 0.72154E+05, tol = 0.84073E+01, time = 5.47 | CG iter. 4 -- res = 0.67350E+05, tol = 0.84073E+01, time = 5.74 | CG iter. 5 -- res = 0.69287E+05, tol = 0.84073E+01, time = 5.45 | CG iter. 6 -- res = 0.63776E+05, tol = 0.84073E+01, time = 5.43 | CG iter. 7 -- res = 0.59200E+05, tol = 0.84073E+01, time = 5.76 | CG iter. 8 -- res = 0.44869E+05, tol = 0.84073E+01, time = 5.73 | CG iter. 9 -- res = 0.36434E+05, tol = 0.84073E+01, time = 6.35 | CG iter. 10 -- res = 0.30416E+05, tol = 0.84073E+01, time = 6.62 | CG iter. 11 -- res = 0.21254E+05, tol = 0.84073E+01, time = 5.88 | CG iter. 12 -- res = 0.15354E+05, tol = 0.84073E+01, time = 5.46 | CG iter. 13 -- res = 0.12910E+05, tol = 0.84073E+01, time = 5.91 | CG iter. 14 -- res = 0.11656E+05, tol = 0.84073E+01, time = 5.71 | CG iter. 15 -- res = 0.94870E+04, tol = 0.84073E+01, time = 5.64 | CG iter. 16 -- res = 0.68520E+04, tol = 0.84073E+01, time = 5.74 | CG iter. 17 -- res = 0.49710E+04, tol = 0.84073E+01, time = 5.89 | CG iter. 18 -- res = 0.40390E+04, tol = 0.84073E+01, time = 5.60 | CG iter. 19 -- res = 0.35061E+04, tol = 0.84073E+01, time = 5.53 | CG iter. 20 -- res = 0.27310E+04, tol = 0.84073E+01, time = 5.57 | CG iter. 21 -- res = 0.20228E+04, tol = 0.84073E+01, time = 5.55 | CG iter. 22 -- res = 0.16561E+04, tol = 0.84073E+01, time = 5.76 | CG iter. 23 -- res = 0.14148E+04, tol = 0.84073E+01, time = 5.80 | CG iter. 24 -- res = 0.11397E+04, tol = 0.84073E+01, time = 5.89 | CG iter. 25 -- res = 0.81971E+03, tol = 0.84073E+01, time = 5.85 | CG iter. 26 -- res = 0.65685E+03, tol = 0.84073E+01, time = 5.40 | CG iter. 27 -- res = 0.56694E+03, tol = 0.84073E+01, time = 6.05 | CG iter. 28 -- res = 0.47861E+03, tol = 0.84073E+01, time = 5.98 | CG iter. 29 -- res = 0.35876E+03, tol = 0.84073E+01, time = 5.70 | CG iter. 30 -- res = 0.27806E+03, tol = 0.84073E+01, time = 5.85 | CG iter. 31 -- res = 0.24566E+03, tol = 0.84073E+01, time = 5.72 | CG iter. 32 -- res = 0.20699E+03, tol = 0.84073E+01, time = 5.85 | CG iter. 33 -- res = 0.16186E+03, tol = 0.84073E+01, time = 5.46 | CG iter. 34 -- res = 0.12771E+03, tol = 0.84073E+01, time = 5.41 | CG iter. 35 -- res = 0.10487E+03, tol = 0.84073E+01, time = 5.71 | CG iter. 36 -- res = 0.91887E+02, tol = 0.84073E+01, time = 5.96 | CG iter. 37 -- res = 0.76922E+02, tol = 0.84073E+01, time = 5.48 | CG iter. 38 -- res = 0.59675E+02, tol = 0.84073E+01, time = 5.60 | CG iter. 39 -- res = 0.48525E+02, tol = 0.84073E+01, time = 5.42 | CG iter. 40 -- res = 0.44425E+02, tol = 0.84073E+01, time = 5.50 | CG iter. 41 -- res = 0.38368E+02, tol = 0.84073E+01, time = 6.08 | CG iter. 42 -- res = 0.30502E+02, tol = 0.84073E+01, time = 5.46 | CG iter. 43 -- res = 0.26493E+02, tol = 0.84073E+01, time = 5.24 | CG iter. 44 -- res = 0.23167E+02, tol = 0.84073E+01, time = 5.89 | CG iter. 45 -- res = 0.19817E+02, tol = 0.84073E+01, time = 6.56 | CG iter. 46 -- res = 0.16067E+02, tol = 0.84073E+01, time = 11.14 | CG iter. 47 -- res = 0.13716E+02, tol = 0.84073E+01, time = 5.55 | CG iter. 48 -- res = 0.11739E+02, tol = 0.84073E+01, time = 5.89 | CG iter. 49 -- res = 0.10317E+02, tol = 0.84073E+01, time = 5.61 | CG iter. 50 -- res = 0.88356E+01, tol = 0.84073E+01, time = 5.75 | Final CG iter 51 -- res = 0.88356E+01, tol = 0.84073E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9008937.640 | Old band monopole 8199325.770 | Change to band monopole 809611.870 | Change to component monopole -809608.388 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.71610E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.25542E+03, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.37509E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.34426E-01, tol = 0.47627E+18, time = 1.80 | Final CG iter 5 -- res = 0.88096E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9008898.891 | (Sampled value in CG: 8928636.326 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477002 | New value = 1.431235 | poltype: 2 pol: 1 CPU time specind = 3.3445120E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.490303 | New value = 1.475815 | poltype: 2 pol: 2 CPU time specind = 1.3602018E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.24423E+08, tol = 0.47418E+04, time = 6.11 | CG iter. 2 -- res = 0.52594E+07, tol = 0.47418E+04, time = 6.43 | CG iter. 3 -- res = 0.82859E+06, tol = 0.47418E+04, time = 6.46 | CG iter. 4 -- res = 0.35166E+06, tol = 0.47418E+04, time = 6.50 | CG iter. 5 -- res = 0.15432E+06, tol = 0.47418E+04, time = 6.59 | CG iter. 6 -- res = 0.80371E+05, tol = 0.47418E+04, time = 6.39 | CG iter. 7 -- res = 0.42654E+05, tol = 0.47418E+04, time = 6.38 | CG iter. 8 -- res = 0.20567E+05, tol = 0.47418E+04, time = 6.84 | CG iter. 9 -- res = 0.90825E+04, tol = 0.47418E+04, time = 6.47 | CG iter. 10 -- res = 0.36307E+04, tol = 0.47418E+04, time = 6.67 | CG iter. 11 -- res = 0.16584E+04, tol = 0.47418E+04, time = 6.32 | CG iter. 12 -- res = 0.88271E+03, tol = 0.47418E+04, time = 6.37 | CG iter. 13 -- res = 0.50108E+03, tol = 0.47418E+04, time = 6.44 | CG iter. 14 -- res = 0.27923E+03, tol = 0.47418E+04, time = 6.30 | CG iter. 15 -- res = 0.14358E+03, tol = 0.47418E+04, time = 6.68 | CG iter. 16 -- res = 0.68499E+02, tol = 0.47418E+04, time = 6.31 | CG iter. 17 -- res = 0.31852E+02, tol = 0.47418E+04, time = 6.71 | CG iter. 18 -- res = 0.15699E+02, tol = 0.47418E+04, time = 6.41 | CG iter. 19 -- res = 0.86713E+01, tol = 0.47418E+04, time = 6.90 | CG iter. 20 -- res = 0.49669E+01, tol = 0.47418E+04, time = 6.30 | CG iter. 21 -- res = 0.27171E+01, tol = 0.47418E+04, time = 6.42 | CG iter. 22 -- res = 0.13766E+01, tol = 0.47418E+04, time = 6.57 | CG iter. 23 -- res = 0.66899E+00, tol = 0.47418E+04, time = 6.89 | CG iter. 24 -- res = 0.34949E+00, tol = 0.47418E+04, time = 12.80 | CG iter. 25 -- res = 0.19839E+00, tol = 0.47418E+04, time = 6.32 | CG iter. 26 -- res = 0.11212E+00, tol = 0.47418E+04, time = 6.16 | CG iter. 27 -- res = 0.63764E-01, tol = 0.47418E+04, time = 6.25 | CG iter. 28 -- res = 0.34258E-01, tol = 0.47418E+04, time = 6.37 | CG iter. 29 -- res = 0.17763E-01, tol = 0.47418E+04, time = 6.15 | CG iter. 30 -- res = 0.91778E-02, tol = 0.47418E+04, time = 6.43 | CG iter. 31 -- res = 0.48815E-02, tol = 0.47418E+04, time = 6.56 | CG iter. 32 -- res = 0.27555E-02, tol = 0.47418E+04, time = 6.48 | CG iter. 33 -- res = 0.15545E-02, tol = 0.47418E+04, time = 6.11 | CG iter. 34 -- res = 0.81377E-03, tol = 0.47418E+04, time = 6.38 | CG iter. 35 -- res = 0.41515E-03, tol = 0.47418E+04, time = 6.40 | Final CG iter 36 -- res = 0.41515E-03, tol = 0.47418E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.094 2.745 | New value -1.033 | Old value -2.094 | Difference 1.060 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.71589E+05, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.81711E+02, tol = 0.47627E+18, time = 1.74 | CG iter. 3 -- res = 0.17454E+01, tol = 0.47627E+18, time = 1.76 | CG iter. 4 -- res = 0.16972E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.24982E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9008898.891 | (Sampled value in CG: 8926791.608 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.520208 | New value = -3.510293 | poltype: 1 pol: 1 CPU time specind = 1.3147116E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.31627E+07, tol = 0.29796E+01, time = 2.57 | CG iter. 2 -- res = 0.17616E+07, tol = 0.29796E+01, time = 2.71 | CG iter. 3 -- res = 0.35895E+06, tol = 0.29796E+01, time = 2.55 | CG iter. 4 -- res = 0.13811E+06, tol = 0.29796E+01, time = 2.69 | CG iter. 5 -- res = 0.78585E+05, tol = 0.29796E+01, time = 2.60 | CG iter. 6 -- res = 0.41151E+05, tol = 0.29796E+01, time = 2.99 | CG iter. 7 -- res = 0.14303E+05, tol = 0.29796E+01, time = 2.70 | CG iter. 8 -- res = 0.58686E+04, tol = 0.29796E+01, time = 3.37 | CG iter. 9 -- res = 0.26875E+04, tol = 0.29796E+01, time = 3.89 | CG iter. 10 -- res = 0.11076E+04, tol = 0.29796E+01, time = 3.24 | CG iter. 11 -- res = 0.43923E+03, tol = 0.29796E+01, time = 2.77 | CG iter. 12 -- res = 0.20575E+03, tol = 0.29796E+01, time = 2.95 | CG iter. 13 -- res = 0.10541E+03, tol = 0.29796E+01, time = 2.73 | CG iter. 14 -- res = 0.52737E+02, tol = 0.29796E+01, time = 2.64 | CG iter. 15 -- res = 0.25376E+02, tol = 0.29796E+01, time = 2.73 | CG iter. 16 -- res = 0.11252E+02, tol = 0.29796E+01, time = 2.82 | CG iter. 17 -- res = 0.47681E+01, tol = 0.29796E+01, time = 2.37 | CG iter. 18 -- res = 0.22123E+01, tol = 0.29796E+01, time = 2.75 | CG iter. 19 -- res = 0.10384E+01, tol = 0.29796E+01, time = 2.45 | CG iter. 20 -- res = 0.53220E+00, tol = 0.29796E+01, time = 2.59 | CG iter. 21 -- res = 0.26443E+00, tol = 0.29796E+01, time = 2.85 | CG iter. 22 -- res = 0.12459E+00, tol = 0.29796E+01, time = 2.80 | CG iter. 23 -- res = 0.56765E-01, tol = 0.29796E+01, time = 2.58 | CG iter. 24 -- res = 0.26286E-01, tol = 0.29796E+01, time = 2.33 | CG iter. 25 -- res = 0.12452E-01, tol = 0.29796E+01, time = 2.64 | CG iter. 26 -- res = 0.62714E-02, tol = 0.29796E+01, time = 2.82 | CG iter. 27 -- res = 0.32646E-02, tol = 0.29796E+01, time = 2.55 | CG iter. 28 -- res = 0.16378E-02, tol = 0.29796E+01, time = 2.42 | CG iter. 29 -- res = 0.78315E-03, tol = 0.29796E+01, time = 2.50 | CG iter. 30 -- res = 0.37721E-03, tol = 0.29796E+01, time = 2.66 | CG iter. 31 -- res = 0.17397E-03, tol = 0.29796E+01, time = 2.51 | CG iter. 32 -- res = 0.81831E-04, tol = 0.29796E+01, time = 2.77 | CG iter. 33 -- res = 0.41564E-04, tol = 0.29796E+01, time = 2.35 | CG iter. 34 -- res = 0.20308E-04, tol = 0.29796E+01, time = 2.82 | CG iter. 35 -- res = 0.10313E-04, tol = 0.29796E+01, time = 2.70 | CG iter. 36 -- res = 0.49996E-05, tol = 0.29796E+01, time = 2.49 | CG iter. 37 -- res = 0.23141E-05, tol = 0.29796E+01, time = 2.49 | CG iter. 38 -- res = 0.10767E-05, tol = 0.29796E+01, time = 2.86 | CG iter. 39 -- res = 0.52537E-06, tol = 0.29796E+01, time = 2.47 | CG iter. 40 -- res = 0.27336E-06, tol = 0.29796E+01, time = 2.59 | CG iter. 41 -- res = 0.13626E-06, tol = 0.29796E+01, time = 2.78 | CG iter. 42 -- res = 0.66826E-07, tol = 0.29796E+01, time = 2.75 | CG iter. 43 -- res = 0.30666E-07, tol = 0.29796E+01, time = 2.59 | CG iter. 44 -- res = 0.14131E-07, tol = 0.29796E+01, time = 2.67 | CG iter. 45 -- res = 0.67969E-08, tol = 0.29796E+01, time = 2.66 | CG iter. 46 -- res = 0.34277E-08, tol = 0.29796E+01, time = 2.44 | CG iter. 47 -- res = 0.17339E-08, tol = 0.29796E+01, time = 2.54 | CG iter. 48 -- res = 0.87732E-09, tol = 0.29796E+01, time = 2.76 | CG iter. 49 -- res = 0.41073E-09, tol = 0.29796E+01, time = 2.67 | CG iter. 50 -- res = 0.18928E-09, tol = 0.29796E+01, time = 2.83 | Final CG iter 51 -- res = 0.18928E-09, tol = 0.29796E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.637 6.538 | New value 11.899 | Old value -8.637 | Difference 20.537 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.42592E+06, tol = 0.47627E+18, time = 2.10 | CG iter. 2 -- res = 0.15401E+03, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.42355E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.17692E-01, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.97836E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9008898.891 | (Sampled value in CG: 8952323.516 ) | CPU time specind = 1173.682 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.69729E+08, tol = 0.57496E+04, time = 11.46 | CG iter. 2 -- res = 0.59275E+08, tol = 0.57496E+04, time = 17.72 | CG iter. 3 -- res = 0.15524E+08, tol = 0.57496E+04, time = 11.52 | CG iter. 4 -- res = 0.65353E+07, tol = 0.57496E+04, time = 12.00 | CG iter. 5 -- res = 0.38791E+07, tol = 0.57496E+04, time = 11.33 | CG iter. 6 -- res = 0.22865E+07, tol = 0.57496E+04, time = 11.83 | CG iter. 7 -- res = 0.13723E+07, tol = 0.57496E+04, time = 11.53 | CG iter. 8 -- res = 0.91973E+06, tol = 0.57496E+04, time = 11.82 | CG iter. 9 -- res = 0.58763E+06, tol = 0.57496E+04, time = 13.05 | CG iter. 10 -- res = 0.34695E+06, tol = 0.57496E+04, time = 11.91 | CG iter. 11 -- res = 0.19605E+06, tol = 0.57496E+04, time = 11.81 | CG iter. 12 -- res = 0.11379E+06, tol = 0.57496E+04, time = 11.56 | CG iter. 13 -- res = 0.68787E+05, tol = 0.57496E+04, time = 11.35 | CG iter. 14 -- res = 0.45383E+05, tol = 0.57496E+04, time = 11.72 | CG iter. 15 -- res = 0.35735E+05, tol = 0.57496E+04, time = 11.59 | CG iter. 16 -- res = 0.31348E+05, tol = 0.57496E+04, time = 11.17 | CG iter. 17 -- res = 0.29477E+05, tol = 0.57496E+04, time = 11.22 | CG iter. 18 -- res = 0.26989E+05, tol = 0.57496E+04, time = 12.02 | CG iter. 19 -- res = 0.23990E+05, tol = 0.57496E+04, time = 11.86 | CG iter. 20 -- res = 0.21671E+05, tol = 0.57496E+04, time = 11.63 | CG iter. 21 -- res = 0.20640E+05, tol = 0.57496E+04, time = 11.77 | CG iter. 22 -- res = 0.20791E+05, tol = 0.57496E+04, time = 11.43 | CG iter. 23 -- res = 0.21029E+05, tol = 0.57496E+04, time = 11.56 | CG iter. 24 -- res = 0.20115E+05, tol = 0.57496E+04, time = 11.39 | CG iter. 25 -- res = 0.16896E+05, tol = 0.57496E+04, time = 11.60 | CG iter. 26 -- res = 0.12652E+05, tol = 0.57496E+04, time = 11.63 | CG iter. 27 -- res = 0.92894E+04, tol = 0.57496E+04, time = 17.83 | CG iter. 28 -- res = 0.71535E+04, tol = 0.57496E+04, time = 11.63 | CG iter. 29 -- res = 0.59012E+04, tol = 0.57496E+04, time = 11.42 | CG iter. 30 -- res = 0.52923E+04, tol = 0.57496E+04, time = 11.28 | CG iter. 31 -- res = 0.47153E+04, tol = 0.57496E+04, time = 11.67 | CG iter. 32 -- res = 0.40217E+04, tol = 0.57496E+04, time = 11.78 | CG iter. 33 -- res = 0.34920E+04, tol = 0.57496E+04, time = 11.69 | CG iter. 34 -- res = 0.30476E+04, tol = 0.57496E+04, time = 13.74 | CG iter. 35 -- res = 0.27387E+04, tol = 0.57496E+04, time = 12.23 | CG iter. 36 -- res = 0.25195E+04, tol = 0.57496E+04, time = 11.25 | CG iter. 37 -- res = 0.23394E+04, tol = 0.57496E+04, time = 11.62 | CG iter. 38 -- res = 0.21905E+04, tol = 0.57496E+04, time = 11.70 | CG iter. 39 -- res = 0.19403E+04, tol = 0.57496E+04, time = 11.40 | CG iter. 40 -- res = 0.16323E+04, tol = 0.57496E+04, time = 11.56 | CG iter. 41 -- res = 0.13157E+04, tol = 0.57496E+04, time = 11.77 | CG iter. 42 -- res = 0.10616E+04, tol = 0.57496E+04, time = 11.44 | CG iter. 43 -- res = 0.90204E+03, tol = 0.57496E+04, time = 11.54 | CG iter. 44 -- res = 0.82942E+03, tol = 0.57496E+04, time = 11.27 | CG iter. 45 -- res = 0.78262E+03, tol = 0.57496E+04, time = 11.72 | CG iter. 46 -- res = 0.71997E+03, tol = 0.57496E+04, time = 11.61 | CG iter. 47 -- res = 0.65959E+03, tol = 0.57496E+04, time = 11.68 | CG iter. 48 -- res = 0.57956E+03, tol = 0.57496E+04, time = 11.93 | CG iter. 49 -- res = 0.52426E+03, tol = 0.57496E+04, time = 11.50 | CG iter. 50 -- res = 0.48979E+03, tol = 0.57496E+04, time = 11.82 | CG iter. 51 -- res = 0.45865E+03, tol = 0.57496E+04, time = 11.48 | CG iter. 52 -- res = 0.43265E+03, tol = 0.57496E+04, time = 17.47 | CG iter. 53 -- res = 0.39551E+03, tol = 0.57496E+04, time = 11.32 | CG iter. 54 -- res = 0.35347E+03, tol = 0.57496E+04, time = 11.28 | CG iter. 55 -- res = 0.30754E+03, tol = 0.57496E+04, time = 11.24 | CG iter. 56 -- res = 0.26454E+03, tol = 0.57496E+04, time = 11.50 | CG iter. 57 -- res = 0.23440E+03, tol = 0.57496E+04, time = 11.22 | CG iter. 58 -- res = 0.22169E+03, tol = 0.57496E+04, time = 11.58 | CG iter. 59 -- res = 0.21900E+03, tol = 0.57496E+04, time = 12.67 | CG iter. 60 -- res = 0.20988E+03, tol = 0.57496E+04, time = 12.87 | Final CG iter 61 -- res = 0.20988E+03, tol = 0.57496E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.850 ( -229.335 -2230.973 2513.318 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6264057.078 | Old band monopole 9008937.640 | Change to band monopole -2744880.562 | Change to component monopole 2744868.756 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.985 2.747 | New value -2.170 | Old value -0.985 | Difference -1.184 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.771 ( 6.852 11.462 -10.654 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 22.865 5.633 | New value -4.895 | Old value 22.865 | Difference -27.760 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.22571E+06, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.66542E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.29209E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.46897E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.20230E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6264030.135 | (Sampled value in CG: 6236870.269 ) | Chain = 1 -- chisq = 0.81618446E+09 | Chain = 1 -- wall time = 16574.690 sec Available RAM: MemAvailable: 474429048 kB Available Swap: SwapFree: 1052319092 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 332 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445328 | --> Sampling calibration, mode = relcal | relcal = 1.3431538E-02 7.4736384E-04 -1.6079490E-03 -1.2570953E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1166104 0.1275928 9409596.64037645 | BP delta = 0.1166104 0.1284095 9409586.12963264 | BP chisq diff = -10.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632440 | --> Sampling calibration, mode = relcal | relcal = -2.8210150E-03 -7.0340303E-04 1.6789989E-03 1.6136984E-03 -4.0823277E-04 6.3995336E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5573621 15217335.5106775 | BP delta = 0.0000000E+00 -0.5556021 15217337.9955169 | BP chisq diff = 2.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17857518760973 | --> Sampling calibration, mode = relcal | relcal = -7.4026890E-02 -5.7766456E-02 9.0803869E-02 4.0989477E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6703547E-04 2.8592329E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1226E-03 | 2: delta_r/delta_0: 2.0238E-05 | 3: delta_s/delta_0: 2.5862E-07 | 4: delta_r/delta_0: 3.0268E-08 | 5: delta_s/delta_0: 2.5400E-07 | 6: delta_r/delta_0: 3.5092E-08 | 7: delta_s/delta_0: 6.0621E-10 | 8: delta_r/delta_0: 3.0362E-10 | 9: delta_s/delta_0: 2.9915E-10 | 10: delta_r/delta_0: 2.1542E-10 | 11: delta_s/delta_0: 2.2333E-10 | 12: delta_r/delta_0: 2.0401E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.697746058080019E-003 2.746850552777314E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1227E-03 | 2: delta_r/delta_0: 2.0241E-05 | 3: delta_s/delta_0: 2.5858E-07 | 4: delta_r/delta_0: 3.0263E-08 | 5: delta_s/delta_0: 2.5365E-07 | 6: delta_r/delta_0: 3.5052E-08 | 7: delta_s/delta_0: 6.0614E-10 | 8: delta_r/delta_0: 3.0354E-10 | 9: delta_s/delta_0: 2.9904E-10 | 10: delta_r/delta_0: 2.1535E-10 | 11: delta_s/delta_0: 2.2355E-10 | 12: delta_r/delta_0: 2.0392E-11 | Reached bicg-stab tolerance | BP delta = 8.2466997E-02 0.1035676 3589197.03533481 | BP delta = 8.2466997E-02 0.1037241 3587561.75896443 | BP chisq diff = -1635.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02604674 | --> Sampling calibration, mode = relcal | relcal = -0.1066823 -9.5585473E-02 0.1449337 5.7334039E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9793417E-03 1.1890080E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2575E-05 | 2: delta_r/delta_0: 1.1328E-06 | 3: delta_s/delta_0: 2.2978E-07 | 4: delta_r/delta_0: 4.9137E-08 | 5: delta_s/delta_0: 1.4490E-08 | 6: delta_r/delta_0: 6.3016E-09 | 7: delta_s/delta_0: 7.6455E-06 | 8: delta_r/delta_0: 9.5348E-07 | 9: delta_s/delta_0: 7.8682E-10 | 10: delta_r/delta_0: 5.8886E-10 | 11: delta_s/delta_0: 4.4219E-09 | 12: delta_r/delta_0: 6.9589E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.425012131345943E-003 2.810709457796912E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2575E-05 | 2: delta_r/delta_0: 1.1328E-06 | 3: delta_s/delta_0: 2.2975E-07 | 4: delta_r/delta_0: 4.9105E-08 | 5: delta_s/delta_0: 1.4494E-08 | 6: delta_r/delta_0: 6.2998E-09 | 7: delta_s/delta_0: 7.6290E-06 | 8: delta_r/delta_0: 9.5283E-07 | 9: delta_s/delta_0: 7.8676E-10 | 10: delta_r/delta_0: 5.8880E-10 | 11: delta_s/delta_0: 4.4239E-09 | 12: delta_r/delta_0: 6.9564E-11 | Reached bicg-stab tolerance | BP delta = -0.3133228 -0.2823519 2841278.83691379 | BP delta = -0.3133228 -0.2841686 2841285.58474036 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224903 | --> Sampling calibration, mode = relcal | relcal = 0.2956264 0.2248090 -0.2838600 -0.2365755 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3181278E-04 4.7845291E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3941E-03 | 2: delta_r/delta_0: 3.2108E-05 | 3: delta_s/delta_0: 1.4682E-05 | 4: delta_r/delta_0: 3.2826E-07 | 5: delta_s/delta_0: 1.8403E-05 | 6: delta_r/delta_0: 1.4638E-06 | 7: delta_s/delta_0: 4.6689E-08 | 8: delta_r/delta_0: 3.3044E-08 | 9: delta_s/delta_0: 5.4004E-07 | 10: delta_r/delta_0: 5.0580E-09 | 11: delta_s/delta_0: 1.0336E-09 | 12: delta_r/delta_0: 7.2100E-10 | 13: delta_s/delta_0: 5.4574E-10 | 14: delta_r/delta_0: 1.0274E-10 | 15: delta_s/delta_0: 3.0923E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.833420175825763E-002 4.021744942820302E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3931E-03 | 2: delta_r/delta_0: 3.2086E-05 | 3: delta_s/delta_0: 1.4708E-05 | 4: delta_r/delta_0: 3.2844E-07 | 5: delta_s/delta_0: 1.8367E-05 | 6: delta_r/delta_0: 1.4614E-06 | 7: delta_s/delta_0: 4.6692E-08 | 8: delta_r/delta_0: 3.3045E-08 | 9: delta_s/delta_0: 5.4067E-07 | 10: delta_r/delta_0: 5.0589E-09 | 11: delta_s/delta_0: 1.0329E-09 | 12: delta_r/delta_0: 7.2071E-10 | 13: delta_s/delta_0: 5.4486E-10 | 14: delta_r/delta_0: 1.0249E-10 | 15: delta_s/delta_0: 3.0927E-11 | Reached bicg-stab tolerance | BP delta = -0.1558576 -0.1939361 2827597.29883531 | BP delta = -0.1558576 -0.1921350 2827607.09692257 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95909652 | --> Sampling calibration, mode = relcal | relcal = 0.1065674 0.1395894 -0.1102679 -0.1358889 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6312445E-03 1.3196120E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8999E-03 | 2: delta_r/delta_0: 6.8046E-05 | 3: delta_s/delta_0: 5.2666E-06 | 4: delta_r/delta_0: 6.0994E-07 | 5: delta_s/delta_0: 4.0691E-04 | 6: delta_r/delta_0: 9.6541E-06 | 7: delta_s/delta_0: 5.5218E-08 | 8: delta_r/delta_0: 2.6997E-08 | 9: delta_s/delta_0: 2.2044E-07 | 10: delta_r/delta_0: 3.6022E-09 | 11: delta_s/delta_0: 2.9777E-09 | 12: delta_r/delta_0: 1.1699E-09 | 13: delta_s/delta_0: 3.3062E-10 | 14: delta_r/delta_0: 2.4422E-10 | 15: delta_s/delta_0: 4.1529E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.260638589910001E-002 3.697501055437920E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.8992E-03 | 2: delta_r/delta_0: 6.8032E-05 | 3: delta_s/delta_0: 5.2649E-06 | 4: delta_r/delta_0: 6.1008E-07 | 5: delta_s/delta_0: 4.0575E-04 | 6: delta_r/delta_0: 9.6326E-06 | 7: delta_s/delta_0: 5.5234E-08 | 8: delta_r/delta_0: 2.7005E-08 | 9: delta_s/delta_0: 2.2062E-07 | 10: delta_r/delta_0: 3.6032E-09 | 11: delta_s/delta_0: 2.9774E-09 | 12: delta_r/delta_0: 1.1690E-09 | 13: delta_s/delta_0: 3.3049E-10 | 14: delta_r/delta_0: 2.4414E-10 | 15: delta_s/delta_0: 4.1510E-11 | Reached bicg-stab tolerance | BP delta = 0.1659398 0.2762056 3003964.11083324 | BP delta = 0.1659398 0.2766244 3003933.22697853 | BP chisq diff = -30.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.192452 | New value = -3.140088 | poltype: 2 pol: 1 CPU time specind = 2.2044897E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121309 | New value = -3.119640 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105254 | New value = -3.119673 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.219882 | New value = -3.152359 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161344 | New value = -3.189267 | poltype: 2 pol: 2 CPU time specind = 1.1818886E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.50 | CG iter. 1 -- res = 0.13580E+08, tol = 0.99172E+01, time = 5.62 | CG iter. 2 -- res = 0.34065E+06, tol = 0.99172E+01, time = 6.47 | CG iter. 3 -- res = 0.56167E+05, tol = 0.99172E+01, time = 5.56 | CG iter. 4 -- res = 0.34618E+05, tol = 0.99172E+01, time = 6.29 | CG iter. 5 -- res = 0.26267E+05, tol = 0.99172E+01, time = 5.78 | CG iter. 6 -- res = 0.21854E+05, tol = 0.99172E+01, time = 5.46 | CG iter. 7 -- res = 0.19639E+05, tol = 0.99172E+01, time = 5.53 | CG iter. 8 -- res = 0.16514E+05, tol = 0.99172E+01, time = 5.84 | CG iter. 9 -- res = 0.13588E+05, tol = 0.99172E+01, time = 5.74 | CG iter. 10 -- res = 0.11970E+05, tol = 0.99172E+01, time = 5.64 | CG iter. 11 -- res = 0.84004E+04, tol = 0.99172E+01, time = 5.93 | CG iter. 12 -- res = 0.56262E+04, tol = 0.99172E+01, time = 5.66 | CG iter. 13 -- res = 0.42398E+04, tol = 0.99172E+01, time = 5.82 | CG iter. 14 -- res = 0.36556E+04, tol = 0.99172E+01, time = 6.03 | CG iter. 15 -- res = 0.31556E+04, tol = 0.99172E+01, time = 5.82 | CG iter. 16 -- res = 0.23954E+04, tol = 0.99172E+01, time = 6.18 | CG iter. 17 -- res = 0.16579E+04, tol = 0.99172E+01, time = 5.82 | CG iter. 18 -- res = 0.12701E+04, tol = 0.99172E+01, time = 5.53 | CG iter. 19 -- res = 0.10778E+04, tol = 0.99172E+01, time = 10.48 | CG iter. 20 -- res = 0.82508E+03, tol = 0.99172E+01, time = 7.45 | CG iter. 21 -- res = 0.57350E+03, tol = 0.99172E+01, time = 6.04 | CG iter. 22 -- res = 0.45267E+03, tol = 0.99172E+01, time = 5.57 | CG iter. 23 -- res = 0.37578E+03, tol = 0.99172E+01, time = 5.76 | CG iter. 24 -- res = 0.30112E+03, tol = 0.99172E+01, time = 5.74 | CG iter. 25 -- res = 0.21662E+03, tol = 0.99172E+01, time = 6.06 | CG iter. 26 -- res = 0.15120E+03, tol = 0.99172E+01, time = 6.07 | CG iter. 27 -- res = 0.12382E+03, tol = 0.99172E+01, time = 6.01 | CG iter. 28 -- res = 0.10382E+03, tol = 0.99172E+01, time = 6.05 | CG iter. 29 -- res = 0.78598E+02, tol = 0.99172E+01, time = 5.69 | CG iter. 30 -- res = 0.57313E+02, tol = 0.99172E+01, time = 5.68 | CG iter. 31 -- res = 0.46594E+02, tol = 0.99172E+01, time = 5.91 | CG iter. 32 -- res = 0.39768E+02, tol = 0.99172E+01, time = 6.11 | CG iter. 33 -- res = 0.31149E+02, tol = 0.99172E+01, time = 5.44 | CG iter. 34 -- res = 0.23044E+02, tol = 0.99172E+01, time = 7.15 | CG iter. 35 -- res = 0.17866E+02, tol = 0.99172E+01, time = 6.31 | CG iter. 36 -- res = 0.15606E+02, tol = 0.99172E+01, time = 6.24 | CG iter. 37 -- res = 0.12773E+02, tol = 0.99172E+01, time = 6.09 | CG iter. 38 -- res = 0.97528E+01, tol = 0.99172E+01, time = 5.69 | CG iter. 39 -- res = 0.76809E+01, tol = 0.99172E+01, time = 5.90 | CG iter. 40 -- res = 0.64272E+01, tol = 0.99172E+01, time = 5.61 | CG iter. 41 -- res = 0.55885E+01, tol = 0.99172E+01, time = 6.00 | CG iter. 42 -- res = 0.45169E+01, tol = 0.99172E+01, time = 5.90 | CG iter. 43 -- res = 0.34724E+01, tol = 0.99172E+01, time = 6.03 | CG iter. 44 -- res = 0.29217E+01, tol = 0.99172E+01, time = 5.84 | CG iter. 45 -- res = 0.25034E+01, tol = 0.99172E+01, time = 5.72 | CG iter. 46 -- res = 0.20990E+01, tol = 0.99172E+01, time = 5.69 | CG iter. 47 -- res = 0.16601E+01, tol = 0.99172E+01, time = 5.30 | CG iter. 48 -- res = 0.13664E+01, tol = 0.99172E+01, time = 6.21 | CG iter. 49 -- res = 0.11917E+01, tol = 0.99172E+01, time = 5.66 | CG iter. 50 -- res = 0.10400E+01, tol = 0.99172E+01, time = 5.75 | Final CG iter 51 -- res = 0.10400E+01, tol = 0.99172E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9677921.110 | Old band monopole 6264057.078 | Change to band monopole 3413864.032 | Change to component monopole -3413849.348 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.46 | CG iter. 1 -- res = 0.41408E+04, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.15318E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.41935E+00, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.19951E-03, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.92658E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9677879.483 | (Sampled value in CG: 9734961.156 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.431235 | New value = 1.453598 | poltype: 2 pol: 1 CPU time specind = 1.3870955E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475815 | New value = 1.461713 | poltype: 2 pol: 2 CPU time specind = 4.3208599E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.24077E+08, tol = 0.47474E+04, time = 6.97 | CG iter. 2 -- res = 0.52898E+07, tol = 0.47474E+04, time = 6.71 | CG iter. 3 -- res = 0.83411E+06, tol = 0.47474E+04, time = 6.54 | CG iter. 4 -- res = 0.34970E+06, tol = 0.47474E+04, time = 6.50 | CG iter. 5 -- res = 0.15061E+06, tol = 0.47474E+04, time = 6.22 | CG iter. 6 -- res = 0.78495E+05, tol = 0.47474E+04, time = 6.59 | CG iter. 7 -- res = 0.42912E+05, tol = 0.47474E+04, time = 6.68 | CG iter. 8 -- res = 0.20604E+05, tol = 0.47474E+04, time = 6.75 | CG iter. 9 -- res = 0.91985E+04, tol = 0.47474E+04, time = 6.46 | CG iter. 10 -- res = 0.37690E+04, tol = 0.47474E+04, time = 6.55 | CG iter. 11 -- res = 0.16790E+04, tol = 0.47474E+04, time = 6.45 | CG iter. 12 -- res = 0.86874E+03, tol = 0.47474E+04, time = 6.77 | CG iter. 13 -- res = 0.48869E+03, tol = 0.47474E+04, time = 8.10 | CG iter. 14 -- res = 0.27996E+03, tol = 0.47474E+04, time = 7.19 | CG iter. 15 -- res = 0.14444E+03, tol = 0.47474E+04, time = 6.73 | CG iter. 16 -- res = 0.68372E+02, tol = 0.47474E+04, time = 6.97 | CG iter. 17 -- res = 0.31904E+02, tol = 0.47474E+04, time = 6.81 | CG iter. 18 -- res = 0.15847E+02, tol = 0.47474E+04, time = 6.61 | CG iter. 19 -- res = 0.86752E+01, tol = 0.47474E+04, time = 6.54 | CG iter. 20 -- res = 0.49289E+01, tol = 0.47474E+04, time = 6.68 | CG iter. 21 -- res = 0.26611E+01, tol = 0.47474E+04, time = 6.78 | CG iter. 22 -- res = 0.13658E+01, tol = 0.47474E+04, time = 6.52 | CG iter. 23 -- res = 0.69003E+00, tol = 0.47474E+04, time = 6.37 | CG iter. 24 -- res = 0.36441E+00, tol = 0.47474E+04, time = 6.85 | CG iter. 25 -- res = 0.19956E+00, tol = 0.47474E+04, time = 6.96 | CG iter. 26 -- res = 0.11113E+00, tol = 0.47474E+04, time = 6.83 | CG iter. 27 -- res = 0.61886E-01, tol = 0.47474E+04, time = 6.86 | CG iter. 28 -- res = 0.32856E-01, tol = 0.47474E+04, time = 6.61 | CG iter. 29 -- res = 0.17235E-01, tol = 0.47474E+04, time = 6.95 | CG iter. 30 -- res = 0.89889E-02, tol = 0.47474E+04, time = 6.38 | CG iter. 31 -- res = 0.49170E-02, tol = 0.47474E+04, time = 6.55 | CG iter. 32 -- res = 0.28181E-02, tol = 0.47474E+04, time = 6.81 | CG iter. 33 -- res = 0.16127E-02, tol = 0.47474E+04, time = 6.41 | CG iter. 34 -- res = 0.86888E-03, tol = 0.47474E+04, time = 6.47 | CG iter. 35 -- res = 0.45014E-03, tol = 0.47474E+04, time = 6.79 | Final CG iter 36 -- res = 0.45014E-03, tol = 0.47474E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.181 2.751 | New value -4.315 | Old value -2.181 | Difference -2.134 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.21 | CG iter. 1 -- res = 0.23892E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.52128E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.15092E+01, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.78821E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.21869E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9677879.483 | (Sampled value in CG: 9733766.553 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.510293 | New value = -3.469847 | poltype: 1 pol: 1 CPU time specind = 1.4405966E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.34 | CG iter. 1 -- res = 0.23176E+07, tol = 0.22812E+01, time = 3.07 | CG iter. 2 -- res = 0.10016E+07, tol = 0.22812E+01, time = 2.84 | CG iter. 3 -- res = 0.20065E+06, tol = 0.22812E+01, time = 3.03 | CG iter. 4 -- res = 0.73166E+05, tol = 0.22812E+01, time = 2.59 | CG iter. 5 -- res = 0.39649E+05, tol = 0.22812E+01, time = 2.66 | CG iter. 6 -- res = 0.21545E+05, tol = 0.22812E+01, time = 3.07 | CG iter. 7 -- res = 0.90765E+04, tol = 0.22812E+01, time = 3.03 | CG iter. 8 -- res = 0.41186E+04, tol = 0.22812E+01, time = 2.86 | CG iter. 9 -- res = 0.17924E+04, tol = 0.22812E+01, time = 2.46 | CG iter. 10 -- res = 0.70102E+03, tol = 0.22812E+01, time = 2.74 | CG iter. 11 -- res = 0.27916E+03, tol = 0.22812E+01, time = 2.70 | CG iter. 12 -- res = 0.13314E+03, tol = 0.22812E+01, time = 2.88 | CG iter. 13 -- res = 0.67896E+02, tol = 0.22812E+01, time = 3.10 | CG iter. 14 -- res = 0.35295E+02, tol = 0.22812E+01, time = 2.72 | CG iter. 15 -- res = 0.17514E+02, tol = 0.22812E+01, time = 2.81 | CG iter. 16 -- res = 0.81247E+01, tol = 0.22812E+01, time = 2.45 | CG iter. 17 -- res = 0.34978E+01, tol = 0.22812E+01, time = 4.28 | CG iter. 18 -- res = 0.15866E+01, tol = 0.22812E+01, time = 7.65 | CG iter. 19 -- res = 0.71133E+00, tol = 0.22812E+01, time = 2.67 | CG iter. 20 -- res = 0.36518E+00, tol = 0.22812E+01, time = 2.43 | CG iter. 21 -- res = 0.18638E+00, tol = 0.22812E+01, time = 3.08 | CG iter. 22 -- res = 0.90680E-01, tol = 0.22812E+01, time = 3.00 | CG iter. 23 -- res = 0.42951E-01, tol = 0.22812E+01, time = 3.64 | CG iter. 24 -- res = 0.19417E-01, tol = 0.22812E+01, time = 2.81 | CG iter. 25 -- res = 0.90396E-02, tol = 0.22812E+01, time = 2.84 | CG iter. 26 -- res = 0.42421E-02, tol = 0.22812E+01, time = 2.75 | CG iter. 27 -- res = 0.22262E-02, tol = 0.22812E+01, time = 3.02 | CG iter. 28 -- res = 0.11711E-02, tol = 0.22812E+01, time = 2.79 | CG iter. 29 -- res = 0.57828E-03, tol = 0.22812E+01, time = 2.74 | CG iter. 30 -- res = 0.27009E-03, tol = 0.22812E+01, time = 2.65 | CG iter. 31 -- res = 0.12553E-03, tol = 0.22812E+01, time = 2.65 | CG iter. 32 -- res = 0.58372E-04, tol = 0.22812E+01, time = 2.92 | CG iter. 33 -- res = 0.28994E-04, tol = 0.22812E+01, time = 2.77 | CG iter. 34 -- res = 0.14567E-04, tol = 0.22812E+01, time = 2.73 | CG iter. 35 -- res = 0.75311E-05, tol = 0.22812E+01, time = 2.61 | CG iter. 36 -- res = 0.38168E-05, tol = 0.22812E+01, time = 2.56 | CG iter. 37 -- res = 0.17719E-05, tol = 0.22812E+01, time = 2.55 | CG iter. 38 -- res = 0.81423E-06, tol = 0.22812E+01, time = 2.73 | CG iter. 39 -- res = 0.39114E-06, tol = 0.22812E+01, time = 2.96 | CG iter. 40 -- res = 0.19439E-06, tol = 0.22812E+01, time = 2.58 | CG iter. 41 -- res = 0.10082E-06, tol = 0.22812E+01, time = 2.89 | CG iter. 42 -- res = 0.50329E-07, tol = 0.22812E+01, time = 2.99 | CG iter. 43 -- res = 0.23690E-07, tol = 0.22812E+01, time = 2.54 | CG iter. 44 -- res = 0.10801E-07, tol = 0.22812E+01, time = 2.41 | CG iter. 45 -- res = 0.49928E-08, tol = 0.22812E+01, time = 3.06 | CG iter. 46 -- res = 0.25251E-08, tol = 0.22812E+01, time = 2.88 | CG iter. 47 -- res = 0.13187E-08, tol = 0.22812E+01, time = 2.87 | CG iter. 48 -- res = 0.66074E-09, tol = 0.22812E+01, time = 3.83 | CG iter. 49 -- res = 0.31388E-09, tol = 0.22812E+01, time = 3.03 | CG iter. 50 -- res = 0.15033E-09, tol = 0.22812E+01, time = 3.02 | Final CG iter 51 -- res = 0.15033E-09, tol = 0.22812E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.982 4.595 | New value 4.656 | Old value -0.982 | Difference 5.638 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.52 | CG iter. 1 -- res = 0.33732E+05, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.51176E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.19398E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.63297E-02, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.10480E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9677879.483 | (Sampled value in CG: 9724246.875 ) | CPU time specind = 1214.953 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.68656E+08, tol = 0.57424E+04, time = 11.90 | CG iter. 2 -- res = 0.59050E+08, tol = 0.57424E+04, time = 12.43 | CG iter. 3 -- res = 0.15270E+08, tol = 0.57424E+04, time = 11.63 | CG iter. 4 -- res = 0.63348E+07, tol = 0.57424E+04, time = 12.56 | CG iter. 5 -- res = 0.36749E+07, tol = 0.57424E+04, time = 12.13 | CG iter. 6 -- res = 0.21442E+07, tol = 0.57424E+04, time = 11.99 | CG iter. 7 -- res = 0.13066E+07, tol = 0.57424E+04, time = 12.02 | CG iter. 8 -- res = 0.86233E+06, tol = 0.57424E+04, time = 12.20 | CG iter. 9 -- res = 0.57096E+06, tol = 0.57424E+04, time = 12.48 | CG iter. 10 -- res = 0.33508E+06, tol = 0.57424E+04, time = 18.49 | CG iter. 11 -- res = 0.17953E+06, tol = 0.57424E+04, time = 11.98 | CG iter. 12 -- res = 0.96397E+05, tol = 0.57424E+04, time = 11.93 | CG iter. 13 -- res = 0.52923E+05, tol = 0.57424E+04, time = 11.82 | CG iter. 14 -- res = 0.31665E+05, tol = 0.57424E+04, time = 11.88 | CG iter. 15 -- res = 0.21819E+05, tol = 0.57424E+04, time = 11.65 | CG iter. 16 -- res = 0.16097E+05, tol = 0.57424E+04, time = 11.83 | CG iter. 17 -- res = 0.12388E+05, tol = 0.57424E+04, time = 13.68 | CG iter. 18 -- res = 0.96275E+04, tol = 0.57424E+04, time = 12.76 | CG iter. 19 -- res = 0.74853E+04, tol = 0.57424E+04, time = 11.67 | CG iter. 20 -- res = 0.60003E+04, tol = 0.57424E+04, time = 12.29 | CG iter. 21 -- res = 0.53224E+04, tol = 0.57424E+04, time = 11.60 | CG iter. 22 -- res = 0.52288E+04, tol = 0.57424E+04, time = 11.92 | CG iter. 23 -- res = 0.55050E+04, tol = 0.57424E+04, time = 11.76 | CG iter. 24 -- res = 0.59039E+04, tol = 0.57424E+04, time = 11.79 | CG iter. 25 -- res = 0.57610E+04, tol = 0.57424E+04, time = 12.31 | CG iter. 26 -- res = 0.51174E+04, tol = 0.57424E+04, time = 12.49 | CG iter. 27 -- res = 0.42454E+04, tol = 0.57424E+04, time = 12.32 | CG iter. 28 -- res = 0.33873E+04, tol = 0.57424E+04, time = 12.13 | CG iter. 29 -- res = 0.27256E+04, tol = 0.57424E+04, time = 11.79 | CG iter. 30 -- res = 0.22980E+04, tol = 0.57424E+04, time = 12.26 | CG iter. 31 -- res = 0.19107E+04, tol = 0.57424E+04, time = 12.02 | CG iter. 32 -- res = 0.16168E+04, tol = 0.57424E+04, time = 12.05 | CG iter. 33 -- res = 0.13636E+04, tol = 0.57424E+04, time = 12.18 | CG iter. 34 -- res = 0.10810E+04, tol = 0.57424E+04, time = 18.60 | CG iter. 35 -- res = 0.85470E+03, tol = 0.57424E+04, time = 12.19 | CG iter. 36 -- res = 0.71822E+03, tol = 0.57424E+04, time = 11.93 | CG iter. 37 -- res = 0.67101E+03, tol = 0.57424E+04, time = 11.95 | CG iter. 38 -- res = 0.65316E+03, tol = 0.57424E+04, time = 11.95 | CG iter. 39 -- res = 0.62835E+03, tol = 0.57424E+04, time = 11.93 | CG iter. 40 -- res = 0.56730E+03, tol = 0.57424E+04, time = 12.23 | CG iter. 41 -- res = 0.47931E+03, tol = 0.57424E+04, time = 13.76 | CG iter. 42 -- res = 0.39317E+03, tol = 0.57424E+04, time = 12.21 | CG iter. 43 -- res = 0.32945E+03, tol = 0.57424E+04, time = 12.07 | CG iter. 44 -- res = 0.28399E+03, tol = 0.57424E+04, time = 12.23 | CG iter. 45 -- res = 0.25533E+03, tol = 0.57424E+04, time = 11.48 | CG iter. 46 -- res = 0.23779E+03, tol = 0.57424E+04, time = 11.92 | CG iter. 47 -- res = 0.21989E+03, tol = 0.57424E+04, time = 12.12 | CG iter. 48 -- res = 0.18614E+03, tol = 0.57424E+04, time = 12.02 | CG iter. 49 -- res = 0.15409E+03, tol = 0.57424E+04, time = 12.16 | CG iter. 50 -- res = 0.13350E+03, tol = 0.57424E+04, time = 12.87 | CG iter. 51 -- res = 0.12359E+03, tol = 0.57424E+04, time = 11.46 | CG iter. 52 -- res = 0.12073E+03, tol = 0.57424E+04, time = 12.06 | CG iter. 53 -- res = 0.11796E+03, tol = 0.57424E+04, time = 12.01 | CG iter. 54 -- res = 0.11154E+03, tol = 0.57424E+04, time = 12.75 | CG iter. 55 -- res = 0.10048E+03, tol = 0.57424E+04, time = 12.05 | CG iter. 56 -- res = 0.86800E+02, tol = 0.57424E+04, time = 11.70 | CG iter. 57 -- res = 0.74840E+02, tol = 0.57424E+04, time = 12.48 | CG iter. 58 -- res = 0.68761E+02, tol = 0.57424E+04, time = 18.54 | CG iter. 59 -- res = 0.64430E+02, tol = 0.57424E+04, time = 11.82 | CG iter. 60 -- res = 0.60628E+02, tol = 0.57424E+04, time = 12.42 | Final CG iter 61 -- res = 0.60628E+02, tol = 0.57424E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.901 ( -229.435 -2232.470 2515.232 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8653146.705 | Old band monopole 9677921.110 | Change to band monopole -1024774.405 | Change to component monopole 1024769.997 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.323 2.734 | New value -1.198 | Old value -4.323 | Difference 3.125 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.294 ( 6.533 14.888 -15.025 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.703 4.125 | New value -0.275 | Old value 8.703 | Difference -8.978 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.52 | CG iter. 1 -- res = 0.50530E+06, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.22597E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.42514E+00, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.33755E-03, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.11675E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8653109.486 | (Sampled value in CG: 8632544.322 ) | Chain = 1 -- chisq = 0.81605519E+09 | Chain = 1 -- wall time = 6228.152 sec Available RAM: MemAvailable: 382550096 kB Available Swap: SwapFree: 1110926452 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 333 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441725 | --> Sampling calibration, mode = relcal | relcal = 1.3433717E-02 7.3769107E-04 -1.5929653E-03 -1.2578443E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1166104 0.1284095 97035731.1737624 | BP delta = 0.1127259 0.1245250 97035734.8433256 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632656 | --> Sampling calibration, mode = relcal | relcal = -2.8211325E-03 -7.0322747E-04 1.6775461E-03 1.6143742E-03 -4.0867654E-04 6.4111623E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5556021 15219767.0431978 | BP delta = 0.0000000E+00 -0.5562727 15219766.1516225 | BP chisq diff = -0.9, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18036972745519 | --> Sampling calibration, mode = relcal | relcal = -7.5302981E-02 -5.8575127E-02 9.2086226E-02 4.1791882E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7366047E-04 4.4387197E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1649E-05 | 2: delta_r/delta_0: 9.6180E-07 | 3: delta_s/delta_0: 2.0012E-07 | 4: delta_r/delta_0: 2.0131E-08 | 5: delta_s/delta_0: 5.5440E-09 | 6: delta_r/delta_0: 1.0042E-09 | 7: delta_s/delta_0: 2.6989E-08 | 8: delta_r/delta_0: 8.5742E-10 | 9: delta_s/delta_0: 1.6379E-10 | 10: delta_r/delta_0: 7.0636E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.380652873497203E-004 2.742494091823417E-005 | BP delta = 8.2466997E-02 0.1037241 50483457.7290668 | BP delta = 8.4550709E-02 0.1058078 50483457.3266078 | BP chisq diff = -0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02620112 | --> Sampling calibration, mode = relcal | relcal = -0.1066938 -9.5594086E-02 0.1450192 5.7268716E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1240683E-03 1.6903813E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0428E-05 | 2: delta_r/delta_0: 1.2123E-06 | 3: delta_s/delta_0: 2.6292E-07 | 4: delta_r/delta_0: 4.0287E-08 | 5: delta_s/delta_0: 2.1535E-08 | 6: delta_r/delta_0: 6.4692E-09 | 7: delta_s/delta_0: 8.8687E-09 | 8: delta_r/delta_0: 1.2281E-09 | 9: delta_s/delta_0: 1.6073E-09 | 10: delta_r/delta_0: 1.1446E-09 | 11: delta_s/delta_0: 8.8469E-10 | 12: delta_r/delta_0: 1.5238E-10 | 13: delta_s/delta_0: 8.4554E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.646767282975635E-003 2.810282219191823E-005 | BP delta = -0.3133228 -0.2823519 57390720.9849138 | BP delta = -0.3112786 -0.2803077 57390720.6058257 | BP chisq diff = -0.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81248429 | --> Sampling calibration, mode = relcal | relcal = 0.2955695 0.2248714 -0.2839074 -0.2365335 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0781887E-04 5.0221779E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.8794E-04 | 2: delta_r/delta_0: 1.3341E-05 | 3: delta_s/delta_0: 2.7353E-05 | 4: delta_r/delta_0: 2.8816E-06 | 5: delta_s/delta_0: 2.8054E-07 | 6: delta_r/delta_0: 7.2117E-08 | 7: delta_s/delta_0: 5.6901E-08 | 8: delta_r/delta_0: 3.1657E-08 | 9: delta_s/delta_0: 1.5983E-07 | 10: delta_r/delta_0: 2.2513E-09 | 11: delta_s/delta_0: 8.1374E-10 | 12: delta_r/delta_0: 4.8208E-10 | 13: delta_s/delta_0: 3.9616E-10 | 14: delta_r/delta_0: 5.4490E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.183058315684548E-002 4.020406985999802E-005 | BP delta = -0.1558576 -0.1939361 72483503.8231063 | BP delta = -0.1643120 -0.2023906 72483503.2694421 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95952354 | --> Sampling calibration, mode = relcal | relcal = 0.1065861 0.1396545 -0.1103641 -0.1358765 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0524153E-02 1.3974175E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7409E-03 | 2: delta_r/delta_0: 6.4394E-05 | 3: delta_s/delta_0: 5.5327E-06 | 4: delta_r/delta_0: 4.5400E-07 | 5: delta_s/delta_0: 2.1405E-05 | 6: delta_r/delta_0: 4.6375E-07 | 7: delta_s/delta_0: 6.7148E-08 | 8: delta_r/delta_0: 3.5192E-08 | 9: delta_s/delta_0: 1.3540E-07 | 10: delta_r/delta_0: 8.5637E-09 | 11: delta_s/delta_0: 1.9875E-09 | 12: delta_r/delta_0: 8.4011E-10 | 13: delta_s/delta_0: 4.5201E-10 | 14: delta_r/delta_0: 1.9348E-10 | 15: delta_s/delta_0: 4.3726E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.801042148400193E-002 3.695845235567784E-005 | BP delta = 0.1659398 0.2766244 72787658.2446251 | BP delta = 9.6326537E-02 0.2070111 72787653.4715551 | BP chisq diff = -4.8, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140088 | New value = -3.105192 | poltype: 2 pol: 1 CPU time specind = 2.2125959E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119640 | New value = -3.168872 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119673 | New value = -3.171220 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152359 | New value = -3.145302 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189267 | New value = -3.185207 | poltype: 2 pol: 2 CPU time specind = 5.9139729E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.13579E+08, tol = 0.81400E+01, time = 5.95 | CG iter. 2 -- res = 0.34519E+06, tol = 0.81400E+01, time = 5.66 | CG iter. 3 -- res = 0.58386E+05, tol = 0.81400E+01, time = 5.82 | CG iter. 4 -- res = 0.37713E+05, tol = 0.81400E+01, time = 5.92 | CG iter. 5 -- res = 0.29414E+05, tol = 0.81400E+01, time = 5.44 | CG iter. 6 -- res = 0.26456E+05, tol = 0.81400E+01, time = 5.69 | CG iter. 7 -- res = 0.26197E+05, tol = 0.81400E+01, time = 5.72 | CG iter. 8 -- res = 0.21934E+05, tol = 0.81400E+01, time = 5.59 | CG iter. 9 -- res = 0.18285E+05, tol = 0.81400E+01, time = 5.72 | CG iter. 10 -- res = 0.14997E+05, tol = 0.81400E+01, time = 5.72 | CG iter. 11 -- res = 0.10643E+05, tol = 0.81400E+01, time = 5.68 | CG iter. 12 -- res = 0.72424E+04, tol = 0.81400E+01, time = 5.80 | CG iter. 13 -- res = 0.52311E+04, tol = 0.81400E+01, time = 5.92 | CG iter. 14 -- res = 0.44272E+04, tol = 0.81400E+01, time = 5.75 | CG iter. 15 -- res = 0.38534E+04, tol = 0.81400E+01, time = 12.26 | CG iter. 16 -- res = 0.28842E+04, tol = 0.81400E+01, time = 5.41 | CG iter. 17 -- res = 0.19177E+04, tol = 0.81400E+01, time = 5.92 | CG iter. 18 -- res = 0.14155E+04, tol = 0.81400E+01, time = 5.98 | CG iter. 19 -- res = 0.11986E+04, tol = 0.81400E+01, time = 5.39 | CG iter. 20 -- res = 0.94029E+03, tol = 0.81400E+01, time = 5.84 | CG iter. 21 -- res = 0.69966E+03, tol = 0.81400E+01, time = 6.03 | CG iter. 22 -- res = 0.54843E+03, tol = 0.81400E+01, time = 5.75 | CG iter. 23 -- res = 0.48623E+03, tol = 0.81400E+01, time = 6.18 | CG iter. 24 -- res = 0.40373E+03, tol = 0.81400E+01, time = 5.91 | CG iter. 25 -- res = 0.29237E+03, tol = 0.81400E+01, time = 5.81 | CG iter. 26 -- res = 0.21627E+03, tol = 0.81400E+01, time = 6.13 | CG iter. 27 -- res = 0.18596E+03, tol = 0.81400E+01, time = 5.70 | CG iter. 28 -- res = 0.16346E+03, tol = 0.81400E+01, time = 5.83 | CG iter. 29 -- res = 0.12912E+03, tol = 0.81400E+01, time = 5.90 | CG iter. 30 -- res = 0.10090E+03, tol = 0.81400E+01, time = 7.30 | CG iter. 31 -- res = 0.81686E+02, tol = 0.81400E+01, time = 6.40 | CG iter. 32 -- res = 0.69911E+02, tol = 0.81400E+01, time = 5.95 | CG iter. 33 -- res = 0.56769E+02, tol = 0.81400E+01, time = 6.07 | CG iter. 34 -- res = 0.41867E+02, tol = 0.81400E+01, time = 5.73 | CG iter. 35 -- res = 0.32443E+02, tol = 0.81400E+01, time = 5.69 | CG iter. 36 -- res = 0.28125E+02, tol = 0.81400E+01, time = 5.75 | CG iter. 37 -- res = 0.23484E+02, tol = 0.81400E+01, time = 5.86 | CG iter. 38 -- res = 0.17650E+02, tol = 0.81400E+01, time = 6.12 | CG iter. 39 -- res = 0.12975E+02, tol = 0.81400E+01, time = 5.69 | CG iter. 40 -- res = 0.10784E+02, tol = 0.81400E+01, time = 6.12 | CG iter. 41 -- res = 0.88935E+01, tol = 0.81400E+01, time = 6.01 | CG iter. 42 -- res = 0.67846E+01, tol = 0.81400E+01, time = 5.86 | CG iter. 43 -- res = 0.51134E+01, tol = 0.81400E+01, time = 6.13 | CG iter. 44 -- res = 0.39003E+01, tol = 0.81400E+01, time = 5.79 | CG iter. 45 -- res = 0.31333E+01, tol = 0.81400E+01, time = 5.87 | CG iter. 46 -- res = 0.24621E+01, tol = 0.81400E+01, time = 6.18 | CG iter. 47 -- res = 0.18230E+01, tol = 0.81400E+01, time = 5.78 | CG iter. 48 -- res = 0.13812E+01, tol = 0.81400E+01, time = 6.30 | CG iter. 49 -- res = 0.10959E+01, tol = 0.81400E+01, time = 6.25 | CG iter. 50 -- res = 0.84372E+00, tol = 0.81400E+01, time = 5.61 | Final CG iter 51 -- res = 0.84372E+00, tol = 0.81400E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8381844.914 | Old band monopole 8653146.705 | Change to band monopole -271301.792 | Change to component monopole 271300.625 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.12 | CG iter. 1 -- res = 0.10544E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.67557E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.26499E+01, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.96371E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.37506E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8381808.861 | (Sampled value in CG: 8425323.436 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.453598 | New value = 1.488109 | poltype: 2 pol: 1 CPU time specind = 1.3839960E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.461713 | New value = 1.472958 | poltype: 2 pol: 2 CPU time specind = 3.4368038E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 21.15 | CG iter. 1 -- res = 0.24265E+08, tol = 0.47545E+04, time = 6.37 | CG iter. 2 -- res = 0.53481E+07, tol = 0.47545E+04, time = 6.56 | CG iter. 3 -- res = 0.84800E+06, tol = 0.47545E+04, time = 6.36 | CG iter. 4 -- res = 0.36047E+06, tol = 0.47545E+04, time = 6.95 | CG iter. 5 -- res = 0.15876E+06, tol = 0.47545E+04, time = 6.22 | CG iter. 6 -- res = 0.83193E+05, tol = 0.47545E+04, time = 7.18 | CG iter. 7 -- res = 0.45079E+05, tol = 0.47545E+04, time = 6.43 | CG iter. 8 -- res = 0.21744E+05, tol = 0.47545E+04, time = 6.35 | CG iter. 9 -- res = 0.95523E+04, tol = 0.47545E+04, time = 7.51 | CG iter. 10 -- res = 0.38112E+04, tol = 0.47545E+04, time = 7.51 | CG iter. 11 -- res = 0.17187E+04, tol = 0.47545E+04, time = 7.00 | CG iter. 12 -- res = 0.88126E+03, tol = 0.47545E+04, time = 6.82 | CG iter. 13 -- res = 0.50588E+03, tol = 0.47545E+04, time = 6.83 | CG iter. 14 -- res = 0.28965E+03, tol = 0.47545E+04, time = 6.87 | CG iter. 15 -- res = 0.14757E+03, tol = 0.47545E+04, time = 6.69 | CG iter. 16 -- res = 0.68709E+02, tol = 0.47545E+04, time = 6.39 | CG iter. 17 -- res = 0.31896E+02, tol = 0.47545E+04, time = 6.44 | CG iter. 18 -- res = 0.16075E+02, tol = 0.47545E+04, time = 6.65 | CG iter. 19 -- res = 0.88290E+01, tol = 0.47545E+04, time = 6.64 | CG iter. 20 -- res = 0.50659E+01, tol = 0.47545E+04, time = 6.37 | CG iter. 21 -- res = 0.27854E+01, tol = 0.47545E+04, time = 6.34 | CG iter. 22 -- res = 0.14240E+01, tol = 0.47545E+04, time = 6.49 | CG iter. 23 -- res = 0.70217E+00, tol = 0.47545E+04, time = 6.93 | CG iter. 24 -- res = 0.35572E+00, tol = 0.47545E+04, time = 6.39 | CG iter. 25 -- res = 0.19246E+00, tol = 0.47545E+04, time = 6.50 | CG iter. 26 -- res = 0.10864E+00, tol = 0.47545E+04, time = 6.69 | CG iter. 27 -- res = 0.60913E-01, tol = 0.47545E+04, time = 6.58 | CG iter. 28 -- res = 0.32372E-01, tol = 0.47545E+04, time = 6.61 | CG iter. 29 -- res = 0.17149E-01, tol = 0.47545E+04, time = 7.15 | CG iter. 30 -- res = 0.90997E-02, tol = 0.47545E+04, time = 6.42 | CG iter. 31 -- res = 0.49729E-02, tol = 0.47545E+04, time = 6.58 | CG iter. 32 -- res = 0.28439E-02, tol = 0.47545E+04, time = 7.06 | CG iter. 33 -- res = 0.15974E-02, tol = 0.47545E+04, time = 6.37 | CG iter. 34 -- res = 0.85830E-03, tol = 0.47545E+04, time = 6.91 | CG iter. 35 -- res = 0.45310E-03, tol = 0.47545E+04, time = 6.69 | Final CG iter 36 -- res = 0.45310E-03, tol = 0.47545E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.206 2.705 | New value -0.468 | Old value -1.206 | Difference 0.739 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.33230E+05, tol = 0.47627E+18, time = 4.65 | CG iter. 2 -- res = 0.35854E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.11520E+01, tol = 0.47627E+18, time = 2.23 | CG iter. 4 -- res = 0.63244E-03, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.77722E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8381808.861 | (Sampled value in CG: 8424494.471 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.469847 | New value = -3.668769 | poltype: 1 pol: 1 CPU time specind = 1.7070055E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.51 | CG iter. 1 -- res = 0.21349E+07, tol = 0.26634E+01, time = 2.68 | CG iter. 2 -- res = 0.80119E+06, tol = 0.26634E+01, time = 3.08 | CG iter. 3 -- res = 0.14053E+06, tol = 0.26634E+01, time = 2.81 | CG iter. 4 -- res = 0.53565E+05, tol = 0.26634E+01, time = 2.54 | CG iter. 5 -- res = 0.32024E+05, tol = 0.26634E+01, time = 2.49 | CG iter. 6 -- res = 0.17243E+05, tol = 0.26634E+01, time = 2.86 | CG iter. 7 -- res = 0.62833E+04, tol = 0.26634E+01, time = 2.88 | CG iter. 8 -- res = 0.26141E+04, tol = 0.26634E+01, time = 3.06 | CG iter. 9 -- res = 0.11412E+04, tol = 0.26634E+01, time = 2.93 | CG iter. 10 -- res = 0.45706E+03, tol = 0.26634E+01, time = 8.94 | CG iter. 11 -- res = 0.19782E+03, tol = 0.26634E+01, time = 2.87 | CG iter. 12 -- res = 0.10234E+03, tol = 0.26634E+01, time = 2.93 | CG iter. 13 -- res = 0.52270E+02, tol = 0.26634E+01, time = 2.33 | CG iter. 14 -- res = 0.25523E+02, tol = 0.26634E+01, time = 2.53 | CG iter. 15 -- res = 0.11335E+02, tol = 0.26634E+01, time = 2.79 | CG iter. 16 -- res = 0.48285E+01, tol = 0.26634E+01, time = 2.94 | CG iter. 17 -- res = 0.20542E+01, tol = 0.26634E+01, time = 2.85 | CG iter. 18 -- res = 0.96254E+00, tol = 0.26634E+01, time = 2.86 | CG iter. 19 -- res = 0.50173E+00, tol = 0.26634E+01, time = 2.78 | CG iter. 20 -- res = 0.26063E+00, tol = 0.26634E+01, time = 2.54 | CG iter. 21 -- res = 0.12228E+00, tol = 0.26634E+01, time = 2.94 | CG iter. 22 -- res = 0.55801E-01, tol = 0.26634E+01, time = 2.90 | CG iter. 23 -- res = 0.24931E-01, tol = 0.26634E+01, time = 2.62 | CG iter. 24 -- res = 0.11755E-01, tol = 0.26634E+01, time = 2.60 | CG iter. 25 -- res = 0.59796E-02, tol = 0.26634E+01, time = 2.72 | CG iter. 26 -- res = 0.31124E-02, tol = 0.26634E+01, time = 2.96 | CG iter. 27 -- res = 0.15204E-02, tol = 0.26634E+01, time = 2.86 | CG iter. 28 -- res = 0.68354E-03, tol = 0.26634E+01, time = 2.75 | CG iter. 29 -- res = 0.30718E-03, tol = 0.26634E+01, time = 2.76 | CG iter. 30 -- res = 0.14272E-03, tol = 0.26634E+01, time = 2.76 | CG iter. 31 -- res = 0.73724E-04, tol = 0.26634E+01, time = 2.57 | CG iter. 32 -- res = 0.37978E-04, tol = 0.26634E+01, time = 2.52 | CG iter. 33 -- res = 0.17755E-04, tol = 0.26634E+01, time = 2.86 | CG iter. 34 -- res = 0.79511E-05, tol = 0.26634E+01, time = 3.04 | CG iter. 35 -- res = 0.36500E-05, tol = 0.26634E+01, time = 2.76 | CG iter. 36 -- res = 0.17037E-05, tol = 0.26634E+01, time = 3.18 | CG iter. 37 -- res = 0.83979E-06, tol = 0.26634E+01, time = 2.57 | CG iter. 38 -- res = 0.42614E-06, tol = 0.26634E+01, time = 2.68 | CG iter. 39 -- res = 0.20292E-06, tol = 0.26634E+01, time = 2.93 | CG iter. 40 -- res = 0.92866E-07, tol = 0.26634E+01, time = 4.41 | CG iter. 41 -- res = 0.42522E-07, tol = 0.26634E+01, time = 3.25 | CG iter. 42 -- res = 0.20112E-07, tol = 0.26634E+01, time = 2.88 | CG iter. 43 -- res = 0.98592E-08, tol = 0.26634E+01, time = 3.35 | CG iter. 44 -- res = 0.48677E-08, tol = 0.26634E+01, time = 2.70 | CG iter. 45 -- res = 0.22889E-08, tol = 0.26634E+01, time = 2.64 | CG iter. 46 -- res = 0.10664E-08, tol = 0.26634E+01, time = 2.86 | CG iter. 47 -- res = 0.48087E-09, tol = 0.26634E+01, time = 2.85 | CG iter. 48 -- res = 0.23403E-09, tol = 0.26634E+01, time = 2.97 | CG iter. 49 -- res = 0.11714E-09, tol = 0.26634E+01, time = 2.71 | CG iter. 50 -- res = 0.56791E-10, tol = 0.26634E+01, time = 2.74 | Final CG iter 51 -- res = 0.56791E-10, tol = 0.26634E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.209 3.792 | New value 0.108 | Old value 2.209 | Difference -2.102 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.24 | CG iter. 1 -- res = 0.60119E+04, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.22752E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.79046E+00, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.10727E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.18083E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8381808.861 | (Sampled value in CG: 8417061.177 ) | CPU time specind = 1211.653 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.37 | CG iter. 1 -- res = 0.69416E+08, tol = 0.57754E+04, time = 12.31 | CG iter. 2 -- res = 0.59539E+08, tol = 0.57754E+04, time = 12.14 | CG iter. 3 -- res = 0.15797E+08, tol = 0.57754E+04, time = 12.32 | CG iter. 4 -- res = 0.66106E+07, tol = 0.57754E+04, time = 12.36 | CG iter. 5 -- res = 0.39117E+07, tol = 0.57754E+04, time = 12.11 | CG iter. 6 -- res = 0.22905E+07, tol = 0.57754E+04, time = 12.42 | CG iter. 7 -- res = 0.13326E+07, tol = 0.57754E+04, time = 12.12 | CG iter. 8 -- res = 0.85890E+06, tol = 0.57754E+04, time = 19.18 | CG iter. 9 -- res = 0.55940E+06, tol = 0.57754E+04, time = 12.13 | CG iter. 10 -- res = 0.33420E+06, tol = 0.57754E+04, time = 11.90 | CG iter. 11 -- res = 0.18274E+06, tol = 0.57754E+04, time = 12.47 | CG iter. 12 -- res = 0.10005E+06, tol = 0.57754E+04, time = 11.97 | CG iter. 13 -- res = 0.56352E+05, tol = 0.57754E+04, time = 12.08 | CG iter. 14 -- res = 0.34252E+05, tol = 0.57754E+04, time = 11.78 | CG iter. 15 -- res = 0.23671E+05, tol = 0.57754E+04, time = 14.31 | CG iter. 16 -- res = 0.18605E+05, tol = 0.57754E+04, time = 12.06 | CG iter. 17 -- res = 0.15549E+05, tol = 0.57754E+04, time = 12.20 | CG iter. 18 -- res = 0.12797E+05, tol = 0.57754E+04, time = 12.14 | CG iter. 19 -- res = 0.10707E+05, tol = 0.57754E+04, time = 12.29 | CG iter. 20 -- res = 0.93547E+04, tol = 0.57754E+04, time = 12.20 | CG iter. 21 -- res = 0.85561E+04, tol = 0.57754E+04, time = 11.81 | CG iter. 22 -- res = 0.84485E+04, tol = 0.57754E+04, time = 11.98 | CG iter. 23 -- res = 0.89418E+04, tol = 0.57754E+04, time = 12.22 | CG iter. 24 -- res = 0.96165E+04, tol = 0.57754E+04, time = 12.24 | CG iter. 25 -- res = 0.93405E+04, tol = 0.57754E+04, time = 12.21 | CG iter. 26 -- res = 0.80510E+04, tol = 0.57754E+04, time = 11.74 | CG iter. 27 -- res = 0.63609E+04, tol = 0.57754E+04, time = 12.33 | CG iter. 28 -- res = 0.48863E+04, tol = 0.57754E+04, time = 12.06 | CG iter. 29 -- res = 0.38417E+04, tol = 0.57754E+04, time = 12.30 | CG iter. 30 -- res = 0.31884E+04, tol = 0.57754E+04, time = 12.26 | CG iter. 31 -- res = 0.26684E+04, tol = 0.57754E+04, time = 11.69 | CG iter. 32 -- res = 0.22362E+04, tol = 0.57754E+04, time = 18.63 | CG iter. 33 -- res = 0.18411E+04, tol = 0.57754E+04, time = 11.94 | CG iter. 34 -- res = 0.15079E+04, tol = 0.57754E+04, time = 12.50 | CG iter. 35 -- res = 0.12683E+04, tol = 0.57754E+04, time = 11.99 | CG iter. 36 -- res = 0.11335E+04, tol = 0.57754E+04, time = 11.67 | CG iter. 37 -- res = 0.10849E+04, tol = 0.57754E+04, time = 11.81 | CG iter. 38 -- res = 0.10734E+04, tol = 0.57754E+04, time = 11.94 | CG iter. 39 -- res = 0.10387E+04, tol = 0.57754E+04, time = 13.48 | CG iter. 40 -- res = 0.94186E+03, tol = 0.57754E+04, time = 12.35 | CG iter. 41 -- res = 0.79572E+03, tol = 0.57754E+04, time = 12.39 | CG iter. 42 -- res = 0.63671E+03, tol = 0.57754E+04, time = 11.95 | CG iter. 43 -- res = 0.52235E+03, tol = 0.57754E+04, time = 12.28 | CG iter. 44 -- res = 0.45591E+03, tol = 0.57754E+04, time = 12.13 | CG iter. 45 -- res = 0.40298E+03, tol = 0.57754E+04, time = 11.57 | CG iter. 46 -- res = 0.36249E+03, tol = 0.57754E+04, time = 11.82 | CG iter. 47 -- res = 0.32522E+03, tol = 0.57754E+04, time = 12.44 | CG iter. 48 -- res = 0.27656E+03, tol = 0.57754E+04, time = 12.31 | CG iter. 49 -- res = 0.23459E+03, tol = 0.57754E+04, time = 11.76 | CG iter. 50 -- res = 0.20645E+03, tol = 0.57754E+04, time = 11.94 | CG iter. 51 -- res = 0.18893E+03, tol = 0.57754E+04, time = 12.49 | CG iter. 52 -- res = 0.18193E+03, tol = 0.57754E+04, time = 12.25 | CG iter. 53 -- res = 0.17528E+03, tol = 0.57754E+04, time = 11.95 | CG iter. 54 -- res = 0.16493E+03, tol = 0.57754E+04, time = 12.04 | CG iter. 55 -- res = 0.14579E+03, tol = 0.57754E+04, time = 12.18 | CG iter. 56 -- res = 0.12629E+03, tol = 0.57754E+04, time = 18.24 | CG iter. 57 -- res = 0.10763E+03, tol = 0.57754E+04, time = 12.17 | CG iter. 58 -- res = 0.95488E+02, tol = 0.57754E+04, time = 12.07 | CG iter. 59 -- res = 0.87594E+02, tol = 0.57754E+04, time = 11.81 | CG iter. 60 -- res = 0.82266E+02, tol = 0.57754E+04, time = 12.03 | Final CG iter 61 -- res = 0.82266E+02, tol = 0.57754E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.711 ( -229.412 -2231.041 2513.658 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9105639.345 | Old band monopole 8381844.914 | Change to band monopole 723794.431 | Change to component monopole -723791.318 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.412 2.758 | New value -3.032 | Old value -0.412 | Difference -2.620 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.034 ( 6.117 12.097 -12.197 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.593 4.676 | New value -6.807 | Old value 1.593 | Difference -8.399 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.39 | CG iter. 1 -- res = 0.42223E+06, tol = 0.47627E+18, time = 2.63 | CG iter. 2 -- res = 0.46022E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.20556E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.27400E-02, tol = 0.47627E+18, time = 2.36 | Final CG iter 5 -- res = 0.40065E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9105600.180 | (Sampled value in CG: 9087855.175 ) | Chain = 1 -- chisq = 0.81537899E+09 | Chain = 1 -- wall time = 5724.853 sec Available RAM: MemAvailable: 382878524 kB Available Swap: SwapFree: 1111621492 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 334 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443844 | --> Sampling calibration, mode = relcal | relcal = 1.3426542E-02 7.4005598E-04 -1.5860916E-03 -1.2580507E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1166104 0.1284095 9408652.48485665 | BP delta = 0.1166104 0.1262143 9408693.28409821 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632496 | --> Sampling calibration, mode = relcal | relcal = -2.8211493E-03 -7.0407731E-04 1.6783074E-03 1.6145995E-03 -4.0823175E-04 6.4055150E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5562727 15216245.2031747 | BP delta = 0.0000000E+00 -0.5552467 15216245.7339188 | BP chisq diff = 0.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18643439250369 | --> Sampling calibration, mode = relcal | relcal = -7.6494470E-02 -5.9611056E-02 9.3621224E-02 4.2484302E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2088617E-04 6.8472568E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5075E-05 | 2: delta_r/delta_0: 1.8772E-06 | 3: delta_s/delta_0: 2.0910E-07 | 4: delta_r/delta_0: 3.0046E-08 | 5: delta_s/delta_0: 8.4542E-09 | 6: delta_r/delta_0: 3.1288E-09 | 7: delta_s/delta_0: 9.9950E-10 | 8: delta_r/delta_0: 2.5219E-10 | 9: delta_s/delta_0: 2.2135E-10 | 10: delta_r/delta_0: 9.2865E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.326423628223234E-003 2.728356903085948E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5077E-05 | 2: delta_r/delta_0: 1.8772E-06 | 3: delta_s/delta_0: 2.0910E-07 | 4: delta_r/delta_0: 3.0045E-08 | 5: delta_s/delta_0: 8.4534E-09 | 6: delta_r/delta_0: 3.1285E-09 | 7: delta_s/delta_0: 9.9949E-10 | 8: delta_r/delta_0: 2.5217E-10 | 9: delta_s/delta_0: 2.2127E-10 | 10: delta_r/delta_0: 9.2834E-11 | Reached bicg-stab tolerance | BP delta = 8.4550709E-02 0.1058078 3477248.81313493 | BP delta = 8.4550709E-02 0.1058021 3479165.86845361 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02611188 | --> Sampling calibration, mode = relcal | relcal = -0.1066533 -9.5542260E-02 0.1449711 5.7224479E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6497501E-03 1.4917891E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7152E-05 | 2: delta_r/delta_0: 1.1715E-06 | 3: delta_s/delta_0: 2.3853E-07 | 4: delta_r/delta_0: 4.8102E-08 | 5: delta_s/delta_0: 1.6170E-08 | 6: delta_r/delta_0: 6.2455E-09 | 7: delta_s/delta_0: 2.1826E-08 | 8: delta_r/delta_0: 1.2723E-09 | 9: delta_s/delta_0: 8.4250E-10 | 10: delta_r/delta_0: 3.6908E-10 | 11: delta_s/delta_0: 3.8021E-09 | 12: delta_r/delta_0: 3.5167E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.526194423941651E-003 2.810498056374174E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7152E-05 | 2: delta_r/delta_0: 1.1715E-06 | 3: delta_s/delta_0: 2.3852E-07 | 4: delta_r/delta_0: 4.8091E-08 | 5: delta_s/delta_0: 1.6173E-08 | 6: delta_r/delta_0: 6.2448E-09 | 7: delta_s/delta_0: 2.1820E-08 | 8: delta_r/delta_0: 1.2717E-09 | 9: delta_s/delta_0: 8.4249E-10 | 10: delta_r/delta_0: 3.6892E-10 | 11: delta_s/delta_0: 3.8007E-09 | 12: delta_r/delta_0: 3.5148E-11 | Reached bicg-stab tolerance | BP delta = -0.3112786 -0.2803077 2841917.87133876 | BP delta = -0.3112786 -0.2802458 2841923.36235292 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81242864 | --> Sampling calibration, mode = relcal | relcal = 0.2955933 0.2249037 -0.2838340 -0.2366630 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9623309E-04 4.8592347E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8616E-03 | 2: delta_r/delta_0: 8.9811E-05 | 3: delta_s/delta_0: 6.6446E-06 | 4: delta_r/delta_0: 9.2751E-07 | 5: delta_s/delta_0: 6.7125E-05 | 6: delta_r/delta_0: 3.3707E-06 | 7: delta_s/delta_0: 4.5330E-08 | 8: delta_r/delta_0: 2.2661E-08 | 9: delta_s/delta_0: 1.3054E-07 | 10: delta_r/delta_0: 4.3378E-09 | 11: delta_s/delta_0: 2.6749E-09 | 12: delta_r/delta_0: 4.0746E-10 | 13: delta_s/delta_0: 3.7917E-10 | 14: delta_r/delta_0: 8.9608E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.659564474432817E-002 4.020800436604158E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8592E-03 | 2: delta_r/delta_0: 8.9754E-05 | 3: delta_s/delta_0: 6.6374E-06 | 4: delta_r/delta_0: 9.2940E-07 | 5: delta_s/delta_0: 6.6787E-05 | 6: delta_r/delta_0: 3.3895E-06 | 7: delta_s/delta_0: 4.5421E-08 | 8: delta_r/delta_0: 2.2716E-08 | 9: delta_s/delta_0: 1.3201E-07 | 10: delta_r/delta_0: 4.3416E-09 | 11: delta_s/delta_0: 2.6806E-09 | 12: delta_r/delta_0: 4.0813E-10 | 13: delta_s/delta_0: 3.8343E-10 | 14: delta_r/delta_0: 8.9419E-11 | Reached bicg-stab tolerance | BP delta = -0.1643120 -0.2023906 2827076.89104282 | BP delta = -0.1643120 -0.1926224 2827079.09287267 | BP chisq diff = 2.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95933211 | --> Sampling calibration, mode = relcal | relcal = 0.1065292 0.1396117 -0.1102874 -0.1358535 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8746736E-03 1.4964209E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1642E-03 | 2: delta_r/delta_0: 2.8193E-05 | 3: delta_s/delta_0: 1.0434E-04 | 4: delta_r/delta_0: 4.9507E-06 | 5: delta_s/delta_0: 4.0609E-07 | 6: delta_r/delta_0: 1.5942E-07 | 7: delta_s/delta_0: 2.4517E-07 | 8: delta_r/delta_0: 4.3332E-08 | 9: delta_s/delta_0: 1.8382E-08 | 10: delta_r/delta_0: 4.3088E-09 | 11: delta_s/delta_0: 1.9691E-09 | 12: delta_r/delta_0: 1.3025E-09 | 13: delta_s/delta_0: 6.0118E-09 | 14: delta_r/delta_0: 6.0893E-10 | 15: delta_s/delta_0: 8.9640E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.531935516130004E-002 3.696605594604682E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1652E-03 | 2: delta_r/delta_0: 2.8216E-05 | 3: delta_s/delta_0: 1.0429E-04 | 4: delta_r/delta_0: 4.9468E-06 | 5: delta_s/delta_0: 4.0627E-07 | 6: delta_r/delta_0: 1.5940E-07 | 7: delta_s/delta_0: 2.4364E-07 | 8: delta_r/delta_0: 4.3335E-08 | 9: delta_s/delta_0: 1.8411E-08 | 10: delta_r/delta_0: 4.3184E-09 | 11: delta_s/delta_0: 1.9779E-09 | 12: delta_r/delta_0: 1.2962E-09 | 13: delta_s/delta_0: 6.0604E-09 | 14: delta_r/delta_0: 5.9260E-10 | 15: delta_s/delta_0: 8.8330E-11 | Reached bicg-stab tolerance | BP delta = 9.6326537E-02 0.2070111 3004211.26289704 | BP delta = 9.6326537E-02 0.2189723 3004403.70185051 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105192 | New value = -3.192259 | poltype: 2 pol: 1 CPU time specind = 1.7971992E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168872 | New value = -3.140363 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.171220 | New value = -3.150802 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145302 | New value = -3.159819 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185207 | New value = -3.148977 | poltype: 2 pol: 2 CPU time specind = 1.3209105E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.36 | CG iter. 1 -- res = 0.13595E+08, tol = 0.77160E+01, time = 5.50 | CG iter. 2 -- res = 0.35884E+06, tol = 0.77160E+01, time = 5.78 | CG iter. 3 -- res = 0.66485E+05, tol = 0.77160E+01, time = 5.61 | CG iter. 4 -- res = 0.52083E+05, tol = 0.77160E+01, time = 5.97 | CG iter. 5 -- res = 0.50320E+05, tol = 0.77160E+01, time = 5.63 | CG iter. 6 -- res = 0.46105E+05, tol = 0.77160E+01, time = 5.54 | CG iter. 7 -- res = 0.42026E+05, tol = 0.77160E+01, time = 6.04 | CG iter. 8 -- res = 0.33829E+05, tol = 0.77160E+01, time = 6.38 | CG iter. 9 -- res = 0.26432E+05, tol = 0.77160E+01, time = 6.85 | CG iter. 10 -- res = 0.21686E+05, tol = 0.77160E+01, time = 5.97 | CG iter. 11 -- res = 0.15457E+05, tol = 0.77160E+01, time = 5.98 | CG iter. 12 -- res = 0.11282E+05, tol = 0.77160E+01, time = 5.83 | CG iter. 13 -- res = 0.93976E+04, tol = 0.77160E+01, time = 5.43 | CG iter. 14 -- res = 0.86441E+04, tol = 0.77160E+01, time = 5.93 | CG iter. 15 -- res = 0.73738E+04, tol = 0.77160E+01, time = 5.63 | CG iter. 16 -- res = 0.53669E+04, tol = 0.77160E+01, time = 5.81 | CG iter. 17 -- res = 0.38185E+04, tol = 0.77160E+01, time = 5.56 | CG iter. 18 -- res = 0.31032E+04, tol = 0.77160E+01, time = 5.68 | CG iter. 19 -- res = 0.27247E+04, tol = 0.77160E+01, time = 5.96 | CG iter. 20 -- res = 0.21632E+04, tol = 0.77160E+01, time = 6.27 | CG iter. 21 -- res = 0.15988E+04, tol = 0.77160E+01, time = 5.71 | CG iter. 22 -- res = 0.13516E+04, tol = 0.77160E+01, time = 5.86 | CG iter. 23 -- res = 0.11306E+04, tol = 0.77160E+01, time = 5.54 | CG iter. 24 -- res = 0.89116E+03, tol = 0.77160E+01, time = 5.65 | CG iter. 25 -- res = 0.65139E+03, tol = 0.77160E+01, time = 6.04 | CG iter. 26 -- res = 0.48856E+03, tol = 0.77160E+01, time = 5.56 | CG iter. 27 -- res = 0.41283E+03, tol = 0.77160E+01, time = 6.69 | CG iter. 28 -- res = 0.34906E+03, tol = 0.77160E+01, time = 5.57 | CG iter. 29 -- res = 0.26395E+03, tol = 0.77160E+01, time = 5.35 | CG iter. 30 -- res = 0.19738E+03, tol = 0.77160E+01, time = 5.86 | CG iter. 31 -- res = 0.16316E+03, tol = 0.77160E+01, time = 5.56 | CG iter. 32 -- res = 0.13889E+03, tol = 0.77160E+01, time = 5.66 | CG iter. 33 -- res = 0.11005E+03, tol = 0.77160E+01, time = 5.60 | CG iter. 34 -- res = 0.81016E+02, tol = 0.77160E+01, time = 6.00 | CG iter. 35 -- res = 0.65951E+02, tol = 0.77160E+01, time = 5.67 | CG iter. 36 -- res = 0.57801E+02, tol = 0.77160E+01, time = 5.96 | CG iter. 37 -- res = 0.47241E+02, tol = 0.77160E+01, time = 5.51 | CG iter. 38 -- res = 0.36001E+02, tol = 0.77160E+01, time = 5.56 | CG iter. 39 -- res = 0.28372E+02, tol = 0.77160E+01, time = 5.57 | CG iter. 40 -- res = 0.25196E+02, tol = 0.77160E+01, time = 5.54 | CG iter. 41 -- res = 0.21685E+02, tol = 0.77160E+01, time = 5.59 | CG iter. 42 -- res = 0.17050E+02, tol = 0.77160E+01, time = 5.92 | CG iter. 43 -- res = 0.14041E+02, tol = 0.77160E+01, time = 5.80 | CG iter. 44 -- res = 0.12021E+02, tol = 0.77160E+01, time = 10.58 | CG iter. 45 -- res = 0.10672E+02, tol = 0.77160E+01, time = 7.60 | CG iter. 46 -- res = 0.88790E+01, tol = 0.77160E+01, time = 5.71 | CG iter. 47 -- res = 0.72270E+01, tol = 0.77160E+01, time = 5.90 | CG iter. 48 -- res = 0.62524E+01, tol = 0.77160E+01, time = 5.84 | CG iter. 49 -- res = 0.56844E+01, tol = 0.77160E+01, time = 5.82 | CG iter. 50 -- res = 0.49069E+01, tol = 0.77160E+01, time = 5.78 | Final CG iter 51 -- res = 0.49069E+01, tol = 0.77160E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8410885.075 | Old band monopole 9105639.345 | Change to band monopole -694754.270 | Change to component monopole 694751.282 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.14 | CG iter. 1 -- res = 0.35935E+06, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.11890E+03, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.27870E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.18789E-01, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.56409E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8410848.898 | (Sampled value in CG: 8340577.028 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.488109 | New value = 1.451993 | poltype: 2 pol: 1 CPU time specind = 1.5785933E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.472958 | New value = 1.523264 | poltype: 2 pol: 2 CPU time specind = 1.4647007E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.06 | CG iter. 1 -- res = 0.24279E+08, tol = 0.47440E+04, time = 6.56 | CG iter. 2 -- res = 0.54846E+07, tol = 0.47440E+04, time = 6.69 | CG iter. 3 -- res = 0.85582E+06, tol = 0.47440E+04, time = 6.17 | CG iter. 4 -- res = 0.35081E+06, tol = 0.47440E+04, time = 6.40 | CG iter. 5 -- res = 0.15245E+06, tol = 0.47440E+04, time = 6.60 | CG iter. 6 -- res = 0.80592E+05, tol = 0.47440E+04, time = 6.48 | CG iter. 7 -- res = 0.43346E+05, tol = 0.47440E+04, time = 6.54 | CG iter. 8 -- res = 0.20906E+05, tol = 0.47440E+04, time = 6.45 | CG iter. 9 -- res = 0.94516E+04, tol = 0.47440E+04, time = 6.51 | CG iter. 10 -- res = 0.38472E+04, tol = 0.47440E+04, time = 6.50 | CG iter. 11 -- res = 0.16958E+04, tol = 0.47440E+04, time = 6.77 | CG iter. 12 -- res = 0.86348E+03, tol = 0.47440E+04, time = 6.53 | CG iter. 13 -- res = 0.50150E+03, tol = 0.47440E+04, time = 6.73 | CG iter. 14 -- res = 0.28988E+03, tol = 0.47440E+04, time = 6.65 | CG iter. 15 -- res = 0.14694E+03, tol = 0.47440E+04, time = 6.75 | CG iter. 16 -- res = 0.68819E+02, tol = 0.47440E+04, time = 6.40 | CG iter. 17 -- res = 0.31859E+02, tol = 0.47440E+04, time = 6.47 | CG iter. 18 -- res = 0.15613E+02, tol = 0.47440E+04, time = 6.85 | CG iter. 19 -- res = 0.84086E+01, tol = 0.47440E+04, time = 6.77 | CG iter. 20 -- res = 0.47683E+01, tol = 0.47440E+04, time = 6.52 | CG iter. 21 -- res = 0.26370E+01, tol = 0.47440E+04, time = 6.37 | CG iter. 22 -- res = 0.13762E+01, tol = 0.47440E+04, time = 12.51 | CG iter. 23 -- res = 0.69530E+00, tol = 0.47440E+04, time = 7.07 | CG iter. 24 -- res = 0.34843E+00, tol = 0.47440E+04, time = 6.60 | CG iter. 25 -- res = 0.18783E+00, tol = 0.47440E+04, time = 7.03 | CG iter. 26 -- res = 0.10642E+00, tol = 0.47440E+04, time = 6.34 | CG iter. 27 -- res = 0.59969E-01, tol = 0.47440E+04, time = 6.62 | CG iter. 28 -- res = 0.31743E-01, tol = 0.47440E+04, time = 6.39 | CG iter. 29 -- res = 0.16329E-01, tol = 0.47440E+04, time = 6.61 | CG iter. 30 -- res = 0.85823E-02, tol = 0.47440E+04, time = 7.04 | CG iter. 31 -- res = 0.47514E-02, tol = 0.47440E+04, time = 6.41 | CG iter. 32 -- res = 0.27325E-02, tol = 0.47440E+04, time = 6.70 | CG iter. 33 -- res = 0.15290E-02, tol = 0.47440E+04, time = 6.50 | CG iter. 34 -- res = 0.83350E-03, tol = 0.47440E+04, time = 6.09 | CG iter. 35 -- res = 0.43315E-03, tol = 0.47440E+04, time = 7.32 | Final CG iter 36 -- res = 0.43315E-03, tol = 0.47440E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.114 2.713 | New value 1.565 | Old value -3.114 | Difference 4.679 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.48 | CG iter. 1 -- res = 0.11352E+07, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.77481E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.17568E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.20728E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.21846E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8410848.898 | (Sampled value in CG: 8338853.204 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.668769 | New value = -3.712950 | poltype: 1 pol: 1 CPU time specind = 1.3860941E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.19 | CG iter. 1 -- res = 0.29852E+07, tol = 0.25560E+01, time = 3.35 | CG iter. 2 -- res = 0.13020E+07, tol = 0.25560E+01, time = 2.86 | CG iter. 3 -- res = 0.27693E+06, tol = 0.25560E+01, time = 3.03 | CG iter. 4 -- res = 0.11720E+06, tol = 0.25560E+01, time = 2.67 | CG iter. 5 -- res = 0.70783E+05, tol = 0.25560E+01, time = 3.15 | CG iter. 6 -- res = 0.35351E+05, tol = 0.25560E+01, time = 2.88 | CG iter. 7 -- res = 0.11311E+05, tol = 0.25560E+01, time = 2.65 | CG iter. 8 -- res = 0.42873E+04, tol = 0.25560E+01, time = 2.58 | CG iter. 9 -- res = 0.18627E+04, tol = 0.25560E+01, time = 2.72 | CG iter. 10 -- res = 0.75704E+03, tol = 0.25560E+01, time = 2.99 | CG iter. 11 -- res = 0.33506E+03, tol = 0.25560E+01, time = 2.85 | CG iter. 12 -- res = 0.16833E+03, tol = 0.25560E+01, time = 2.63 | CG iter. 13 -- res = 0.85729E+02, tol = 0.25560E+01, time = 2.67 | CG iter. 14 -- res = 0.40702E+02, tol = 0.25560E+01, time = 2.95 | CG iter. 15 -- res = 0.17262E+02, tol = 0.25560E+01, time = 2.79 | CG iter. 16 -- res = 0.70724E+01, tol = 0.25560E+01, time = 3.04 | CG iter. 17 -- res = 0.30915E+01, tol = 0.25560E+01, time = 3.00 | CG iter. 18 -- res = 0.15275E+01, tol = 0.25560E+01, time = 2.63 | CG iter. 19 -- res = 0.75998E+00, tol = 0.25560E+01, time = 2.84 | CG iter. 20 -- res = 0.36763E+00, tol = 0.25560E+01, time = 2.61 | CG iter. 21 -- res = 0.16257E+00, tol = 0.25560E+01, time = 2.90 | CG iter. 22 -- res = 0.70042E-01, tol = 0.25560E+01, time = 3.09 | CG iter. 23 -- res = 0.31974E-01, tol = 0.25560E+01, time = 2.62 | CG iter. 24 -- res = 0.15186E-01, tol = 0.25560E+01, time = 2.95 | CG iter. 25 -- res = 0.77653E-02, tol = 0.25560E+01, time = 2.66 | CG iter. 26 -- res = 0.39810E-02, tol = 0.25560E+01, time = 2.84 | CG iter. 27 -- res = 0.18275E-02, tol = 0.25560E+01, time = 2.74 | CG iter. 28 -- res = 0.85525E-03, tol = 0.25560E+01, time = 2.85 | CG iter. 29 -- res = 0.36810E-03, tol = 0.25560E+01, time = 2.65 | CG iter. 30 -- res = 0.18507E-03, tol = 0.25560E+01, time = 2.56 | CG iter. 31 -- res = 0.92440E-04, tol = 0.25560E+01, time = 2.82 | CG iter. 32 -- res = 0.47799E-04, tol = 0.25560E+01, time = 2.75 | CG iter. 33 -- res = 0.21965E-04, tol = 0.25560E+01, time = 2.66 | CG iter. 34 -- res = 0.93239E-05, tol = 0.25560E+01, time = 2.63 | CG iter. 35 -- res = 0.44667E-05, tol = 0.25560E+01, time = 2.80 | CG iter. 36 -- res = 0.22425E-05, tol = 0.25560E+01, time = 2.86 | CG iter. 37 -- res = 0.10554E-05, tol = 0.25560E+01, time = 2.63 | CG iter. 38 -- res = 0.53433E-06, tol = 0.25560E+01, time = 2.78 | CG iter. 39 -- res = 0.25033E-06, tol = 0.25560E+01, time = 3.19 | CG iter. 40 -- res = 0.11536E-06, tol = 0.25560E+01, time = 2.45 | CG iter. 41 -- res = 0.53874E-07, tol = 0.25560E+01, time = 2.92 | CG iter. 42 -- res = 0.26252E-07, tol = 0.25560E+01, time = 2.54 | CG iter. 43 -- res = 0.12449E-07, tol = 0.25560E+01, time = 3.02 | CG iter. 44 -- res = 0.63423E-08, tol = 0.25560E+01, time = 2.85 | CG iter. 45 -- res = 0.30150E-08, tol = 0.25560E+01, time = 2.94 | CG iter. 46 -- res = 0.14105E-08, tol = 0.25560E+01, time = 2.66 | CG iter. 47 -- res = 0.66069E-09, tol = 0.25560E+01, time = 2.65 | CG iter. 48 -- res = 0.32012E-09, tol = 0.25560E+01, time = 2.45 | CG iter. 49 -- res = 0.16033E-09, tol = 0.25560E+01, time = 2.93 | CG iter. 50 -- res = 0.77144E-10, tol = 0.25560E+01, time = 2.55 | Final CG iter 51 -- res = 0.77144E-10, tol = 0.25560E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -14.382 6.690 | New value 5.668 | Old value -14.382 | Difference 20.050 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.11 | CG iter. 1 -- res = 0.38930E+06, tol = 0.47627E+18, time = 2.11 | CG iter. 2 -- res = 0.98081E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.32087E+01, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.11116E-01, tol = 0.47627E+18, time = 2.23 | Final CG iter 5 -- res = 0.25043E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8410848.898 | (Sampled value in CG: 8362187.880 ) | CPU time specind = 1199.039 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.51 | CG iter. 1 -- res = 0.69300E+08, tol = 0.57918E+04, time = 11.47 | CG iter. 2 -- res = 0.58682E+08, tol = 0.57918E+04, time = 11.79 | CG iter. 3 -- res = 0.15030E+08, tol = 0.57918E+04, time = 11.95 | CG iter. 4 -- res = 0.64551E+07, tol = 0.57918E+04, time = 11.96 | CG iter. 5 -- res = 0.38442E+07, tol = 0.57918E+04, time = 11.45 | CG iter. 6 -- res = 0.22523E+07, tol = 0.57918E+04, time = 13.17 | CG iter. 7 -- res = 0.13211E+07, tol = 0.57918E+04, time = 12.83 | CG iter. 8 -- res = 0.87871E+06, tol = 0.57918E+04, time = 11.96 | CG iter. 9 -- res = 0.57747E+06, tol = 0.57918E+04, time = 12.09 | CG iter. 10 -- res = 0.35168E+06, tol = 0.57918E+04, time = 12.09 | CG iter. 11 -- res = 0.19230E+06, tol = 0.57918E+04, time = 12.18 | CG iter. 12 -- res = 0.10694E+06, tol = 0.57918E+04, time = 11.70 | CG iter. 13 -- res = 0.60804E+05, tol = 0.57918E+04, time = 11.94 | CG iter. 14 -- res = 0.38986E+05, tol = 0.57918E+04, time = 11.93 | CG iter. 15 -- res = 0.29299E+05, tol = 0.57918E+04, time = 12.73 | CG iter. 16 -- res = 0.24625E+05, tol = 0.57918E+04, time = 11.99 | CG iter. 17 -- res = 0.22051E+05, tol = 0.57918E+04, time = 12.00 | CG iter. 18 -- res = 0.19133E+05, tol = 0.57918E+04, time = 11.60 | CG iter. 19 -- res = 0.16087E+05, tol = 0.57918E+04, time = 11.73 | CG iter. 20 -- res = 0.14263E+05, tol = 0.57918E+04, time = 12.04 | CG iter. 21 -- res = 0.13603E+05, tol = 0.57918E+04, time = 12.05 | CG iter. 22 -- res = 0.13871E+05, tol = 0.57918E+04, time = 11.43 | CG iter. 23 -- res = 0.14226E+05, tol = 0.57918E+04, time = 12.18 | CG iter. 24 -- res = 0.14203E+05, tol = 0.57918E+04, time = 17.93 | CG iter. 25 -- res = 0.12932E+05, tol = 0.57918E+04, time = 12.03 | CG iter. 26 -- res = 0.10245E+05, tol = 0.57918E+04, time = 12.23 | CG iter. 27 -- res = 0.75260E+04, tol = 0.57918E+04, time = 12.04 | CG iter. 28 -- res = 0.56663E+04, tol = 0.57918E+04, time = 11.99 | CG iter. 29 -- res = 0.46380E+04, tol = 0.57918E+04, time = 11.72 | CG iter. 30 -- res = 0.40365E+04, tol = 0.57918E+04, time = 12.14 | CG iter. 31 -- res = 0.35593E+04, tol = 0.57918E+04, time = 13.63 | CG iter. 32 -- res = 0.31901E+04, tol = 0.57918E+04, time = 12.02 | CG iter. 33 -- res = 0.28201E+04, tol = 0.57918E+04, time = 11.94 | CG iter. 34 -- res = 0.23683E+04, tol = 0.57918E+04, time = 11.93 | CG iter. 35 -- res = 0.20691E+04, tol = 0.57918E+04, time = 12.20 | CG iter. 36 -- res = 0.19151E+04, tol = 0.57918E+04, time = 12.04 | CG iter. 37 -- res = 0.18476E+04, tol = 0.57918E+04, time = 15.81 | CG iter. 38 -- res = 0.17725E+04, tol = 0.57918E+04, time = 11.57 | CG iter. 39 -- res = 0.16111E+04, tol = 0.57918E+04, time = 12.16 | CG iter. 40 -- res = 0.13927E+04, tol = 0.57918E+04, time = 13.21 | CG iter. 41 -- res = 0.11580E+04, tol = 0.57918E+04, time = 11.96 | CG iter. 42 -- res = 0.95498E+03, tol = 0.57918E+04, time = 12.41 | CG iter. 43 -- res = 0.82984E+03, tol = 0.57918E+04, time = 11.51 | CG iter. 44 -- res = 0.77547E+03, tol = 0.57918E+04, time = 11.85 | CG iter. 45 -- res = 0.73982E+03, tol = 0.57918E+04, time = 12.14 | CG iter. 46 -- res = 0.68855E+03, tol = 0.57918E+04, time = 12.08 | CG iter. 47 -- res = 0.63754E+03, tol = 0.57918E+04, time = 11.80 | CG iter. 48 -- res = 0.57165E+03, tol = 0.57918E+04, time = 19.02 | CG iter. 49 -- res = 0.52024E+03, tol = 0.57918E+04, time = 12.85 | CG iter. 50 -- res = 0.49208E+03, tol = 0.57918E+04, time = 11.63 | CG iter. 51 -- res = 0.48824E+03, tol = 0.57918E+04, time = 11.39 | CG iter. 52 -- res = 0.49556E+03, tol = 0.57918E+04, time = 11.81 | CG iter. 53 -- res = 0.48475E+03, tol = 0.57918E+04, time = 11.86 | CG iter. 54 -- res = 0.43964E+03, tol = 0.57918E+04, time = 11.99 | CG iter. 55 -- res = 0.38294E+03, tol = 0.57918E+04, time = 13.92 | CG iter. 56 -- res = 0.33757E+03, tol = 0.57918E+04, time = 12.32 | CG iter. 57 -- res = 0.30758E+03, tol = 0.57918E+04, time = 11.61 | CG iter. 58 -- res = 0.29750E+03, tol = 0.57918E+04, time = 11.84 | CG iter. 59 -- res = 0.29747E+03, tol = 0.57918E+04, time = 12.05 | CG iter. 60 -- res = 0.28537E+03, tol = 0.57918E+04, time = 11.89 | Final CG iter 61 -- res = 0.28537E+03, tol = 0.57918E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.725 ( -229.374 -2229.218 2511.362 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8488419.535 | Old band monopole 8410885.075 | Change to band monopole 77534.460 | Change to component monopole -77534.127 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.633 2.751 | New value 1.016 | Old value 1.633 | Difference -0.617 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.492 ( 7.174 7.690 -6.224 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.774 6.294 | New value 2.704 | Old value 13.774 | Difference -11.070 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.11 | CG iter. 1 -- res = 0.51476E+05, tol = 0.47627E+18, time = 1.61 | CG iter. 2 -- res = 0.26123E+02, tol = 0.47627E+18, time = 2.50 | CG iter. 3 -- res = 0.87430E+00, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.17637E-02, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.31071E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8488383.024 | (Sampled value in CG: 8464579.264 ) | Chain = 1 -- chisq = 0.81595385E+09 | Chain = 1 -- wall time = 6103.537 sec Available RAM: MemAvailable: 381776864 kB Available Swap: SwapFree: 1112387700 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 335 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447929 | --> Sampling calibration, mode = relcal | relcal = 1.3435128E-02 7.5383071E-04 -1.6170498E-03 -1.2571909E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1166104 0.1284095 97046505.0008124 | BP delta = 0.1159007 0.1276998 97046505.5559773 | BP chisq diff = 0.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632216 | --> Sampling calibration, mode = relcal | relcal = -2.8195300E-03 -7.0302252E-04 1.6781101E-03 1.6132410E-03 -4.0794199E-04 6.3914346E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5552467 15223829.1183820 | BP delta = 0.0000000E+00 -0.5619876 15223829.4834046 | BP chisq diff = 0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18352057852808 | --> Sampling calibration, mode = relcal | relcal = -7.4229345E-02 -5.8071576E-02 9.1125436E-02 4.1175485E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6973218E-04 3.8210026E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1497E-04 | 2: delta_r/delta_0: 2.9228E-06 | 3: delta_s/delta_0: 2.1091E-07 | 4: delta_r/delta_0: 1.7143E-08 | 5: delta_s/delta_0: 4.6740E-09 | 6: delta_r/delta_0: 9.1888E-10 | 7: delta_s/delta_0: 1.5609E-08 | 8: delta_r/delta_0: 2.1321E-10 | 9: delta_s/delta_0: 1.4167E-10 | 10: delta_r/delta_0: 3.9880E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.805923401181672E-004 2.735374702623669E-005 | BP delta = 8.4550709E-02 0.1058078 50483073.9317445 | BP delta = 8.8546284E-02 0.1098034 50483076.3418488 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02577606 | --> Sampling calibration, mode = relcal | relcal = -0.1066345 -9.5519841E-02 0.1448718 5.7282548E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4794098E-03 1.6568779E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9604E-05 | 2: delta_r/delta_0: 1.2040E-06 | 3: delta_s/delta_0: 2.4986E-07 | 4: delta_r/delta_0: 4.6561E-08 | 5: delta_s/delta_0: 1.8199E-08 | 6: delta_r/delta_0: 6.8641E-09 | 7: delta_s/delta_0: 7.4662E-09 | 8: delta_r/delta_0: 1.3929E-09 | 9: delta_s/delta_0: 1.9524E-08 | 10: delta_r/delta_0: 8.5995E-09 | 11: delta_s/delta_0: 2.2669E-10 | 12: delta_r/delta_0: 1.7440E-10 | 13: delta_s/delta_0: 7.9046E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.728357560476426E-003 2.811438808293839E-005 | BP delta = -0.3112786 -0.2803077 57394942.8592456 | BP delta = -0.2936215 -0.2626506 57394940.9336162 | BP chisq diff = -1.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81198024 | --> Sampling calibration, mode = relcal | relcal = 0.2953548 0.2247470 -0.2836974 -0.2364045 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6747189E-04 5.7618446E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5998E-03 | 2: delta_r/delta_0: 6.2069E-05 | 3: delta_s/delta_0: 4.4377E-05 | 4: delta_r/delta_0: 3.7709E-06 | 5: delta_s/delta_0: 2.2100E-06 | 6: delta_r/delta_0: 4.3247E-07 | 7: delta_s/delta_0: 1.1638E-06 | 8: delta_r/delta_0: 1.4447E-07 | 9: delta_s/delta_0: 1.2801E-07 | 10: delta_r/delta_0: 3.3304E-08 | 11: delta_s/delta_0: 5.2597E-09 | 12: delta_r/delta_0: 1.2172E-09 | 13: delta_s/delta_0: 1.4649E-09 | 14: delta_r/delta_0: 1.0031E-09 | 15: delta_s/delta_0: 1.1031E-10 | 16: delta_r/delta_0: 4.9092E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.275413119629193E-002 4.022906187549352E-005 | BP delta = -0.1643120 -0.1926224 72486117.5077916 | BP delta = -0.1811021 -0.2094124 72486117.2706203 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95877740 | --> Sampling calibration, mode = relcal | relcal = 0.1065482 0.1394327 -0.1102171 -0.1357638 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7909784E-03 1.2973540E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3388E-04 | 2: delta_r/delta_0: 5.9879E-06 | 3: delta_s/delta_0: 3.6132E-06 | 4: delta_r/delta_0: 6.2487E-07 | 5: delta_s/delta_0: 2.5153E-07 | 6: delta_r/delta_0: 1.2394E-07 | 7: delta_s/delta_0: 3.6132E-07 | 8: delta_r/delta_0: 2.6991E-08 | 9: delta_s/delta_0: 6.4429E-08 | 10: delta_r/delta_0: 4.4314E-08 | 11: delta_s/delta_0: 2.0761E-09 | 12: delta_r/delta_0: 1.4003E-09 | 13: delta_s/delta_0: 5.8159E-10 | 14: delta_r/delta_0: 4.1553E-10 | 15: delta_s/delta_0: 9.6175E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.989973465532357E-002 3.698663145497000E-005 | BP delta = 9.6326537E-02 0.2070111 72785453.0211969 | BP delta = 8.8645630E-02 0.1993302 72785452.9021978 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.192259 | New value = -3.104276 | poltype: 2 pol: 1 CPU time specind = 1.8835068E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140363 | New value = -3.130938 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150802 | New value = -3.091868 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159819 | New value = -3.120852 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148977 | New value = -3.149228 | poltype: 2 pol: 2 CPU time specind = 1.8234968E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.13699E+08, tol = 0.81659E+01, time = 5.65 | CG iter. 2 -- res = 0.36889E+06, tol = 0.81659E+01, time = 5.85 | CG iter. 3 -- res = 0.10671E+06, tol = 0.81659E+01, time = 5.82 | CG iter. 4 -- res = 0.12071E+06, tol = 0.81659E+01, time = 5.57 | CG iter. 5 -- res = 0.12557E+06, tol = 0.81659E+01, time = 6.20 | CG iter. 6 -- res = 0.11809E+06, tol = 0.81659E+01, time = 6.63 | CG iter. 7 -- res = 0.97220E+05, tol = 0.81659E+01, time = 6.35 | CG iter. 8 -- res = 0.65311E+05, tol = 0.81659E+01, time = 5.84 | CG iter. 9 -- res = 0.51842E+05, tol = 0.81659E+01, time = 5.44 | CG iter. 10 -- res = 0.41879E+05, tol = 0.81659E+01, time = 5.93 | CG iter. 11 -- res = 0.28452E+05, tol = 0.81659E+01, time = 5.64 | CG iter. 12 -- res = 0.21230E+05, tol = 0.81659E+01, time = 5.53 | CG iter. 13 -- res = 0.16908E+05, tol = 0.81659E+01, time = 5.48 | CG iter. 14 -- res = 0.14256E+05, tol = 0.81659E+01, time = 5.78 | CG iter. 15 -- res = 0.10952E+05, tol = 0.81659E+01, time = 5.91 | CG iter. 16 -- res = 0.74146E+04, tol = 0.81659E+01, time = 5.81 | CG iter. 17 -- res = 0.51976E+04, tol = 0.81659E+01, time = 6.01 | CG iter. 18 -- res = 0.43876E+04, tol = 0.81659E+01, time = 5.70 | CG iter. 19 -- res = 0.38129E+04, tol = 0.81659E+01, time = 5.69 | CG iter. 20 -- res = 0.27810E+04, tol = 0.81659E+01, time = 5.77 | CG iter. 21 -- res = 0.20098E+04, tol = 0.81659E+01, time = 5.83 | CG iter. 22 -- res = 0.16280E+04, tol = 0.81659E+01, time = 5.65 | CG iter. 23 -- res = 0.14139E+04, tol = 0.81659E+01, time = 5.88 | CG iter. 24 -- res = 0.11427E+04, tol = 0.81659E+01, time = 5.92 | CG iter. 25 -- res = 0.82809E+03, tol = 0.81659E+01, time = 5.63 | CG iter. 26 -- res = 0.65102E+03, tol = 0.81659E+01, time = 5.67 | CG iter. 27 -- res = 0.56652E+03, tol = 0.81659E+01, time = 5.59 | CG iter. 28 -- res = 0.46629E+03, tol = 0.81659E+01, time = 6.00 | CG iter. 29 -- res = 0.34828E+03, tol = 0.81659E+01, time = 5.75 | CG iter. 30 -- res = 0.27133E+03, tol = 0.81659E+01, time = 5.63 | CG iter. 31 -- res = 0.23165E+03, tol = 0.81659E+01, time = 5.43 | CG iter. 32 -- res = 0.19495E+03, tol = 0.81659E+01, time = 5.81 | CG iter. 33 -- res = 0.15218E+03, tol = 0.81659E+01, time = 5.67 | CG iter. 34 -- res = 0.11357E+03, tol = 0.81659E+01, time = 5.47 | CG iter. 35 -- res = 0.95714E+02, tol = 0.81659E+01, time = 5.83 | CG iter. 36 -- res = 0.79743E+02, tol = 0.81659E+01, time = 5.63 | CG iter. 37 -- res = 0.65682E+02, tol = 0.81659E+01, time = 5.83 | CG iter. 38 -- res = 0.48242E+02, tol = 0.81659E+01, time = 5.96 | CG iter. 39 -- res = 0.37193E+02, tol = 0.81659E+01, time = 5.49 | CG iter. 40 -- res = 0.31516E+02, tol = 0.81659E+01, time = 5.62 | CG iter. 41 -- res = 0.25080E+02, tol = 0.81659E+01, time = 7.12 | CG iter. 42 -- res = 0.18373E+02, tol = 0.81659E+01, time = 11.52 | CG iter. 43 -- res = 0.13979E+02, tol = 0.81659E+01, time = 5.68 | CG iter. 44 -- res = 0.11152E+02, tol = 0.81659E+01, time = 5.49 | CG iter. 45 -- res = 0.89075E+01, tol = 0.81659E+01, time = 5.92 | CG iter. 46 -- res = 0.67739E+01, tol = 0.81659E+01, time = 5.39 | CG iter. 47 -- res = 0.51040E+01, tol = 0.81659E+01, time = 5.49 | CG iter. 48 -- res = 0.40278E+01, tol = 0.81659E+01, time = 5.63 | CG iter. 49 -- res = 0.32156E+01, tol = 0.81659E+01, time = 5.79 | CG iter. 50 -- res = 0.24256E+01, tol = 0.81659E+01, time = 5.78 | Final CG iter 51 -- res = 0.24256E+01, tol = 0.81659E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6851806.519 | Old band monopole 8488419.535 | Change to band monopole -1636613.015 | Change to component monopole 1636605.976 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.85241E+06, tol = 0.47627E+18, time = 3.09 | CG iter. 2 -- res = 0.32044E+03, tol = 0.47627E+18, time = 2.50 | CG iter. 3 -- res = 0.30616E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.47365E-01, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.72576E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6851777.048 | (Sampled value in CG: 6954399.904 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.451993 | New value = 1.511965 | poltype: 2 pol: 1 CPU time specind = 2.2576094E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.523264 | New value = 1.454060 | poltype: 2 pol: 2 CPU time specind = 1.1187792E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.48 | CG iter. 1 -- res = 0.24730E+08, tol = 0.47618E+04, time = 6.35 | CG iter. 2 -- res = 0.53285E+07, tol = 0.47618E+04, time = 6.82 | CG iter. 3 -- res = 0.83994E+06, tol = 0.47618E+04, time = 6.50 | CG iter. 4 -- res = 0.35245E+06, tol = 0.47618E+04, time = 6.44 | CG iter. 5 -- res = 0.15592E+06, tol = 0.47618E+04, time = 7.40 | CG iter. 6 -- res = 0.81810E+05, tol = 0.47618E+04, time = 6.68 | CG iter. 7 -- res = 0.44499E+05, tol = 0.47618E+04, time = 6.59 | CG iter. 8 -- res = 0.21149E+05, tol = 0.47618E+04, time = 6.47 | CG iter. 9 -- res = 0.91431E+04, tol = 0.47618E+04, time = 6.39 | CG iter. 10 -- res = 0.37699E+04, tol = 0.47618E+04, time = 6.50 | CG iter. 11 -- res = 0.17215E+04, tol = 0.47618E+04, time = 6.68 | CG iter. 12 -- res = 0.88142E+03, tol = 0.47618E+04, time = 6.53 | CG iter. 13 -- res = 0.50005E+03, tol = 0.47618E+04, time = 6.70 | CG iter. 14 -- res = 0.28382E+03, tol = 0.47618E+04, time = 6.69 | CG iter. 15 -- res = 0.14430E+03, tol = 0.47618E+04, time = 6.43 | CG iter. 16 -- res = 0.69353E+02, tol = 0.47618E+04, time = 6.89 | CG iter. 17 -- res = 0.32139E+02, tol = 0.47618E+04, time = 6.33 | CG iter. 18 -- res = 0.15862E+02, tol = 0.47618E+04, time = 6.44 | CG iter. 19 -- res = 0.87951E+01, tol = 0.47618E+04, time = 6.63 | CG iter. 20 -- res = 0.50736E+01, tol = 0.47618E+04, time = 12.96 | CG iter. 21 -- res = 0.27731E+01, tol = 0.47618E+04, time = 6.35 | CG iter. 22 -- res = 0.13974E+01, tol = 0.47618E+04, time = 6.48 | CG iter. 23 -- res = 0.67522E+00, tol = 0.47618E+04, time = 6.71 | CG iter. 24 -- res = 0.34327E+00, tol = 0.47618E+04, time = 6.21 | CG iter. 25 -- res = 0.18802E+00, tol = 0.47618E+04, time = 6.80 | CG iter. 26 -- res = 0.10725E+00, tol = 0.47618E+04, time = 6.53 | CG iter. 27 -- res = 0.60680E-01, tol = 0.47618E+04, time = 6.23 | CG iter. 28 -- res = 0.32499E-01, tol = 0.47618E+04, time = 6.51 | CG iter. 29 -- res = 0.16987E-01, tol = 0.47618E+04, time = 6.53 | CG iter. 30 -- res = 0.89613E-02, tol = 0.47618E+04, time = 6.81 | CG iter. 31 -- res = 0.47903E-02, tol = 0.47618E+04, time = 6.48 | CG iter. 32 -- res = 0.27020E-02, tol = 0.47618E+04, time = 6.47 | CG iter. 33 -- res = 0.14970E-02, tol = 0.47618E+04, time = 7.98 | CG iter. 34 -- res = 0.80674E-03, tol = 0.47618E+04, time = 6.97 | CG iter. 35 -- res = 0.42265E-03, tol = 0.47618E+04, time = 6.86 | Final CG iter 36 -- res = 0.42265E-03, tol = 0.47618E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.984 2.711 | New value 4.254 | Old value 0.984 | Difference 3.270 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.57272E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.14089E+03, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.22566E+01, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.14406E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.21061E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6851777.048 | (Sampled value in CG: 6955546.134 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.712950 | New value = -3.681716 | poltype: 1 pol: 1 CPU time specind = 1.6760826E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.28117E+07, tol = 0.18247E+01, time = 2.98 | CG iter. 2 -- res = 0.12126E+07, tol = 0.18247E+01, time = 2.58 | CG iter. 3 -- res = 0.24814E+06, tol = 0.18247E+01, time = 2.63 | CG iter. 4 -- res = 0.10530E+06, tol = 0.18247E+01, time = 2.71 | CG iter. 5 -- res = 0.64820E+05, tol = 0.18247E+01, time = 2.73 | CG iter. 6 -- res = 0.32936E+05, tol = 0.18247E+01, time = 2.52 | CG iter. 7 -- res = 0.10851E+05, tol = 0.18247E+01, time = 2.88 | CG iter. 8 -- res = 0.40916E+04, tol = 0.18247E+01, time = 2.68 | CG iter. 9 -- res = 0.18096E+04, tol = 0.18247E+01, time = 2.83 | CG iter. 10 -- res = 0.73642E+03, tol = 0.18247E+01, time = 2.34 | CG iter. 11 -- res = 0.31218E+03, tol = 0.18247E+01, time = 2.68 | CG iter. 12 -- res = 0.16501E+03, tol = 0.18247E+01, time = 2.57 | CG iter. 13 -- res = 0.82427E+02, tol = 0.18247E+01, time = 2.82 | CG iter. 14 -- res = 0.38031E+02, tol = 0.18247E+01, time = 2.71 | CG iter. 15 -- res = 0.17195E+02, tol = 0.18247E+01, time = 2.50 | CG iter. 16 -- res = 0.72280E+01, tol = 0.18247E+01, time = 3.12 | CG iter. 17 -- res = 0.30229E+01, tol = 0.18247E+01, time = 2.81 | CG iter. 18 -- res = 0.14990E+01, tol = 0.18247E+01, time = 2.66 | CG iter. 19 -- res = 0.75242E+00, tol = 0.18247E+01, time = 2.83 | CG iter. 20 -- res = 0.37037E+00, tol = 0.18247E+01, time = 2.78 | CG iter. 21 -- res = 0.16887E+00, tol = 0.18247E+01, time = 2.81 | CG iter. 22 -- res = 0.73308E-01, tol = 0.18247E+01, time = 2.87 | CG iter. 23 -- res = 0.32074E-01, tol = 0.18247E+01, time = 2.58 | CG iter. 24 -- res = 0.15836E-01, tol = 0.18247E+01, time = 2.84 | CG iter. 25 -- res = 0.80702E-02, tol = 0.18247E+01, time = 2.63 | CG iter. 26 -- res = 0.40975E-02, tol = 0.18247E+01, time = 2.74 | CG iter. 27 -- res = 0.19776E-02, tol = 0.18247E+01, time = 2.67 | CG iter. 28 -- res = 0.89632E-03, tol = 0.18247E+01, time = 2.76 | CG iter. 29 -- res = 0.39295E-03, tol = 0.18247E+01, time = 2.84 | CG iter. 30 -- res = 0.19904E-03, tol = 0.18247E+01, time = 2.66 | CG iter. 31 -- res = 0.97114E-04, tol = 0.18247E+01, time = 2.63 | CG iter. 32 -- res = 0.50503E-04, tol = 0.18247E+01, time = 2.89 | CG iter. 33 -- res = 0.24269E-04, tol = 0.18247E+01, time = 3.24 | CG iter. 34 -- res = 0.10977E-04, tol = 0.18247E+01, time = 3.18 | CG iter. 35 -- res = 0.53501E-05, tol = 0.18247E+01, time = 2.75 | CG iter. 36 -- res = 0.25131E-05, tol = 0.18247E+01, time = 2.82 | CG iter. 37 -- res = 0.12080E-05, tol = 0.18247E+01, time = 2.73 | CG iter. 38 -- res = 0.60750E-06, tol = 0.18247E+01, time = 2.43 | CG iter. 39 -- res = 0.29309E-06, tol = 0.18247E+01, time = 2.82 | CG iter. 40 -- res = 0.13614E-06, tol = 0.18247E+01, time = 2.89 | CG iter. 41 -- res = 0.62238E-07, tol = 0.18247E+01, time = 2.65 | CG iter. 42 -- res = 0.30184E-07, tol = 0.18247E+01, time = 2.78 | CG iter. 43 -- res = 0.13917E-07, tol = 0.18247E+01, time = 2.69 | CG iter. 44 -- res = 0.67934E-08, tol = 0.18247E+01, time = 2.84 | CG iter. 45 -- res = 0.33312E-08, tol = 0.18247E+01, time = 2.62 | CG iter. 46 -- res = 0.15499E-08, tol = 0.18247E+01, time = 2.48 | CG iter. 47 -- res = 0.72536E-09, tol = 0.18247E+01, time = 2.73 | CG iter. 48 -- res = 0.34629E-09, tol = 0.18247E+01, time = 2.76 | CG iter. 49 -- res = 0.16160E-09, tol = 0.18247E+01, time = 2.66 | CG iter. 50 -- res = 0.78032E-10, tol = 0.18247E+01, time = 2.75 | Final CG iter 51 -- res = 0.78032E-10, tol = 0.18247E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.919 4.587 | New value -4.412 | Old value 8.919 | Difference -13.331 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.18297E+06, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.12401E+03, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.31426E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.17036E-01, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.20332E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6851777.048 | (Sampled value in CG: 6931844.506 ) | CPU time specind = 1197.495 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.29 | CG iter. 1 -- res = 0.70878E+08, tol = 0.57892E+04, time = 12.00 | CG iter. 2 -- res = 0.60351E+08, tol = 0.57892E+04, time = 11.86 | CG iter. 3 -- res = 0.16145E+08, tol = 0.57892E+04, time = 11.67 | CG iter. 4 -- res = 0.70571E+07, tol = 0.57892E+04, time = 12.60 | CG iter. 5 -- res = 0.43928E+07, tol = 0.57892E+04, time = 13.81 | CG iter. 6 -- res = 0.25594E+07, tol = 0.57892E+04, time = 12.49 | CG iter. 7 -- res = 0.14436E+07, tol = 0.57892E+04, time = 12.36 | CG iter. 8 -- res = 0.95019E+06, tol = 0.57892E+04, time = 11.93 | CG iter. 9 -- res = 0.61737E+06, tol = 0.57892E+04, time = 11.75 | CG iter. 10 -- res = 0.38770E+06, tol = 0.57892E+04, time = 11.75 | CG iter. 11 -- res = 0.22312E+06, tol = 0.57892E+04, time = 12.72 | CG iter. 12 -- res = 0.12941E+06, tol = 0.57892E+04, time = 12.07 | CG iter. 13 -- res = 0.79581E+05, tol = 0.57892E+04, time = 11.83 | CG iter. 14 -- res = 0.55482E+05, tol = 0.57892E+04, time = 12.01 | CG iter. 15 -- res = 0.46294E+05, tol = 0.57892E+04, time = 11.72 | CG iter. 16 -- res = 0.42150E+05, tol = 0.57892E+04, time = 11.90 | CG iter. 17 -- res = 0.39629E+05, tol = 0.57892E+04, time = 11.82 | CG iter. 18 -- res = 0.36463E+05, tol = 0.57892E+04, time = 11.61 | CG iter. 19 -- res = 0.33338E+05, tol = 0.57892E+04, time = 11.76 | CG iter. 20 -- res = 0.30664E+05, tol = 0.57892E+04, time = 11.97 | CG iter. 21 -- res = 0.28832E+05, tol = 0.57892E+04, time = 11.74 | CG iter. 22 -- res = 0.27968E+05, tol = 0.57892E+04, time = 18.64 | CG iter. 23 -- res = 0.27376E+05, tol = 0.57892E+04, time = 11.79 | CG iter. 24 -- res = 0.25600E+05, tol = 0.57892E+04, time = 11.92 | CG iter. 25 -- res = 0.21080E+05, tol = 0.57892E+04, time = 11.77 | CG iter. 26 -- res = 0.15778E+05, tol = 0.57892E+04, time = 12.08 | CG iter. 27 -- res = 0.11457E+05, tol = 0.57892E+04, time = 11.53 | CG iter. 28 -- res = 0.85819E+04, tol = 0.57892E+04, time = 11.78 | CG iter. 29 -- res = 0.71361E+04, tol = 0.57892E+04, time = 13.47 | CG iter. 30 -- res = 0.64852E+04, tol = 0.57892E+04, time = 12.91 | CG iter. 31 -- res = 0.59671E+04, tol = 0.57892E+04, time = 11.89 | CG iter. 32 -- res = 0.55006E+04, tol = 0.57892E+04, time = 11.77 | CG iter. 33 -- res = 0.48822E+04, tol = 0.57892E+04, time = 11.78 | CG iter. 34 -- res = 0.41647E+04, tol = 0.57892E+04, time = 11.65 | CG iter. 35 -- res = 0.35710E+04, tol = 0.57892E+04, time = 11.93 | CG iter. 36 -- res = 0.32033E+04, tol = 0.57892E+04, time = 12.06 | CG iter. 37 -- res = 0.29537E+04, tol = 0.57892E+04, time = 12.06 | CG iter. 38 -- res = 0.27513E+04, tol = 0.57892E+04, time = 11.54 | CG iter. 39 -- res = 0.24149E+04, tol = 0.57892E+04, time = 12.60 | CG iter. 40 -- res = 0.19758E+04, tol = 0.57892E+04, time = 12.03 | CG iter. 41 -- res = 0.15815E+04, tol = 0.57892E+04, time = 11.92 | CG iter. 42 -- res = 0.12861E+04, tol = 0.57892E+04, time = 12.06 | CG iter. 43 -- res = 0.11144E+04, tol = 0.57892E+04, time = 11.66 | CG iter. 44 -- res = 0.10438E+04, tol = 0.57892E+04, time = 11.92 | CG iter. 45 -- res = 0.97985E+03, tol = 0.57892E+04, time = 11.93 | CG iter. 46 -- res = 0.90118E+03, tol = 0.57892E+04, time = 11.63 | CG iter. 47 -- res = 0.81744E+03, tol = 0.57892E+04, time = 21.47 | CG iter. 48 -- res = 0.71259E+03, tol = 0.57892E+04, time = 11.86 | CG iter. 49 -- res = 0.60301E+03, tol = 0.57892E+04, time = 12.14 | CG iter. 50 -- res = 0.53510E+03, tol = 0.57892E+04, time = 11.64 | CG iter. 51 -- res = 0.49562E+03, tol = 0.57892E+04, time = 11.79 | CG iter. 52 -- res = 0.46803E+03, tol = 0.57892E+04, time = 11.97 | CG iter. 53 -- res = 0.44401E+03, tol = 0.57892E+04, time = 11.74 | CG iter. 54 -- res = 0.39528E+03, tol = 0.57892E+04, time = 12.89 | CG iter. 55 -- res = 0.34141E+03, tol = 0.57892E+04, time = 12.23 | CG iter. 56 -- res = 0.29573E+03, tol = 0.57892E+04, time = 11.78 | CG iter. 57 -- res = 0.25587E+03, tol = 0.57892E+04, time = 11.63 | CG iter. 58 -- res = 0.23832E+03, tol = 0.57892E+04, time = 11.49 | CG iter. 59 -- res = 0.22282E+03, tol = 0.57892E+04, time = 11.87 | CG iter. 60 -- res = 0.21306E+03, tol = 0.57892E+04, time = 11.45 | Final CG iter 61 -- res = 0.21306E+03, tol = 0.57892E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.823 ( -229.463 -2230.323 2512.891 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8697392.553 | Old band monopole 6851806.519 | Change to band monopole 1845586.033 | Change to component monopole -1845578.095 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.287 2.750 | New value 1.707 | Old value 4.287 | Difference -2.580 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.890 ( 6.167 9.170 -9.294 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.107 4.930 | New value -4.237 | Old value -6.107 | Difference 1.869 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.41 | CG iter. 1 -- res = 0.37106E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.27359E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.10964E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.12511E-02, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.49500E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8697355.144 | (Sampled value in CG: 8682176.527 ) | Chain = 1 -- chisq = 0.81510671E+09 | Chain = 1 -- wall time = 5708.465 sec Available RAM: MemAvailable: 381802052 kB Available Swap: SwapFree: 1113099636 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 336 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447619 | --> Sampling calibration, mode = relcal | relcal = 1.3435487E-02 7.4593199E-04 -1.6047544E-03 -1.2576664E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1159007 0.1276998 9408512.16769526 | BP delta = 0.1159007 0.1233473 9408542.62349326 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632195 | --> Sampling calibration, mode = relcal | relcal = -2.8202019E-03 -7.0426043E-04 1.6791531E-03 1.6132607E-03 -4.0759321E-04 6.3964172E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5619876 15216659.1265129 | BP delta = 0.0000000E+00 -0.5591465 15216666.4971244 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102487 | --> Sampling calibration, mode = relcal | relcal = 3.7086129E-02 1.3708859E-02 5.7488629E-03 -7.1639563E-03 8.2461890E-03 2.3922306E-03 -7.5926175E-03 -7.1776062E-03 -1.5296880E-02 -1.4798380E-02 -3.0603011E-03 -1.2092530E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.201003 132210015.999399 | BP delta = 0.0000000E+00 -1.238308 132210018.371014 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18354553767595 | --> Sampling calibration, mode = relcal | relcal = -7.4660219E-02 -5.8427494E-02 9.1635153E-02 4.1452557E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.4795766E-04 4.3793609E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2282E-05 | 2: delta_r/delta_0: 7.7418E-07 | 3: delta_s/delta_0: 2.4804E-07 | 4: delta_r/delta_0: 1.3517E-08 | 5: delta_s/delta_0: 1.4868E-07 | 6: delta_r/delta_0: 4.2585E-09 | 7: delta_s/delta_0: 3.5381E-10 | 8: delta_r/delta_0: 6.9169E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.794630083910622E-004 2.735251062861196E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2282E-05 | 2: delta_r/delta_0: 7.7418E-07 | 3: delta_s/delta_0: 2.4804E-07 | 4: delta_r/delta_0: 1.3517E-08 | 5: delta_s/delta_0: 1.4868E-07 | 6: delta_r/delta_0: 4.2583E-09 | 7: delta_s/delta_0: 3.5382E-10 | 8: delta_r/delta_0: 6.9170E-11 | Reached bicg-stab tolerance | BP delta = 8.4550709E-02 0.1058078 3582895.23887443 | BP delta = 8.4550709E-02 0.1060610 3582512.54748578 | BP chisq diff = -382.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595003 | --> Sampling calibration, mode = relcal | relcal = -0.1066928 -9.5535323E-02 0.1449465 5.7281680E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3518735E-03 1.3717943E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2893E-05 | 2: delta_r/delta_0: 1.3842E-06 | 3: delta_s/delta_0: 2.4026E-07 | 4: delta_r/delta_0: 5.1016E-08 | 5: delta_s/delta_0: 1.9995E-08 | 6: delta_r/delta_0: 7.4555E-09 | 7: delta_s/delta_0: 6.4366E-09 | 8: delta_r/delta_0: 1.6597E-09 | 9: delta_s/delta_0: 7.9841E-10 | 10: delta_r/delta_0: 5.7348E-10 | 11: delta_s/delta_0: 7.3111E-10 | 12: delta_r/delta_0: 8.7528E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.017801774104397E-002 2.810957920182403E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.2892E-05 | 2: delta_r/delta_0: 1.3841E-06 | 3: delta_s/delta_0: 2.4021E-07 | 4: delta_r/delta_0: 5.0964E-08 | 5: delta_s/delta_0: 2.0016E-08 | 6: delta_r/delta_0: 7.4515E-09 | 7: delta_s/delta_0: 6.4338E-09 | 8: delta_r/delta_0: 1.6591E-09 | 9: delta_s/delta_0: 7.9807E-10 | 10: delta_r/delta_0: 5.7335E-10 | 11: delta_s/delta_0: 7.2829E-10 | 12: delta_r/delta_0: 8.7737E-11 | Reached bicg-stab tolerance | BP delta = -0.2936215 -0.2626506 2841638.14032546 | BP delta = -0.2936215 -0.2623434 2841603.65043048 | BP chisq diff = -34.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81203594 | --> Sampling calibration, mode = relcal | relcal = 0.2954248 0.2248422 -0.2836975 -0.2365695 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.3503266E-04 4.8301117E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4134E-02 | 2: delta_r/delta_0: 7.9858E-04 | 3: delta_s/delta_0: 4.7288E+00 | 4: delta_r/delta_0: 1.4421E-01 | 5: delta_s/delta_0: 5.2820E-04 | 6: delta_r/delta_0: 1.7531E-04 | 7: delta_s/delta_0: 3.5187E-05 | 8: delta_r/delta_0: 4.8809E-06 | 9: delta_s/delta_0: 1.4075E-06 | 10: delta_r/delta_0: 4.4841E-07 | 11: delta_s/delta_0: 4.3575E-07 | 12: delta_r/delta_0: 4.0505E-08 | 13: delta_s/delta_0: 1.1097E-08 | 14: delta_r/delta_0: 7.2488E-09 | 15: delta_s/delta_0: 2.2578E-07 | 16: delta_r/delta_0: 2.3288E-09 | 17: delta_s/delta_0: 8.5108E-10 | 18: delta_r/delta_0: 5.5692E-10 | 19: delta_s/delta_0: 1.5960E-10 | 20: delta_r/delta_0: 1.2832E-10 | 21: delta_s/delta_0: 1.5610E-10 | 22: delta_r/delta_0: 1.1544E-10 | 23: delta_s/delta_0: 1.2624E-10 | 24: delta_r/delta_0: 1.0186E-10 | 25: delta_s/delta_0: 7.1452E-10 | 26: delta_r/delta_0: 5.7746E-10 | 27: delta_s/delta_0: 1.2825E-07 | 28: delta_r/delta_0: 1.0898E-07 | 29: delta_s/delta_0: 9.9318E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.199217052707865 4.022766970889494E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.4108E-02 | 2: delta_r/delta_0: 7.9796E-04 | 3: delta_s/delta_0: 5.8364E+00 | 4: delta_r/delta_0: 1.7804E-01 | 5: delta_s/delta_0: 5.2032E-04 | 6: delta_r/delta_0: 1.7256E-04 | 7: delta_s/delta_0: 3.5276E-05 | 8: delta_r/delta_0: 4.8935E-06 | 9: delta_s/delta_0: 1.4110E-06 | 10: delta_r/delta_0: 4.5024E-07 | 11: delta_s/delta_0: 4.3734E-07 | 12: delta_r/delta_0: 4.1119E-08 | 13: delta_s/delta_0: 1.1119E-08 | 14: delta_r/delta_0: 7.2622E-09 | 15: delta_s/delta_0: 2.2613E-07 | 16: delta_r/delta_0: 2.2902E-09 | 17: delta_s/delta_0: 8.5052E-10 | 18: delta_r/delta_0: 5.5743E-10 | 19: delta_s/delta_0: 1.5959E-10 | 20: delta_r/delta_0: 1.2842E-10 | 21: delta_s/delta_0: 1.5637E-10 | 22: delta_r/delta_0: 1.1545E-10 | 23: delta_s/delta_0: 1.2619E-10 | 24: delta_r/delta_0: 1.0190E-10 | 25: delta_s/delta_0: 7.1548E-10 | 26: delta_r/delta_0: 5.7862E-10 | 27: delta_s/delta_0: 1.2820E-07 | 28: delta_r/delta_0: 1.0895E-07 | 29: delta_s/delta_0: 9.9606E-11 | Reached bicg-stab tolerance | BP delta = -0.1811021 -0.2094124 2827575.32984576 | BP delta = -0.1811021 -0.2030304 2827580.09632069 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95890008 | --> Sampling calibration, mode = relcal | relcal = 0.1065388 0.1394452 -0.1102342 -0.1357499 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7028203E-03 1.3571537E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3366E-04 | 2: delta_r/delta_0: 1.0691E-05 | 3: delta_s/delta_0: 1.3495E-05 | 4: delta_r/delta_0: 1.1749E-06 | 5: delta_s/delta_0: 2.7741E-07 | 6: delta_r/delta_0: 1.4689E-07 | 7: delta_s/delta_0: 4.7795E-07 | 8: delta_r/delta_0: 3.5687E-08 | 9: delta_s/delta_0: 1.4034E-08 | 10: delta_r/delta_0: 3.0404E-09 | 11: delta_s/delta_0: 2.8948E-09 | 12: delta_r/delta_0: 1.6134E-09 | 13: delta_s/delta_0: 1.2279E-09 | 14: delta_r/delta_0: 9.1549E-10 | 15: delta_s/delta_0: 9.7329E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.225206625309612E-002 3.698212237501113E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3370E-04 | 2: delta_r/delta_0: 1.0692E-05 | 3: delta_s/delta_0: 1.3495E-05 | 4: delta_r/delta_0: 1.1749E-06 | 5: delta_s/delta_0: 2.7743E-07 | 6: delta_r/delta_0: 1.4688E-07 | 7: delta_s/delta_0: 4.7781E-07 | 8: delta_r/delta_0: 3.5688E-08 | 9: delta_s/delta_0: 1.4017E-08 | 10: delta_r/delta_0: 3.0446E-09 | 11: delta_s/delta_0: 2.8778E-09 | 12: delta_r/delta_0: 1.6045E-09 | 13: delta_s/delta_0: 1.2249E-09 | 14: delta_r/delta_0: 9.1461E-10 | 15: delta_s/delta_0: 9.7709E-11 | Reached bicg-stab tolerance | BP delta = 8.8645630E-02 0.1993302 3004119.63415376 | BP delta = 8.8645630E-02 0.2021713 3004119.64031936 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52153553 | --> Sampling calibration, mode = relcal | relcal = -5.1140491E-02 -3.7335686E-03 2.7315803E-02 2.7558256E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.8109907E-04 2.3432421E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5492E-05 | 2: delta_r/delta_0: 4.4668E-06 | 3: delta_s/delta_0: 5.0285E-06 | 4: delta_r/delta_0: 7.9238E-07 | 5: delta_s/delta_0: 4.9372E-08 | 6: delta_r/delta_0: 3.0408E-08 | 7: delta_s/delta_0: 3.0587E-07 | 8: delta_r/delta_0: 4.9101E-09 | 9: delta_s/delta_0: 3.8632E-09 | 10: delta_r/delta_0: 1.5613E-09 | 11: delta_s/delta_0: 1.9972E-09 | 12: delta_r/delta_0: 1.4561E-10 | 13: delta_s/delta_0: 5.6668E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.126313813604053E-002 5.483742724880977E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5493E-05 | 2: delta_r/delta_0: 4.4668E-06 | 3: delta_s/delta_0: 5.0284E-06 | 4: delta_r/delta_0: 7.9237E-07 | 5: delta_s/delta_0: 4.9370E-08 | 6: delta_r/delta_0: 3.0408E-08 | 7: delta_s/delta_0: 3.0596E-07 | 8: delta_r/delta_0: 4.9102E-09 | 9: delta_s/delta_0: 3.8632E-09 | 10: delta_r/delta_0: 1.5615E-09 | 11: delta_s/delta_0: 1.9979E-09 | 12: delta_r/delta_0: 1.4564E-10 | 13: delta_s/delta_0: 5.6742E-11 | Reached bicg-stab tolerance | BP delta = 7.2327264E-02 0.1638000 2435060.00464287 | BP delta = 7.2327264E-02 0.1692852 2435062.07187834 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42149902 | --> Sampling calibration, mode = relcal | relcal = 4.5547184E-02 3.9693404E-02 -2.8343294E-02 -5.6897294E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8704691E-03 3.9849821E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2452E-05 | 2: delta_r/delta_0: 3.5530E-06 | 3: delta_s/delta_0: 2.1817E-06 | 4: delta_r/delta_0: 3.2844E-07 | 5: delta_s/delta_0: 6.2140E-08 | 6: delta_r/delta_0: 3.4846E-08 | 7: delta_s/delta_0: 7.7260E-08 | 8: delta_r/delta_0: 8.4166E-09 | 9: delta_s/delta_0: 2.7127E-09 | 10: delta_r/delta_0: 1.5814E-09 | 11: delta_s/delta_0: 1.5547E-08 | 12: delta_r/delta_0: 1.8547E-10 | 13: delta_s/delta_0: 1.4686E-07 | 14: delta_r/delta_0: 9.2546E-08 | 15: delta_s/delta_0: 1.5621E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.404605299201727E-002 4.996676989889889E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2453E-05 | 2: delta_r/delta_0: 3.5530E-06 | 3: delta_s/delta_0: 2.1817E-06 | 4: delta_r/delta_0: 3.2844E-07 | 5: delta_s/delta_0: 6.2139E-08 | 6: delta_r/delta_0: 3.4846E-08 | 7: delta_s/delta_0: 7.7253E-08 | 8: delta_r/delta_0: 8.4167E-09 | 9: delta_s/delta_0: 2.7128E-09 | 10: delta_r/delta_0: 1.5816E-09 | 11: delta_s/delta_0: 1.5555E-08 | 12: delta_r/delta_0: 1.8548E-10 | 13: delta_s/delta_0: 1.4728E-07 | 14: delta_r/delta_0: 9.2812E-08 | 15: delta_s/delta_0: 1.5624E-11 | Reached bicg-stab tolerance | BP delta = 0.1155126 -9.1882385E-03 2322091.80508392 | BP delta = 0.1155126 -1.8665167E-04 2322091.84070616 | BP chisq diff = 0.0, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28163176 | --> Sampling calibration, mode = relcal | relcal = 2.4139870E-02 4.5141991E-02 -2.3309626E-02 -4.5972236E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1408300E-02 5.3397054E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0586E-04 | 2: delta_r/delta_0: 8.7460E-06 | 3: delta_s/delta_0: 1.4906E-06 | 4: delta_r/delta_0: 2.3519E-07 | 5: delta_s/delta_0: 9.9773E-08 | 6: delta_r/delta_0: 1.9292E-08 | 7: delta_s/delta_0: 9.0060E-09 | 8: delta_r/delta_0: 5.6358E-09 | 9: delta_s/delta_0: 6.8624E-08 | 10: delta_r/delta_0: 5.1723E-09 | 11: delta_s/delta_0: 1.2168E-09 | 12: delta_r/delta_0: 4.5883E-10 | 13: delta_s/delta_0: 4.3705E-10 | 14: delta_r/delta_0: 2.6471E-10 | 15: delta_s/delta_0: 5.6120E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.000279037593886E-002 7.843085428166537E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0586E-04 | 2: delta_r/delta_0: 8.7460E-06 | 3: delta_s/delta_0: 1.4906E-06 | 4: delta_r/delta_0: 2.3520E-07 | 5: delta_s/delta_0: 9.9779E-08 | 6: delta_r/delta_0: 1.9293E-08 | 7: delta_s/delta_0: 9.0063E-09 | 8: delta_r/delta_0: 5.6358E-09 | 9: delta_s/delta_0: 6.8622E-08 | 10: delta_r/delta_0: 5.1721E-09 | 11: delta_s/delta_0: 1.2167E-09 | 12: delta_r/delta_0: 4.5881E-10 | 13: delta_s/delta_0: 4.3703E-10 | 14: delta_r/delta_0: 2.6471E-10 | 15: delta_s/delta_0: 5.6122E-11 | Reached bicg-stab tolerance | BP delta = -0.3156406 -0.4978548 2490382.07808648 | BP delta = -0.3156406 -0.5174506 2490373.60948815 | BP chisq diff = -8.5, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29392584 | --> Sampling calibration, mode = relcal | relcal = 3.9005291E-04 1.0325274E-02 -3.7601204E-03 -6.9552073E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6634863E-02 1.6258316E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3007E-04 | 2: delta_r/delta_0: 1.1119E-05 | 3: delta_s/delta_0: 1.7429E-06 | 4: delta_r/delta_0: 3.0719E-07 | 5: delta_s/delta_0: 1.3623E-07 | 6: delta_r/delta_0: 2.3495E-08 | 7: delta_s/delta_0: 1.0466E-08 | 8: delta_r/delta_0: 6.8567E-09 | 9: delta_s/delta_0: 6.4647E-09 | 10: delta_r/delta_0: 4.2101E-09 | 11: delta_s/delta_0: 7.7433E-05 | 12: delta_r/delta_0: 1.0395E-05 | 13: delta_s/delta_0: 3.2960E-10 | 14: delta_r/delta_0: 1.5955E-10 | 15: delta_s/delta_0: 8.7705E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.011449073938718E-002 8.306536226313350E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3007E-04 | 2: delta_r/delta_0: 1.1119E-05 | 3: delta_s/delta_0: 1.7429E-06 | 4: delta_r/delta_0: 3.0719E-07 | 5: delta_s/delta_0: 1.3623E-07 | 6: delta_r/delta_0: 2.3495E-08 | 7: delta_s/delta_0: 1.0466E-08 | 8: delta_r/delta_0: 6.8567E-09 | 9: delta_s/delta_0: 6.4647E-09 | 10: delta_r/delta_0: 4.2102E-09 | 11: delta_s/delta_0: 7.8265E-05 | 12: delta_r/delta_0: 1.0510E-05 | 13: delta_s/delta_0: 3.2965E-10 | 14: delta_r/delta_0: 1.5955E-10 | 15: delta_s/delta_0: 8.7702E-11 | Reached bicg-stab tolerance | BP delta = -0.8241410 -0.7795172 2738321.07835916 | BP delta = -0.8241410 -0.7851670 2738325.05950020 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26505296 | --> Sampling calibration, mode = relcal | relcal = -5.6625311E-03 1.5042854E-02 -2.3155417E-03 -7.0647821E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3025145E-04 3.2406251E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4177E-04 | 2: delta_r/delta_0: 1.2152E-05 | 3: delta_s/delta_0: 2.0701E-06 | 4: delta_r/delta_0: 2.6571E-07 | 5: delta_s/delta_0: 1.0812E-07 | 6: delta_r/delta_0: 2.2469E-08 | 7: delta_s/delta_0: 9.4025E-09 | 8: delta_r/delta_0: 6.1573E-09 | 9: delta_s/delta_0: 6.3927E-09 | 10: delta_r/delta_0: 4.3576E-09 | 11: delta_s/delta_0: 1.3152E-06 | 12: delta_r/delta_0: 4.7727E-08 | 13: delta_s/delta_0: 1.2630E-04 | 14: delta_r/delta_0: 7.4772E-05 | 15: delta_s/delta_0: 9.8070E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.074879064613996E-003 9.154029942471219E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4177E-04 | 2: delta_r/delta_0: 1.2152E-05 | 3: delta_s/delta_0: 2.0701E-06 | 4: delta_r/delta_0: 2.6572E-07 | 5: delta_s/delta_0: 1.0811E-07 | 6: delta_r/delta_0: 2.2470E-08 | 7: delta_s/delta_0: 9.4028E-09 | 8: delta_r/delta_0: 6.1574E-09 | 9: delta_s/delta_0: 6.3929E-09 | 10: delta_r/delta_0: 4.3577E-09 | 11: delta_s/delta_0: 1.3145E-06 | 12: delta_r/delta_0: 4.7701E-08 | 13: delta_s/delta_0: 1.0915E-04 | 14: delta_r/delta_0: 6.4605E-05 | 15: delta_s/delta_0: 9.8040E-11 | Reached bicg-stab tolerance | BP delta = 0.3464280 0.3671412 2516603.48535135 | BP delta = 0.3464280 0.3690283 2516604.21109482 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25669247 | --> Sampling calibration, mode = relcal | relcal = -3.1729709E-02 -2.5926160E-02 3.6974449E-02 2.0681420E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9594932E-02 1.5130244E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4691E-04 | 2: delta_r/delta_0: 1.1616E-05 | 3: delta_s/delta_0: 1.6299E-06 | 4: delta_r/delta_0: 4.3734E-07 | 5: delta_s/delta_0: 2.2083E-04 | 6: delta_r/delta_0: 2.9803E-05 | 7: delta_s/delta_0: 2.0751E-08 | 8: delta_r/delta_0: 4.6401E-09 | 9: delta_s/delta_0: 7.0553E-09 | 10: delta_r/delta_0: 4.1394E-09 | 11: delta_s/delta_0: 5.0114E-08 | 12: delta_r/delta_0: 3.9575E-10 | 13: delta_s/delta_0: 5.7092E-10 | 14: delta_r/delta_0: 2.4966E-10 | 15: delta_s/delta_0: 1.2571E-10 | 16: delta_r/delta_0: 1.0409E-10 | 17: delta_s/delta_0: 1.1014E-10 | 18: delta_r/delta_0: 7.9628E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.049208725076190E-002 8.670431055113663E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4691E-04 | 2: delta_r/delta_0: 1.1616E-05 | 3: delta_s/delta_0: 1.6299E-06 | 4: delta_r/delta_0: 4.3734E-07 | 5: delta_s/delta_0: 2.2109E-04 | 6: delta_r/delta_0: 2.9841E-05 | 7: delta_s/delta_0: 2.0751E-08 | 8: delta_r/delta_0: 4.6402E-09 | 9: delta_s/delta_0: 7.0554E-09 | 10: delta_r/delta_0: 4.1394E-09 | 11: delta_s/delta_0: 5.0118E-08 | 12: delta_r/delta_0: 3.9590E-10 | 13: delta_s/delta_0: 5.7099E-10 | 14: delta_r/delta_0: 2.4970E-10 | 15: delta_s/delta_0: 1.2571E-10 | 16: delta_r/delta_0: 1.0409E-10 | 17: delta_s/delta_0: 1.1016E-10 | 18: delta_r/delta_0: 7.9629E-11 | Reached bicg-stab tolerance | BP delta = -0.8273849 -1.019948 2706188.66244949 | BP delta = -0.8273849 -1.024138 2706181.98267102 | BP chisq diff = -6.7, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.104276 | New value = -3.139573 | poltype: 2 pol: 1 CPU time specind = 2.1715164E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.130938 | New value = -3.086628 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091868 | New value = -3.146126 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120852 | New value = -3.097034 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149228 | New value = -3.194073 | poltype: 2 pol: 2 CPU time specind = 1.3866901E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.01 | CG iter. 1 -- res = 0.13554E+08, tol = 0.81135E+01, time = 5.66 | CG iter. 2 -- res = 0.32697E+06, tol = 0.81135E+01, time = 5.16 | CG iter. 3 -- res = 0.51949E+05, tol = 0.81135E+01, time = 5.54 | CG iter. 4 -- res = 0.31443E+05, tol = 0.81135E+01, time = 5.58 | CG iter. 5 -- res = 0.22006E+05, tol = 0.81135E+01, time = 5.27 | CG iter. 6 -- res = 0.18530E+05, tol = 0.81135E+01, time = 5.22 | CG iter. 7 -- res = 0.17998E+05, tol = 0.81135E+01, time = 6.04 | CG iter. 8 -- res = 0.15468E+05, tol = 0.81135E+01, time = 4.94 | CG iter. 9 -- res = 0.13738E+05, tol = 0.81135E+01, time = 5.40 | CG iter. 10 -- res = 0.12629E+05, tol = 0.81135E+01, time = 5.56 | CG iter. 11 -- res = 0.89289E+04, tol = 0.81135E+01, time = 5.26 | CG iter. 12 -- res = 0.57108E+04, tol = 0.81135E+01, time = 5.40 | CG iter. 13 -- res = 0.41417E+04, tol = 0.81135E+01, time = 5.68 | CG iter. 14 -- res = 0.34126E+04, tol = 0.81135E+01, time = 5.44 | CG iter. 15 -- res = 0.30450E+04, tol = 0.81135E+01, time = 5.29 | CG iter. 16 -- res = 0.23197E+04, tol = 0.81135E+01, time = 12.03 | CG iter. 17 -- res = 0.16579E+04, tol = 0.81135E+01, time = 5.46 | CG iter. 18 -- res = 0.13048E+04, tol = 0.81135E+01, time = 5.30 | CG iter. 19 -- res = 0.10850E+04, tol = 0.81135E+01, time = 5.25 | CG iter. 20 -- res = 0.86614E+03, tol = 0.81135E+01, time = 5.38 | CG iter. 21 -- res = 0.62651E+03, tol = 0.81135E+01, time = 5.43 | CG iter. 22 -- res = 0.49577E+03, tol = 0.81135E+01, time = 5.34 | CG iter. 23 -- res = 0.43421E+03, tol = 0.81135E+01, time = 5.27 | CG iter. 24 -- res = 0.36051E+03, tol = 0.81135E+01, time = 5.54 | CG iter. 25 -- res = 0.26685E+03, tol = 0.81135E+01, time = 5.49 | CG iter. 26 -- res = 0.20624E+03, tol = 0.81135E+01, time = 5.62 | CG iter. 27 -- res = 0.17504E+03, tol = 0.81135E+01, time = 5.33 | CG iter. 28 -- res = 0.15647E+03, tol = 0.81135E+01, time = 5.22 | CG iter. 29 -- res = 0.12623E+03, tol = 0.81135E+01, time = 5.46 | CG iter. 30 -- res = 0.99280E+02, tol = 0.81135E+01, time = 5.03 | CG iter. 31 -- res = 0.86324E+02, tol = 0.81135E+01, time = 5.86 | CG iter. 32 -- res = 0.78226E+02, tol = 0.81135E+01, time = 6.40 | CG iter. 33 -- res = 0.62591E+02, tol = 0.81135E+01, time = 6.13 | CG iter. 34 -- res = 0.47393E+02, tol = 0.81135E+01, time = 5.21 | CG iter. 35 -- res = 0.38440E+02, tol = 0.81135E+01, time = 5.48 | CG iter. 36 -- res = 0.34033E+02, tol = 0.81135E+01, time = 5.28 | CG iter. 37 -- res = 0.29623E+02, tol = 0.81135E+01, time = 4.89 | CG iter. 38 -- res = 0.22916E+02, tol = 0.81135E+01, time = 5.41 | CG iter. 39 -- res = 0.17675E+02, tol = 0.81135E+01, time = 5.43 | CG iter. 40 -- res = 0.14995E+02, tol = 0.81135E+01, time = 5.37 | CG iter. 41 -- res = 0.12392E+02, tol = 0.81135E+01, time = 5.37 | CG iter. 42 -- res = 0.95473E+01, tol = 0.81135E+01, time = 5.52 | CG iter. 43 -- res = 0.72338E+01, tol = 0.81135E+01, time = 5.49 | CG iter. 44 -- res = 0.60784E+01, tol = 0.81135E+01, time = 5.30 | CG iter. 45 -- res = 0.49638E+01, tol = 0.81135E+01, time = 5.70 | CG iter. 46 -- res = 0.38486E+01, tol = 0.81135E+01, time = 5.47 | CG iter. 47 -- res = 0.29280E+01, tol = 0.81135E+01, time = 5.17 | CG iter. 48 -- res = 0.22831E+01, tol = 0.81135E+01, time = 5.62 | CG iter. 49 -- res = 0.19058E+01, tol = 0.81135E+01, time = 5.51 | CG iter. 50 -- res = 0.15084E+01, tol = 0.81135E+01, time = 4.96 | Final CG iter 51 -- res = 0.15084E+01, tol = 0.81135E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8228707.720 | Old band monopole 8697392.553 | Change to band monopole -468684.833 | Change to component monopole 468682.817 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.62747E+05, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.45736E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.18143E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.56438E-02, tol = 0.47627E+18, time = 1.74 | Final CG iter 5 -- res = 0.64148E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8228672.327 | (Sampled value in CG: 8189288.408 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.511965 | New value = 1.486984 | poltype: 2 pol: 1 CPU time specind = 2.4474144E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.454060 | New value = 1.513787 | poltype: 2 pol: 2 CPU time specind = 7.5638294E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.24163E+08, tol = 0.47555E+04, time = 6.24 | CG iter. 2 -- res = 0.54919E+07, tol = 0.47555E+04, time = 6.23 | CG iter. 3 -- res = 0.87035E+06, tol = 0.47555E+04, time = 6.30 | CG iter. 4 -- res = 0.35879E+06, tol = 0.47555E+04, time = 6.34 | CG iter. 5 -- res = 0.15422E+06, tol = 0.47555E+04, time = 6.20 | CG iter. 6 -- res = 0.80413E+05, tol = 0.47555E+04, time = 6.03 | CG iter. 7 -- res = 0.44433E+05, tol = 0.47555E+04, time = 6.24 | CG iter. 8 -- res = 0.21295E+05, tol = 0.47555E+04, time = 6.01 | CG iter. 9 -- res = 0.93416E+04, tol = 0.47555E+04, time = 6.28 | CG iter. 10 -- res = 0.38535E+04, tol = 0.47555E+04, time = 6.37 | CG iter. 11 -- res = 0.17224E+04, tol = 0.47555E+04, time = 6.03 | CG iter. 12 -- res = 0.90146E+03, tol = 0.47555E+04, time = 6.35 | CG iter. 13 -- res = 0.51053E+03, tol = 0.47555E+04, time = 7.22 | CG iter. 14 -- res = 0.28947E+03, tol = 0.47555E+04, time = 6.76 | CG iter. 15 -- res = 0.14972E+03, tol = 0.47555E+04, time = 6.79 | CG iter. 16 -- res = 0.70542E+02, tol = 0.47555E+04, time = 5.91 | CG iter. 17 -- res = 0.32456E+02, tol = 0.47555E+04, time = 6.39 | CG iter. 18 -- res = 0.16062E+02, tol = 0.47555E+04, time = 6.49 | CG iter. 19 -- res = 0.87012E+01, tol = 0.47555E+04, time = 6.10 | CG iter. 20 -- res = 0.49844E+01, tol = 0.47555E+04, time = 6.42 | CG iter. 21 -- res = 0.27840E+01, tol = 0.47555E+04, time = 6.14 | CG iter. 22 -- res = 0.14443E+01, tol = 0.47555E+04, time = 6.08 | CG iter. 23 -- res = 0.71643E+00, tol = 0.47555E+04, time = 6.21 | CG iter. 24 -- res = 0.36538E+00, tol = 0.47555E+04, time = 6.21 | CG iter. 25 -- res = 0.19997E+00, tol = 0.47555E+04, time = 6.31 | CG iter. 26 -- res = 0.11629E+00, tol = 0.47555E+04, time = 6.38 | CG iter. 27 -- res = 0.66962E-01, tol = 0.47555E+04, time = 6.04 | CG iter. 28 -- res = 0.36620E-01, tol = 0.47555E+04, time = 6.13 | CG iter. 29 -- res = 0.19038E-01, tol = 0.47555E+04, time = 6.48 | CG iter. 30 -- res = 0.10176E-01, tol = 0.47555E+04, time = 5.93 | CG iter. 31 -- res = 0.55044E-02, tol = 0.47555E+04, time = 6.59 | CG iter. 32 -- res = 0.31458E-02, tol = 0.47555E+04, time = 6.13 | CG iter. 33 -- res = 0.17854E-02, tol = 0.47555E+04, time = 6.29 | CG iter. 34 -- res = 0.95294E-03, tol = 0.47555E+04, time = 6.36 | CG iter. 35 -- res = 0.49740E-03, tol = 0.47555E+04, time = 5.96 | Final CG iter 36 -- res = 0.49740E-03, tol = 0.47555E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.695 2.743 | New value 2.648 | Old value 1.695 | Difference 0.953 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.49384E+05, tol = 0.47627E+18, time = 2.13 | CG iter. 2 -- res = 0.29007E+02, tol = 0.47627E+18, time = 1.72 | CG iter. 3 -- res = 0.91026E+00, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.53063E-03, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.68408E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8228672.327 | (Sampled value in CG: 8188659.999 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.681716 | New value = -3.570512 | poltype: 1 pol: 1 CPU time specind = 1.8760920E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.40 | CG iter. 1 -- res = 0.21555E+07, tol = 0.25749E+01, time = 2.53 | CG iter. 2 -- res = 0.96507E+06, tol = 0.25749E+01, time = 2.31 | CG iter. 3 -- res = 0.17674E+06, tol = 0.25749E+01, time = 2.87 | CG iter. 4 -- res = 0.61731E+05, tol = 0.25749E+01, time = 2.54 | CG iter. 5 -- res = 0.33684E+05, tol = 0.25749E+01, time = 2.78 | CG iter. 6 -- res = 0.19390E+05, tol = 0.25749E+01, time = 2.62 | CG iter. 7 -- res = 0.82684E+04, tol = 0.25749E+01, time = 2.63 | CG iter. 8 -- res = 0.35537E+04, tol = 0.25749E+01, time = 2.36 | CG iter. 9 -- res = 0.15328E+04, tol = 0.25749E+01, time = 2.65 | CG iter. 10 -- res = 0.59514E+03, tol = 0.25749E+01, time = 2.68 | CG iter. 11 -- res = 0.24882E+03, tol = 0.25749E+01, time = 2.45 | CG iter. 12 -- res = 0.11981E+03, tol = 0.25749E+01, time = 2.63 | CG iter. 13 -- res = 0.60864E+02, tol = 0.25749E+01, time = 2.62 | CG iter. 14 -- res = 0.31347E+02, tol = 0.25749E+01, time = 2.39 | CG iter. 15 -- res = 0.14349E+02, tol = 0.25749E+01, time = 2.62 | CG iter. 16 -- res = 0.60114E+01, tol = 0.25749E+01, time = 2.53 | CG iter. 17 -- res = 0.25614E+01, tol = 0.25749E+01, time = 2.60 | CG iter. 18 -- res = 0.11708E+01, tol = 0.25749E+01, time = 2.66 | CG iter. 19 -- res = 0.58554E+00, tol = 0.25749E+01, time = 2.58 | CG iter. 20 -- res = 0.30433E+00, tol = 0.25749E+01, time = 2.68 | CG iter. 21 -- res = 0.15067E+00, tol = 0.25749E+01, time = 2.49 | CG iter. 22 -- res = 0.71047E-01, tol = 0.25749E+01, time = 2.63 | CG iter. 23 -- res = 0.30283E-01, tol = 0.25749E+01, time = 2.41 | CG iter. 24 -- res = 0.13810E-01, tol = 0.25749E+01, time = 2.52 | CG iter. 25 -- res = 0.67477E-02, tol = 0.25749E+01, time = 2.48 | CG iter. 26 -- res = 0.34328E-02, tol = 0.25749E+01, time = 2.40 | CG iter. 27 -- res = 0.17228E-02, tol = 0.25749E+01, time = 2.73 | CG iter. 28 -- res = 0.84407E-03, tol = 0.25749E+01, time = 2.35 | CG iter. 29 -- res = 0.38391E-03, tol = 0.25749E+01, time = 2.55 | CG iter. 30 -- res = 0.17453E-03, tol = 0.25749E+01, time = 2.66 | CG iter. 31 -- res = 0.81726E-04, tol = 0.25749E+01, time = 2.30 | CG iter. 32 -- res = 0.40564E-04, tol = 0.25749E+01, time = 2.72 | CG iter. 33 -- res = 0.20443E-04, tol = 0.25749E+01, time = 6.08 | CG iter. 34 -- res = 0.99252E-05, tol = 0.25749E+01, time = 5.31 | CG iter. 35 -- res = 0.46253E-05, tol = 0.25749E+01, time = 2.88 | CG iter. 36 -- res = 0.21282E-05, tol = 0.25749E+01, time = 2.57 | CG iter. 37 -- res = 0.10219E-05, tol = 0.25749E+01, time = 2.60 | CG iter. 38 -- res = 0.49633E-06, tol = 0.25749E+01, time = 2.85 | CG iter. 39 -- res = 0.23882E-06, tol = 0.25749E+01, time = 2.47 | CG iter. 40 -- res = 0.12088E-06, tol = 0.25749E+01, time = 2.50 | CG iter. 41 -- res = 0.58361E-07, tol = 0.25749E+01, time = 2.62 | CG iter. 42 -- res = 0.28553E-07, tol = 0.25749E+01, time = 2.55 | CG iter. 43 -- res = 0.12654E-07, tol = 0.25749E+01, time = 2.52 | CG iter. 44 -- res = 0.60468E-08, tol = 0.25749E+01, time = 2.57 | CG iter. 45 -- res = 0.30265E-08, tol = 0.25749E+01, time = 2.49 | CG iter. 46 -- res = 0.14959E-08, tol = 0.25749E+01, time = 2.33 | CG iter. 47 -- res = 0.76215E-09, tol = 0.25749E+01, time = 2.38 | CG iter. 48 -- res = 0.36374E-09, tol = 0.25749E+01, time = 2.39 | CG iter. 49 -- res = 0.16428E-09, tol = 0.25749E+01, time = 2.59 | CG iter. 50 -- res = 0.74652E-10, tol = 0.25749E+01, time = 2.50 | Final CG iter 51 -- res = 0.74652E-10, tol = 0.25749E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.788 5.512 | New value 3.744 | Old value -6.788 | Difference 10.532 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.48 | CG iter. 1 -- res = 0.10953E+06, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.50549E+02, tol = 0.47627E+18, time = 1.76 | CG iter. 3 -- res = 0.22101E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.38212E-02, tol = 0.47627E+18, time = 2.56 | Final CG iter 5 -- res = 0.14493E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8228672.327 | (Sampled value in CG: 8202311.460 ) | CPU time specind = 1139.246 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.68515E+08, tol = 0.57665E+04, time = 11.11 | CG iter. 2 -- res = 0.58890E+08, tol = 0.57665E+04, time = 10.74 | CG iter. 3 -- res = 0.15450E+08, tol = 0.57665E+04, time = 10.97 | CG iter. 4 -- res = 0.63907E+07, tol = 0.57665E+04, time = 11.48 | CG iter. 5 -- res = 0.36945E+07, tol = 0.57665E+04, time = 11.72 | CG iter. 6 -- res = 0.20916E+07, tol = 0.57665E+04, time = 11.23 | CG iter. 7 -- res = 0.12569E+07, tol = 0.57665E+04, time = 10.85 | CG iter. 8 -- res = 0.85938E+06, tol = 0.57665E+04, time = 11.19 | CG iter. 9 -- res = 0.55336E+06, tol = 0.57665E+04, time = 11.29 | CG iter. 10 -- res = 0.32235E+06, tol = 0.57665E+04, time = 11.37 | CG iter. 11 -- res = 0.17679E+06, tol = 0.57665E+04, time = 11.23 | CG iter. 12 -- res = 0.97306E+05, tol = 0.57665E+04, time = 11.11 | CG iter. 13 -- res = 0.53658E+05, tol = 0.57665E+04, time = 11.65 | CG iter. 14 -- res = 0.31603E+05, tol = 0.57665E+04, time = 11.18 | CG iter. 15 -- res = 0.21502E+05, tol = 0.57665E+04, time = 17.73 | CG iter. 16 -- res = 0.16313E+05, tol = 0.57665E+04, time = 11.03 | CG iter. 17 -- res = 0.12680E+05, tol = 0.57665E+04, time = 11.25 | CG iter. 18 -- res = 0.96348E+04, tol = 0.57665E+04, time = 10.99 | CG iter. 19 -- res = 0.75029E+04, tol = 0.57665E+04, time = 11.03 | CG iter. 20 -- res = 0.60813E+04, tol = 0.57665E+04, time = 11.53 | CG iter. 21 -- res = 0.53193E+04, tol = 0.57665E+04, time = 10.95 | CG iter. 22 -- res = 0.53063E+04, tol = 0.57665E+04, time = 10.88 | CG iter. 23 -- res = 0.56518E+04, tol = 0.57665E+04, time = 13.74 | CG iter. 24 -- res = 0.61008E+04, tol = 0.57665E+04, time = 11.49 | CG iter. 25 -- res = 0.62913E+04, tol = 0.57665E+04, time = 11.26 | CG iter. 26 -- res = 0.57773E+04, tol = 0.57665E+04, time = 11.44 | CG iter. 27 -- res = 0.47279E+04, tol = 0.57665E+04, time = 11.27 | CG iter. 28 -- res = 0.36983E+04, tol = 0.57665E+04, time = 11.23 | CG iter. 29 -- res = 0.29497E+04, tol = 0.57665E+04, time = 10.89 | CG iter. 30 -- res = 0.24313E+04, tol = 0.57665E+04, time = 11.19 | CG iter. 31 -- res = 0.20303E+04, tol = 0.57665E+04, time = 11.07 | CG iter. 32 -- res = 0.16968E+04, tol = 0.57665E+04, time = 11.24 | CG iter. 33 -- res = 0.13666E+04, tol = 0.57665E+04, time = 11.30 | CG iter. 34 -- res = 0.10682E+04, tol = 0.57665E+04, time = 10.93 | CG iter. 35 -- res = 0.87051E+03, tol = 0.57665E+04, time = 11.70 | CG iter. 36 -- res = 0.75744E+03, tol = 0.57665E+04, time = 11.16 | CG iter. 37 -- res = 0.70913E+03, tol = 0.57665E+04, time = 10.77 | CG iter. 38 -- res = 0.69974E+03, tol = 0.57665E+04, time = 11.19 | CG iter. 39 -- res = 0.66236E+03, tol = 0.57665E+04, time = 11.05 | CG iter. 40 -- res = 0.58886E+03, tol = 0.57665E+04, time = 11.10 | CG iter. 41 -- res = 0.50576E+03, tol = 0.57665E+04, time = 17.63 | CG iter. 42 -- res = 0.41864E+03, tol = 0.57665E+04, time = 10.90 | CG iter. 43 -- res = 0.34746E+03, tol = 0.57665E+04, time = 11.09 | CG iter. 44 -- res = 0.30387E+03, tol = 0.57665E+04, time = 11.12 | CG iter. 45 -- res = 0.27023E+03, tol = 0.57665E+04, time = 10.97 | CG iter. 46 -- res = 0.24163E+03, tol = 0.57665E+04, time = 10.87 | CG iter. 47 -- res = 0.21267E+03, tol = 0.57665E+04, time = 11.24 | CG iter. 48 -- res = 0.17708E+03, tol = 0.57665E+04, time = 11.23 | CG iter. 49 -- res = 0.14628E+03, tol = 0.57665E+04, time = 12.55 | CG iter. 50 -- res = 0.12569E+03, tol = 0.57665E+04, time = 11.53 | CG iter. 51 -- res = 0.11561E+03, tol = 0.57665E+04, time = 11.31 | CG iter. 52 -- res = 0.11204E+03, tol = 0.57665E+04, time = 11.12 | CG iter. 53 -- res = 0.10699E+03, tol = 0.57665E+04, time = 11.45 | CG iter. 54 -- res = 0.10128E+03, tol = 0.57665E+04, time = 10.88 | CG iter. 55 -- res = 0.93309E+02, tol = 0.57665E+04, time = 11.25 | CG iter. 56 -- res = 0.84604E+02, tol = 0.57665E+04, time = 11.20 | CG iter. 57 -- res = 0.71756E+02, tol = 0.57665E+04, time = 11.18 | CG iter. 58 -- res = 0.63231E+02, tol = 0.57665E+04, time = 11.17 | CG iter. 59 -- res = 0.60253E+02, tol = 0.57665E+04, time = 11.00 | CG iter. 60 -- res = 0.57475E+02, tol = 0.57665E+04, time = 11.14 | Final CG iter 61 -- res = 0.57475E+02, tol = 0.57665E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.837 ( -229.493 -2230.515 2513.117 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9497094.782 | Old band monopole 8228707.720 | Change to band monopole 1268387.061 | Change to component monopole -1268381.606 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.650 2.760 | New value -1.705 | Old value 2.650 | Difference -4.355 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.470 ( 6.332 9.948 -9.654 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.879 5.272 | New value -1.153 | Old value 9.879 | Difference -11.031 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.11074E+07, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.62335E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.26884E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.32568E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.28560E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9497053.932 | (Sampled value in CG: 9474463.896 ) | Chain = 1 -- chisq = 0.81557829E+09 | Chain = 1 -- wall time = 18048.503 sec Available RAM: MemAvailable: 491544728 kB Available Swap: SwapFree: 1054265564 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 337 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447132 | --> Sampling calibration, mode = relcal | relcal = 1.3422934E-02 7.5188489E-04 -1.5967183E-03 -1.2578101E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1159007 0.1276998 97045372.7389077 | BP delta = 0.1111514 0.1229505 97045375.3488255 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632284 | --> Sampling calibration, mode = relcal | relcal = -2.8202790E-03 -7.0460467E-04 1.6784051E-03 1.6141399E-03 -4.0692894E-04 6.3926756E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5619876 15214152.3838002 | BP delta = 0.0000000E+00 -0.5629849 15214156.0822056 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18495303159393 | --> Sampling calibration, mode = relcal | relcal = -7.5077243E-02 -5.8694959E-02 9.2063673E-02 4.1708529E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8821180E-04 4.8824600E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1750E-05 | 2: delta_r/delta_0: 9.7033E-07 | 3: delta_s/delta_0: 1.9735E-07 | 4: delta_r/delta_0: 1.9136E-08 | 5: delta_s/delta_0: 4.5957E-09 | 6: delta_r/delta_0: 1.3621E-09 | 7: delta_s/delta_0: 3.0816E-10 | 8: delta_r/delta_0: 9.0693E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.650579535168706E-004 2.731950343806759E-005 | BP delta = 8.4550709E-02 0.1060610 50482855.1501148 | BP delta = 8.4046863E-02 0.1055572 50482855.2757154 | BP chisq diff = 0.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596151 | --> Sampling calibration, mode = relcal | relcal = -0.1066992 -9.5547043E-02 0.1449203 5.7326000E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4829702E-03 1.4914818E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8670E-05 | 2: delta_r/delta_0: 1.3166E-06 | 3: delta_s/delta_0: 2.3950E-07 | 4: delta_r/delta_0: 5.2998E-08 | 5: delta_s/delta_0: 1.9133E-08 | 6: delta_r/delta_0: 7.5905E-09 | 7: delta_s/delta_0: 6.8600E-09 | 8: delta_r/delta_0: 1.6580E-09 | 9: delta_s/delta_0: 7.7870E-10 | 10: delta_r/delta_0: 5.5531E-10 | 11: delta_s/delta_0: 2.7103E-09 | 12: delta_r/delta_0: 7.2298E-10 | 13: delta_s/delta_0: 1.2981E-10 | 14: delta_r/delta_0: 1.0797E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.841331391991977E-003 2.810943726203728E-005 | BP delta = -0.2936215 -0.2623434 57394580.0831794 | BP delta = -0.2924837 -0.2612056 57394580.0538525 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81208482 | --> Sampling calibration, mode = relcal | relcal = 0.2954960 0.2247864 -0.2837548 -0.2365276 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.9253054E-04 5.4196930E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.3614E-03 | 2: delta_r/delta_0: 2.1853E-04 | 3: delta_s/delta_0: 4.4198E-05 | 4: delta_r/delta_0: 3.3987E-06 | 5: delta_s/delta_0: 3.9178E-06 | 6: delta_r/delta_0: 2.6567E-07 | 7: delta_s/delta_0: 8.6249E-08 | 8: delta_r/delta_0: 3.3455E-08 | 9: delta_s/delta_0: 4.2323E-06 | 10: delta_r/delta_0: 7.0159E-08 | 11: delta_s/delta_0: 3.0834E-08 | 12: delta_r/delta_0: 4.6369E-09 | 13: delta_s/delta_0: 7.2349E-10 | 14: delta_r/delta_0: 2.4000E-10 | 15: delta_s/delta_0: 1.2823E-10 | 16: delta_r/delta_0: 7.3729E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 3.414625010985350E-002 4.022596683624635E-005 | BP delta = -0.1811021 -0.2094124 72484174.6768718 | BP delta = -0.1290921 -0.1574024 72484176.4673730 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95892039 | --> Sampling calibration, mode = relcal | relcal = 0.1064982 0.1395209 -0.1102558 -0.1357632 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.9508630E-03 1.4151835E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2923E-04 | 2: delta_r/delta_0: 1.5374E-05 | 3: delta_s/delta_0: 1.8923E-05 | 4: delta_r/delta_0: 1.4129E-06 | 5: delta_s/delta_0: 3.3410E-07 | 6: delta_r/delta_0: 1.6254E-07 | 7: delta_s/delta_0: 4.4770E-07 | 8: delta_r/delta_0: 4.0094E-08 | 9: delta_s/delta_0: 1.9852E-08 | 10: delta_r/delta_0: 3.1484E-09 | 11: delta_s/delta_0: 2.4557E-09 | 12: delta_r/delta_0: 1.0329E-09 | 13: delta_s/delta_0: 2.5184E-09 | 14: delta_r/delta_0: 4.6607E-10 | 15: delta_s/delta_0: 7.2947E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.357093728251028E-002 3.698104635634050E-005 | BP delta = 8.8645630E-02 0.2021713 72789269.4820202 | BP delta = 0.1401547 0.2536804 72789270.1033215 | BP chisq diff = 0.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139573 | New value = -3.075419 | poltype: 2 pol: 1 CPU time specind = 2.2181988E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.086628 | New value = -3.080430 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146126 | New value = -3.102202 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.097034 | New value = -3.230749 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194073 | New value = -3.140960 | poltype: 2 pol: 2 CPU time specind = 4.1010380E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.13688E+08, tol = 0.75890E+01, time = 5.42 | CG iter. 2 -- res = 0.37289E+06, tol = 0.75890E+01, time = 6.19 | CG iter. 3 -- res = 0.10974E+06, tol = 0.75890E+01, time = 5.97 | CG iter. 4 -- res = 0.13189E+06, tol = 0.75890E+01, time = 5.31 | CG iter. 5 -- res = 0.13424E+06, tol = 0.75890E+01, time = 5.76 | CG iter. 6 -- res = 0.12199E+06, tol = 0.75890E+01, time = 6.25 | CG iter. 7 -- res = 0.91886E+05, tol = 0.75890E+01, time = 5.90 | CG iter. 8 -- res = 0.59529E+05, tol = 0.75890E+01, time = 6.41 | CG iter. 9 -- res = 0.48937E+05, tol = 0.75890E+01, time = 5.52 | CG iter. 10 -- res = 0.37425E+05, tol = 0.75890E+01, time = 5.93 | CG iter. 11 -- res = 0.26441E+05, tol = 0.75890E+01, time = 5.51 | CG iter. 12 -- res = 0.19187E+05, tol = 0.75890E+01, time = 5.75 | CG iter. 13 -- res = 0.15237E+05, tol = 0.75890E+01, time = 5.61 | CG iter. 14 -- res = 0.12346E+05, tol = 0.75890E+01, time = 6.04 | CG iter. 15 -- res = 0.92588E+04, tol = 0.75890E+01, time = 6.02 | CG iter. 16 -- res = 0.59406E+04, tol = 0.75890E+01, time = 5.85 | CG iter. 17 -- res = 0.40251E+04, tol = 0.75890E+01, time = 5.48 | CG iter. 18 -- res = 0.33389E+04, tol = 0.75890E+01, time = 6.10 | CG iter. 19 -- res = 0.27783E+04, tol = 0.75890E+01, time = 12.00 | CG iter. 20 -- res = 0.19959E+04, tol = 0.75890E+01, time = 5.88 | CG iter. 21 -- res = 0.13993E+04, tol = 0.75890E+01, time = 5.95 | CG iter. 22 -- res = 0.11104E+04, tol = 0.75890E+01, time = 6.11 | CG iter. 23 -- res = 0.92552E+03, tol = 0.75890E+01, time = 5.69 | CG iter. 24 -- res = 0.69751E+03, tol = 0.75890E+01, time = 5.71 | CG iter. 25 -- res = 0.49862E+03, tol = 0.75890E+01, time = 5.95 | CG iter. 26 -- res = 0.37916E+03, tol = 0.75890E+01, time = 6.03 | CG iter. 27 -- res = 0.32999E+03, tol = 0.75890E+01, time = 6.01 | CG iter. 28 -- res = 0.26965E+03, tol = 0.75890E+01, time = 5.68 | CG iter. 29 -- res = 0.19943E+03, tol = 0.75890E+01, time = 5.34 | CG iter. 30 -- res = 0.14705E+03, tol = 0.75890E+01, time = 5.96 | CG iter. 31 -- res = 0.12554E+03, tol = 0.75890E+01, time = 6.17 | CG iter. 32 -- res = 0.10457E+03, tol = 0.75890E+01, time = 5.61 | CG iter. 33 -- res = 0.78734E+02, tol = 0.75890E+01, time = 6.89 | CG iter. 34 -- res = 0.56440E+02, tol = 0.75890E+01, time = 6.33 | CG iter. 35 -- res = 0.46677E+02, tol = 0.75890E+01, time = 6.18 | CG iter. 36 -- res = 0.38382E+02, tol = 0.75890E+01, time = 5.70 | CG iter. 37 -- res = 0.29731E+02, tol = 0.75890E+01, time = 5.84 | CG iter. 38 -- res = 0.21185E+02, tol = 0.75890E+01, time = 6.08 | CG iter. 39 -- res = 0.15696E+02, tol = 0.75890E+01, time = 5.95 | CG iter. 40 -- res = 0.13022E+02, tol = 0.75890E+01, time = 5.74 | CG iter. 41 -- res = 0.10223E+02, tol = 0.75890E+01, time = 5.80 | CG iter. 42 -- res = 0.73634E+01, tol = 0.75890E+01, time = 5.78 | CG iter. 43 -- res = 0.55067E+01, tol = 0.75890E+01, time = 5.26 | CG iter. 44 -- res = 0.44390E+01, tol = 0.75890E+01, time = 5.98 | CG iter. 45 -- res = 0.34671E+01, tol = 0.75890E+01, time = 5.99 | CG iter. 46 -- res = 0.26042E+01, tol = 0.75890E+01, time = 5.99 | CG iter. 47 -- res = 0.18673E+01, tol = 0.75890E+01, time = 5.72 | CG iter. 48 -- res = 0.14204E+01, tol = 0.75890E+01, time = 5.86 | CG iter. 49 -- res = 0.10943E+01, tol = 0.75890E+01, time = 5.47 | CG iter. 50 -- res = 0.80879E+00, tol = 0.75890E+01, time = 5.76 | Final CG iter 51 -- res = 0.80879E+00, tol = 0.75890E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8573461.606 | Old band monopole 9497094.782 | Change to band monopole -923633.175 | Change to component monopole 923629.203 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.48147E+06, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.18994E+03, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.25873E+01, tol = 0.47627E+18, time = 2.33 | CG iter. 4 -- res = 0.31733E-01, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.44853E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8573424.730 | (Sampled value in CG: 8665506.004 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.486984 | New value = 1.500220 | poltype: 2 pol: 1 CPU time specind = 2.3088932E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.513787 | New value = 1.485270 | poltype: 2 pol: 2 CPU time specind = 2.0591974E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.24023E+08, tol = 0.47552E+04, time = 6.66 | CG iter. 2 -- res = 0.52133E+07, tol = 0.47552E+04, time = 6.82 | CG iter. 3 -- res = 0.81753E+06, tol = 0.47552E+04, time = 6.72 | CG iter. 4 -- res = 0.34198E+06, tol = 0.47552E+04, time = 6.51 | CG iter. 5 -- res = 0.14774E+06, tol = 0.47552E+04, time = 6.54 | CG iter. 6 -- res = 0.79030E+05, tol = 0.47552E+04, time = 6.77 | CG iter. 7 -- res = 0.43418E+05, tol = 0.47552E+04, time = 6.98 | CG iter. 8 -- res = 0.20896E+05, tol = 0.47552E+04, time = 6.49 | CG iter. 9 -- res = 0.90650E+04, tol = 0.47552E+04, time = 6.58 | CG iter. 10 -- res = 0.36755E+04, tol = 0.47552E+04, time = 6.84 | CG iter. 11 -- res = 0.16244E+04, tol = 0.47552E+04, time = 6.51 | CG iter. 12 -- res = 0.86570E+03, tol = 0.47552E+04, time = 7.51 | CG iter. 13 -- res = 0.49599E+03, tol = 0.47552E+04, time = 7.33 | CG iter. 14 -- res = 0.27846E+03, tol = 0.47552E+04, time = 6.94 | CG iter. 15 -- res = 0.14192E+03, tol = 0.47552E+04, time = 6.68 | CG iter. 16 -- res = 0.66430E+02, tol = 0.47552E+04, time = 6.87 | CG iter. 17 -- res = 0.31514E+02, tol = 0.47552E+04, time = 7.05 | CG iter. 18 -- res = 0.16080E+02, tol = 0.47552E+04, time = 6.64 | CG iter. 19 -- res = 0.86703E+01, tol = 0.47552E+04, time = 6.39 | CG iter. 20 -- res = 0.49289E+01, tol = 0.47552E+04, time = 6.57 | CG iter. 21 -- res = 0.27335E+01, tol = 0.47552E+04, time = 6.62 | CG iter. 22 -- res = 0.13931E+01, tol = 0.47552E+04, time = 6.50 | CG iter. 23 -- res = 0.68982E+00, tol = 0.47552E+04, time = 6.36 | CG iter. 24 -- res = 0.34813E+00, tol = 0.47552E+04, time = 6.65 | CG iter. 25 -- res = 0.18916E+00, tol = 0.47552E+04, time = 6.46 | CG iter. 26 -- res = 0.10664E+00, tol = 0.47552E+04, time = 6.76 | CG iter. 27 -- res = 0.59627E-01, tol = 0.47552E+04, time = 6.42 | CG iter. 28 -- res = 0.32041E-01, tol = 0.47552E+04, time = 6.45 | CG iter. 29 -- res = 0.16784E-01, tol = 0.47552E+04, time = 7.30 | CG iter. 30 -- res = 0.88174E-02, tol = 0.47552E+04, time = 6.31 | CG iter. 31 -- res = 0.48301E-02, tol = 0.47552E+04, time = 6.88 | CG iter. 32 -- res = 0.27225E-02, tol = 0.47552E+04, time = 6.58 | CG iter. 33 -- res = 0.15095E-02, tol = 0.47552E+04, time = 6.74 | CG iter. 34 -- res = 0.82341E-03, tol = 0.47552E+04, time = 6.94 | CG iter. 35 -- res = 0.43022E-03, tol = 0.47552E+04, time = 6.72 | Final CG iter 36 -- res = 0.43022E-03, tol = 0.47552E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.694 2.744 | New value -2.491 | Old value -1.694 | Difference -0.797 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.41844E+05, tol = 0.47627E+18, time = 2.18 | CG iter. 2 -- res = 0.84996E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.16567E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.17131E-03, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.20736E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8573424.730 | (Sampled value in CG: 8665747.008 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.570512 | New value = -3.540562 | poltype: 1 pol: 1 CPU time specind = 1.8126011E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.29152E+07, tol = 0.24503E+01, time = 2.79 | CG iter. 2 -- res = 0.12002E+07, tol = 0.24503E+01, time = 2.68 | CG iter. 3 -- res = 0.25101E+06, tol = 0.24503E+01, time = 2.89 | CG iter. 4 -- res = 0.10912E+06, tol = 0.24503E+01, time = 2.57 | CG iter. 5 -- res = 0.63352E+05, tol = 0.24503E+01, time = 2.71 | CG iter. 6 -- res = 0.30398E+05, tol = 0.24503E+01, time = 2.72 | CG iter. 7 -- res = 0.11009E+05, tol = 0.24503E+01, time = 2.78 | CG iter. 8 -- res = 0.45169E+04, tol = 0.24503E+01, time = 2.76 | CG iter. 9 -- res = 0.21105E+04, tol = 0.24503E+01, time = 2.72 | CG iter. 10 -- res = 0.84519E+03, tol = 0.24503E+01, time = 2.71 | CG iter. 11 -- res = 0.33798E+03, tol = 0.24503E+01, time = 3.30 | CG iter. 12 -- res = 0.15859E+03, tol = 0.24503E+01, time = 2.77 | CG iter. 13 -- res = 0.83325E+02, tol = 0.24503E+01, time = 2.77 | CG iter. 14 -- res = 0.43257E+02, tol = 0.24503E+01, time = 2.58 | CG iter. 15 -- res = 0.20887E+02, tol = 0.24503E+01, time = 9.29 | CG iter. 16 -- res = 0.91996E+01, tol = 0.24503E+01, time = 2.91 | CG iter. 17 -- res = 0.38145E+01, tol = 0.24503E+01, time = 2.74 | CG iter. 18 -- res = 0.17399E+01, tol = 0.24503E+01, time = 2.66 | CG iter. 19 -- res = 0.85091E+00, tol = 0.24503E+01, time = 2.98 | CG iter. 20 -- res = 0.43531E+00, tol = 0.24503E+01, time = 2.82 | CG iter. 21 -- res = 0.21682E+00, tol = 0.24503E+01, time = 2.78 | CG iter. 22 -- res = 0.99348E-01, tol = 0.24503E+01, time = 2.72 | CG iter. 23 -- res = 0.44170E-01, tol = 0.24503E+01, time = 2.60 | CG iter. 24 -- res = 0.20196E-01, tol = 0.24503E+01, time = 2.87 | CG iter. 25 -- res = 0.99243E-02, tol = 0.24503E+01, time = 2.82 | CG iter. 26 -- res = 0.49378E-02, tol = 0.24503E+01, time = 2.71 | CG iter. 27 -- res = 0.25192E-02, tol = 0.24503E+01, time = 2.76 | CG iter. 28 -- res = 0.12666E-02, tol = 0.24503E+01, time = 2.66 | CG iter. 29 -- res = 0.57777E-03, tol = 0.24503E+01, time = 2.67 | CG iter. 30 -- res = 0.26333E-03, tol = 0.24503E+01, time = 2.93 | CG iter. 31 -- res = 0.12702E-03, tol = 0.24503E+01, time = 2.59 | CG iter. 32 -- res = 0.60943E-04, tol = 0.24503E+01, time = 2.70 | CG iter. 33 -- res = 0.30247E-04, tol = 0.24503E+01, time = 2.85 | CG iter. 34 -- res = 0.15015E-04, tol = 0.24503E+01, time = 2.63 | CG iter. 35 -- res = 0.73864E-05, tol = 0.24503E+01, time = 2.88 | CG iter. 36 -- res = 0.35227E-05, tol = 0.24503E+01, time = 2.70 | CG iter. 37 -- res = 0.16307E-05, tol = 0.24503E+01, time = 2.69 | CG iter. 38 -- res = 0.81774E-06, tol = 0.24503E+01, time = 2.91 | CG iter. 39 -- res = 0.39176E-06, tol = 0.24503E+01, time = 2.99 | CG iter. 40 -- res = 0.19314E-06, tol = 0.24503E+01, time = 2.63 | CG iter. 41 -- res = 0.97677E-07, tol = 0.24503E+01, time = 2.62 | CG iter. 42 -- res = 0.47747E-07, tol = 0.24503E+01, time = 2.61 | CG iter. 43 -- res = 0.21037E-07, tol = 0.24503E+01, time = 3.04 | CG iter. 44 -- res = 0.98369E-08, tol = 0.24503E+01, time = 2.92 | CG iter. 45 -- res = 0.46118E-08, tol = 0.24503E+01, time = 3.80 | CG iter. 46 -- res = 0.22937E-08, tol = 0.24503E+01, time = 3.60 | CG iter. 47 -- res = 0.11985E-08, tol = 0.24503E+01, time = 3.11 | CG iter. 48 -- res = 0.56815E-09, tol = 0.24503E+01, time = 3.04 | CG iter. 49 -- res = 0.26757E-09, tol = 0.24503E+01, time = 3.24 | CG iter. 50 -- res = 0.12033E-09, tol = 0.24503E+01, time = 2.83 | Final CG iter 51 -- res = 0.12033E-09, tol = 0.24503E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.654 4.047 | New value -9.129 | Old value 4.654 | Difference -13.783 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.19537E+06, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.10812E+03, tol = 0.47627E+18, time = 2.28 | CG iter. 3 -- res = 0.31440E+01, tol = 0.47627E+18, time = 2.35 | CG iter. 4 -- res = 0.14854E-01, tol = 0.47627E+18, time = 2.18 | Final CG iter 5 -- res = 0.53540E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8573424.730 | (Sampled value in CG: 8645362.724 ) | CPU time specind = 1220.541 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.68426E+08, tol = 0.57590E+04, time = 12.67 | CG iter. 2 -- res = 0.59679E+08, tol = 0.57590E+04, time = 12.16 | CG iter. 3 -- res = 0.15769E+08, tol = 0.57590E+04, time = 12.06 | CG iter. 4 -- res = 0.66636E+07, tol = 0.57590E+04, time = 12.41 | CG iter. 5 -- res = 0.39464E+07, tol = 0.57590E+04, time = 11.96 | CG iter. 6 -- res = 0.22273E+07, tol = 0.57590E+04, time = 11.90 | CG iter. 7 -- res = 0.13360E+07, tol = 0.57590E+04, time = 12.22 | CG iter. 8 -- res = 0.90389E+06, tol = 0.57590E+04, time = 12.00 | CG iter. 9 -- res = 0.60248E+06, tol = 0.57590E+04, time = 18.88 | CG iter. 10 -- res = 0.37926E+06, tol = 0.57590E+04, time = 11.97 | CG iter. 11 -- res = 0.22219E+06, tol = 0.57590E+04, time = 11.96 | CG iter. 12 -- res = 0.13015E+06, tol = 0.57590E+04, time = 11.86 | CG iter. 13 -- res = 0.80314E+05, tol = 0.57590E+04, time = 11.53 | CG iter. 14 -- res = 0.57113E+05, tol = 0.57590E+04, time = 11.88 | CG iter. 15 -- res = 0.48976E+05, tol = 0.57590E+04, time = 12.28 | CG iter. 16 -- res = 0.47738E+05, tol = 0.57590E+04, time = 13.39 | CG iter. 17 -- res = 0.45752E+05, tol = 0.57590E+04, time = 12.65 | CG iter. 18 -- res = 0.43010E+05, tol = 0.57590E+04, time = 11.78 | CG iter. 19 -- res = 0.38844E+05, tol = 0.57590E+04, time = 12.10 | CG iter. 20 -- res = 0.35409E+05, tol = 0.57590E+04, time = 12.02 | CG iter. 21 -- res = 0.33406E+05, tol = 0.57590E+04, time = 11.75 | CG iter. 22 -- res = 0.32892E+05, tol = 0.57590E+04, time = 11.90 | CG iter. 23 -- res = 0.30832E+05, tol = 0.57590E+04, time = 12.02 | CG iter. 24 -- res = 0.27998E+05, tol = 0.57590E+04, time = 12.23 | CG iter. 25 -- res = 0.23436E+05, tol = 0.57590E+04, time = 12.00 | CG iter. 26 -- res = 0.17492E+05, tol = 0.57590E+04, time = 11.70 | CG iter. 27 -- res = 0.12671E+05, tol = 0.57590E+04, time = 12.08 | CG iter. 28 -- res = 0.96069E+04, tol = 0.57590E+04, time = 11.72 | CG iter. 29 -- res = 0.79810E+04, tol = 0.57590E+04, time = 11.97 | CG iter. 30 -- res = 0.71387E+04, tol = 0.57590E+04, time = 12.35 | CG iter. 31 -- res = 0.65068E+04, tol = 0.57590E+04, time = 12.19 | CG iter. 32 -- res = 0.59780E+04, tol = 0.57590E+04, time = 12.26 | CG iter. 33 -- res = 0.53953E+04, tol = 0.57590E+04, time = 12.99 | CG iter. 34 -- res = 0.46762E+04, tol = 0.57590E+04, time = 18.22 | CG iter. 35 -- res = 0.40878E+04, tol = 0.57590E+04, time = 12.21 | CG iter. 36 -- res = 0.37200E+04, tol = 0.57590E+04, time = 12.19 | CG iter. 37 -- res = 0.34521E+04, tol = 0.57590E+04, time = 11.67 | CG iter. 38 -- res = 0.32147E+04, tol = 0.57590E+04, time = 12.40 | CG iter. 39 -- res = 0.28902E+04, tol = 0.57590E+04, time = 11.80 | CG iter. 40 -- res = 0.23849E+04, tol = 0.57590E+04, time = 11.99 | CG iter. 41 -- res = 0.19010E+04, tol = 0.57590E+04, time = 13.89 | CG iter. 42 -- res = 0.15159E+04, tol = 0.57590E+04, time = 12.04 | CG iter. 43 -- res = 0.12973E+04, tol = 0.57590E+04, time = 12.08 | CG iter. 44 -- res = 0.12037E+04, tol = 0.57590E+04, time = 11.83 | CG iter. 45 -- res = 0.11117E+04, tol = 0.57590E+04, time = 12.33 | CG iter. 46 -- res = 0.10551E+04, tol = 0.57590E+04, time = 12.26 | CG iter. 47 -- res = 0.97303E+03, tol = 0.57590E+04, time = 12.20 | CG iter. 48 -- res = 0.85558E+03, tol = 0.57590E+04, time = 11.66 | CG iter. 49 -- res = 0.75235E+03, tol = 0.57590E+04, time = 12.87 | CG iter. 50 -- res = 0.67117E+03, tol = 0.57590E+04, time = 11.57 | CG iter. 51 -- res = 0.62357E+03, tol = 0.57590E+04, time = 12.12 | CG iter. 52 -- res = 0.59384E+03, tol = 0.57590E+04, time = 12.32 | CG iter. 53 -- res = 0.54556E+03, tol = 0.57590E+04, time = 12.25 | CG iter. 54 -- res = 0.48901E+03, tol = 0.57590E+04, time = 12.09 | CG iter. 55 -- res = 0.42235E+03, tol = 0.57590E+04, time = 12.33 | CG iter. 56 -- res = 0.36047E+03, tol = 0.57590E+04, time = 11.88 | CG iter. 57 -- res = 0.31766E+03, tol = 0.57590E+04, time = 11.94 | CG iter. 58 -- res = 0.29272E+03, tol = 0.57590E+04, time = 18.16 | CG iter. 59 -- res = 0.28479E+03, tol = 0.57590E+04, time = 11.76 | CG iter. 60 -- res = 0.26760E+03, tol = 0.57590E+04, time = 11.77 | Final CG iter 61 -- res = 0.26760E+03, tol = 0.57590E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.742 ( -229.517 -2229.901 2512.588 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6963408.500 | Old band monopole 8573461.606 | Change to band monopole -1610053.107 | Change to component monopole 1610046.181 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.520 2.735 | New value 2.032 | Old value -2.520 | Difference 4.552 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.108 ( 5.366 8.316 -8.819 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.369 5.082 | New value 3.070 | Old value -9.369 | Difference 12.439 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.16848E+07, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.17087E+03, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.40024E+01, tol = 0.47627E+18, time = 2.25 | CG iter. 4 -- res = 0.25480E-02, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.40028E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6963378.549 | (Sampled value in CG: 6945315.128 ) | Chain = 1 -- chisq = 0.81537558E+09 | Chain = 1 -- wall time = 5821.407 sec Available RAM: MemAvailable: 379414780 kB Available Swap: SwapFree: 1127569116 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 338 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447398 | --> Sampling calibration, mode = relcal | relcal = 1.3442732E-02 7.3320267E-04 -1.5944334E-03 -1.2581502E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1159007 0.1276998 9406414.74001587 | BP delta = 0.1159007 0.1336396 9406443.16218863 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632216 | --> Sampling calibration, mode = relcal | relcal = -2.8196599E-03 -7.0334115E-04 1.6785073E-03 1.6142899E-03 -4.0833466E-04 6.3853851E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5619876 15215081.7847223 | BP delta = 0.0000000E+00 -0.5678225 15215090.2037841 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18400657062104 | --> Sampling calibration, mode = relcal | relcal = -7.4472137E-02 -5.8310039E-02 9.1424771E-02 4.1357402E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9959366E-04 4.2765383E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7949E-05 | 2: delta_r/delta_0: 7.7442E-07 | 3: delta_s/delta_0: 2.5163E-07 | 4: delta_r/delta_0: 1.2182E-08 | 5: delta_s/delta_0: 9.3301E-09 | 6: delta_r/delta_0: 2.4981E-09 | 7: delta_s/delta_0: 3.0261E-10 | 8: delta_r/delta_0: 9.1468E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.362257813105805E-004 2.734227703681454E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7949E-05 | 2: delta_r/delta_0: 7.7443E-07 | 3: delta_s/delta_0: 2.5163E-07 | 4: delta_r/delta_0: 1.2182E-08 | 5: delta_s/delta_0: 9.3297E-09 | 6: delta_r/delta_0: 2.4980E-09 | 7: delta_s/delta_0: 3.0262E-10 | 8: delta_r/delta_0: 9.1466E-11 | Reached bicg-stab tolerance | BP delta = 8.4046863E-02 0.1055572 3580586.00410159 | BP delta = 8.4046863E-02 0.1058351 3580818.13989610 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02590102 | --> Sampling calibration, mode = relcal | relcal = -0.1066329 -9.5577292E-02 0.1449922 5.7218041E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0853301E-03 1.4423458E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3026E-05 | 2: delta_r/delta_0: 1.2375E-06 | 3: delta_s/delta_0: 2.3763E-07 | 4: delta_r/delta_0: 5.2825E-08 | 5: delta_s/delta_0: 1.6559E-08 | 6: delta_r/delta_0: 6.9471E-09 | 7: delta_s/delta_0: 2.8060E-08 | 8: delta_r/delta_0: 1.4101E-09 | 9: delta_s/delta_0: 9.2713E-10 | 10: delta_r/delta_0: 3.4823E-10 | 11: delta_s/delta_0: 3.3998E-09 | 12: delta_r/delta_0: 3.5546E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.793825451966338E-003 2.811094945429547E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3026E-05 | 2: delta_r/delta_0: 1.2375E-06 | 3: delta_s/delta_0: 2.3763E-07 | 4: delta_r/delta_0: 5.2825E-08 | 5: delta_s/delta_0: 1.6559E-08 | 6: delta_r/delta_0: 6.9471E-09 | 7: delta_s/delta_0: 2.8060E-08 | 8: delta_r/delta_0: 1.4101E-09 | 9: delta_s/delta_0: 9.2713E-10 | 10: delta_r/delta_0: 3.4823E-10 | 11: delta_s/delta_0: 3.3998E-09 | 12: delta_r/delta_0: 3.5546E-11 | Reached bicg-stab tolerance | BP delta = -0.2924837 -0.2612056 2841634.01813788 | BP delta = -0.2924837 -0.2622808 2841634.27756282 | BP chisq diff = 0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81201697 | --> Sampling calibration, mode = relcal | relcal = 0.2953642 0.2247668 -0.2836183 -0.2365127 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6269842E-04 5.2636941E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5503E-03 | 2: delta_r/delta_0: 8.4433E-05 | 3: delta_s/delta_0: 4.8824E-05 | 4: delta_r/delta_0: 3.4770E-06 | 5: delta_s/delta_0: 1.0547E-06 | 6: delta_r/delta_0: 3.2441E-07 | 7: delta_s/delta_0: 7.0160E-07 | 8: delta_r/delta_0: 6.8475E-08 | 9: delta_s/delta_0: 1.0254E-06 | 10: delta_r/delta_0: 4.3216E-07 | 11: delta_s/delta_0: 3.8442E-09 | 12: delta_r/delta_0: 1.6605E-09 | 13: delta_s/delta_0: 9.0194E-07 | 14: delta_r/delta_0: 1.9899E-08 | 15: delta_s/delta_0: 1.1383E-10 | 16: delta_r/delta_0: 3.2517E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.132321904334659E-002 4.022713180717908E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5486E-03 | 2: delta_r/delta_0: 8.4394E-05 | 3: delta_s/delta_0: 4.8803E-05 | 4: delta_r/delta_0: 3.4755E-06 | 5: delta_s/delta_0: 1.0544E-06 | 6: delta_r/delta_0: 3.2438E-07 | 7: delta_s/delta_0: 7.0178E-07 | 8: delta_r/delta_0: 6.8458E-08 | 9: delta_s/delta_0: 1.0237E-06 | 10: delta_r/delta_0: 4.3159E-07 | 11: delta_s/delta_0: 3.8433E-09 | 12: delta_r/delta_0: 1.6602E-09 | 13: delta_s/delta_0: 9.1321E-07 | 14: delta_r/delta_0: 2.0194E-08 | 15: delta_s/delta_0: 1.1382E-10 | 16: delta_r/delta_0: 3.2505E-11 | Reached bicg-stab tolerance | BP delta = -0.1811021 -0.2094124 2827130.14943312 | BP delta = -0.1811021 -0.2235534 2827119.37410611 | BP chisq diff = -10.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95876427 | --> Sampling calibration, mode = relcal | relcal = 0.1064999 0.1395016 -0.1102084 -0.1357931 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3594166E-03 1.1893998E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6166E-03 | 2: delta_r/delta_0: 1.5838E-04 | 3: delta_s/delta_0: 3.0583E-04 | 4: delta_r/delta_0: 1.5740E-05 | 5: delta_s/delta_0: 8.8604E-07 | 6: delta_r/delta_0: 3.2069E-07 | 7: delta_s/delta_0: 8.2810E-07 | 8: delta_r/delta_0: 7.4689E-08 | 9: delta_s/delta_0: 3.2113E-08 | 10: delta_r/delta_0: 6.8495E-09 | 11: delta_s/delta_0: 3.4235E-09 | 12: delta_r/delta_0: 2.1768E-09 | 13: delta_s/delta_0: 2.7748E-08 | 14: delta_r/delta_0: 1.0862E-08 | 15: delta_s/delta_0: 1.5923E-10 | 16: delta_r/delta_0: 6.1071E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.385848134671476E-002 3.698777430758863E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6094E-03 | 2: delta_r/delta_0: 1.5821E-04 | 3: delta_s/delta_0: 3.0568E-04 | 4: delta_r/delta_0: 1.5733E-05 | 5: delta_s/delta_0: 8.8557E-07 | 6: delta_r/delta_0: 3.2062E-07 | 7: delta_s/delta_0: 8.2968E-07 | 8: delta_r/delta_0: 7.4661E-08 | 9: delta_s/delta_0: 3.2138E-08 | 10: delta_r/delta_0: 6.8455E-09 | 11: delta_s/delta_0: 3.4039E-09 | 12: delta_r/delta_0: 2.1786E-09 | 13: delta_s/delta_0: 2.5223E-08 | 14: delta_r/delta_0: 1.0564E-08 | 15: delta_s/delta_0: 1.6166E-10 | 16: delta_r/delta_0: 6.2847E-11 | Reached bicg-stab tolerance | BP delta = 0.1401547 0.2536804 3004490.95286523 | BP delta = 0.1401547 0.2498077 3004506.23883847 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.075419 | New value = -3.118350 | poltype: 2 pol: 1 CPU time specind = 1.3506889E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.080430 | New value = -3.117668 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.102202 | New value = -3.140223 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230749 | New value = -3.214653 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140960 | New value = -3.185278 | poltype: 2 pol: 2 CPU time specind = 4.3599606E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.13581E+08, tol = 0.96171E+01, time = 5.74 | CG iter. 2 -- res = 0.35516E+06, tol = 0.96171E+01, time = 6.02 | CG iter. 3 -- res = 0.68448E+05, tol = 0.96171E+01, time = 5.52 | CG iter. 4 -- res = 0.49628E+05, tol = 0.96171E+01, time = 5.58 | CG iter. 5 -- res = 0.45425E+05, tol = 0.96171E+01, time = 5.56 | CG iter. 6 -- res = 0.43954E+05, tol = 0.96171E+01, time = 5.85 | CG iter. 7 -- res = 0.42153E+05, tol = 0.96171E+01, time = 5.56 | CG iter. 8 -- res = 0.33781E+05, tol = 0.96171E+01, time = 7.03 | CG iter. 9 -- res = 0.26483E+05, tol = 0.96171E+01, time = 6.52 | CG iter. 10 -- res = 0.21671E+05, tol = 0.96171E+01, time = 5.88 | CG iter. 11 -- res = 0.15058E+05, tol = 0.96171E+01, time = 5.87 | CG iter. 12 -- res = 0.10114E+05, tol = 0.96171E+01, time = 5.55 | CG iter. 13 -- res = 0.79125E+04, tol = 0.96171E+01, time = 5.95 | CG iter. 14 -- res = 0.66668E+04, tol = 0.96171E+01, time = 6.01 | CG iter. 15 -- res = 0.56838E+04, tol = 0.96171E+01, time = 5.56 | CG iter. 16 -- res = 0.39896E+04, tol = 0.96171E+01, time = 5.88 | CG iter. 17 -- res = 0.27087E+04, tol = 0.96171E+01, time = 5.51 | CG iter. 18 -- res = 0.21121E+04, tol = 0.96171E+01, time = 5.66 | CG iter. 19 -- res = 0.18206E+04, tol = 0.96171E+01, time = 5.84 | CG iter. 20 -- res = 0.14553E+04, tol = 0.96171E+01, time = 5.76 | CG iter. 21 -- res = 0.10289E+04, tol = 0.96171E+01, time = 5.70 | CG iter. 22 -- res = 0.80060E+03, tol = 0.96171E+01, time = 5.85 | CG iter. 23 -- res = 0.67490E+03, tol = 0.96171E+01, time = 5.71 | CG iter. 24 -- res = 0.56015E+03, tol = 0.96171E+01, time = 5.93 | CG iter. 25 -- res = 0.40820E+03, tol = 0.96171E+01, time = 5.77 | CG iter. 26 -- res = 0.31446E+03, tol = 0.96171E+01, time = 5.40 | CG iter. 27 -- res = 0.27704E+03, tol = 0.96171E+01, time = 5.46 | CG iter. 28 -- res = 0.24160E+03, tol = 0.96171E+01, time = 5.37 | CG iter. 29 -- res = 0.18556E+03, tol = 0.96171E+01, time = 5.82 | CG iter. 30 -- res = 0.14619E+03, tol = 0.96171E+01, time = 5.63 | CG iter. 31 -- res = 0.12546E+03, tol = 0.96171E+01, time = 5.62 | CG iter. 32 -- res = 0.10848E+03, tol = 0.96171E+01, time = 5.61 | CG iter. 33 -- res = 0.86724E+02, tol = 0.96171E+01, time = 5.79 | CG iter. 34 -- res = 0.65574E+02, tol = 0.96171E+01, time = 5.69 | CG iter. 35 -- res = 0.53809E+02, tol = 0.96171E+01, time = 6.06 | CG iter. 36 -- res = 0.46485E+02, tol = 0.96171E+01, time = 5.34 | CG iter. 37 -- res = 0.39182E+02, tol = 0.96171E+01, time = 5.80 | CG iter. 38 -- res = 0.29176E+02, tol = 0.96171E+01, time = 5.92 | CG iter. 39 -- res = 0.22070E+02, tol = 0.96171E+01, time = 5.80 | CG iter. 40 -- res = 0.18231E+02, tol = 0.96171E+01, time = 5.39 | CG iter. 41 -- res = 0.15103E+02, tol = 0.96171E+01, time = 5.64 | CG iter. 42 -- res = 0.11305E+02, tol = 0.96171E+01, time = 5.76 | CG iter. 43 -- res = 0.87742E+01, tol = 0.96171E+01, time = 5.64 | CG iter. 44 -- res = 0.70585E+01, tol = 0.96171E+01, time = 15.15 | CG iter. 45 -- res = 0.57337E+01, tol = 0.96171E+01, time = 6.80 | CG iter. 46 -- res = 0.44981E+01, tol = 0.96171E+01, time = 5.52 | CG iter. 47 -- res = 0.33846E+01, tol = 0.96171E+01, time = 5.91 | CG iter. 48 -- res = 0.25517E+01, tol = 0.96171E+01, time = 6.28 | CG iter. 49 -- res = 0.21369E+01, tol = 0.96171E+01, time = 5.88 | CG iter. 50 -- res = 0.16672E+01, tol = 0.96171E+01, time = 5.96 | Final CG iter 51 -- res = 0.16672E+01, tol = 0.96171E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9703031.806 | Old band monopole 6963408.500 | Change to band monopole 2739623.307 | Change to component monopole -2739611.523 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.72242E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.22379E+03, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.40756E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.22457E-01, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.56934E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9702990.071 | (Sampled value in CG: 9639372.230 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.500220 | New value = 1.495450 | poltype: 2 pol: 1 CPU time specind = 2.3705006E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485270 | New value = 1.509688 | poltype: 2 pol: 2 CPU time specind = 2.2134066E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.24037E+08, tol = 0.47581E+04, time = 6.35 | CG iter. 2 -- res = 0.55490E+07, tol = 0.47581E+04, time = 6.45 | CG iter. 3 -- res = 0.88422E+06, tol = 0.47581E+04, time = 6.34 | CG iter. 4 -- res = 0.36922E+06, tol = 0.47581E+04, time = 6.49 | CG iter. 5 -- res = 0.16065E+06, tol = 0.47581E+04, time = 6.26 | CG iter. 6 -- res = 0.82778E+05, tol = 0.47581E+04, time = 7.21 | CG iter. 7 -- res = 0.45072E+05, tol = 0.47581E+04, time = 6.48 | CG iter. 8 -- res = 0.21851E+05, tol = 0.47581E+04, time = 6.55 | CG iter. 9 -- res = 0.96757E+04, tol = 0.47581E+04, time = 6.55 | CG iter. 10 -- res = 0.39779E+04, tol = 0.47581E+04, time = 6.71 | CG iter. 11 -- res = 0.17609E+04, tol = 0.47581E+04, time = 6.49 | CG iter. 12 -- res = 0.89439E+03, tol = 0.47581E+04, time = 6.44 | CG iter. 13 -- res = 0.51038E+03, tol = 0.47581E+04, time = 6.70 | CG iter. 14 -- res = 0.29280E+03, tol = 0.47581E+04, time = 6.66 | CG iter. 15 -- res = 0.15159E+03, tol = 0.47581E+04, time = 6.49 | CG iter. 16 -- res = 0.70980E+02, tol = 0.47581E+04, time = 6.42 | CG iter. 17 -- res = 0.32929E+02, tol = 0.47581E+04, time = 6.45 | CG iter. 18 -- res = 0.16760E+02, tol = 0.47581E+04, time = 6.52 | CG iter. 19 -- res = 0.91802E+01, tol = 0.47581E+04, time = 6.70 | CG iter. 20 -- res = 0.52178E+01, tol = 0.47581E+04, time = 6.28 | CG iter. 21 -- res = 0.28243E+01, tol = 0.47581E+04, time = 10.32 | CG iter. 22 -- res = 0.14408E+01, tol = 0.47581E+04, time = 9.16 | CG iter. 23 -- res = 0.71308E+00, tol = 0.47581E+04, time = 6.51 | CG iter. 24 -- res = 0.36224E+00, tol = 0.47581E+04, time = 6.62 | CG iter. 25 -- res = 0.19767E+00, tol = 0.47581E+04, time = 6.31 | CG iter. 26 -- res = 0.11254E+00, tol = 0.47581E+04, time = 6.31 | CG iter. 27 -- res = 0.65238E-01, tol = 0.47581E+04, time = 6.46 | CG iter. 28 -- res = 0.34578E-01, tol = 0.47581E+04, time = 6.52 | CG iter. 29 -- res = 0.17695E-01, tol = 0.47581E+04, time = 6.42 | CG iter. 30 -- res = 0.90585E-02, tol = 0.47581E+04, time = 6.78 | CG iter. 31 -- res = 0.48503E-02, tol = 0.47581E+04, time = 6.66 | CG iter. 32 -- res = 0.27085E-02, tol = 0.47581E+04, time = 6.36 | CG iter. 33 -- res = 0.15360E-02, tol = 0.47581E+04, time = 6.73 | CG iter. 34 -- res = 0.82555E-03, tol = 0.47581E+04, time = 6.88 | CG iter. 35 -- res = 0.43889E-03, tol = 0.47581E+04, time = 7.44 | Final CG iter 36 -- res = 0.43889E-03, tol = 0.47581E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.058 2.754 | New value -0.044 | Old value 2.058 | Difference -2.102 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.23316E+06, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.68333E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.20107E+01, tol = 0.47627E+18, time = 2.09 | Final CG iter 4 -- res = 0.14200E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9702990.071 | (Sampled value in CG: 9639212.083 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.540562 | New value = -3.550944 | poltype: 1 pol: 1 CPU time specind = 1.2786865E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.24776E+07, tol = 0.27706E+01, time = 2.86 | CG iter. 2 -- res = 0.10249E+07, tol = 0.27706E+01, time = 2.61 | CG iter. 3 -- res = 0.20287E+06, tol = 0.27706E+01, time = 2.97 | CG iter. 4 -- res = 0.81342E+05, tol = 0.27706E+01, time = 2.83 | CG iter. 5 -- res = 0.47595E+05, tol = 0.27706E+01, time = 2.80 | CG iter. 6 -- res = 0.24004E+05, tol = 0.27706E+01, time = 2.87 | CG iter. 7 -- res = 0.89038E+04, tol = 0.27706E+01, time = 2.67 | CG iter. 8 -- res = 0.37037E+04, tol = 0.27706E+01, time = 2.70 | CG iter. 9 -- res = 0.15866E+04, tol = 0.27706E+01, time = 2.83 | CG iter. 10 -- res = 0.63829E+03, tol = 0.27706E+01, time = 2.72 | CG iter. 11 -- res = 0.26876E+03, tol = 0.27706E+01, time = 2.76 | CG iter. 12 -- res = 0.13684E+03, tol = 0.27706E+01, time = 2.78 | CG iter. 13 -- res = 0.69498E+02, tol = 0.27706E+01, time = 2.63 | CG iter. 14 -- res = 0.36078E+02, tol = 0.27706E+01, time = 2.80 | CG iter. 15 -- res = 0.16708E+02, tol = 0.27706E+01, time = 2.81 | CG iter. 16 -- res = 0.74106E+01, tol = 0.27706E+01, time = 2.43 | CG iter. 17 -- res = 0.30090E+01, tol = 0.27706E+01, time = 2.74 | CG iter. 18 -- res = 0.13637E+01, tol = 0.27706E+01, time = 2.71 | CG iter. 19 -- res = 0.69691E+00, tol = 0.27706E+01, time = 2.82 | CG iter. 20 -- res = 0.36411E+00, tol = 0.27706E+01, time = 2.80 | CG iter. 21 -- res = 0.18667E+00, tol = 0.27706E+01, time = 2.91 | CG iter. 22 -- res = 0.86703E-01, tol = 0.27706E+01, time = 3.07 | CG iter. 23 -- res = 0.38025E-01, tol = 0.27706E+01, time = 2.95 | CG iter. 24 -- res = 0.17862E-01, tol = 0.27706E+01, time = 2.91 | CG iter. 25 -- res = 0.88150E-02, tol = 0.27706E+01, time = 2.76 | CG iter. 26 -- res = 0.45494E-02, tol = 0.27706E+01, time = 2.86 | CG iter. 27 -- res = 0.23336E-02, tol = 0.27706E+01, time = 2.51 | CG iter. 28 -- res = 0.11309E-02, tol = 0.27706E+01, time = 2.56 | CG iter. 29 -- res = 0.51298E-03, tol = 0.27706E+01, time = 2.66 | CG iter. 30 -- res = 0.23840E-03, tol = 0.27706E+01, time = 2.74 | CG iter. 31 -- res = 0.11576E-03, tol = 0.27706E+01, time = 2.84 | CG iter. 32 -- res = 0.58845E-04, tol = 0.27706E+01, time = 2.59 | CG iter. 33 -- res = 0.28148E-04, tol = 0.27706E+01, time = 2.64 | CG iter. 34 -- res = 0.13854E-04, tol = 0.27706E+01, time = 2.74 | CG iter. 35 -- res = 0.65417E-05, tol = 0.27706E+01, time = 2.56 | CG iter. 36 -- res = 0.31828E-05, tol = 0.27706E+01, time = 3.15 | CG iter. 37 -- res = 0.14941E-05, tol = 0.27706E+01, time = 3.45 | CG iter. 38 -- res = 0.72749E-06, tol = 0.27706E+01, time = 2.76 | CG iter. 39 -- res = 0.36868E-06, tol = 0.27706E+01, time = 2.82 | CG iter. 40 -- res = 0.18323E-06, tol = 0.27706E+01, time = 2.67 | CG iter. 41 -- res = 0.85298E-07, tol = 0.27706E+01, time = 2.89 | CG iter. 42 -- res = 0.40575E-07, tol = 0.27706E+01, time = 2.56 | CG iter. 43 -- res = 0.19393E-07, tol = 0.27706E+01, time = 2.72 | CG iter. 44 -- res = 0.95028E-08, tol = 0.27706E+01, time = 2.68 | CG iter. 45 -- res = 0.48279E-08, tol = 0.27706E+01, time = 2.24 | CG iter. 46 -- res = 0.24072E-08, tol = 0.27706E+01, time = 2.90 | CG iter. 47 -- res = 0.11904E-08, tol = 0.27706E+01, time = 2.88 | CG iter. 48 -- res = 0.57547E-09, tol = 0.27706E+01, time = 2.74 | CG iter. 49 -- res = 0.27264E-09, tol = 0.27706E+01, time = 2.55 | CG iter. 50 -- res = 0.12628E-09, tol = 0.27706E+01, time = 2.69 | Final CG iter 51 -- res = 0.12628E-09, tol = 0.27706E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.649 5.912 | New value -1.554 | Old value -0.649 | Difference -0.904 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.28594E+04, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.11895E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.28281E+00, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.67400E-04, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.19611E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9702990.071 | (Sampled value in CG: 9657616.968 ) | CPU time specind = 1200.437 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.68142E+08, tol = 0.57603E+04, time = 11.53 | CG iter. 2 -- res = 0.58866E+08, tol = 0.57603E+04, time = 11.80 | CG iter. 3 -- res = 0.15086E+08, tol = 0.57603E+04, time = 12.01 | CG iter. 4 -- res = 0.62033E+07, tol = 0.57603E+04, time = 12.07 | CG iter. 5 -- res = 0.37689E+07, tol = 0.57603E+04, time = 11.92 | CG iter. 6 -- res = 0.21937E+07, tol = 0.57603E+04, time = 13.34 | CG iter. 7 -- res = 0.13122E+07, tol = 0.57603E+04, time = 12.12 | CG iter. 8 -- res = 0.86966E+06, tol = 0.57603E+04, time = 11.69 | CG iter. 9 -- res = 0.56224E+06, tol = 0.57603E+04, time = 11.24 | CG iter. 10 -- res = 0.34230E+06, tol = 0.57603E+04, time = 11.67 | CG iter. 11 -- res = 0.19229E+06, tol = 0.57603E+04, time = 11.89 | CG iter. 12 -- res = 0.10469E+06, tol = 0.57603E+04, time = 11.82 | CG iter. 13 -- res = 0.58576E+05, tol = 0.57603E+04, time = 12.05 | CG iter. 14 -- res = 0.37037E+05, tol = 0.57603E+04, time = 12.10 | CG iter. 15 -- res = 0.26990E+05, tol = 0.57603E+04, time = 11.58 | CG iter. 16 -- res = 0.21806E+05, tol = 0.57603E+04, time = 11.94 | CG iter. 17 -- res = 0.18892E+05, tol = 0.57603E+04, time = 12.16 | CG iter. 18 -- res = 0.16100E+05, tol = 0.57603E+04, time = 11.45 | CG iter. 19 -- res = 0.13586E+05, tol = 0.57603E+04, time = 12.22 | CG iter. 20 -- res = 0.11784E+05, tol = 0.57603E+04, time = 11.67 | CG iter. 21 -- res = 0.11082E+05, tol = 0.57603E+04, time = 11.58 | CG iter. 22 -- res = 0.11563E+05, tol = 0.57603E+04, time = 12.24 | CG iter. 23 -- res = 0.12184E+05, tol = 0.57603E+04, time = 11.93 | CG iter. 24 -- res = 0.12233E+05, tol = 0.57603E+04, time = 17.88 | CG iter. 25 -- res = 0.11229E+05, tol = 0.57603E+04, time = 11.50 | CG iter. 26 -- res = 0.91193E+04, tol = 0.57603E+04, time = 11.48 | CG iter. 27 -- res = 0.69515E+04, tol = 0.57603E+04, time = 11.63 | CG iter. 28 -- res = 0.52366E+04, tol = 0.57603E+04, time = 11.73 | CG iter. 29 -- res = 0.40957E+04, tol = 0.57603E+04, time = 11.72 | CG iter. 30 -- res = 0.34112E+04, tol = 0.57603E+04, time = 12.15 | CG iter. 31 -- res = 0.29421E+04, tol = 0.57603E+04, time = 13.54 | CG iter. 32 -- res = 0.25556E+04, tol = 0.57603E+04, time = 12.42 | CG iter. 33 -- res = 0.22407E+04, tol = 0.57603E+04, time = 11.58 | CG iter. 34 -- res = 0.18676E+04, tol = 0.57603E+04, time = 11.78 | CG iter. 35 -- res = 0.15353E+04, tol = 0.57603E+04, time = 11.84 | CG iter. 36 -- res = 0.13614E+04, tol = 0.57603E+04, time = 12.19 | CG iter. 37 -- res = 0.12975E+04, tol = 0.57603E+04, time = 12.09 | CG iter. 38 -- res = 0.12629E+04, tol = 0.57603E+04, time = 12.19 | CG iter. 39 -- res = 0.11424E+04, tol = 0.57603E+04, time = 11.85 | CG iter. 40 -- res = 0.96509E+03, tol = 0.57603E+04, time = 12.35 | CG iter. 41 -- res = 0.77483E+03, tol = 0.57603E+04, time = 11.67 | CG iter. 42 -- res = 0.61128E+03, tol = 0.57603E+04, time = 12.16 | CG iter. 43 -- res = 0.50596E+03, tol = 0.57603E+04, time = 11.24 | CG iter. 44 -- res = 0.44947E+03, tol = 0.57603E+04, time = 11.47 | CG iter. 45 -- res = 0.39806E+03, tol = 0.57603E+04, time = 11.63 | CG iter. 46 -- res = 0.35622E+03, tol = 0.57603E+04, time = 11.79 | CG iter. 47 -- res = 0.31238E+03, tol = 0.57603E+04, time = 12.12 | CG iter. 48 -- res = 0.26382E+03, tol = 0.57603E+04, time = 18.34 | CG iter. 49 -- res = 0.22640E+03, tol = 0.57603E+04, time = 11.93 | CG iter. 50 -- res = 0.20142E+03, tol = 0.57603E+04, time = 11.83 | CG iter. 51 -- res = 0.18568E+03, tol = 0.57603E+04, time = 11.89 | CG iter. 52 -- res = 0.17840E+03, tol = 0.57603E+04, time = 12.05 | CG iter. 53 -- res = 0.16915E+03, tol = 0.57603E+04, time = 11.92 | CG iter. 54 -- res = 0.15754E+03, tol = 0.57603E+04, time = 11.96 | CG iter. 55 -- res = 0.13490E+03, tol = 0.57603E+04, time = 13.13 | CG iter. 56 -- res = 0.11231E+03, tol = 0.57603E+04, time = 13.00 | CG iter. 57 -- res = 0.95412E+02, tol = 0.57603E+04, time = 11.98 | CG iter. 58 -- res = 0.83756E+02, tol = 0.57603E+04, time = 11.56 | CG iter. 59 -- res = 0.77778E+02, tol = 0.57603E+04, time = 11.91 | CG iter. 60 -- res = 0.72676E+02, tol = 0.57603E+04, time = 11.50 | Final CG iter 61 -- res = 0.72676E+02, tol = 0.57603E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.836 ( -229.456 -2230.312 2513.049 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11564365.992 | Old band monopole 9703031.806 | Change to band monopole 1861334.186 | Change to component monopole -1861326.180 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.042 2.757 | New value -1.093 | Old value -0.042 | Difference -1.051 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.445 ( 6.034 9.306 -9.457 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.774 4.768 | New value -7.814 | Old value 5.774 | Difference -13.588 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.33183E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.86830E+02, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.29512E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.38609E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.11764E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11564316.251 | (Sampled value in CG: 11539748.348 ) | Chain = 1 -- chisq = 0.81550486E+09 | Chain = 1 -- wall time = 6110.530 sec Available RAM: MemAvailable: 379696272 kB Available Swap: SwapFree: 1128201180 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 339 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447213 | --> Sampling calibration, mode = relcal | relcal = 1.3436381E-02 7.4441679E-04 -1.6008532E-03 -1.2579945E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1159007 0.1276998 97042465.2582583 | BP delta = 0.1129067 0.1247058 97042466.9092459 | BP chisq diff = 1.7, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632217 | --> Sampling calibration, mode = relcal | relcal = -2.8208091E-03 -7.0329523E-04 1.6777863E-03 1.6124371E-03 -4.0666602E-04 6.4054690E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5619876 15218980.0587768 | BP delta = 0.0000000E+00 -0.5631911 15218982.7867045 | BP chisq diff = 2.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17644743458011 | --> Sampling calibration, mode = relcal | relcal = -7.2959997E-02 -5.6914799E-02 8.9607850E-02 4.0266946E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9098598E-04 1.0748686E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1260E-04 | 2: delta_r/delta_0: 1.6353E-06 | 3: delta_s/delta_0: 2.6722E-07 | 4: delta_r/delta_0: 2.1169E-08 | 5: delta_s/delta_0: 1.5715E-08 | 6: delta_r/delta_0: 1.2692E-09 | 7: delta_s/delta_0: 3.8408E-10 | 8: delta_r/delta_0: 1.0028E-10 | 9: delta_s/delta_0: 2.9006E-10 | 10: delta_r/delta_0: 4.8573E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 2.419085184726630E-004 2.751970644224573E-005 | BP delta = 8.4046863E-02 0.1055572 50484485.5980023 | BP delta = 8.7957837E-02 0.1094681 50484493.3706188 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02590218 | --> Sampling calibration, mode = relcal | relcal = -0.1065984 -9.5571578E-02 0.1449668 5.7203200E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9126995E-03 1.0706020E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2605E-05 | 2: delta_r/delta_0: 1.3782E-06 | 3: delta_s/delta_0: 2.4520E-07 | 4: delta_r/delta_0: 4.6738E-08 | 5: delta_s/delta_0: 2.2415E-08 | 6: delta_r/delta_0: 7.2187E-09 | 7: delta_s/delta_0: 5.6179E-09 | 8: delta_r/delta_0: 1.8133E-09 | 9: delta_s/delta_0: 8.6789E-10 | 10: delta_r/delta_0: 6.5379E-10 | 11: delta_s/delta_0: 2.2248E-09 | 12: delta_r/delta_0: 7.0973E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.004341596778199E-002 2.811084891407340E-005 | BP delta = -0.2924837 -0.2622808 57393390.9640580 | BP delta = -0.2702690 -0.2400661 57393391.5063965 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81202813 | --> Sampling calibration, mode = relcal | relcal = 0.2953891 0.2248223 -0.2837956 -0.2364158 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.3499559E-04 6.2793153E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.6202E-02 | 2: delta_r/delta_0: 2.2712E-03 | 3: delta_s/delta_0: 2.2693E-03 | 4: delta_r/delta_0: 1.3433E-04 | 5: delta_s/delta_0: 2.7392E-06 | 6: delta_r/delta_0: 9.1624E-07 | 7: delta_s/delta_0: 3.2733E-06 | 8: delta_r/delta_0: 4.6301E-07 | 9: delta_s/delta_0: 2.3808E-06 | 10: delta_r/delta_0: 8.4472E-07 | 11: delta_s/delta_0: 6.8116E-09 | 12: delta_r/delta_0: 3.3941E-09 | 13: delta_s/delta_0: 2.4498E-06 | 14: delta_r/delta_0: 7.0371E-08 | 15: delta_s/delta_0: 2.5949E-10 | 16: delta_r/delta_0: 9.6862E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.401305538458676E-002 4.022728428687467E-005 | BP delta = -0.1811021 -0.2235534 72482362.6091532 | BP delta = -0.1047905 -0.1472418 72482365.1576862 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95886687 | --> Sampling calibration, mode = relcal | relcal = 0.1064636 0.1394273 -0.1102339 -0.1356570 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3749501E-03 1.3243055E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4503E-03 | 2: delta_r/delta_0: 3.5077E-05 | 3: delta_s/delta_0: 1.9534E-05 | 4: delta_r/delta_0: 1.5959E-06 | 5: delta_s/delta_0: 6.8479E-07 | 6: delta_r/delta_0: 2.1810E-07 | 7: delta_s/delta_0: 2.8359E-07 | 8: delta_r/delta_0: 4.7216E-08 | 9: delta_s/delta_0: 1.3486E-06 | 10: delta_r/delta_0: 5.0658E-07 | 11: delta_s/delta_0: 3.0552E-09 | 12: delta_r/delta_0: 1.3732E-09 | 13: delta_s/delta_0: 1.5782E-08 | 14: delta_r/delta_0: 6.8547E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.710658207064741E-002 3.698257120058592E-005 | BP delta = 0.1401547 0.2536804 72787855.4960623 | BP delta = 0.1384241 0.2519498 72787855.4511997 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118350 | New value = -3.247204 | poltype: 2 pol: 1 CPU time specind = 1.2756109E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117668 | New value = -3.119327 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140223 | New value = -3.121864 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.214653 | New value = -3.165578 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185278 | New value = -3.084030 | poltype: 2 pol: 2 CPU time specind = 7.4510574E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.13594E+08, tol = 0.60171E+01, time = 5.98 | CG iter. 2 -- res = 0.34801E+06, tol = 0.60171E+01, time = 5.57 | CG iter. 3 -- res = 0.83902E+05, tol = 0.60171E+01, time = 5.55 | CG iter. 4 -- res = 0.93938E+05, tol = 0.60171E+01, time = 5.73 | CG iter. 5 -- res = 0.10963E+06, tol = 0.60171E+01, time = 5.67 | CG iter. 6 -- res = 0.11173E+06, tol = 0.60171E+01, time = 5.44 | CG iter. 7 -- res = 0.98522E+05, tol = 0.60171E+01, time = 5.62 | CG iter. 8 -- res = 0.77677E+05, tol = 0.60171E+01, time = 5.66 | CG iter. 9 -- res = 0.64763E+05, tol = 0.60171E+01, time = 5.68 | CG iter. 10 -- res = 0.49426E+05, tol = 0.60171E+01, time = 6.75 | CG iter. 11 -- res = 0.35877E+05, tol = 0.60171E+01, time = 6.20 | CG iter. 12 -- res = 0.27783E+05, tol = 0.60171E+01, time = 6.06 | CG iter. 13 -- res = 0.24788E+05, tol = 0.60171E+01, time = 5.59 | CG iter. 14 -- res = 0.22770E+05, tol = 0.60171E+01, time = 5.72 | CG iter. 15 -- res = 0.17871E+05, tol = 0.60171E+01, time = 5.56 | CG iter. 16 -- res = 0.12943E+05, tol = 0.60171E+01, time = 5.67 | CG iter. 17 -- res = 0.95100E+04, tol = 0.60171E+01, time = 5.93 | CG iter. 18 -- res = 0.84025E+04, tol = 0.60171E+01, time = 5.68 | CG iter. 19 -- res = 0.74353E+04, tol = 0.60171E+01, time = 5.88 | CG iter. 20 -- res = 0.60775E+04, tol = 0.60171E+01, time = 5.42 | CG iter. 21 -- res = 0.48222E+04, tol = 0.60171E+01, time = 5.73 | CG iter. 22 -- res = 0.43268E+04, tol = 0.60171E+01, time = 5.97 | CG iter. 23 -- res = 0.38268E+04, tol = 0.60171E+01, time = 5.57 | CG iter. 24 -- res = 0.32545E+04, tol = 0.60171E+01, time = 5.88 | CG iter. 25 -- res = 0.25598E+04, tol = 0.60171E+01, time = 5.84 | CG iter. 26 -- res = 0.22186E+04, tol = 0.60171E+01, time = 5.99 | CG iter. 27 -- res = 0.20628E+04, tol = 0.60171E+01, time = 5.71 | CG iter. 28 -- res = 0.18023E+04, tol = 0.60171E+01, time = 6.14 | CG iter. 29 -- res = 0.15041E+04, tol = 0.60171E+01, time = 5.69 | CG iter. 30 -- res = 0.12633E+04, tol = 0.60171E+01, time = 5.80 | CG iter. 31 -- res = 0.11931E+04, tol = 0.60171E+01, time = 5.65 | CG iter. 32 -- res = 0.10839E+04, tol = 0.60171E+01, time = 5.86 | CG iter. 33 -- res = 0.88393E+03, tol = 0.60171E+01, time = 5.67 | CG iter. 34 -- res = 0.72230E+03, tol = 0.60171E+01, time = 5.63 | CG iter. 35 -- res = 0.65307E+03, tol = 0.60171E+01, time = 6.04 | CG iter. 36 -- res = 0.61676E+03, tol = 0.60171E+01, time = 5.75 | CG iter. 37 -- res = 0.50697E+03, tol = 0.60171E+01, time = 5.52 | CG iter. 38 -- res = 0.41440E+03, tol = 0.60171E+01, time = 5.81 | CG iter. 39 -- res = 0.37101E+03, tol = 0.60171E+01, time = 5.60 | CG iter. 40 -- res = 0.33316E+03, tol = 0.60171E+01, time = 5.96 | CG iter. 41 -- res = 0.28724E+03, tol = 0.60171E+01, time = 5.84 | CG iter. 42 -- res = 0.23302E+03, tol = 0.60171E+01, time = 5.75 | CG iter. 43 -- res = 0.19205E+03, tol = 0.60171E+01, time = 5.86 | CG iter. 44 -- res = 0.17355E+03, tol = 0.60171E+01, time = 5.69 | CG iter. 45 -- res = 0.14769E+03, tol = 0.60171E+01, time = 5.86 | CG iter. 46 -- res = 0.11623E+03, tol = 0.60171E+01, time = 11.61 | CG iter. 47 -- res = 0.94691E+02, tol = 0.60171E+01, time = 5.40 | CG iter. 48 -- res = 0.82181E+02, tol = 0.60171E+01, time = 5.61 | CG iter. 49 -- res = 0.69979E+02, tol = 0.60171E+01, time = 5.77 | CG iter. 50 -- res = 0.57726E+02, tol = 0.60171E+01, time = 5.94 | Final CG iter 51 -- res = 0.57726E+02, tol = 0.60171E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11045941.799 | Old band monopole 11564365.992 | Change to band monopole -518424.193 | Change to component monopole 518421.963 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.42917E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.24101E+03, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.42237E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.25547E-01, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.60470E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11045894.288 | (Sampled value in CG: 10986973.782 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495450 | New value = 1.503510 | poltype: 2 pol: 1 CPU time specind = 1.9500017E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509688 | New value = 1.505732 | poltype: 2 pol: 2 CPU time specind = 6.5760612E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.24036E+08, tol = 0.47564E+04, time = 6.72 | CG iter. 2 -- res = 0.53325E+07, tol = 0.47564E+04, time = 7.00 | CG iter. 3 -- res = 0.82337E+06, tol = 0.47564E+04, time = 6.68 | CG iter. 4 -- res = 0.34626E+06, tol = 0.47564E+04, time = 6.44 | CG iter. 5 -- res = 0.15304E+06, tol = 0.47564E+04, time = 6.94 | CG iter. 6 -- res = 0.80333E+05, tol = 0.47564E+04, time = 6.71 | CG iter. 7 -- res = 0.42733E+05, tol = 0.47564E+04, time = 6.35 | CG iter. 8 -- res = 0.20410E+05, tol = 0.47564E+04, time = 6.19 | CG iter. 9 -- res = 0.89523E+04, tol = 0.47564E+04, time = 6.84 | CG iter. 10 -- res = 0.36831E+04, tol = 0.47564E+04, time = 6.32 | CG iter. 11 -- res = 0.17088E+04, tol = 0.47564E+04, time = 6.36 | CG iter. 12 -- res = 0.88427E+03, tol = 0.47564E+04, time = 6.76 | CG iter. 13 -- res = 0.49529E+03, tol = 0.47564E+04, time = 6.59 | CG iter. 14 -- res = 0.28292E+03, tol = 0.47564E+04, time = 6.43 | CG iter. 15 -- res = 0.14522E+03, tol = 0.47564E+04, time = 6.40 | CG iter. 16 -- res = 0.68429E+02, tol = 0.47564E+04, time = 6.52 | CG iter. 17 -- res = 0.31736E+02, tol = 0.47564E+04, time = 6.39 | CG iter. 18 -- res = 0.16176E+02, tol = 0.47564E+04, time = 6.66 | CG iter. 19 -- res = 0.90675E+01, tol = 0.47564E+04, time = 6.27 | CG iter. 20 -- res = 0.51739E+01, tol = 0.47564E+04, time = 6.48 | CG iter. 21 -- res = 0.28020E+01, tol = 0.47564E+04, time = 6.68 | CG iter. 22 -- res = 0.14203E+01, tol = 0.47564E+04, time = 6.64 | CG iter. 23 -- res = 0.72166E+00, tol = 0.47564E+04, time = 6.62 | CG iter. 24 -- res = 0.37649E+00, tol = 0.47564E+04, time = 12.88 | CG iter. 25 -- res = 0.20807E+00, tol = 0.47564E+04, time = 6.37 | CG iter. 26 -- res = 0.12158E+00, tol = 0.47564E+04, time = 6.56 | CG iter. 27 -- res = 0.69436E-01, tol = 0.47564E+04, time = 6.62 | CG iter. 28 -- res = 0.36541E-01, tol = 0.47564E+04, time = 6.34 | CG iter. 29 -- res = 0.18866E-01, tol = 0.47564E+04, time = 6.37 | CG iter. 30 -- res = 0.10002E-01, tol = 0.47564E+04, time = 6.54 | CG iter. 31 -- res = 0.54515E-02, tol = 0.47564E+04, time = 6.45 | CG iter. 32 -- res = 0.30769E-02, tol = 0.47564E+04, time = 6.43 | CG iter. 33 -- res = 0.17097E-02, tol = 0.47564E+04, time = 6.25 | CG iter. 34 -- res = 0.92843E-03, tol = 0.47564E+04, time = 6.65 | CG iter. 35 -- res = 0.48601E-03, tol = 0.47564E+04, time = 6.60 | Final CG iter 36 -- res = 0.48601E-03, tol = 0.47564E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.160 2.728 | New value 2.256 | Old value -1.160 | Difference 3.416 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.60491E+06, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.53186E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.13394E+01, tol = 0.47627E+18, time = 1.96 | Final CG iter 4 -- res = 0.38319E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11045894.288 | (Sampled value in CG: 10986433.287 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.550944 | New value = -3.583514 | poltype: 1 pol: 1 CPU time specind = 1.2805939E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.54510E+07, tol = 0.29939E+01, time = 2.62 | CG iter. 2 -- res = 0.19563E+07, tol = 0.29939E+01, time = 2.65 | CG iter. 3 -- res = 0.50155E+06, tol = 0.29939E+01, time = 3.63 | CG iter. 4 -- res = 0.29464E+06, tol = 0.29939E+01, time = 3.48 | CG iter. 5 -- res = 0.16842E+06, tol = 0.29939E+01, time = 2.92 | CG iter. 6 -- res = 0.60514E+05, tol = 0.29939E+01, time = 2.96 | CG iter. 7 -- res = 0.18539E+05, tol = 0.29939E+01, time = 2.84 | CG iter. 8 -- res = 0.83970E+04, tol = 0.29939E+01, time = 2.79 | CG iter. 9 -- res = 0.42206E+04, tol = 0.29939E+01, time = 2.66 | CG iter. 10 -- res = 0.16552E+04, tol = 0.29939E+01, time = 3.00 | CG iter. 11 -- res = 0.67279E+03, tol = 0.29939E+01, time = 2.61 | CG iter. 12 -- res = 0.33152E+03, tol = 0.29939E+01, time = 2.76 | CG iter. 13 -- res = 0.16543E+03, tol = 0.29939E+01, time = 2.54 | CG iter. 14 -- res = 0.82983E+02, tol = 0.29939E+01, time = 2.76 | CG iter. 15 -- res = 0.36827E+02, tol = 0.29939E+01, time = 2.79 | CG iter. 16 -- res = 0.16295E+02, tol = 0.29939E+01, time = 2.91 | CG iter. 17 -- res = 0.71350E+01, tol = 0.29939E+01, time = 2.86 | CG iter. 18 -- res = 0.34091E+01, tol = 0.29939E+01, time = 2.64 | CG iter. 19 -- res = 0.16890E+01, tol = 0.29939E+01, time = 2.73 | CG iter. 20 -- res = 0.84450E+00, tol = 0.29939E+01, time = 2.54 | CG iter. 21 -- res = 0.39608E+00, tol = 0.29939E+01, time = 2.80 | CG iter. 22 -- res = 0.17128E+00, tol = 0.29939E+01, time = 2.85 | CG iter. 23 -- res = 0.78378E-01, tol = 0.29939E+01, time = 2.85 | CG iter. 24 -- res = 0.36023E-01, tol = 0.29939E+01, time = 2.68 | CG iter. 25 -- res = 0.17106E-01, tol = 0.29939E+01, time = 2.65 | CG iter. 26 -- res = 0.84087E-02, tol = 0.29939E+01, time = 2.84 | CG iter. 27 -- res = 0.43380E-02, tol = 0.29939E+01, time = 2.93 | CG iter. 28 -- res = 0.21269E-02, tol = 0.29939E+01, time = 2.95 | CG iter. 29 -- res = 0.92028E-03, tol = 0.29939E+01, time = 2.75 | CG iter. 30 -- res = 0.45321E-03, tol = 0.29939E+01, time = 2.53 | CG iter. 31 -- res = 0.21472E-03, tol = 0.29939E+01, time = 2.80 | CG iter. 32 -- res = 0.10474E-03, tol = 0.29939E+01, time = 2.99 | CG iter. 33 -- res = 0.54735E-04, tol = 0.29939E+01, time = 2.73 | CG iter. 34 -- res = 0.26392E-04, tol = 0.29939E+01, time = 2.73 | CG iter. 35 -- res = 0.12637E-04, tol = 0.29939E+01, time = 2.78 | CG iter. 36 -- res = 0.61121E-05, tol = 0.29939E+01, time = 2.50 | CG iter. 37 -- res = 0.28621E-05, tol = 0.29939E+01, time = 2.69 | CG iter. 38 -- res = 0.14580E-05, tol = 0.29939E+01, time = 2.49 | CG iter. 39 -- res = 0.71820E-06, tol = 0.29939E+01, time = 2.57 | CG iter. 40 -- res = 0.35398E-06, tol = 0.29939E+01, time = 2.94 | CG iter. 41 -- res = 0.16860E-06, tol = 0.29939E+01, time = 2.58 | CG iter. 42 -- res = 0.80030E-07, tol = 0.29939E+01, time = 2.78 | CG iter. 43 -- res = 0.35399E-07, tol = 0.29939E+01, time = 2.65 | CG iter. 44 -- res = 0.17052E-07, tol = 0.29939E+01, time = 2.67 | CG iter. 45 -- res = 0.83221E-08, tol = 0.29939E+01, time = 2.77 | CG iter. 46 -- res = 0.40816E-08, tol = 0.29939E+01, time = 2.72 | CG iter. 47 -- res = 0.19985E-08, tol = 0.29939E+01, time = 2.63 | CG iter. 48 -- res = 0.94440E-09, tol = 0.29939E+01, time = 2.63 | CG iter. 49 -- res = 0.41210E-09, tol = 0.29939E+01, time = 2.75 | CG iter. 50 -- res = 0.18789E-09, tol = 0.29939E+01, time = 2.55 | Final CG iter 51 -- res = 0.18789E-09, tol = 0.29939E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -15.433 5.790 | New value 4.183 | Old value -15.433 | Difference 19.616 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.37818E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.20436E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.46907E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.15967E-01, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.19816E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11045894.288 | (Sampled value in CG: 10999971.619 ) | CPU time specind = 1192.967 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.68579E+08, tol = 0.57693E+04, time = 11.65 | CG iter. 2 -- res = 0.58308E+08, tol = 0.57693E+04, time = 11.83 | CG iter. 3 -- res = 0.15230E+08, tol = 0.57693E+04, time = 11.88 | CG iter. 4 -- res = 0.64008E+07, tol = 0.57693E+04, time = 12.06 | CG iter. 5 -- res = 0.37795E+07, tol = 0.57693E+04, time = 11.73 | CG iter. 6 -- res = 0.21790E+07, tol = 0.57693E+04, time = 11.56 | CG iter. 7 -- res = 0.13431E+07, tol = 0.57693E+04, time = 13.72 | CG iter. 8 -- res = 0.91478E+06, tol = 0.57693E+04, time = 12.41 | CG iter. 9 -- res = 0.59931E+06, tol = 0.57693E+04, time = 12.24 | CG iter. 10 -- res = 0.36080E+06, tol = 0.57693E+04, time = 11.96 | CG iter. 11 -- res = 0.20359E+06, tol = 0.57693E+04, time = 11.95 | CG iter. 12 -- res = 0.12342E+06, tol = 0.57693E+04, time = 11.63 | CG iter. 13 -- res = 0.80964E+05, tol = 0.57693E+04, time = 12.04 | CG iter. 14 -- res = 0.62049E+05, tol = 0.57693E+04, time = 11.86 | CG iter. 15 -- res = 0.55766E+05, tol = 0.57693E+04, time = 11.75 | CG iter. 16 -- res = 0.54554E+05, tol = 0.57693E+04, time = 12.31 | CG iter. 17 -- res = 0.54314E+05, tol = 0.57693E+04, time = 13.80 | CG iter. 18 -- res = 0.52065E+05, tol = 0.57693E+04, time = 11.52 | CG iter. 19 -- res = 0.49109E+05, tol = 0.57693E+04, time = 11.78 | CG iter. 20 -- res = 0.47003E+05, tol = 0.57693E+04, time = 12.05 | CG iter. 21 -- res = 0.46282E+05, tol = 0.57693E+04, time = 12.08 | CG iter. 22 -- res = 0.46140E+05, tol = 0.57693E+04, time = 11.66 | CG iter. 23 -- res = 0.43700E+05, tol = 0.57693E+04, time = 11.78 | CG iter. 24 -- res = 0.37725E+05, tol = 0.57693E+04, time = 18.72 | CG iter. 25 -- res = 0.29170E+05, tol = 0.57693E+04, time = 11.78 | CG iter. 26 -- res = 0.21026E+05, tol = 0.57693E+04, time = 11.43 | CG iter. 27 -- res = 0.15628E+05, tol = 0.57693E+04, time = 11.54 | CG iter. 28 -- res = 0.12454E+05, tol = 0.57693E+04, time = 11.43 | CG iter. 29 -- res = 0.10680E+05, tol = 0.57693E+04, time = 11.75 | CG iter. 30 -- res = 0.97282E+04, tol = 0.57693E+04, time = 11.83 | CG iter. 31 -- res = 0.89843E+04, tol = 0.57693E+04, time = 11.87 | CG iter. 32 -- res = 0.81234E+04, tol = 0.57693E+04, time = 13.24 | CG iter. 33 -- res = 0.71475E+04, tol = 0.57693E+04, time = 11.78 | CG iter. 34 -- res = 0.65110E+04, tol = 0.57693E+04, time = 11.80 | CG iter. 35 -- res = 0.60081E+04, tol = 0.57693E+04, time = 11.41 | CG iter. 36 -- res = 0.55353E+04, tol = 0.57693E+04, time = 11.91 | CG iter. 37 -- res = 0.51406E+04, tol = 0.57693E+04, time = 11.92 | CG iter. 38 -- res = 0.47094E+04, tol = 0.57693E+04, time = 11.79 | CG iter. 39 -- res = 0.41039E+04, tol = 0.57693E+04, time = 12.13 | CG iter. 40 -- res = 0.33429E+04, tol = 0.57693E+04, time = 12.00 | CG iter. 41 -- res = 0.26675E+04, tol = 0.57693E+04, time = 12.03 | CG iter. 42 -- res = 0.22160E+04, tol = 0.57693E+04, time = 12.72 | CG iter. 43 -- res = 0.19584E+04, tol = 0.57693E+04, time = 12.00 | CG iter. 44 -- res = 0.18731E+04, tol = 0.57693E+04, time = 11.87 | CG iter. 45 -- res = 0.17749E+04, tol = 0.57693E+04, time = 11.67 | CG iter. 46 -- res = 0.16542E+04, tol = 0.57693E+04, time = 11.96 | CG iter. 47 -- res = 0.15174E+04, tol = 0.57693E+04, time = 12.09 | CG iter. 48 -- res = 0.13761E+04, tol = 0.57693E+04, time = 11.99 | CG iter. 49 -- res = 0.12760E+04, tol = 0.57693E+04, time = 18.23 | CG iter. 50 -- res = 0.11782E+04, tol = 0.57693E+04, time = 13.62 | CG iter. 51 -- res = 0.11024E+04, tol = 0.57693E+04, time = 12.11 | CG iter. 52 -- res = 0.10448E+04, tol = 0.57693E+04, time = 11.99 | CG iter. 53 -- res = 0.94760E+03, tol = 0.57693E+04, time = 11.66 | CG iter. 54 -- res = 0.82843E+03, tol = 0.57693E+04, time = 11.63 | CG iter. 55 -- res = 0.71718E+03, tol = 0.57693E+04, time = 11.93 | CG iter. 56 -- res = 0.63902E+03, tol = 0.57693E+04, time = 14.88 | CG iter. 57 -- res = 0.58872E+03, tol = 0.57693E+04, time = 12.24 | CG iter. 58 -- res = 0.57090E+03, tol = 0.57693E+04, time = 12.07 | CG iter. 59 -- res = 0.55433E+03, tol = 0.57693E+04, time = 11.63 | CG iter. 60 -- res = 0.52516E+03, tol = 0.57693E+04, time = 12.01 | Final CG iter 61 -- res = 0.52516E+03, tol = 0.57693E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.846 ( -229.805 -2232.971 2515.880 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 12069834.006 | Old band monopole 11045941.799 | Change to band monopole 1023892.206 | Change to component monopole -1023887.802 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.291 2.734 | New value -2.743 | Old value 2.291 | Difference -5.034 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.452 ( 7.849 16.141 -15.932 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 16.587 3.781 | New value -3.987 | Old value 16.587 | Difference -20.573 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.16347E+07, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.16637E+03, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.41481E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.11621E-01, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.25030E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12069782.091 | (Sampled value in CG: 12047483.153 ) | Chain = 1 -- chisq = 0.81563010E+09 | Chain = 1 -- wall time = 5697.518 sec Available RAM: MemAvailable: 379000792 kB Available Swap: SwapFree: 1128863964 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 340 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442055 | --> Sampling calibration, mode = relcal | relcal = 1.3418882E-02 7.5609423E-04 -1.5910194E-03 -1.2583957E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1129067 0.1247058 9405389.34624556 | BP delta = 0.1129067 0.1223888 9405412.14539918 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632623 | --> Sampling calibration, mode = relcal | relcal = -2.8213181E-03 -7.0406939E-04 1.6787006E-03 1.6152377E-03 -4.0907640E-04 6.4052554E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5631911 15221394.1959689 | BP delta = 0.0000000E+00 -0.5624235 15221394.5938630 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18045946184504 | --> Sampling calibration, mode = relcal | relcal = -7.5828262E-02 -5.8781311E-02 9.2480682E-02 4.2128887E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3853675E-04 4.9492395E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5602E-05 | 2: delta_r/delta_0: 1.1470E-06 | 3: delta_s/delta_0: 1.8920E-07 | 4: delta_r/delta_0: 2.5455E-08 | 5: delta_s/delta_0: 6.7009E-09 | 6: delta_r/delta_0: 2.4720E-09 | 7: delta_s/delta_0: 7.4327E-10 | 8: delta_r/delta_0: 1.5054E-10 | 9: delta_s/delta_0: 6.9782E-10 | 10: delta_r/delta_0: 1.6941E-10 | 11: delta_s/delta_0: 5.7063E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.216491393127653E-003 2.742223538270709E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5602E-05 | 2: delta_r/delta_0: 1.1470E-06 | 3: delta_s/delta_0: 1.8920E-07 | 4: delta_r/delta_0: 2.5455E-08 | 5: delta_s/delta_0: 6.7010E-09 | 6: delta_r/delta_0: 2.4720E-09 | 7: delta_s/delta_0: 7.4327E-10 | 8: delta_r/delta_0: 1.5054E-10 | 9: delta_s/delta_0: 6.9783E-10 | 10: delta_r/delta_0: 1.6941E-10 | 11: delta_s/delta_0: 5.7064E-11 | Reached bicg-stab tolerance | BP delta = 8.4046863E-02 0.1055572 3506198.60728467 | BP delta = 8.4046863E-02 0.1056752 3506130.64561333 | BP chisq diff = -68.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02631697 | --> Sampling calibration, mode = relcal | relcal = -0.1067259 -9.5517769E-02 0.1449275 5.7316221E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1585128E-03 1.2289482E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7918E-05 | 2: delta_r/delta_0: 1.4670E-06 | 3: delta_s/delta_0: 2.4230E-07 | 4: delta_r/delta_0: 5.0862E-08 | 5: delta_s/delta_0: 2.4528E-08 | 6: delta_r/delta_0: 7.5593E-09 | 7: delta_s/delta_0: 6.7140E-09 | 8: delta_r/delta_0: 1.7547E-09 | 9: delta_s/delta_0: 8.7463E-10 | 10: delta_r/delta_0: 6.4770E-10 | 11: delta_s/delta_0: 1.8079E-09 | 12: delta_r/delta_0: 7.4350E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.015289109537251E-002 2.809963423136104E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.7918E-05 | 2: delta_r/delta_0: 1.4669E-06 | 3: delta_s/delta_0: 2.4227E-07 | 4: delta_r/delta_0: 5.0816E-08 | 5: delta_s/delta_0: 2.4548E-08 | 6: delta_r/delta_0: 7.5570E-09 | 7: delta_s/delta_0: 6.7165E-09 | 8: delta_r/delta_0: 1.7541E-09 | 9: delta_s/delta_0: 8.7422E-10 | 10: delta_r/delta_0: 6.4736E-10 | 11: delta_s/delta_0: 1.8053E-09 | 12: delta_r/delta_0: 7.4330E-11 | Reached bicg-stab tolerance | BP delta = -0.2924837 -0.2622808 2841468.87417882 | BP delta = -0.2924837 -0.2616672 2841637.25351695 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81252841 | --> Sampling calibration, mode = relcal | relcal = 0.2956040 0.2249158 -0.2838767 -0.2366431 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.7194912E-04 5.5447761E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7880E-04 | 2: delta_r/delta_0: 1.7706E-05 | 3: delta_s/delta_0: 6.1175E-06 | 4: delta_r/delta_0: 7.3806E-07 | 5: delta_s/delta_0: 3.2250E-07 | 6: delta_r/delta_0: 4.9951E-08 | 7: delta_s/delta_0: 3.9172E-08 | 8: delta_r/delta_0: 2.7625E-08 | 9: delta_s/delta_0: 5.4551E-08 | 10: delta_r/delta_0: 1.6427E-09 | 11: delta_s/delta_0: 7.2172E-10 | 12: delta_r/delta_0: 4.3759E-10 | 13: delta_s/delta_0: 1.0839E-08 | 14: delta_r/delta_0: 2.0131E-09 | 15: delta_s/delta_0: 2.8154E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.764223723711283E-002 4.020288837462788E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.7890E-04 | 2: delta_r/delta_0: 1.7708E-05 | 3: delta_s/delta_0: 6.1174E-06 | 4: delta_r/delta_0: 7.3801E-07 | 5: delta_s/delta_0: 3.2255E-07 | 6: delta_r/delta_0: 4.9951E-08 | 7: delta_s/delta_0: 3.9172E-08 | 8: delta_r/delta_0: 2.7625E-08 | 9: delta_s/delta_0: 5.4542E-08 | 10: delta_r/delta_0: 1.6428E-09 | 11: delta_s/delta_0: 7.2192E-10 | 12: delta_r/delta_0: 4.3756E-10 | 13: delta_s/delta_0: 1.1016E-08 | 14: delta_r/delta_0: 2.0491E-09 | 15: delta_s/delta_0: 2.8147E-11 | Reached bicg-stab tolerance | BP delta = -0.1811021 -0.2235534 2827373.74062276 | BP delta = -0.1811021 -0.2192323 2827397.20295508 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95955541 | --> Sampling calibration, mode = relcal | relcal = 0.1064829 0.1396720 -0.1102985 -0.1358564 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9330116E-03 1.3020041E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6438E-03 | 2: delta_r/delta_0: 1.0922E-04 | 3: delta_s/delta_0: 9.2719E-06 | 4: delta_r/delta_0: 1.5678E-06 | 5: delta_s/delta_0: 3.3246E-06 | 6: delta_r/delta_0: 6.2462E-07 | 7: delta_s/delta_0: 7.8240E-08 | 8: delta_r/delta_0: 1.3521E-08 | 9: delta_s/delta_0: 8.8686E-06 | 10: delta_r/delta_0: 1.8026E-06 | 11: delta_s/delta_0: 9.5888E-09 | 12: delta_r/delta_0: 1.0743E-09 | 13: delta_s/delta_0: 3.0621E-10 | 14: delta_r/delta_0: 1.8685E-10 | 15: delta_s/delta_0: 1.1421E-10 | 16: delta_r/delta_0: 5.1210E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.714588033664259E-003 3.695678002072376E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.6401E-03 | 2: delta_r/delta_0: 1.0913E-04 | 3: delta_s/delta_0: 9.2545E-06 | 4: delta_r/delta_0: 1.5659E-06 | 5: delta_s/delta_0: 3.3280E-06 | 6: delta_r/delta_0: 6.2540E-07 | 7: delta_s/delta_0: 7.7864E-08 | 8: delta_r/delta_0: 1.3613E-08 | 9: delta_s/delta_0: 9.2196E-06 | 10: delta_r/delta_0: 1.8609E-06 | 11: delta_s/delta_0: 9.6567E-09 | 12: delta_r/delta_0: 1.0678E-09 | 13: delta_s/delta_0: 3.0629E-10 | 14: delta_r/delta_0: 1.8697E-10 | 15: delta_s/delta_0: 1.1483E-10 | 16: delta_r/delta_0: 5.1185E-11 | Reached bicg-stab tolerance | BP delta = 0.1384241 0.2519498 3004266.85269104 | BP delta = 0.1384241 0.2486498 3004377.09275185 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.247204 | New value = -3.132842 | poltype: 2 pol: 1 CPU time specind = 1.3081074E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.119327 | New value = -3.141647 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121864 | New value = -3.072737 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165578 | New value = -3.120265 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.084030 | New value = -3.133714 | poltype: 2 pol: 2 CPU time specind = 3.1228065E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.13707E+08, tol = 0.57136E+01, time = 5.60 | CG iter. 2 -- res = 0.38262E+06, tol = 0.57136E+01, time = 5.87 | CG iter. 3 -- res = 0.11596E+06, tol = 0.57136E+01, time = 5.74 | CG iter. 4 -- res = 0.16222E+06, tol = 0.57136E+01, time = 5.83 | CG iter. 5 -- res = 0.18330E+06, tol = 0.57136E+01, time = 5.72 | CG iter. 6 -- res = 0.16647E+06, tol = 0.57136E+01, time = 5.55 | CG iter. 7 -- res = 0.13414E+06, tol = 0.57136E+01, time = 6.36 | CG iter. 8 -- res = 0.96812E+05, tol = 0.57136E+01, time = 5.38 | CG iter. 9 -- res = 0.77710E+05, tol = 0.57136E+01, time = 5.53 | CG iter. 10 -- res = 0.61162E+05, tol = 0.57136E+01, time = 5.79 | CG iter. 11 -- res = 0.42627E+05, tol = 0.57136E+01, time = 5.50 | CG iter. 12 -- res = 0.32542E+05, tol = 0.57136E+01, time = 5.46 | CG iter. 13 -- res = 0.28576E+05, tol = 0.57136E+01, time = 5.76 | CG iter. 14 -- res = 0.24046E+05, tol = 0.57136E+01, time = 5.50 | CG iter. 15 -- res = 0.17699E+05, tol = 0.57136E+01, time = 5.45 | CG iter. 16 -- res = 0.12258E+05, tol = 0.57136E+01, time = 5.75 | CG iter. 17 -- res = 0.94656E+04, tol = 0.57136E+01, time = 5.35 | CG iter. 18 -- res = 0.82801E+04, tol = 0.57136E+01, time = 5.85 | CG iter. 19 -- res = 0.69575E+04, tol = 0.57136E+01, time = 5.81 | CG iter. 20 -- res = 0.54303E+04, tol = 0.57136E+01, time = 5.74 | CG iter. 21 -- res = 0.41230E+04, tol = 0.57136E+01, time = 6.09 | CG iter. 22 -- res = 0.34560E+04, tol = 0.57136E+01, time = 5.85 | CG iter. 23 -- res = 0.30794E+04, tol = 0.57136E+01, time = 5.54 | CG iter. 24 -- res = 0.24320E+04, tol = 0.57136E+01, time = 11.88 | CG iter. 25 -- res = 0.18516E+04, tol = 0.57136E+01, time = 5.50 | CG iter. 26 -- res = 0.15419E+04, tol = 0.57136E+01, time = 5.68 | CG iter. 27 -- res = 0.14124E+04, tol = 0.57136E+01, time = 5.65 | CG iter. 28 -- res = 0.11953E+04, tol = 0.57136E+01, time = 5.78 | CG iter. 29 -- res = 0.89866E+03, tol = 0.57136E+01, time = 5.34 | CG iter. 30 -- res = 0.73928E+03, tol = 0.57136E+01, time = 5.82 | CG iter. 31 -- res = 0.65427E+03, tol = 0.57136E+01, time = 5.73 | CG iter. 32 -- res = 0.55699E+03, tol = 0.57136E+01, time = 5.62 | CG iter. 33 -- res = 0.43076E+03, tol = 0.57136E+01, time = 5.48 | CG iter. 34 -- res = 0.32828E+03, tol = 0.57136E+01, time = 5.55 | CG iter. 35 -- res = 0.27993E+03, tol = 0.57136E+01, time = 5.97 | CG iter. 36 -- res = 0.24327E+03, tol = 0.57136E+01, time = 5.94 | CG iter. 37 -- res = 0.18697E+03, tol = 0.57136E+01, time = 5.36 | CG iter. 38 -- res = 0.14352E+03, tol = 0.57136E+01, time = 6.06 | CG iter. 39 -- res = 0.11163E+03, tol = 0.57136E+01, time = 7.05 | CG iter. 40 -- res = 0.91818E+02, tol = 0.57136E+01, time = 5.81 | CG iter. 41 -- res = 0.74031E+02, tol = 0.57136E+01, time = 5.75 | CG iter. 42 -- res = 0.54962E+02, tol = 0.57136E+01, time = 5.71 | CG iter. 43 -- res = 0.43692E+02, tol = 0.57136E+01, time = 5.76 | CG iter. 44 -- res = 0.35581E+02, tol = 0.57136E+01, time = 5.41 | CG iter. 45 -- res = 0.27917E+02, tol = 0.57136E+01, time = 5.75 | CG iter. 46 -- res = 0.21146E+02, tol = 0.57136E+01, time = 5.61 | CG iter. 47 -- res = 0.16348E+02, tol = 0.57136E+01, time = 5.58 | CG iter. 48 -- res = 0.13114E+02, tol = 0.57136E+01, time = 6.20 | CG iter. 49 -- res = 0.10595E+02, tol = 0.57136E+01, time = 6.07 | CG iter. 50 -- res = 0.81107E+01, tol = 0.57136E+01, time = 5.42 | Final CG iter 51 -- res = 0.81107E+01, tol = 0.57136E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11461561.248 | Old band monopole 12069834.006 | Change to band monopole -608272.758 | Change to component monopole 608270.141 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.41624E+06, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.19792E+03, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.43366E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.31022E-01, tol = 0.47627E+18, time = 2.22 | Final CG iter 5 -- res = 0.14192E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11461511.949 | (Sampled value in CG: 11537246.186 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.503510 | New value = 1.526723 | poltype: 2 pol: 1 CPU time specind = 1.4104843E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505732 | New value = 1.463750 | poltype: 2 pol: 2 CPU time specind = 1.5788078E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.24115E+08, tol = 0.47589E+04, time = 6.26 | CG iter. 2 -- res = 0.52371E+07, tol = 0.47589E+04, time = 6.51 | CG iter. 3 -- res = 0.82629E+06, tol = 0.47589E+04, time = 6.47 | CG iter. 4 -- res = 0.34715E+06, tol = 0.47589E+04, time = 6.13 | CG iter. 5 -- res = 0.15080E+06, tol = 0.47589E+04, time = 13.08 | CG iter. 6 -- res = 0.79852E+05, tol = 0.47589E+04, time = 6.16 | CG iter. 7 -- res = 0.43739E+05, tol = 0.47589E+04, time = 6.42 | CG iter. 8 -- res = 0.20464E+05, tol = 0.47589E+04, time = 6.42 | CG iter. 9 -- res = 0.90519E+04, tol = 0.47589E+04, time = 6.22 | CG iter. 10 -- res = 0.37407E+04, tol = 0.47589E+04, time = 6.62 | CG iter. 11 -- res = 0.16674E+04, tol = 0.47589E+04, time = 6.57 | CG iter. 12 -- res = 0.85866E+03, tol = 0.47589E+04, time = 6.62 | CG iter. 13 -- res = 0.48890E+03, tol = 0.47589E+04, time = 6.37 | CG iter. 14 -- res = 0.27745E+03, tol = 0.47589E+04, time = 6.42 | CG iter. 15 -- res = 0.14028E+03, tol = 0.47589E+04, time = 6.49 | CG iter. 16 -- res = 0.65357E+02, tol = 0.47589E+04, time = 6.56 | CG iter. 17 -- res = 0.31151E+02, tol = 0.47589E+04, time = 6.51 | CG iter. 18 -- res = 0.15753E+02, tol = 0.47589E+04, time = 7.94 | CG iter. 19 -- res = 0.87493E+01, tol = 0.47589E+04, time = 6.75 | CG iter. 20 -- res = 0.50926E+01, tol = 0.47589E+04, time = 6.58 | CG iter. 21 -- res = 0.27500E+01, tol = 0.47589E+04, time = 6.68 | CG iter. 22 -- res = 0.13695E+01, tol = 0.47589E+04, time = 6.18 | CG iter. 23 -- res = 0.67823E+00, tol = 0.47589E+04, time = 6.17 | CG iter. 24 -- res = 0.35188E+00, tol = 0.47589E+04, time = 6.35 | CG iter. 25 -- res = 0.19487E+00, tol = 0.47589E+04, time = 6.50 | CG iter. 26 -- res = 0.11146E+00, tol = 0.47589E+04, time = 6.66 | CG iter. 27 -- res = 0.63254E-01, tol = 0.47589E+04, time = 6.38 | CG iter. 28 -- res = 0.33676E-01, tol = 0.47589E+04, time = 6.53 | CG iter. 29 -- res = 0.17807E-01, tol = 0.47589E+04, time = 6.59 | CG iter. 30 -- res = 0.94584E-02, tol = 0.47589E+04, time = 6.48 | CG iter. 31 -- res = 0.50977E-02, tol = 0.47589E+04, time = 6.53 | CG iter. 32 -- res = 0.28779E-02, tol = 0.47589E+04, time = 6.31 | CG iter. 33 -- res = 0.16247E-02, tol = 0.47589E+04, time = 6.41 | CG iter. 34 -- res = 0.85479E-03, tol = 0.47589E+04, time = 6.54 | CG iter. 35 -- res = 0.44545E-03, tol = 0.47589E+04, time = 7.24 | Final CG iter 36 -- res = 0.44545E-03, tol = 0.47589E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.759 2.718 | New value -0.901 | Old value -2.759 | Difference 1.858 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.18567E+06, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.80795E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.18727E+01, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.13903E-03, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.30888E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11461511.949 | (Sampled value in CG: 11537688.742 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.583514 | New value = -3.535991 | poltype: 1 pol: 1 CPU time specind = 1.2727022E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.37251E+07, tol = 0.30453E+01, time = 2.62 | CG iter. 2 -- res = 0.15445E+07, tol = 0.30453E+01, time = 3.06 | CG iter. 3 -- res = 0.33651E+06, tol = 0.30453E+01, time = 2.77 | CG iter. 4 -- res = 0.17076E+06, tol = 0.30453E+01, time = 2.43 | CG iter. 5 -- res = 0.10358E+06, tol = 0.30453E+01, time = 2.90 | CG iter. 6 -- res = 0.46567E+05, tol = 0.30453E+01, time = 2.84 | CG iter. 7 -- res = 0.15234E+05, tol = 0.30453E+01, time = 2.62 | CG iter. 8 -- res = 0.63997E+04, tol = 0.30453E+01, time = 2.62 | CG iter. 9 -- res = 0.31605E+04, tol = 0.30453E+01, time = 2.74 | CG iter. 10 -- res = 0.12563E+04, tol = 0.30453E+01, time = 2.58 | CG iter. 11 -- res = 0.49410E+03, tol = 0.30453E+01, time = 2.74 | CG iter. 12 -- res = 0.23727E+03, tol = 0.30453E+01, time = 2.69 | CG iter. 13 -- res = 0.12201E+03, tol = 0.30453E+01, time = 2.68 | CG iter. 14 -- res = 0.61266E+02, tol = 0.30453E+01, time = 2.36 | CG iter. 15 -- res = 0.29356E+02, tol = 0.30453E+01, time = 2.86 | CG iter. 16 -- res = 0.13265E+02, tol = 0.30453E+01, time = 2.83 | CG iter. 17 -- res = 0.53055E+01, tol = 0.30453E+01, time = 2.74 | CG iter. 18 -- res = 0.24903E+01, tol = 0.30453E+01, time = 2.91 | CG iter. 19 -- res = 0.12311E+01, tol = 0.30453E+01, time = 2.59 | CG iter. 20 -- res = 0.63935E+00, tol = 0.30453E+01, time = 2.72 | CG iter. 21 -- res = 0.31254E+00, tol = 0.30453E+01, time = 2.58 | CG iter. 22 -- res = 0.14128E+00, tol = 0.30453E+01, time = 2.83 | CG iter. 23 -- res = 0.60457E-01, tol = 0.30453E+01, time = 2.81 | CG iter. 24 -- res = 0.28101E-01, tol = 0.30453E+01, time = 2.85 | CG iter. 25 -- res = 0.13451E-01, tol = 0.30453E+01, time = 2.77 | CG iter. 26 -- res = 0.71131E-02, tol = 0.30453E+01, time = 2.60 | CG iter. 27 -- res = 0.36328E-02, tol = 0.30453E+01, time = 2.68 | CG iter. 28 -- res = 0.18426E-02, tol = 0.30453E+01, time = 2.86 | CG iter. 29 -- res = 0.81298E-03, tol = 0.30453E+01, time = 2.56 | CG iter. 30 -- res = 0.37471E-03, tol = 0.30453E+01, time = 2.61 | CG iter. 31 -- res = 0.18564E-03, tol = 0.30453E+01, time = 2.85 | CG iter. 32 -- res = 0.91862E-04, tol = 0.30453E+01, time = 2.45 | CG iter. 33 -- res = 0.45856E-04, tol = 0.30453E+01, time = 2.77 | CG iter. 34 -- res = 0.22786E-04, tol = 0.30453E+01, time = 2.77 | CG iter. 35 -- res = 0.11083E-04, tol = 0.30453E+01, time = 8.33 | CG iter. 36 -- res = 0.51424E-05, tol = 0.30453E+01, time = 3.89 | CG iter. 37 -- res = 0.24216E-05, tol = 0.30453E+01, time = 2.82 | CG iter. 38 -- res = 0.11871E-05, tol = 0.30453E+01, time = 2.78 | CG iter. 39 -- res = 0.59106E-06, tol = 0.30453E+01, time = 2.49 | CG iter. 40 -- res = 0.28527E-06, tol = 0.30453E+01, time = 2.60 | CG iter. 41 -- res = 0.13516E-06, tol = 0.30453E+01, time = 2.80 | CG iter. 42 -- res = 0.66106E-07, tol = 0.30453E+01, time = 2.91 | CG iter. 43 -- res = 0.29554E-07, tol = 0.30453E+01, time = 3.12 | CG iter. 44 -- res = 0.14261E-07, tol = 0.30453E+01, time = 2.40 | CG iter. 45 -- res = 0.68959E-08, tol = 0.30453E+01, time = 2.75 | CG iter. 46 -- res = 0.33674E-08, tol = 0.30453E+01, time = 2.51 | CG iter. 47 -- res = 0.17127E-08, tol = 0.30453E+01, time = 2.56 | CG iter. 48 -- res = 0.83156E-09, tol = 0.30453E+01, time = 2.82 | CG iter. 49 -- res = 0.39604E-09, tol = 0.30453E+01, time = 2.60 | CG iter. 50 -- res = 0.17734E-09, tol = 0.30453E+01, time = 2.44 | Final CG iter 51 -- res = 0.17734E-09, tol = 0.30453E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.771 3.010 | New value 2.693 | Old value 2.771 | Difference -0.078 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.43725E+04, tol = 0.47627E+18, time = 2.35 | CG iter. 2 -- res = 0.10445E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.32025E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.76802E-04, tol = 0.47627E+18, time = 2.71 | Final CG iter 5 -- res = 0.52870E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11461511.949 | (Sampled value in CG: 11522344.778 ) | CPU time specind = 1185.314 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.68611E+08, tol = 0.57584E+04, time = 11.55 | CG iter. 2 -- res = 0.59355E+08, tol = 0.57584E+04, time = 11.88 | CG iter. 3 -- res = 0.15819E+08, tol = 0.57584E+04, time = 11.72 | CG iter. 4 -- res = 0.66816E+07, tol = 0.57584E+04, time = 11.39 | CG iter. 5 -- res = 0.39490E+07, tol = 0.57584E+04, time = 11.93 | CG iter. 6 -- res = 0.23044E+07, tol = 0.57584E+04, time = 12.56 | CG iter. 7 -- res = 0.14000E+07, tol = 0.57584E+04, time = 12.38 | CG iter. 8 -- res = 0.95857E+06, tol = 0.57584E+04, time = 11.79 | CG iter. 9 -- res = 0.63214E+06, tol = 0.57584E+04, time = 11.39 | CG iter. 10 -- res = 0.38803E+06, tol = 0.57584E+04, time = 11.58 | CG iter. 11 -- res = 0.22149E+06, tol = 0.57584E+04, time = 11.48 | CG iter. 12 -- res = 0.13314E+06, tol = 0.57584E+04, time = 11.78 | CG iter. 13 -- res = 0.85819E+05, tol = 0.57584E+04, time = 11.51 | CG iter. 14 -- res = 0.64882E+05, tol = 0.57584E+04, time = 11.91 | CG iter. 15 -- res = 0.58327E+05, tol = 0.57584E+04, time = 17.53 | CG iter. 16 -- res = 0.56416E+05, tol = 0.57584E+04, time = 11.28 | CG iter. 17 -- res = 0.55649E+05, tol = 0.57584E+04, time = 11.54 | CG iter. 18 -- res = 0.53391E+05, tol = 0.57584E+04, time = 11.75 | CG iter. 19 -- res = 0.49476E+05, tol = 0.57584E+04, time = 11.45 | CG iter. 20 -- res = 0.45288E+05, tol = 0.57584E+04, time = 11.41 | CG iter. 21 -- res = 0.42912E+05, tol = 0.57584E+04, time = 11.68 | CG iter. 22 -- res = 0.41534E+05, tol = 0.57584E+04, time = 13.67 | CG iter. 23 -- res = 0.38716E+05, tol = 0.57584E+04, time = 12.07 | CG iter. 24 -- res = 0.33663E+05, tol = 0.57584E+04, time = 11.82 | CG iter. 25 -- res = 0.27007E+05, tol = 0.57584E+04, time = 11.35 | CG iter. 26 -- res = 0.20089E+05, tol = 0.57584E+04, time = 11.29 | CG iter. 27 -- res = 0.14989E+05, tol = 0.57584E+04, time = 11.43 | CG iter. 28 -- res = 0.11731E+05, tol = 0.57584E+04, time = 11.22 | CG iter. 29 -- res = 0.10081E+05, tol = 0.57584E+04, time = 11.37 | CG iter. 30 -- res = 0.92747E+04, tol = 0.57584E+04, time = 11.83 | CG iter. 31 -- res = 0.84290E+04, tol = 0.57584E+04, time = 11.37 | CG iter. 32 -- res = 0.76577E+04, tol = 0.57584E+04, time = 11.90 | CG iter. 33 -- res = 0.68769E+04, tol = 0.57584E+04, time = 11.81 | CG iter. 34 -- res = 0.61161E+04, tol = 0.57584E+04, time = 11.48 | CG iter. 35 -- res = 0.53434E+04, tol = 0.57584E+04, time = 11.46 | CG iter. 36 -- res = 0.46799E+04, tol = 0.57584E+04, time = 11.61 | CG iter. 37 -- res = 0.42749E+04, tol = 0.57584E+04, time = 11.51 | CG iter. 38 -- res = 0.38963E+04, tol = 0.57584E+04, time = 11.61 | CG iter. 39 -- res = 0.33803E+04, tol = 0.57584E+04, time = 11.79 | CG iter. 40 -- res = 0.27697E+04, tol = 0.57584E+04, time = 18.25 | CG iter. 41 -- res = 0.21972E+04, tol = 0.57584E+04, time = 12.00 | CG iter. 42 -- res = 0.17705E+04, tol = 0.57584E+04, time = 12.09 | CG iter. 43 -- res = 0.15524E+04, tol = 0.57584E+04, time = 12.11 | CG iter. 44 -- res = 0.14432E+04, tol = 0.57584E+04, time = 11.69 | CG iter. 45 -- res = 0.13757E+04, tol = 0.57584E+04, time = 11.71 | CG iter. 46 -- res = 0.13174E+04, tol = 0.57584E+04, time = 11.61 | CG iter. 47 -- res = 0.12092E+04, tol = 0.57584E+04, time = 13.01 | CG iter. 48 -- res = 0.10433E+04, tol = 0.57584E+04, time = 12.07 | CG iter. 49 -- res = 0.89221E+03, tol = 0.57584E+04, time = 11.86 | CG iter. 50 -- res = 0.80268E+03, tol = 0.57584E+04, time = 11.54 | CG iter. 51 -- res = 0.75055E+03, tol = 0.57584E+04, time = 11.79 | CG iter. 52 -- res = 0.70800E+03, tol = 0.57584E+04, time = 11.50 | CG iter. 53 -- res = 0.65314E+03, tol = 0.57584E+04, time = 11.45 | CG iter. 54 -- res = 0.57578E+03, tol = 0.57584E+04, time = 11.69 | CG iter. 55 -- res = 0.48607E+03, tol = 0.57584E+04, time = 11.29 | CG iter. 56 -- res = 0.42627E+03, tol = 0.57584E+04, time = 12.35 | CG iter. 57 -- res = 0.38569E+03, tol = 0.57584E+04, time = 11.59 | CG iter. 58 -- res = 0.36331E+03, tol = 0.57584E+04, time = 12.07 | CG iter. 59 -- res = 0.35696E+03, tol = 0.57584E+04, time = 11.49 | CG iter. 60 -- res = 0.33716E+03, tol = 0.57584E+04, time = 11.72 | Final CG iter 61 -- res = 0.33716E+03, tol = 0.57584E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.817 ( -229.619 -2231.094 2513.838 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9987986.524 | Old band monopole 11461561.248 | Change to band monopole -1473574.724 | Change to component monopole 1473568.386 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.893 2.717 | New value -0.623 | Old value -0.893 | Difference 0.269 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.067 ( 6.506 12.591 -12.981 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.597 4.514 | New value 2.590 | Old value 0.597 | Difference 1.993 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.13135E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.58913E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.26905E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.23221E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.47731E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9987943.564 | (Sampled value in CG: 9970353.432 ) | Chain = 1 -- chisq = 0.81539788E+09 | Chain = 1 -- wall time = 6105.854 sec Available RAM: MemAvailable: 379217368 kB Available Swap: SwapFree: 1129403356 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 341 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442836 | --> Sampling calibration, mode = relcal | relcal = 1.3422013E-02 7.5438363E-04 -1.5958881E-03 -1.2580508E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1129067 0.1247058 97047185.9747580 | BP delta = 0.1296090 0.1414081 97047180.6194220 | BP chisq diff = -5.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632539 | --> Sampling calibration, mode = relcal | relcal = -2.8221952E-03 -7.0418516E-04 1.6804250E-03 1.6144142E-03 -4.0801711E-04 6.3955825E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5631911 15219121.9372302 | BP delta = 0.0000000E+00 -0.5658914 15219122.2414271 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102600 | --> Sampling calibration, mode = relcal | relcal = 3.7080355E-02 1.3713698E-02 5.7543134E-03 -7.1612108E-03 8.2433019E-03 2.3912671E-03 -7.5995168E-03 -7.1835672E-03 -1.5297094E-02 -1.4798660E-02 -3.0514474E-03 -1.2091439E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.201003 132206745.734450 | BP delta = 0.0000000E+00 -1.176260 132206747.164523 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17933240796773 | --> Sampling calibration, mode = relcal | relcal = -7.4922532E-02 -5.8169074E-02 9.1692619E-02 4.1398983E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8013704E-04 4.1025472E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9083E-05 | 2: delta_r/delta_0: 7.8172E-07 | 3: delta_s/delta_0: 2.5239E-07 | 4: delta_r/delta_0: 1.0923E-08 | 5: delta_s/delta_0: 9.6813E-09 | 6: delta_r/delta_0: 2.3352E-09 | 7: delta_s/delta_0: 1.6847E-10 | 8: delta_r/delta_0: 8.4277E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.051262863692125E-003 2.744948240212698E-005 | BP delta = 8.4046863E-02 0.1056752 50482757.2783162 | BP delta = 8.1068411E-02 0.1026968 50482756.9199182 | BP chisq diff = -0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02610770 | --> Sampling calibration, mode = relcal | relcal = -0.1066173 -9.5577091E-02 0.1449330 5.7261467E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9562961E-03 1.4914002E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0354E-05 | 2: delta_r/delta_0: 1.3432E-06 | 3: delta_s/delta_0: 2.4195E-07 | 4: delta_r/delta_0: 5.2619E-08 | 5: delta_s/delta_0: 2.1380E-08 | 6: delta_r/delta_0: 7.5613E-09 | 7: delta_s/delta_0: 9.8430E-09 | 8: delta_r/delta_0: 1.4128E-09 | 9: delta_s/delta_0: 1.3118E-09 | 10: delta_r/delta_0: 6.1407E-10 | 11: delta_s/delta_0: 1.6823E-09 | 12: delta_r/delta_0: 4.8947E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006281309415792E-002 2.810526554626627E-005 | BP delta = -0.2924837 -0.2622808 57392090.8263735 | BP delta = -0.2798868 -0.2496839 57392091.8627805 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81252556 | --> Sampling calibration, mode = relcal | relcal = 0.2954529 0.2250633 -0.2839265 -0.2365897 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8491723E-04 5.1307012E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3105E-03 | 2: delta_r/delta_0: 1.2614E-04 | 3: delta_s/delta_0: 7.5240E-05 | 4: delta_r/delta_0: 5.8973E-06 | 5: delta_s/delta_0: 1.9690E-06 | 6: delta_r/delta_0: 4.6126E-07 | 7: delta_s/delta_0: 1.2438E-06 | 8: delta_r/delta_0: 1.5182E-07 | 9: delta_s/delta_0: 6.3269E-07 | 10: delta_r/delta_0: 2.3709E-07 | 11: delta_s/delta_0: 8.9519E-09 | 12: delta_r/delta_0: 2.5902E-09 | 13: delta_s/delta_0: 2.0502E-09 | 14: delta_r/delta_0: 6.4950E-10 | 15: delta_s/delta_0: 1.0822E-10 | 16: delta_r/delta_0: 6.7329E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.581246043702909E-002 4.020266156403332E-005 | BP delta = -0.1811021 -0.2235534 72481524.8184189 | BP delta = -0.1670036 -0.2094549 72481525.0771302 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95939418 | --> Sampling calibration, mode = relcal | relcal = 0.1066101 0.1393950 -0.1103359 -0.1356692 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0388765E-02 1.2862424E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.1870E-03 | 2: delta_r/delta_0: 2.2026E-04 | 3: delta_s/delta_0: 1.7986E-04 | 4: delta_r/delta_0: 1.1152E-05 | 5: delta_s/delta_0: 1.2766E-06 | 6: delta_r/delta_0: 4.2131E-07 | 7: delta_s/delta_0: 9.8030E-07 | 8: delta_r/delta_0: 1.0726E-07 | 9: delta_s/delta_0: 4.0851E-07 | 10: delta_r/delta_0: 9.1239E-08 | 11: delta_s/delta_0: 5.4860E-09 | 12: delta_r/delta_0: 1.7225E-09 | 13: delta_s/delta_0: 1.3170E-08 | 14: delta_r/delta_0: 1.1088E-10 | 15: delta_s/delta_0: 1.3644E-10 | 16: delta_r/delta_0: 5.3383E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.767447736511128E-002 3.696257002630067E-005 | BP delta = 0.1384241 0.2519498 72780226.1422242 | BP delta = 0.1609070 0.2744327 72780227.4342198 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52164994 | --> Sampling calibration, mode = relcal | relcal = -5.1062826E-02 -3.7140993E-03 2.7247740E-02 2.7529186E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.9777899E-04 2.5955022E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5778E-05 | 2: delta_r/delta_0: 4.3937E-06 | 3: delta_s/delta_0: 3.9504E-06 | 4: delta_r/delta_0: 6.2198E-07 | 5: delta_s/delta_0: 4.9848E-08 | 6: delta_r/delta_0: 2.8567E-08 | 7: delta_s/delta_0: 7.6293E-07 | 8: delta_r/delta_0: 1.4888E-08 | 9: delta_s/delta_0: 3.4505E-09 | 10: delta_r/delta_0: 1.2837E-09 | 11: delta_s/delta_0: 1.9091E-09 | 12: delta_r/delta_0: 2.7203E-10 | 13: delta_s/delta_0: 7.6390E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.109315000262533E-002 5.482412112243267E-005 | BP delta = 7.2327264E-02 0.1638000 91250252.6379340 | BP delta = 5.2690092E-02 0.1441628 91250252.8877865 | BP chisq diff = 0.2, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42159152 | --> Sampling calibration, mode = relcal | relcal = 4.5599520E-02 3.9686427E-02 -2.8283041E-02 -5.7002906E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5609757E-03 4.2888932E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1352E-05 | 2: delta_r/delta_0: 3.8686E-06 | 3: delta_s/delta_0: 8.0396E-06 | 4: delta_r/delta_0: 1.1708E-06 | 5: delta_s/delta_0: 5.8751E-08 | 6: delta_r/delta_0: 3.8993E-08 | 7: delta_s/delta_0: 3.6849E-08 | 8: delta_r/delta_0: 1.4588E-08 | 9: delta_s/delta_0: 4.3555E-09 | 10: delta_r/delta_0: 4.9949E-10 | 11: delta_s/delta_0: 8.1020E-10 | 12: delta_r/delta_0: 5.9764E-10 | 13: delta_s/delta_0: 3.0814E-10 | 14: delta_r/delta_0: 1.7680E-10 | 15: delta_s/delta_0: 1.3991E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.486769328866970E-002 4.995726969043818E-005 | BP delta = 0.1155126 -1.8665167E-04 90177386.3038580 | BP delta = 0.1203274 4.6281754E-03 90177386.2516510 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28164166 | --> Sampling calibration, mode = relcal | relcal = 2.4266461E-02 4.5178551E-02 -2.3377486E-02 -4.6067525E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0796709E-02 -1.3691401E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0550E-04 | 2: delta_r/delta_0: 8.6981E-06 | 3: delta_s/delta_0: 1.3779E-06 | 4: delta_r/delta_0: 2.4240E-07 | 5: delta_s/delta_0: 9.7728E-08 | 6: delta_r/delta_0: 1.8316E-08 | 7: delta_s/delta_0: 9.2741E-09 | 8: delta_r/delta_0: 4.2946E-09 | 9: delta_s/delta_0: 1.0202E-07 | 10: delta_r/delta_0: 3.9657E-09 | 11: delta_s/delta_0: 1.8566E-09 | 12: delta_r/delta_0: 7.1418E-10 | 13: delta_s/delta_0: 1.0782E-10 | 14: delta_r/delta_0: 8.8328E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.911003721320984E-003 7.843766793113630E-005 | BP delta = -0.3156406 -0.5174506 160959082.799713 | BP delta = -0.3353270 -0.5371370 160959082.679465 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29391139 | --> Sampling calibration, mode = relcal | relcal = 3.4549271E-04 1.0289662E-02 -3.7919302E-03 -6.8432242E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3619459E-02 1.4308636E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3017E-04 | 2: delta_r/delta_0: 1.1043E-05 | 3: delta_s/delta_0: 1.7150E-06 | 4: delta_r/delta_0: 3.5018E-07 | 5: delta_s/delta_0: 1.5340E-07 | 6: delta_r/delta_0: 2.6373E-08 | 7: delta_s/delta_0: 1.2334E-08 | 8: delta_r/delta_0: 8.0992E-09 | 9: delta_s/delta_0: 7.0831E-09 | 10: delta_r/delta_0: 4.6860E-09 | 11: delta_s/delta_0: 2.8498E-07 | 12: delta_r/delta_0: 6.8300E-08 | 13: delta_s/delta_0: 4.4895E-10 | 14: delta_r/delta_0: 2.2284E-10 | 15: delta_s/delta_0: 7.8700E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.128565784174981E-002 8.307123411210904E-005 | BP delta = -0.8241410 -0.7795172 157892823.855374 | BP delta = -0.8128124 -0.7681888 157892823.901476 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26504866 | --> Sampling calibration, mode = relcal | relcal = -5.6087938E-03 1.4988243E-02 -2.3530470E-03 -7.0264013E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0599882E-03 3.4261937E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4031E-04 | 2: delta_r/delta_0: 1.1994E-05 | 3: delta_s/delta_0: 2.0495E-06 | 4: delta_r/delta_0: 2.3505E-07 | 5: delta_s/delta_0: 9.7723E-08 | 6: delta_r/delta_0: 1.9541E-08 | 7: delta_s/delta_0: 8.1837E-09 | 8: delta_r/delta_0: 5.1043E-09 | 9: delta_s/delta_0: 4.0241E-09 | 10: delta_r/delta_0: 1.8175E-09 | 11: delta_s/delta_0: 4.8123E-04 | 12: delta_r/delta_0: 2.3257E-07 | 13: delta_s/delta_0: 2.4076E-07 | 14: delta_r/delta_0: 9.7119E-08 | 15: delta_s/delta_0: 5.0857E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.736754971945031E-003 9.154081994712392E-005 | BP delta = 0.3464280 0.3671412 157026040.477891 | BP delta = 0.3581703 0.3788835 157026040.509437 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25665117 | --> Sampling calibration, mode = relcal | relcal = -3.1718306E-02 -2.5996761E-02 3.7012983E-02 2.0702085E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4744585E-02 1.4985203E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4435E-04 | 2: delta_r/delta_0: 1.1534E-05 | 3: delta_s/delta_0: 1.5928E-06 | 4: delta_r/delta_0: 4.1840E-07 | 5: delta_s/delta_0: 1.2882E-07 | 6: delta_r/delta_0: 2.6975E-08 | 7: delta_s/delta_0: 1.0308E-08 | 8: delta_r/delta_0: 6.7404E-09 | 9: delta_s/delta_0: 1.3584E-07 | 10: delta_r/delta_0: 8.4218E-10 | 11: delta_s/delta_0: 4.2129E-08 | 12: delta_r/delta_0: 1.1260E-08 | 13: delta_s/delta_0: 5.5012E-10 | 14: delta_r/delta_0: 1.8264E-10 | 15: delta_s/delta_0: 4.8929E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006750508584305E-002 8.671982507881226E-005 | BP delta = -0.8273849 -1.024138 158548493.765262 | BP delta = -0.8745890 -1.071342 158548493.506943 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132842 | New value = -3.175802 | poltype: 2 pol: 1 CPU time specind = 2.8624058E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141647 | New value = -3.168947 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.072737 | New value = -3.261594 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120265 | New value = -3.200151 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133714 | New value = -3.111363 | poltype: 2 pol: 2 CPU time specind = 1.7610073E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.46 | CG iter. 1 -- res = 0.13533E+08, tol = 0.71195E+01, time = 5.66 | CG iter. 2 -- res = 0.33642E+06, tol = 0.71195E+01, time = 5.30 | CG iter. 3 -- res = 0.53203E+05, tol = 0.71195E+01, time = 5.92 | CG iter. 4 -- res = 0.31296E+05, tol = 0.71195E+01, time = 5.90 | CG iter. 5 -- res = 0.23328E+05, tol = 0.71195E+01, time = 5.81 | CG iter. 6 -- res = 0.20537E+05, tol = 0.71195E+01, time = 5.66 | CG iter. 7 -- res = 0.20229E+05, tol = 0.71195E+01, time = 5.26 | CG iter. 8 -- res = 0.18316E+05, tol = 0.71195E+01, time = 5.96 | CG iter. 9 -- res = 0.16538E+05, tol = 0.71195E+01, time = 11.78 | CG iter. 10 -- res = 0.14960E+05, tol = 0.71195E+01, time = 5.86 | CG iter. 11 -- res = 0.10935E+05, tol = 0.71195E+01, time = 5.55 | CG iter. 12 -- res = 0.71986E+04, tol = 0.71195E+01, time = 5.90 | CG iter. 13 -- res = 0.51712E+04, tol = 0.71195E+01, time = 5.97 | CG iter. 14 -- res = 0.44884E+04, tol = 0.71195E+01, time = 6.00 | CG iter. 15 -- res = 0.39901E+04, tol = 0.71195E+01, time = 5.92 | CG iter. 16 -- res = 0.31782E+04, tol = 0.71195E+01, time = 5.66 | CG iter. 17 -- res = 0.23775E+04, tol = 0.71195E+01, time = 5.66 | CG iter. 18 -- res = 0.18933E+04, tol = 0.71195E+01, time = 5.59 | CG iter. 19 -- res = 0.15506E+04, tol = 0.71195E+01, time = 5.69 | CG iter. 20 -- res = 0.13091E+04, tol = 0.71195E+01, time = 5.75 | CG iter. 21 -- res = 0.96233E+03, tol = 0.71195E+01, time = 5.69 | CG iter. 22 -- res = 0.78577E+03, tol = 0.71195E+01, time = 5.94 | CG iter. 23 -- res = 0.71094E+03, tol = 0.71195E+01, time = 6.43 | CG iter. 24 -- res = 0.59718E+03, tol = 0.71195E+01, time = 6.62 | CG iter. 25 -- res = 0.46074E+03, tol = 0.71195E+01, time = 5.93 | CG iter. 26 -- res = 0.34958E+03, tol = 0.71195E+01, time = 5.86 | CG iter. 27 -- res = 0.30323E+03, tol = 0.71195E+01, time = 5.89 | CG iter. 28 -- res = 0.27942E+03, tol = 0.71195E+01, time = 5.59 | CG iter. 29 -- res = 0.23451E+03, tol = 0.71195E+01, time = 5.47 | CG iter. 30 -- res = 0.18904E+03, tol = 0.71195E+01, time = 5.65 | CG iter. 31 -- res = 0.16765E+03, tol = 0.71195E+01, time = 5.71 | CG iter. 32 -- res = 0.15220E+03, tol = 0.71195E+01, time = 5.82 | CG iter. 33 -- res = 0.12850E+03, tol = 0.71195E+01, time = 5.49 | CG iter. 34 -- res = 0.10192E+03, tol = 0.71195E+01, time = 5.55 | CG iter. 35 -- res = 0.86434E+02, tol = 0.71195E+01, time = 5.77 | CG iter. 36 -- res = 0.77745E+02, tol = 0.71195E+01, time = 5.53 | CG iter. 37 -- res = 0.68432E+02, tol = 0.71195E+01, time = 5.45 | CG iter. 38 -- res = 0.53453E+02, tol = 0.71195E+01, time = 5.79 | CG iter. 39 -- res = 0.42558E+02, tol = 0.71195E+01, time = 5.75 | CG iter. 40 -- res = 0.35308E+02, tol = 0.71195E+01, time = 5.53 | CG iter. 41 -- res = 0.30048E+02, tol = 0.71195E+01, time = 5.74 | CG iter. 42 -- res = 0.24082E+02, tol = 0.71195E+01, time = 6.60 | CG iter. 43 -- res = 0.19230E+02, tol = 0.71195E+01, time = 5.94 | CG iter. 44 -- res = 0.15745E+02, tol = 0.71195E+01, time = 5.75 | CG iter. 45 -- res = 0.12912E+02, tol = 0.71195E+01, time = 5.33 | CG iter. 46 -- res = 0.10433E+02, tol = 0.71195E+01, time = 5.65 | CG iter. 47 -- res = 0.81408E+01, tol = 0.71195E+01, time = 5.71 | CG iter. 48 -- res = 0.64269E+01, tol = 0.71195E+01, time = 5.58 | CG iter. 49 -- res = 0.54254E+01, tol = 0.71195E+01, time = 5.55 | CG iter. 50 -- res = 0.44826E+01, tol = 0.71195E+01, time = 5.60 | Final CG iter 51 -- res = 0.44826E+01, tol = 0.71195E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10767723.417 | Old band monopole 9987986.524 | Change to band monopole 779736.893 | Change to component monopole -779733.539 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.15028E+06, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.79461E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.30805E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.82283E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.76647E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10767677.103 | (Sampled value in CG: 10732472.740 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526723 | New value = 1.493870 | poltype: 2 pol: 1 CPU time specind = 2.3529053E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.463750 | New value = 1.531034 | poltype: 2 pol: 2 CPU time specind = 1.0205030E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.24255E+08, tol = 0.47540E+04, time = 6.14 | CG iter. 2 -- res = 0.54466E+07, tol = 0.47540E+04, time = 6.30 | CG iter. 3 -- res = 0.86711E+06, tol = 0.47540E+04, time = 6.52 | CG iter. 4 -- res = 0.36014E+06, tol = 0.47540E+04, time = 6.34 | CG iter. 5 -- res = 0.15258E+06, tol = 0.47540E+04, time = 8.07 | CG iter. 6 -- res = 0.79836E+05, tol = 0.47540E+04, time = 6.91 | CG iter. 7 -- res = 0.43732E+05, tol = 0.47540E+04, time = 6.68 | CG iter. 8 -- res = 0.21463E+05, tol = 0.47540E+04, time = 6.50 | CG iter. 9 -- res = 0.94894E+04, tol = 0.47540E+04, time = 6.71 | CG iter. 10 -- res = 0.38772E+04, tol = 0.47540E+04, time = 6.58 | CG iter. 11 -- res = 0.17205E+04, tol = 0.47540E+04, time = 6.59 | CG iter. 12 -- res = 0.90033E+03, tol = 0.47540E+04, time = 6.65 | CG iter. 13 -- res = 0.50858E+03, tol = 0.47540E+04, time = 6.17 | CG iter. 14 -- res = 0.28617E+03, tol = 0.47540E+04, time = 6.95 | CG iter. 15 -- res = 0.15090E+03, tol = 0.47540E+04, time = 6.44 | CG iter. 16 -- res = 0.70148E+02, tol = 0.47540E+04, time = 6.41 | CG iter. 17 -- res = 0.32720E+02, tol = 0.47540E+04, time = 6.93 | CG iter. 18 -- res = 0.16376E+02, tol = 0.47540E+04, time = 6.29 | CG iter. 19 -- res = 0.87709E+01, tol = 0.47540E+04, time = 6.64 | CG iter. 20 -- res = 0.48909E+01, tol = 0.47540E+04, time = 6.45 | CG iter. 21 -- res = 0.26670E+01, tol = 0.47540E+04, time = 6.98 | CG iter. 22 -- res = 0.13953E+01, tol = 0.47540E+04, time = 6.54 | CG iter. 23 -- res = 0.70973E+00, tol = 0.47540E+04, time = 5.90 | CG iter. 24 -- res = 0.36178E+00, tol = 0.47540E+04, time = 6.37 | CG iter. 25 -- res = 0.19501E+00, tol = 0.47540E+04, time = 6.80 | CG iter. 26 -- res = 0.11196E+00, tol = 0.47540E+04, time = 6.69 | CG iter. 27 -- res = 0.63341E-01, tol = 0.47540E+04, time = 6.49 | CG iter. 28 -- res = 0.33871E-01, tol = 0.47540E+04, time = 6.34 | CG iter. 29 -- res = 0.17917E-01, tol = 0.47540E+04, time = 6.43 | CG iter. 30 -- res = 0.93844E-02, tol = 0.47540E+04, time = 6.59 | CG iter. 31 -- res = 0.50006E-02, tol = 0.47540E+04, time = 5.93 | CG iter. 32 -- res = 0.27971E-02, tol = 0.47540E+04, time = 6.44 | CG iter. 33 -- res = 0.15648E-02, tol = 0.47540E+04, time = 6.61 | CG iter. 34 -- res = 0.84012E-03, tol = 0.47540E+04, time = 6.52 | CG iter. 35 -- res = 0.43362E-03, tol = 0.47540E+04, time = 6.49 | Final CG iter 36 -- res = 0.43362E-03, tol = 0.47540E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.629 2.720 | New value -6.126 | Old value -0.629 | Difference -5.498 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 21.73 | CG iter. 1 -- res = 0.15673E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.31226E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.90992E+00, tol = 0.47627E+18, time = 2.02 | Final CG iter 4 -- res = 0.33213E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10767677.103 | (Sampled value in CG: 10732017.997 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.535991 | New value = -3.445188 | poltype: 1 pol: 1 CPU time specind = 2.0168066E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.22068E+07, tol = 0.34555E+01, time = 3.01 | CG iter. 2 -- res = 0.10801E+07, tol = 0.34555E+01, time = 2.57 | CG iter. 3 -- res = 0.18996E+06, tol = 0.34555E+01, time = 7.56 | CG iter. 4 -- res = 0.64781E+05, tol = 0.34555E+01, time = 4.19 | CG iter. 5 -- res = 0.35182E+05, tol = 0.34555E+01, time = 2.66 | CG iter. 6 -- res = 0.19010E+05, tol = 0.34555E+01, time = 2.73 | CG iter. 7 -- res = 0.80556E+04, tol = 0.34555E+01, time = 2.74 | CG iter. 8 -- res = 0.37498E+04, tol = 0.34555E+01, time = 2.76 | CG iter. 9 -- res = 0.16550E+04, tol = 0.34555E+01, time = 2.60 | CG iter. 10 -- res = 0.65987E+03, tol = 0.34555E+01, time = 2.56 | CG iter. 11 -- res = 0.26394E+03, tol = 0.34555E+01, time = 2.56 | CG iter. 12 -- res = 0.12137E+03, tol = 0.34555E+01, time = 2.82 | CG iter. 13 -- res = 0.62936E+02, tol = 0.34555E+01, time = 2.91 | CG iter. 14 -- res = 0.32582E+02, tol = 0.34555E+01, time = 2.50 | CG iter. 15 -- res = 0.16283E+02, tol = 0.34555E+01, time = 2.70 | CG iter. 16 -- res = 0.73893E+01, tol = 0.34555E+01, time = 2.85 | CG iter. 17 -- res = 0.31993E+01, tol = 0.34555E+01, time = 2.64 | CG iter. 18 -- res = 0.14595E+01, tol = 0.34555E+01, time = 2.56 | CG iter. 19 -- res = 0.65713E+00, tol = 0.34555E+01, time = 2.60 | CG iter. 20 -- res = 0.33819E+00, tol = 0.34555E+01, time = 2.63 | CG iter. 21 -- res = 0.17701E+00, tol = 0.34555E+01, time = 2.51 | CG iter. 22 -- res = 0.87497E-01, tol = 0.34555E+01, time = 2.68 | CG iter. 23 -- res = 0.40905E-01, tol = 0.34555E+01, time = 2.48 | CG iter. 24 -- res = 0.18703E-01, tol = 0.34555E+01, time = 2.60 | CG iter. 25 -- res = 0.88036E-02, tol = 0.34555E+01, time = 2.89 | CG iter. 26 -- res = 0.42112E-02, tol = 0.34555E+01, time = 2.77 | CG iter. 27 -- res = 0.21007E-02, tol = 0.34555E+01, time = 2.70 | CG iter. 28 -- res = 0.11033E-02, tol = 0.34555E+01, time = 2.63 | CG iter. 29 -- res = 0.53238E-03, tol = 0.34555E+01, time = 2.86 | CG iter. 30 -- res = 0.26325E-03, tol = 0.34555E+01, time = 2.72 | CG iter. 31 -- res = 0.12205E-03, tol = 0.34555E+01, time = 2.65 | CG iter. 32 -- res = 0.56350E-04, tol = 0.34555E+01, time = 3.00 | CG iter. 33 -- res = 0.27051E-04, tol = 0.34555E+01, time = 2.88 | CG iter. 34 -- res = 0.13890E-04, tol = 0.34555E+01, time = 3.36 | CG iter. 35 -- res = 0.72825E-05, tol = 0.34555E+01, time = 3.85 | CG iter. 36 -- res = 0.35796E-05, tol = 0.34555E+01, time = 3.14 | CG iter. 37 -- res = 0.16258E-05, tol = 0.34555E+01, time = 2.85 | CG iter. 38 -- res = 0.76395E-06, tol = 0.34555E+01, time = 2.84 | CG iter. 39 -- res = 0.35585E-06, tol = 0.34555E+01, time = 2.32 | CG iter. 40 -- res = 0.17602E-06, tol = 0.34555E+01, time = 2.66 | CG iter. 41 -- res = 0.93791E-07, tol = 0.34555E+01, time = 2.78 | CG iter. 42 -- res = 0.46513E-07, tol = 0.34555E+01, time = 2.67 | CG iter. 43 -- res = 0.22227E-07, tol = 0.34555E+01, time = 2.54 | CG iter. 44 -- res = 0.10128E-07, tol = 0.34555E+01, time = 2.48 | CG iter. 45 -- res = 0.47239E-08, tol = 0.34555E+01, time = 2.41 | CG iter. 46 -- res = 0.23391E-08, tol = 0.34555E+01, time = 2.44 | CG iter. 47 -- res = 0.11704E-08, tol = 0.34555E+01, time = 2.41 | CG iter. 48 -- res = 0.59529E-09, tol = 0.34555E+01, time = 2.77 | CG iter. 49 -- res = 0.29704E-09, tol = 0.34555E+01, time = 2.61 | CG iter. 50 -- res = 0.13415E-09, tol = 0.34555E+01, time = 2.73 | Final CG iter 51 -- res = 0.13415E-09, tol = 0.34555E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.233 5.143 | New value 8.614 | Old value -0.233 | Difference 8.847 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.79861E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.44552E+02, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.19365E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.34692E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.19975E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10767677.103 | (Sampled value in CG: 10745221.364 ) | CPU time specind = 1188.054 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.68743E+08, tol = 0.57426E+04, time = 12.01 | CG iter. 2 -- res = 0.58345E+08, tol = 0.57426E+04, time = 11.35 | CG iter. 3 -- res = 0.15146E+08, tol = 0.57426E+04, time = 11.61 | CG iter. 4 -- res = 0.64055E+07, tol = 0.57426E+04, time = 11.73 | CG iter. 5 -- res = 0.38087E+07, tol = 0.57426E+04, time = 11.12 | CG iter. 6 -- res = 0.23051E+07, tol = 0.57426E+04, time = 11.95 | CG iter. 7 -- res = 0.13552E+07, tol = 0.57426E+04, time = 11.66 | CG iter. 8 -- res = 0.88782E+06, tol = 0.57426E+04, time = 16.99 | CG iter. 9 -- res = 0.55677E+06, tol = 0.57426E+04, time = 11.43 | CG iter. 10 -- res = 0.32822E+06, tol = 0.57426E+04, time = 11.75 | CG iter. 11 -- res = 0.17662E+06, tol = 0.57426E+04, time = 11.67 | CG iter. 12 -- res = 0.94994E+05, tol = 0.57426E+04, time = 11.76 | CG iter. 13 -- res = 0.53426E+05, tol = 0.57426E+04, time = 11.41 | CG iter. 14 -- res = 0.32272E+05, tol = 0.57426E+04, time = 11.07 | CG iter. 15 -- res = 0.22101E+05, tol = 0.57426E+04, time = 13.24 | CG iter. 16 -- res = 0.17161E+05, tol = 0.57426E+04, time = 11.83 | CG iter. 17 -- res = 0.13756E+05, tol = 0.57426E+04, time = 11.90 | CG iter. 18 -- res = 0.10971E+05, tol = 0.57426E+04, time = 11.66 | CG iter. 19 -- res = 0.88364E+04, tol = 0.57426E+04, time = 11.24 | CG iter. 20 -- res = 0.75523E+04, tol = 0.57426E+04, time = 12.55 | CG iter. 21 -- res = 0.69981E+04, tol = 0.57426E+04, time = 11.11 | CG iter. 22 -- res = 0.71037E+04, tol = 0.57426E+04, time = 11.31 | CG iter. 23 -- res = 0.76827E+04, tol = 0.57426E+04, time = 11.95 | CG iter. 24 -- res = 0.81986E+04, tol = 0.57426E+04, time = 12.07 | CG iter. 25 -- res = 0.82086E+04, tol = 0.57426E+04, time = 11.70 | CG iter. 26 -- res = 0.72635E+04, tol = 0.57426E+04, time = 11.79 | CG iter. 27 -- res = 0.59415E+04, tol = 0.57426E+04, time = 11.47 | CG iter. 28 -- res = 0.47311E+04, tol = 0.57426E+04, time = 11.56 | CG iter. 29 -- res = 0.37549E+04, tol = 0.57426E+04, time = 11.86 | CG iter. 30 -- res = 0.30890E+04, tol = 0.57426E+04, time = 11.48 | CG iter. 31 -- res = 0.25266E+04, tol = 0.57426E+04, time = 11.89 | CG iter. 32 -- res = 0.21118E+04, tol = 0.57426E+04, time = 11.95 | CG iter. 33 -- res = 0.17451E+04, tol = 0.57426E+04, time = 17.13 | CG iter. 34 -- res = 0.14001E+04, tol = 0.57426E+04, time = 11.76 | CG iter. 35 -- res = 0.11425E+04, tol = 0.57426E+04, time = 11.64 | CG iter. 36 -- res = 0.10037E+04, tol = 0.57426E+04, time = 11.97 | CG iter. 37 -- res = 0.96189E+03, tol = 0.57426E+04, time = 11.72 | CG iter. 38 -- res = 0.94624E+03, tol = 0.57426E+04, time = 11.63 | CG iter. 39 -- res = 0.91073E+03, tol = 0.57426E+04, time = 11.20 | CG iter. 40 -- res = 0.81017E+03, tol = 0.57426E+04, time = 13.22 | CG iter. 41 -- res = 0.68973E+03, tol = 0.57426E+04, time = 12.07 | CG iter. 42 -- res = 0.56949E+03, tol = 0.57426E+04, time = 11.20 | CG iter. 43 -- res = 0.47446E+03, tol = 0.57426E+04, time = 12.05 | CG iter. 44 -- res = 0.41557E+03, tol = 0.57426E+04, time = 16.13 | CG iter. 45 -- res = 0.37959E+03, tol = 0.57426E+04, time = 11.31 | CG iter. 46 -- res = 0.34513E+03, tol = 0.57426E+04, time = 11.62 | CG iter. 47 -- res = 0.29601E+03, tol = 0.57426E+04, time = 11.74 | CG iter. 48 -- res = 0.23922E+03, tol = 0.57426E+04, time = 11.54 | CG iter. 49 -- res = 0.19656E+03, tol = 0.57426E+04, time = 13.22 | CG iter. 50 -- res = 0.17171E+03, tol = 0.57426E+04, time = 11.49 | CG iter. 51 -- res = 0.16106E+03, tol = 0.57426E+04, time = 11.48 | CG iter. 52 -- res = 0.15460E+03, tol = 0.57426E+04, time = 11.55 | CG iter. 53 -- res = 0.14894E+03, tol = 0.57426E+04, time = 11.63 | CG iter. 54 -- res = 0.13543E+03, tol = 0.57426E+04, time = 11.13 | CG iter. 55 -- res = 0.11897E+03, tol = 0.57426E+04, time = 11.72 | CG iter. 56 -- res = 0.10288E+03, tol = 0.57426E+04, time = 11.56 | CG iter. 57 -- res = 0.88321E+02, tol = 0.57426E+04, time = 11.79 | CG iter. 58 -- res = 0.79115E+02, tol = 0.57426E+04, time = 18.64 | CG iter. 59 -- res = 0.74889E+02, tol = 0.57426E+04, time = 12.27 | CG iter. 60 -- res = 0.69609E+02, tol = 0.57426E+04, time = 11.34 | Final CG iter 61 -- res = 0.69609E+02, tol = 0.57426E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.895 ( -229.716 -2231.707 2514.412 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7063236.338 | Old band monopole 10767723.417 | Change to band monopole -3704487.079 | Change to component monopole 3704471.145 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.131 2.720 | New value -0.430 | Old value -6.131 | Difference 5.701 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.682 ( 7.051 14.076 -14.040 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.132 4.771 | New value 0.675 | Old value 15.132 | Difference -14.457 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.41 | CG iter. 1 -- res = 0.17138E+07, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.41566E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.16353E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.35569E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.20892E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7063205.958 | (Sampled value in CG: 7036062.823 ) | Chain = 1 -- chisq = 0.81580936E+09 | Chain = 1 -- wall time = 16588.867 sec Available RAM: MemAvailable: 477217836 kB Available Swap: SwapFree: 1054558416 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 342 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443120 | --> Sampling calibration, mode = relcal | relcal = 1.3428414E-02 7.5302983E-04 -1.6038982E-03 -1.2577546E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1296090 0.1414081 9404008.40541569 | BP delta = 0.1296090 0.1369883 9404061.55376467 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632614 | --> Sampling calibration, mode = relcal | relcal = -2.8219791E-03 -7.0298195E-04 1.6784795E-03 1.6140860E-03 -4.0871807E-04 6.4111379E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5631911 15217156.4770645 | BP delta = 0.0000000E+00 -0.5765819 15217157.3348280 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18089244600996 | --> Sampling calibration, mode = relcal | relcal = -7.5403884E-02 -5.8590714E-02 9.2213348E-02 4.1781254E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5998719E-05 4.9671023E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2065E-05 | 2: delta_r/delta_0: 9.7910E-07 | 3: delta_s/delta_0: 1.9419E-07 | 4: delta_r/delta_0: 1.9029E-08 | 5: delta_s/delta_0: 4.3166E-09 | 6: delta_r/delta_0: 1.3599E-09 | 7: delta_s/delta_0: 2.8717E-10 | 8: delta_r/delta_0: 9.5266E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.072217462841078E-003 2.741245783169422E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2065E-05 | 2: delta_r/delta_0: 9.7910E-07 | 3: delta_s/delta_0: 1.9419E-07 | 4: delta_r/delta_0: 1.9029E-08 | 5: delta_s/delta_0: 4.3167E-09 | 6: delta_r/delta_0: 1.3599E-09 | 7: delta_s/delta_0: 2.8717E-10 | 8: delta_r/delta_0: 9.5267E-11 | Reached bicg-stab tolerance | BP delta = 8.1068411E-02 0.1026968 3515846.95008149 | BP delta = 8.1068411E-02 0.1029192 3515758.72413959 | BP chisq diff = -88.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02611886 | --> Sampling calibration, mode = relcal | relcal = -0.1066554 -9.5515013E-02 0.1449082 5.7262231E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0037875E-03 1.6564947E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2474E-05 | 2: delta_r/delta_0: 1.2316E-06 | 3: delta_s/delta_0: 2.4597E-07 | 4: delta_r/delta_0: 4.4403E-08 | 5: delta_s/delta_0: 1.8848E-08 | 6: delta_r/delta_0: 6.5750E-09 | 7: delta_s/delta_0: 7.3162E-09 | 8: delta_r/delta_0: 1.3572E-09 | 9: delta_s/delta_0: 1.7820E-07 | 10: delta_r/delta_0: 6.1003E-08 | 11: delta_s/delta_0: 2.0024E-10 | 12: delta_r/delta_0: 3.6441E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.743401533810854E-003 2.810506392516293E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2474E-05 | 2: delta_r/delta_0: 1.2316E-06 | 3: delta_s/delta_0: 2.4598E-07 | 4: delta_r/delta_0: 4.4422E-08 | 5: delta_s/delta_0: 1.8843E-08 | 6: delta_r/delta_0: 6.5763E-09 | 7: delta_s/delta_0: 7.3173E-09 | 8: delta_r/delta_0: 1.3574E-09 | 9: delta_s/delta_0: 1.7303E-07 | 10: delta_r/delta_0: 5.9349E-08 | 11: delta_s/delta_0: 2.0026E-10 | 12: delta_r/delta_0: 3.6504E-11 | Reached bicg-stab tolerance | BP delta = -0.2924837 -0.2622808 2841375.23195471 | BP delta = -0.2924837 -0.2602667 2841341.19945677 | BP chisq diff = -34.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81252102 | --> Sampling calibration, mode = relcal | relcal = 0.2956033 0.2248807 -0.2838893 -0.2365947 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9426285E-05 4.9270904E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1185E-03 | 2: delta_r/delta_0: 7.2443E-05 | 3: delta_s/delta_0: 1.7193E-05 | 4: delta_r/delta_0: 1.6793E-06 | 5: delta_s/delta_0: 4.6308E-06 | 6: delta_r/delta_0: 3.9303E-07 | 7: delta_s/delta_0: 6.0187E-08 | 8: delta_r/delta_0: 2.5569E-08 | 9: delta_s/delta_0: 2.0426E-07 | 10: delta_r/delta_0: 5.1352E-09 | 11: delta_s/delta_0: 5.6824E-09 | 12: delta_r/delta_0: 4.1142E-10 | 13: delta_s/delta_0: 3.0098E-10 | 14: delta_r/delta_0: 1.2658E-10 | 15: delta_s/delta_0: 2.1854E-10 | 16: delta_r/delta_0: 3.5463E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.554476156876000E-002 4.020262175000409E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.1139E-03 | 2: delta_r/delta_0: 7.2333E-05 | 3: delta_s/delta_0: 1.7216E-05 | 4: delta_r/delta_0: 1.6825E-06 | 5: delta_s/delta_0: 4.6218E-06 | 6: delta_r/delta_0: 3.9283E-07 | 7: delta_s/delta_0: 6.0123E-08 | 8: delta_r/delta_0: 2.5616E-08 | 9: delta_s/delta_0: 2.0640E-07 | 10: delta_r/delta_0: 5.1351E-09 | 11: delta_s/delta_0: 5.6647E-09 | 12: delta_r/delta_0: 4.1111E-10 | 13: delta_s/delta_0: 3.0128E-10 | 14: delta_r/delta_0: 1.2666E-10 | 15: delta_s/delta_0: 2.2310E-10 | 16: delta_r/delta_0: 3.5382E-11 | Reached bicg-stab tolerance | BP delta = -0.1670036 -0.2094549 2827232.60973965 | BP delta = -0.1670036 -0.2143229 2827372.63240945 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95949818 | --> Sampling calibration, mode = relcal | relcal = 0.1065659 0.1396064 -0.1103024 -0.1358698 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4594220E-03 1.3238384E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6692E-03 | 2: delta_r/delta_0: 6.4391E-05 | 3: delta_s/delta_0: 3.5833E-05 | 4: delta_r/delta_0: 2.7478E-06 | 5: delta_s/delta_0: 1.0805E-06 | 6: delta_r/delta_0: 3.3985E-07 | 7: delta_s/delta_0: 7.6879E-07 | 8: delta_r/delta_0: 7.1516E-08 | 9: delta_s/delta_0: 9.9602E-08 | 10: delta_r/delta_0: 2.5292E-08 | 11: delta_s/delta_0: 8.8884E-08 | 12: delta_r/delta_0: 2.6730E-08 | 13: delta_s/delta_0: 2.1502E-09 | 14: delta_r/delta_0: 7.0987E-10 | 15: delta_s/delta_0: 9.9958E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.081461200989856E-002 3.695871073224628E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6682E-03 | 2: delta_r/delta_0: 6.4368E-05 | 3: delta_s/delta_0: 3.5821E-05 | 4: delta_r/delta_0: 2.7469E-06 | 5: delta_s/delta_0: 1.0802E-06 | 6: delta_r/delta_0: 3.3981E-07 | 7: delta_s/delta_0: 7.6877E-07 | 8: delta_r/delta_0: 7.1498E-08 | 9: delta_s/delta_0: 9.9902E-08 | 10: delta_r/delta_0: 2.5384E-08 | 11: delta_s/delta_0: 9.2761E-08 | 12: delta_r/delta_0: 2.7827E-08 | 13: delta_s/delta_0: 2.1544E-09 | 14: delta_r/delta_0: 7.0848E-10 | 15: delta_s/delta_0: 9.9982E-11 | Reached bicg-stab tolerance | BP delta = 0.1384241 0.2519498 3003891.40552339 | BP delta = 0.1384241 0.2388371 3003901.92961922 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175802 | New value = -3.122467 | poltype: 2 pol: 1 CPU time specind = 1.9843102E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168947 | New value = -3.255830 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.261594 | New value = -3.079200 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200151 | New value = -3.178737 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111363 | New value = -3.129196 | poltype: 2 pol: 2 CPU time specind = 3.2368183E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.13616E+08, tol = 0.93531E+01, time = 6.19 | CG iter. 2 -- res = 0.36429E+06, tol = 0.93531E+01, time = 5.90 | CG iter. 3 -- res = 0.70681E+05, tol = 0.93531E+01, time = 5.84 | CG iter. 4 -- res = 0.54360E+05, tol = 0.93531E+01, time = 5.79 | CG iter. 5 -- res = 0.48428E+05, tol = 0.93531E+01, time = 5.86 | CG iter. 6 -- res = 0.48481E+05, tol = 0.93531E+01, time = 5.75 | CG iter. 7 -- res = 0.47285E+05, tol = 0.93531E+01, time = 5.40 | CG iter. 8 -- res = 0.37330E+05, tol = 0.93531E+01, time = 5.98 | CG iter. 9 -- res = 0.30826E+05, tol = 0.93531E+01, time = 5.65 | CG iter. 10 -- res = 0.25158E+05, tol = 0.93531E+01, time = 5.89 | CG iter. 11 -- res = 0.17837E+05, tol = 0.93531E+01, time = 6.13 | CG iter. 12 -- res = 0.12278E+05, tol = 0.93531E+01, time = 5.52 | CG iter. 13 -- res = 0.95001E+04, tol = 0.93531E+01, time = 5.49 | CG iter. 14 -- res = 0.83068E+04, tol = 0.93531E+01, time = 6.15 | CG iter. 15 -- res = 0.70039E+04, tol = 0.93531E+01, time = 5.84 | CG iter. 16 -- res = 0.52981E+04, tol = 0.93531E+01, time = 5.77 | CG iter. 17 -- res = 0.37456E+04, tol = 0.93531E+01, time = 5.69 | CG iter. 18 -- res = 0.29273E+04, tol = 0.93531E+01, time = 6.32 | CG iter. 19 -- res = 0.25090E+04, tol = 0.93531E+01, time = 5.62 | CG iter. 20 -- res = 0.20773E+04, tol = 0.93531E+01, time = 5.80 | CG iter. 21 -- res = 0.15527E+04, tol = 0.93531E+01, time = 5.87 | CG iter. 22 -- res = 0.12062E+04, tol = 0.93531E+01, time = 5.60 | CG iter. 23 -- res = 0.10353E+04, tol = 0.93531E+01, time = 5.80 | CG iter. 24 -- res = 0.87577E+03, tol = 0.93531E+01, time = 5.86 | CG iter. 25 -- res = 0.68737E+03, tol = 0.93531E+01, time = 5.85 | CG iter. 26 -- res = 0.52421E+03, tol = 0.93531E+01, time = 5.62 | CG iter. 27 -- res = 0.45912E+03, tol = 0.93531E+01, time = 5.51 | CG iter. 28 -- res = 0.42646E+03, tol = 0.93531E+01, time = 5.75 | CG iter. 29 -- res = 0.34447E+03, tol = 0.93531E+01, time = 6.10 | CG iter. 30 -- res = 0.26342E+03, tol = 0.93531E+01, time = 5.79 | CG iter. 31 -- res = 0.21583E+03, tol = 0.93531E+01, time = 6.16 | CG iter. 32 -- res = 0.18842E+03, tol = 0.93531E+01, time = 5.93 | CG iter. 33 -- res = 0.15182E+03, tol = 0.93531E+01, time = 5.74 | CG iter. 34 -- res = 0.11375E+03, tol = 0.93531E+01, time = 5.63 | CG iter. 35 -- res = 0.93294E+02, tol = 0.93531E+01, time = 12.23 | CG iter. 36 -- res = 0.80367E+02, tol = 0.93531E+01, time = 6.00 | CG iter. 37 -- res = 0.64732E+02, tol = 0.93531E+01, time = 5.76 | CG iter. 38 -- res = 0.49479E+02, tol = 0.93531E+01, time = 5.87 | CG iter. 39 -- res = 0.36331E+02, tol = 0.93531E+01, time = 5.92 | CG iter. 40 -- res = 0.29503E+02, tol = 0.93531E+01, time = 5.90 | CG iter. 41 -- res = 0.24508E+02, tol = 0.93531E+01, time = 5.51 | CG iter. 42 -- res = 0.18714E+02, tol = 0.93531E+01, time = 6.41 | CG iter. 43 -- res = 0.13928E+02, tol = 0.93531E+01, time = 5.68 | CG iter. 44 -- res = 0.10813E+02, tol = 0.93531E+01, time = 6.07 | CG iter. 45 -- res = 0.89437E+01, tol = 0.93531E+01, time = 6.09 | CG iter. 46 -- res = 0.67704E+01, tol = 0.93531E+01, time = 6.19 | CG iter. 47 -- res = 0.51849E+01, tol = 0.93531E+01, time = 5.79 | CG iter. 48 -- res = 0.39756E+01, tol = 0.93531E+01, time = 6.30 | CG iter. 49 -- res = 0.30894E+01, tol = 0.93531E+01, time = 6.82 | CG iter. 50 -- res = 0.25217E+01, tol = 0.93531E+01, time = 6.65 | Final CG iter 51 -- res = 0.25217E+01, tol = 0.93531E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9535717.239 | Old band monopole 7063236.338 | Change to band monopole 2472480.901 | Change to component monopole -2472470.267 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.12955E+05, tol = 0.47627E+18, time = 2.14 | CG iter. 2 -- res = 0.39359E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.14217E+01, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.19764E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.38363E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9535676.224 | (Sampled value in CG: 9599527.645 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493870 | New value = 1.515843 | poltype: 2 pol: 1 CPU time specind = 1.6561985E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.531034 | New value = 1.485194 | poltype: 2 pol: 2 CPU time specind = 3.6520958E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.24119E+08, tol = 0.47598E+04, time = 6.48 | CG iter. 2 -- res = 0.52011E+07, tol = 0.47598E+04, time = 6.43 | CG iter. 3 -- res = 0.82895E+06, tol = 0.47598E+04, time = 6.56 | CG iter. 4 -- res = 0.34983E+06, tol = 0.47598E+04, time = 6.86 | CG iter. 5 -- res = 0.15275E+06, tol = 0.47598E+04, time = 6.33 | CG iter. 6 -- res = 0.80409E+05, tol = 0.47598E+04, time = 6.50 | CG iter. 7 -- res = 0.43444E+05, tol = 0.47598E+04, time = 6.75 | CG iter. 8 -- res = 0.21264E+05, tol = 0.47598E+04, time = 6.98 | CG iter. 9 -- res = 0.93167E+04, tol = 0.47598E+04, time = 6.91 | CG iter. 10 -- res = 0.37950E+04, tol = 0.47598E+04, time = 6.63 | CG iter. 11 -- res = 0.17038E+04, tol = 0.47598E+04, time = 6.69 | CG iter. 12 -- res = 0.87816E+03, tol = 0.47598E+04, time = 6.14 | CG iter. 13 -- res = 0.50277E+03, tol = 0.47598E+04, time = 7.31 | CG iter. 14 -- res = 0.28542E+03, tol = 0.47598E+04, time = 12.79 | CG iter. 15 -- res = 0.14543E+03, tol = 0.47598E+04, time = 6.73 | CG iter. 16 -- res = 0.69210E+02, tol = 0.47598E+04, time = 6.52 | CG iter. 17 -- res = 0.31932E+02, tol = 0.47598E+04, time = 6.76 | CG iter. 18 -- res = 0.16094E+02, tol = 0.47598E+04, time = 6.64 | CG iter. 19 -- res = 0.88292E+01, tol = 0.47598E+04, time = 6.47 | CG iter. 20 -- res = 0.51021E+01, tol = 0.47598E+04, time = 6.66 | CG iter. 21 -- res = 0.27638E+01, tol = 0.47598E+04, time = 8.22 | CG iter. 22 -- res = 0.14509E+01, tol = 0.47598E+04, time = 6.62 | CG iter. 23 -- res = 0.72594E+00, tol = 0.47598E+04, time = 6.55 | CG iter. 24 -- res = 0.37321E+00, tol = 0.47598E+04, time = 6.68 | CG iter. 25 -- res = 0.20801E+00, tol = 0.47598E+04, time = 6.80 | CG iter. 26 -- res = 0.12079E+00, tol = 0.47598E+04, time = 7.91 | CG iter. 27 -- res = 0.70093E-01, tol = 0.47598E+04, time = 7.47 | CG iter. 28 -- res = 0.37542E-01, tol = 0.47598E+04, time = 6.83 | CG iter. 29 -- res = 0.19786E-01, tol = 0.47598E+04, time = 6.85 | CG iter. 30 -- res = 0.10392E-01, tol = 0.47598E+04, time = 5.93 | CG iter. 31 -- res = 0.56338E-02, tol = 0.47598E+04, time = 6.78 | CG iter. 32 -- res = 0.31924E-02, tol = 0.47598E+04, time = 6.44 | CG iter. 33 -- res = 0.17998E-02, tol = 0.47598E+04, time = 6.57 | CG iter. 34 -- res = 0.95364E-03, tol = 0.47598E+04, time = 6.92 | CG iter. 35 -- res = 0.49180E-03, tol = 0.47598E+04, time = 6.58 | Final CG iter 36 -- res = 0.49180E-03, tol = 0.47598E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.384 2.747 | New value -6.539 | Old value -0.384 | Difference -6.155 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.19684E+07, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.63339E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.16184E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.13408E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.21244E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9535676.224 | (Sampled value in CG: 9599199.248 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.445188 | New value = -3.709633 | poltype: 1 pol: 1 CPU time specind = 1.3427973E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.22575E+07, tol = 0.30033E+01, time = 2.79 | CG iter. 2 -- res = 0.84048E+06, tol = 0.30033E+01, time = 3.01 | CG iter. 3 -- res = 0.16142E+06, tol = 0.30033E+01, time = 2.69 | CG iter. 4 -- res = 0.64670E+05, tol = 0.30033E+01, time = 2.75 | CG iter. 5 -- res = 0.41358E+05, tol = 0.30033E+01, time = 2.85 | CG iter. 6 -- res = 0.22306E+05, tol = 0.30033E+01, time = 2.70 | CG iter. 7 -- res = 0.80842E+04, tol = 0.30033E+01, time = 2.72 | CG iter. 8 -- res = 0.31563E+04, tol = 0.30033E+01, time = 3.04 | CG iter. 9 -- res = 0.14128E+04, tol = 0.30033E+01, time = 2.52 | CG iter. 10 -- res = 0.54346E+03, tol = 0.30033E+01, time = 2.82 | CG iter. 11 -- res = 0.24360E+03, tol = 0.30033E+01, time = 3.02 | CG iter. 12 -- res = 0.12605E+03, tol = 0.30033E+01, time = 2.61 | CG iter. 13 -- res = 0.61879E+02, tol = 0.30033E+01, time = 2.70 | CG iter. 14 -- res = 0.29341E+02, tol = 0.30033E+01, time = 2.88 | CG iter. 15 -- res = 0.12152E+02, tol = 0.30033E+01, time = 2.70 | CG iter. 16 -- res = 0.51431E+01, tol = 0.30033E+01, time = 2.95 | CG iter. 17 -- res = 0.21716E+01, tol = 0.30033E+01, time = 2.72 | CG iter. 18 -- res = 0.10573E+01, tol = 0.30033E+01, time = 2.83 | CG iter. 19 -- res = 0.52640E+00, tol = 0.30033E+01, time = 2.91 | CG iter. 20 -- res = 0.26474E+00, tol = 0.30033E+01, time = 2.95 | CG iter. 21 -- res = 0.11804E+00, tol = 0.30033E+01, time = 2.75 | CG iter. 22 -- res = 0.52832E-01, tol = 0.30033E+01, time = 2.82 | CG iter. 23 -- res = 0.24043E-01, tol = 0.30033E+01, time = 2.73 | CG iter. 24 -- res = 0.11807E-01, tol = 0.30033E+01, time = 3.24 | CG iter. 25 -- res = 0.63235E-02, tol = 0.30033E+01, time = 2.96 | CG iter. 26 -- res = 0.30695E-02, tol = 0.30033E+01, time = 2.56 | CG iter. 27 -- res = 0.13789E-02, tol = 0.30033E+01, time = 2.91 | CG iter. 28 -- res = 0.62599E-03, tol = 0.30033E+01, time = 2.78 | CG iter. 29 -- res = 0.28106E-03, tol = 0.30033E+01, time = 2.89 | CG iter. 30 -- res = 0.14319E-03, tol = 0.30033E+01, time = 2.72 | CG iter. 31 -- res = 0.73444E-04, tol = 0.30033E+01, time = 3.00 | CG iter. 32 -- res = 0.35966E-04, tol = 0.30033E+01, time = 2.70 | CG iter. 33 -- res = 0.16855E-04, tol = 0.30033E+01, time = 2.59 | CG iter. 34 -- res = 0.73974E-05, tol = 0.30033E+01, time = 2.73 | CG iter. 35 -- res = 0.35800E-05, tol = 0.30033E+01, time = 3.09 | CG iter. 36 -- res = 0.17726E-05, tol = 0.30033E+01, time = 2.53 | CG iter. 37 -- res = 0.89173E-06, tol = 0.30033E+01, time = 3.05 | CG iter. 38 -- res = 0.44355E-06, tol = 0.30033E+01, time = 3.02 | CG iter. 39 -- res = 0.20762E-06, tol = 0.30033E+01, time = 2.82 | CG iter. 40 -- res = 0.92585E-07, tol = 0.30033E+01, time = 2.56 | CG iter. 41 -- res = 0.43486E-07, tol = 0.30033E+01, time = 2.90 | CG iter. 42 -- res = 0.22549E-07, tol = 0.30033E+01, time = 2.53 | CG iter. 43 -- res = 0.10884E-07, tol = 0.30033E+01, time = 2.64 | CG iter. 44 -- res = 0.53608E-08, tol = 0.30033E+01, time = 2.85 | CG iter. 45 -- res = 0.24024E-08, tol = 0.30033E+01, time = 2.80 | CG iter. 46 -- res = 0.11178E-08, tol = 0.30033E+01, time = 2.95 | CG iter. 47 -- res = 0.53256E-09, tol = 0.30033E+01, time = 2.81 | CG iter. 48 -- res = 0.26942E-09, tol = 0.30033E+01, time = 2.46 | CG iter. 49 -- res = 0.13170E-09, tol = 0.30033E+01, time = 2.89 | CG iter. 50 -- res = 0.61027E-10, tol = 0.30033E+01, time = 7.86 | Final CG iter 51 -- res = 0.61027E-10, tol = 0.30033E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.242 4.370 | New value 13.969 | Old value 4.242 | Difference 9.726 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.92002E+05, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.76279E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.28107E+01, tol = 0.47627E+18, time = 2.37 | CG iter. 4 -- res = 0.93248E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.21063E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9535676.224 | (Sampled value in CG: 9587645.954 ) | CPU time specind = 1214.371 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.69080E+08, tol = 0.57807E+04, time = 13.00 | CG iter. 2 -- res = 0.59266E+08, tol = 0.57807E+04, time = 12.21 | CG iter. 3 -- res = 0.15475E+08, tol = 0.57807E+04, time = 12.01 | CG iter. 4 -- res = 0.65500E+07, tol = 0.57807E+04, time = 11.58 | CG iter. 5 -- res = 0.38995E+07, tol = 0.57807E+04, time = 12.05 | CG iter. 6 -- res = 0.22867E+07, tol = 0.57807E+04, time = 12.73 | CG iter. 7 -- res = 0.13450E+07, tol = 0.57807E+04, time = 12.40 | CG iter. 8 -- res = 0.89576E+06, tol = 0.57807E+04, time = 11.84 | CG iter. 9 -- res = 0.58176E+06, tol = 0.57807E+04, time = 12.71 | CG iter. 10 -- res = 0.34974E+06, tol = 0.57807E+04, time = 14.27 | CG iter. 11 -- res = 0.19366E+06, tol = 0.57807E+04, time = 12.00 | CG iter. 12 -- res = 0.10962E+06, tol = 0.57807E+04, time = 12.17 | CG iter. 13 -- res = 0.63232E+05, tol = 0.57807E+04, time = 11.50 | CG iter. 14 -- res = 0.39864E+05, tol = 0.57807E+04, time = 12.22 | CG iter. 15 -- res = 0.29261E+05, tol = 0.57807E+04, time = 11.88 | CG iter. 16 -- res = 0.24450E+05, tol = 0.57807E+04, time = 12.30 | CG iter. 17 -- res = 0.21228E+05, tol = 0.57807E+04, time = 18.56 | CG iter. 18 -- res = 0.18517E+05, tol = 0.57807E+04, time = 11.65 | CG iter. 19 -- res = 0.15718E+05, tol = 0.57807E+04, time = 11.90 | CG iter. 20 -- res = 0.14130E+05, tol = 0.57807E+04, time = 12.08 | CG iter. 21 -- res = 0.13498E+05, tol = 0.57807E+04, time = 11.84 | CG iter. 22 -- res = 0.13741E+05, tol = 0.57807E+04, time = 12.14 | CG iter. 23 -- res = 0.14752E+05, tol = 0.57807E+04, time = 11.94 | CG iter. 24 -- res = 0.14982E+05, tol = 0.57807E+04, time = 13.31 | CG iter. 25 -- res = 0.13746E+05, tol = 0.57807E+04, time = 13.19 | CG iter. 26 -- res = 0.11117E+05, tol = 0.57807E+04, time = 11.80 | CG iter. 27 -- res = 0.83367E+04, tol = 0.57807E+04, time = 12.06 | CG iter. 28 -- res = 0.63495E+04, tol = 0.57807E+04, time = 12.01 | CG iter. 29 -- res = 0.51738E+04, tol = 0.57807E+04, time = 12.18 | CG iter. 30 -- res = 0.44797E+04, tol = 0.57807E+04, time = 11.53 | CG iter. 31 -- res = 0.38120E+04, tol = 0.57807E+04, time = 12.37 | CG iter. 32 -- res = 0.32899E+04, tol = 0.57807E+04, time = 12.33 | CG iter. 33 -- res = 0.28063E+04, tol = 0.57807E+04, time = 11.50 | CG iter. 34 -- res = 0.23547E+04, tol = 0.57807E+04, time = 11.68 | CG iter. 35 -- res = 0.19958E+04, tol = 0.57807E+04, time = 11.69 | CG iter. 36 -- res = 0.17977E+04, tol = 0.57807E+04, time = 11.84 | CG iter. 37 -- res = 0.17354E+04, tol = 0.57807E+04, time = 11.98 | CG iter. 38 -- res = 0.17062E+04, tol = 0.57807E+04, time = 11.94 | CG iter. 39 -- res = 0.16150E+04, tol = 0.57807E+04, time = 11.87 | CG iter. 40 -- res = 0.13934E+04, tol = 0.57807E+04, time = 12.00 | CG iter. 41 -- res = 0.11530E+04, tol = 0.57807E+04, time = 12.13 | CG iter. 42 -- res = 0.93354E+03, tol = 0.57807E+04, time = 18.07 | CG iter. 43 -- res = 0.77618E+03, tol = 0.57807E+04, time = 11.63 | CG iter. 44 -- res = 0.68156E+03, tol = 0.57807E+04, time = 12.05 | CG iter. 45 -- res = 0.62652E+03, tol = 0.57807E+04, time = 11.55 | CG iter. 46 -- res = 0.58097E+03, tol = 0.57807E+04, time = 11.92 | CG iter. 47 -- res = 0.52290E+03, tol = 0.57807E+04, time = 11.69 | CG iter. 48 -- res = 0.44757E+03, tol = 0.57807E+04, time = 11.99 | CG iter. 49 -- res = 0.38004E+03, tol = 0.57807E+04, time = 14.64 | CG iter. 50 -- res = 0.35652E+03, tol = 0.57807E+04, time = 12.36 | CG iter. 51 -- res = 0.34615E+03, tol = 0.57807E+04, time = 11.80 | CG iter. 52 -- res = 0.33179E+03, tol = 0.57807E+04, time = 11.36 | CG iter. 53 -- res = 0.31075E+03, tol = 0.57807E+04, time = 12.08 | CG iter. 54 -- res = 0.27794E+03, tol = 0.57807E+04, time = 11.89 | CG iter. 55 -- res = 0.24586E+03, tol = 0.57807E+04, time = 11.86 | CG iter. 56 -- res = 0.21551E+03, tol = 0.57807E+04, time = 12.36 | CG iter. 57 -- res = 0.18808E+03, tol = 0.57807E+04, time = 12.55 | CG iter. 58 -- res = 0.17347E+03, tol = 0.57807E+04, time = 12.44 | CG iter. 59 -- res = 0.16076E+03, tol = 0.57807E+04, time = 11.97 | CG iter. 60 -- res = 0.14747E+03, tol = 0.57807E+04, time = 11.92 | Final CG iter 61 -- res = 0.14747E+03, tol = 0.57807E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.650 ( -229.733 -2230.512 2513.068 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7488262.358 | Old band monopole 9535717.239 | Change to band monopole -2047454.881 | Change to component monopole 2047446.075 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.589 2.725 | New value 1.824 | Old value -6.589 | Difference 8.413 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.971 ( 6.794 11.175 -11.137 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 17.121 4.553 | New value -4.838 | Old value 17.121 | Difference -21.959 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.37447E+07, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.36593E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.16658E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.25025E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.44449E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7488230.149 | (Sampled value in CG: 7473156.551 ) | Chain = 1 -- chisq = 0.81536425E+09 | Chain = 1 -- wall time = 6190.662 sec Available RAM: MemAvailable: 388840248 kB Available Swap: SwapFree: 1108031372 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 343 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443848 | --> Sampling calibration, mode = relcal | relcal = 1.3436723E-02 7.3856662E-04 -1.6010639E-03 -1.2574226E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1296090 0.1414081 97046187.2883537 | BP delta = 0.1298477 0.1416468 97046187.2563517 | BP chisq diff = -0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632530 | --> Sampling calibration, mode = relcal | relcal = -2.8217772E-03 -7.0407457E-04 1.6803470E-03 1.6133239E-03 -4.0836667E-04 6.4054760E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5631911 15217676.4828008 | BP delta = 0.0000000E+00 -0.5587211 15217678.3764824 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18719668725407 | --> Sampling calibration, mode = relcal | relcal = -7.6525159E-02 -5.9696756E-02 9.3616962E-02 4.2604949E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3983387E-04 7.2447089E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5051E-05 | 2: delta_r/delta_0: 1.9486E-06 | 3: delta_s/delta_0: 2.1364E-07 | 4: delta_r/delta_0: 2.9890E-08 | 5: delta_s/delta_0: 8.5233E-09 | 6: delta_r/delta_0: 3.0382E-09 | 7: delta_s/delta_0: 8.0329E-10 | 8: delta_r/delta_0: 1.9677E-10 | 9: delta_s/delta_0: 1.5866E-10 | 10: delta_r/delta_0: 6.6433E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.462396760609515E-003 2.726599581839338E-005 | BP delta = 8.1068411E-02 0.1029192 50486297.5189328 | BP delta = 7.9309456E-02 0.1011602 50486301.9116242 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02606258 | --> Sampling calibration, mode = relcal | relcal = -0.1066096 -9.5555000E-02 0.1448605 5.7304140E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2742147E-03 1.4297394E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1849E-05 | 2: delta_r/delta_0: 1.2295E-06 | 3: delta_s/delta_0: 2.4631E-07 | 4: delta_r/delta_0: 4.8622E-08 | 5: delta_s/delta_0: 1.9129E-08 | 6: delta_r/delta_0: 6.6204E-09 | 7: delta_s/delta_0: 1.4651E-08 | 8: delta_r/delta_0: 9.1600E-10 | 9: delta_s/delta_0: 9.0963E-10 | 10: delta_r/delta_0: 1.5329E-10 | 11: delta_s/delta_0: 1.3873E-09 | 12: delta_r/delta_0: 1.9176E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.677307377088981E-003 2.810642897858158E-005 | BP delta = -0.2924837 -0.2602667 57396013.1669797 | BP delta = -0.3166154 -0.2843983 57396015.8835052 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236991 | --> Sampling calibration, mode = relcal | relcal = 0.2954342 0.2249385 -0.2838333 -0.2365393 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.2964626E-04 5.1272698E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8571E-01 | 2: delta_r/delta_0: 6.7225E-03 | 3: delta_s/delta_0: 3.1996E-04 | 4: delta_r/delta_0: 8.3302E-06 | 5: delta_s/delta_0: 2.0552E-06 | 6: delta_r/delta_0: 8.3135E-07 | 7: delta_s/delta_0: 7.6223E-07 | 8: delta_r/delta_0: 2.2719E-07 | 9: delta_s/delta_0: 2.2061E-07 | 10: delta_r/delta_0: 1.1586E-08 | 11: delta_s/delta_0: 4.9821E-09 | 12: delta_r/delta_0: 2.4858E-09 | 13: delta_s/delta_0: 1.1922E-09 | 14: delta_r/delta_0: 2.9946E-10 | 15: delta_s/delta_0: 2.4986E-10 | 16: delta_r/delta_0: 1.0776E-10 | 17: delta_s/delta_0: 2.8670E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.995725757850614E-002 4.021021111210006E-005 | BP delta = -0.1670036 -0.2094549 72482604.8328894 | BP delta = -0.1671742 -0.2096255 72482604.8301199 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95922879 | --> Sampling calibration, mode = relcal | relcal = 0.1066215 0.1394559 -0.1103112 -0.1357661 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6614603E-03 1.3188443E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4253E-03 | 2: delta_r/delta_0: 3.4418E-05 | 3: delta_s/delta_0: 8.9079E-05 | 4: delta_r/delta_0: 4.5113E-06 | 5: delta_s/delta_0: 4.6555E-07 | 6: delta_r/delta_0: 1.8643E-07 | 7: delta_s/delta_0: 4.9572E-07 | 8: delta_r/delta_0: 4.5063E-08 | 9: delta_s/delta_0: 1.7196E-08 | 10: delta_r/delta_0: 4.4762E-09 | 11: delta_s/delta_0: 2.5678E-09 | 12: delta_r/delta_0: 1.0533E-09 | 13: delta_s/delta_0: 1.7423E-08 | 14: delta_r/delta_0: 3.5662E-09 | 15: delta_s/delta_0: 7.2498E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.628952652820145E-002 3.696897587176480E-005 | BP delta = 0.1384241 0.2519498 72780019.6869352 | BP delta = 0.1514361 0.2649618 72780019.5610013 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.122467 | New value = -3.115431 | poltype: 2 pol: 1 CPU time specind = 1.9072056E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.255830 | New value = -3.081522 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.079200 | New value = -3.142988 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178737 | New value = -3.156139 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129196 | New value = -3.156838 | poltype: 2 pol: 2 CPU time specind = 5.1050186E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.13556E+08, tol = 0.90846E+01, time = 5.66 | CG iter. 2 -- res = 0.33533E+06, tol = 0.90846E+01, time = 5.98 | CG iter. 3 -- res = 0.52753E+05, tol = 0.90846E+01, time = 6.02 | CG iter. 4 -- res = 0.30227E+05, tol = 0.90846E+01, time = 6.05 | CG iter. 5 -- res = 0.21634E+05, tol = 0.90846E+01, time = 6.11 | CG iter. 6 -- res = 0.19023E+05, tol = 0.90846E+01, time = 5.80 | CG iter. 7 -- res = 0.20165E+05, tol = 0.90846E+01, time = 5.73 | CG iter. 8 -- res = 0.19273E+05, tol = 0.90846E+01, time = 5.62 | CG iter. 9 -- res = 0.17226E+05, tol = 0.90846E+01, time = 5.75 | CG iter. 10 -- res = 0.15195E+05, tol = 0.90846E+01, time = 5.91 | CG iter. 11 -- res = 0.10424E+05, tol = 0.90846E+01, time = 5.78 | CG iter. 12 -- res = 0.62283E+04, tol = 0.90846E+01, time = 5.53 | CG iter. 13 -- res = 0.42998E+04, tol = 0.90846E+01, time = 5.94 | CG iter. 14 -- res = 0.34764E+04, tol = 0.90846E+01, time = 5.82 | CG iter. 15 -- res = 0.31274E+04, tol = 0.90846E+01, time = 5.57 | CG iter. 16 -- res = 0.25571E+04, tol = 0.90846E+01, time = 5.96 | CG iter. 17 -- res = 0.18632E+04, tol = 0.90846E+01, time = 5.51 | CG iter. 18 -- res = 0.14140E+04, tol = 0.90846E+01, time = 5.65 | CG iter. 19 -- res = 0.11105E+04, tol = 0.90846E+01, time = 5.74 | CG iter. 20 -- res = 0.85319E+03, tol = 0.90846E+01, time = 5.79 | CG iter. 21 -- res = 0.57681E+03, tol = 0.90846E+01, time = 5.99 | CG iter. 22 -- res = 0.43491E+03, tol = 0.90846E+01, time = 5.55 | CG iter. 23 -- res = 0.38000E+03, tol = 0.90846E+01, time = 5.83 | CG iter. 24 -- res = 0.33626E+03, tol = 0.90846E+01, time = 5.81 | CG iter. 25 -- res = 0.25809E+03, tol = 0.90846E+01, time = 5.94 | CG iter. 26 -- res = 0.20388E+03, tol = 0.90846E+01, time = 6.08 | CG iter. 27 -- res = 0.18441E+03, tol = 0.90846E+01, time = 5.73 | CG iter. 28 -- res = 0.16903E+03, tol = 0.90846E+01, time = 6.09 | CG iter. 29 -- res = 0.14103E+03, tol = 0.90846E+01, time = 12.05 | CG iter. 30 -- res = 0.11120E+03, tol = 0.90846E+01, time = 5.89 | CG iter. 31 -- res = 0.95760E+02, tol = 0.90846E+01, time = 6.10 | CG iter. 32 -- res = 0.82870E+02, tol = 0.90846E+01, time = 5.86 | CG iter. 33 -- res = 0.65378E+02, tol = 0.90846E+01, time = 5.89 | CG iter. 34 -- res = 0.49720E+02, tol = 0.90846E+01, time = 5.71 | CG iter. 35 -- res = 0.38591E+02, tol = 0.90846E+01, time = 6.03 | CG iter. 36 -- res = 0.31671E+02, tol = 0.90846E+01, time = 6.02 | CG iter. 37 -- res = 0.24834E+02, tol = 0.90846E+01, time = 5.78 | CG iter. 38 -- res = 0.17956E+02, tol = 0.90846E+01, time = 5.77 | CG iter. 39 -- res = 0.12524E+02, tol = 0.90846E+01, time = 5.78 | CG iter. 40 -- res = 0.98089E+01, tol = 0.90846E+01, time = 5.84 | CG iter. 41 -- res = 0.75239E+01, tol = 0.90846E+01, time = 5.77 | CG iter. 42 -- res = 0.54767E+01, tol = 0.90846E+01, time = 5.54 | CG iter. 43 -- res = 0.41084E+01, tol = 0.90846E+01, time = 6.32 | CG iter. 44 -- res = 0.32554E+01, tol = 0.90846E+01, time = 7.08 | CG iter. 45 -- res = 0.27631E+01, tol = 0.90846E+01, time = 6.30 | CG iter. 46 -- res = 0.21685E+01, tol = 0.90846E+01, time = 5.71 | CG iter. 47 -- res = 0.16350E+01, tol = 0.90846E+01, time = 5.73 | CG iter. 48 -- res = 0.12586E+01, tol = 0.90846E+01, time = 6.01 | CG iter. 49 -- res = 0.96471E+00, tol = 0.90846E+01, time = 5.73 | CG iter. 50 -- res = 0.70389E+00, tol = 0.90846E+01, time = 6.01 | Final CG iter 51 -- res = 0.70389E+00, tol = 0.90846E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8299586.595 | Old band monopole 7488262.358 | Change to band monopole 811324.237 | Change to component monopole -811320.747 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.49731E+04, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.15830E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.13087E+00, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.22308E-03, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.59711E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8299550.897 | (Sampled value in CG: 8307929.838 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.515843 | New value = 1.512291 | poltype: 2 pol: 1 CPU time specind = 1.3808966E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485194 | New value = 1.531853 | poltype: 2 pol: 2 CPU time specind = 2.2770882E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.24028E+08, tol = 0.47608E+04, time = 6.90 | CG iter. 2 -- res = 0.54411E+07, tol = 0.47608E+04, time = 6.68 | CG iter. 3 -- res = 0.85958E+06, tol = 0.47608E+04, time = 6.29 | CG iter. 4 -- res = 0.35395E+06, tol = 0.47608E+04, time = 6.63 | CG iter. 5 -- res = 0.15635E+06, tol = 0.47608E+04, time = 6.66 | CG iter. 6 -- res = 0.82511E+05, tol = 0.47608E+04, time = 6.58 | CG iter. 7 -- res = 0.44763E+05, tol = 0.47608E+04, time = 6.72 | CG iter. 8 -- res = 0.21562E+05, tol = 0.47608E+04, time = 13.16 | CG iter. 9 -- res = 0.94424E+04, tol = 0.47608E+04, time = 6.66 | CG iter. 10 -- res = 0.38671E+04, tol = 0.47608E+04, time = 6.56 | CG iter. 11 -- res = 0.17314E+04, tol = 0.47608E+04, time = 6.45 | CG iter. 12 -- res = 0.89169E+03, tol = 0.47608E+04, time = 6.55 | CG iter. 13 -- res = 0.50040E+03, tol = 0.47608E+04, time = 6.92 | CG iter. 14 -- res = 0.28140E+03, tol = 0.47608E+04, time = 6.59 | CG iter. 15 -- res = 0.14788E+03, tol = 0.47608E+04, time = 6.42 | CG iter. 16 -- res = 0.70146E+02, tol = 0.47608E+04, time = 6.68 | CG iter. 17 -- res = 0.32398E+02, tol = 0.47608E+04, time = 6.75 | CG iter. 18 -- res = 0.16065E+02, tol = 0.47608E+04, time = 6.68 | CG iter. 19 -- res = 0.86871E+01, tol = 0.47608E+04, time = 6.62 | CG iter. 20 -- res = 0.49481E+01, tol = 0.47608E+04, time = 6.83 | CG iter. 21 -- res = 0.27831E+01, tol = 0.47608E+04, time = 7.88 | CG iter. 22 -- res = 0.14357E+01, tol = 0.47608E+04, time = 7.23 | CG iter. 23 -- res = 0.70525E+00, tol = 0.47608E+04, time = 6.87 | CG iter. 24 -- res = 0.35725E+00, tol = 0.47608E+04, time = 6.93 | CG iter. 25 -- res = 0.19471E+00, tol = 0.47608E+04, time = 6.85 | CG iter. 26 -- res = 0.11164E+00, tol = 0.47608E+04, time = 6.75 | CG iter. 27 -- res = 0.63461E-01, tol = 0.47608E+04, time = 6.67 | CG iter. 28 -- res = 0.34377E-01, tol = 0.47608E+04, time = 6.84 | CG iter. 29 -- res = 0.17917E-01, tol = 0.47608E+04, time = 6.72 | CG iter. 30 -- res = 0.92083E-02, tol = 0.47608E+04, time = 6.50 | CG iter. 31 -- res = 0.49856E-02, tol = 0.47608E+04, time = 6.80 | CG iter. 32 -- res = 0.28110E-02, tol = 0.47608E+04, time = 7.21 | CG iter. 33 -- res = 0.15700E-02, tol = 0.47608E+04, time = 6.26 | CG iter. 34 -- res = 0.84667E-03, tol = 0.47608E+04, time = 6.72 | CG iter. 35 -- res = 0.44985E-03, tol = 0.47608E+04, time = 6.79 | Final CG iter 36 -- res = 0.44985E-03, tol = 0.47608E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.856 2.744 | New value -1.309 | Old value 1.856 | Difference -3.165 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.51621E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.13090E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.88742E-01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.68859E-04, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.63824E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8299550.897 | (Sampled value in CG: 8308291.877 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.709633 | New value = -3.450266 | poltype: 1 pol: 1 CPU time specind = 1.3212919E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.27713E+07, tol = 0.25441E+01, time = 3.20 | CG iter. 2 -- res = 0.10522E+07, tol = 0.25441E+01, time = 2.94 | CG iter. 3 -- res = 0.21144E+06, tol = 0.25441E+01, time = 2.62 | CG iter. 4 -- res = 0.97631E+05, tol = 0.25441E+01, time = 2.99 | CG iter. 5 -- res = 0.55780E+05, tol = 0.25441E+01, time = 2.83 | CG iter. 6 -- res = 0.24587E+05, tol = 0.25441E+01, time = 2.75 | CG iter. 7 -- res = 0.93565E+04, tol = 0.25441E+01, time = 2.55 | CG iter. 8 -- res = 0.45462E+04, tol = 0.25441E+01, time = 2.72 | CG iter. 9 -- res = 0.22948E+04, tol = 0.25441E+01, time = 2.64 | CG iter. 10 -- res = 0.97690E+03, tol = 0.25441E+01, time = 2.56 | CG iter. 11 -- res = 0.37569E+03, tol = 0.25441E+01, time = 2.69 | CG iter. 12 -- res = 0.16169E+03, tol = 0.25441E+01, time = 2.68 | CG iter. 13 -- res = 0.78124E+02, tol = 0.25441E+01, time = 2.71 | CG iter. 14 -- res = 0.40817E+02, tol = 0.25441E+01, time = 2.63 | CG iter. 15 -- res = 0.21671E+02, tol = 0.25441E+01, time = 2.81 | CG iter. 16 -- res = 0.10233E+02, tol = 0.25441E+01, time = 2.75 | CG iter. 17 -- res = 0.44088E+01, tol = 0.25441E+01, time = 2.53 | CG iter. 18 -- res = 0.19240E+01, tol = 0.25441E+01, time = 2.77 | CG iter. 19 -- res = 0.84509E+00, tol = 0.25441E+01, time = 2.81 | CG iter. 20 -- res = 0.39996E+00, tol = 0.25441E+01, time = 2.88 | CG iter. 21 -- res = 0.21403E+00, tol = 0.25441E+01, time = 2.66 | CG iter. 22 -- res = 0.10637E+00, tol = 0.25441E+01, time = 2.75 | CG iter. 23 -- res = 0.51240E-01, tol = 0.25441E+01, time = 2.77 | CG iter. 24 -- res = 0.23069E-01, tol = 0.25441E+01, time = 2.98 | CG iter. 25 -- res = 0.10538E-01, tol = 0.25441E+01, time = 2.73 | CG iter. 26 -- res = 0.49041E-02, tol = 0.25441E+01, time = 2.87 | CG iter. 27 -- res = 0.25221E-02, tol = 0.25441E+01, time = 2.70 | CG iter. 28 -- res = 0.13200E-02, tol = 0.25441E+01, time = 3.00 | CG iter. 29 -- res = 0.63703E-03, tol = 0.25441E+01, time = 2.61 | CG iter. 30 -- res = 0.31502E-03, tol = 0.25441E+01, time = 2.94 | CG iter. 31 -- res = 0.14813E-03, tol = 0.25441E+01, time = 2.75 | CG iter. 32 -- res = 0.70314E-04, tol = 0.25441E+01, time = 2.90 | CG iter. 33 -- res = 0.36002E-04, tol = 0.25441E+01, time = 2.76 | CG iter. 34 -- res = 0.17791E-04, tol = 0.25441E+01, time = 2.92 | CG iter. 35 -- res = 0.95409E-05, tol = 0.25441E+01, time = 2.54 | CG iter. 36 -- res = 0.46622E-05, tol = 0.25441E+01, time = 6.55 | CG iter. 37 -- res = 0.21922E-05, tol = 0.25441E+01, time = 5.36 | CG iter. 38 -- res = 0.10273E-05, tol = 0.25441E+01, time = 2.83 | CG iter. 39 -- res = 0.48044E-06, tol = 0.25441E+01, time = 2.64 | CG iter. 40 -- res = 0.23755E-06, tol = 0.25441E+01, time = 2.93 | CG iter. 41 -- res = 0.12376E-06, tol = 0.25441E+01, time = 3.00 | CG iter. 42 -- res = 0.61743E-07, tol = 0.25441E+01, time = 2.58 | CG iter. 43 -- res = 0.29297E-07, tol = 0.25441E+01, time = 2.87 | CG iter. 44 -- res = 0.13962E-07, tol = 0.25441E+01, time = 2.81 | CG iter. 45 -- res = 0.63818E-08, tol = 0.25441E+01, time = 2.87 | CG iter. 46 -- res = 0.30969E-08, tol = 0.25441E+01, time = 2.71 | CG iter. 47 -- res = 0.15518E-08, tol = 0.25441E+01, time = 2.79 | CG iter. 48 -- res = 0.79997E-09, tol = 0.25441E+01, time = 2.68 | CG iter. 49 -- res = 0.40479E-09, tol = 0.25441E+01, time = 3.14 | CG iter. 50 -- res = 0.18553E-09, tol = 0.25441E+01, time = 2.77 | Final CG iter 51 -- res = 0.18553E-09, tol = 0.25441E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.804 4.653 | New value 0.134 | Old value -4.804 | Difference 4.938 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.25181E+05, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.23984E+02, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.50841E+00, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.45701E-03, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.51862E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8299550.897 | (Sampled value in CG: 8308613.779 ) | CPU time specind = 1218.616 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.68270E+08, tol = 0.57567E+04, time = 11.79 | CG iter. 2 -- res = 0.58718E+08, tol = 0.57567E+04, time = 11.70 | CG iter. 3 -- res = 0.15053E+08, tol = 0.57567E+04, time = 12.08 | CG iter. 4 -- res = 0.62811E+07, tol = 0.57567E+04, time = 12.56 | CG iter. 5 -- res = 0.36517E+07, tol = 0.57567E+04, time = 12.04 | CG iter. 6 -- res = 0.21484E+07, tol = 0.57567E+04, time = 12.38 | CG iter. 7 -- res = 0.13143E+07, tol = 0.57567E+04, time = 12.85 | CG iter. 8 -- res = 0.87777E+06, tol = 0.57567E+04, time = 11.46 | CG iter. 9 -- res = 0.55714E+06, tol = 0.57567E+04, time = 11.78 | CG iter. 10 -- res = 0.32790E+06, tol = 0.57567E+04, time = 12.18 | CG iter. 11 -- res = 0.17929E+06, tol = 0.57567E+04, time = 12.21 | CG iter. 12 -- res = 0.96111E+05, tol = 0.57567E+04, time = 11.96 | CG iter. 13 -- res = 0.54268E+05, tol = 0.57567E+04, time = 11.40 | CG iter. 14 -- res = 0.33210E+05, tol = 0.57567E+04, time = 16.41 | CG iter. 15 -- res = 0.22966E+05, tol = 0.57567E+04, time = 13.94 | CG iter. 16 -- res = 0.17484E+05, tol = 0.57567E+04, time = 11.99 | CG iter. 17 -- res = 0.14175E+05, tol = 0.57567E+04, time = 11.92 | CG iter. 18 -- res = 0.11641E+05, tol = 0.57567E+04, time = 12.16 | CG iter. 19 -- res = 0.92998E+04, tol = 0.57567E+04, time = 11.81 | CG iter. 20 -- res = 0.78715E+04, tol = 0.57567E+04, time = 12.26 | CG iter. 21 -- res = 0.73199E+04, tol = 0.57567E+04, time = 13.45 | CG iter. 22 -- res = 0.76749E+04, tol = 0.57567E+04, time = 13.26 | CG iter. 23 -- res = 0.85347E+04, tol = 0.57567E+04, time = 11.29 | CG iter. 24 -- res = 0.94741E+04, tol = 0.57567E+04, time = 11.74 | CG iter. 25 -- res = 0.96107E+04, tol = 0.57567E+04, time = 11.85 | CG iter. 26 -- res = 0.86267E+04, tol = 0.57567E+04, time = 12.08 | CG iter. 27 -- res = 0.71015E+04, tol = 0.57567E+04, time = 12.34 | CG iter. 28 -- res = 0.55917E+04, tol = 0.57567E+04, time = 11.98 | CG iter. 29 -- res = 0.44252E+04, tol = 0.57567E+04, time = 11.76 | CG iter. 30 -- res = 0.37318E+04, tol = 0.57567E+04, time = 12.58 | CG iter. 31 -- res = 0.31820E+04, tol = 0.57567E+04, time = 12.12 | CG iter. 32 -- res = 0.26237E+04, tol = 0.57567E+04, time = 12.34 | CG iter. 33 -- res = 0.22019E+04, tol = 0.57567E+04, time = 11.68 | CG iter. 34 -- res = 0.17751E+04, tol = 0.57567E+04, time = 11.98 | CG iter. 35 -- res = 0.14288E+04, tol = 0.57567E+04, time = 11.95 | CG iter. 36 -- res = 0.12370E+04, tol = 0.57567E+04, time = 11.91 | CG iter. 37 -- res = 0.11825E+04, tol = 0.57567E+04, time = 12.06 | CG iter. 38 -- res = 0.11998E+04, tol = 0.57567E+04, time = 11.86 | CG iter. 39 -- res = 0.11982E+04, tol = 0.57567E+04, time = 17.94 | CG iter. 40 -- res = 0.11096E+04, tol = 0.57567E+04, time = 12.07 | CG iter. 41 -- res = 0.95630E+03, tol = 0.57567E+04, time = 12.05 | CG iter. 42 -- res = 0.80181E+03, tol = 0.57567E+04, time = 12.19 | CG iter. 43 -- res = 0.66651E+03, tol = 0.57567E+04, time = 11.95 | CG iter. 44 -- res = 0.58554E+03, tol = 0.57567E+04, time = 12.12 | CG iter. 45 -- res = 0.51792E+03, tol = 0.57567E+04, time = 12.01 | CG iter. 46 -- res = 0.44748E+03, tol = 0.57567E+04, time = 13.50 | CG iter. 47 -- res = 0.38290E+03, tol = 0.57567E+04, time = 12.79 | CG iter. 48 -- res = 0.33133E+03, tol = 0.57567E+04, time = 12.19 | CG iter. 49 -- res = 0.27731E+03, tol = 0.57567E+04, time = 11.84 | CG iter. 50 -- res = 0.23903E+03, tol = 0.57567E+04, time = 12.04 | CG iter. 51 -- res = 0.22477E+03, tol = 0.57567E+04, time = 12.15 | CG iter. 52 -- res = 0.21792E+03, tol = 0.57567E+04, time = 12.10 | CG iter. 53 -- res = 0.21651E+03, tol = 0.57567E+04, time = 12.39 | CG iter. 54 -- res = 0.20880E+03, tol = 0.57567E+04, time = 11.68 | CG iter. 55 -- res = 0.19601E+03, tol = 0.57567E+04, time = 11.93 | CG iter. 56 -- res = 0.18157E+03, tol = 0.57567E+04, time = 11.74 | CG iter. 57 -- res = 0.16091E+03, tol = 0.57567E+04, time = 12.16 | CG iter. 58 -- res = 0.14431E+03, tol = 0.57567E+04, time = 11.84 | CG iter. 59 -- res = 0.13280E+03, tol = 0.57567E+04, time = 11.62 | CG iter. 60 -- res = 0.12366E+03, tol = 0.57567E+04, time = 12.28 | Final CG iter 61 -- res = 0.12366E+03, tol = 0.57567E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.879 ( -229.205 -2228.647 2511.078 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9938154.116 | Old band monopole 8299586.595 | Change to band monopole 1638567.521 | Change to component monopole -1638560.473 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.326 2.718 | New value -1.118 | Old value -1.326 | Difference 0.208 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.279 ( 5.235 6.524 -6.288 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.585 6.936 | New value -2.773 | Old value -1.585 | Difference -1.188 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.23682E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.21873E+02, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.67991E+00, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.15137E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.70748E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9938111.370 | (Sampled value in CG: 9916220.535 ) | Chain = 1 -- chisq = 0.81582421E+09 | Chain = 1 -- wall time = 5740.103 sec Available RAM: MemAvailable: 388770632 kB Available Swap: SwapFree: 1108556428 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 344 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06448668 | --> Sampling calibration, mode = relcal | relcal = 1.3443570E-02 7.3785760E-04 -1.6035247E-03 -1.2577903E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1298477 0.1416468 9407161.88758434 | BP delta = 0.1298477 0.1392023 9407136.73540650 | BP chisq diff = -25.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632193 | --> Sampling calibration, mode = relcal | relcal = -2.8199400E-03 -7.0393959E-04 1.6775365E-03 1.6131126E-03 -4.0706160E-04 6.4029190E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5631911 15217628.9752621 | BP delta = 0.0000000E+00 -0.5697430 15217630.7855982 | BP chisq diff = 1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18048312865832 | --> Sampling calibration, mode = relcal | relcal = -7.3264398E-02 -5.7377648E-02 9.0093821E-02 4.0548220E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.5861154E-04 2.4482079E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3172E-04 | 2: delta_r/delta_0: 3.6098E-06 | 3: delta_s/delta_0: 1.6587E-07 | 4: delta_r/delta_0: 2.9972E-08 | 5: delta_s/delta_0: 1.1000E-08 | 6: delta_r/delta_0: 3.5415E-09 | 7: delta_s/delta_0: 1.0510E-09 | 8: delta_r/delta_0: 2.4839E-10 | 9: delta_s/delta_0: 1.3707E-10 | 10: delta_r/delta_0: 3.3068E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.731520359273222E-004 2.742531004243023E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3171E-04 | 2: delta_r/delta_0: 3.6099E-06 | 3: delta_s/delta_0: 1.6587E-07 | 4: delta_r/delta_0: 2.9971E-08 | 5: delta_s/delta_0: 1.1000E-08 | 6: delta_r/delta_0: 3.5412E-09 | 7: delta_s/delta_0: 1.0508E-09 | 8: delta_r/delta_0: 2.4838E-10 | 9: delta_s/delta_0: 1.3707E-10 | 10: delta_r/delta_0: 3.3064E-11 | Reached bicg-stab tolerance | BP delta = 8.1068411E-02 0.1029192 3655619.68415824 | BP delta = 8.1068411E-02 0.1029617 3653911.57092927 | BP chisq diff = -1708.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02573980 | --> Sampling calibration, mode = relcal | relcal = -0.1065907 -9.5502846E-02 0.1448936 5.7200041E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0329116E-03 1.1950473E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1389E-05 | 2: delta_r/delta_0: 1.2248E-06 | 3: delta_s/delta_0: 2.4451E-07 | 4: delta_r/delta_0: 5.2856E-08 | 5: delta_s/delta_0: 1.7677E-08 | 6: delta_r/delta_0: 7.2779E-09 | 7: delta_s/delta_0: 1.1094E-08 | 8: delta_r/delta_0: 1.1999E-09 | 9: delta_s/delta_0: 1.0363E-09 | 10: delta_r/delta_0: 1.9387E-10 | 11: delta_s/delta_0: 2.5938E-09 | 12: delta_r/delta_0: 2.1794E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.859578966895316E-003 2.811531208542756E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1390E-05 | 2: delta_r/delta_0: 1.2249E-06 | 3: delta_s/delta_0: 2.4456E-07 | 4: delta_r/delta_0: 5.2900E-08 | 5: delta_s/delta_0: 1.7658E-08 | 6: delta_r/delta_0: 7.2808E-09 | 7: delta_s/delta_0: 1.1098E-08 | 8: delta_r/delta_0: 1.2006E-09 | 9: delta_s/delta_0: 1.0364E-09 | 10: delta_r/delta_0: 1.9461E-10 | 11: delta_s/delta_0: 2.5994E-09 | 12: delta_r/delta_0: 2.1818E-11 | Reached bicg-stab tolerance | BP delta = -0.2924837 -0.2602667 2841409.83731440 | BP delta = -0.2924837 -0.2546720 2841458.08169123 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81192332 | --> Sampling calibration, mode = relcal | relcal = 0.2954018 0.2247305 -0.2836744 -0.2364579 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.1660045E-04 5.2151079E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9896E-03 | 2: delta_r/delta_0: 4.7510E-05 | 3: delta_s/delta_0: 3.2414E-05 | 4: delta_r/delta_0: 2.2165E-06 | 5: delta_s/delta_0: 7.0614E-07 | 6: delta_r/delta_0: 2.5020E-07 | 7: delta_s/delta_0: 5.8005E-07 | 8: delta_r/delta_0: 4.9437E-08 | 9: delta_s/delta_0: 1.8918E-06 | 10: delta_r/delta_0: 8.2390E-07 | 11: delta_s/delta_0: 3.0335E-09 | 12: delta_r/delta_0: 1.1957E-09 | 13: delta_s/delta_0: 1.5957E-07 | 14: delta_r/delta_0: 4.1036E-09 | 15: delta_s/delta_0: 8.1891E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.765689683571147E-002 4.023282365662507E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9882E-03 | 2: delta_r/delta_0: 4.7478E-05 | 3: delta_s/delta_0: 3.2396E-05 | 4: delta_r/delta_0: 2.2154E-06 | 5: delta_s/delta_0: 7.0597E-07 | 6: delta_r/delta_0: 2.5026E-07 | 7: delta_s/delta_0: 5.8114E-07 | 8: delta_r/delta_0: 4.9429E-08 | 9: delta_s/delta_0: 1.8719E-06 | 10: delta_r/delta_0: 8.1676E-07 | 11: delta_s/delta_0: 3.0328E-09 | 12: delta_r/delta_0: 1.1955E-09 | 13: delta_s/delta_0: 1.6225E-07 | 14: delta_r/delta_0: 4.1950E-09 | 15: delta_s/delta_0: 8.1892E-11 | Reached bicg-stab tolerance | BP delta = -0.1671742 -0.2096255 2827536.16138537 | BP delta = -0.1671742 -0.2241715 2827615.55470330 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95867887 | --> Sampling calibration, mode = relcal | relcal = 0.1063675 0.1395072 -0.1102477 -0.1356270 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0104008E-02 1.3332140E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.7880E-04 | 2: delta_r/delta_0: 1.8949E-05 | 3: delta_s/delta_0: 1.3040E-05 | 4: delta_r/delta_0: 1.1210E-06 | 5: delta_s/delta_0: 4.2517E-07 | 6: delta_r/delta_0: 1.6482E-07 | 7: delta_s/delta_0: 2.7210E-07 | 8: delta_r/delta_0: 3.8690E-08 | 9: delta_s/delta_0: 1.3023E-06 | 10: delta_r/delta_0: 2.8922E-07 | 11: delta_s/delta_0: 2.3251E-09 | 12: delta_r/delta_0: 1.1109E-09 | 13: delta_s/delta_0: 1.9499E-09 | 14: delta_r/delta_0: 2.1243E-10 | 15: delta_s/delta_0: 7.2987E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.416546485461686E-002 3.699037156529571E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.7882E-04 | 2: delta_r/delta_0: 1.8949E-05 | 3: delta_s/delta_0: 1.3040E-05 | 4: delta_r/delta_0: 1.1211E-06 | 5: delta_s/delta_0: 4.2518E-07 | 6: delta_r/delta_0: 1.6482E-07 | 7: delta_s/delta_0: 2.7204E-07 | 8: delta_r/delta_0: 3.8690E-08 | 9: delta_s/delta_0: 1.2998E-06 | 10: delta_r/delta_0: 2.8853E-07 | 11: delta_s/delta_0: 2.3250E-09 | 12: delta_r/delta_0: 1.1109E-09 | 13: delta_s/delta_0: 1.9481E-09 | 14: delta_r/delta_0: 2.1256E-10 | 15: delta_s/delta_0: 7.2989E-11 | Reached bicg-stab tolerance | BP delta = 0.1514361 0.2649618 3003591.44111763 | BP delta = 0.1514361 0.2622122 3003597.84398095 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115431 | New value = -3.184740 | poltype: 2 pol: 1 CPU time specind = 1.9941807E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.081522 | New value = -3.108017 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142988 | New value = -3.151452 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156139 | New value = -3.192676 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156838 | New value = -3.143675 | poltype: 2 pol: 2 CPU time specind = 1.7276049E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.13599E+08, tol = 0.71621E+01, time = 5.71 | CG iter. 2 -- res = 0.34105E+06, tol = 0.71621E+01, time = 5.52 | CG iter. 3 -- res = 0.73973E+05, tol = 0.71621E+01, time = 5.94 | CG iter. 4 -- res = 0.65957E+05, tol = 0.71621E+01, time = 12.00 | CG iter. 5 -- res = 0.71007E+05, tol = 0.71621E+01, time = 6.07 | CG iter. 6 -- res = 0.72424E+05, tol = 0.71621E+01, time = 5.61 | CG iter. 7 -- res = 0.69787E+05, tol = 0.71621E+01, time = 5.95 | CG iter. 8 -- res = 0.57244E+05, tol = 0.71621E+01, time = 5.56 | CG iter. 9 -- res = 0.46618E+05, tol = 0.71621E+01, time = 5.75 | CG iter. 10 -- res = 0.37349E+05, tol = 0.71621E+01, time = 5.87 | CG iter. 11 -- res = 0.25390E+05, tol = 0.71621E+01, time = 5.56 | CG iter. 12 -- res = 0.17864E+05, tol = 0.71621E+01, time = 5.52 | CG iter. 13 -- res = 0.15266E+05, tol = 0.71621E+01, time = 5.63 | CG iter. 14 -- res = 0.13945E+05, tol = 0.71621E+01, time = 5.54 | CG iter. 15 -- res = 0.11684E+05, tol = 0.71621E+01, time = 5.93 | CG iter. 16 -- res = 0.83266E+04, tol = 0.71621E+01, time = 5.85 | CG iter. 17 -- res = 0.60179E+04, tol = 0.71621E+01, time = 5.46 | CG iter. 18 -- res = 0.51645E+04, tol = 0.71621E+01, time = 5.49 | CG iter. 19 -- res = 0.45205E+04, tol = 0.71621E+01, time = 7.31 | CG iter. 20 -- res = 0.35889E+04, tol = 0.71621E+01, time = 5.95 | CG iter. 21 -- res = 0.27030E+04, tol = 0.71621E+01, time = 6.12 | CG iter. 22 -- res = 0.23185E+04, tol = 0.71621E+01, time = 5.50 | CG iter. 23 -- res = 0.20675E+04, tol = 0.71621E+01, time = 5.70 | CG iter. 24 -- res = 0.16509E+04, tol = 0.71621E+01, time = 5.46 | CG iter. 25 -- res = 0.12903E+04, tol = 0.71621E+01, time = 5.44 | CG iter. 26 -- res = 0.10947E+04, tol = 0.71621E+01, time = 6.10 | CG iter. 27 -- res = 0.10338E+04, tol = 0.71621E+01, time = 5.80 | CG iter. 28 -- res = 0.91213E+03, tol = 0.71621E+01, time = 5.66 | CG iter. 29 -- res = 0.74207E+03, tol = 0.71621E+01, time = 5.64 | CG iter. 30 -- res = 0.60537E+03, tol = 0.71621E+01, time = 6.11 | CG iter. 31 -- res = 0.56408E+03, tol = 0.71621E+01, time = 5.62 | CG iter. 32 -- res = 0.48482E+03, tol = 0.71621E+01, time = 5.69 | CG iter. 33 -- res = 0.40175E+03, tol = 0.71621E+01, time = 5.79 | CG iter. 34 -- res = 0.31886E+03, tol = 0.71621E+01, time = 5.94 | CG iter. 35 -- res = 0.27969E+03, tol = 0.71621E+01, time = 5.79 | CG iter. 36 -- res = 0.25472E+03, tol = 0.71621E+01, time = 5.58 | CG iter. 37 -- res = 0.20671E+03, tol = 0.71621E+01, time = 6.38 | CG iter. 38 -- res = 0.15843E+03, tol = 0.71621E+01, time = 6.07 | CG iter. 39 -- res = 0.13183E+03, tol = 0.71621E+01, time = 5.47 | CG iter. 40 -- res = 0.11309E+03, tol = 0.71621E+01, time = 5.47 | CG iter. 41 -- res = 0.94388E+02, tol = 0.71621E+01, time = 5.57 | CG iter. 42 -- res = 0.72437E+02, tol = 0.71621E+01, time = 5.98 | CG iter. 43 -- res = 0.57789E+02, tol = 0.71621E+01, time = 5.53 | CG iter. 44 -- res = 0.49504E+02, tol = 0.71621E+01, time = 5.49 | CG iter. 45 -- res = 0.41100E+02, tol = 0.71621E+01, time = 6.13 | CG iter. 46 -- res = 0.31489E+02, tol = 0.71621E+01, time = 6.01 | CG iter. 47 -- res = 0.24533E+02, tol = 0.71621E+01, time = 5.22 | CG iter. 48 -- res = 0.20763E+02, tol = 0.71621E+01, time = 6.12 | CG iter. 49 -- res = 0.16984E+02, tol = 0.71621E+01, time = 5.78 | CG iter. 50 -- res = 0.13803E+02, tol = 0.71621E+01, time = 5.48 | Final CG iter 51 -- res = 0.13803E+02, tol = 0.71621E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8807879.127 | Old band monopole 9938154.116 | Change to band monopole -1130274.990 | Change to component monopole 1130270.128 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.13444E+06, tol = 0.47627E+18, time = 2.10 | CG iter. 2 -- res = 0.89576E+02, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.30617E+01, tol = 0.47627E+18, time = 2.22 | CG iter. 4 -- res = 0.13522E-01, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.53877E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8807841.242 | (Sampled value in CG: 8754144.130 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.512291 | New value = 1.496457 | poltype: 2 pol: 1 CPU time specind = 2.3027897E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.531853 | New value = 1.473877 | poltype: 2 pol: 2 CPU time specind = 3.2339096E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.29 | CG iter. 1 -- res = 0.24046E+08, tol = 0.47542E+04, time = 7.18 | CG iter. 2 -- res = 0.53300E+07, tol = 0.47542E+04, time = 7.20 | CG iter. 3 -- res = 0.85215E+06, tol = 0.47542E+04, time = 6.31 | CG iter. 4 -- res = 0.36267E+06, tol = 0.47542E+04, time = 6.75 | CG iter. 5 -- res = 0.15675E+06, tol = 0.47542E+04, time = 6.32 | CG iter. 6 -- res = 0.81306E+05, tol = 0.47542E+04, time = 6.51 | CG iter. 7 -- res = 0.44363E+05, tol = 0.47542E+04, time = 6.69 | CG iter. 8 -- res = 0.21217E+05, tol = 0.47542E+04, time = 6.59 | CG iter. 9 -- res = 0.94122E+04, tol = 0.47542E+04, time = 6.68 | CG iter. 10 -- res = 0.38466E+04, tol = 0.47542E+04, time = 6.63 | CG iter. 11 -- res = 0.17345E+04, tol = 0.47542E+04, time = 6.71 | CG iter. 12 -- res = 0.89495E+03, tol = 0.47542E+04, time = 6.77 | CG iter. 13 -- res = 0.50721E+03, tol = 0.47542E+04, time = 6.37 | CG iter. 14 -- res = 0.29283E+03, tol = 0.47542E+04, time = 6.54 | CG iter. 15 -- res = 0.14762E+03, tol = 0.47542E+04, time = 6.54 | CG iter. 16 -- res = 0.67719E+02, tol = 0.47542E+04, time = 6.80 | CG iter. 17 -- res = 0.31574E+02, tol = 0.47542E+04, time = 6.49 | CG iter. 18 -- res = 0.16164E+02, tol = 0.47542E+04, time = 6.82 | CG iter. 19 -- res = 0.88641E+01, tol = 0.47542E+04, time = 6.66 | CG iter. 20 -- res = 0.49811E+01, tol = 0.47542E+04, time = 6.54 | CG iter. 21 -- res = 0.27313E+01, tol = 0.47542E+04, time = 6.35 | CG iter. 22 -- res = 0.14010E+01, tol = 0.47542E+04, time = 6.77 | CG iter. 23 -- res = 0.69265E+00, tol = 0.47542E+04, time = 6.15 | CG iter. 24 -- res = 0.35139E+00, tol = 0.47542E+04, time = 6.72 | CG iter. 25 -- res = 0.19454E+00, tol = 0.47542E+04, time = 6.74 | CG iter. 26 -- res = 0.11484E+00, tol = 0.47542E+04, time = 6.75 | CG iter. 27 -- res = 0.65657E-01, tol = 0.47542E+04, time = 6.53 | CG iter. 28 -- res = 0.34819E-01, tol = 0.47542E+04, time = 6.39 | CG iter. 29 -- res = 0.17682E-01, tol = 0.47542E+04, time = 6.72 | CG iter. 30 -- res = 0.92673E-02, tol = 0.47542E+04, time = 6.40 | CG iter. 31 -- res = 0.49998E-02, tol = 0.47542E+04, time = 6.75 | CG iter. 32 -- res = 0.28360E-02, tol = 0.47542E+04, time = 12.95 | CG iter. 33 -- res = 0.16050E-02, tol = 0.47542E+04, time = 6.54 | CG iter. 34 -- res = 0.86711E-03, tol = 0.47542E+04, time = 6.42 | CG iter. 35 -- res = 0.44891E-03, tol = 0.47542E+04, time = 6.54 | Final CG iter 36 -- res = 0.44891E-03, tol = 0.47542E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.132 2.726 | New value 0.141 | Old value -1.132 | Difference 1.273 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.88837E+05, tol = 0.47627E+18, time = 2.29 | CG iter. 2 -- res = 0.56194E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.17486E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.24554E-03, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.40800E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8807841.242 | (Sampled value in CG: 8752550.021 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.450266 | New value = -3.652095 | poltype: 1 pol: 1 CPU time specind = 1.3856888E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.37093E+07, tol = 0.29767E+01, time = 2.73 | CG iter. 2 -- res = 0.11306E+07, tol = 0.29767E+01, time = 2.67 | CG iter. 3 -- res = 0.27223E+06, tol = 0.29767E+01, time = 2.64 | CG iter. 4 -- res = 0.15862E+06, tol = 0.29767E+01, time = 3.03 | CG iter. 5 -- res = 0.93424E+05, tol = 0.29767E+01, time = 2.73 | CG iter. 6 -- res = 0.33392E+05, tol = 0.29767E+01, time = 2.86 | CG iter. 7 -- res = 0.10650E+05, tol = 0.29767E+01, time = 2.58 | CG iter. 8 -- res = 0.49835E+04, tol = 0.29767E+01, time = 2.55 | CG iter. 9 -- res = 0.23764E+04, tol = 0.29767E+01, time = 2.56 | CG iter. 10 -- res = 0.90075E+03, tol = 0.29767E+01, time = 2.75 | CG iter. 11 -- res = 0.36618E+03, tol = 0.29767E+01, time = 2.74 | CG iter. 12 -- res = 0.18484E+03, tol = 0.29767E+01, time = 2.57 | CG iter. 13 -- res = 0.97522E+02, tol = 0.29767E+01, time = 2.62 | CG iter. 14 -- res = 0.47665E+02, tol = 0.29767E+01, time = 2.68 | CG iter. 15 -- res = 0.20676E+02, tol = 0.29767E+01, time = 2.37 | CG iter. 16 -- res = 0.87574E+01, tol = 0.29767E+01, time = 2.85 | CG iter. 17 -- res = 0.37397E+01, tol = 0.29767E+01, time = 2.73 | CG iter. 18 -- res = 0.18714E+01, tol = 0.29767E+01, time = 2.84 | CG iter. 19 -- res = 0.93598E+00, tol = 0.29767E+01, time = 2.79 | CG iter. 20 -- res = 0.46924E+00, tol = 0.29767E+01, time = 2.79 | CG iter. 21 -- res = 0.21499E+00, tol = 0.29767E+01, time = 4.05 | CG iter. 22 -- res = 0.89232E-01, tol = 0.29767E+01, time = 3.14 | CG iter. 23 -- res = 0.39872E-01, tol = 0.29767E+01, time = 2.94 | CG iter. 24 -- res = 0.19633E-01, tol = 0.29767E+01, time = 3.26 | CG iter. 25 -- res = 0.96668E-02, tol = 0.29767E+01, time = 2.79 | CG iter. 26 -- res = 0.48718E-02, tol = 0.29767E+01, time = 2.93 | CG iter. 27 -- res = 0.23587E-02, tol = 0.29767E+01, time = 2.98 | CG iter. 28 -- res = 0.11115E-02, tol = 0.29767E+01, time = 2.74 | CG iter. 29 -- res = 0.47944E-03, tol = 0.29767E+01, time = 2.77 | CG iter. 30 -- res = 0.23226E-03, tol = 0.29767E+01, time = 2.60 | CG iter. 31 -- res = 0.11703E-03, tol = 0.29767E+01, time = 2.81 | CG iter. 32 -- res = 0.60881E-04, tol = 0.29767E+01, time = 2.89 | CG iter. 33 -- res = 0.29592E-04, tol = 0.29767E+01, time = 2.80 | CG iter. 34 -- res = 0.13367E-04, tol = 0.29767E+01, time = 2.65 | CG iter. 35 -- res = 0.59420E-05, tol = 0.29767E+01, time = 2.89 | CG iter. 36 -- res = 0.29304E-05, tol = 0.29767E+01, time = 2.82 | CG iter. 37 -- res = 0.14308E-05, tol = 0.29767E+01, time = 2.58 | CG iter. 38 -- res = 0.72775E-06, tol = 0.29767E+01, time = 3.05 | CG iter. 39 -- res = 0.35265E-06, tol = 0.29767E+01, time = 2.56 | CG iter. 40 -- res = 0.15474E-06, tol = 0.29767E+01, time = 2.75 | CG iter. 41 -- res = 0.69777E-07, tol = 0.29767E+01, time = 2.91 | CG iter. 42 -- res = 0.34468E-07, tol = 0.29767E+01, time = 2.55 | CG iter. 43 -- res = 0.16406E-07, tol = 0.29767E+01, time = 2.69 | CG iter. 44 -- res = 0.78365E-08, tol = 0.29767E+01, time = 2.69 | CG iter. 45 -- res = 0.38156E-08, tol = 0.29767E+01, time = 2.89 | CG iter. 46 -- res = 0.17884E-08, tol = 0.29767E+01, time = 3.01 | CG iter. 47 -- res = 0.86134E-09, tol = 0.29767E+01, time = 2.78 | CG iter. 48 -- res = 0.40232E-09, tol = 0.29767E+01, time = 2.78 | CG iter. 49 -- res = 0.18844E-09, tol = 0.29767E+01, time = 2.54 | CG iter. 50 -- res = 0.91517E-10, tol = 0.29767E+01, time = 2.78 | Final CG iter 51 -- res = 0.91517E-10, tol = 0.29767E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.306 7.630 | New value -11.864 | Old value -7.306 | Difference -4.559 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.22013E+05, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.33268E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.12839E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.39099E-02, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.42634E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8807841.242 | (Sampled value in CG: 8769923.244 ) | CPU time specind = 1199.506 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.68500E+08, tol = 0.57779E+04, time = 11.94 | CG iter. 2 -- res = 0.58464E+08, tol = 0.57779E+04, time = 11.99 | CG iter. 3 -- res = 0.14890E+08, tol = 0.57779E+04, time = 12.07 | CG iter. 4 -- res = 0.63207E+07, tol = 0.57779E+04, time = 18.14 | CG iter. 5 -- res = 0.36757E+07, tol = 0.57779E+04, time = 11.65 | CG iter. 6 -- res = 0.20850E+07, tol = 0.57779E+04, time = 11.46 | CG iter. 7 -- res = 0.12408E+07, tol = 0.57779E+04, time = 12.04 | CG iter. 8 -- res = 0.84448E+06, tol = 0.57779E+04, time = 11.86 | CG iter. 9 -- res = 0.56633E+06, tol = 0.57779E+04, time = 11.80 | CG iter. 10 -- res = 0.34856E+06, tol = 0.57779E+04, time = 11.27 | CG iter. 11 -- res = 0.19456E+06, tol = 0.57779E+04, time = 13.49 | CG iter. 12 -- res = 0.10784E+06, tol = 0.57779E+04, time = 12.05 | CG iter. 13 -- res = 0.64163E+05, tol = 0.57779E+04, time = 12.09 | CG iter. 14 -- res = 0.45602E+05, tol = 0.57779E+04, time = 11.92 | CG iter. 15 -- res = 0.38339E+05, tol = 0.57779E+04, time = 11.84 | CG iter. 16 -- res = 0.35440E+05, tol = 0.57779E+04, time = 11.85 | CG iter. 17 -- res = 0.33308E+05, tol = 0.57779E+04, time = 11.94 | CG iter. 18 -- res = 0.30880E+05, tol = 0.57779E+04, time = 11.85 | CG iter. 19 -- res = 0.28134E+05, tol = 0.57779E+04, time = 11.87 | CG iter. 20 -- res = 0.27344E+05, tol = 0.57779E+04, time = 12.79 | CG iter. 21 -- res = 0.27147E+05, tol = 0.57779E+04, time = 12.15 | CG iter. 22 -- res = 0.28558E+05, tol = 0.57779E+04, time = 11.54 | CG iter. 23 -- res = 0.28539E+05, tol = 0.57779E+04, time = 11.49 | CG iter. 24 -- res = 0.25753E+05, tol = 0.57779E+04, time = 11.84 | CG iter. 25 -- res = 0.21302E+05, tol = 0.57779E+04, time = 11.83 | CG iter. 26 -- res = 0.15775E+05, tol = 0.57779E+04, time = 12.07 | CG iter. 27 -- res = 0.11456E+05, tol = 0.57779E+04, time = 11.82 | CG iter. 28 -- res = 0.87691E+04, tol = 0.57779E+04, time = 15.61 | CG iter. 29 -- res = 0.73047E+04, tol = 0.57779E+04, time = 14.45 | CG iter. 30 -- res = 0.66214E+04, tol = 0.57779E+04, time = 11.67 | CG iter. 31 -- res = 0.60496E+04, tol = 0.57779E+04, time = 12.05 | CG iter. 32 -- res = 0.52761E+04, tol = 0.57779E+04, time = 11.82 | CG iter. 33 -- res = 0.45213E+04, tol = 0.57779E+04, time = 11.66 | CG iter. 34 -- res = 0.39121E+04, tol = 0.57779E+04, time = 11.89 | CG iter. 35 -- res = 0.34752E+04, tol = 0.57779E+04, time = 11.73 | CG iter. 36 -- res = 0.31896E+04, tol = 0.57779E+04, time = 13.82 | CG iter. 37 -- res = 0.30131E+04, tol = 0.57779E+04, time = 11.95 | CG iter. 38 -- res = 0.28264E+04, tol = 0.57779E+04, time = 11.70 | CG iter. 39 -- res = 0.25222E+04, tol = 0.57779E+04, time = 12.13 | CG iter. 40 -- res = 0.20550E+04, tol = 0.57779E+04, time = 12.00 | CG iter. 41 -- res = 0.16304E+04, tol = 0.57779E+04, time = 11.87 | CG iter. 42 -- res = 0.13070E+04, tol = 0.57779E+04, time = 11.63 | CG iter. 43 -- res = 0.10976E+04, tol = 0.57779E+04, time = 11.81 | CG iter. 44 -- res = 0.99702E+03, tol = 0.57779E+04, time = 12.03 | CG iter. 45 -- res = 0.91872E+03, tol = 0.57779E+04, time = 11.87 | CG iter. 46 -- res = 0.82994E+03, tol = 0.57779E+04, time = 11.57 | CG iter. 47 -- res = 0.73087E+03, tol = 0.57779E+04, time = 11.88 | CG iter. 48 -- res = 0.64486E+03, tol = 0.57779E+04, time = 11.72 | CG iter. 49 -- res = 0.57635E+03, tol = 0.57779E+04, time = 11.72 | CG iter. 50 -- res = 0.52129E+03, tol = 0.57779E+04, time = 12.04 | CG iter. 51 -- res = 0.50589E+03, tol = 0.57779E+04, time = 11.95 | CG iter. 52 -- res = 0.47349E+03, tol = 0.57779E+04, time = 11.50 | CG iter. 53 -- res = 0.43020E+03, tol = 0.57779E+04, time = 18.52 | CG iter. 54 -- res = 0.38572E+03, tol = 0.57779E+04, time = 12.81 | CG iter. 55 -- res = 0.32860E+03, tol = 0.57779E+04, time = 12.82 | CG iter. 56 -- res = 0.27635E+03, tol = 0.57779E+04, time = 11.59 | CG iter. 57 -- res = 0.23820E+03, tol = 0.57779E+04, time = 11.95 | CG iter. 58 -- res = 0.21380E+03, tol = 0.57779E+04, time = 11.62 | CG iter. 59 -- res = 0.19599E+03, tol = 0.57779E+04, time = 11.94 | CG iter. 60 -- res = 0.18652E+03, tol = 0.57779E+04, time = 13.20 | Final CG iter 61 -- res = 0.18652E+03, tol = 0.57779E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.736 ( -229.841 -2231.392 2513.950 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8831739.245 | Old band monopole 8807879.127 | Change to band monopole 23860.118 | Change to component monopole -23860.016 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.186 2.748 | New value 1.198 | Old value 0.186 | Difference 1.011 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.520 ( 7.557 12.148 -11.530 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.050 4.827 | New value -1.523 | Old value 2.050 | Difference -3.573 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.59300E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.21553E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.68072E+00, tol = 0.47627E+18, time = 2.32 | CG iter. 4 -- res = 0.11481E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.39577E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8831701.258 | (Sampled value in CG: 8805158.731 ) | Chain = 1 -- chisq = 0.81559419E+09 | Chain = 1 -- wall time = 6123.047 sec Available RAM: MemAvailable: 388453964 kB Available Swap: SwapFree: 1109370252 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 345 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444842 | --> Sampling calibration, mode = relcal | relcal = 1.3432101E-02 7.4974942E-04 -1.5936861E-03 -1.2588165E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1298477 0.1392023 97041447.7696501 | BP delta = 0.1308006 0.1401552 97041447.9103350 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632362 | --> Sampling calibration, mode = relcal | relcal = -2.8212266E-03 -7.0340937E-04 1.6790713E-03 1.6138534E-03 -4.0805570E-04 6.3976709E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5697430 15212189.9442423 | BP delta = 0.0000000E+00 -0.5717139 15212188.9481676 | BP chisq diff = -1.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18020046015793 | --> Sampling calibration, mode = relcal | relcal = -7.4593306E-02 -5.8155447E-02 9.1405608E-02 4.1343145E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.7886555E-05 3.7589292E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5195E-05 | 2: delta_r/delta_0: 8.9639E-07 | 3: delta_s/delta_0: 2.4342E-07 | 4: delta_r/delta_0: 1.7324E-08 | 5: delta_s/delta_0: 7.2822E-09 | 6: delta_r/delta_0: 2.3171E-09 | 7: delta_s/delta_0: 2.0302E-09 | 8: delta_r/delta_0: 9.7564E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.061170355552783E-003 2.742997084224031E-005 | BP delta = 8.1068411E-02 0.1029617 50484715.2474770 | BP delta = 8.4458709E-02 0.1063520 50484715.8708948 | BP chisq diff = 0.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02607599 | --> Sampling calibration, mode = relcal | relcal = -0.1066731 -9.5557459E-02 0.1449299 5.7300646E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9195400E-03 1.2646642E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6676E-05 | 2: delta_r/delta_0: 1.2860E-06 | 3: delta_s/delta_0: 2.4751E-07 | 4: delta_r/delta_0: 3.5480E-08 | 5: delta_s/delta_0: 2.1111E-08 | 6: delta_r/delta_0: 5.4946E-09 | 7: delta_s/delta_0: 3.8256E-09 | 8: delta_r/delta_0: 1.3050E-09 | 9: delta_s/delta_0: 7.0189E-10 | 10: delta_r/delta_0: 4.5965E-10 | 11: delta_s/delta_0: 2.2468E-10 | 12: delta_r/delta_0: 1.3816E-10 | 13: delta_s/delta_0: 2.4471E-09 | 14: delta_r/delta_0: 3.8692E-10 | 15: delta_s/delta_0: 1.2891E-09 | 16: delta_r/delta_0: 6.3378E-10 | 17: delta_s/delta_0: 3.8082E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.752870103830490E-003 2.810599003424437E-005 | BP delta = -0.2924837 -0.2602667 57393294.7632381 | BP delta = -0.2891132 -0.2568962 57393294.6959420 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81223285 | --> Sampling calibration, mode = relcal | relcal = 0.2955258 0.2248605 -0.2838337 -0.2365526 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1257886E-04 4.6255733E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1890E-03 | 2: delta_r/delta_0: 7.3852E-05 | 3: delta_s/delta_0: 1.4009E-05 | 4: delta_r/delta_0: 1.2021E-06 | 5: delta_s/delta_0: 1.0188E-06 | 6: delta_r/delta_0: 3.7790E-08 | 7: delta_s/delta_0: 2.4951E-08 | 8: delta_r/delta_0: 6.3460E-09 | 9: delta_s/delta_0: 2.0207E-08 | 10: delta_r/delta_0: 4.7531E-09 | 11: delta_s/delta_0: 5.1960E-09 | 12: delta_r/delta_0: 8.1876E-10 | 13: delta_s/delta_0: 3.5883E-10 | 14: delta_r/delta_0: 5.5331E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.023193818909599E-003 4.021814858341544E-005 | BP delta = -0.1671742 -0.2096255 72482644.8090760 | BP delta = -0.1394480 -0.1818994 72482645.5480461 | BP chisq diff = 0.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95915843 | --> Sampling calibration, mode = relcal | relcal = 0.1065359 0.1396346 -0.1102813 -0.1358893 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0452854E-02 1.2796219E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1259E-01 | 2: delta_r/delta_0: 1.4564E-02 | 3: delta_s/delta_0: 3.0336E-04 | 4: delta_r/delta_0: 8.8030E-06 | 5: delta_s/delta_0: 1.8504E-06 | 6: delta_r/delta_0: 8.8661E-07 | 7: delta_s/delta_0: 7.4529E-07 | 8: delta_r/delta_0: 2.2956E-07 | 9: delta_s/delta_0: 1.4186E-07 | 10: delta_r/delta_0: 1.9906E-08 | 11: delta_s/delta_0: 7.3316E-09 | 12: delta_r/delta_0: 3.0754E-09 | 13: delta_s/delta_0: 5.2103E-10 | 14: delta_r/delta_0: 2.9719E-10 | 15: delta_s/delta_0: 2.0440E-09 | 16: delta_r/delta_0: 8.8030E-10 | 17: delta_s/delta_0: 5.9122E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.226391418729247E-002 3.697306487521377E-005 | BP delta = 0.1514361 0.2649618 72779646.6004264 | BP delta = 0.1621868 0.2757125 72779647.0397332 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184740 | New value = -3.078217 | poltype: 2 pol: 1 CPU time specind = 1.3490915E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.108017 | New value = -3.037562 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.151452 | New value = -3.094865 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.192676 | New value = -3.199419 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143675 | New value = -3.180877 | poltype: 2 pol: 2 CPU time specind = 7.8439713E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.13828E+08, tol = 0.80047E+01, time = 5.66 | CG iter. 2 -- res = 0.43755E+06, tol = 0.80047E+01, time = 5.75 | CG iter. 3 -- res = 0.18605E+06, tol = 0.80047E+01, time = 5.68 | CG iter. 4 -- res = 0.29954E+06, tol = 0.80047E+01, time = 5.81 | CG iter. 5 -- res = 0.29743E+06, tol = 0.80047E+01, time = 5.55 | CG iter. 6 -- res = 0.24273E+06, tol = 0.80047E+01, time = 5.90 | CG iter. 7 -- res = 0.16640E+06, tol = 0.80047E+01, time = 5.50 | CG iter. 8 -- res = 0.10990E+06, tol = 0.80047E+01, time = 5.56 | CG iter. 9 -- res = 0.92486E+05, tol = 0.80047E+01, time = 6.02 | CG iter. 10 -- res = 0.71025E+05, tol = 0.80047E+01, time = 5.85 | CG iter. 11 -- res = 0.50128E+05, tol = 0.80047E+01, time = 6.05 | CG iter. 12 -- res = 0.37747E+05, tol = 0.80047E+01, time = 5.63 | CG iter. 13 -- res = 0.29392E+05, tol = 0.80047E+01, time = 5.71 | CG iter. 14 -- res = 0.24037E+05, tol = 0.80047E+01, time = 7.32 | CG iter. 15 -- res = 0.17406E+05, tol = 0.80047E+01, time = 5.95 | CG iter. 16 -- res = 0.11537E+05, tol = 0.80047E+01, time = 5.53 | CG iter. 17 -- res = 0.84293E+04, tol = 0.80047E+01, time = 5.54 | CG iter. 18 -- res = 0.73877E+04, tol = 0.80047E+01, time = 5.76 | CG iter. 19 -- res = 0.59860E+04, tol = 0.80047E+01, time = 6.41 | CG iter. 20 -- res = 0.42916E+04, tol = 0.80047E+01, time = 5.53 | CG iter. 21 -- res = 0.31584E+04, tol = 0.80047E+01, time = 5.74 | CG iter. 22 -- res = 0.25859E+04, tol = 0.80047E+01, time = 5.95 | CG iter. 23 -- res = 0.22255E+04, tol = 0.80047E+01, time = 5.63 | CG iter. 24 -- res = 0.16352E+04, tol = 0.80047E+01, time = 5.69 | CG iter. 25 -- res = 0.11642E+04, tol = 0.80047E+01, time = 5.75 | CG iter. 26 -- res = 0.97994E+03, tol = 0.80047E+01, time = 5.42 | CG iter. 27 -- res = 0.85083E+03, tol = 0.80047E+01, time = 6.02 | CG iter. 28 -- res = 0.65362E+03, tol = 0.80047E+01, time = 5.66 | CG iter. 29 -- res = 0.45584E+03, tol = 0.80047E+01, time = 6.00 | CG iter. 30 -- res = 0.36482E+03, tol = 0.80047E+01, time = 5.69 | CG iter. 31 -- res = 0.30896E+03, tol = 0.80047E+01, time = 5.77 | CG iter. 32 -- res = 0.24510E+03, tol = 0.80047E+01, time = 5.41 | CG iter. 33 -- res = 0.17567E+03, tol = 0.80047E+01, time = 5.52 | CG iter. 34 -- res = 0.13420E+03, tol = 0.80047E+01, time = 5.53 | CG iter. 35 -- res = 0.10863E+03, tol = 0.80047E+01, time = 5.64 | CG iter. 36 -- res = 0.87664E+02, tol = 0.80047E+01, time = 5.57 | CG iter. 37 -- res = 0.65848E+02, tol = 0.80047E+01, time = 5.58 | CG iter. 38 -- res = 0.48120E+02, tol = 0.80047E+01, time = 6.06 | CG iter. 39 -- res = 0.37441E+02, tol = 0.80047E+01, time = 5.58 | CG iter. 40 -- res = 0.30235E+02, tol = 0.80047E+01, time = 5.67 | CG iter. 41 -- res = 0.23250E+02, tol = 0.80047E+01, time = 6.16 | CG iter. 42 -- res = 0.16241E+02, tol = 0.80047E+01, time = 5.75 | CG iter. 43 -- res = 0.12391E+02, tol = 0.80047E+01, time = 6.12 | CG iter. 44 -- res = 0.99421E+01, tol = 0.80047E+01, time = 5.70 | CG iter. 45 -- res = 0.74882E+01, tol = 0.80047E+01, time = 6.04 | CG iter. 46 -- res = 0.54001E+01, tol = 0.80047E+01, time = 5.99 | CG iter. 47 -- res = 0.40534E+01, tol = 0.80047E+01, time = 5.61 | CG iter. 48 -- res = 0.30799E+01, tol = 0.80047E+01, time = 5.69 | CG iter. 49 -- res = 0.22842E+01, tol = 0.80047E+01, time = 6.04 | CG iter. 50 -- res = 0.15854E+01, tol = 0.80047E+01, time = 11.44 | Final CG iter 51 -- res = 0.15854E+01, tol = 0.80047E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8674881.740 | Old band monopole 8831739.245 | Change to band monopole -156857.505 | Change to component monopole 156856.831 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.78021E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.46229E+03, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.40539E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.83143E-01, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.29677E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8674844.427 | (Sampled value in CG: 8819342.218 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496457 | New value = 1.562786 | poltype: 2 pol: 1 CPU time specind = 1.3326168E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473877 | New value = 1.525556 | poltype: 2 pol: 2 CPU time specind = 4.2560101E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.25026E+08, tol = 0.47709E+04, time = 6.60 | CG iter. 2 -- res = 0.54230E+07, tol = 0.47709E+04, time = 6.59 | CG iter. 3 -- res = 0.86128E+06, tol = 0.47709E+04, time = 6.63 | CG iter. 4 -- res = 0.36011E+06, tol = 0.47709E+04, time = 6.48 | CG iter. 5 -- res = 0.15421E+06, tol = 0.47709E+04, time = 6.82 | CG iter. 6 -- res = 0.79844E+05, tol = 0.47709E+04, time = 6.26 | CG iter. 7 -- res = 0.43607E+05, tol = 0.47709E+04, time = 7.29 | CG iter. 8 -- res = 0.21498E+05, tol = 0.47709E+04, time = 6.64 | CG iter. 9 -- res = 0.96304E+04, tol = 0.47709E+04, time = 6.47 | CG iter. 10 -- res = 0.38496E+04, tol = 0.47709E+04, time = 6.51 | CG iter. 11 -- res = 0.16851E+04, tol = 0.47709E+04, time = 6.23 | CG iter. 12 -- res = 0.84772E+03, tol = 0.47709E+04, time = 6.79 | CG iter. 13 -- res = 0.47366E+03, tol = 0.47709E+04, time = 6.84 | CG iter. 14 -- res = 0.26619E+03, tol = 0.47709E+04, time = 6.52 | CG iter. 15 -- res = 0.14352E+03, tol = 0.47709E+04, time = 6.67 | CG iter. 16 -- res = 0.68495E+02, tol = 0.47709E+04, time = 6.74 | CG iter. 17 -- res = 0.31344E+02, tol = 0.47709E+04, time = 6.80 | CG iter. 18 -- res = 0.15624E+02, tol = 0.47709E+04, time = 6.44 | CG iter. 19 -- res = 0.84559E+01, tol = 0.47709E+04, time = 6.70 | CG iter. 20 -- res = 0.47684E+01, tol = 0.47709E+04, time = 6.68 | CG iter. 21 -- res = 0.26125E+01, tol = 0.47709E+04, time = 6.58 | CG iter. 22 -- res = 0.13605E+01, tol = 0.47709E+04, time = 6.74 | CG iter. 23 -- res = 0.66784E+00, tol = 0.47709E+04, time = 6.52 | CG iter. 24 -- res = 0.33590E+00, tol = 0.47709E+04, time = 6.66 | CG iter. 25 -- res = 0.18448E+00, tol = 0.47709E+04, time = 6.13 | CG iter. 26 -- res = 0.10430E+00, tol = 0.47709E+04, time = 6.69 | CG iter. 27 -- res = 0.57739E-01, tol = 0.47709E+04, time = 12.75 | CG iter. 28 -- res = 0.30705E-01, tol = 0.47709E+04, time = 6.44 | CG iter. 29 -- res = 0.15767E-01, tol = 0.47709E+04, time = 6.56 | CG iter. 30 -- res = 0.82220E-02, tol = 0.47709E+04, time = 6.42 | CG iter. 31 -- res = 0.44656E-02, tol = 0.47709E+04, time = 6.72 | CG iter. 32 -- res = 0.25793E-02, tol = 0.47709E+04, time = 6.31 | CG iter. 33 -- res = 0.14644E-02, tol = 0.47709E+04, time = 6.62 | CG iter. 34 -- res = 0.78582E-03, tol = 0.47709E+04, time = 6.42 | CG iter. 35 -- res = 0.41548E-03, tol = 0.47709E+04, time = 6.19 | Final CG iter 36 -- res = 0.41548E-03, tol = 0.47709E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.236 2.750 | New value -1.600 | Old value 1.236 | Difference -2.836 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.44723E+06, tol = 0.47627E+18, time = 2.13 | CG iter. 2 -- res = 0.25006E+03, tol = 0.47627E+18, time = 2.45 | CG iter. 3 -- res = 0.28163E+01, tol = 0.47627E+18, time = 2.28 | CG iter. 4 -- res = 0.30722E-02, tol = 0.47627E+18, time = 2.62 | Final CG iter 5 -- res = 0.55054E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8674844.427 | (Sampled value in CG: 8819212.369 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.652095 | New value = -3.728550 | poltype: 1 pol: 1 CPU time specind = 3.8784027E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.32461E+07, tol = 0.23344E+01, time = 2.72 | CG iter. 2 -- res = 0.15877E+07, tol = 0.23344E+01, time = 2.74 | CG iter. 3 -- res = 0.33538E+06, tol = 0.23344E+01, time = 2.78 | CG iter. 4 -- res = 0.13599E+06, tol = 0.23344E+01, time = 2.66 | CG iter. 5 -- res = 0.85063E+05, tol = 0.23344E+01, time = 2.69 | CG iter. 6 -- res = 0.40221E+05, tol = 0.23344E+01, time = 2.86 | CG iter. 7 -- res = 0.12749E+05, tol = 0.23344E+01, time = 2.69 | CG iter. 8 -- res = 0.45962E+04, tol = 0.23344E+01, time = 3.12 | CG iter. 9 -- res = 0.20555E+04, tol = 0.23344E+01, time = 3.11 | CG iter. 10 -- res = 0.85745E+03, tol = 0.23344E+01, time = 3.64 | CG iter. 11 -- res = 0.37491E+03, tol = 0.23344E+01, time = 3.21 | CG iter. 12 -- res = 0.19403E+03, tol = 0.23344E+01, time = 3.10 | CG iter. 13 -- res = 0.95637E+02, tol = 0.23344E+01, time = 3.04 | CG iter. 14 -- res = 0.43770E+02, tol = 0.23344E+01, time = 2.72 | CG iter. 15 -- res = 0.18201E+02, tol = 0.23344E+01, time = 2.77 | CG iter. 16 -- res = 0.77423E+01, tol = 0.23344E+01, time = 2.79 | CG iter. 17 -- res = 0.34531E+01, tol = 0.23344E+01, time = 2.63 | CG iter. 18 -- res = 0.17260E+01, tol = 0.23344E+01, time = 2.89 | CG iter. 19 -- res = 0.87352E+00, tol = 0.23344E+01, time = 2.56 | CG iter. 20 -- res = 0.40633E+00, tol = 0.23344E+01, time = 2.78 | CG iter. 21 -- res = 0.17448E+00, tol = 0.23344E+01, time = 2.60 | CG iter. 22 -- res = 0.72765E-01, tol = 0.23344E+01, time = 2.69 | CG iter. 23 -- res = 0.33464E-01, tol = 0.23344E+01, time = 3.10 | CG iter. 24 -- res = 0.16787E-01, tol = 0.23344E+01, time = 2.66 | CG iter. 25 -- res = 0.85476E-02, tol = 0.23344E+01, time = 2.75 | CG iter. 26 -- res = 0.40998E-02, tol = 0.23344E+01, time = 2.93 | CG iter. 27 -- res = 0.19017E-02, tol = 0.23344E+01, time = 2.71 | CG iter. 28 -- res = 0.85159E-03, tol = 0.23344E+01, time = 2.72 | CG iter. 29 -- res = 0.37956E-03, tol = 0.23344E+01, time = 2.67 | CG iter. 30 -- res = 0.19519E-03, tol = 0.23344E+01, time = 2.77 | CG iter. 31 -- res = 0.95623E-04, tol = 0.23344E+01, time = 2.98 | CG iter. 32 -- res = 0.46318E-04, tol = 0.23344E+01, time = 2.44 | CG iter. 33 -- res = 0.21384E-04, tol = 0.23344E+01, time = 2.91 | CG iter. 34 -- res = 0.94506E-05, tol = 0.23344E+01, time = 2.75 | CG iter. 35 -- res = 0.46920E-05, tol = 0.23344E+01, time = 2.88 | CG iter. 36 -- res = 0.22439E-05, tol = 0.23344E+01, time = 2.67 | CG iter. 37 -- res = 0.10920E-05, tol = 0.23344E+01, time = 2.66 | CG iter. 38 -- res = 0.55207E-06, tol = 0.23344E+01, time = 2.76 | CG iter. 39 -- res = 0.25327E-06, tol = 0.23344E+01, time = 2.71 | CG iter. 40 -- res = 0.11231E-06, tol = 0.23344E+01, time = 2.59 | CG iter. 41 -- res = 0.51311E-07, tol = 0.23344E+01, time = 2.68 | CG iter. 42 -- res = 0.26504E-07, tol = 0.23344E+01, time = 2.91 | CG iter. 43 -- res = 0.12489E-07, tol = 0.23344E+01, time = 2.83 | CG iter. 44 -- res = 0.63318E-08, tol = 0.23344E+01, time = 2.94 | CG iter. 45 -- res = 0.29057E-08, tol = 0.23344E+01, time = 2.58 | CG iter. 46 -- res = 0.13035E-08, tol = 0.23344E+01, time = 2.84 | CG iter. 47 -- res = 0.62681E-09, tol = 0.23344E+01, time = 2.68 | CG iter. 48 -- res = 0.30526E-09, tol = 0.23344E+01, time = 3.18 | CG iter. 49 -- res = 0.14461E-09, tol = 0.23344E+01, time = 2.81 | CG iter. 50 -- res = 0.70084E-10, tol = 0.23344E+01, time = 2.80 | Final CG iter 51 -- res = 0.70084E-10, tol = 0.23344E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.702 3.049 | New value 0.791 | Old value 6.702 | Difference -5.911 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.49869E+05, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.12794E+03, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.26113E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.70860E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.63613E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8674844.427 | (Sampled value in CG: 8787005.342 ) | CPU time specind = 1199.167 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.70826E+08, tol = 0.57942E+04, time = 18.07 | CG iter. 2 -- res = 0.60196E+08, tol = 0.57942E+04, time = 11.91 | CG iter. 3 -- res = 0.16098E+08, tol = 0.57942E+04, time = 12.11 | CG iter. 4 -- res = 0.70738E+07, tol = 0.57942E+04, time = 11.59 | CG iter. 5 -- res = 0.42774E+07, tol = 0.57942E+04, time = 11.53 | CG iter. 6 -- res = 0.25078E+07, tol = 0.57942E+04, time = 11.55 | CG iter. 7 -- res = 0.14808E+07, tol = 0.57942E+04, time = 11.96 | CG iter. 8 -- res = 0.10001E+07, tol = 0.57942E+04, time = 13.03 | CG iter. 9 -- res = 0.66644E+06, tol = 0.57942E+04, time = 12.94 | CG iter. 10 -- res = 0.42228E+06, tol = 0.57942E+04, time = 12.26 | CG iter. 11 -- res = 0.24989E+06, tol = 0.57942E+04, time = 11.73 | CG iter. 12 -- res = 0.15676E+06, tol = 0.57942E+04, time = 12.20 | CG iter. 13 -- res = 0.10777E+06, tol = 0.57942E+04, time = 12.02 | CG iter. 14 -- res = 0.86687E+05, tol = 0.57942E+04, time = 11.39 | CG iter. 15 -- res = 0.82149E+05, tol = 0.57942E+04, time = 12.22 | CG iter. 16 -- res = 0.83485E+05, tol = 0.57942E+04, time = 12.43 | CG iter. 17 -- res = 0.84559E+05, tol = 0.57942E+04, time = 11.60 | CG iter. 18 -- res = 0.80034E+05, tol = 0.57942E+04, time = 12.11 | CG iter. 19 -- res = 0.72095E+05, tol = 0.57942E+04, time = 11.76 | CG iter. 20 -- res = 0.64761E+05, tol = 0.57942E+04, time = 11.88 | CG iter. 21 -- res = 0.56163E+05, tol = 0.57942E+04, time = 11.84 | CG iter. 22 -- res = 0.51105E+05, tol = 0.57942E+04, time = 11.65 | CG iter. 23 -- res = 0.45948E+05, tol = 0.57942E+04, time = 11.71 | CG iter. 24 -- res = 0.40202E+05, tol = 0.57942E+04, time = 12.32 | CG iter. 25 -- res = 0.31917E+05, tol = 0.57942E+04, time = 11.76 | CG iter. 26 -- res = 0.23951E+05, tol = 0.57942E+04, time = 17.83 | CG iter. 27 -- res = 0.18259E+05, tol = 0.57942E+04, time = 11.87 | CG iter. 28 -- res = 0.14414E+05, tol = 0.57942E+04, time = 11.47 | CG iter. 29 -- res = 0.12601E+05, tol = 0.57942E+04, time = 11.78 | CG iter. 30 -- res = 0.11981E+05, tol = 0.57942E+04, time = 11.65 | CG iter. 31 -- res = 0.11360E+05, tol = 0.57942E+04, time = 12.16 | CG iter. 32 -- res = 0.10578E+05, tol = 0.57942E+04, time = 11.98 | CG iter. 33 -- res = 0.93975E+04, tol = 0.57942E+04, time = 13.44 | CG iter. 34 -- res = 0.80580E+04, tol = 0.57942E+04, time = 12.20 | CG iter. 35 -- res = 0.68104E+04, tol = 0.57942E+04, time = 12.25 | CG iter. 36 -- res = 0.59769E+04, tol = 0.57942E+04, time = 11.97 | CG iter. 37 -- res = 0.53870E+04, tol = 0.57942E+04, time = 11.88 | CG iter. 38 -- res = 0.49191E+04, tol = 0.57942E+04, time = 11.61 | CG iter. 39 -- res = 0.42495E+04, tol = 0.57942E+04, time = 11.39 | CG iter. 40 -- res = 0.34549E+04, tol = 0.57942E+04, time = 12.20 | CG iter. 41 -- res = 0.27526E+04, tol = 0.57942E+04, time = 11.95 | CG iter. 42 -- res = 0.23280E+04, tol = 0.57942E+04, time = 12.29 | CG iter. 43 -- res = 0.21001E+04, tol = 0.57942E+04, time = 12.27 | CG iter. 44 -- res = 0.19863E+04, tol = 0.57942E+04, time = 11.90 | CG iter. 45 -- res = 0.19309E+04, tol = 0.57942E+04, time = 11.90 | CG iter. 46 -- res = 0.18396E+04, tol = 0.57942E+04, time = 12.01 | CG iter. 47 -- res = 0.16827E+04, tol = 0.57942E+04, time = 11.64 | CG iter. 48 -- res = 0.14710E+04, tol = 0.57942E+04, time = 11.75 | CG iter. 49 -- res = 0.12481E+04, tol = 0.57942E+04, time = 11.61 | CG iter. 50 -- res = 0.11205E+04, tol = 0.57942E+04, time = 18.05 | CG iter. 51 -- res = 0.10565E+04, tol = 0.57942E+04, time = 11.75 | CG iter. 52 -- res = 0.99863E+03, tol = 0.57942E+04, time = 11.73 | CG iter. 53 -- res = 0.89971E+03, tol = 0.57942E+04, time = 12.23 | CG iter. 54 -- res = 0.79799E+03, tol = 0.57942E+04, time = 11.70 | CG iter. 55 -- res = 0.69858E+03, tol = 0.57942E+04, time = 11.17 | CG iter. 56 -- res = 0.60494E+03, tol = 0.57942E+04, time = 12.16 | CG iter. 57 -- res = 0.54880E+03, tol = 0.57942E+04, time = 12.20 | CG iter. 58 -- res = 0.52151E+03, tol = 0.57942E+04, time = 13.43 | CG iter. 59 -- res = 0.50904E+03, tol = 0.57942E+04, time = 12.01 | CG iter. 60 -- res = 0.47841E+03, tol = 0.57942E+04, time = 12.32 | Final CG iter 61 -- res = 0.47841E+03, tol = 0.57942E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.754 ( -229.715 -2230.857 2513.607 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9440264.697 | Old band monopole 8674881.740 | Change to band monopole 765382.958 | Change to component monopole -765379.666 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.614 2.723 | New value 2.405 | Old value -1.614 | Difference 4.019 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.827 ( 5.911 11.389 -12.093 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.148 3.859 | New value -8.002 | Old value -2.148 | Difference -5.854 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.89256E+06, tol = 0.47627E+18, time = 2.13 | CG iter. 2 -- res = 0.42949E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.18083E+01, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.15889E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.33391E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9440224.093 | (Sampled value in CG: 9428059.753 ) | Chain = 1 -- chisq = 0.81441221E+09 | Chain = 1 -- wall time = 5731.043 sec Available RAM: MemAvailable: 388206532 kB Available Swap: SwapFree: 1109759456 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 346 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444835 | --> Sampling calibration, mode = relcal | relcal = 1.3428460E-02 7.3951896E-04 -1.5820302E-03 -1.2585949E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1298477 0.1392023 9406346.46035684 | BP delta = 0.1298477 0.1454422 9406334.45692840 | BP chisq diff = -12.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632499 | --> Sampling calibration, mode = relcal | relcal = -2.8216850E-03 -7.0333894E-04 1.6792204E-03 1.6136996E-03 -4.0807753E-04 6.4018148E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5717139 15215665.9230033 | BP delta = 0.0000000E+00 -0.5734717 15215672.7829563 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102338 | --> Sampling calibration, mode = relcal | relcal = 3.7078600E-02 1.3715794E-02 5.7494119E-03 -7.1619754E-03 8.2433214E-03 2.3887258E-03 -7.5987610E-03 -7.1776742E-03 -1.5297883E-02 -1.4796972E-02 -3.0514169E-03 -1.2091171E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.201003 132207170.131077 | BP delta = 0.0000000E+00 -1.230185 132207177.481845 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18137307441768 | --> Sampling calibration, mode = relcal | relcal = -7.5195007E-02 -5.8606904E-02 9.2061773E-02 4.1740142E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7235926E-04 4.5883171E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1121E-05 | 2: delta_r/delta_0: 9.2767E-07 | 3: delta_s/delta_0: 2.0336E-07 | 4: delta_r/delta_0: 1.7240E-08 | 5: delta_s/delta_0: 8.3439E-09 | 6: delta_r/delta_0: 1.0756E-09 | 7: delta_s/delta_0: 2.5410E-10 | 8: delta_r/delta_0: 1.1821E-10 | 9: delta_s/delta_0: 3.8536E-10 | 10: delta_r/delta_0: 1.2632E-10 | 11: delta_s/delta_0: 3.2928E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.267745651341994E-003 2.740180204581355E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1121E-05 | 2: delta_r/delta_0: 9.2768E-07 | 3: delta_s/delta_0: 2.0336E-07 | 4: delta_r/delta_0: 1.7240E-08 | 5: delta_s/delta_0: 8.3432E-09 | 6: delta_r/delta_0: 1.0756E-09 | 7: delta_s/delta_0: 2.5409E-10 | 8: delta_r/delta_0: 1.1821E-10 | 9: delta_s/delta_0: 3.8536E-10 | 10: delta_r/delta_0: 1.2632E-10 | 11: delta_s/delta_0: 3.2925E-11 | Reached bicg-stab tolerance | BP delta = 8.4458709E-02 0.1063520 3547917.23209747 | BP delta = 8.4458709E-02 0.1058876 3548498.94838544 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02608141 | --> Sampling calibration, mode = relcal | relcal = -0.1066683 -9.5579393E-02 0.1449555 5.7292160E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1568876E-03 1.1586410E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7579E-05 | 2: delta_r/delta_0: 1.4607E-06 | 3: delta_s/delta_0: 2.4871E-07 | 4: delta_r/delta_0: 3.7891E-08 | 5: delta_s/delta_0: 2.4804E-08 | 6: delta_r/delta_0: 6.3304E-09 | 7: delta_s/delta_0: 4.3594E-09 | 8: delta_r/delta_0: 1.7618E-09 | 9: delta_s/delta_0: 8.3792E-10 | 10: delta_r/delta_0: 6.3399E-10 | 11: delta_s/delta_0: 1.0003E-09 | 12: delta_r/delta_0: 1.2418E-10 | 13: delta_s/delta_0: 9.9145E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.013346183851428E-002 2.810610812282216E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.7579E-05 | 2: delta_r/delta_0: 1.4607E-06 | 3: delta_s/delta_0: 2.4870E-07 | 4: delta_r/delta_0: 3.7877E-08 | 5: delta_s/delta_0: 2.4816E-08 | 6: delta_r/delta_0: 6.3305E-09 | 7: delta_s/delta_0: 4.3616E-09 | 8: delta_r/delta_0: 1.7617E-09 | 9: delta_s/delta_0: 8.3781E-10 | 10: delta_r/delta_0: 6.3392E-10 | 11: delta_s/delta_0: 1.0006E-09 | 12: delta_r/delta_0: 1.2414E-10 | 13: delta_s/delta_0: 9.9079E-11 | Reached bicg-stab tolerance | BP delta = -0.2891132 -0.2568962 2841533.85820867 | BP delta = -0.2891132 -0.2540812 2841548.58567208 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236250 | --> Sampling calibration, mode = relcal | relcal = 0.2956129 0.2247340 -0.2837830 -0.2365640 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1916803E-04 6.0532195E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0862E-02 | 2: delta_r/delta_0: 4.8876E-04 | 3: delta_s/delta_0: 3.1411E-04 | 4: delta_r/delta_0: 1.3642E-05 | 5: delta_s/delta_0: 8.8823E-06 | 6: delta_r/delta_0: 1.0236E-06 | 7: delta_s/delta_0: 3.4006E-05 | 8: delta_r/delta_0: 5.0470E-06 | 9: delta_s/delta_0: 5.2320E-03 | 10: delta_r/delta_0: 1.7351E-04 | 11: delta_s/delta_0: 3.0280E-06 | 12: delta_r/delta_0: 1.7172E-07 | 13: delta_s/delta_0: 3.4830E-08 | 14: delta_r/delta_0: 1.6156E-08 | 15: delta_s/delta_0: 1.2370E-08 | 16: delta_r/delta_0: 3.9860E-09 | 17: delta_s/delta_0: 2.3023E-09 | 18: delta_r/delta_0: 8.6487E-10 | 19: delta_s/delta_0: 9.3769E-10 | 20: delta_r/delta_0: 2.3354E-10 | 21: delta_s/delta_0: 2.8265E-10 | 22: delta_r/delta_0: 1.4124E-10 | 23: delta_s/delta_0: 8.9370E-10 | 24: delta_r/delta_0: 8.9800E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.450681940724766 4.021015281210475E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0835E-02 | 2: delta_r/delta_0: 4.8811E-04 | 3: delta_s/delta_0: 3.1231E-04 | 4: delta_r/delta_0: 1.3589E-05 | 5: delta_s/delta_0: 8.8584E-06 | 6: delta_r/delta_0: 1.0178E-06 | 7: delta_s/delta_0: 3.3551E-05 | 8: delta_r/delta_0: 5.0010E-06 | 9: delta_s/delta_0: 4.8340E-03 | 10: delta_r/delta_0: 1.5949E-04 | 11: delta_s/delta_0: 2.9787E-06 | 12: delta_r/delta_0: 1.6886E-07 | 13: delta_s/delta_0: 3.4153E-08 | 14: delta_r/delta_0: 1.5846E-08 | 15: delta_s/delta_0: 1.2136E-08 | 16: delta_r/delta_0: 3.9047E-09 | 17: delta_s/delta_0: 2.2583E-09 | 18: delta_r/delta_0: 8.4800E-10 | 19: delta_s/delta_0: 9.2172E-10 | 20: delta_r/delta_0: 2.2901E-10 | 21: delta_s/delta_0: 2.7713E-10 | 22: delta_r/delta_0: 1.3854E-10 | 23: delta_s/delta_0: 8.6156E-10 | 24: delta_r/delta_0: 8.7185E-11 | Reached bicg-stab tolerance | BP delta = -0.1394480 -0.1818994 2827362.47443290 | BP delta = -0.1394480 -0.1748950 2827407.42233822 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95927771 | --> Sampling calibration, mode = relcal | relcal = 0.1064836 0.1395241 -0.1102610 -0.1357467 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0276180E-02 1.3340900E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.3176E-04 | 2: delta_r/delta_0: 2.0193E-05 | 3: delta_s/delta_0: 1.9090E-05 | 4: delta_r/delta_0: 1.3963E-06 | 5: delta_s/delta_0: 3.8842E-07 | 6: delta_r/delta_0: 1.6430E-07 | 7: delta_s/delta_0: 3.7464E-07 | 8: delta_r/delta_0: 3.8549E-08 | 9: delta_s/delta_0: 6.0460E-08 | 10: delta_r/delta_0: 7.5295E-09 | 11: delta_s/delta_0: 2.3585E-09 | 12: delta_r/delta_0: 1.0480E-09 | 13: delta_s/delta_0: 1.4433E-09 | 14: delta_r/delta_0: 3.0475E-10 | 15: delta_s/delta_0: 7.1218E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.411470005795105E-002 3.696664535242016E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.3182E-04 | 2: delta_r/delta_0: 2.0195E-05 | 3: delta_s/delta_0: 1.9091E-05 | 4: delta_r/delta_0: 1.3963E-06 | 5: delta_s/delta_0: 3.8843E-07 | 6: delta_r/delta_0: 1.6429E-07 | 7: delta_s/delta_0: 3.7450E-07 | 8: delta_r/delta_0: 3.8550E-08 | 9: delta_s/delta_0: 6.0404E-08 | 10: delta_r/delta_0: 7.5170E-09 | 11: delta_s/delta_0: 2.3583E-09 | 12: delta_r/delta_0: 1.0482E-09 | 13: delta_s/delta_0: 1.4422E-09 | 14: delta_r/delta_0: 3.0505E-10 | 15: delta_s/delta_0: 7.1217E-11 | Reached bicg-stab tolerance | BP delta = 0.1514361 0.2649618 3004174.37162534 | BP delta = 0.1514361 0.2710048 3004200.11136633 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52154800 | --> Sampling calibration, mode = relcal | relcal = -5.1090509E-02 -3.6417441E-03 2.7268764E-02 2.7463486E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5165926E-04 2.4106952E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9930E-05 | 2: delta_r/delta_0: 4.4855E-06 | 3: delta_s/delta_0: 5.8367E-07 | 4: delta_r/delta_0: 1.5394E-07 | 5: delta_s/delta_0: 1.0911E-07 | 6: delta_r/delta_0: 2.7878E-08 | 7: delta_s/delta_0: 2.4296E-08 | 8: delta_r/delta_0: 1.0504E-08 | 9: delta_s/delta_0: 3.0219E-08 | 10: delta_r/delta_0: 2.9604E-09 | 11: delta_s/delta_0: 9.3610E-10 | 12: delta_r/delta_0: 3.1690E-10 | 13: delta_s/delta_0: 2.5558E-08 | 14: delta_r/delta_0: 5.2276E-09 | 15: delta_s/delta_0: 4.2833E-10 | 16: delta_r/delta_0: 3.3885E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.147692847528401E-002 5.483487540612810E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9930E-05 | 2: delta_r/delta_0: 4.4854E-06 | 3: delta_s/delta_0: 5.8363E-07 | 4: delta_r/delta_0: 1.5394E-07 | 5: delta_s/delta_0: 1.0910E-07 | 6: delta_r/delta_0: 2.7879E-08 | 7: delta_s/delta_0: 2.4296E-08 | 8: delta_r/delta_0: 1.0507E-08 | 9: delta_s/delta_0: 3.0223E-08 | 10: delta_r/delta_0: 2.9591E-09 | 11: delta_s/delta_0: 9.3300E-10 | 12: delta_r/delta_0: 3.1856E-10 | 13: delta_s/delta_0: 2.5906E-08 | 14: delta_r/delta_0: 5.3295E-09 | 15: delta_s/delta_0: 4.3487E-10 | 16: delta_r/delta_0: 3.3253E-11 | Reached bicg-stab tolerance | BP delta = 5.2690092E-02 0.1441628 2435046.80738136 | BP delta = 5.2690092E-02 0.1127312 2435087.82940469 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42159415 | --> Sampling calibration, mode = relcal | relcal = 4.5583084E-02 3.9606128E-02 -2.8315086E-02 -5.6874126E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4178032E-03 4.1732946E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.9552E-05 | 2: delta_r/delta_0: 3.1442E-06 | 3: delta_s/delta_0: 1.6009E-06 | 4: delta_r/delta_0: 1.9726E-07 | 5: delta_s/delta_0: 7.7333E-08 | 6: delta_r/delta_0: 3.6473E-08 | 7: delta_s/delta_0: 2.7135E-07 | 8: delta_r/delta_0: 7.0250E-08 | 9: delta_s/delta_0: 3.0918E-09 | 10: delta_r/delta_0: 2.2102E-09 | 11: delta_s/delta_0: 1.0757E-08 | 12: delta_r/delta_0: 1.7358E-10 | 13: delta_s/delta_0: 3.3336E-09 | 14: delta_r/delta_0: 1.2775E-09 | 15: delta_s/delta_0: 1.8172E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.461156214852089E-002 4.995439216449597E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.9550E-05 | 2: delta_r/delta_0: 3.1442E-06 | 3: delta_s/delta_0: 1.6009E-06 | 4: delta_r/delta_0: 1.9726E-07 | 5: delta_s/delta_0: 7.7330E-08 | 6: delta_r/delta_0: 3.6472E-08 | 7: delta_s/delta_0: 2.7130E-07 | 8: delta_r/delta_0: 7.0245E-08 | 9: delta_s/delta_0: 3.0918E-09 | 10: delta_r/delta_0: 2.2102E-09 | 11: delta_s/delta_0: 1.0773E-08 | 12: delta_r/delta_0: 1.7322E-10 | 13: delta_s/delta_0: 3.3355E-09 | 14: delta_r/delta_0: 1.2786E-09 | 15: delta_s/delta_0: 1.8174E-11 | Reached bicg-stab tolerance | BP delta = 0.1203274 4.6281754E-03 2322075.66935548 | BP delta = 0.1203274 1.7524056E-02 2322085.61279604 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28162111 | --> Sampling calibration, mode = relcal | relcal = 2.4200706E-02 4.5171302E-02 -2.3365693E-02 -4.6006311E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2504073E-02 4.0292218E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0656E-04 | 2: delta_r/delta_0: 8.4279E-06 | 3: delta_s/delta_0: 1.1272E-06 | 4: delta_r/delta_0: 2.5246E-07 | 5: delta_s/delta_0: 7.3867E-08 | 6: delta_r/delta_0: 1.6971E-08 | 7: delta_s/delta_0: 9.1542E-09 | 8: delta_r/delta_0: 4.0765E-09 | 9: delta_s/delta_0: 4.2258E-06 | 10: delta_r/delta_0: 6.8587E-09 | 11: delta_s/delta_0: 2.5123E-09 | 12: delta_r/delta_0: 1.2133E-09 | 13: delta_s/delta_0: 2.6055E-09 | 14: delta_r/delta_0: 2.5761E-10 | 15: delta_s/delta_0: 1.1176E-10 | 16: delta_r/delta_0: 7.7007E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.059370942471637E-002 7.843853154861401E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0656E-04 | 2: delta_r/delta_0: 8.4279E-06 | 3: delta_s/delta_0: 1.1272E-06 | 4: delta_r/delta_0: 2.5246E-07 | 5: delta_s/delta_0: 7.3871E-08 | 6: delta_r/delta_0: 1.6971E-08 | 7: delta_s/delta_0: 9.1540E-09 | 8: delta_r/delta_0: 4.0763E-09 | 9: delta_s/delta_0: 4.2299E-06 | 10: delta_r/delta_0: 6.8668E-09 | 11: delta_s/delta_0: 2.5122E-09 | 12: delta_r/delta_0: 1.2132E-09 | 13: delta_s/delta_0: 2.6097E-09 | 14: delta_r/delta_0: 2.5794E-10 | 15: delta_s/delta_0: 1.1176E-10 | 16: delta_r/delta_0: 7.7007E-11 | Reached bicg-stab tolerance | BP delta = -0.3353270 -0.5371370 2490044.33179343 | BP delta = -0.3353270 -0.5377445 2490048.06328410 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29394352 | --> Sampling calibration, mode = relcal | relcal = 6.1497837E-04 1.0178559E-02 -3.8450565E-03 -6.9484804E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7550709E-02 1.3888005E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3207E-04 | 2: delta_r/delta_0: 1.0626E-05 | 3: delta_s/delta_0: 1.5132E-06 | 4: delta_r/delta_0: 3.8197E-07 | 5: delta_s/delta_0: 9.0123E-08 | 6: delta_r/delta_0: 2.8927E-08 | 7: delta_s/delta_0: 1.1441E-08 | 8: delta_r/delta_0: 7.5893E-09 | 9: delta_s/delta_0: 5.1182E-09 | 10: delta_r/delta_0: 2.3204E-09 | 11: delta_s/delta_0: 6.1614E-06 | 12: delta_r/delta_0: 6.7718E-09 | 13: delta_s/delta_0: 7.0835E-10 | 14: delta_r/delta_0: 1.4664E-10 | 15: delta_s/delta_0: 9.0189E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.114951857893967E-002 8.306094663909978E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3207E-04 | 2: delta_r/delta_0: 1.0626E-05 | 3: delta_s/delta_0: 1.5132E-06 | 4: delta_r/delta_0: 3.8196E-07 | 5: delta_s/delta_0: 9.0121E-08 | 6: delta_r/delta_0: 2.8927E-08 | 7: delta_s/delta_0: 1.1440E-08 | 8: delta_r/delta_0: 7.5892E-09 | 9: delta_s/delta_0: 5.1182E-09 | 10: delta_r/delta_0: 2.3207E-09 | 11: delta_s/delta_0: 6.1576E-06 | 12: delta_r/delta_0: 6.7695E-09 | 13: delta_s/delta_0: 7.0799E-10 | 14: delta_r/delta_0: 1.4665E-10 | 15: delta_s/delta_0: 9.0194E-11 | Reached bicg-stab tolerance | BP delta = -0.8128124 -0.7681888 2738352.19260593 | BP delta = -0.8128124 -0.7666972 2738354.21367802 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26504425 | --> Sampling calibration, mode = relcal | relcal = -5.6502949E-03 1.5131881E-02 -2.4711513E-03 -7.0104348E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7734183E-03 4.5638350E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4093E-04 | 2: delta_r/delta_0: 1.1852E-05 | 3: delta_s/delta_0: 1.9623E-06 | 4: delta_r/delta_0: 2.4659E-07 | 5: delta_s/delta_0: 9.3966E-08 | 6: delta_r/delta_0: 2.0380E-08 | 7: delta_s/delta_0: 8.6614E-09 | 8: delta_r/delta_0: 5.7540E-09 | 9: delta_s/delta_0: 5.8723E-09 | 10: delta_r/delta_0: 4.1546E-09 | 11: delta_s/delta_0: 1.8337E-07 | 12: delta_r/delta_0: 6.7432E-10 | 13: delta_s/delta_0: 5.6560E-09 | 14: delta_r/delta_0: 1.7626E-09 | 15: delta_s/delta_0: 7.2567E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.629123307582810E-003 9.154541244736326E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4093E-04 | 2: delta_r/delta_0: 1.1852E-05 | 3: delta_s/delta_0: 1.9624E-06 | 4: delta_r/delta_0: 2.4661E-07 | 5: delta_s/delta_0: 9.3963E-08 | 6: delta_r/delta_0: 2.0381E-08 | 7: delta_s/delta_0: 8.6616E-09 | 8: delta_r/delta_0: 5.7541E-09 | 9: delta_s/delta_0: 5.8724E-09 | 10: delta_r/delta_0: 4.1547E-09 | 11: delta_s/delta_0: 1.8334E-07 | 12: delta_r/delta_0: 6.7422E-10 | 13: delta_s/delta_0: 5.6560E-09 | 14: delta_r/delta_0: 1.7625E-09 | 15: delta_s/delta_0: 7.2566E-11 | Reached bicg-stab tolerance | BP delta = 0.3581703 0.3788835 2516433.15891543 | BP delta = 0.3581703 0.3675535 2516433.57809067 | BP chisq diff = 0.4, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25652551 | --> Sampling calibration, mode = relcal | relcal = -3.1659395E-02 -2.5965253E-02 3.6791008E-02 2.0833641E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4689091E-02 1.7409723E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4505E-04 | 2: delta_r/delta_0: 1.2353E-05 | 3: delta_s/delta_0: 1.9773E-06 | 4: delta_r/delta_0: 4.1012E-07 | 5: delta_s/delta_0: 1.7393E-07 | 6: delta_r/delta_0: 3.0160E-08 | 7: delta_s/delta_0: 1.3891E-08 | 8: delta_r/delta_0: 7.6663E-09 | 9: delta_s/delta_0: 2.1872E-08 | 10: delta_r/delta_0: 4.7386E-09 | 11: delta_s/delta_0: 6.2566E-09 | 12: delta_r/delta_0: 1.5166E-09 | 13: delta_s/delta_0: 1.4828E-09 | 14: delta_r/delta_0: 9.3678E-10 | 15: delta_s/delta_0: 9.8160E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.194223217744593E-002 8.676068827362168E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4505E-04 | 2: delta_r/delta_0: 1.2353E-05 | 3: delta_s/delta_0: 1.9773E-06 | 4: delta_r/delta_0: 4.1009E-07 | 5: delta_s/delta_0: 1.7392E-07 | 6: delta_r/delta_0: 3.0159E-08 | 7: delta_s/delta_0: 1.3890E-08 | 8: delta_r/delta_0: 7.6660E-09 | 9: delta_s/delta_0: 2.1868E-08 | 10: delta_r/delta_0: 4.7383E-09 | 11: delta_s/delta_0: 6.2622E-09 | 12: delta_r/delta_0: 1.5186E-09 | 13: delta_s/delta_0: 1.4851E-09 | 14: delta_r/delta_0: 9.3850E-10 | 15: delta_s/delta_0: 9.8182E-11 | Reached bicg-stab tolerance | BP delta = -0.8745890 -1.071342 2705657.74541263 | BP delta = -0.8745890 -1.076888 2705637.35892952 | BP chisq diff = -20.4, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.078217 | New value = -3.102615 | poltype: 2 pol: 1 CPU time specind = 3.4277916E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.037562 | New value = -3.204211 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094865 | New value = -3.179875 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199419 | New value = -3.209974 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.180877 | New value = -3.063435 | poltype: 2 pol: 2 CPU time specind = 3.5115004E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.13561E+08, tol = 0.77081E+01, time = 5.47 | CG iter. 2 -- res = 0.32759E+06, tol = 0.77081E+01, time = 5.25 | CG iter. 3 -- res = 0.51891E+05, tol = 0.77081E+01, time = 5.37 | CG iter. 4 -- res = 0.26892E+05, tol = 0.77081E+01, time = 5.72 | CG iter. 5 -- res = 0.15890E+05, tol = 0.77081E+01, time = 5.58 | CG iter. 6 -- res = 0.12044E+05, tol = 0.77081E+01, time = 5.80 | CG iter. 7 -- res = 0.10796E+05, tol = 0.77081E+01, time = 5.26 | CG iter. 8 -- res = 0.91096E+04, tol = 0.77081E+01, time = 5.62 | CG iter. 9 -- res = 0.84383E+04, tol = 0.77081E+01, time = 5.81 | CG iter. 10 -- res = 0.74243E+04, tol = 0.77081E+01, time = 5.46 | CG iter. 11 -- res = 0.54053E+04, tol = 0.77081E+01, time = 5.68 | CG iter. 12 -- res = 0.35139E+04, tol = 0.77081E+01, time = 5.32 | CG iter. 13 -- res = 0.24419E+04, tol = 0.77081E+01, time = 5.37 | CG iter. 14 -- res = 0.19890E+04, tol = 0.77081E+01, time = 5.55 | CG iter. 15 -- res = 0.17551E+04, tol = 0.77081E+01, time = 5.50 | CG iter. 16 -- res = 0.14328E+04, tol = 0.77081E+01, time = 5.54 | CG iter. 17 -- res = 0.98803E+03, tol = 0.77081E+01, time = 5.29 | CG iter. 18 -- res = 0.71719E+03, tol = 0.77081E+01, time = 5.51 | CG iter. 19 -- res = 0.60314E+03, tol = 0.77081E+01, time = 5.56 | CG iter. 20 -- res = 0.48991E+03, tol = 0.77081E+01, time = 5.49 | CG iter. 21 -- res = 0.35498E+03, tol = 0.77081E+01, time = 5.63 | CG iter. 22 -- res = 0.26423E+03, tol = 0.77081E+01, time = 5.30 | CG iter. 23 -- res = 0.22075E+03, tol = 0.77081E+01, time = 5.62 | CG iter. 24 -- res = 0.19020E+03, tol = 0.77081E+01, time = 5.17 | CG iter. 25 -- res = 0.14396E+03, tol = 0.77081E+01, time = 5.27 | CG iter. 26 -- res = 0.10319E+03, tol = 0.77081E+01, time = 5.39 | CG iter. 27 -- res = 0.82002E+02, tol = 0.77081E+01, time = 5.25 | CG iter. 28 -- res = 0.72235E+02, tol = 0.77081E+01, time = 5.70 | CG iter. 29 -- res = 0.59380E+02, tol = 0.77081E+01, time = 5.26 | CG iter. 30 -- res = 0.45163E+02, tol = 0.77081E+01, time = 5.18 | CG iter. 31 -- res = 0.36256E+02, tol = 0.77081E+01, time = 5.24 | CG iter. 32 -- res = 0.30546E+02, tol = 0.77081E+01, time = 5.82 | CG iter. 33 -- res = 0.24993E+02, tol = 0.77081E+01, time = 5.25 | CG iter. 34 -- res = 0.18964E+02, tol = 0.77081E+01, time = 5.57 | CG iter. 35 -- res = 0.14565E+02, tol = 0.77081E+01, time = 5.23 | CG iter. 36 -- res = 0.12246E+02, tol = 0.77081E+01, time = 5.88 | CG iter. 37 -- res = 0.10319E+02, tol = 0.77081E+01, time = 10.77 | CG iter. 38 -- res = 0.82548E+01, tol = 0.77081E+01, time = 5.47 | CG iter. 39 -- res = 0.61118E+01, tol = 0.77081E+01, time = 5.65 | CG iter. 40 -- res = 0.49203E+01, tol = 0.77081E+01, time = 5.25 | CG iter. 41 -- res = 0.39272E+01, tol = 0.77081E+01, time = 5.51 | CG iter. 42 -- res = 0.31646E+01, tol = 0.77081E+01, time = 5.54 | CG iter. 43 -- res = 0.23855E+01, tol = 0.77081E+01, time = 5.62 | CG iter. 44 -- res = 0.18029E+01, tol = 0.77081E+01, time = 5.48 | CG iter. 45 -- res = 0.14588E+01, tol = 0.77081E+01, time = 5.17 | CG iter. 46 -- res = 0.11681E+01, tol = 0.77081E+01, time = 5.42 | CG iter. 47 -- res = 0.86678E+00, tol = 0.77081E+01, time = 5.35 | CG iter. 48 -- res = 0.67712E+00, tol = 0.77081E+01, time = 5.19 | CG iter. 49 -- res = 0.52565E+00, tol = 0.77081E+01, time = 5.83 | CG iter. 50 -- res = 0.41820E+00, tol = 0.77081E+01, time = 5.15 | Final CG iter 51 -- res = 0.41820E+00, tol = 0.77081E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8015249.674 | Old band monopole 9440264.697 | Change to band monopole -1425015.023 | Change to component monopole 1425008.893 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.16029E+04, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.11270E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.23381E+00, tol = 0.47627E+18, time = 1.99 | Final CG iter 4 -- res = 0.26921E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8015215.199 | (Sampled value in CG: 7980342.291 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.562786 | New value = 1.482274 | poltype: 2 pol: 1 CPU time specind = 2.2808075E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.525556 | New value = 1.474110 | poltype: 2 pol: 2 CPU time specind = 2.9662132E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.25363E+08, tol = 0.47539E+04, time = 6.09 | CG iter. 2 -- res = 0.54221E+07, tol = 0.47539E+04, time = 7.12 | CG iter. 3 -- res = 0.88221E+06, tol = 0.47539E+04, time = 6.45 | CG iter. 4 -- res = 0.36660E+06, tol = 0.47539E+04, time = 6.26 | CG iter. 5 -- res = 0.15810E+06, tol = 0.47539E+04, time = 6.19 | CG iter. 6 -- res = 0.82643E+05, tol = 0.47539E+04, time = 5.90 | CG iter. 7 -- res = 0.44900E+05, tol = 0.47539E+04, time = 6.22 | CG iter. 8 -- res = 0.21501E+05, tol = 0.47539E+04, time = 6.18 | CG iter. 9 -- res = 0.91491E+04, tol = 0.47539E+04, time = 6.23 | CG iter. 10 -- res = 0.36610E+04, tol = 0.47539E+04, time = 6.32 | CG iter. 11 -- res = 0.16837E+04, tol = 0.47539E+04, time = 6.37 | CG iter. 12 -- res = 0.89325E+03, tol = 0.47539E+04, time = 6.07 | CG iter. 13 -- res = 0.51720E+03, tol = 0.47539E+04, time = 6.59 | CG iter. 14 -- res = 0.28980E+03, tol = 0.47539E+04, time = 6.46 | CG iter. 15 -- res = 0.14554E+03, tol = 0.47539E+04, time = 6.41 | CG iter. 16 -- res = 0.67899E+02, tol = 0.47539E+04, time = 6.43 | CG iter. 17 -- res = 0.32673E+02, tol = 0.47539E+04, time = 6.55 | CG iter. 18 -- res = 0.16123E+02, tol = 0.47539E+04, time = 12.04 | CG iter. 19 -- res = 0.87070E+01, tol = 0.47539E+04, time = 6.26 | CG iter. 20 -- res = 0.49452E+01, tol = 0.47539E+04, time = 6.36 | CG iter. 21 -- res = 0.27563E+01, tol = 0.47539E+04, time = 6.12 | CG iter. 22 -- res = 0.14240E+01, tol = 0.47539E+04, time = 6.27 | CG iter. 23 -- res = 0.70497E+00, tol = 0.47539E+04, time = 6.04 | CG iter. 24 -- res = 0.35475E+00, tol = 0.47539E+04, time = 6.32 | CG iter. 25 -- res = 0.19476E+00, tol = 0.47539E+04, time = 6.14 | CG iter. 26 -- res = 0.11326E+00, tol = 0.47539E+04, time = 6.13 | CG iter. 27 -- res = 0.62888E-01, tol = 0.47539E+04, time = 6.03 | CG iter. 28 -- res = 0.34212E-01, tol = 0.47539E+04, time = 6.48 | CG iter. 29 -- res = 0.17952E-01, tol = 0.47539E+04, time = 6.29 | CG iter. 30 -- res = 0.92752E-02, tol = 0.47539E+04, time = 6.37 | CG iter. 31 -- res = 0.50838E-02, tol = 0.47539E+04, time = 7.44 | CG iter. 32 -- res = 0.28903E-02, tol = 0.47539E+04, time = 7.18 | CG iter. 33 -- res = 0.16216E-02, tol = 0.47539E+04, time = 6.52 | CG iter. 34 -- res = 0.86732E-03, tol = 0.47539E+04, time = 6.20 | CG iter. 35 -- res = 0.45434E-03, tol = 0.47539E+04, time = 6.49 | Final CG iter 36 -- res = 0.45434E-03, tol = 0.47539E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.375 2.727 | New value -1.925 | Old value 2.375 | Difference -4.301 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.96959E+06, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.37711E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.11850E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.16753E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.30047E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8015215.199 | (Sampled value in CG: 7979727.939 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.728550 | New value = -3.504266 | poltype: 1 pol: 1 CPU time specind = 1.9973993E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.24677E+07, tol = 0.28478E+01, time = 2.44 | CG iter. 2 -- res = 0.10779E+07, tol = 0.28478E+01, time = 2.74 | CG iter. 3 -- res = 0.20889E+06, tol = 0.28478E+01, time = 2.45 | CG iter. 4 -- res = 0.75424E+05, tol = 0.28478E+01, time = 2.58 | CG iter. 5 -- res = 0.44448E+05, tol = 0.28478E+01, time = 2.77 | CG iter. 6 -- res = 0.22828E+05, tol = 0.28478E+01, time = 2.37 | CG iter. 7 -- res = 0.91090E+04, tol = 0.28478E+01, time = 2.63 | CG iter. 8 -- res = 0.41481E+04, tol = 0.28478E+01, time = 2.60 | CG iter. 9 -- res = 0.20202E+04, tol = 0.28478E+01, time = 2.46 | CG iter. 10 -- res = 0.86266E+03, tol = 0.28478E+01, time = 2.43 | CG iter. 11 -- res = 0.34377E+03, tol = 0.28478E+01, time = 2.56 | CG iter. 12 -- res = 0.15213E+03, tol = 0.28478E+01, time = 2.42 | CG iter. 13 -- res = 0.70434E+02, tol = 0.28478E+01, time = 2.71 | CG iter. 14 -- res = 0.38011E+02, tol = 0.28478E+01, time = 2.52 | CG iter. 15 -- res = 0.19379E+02, tol = 0.28478E+01, time = 2.56 | CG iter. 16 -- res = 0.93048E+01, tol = 0.28478E+01, time = 2.71 | CG iter. 17 -- res = 0.39546E+01, tol = 0.28478E+01, time = 2.70 | CG iter. 18 -- res = 0.16014E+01, tol = 0.28478E+01, time = 2.50 | CG iter. 19 -- res = 0.73256E+00, tol = 0.28478E+01, time = 2.52 | CG iter. 20 -- res = 0.36968E+00, tol = 0.28478E+01, time = 2.26 | CG iter. 21 -- res = 0.19144E+00, tol = 0.28478E+01, time = 2.56 | CG iter. 22 -- res = 0.91705E-01, tol = 0.28478E+01, time = 2.59 | CG iter. 23 -- res = 0.43413E-01, tol = 0.28478E+01, time = 2.79 | CG iter. 24 -- res = 0.18935E-01, tol = 0.28478E+01, time = 2.48 | CG iter. 25 -- res = 0.90083E-02, tol = 0.28478E+01, time = 2.59 | CG iter. 26 -- res = 0.42084E-02, tol = 0.28478E+01, time = 2.46 | CG iter. 27 -- res = 0.21195E-02, tol = 0.28478E+01, time = 2.71 | CG iter. 28 -- res = 0.11323E-02, tol = 0.28478E+01, time = 2.48 | CG iter. 29 -- res = 0.54095E-03, tol = 0.28478E+01, time = 2.69 | CG iter. 30 -- res = 0.25148E-03, tol = 0.28478E+01, time = 2.52 | CG iter. 31 -- res = 0.12215E-03, tol = 0.28478E+01, time = 2.68 | CG iter. 32 -- res = 0.55047E-04, tol = 0.28478E+01, time = 2.37 | CG iter. 33 -- res = 0.27548E-04, tol = 0.28478E+01, time = 2.49 | CG iter. 34 -- res = 0.13914E-04, tol = 0.28478E+01, time = 2.66 | CG iter. 35 -- res = 0.71096E-05, tol = 0.28478E+01, time = 2.67 | CG iter. 36 -- res = 0.33860E-05, tol = 0.28478E+01, time = 2.56 | CG iter. 37 -- res = 0.15788E-05, tol = 0.28478E+01, time = 2.90 | CG iter. 38 -- res = 0.74053E-06, tol = 0.28478E+01, time = 3.24 | CG iter. 39 -- res = 0.33601E-06, tol = 0.28478E+01, time = 2.44 | CG iter. 40 -- res = 0.17128E-06, tol = 0.28478E+01, time = 2.71 | CG iter. 41 -- res = 0.84562E-07, tol = 0.28478E+01, time = 2.51 | CG iter. 42 -- res = 0.43336E-07, tol = 0.28478E+01, time = 2.60 | CG iter. 43 -- res = 0.19394E-07, tol = 0.28478E+01, time = 2.49 | CG iter. 44 -- res = 0.91688E-08, tol = 0.28478E+01, time = 2.44 | CG iter. 45 -- res = 0.42869E-08, tol = 0.28478E+01, time = 2.63 | CG iter. 46 -- res = 0.20271E-08, tol = 0.28478E+01, time = 2.70 | CG iter. 47 -- res = 0.10302E-08, tol = 0.28478E+01, time = 2.52 | CG iter. 48 -- res = 0.51140E-09, tol = 0.28478E+01, time = 2.72 | CG iter. 49 -- res = 0.24391E-09, tol = 0.28478E+01, time = 2.29 | CG iter. 50 -- res = 0.11248E-09, tol = 0.28478E+01, time = 2.98 | Final CG iter 51 -- res = 0.11248E-09, tol = 0.28478E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.610 4.381 | New value 1.385 | Old value -9.610 | Difference 10.996 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.11853E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.54802E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.24457E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.30395E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.10045E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8015215.199 | (Sampled value in CG: 7993883.911 ) | CPU time specind = 1139.110 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.72293E+08, tol = 0.57534E+04, time = 11.50 | CG iter. 2 -- res = 0.60281E+08, tol = 0.57534E+04, time = 11.16 | CG iter. 3 -- res = 0.16164E+08, tol = 0.57534E+04, time = 10.88 | CG iter. 4 -- res = 0.71461E+07, tol = 0.57534E+04, time = 11.26 | CG iter. 5 -- res = 0.44809E+07, tol = 0.57534E+04, time = 11.67 | CG iter. 6 -- res = 0.25730E+07, tol = 0.57534E+04, time = 11.85 | CG iter. 7 -- res = 0.14658E+07, tol = 0.57534E+04, time = 12.74 | CG iter. 8 -- res = 0.95062E+06, tol = 0.57534E+04, time = 11.23 | CG iter. 9 -- res = 0.60875E+06, tol = 0.57534E+04, time = 11.63 | CG iter. 10 -- res = 0.36884E+06, tol = 0.57534E+04, time = 11.37 | CG iter. 11 -- res = 0.20501E+06, tol = 0.57534E+04, time = 11.13 | CG iter. 12 -- res = 0.11085E+06, tol = 0.57534E+04, time = 11.90 | CG iter. 13 -- res = 0.60700E+05, tol = 0.57534E+04, time = 11.13 | CG iter. 14 -- res = 0.35180E+05, tol = 0.57534E+04, time = 11.49 | CG iter. 15 -- res = 0.22996E+05, tol = 0.57534E+04, time = 11.34 | CG iter. 16 -- res = 0.16217E+05, tol = 0.57534E+04, time = 11.30 | CG iter. 17 -- res = 0.12162E+05, tol = 0.57534E+04, time = 11.34 | CG iter. 18 -- res = 0.92537E+04, tol = 0.57534E+04, time = 11.13 | CG iter. 19 -- res = 0.70280E+04, tol = 0.57534E+04, time = 11.42 | CG iter. 20 -- res = 0.53196E+04, tol = 0.57534E+04, time = 11.46 | CG iter. 21 -- res = 0.43126E+04, tol = 0.57534E+04, time = 11.45 | CG iter. 22 -- res = 0.39837E+04, tol = 0.57534E+04, time = 11.06 | CG iter. 23 -- res = 0.40997E+04, tol = 0.57534E+04, time = 11.36 | CG iter. 24 -- res = 0.44773E+04, tol = 0.57534E+04, time = 11.61 | CG iter. 25 -- res = 0.47237E+04, tol = 0.57534E+04, time = 17.10 | CG iter. 26 -- res = 0.45263E+04, tol = 0.57534E+04, time = 11.32 | CG iter. 27 -- res = 0.38623E+04, tol = 0.57534E+04, time = 10.85 | CG iter. 28 -- res = 0.30409E+04, tol = 0.57534E+04, time = 11.26 | CG iter. 29 -- res = 0.24830E+04, tol = 0.57534E+04, time = 11.25 | CG iter. 30 -- res = 0.21052E+04, tol = 0.57534E+04, time = 11.94 | CG iter. 31 -- res = 0.17956E+04, tol = 0.57534E+04, time = 11.34 | CG iter. 32 -- res = 0.15334E+04, tol = 0.57534E+04, time = 11.48 | CG iter. 33 -- res = 0.12725E+04, tol = 0.57534E+04, time = 12.74 | CG iter. 34 -- res = 0.98815E+03, tol = 0.57534E+04, time = 11.58 | CG iter. 35 -- res = 0.77359E+03, tol = 0.57534E+04, time = 11.41 | CG iter. 36 -- res = 0.66626E+03, tol = 0.57534E+04, time = 11.32 | CG iter. 37 -- res = 0.61422E+03, tol = 0.57534E+04, time = 11.14 | CG iter. 38 -- res = 0.58918E+03, tol = 0.57534E+04, time = 11.41 | CG iter. 39 -- res = 0.55636E+03, tol = 0.57534E+04, time = 11.16 | CG iter. 40 -- res = 0.49598E+03, tol = 0.57534E+04, time = 11.65 | CG iter. 41 -- res = 0.42840E+03, tol = 0.57534E+04, time = 11.23 | CG iter. 42 -- res = 0.36080E+03, tol = 0.57534E+04, time = 12.29 | CG iter. 43 -- res = 0.30707E+03, tol = 0.57534E+04, time = 11.36 | CG iter. 44 -- res = 0.26565E+03, tol = 0.57534E+04, time = 11.24 | CG iter. 45 -- res = 0.23687E+03, tol = 0.57534E+04, time = 11.33 | CG iter. 46 -- res = 0.21092E+03, tol = 0.57534E+04, time = 10.97 | CG iter. 47 -- res = 0.18619E+03, tol = 0.57534E+04, time = 11.31 | CG iter. 48 -- res = 0.15644E+03, tol = 0.57534E+04, time = 11.28 | CG iter. 49 -- res = 0.12937E+03, tol = 0.57534E+04, time = 11.36 | CG iter. 50 -- res = 0.10909E+03, tol = 0.57534E+04, time = 11.32 | CG iter. 51 -- res = 0.98049E+02, tol = 0.57534E+04, time = 26.06 | CG iter. 52 -- res = 0.93226E+02, tol = 0.57534E+04, time = 18.85 | CG iter. 53 -- res = 0.92537E+02, tol = 0.57534E+04, time = 11.42 | CG iter. 54 -- res = 0.87851E+02, tol = 0.57534E+04, time = 11.28 | CG iter. 55 -- res = 0.81500E+02, tol = 0.57534E+04, time = 11.06 | CG iter. 56 -- res = 0.74016E+02, tol = 0.57534E+04, time = 11.01 | CG iter. 57 -- res = 0.65018E+02, tol = 0.57534E+04, time = 12.78 | CG iter. 58 -- res = 0.58544E+02, tol = 0.57534E+04, time = 11.92 | CG iter. 59 -- res = 0.54367E+02, tol = 0.57534E+04, time = 10.93 | CG iter. 60 -- res = 0.51121E+02, tol = 0.57534E+04, time = 11.07 | Final CG iter 61 -- res = 0.51121E+02, tol = 0.57534E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.853 ( -229.556 -2231.112 2513.863 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8017718.961 | Old band monopole 8015249.674 | Change to band monopole 2469.287 | Change to component monopole -2469.276 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.915 2.736 | New value -1.371 | Old value -1.915 | Difference 0.545 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.736 ( 6.134 11.851 -12.338 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.640 4.220 | New value -1.711 | Old value 6.640 | Difference -8.350 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.20822E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.24773E+02, tol = 0.47627E+18, time = 1.80 | CG iter. 3 -- res = 0.71115E+00, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.76202E-03, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.20604E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8017684.475 | (Sampled value in CG: 7989288.274 ) | Chain = 1 -- chisq = 0.81541174E+09 | Chain = 1 -- wall time = 18003.948 sec Available RAM: MemAvailable: 487864284 kB Available Swap: SwapFree: 1056183760 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 347 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445298 | --> Sampling calibration, mode = relcal | relcal = 1.3427279E-02 7.4325333E-04 -1.5911750E-03 -1.2579357E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1298477 0.1454422 97040185.2957793 | BP delta = 0.1392998 0.1548943 97040178.2698069 | BP chisq diff = -7.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632498 | --> Sampling calibration, mode = relcal | relcal = -2.8210622E-03 -7.0312066E-04 1.6776640E-03 1.6135907E-03 -4.0805040E-04 6.4097851E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5717139 15222297.4868053 | BP delta = 0.0000000E+00 -0.5807980 15222292.8886013 | BP chisq diff = -4.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18213882748226 | --> Sampling calibration, mode = relcal | relcal = -7.5150229E-02 -5.8592383E-02 9.2025317E-02 4.1717298E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6049980E-04 4.8361244E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1034E-05 | 2: delta_r/delta_0: 9.2161E-07 | 3: delta_s/delta_0: 2.0809E-07 | 4: delta_r/delta_0: 1.7765E-08 | 5: delta_s/delta_0: 6.8529E-09 | 6: delta_r/delta_0: 1.0463E-09 | 7: delta_s/delta_0: 2.0371E-10 | 8: delta_r/delta_0: 7.8014E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.057933091046050E-003 2.738446082870480E-005 | BP delta = 8.4458709E-02 0.1063520 50484725.0393232 | BP delta = 8.6004652E-02 0.1078979 50484725.1911256 | BP chisq diff = 0.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02605018 | --> Sampling calibration, mode = relcal | relcal = -0.1067246 -9.5547058E-02 0.1450078 5.7263877E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1294043E-03 1.8872789E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4891E-05 | 2: delta_r/delta_0: 1.2683E-06 | 3: delta_s/delta_0: 2.5207E-07 | 4: delta_r/delta_0: 5.1319E-08 | 5: delta_s/delta_0: 2.2117E-08 | 6: delta_r/delta_0: 7.4124E-09 | 7: delta_s/delta_0: 6.8133E-09 | 8: delta_r/delta_0: 1.6459E-09 | 9: delta_s/delta_0: 8.5776E-10 | 10: delta_r/delta_0: 6.3680E-10 | 11: delta_s/delta_0: 4.1869E-10 | 12: delta_r/delta_0: 1.2420E-10 | 13: delta_s/delta_0: 9.4050E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.779193976774157E-003 2.810699203078061E-005 | BP delta = -0.2891132 -0.2568962 57388133.6395232 | BP delta = -0.2840757 -0.2518587 57388133.2856448 | BP chisq diff = -0.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231681 | --> Sampling calibration, mode = relcal | relcal = 0.2955633 0.2248005 -0.2837914 -0.2365723 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.1441736E-05 5.2855196E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5007E-03 | 2: delta_r/delta_0: 3.4580E-05 | 3: delta_s/delta_0: 6.3944E-05 | 4: delta_r/delta_0: 5.1995E-06 | 5: delta_s/delta_0: 5.1976E-06 | 6: delta_r/delta_0: 8.7124E-07 | 7: delta_s/delta_0: 5.9184E-08 | 8: delta_r/delta_0: 2.8347E-08 | 9: delta_s/delta_0: 4.8708E-07 | 10: delta_r/delta_0: 3.6691E-09 | 11: delta_s/delta_0: 8.4760E-10 | 12: delta_r/delta_0: 5.3285E-10 | 13: delta_s/delta_0: 5.2768E-08 | 14: delta_r/delta_0: 6.6000E-09 | 15: delta_s/delta_0: 2.9919E-09 | 16: delta_r/delta_0: 1.3277E-09 | 17: delta_s/delta_0: 1.6679E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.593498120752773E-002 4.021265369687182E-005 | BP delta = -0.1394480 -0.1818994 72481050.7262485 | BP delta = -0.1525620 -0.1950133 72481050.0643846 | BP chisq diff = -0.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95919356 | --> Sampling calibration, mode = relcal | relcal = 0.1064328 0.1396783 -0.1103367 -0.1357745 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8201567E-03 1.2767822E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5151E-01 | 2: delta_r/delta_0: 1.5505E-02 | 3: delta_s/delta_0: 9.8788E-02 | 4: delta_r/delta_0: 5.1947E-03 | 5: delta_s/delta_0: 3.2893E-06 | 6: delta_r/delta_0: 1.3162E-06 | 7: delta_s/delta_0: 4.0108E-06 | 8: delta_r/delta_0: 6.2889E-07 | 9: delta_s/delta_0: 1.9942E-07 | 10: delta_r/delta_0: 3.0623E-08 | 11: delta_s/delta_0: 1.0522E-08 | 12: delta_r/delta_0: 3.4308E-09 | 13: delta_s/delta_0: 1.7966E-08 | 14: delta_r/delta_0: 7.9185E-09 | 15: delta_s/delta_0: 2.5696E-10 | 16: delta_r/delta_0: 1.1059E-10 | 17: delta_s/delta_0: 5.1813E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.290588557289857E-002 3.697094744090407E-005 | BP delta = 0.1514361 0.2649618 72773544.2999456 | BP delta = 0.1654902 0.2790159 72773544.6815630 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.102615 | New value = -3.152700 | poltype: 2 pol: 1 CPU time specind = 1.3932943E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.204211 | New value = -3.141055 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179875 | New value = -3.226457 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.209974 | New value = -3.156136 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.063435 | New value = -3.118472 | poltype: 2 pol: 2 CPU time specind = 4.4469833E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.13554E+08, tol = 0.86291E+01, time = 6.00 | CG iter. 2 -- res = 0.33220E+06, tol = 0.86291E+01, time = 5.43 | CG iter. 3 -- res = 0.58345E+05, tol = 0.86291E+01, time = 5.65 | CG iter. 4 -- res = 0.41359E+05, tol = 0.86291E+01, time = 5.90 | CG iter. 5 -- res = 0.35151E+05, tol = 0.86291E+01, time = 6.05 | CG iter. 6 -- res = 0.32600E+05, tol = 0.86291E+01, time = 5.58 | CG iter. 7 -- res = 0.32319E+05, tol = 0.86291E+01, time = 5.99 | CG iter. 8 -- res = 0.27095E+05, tol = 0.86291E+01, time = 5.88 | CG iter. 9 -- res = 0.23011E+05, tol = 0.86291E+01, time = 5.72 | CG iter. 10 -- res = 0.19293E+05, tol = 0.86291E+01, time = 5.54 | CG iter. 11 -- res = 0.13728E+05, tol = 0.86291E+01, time = 6.00 | CG iter. 12 -- res = 0.92936E+04, tol = 0.86291E+01, time = 5.60 | CG iter. 13 -- res = 0.70750E+04, tol = 0.86291E+01, time = 5.99 | CG iter. 14 -- res = 0.64011E+04, tol = 0.86291E+01, time = 5.82 | CG iter. 15 -- res = 0.54054E+04, tol = 0.86291E+01, time = 5.54 | CG iter. 16 -- res = 0.42183E+04, tol = 0.86291E+01, time = 5.95 | CG iter. 17 -- res = 0.28231E+04, tol = 0.86291E+01, time = 5.83 | CG iter. 18 -- res = 0.21990E+04, tol = 0.86291E+01, time = 6.36 | CG iter. 19 -- res = 0.19144E+04, tol = 0.86291E+01, time = 6.02 | CG iter. 20 -- res = 0.15336E+04, tol = 0.86291E+01, time = 5.59 | CG iter. 21 -- res = 0.11395E+04, tol = 0.86291E+01, time = 6.40 | CG iter. 22 -- res = 0.91259E+03, tol = 0.86291E+01, time = 5.78 | CG iter. 23 -- res = 0.82129E+03, tol = 0.86291E+01, time = 5.99 | CG iter. 24 -- res = 0.69716E+03, tol = 0.86291E+01, time = 6.21 | CG iter. 25 -- res = 0.52307E+03, tol = 0.86291E+01, time = 5.72 | CG iter. 26 -- res = 0.41733E+03, tol = 0.86291E+01, time = 5.56 | CG iter. 27 -- res = 0.35750E+03, tol = 0.86291E+01, time = 5.90 | CG iter. 28 -- res = 0.33395E+03, tol = 0.86291E+01, time = 5.85 | CG iter. 29 -- res = 0.26117E+03, tol = 0.86291E+01, time = 5.75 | CG iter. 30 -- res = 0.20273E+03, tol = 0.86291E+01, time = 5.60 | CG iter. 31 -- res = 0.17899E+03, tol = 0.86291E+01, time = 5.63 | CG iter. 32 -- res = 0.15886E+03, tol = 0.86291E+01, time = 5.92 | CG iter. 33 -- res = 0.13059E+03, tol = 0.86291E+01, time = 5.80 | CG iter. 34 -- res = 0.10040E+03, tol = 0.86291E+01, time = 5.92 | CG iter. 35 -- res = 0.82846E+02, tol = 0.86291E+01, time = 11.05 | CG iter. 36 -- res = 0.74216E+02, tol = 0.86291E+01, time = 5.83 | CG iter. 37 -- res = 0.61231E+02, tol = 0.86291E+01, time = 6.09 | CG iter. 38 -- res = 0.46646E+02, tol = 0.86291E+01, time = 6.13 | CG iter. 39 -- res = 0.37140E+02, tol = 0.86291E+01, time = 6.07 | CG iter. 40 -- res = 0.32830E+02, tol = 0.86291E+01, time = 5.86 | CG iter. 41 -- res = 0.27463E+02, tol = 0.86291E+01, time = 6.07 | CG iter. 42 -- res = 0.21041E+02, tol = 0.86291E+01, time = 5.78 | CG iter. 43 -- res = 0.16970E+02, tol = 0.86291E+01, time = 6.15 | CG iter. 44 -- res = 0.13913E+02, tol = 0.86291E+01, time = 5.62 | CG iter. 45 -- res = 0.11582E+02, tol = 0.86291E+01, time = 6.14 | CG iter. 46 -- res = 0.92152E+01, tol = 0.86291E+01, time = 5.96 | CG iter. 47 -- res = 0.69247E+01, tol = 0.86291E+01, time = 5.92 | CG iter. 48 -- res = 0.54898E+01, tol = 0.86291E+01, time = 5.93 | CG iter. 49 -- res = 0.45486E+01, tol = 0.86291E+01, time = 7.32 | CG iter. 50 -- res = 0.36644E+01, tol = 0.86291E+01, time = 6.44 | Final CG iter 51 -- res = 0.36644E+01, tol = 0.86291E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10452415.000 | Old band monopole 8017718.961 | Change to band monopole 2434696.039 | Change to component monopole -2434685.567 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.56040E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.20304E+03, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.49618E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.19599E-01, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.81870E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10452370.042 | (Sampled value in CG: 10395628.515 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.482274 | New value = 1.490164 | poltype: 2 pol: 1 CPU time specind = 1.4496803E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.474110 | New value = 1.494830 | poltype: 2 pol: 2 CPU time specind = 3.5629272E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.24016E+08, tol = 0.47541E+04, time = 6.63 | CG iter. 2 -- res = 0.53743E+07, tol = 0.47541E+04, time = 6.46 | CG iter. 3 -- res = 0.86992E+06, tol = 0.47541E+04, time = 6.62 | CG iter. 4 -- res = 0.35862E+06, tol = 0.47541E+04, time = 6.56 | CG iter. 5 -- res = 0.15324E+06, tol = 0.47541E+04, time = 6.66 | CG iter. 6 -- res = 0.80830E+05, tol = 0.47541E+04, time = 6.50 | CG iter. 7 -- res = 0.44298E+05, tol = 0.47541E+04, time = 6.67 | CG iter. 8 -- res = 0.21334E+05, tol = 0.47541E+04, time = 6.77 | CG iter. 9 -- res = 0.92461E+04, tol = 0.47541E+04, time = 6.80 | CG iter. 10 -- res = 0.37613E+04, tol = 0.47541E+04, time = 7.02 | CG iter. 11 -- res = 0.16875E+04, tol = 0.47541E+04, time = 6.91 | CG iter. 12 -- res = 0.86887E+03, tol = 0.47541E+04, time = 6.61 | CG iter. 13 -- res = 0.49960E+03, tol = 0.47541E+04, time = 13.24 | CG iter. 14 -- res = 0.28337E+03, tol = 0.47541E+04, time = 6.41 | CG iter. 15 -- res = 0.14435E+03, tol = 0.47541E+04, time = 6.91 | CG iter. 16 -- res = 0.67062E+02, tol = 0.47541E+04, time = 6.85 | CG iter. 17 -- res = 0.31261E+02, tol = 0.47541E+04, time = 6.54 | CG iter. 18 -- res = 0.15616E+02, tol = 0.47541E+04, time = 6.81 | CG iter. 19 -- res = 0.84646E+01, tol = 0.47541E+04, time = 7.07 | CG iter. 20 -- res = 0.47570E+01, tol = 0.47541E+04, time = 6.85 | CG iter. 21 -- res = 0.26221E+01, tol = 0.47541E+04, time = 6.89 | CG iter. 22 -- res = 0.13794E+01, tol = 0.47541E+04, time = 6.80 | CG iter. 23 -- res = 0.67757E+00, tol = 0.47541E+04, time = 6.82 | CG iter. 24 -- res = 0.34875E+00, tol = 0.47541E+04, time = 6.51 | CG iter. 25 -- res = 0.19003E+00, tol = 0.47541E+04, time = 6.39 | CG iter. 26 -- res = 0.11123E+00, tol = 0.47541E+04, time = 7.88 | CG iter. 27 -- res = 0.63485E-01, tol = 0.47541E+04, time = 7.29 | CG iter. 28 -- res = 0.34094E-01, tol = 0.47541E+04, time = 7.15 | CG iter. 29 -- res = 0.17538E-01, tol = 0.47541E+04, time = 7.06 | CG iter. 30 -- res = 0.90820E-02, tol = 0.47541E+04, time = 7.25 | CG iter. 31 -- res = 0.48993E-02, tol = 0.47541E+04, time = 6.85 | CG iter. 32 -- res = 0.27564E-02, tol = 0.47541E+04, time = 6.92 | CG iter. 33 -- res = 0.15622E-02, tol = 0.47541E+04, time = 6.75 | CG iter. 34 -- res = 0.84597E-03, tol = 0.47541E+04, time = 6.81 | CG iter. 35 -- res = 0.43654E-03, tol = 0.47541E+04, time = 6.53 | Final CG iter 36 -- res = 0.43654E-03, tol = 0.47541E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.366 2.743 | New value -1.365 | Old value -1.366 | Difference 0.000 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.36065E+04, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.93136E+01, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.11382E+00, tol = 0.47627E+18, time = 2.98 | Final CG iter 4 -- res = 0.15383E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10452370.042 | (Sampled value in CG: 10396269.815 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.504266 | New value = -3.510339 | poltype: 1 pol: 1 CPU time specind = 1.4196873E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.25890E+07, tol = 0.28885E+01, time = 2.77 | CG iter. 2 -- res = 0.10844E+07, tol = 0.28885E+01, time = 2.70 | CG iter. 3 -- res = 0.22327E+06, tol = 0.28885E+01, time = 2.82 | CG iter. 4 -- res = 0.88559E+05, tol = 0.28885E+01, time = 2.68 | CG iter. 5 -- res = 0.51620E+05, tol = 0.28885E+01, time = 2.94 | CG iter. 6 -- res = 0.26275E+05, tol = 0.28885E+01, time = 2.56 | CG iter. 7 -- res = 0.95799E+04, tol = 0.28885E+01, time = 3.00 | CG iter. 8 -- res = 0.39724E+04, tol = 0.28885E+01, time = 2.96 | CG iter. 9 -- res = 0.18128E+04, tol = 0.28885E+01, time = 2.57 | CG iter. 10 -- res = 0.71956E+03, tol = 0.28885E+01, time = 2.79 | CG iter. 11 -- res = 0.30094E+03, tol = 0.28885E+01, time = 2.90 | CG iter. 12 -- res = 0.14459E+03, tol = 0.28885E+01, time = 2.63 | CG iter. 13 -- res = 0.75707E+02, tol = 0.28885E+01, time = 2.82 | CG iter. 14 -- res = 0.38615E+02, tol = 0.28885E+01, time = 2.83 | CG iter. 15 -- res = 0.18145E+02, tol = 0.28885E+01, time = 2.69 | CG iter. 16 -- res = 0.79034E+01, tol = 0.28885E+01, time = 2.68 | CG iter. 17 -- res = 0.32551E+01, tol = 0.28885E+01, time = 2.88 | CG iter. 18 -- res = 0.14577E+01, tol = 0.28885E+01, time = 3.11 | CG iter. 19 -- res = 0.71294E+00, tol = 0.28885E+01, time = 2.86 | CG iter. 20 -- res = 0.37187E+00, tol = 0.28885E+01, time = 2.67 | CG iter. 21 -- res = 0.19751E+00, tol = 0.28885E+01, time = 2.83 | CG iter. 22 -- res = 0.89994E-01, tol = 0.28885E+01, time = 2.70 | CG iter. 23 -- res = 0.40559E-01, tol = 0.28885E+01, time = 2.87 | CG iter. 24 -- res = 0.18022E-01, tol = 0.28885E+01, time = 2.87 | CG iter. 25 -- res = 0.85569E-02, tol = 0.28885E+01, time = 2.84 | CG iter. 26 -- res = 0.44078E-02, tol = 0.28885E+01, time = 2.78 | CG iter. 27 -- res = 0.22463E-02, tol = 0.28885E+01, time = 2.83 | CG iter. 28 -- res = 0.11165E-02, tol = 0.28885E+01, time = 2.64 | CG iter. 29 -- res = 0.53258E-03, tol = 0.28885E+01, time = 2.88 | CG iter. 30 -- res = 0.24172E-03, tol = 0.28885E+01, time = 2.78 | CG iter. 31 -- res = 0.11194E-03, tol = 0.28885E+01, time = 2.99 | CG iter. 32 -- res = 0.56479E-04, tol = 0.28885E+01, time = 2.84 | CG iter. 33 -- res = 0.27176E-04, tol = 0.28885E+01, time = 2.63 | CG iter. 34 -- res = 0.13425E-04, tol = 0.28885E+01, time = 2.82 | CG iter. 35 -- res = 0.68699E-05, tol = 0.28885E+01, time = 3.12 | CG iter. 36 -- res = 0.32373E-05, tol = 0.28885E+01, time = 3.20 | CG iter. 37 -- res = 0.14750E-05, tol = 0.28885E+01, time = 3.00 | CG iter. 38 -- res = 0.72089E-06, tol = 0.28885E+01, time = 2.54 | CG iter. 39 -- res = 0.35293E-06, tol = 0.28885E+01, time = 2.92 | CG iter. 40 -- res = 0.17272E-06, tol = 0.28885E+01, time = 2.87 | CG iter. 41 -- res = 0.86250E-07, tol = 0.28885E+01, time = 3.36 | CG iter. 42 -- res = 0.42934E-07, tol = 0.28885E+01, time = 2.78 | CG iter. 43 -- res = 0.19638E-07, tol = 0.28885E+01, time = 2.73 | CG iter. 44 -- res = 0.91618E-08, tol = 0.28885E+01, time = 2.63 | CG iter. 45 -- res = 0.43379E-08, tol = 0.28885E+01, time = 2.67 | CG iter. 46 -- res = 0.22419E-08, tol = 0.28885E+01, time = 7.59 | CG iter. 47 -- res = 0.11171E-08, tol = 0.28885E+01, time = 4.53 | CG iter. 48 -- res = 0.55545E-09, tol = 0.28885E+01, time = 2.97 | CG iter. 49 -- res = 0.26236E-09, tol = 0.28885E+01, time = 2.53 | CG iter. 50 -- res = 0.11621E-09, tol = 0.28885E+01, time = 3.14 | Final CG iter 51 -- res = 0.11621E-09, tol = 0.28885E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.257 5.206 | New value -1.248 | Old value -6.257 | Difference 5.009 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.28288E+05, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.38937E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.14140E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.32942E-02, tol = 0.47627E+18, time = 2.32 | Final CG iter 5 -- res = 0.99220E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10452370.042 | (Sampled value in CG: 10412536.701 ) | CPU time specind = 1225.150 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.55 | CG iter. 1 -- res = 0.68168E+08, tol = 0.57527E+04, time = 12.29 | CG iter. 2 -- res = 0.58651E+08, tol = 0.57527E+04, time = 12.23 | CG iter. 3 -- res = 0.15220E+08, tol = 0.57527E+04, time = 11.82 | CG iter. 4 -- res = 0.63587E+07, tol = 0.57527E+04, time = 11.69 | CG iter. 5 -- res = 0.36629E+07, tol = 0.57527E+04, time = 11.73 | CG iter. 6 -- res = 0.21121E+07, tol = 0.57527E+04, time = 12.12 | CG iter. 7 -- res = 0.13027E+07, tol = 0.57527E+04, time = 12.62 | CG iter. 8 -- res = 0.86476E+06, tol = 0.57527E+04, time = 12.59 | CG iter. 9 -- res = 0.55360E+06, tol = 0.57527E+04, time = 12.40 | CG iter. 10 -- res = 0.32795E+06, tol = 0.57527E+04, time = 12.32 | CG iter. 11 -- res = 0.18152E+06, tol = 0.57527E+04, time = 12.01 | CG iter. 12 -- res = 0.10012E+06, tol = 0.57527E+04, time = 12.16 | CG iter. 13 -- res = 0.56389E+05, tol = 0.57527E+04, time = 12.06 | CG iter. 14 -- res = 0.34849E+05, tol = 0.57527E+04, time = 12.17 | CG iter. 15 -- res = 0.25106E+05, tol = 0.57527E+04, time = 11.85 | CG iter. 16 -- res = 0.19860E+05, tol = 0.57527E+04, time = 16.00 | CG iter. 17 -- res = 0.16157E+05, tol = 0.57527E+04, time = 14.55 | CG iter. 18 -- res = 0.13274E+05, tol = 0.57527E+04, time = 12.30 | CG iter. 19 -- res = 0.11013E+05, tol = 0.57527E+04, time = 12.44 | CG iter. 20 -- res = 0.94410E+04, tol = 0.57527E+04, time = 12.19 | CG iter. 21 -- res = 0.87726E+04, tol = 0.57527E+04, time = 12.19 | CG iter. 22 -- res = 0.88757E+04, tol = 0.57527E+04, time = 12.47 | CG iter. 23 -- res = 0.93922E+04, tol = 0.57527E+04, time = 13.18 | CG iter. 24 -- res = 0.99617E+04, tol = 0.57527E+04, time = 13.00 | CG iter. 25 -- res = 0.94337E+04, tol = 0.57527E+04, time = 12.50 | CG iter. 26 -- res = 0.79097E+04, tol = 0.57527E+04, time = 11.68 | CG iter. 27 -- res = 0.63593E+04, tol = 0.57527E+04, time = 11.88 | CG iter. 28 -- res = 0.49099E+04, tol = 0.57527E+04, time = 12.37 | CG iter. 29 -- res = 0.38782E+04, tol = 0.57527E+04, time = 12.24 | CG iter. 30 -- res = 0.32380E+04, tol = 0.57527E+04, time = 12.06 | CG iter. 31 -- res = 0.28094E+04, tol = 0.57527E+04, time = 12.38 | CG iter. 32 -- res = 0.24275E+04, tol = 0.57527E+04, time = 12.34 | CG iter. 33 -- res = 0.20623E+04, tol = 0.57527E+04, time = 12.03 | CG iter. 34 -- res = 0.16694E+04, tol = 0.57527E+04, time = 11.71 | CG iter. 35 -- res = 0.13693E+04, tol = 0.57527E+04, time = 11.88 | CG iter. 36 -- res = 0.12007E+04, tol = 0.57527E+04, time = 12.02 | CG iter. 37 -- res = 0.11638E+04, tol = 0.57527E+04, time = 11.95 | CG iter. 38 -- res = 0.11699E+04, tol = 0.57527E+04, time = 12.38 | CG iter. 39 -- res = 0.11261E+04, tol = 0.57527E+04, time = 12.31 | CG iter. 40 -- res = 0.10086E+04, tol = 0.57527E+04, time = 16.08 | CG iter. 41 -- res = 0.83696E+03, tol = 0.57527E+04, time = 14.63 | CG iter. 42 -- res = 0.67504E+03, tol = 0.57527E+04, time = 12.11 | CG iter. 43 -- res = 0.57322E+03, tol = 0.57527E+04, time = 12.01 | CG iter. 44 -- res = 0.51029E+03, tol = 0.57527E+04, time = 12.04 | CG iter. 45 -- res = 0.46248E+03, tol = 0.57527E+04, time = 12.38 | CG iter. 46 -- res = 0.41358E+03, tol = 0.57527E+04, time = 11.17 | CG iter. 47 -- res = 0.36897E+03, tol = 0.57527E+04, time = 13.01 | CG iter. 48 -- res = 0.32308E+03, tol = 0.57527E+04, time = 13.54 | CG iter. 49 -- res = 0.28903E+03, tol = 0.57527E+04, time = 12.51 | CG iter. 50 -- res = 0.26432E+03, tol = 0.57527E+04, time = 11.83 | CG iter. 51 -- res = 0.25317E+03, tol = 0.57527E+04, time = 11.96 | CG iter. 52 -- res = 0.24923E+03, tol = 0.57527E+04, time = 12.28 | CG iter. 53 -- res = 0.24157E+03, tol = 0.57527E+04, time = 11.87 | CG iter. 54 -- res = 0.21819E+03, tol = 0.57527E+04, time = 12.32 | CG iter. 55 -- res = 0.19291E+03, tol = 0.57527E+04, time = 11.79 | CG iter. 56 -- res = 0.16732E+03, tol = 0.57527E+04, time = 12.35 | CG iter. 57 -- res = 0.14847E+03, tol = 0.57527E+04, time = 11.92 | CG iter. 58 -- res = 0.13740E+03, tol = 0.57527E+04, time = 12.20 | CG iter. 59 -- res = 0.12932E+03, tol = 0.57527E+04, time = 11.71 | CG iter. 60 -- res = 0.12126E+03, tol = 0.57527E+04, time = 12.12 | Final CG iter 61 -- res = 0.12126E+03, tol = 0.57527E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.888 ( -229.675 -2230.919 2513.470 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7692673.741 | Old band monopole 10452415.000 | Change to band monopole -2759741.259 | Change to component monopole 2759729.389 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.379 2.732 | New value -2.180 | Old value -1.379 | Difference -0.801 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.469 ( 6.805 11.569 -11.294 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.062 4.872 | New value 7.172 | Old value 6.062 | Difference 1.110 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.32168E+06, tol = 0.47627E+18, time = 2.19 | CG iter. 2 -- res = 0.10304E+03, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.36724E+01, tol = 0.47627E+18, time = 2.39 | CG iter. 4 -- res = 0.43296E-02, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.16811E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7692640.653 | (Sampled value in CG: 7667923.764 ) | Chain = 1 -- chisq = 0.81563549E+09 | Chain = 1 -- wall time = 5822.437 sec Available RAM: MemAvailable: 376778968 kB Available Swap: SwapFree: 1122497020 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 348 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444869 | --> Sampling calibration, mode = relcal | relcal = 1.3428618E-02 7.4455043E-04 -1.6073163E-03 -1.2565853E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1392998 0.1548943 9408708.36378567 | BP delta = 0.1392998 0.1547296 9408775.96844938 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632446 | --> Sampling calibration, mode = relcal | relcal = -2.8204189E-03 -7.0480991E-04 1.6772992E-03 1.6149186E-03 -4.0793381E-04 6.4094487E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5807980 15214640.1840895 | BP delta = 0.0000000E+00 -0.5712460 15214642.2078529 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18433606900185 | --> Sampling calibration, mode = relcal | relcal = -7.5421028E-02 -5.8986545E-02 9.2443570E-02 4.1964002E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.6504352E-05 5.7730884E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4392E-05 | 2: delta_r/delta_0: 1.0902E-06 | 3: delta_s/delta_0: 1.8652E-07 | 4: delta_r/delta_0: 2.0468E-08 | 5: delta_s/delta_0: 5.3555E-09 | 6: delta_r/delta_0: 1.5107E-09 | 7: delta_s/delta_0: 3.5713E-10 | 8: delta_r/delta_0: 1.1611E-10 | 9: delta_s/delta_0: 1.7403E-10 | 10: delta_r/delta_0: 6.9648E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.273961381975961E-003 2.733302326978208E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4392E-05 | 2: delta_r/delta_0: 1.0902E-06 | 3: delta_s/delta_0: 1.8652E-07 | 4: delta_r/delta_0: 2.0468E-08 | 5: delta_s/delta_0: 5.3563E-09 | 6: delta_r/delta_0: 1.5108E-09 | 7: delta_s/delta_0: 3.5717E-10 | 8: delta_r/delta_0: 1.1613E-10 | 9: delta_s/delta_0: 1.7406E-10 | 10: delta_r/delta_0: 6.9660E-11 | Reached bicg-stab tolerance | BP delta = 8.6004652E-02 0.1078979 3511543.10816015 | BP delta = 8.6004652E-02 0.1082641 3510156.94605039 | BP chisq diff = -1386.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02603359 | --> Sampling calibration, mode = relcal | relcal = -0.1066890 -9.5606111E-02 0.1449246 5.7370435E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0368429E-03 1.6433679E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3522E-05 | 2: delta_r/delta_0: 1.2494E-06 | 3: delta_s/delta_0: 2.5293E-07 | 4: delta_r/delta_0: 4.4032E-08 | 5: delta_s/delta_0: 2.0384E-08 | 6: delta_r/delta_0: 6.6396E-09 | 7: delta_s/delta_0: 6.6736E-09 | 8: delta_r/delta_0: 1.4308E-09 | 9: delta_s/delta_0: 7.6262E-10 | 10: delta_r/delta_0: 5.7462E-10 | 11: delta_s/delta_0: 2.3870E-10 | 12: delta_r/delta_0: 1.1259E-10 | 13: delta_s/delta_0: 1.1478E-10 | 14: delta_r/delta_0: 8.9652E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.827442221515935E-003 2.810750506239666E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3524E-05 | 2: delta_r/delta_0: 1.2495E-06 | 3: delta_s/delta_0: 2.5296E-07 | 4: delta_r/delta_0: 4.4067E-08 | 5: delta_s/delta_0: 2.0359E-08 | 6: delta_r/delta_0: 6.6404E-09 | 7: delta_s/delta_0: 6.6676E-09 | 8: delta_r/delta_0: 1.4310E-09 | 9: delta_s/delta_0: 7.6277E-10 | 10: delta_r/delta_0: 5.7473E-10 | 11: delta_s/delta_0: 2.3855E-10 | 12: delta_r/delta_0: 1.1275E-10 | 13: delta_s/delta_0: 1.1526E-10 | 14: delta_r/delta_0: 9.0100E-11 | Reached bicg-stab tolerance | BP delta = -0.2840757 -0.2518587 2841741.87975483 | BP delta = -0.2840757 -0.2485275 2841935.64884694 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81229190 | --> Sampling calibration, mode = relcal | relcal = 0.2954777 0.2248711 -0.2837583 -0.2365905 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3905602E-03 5.4638465E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1741E-02 | 2: delta_r/delta_0: 9.7975E-04 | 3: delta_s/delta_0: 8.9528E-04 | 4: delta_r/delta_0: 5.9217E-05 | 5: delta_s/delta_0: 6.4997E-06 | 6: delta_r/delta_0: 9.5437E-07 | 7: delta_s/delta_0: 8.3723E-06 | 8: delta_r/delta_0: 1.1374E-06 | 9: delta_s/delta_0: 5.1691E-04 | 10: delta_r/delta_0: 2.7663E-05 | 11: delta_s/delta_0: 5.8848E-07 | 12: delta_r/delta_0: 1.0075E-07 | 13: delta_s/delta_0: 3.0102E-07 | 14: delta_r/delta_0: 1.1518E-08 | 15: delta_s/delta_0: 9.4796E-09 | 16: delta_r/delta_0: 2.3471E-09 | 17: delta_s/delta_0: 2.0566E-09 | 18: delta_r/delta_0: 5.5711E-10 | 19: delta_s/delta_0: 3.8642E-10 | 20: delta_r/delta_0: 1.8313E-10 | 21: delta_s/delta_0: 1.4933E-10 | 22: delta_r/delta_0: 1.0027E-10 | 23: delta_s/delta_0: 1.1115E-10 | 24: delta_r/delta_0: 5.0326E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.366222414055636 4.021420239626945E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1577E-02 | 2: delta_r/delta_0: 9.7591E-04 | 3: delta_s/delta_0: 8.9079E-04 | 4: delta_r/delta_0: 5.8942E-05 | 5: delta_s/delta_0: 6.4767E-06 | 6: delta_r/delta_0: 9.4260E-07 | 7: delta_s/delta_0: 8.1398E-06 | 8: delta_r/delta_0: 1.1188E-06 | 9: delta_s/delta_0: 5.4058E-04 | 10: delta_r/delta_0: 2.8583E-05 | 11: delta_s/delta_0: 5.7607E-07 | 12: delta_r/delta_0: 9.7923E-08 | 13: delta_s/delta_0: 2.8862E-07 | 14: delta_r/delta_0: 1.1144E-08 | 15: delta_s/delta_0: 9.1708E-09 | 16: delta_r/delta_0: 2.2711E-09 | 17: delta_s/delta_0: 1.9994E-09 | 18: delta_r/delta_0: 5.3959E-10 | 19: delta_s/delta_0: 3.7811E-10 | 20: delta_r/delta_0: 1.7826E-10 | 21: delta_s/delta_0: 1.4528E-10 | 22: delta_r/delta_0: 9.6566E-11 | Reached bicg-stab tolerance | BP delta = -0.1525620 -0.1950133 2827478.33361945 | BP delta = -0.1525620 -0.1861987 2827505.66254910 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95913007 | --> Sampling calibration, mode = relcal | relcal = 0.1065356 0.1395353 -0.1102478 -0.1358231 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0382467E-02 1.2296835E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4280E-02 | 2: delta_r/delta_0: 8.1908E-04 | 3: delta_s/delta_0: 9.2078E-04 | 4: delta_r/delta_0: 5.3225E-05 | 5: delta_s/delta_0: 1.8354E-06 | 6: delta_r/delta_0: 6.1010E-07 | 7: delta_s/delta_0: 1.1657E-06 | 8: delta_r/delta_0: 2.0432E-07 | 9: delta_s/delta_0: 1.5619E-07 | 10: delta_r/delta_0: 1.1335E-08 | 11: delta_s/delta_0: 7.3162E-09 | 12: delta_r/delta_0: 2.1424E-09 | 13: delta_s/delta_0: 1.0320E-08 | 14: delta_r/delta_0: 3.6486E-09 | 15: delta_s/delta_0: 1.4429E-10 | 16: delta_r/delta_0: 6.4451E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.619283569169214E-002 3.697366432342813E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.4339E-02 | 2: delta_r/delta_0: 8.2049E-04 | 3: delta_s/delta_0: 9.2199E-04 | 4: delta_r/delta_0: 5.3300E-05 | 5: delta_s/delta_0: 1.8368E-06 | 6: delta_r/delta_0: 6.1055E-07 | 7: delta_s/delta_0: 1.1673E-06 | 8: delta_r/delta_0: 2.0463E-07 | 9: delta_s/delta_0: 1.5616E-07 | 10: delta_r/delta_0: 1.1325E-08 | 11: delta_s/delta_0: 7.3242E-09 | 12: delta_r/delta_0: 2.1437E-09 | 13: delta_s/delta_0: 1.0362E-08 | 14: delta_r/delta_0: 3.6718E-09 | 15: delta_s/delta_0: 1.4435E-10 | 16: delta_r/delta_0: 6.4490E-11 | Reached bicg-stab tolerance | BP delta = 0.1654902 0.2790159 3004014.19550792 | BP delta = 0.1654902 0.2708838 3004072.86724570 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152700 | New value = -3.129861 | poltype: 2 pol: 1 CPU time specind = 1.4648914E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141055 | New value = -3.126675 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.226457 | New value = -3.194083 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156136 | New value = -3.121101 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118472 | New value = -3.158725 | poltype: 2 pol: 2 CPU time specind = 6.5581799E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.13548E+08, tol = 0.88582E+01, time = 5.81 | CG iter. 2 -- res = 0.32953E+06, tol = 0.88582E+01, time = 5.74 | CG iter. 3 -- res = 0.52316E+05, tol = 0.88582E+01, time = 6.21 | CG iter. 4 -- res = 0.27336E+05, tol = 0.88582E+01, time = 5.69 | CG iter. 5 -- res = 0.16560E+05, tol = 0.88582E+01, time = 5.74 | CG iter. 6 -- res = 0.12471E+05, tol = 0.88582E+01, time = 6.22 | CG iter. 7 -- res = 0.11902E+05, tol = 0.88582E+01, time = 5.62 | CG iter. 8 -- res = 0.10717E+05, tol = 0.88582E+01, time = 5.99 | CG iter. 9 -- res = 0.10054E+05, tol = 0.88582E+01, time = 5.47 | CG iter. 10 -- res = 0.10148E+05, tol = 0.88582E+01, time = 5.65 | CG iter. 11 -- res = 0.75375E+04, tol = 0.88582E+01, time = 5.79 | CG iter. 12 -- res = 0.48123E+04, tol = 0.88582E+01, time = 5.39 | CG iter. 13 -- res = 0.33636E+04, tol = 0.88582E+01, time = 6.10 | CG iter. 14 -- res = 0.26904E+04, tol = 0.88582E+01, time = 5.53 | CG iter. 15 -- res = 0.22849E+04, tol = 0.88582E+01, time = 5.65 | CG iter. 16 -- res = 0.18022E+04, tol = 0.88582E+01, time = 5.69 | CG iter. 17 -- res = 0.13345E+04, tol = 0.88582E+01, time = 5.92 | CG iter. 18 -- res = 0.10394E+04, tol = 0.88582E+01, time = 5.73 | CG iter. 19 -- res = 0.89652E+03, tol = 0.88582E+01, time = 6.01 | CG iter. 20 -- res = 0.71609E+03, tol = 0.88582E+01, time = 5.51 | CG iter. 21 -- res = 0.50595E+03, tol = 0.88582E+01, time = 5.80 | CG iter. 22 -- res = 0.39362E+03, tol = 0.88582E+01, time = 5.56 | CG iter. 23 -- res = 0.34705E+03, tol = 0.88582E+01, time = 5.88 | CG iter. 24 -- res = 0.30743E+03, tol = 0.88582E+01, time = 5.77 | CG iter. 25 -- res = 0.23806E+03, tol = 0.88582E+01, time = 5.73 | CG iter. 26 -- res = 0.18138E+03, tol = 0.88582E+01, time = 5.72 | CG iter. 27 -- res = 0.15560E+03, tol = 0.88582E+01, time = 5.83 | CG iter. 28 -- res = 0.13540E+03, tol = 0.88582E+01, time = 5.82 | CG iter. 29 -- res = 0.11744E+03, tol = 0.88582E+01, time = 5.59 | CG iter. 30 -- res = 0.92356E+02, tol = 0.88582E+01, time = 5.85 | CG iter. 31 -- res = 0.78768E+02, tol = 0.88582E+01, time = 5.73 | CG iter. 32 -- res = 0.69584E+02, tol = 0.88582E+01, time = 5.60 | CG iter. 33 -- res = 0.56315E+02, tol = 0.88582E+01, time = 11.71 | CG iter. 34 -- res = 0.42952E+02, tol = 0.88582E+01, time = 5.70 | CG iter. 35 -- res = 0.33231E+02, tol = 0.88582E+01, time = 5.92 | CG iter. 36 -- res = 0.28125E+02, tol = 0.88582E+01, time = 5.31 | CG iter. 37 -- res = 0.23127E+02, tol = 0.88582E+01, time = 5.52 | CG iter. 38 -- res = 0.17715E+02, tol = 0.88582E+01, time = 5.92 | CG iter. 39 -- res = 0.13233E+02, tol = 0.88582E+01, time = 5.74 | CG iter. 40 -- res = 0.10893E+02, tol = 0.88582E+01, time = 5.54 | CG iter. 41 -- res = 0.88448E+01, tol = 0.88582E+01, time = 6.13 | CG iter. 42 -- res = 0.67148E+01, tol = 0.88582E+01, time = 5.75 | CG iter. 43 -- res = 0.49914E+01, tol = 0.88582E+01, time = 5.85 | CG iter. 44 -- res = 0.40573E+01, tol = 0.88582E+01, time = 6.06 | CG iter. 45 -- res = 0.32836E+01, tol = 0.88582E+01, time = 5.52 | CG iter. 46 -- res = 0.25430E+01, tol = 0.88582E+01, time = 5.84 | CG iter. 47 -- res = 0.19605E+01, tol = 0.88582E+01, time = 5.66 | CG iter. 48 -- res = 0.15218E+01, tol = 0.88582E+01, time = 6.90 | CG iter. 49 -- res = 0.11937E+01, tol = 0.88582E+01, time = 6.37 | CG iter. 50 -- res = 0.95628E+00, tol = 0.88582E+01, time = 5.87 | Final CG iter 51 -- res = 0.95628E+00, tol = 0.88582E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7579215.006 | Old band monopole 7692673.741 | Change to band monopole -113458.735 | Change to component monopole 113458.247 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.38142E+05, tol = 0.47627E+18, time = 2.16 | CG iter. 2 -- res = 0.28807E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.11239E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.26128E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.25081E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7579182.406 | (Sampled value in CG: 7604119.105 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.490164 | New value = 1.505675 | poltype: 2 pol: 1 CPU time specind = 1.6978979E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.494830 | New value = 1.516257 | poltype: 2 pol: 2 CPU time specind = 3.0338764E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.24078E+08, tol = 0.47560E+04, time = 6.34 | CG iter. 2 -- res = 0.53984E+07, tol = 0.47560E+04, time = 6.23 | CG iter. 3 -- res = 0.86037E+06, tol = 0.47560E+04, time = 6.33 | CG iter. 4 -- res = 0.35889E+06, tol = 0.47560E+04, time = 6.53 | CG iter. 5 -- res = 0.15459E+06, tol = 0.47560E+04, time = 6.81 | CG iter. 6 -- res = 0.80605E+05, tol = 0.47560E+04, time = 6.60 | CG iter. 7 -- res = 0.43503E+05, tol = 0.47560E+04, time = 6.70 | CG iter. 8 -- res = 0.21111E+05, tol = 0.47560E+04, time = 6.38 | CG iter. 9 -- res = 0.92967E+04, tol = 0.47560E+04, time = 6.63 | CG iter. 10 -- res = 0.37451E+04, tol = 0.47560E+04, time = 6.47 | CG iter. 11 -- res = 0.16699E+04, tol = 0.47560E+04, time = 6.15 | CG iter. 12 -- res = 0.86762E+03, tol = 0.47560E+04, time = 7.56 | CG iter. 13 -- res = 0.49432E+03, tol = 0.47560E+04, time = 11.51 | CG iter. 14 -- res = 0.28248E+03, tol = 0.47560E+04, time = 6.35 | CG iter. 15 -- res = 0.14677E+03, tol = 0.47560E+04, time = 6.35 | CG iter. 16 -- res = 0.69515E+02, tol = 0.47560E+04, time = 6.36 | CG iter. 17 -- res = 0.32312E+02, tol = 0.47560E+04, time = 6.54 | CG iter. 18 -- res = 0.15947E+02, tol = 0.47560E+04, time = 6.36 | CG iter. 19 -- res = 0.86463E+01, tol = 0.47560E+04, time = 6.51 | CG iter. 20 -- res = 0.48971E+01, tol = 0.47560E+04, time = 6.78 | CG iter. 21 -- res = 0.26994E+01, tol = 0.47560E+04, time = 6.45 | CG iter. 22 -- res = 0.14384E+01, tol = 0.47560E+04, time = 6.38 | CG iter. 23 -- res = 0.72352E+00, tol = 0.47560E+04, time = 6.37 | CG iter. 24 -- res = 0.36670E+00, tol = 0.47560E+04, time = 6.35 | CG iter. 25 -- res = 0.19613E+00, tol = 0.47560E+04, time = 6.50 | CG iter. 26 -- res = 0.11248E+00, tol = 0.47560E+04, time = 7.91 | CG iter. 27 -- res = 0.62777E-01, tol = 0.47560E+04, time = 7.12 | CG iter. 28 -- res = 0.33527E-01, tol = 0.47560E+04, time = 6.65 | CG iter. 29 -- res = 0.17392E-01, tol = 0.47560E+04, time = 6.41 | CG iter. 30 -- res = 0.90909E-02, tol = 0.47560E+04, time = 6.85 | CG iter. 31 -- res = 0.50543E-02, tol = 0.47560E+04, time = 6.57 | CG iter. 32 -- res = 0.29126E-02, tol = 0.47560E+04, time = 6.71 | CG iter. 33 -- res = 0.16596E-02, tol = 0.47560E+04, time = 6.32 | CG iter. 34 -- res = 0.90072E-03, tol = 0.47560E+04, time = 6.51 | CG iter. 35 -- res = 0.46573E-03, tol = 0.47560E+04, time = 6.52 | Final CG iter 36 -- res = 0.46573E-03, tol = 0.47560E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.160 2.729 | New value 0.078 | Old value -2.160 | Difference 2.239 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.26102E+06, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.30524E+02, tol = 0.47627E+18, time = 2.36 | CG iter. 3 -- res = 0.55559E+00, tol = 0.47627E+18, time = 2.29 | Final CG iter 4 -- res = 0.28040E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7579182.406 | (Sampled value in CG: 7604097.952 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.510339 | New value = -3.567349 | poltype: 1 pol: 1 CPU time specind = 1.4091015E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.20446E+07, tol = 0.27471E+01, time = 2.85 | CG iter. 2 -- res = 0.69033E+06, tol = 0.27471E+01, time = 2.81 | CG iter. 3 -- res = 0.12633E+06, tol = 0.27471E+01, time = 2.81 | CG iter. 4 -- res = 0.47866E+05, tol = 0.27471E+01, time = 2.82 | CG iter. 5 -- res = 0.27220E+05, tol = 0.27471E+01, time = 2.94 | CG iter. 6 -- res = 0.14672E+05, tol = 0.27471E+01, time = 2.77 | CG iter. 7 -- res = 0.63048E+04, tol = 0.27471E+01, time = 2.60 | CG iter. 8 -- res = 0.27205E+04, tol = 0.27471E+01, time = 2.64 | CG iter. 9 -- res = 0.11690E+04, tol = 0.27471E+01, time = 2.72 | CG iter. 10 -- res = 0.47557E+03, tol = 0.27471E+01, time = 2.91 | CG iter. 11 -- res = 0.19525E+03, tol = 0.27471E+01, time = 2.77 | CG iter. 12 -- res = 0.98733E+02, tol = 0.27471E+01, time = 2.69 | CG iter. 13 -- res = 0.52001E+02, tol = 0.27471E+01, time = 2.81 | CG iter. 14 -- res = 0.26444E+02, tol = 0.27471E+01, time = 3.04 | CG iter. 15 -- res = 0.11535E+02, tol = 0.27471E+01, time = 2.74 | CG iter. 16 -- res = 0.46975E+01, tol = 0.27471E+01, time = 3.52 | CG iter. 17 -- res = 0.20219E+01, tol = 0.27471E+01, time = 2.80 | CG iter. 18 -- res = 0.93405E+00, tol = 0.27471E+01, time = 2.77 | CG iter. 19 -- res = 0.46969E+00, tol = 0.27471E+01, time = 2.32 | CG iter. 20 -- res = 0.23912E+00, tol = 0.27471E+01, time = 2.73 | CG iter. 21 -- res = 0.12378E+00, tol = 0.27471E+01, time = 2.42 | CG iter. 22 -- res = 0.57713E-01, tol = 0.27471E+01, time = 2.73 | CG iter. 23 -- res = 0.25974E-01, tol = 0.27471E+01, time = 2.94 | CG iter. 24 -- res = 0.12469E-01, tol = 0.27471E+01, time = 2.87 | CG iter. 25 -- res = 0.61175E-02, tol = 0.27471E+01, time = 2.78 | CG iter. 26 -- res = 0.31601E-02, tol = 0.27471E+01, time = 2.92 | CG iter. 27 -- res = 0.15756E-02, tol = 0.27471E+01, time = 2.32 | CG iter. 28 -- res = 0.76665E-03, tol = 0.27471E+01, time = 2.58 | CG iter. 29 -- res = 0.33856E-03, tol = 0.27471E+01, time = 3.09 | CG iter. 30 -- res = 0.15926E-03, tol = 0.27471E+01, time = 3.04 | CG iter. 31 -- res = 0.79977E-04, tol = 0.27471E+01, time = 2.73 | CG iter. 32 -- res = 0.40594E-04, tol = 0.27471E+01, time = 2.65 | CG iter. 33 -- res = 0.19627E-04, tol = 0.27471E+01, time = 2.82 | CG iter. 34 -- res = 0.93839E-05, tol = 0.27471E+01, time = 2.86 | CG iter. 35 -- res = 0.44587E-05, tol = 0.27471E+01, time = 2.63 | CG iter. 36 -- res = 0.20842E-05, tol = 0.27471E+01, time = 2.90 | CG iter. 37 -- res = 0.97420E-06, tol = 0.27471E+01, time = 2.71 | CG iter. 38 -- res = 0.47996E-06, tol = 0.27471E+01, time = 2.54 | CG iter. 39 -- res = 0.23970E-06, tol = 0.27471E+01, time = 3.09 | CG iter. 40 -- res = 0.11557E-06, tol = 0.27471E+01, time = 2.55 | CG iter. 41 -- res = 0.57770E-07, tol = 0.27471E+01, time = 2.78 | CG iter. 42 -- res = 0.26629E-07, tol = 0.27471E+01, time = 2.77 | CG iter. 43 -- res = 0.12349E-07, tol = 0.27471E+01, time = 2.60 | CG iter. 44 -- res = 0.58678E-08, tol = 0.27471E+01, time = 2.75 | CG iter. 45 -- res = 0.29206E-08, tol = 0.27471E+01, time = 2.86 | CG iter. 46 -- res = 0.14896E-08, tol = 0.27471E+01, time = 2.56 | CG iter. 47 -- res = 0.72074E-09, tol = 0.27471E+01, time = 2.77 | CG iter. 48 -- res = 0.33438E-09, tol = 0.27471E+01, time = 2.94 | CG iter. 49 -- res = 0.15161E-09, tol = 0.27471E+01, time = 2.83 | CG iter. 50 -- res = 0.72508E-10, tol = 0.27471E+01, time = 2.60 | Final CG iter 51 -- res = 0.72508E-10, tol = 0.27471E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.318 4.738 | New value -8.451 | Old value 8.318 | Difference -16.769 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.27727E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.80754E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.32549E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.33075E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.45953E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7579182.406 | (Sampled value in CG: 7602065.364 ) | CPU time specind = 1194.682 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.68362E+08, tol = 0.57650E+04, time = 13.36 | CG iter. 2 -- res = 0.58860E+08, tol = 0.57650E+04, time = 12.10 | CG iter. 3 -- res = 0.15350E+08, tol = 0.57650E+04, time = 11.84 | CG iter. 4 -- res = 0.63942E+07, tol = 0.57650E+04, time = 11.67 | CG iter. 5 -- res = 0.37534E+07, tol = 0.57650E+04, time = 11.79 | CG iter. 6 -- res = 0.22106E+07, tol = 0.57650E+04, time = 12.12 | CG iter. 7 -- res = 0.13031E+07, tol = 0.57650E+04, time = 11.50 | CG iter. 8 -- res = 0.84410E+06, tol = 0.57650E+04, time = 11.37 | CG iter. 9 -- res = 0.54957E+06, tol = 0.57650E+04, time = 11.70 | CG iter. 10 -- res = 0.32971E+06, tol = 0.57650E+04, time = 12.04 | CG iter. 11 -- res = 0.17679E+06, tol = 0.57650E+04, time = 11.64 | CG iter. 12 -- res = 0.96449E+05, tol = 0.57650E+04, time = 11.88 | CG iter. 13 -- res = 0.52601E+05, tol = 0.57650E+04, time = 11.86 | CG iter. 14 -- res = 0.31145E+05, tol = 0.57650E+04, time = 12.04 | CG iter. 15 -- res = 0.21091E+05, tol = 0.57650E+04, time = 11.45 | CG iter. 16 -- res = 0.15502E+05, tol = 0.57650E+04, time = 12.62 | CG iter. 17 -- res = 0.11472E+05, tol = 0.57650E+04, time = 11.61 | CG iter. 18 -- res = 0.85646E+04, tol = 0.57650E+04, time = 18.09 | CG iter. 19 -- res = 0.63423E+04, tol = 0.57650E+04, time = 11.77 | CG iter. 20 -- res = 0.48195E+04, tol = 0.57650E+04, time = 11.71 | CG iter. 21 -- res = 0.39965E+04, tol = 0.57650E+04, time = 12.02 | CG iter. 22 -- res = 0.38302E+04, tol = 0.57650E+04, time = 12.21 | CG iter. 23 -- res = 0.41190E+04, tol = 0.57650E+04, time = 12.27 | CG iter. 24 -- res = 0.46327E+04, tol = 0.57650E+04, time = 11.77 | CG iter. 25 -- res = 0.48550E+04, tol = 0.57650E+04, time = 12.49 | CG iter. 26 -- res = 0.45590E+04, tol = 0.57650E+04, time = 13.02 | CG iter. 27 -- res = 0.39592E+04, tol = 0.57650E+04, time = 11.43 | CG iter. 28 -- res = 0.32885E+04, tol = 0.57650E+04, time = 11.84 | CG iter. 29 -- res = 0.26745E+04, tol = 0.57650E+04, time = 11.72 | CG iter. 30 -- res = 0.22463E+04, tol = 0.57650E+04, time = 11.91 | CG iter. 31 -- res = 0.19230E+04, tol = 0.57650E+04, time = 12.20 | CG iter. 32 -- res = 0.16225E+04, tol = 0.57650E+04, time = 11.44 | CG iter. 33 -- res = 0.13091E+04, tol = 0.57650E+04, time = 12.38 | CG iter. 34 -- res = 0.10013E+04, tol = 0.57650E+04, time = 11.75 | CG iter. 35 -- res = 0.77617E+03, tol = 0.57650E+04, time = 12.36 | CG iter. 36 -- res = 0.63452E+03, tol = 0.57650E+04, time = 11.98 | CG iter. 37 -- res = 0.57548E+03, tol = 0.57650E+04, time = 12.10 | CG iter. 38 -- res = 0.55941E+03, tol = 0.57650E+04, time = 11.67 | CG iter. 39 -- res = 0.53826E+03, tol = 0.57650E+04, time = 11.88 | CG iter. 40 -- res = 0.50221E+03, tol = 0.57650E+04, time = 11.68 | CG iter. 41 -- res = 0.43783E+03, tol = 0.57650E+04, time = 12.16 | CG iter. 42 -- res = 0.36889E+03, tol = 0.57650E+04, time = 11.70 | CG iter. 43 -- res = 0.31365E+03, tol = 0.57650E+04, time = 17.91 | CG iter. 44 -- res = 0.27336E+03, tol = 0.57650E+04, time = 12.12 | CG iter. 45 -- res = 0.24572E+03, tol = 0.57650E+04, time = 11.67 | CG iter. 46 -- res = 0.22171E+03, tol = 0.57650E+04, time = 11.88 | CG iter. 47 -- res = 0.19445E+03, tol = 0.57650E+04, time = 12.01 | CG iter. 48 -- res = 0.15588E+03, tol = 0.57650E+04, time = 11.79 | CG iter. 49 -- res = 0.12465E+03, tol = 0.57650E+04, time = 12.08 | CG iter. 50 -- res = 0.10491E+03, tol = 0.57650E+04, time = 13.77 | CG iter. 51 -- res = 0.92601E+02, tol = 0.57650E+04, time = 12.55 | CG iter. 52 -- res = 0.88243E+02, tol = 0.57650E+04, time = 11.60 | CG iter. 53 -- res = 0.84656E+02, tol = 0.57650E+04, time = 12.09 | CG iter. 54 -- res = 0.78229E+02, tol = 0.57650E+04, time = 11.85 | CG iter. 55 -- res = 0.70223E+02, tol = 0.57650E+04, time = 11.68 | CG iter. 56 -- res = 0.61936E+02, tol = 0.57650E+04, time = 11.87 | CG iter. 57 -- res = 0.54730E+02, tol = 0.57650E+04, time = 11.20 | CG iter. 58 -- res = 0.50189E+02, tol = 0.57650E+04, time = 11.88 | CG iter. 59 -- res = 0.47899E+02, tol = 0.57650E+04, time = 12.14 | CG iter. 60 -- res = 0.45302E+02, tol = 0.57650E+04, time = 11.99 | Final CG iter 61 -- res = 0.45302E+02, tol = 0.57650E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.786 ( -229.621 -2230.005 2512.560 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9310798.155 | Old band monopole 7579215.006 | Change to band monopole 1731583.149 | Change to component monopole -1731575.701 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.118 2.735 | New value 1.121 | Old value 0.118 | Difference 1.003 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.264 ( 6.385 9.304 -9.056 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.654 5.767 | New value 11.681 | Old value -5.654 | Difference 17.335 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.25663E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.62150E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.26500E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.28654E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.74087E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9310758.107 | (Sampled value in CG: 9289437.942 ) | Chain = 1 -- chisq = 0.81554031E+09 | Chain = 1 -- wall time = 6262.283 sec Available RAM: MemAvailable: 377427868 kB Available Swap: SwapFree: 1123458556 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 349 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446147 | --> Sampling calibration, mode = relcal | relcal = 1.3423889E-02 7.4632384E-04 -1.5986809E-03 -1.2571532E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1392998 0.1548943 97053225.3552694 | BP delta = 0.1349313 0.1505259 97053224.6573391 | BP chisq diff = -0.7, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632264 | --> Sampling calibration, mode = relcal | relcal = -2.8202436E-03 -7.0341397E-04 1.6778036E-03 1.6141976E-03 -4.0848611E-04 6.4014230E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5807980 15220106.2404691 | BP delta = 0.0000000E+00 -0.5785401 15220107.8881276 | BP chisq diff = 1.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18382101959838 | --> Sampling calibration, mode = relcal | relcal = -7.4665606E-02 -5.8468930E-02 9.1669843E-02 4.1464690E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0969448E-04 4.3723448E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1846E-05 | 2: delta_r/delta_0: 7.8533E-07 | 3: delta_s/delta_0: 2.5009E-07 | 4: delta_r/delta_0: 1.1991E-08 | 5: delta_s/delta_0: 4.2822E-08 | 6: delta_r/delta_0: 1.5983E-09 | 7: delta_s/delta_0: 2.6772E-10 | 8: delta_r/delta_0: 1.0493E-10 | 9: delta_s/delta_0: 4.3267E-09 | 10: delta_r/delta_0: 2.2360E-10 | 11: delta_s/delta_0: 2.7920E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.067396481200335E-003 2.734610212425107E-005 | BP delta = 8.6004652E-02 0.1082641 50484953.2646542 | BP delta = 8.5308246E-02 0.1075677 50484953.2563985 | BP chisq diff = -0.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02597321 | --> Sampling calibration, mode = relcal | relcal = -0.1066508 -9.5589668E-02 0.1448760 5.7364460E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2361213E-03 1.4593086E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7023E-05 | 2: delta_r/delta_0: 1.1699E-06 | 3: delta_s/delta_0: 2.3505E-07 | 4: delta_r/delta_0: 5.4749E-08 | 5: delta_s/delta_0: 1.5553E-08 | 6: delta_r/delta_0: 7.3901E-09 | 7: delta_s/delta_0: 5.1851E-08 | 8: delta_r/delta_0: 1.6981E-09 | 9: delta_s/delta_0: 9.2979E-10 | 10: delta_r/delta_0: 2.7411E-10 | 11: delta_s/delta_0: 1.6974E-09 | 12: delta_r/delta_0: 2.8951E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.624135390282854E-003 2.810915214723154E-005 | BP delta = -0.2840757 -0.2518587 57387642.2443375 | BP delta = -0.2732807 -0.2410637 57387641.5841599 | BP chisq diff = -0.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81213517 | --> Sampling calibration, mode = relcal | relcal = 0.2955580 0.2246874 -0.2836994 -0.2365460 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.3975811E-05 5.1642410E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.7819E-04 | 2: delta_r/delta_0: 2.1120E-05 | 3: delta_s/delta_0: 1.0598E-05 | 4: delta_r/delta_0: 1.0389E-06 | 5: delta_s/delta_0: 6.5223E-07 | 6: delta_r/delta_0: 2.0151E-07 | 7: delta_s/delta_0: 3.4955E-07 | 8: delta_r/delta_0: 3.7959E-08 | 9: delta_s/delta_0: 8.9765E-08 | 10: delta_r/delta_0: 5.4583E-08 | 11: delta_s/delta_0: 2.5187E-09 | 12: delta_r/delta_0: 1.2321E-09 | 13: delta_s/delta_0: 2.3838E-08 | 14: delta_r/delta_0: 2.4216E-09 | 15: delta_s/delta_0: 9.4246E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.443764268577406E-002 4.022133985885459E-005 | BP delta = -0.1525620 -0.1950133 72482424.8853150 | BP delta = -0.1402073 -0.1826587 72482425.0845419 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95894423 | --> Sampling calibration, mode = relcal | relcal = 0.1064727 0.1394827 -0.1102892 -0.1356663 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7712195E-03 1.3215333E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.7824E-04 | 2: delta_r/delta_0: 2.1342E-05 | 3: delta_s/delta_0: 1.3186E-05 | 4: delta_r/delta_0: 1.1513E-06 | 5: delta_s/delta_0: 4.9127E-07 | 6: delta_r/delta_0: 1.9306E-07 | 7: delta_s/delta_0: 4.2989E-07 | 8: delta_r/delta_0: 3.9935E-08 | 9: delta_s/delta_0: 4.3452E-08 | 10: delta_r/delta_0: 7.4166E-09 | 11: delta_s/delta_0: 1.6762E-08 | 12: delta_r/delta_0: 7.5500E-09 | 13: delta_s/delta_0: 1.4065E-09 | 14: delta_r/delta_0: 4.8553E-10 | 15: delta_s/delta_0: 6.8019E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.479221004698088E-002 3.698005264377661E-005 | BP delta = 0.1654902 0.2790159 72774005.6644640 | BP delta = 0.1766708 0.2901965 72774005.9688605 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129861 | New value = -3.154774 | poltype: 2 pol: 1 CPU time specind = 1.4373064E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126675 | New value = -3.027788 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194083 | New value = -3.228648 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121101 | New value = -3.153521 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158725 | New value = -3.142424 | poltype: 2 pol: 2 CPU time specind = 3.0654907E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.13529E+08, tol = 0.76219E+01, time = 5.76 | CG iter. 2 -- res = 0.31844E+06, tol = 0.76219E+01, time = 6.01 | CG iter. 3 -- res = 0.45259E+05, tol = 0.76219E+01, time = 5.75 | CG iter. 4 -- res = 0.22637E+05, tol = 0.76219E+01, time = 5.39 | CG iter. 5 -- res = 0.12744E+05, tol = 0.76219E+01, time = 6.04 | CG iter. 6 -- res = 0.81050E+04, tol = 0.76219E+01, time = 6.06 | CG iter. 7 -- res = 0.63616E+04, tol = 0.76219E+01, time = 5.55 | CG iter. 8 -- res = 0.52360E+04, tol = 0.76219E+01, time = 5.42 | CG iter. 9 -- res = 0.51799E+04, tol = 0.76219E+01, time = 5.75 | CG iter. 10 -- res = 0.52107E+04, tol = 0.76219E+01, time = 5.51 | CG iter. 11 -- res = 0.43300E+04, tol = 0.76219E+01, time = 5.71 | CG iter. 12 -- res = 0.28403E+04, tol = 0.76219E+01, time = 5.84 | CG iter. 13 -- res = 0.19017E+04, tol = 0.76219E+01, time = 5.63 | CG iter. 14 -- res = 0.15051E+04, tol = 0.76219E+01, time = 5.42 | CG iter. 15 -- res = 0.12786E+04, tol = 0.76219E+01, time = 6.01 | CG iter. 16 -- res = 0.10184E+04, tol = 0.76219E+01, time = 5.67 | CG iter. 17 -- res = 0.76271E+03, tol = 0.76219E+01, time = 5.57 | CG iter. 18 -- res = 0.59677E+03, tol = 0.76219E+01, time = 5.99 | CG iter. 19 -- res = 0.49408E+03, tol = 0.76219E+01, time = 5.74 | CG iter. 20 -- res = 0.37851E+03, tol = 0.76219E+01, time = 5.87 | CG iter. 21 -- res = 0.25570E+03, tol = 0.76219E+01, time = 5.77 | CG iter. 22 -- res = 0.19322E+03, tol = 0.76219E+01, time = 5.53 | CG iter. 23 -- res = 0.16781E+03, tol = 0.76219E+01, time = 5.91 | CG iter. 24 -- res = 0.14421E+03, tol = 0.76219E+01, time = 5.95 | CG iter. 25 -- res = 0.10802E+03, tol = 0.76219E+01, time = 5.57 | CG iter. 26 -- res = 0.79725E+02, tol = 0.76219E+01, time = 6.05 | CG iter. 27 -- res = 0.66073E+02, tol = 0.76219E+01, time = 5.38 | CG iter. 28 -- res = 0.54414E+02, tol = 0.76219E+01, time = 5.73 | CG iter. 29 -- res = 0.42759E+02, tol = 0.76219E+01, time = 5.50 | CG iter. 30 -- res = 0.32642E+02, tol = 0.76219E+01, time = 6.15 | CG iter. 31 -- res = 0.27454E+02, tol = 0.76219E+01, time = 5.40 | CG iter. 32 -- res = 0.24916E+02, tol = 0.76219E+01, time = 6.17 | CG iter. 33 -- res = 0.20178E+02, tol = 0.76219E+01, time = 6.12 | CG iter. 34 -- res = 0.15277E+02, tol = 0.76219E+01, time = 11.51 | CG iter. 35 -- res = 0.12249E+02, tol = 0.76219E+01, time = 5.77 | CG iter. 36 -- res = 0.10580E+02, tol = 0.76219E+01, time = 6.01 | CG iter. 37 -- res = 0.90308E+01, tol = 0.76219E+01, time = 5.65 | CG iter. 38 -- res = 0.72292E+01, tol = 0.76219E+01, time = 5.42 | CG iter. 39 -- res = 0.58112E+01, tol = 0.76219E+01, time = 5.70 | CG iter. 40 -- res = 0.51085E+01, tol = 0.76219E+01, time = 5.41 | CG iter. 41 -- res = 0.43313E+01, tol = 0.76219E+01, time = 5.71 | CG iter. 42 -- res = 0.34699E+01, tol = 0.76219E+01, time = 5.83 | CG iter. 43 -- res = 0.27089E+01, tol = 0.76219E+01, time = 5.69 | CG iter. 44 -- res = 0.23212E+01, tol = 0.76219E+01, time = 5.77 | CG iter. 45 -- res = 0.19810E+01, tol = 0.76219E+01, time = 5.68 | CG iter. 46 -- res = 0.16122E+01, tol = 0.76219E+01, time = 6.02 | CG iter. 47 -- res = 0.12606E+01, tol = 0.76219E+01, time = 5.58 | CG iter. 48 -- res = 0.10450E+01, tol = 0.76219E+01, time = 6.19 | CG iter. 49 -- res = 0.89427E+00, tol = 0.76219E+01, time = 6.46 | CG iter. 50 -- res = 0.74315E+00, tol = 0.76219E+01, time = 6.15 | Final CG iter 51 -- res = 0.74315E+00, tol = 0.76219E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7078638.287 | Old band monopole 9310798.155 | Change to band monopole -2232159.868 | Change to component monopole 2232150.267 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.71224E+04, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.18875E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.57924E+00, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.10063E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.14725E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7078607.840 | (Sampled value in CG: 7051780.026 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505675 | New value = 1.492830 | poltype: 2 pol: 1 CPU time specind = 1.4881849E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.516257 | New value = 1.472306 | poltype: 2 pol: 2 CPU time specind = 4.2960644E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.24041E+08, tol = 0.47566E+04, time = 6.32 | CG iter. 2 -- res = 0.54367E+07, tol = 0.47566E+04, time = 6.52 | CG iter. 3 -- res = 0.86079E+06, tol = 0.47566E+04, time = 6.55 | CG iter. 4 -- res = 0.36578E+06, tol = 0.47566E+04, time = 6.62 | CG iter. 5 -- res = 0.16004E+06, tol = 0.47566E+04, time = 6.50 | CG iter. 6 -- res = 0.81535E+05, tol = 0.47566E+04, time = 6.58 | CG iter. 7 -- res = 0.43984E+05, tol = 0.47566E+04, time = 6.60 | CG iter. 8 -- res = 0.21049E+05, tol = 0.47566E+04, time = 6.78 | CG iter. 9 -- res = 0.90800E+04, tol = 0.47566E+04, time = 6.39 | CG iter. 10 -- res = 0.36260E+04, tol = 0.47566E+04, time = 6.63 | CG iter. 11 -- res = 0.16745E+04, tol = 0.47566E+04, time = 6.45 | CG iter. 12 -- res = 0.87780E+03, tol = 0.47566E+04, time = 6.50 | CG iter. 13 -- res = 0.49590E+03, tol = 0.47566E+04, time = 13.14 | CG iter. 14 -- res = 0.27680E+03, tol = 0.47566E+04, time = 6.49 | CG iter. 15 -- res = 0.13948E+03, tol = 0.47566E+04, time = 6.51 | CG iter. 16 -- res = 0.66513E+02, tol = 0.47566E+04, time = 6.38 | CG iter. 17 -- res = 0.31118E+02, tol = 0.47566E+04, time = 6.42 | CG iter. 18 -- res = 0.15446E+02, tol = 0.47566E+04, time = 6.67 | CG iter. 19 -- res = 0.83981E+01, tol = 0.47566E+04, time = 6.45 | CG iter. 20 -- res = 0.47333E+01, tol = 0.47566E+04, time = 6.35 | CG iter. 21 -- res = 0.25372E+01, tol = 0.47566E+04, time = 6.40 | CG iter. 22 -- res = 0.12932E+01, tol = 0.47566E+04, time = 6.62 | CG iter. 23 -- res = 0.64036E+00, tol = 0.47566E+04, time = 6.10 | CG iter. 24 -- res = 0.32880E+00, tol = 0.47566E+04, time = 6.53 | CG iter. 25 -- res = 0.17669E+00, tol = 0.47566E+04, time = 6.22 | CG iter. 26 -- res = 0.10082E+00, tol = 0.47566E+04, time = 7.93 | CG iter. 27 -- res = 0.57868E-01, tol = 0.47566E+04, time = 7.40 | CG iter. 28 -- res = 0.31776E-01, tol = 0.47566E+04, time = 6.84 | CG iter. 29 -- res = 0.16974E-01, tol = 0.47566E+04, time = 6.67 | CG iter. 30 -- res = 0.89218E-02, tol = 0.47566E+04, time = 6.57 | CG iter. 31 -- res = 0.48358E-02, tol = 0.47566E+04, time = 6.34 | CG iter. 32 -- res = 0.27369E-02, tol = 0.47566E+04, time = 6.81 | CG iter. 33 -- res = 0.15143E-02, tol = 0.47566E+04, time = 6.17 | CG iter. 34 -- res = 0.82243E-03, tol = 0.47566E+04, time = 6.70 | CG iter. 35 -- res = 0.43017E-03, tol = 0.47566E+04, time = 6.46 | Final CG iter 36 -- res = 0.43017E-03, tol = 0.47566E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.091 2.730 | New value -0.811 | Old value 1.091 | Difference -1.902 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.18806E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.25917E+02, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.51527E+00, tol = 0.47627E+18, time = 2.22 | Final CG iter 4 -- res = 0.17036E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7078607.840 | (Sampled value in CG: 7054338.746 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.567349 | New value = -3.595089 | poltype: 1 pol: 1 CPU time specind = 1.5002012E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.20813E+07, tol = 0.27150E+01, time = 2.73 | CG iter. 2 -- res = 0.67261E+06, tol = 0.27150E+01, time = 2.81 | CG iter. 3 -- res = 0.12152E+06, tol = 0.27150E+01, time = 2.40 | CG iter. 4 -- res = 0.50238E+05, tol = 0.27150E+01, time = 2.99 | CG iter. 5 -- res = 0.28380E+05, tol = 0.27150E+01, time = 2.98 | CG iter. 6 -- res = 0.15056E+05, tol = 0.27150E+01, time = 2.65 | CG iter. 7 -- res = 0.61582E+04, tol = 0.27150E+01, time = 3.06 | CG iter. 8 -- res = 0.26865E+04, tol = 0.27150E+01, time = 2.71 | CG iter. 9 -- res = 0.11023E+04, tol = 0.27150E+01, time = 2.59 | CG iter. 10 -- res = 0.45706E+03, tol = 0.27150E+01, time = 2.62 | CG iter. 11 -- res = 0.19300E+03, tol = 0.27150E+01, time = 2.72 | CG iter. 12 -- res = 0.95983E+02, tol = 0.27150E+01, time = 2.98 | CG iter. 13 -- res = 0.49820E+02, tol = 0.27150E+01, time = 2.88 | CG iter. 14 -- res = 0.24698E+02, tol = 0.27150E+01, time = 2.60 | CG iter. 15 -- res = 0.10383E+02, tol = 0.27150E+01, time = 2.72 | CG iter. 16 -- res = 0.44972E+01, tol = 0.27150E+01, time = 2.67 | CG iter. 17 -- res = 0.18672E+01, tol = 0.27150E+01, time = 2.84 | CG iter. 18 -- res = 0.89060E+00, tol = 0.27150E+01, time = 2.47 | CG iter. 19 -- res = 0.43430E+00, tol = 0.27150E+01, time = 2.59 | CG iter. 20 -- res = 0.22377E+00, tol = 0.27150E+01, time = 2.44 | CG iter. 21 -- res = 0.11166E+00, tol = 0.27150E+01, time = 2.76 | CG iter. 22 -- res = 0.51162E-01, tol = 0.27150E+01, time = 2.78 | CG iter. 23 -- res = 0.22558E-01, tol = 0.27150E+01, time = 2.91 | CG iter. 24 -- res = 0.10965E-01, tol = 0.27150E+01, time = 2.82 | CG iter. 25 -- res = 0.56021E-02, tol = 0.27150E+01, time = 2.62 | CG iter. 26 -- res = 0.29164E-02, tol = 0.27150E+01, time = 2.81 | CG iter. 27 -- res = 0.14059E-02, tol = 0.27150E+01, time = 2.73 | CG iter. 28 -- res = 0.67661E-03, tol = 0.27150E+01, time = 2.68 | CG iter. 29 -- res = 0.30082E-03, tol = 0.27150E+01, time = 2.79 | CG iter. 30 -- res = 0.13507E-03, tol = 0.27150E+01, time = 2.90 | CG iter. 31 -- res = 0.68232E-04, tol = 0.27150E+01, time = 2.88 | CG iter. 32 -- res = 0.34021E-04, tol = 0.27150E+01, time = 2.75 | CG iter. 33 -- res = 0.16746E-04, tol = 0.27150E+01, time = 2.85 | CG iter. 34 -- res = 0.79871E-05, tol = 0.27150E+01, time = 2.75 | CG iter. 35 -- res = 0.35841E-05, tol = 0.27150E+01, time = 2.89 | CG iter. 36 -- res = 0.16897E-05, tol = 0.27150E+01, time = 2.84 | CG iter. 37 -- res = 0.82150E-06, tol = 0.27150E+01, time = 2.90 | CG iter. 38 -- res = 0.41104E-06, tol = 0.27150E+01, time = 2.68 | CG iter. 39 -- res = 0.19791E-06, tol = 0.27150E+01, time = 2.55 | CG iter. 40 -- res = 0.96601E-07, tol = 0.27150E+01, time = 2.71 | CG iter. 41 -- res = 0.44806E-07, tol = 0.27150E+01, time = 2.86 | CG iter. 42 -- res = 0.21834E-07, tol = 0.27150E+01, time = 2.98 | CG iter. 43 -- res = 0.10106E-07, tol = 0.27150E+01, time = 2.82 | CG iter. 44 -- res = 0.48933E-08, tol = 0.27150E+01, time = 2.88 | CG iter. 45 -- res = 0.24817E-08, tol = 0.27150E+01, time = 2.53 | CG iter. 46 -- res = 0.11634E-08, tol = 0.27150E+01, time = 2.75 | CG iter. 47 -- res = 0.55831E-09, tol = 0.27150E+01, time = 3.07 | CG iter. 48 -- res = 0.26907E-09, tol = 0.27150E+01, time = 2.86 | CG iter. 49 -- res = 0.12697E-09, tol = 0.27150E+01, time = 2.83 | CG iter. 50 -- res = 0.58757E-10, tol = 0.27150E+01, time = 2.54 | Final CG iter 51 -- res = 0.58757E-10, tol = 0.27150E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.404 5.990 | New value 7.937 | Old value 10.404 | Difference -2.467 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.63841E+04, tol = 0.47627E+18, time = 1.71 | CG iter. 2 -- res = 0.24668E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.37018E+00, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.71648E-03, tol = 0.47627E+18, time = 2.38 | Final CG iter 5 -- res = 0.88686E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7078607.840 | (Sampled value in CG: 7062324.890 ) | CPU time specind = 1198.034 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.68148E+08, tol = 0.57678E+04, time = 13.33 | CG iter. 2 -- res = 0.58431E+08, tol = 0.57678E+04, time = 12.31 | CG iter. 3 -- res = 0.15324E+08, tol = 0.57678E+04, time = 10.98 | CG iter. 4 -- res = 0.64844E+07, tol = 0.57678E+04, time = 11.77 | CG iter. 5 -- res = 0.37513E+07, tol = 0.57678E+04, time = 11.92 | CG iter. 6 -- res = 0.21562E+07, tol = 0.57678E+04, time = 11.72 | CG iter. 7 -- res = 0.12847E+07, tol = 0.57678E+04, time = 11.57 | CG iter. 8 -- res = 0.84645E+06, tol = 0.57678E+04, time = 12.20 | CG iter. 9 -- res = 0.54793E+06, tol = 0.57678E+04, time = 11.90 | CG iter. 10 -- res = 0.32318E+06, tol = 0.57678E+04, time = 12.36 | CG iter. 11 -- res = 0.17676E+06, tol = 0.57678E+04, time = 11.88 | CG iter. 12 -- res = 0.96475E+05, tol = 0.57678E+04, time = 12.25 | CG iter. 13 -- res = 0.50809E+05, tol = 0.57678E+04, time = 12.05 | CG iter. 14 -- res = 0.29040E+05, tol = 0.57678E+04, time = 12.12 | CG iter. 15 -- res = 0.18728E+05, tol = 0.57678E+04, time = 11.74 | CG iter. 16 -- res = 0.13140E+05, tol = 0.57678E+04, time = 11.80 | CG iter. 17 -- res = 0.94864E+04, tol = 0.57678E+04, time = 12.33 | CG iter. 18 -- res = 0.67404E+04, tol = 0.57678E+04, time = 18.58 | CG iter. 19 -- res = 0.46119E+04, tol = 0.57678E+04, time = 12.02 | CG iter. 20 -- res = 0.31923E+04, tol = 0.57678E+04, time = 11.85 | CG iter. 21 -- res = 0.23484E+04, tol = 0.57678E+04, time = 11.96 | CG iter. 22 -- res = 0.19939E+04, tol = 0.57678E+04, time = 12.34 | CG iter. 23 -- res = 0.19497E+04, tol = 0.57678E+04, time = 11.98 | CG iter. 24 -- res = 0.20675E+04, tol = 0.57678E+04, time = 12.21 | CG iter. 25 -- res = 0.21669E+04, tol = 0.57678E+04, time = 13.22 | CG iter. 26 -- res = 0.21472E+04, tol = 0.57678E+04, time = 12.39 | CG iter. 27 -- res = 0.19591E+04, tol = 0.57678E+04, time = 11.83 | CG iter. 28 -- res = 0.16670E+04, tol = 0.57678E+04, time = 12.07 | CG iter. 29 -- res = 0.14275E+04, tol = 0.57678E+04, time = 11.91 | CG iter. 30 -- res = 0.12616E+04, tol = 0.57678E+04, time = 11.88 | CG iter. 31 -- res = 0.11014E+04, tol = 0.57678E+04, time = 11.90 | CG iter. 32 -- res = 0.92058E+03, tol = 0.57678E+04, time = 11.80 | CG iter. 33 -- res = 0.75696E+03, tol = 0.57678E+04, time = 12.08 | CG iter. 34 -- res = 0.59307E+03, tol = 0.57678E+04, time = 11.56 | CG iter. 35 -- res = 0.44449E+03, tol = 0.57678E+04, time = 11.49 | CG iter. 36 -- res = 0.34086E+03, tol = 0.57678E+04, time = 11.88 | CG iter. 37 -- res = 0.29843E+03, tol = 0.57678E+04, time = 11.94 | CG iter. 38 -- res = 0.28426E+03, tol = 0.57678E+04, time = 12.18 | CG iter. 39 -- res = 0.26355E+03, tol = 0.57678E+04, time = 12.09 | CG iter. 40 -- res = 0.23718E+03, tol = 0.57678E+04, time = 12.11 | CG iter. 41 -- res = 0.20777E+03, tol = 0.57678E+04, time = 12.10 | CG iter. 42 -- res = 0.18167E+03, tol = 0.57678E+04, time = 13.22 | CG iter. 43 -- res = 0.15818E+03, tol = 0.57678E+04, time = 17.28 | CG iter. 44 -- res = 0.14227E+03, tol = 0.57678E+04, time = 11.97 | CG iter. 45 -- res = 0.12978E+03, tol = 0.57678E+04, time = 11.35 | CG iter. 46 -- res = 0.12102E+03, tol = 0.57678E+04, time = 12.22 | CG iter. 47 -- res = 0.10889E+03, tol = 0.57678E+04, time = 11.50 | CG iter. 48 -- res = 0.91368E+02, tol = 0.57678E+04, time = 11.61 | CG iter. 49 -- res = 0.74224E+02, tol = 0.57678E+04, time = 11.88 | CG iter. 50 -- res = 0.63947E+02, tol = 0.57678E+04, time = 13.65 | CG iter. 51 -- res = 0.57591E+02, tol = 0.57678E+04, time = 11.83 | CG iter. 52 -- res = 0.55179E+02, tol = 0.57678E+04, time = 11.45 | CG iter. 53 -- res = 0.52369E+02, tol = 0.57678E+04, time = 11.52 | CG iter. 54 -- res = 0.49494E+02, tol = 0.57678E+04, time = 11.79 | CG iter. 55 -- res = 0.45756E+02, tol = 0.57678E+04, time = 11.65 | CG iter. 56 -- res = 0.41674E+02, tol = 0.57678E+04, time = 11.96 | CG iter. 57 -- res = 0.37751E+02, tol = 0.57678E+04, time = 11.78 | CG iter. 58 -- res = 0.35265E+02, tol = 0.57678E+04, time = 11.62 | CG iter. 59 -- res = 0.34326E+02, tol = 0.57678E+04, time = 12.25 | CG iter. 60 -- res = 0.33123E+02, tol = 0.57678E+04, time = 12.17 | Final CG iter 61 -- res = 0.33123E+02, tol = 0.57678E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.721 ( -229.650 -2230.381 2512.915 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9939218.783 | Old band monopole 7078638.287 | Change to band monopole 2860580.497 | Change to component monopole -2860568.193 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.801 2.745 | New value -5.980 | Old value -0.801 | Difference -5.179 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.297 ( 6.733 9.922 -9.354 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.867 5.425 | New value 0.878 | Old value 14.867 | Difference -13.989 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.18028E+07, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.13203E+03, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.35902E+01, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.35360E-02, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.61749E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9939176.033 | (Sampled value in CG: 9918533.413 ) | Chain = 1 -- chisq = 0.81544662E+09 | Chain = 1 -- wall time = 5702.595 sec Available RAM: MemAvailable: 376649876 kB Available Swap: SwapFree: 1124013344 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 350 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446921 | --> Sampling calibration, mode = relcal | relcal = 1.3429166E-02 7.3807524E-04 -1.5878100E-03 -1.2579431E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1349313 0.1505259 9404911.31911422 | BP delta = 0.1349313 0.1589735 9404930.90780578 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632245 | --> Sampling calibration, mode = relcal | relcal = -2.8204808E-03 -7.0404168E-04 1.6794761E-03 1.6136472E-03 -4.0814115E-04 6.3954049E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5785401 15217464.1930141 | BP delta = 0.0000000E+00 -0.5922049 15217478.0949780 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18017059619637 | --> Sampling calibration, mode = relcal | relcal = -7.3950492E-02 -5.7731543E-02 9.0734474E-02 4.0947556E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.9535275E-04 3.0492316E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9011E-02 | 2: delta_r/delta_0: 3.9595E-04 | 3: delta_s/delta_0: 1.9583E-07 | 4: delta_r/delta_0: 2.3435E-08 | 5: delta_s/delta_0: 1.1575E-08 | 6: delta_r/delta_0: 2.9470E-09 | 7: delta_s/delta_0: 2.3809E-09 | 8: delta_r/delta_0: 1.1430E-10 | 9: delta_s/delta_0: 9.2246E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.422806098216988E-003 2.743154006161193E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9008E-02 | 2: delta_r/delta_0: 3.9586E-04 | 3: delta_s/delta_0: 1.9583E-07 | 4: delta_r/delta_0: 2.3436E-08 | 5: delta_s/delta_0: 1.1575E-08 | 6: delta_r/delta_0: 2.9471E-09 | 7: delta_s/delta_0: 2.3813E-09 | 8: delta_r/delta_0: 1.1430E-10 | 9: delta_s/delta_0: 9.2245E-11 | Reached bicg-stab tolerance | BP delta = 8.5308246E-02 0.1075677 3606758.58264951 | BP delta = 8.5308246E-02 0.1077233 3607348.84090778 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02600628 | --> Sampling calibration, mode = relcal | relcal = -0.1065942 -9.5577776E-02 0.1449179 5.7254050E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8940185E-03 1.4085837E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0274E-05 | 2: delta_r/delta_0: 1.2108E-06 | 3: delta_s/delta_0: 2.4300E-07 | 4: delta_r/delta_0: 5.9464E-08 | 5: delta_s/delta_0: 1.6217E-08 | 6: delta_r/delta_0: 8.2347E-09 | 7: delta_s/delta_0: 1.7557E-07 | 8: delta_r/delta_0: 6.7848E-09 | 9: delta_s/delta_0: 9.4876E-10 | 10: delta_r/delta_0: 5.0502E-10 | 11: delta_s/delta_0: 3.6872E-09 | 12: delta_r/delta_0: 4.9736E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.979184769877818E-003 2.810808219652661E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.0274E-05 | 2: delta_r/delta_0: 1.2109E-06 | 3: delta_s/delta_0: 2.4303E-07 | 4: delta_r/delta_0: 5.9479E-08 | 5: delta_s/delta_0: 1.6216E-08 | 6: delta_r/delta_0: 8.2352E-09 | 7: delta_s/delta_0: 1.7574E-07 | 8: delta_r/delta_0: 6.7866E-09 | 9: delta_s/delta_0: 9.4854E-10 | 10: delta_r/delta_0: 5.0533E-10 | 11: delta_s/delta_0: 3.6888E-09 | 12: delta_r/delta_0: 4.9793E-11 | Reached bicg-stab tolerance | BP delta = -0.2732807 -0.2410637 2841798.74943163 | BP delta = -0.2732807 -0.2429053 2841791.19833715 | BP chisq diff = -7.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81203652 | --> Sampling calibration, mode = relcal | relcal = 0.2954907 0.2247037 -0.2837250 -0.2364694 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1037739E-04 5.8162808E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4009E-02 | 2: delta_r/delta_0: 3.2744E-04 | 3: delta_s/delta_0: 1.2437E-04 | 4: delta_r/delta_0: 2.2353E-05 | 5: delta_s/delta_0: 2.3728E-05 | 6: delta_r/delta_0: 6.5064E-06 | 7: delta_s/delta_0: 4.4323E-02 | 8: delta_r/delta_0: 1.1670E-02 | 9: delta_s/delta_0: 3.2442E-04 | 10: delta_r/delta_0: 1.0316E-04 | 11: delta_s/delta_0: 1.7928E+00 | 12: delta_r/delta_0: 2.9334E-03 | 13: delta_s/delta_0: 4.1120E-06 | 14: delta_r/delta_0: 2.3763E-06 | 15: delta_s/delta_0: 2.9414E-06 | 16: delta_r/delta_0: 1.7225E-06 | 17: delta_s/delta_0: 3.1732E-06 | 18: delta_r/delta_0: 3.6538E-07 | 19: delta_s/delta_0: 1.7668E-07 | 20: delta_r/delta_0: 1.4368E-07 | 21: delta_s/delta_0: 1.0036E-07 | 22: delta_r/delta_0: 8.4971E-08 | 23: delta_s/delta_0: 3.3385E-07 | 24: delta_r/delta_0: 1.2194E-07 | 25: delta_s/delta_0: 2.4369E-06 | 26: delta_r/delta_0: 1.3574E-06 | 27: delta_s/delta_0: 3.9680E-05 | 28: delta_r/delta_0: 2.8231E-05 | 29: delta_s/delta_0: 3.6683E-08 | 30: delta_r/delta_0: 1.5008E-08 | 31: delta_s/delta_0: 1.2657E-08 | 32: delta_r/delta_0: 6.2468E-09 | 33: delta_s/delta_0: 2.1275E-07 | 34: delta_r/delta_0: 4.6218E-09 | 35: delta_s/delta_0: 1.1317E-03 | 36: delta_r/delta_0: 4.8293E-04 | 37: delta_s/delta_0: 6.5186E-09 | 38: delta_r/delta_0: 2.9411E-09 | 39: delta_s/delta_0: 8.4939E-08 | 40: delta_r/delta_0: 5.1818E-09 | 41: delta_s/delta_0: 3.1667E-07 | 42: delta_r/delta_0: 4.5372E-08 | 43: delta_s/delta_0: 1.7030E-09 | 44: delta_r/delta_0: 1.4940E-09 | 45: delta_s/delta_0: 9.8735E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.562336838473179 4.022703349955499E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4044E-02 | 2: delta_r/delta_0: 3.2827E-04 | 3: delta_s/delta_0: 1.2557E-04 | 4: delta_r/delta_0: 2.2579E-05 | 5: delta_s/delta_0: 2.4042E-05 | 6: delta_r/delta_0: 6.5933E-06 | 7: delta_s/delta_0: 4.0571E-02 | 8: delta_r/delta_0: 1.0667E-02 | 9: delta_s/delta_0: 3.0789E-04 | 10: delta_r/delta_0: 1.0175E-04 | 11: delta_s/delta_0: 3.8252E-01 | 12: delta_r/delta_0: 7.6557E-04 | 13: delta_s/delta_0: 5.6813E-06 | 14: delta_r/delta_0: 3.3687E-06 | 15: delta_s/delta_0: 4.6087E-06 | 16: delta_r/delta_0: 2.7171E-06 | 17: delta_s/delta_0: 5.0679E-06 | 18: delta_r/delta_0: 6.4900E-07 | 19: delta_s/delta_0: 3.2050E-07 | 20: delta_r/delta_0: 2.5946E-07 | 21: delta_s/delta_0: 1.7975E-07 | 22: delta_r/delta_0: 1.5214E-07 | 23: delta_s/delta_0: 6.0358E-07 | 24: delta_r/delta_0: 2.1956E-07 | 25: delta_s/delta_0: 4.8009E-06 | 26: delta_r/delta_0: 2.6614E-06 | 27: delta_s/delta_0: 2.4723E-05 | 28: delta_r/delta_0: 1.7491E-05 | 29: delta_s/delta_0: 5.8424E-08 | 30: delta_r/delta_0: 2.6084E-08 | 31: delta_s/delta_0: 2.1571E-08 | 32: delta_r/delta_0: 9.8152E-09 | 33: delta_s/delta_0: 4.2369E-07 | 34: delta_r/delta_0: 6.9385E-09 | 35: delta_s/delta_0: 4.6622E-07 | 36: delta_r/delta_0: 2.0429E-07 | 37: delta_s/delta_0: 8.8874E-09 | 38: delta_r/delta_0: 4.6496E-09 | 39: delta_s/delta_0: 1.2444E-07 | 40: delta_r/delta_0: 6.2734E-09 | 41: delta_s/delta_0: 9.3339E-08 | 42: delta_r/delta_0: 1.7039E-08 | 43: delta_s/delta_0: 1.5951E-09 | 44: delta_r/delta_0: 1.3824E-09 | 45: delta_s/delta_0: 1.1892E-10 | 46: delta_r/delta_0: 7.2418E-11 | Reached bicg-stab tolerance | BP delta = -0.1525620 -0.1950133 4927544.48081711 | BP delta = -0.1525620 -0.2118662 5049575.55470253 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95886746 | --> Sampling calibration, mode = relcal | relcal = 0.1062534 0.1395640 -0.1101153 -0.1357021 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0268381E-02 1.3549085E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9607E-02 | 2: delta_r/delta_0: 4.6862E-04 | 3: delta_s/delta_0: 1.0216E-03 | 4: delta_r/delta_0: 5.1945E-05 | 5: delta_s/delta_0: 1.2894E-06 | 6: delta_r/delta_0: 4.4578E-07 | 7: delta_s/delta_0: 5.6918E-07 | 8: delta_r/delta_0: 1.1566E-07 | 9: delta_s/delta_0: 1.8491E-07 | 10: delta_r/delta_0: 1.5725E-08 | 11: delta_s/delta_0: 5.7802E-09 | 12: delta_r/delta_0: 2.1843E-09 | 13: delta_s/delta_0: 1.4758E-09 | 14: delta_r/delta_0: 1.4726E-10 | 15: delta_s/delta_0: 1.6522E-10 | 16: delta_r/delta_0: 8.8356E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.099348805155894E-002 3.698207672386917E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9670E-02 | 2: delta_r/delta_0: 4.7013E-04 | 3: delta_s/delta_0: 1.0235E-03 | 4: delta_r/delta_0: 5.2043E-05 | 5: delta_s/delta_0: 1.2911E-06 | 6: delta_r/delta_0: 4.4628E-07 | 7: delta_s/delta_0: 5.6674E-07 | 8: delta_r/delta_0: 1.1584E-07 | 9: delta_s/delta_0: 1.8553E-07 | 10: delta_r/delta_0: 1.5660E-08 | 11: delta_s/delta_0: 5.7846E-09 | 12: delta_r/delta_0: 2.1850E-09 | 13: delta_s/delta_0: 1.4698E-09 | 14: delta_r/delta_0: 1.4778E-10 | 15: delta_s/delta_0: 1.6537E-10 | 16: delta_r/delta_0: 8.8518E-11 | Reached bicg-stab tolerance | BP delta = 0.1766708 0.2901965 3003897.78107732 | BP delta = 0.1766708 0.2986294 3004136.83417306 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154774 | New value = -3.153466 | poltype: 2 pol: 1 CPU time specind = 2.4730921E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.027788 | New value = -3.142355 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.228648 | New value = -3.199420 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153521 | New value = -3.147262 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142424 | New value = -3.112043 | poltype: 2 pol: 2 CPU time specind = 8.6851120E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.13546E+08, tol = 0.71441E+01, time = 5.12 | CG iter. 2 -- res = 0.33305E+06, tol = 0.71441E+01, time = 5.81 | CG iter. 3 -- res = 0.49388E+05, tol = 0.71441E+01, time = 6.02 | CG iter. 4 -- res = 0.20934E+05, tol = 0.71441E+01, time = 6.71 | CG iter. 5 -- res = 0.10221E+05, tol = 0.71441E+01, time = 6.24 | CG iter. 6 -- res = 0.54720E+04, tol = 0.71441E+01, time = 5.93 | CG iter. 7 -- res = 0.36969E+04, tol = 0.71441E+01, time = 5.91 | CG iter. 8 -- res = 0.28773E+04, tol = 0.71441E+01, time = 5.50 | CG iter. 9 -- res = 0.25908E+04, tol = 0.71441E+01, time = 5.81 | CG iter. 10 -- res = 0.29455E+04, tol = 0.71441E+01, time = 5.88 | CG iter. 11 -- res = 0.31777E+04, tol = 0.71441E+01, time = 5.62 | CG iter. 12 -- res = 0.25204E+04, tol = 0.71441E+01, time = 5.31 | CG iter. 13 -- res = 0.17536E+04, tol = 0.71441E+01, time = 5.78 | CG iter. 14 -- res = 0.12574E+04, tol = 0.71441E+01, time = 5.54 | CG iter. 15 -- res = 0.10457E+04, tol = 0.71441E+01, time = 5.60 | CG iter. 16 -- res = 0.88378E+03, tol = 0.71441E+01, time = 5.71 | CG iter. 17 -- res = 0.67696E+03, tol = 0.71441E+01, time = 6.01 | CG iter. 18 -- res = 0.54035E+03, tol = 0.71441E+01, time = 5.82 | CG iter. 19 -- res = 0.48860E+03, tol = 0.71441E+01, time = 5.80 | CG iter. 20 -- res = 0.41893E+03, tol = 0.71441E+01, time = 5.80 | CG iter. 21 -- res = 0.31499E+03, tol = 0.71441E+01, time = 5.47 | CG iter. 22 -- res = 0.23938E+03, tol = 0.71441E+01, time = 5.70 | CG iter. 23 -- res = 0.20451E+03, tol = 0.71441E+01, time = 6.24 | CG iter. 24 -- res = 0.18802E+03, tol = 0.71441E+01, time = 5.64 | CG iter. 25 -- res = 0.15663E+03, tol = 0.71441E+01, time = 5.67 | CG iter. 26 -- res = 0.12390E+03, tol = 0.71441E+01, time = 5.71 | CG iter. 27 -- res = 0.10686E+03, tol = 0.71441E+01, time = 5.55 | CG iter. 28 -- res = 0.97225E+02, tol = 0.71441E+01, time = 5.79 | CG iter. 29 -- res = 0.82245E+02, tol = 0.71441E+01, time = 5.27 | CG iter. 30 -- res = 0.67949E+02, tol = 0.71441E+01, time = 5.66 | CG iter. 31 -- res = 0.57705E+02, tol = 0.71441E+01, time = 5.64 | CG iter. 32 -- res = 0.52232E+02, tol = 0.71441E+01, time = 5.63 | CG iter. 33 -- res = 0.45449E+02, tol = 0.71441E+01, time = 5.47 | CG iter. 34 -- res = 0.33878E+02, tol = 0.71441E+01, time = 5.56 | CG iter. 35 -- res = 0.25837E+02, tol = 0.71441E+01, time = 5.26 | CG iter. 36 -- res = 0.21265E+02, tol = 0.71441E+01, time = 5.70 | CG iter. 37 -- res = 0.17892E+02, tol = 0.71441E+01, time = 5.55 | CG iter. 38 -- res = 0.13346E+02, tol = 0.71441E+01, time = 5.61 | CG iter. 39 -- res = 0.96942E+01, tol = 0.71441E+01, time = 5.59 | CG iter. 40 -- res = 0.73857E+01, tol = 0.71441E+01, time = 5.48 | CG iter. 41 -- res = 0.58458E+01, tol = 0.71441E+01, time = 11.59 | CG iter. 42 -- res = 0.43044E+01, tol = 0.71441E+01, time = 5.74 | CG iter. 43 -- res = 0.30402E+01, tol = 0.71441E+01, time = 5.44 | CG iter. 44 -- res = 0.22461E+01, tol = 0.71441E+01, time = 5.59 | CG iter. 45 -- res = 0.17503E+01, tol = 0.71441E+01, time = 5.45 | CG iter. 46 -- res = 0.14202E+01, tol = 0.71441E+01, time = 5.43 | CG iter. 47 -- res = 0.10934E+01, tol = 0.71441E+01, time = 5.67 | CG iter. 48 -- res = 0.83633E+00, tol = 0.71441E+01, time = 6.06 | CG iter. 49 -- res = 0.67563E+00, tol = 0.71441E+01, time = 5.81 | CG iter. 50 -- res = 0.55316E+00, tol = 0.71441E+01, time = 5.78 | Final CG iter 51 -- res = 0.55316E+00, tol = 0.71441E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9465782.158 | Old band monopole 9939218.783 | Change to band monopole -473436.625 | Change to component monopole 473434.589 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.40109E+04, tol = 0.47627E+18, time = 2.42 | CG iter. 2 -- res = 0.16444E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.15422E+00, tol = 0.47627E+18, time = 2.06 | Final CG iter 4 -- res = 0.49650E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9465741.444 | (Sampled value in CG: 9466384.460 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492830 | New value = 1.527370 | poltype: 2 pol: 1 CPU time specind = 1.4241934E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.472306 | New value = 1.564614 | poltype: 2 pol: 2 CPU time specind = 4.5180321E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.24296E+08, tol = 0.47557E+04, time = 6.43 | CG iter. 2 -- res = 0.54713E+07, tol = 0.47557E+04, time = 6.65 | CG iter. 3 -- res = 0.84892E+06, tol = 0.47557E+04, time = 6.21 | CG iter. 4 -- res = 0.35278E+06, tol = 0.47557E+04, time = 6.47 | CG iter. 5 -- res = 0.15293E+06, tol = 0.47557E+04, time = 6.64 | CG iter. 6 -- res = 0.78665E+05, tol = 0.47557E+04, time = 6.77 | CG iter. 7 -- res = 0.43007E+05, tol = 0.47557E+04, time = 6.40 | CG iter. 8 -- res = 0.20748E+05, tol = 0.47557E+04, time = 6.35 | CG iter. 9 -- res = 0.91923E+04, tol = 0.47557E+04, time = 6.60 | CG iter. 10 -- res = 0.36862E+04, tol = 0.47557E+04, time = 6.62 | CG iter. 11 -- res = 0.16635E+04, tol = 0.47557E+04, time = 6.36 | CG iter. 12 -- res = 0.86666E+03, tol = 0.47557E+04, time = 6.50 | CG iter. 13 -- res = 0.49546E+03, tol = 0.47557E+04, time = 6.50 | CG iter. 14 -- res = 0.28563E+03, tol = 0.47557E+04, time = 6.31 | CG iter. 15 -- res = 0.14861E+03, tol = 0.47557E+04, time = 6.47 | CG iter. 16 -- res = 0.70656E+02, tol = 0.47557E+04, time = 6.37 | CG iter. 17 -- res = 0.32680E+02, tol = 0.47557E+04, time = 6.50 | CG iter. 18 -- res = 0.16057E+02, tol = 0.47557E+04, time = 6.71 | CG iter. 19 -- res = 0.84953E+01, tol = 0.47557E+04, time = 6.57 | CG iter. 20 -- res = 0.46915E+01, tol = 0.47557E+04, time = 12.72 | CG iter. 21 -- res = 0.26114E+01, tol = 0.47557E+04, time = 6.66 | CG iter. 22 -- res = 0.13210E+01, tol = 0.47557E+04, time = 6.17 | CG iter. 23 -- res = 0.66262E+00, tol = 0.47557E+04, time = 6.71 | CG iter. 24 -- res = 0.34627E+00, tol = 0.47557E+04, time = 6.39 | CG iter. 25 -- res = 0.19262E+00, tol = 0.47557E+04, time = 6.39 | CG iter. 26 -- res = 0.10883E+00, tol = 0.47557E+04, time = 6.43 | CG iter. 27 -- res = 0.60843E-01, tol = 0.47557E+04, time = 6.52 | CG iter. 28 -- res = 0.32710E-01, tol = 0.47557E+04, time = 6.14 | CG iter. 29 -- res = 0.17063E-01, tol = 0.47557E+04, time = 6.59 | CG iter. 30 -- res = 0.89154E-02, tol = 0.47557E+04, time = 6.27 | CG iter. 31 -- res = 0.49532E-02, tol = 0.47557E+04, time = 6.59 | CG iter. 32 -- res = 0.28181E-02, tol = 0.47557E+04, time = 6.31 | CG iter. 33 -- res = 0.15734E-02, tol = 0.47557E+04, time = 7.08 | CG iter. 34 -- res = 0.86138E-03, tol = 0.47557E+04, time = 7.33 | CG iter. 35 -- res = 0.43722E-03, tol = 0.47557E+04, time = 7.09 | Final CG iter 36 -- res = 0.43722E-03, tol = 0.47557E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.998 2.727 | New value -0.497 | Old value -5.998 | Difference 5.502 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.15668E+07, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.16350E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.80696E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 4 -- res = 0.29285E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9465741.444 | (Sampled value in CG: 9465821.657 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.595089 | New value = -3.672154 | poltype: 1 pol: 1 CPU time specind = 1.4124870E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.21596E+07, tol = 0.24791E+01, time = 2.72 | CG iter. 2 -- res = 0.60566E+06, tol = 0.24791E+01, time = 3.48 | CG iter. 3 -- res = 0.11666E+06, tol = 0.24791E+01, time = 2.77 | CG iter. 4 -- res = 0.52614E+05, tol = 0.24791E+01, time = 2.65 | CG iter. 5 -- res = 0.31664E+05, tol = 0.24791E+01, time = 2.51 | CG iter. 6 -- res = 0.15555E+05, tol = 0.24791E+01, time = 2.63 | CG iter. 7 -- res = 0.61899E+04, tol = 0.24791E+01, time = 2.62 | CG iter. 8 -- res = 0.27352E+04, tol = 0.24791E+01, time = 2.86 | CG iter. 9 -- res = 0.11303E+04, tol = 0.24791E+01, time = 2.84 | CG iter. 10 -- res = 0.44327E+03, tol = 0.24791E+01, time = 2.68 | CG iter. 11 -- res = 0.19520E+03, tol = 0.24791E+01, time = 2.70 | CG iter. 12 -- res = 0.96558E+02, tol = 0.24791E+01, time = 2.82 | CG iter. 13 -- res = 0.49946E+02, tol = 0.24791E+01, time = 2.77 | CG iter. 14 -- res = 0.24859E+02, tol = 0.24791E+01, time = 2.99 | CG iter. 15 -- res = 0.10367E+02, tol = 0.24791E+01, time = 2.66 | CG iter. 16 -- res = 0.44437E+01, tol = 0.24791E+01, time = 2.74 | CG iter. 17 -- res = 0.19577E+01, tol = 0.24791E+01, time = 3.10 | CG iter. 18 -- res = 0.92722E+00, tol = 0.24791E+01, time = 2.56 | CG iter. 19 -- res = 0.44693E+00, tol = 0.24791E+01, time = 2.76 | CG iter. 20 -- res = 0.23372E+00, tol = 0.24791E+01, time = 2.70 | CG iter. 21 -- res = 0.10853E+00, tol = 0.24791E+01, time = 2.53 | CG iter. 22 -- res = 0.47648E-01, tol = 0.24791E+01, time = 2.71 | CG iter. 23 -- res = 0.21234E-01, tol = 0.24791E+01, time = 2.88 | CG iter. 24 -- res = 0.99351E-02, tol = 0.24791E+01, time = 2.87 | CG iter. 25 -- res = 0.52161E-02, tol = 0.24791E+01, time = 2.59 | CG iter. 26 -- res = 0.25559E-02, tol = 0.24791E+01, time = 2.83 | CG iter. 27 -- res = 0.12166E-02, tol = 0.24791E+01, time = 2.45 | CG iter. 28 -- res = 0.57572E-03, tol = 0.24791E+01, time = 2.90 | CG iter. 29 -- res = 0.25813E-03, tol = 0.24791E+01, time = 2.76 | CG iter. 30 -- res = 0.12106E-03, tol = 0.24791E+01, time = 2.59 | CG iter. 31 -- res = 0.61376E-04, tol = 0.24791E+01, time = 2.81 | CG iter. 32 -- res = 0.30899E-04, tol = 0.24791E+01, time = 2.49 | CG iter. 33 -- res = 0.14463E-04, tol = 0.24791E+01, time = 2.53 | CG iter. 34 -- res = 0.67440E-05, tol = 0.24791E+01, time = 2.61 | CG iter. 35 -- res = 0.31082E-05, tol = 0.24791E+01, time = 2.82 | CG iter. 36 -- res = 0.14802E-05, tol = 0.24791E+01, time = 2.98 | CG iter. 37 -- res = 0.72344E-06, tol = 0.24791E+01, time = 5.30 | CG iter. 38 -- res = 0.36301E-06, tol = 0.24791E+01, time = 4.71 | CG iter. 39 -- res = 0.17998E-06, tol = 0.24791E+01, time = 2.86 | CG iter. 40 -- res = 0.81053E-07, tol = 0.24791E+01, time = 2.70 | CG iter. 41 -- res = 0.38314E-07, tol = 0.24791E+01, time = 2.55 | CG iter. 42 -- res = 0.18140E-07, tol = 0.24791E+01, time = 2.56 | CG iter. 43 -- res = 0.90278E-08, tol = 0.24791E+01, time = 2.22 | CG iter. 44 -- res = 0.43671E-08, tol = 0.24791E+01, time = 2.88 | CG iter. 45 -- res = 0.21523E-08, tol = 0.24791E+01, time = 2.47 | CG iter. 46 -- res = 0.10108E-08, tol = 0.24791E+01, time = 2.67 | CG iter. 47 -- res = 0.48020E-09, tol = 0.24791E+01, time = 2.65 | CG iter. 48 -- res = 0.22091E-09, tol = 0.24791E+01, time = 2.53 | CG iter. 49 -- res = 0.10739E-09, tol = 0.24791E+01, time = 2.64 | CG iter. 50 -- res = 0.51499E-10, tol = 0.24791E+01, time = 2.67 | Final CG iter 51 -- res = 0.51499E-10, tol = 0.24791E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.873 5.193 | New value 9.656 | Old value 0.873 | Difference 8.783 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.72431E+05, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.45150E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.20293E+01, tol = 0.47627E+18, time = 1.84 | Final CG iter 4 -- res = 0.38811E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9465741.444 | (Sampled value in CG: 9467781.131 ) | CPU time specind = 1168.713 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.68979E+08, tol = 0.57830E+04, time = 11.57 | CG iter. 2 -- res = 0.58972E+08, tol = 0.57830E+04, time = 11.37 | CG iter. 3 -- res = 0.15807E+08, tol = 0.57830E+04, time = 11.20 | CG iter. 4 -- res = 0.66763E+07, tol = 0.57830E+04, time = 11.92 | CG iter. 5 -- res = 0.40038E+07, tol = 0.57830E+04, time = 11.63 | CG iter. 6 -- res = 0.22641E+07, tol = 0.57830E+04, time = 13.12 | CG iter. 7 -- res = 0.13104E+07, tol = 0.57830E+04, time = 11.98 | CG iter. 8 -- res = 0.86102E+06, tol = 0.57830E+04, time = 11.58 | CG iter. 9 -- res = 0.54836E+06, tol = 0.57830E+04, time = 11.75 | CG iter. 10 -- res = 0.32962E+06, tol = 0.57830E+04, time = 11.53 | CG iter. 11 -- res = 0.17966E+06, tol = 0.57830E+04, time = 11.57 | CG iter. 12 -- res = 0.94065E+05, tol = 0.57830E+04, time = 11.58 | CG iter. 13 -- res = 0.50113E+05, tol = 0.57830E+04, time = 11.82 | CG iter. 14 -- res = 0.28667E+05, tol = 0.57830E+04, time = 11.45 | CG iter. 15 -- res = 0.18397E+05, tol = 0.57830E+04, time = 12.28 | CG iter. 16 -- res = 0.12736E+05, tol = 0.57830E+04, time = 11.35 | CG iter. 17 -- res = 0.88507E+04, tol = 0.57830E+04, time = 11.95 | CG iter. 18 -- res = 0.58932E+04, tol = 0.57830E+04, time = 11.58 | CG iter. 19 -- res = 0.37440E+04, tol = 0.57830E+04, time = 11.76 | CG iter. 20 -- res = 0.23727E+04, tol = 0.57830E+04, time = 11.53 | CG iter. 21 -- res = 0.15497E+04, tol = 0.57830E+04, time = 11.72 | CG iter. 22 -- res = 0.11477E+04, tol = 0.57830E+04, time = 11.51 | CG iter. 23 -- res = 0.98842E+03, tol = 0.57830E+04, time = 11.91 | CG iter. 24 -- res = 0.95781E+03, tol = 0.57830E+04, time = 18.11 | CG iter. 25 -- res = 0.97543E+03, tol = 0.57830E+04, time = 11.58 | CG iter. 26 -- res = 0.98713E+03, tol = 0.57830E+04, time = 11.39 | CG iter. 27 -- res = 0.95948E+03, tol = 0.57830E+04, time = 11.70 | CG iter. 28 -- res = 0.90791E+03, tol = 0.57830E+04, time = 11.62 | CG iter. 29 -- res = 0.84230E+03, tol = 0.57830E+04, time = 11.36 | CG iter. 30 -- res = 0.80445E+03, tol = 0.57830E+04, time = 11.48 | CG iter. 31 -- res = 0.75038E+03, tol = 0.57830E+04, time = 13.18 | CG iter. 32 -- res = 0.66918E+03, tol = 0.57830E+04, time = 12.21 | CG iter. 33 -- res = 0.56356E+03, tol = 0.57830E+04, time = 11.63 | CG iter. 34 -- res = 0.44584E+03, tol = 0.57830E+04, time = 11.39 | CG iter. 35 -- res = 0.34382E+03, tol = 0.57830E+04, time = 11.46 | CG iter. 36 -- res = 0.26063E+03, tol = 0.57830E+04, time = 11.96 | CG iter. 37 -- res = 0.20914E+03, tol = 0.57830E+04, time = 11.77 | CG iter. 38 -- res = 0.18847E+03, tol = 0.57830E+04, time = 11.74 | CG iter. 39 -- res = 0.17574E+03, tol = 0.57830E+04, time = 11.40 | CG iter. 40 -- res = 0.15510E+03, tol = 0.57830E+04, time = 11.78 | CG iter. 41 -- res = 0.13250E+03, tol = 0.57830E+04, time = 11.80 | CG iter. 42 -- res = 0.11301E+03, tol = 0.57830E+04, time = 11.37 | CG iter. 43 -- res = 0.99129E+02, tol = 0.57830E+04, time = 11.92 | CG iter. 44 -- res = 0.91570E+02, tol = 0.57830E+04, time = 11.64 | CG iter. 45 -- res = 0.86368E+02, tol = 0.57830E+04, time = 11.51 | CG iter. 46 -- res = 0.82323E+02, tol = 0.57830E+04, time = 11.22 | CG iter. 47 -- res = 0.75044E+02, tol = 0.57830E+04, time = 11.69 | CG iter. 48 -- res = 0.63257E+02, tol = 0.57830E+04, time = 11.60 | CG iter. 49 -- res = 0.50954E+02, tol = 0.57830E+04, time = 17.95 | CG iter. 50 -- res = 0.41999E+02, tol = 0.57830E+04, time = 11.79 | CG iter. 51 -- res = 0.35540E+02, tol = 0.57830E+04, time = 11.37 | CG iter. 52 -- res = 0.31901E+02, tol = 0.57830E+04, time = 11.87 | CG iter. 53 -- res = 0.29570E+02, tol = 0.57830E+04, time = 11.80 | CG iter. 54 -- res = 0.26616E+02, tol = 0.57830E+04, time = 11.33 | CG iter. 55 -- res = 0.24224E+02, tol = 0.57830E+04, time = 11.90 | CG iter. 56 -- res = 0.21022E+02, tol = 0.57830E+04, time = 13.66 | CG iter. 57 -- res = 0.18268E+02, tol = 0.57830E+04, time = 12.16 | CG iter. 58 -- res = 0.16613E+02, tol = 0.57830E+04, time = 11.47 | CG iter. 59 -- res = 0.15843E+02, tol = 0.57830E+04, time = 11.43 | CG iter. 60 -- res = 0.15106E+02, tol = 0.57830E+04, time = 11.24 | Final CG iter 61 -- res = 0.15106E+02, tol = 0.57830E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.823 ( -229.953 -2231.490 2514.197 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9812344.907 | Old band monopole 9465782.158 | Change to band monopole 346562.749 | Change to component monopole -346561.258 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.441 2.737 | New value -0.339 | Old value -0.441 | Difference 0.102 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.169 ( 7.241 12.433 -12.318 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.295 4.452 | New value 2.714 | Old value 14.295 | Difference -11.581 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.80469E+05, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.43242E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.19364E+01, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.24399E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.18001E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9812302.702 | (Sampled value in CG: 9793411.968 ) | Chain = 1 -- chisq = 0.81505864E+09 | Chain = 1 -- wall time = 6522.051 sec Available RAM: MemAvailable: 377053648 kB Available Swap: SwapFree: 1124659816 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 351 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445289 | --> Sampling calibration, mode = relcal | relcal = 1.3437397E-02 7.3613186E-04 -1.5889681E-03 -1.2584561E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1349313 0.1505259 97046266.5156949 | BP delta = 0.1319392 0.1475337 97046266.8731447 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632474 | --> Sampling calibration, mode = relcal | relcal = -2.8206890E-03 -7.0424669E-04 1.6794836E-03 1.6138736E-03 -4.0827336E-04 6.3985173E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5785401 15220868.7338173 | BP delta = 0.0000000E+00 -0.5701116 15220868.2879920 | BP chisq diff = -0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102079 | --> Sampling calibration, mode = relcal | relcal = 3.7070073E-02 1.3713312E-02 5.7524079E-03 -7.1652797E-03 8.2485676E-03 2.3891609E-03 -7.5998399E-03 -7.1801641E-03 -1.5296830E-02 -1.4794271E-02 -3.0522577E-03 -1.2084881E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.201003 132211504.987988 | BP delta = 0.0000000E+00 -1.196020 132211504.921658 | BP chisq diff = -0.1, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18616930181012 | --> Sampling calibration, mode = relcal | relcal = -7.6234587E-02 -5.9428953E-02 9.3265221E-02 4.2398326E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7699585E-05 6.4946203E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2135E-05 | 2: delta_r/delta_0: 1.6899E-06 | 3: delta_s/delta_0: 2.0763E-07 | 4: delta_r/delta_0: 3.4860E-08 | 5: delta_s/delta_0: 1.1214E-08 | 6: delta_r/delta_0: 3.5447E-09 | 7: delta_s/delta_0: 7.5168E-10 | 8: delta_r/delta_0: 2.5439E-10 | 9: delta_s/delta_0: 1.3194E-10 | 10: delta_r/delta_0: 6.9493E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.483463342859956E-003 2.728985967499187E-005 | BP delta = 8.5308246E-02 0.1075677 50485029.8186084 | BP delta = 8.7792158E-02 0.1100516 50485024.6591813 | BP chisq diff = -5.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02614394 | --> Sampling calibration, mode = relcal | relcal = -0.1066575 -9.5574647E-02 0.1449479 5.7284310E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2334847E-03 1.7055576E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5064E-05 | 2: delta_r/delta_0: 1.4175E-06 | 3: delta_s/delta_0: 2.4516E-07 | 4: delta_r/delta_0: 4.0919E-08 | 5: delta_s/delta_0: 2.4658E-08 | 6: delta_r/delta_0: 6.5287E-09 | 7: delta_s/delta_0: 5.4809E-09 | 8: delta_r/delta_0: 1.5913E-09 | 9: delta_s/delta_0: 7.8694E-10 | 10: delta_r/delta_0: 5.8428E-10 | 11: delta_s/delta_0: 1.0429E-09 | 12: delta_r/delta_0: 8.6226E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006824123708911E-002 2.810450578236623E-005 | BP delta = -0.2732807 -0.2429053 57388599.0729688 | BP delta = -0.2764439 -0.2460685 57388598.9104899 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81228992 | --> Sampling calibration, mode = relcal | relcal = 0.2954478 0.2248755 -0.2837977 -0.2365256 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0291160E-04 5.8708135E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0450E-02 | 2: delta_r/delta_0: 2.4389E-04 | 3: delta_s/delta_0: 5.6229E-05 | 4: delta_r/delta_0: 7.7807E-06 | 5: delta_s/delta_0: 1.2111E-05 | 6: delta_r/delta_0: 2.8039E-06 | 7: delta_s/delta_0: 7.7196E-05 | 8: delta_r/delta_0: 2.1160E-05 | 9: delta_s/delta_0: 5.6591E-05 | 10: delta_r/delta_0: 7.6621E-06 | 11: delta_s/delta_0: 5.8220E-07 | 12: delta_r/delta_0: 5.6046E-08 | 13: delta_s/delta_0: 8.4941E-09 | 14: delta_r/delta_0: 3.7938E-09 | 15: delta_s/delta_0: 1.6368E-09 | 16: delta_r/delta_0: 1.1926E-09 | 17: delta_s/delta_0: 3.9132E-10 | 18: delta_r/delta_0: 2.9413E-10 | 19: delta_s/delta_0: 1.1804E-10 | 20: delta_r/delta_0: 9.7504E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.167188054782559 4.021392857540534E-005 | BP delta = -0.1525620 -0.1950133 72483845.1263639 | BP delta = -0.1365557 -0.1790071 72483845.3946578 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95918952 | --> Sampling calibration, mode = relcal | relcal = 0.1065378 0.1395804 -0.1102663 -0.1358518 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3484772E-03 1.3489688E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2451E-01 | 2: delta_r/delta_0: 2.9547E-03 | 3: delta_s/delta_0: 2.9034E-04 | 4: delta_r/delta_0: 1.4596E-05 | 5: delta_s/delta_0: 1.0278E-05 | 6: delta_r/delta_0: 4.8637E-06 | 7: delta_s/delta_0: 4.9286E-06 | 8: delta_r/delta_0: 1.6768E-06 | 9: delta_s/delta_0: 1.6068E-06 | 10: delta_r/delta_0: 1.5987E-07 | 11: delta_s/delta_0: 2.1074E-08 | 12: delta_r/delta_0: 7.6738E-09 | 13: delta_s/delta_0: 1.3345E-09 | 14: delta_r/delta_0: 9.3752E-10 | 15: delta_s/delta_0: 3.7360E-10 | 16: delta_r/delta_0: 2.3380E-10 | 17: delta_s/delta_0: 1.4413E-10 | 18: delta_r/delta_0: 1.2106E-10 | 19: delta_s/delta_0: 7.5126E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.831231504846437E-002 3.697163548133015E-005 | BP delta = 0.1766708 0.2901965 72774038.0563918 | BP delta = 0.1777981 0.2913238 72774038.0848416 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52150532 | --> Sampling calibration, mode = relcal | relcal = -5.1116459E-02 -3.6641180E-03 2.7384566E-02 2.7396008E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9342502E-03 3.2467078E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8655E-05 | 2: delta_r/delta_0: 4.5051E-06 | 3: delta_s/delta_0: 5.8376E-07 | 4: delta_r/delta_0: 1.4470E-07 | 5: delta_s/delta_0: 1.9141E-07 | 6: delta_r/delta_0: 2.9100E-08 | 7: delta_s/delta_0: 2.2528E-08 | 8: delta_r/delta_0: 8.1329E-09 | 9: delta_s/delta_0: 2.5257E-08 | 10: delta_r/delta_0: 4.1499E-09 | 11: delta_s/delta_0: 3.1778E-09 | 12: delta_r/delta_0: 8.9741E-10 | 13: delta_s/delta_0: 8.2480E-09 | 14: delta_r/delta_0: 2.2920E-09 | 15: delta_s/delta_0: 6.6604E-09 | 16: delta_r/delta_0: 3.9042E-10 | 17: delta_s/delta_0: 7.7003E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.141664588886406E-002 5.484029921474125E-005 | BP delta = 5.2690092E-02 0.1441628 91251227.5641502 | BP delta = 4.4440426E-02 0.1359132 91251227.6657375 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42147697 | --> Sampling calibration, mode = relcal | relcal = 4.5560263E-02 3.9679475E-02 -2.8299099E-02 -5.6940641E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9964678E-03 4.1563949E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1415E-05 | 2: delta_r/delta_0: 3.8839E-06 | 3: delta_s/delta_0: 1.2968E-05 | 4: delta_r/delta_0: 1.8439E-06 | 5: delta_s/delta_0: 6.0218E-08 | 6: delta_r/delta_0: 4.2141E-08 | 7: delta_s/delta_0: 6.8862E-08 | 8: delta_r/delta_0: 1.5155E-08 | 9: delta_s/delta_0: 1.7389E-09 | 10: delta_r/delta_0: 6.7997E-10 | 11: delta_s/delta_0: 1.6432E-09 | 12: delta_r/delta_0: 6.6617E-10 | 13: delta_s/delta_0: 4.4398E-10 | 14: delta_r/delta_0: 1.4122E-10 | 15: delta_s/delta_0: 1.5694E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.489711023646991E-002 4.996932395300915E-005 | BP delta = 0.1203274 4.6281754E-03 90177716.0179686 | BP delta = 7.7764355E-02 -3.7934862E-02 90177716.4309837 | BP chisq diff = 0.4, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28158940 | --> Sampling calibration, mode = relcal | relcal = 2.4241533E-02 4.5042839E-02 -2.3371950E-02 -4.5912422E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8628728E-03 2.8564143E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0697E-04 | 2: delta_r/delta_0: 8.4892E-06 | 3: delta_s/delta_0: 1.3032E-06 | 4: delta_r/delta_0: 3.0902E-07 | 5: delta_s/delta_0: 9.0087E-08 | 6: delta_r/delta_0: 2.4524E-08 | 7: delta_s/delta_0: 1.2500E-08 | 8: delta_r/delta_0: 6.1692E-09 | 9: delta_s/delta_0: 1.9468E-07 | 10: delta_r/delta_0: 5.2774E-09 | 11: delta_s/delta_0: 5.2491E-09 | 12: delta_r/delta_0: 3.3649E-09 | 13: delta_s/delta_0: 9.5277E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.123887665072793E-002 7.844292643282708E-005 | BP delta = -0.3353270 -0.5371370 160960617.313339 | BP delta = -0.3878396 -0.5896496 160960616.991676 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29388191 | --> Sampling calibration, mode = relcal | relcal = 5.4206292E-04 1.0253198E-02 -3.7679309E-03 -7.0273294E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4212439E-02 1.5514761E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3023E-04 | 2: delta_r/delta_0: 1.1007E-05 | 3: delta_s/delta_0: 1.6943E-06 | 4: delta_r/delta_0: 2.8767E-07 | 5: delta_s/delta_0: 1.2341E-07 | 6: delta_r/delta_0: 2.5192E-08 | 7: delta_s/delta_0: 1.2778E-08 | 8: delta_r/delta_0: 8.6202E-09 | 9: delta_s/delta_0: 1.4543E-08 | 10: delta_r/delta_0: 5.6788E-09 | 11: delta_s/delta_0: 3.1092E-06 | 12: delta_r/delta_0: 1.8385E-06 | 13: delta_s/delta_0: 5.1547E-10 | 14: delta_r/delta_0: 3.5507E-10 | 15: delta_s/delta_0: 8.5358E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.138051601419419E-002 8.307879722911132E-005 | BP delta = -0.8128124 -0.7681888 157863877.232366 | BP delta = -0.8320770 -0.7874534 157863877.159717 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26500528 | --> Sampling calibration, mode = relcal | relcal = -5.6329495E-03 1.5102329E-02 -2.3840158E-03 -7.0853629E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.2849798E-04 4.5682127E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4081E-04 | 2: delta_r/delta_0: 1.2034E-05 | 3: delta_s/delta_0: 2.0298E-06 | 4: delta_r/delta_0: 2.4416E-07 | 5: delta_s/delta_0: 1.0484E-07 | 6: delta_r/delta_0: 2.1591E-08 | 7: delta_s/delta_0: 9.4112E-09 | 8: delta_r/delta_0: 6.2953E-09 | 9: delta_s/delta_0: 7.3048E-09 | 10: delta_r/delta_0: 4.7600E-09 | 11: delta_s/delta_0: 1.0535E-07 | 12: delta_r/delta_0: 1.7803E-09 | 13: delta_s/delta_0: 4.6951E-09 | 14: delta_r/delta_0: 1.1518E-09 | 15: delta_s/delta_0: 6.8055E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.495089428454520E-003 9.156088952582370E-005 | BP delta = 0.3581703 0.3675535 157021773.080165 | BP delta = 0.3693248 0.3787080 157021773.100627 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25659332 | --> Sampling calibration, mode = relcal | relcal = -3.1566843E-02 -2.6081914E-02 3.6897030E-02 2.0751726E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1606764E-02 1.9581946E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4798E-04 | 2: delta_r/delta_0: 1.1724E-05 | 3: delta_s/delta_0: 1.6915E-06 | 4: delta_r/delta_0: 4.1480E-07 | 5: delta_s/delta_0: 3.6086E-07 | 6: delta_r/delta_0: 1.2797E-07 | 7: delta_s/delta_0: 1.7360E-08 | 8: delta_r/delta_0: 1.0205E-08 | 9: delta_s/delta_0: 2.0776E-08 | 10: delta_r/delta_0: 7.7577E-09 | 11: delta_s/delta_0: 1.1801E-07 | 12: delta_r/delta_0: 3.0588E-08 | 13: delta_s/delta_0: 1.0391E-09 | 14: delta_r/delta_0: 4.2182E-10 | 15: delta_s/delta_0: 1.7117E-10 | 16: delta_r/delta_0: 1.4425E-10 | 17: delta_s/delta_0: 1.7920E-10 | 18: delta_r/delta_0: 1.1045E-10 | 19: delta_s/delta_0: 7.7161E-10 | 20: delta_r/delta_0: 2.1590E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.021881972582334E-002 8.673633166971343E-005 | BP delta = -0.8745890 -1.076888 158541536.094803 | BP delta = -0.8661685 -1.068467 158541536.052631 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153466 | New value = -3.135406 | poltype: 2 pol: 1 CPU time specind = 3.2124996E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142355 | New value = -3.181469 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199420 | New value = -3.142270 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147262 | New value = -3.137790 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112043 | New value = -3.087799 | poltype: 2 pol: 2 CPU time specind = 3.2404900E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.72 | CG iter. 1 -- res = 0.13563E+08, tol = 0.72771E+01, time = 5.45 | CG iter. 2 -- res = 0.35020E+06, tol = 0.72771E+01, time = 5.43 | CG iter. 3 -- res = 0.54199E+05, tol = 0.72771E+01, time = 5.47 | CG iter. 4 -- res = 0.31239E+05, tol = 0.72771E+01, time = 5.42 | CG iter. 5 -- res = 0.22643E+05, tol = 0.72771E+01, time = 5.50 | CG iter. 6 -- res = 0.18963E+05, tol = 0.72771E+01, time = 12.07 | CG iter. 7 -- res = 0.20223E+05, tol = 0.72771E+01, time = 5.66 | CG iter. 8 -- res = 0.19640E+05, tol = 0.72771E+01, time = 5.91 | CG iter. 9 -- res = 0.18500E+05, tol = 0.72771E+01, time = 5.65 | CG iter. 10 -- res = 0.16707E+05, tol = 0.72771E+01, time = 5.60 | CG iter. 11 -- res = 0.12458E+05, tol = 0.72771E+01, time = 6.05 | CG iter. 12 -- res = 0.75573E+04, tol = 0.72771E+01, time = 5.68 | CG iter. 13 -- res = 0.52085E+04, tol = 0.72771E+01, time = 5.46 | CG iter. 14 -- res = 0.43596E+04, tol = 0.72771E+01, time = 5.82 | CG iter. 15 -- res = 0.39681E+04, tol = 0.72771E+01, time = 5.43 | CG iter. 16 -- res = 0.32923E+04, tol = 0.72771E+01, time = 5.79 | CG iter. 17 -- res = 0.24356E+04, tol = 0.72771E+01, time = 5.91 | CG iter. 18 -- res = 0.18932E+04, tol = 0.72771E+01, time = 5.74 | CG iter. 19 -- res = 0.16074E+04, tol = 0.72771E+01, time = 5.79 | CG iter. 20 -- res = 0.13497E+04, tol = 0.72771E+01, time = 5.68 | CG iter. 21 -- res = 0.96889E+03, tol = 0.72771E+01, time = 6.99 | CG iter. 22 -- res = 0.74709E+03, tol = 0.72771E+01, time = 6.04 | CG iter. 23 -- res = 0.66459E+03, tol = 0.72771E+01, time = 5.98 | CG iter. 24 -- res = 0.59045E+03, tol = 0.72771E+01, time = 5.52 | CG iter. 25 -- res = 0.49093E+03, tol = 0.72771E+01, time = 5.63 | CG iter. 26 -- res = 0.37649E+03, tol = 0.72771E+01, time = 5.54 | CG iter. 27 -- res = 0.33195E+03, tol = 0.72771E+01, time = 5.60 | CG iter. 28 -- res = 0.31101E+03, tol = 0.72771E+01, time = 5.82 | CG iter. 29 -- res = 0.25928E+03, tol = 0.72771E+01, time = 5.47 | CG iter. 30 -- res = 0.20852E+03, tol = 0.72771E+01, time = 5.72 | CG iter. 31 -- res = 0.17741E+03, tol = 0.72771E+01, time = 5.89 | CG iter. 32 -- res = 0.15201E+03, tol = 0.72771E+01, time = 5.53 | CG iter. 33 -- res = 0.12400E+03, tol = 0.72771E+01, time = 5.40 | CG iter. 34 -- res = 0.90391E+02, tol = 0.72771E+01, time = 5.15 | CG iter. 35 -- res = 0.70164E+02, tol = 0.72771E+01, time = 5.25 | CG iter. 36 -- res = 0.59522E+02, tol = 0.72771E+01, time = 5.70 | CG iter. 37 -- res = 0.47858E+02, tol = 0.72771E+01, time = 5.39 | CG iter. 38 -- res = 0.34427E+02, tol = 0.72771E+01, time = 5.54 | CG iter. 39 -- res = 0.25139E+02, tol = 0.72771E+01, time = 5.94 | CG iter. 40 -- res = 0.19528E+02, tol = 0.72771E+01, time = 5.67 | CG iter. 41 -- res = 0.15558E+02, tol = 0.72771E+01, time = 5.52 | CG iter. 42 -- res = 0.11549E+02, tol = 0.72771E+01, time = 5.49 | CG iter. 43 -- res = 0.85751E+01, tol = 0.72771E+01, time = 5.49 | CG iter. 44 -- res = 0.65679E+01, tol = 0.72771E+01, time = 5.81 | CG iter. 45 -- res = 0.54532E+01, tol = 0.72771E+01, time = 5.62 | CG iter. 46 -- res = 0.43758E+01, tol = 0.72771E+01, time = 5.56 | CG iter. 47 -- res = 0.33710E+01, tol = 0.72771E+01, time = 5.54 | CG iter. 48 -- res = 0.24625E+01, tol = 0.72771E+01, time = 5.64 | CG iter. 49 -- res = 0.19817E+01, tol = 0.72771E+01, time = 5.64 | CG iter. 50 -- res = 0.15704E+01, tol = 0.72771E+01, time = 5.71 | Final CG iter 51 -- res = 0.15704E+01, tol = 0.72771E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9448257.670 | Old band monopole 9812344.907 | Change to band monopole -364087.237 | Change to component monopole 364085.671 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.52 | CG iter. 1 -- res = 0.27277E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.19498E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.65446E+00, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.10761E-02, tol = 0.47627E+18, time = 2.48 | Final CG iter 5 -- res = 0.41016E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9448217.031 | (Sampled value in CG: 9463150.112 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.527370 | New value = 1.474302 | poltype: 2 pol: 1 CPU time specind = 1.6018152E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.564614 | New value = 1.529197 | poltype: 2 pol: 2 CPU time specind = 2.2290945E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.24594E+08, tol = 0.47504E+04, time = 6.39 | CG iter. 2 -- res = 0.53610E+07, tol = 0.47504E+04, time = 6.44 | CG iter. 3 -- res = 0.83490E+06, tol = 0.47504E+04, time = 7.73 | CG iter. 4 -- res = 0.34556E+06, tol = 0.47504E+04, time = 6.93 | CG iter. 5 -- res = 0.14757E+06, tol = 0.47504E+04, time = 6.48 | CG iter. 6 -- res = 0.77899E+05, tol = 0.47504E+04, time = 6.29 | CG iter. 7 -- res = 0.42936E+05, tol = 0.47504E+04, time = 6.60 | CG iter. 8 -- res = 0.20825E+05, tol = 0.47504E+04, time = 6.29 | CG iter. 9 -- res = 0.91862E+04, tol = 0.47504E+04, time = 6.11 | CG iter. 10 -- res = 0.36966E+04, tol = 0.47504E+04, time = 6.44 | CG iter. 11 -- res = 0.16582E+04, tol = 0.47504E+04, time = 6.20 | CG iter. 12 -- res = 0.83070E+03, tol = 0.47504E+04, time = 6.54 | CG iter. 13 -- res = 0.47160E+03, tol = 0.47504E+04, time = 6.37 | CG iter. 14 -- res = 0.27120E+03, tol = 0.47504E+04, time = 6.78 | CG iter. 15 -- res = 0.13784E+03, tol = 0.47504E+04, time = 6.93 | CG iter. 16 -- res = 0.65621E+02, tol = 0.47504E+04, time = 6.44 | CG iter. 17 -- res = 0.30784E+02, tol = 0.47504E+04, time = 6.36 | CG iter. 18 -- res = 0.15096E+02, tol = 0.47504E+04, time = 6.25 | CG iter. 19 -- res = 0.82637E+01, tol = 0.47504E+04, time = 7.32 | CG iter. 20 -- res = 0.46417E+01, tol = 0.47504E+04, time = 6.71 | CG iter. 21 -- res = 0.25549E+01, tol = 0.47504E+04, time = 6.27 | CG iter. 22 -- res = 0.13489E+01, tol = 0.47504E+04, time = 6.67 | CG iter. 23 -- res = 0.67734E+00, tol = 0.47504E+04, time = 6.37 | CG iter. 24 -- res = 0.35036E+00, tol = 0.47504E+04, time = 6.40 | CG iter. 25 -- res = 0.19139E+00, tol = 0.47504E+04, time = 6.78 | CG iter. 26 -- res = 0.11054E+00, tol = 0.47504E+04, time = 6.15 | CG iter. 27 -- res = 0.62766E-01, tol = 0.47504E+04, time = 6.30 | CG iter. 28 -- res = 0.34153E-01, tol = 0.47504E+04, time = 6.55 | CG iter. 29 -- res = 0.17952E-01, tol = 0.47504E+04, time = 6.25 | CG iter. 30 -- res = 0.92399E-02, tol = 0.47504E+04, time = 6.37 | CG iter. 31 -- res = 0.50277E-02, tol = 0.47504E+04, time = 5.97 | CG iter. 32 -- res = 0.28094E-02, tol = 0.47504E+04, time = 6.47 | CG iter. 33 -- res = 0.15833E-02, tol = 0.47504E+04, time = 6.69 | CG iter. 34 -- res = 0.85891E-03, tol = 0.47504E+04, time = 6.61 | CG iter. 35 -- res = 0.44224E-03, tol = 0.47504E+04, time = 12.50 | Final CG iter 36 -- res = 0.44224E-03, tol = 0.47504E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.367 2.747 | New value 3.125 | Old value -0.367 | Difference 3.492 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.63536E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.19202E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.61215E+00, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.10267E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.26217E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9448217.031 | (Sampled value in CG: 9463882.963 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.672154 | New value = -3.731104 | poltype: 1 pol: 1 CPU time specind = 1.4317036E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.41 | CG iter. 1 -- res = 0.23698E+07, tol = 0.25814E+01, time = 2.75 | CG iter. 2 -- res = 0.60297E+06, tol = 0.25814E+01, time = 4.21 | CG iter. 3 -- res = 0.13025E+06, tol = 0.25814E+01, time = 7.16 | CG iter. 4 -- res = 0.66903E+05, tol = 0.25814E+01, time = 2.74 | CG iter. 5 -- res = 0.40718E+05, tol = 0.25814E+01, time = 2.71 | CG iter. 6 -- res = 0.17718E+05, tol = 0.25814E+01, time = 2.81 | CG iter. 7 -- res = 0.61080E+04, tol = 0.25814E+01, time = 2.62 | CG iter. 8 -- res = 0.26709E+04, tol = 0.25814E+01, time = 2.64 | CG iter. 9 -- res = 0.11980E+04, tol = 0.25814E+01, time = 2.71 | CG iter. 10 -- res = 0.49535E+03, tol = 0.25814E+01, time = 2.46 | CG iter. 11 -- res = 0.22377E+03, tol = 0.25814E+01, time = 2.77 | CG iter. 12 -- res = 0.11792E+03, tol = 0.25814E+01, time = 2.75 | CG iter. 13 -- res = 0.57907E+02, tol = 0.25814E+01, time = 2.55 | CG iter. 14 -- res = 0.25320E+02, tol = 0.25814E+01, time = 2.64 | CG iter. 15 -- res = 0.10863E+02, tol = 0.25814E+01, time = 2.71 | CG iter. 16 -- res = 0.47966E+01, tol = 0.25814E+01, time = 2.66 | CG iter. 17 -- res = 0.20716E+01, tol = 0.25814E+01, time = 2.57 | CG iter. 18 -- res = 0.10422E+01, tol = 0.25814E+01, time = 2.75 | CG iter. 19 -- res = 0.51417E+00, tol = 0.25814E+01, time = 2.50 | CG iter. 20 -- res = 0.25589E+00, tol = 0.25814E+01, time = 2.76 | CG iter. 21 -- res = 0.11629E+00, tol = 0.25814E+01, time = 2.45 | CG iter. 22 -- res = 0.51056E-01, tol = 0.25814E+01, time = 2.61 | CG iter. 23 -- res = 0.23900E-01, tol = 0.25814E+01, time = 2.44 | CG iter. 24 -- res = 0.11919E-01, tol = 0.25814E+01, time = 2.60 | CG iter. 25 -- res = 0.60207E-02, tol = 0.25814E+01, time = 2.76 | CG iter. 26 -- res = 0.30166E-02, tol = 0.25814E+01, time = 2.80 | CG iter. 27 -- res = 0.13550E-02, tol = 0.25814E+01, time = 2.47 | CG iter. 28 -- res = 0.64604E-03, tol = 0.25814E+01, time = 2.64 | CG iter. 29 -- res = 0.28479E-03, tol = 0.25814E+01, time = 2.96 | CG iter. 30 -- res = 0.14081E-03, tol = 0.25814E+01, time = 2.66 | CG iter. 31 -- res = 0.72902E-04, tol = 0.25814E+01, time = 2.67 | CG iter. 32 -- res = 0.35886E-04, tol = 0.25814E+01, time = 2.64 | CG iter. 33 -- res = 0.15634E-04, tol = 0.25814E+01, time = 2.44 | CG iter. 34 -- res = 0.70989E-05, tol = 0.25814E+01, time = 3.42 | CG iter. 35 -- res = 0.33868E-05, tol = 0.25814E+01, time = 3.53 | CG iter. 36 -- res = 0.17337E-05, tol = 0.25814E+01, time = 2.76 | CG iter. 37 -- res = 0.85482E-06, tol = 0.25814E+01, time = 3.47 | CG iter. 38 -- res = 0.42287E-06, tol = 0.25814E+01, time = 3.18 | CG iter. 39 -- res = 0.18482E-06, tol = 0.25814E+01, time = 2.69 | CG iter. 40 -- res = 0.83058E-07, tol = 0.25814E+01, time = 2.32 | CG iter. 41 -- res = 0.40763E-07, tol = 0.25814E+01, time = 2.86 | CG iter. 42 -- res = 0.20506E-07, tol = 0.25814E+01, time = 2.71 | CG iter. 43 -- res = 0.98094E-08, tol = 0.25814E+01, time = 2.50 | CG iter. 44 -- res = 0.46778E-08, tol = 0.25814E+01, time = 2.78 | CG iter. 45 -- res = 0.20925E-08, tol = 0.25814E+01, time = 2.55 | CG iter. 46 -- res = 0.96977E-09, tol = 0.25814E+01, time = 2.36 | CG iter. 47 -- res = 0.46152E-09, tol = 0.25814E+01, time = 2.72 | CG iter. 48 -- res = 0.23276E-09, tol = 0.25814E+01, time = 2.43 | CG iter. 49 -- res = 0.11240E-09, tol = 0.25814E+01, time = 2.69 | CG iter. 50 -- res = 0.53289E-10, tol = 0.25814E+01, time = 2.81 | Final CG iter 51 -- res = 0.53289E-10, tol = 0.25814E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.867 4.603 | New value -1.086 | Old value 3.867 | Difference -4.954 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.24065E+05, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.22597E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.55820E+00, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.76263E-03, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.17497E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9448217.031 | (Sampled value in CG: 9460794.318 ) | CPU time specind = 1174.345 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.70301E+08, tol = 0.57944E+04, time = 11.21 | CG iter. 2 -- res = 0.59484E+08, tol = 0.57944E+04, time = 11.49 | CG iter. 3 -- res = 0.15909E+08, tol = 0.57944E+04, time = 12.12 | CG iter. 4 -- res = 0.68265E+07, tol = 0.57944E+04, time = 11.50 | CG iter. 5 -- res = 0.42240E+07, tol = 0.57944E+04, time = 11.55 | CG iter. 6 -- res = 0.24228E+07, tol = 0.57944E+04, time = 11.41 | CG iter. 7 -- res = 0.13703E+07, tol = 0.57944E+04, time = 17.85 | CG iter. 8 -- res = 0.90516E+06, tol = 0.57944E+04, time = 11.81 | CG iter. 9 -- res = 0.58622E+06, tol = 0.57944E+04, time = 11.66 | CG iter. 10 -- res = 0.35785E+06, tol = 0.57944E+04, time = 12.06 | CG iter. 11 -- res = 0.19671E+06, tol = 0.57944E+04, time = 11.45 | CG iter. 12 -- res = 0.10457E+06, tol = 0.57944E+04, time = 11.47 | CG iter. 13 -- res = 0.56306E+05, tol = 0.57944E+04, time = 11.40 | CG iter. 14 -- res = 0.33435E+05, tol = 0.57944E+04, time = 11.46 | CG iter. 15 -- res = 0.22714E+05, tol = 0.57944E+04, time = 13.23 | CG iter. 16 -- res = 0.16667E+05, tol = 0.57944E+04, time = 11.98 | CG iter. 17 -- res = 0.12842E+05, tol = 0.57944E+04, time = 11.85 | CG iter. 18 -- res = 0.96879E+04, tol = 0.57944E+04, time = 11.78 | CG iter. 19 -- res = 0.74029E+04, tol = 0.57944E+04, time = 11.73 | CG iter. 20 -- res = 0.58785E+04, tol = 0.57944E+04, time = 11.62 | CG iter. 21 -- res = 0.51279E+04, tol = 0.57944E+04, time = 11.70 | CG iter. 22 -- res = 0.50252E+04, tol = 0.57944E+04, time = 11.26 | CG iter. 23 -- res = 0.55037E+04, tol = 0.57944E+04, time = 11.28 | CG iter. 24 -- res = 0.62229E+04, tol = 0.57944E+04, time = 11.36 | CG iter. 25 -- res = 0.65783E+04, tol = 0.57944E+04, time = 11.88 | CG iter. 26 -- res = 0.61718E+04, tol = 0.57944E+04, time = 11.43 | CG iter. 27 -- res = 0.52174E+04, tol = 0.57944E+04, time = 11.30 | CG iter. 28 -- res = 0.41599E+04, tol = 0.57944E+04, time = 11.85 | CG iter. 29 -- res = 0.33627E+04, tol = 0.57944E+04, time = 11.55 | CG iter. 30 -- res = 0.28179E+04, tol = 0.57944E+04, time = 11.22 | CG iter. 31 -- res = 0.24008E+04, tol = 0.57944E+04, time = 11.40 | CG iter. 32 -- res = 0.20319E+04, tol = 0.57944E+04, time = 11.28 | CG iter. 33 -- res = 0.16498E+04, tol = 0.57944E+04, time = 17.42 | CG iter. 34 -- res = 0.12529E+04, tol = 0.57944E+04, time = 11.48 | CG iter. 35 -- res = 0.98071E+03, tol = 0.57944E+04, time = 11.35 | CG iter. 36 -- res = 0.82753E+03, tol = 0.57944E+04, time = 11.69 | CG iter. 37 -- res = 0.77226E+03, tol = 0.57944E+04, time = 11.58 | CG iter. 38 -- res = 0.75213E+03, tol = 0.57944E+04, time = 11.53 | CG iter. 39 -- res = 0.72870E+03, tol = 0.57944E+04, time = 11.34 | CG iter. 40 -- res = 0.67222E+03, tol = 0.57944E+04, time = 13.39 | CG iter. 41 -- res = 0.58829E+03, tol = 0.57944E+04, time = 12.00 | CG iter. 42 -- res = 0.50491E+03, tol = 0.57944E+04, time = 11.80 | CG iter. 43 -- res = 0.43773E+03, tol = 0.57944E+04, time = 11.32 | CG iter. 44 -- res = 0.39168E+03, tol = 0.57944E+04, time = 11.24 | CG iter. 45 -- res = 0.35902E+03, tol = 0.57944E+04, time = 11.70 | CG iter. 46 -- res = 0.31761E+03, tol = 0.57944E+04, time = 12.19 | CG iter. 47 -- res = 0.27555E+03, tol = 0.57944E+04, time = 11.47 | CG iter. 48 -- res = 0.23042E+03, tol = 0.57944E+04, time = 11.23 | CG iter. 49 -- res = 0.19392E+03, tol = 0.57944E+04, time = 12.15 | CG iter. 50 -- res = 0.17017E+03, tol = 0.57944E+04, time = 11.94 | CG iter. 51 -- res = 0.15467E+03, tol = 0.57944E+04, time = 11.77 | CG iter. 52 -- res = 0.14698E+03, tol = 0.57944E+04, time = 11.16 | CG iter. 53 -- res = 0.14221E+03, tol = 0.57944E+04, time = 11.55 | CG iter. 54 -- res = 0.13478E+03, tol = 0.57944E+04, time = 11.64 | CG iter. 55 -- res = 0.12558E+03, tol = 0.57944E+04, time = 11.56 | CG iter. 56 -- res = 0.11213E+03, tol = 0.57944E+04, time = 11.41 | CG iter. 57 -- res = 0.10215E+03, tol = 0.57944E+04, time = 11.16 | CG iter. 58 -- res = 0.95401E+02, tol = 0.57944E+04, time = 17.38 | CG iter. 59 -- res = 0.88674E+02, tol = 0.57944E+04, time = 11.79 | CG iter. 60 -- res = 0.83617E+02, tol = 0.57944E+04, time = 11.40 | Final CG iter 61 -- res = 0.83617E+02, tol = 0.57944E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.709 ( -229.637 -2229.832 2512.141 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8482755.483 | Old band monopole 9448257.670 | Change to band monopole -965502.187 | Change to component monopole 965498.034 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.146 2.755 | New value -1.057 | Old value 3.146 | Difference -4.203 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.407 ( 6.954 8.186 -7.382 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.887 6.098 | New value 4.831 | Old value 1.887 | Difference 2.944 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.10450E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.51846E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.20295E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.31084E-02, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.44860E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8482718.997 | (Sampled value in CG: 8458614.669 ) | Chain = 1 -- chisq = 0.81543924E+09 | Chain = 1 -- wall time = 16393.093 sec Available RAM: MemAvailable: 472119804 kB Available Swap: SwapFree: 1050938656 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 352 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06448649 | --> Sampling calibration, mode = relcal | relcal = 1.3440781E-02 7.3718285E-04 -1.5949067E-03 -1.2583058E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1349313 0.1505259 9402111.52485194 | BP delta = 0.1349313 0.1510718 9402117.53325765 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632189 | --> Sampling calibration, mode = relcal | relcal = -2.8192166E-03 -7.0406892E-04 1.6778952E-03 1.6132062E-03 -4.0837741E-04 6.4056157E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5701116 15222090.2165000 | BP delta = 0.0000000E+00 -0.5636175 15222090.7756180 | BP chisq diff = 0.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17885065872114 | --> Sampling calibration, mode = relcal | relcal = -7.3196083E-02 -5.7159144E-02 8.9903846E-02 4.0451374E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1308492E-04 2.4133620E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4816E-04 | 2: delta_r/delta_0: 2.1830E-06 | 3: delta_s/delta_0: 1.7025E-07 | 4: delta_r/delta_0: 2.7493E-08 | 5: delta_s/delta_0: 1.4098E-08 | 6: delta_r/delta_0: 2.2306E-09 | 7: delta_s/delta_0: 1.1069E-09 | 8: delta_r/delta_0: 1.7579E-10 | 9: delta_s/delta_0: 8.7720E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 3.237243842016553E-004 2.746335350408769E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4818E-04 | 2: delta_r/delta_0: 2.1828E-06 | 3: delta_s/delta_0: 1.7026E-07 | 4: delta_r/delta_0: 2.7491E-08 | 5: delta_s/delta_0: 1.4100E-08 | 6: delta_r/delta_0: 2.2316E-09 | 7: delta_s/delta_0: 1.1080E-09 | 8: delta_r/delta_0: 1.7581E-10 | 9: delta_s/delta_0: 8.7709E-11 | Reached bicg-stab tolerance | BP delta = 8.7792158E-02 0.1100516 3667394.03352209 | BP delta = 8.7792158E-02 0.1097715 3672477.33283164 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02585878 | --> Sampling calibration, mode = relcal | relcal = -0.1065945 -9.5589817E-02 0.1449093 5.7275020E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3103912E-03 1.4472802E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1699E-05 | 2: delta_r/delta_0: 1.2281E-06 | 3: delta_s/delta_0: 2.4539E-07 | 4: delta_r/delta_0: 5.5043E-08 | 5: delta_s/delta_0: 1.9782E-08 | 6: delta_r/delta_0: 7.8291E-09 | 7: delta_s/delta_0: 2.1886E-08 | 8: delta_r/delta_0: 1.0572E-09 | 9: delta_s/delta_0: 1.0815E-09 | 10: delta_r/delta_0: 1.6876E-10 | 11: delta_s/delta_0: 4.8523E-10 | 12: delta_r/delta_0: 2.5855E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.815455857458627E-003 2.811205958626641E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1699E-05 | 2: delta_r/delta_0: 1.2282E-06 | 3: delta_s/delta_0: 2.4539E-07 | 4: delta_r/delta_0: 5.5046E-08 | 5: delta_s/delta_0: 1.9778E-08 | 6: delta_r/delta_0: 7.8292E-09 | 7: delta_s/delta_0: 2.1886E-08 | 8: delta_r/delta_0: 1.0572E-09 | 9: delta_s/delta_0: 1.0815E-09 | 10: delta_r/delta_0: 1.6872E-10 | 11: delta_s/delta_0: 4.8516E-10 | 12: delta_r/delta_0: 2.5853E-11 | Reached bicg-stab tolerance | BP delta = -0.2764439 -0.2460685 2841694.98162638 | BP delta = -0.2764439 -0.2419218 2841719.76037468 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81193335 | --> Sampling calibration, mode = relcal | relcal = 0.2954343 0.2246451 -0.2835749 -0.2365045 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.4527754E-05 4.8531690E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.7151E-03 | 2: delta_r/delta_0: 1.3572E-04 | 3: delta_s/delta_0: 7.5628E-05 | 4: delta_r/delta_0: 5.6765E-06 | 5: delta_s/delta_0: 1.6321E-06 | 6: delta_r/delta_0: 4.4299E-07 | 7: delta_s/delta_0: 1.0826E-06 | 8: delta_r/delta_0: 1.2056E-07 | 9: delta_s/delta_0: 3.0998E-07 | 10: delta_r/delta_0: 6.3730E-08 | 11: delta_s/delta_0: 5.0467E-09 | 12: delta_r/delta_0: 2.8129E-09 | 13: delta_s/delta_0: 2.1747E-09 | 14: delta_r/delta_0: 1.1996E-09 | 15: delta_s/delta_0: 1.8145E-10 | 16: delta_r/delta_0: 9.8440E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.548442124249909E-002 4.023107093490330E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.7094E-03 | 2: delta_r/delta_0: 1.3558E-04 | 3: delta_s/delta_0: 7.5547E-05 | 4: delta_r/delta_0: 5.6703E-06 | 5: delta_s/delta_0: 1.6313E-06 | 6: delta_r/delta_0: 4.4296E-07 | 7: delta_s/delta_0: 1.0833E-06 | 8: delta_r/delta_0: 1.2048E-07 | 9: delta_s/delta_0: 3.1049E-07 | 10: delta_r/delta_0: 6.3974E-08 | 11: delta_s/delta_0: 5.0514E-09 | 12: delta_r/delta_0: 2.8127E-09 | 13: delta_s/delta_0: 2.1695E-09 | 14: delta_r/delta_0: 1.1985E-09 | 15: delta_s/delta_0: 1.8213E-10 | 16: delta_r/delta_0: 9.8321E-11 | Reached bicg-stab tolerance | BP delta = -0.1365557 -0.1790071 2827406.87369145 | BP delta = -0.1365557 -0.1883200 2827445.67221057 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95876361 | --> Sampling calibration, mode = relcal | relcal = 0.1064163 0.1394300 -0.1101864 -0.1356599 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0544535E-02 1.3279752E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7525E-04 | 2: delta_r/delta_0: 1.1683E-05 | 3: delta_s/delta_0: 5.9297E-06 | 4: delta_r/delta_0: 7.3856E-07 | 5: delta_s/delta_0: 4.5351E-07 | 6: delta_r/delta_0: 1.5269E-07 | 7: delta_s/delta_0: 2.2733E-07 | 8: delta_r/delta_0: 3.2496E-08 | 9: delta_s/delta_0: 1.1921E-07 | 10: delta_r/delta_0: 6.3908E-08 | 11: delta_s/delta_0: 2.3037E-09 | 12: delta_r/delta_0: 1.3977E-09 | 13: delta_s/delta_0: 8.2653E-10 | 14: delta_r/delta_0: 3.4493E-10 | 15: delta_s/delta_0: 8.9273E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.248939172284026E-002 3.698634419332358E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.7512E-04 | 2: delta_r/delta_0: 1.1680E-05 | 3: delta_s/delta_0: 5.9283E-06 | 4: delta_r/delta_0: 7.3848E-07 | 5: delta_s/delta_0: 4.5327E-07 | 6: delta_r/delta_0: 1.5262E-07 | 7: delta_s/delta_0: 2.2686E-07 | 8: delta_r/delta_0: 3.2492E-08 | 9: delta_s/delta_0: 1.1868E-07 | 10: delta_r/delta_0: 6.3666E-08 | 11: delta_s/delta_0: 2.3012E-09 | 12: delta_r/delta_0: 1.3958E-09 | 13: delta_s/delta_0: 8.3032E-10 | 14: delta_r/delta_0: 3.4360E-10 | 15: delta_s/delta_0: 8.9242E-11 | Reached bicg-stab tolerance | BP delta = 0.1777981 0.2913238 3003630.52431060 | BP delta = 0.1777981 0.2845750 3003585.60827288 | BP chisq diff = -44.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135406 | New value = -3.204259 | poltype: 2 pol: 1 CPU time specind = 1.9695997E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181469 | New value = -3.107573 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142270 | New value = -3.145705 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137790 | New value = -3.163106 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.087799 | New value = -3.124372 | poltype: 2 pol: 2 CPU time specind = 2.0490885E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.13588E+08, tol = 0.81409E+01, time = 6.14 | CG iter. 2 -- res = 0.34770E+06, tol = 0.81409E+01, time = 6.23 | CG iter. 3 -- res = 0.64904E+05, tol = 0.81409E+01, time = 5.87 | CG iter. 4 -- res = 0.55232E+05, tol = 0.81409E+01, time = 5.54 | CG iter. 5 -- res = 0.56063E+05, tol = 0.81409E+01, time = 5.69 | CG iter. 6 -- res = 0.57522E+05, tol = 0.81409E+01, time = 5.79 | CG iter. 7 -- res = 0.57718E+05, tol = 0.81409E+01, time = 5.88 | CG iter. 8 -- res = 0.50374E+05, tol = 0.81409E+01, time = 5.53 | CG iter. 9 -- res = 0.43609E+05, tol = 0.81409E+01, time = 6.39 | CG iter. 10 -- res = 0.34672E+05, tol = 0.81409E+01, time = 5.73 | CG iter. 11 -- res = 0.23296E+05, tol = 0.81409E+01, time = 5.52 | CG iter. 12 -- res = 0.16653E+05, tol = 0.81409E+01, time = 5.76 | CG iter. 13 -- res = 0.14265E+05, tol = 0.81409E+01, time = 5.99 | CG iter. 14 -- res = 0.13515E+05, tol = 0.81409E+01, time = 5.68 | CG iter. 15 -- res = 0.11493E+05, tol = 0.81409E+01, time = 6.03 | CG iter. 16 -- res = 0.83478E+04, tol = 0.81409E+01, time = 5.70 | CG iter. 17 -- res = 0.64541E+04, tol = 0.81409E+01, time = 5.71 | CG iter. 18 -- res = 0.55118E+04, tol = 0.81409E+01, time = 6.08 | CG iter. 19 -- res = 0.48623E+04, tol = 0.81409E+01, time = 5.68 | CG iter. 20 -- res = 0.39470E+04, tol = 0.81409E+01, time = 5.47 | CG iter. 21 -- res = 0.30928E+04, tol = 0.81409E+01, time = 5.85 | CG iter. 22 -- res = 0.27431E+04, tol = 0.81409E+01, time = 6.07 | CG iter. 23 -- res = 0.24749E+04, tol = 0.81409E+01, time = 5.87 | CG iter. 24 -- res = 0.20582E+04, tol = 0.81409E+01, time = 5.90 | CG iter. 25 -- res = 0.16211E+04, tol = 0.81409E+01, time = 5.93 | CG iter. 26 -- res = 0.13894E+04, tol = 0.81409E+01, time = 5.64 | CG iter. 27 -- res = 0.13427E+04, tol = 0.81409E+01, time = 5.63 | CG iter. 28 -- res = 0.12187E+04, tol = 0.81409E+01, time = 6.11 | CG iter. 29 -- res = 0.10027E+04, tol = 0.81409E+01, time = 5.62 | CG iter. 30 -- res = 0.82749E+03, tol = 0.81409E+01, time = 5.56 | CG iter. 31 -- res = 0.76156E+03, tol = 0.81409E+01, time = 6.00 | CG iter. 32 -- res = 0.69562E+03, tol = 0.81409E+01, time = 6.05 | CG iter. 33 -- res = 0.56178E+03, tol = 0.81409E+01, time = 6.05 | CG iter. 34 -- res = 0.44477E+03, tol = 0.81409E+01, time = 5.47 | CG iter. 35 -- res = 0.40025E+03, tol = 0.81409E+01, time = 6.64 | CG iter. 36 -- res = 0.35758E+03, tol = 0.81409E+01, time = 10.84 | CG iter. 37 -- res = 0.29212E+03, tol = 0.81409E+01, time = 5.73 | CG iter. 38 -- res = 0.22354E+03, tol = 0.81409E+01, time = 6.18 | CG iter. 39 -- res = 0.18333E+03, tol = 0.81409E+01, time = 5.90 | CG iter. 40 -- res = 0.15948E+03, tol = 0.81409E+01, time = 6.08 | CG iter. 41 -- res = 0.12767E+03, tol = 0.81409E+01, time = 6.09 | CG iter. 42 -- res = 0.95509E+02, tol = 0.81409E+01, time = 5.66 | CG iter. 43 -- res = 0.78003E+02, tol = 0.81409E+01, time = 6.14 | CG iter. 44 -- res = 0.65323E+02, tol = 0.81409E+01, time = 5.95 | CG iter. 45 -- res = 0.53942E+02, tol = 0.81409E+01, time = 5.57 | CG iter. 46 -- res = 0.42850E+02, tol = 0.81409E+01, time = 5.94 | CG iter. 47 -- res = 0.32985E+02, tol = 0.81409E+01, time = 5.99 | CG iter. 48 -- res = 0.27119E+02, tol = 0.81409E+01, time = 5.58 | CG iter. 49 -- res = 0.22417E+02, tol = 0.81409E+01, time = 5.83 | CG iter. 50 -- res = 0.18254E+02, tol = 0.81409E+01, time = 7.35 | Final CG iter 51 -- res = 0.18254E+02, tol = 0.81409E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10076599.112 | Old band monopole 8482755.483 | Change to band monopole 1593843.629 | Change to component monopole -1593836.773 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.42407E+06, tol = 0.47627E+18, time = 2.13 | CG iter. 2 -- res = 0.19904E+03, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.34843E+01, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.17620E-01, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.28384E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10076555.770 | (Sampled value in CG: 10025917.006 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.474302 | New value = 1.446926 | poltype: 2 pol: 1 CPU time specind = 2.1723986E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.529197 | New value = 1.534773 | poltype: 2 pol: 2 CPU time specind = 4.5568943E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.24167E+08, tol = 0.47460E+04, time = 6.32 | CG iter. 2 -- res = 0.53901E+07, tol = 0.47460E+04, time = 6.48 | CG iter. 3 -- res = 0.84392E+06, tol = 0.47460E+04, time = 6.82 | CG iter. 4 -- res = 0.35388E+06, tol = 0.47460E+04, time = 6.64 | CG iter. 5 -- res = 0.15493E+06, tol = 0.47460E+04, time = 7.17 | CG iter. 6 -- res = 0.81377E+05, tol = 0.47460E+04, time = 6.78 | CG iter. 7 -- res = 0.43914E+05, tol = 0.47460E+04, time = 6.34 | CG iter. 8 -- res = 0.20655E+05, tol = 0.47460E+04, time = 6.52 | CG iter. 9 -- res = 0.89332E+04, tol = 0.47460E+04, time = 6.63 | CG iter. 10 -- res = 0.36782E+04, tol = 0.47460E+04, time = 6.61 | CG iter. 11 -- res = 0.16780E+04, tol = 0.47460E+04, time = 6.63 | CG iter. 12 -- res = 0.88113E+03, tol = 0.47460E+04, time = 6.86 | CG iter. 13 -- res = 0.49564E+03, tol = 0.47460E+04, time = 7.06 | CG iter. 14 -- res = 0.27553E+03, tol = 0.47460E+04, time = 12.36 | CG iter. 15 -- res = 0.14293E+03, tol = 0.47460E+04, time = 6.64 | CG iter. 16 -- res = 0.67576E+02, tol = 0.47460E+04, time = 7.18 | CG iter. 17 -- res = 0.30886E+02, tol = 0.47460E+04, time = 6.60 | CG iter. 18 -- res = 0.15376E+02, tol = 0.47460E+04, time = 6.30 | CG iter. 19 -- res = 0.85507E+01, tol = 0.47460E+04, time = 6.84 | CG iter. 20 -- res = 0.49714E+01, tol = 0.47460E+04, time = 6.64 | CG iter. 21 -- res = 0.27393E+01, tol = 0.47460E+04, time = 6.87 | CG iter. 22 -- res = 0.13608E+01, tol = 0.47460E+04, time = 6.58 | CG iter. 23 -- res = 0.66052E+00, tol = 0.47460E+04, time = 7.29 | CG iter. 24 -- res = 0.34222E+00, tol = 0.47460E+04, time = 6.70 | CG iter. 25 -- res = 0.18877E+00, tol = 0.47460E+04, time = 6.60 | CG iter. 26 -- res = 0.10977E+00, tol = 0.47460E+04, time = 7.20 | CG iter. 27 -- res = 0.62080E-01, tol = 0.47460E+04, time = 8.14 | CG iter. 28 -- res = 0.32667E-01, tol = 0.47460E+04, time = 6.91 | CG iter. 29 -- res = 0.16961E-01, tol = 0.47460E+04, time = 6.79 | CG iter. 30 -- res = 0.90551E-02, tol = 0.47460E+04, time = 6.48 | CG iter. 31 -- res = 0.49727E-02, tol = 0.47460E+04, time = 6.44 | CG iter. 32 -- res = 0.27740E-02, tol = 0.47460E+04, time = 6.77 | CG iter. 33 -- res = 0.15599E-02, tol = 0.47460E+04, time = 6.88 | CG iter. 34 -- res = 0.83058E-03, tol = 0.47460E+04, time = 6.62 | CG iter. 35 -- res = 0.44243E-03, tol = 0.47460E+04, time = 6.97 | Final CG iter 36 -- res = 0.44243E-03, tol = 0.47460E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.077 2.761 | New value 2.294 | Old value -1.077 | Difference 3.370 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.58842E+06, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.46522E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.14434E+01, tol = 0.47627E+18, time = 2.28 | CG iter. 4 -- res = 0.12711E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.30233E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10076555.770 | (Sampled value in CG: 10027299.700 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.731104 | New value = -3.698686 | poltype: 1 pol: 1 CPU time specind = 2.4899006E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.28269E+07, tol = 0.20948E+01, time = 2.96 | CG iter. 2 -- res = 0.92686E+06, tol = 0.20948E+01, time = 2.97 | CG iter. 3 -- res = 0.19881E+06, tol = 0.20948E+01, time = 2.67 | CG iter. 4 -- res = 0.10704E+06, tol = 0.20948E+01, time = 2.91 | CG iter. 5 -- res = 0.66086E+05, tol = 0.20948E+01, time = 2.60 | CG iter. 6 -- res = 0.27239E+05, tol = 0.20948E+01, time = 2.88 | CG iter. 7 -- res = 0.88943E+04, tol = 0.20948E+01, time = 2.95 | CG iter. 8 -- res = 0.36793E+04, tol = 0.20948E+01, time = 2.61 | CG iter. 9 -- res = 0.16550E+04, tol = 0.20948E+01, time = 2.71 | CG iter. 10 -- res = 0.65754E+03, tol = 0.20948E+01, time = 2.84 | CG iter. 11 -- res = 0.29230E+03, tol = 0.20948E+01, time = 2.84 | CG iter. 12 -- res = 0.15557E+03, tol = 0.20948E+01, time = 2.87 | CG iter. 13 -- res = 0.77799E+02, tol = 0.20948E+01, time = 2.77 | CG iter. 14 -- res = 0.35709E+02, tol = 0.20948E+01, time = 3.42 | CG iter. 15 -- res = 0.14908E+02, tol = 0.20948E+01, time = 2.56 | CG iter. 16 -- res = 0.60431E+01, tol = 0.20948E+01, time = 2.82 | CG iter. 17 -- res = 0.27392E+01, tol = 0.20948E+01, time = 2.51 | CG iter. 18 -- res = 0.13535E+01, tol = 0.20948E+01, time = 2.70 | CG iter. 19 -- res = 0.68683E+00, tol = 0.20948E+01, time = 2.55 | CG iter. 20 -- res = 0.34247E+00, tol = 0.20948E+01, time = 2.58 | CG iter. 21 -- res = 0.15123E+00, tol = 0.20948E+01, time = 2.77 | CG iter. 22 -- res = 0.65707E-01, tol = 0.20948E+01, time = 2.88 | CG iter. 23 -- res = 0.28943E-01, tol = 0.20948E+01, time = 2.88 | CG iter. 24 -- res = 0.14617E-01, tol = 0.20948E+01, time = 2.73 | CG iter. 25 -- res = 0.76247E-02, tol = 0.20948E+01, time = 2.69 | CG iter. 26 -- res = 0.37281E-02, tol = 0.20948E+01, time = 2.78 | CG iter. 27 -- res = 0.16985E-02, tol = 0.20948E+01, time = 2.75 | CG iter. 28 -- res = 0.78363E-03, tol = 0.20948E+01, time = 2.91 | CG iter. 29 -- res = 0.34942E-03, tol = 0.20948E+01, time = 2.70 | CG iter. 30 -- res = 0.17254E-03, tol = 0.20948E+01, time = 2.85 | CG iter. 31 -- res = 0.88445E-04, tol = 0.20948E+01, time = 2.93 | CG iter. 32 -- res = 0.43425E-04, tol = 0.20948E+01, time = 2.82 | CG iter. 33 -- res = 0.20421E-04, tol = 0.20948E+01, time = 2.90 | CG iter. 34 -- res = 0.89209E-05, tol = 0.20948E+01, time = 2.99 | CG iter. 35 -- res = 0.42127E-05, tol = 0.20948E+01, time = 2.74 | CG iter. 36 -- res = 0.21161E-05, tol = 0.20948E+01, time = 2.85 | CG iter. 37 -- res = 0.10664E-05, tol = 0.20948E+01, time = 3.04 | CG iter. 38 -- res = 0.50942E-06, tol = 0.20948E+01, time = 2.89 | CG iter. 39 -- res = 0.23725E-06, tol = 0.20948E+01, time = 2.56 | CG iter. 40 -- res = 0.10801E-06, tol = 0.20948E+01, time = 2.72 | CG iter. 41 -- res = 0.51150E-07, tol = 0.20948E+01, time = 2.85 | CG iter. 42 -- res = 0.24285E-07, tol = 0.20948E+01, time = 2.63 | CG iter. 43 -- res = 0.12179E-07, tol = 0.20948E+01, time = 2.69 | CG iter. 44 -- res = 0.56511E-08, tol = 0.20948E+01, time = 2.57 | CG iter. 45 -- res = 0.26187E-08, tol = 0.20948E+01, time = 2.85 | CG iter. 46 -- res = 0.11819E-08, tol = 0.20948E+01, time = 2.37 | CG iter. 47 -- res = 0.56410E-09, tol = 0.20948E+01, time = 2.82 | CG iter. 48 -- res = 0.27572E-09, tol = 0.20948E+01, time = 2.66 | CG iter. 49 -- res = 0.13334E-09, tol = 0.20948E+01, time = 2.92 | CG iter. 50 -- res = 0.61423E-10, tol = 0.20948E+01, time = 9.27 | Final CG iter 51 -- res = 0.61423E-10, tol = 0.20948E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.141 6.436 | New value 1.709 | Old value 1.141 | Difference 0.568 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.21941E+04, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.12053E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.44043E+00, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.58155E-04, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.58695E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10076555.770 | (Sampled value in CG: 10037391.918 ) | CPU time specind = 1219.212 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.68922E+08, tol = 0.57856E+04, time = 12.41 | CG iter. 2 -- res = 0.58556E+08, tol = 0.57856E+04, time = 12.47 | CG iter. 3 -- res = 0.15178E+08, tol = 0.57856E+04, time = 12.07 | CG iter. 4 -- res = 0.64101E+07, tol = 0.57856E+04, time = 12.38 | CG iter. 5 -- res = 0.38506E+07, tol = 0.57856E+04, time = 12.05 | CG iter. 6 -- res = 0.22759E+07, tol = 0.57856E+04, time = 12.07 | CG iter. 7 -- res = 0.13376E+07, tol = 0.57856E+04, time = 12.02 | CG iter. 8 -- res = 0.88218E+06, tol = 0.57856E+04, time = 12.47 | CG iter. 9 -- res = 0.58269E+06, tol = 0.57856E+04, time = 11.92 | CG iter. 10 -- res = 0.35732E+06, tol = 0.57856E+04, time = 11.94 | CG iter. 11 -- res = 0.20295E+06, tol = 0.57856E+04, time = 12.20 | CG iter. 12 -- res = 0.11320E+06, tol = 0.57856E+04, time = 12.26 | CG iter. 13 -- res = 0.67752E+05, tol = 0.57856E+04, time = 12.19 | CG iter. 14 -- res = 0.45752E+05, tol = 0.57856E+04, time = 11.83 | CG iter. 15 -- res = 0.37657E+05, tol = 0.57856E+04, time = 12.03 | CG iter. 16 -- res = 0.34935E+05, tol = 0.57856E+04, time = 11.76 | CG iter. 17 -- res = 0.34116E+05, tol = 0.57856E+04, time = 18.24 | CG iter. 18 -- res = 0.31771E+05, tol = 0.57856E+04, time = 11.98 | CG iter. 19 -- res = 0.29148E+05, tol = 0.57856E+04, time = 12.09 | CG iter. 20 -- res = 0.27176E+05, tol = 0.57856E+04, time = 11.50 | CG iter. 21 -- res = 0.27251E+05, tol = 0.57856E+04, time = 11.99 | CG iter. 22 -- res = 0.28731E+05, tol = 0.57856E+04, time = 12.45 | CG iter. 23 -- res = 0.29385E+05, tol = 0.57856E+04, time = 11.74 | CG iter. 24 -- res = 0.27895E+05, tol = 0.57856E+04, time = 13.03 | CG iter. 25 -- res = 0.23526E+05, tol = 0.57856E+04, time = 13.21 | CG iter. 26 -- res = 0.17620E+05, tol = 0.57856E+04, time = 11.66 | CG iter. 27 -- res = 0.12704E+05, tol = 0.57856E+04, time = 11.85 | CG iter. 28 -- res = 0.94661E+04, tol = 0.57856E+04, time = 12.23 | CG iter. 29 -- res = 0.76377E+04, tol = 0.57856E+04, time = 11.99 | CG iter. 30 -- res = 0.66221E+04, tol = 0.57856E+04, time = 11.80 | CG iter. 31 -- res = 0.58430E+04, tol = 0.57856E+04, time = 11.89 | CG iter. 32 -- res = 0.51286E+04, tol = 0.57856E+04, time = 12.37 | CG iter. 33 -- res = 0.45145E+04, tol = 0.57856E+04, time = 12.42 | CG iter. 34 -- res = 0.39968E+04, tol = 0.57856E+04, time = 12.62 | CG iter. 35 -- res = 0.35568E+04, tol = 0.57856E+04, time = 11.87 | CG iter. 36 -- res = 0.32962E+04, tol = 0.57856E+04, time = 11.73 | CG iter. 37 -- res = 0.31766E+04, tol = 0.57856E+04, time = 11.71 | CG iter. 38 -- res = 0.30682E+04, tol = 0.57856E+04, time = 12.41 | CG iter. 39 -- res = 0.27975E+04, tol = 0.57856E+04, time = 11.81 | CG iter. 40 -- res = 0.22977E+04, tol = 0.57856E+04, time = 12.16 | CG iter. 41 -- res = 0.17924E+04, tol = 0.57856E+04, time = 12.17 | CG iter. 42 -- res = 0.14252E+04, tol = 0.57856E+04, time = 18.19 | CG iter. 43 -- res = 0.12114E+04, tol = 0.57856E+04, time = 11.98 | CG iter. 44 -- res = 0.10777E+04, tol = 0.57856E+04, time = 11.62 | CG iter. 45 -- res = 0.99636E+03, tol = 0.57856E+04, time = 12.01 | CG iter. 46 -- res = 0.91728E+03, tol = 0.57856E+04, time = 11.76 | CG iter. 47 -- res = 0.81160E+03, tol = 0.57856E+04, time = 12.23 | CG iter. 48 -- res = 0.70534E+03, tol = 0.57856E+04, time = 11.89 | CG iter. 49 -- res = 0.62925E+03, tol = 0.57856E+04, time = 13.37 | CG iter. 50 -- res = 0.59491E+03, tol = 0.57856E+04, time = 12.50 | CG iter. 51 -- res = 0.58240E+03, tol = 0.57856E+04, time = 12.35 | CG iter. 52 -- res = 0.55327E+03, tol = 0.57856E+04, time = 12.00 | CG iter. 53 -- res = 0.51528E+03, tol = 0.57856E+04, time = 11.73 | CG iter. 54 -- res = 0.45927E+03, tol = 0.57856E+04, time = 12.27 | CG iter. 55 -- res = 0.40425E+03, tol = 0.57856E+04, time = 11.65 | CG iter. 56 -- res = 0.35423E+03, tol = 0.57856E+04, time = 12.07 | CG iter. 57 -- res = 0.30941E+03, tol = 0.57856E+04, time = 12.39 | CG iter. 58 -- res = 0.28497E+03, tol = 0.57856E+04, time = 12.52 | CG iter. 59 -- res = 0.27572E+03, tol = 0.57856E+04, time = 11.91 | CG iter. 60 -- res = 0.26560E+03, tol = 0.57856E+04, time = 12.13 | Final CG iter 61 -- res = 0.26560E+03, tol = 0.57856E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.833 ( -229.936 -2232.904 2515.414 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9948257.397 | Old band monopole 10076599.112 | Change to band monopole -128341.715 | Change to component monopole 128341.163 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.330 2.768 | New value 1.410 | Old value 2.330 | Difference -0.921 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.564 ( 8.340 14.459 -13.649 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.875 3.835 | New value 1.358 | Old value 13.875 | Difference -12.517 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.81558E+05, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.41932E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.16660E+01, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.41667E-02, tol = 0.47627E+18, time = 2.30 | Final CG iter 5 -- res = 0.26746E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9948214.608 | (Sampled value in CG: 9922042.156 ) | Chain = 1 -- chisq = 0.81562658E+09 | Chain = 1 -- wall time = 6204.968 sec Available RAM: MemAvailable: 378907388 kB Available Swap: SwapFree: 1111697756 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 353 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445125 | --> Sampling calibration, mode = relcal | relcal = 1.3430608E-02 7.5654703E-04 -1.5985803E-03 -1.2588575E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1349313 0.1505259 97040904.4027706 | BP delta = 0.1373859 0.1529804 97040904.1616082 | BP chisq diff = -0.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632449 | --> Sampling calibration, mode = relcal | relcal = -2.8209102E-03 -7.0479367E-04 1.6798374E-03 1.6139116E-03 -4.0798777E-04 6.3994259E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5636175 15221227.0834682 | BP delta = 0.0000000E+00 -0.5645981 15221231.3432734 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18004675366592 | --> Sampling calibration, mode = relcal | relcal = -7.5165145E-02 -5.8369733E-02 9.1875501E-02 4.1659378E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1829710E-04 4.3833130E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1037E-05 | 2: delta_r/delta_0: 8.3536E-07 | 3: delta_s/delta_0: 2.3973E-07 | 4: delta_r/delta_0: 1.7122E-08 | 5: delta_s/delta_0: 2.4997E-08 | 6: delta_r/delta_0: 1.6209E-09 | 7: delta_s/delta_0: 4.4645E-10 | 8: delta_r/delta_0: 1.5388E-10 | 9: delta_s/delta_0: 2.9547E-09 | 10: delta_r/delta_0: 6.4304E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.178351785449846E-003 2.743290152478749E-005 | BP delta = 8.7792158E-02 0.1100516 50483079.2315879 | BP delta = 8.6583376E-02 0.1088428 50483079.2344689 | BP chisq diff = 0.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02624834 | --> Sampling calibration, mode = relcal | relcal = -0.1066633 -9.5560260E-02 0.1449262 5.7297371E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4733706E-03 1.3987863E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6742E-05 | 2: delta_r/delta_0: 1.2896E-06 | 3: delta_s/delta_0: 2.5027E-07 | 4: delta_r/delta_0: 4.0258E-08 | 5: delta_s/delta_0: 2.1622E-08 | 6: delta_r/delta_0: 6.2682E-09 | 7: delta_s/delta_0: 6.3341E-09 | 8: delta_r/delta_0: 1.3911E-09 | 9: delta_s/delta_0: 6.9543E-10 | 10: delta_r/delta_0: 5.1946E-10 | 11: delta_s/delta_0: 3.2146E-10 | 12: delta_r/delta_0: 1.2524E-10 | 13: delta_s/delta_0: 1.1756E-10 | 14: delta_r/delta_0: 7.7766E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.643887403022576E-003 2.810131763147501E-005 | BP delta = -0.2764439 -0.2460685 57390490.1992904 | BP delta = -0.2744756 -0.2441002 57390490.0701397 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81227308 | --> Sampling calibration, mode = relcal | relcal = 0.2955199 0.2247942 -0.2837997 -0.2365143 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9305310E-04 4.6835914E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5691E-04 | 2: delta_r/delta_0: 1.4895E-05 | 3: delta_s/delta_0: 7.4877E-06 | 4: delta_r/delta_0: 9.5199E-07 | 5: delta_s/delta_0: 2.4909E-07 | 6: delta_r/delta_0: 5.4265E-08 | 7: delta_s/delta_0: 4.2800E-08 | 8: delta_r/delta_0: 2.9272E-08 | 9: delta_s/delta_0: 6.9301E-08 | 10: delta_r/delta_0: 1.6816E-09 | 11: delta_s/delta_0: 6.4878E-10 | 12: delta_r/delta_0: 4.3933E-10 | 13: delta_s/delta_0: 2.6294E-10 | 14: delta_r/delta_0: 3.5025E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.977041614996607E-002 4.021473315542344E-005 | BP delta = -0.1365557 -0.1790071 72481544.7637268 | BP delta = -0.1173146 -0.1597659 72481545.5524226 | BP chisq diff = 0.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95925203 | --> Sampling calibration, mode = relcal | relcal = 0.1064584 0.1395792 -0.1102388 -0.1357988 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5412992E-03 1.4498219E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7188E-03 | 2: delta_r/delta_0: 8.7428E-05 | 3: delta_s/delta_0: 6.7983E-06 | 4: delta_r/delta_0: 1.2058E-06 | 5: delta_s/delta_0: 1.0275E-05 | 6: delta_r/delta_0: 1.6830E-06 | 7: delta_s/delta_0: 1.5232E-07 | 8: delta_r/delta_0: 2.5136E-08 | 9: delta_s/delta_0: 5.8172E-05 | 10: delta_r/delta_0: 1.3147E-05 | 11: delta_s/delta_0: 6.2074E-09 | 12: delta_r/delta_0: 6.3154E-10 | 13: delta_s/delta_0: 3.0186E-10 | 14: delta_r/delta_0: 1.9239E-10 | 15: delta_s/delta_0: 3.4842E-09 | 16: delta_r/delta_0: 2.0907E-09 | 17: delta_s/delta_0: 1.3691E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.453681535292263E-002 3.696805809141703E-005 | BP delta = 0.1777981 0.2845750 72780354.1113030 | BP delta = 0.1675995 0.2743764 72780353.7989054 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.204259 | New value = -3.196187 | poltype: 2 pol: 1 CPU time specind = 3.1441927E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.107573 | New value = -3.101675 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145705 | New value = -3.129715 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163106 | New value = -3.129932 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124372 | New value = -3.243673 | poltype: 2 pol: 2 CPU time specind = 1.7739058E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.13545E+08, tol = 0.70223E+01, time = 5.65 | CG iter. 2 -- res = 0.31541E+06, tol = 0.70223E+01, time = 6.06 | CG iter. 3 -- res = 0.44202E+05, tol = 0.70223E+01, time = 5.47 | CG iter. 4 -- res = 0.18485E+05, tol = 0.70223E+01, time = 5.63 | CG iter. 5 -- res = 0.87568E+04, tol = 0.70223E+01, time = 5.74 | CG iter. 6 -- res = 0.41465E+04, tol = 0.70223E+01, time = 6.10 | CG iter. 7 -- res = 0.24198E+04, tol = 0.70223E+01, time = 5.60 | CG iter. 8 -- res = 0.14115E+04, tol = 0.70223E+01, time = 5.75 | CG iter. 9 -- res = 0.10094E+04, tol = 0.70223E+01, time = 5.73 | CG iter. 10 -- res = 0.10214E+04, tol = 0.70223E+01, time = 6.57 | CG iter. 11 -- res = 0.11116E+04, tol = 0.70223E+01, time = 5.45 | CG iter. 12 -- res = 0.97935E+03, tol = 0.70223E+01, time = 5.54 | CG iter. 13 -- res = 0.78574E+03, tol = 0.70223E+01, time = 6.07 | CG iter. 14 -- res = 0.67836E+03, tol = 0.70223E+01, time = 5.78 | CG iter. 15 -- res = 0.62432E+03, tol = 0.70223E+01, time = 5.38 | CG iter. 16 -- res = 0.56499E+03, tol = 0.70223E+01, time = 6.04 | CG iter. 17 -- res = 0.45924E+03, tol = 0.70223E+01, time = 6.28 | CG iter. 18 -- res = 0.39387E+03, tol = 0.70223E+01, time = 5.44 | CG iter. 19 -- res = 0.39007E+03, tol = 0.70223E+01, time = 5.73 | CG iter. 20 -- res = 0.36507E+03, tol = 0.70223E+01, time = 5.81 | CG iter. 21 -- res = 0.29117E+03, tol = 0.70223E+01, time = 5.71 | CG iter. 22 -- res = 0.23201E+03, tol = 0.70223E+01, time = 5.77 | CG iter. 23 -- res = 0.20541E+03, tol = 0.70223E+01, time = 6.13 | CG iter. 24 -- res = 0.18509E+03, tol = 0.70223E+01, time = 5.67 | CG iter. 25 -- res = 0.15502E+03, tol = 0.70223E+01, time = 5.63 | CG iter. 26 -- res = 0.12152E+03, tol = 0.70223E+01, time = 6.00 | CG iter. 27 -- res = 0.10018E+03, tol = 0.70223E+01, time = 11.90 | CG iter. 28 -- res = 0.85259E+02, tol = 0.70223E+01, time = 5.80 | CG iter. 29 -- res = 0.69480E+02, tol = 0.70223E+01, time = 6.14 | CG iter. 30 -- res = 0.53823E+02, tol = 0.70223E+01, time = 5.81 | CG iter. 31 -- res = 0.45205E+02, tol = 0.70223E+01, time = 5.93 | CG iter. 32 -- res = 0.40818E+02, tol = 0.70223E+01, time = 5.89 | CG iter. 33 -- res = 0.35682E+02, tol = 0.70223E+01, time = 5.51 | CG iter. 34 -- res = 0.27656E+02, tol = 0.70223E+01, time = 6.00 | CG iter. 35 -- res = 0.21455E+02, tol = 0.70223E+01, time = 5.62 | CG iter. 36 -- res = 0.18387E+02, tol = 0.70223E+01, time = 5.69 | CG iter. 37 -- res = 0.15531E+02, tol = 0.70223E+01, time = 5.77 | CG iter. 38 -- res = 0.12220E+02, tol = 0.70223E+01, time = 5.95 | CG iter. 39 -- res = 0.91616E+01, tol = 0.70223E+01, time = 5.78 | CG iter. 40 -- res = 0.77439E+01, tol = 0.70223E+01, time = 5.29 | CG iter. 41 -- res = 0.65749E+01, tol = 0.70223E+01, time = 5.69 | CG iter. 42 -- res = 0.50923E+01, tol = 0.70223E+01, time = 7.28 | CG iter. 43 -- res = 0.38171E+01, tol = 0.70223E+01, time = 6.28 | CG iter. 44 -- res = 0.29678E+01, tol = 0.70223E+01, time = 5.45 | CG iter. 45 -- res = 0.24380E+01, tol = 0.70223E+01, time = 5.90 | CG iter. 46 -- res = 0.19358E+01, tol = 0.70223E+01, time = 5.48 | CG iter. 47 -- res = 0.14639E+01, tol = 0.70223E+01, time = 5.57 | CG iter. 48 -- res = 0.10723E+01, tol = 0.70223E+01, time = 5.35 | CG iter. 49 -- res = 0.85619E+00, tol = 0.70223E+01, time = 6.04 | CG iter. 50 -- res = 0.68800E+00, tol = 0.70223E+01, time = 5.61 | Final CG iter 51 -- res = 0.68800E+00, tol = 0.70223E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8954995.461 | Old band monopole 9948257.397 | Change to band monopole -993261.936 | Change to component monopole 993257.664 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.19863E+05, tol = 0.47627E+18, time = 2.10 | CG iter. 2 -- res = 0.21420E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.71574E+00, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.17234E-03, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.69688E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8954956.944 | (Sampled value in CG: 8959611.983 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.446926 | New value = 1.459599 | poltype: 2 pol: 1 CPU time specind = 2.0762920E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.534773 | New value = 1.509188 | poltype: 2 pol: 2 CPU time specind = 4.9421787E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.24043E+08, tol = 0.47523E+04, time = 6.39 | CG iter. 2 -- res = 0.54009E+07, tol = 0.47523E+04, time = 6.54 | CG iter. 3 -- res = 0.84991E+06, tol = 0.47523E+04, time = 6.55 | CG iter. 4 -- res = 0.35420E+06, tol = 0.47523E+04, time = 7.07 | CG iter. 5 -- res = 0.15798E+06, tol = 0.47523E+04, time = 6.50 | CG iter. 6 -- res = 0.81941E+05, tol = 0.47523E+04, time = 6.73 | CG iter. 7 -- res = 0.43758E+05, tol = 0.47523E+04, time = 12.89 | CG iter. 8 -- res = 0.20541E+05, tol = 0.47523E+04, time = 6.69 | CG iter. 9 -- res = 0.91138E+04, tol = 0.47523E+04, time = 6.49 | CG iter. 10 -- res = 0.37690E+04, tol = 0.47523E+04, time = 6.47 | CG iter. 11 -- res = 0.17092E+04, tol = 0.47523E+04, time = 6.72 | CG iter. 12 -- res = 0.88489E+03, tol = 0.47523E+04, time = 7.17 | CG iter. 13 -- res = 0.49143E+03, tol = 0.47523E+04, time = 6.21 | CG iter. 14 -- res = 0.27151E+03, tol = 0.47523E+04, time = 6.76 | CG iter. 15 -- res = 0.13805E+03, tol = 0.47523E+04, time = 6.71 | CG iter. 16 -- res = 0.65715E+02, tol = 0.47523E+04, time = 6.37 | CG iter. 17 -- res = 0.31453E+02, tol = 0.47523E+04, time = 6.96 | CG iter. 18 -- res = 0.15760E+02, tol = 0.47523E+04, time = 6.77 | CG iter. 19 -- res = 0.86674E+01, tol = 0.47523E+04, time = 7.10 | CG iter. 20 -- res = 0.50093E+01, tol = 0.47523E+04, time = 7.70 | CG iter. 21 -- res = 0.27340E+01, tol = 0.47523E+04, time = 7.18 | CG iter. 22 -- res = 0.13718E+01, tol = 0.47523E+04, time = 6.61 | CG iter. 23 -- res = 0.66673E+00, tol = 0.47523E+04, time = 6.83 | CG iter. 24 -- res = 0.33821E+00, tol = 0.47523E+04, time = 6.49 | CG iter. 25 -- res = 0.18625E+00, tol = 0.47523E+04, time = 6.34 | CG iter. 26 -- res = 0.10845E+00, tol = 0.47523E+04, time = 6.71 | CG iter. 27 -- res = 0.61276E-01, tol = 0.47523E+04, time = 6.92 | CG iter. 28 -- res = 0.32860E-01, tol = 0.47523E+04, time = 6.41 | CG iter. 29 -- res = 0.17135E-01, tol = 0.47523E+04, time = 6.41 | CG iter. 30 -- res = 0.87731E-02, tol = 0.47523E+04, time = 6.76 | CG iter. 31 -- res = 0.47092E-02, tol = 0.47523E+04, time = 6.68 | CG iter. 32 -- res = 0.26609E-02, tol = 0.47523E+04, time = 6.70 | CG iter. 33 -- res = 0.15182E-02, tol = 0.47523E+04, time = 6.76 | CG iter. 34 -- res = 0.85552E-03, tol = 0.47523E+04, time = 6.32 | CG iter. 35 -- res = 0.45006E-03, tol = 0.47523E+04, time = 6.69 | Final CG iter 36 -- res = 0.45006E-03, tol = 0.47523E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.367 2.741 | New value 1.430 | Old value 1.367 | Difference 0.063 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.88148E+03, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.12853E+02, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.40772E-01, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.62186E-04, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.25694E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8954956.944 | (Sampled value in CG: 8961444.829 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.698686 | New value = -3.586522 | poltype: 1 pol: 1 CPU time specind = 1.4766932E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.55 | CG iter. 1 -- res = 0.20359E+07, tol = 0.21956E+01, time = 2.74 | CG iter. 2 -- res = 0.67759E+06, tol = 0.21956E+01, time = 2.74 | CG iter. 3 -- res = 0.12185E+06, tol = 0.21956E+01, time = 2.60 | CG iter. 4 -- res = 0.47548E+05, tol = 0.21956E+01, time = 2.84 | CG iter. 5 -- res = 0.25697E+05, tol = 0.21956E+01, time = 3.00 | CG iter. 6 -- res = 0.13928E+05, tol = 0.21956E+01, time = 2.62 | CG iter. 7 -- res = 0.57575E+04, tol = 0.21956E+01, time = 2.74 | CG iter. 8 -- res = 0.24302E+04, tol = 0.21956E+01, time = 2.89 | CG iter. 9 -- res = 0.10548E+04, tol = 0.21956E+01, time = 2.76 | CG iter. 10 -- res = 0.42844E+03, tol = 0.21956E+01, time = 2.93 | CG iter. 11 -- res = 0.18648E+03, tol = 0.21956E+01, time = 2.77 | CG iter. 12 -- res = 0.95288E+02, tol = 0.21956E+01, time = 2.90 | CG iter. 13 -- res = 0.49908E+02, tol = 0.21956E+01, time = 2.85 | CG iter. 14 -- res = 0.23734E+02, tol = 0.21956E+01, time = 2.68 | CG iter. 15 -- res = 0.10473E+02, tol = 0.21956E+01, time = 2.86 | CG iter. 16 -- res = 0.46386E+01, tol = 0.21956E+01, time = 2.72 | CG iter. 17 -- res = 0.20028E+01, tol = 0.21956E+01, time = 2.83 | CG iter. 18 -- res = 0.95735E+00, tol = 0.21956E+01, time = 2.71 | CG iter. 19 -- res = 0.47528E+00, tol = 0.21956E+01, time = 2.67 | CG iter. 20 -- res = 0.24667E+00, tol = 0.21956E+01, time = 3.03 | CG iter. 21 -- res = 0.12291E+00, tol = 0.21956E+01, time = 2.51 | CG iter. 22 -- res = 0.55521E-01, tol = 0.21956E+01, time = 2.83 | CG iter. 23 -- res = 0.24864E-01, tol = 0.21956E+01, time = 2.85 | CG iter. 24 -- res = 0.11908E-01, tol = 0.21956E+01, time = 2.97 | CG iter. 25 -- res = 0.59071E-02, tol = 0.21956E+01, time = 2.82 | CG iter. 26 -- res = 0.30854E-02, tol = 0.21956E+01, time = 3.04 | CG iter. 27 -- res = 0.15296E-02, tol = 0.21956E+01, time = 2.71 | CG iter. 28 -- res = 0.74163E-03, tol = 0.21956E+01, time = 2.46 | CG iter. 29 -- res = 0.32945E-03, tol = 0.21956E+01, time = 2.60 | CG iter. 30 -- res = 0.15758E-03, tol = 0.21956E+01, time = 3.01 | CG iter. 31 -- res = 0.79409E-04, tol = 0.21956E+01, time = 2.95 | CG iter. 32 -- res = 0.40593E-04, tol = 0.21956E+01, time = 2.77 | CG iter. 33 -- res = 0.19471E-04, tol = 0.21956E+01, time = 7.27 | CG iter. 34 -- res = 0.93250E-05, tol = 0.21956E+01, time = 4.51 | CG iter. 35 -- res = 0.43889E-05, tol = 0.21956E+01, time = 2.68 | CG iter. 36 -- res = 0.20954E-05, tol = 0.21956E+01, time = 2.82 | CG iter. 37 -- res = 0.99533E-06, tol = 0.21956E+01, time = 3.00 | CG iter. 38 -- res = 0.50482E-06, tol = 0.21956E+01, time = 2.89 | CG iter. 39 -- res = 0.25368E-06, tol = 0.21956E+01, time = 2.72 | CG iter. 40 -- res = 0.12517E-06, tol = 0.21956E+01, time = 2.78 | CG iter. 41 -- res = 0.57859E-07, tol = 0.21956E+01, time = 2.68 | CG iter. 42 -- res = 0.26828E-07, tol = 0.21956E+01, time = 2.89 | CG iter. 43 -- res = 0.12628E-07, tol = 0.21956E+01, time = 2.79 | CG iter. 44 -- res = 0.61464E-08, tol = 0.21956E+01, time = 2.56 | CG iter. 45 -- res = 0.30064E-08, tol = 0.21956E+01, time = 2.91 | CG iter. 46 -- res = 0.14827E-08, tol = 0.21956E+01, time = 2.35 | CG iter. 47 -- res = 0.70304E-09, tol = 0.21956E+01, time = 3.05 | CG iter. 48 -- res = 0.32455E-09, tol = 0.21956E+01, time = 2.76 | CG iter. 49 -- res = 0.14617E-09, tol = 0.21956E+01, time = 2.88 | CG iter. 50 -- res = 0.68982E-10, tol = 0.21956E+01, time = 2.80 | Final CG iter 51 -- res = 0.68982E-10, tol = 0.21956E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.633 3.832 | New value -4.219 | Old value 1.633 | Difference -5.852 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.32884E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.22670E+02, tol = 0.47627E+18, time = 3.03 | CG iter. 3 -- res = 0.93841E+00, tol = 0.47627E+18, time = 2.71 | CG iter. 4 -- res = 0.95339E-04, tol = 0.47627E+18, time = 2.50 | Final CG iter 5 -- res = 0.26356E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8954956.944 | (Sampled value in CG: 8958410.539 ) | CPU time specind = 1217.815 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.68223E+08, tol = 0.57631E+04, time = 12.10 | CG iter. 2 -- res = 0.58747E+08, tol = 0.57631E+04, time = 12.04 | CG iter. 3 -- res = 0.15395E+08, tol = 0.57631E+04, time = 11.92 | CG iter. 4 -- res = 0.65528E+07, tol = 0.57631E+04, time = 11.57 | CG iter. 5 -- res = 0.39076E+07, tol = 0.57631E+04, time = 13.18 | CG iter. 6 -- res = 0.22660E+07, tol = 0.57631E+04, time = 11.85 | CG iter. 7 -- res = 0.13192E+07, tol = 0.57631E+04, time = 11.85 | CG iter. 8 -- res = 0.86275E+06, tol = 0.57631E+04, time = 12.03 | CG iter. 9 -- res = 0.56295E+06, tol = 0.57631E+04, time = 11.78 | CG iter. 10 -- res = 0.33675E+06, tol = 0.57631E+04, time = 11.88 | CG iter. 11 -- res = 0.18123E+06, tol = 0.57631E+04, time = 12.03 | CG iter. 12 -- res = 0.92999E+05, tol = 0.57631E+04, time = 12.03 | CG iter. 13 -- res = 0.49444E+05, tol = 0.57631E+04, time = 11.94 | CG iter. 14 -- res = 0.27448E+05, tol = 0.57631E+04, time = 18.17 | CG iter. 15 -- res = 0.17190E+05, tol = 0.57631E+04, time = 11.63 | CG iter. 16 -- res = 0.11646E+05, tol = 0.57631E+04, time = 12.11 | CG iter. 17 -- res = 0.82894E+04, tol = 0.57631E+04, time = 11.89 | CG iter. 18 -- res = 0.56065E+04, tol = 0.57631E+04, time = 12.13 | CG iter. 19 -- res = 0.34935E+04, tol = 0.57631E+04, time = 12.10 | CG iter. 20 -- res = 0.21584E+04, tol = 0.57631E+04, time = 11.99 | CG iter. 21 -- res = 0.14527E+04, tol = 0.57631E+04, time = 13.43 | CG iter. 22 -- res = 0.10835E+04, tol = 0.57631E+04, time = 12.50 | CG iter. 23 -- res = 0.90901E+03, tol = 0.57631E+04, time = 11.56 | CG iter. 24 -- res = 0.86807E+03, tol = 0.57631E+04, time = 11.89 | CG iter. 25 -- res = 0.87299E+03, tol = 0.57631E+04, time = 12.11 | CG iter. 26 -- res = 0.87235E+03, tol = 0.57631E+04, time = 12.06 | CG iter. 27 -- res = 0.83642E+03, tol = 0.57631E+04, time = 12.04 | CG iter. 28 -- res = 0.77486E+03, tol = 0.57631E+04, time = 12.20 | CG iter. 29 -- res = 0.73067E+03, tol = 0.57631E+04, time = 12.09 | CG iter. 30 -- res = 0.72030E+03, tol = 0.57631E+04, time = 11.67 | CG iter. 31 -- res = 0.70959E+03, tol = 0.57631E+04, time = 12.33 | CG iter. 32 -- res = 0.66343E+03, tol = 0.57631E+04, time = 11.95 | CG iter. 33 -- res = 0.55130E+03, tol = 0.57631E+04, time = 12.02 | CG iter. 34 -- res = 0.42462E+03, tol = 0.57631E+04, time = 11.90 | CG iter. 35 -- res = 0.31594E+03, tol = 0.57631E+04, time = 12.30 | CG iter. 36 -- res = 0.24240E+03, tol = 0.57631E+04, time = 12.05 | CG iter. 37 -- res = 0.19698E+03, tol = 0.57631E+04, time = 11.81 | CG iter. 38 -- res = 0.16899E+03, tol = 0.57631E+04, time = 18.39 | CG iter. 39 -- res = 0.14906E+03, tol = 0.57631E+04, time = 12.36 | CG iter. 40 -- res = 0.13203E+03, tol = 0.57631E+04, time = 11.99 | CG iter. 41 -- res = 0.11298E+03, tol = 0.57631E+04, time = 11.93 | CG iter. 42 -- res = 0.95504E+02, tol = 0.57631E+04, time = 11.95 | CG iter. 43 -- res = 0.83483E+02, tol = 0.57631E+04, time = 11.94 | CG iter. 44 -- res = 0.77550E+02, tol = 0.57631E+04, time = 11.89 | CG iter. 45 -- res = 0.75055E+02, tol = 0.57631E+04, time = 14.09 | CG iter. 46 -- res = 0.68867E+02, tol = 0.57631E+04, time = 12.32 | CG iter. 47 -- res = 0.61649E+02, tol = 0.57631E+04, time = 12.24 | CG iter. 48 -- res = 0.51571E+02, tol = 0.57631E+04, time = 11.67 | CG iter. 49 -- res = 0.42132E+02, tol = 0.57631E+04, time = 12.06 | CG iter. 50 -- res = 0.35053E+02, tol = 0.57631E+04, time = 12.33 | CG iter. 51 -- res = 0.29977E+02, tol = 0.57631E+04, time = 11.94 | CG iter. 52 -- res = 0.25307E+02, tol = 0.57631E+04, time = 11.94 | CG iter. 53 -- res = 0.21982E+02, tol = 0.57631E+04, time = 12.28 | CG iter. 54 -- res = 0.19331E+02, tol = 0.57631E+04, time = 12.68 | CG iter. 55 -- res = 0.16879E+02, tol = 0.57631E+04, time = 12.33 | CG iter. 56 -- res = 0.14452E+02, tol = 0.57631E+04, time = 12.18 | CG iter. 57 -- res = 0.12274E+02, tol = 0.57631E+04, time = 11.94 | CG iter. 58 -- res = 0.10963E+02, tol = 0.57631E+04, time = 11.89 | CG iter. 59 -- res = 0.10181E+02, tol = 0.57631E+04, time = 12.04 | CG iter. 60 -- res = 0.96976E+01, tol = 0.57631E+04, time = 11.43 | Final CG iter 61 -- res = 0.96976E+01, tol = 0.57631E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.799 ( -229.937 -2232.267 2514.835 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8445160.997 | Old band monopole 8954995.461 | Change to band monopole -509834.464 | Change to component monopole 509832.271 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.439 2.750 | New value 1.638 | Old value 1.439 | Difference 0.199 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.236 ( 7.932 14.048 -13.385 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.739 5.297 | New value -5.895 | Old value -2.739 | Difference -3.156 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.96117E+04, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.22953E+02, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.59823E+00, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.12429E-02, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.16135E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8445124.673 | (Sampled value in CG: 8424232.439 ) | Chain = 1 -- chisq = 0.81584741E+09 | Chain = 1 -- wall time = 5740.213 sec Available RAM: MemAvailable: 378990288 kB Available Swap: SwapFree: 1112839260 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 354 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445159 | --> Sampling calibration, mode = relcal | relcal = 1.3440959E-02 7.3696626E-04 -1.5907199E-03 -1.2587206E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1373859 0.1529804 9403668.30369553 | BP delta = 0.1373859 0.1460932 9403691.69535423 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632487 | --> Sampling calibration, mode = relcal | relcal = -2.8215882E-03 -7.0400443E-04 1.6793782E-03 1.6123442E-03 -4.0804740E-04 6.4191746E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5636175 15217397.3688636 | BP delta = 0.0000000E+00 -0.5610263 15217398.6512436 | BP chisq diff = 1.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17562163796248 | --> Sampling calibration, mode = relcal | relcal = -7.4066766E-02 -5.7483032E-02 9.0599038E-02 4.0950764E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3555694E-06 2.4928870E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1363E-04 | 2: delta_r/delta_0: 6.9981E-06 | 3: delta_s/delta_0: 1.6434E-07 | 4: delta_r/delta_0: 2.6329E-08 | 5: delta_s/delta_0: 8.0018E-09 | 6: delta_r/delta_0: 2.5214E-09 | 7: delta_s/delta_0: 2.2942E-10 | 8: delta_r/delta_0: 1.1016E-10 | 9: delta_s/delta_0: 1.3328E-10 | 10: delta_r/delta_0: 1.8782E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.547915925306310E-004 2.753711891827777E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1363E-04 | 2: delta_r/delta_0: 6.9986E-06 | 3: delta_s/delta_0: 1.6434E-07 | 4: delta_r/delta_0: 2.6329E-08 | 5: delta_s/delta_0: 8.0019E-09 | 6: delta_r/delta_0: 2.5214E-09 | 7: delta_s/delta_0: 2.2942E-10 | 8: delta_r/delta_0: 1.1016E-10 | 9: delta_s/delta_0: 1.3346E-10 | 10: delta_r/delta_0: 1.8778E-11 | Reached bicg-stab tolerance | BP delta = 8.6583376E-02 0.1088428 3592747.02527535 | BP delta = 8.6583376E-02 0.1090276 3591155.67283410 | BP chisq diff = -1591.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02616844 | --> Sampling calibration, mode = relcal | relcal = -0.1066571 -9.5542319E-02 0.1449536 5.7245784E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1622115E-03 1.4291338E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1687E-05 | 2: delta_r/delta_0: 1.3688E-06 | 3: delta_s/delta_0: 2.5752E-07 | 4: delta_r/delta_0: 4.6355E-08 | 5: delta_s/delta_0: 2.6902E-08 | 6: delta_r/delta_0: 7.4451E-09 | 7: delta_s/delta_0: 5.5348E-09 | 8: delta_r/delta_0: 1.9183E-09 | 9: delta_s/delta_0: 8.8152E-10 | 10: delta_r/delta_0: 6.5597E-10 | 11: delta_s/delta_0: 1.0855E-09 | 12: delta_r/delta_0: 1.1499E-10 | 13: delta_s/delta_0: 7.8343E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.869166641558510E-003 2.810367668881902E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1687E-05 | 2: delta_r/delta_0: 1.3687E-06 | 3: delta_s/delta_0: 2.5750E-07 | 4: delta_r/delta_0: 4.6320E-08 | 5: delta_s/delta_0: 2.6925E-08 | 6: delta_r/delta_0: 7.4448E-09 | 7: delta_s/delta_0: 5.5380E-09 | 8: delta_r/delta_0: 1.9179E-09 | 9: delta_s/delta_0: 8.8124E-10 | 10: delta_r/delta_0: 6.5576E-10 | 11: delta_s/delta_0: 1.0856E-09 | 12: delta_r/delta_0: 1.1492E-10 | 13: delta_s/delta_0: 7.8283E-11 | Reached bicg-stab tolerance | BP delta = -0.2744756 -0.2441002 2841636.75697388 | BP delta = -0.2744756 -0.2458962 2841675.46016268 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81238252 | --> Sampling calibration, mode = relcal | relcal = 0.2955117 0.2247893 -0.2838289 -0.2364721 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5700558E-03 4.6409401E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2071E-04 | 2: delta_r/delta_0: 1.6396E-05 | 3: delta_s/delta_0: 1.9036E-05 | 4: delta_r/delta_0: 2.0939E-06 | 5: delta_s/delta_0: 2.9431E-07 | 6: delta_r/delta_0: 6.6964E-08 | 7: delta_s/delta_0: 5.5663E-08 | 8: delta_r/delta_0: 3.1460E-08 | 9: delta_s/delta_0: 1.8634E-07 | 10: delta_r/delta_0: 1.8136E-09 | 11: delta_s/delta_0: 7.3168E-10 | 12: delta_r/delta_0: 4.7488E-10 | 13: delta_s/delta_0: 1.8926E-09 | 14: delta_r/delta_0: 7.4173E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.037750556034441E-002 4.020880271898117E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.2060E-04 | 2: delta_r/delta_0: 1.6393E-05 | 3: delta_s/delta_0: 1.9039E-05 | 4: delta_r/delta_0: 2.0941E-06 | 5: delta_s/delta_0: 2.9426E-07 | 6: delta_r/delta_0: 6.6962E-08 | 7: delta_s/delta_0: 5.5662E-08 | 8: delta_r/delta_0: 3.1456E-08 | 9: delta_s/delta_0: 1.8623E-07 | 10: delta_r/delta_0: 1.8141E-09 | 11: delta_s/delta_0: 7.3166E-10 | 12: delta_r/delta_0: 4.7491E-10 | 13: delta_s/delta_0: 1.8839E-09 | 14: delta_r/delta_0: 7.3778E-11 | Reached bicg-stab tolerance | BP delta = -0.1173146 -0.1597659 2827940.22943555 | BP delta = -0.1173146 -0.1636640 2827954.52299342 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95935412 | --> Sampling calibration, mode = relcal | relcal = 0.1065750 0.1395119 -0.1103555 -0.1357314 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0209125E-02 1.4007890E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6894E-02 | 2: delta_r/delta_0: 1.1210E-03 | 3: delta_s/delta_0: 9.1619E-04 | 4: delta_r/delta_0: 6.8629E-05 | 5: delta_s/delta_0: 4.6109E-06 | 6: delta_r/delta_0: 1.2147E-06 | 7: delta_s/delta_0: 6.2502E-06 | 8: delta_r/delta_0: 1.1754E-06 | 9: delta_s/delta_0: 1.7869E-06 | 10: delta_r/delta_0: 5.7573E-07 | 11: delta_s/delta_0: 3.1996E-08 | 12: delta_r/delta_0: 5.2307E-09 | 13: delta_s/delta_0: 1.3934E-08 | 14: delta_r/delta_0: 3.4688E-09 | 15: delta_s/delta_0: 3.3234E-09 | 16: delta_r/delta_0: 4.5796E-10 | 17: delta_s/delta_0: 9.6924E-10 | 18: delta_r/delta_0: 5.4414E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.803170526258005E-002 3.696443314377474E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.7033E-02 | 2: delta_r/delta_0: 1.1243E-03 | 3: delta_s/delta_0: 9.2016E-04 | 4: delta_r/delta_0: 6.8936E-05 | 5: delta_s/delta_0: 4.6230E-06 | 6: delta_r/delta_0: 1.2177E-06 | 7: delta_s/delta_0: 6.2762E-06 | 8: delta_r/delta_0: 1.1813E-06 | 9: delta_s/delta_0: 1.7830E-06 | 10: delta_r/delta_0: 5.7343E-07 | 11: delta_s/delta_0: 3.2521E-08 | 12: delta_r/delta_0: 5.2718E-09 | 13: delta_s/delta_0: 1.3875E-08 | 14: delta_r/delta_0: 3.4429E-09 | 15: delta_s/delta_0: 3.3803E-09 | 16: delta_r/delta_0: 4.6653E-10 | 17: delta_s/delta_0: 9.3286E-10 | 18: delta_r/delta_0: 5.4290E-11 | Reached bicg-stab tolerance | BP delta = 0.1675995 0.2743764 3003936.84836728 | BP delta = 0.1675995 0.2678835 3003899.33627021 | BP chisq diff = -37.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.196187 | New value = -3.147661 | poltype: 2 pol: 1 CPU time specind = 1.5251875E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.101675 | New value = -3.105921 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129715 | New value = -3.168239 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129932 | New value = -3.046649 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.243673 | New value = -3.155164 | poltype: 2 pol: 2 CPU time specind = 9.9430084E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.13568E+08, tol = 0.81838E+01, time = 5.73 | CG iter. 2 -- res = 0.32048E+06, tol = 0.81838E+01, time = 5.79 | CG iter. 3 -- res = 0.51271E+05, tol = 0.81838E+01, time = 5.52 | CG iter. 4 -- res = 0.30259E+05, tol = 0.81838E+01, time = 5.81 | CG iter. 5 -- res = 0.21118E+05, tol = 0.81838E+01, time = 5.79 | CG iter. 6 -- res = 0.16174E+05, tol = 0.81838E+01, time = 5.66 | CG iter. 7 -- res = 0.14461E+05, tol = 0.81838E+01, time = 5.95 | CG iter. 8 -- res = 0.12023E+05, tol = 0.81838E+01, time = 5.75 | CG iter. 9 -- res = 0.10605E+05, tol = 0.81838E+01, time = 5.88 | CG iter. 10 -- res = 0.95745E+04, tol = 0.81838E+01, time = 5.54 | CG iter. 11 -- res = 0.70820E+04, tol = 0.81838E+01, time = 5.33 | CG iter. 12 -- res = 0.45231E+04, tol = 0.81838E+01, time = 6.41 | CG iter. 13 -- res = 0.33515E+04, tol = 0.81838E+01, time = 6.71 | CG iter. 14 -- res = 0.29377E+04, tol = 0.81838E+01, time = 6.61 | CG iter. 15 -- res = 0.25689E+04, tol = 0.81838E+01, time = 5.66 | CG iter. 16 -- res = 0.19992E+04, tol = 0.81838E+01, time = 5.88 | CG iter. 17 -- res = 0.13783E+04, tol = 0.81838E+01, time = 5.96 | CG iter. 18 -- res = 0.10214E+04, tol = 0.81838E+01, time = 5.77 | CG iter. 19 -- res = 0.83406E+03, tol = 0.81838E+01, time = 5.86 | CG iter. 20 -- res = 0.64322E+03, tol = 0.81838E+01, time = 5.60 | CG iter. 21 -- res = 0.45329E+03, tol = 0.81838E+01, time = 5.36 | CG iter. 22 -- res = 0.34863E+03, tol = 0.81838E+01, time = 5.87 | CG iter. 23 -- res = 0.29655E+03, tol = 0.81838E+01, time = 5.61 | CG iter. 24 -- res = 0.22803E+03, tol = 0.81838E+01, time = 5.96 | CG iter. 25 -- res = 0.16214E+03, tol = 0.81838E+01, time = 5.80 | CG iter. 26 -- res = 0.11821E+03, tol = 0.81838E+01, time = 5.63 | CG iter. 27 -- res = 0.93440E+02, tol = 0.81838E+01, time = 5.36 | CG iter. 28 -- res = 0.75047E+02, tol = 0.81838E+01, time = 5.44 | CG iter. 29 -- res = 0.56059E+02, tol = 0.81838E+01, time = 5.99 | CG iter. 30 -- res = 0.39166E+02, tol = 0.81838E+01, time = 5.57 | CG iter. 31 -- res = 0.30188E+02, tol = 0.81838E+01, time = 5.82 | CG iter. 32 -- res = 0.24874E+02, tol = 0.81838E+01, time = 5.94 | CG iter. 33 -- res = 0.19333E+02, tol = 0.81838E+01, time = 5.98 | CG iter. 34 -- res = 0.13236E+02, tol = 0.81838E+01, time = 5.95 | CG iter. 35 -- res = 0.10018E+02, tol = 0.81838E+01, time = 5.66 | CG iter. 36 -- res = 0.81583E+01, tol = 0.81838E+01, time = 5.49 | CG iter. 37 -- res = 0.63821E+01, tol = 0.81838E+01, time = 6.12 | CG iter. 38 -- res = 0.46493E+01, tol = 0.81838E+01, time = 5.52 | CG iter. 39 -- res = 0.33986E+01, tol = 0.81838E+01, time = 5.49 | CG iter. 40 -- res = 0.27388E+01, tol = 0.81838E+01, time = 5.71 | CG iter. 41 -- res = 0.21799E+01, tol = 0.81838E+01, time = 5.70 | CG iter. 42 -- res = 0.16045E+01, tol = 0.81838E+01, time = 5.85 | CG iter. 43 -- res = 0.11399E+01, tol = 0.81838E+01, time = 5.89 | CG iter. 44 -- res = 0.88394E+00, tol = 0.81838E+01, time = 5.60 | CG iter. 45 -- res = 0.69440E+00, tol = 0.81838E+01, time = 5.69 | CG iter. 46 -- res = 0.52981E+00, tol = 0.81838E+01, time = 5.80 | CG iter. 47 -- res = 0.37218E+00, tol = 0.81838E+01, time = 5.79 | CG iter. 48 -- res = 0.27686E+00, tol = 0.81838E+01, time = 6.94 | CG iter. 49 -- res = 0.21903E+00, tol = 0.81838E+01, time = 11.04 | CG iter. 50 -- res = 0.17736E+00, tol = 0.81838E+01, time = 5.64 | Final CG iter 51 -- res = 0.17736E+00, tol = 0.81838E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8851449.489 | Old band monopole 8445160.997 | Change to band monopole 406288.492 | Change to component monopole -406286.744 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.84125E+05, tol = 0.47627E+18, time = 2.18 | CG iter. 2 -- res = 0.73509E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.28255E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.10659E-01, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.13130E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8851411.417 | (Sampled value in CG: 8892743.503 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.459599 | New value = 1.537920 | poltype: 2 pol: 1 CPU time specind = 1.5285015E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509188 | New value = 1.501386 | poltype: 2 pol: 2 CPU time specind = 1.0917187E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.25326E+08, tol = 0.47677E+04, time = 6.87 | CG iter. 2 -- res = 0.53588E+07, tol = 0.47677E+04, time = 6.43 | CG iter. 3 -- res = 0.84065E+06, tol = 0.47677E+04, time = 6.60 | CG iter. 4 -- res = 0.34716E+06, tol = 0.47677E+04, time = 6.17 | CG iter. 5 -- res = 0.14964E+06, tol = 0.47677E+04, time = 6.75 | CG iter. 6 -- res = 0.80299E+05, tol = 0.47677E+04, time = 6.15 | CG iter. 7 -- res = 0.44413E+05, tol = 0.47677E+04, time = 6.69 | CG iter. 8 -- res = 0.21384E+05, tol = 0.47677E+04, time = 6.72 | CG iter. 9 -- res = 0.93345E+04, tol = 0.47677E+04, time = 6.93 | CG iter. 10 -- res = 0.37742E+04, tol = 0.47677E+04, time = 6.38 | CG iter. 11 -- res = 0.16807E+04, tol = 0.47677E+04, time = 7.36 | CG iter. 12 -- res = 0.86928E+03, tol = 0.47677E+04, time = 6.41 | CG iter. 13 -- res = 0.48178E+03, tol = 0.47677E+04, time = 6.31 | CG iter. 14 -- res = 0.27004E+03, tol = 0.47677E+04, time = 6.77 | CG iter. 15 -- res = 0.14075E+03, tol = 0.47677E+04, time = 6.42 | CG iter. 16 -- res = 0.68407E+02, tol = 0.47677E+04, time = 6.68 | CG iter. 17 -- res = 0.31964E+02, tol = 0.47677E+04, time = 6.68 | CG iter. 18 -- res = 0.15927E+02, tol = 0.47677E+04, time = 6.66 | CG iter. 19 -- res = 0.88251E+01, tol = 0.47677E+04, time = 6.53 | CG iter. 20 -- res = 0.49407E+01, tol = 0.47677E+04, time = 6.47 | CG iter. 21 -- res = 0.26249E+01, tol = 0.47677E+04, time = 6.38 | CG iter. 22 -- res = 0.13482E+01, tol = 0.47677E+04, time = 6.43 | CG iter. 23 -- res = 0.68074E+00, tol = 0.47677E+04, time = 6.54 | CG iter. 24 -- res = 0.35678E+00, tol = 0.47677E+04, time = 7.28 | CG iter. 25 -- res = 0.19546E+00, tol = 0.47677E+04, time = 8.22 | CG iter. 26 -- res = 0.10990E+00, tol = 0.47677E+04, time = 11.30 | CG iter. 27 -- res = 0.61085E-01, tol = 0.47677E+04, time = 6.39 | CG iter. 28 -- res = 0.32657E-01, tol = 0.47677E+04, time = 6.67 | CG iter. 29 -- res = 0.16836E-01, tol = 0.47677E+04, time = 6.45 | CG iter. 30 -- res = 0.88023E-02, tol = 0.47677E+04, time = 6.99 | CG iter. 31 -- res = 0.48382E-02, tol = 0.47677E+04, time = 6.46 | CG iter. 32 -- res = 0.28024E-02, tol = 0.47677E+04, time = 6.34 | CG iter. 33 -- res = 0.15818E-02, tol = 0.47677E+04, time = 6.68 | CG iter. 34 -- res = 0.86819E-03, tol = 0.47677E+04, time = 6.54 | CG iter. 35 -- res = 0.46256E-03, tol = 0.47677E+04, time = 6.43 | Final CG iter 36 -- res = 0.46256E-03, tol = 0.47677E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.648 2.753 | New value 5.826 | Old value 1.648 | Difference 4.178 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.91968E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.40145E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.13149E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.19939E-02, tol = 0.47627E+18, time = 2.48 | Final CG iter 5 -- res = 0.12721E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8851411.417 | (Sampled value in CG: 8893500.798 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.586522 | New value = -3.367273 | poltype: 1 pol: 1 CPU time specind = 1.5208006E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.25191E+07, tol = 0.25615E+01, time = 2.60 | CG iter. 2 -- res = 0.12243E+07, tol = 0.25615E+01, time = 2.65 | CG iter. 3 -- res = 0.23621E+06, tol = 0.25615E+01, time = 2.71 | CG iter. 4 -- res = 0.93238E+05, tol = 0.25615E+01, time = 2.62 | CG iter. 5 -- res = 0.50089E+05, tol = 0.25615E+01, time = 2.81 | CG iter. 6 -- res = 0.25079E+05, tol = 0.25615E+01, time = 2.85 | CG iter. 7 -- res = 0.10611E+05, tol = 0.25615E+01, time = 2.65 | CG iter. 8 -- res = 0.48482E+04, tol = 0.25615E+01, time = 3.72 | CG iter. 9 -- res = 0.25029E+04, tol = 0.25615E+01, time = 3.33 | CG iter. 10 -- res = 0.10416E+04, tol = 0.25615E+01, time = 3.12 | CG iter. 11 -- res = 0.40757E+03, tol = 0.25615E+01, time = 4.26 | CG iter. 12 -- res = 0.18137E+03, tol = 0.25615E+01, time = 2.80 | CG iter. 13 -- res = 0.86705E+02, tol = 0.25615E+01, time = 2.68 | CG iter. 14 -- res = 0.44107E+02, tol = 0.25615E+01, time = 2.43 | CG iter. 15 -- res = 0.22185E+02, tol = 0.25615E+01, time = 2.93 | CG iter. 16 -- res = 0.11454E+02, tol = 0.25615E+01, time = 2.84 | CG iter. 17 -- res = 0.49889E+01, tol = 0.25615E+01, time = 2.84 | CG iter. 18 -- res = 0.21175E+01, tol = 0.25615E+01, time = 2.63 | CG iter. 19 -- res = 0.94562E+00, tol = 0.25615E+01, time = 2.73 | CG iter. 20 -- res = 0.45879E+00, tol = 0.25615E+01, time = 2.80 | CG iter. 21 -- res = 0.24019E+00, tol = 0.25615E+01, time = 2.87 | CG iter. 22 -- res = 0.12755E+00, tol = 0.25615E+01, time = 2.63 | CG iter. 23 -- res = 0.62382E-01, tol = 0.25615E+01, time = 2.59 | CG iter. 24 -- res = 0.29250E-01, tol = 0.25615E+01, time = 2.64 | CG iter. 25 -- res = 0.12980E-01, tol = 0.25615E+01, time = 2.65 | CG iter. 26 -- res = 0.61422E-02, tol = 0.25615E+01, time = 3.07 | CG iter. 27 -- res = 0.29446E-02, tol = 0.25615E+01, time = 2.91 | CG iter. 28 -- res = 0.14816E-02, tol = 0.25615E+01, time = 2.68 | CG iter. 29 -- res = 0.75663E-03, tol = 0.25615E+01, time = 2.52 | CG iter. 30 -- res = 0.38715E-03, tol = 0.25615E+01, time = 2.75 | CG iter. 31 -- res = 0.19048E-03, tol = 0.25615E+01, time = 2.76 | CG iter. 32 -- res = 0.87574E-04, tol = 0.25615E+01, time = 2.57 | CG iter. 33 -- res = 0.40578E-04, tol = 0.25615E+01, time = 3.08 | CG iter. 34 -- res = 0.19477E-04, tol = 0.25615E+01, time = 2.61 | CG iter. 35 -- res = 0.97600E-05, tol = 0.25615E+01, time = 2.61 | CG iter. 36 -- res = 0.53161E-05, tol = 0.25615E+01, time = 2.53 | CG iter. 37 -- res = 0.25678E-05, tol = 0.25615E+01, time = 2.82 | CG iter. 38 -- res = 0.12406E-05, tol = 0.25615E+01, time = 2.72 | CG iter. 39 -- res = 0.55978E-06, tol = 0.25615E+01, time = 2.67 | CG iter. 40 -- res = 0.26479E-06, tol = 0.25615E+01, time = 2.77 | CG iter. 41 -- res = 0.13039E-06, tol = 0.25615E+01, time = 2.16 | CG iter. 42 -- res = 0.70037E-07, tol = 0.25615E+01, time = 2.86 | CG iter. 43 -- res = 0.34927E-07, tol = 0.25615E+01, time = 2.66 | CG iter. 44 -- res = 0.16927E-07, tol = 0.25615E+01, time = 2.69 | CG iter. 45 -- res = 0.77820E-08, tol = 0.25615E+01, time = 2.80 | CG iter. 46 -- res = 0.35810E-08, tol = 0.25615E+01, time = 2.96 | CG iter. 47 -- res = 0.18420E-08, tol = 0.25615E+01, time = 3.11 | CG iter. 48 -- res = 0.92602E-09, tol = 0.25615E+01, time = 2.68 | CG iter. 49 -- res = 0.49333E-09, tol = 0.25615E+01, time = 3.26 | CG iter. 50 -- res = 0.23649E-09, tol = 0.25615E+01, time = 2.77 | Final CG iter 51 -- res = 0.23649E-09, tol = 0.25615E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.324 4.101 | New value -4.448 | Old value -2.324 | Difference -2.123 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.66215E+04, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.32018E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.10655E+01, tol = 0.47627E+18, time = 2.22 | CG iter. 4 -- res = 0.86835E-03, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.55396E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8851411.417 | (Sampled value in CG: 8884899.094 ) | CPU time specind = 1194.101 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.72315E+08, tol = 0.57630E+04, time = 21.56 | CG iter. 2 -- res = 0.60744E+08, tol = 0.57630E+04, time = 11.63 | CG iter. 3 -- res = 0.16028E+08, tol = 0.57630E+04, time = 11.95 | CG iter. 4 -- res = 0.69852E+07, tol = 0.57630E+04, time = 11.46 | CG iter. 5 -- res = 0.43596E+07, tol = 0.57630E+04, time = 12.41 | CG iter. 6 -- res = 0.25219E+07, tol = 0.57630E+04, time = 11.91 | CG iter. 7 -- res = 0.14624E+07, tol = 0.57630E+04, time = 12.04 | CG iter. 8 -- res = 0.92932E+06, tol = 0.57630E+04, time = 13.54 | CG iter. 9 -- res = 0.58494E+06, tol = 0.57630E+04, time = 12.21 | CG iter. 10 -- res = 0.34743E+06, tol = 0.57630E+04, time = 11.61 | CG iter. 11 -- res = 0.18952E+06, tol = 0.57630E+04, time = 11.59 | CG iter. 12 -- res = 0.10231E+06, tol = 0.57630E+04, time = 11.78 | CG iter. 13 -- res = 0.57304E+05, tol = 0.57630E+04, time = 11.72 | CG iter. 14 -- res = 0.33983E+05, tol = 0.57630E+04, time = 11.83 | CG iter. 15 -- res = 0.22278E+05, tol = 0.57630E+04, time = 11.91 | CG iter. 16 -- res = 0.16483E+05, tol = 0.57630E+04, time = 11.35 | CG iter. 17 -- res = 0.13321E+05, tol = 0.57630E+04, time = 11.99 | CG iter. 18 -- res = 0.10688E+05, tol = 0.57630E+04, time = 11.58 | CG iter. 19 -- res = 0.82982E+04, tol = 0.57630E+04, time = 11.53 | CG iter. 20 -- res = 0.65767E+04, tol = 0.57630E+04, time = 11.59 | CG iter. 21 -- res = 0.55877E+04, tol = 0.57630E+04, time = 11.71 | CG iter. 22 -- res = 0.54093E+04, tol = 0.57630E+04, time = 11.94 | CG iter. 23 -- res = 0.57507E+04, tol = 0.57630E+04, time = 11.76 | CG iter. 24 -- res = 0.62414E+04, tol = 0.57630E+04, time = 12.38 | CG iter. 25 -- res = 0.62973E+04, tol = 0.57630E+04, time = 18.24 | CG iter. 26 -- res = 0.57154E+04, tol = 0.57630E+04, time = 11.85 | CG iter. 27 -- res = 0.47605E+04, tol = 0.57630E+04, time = 11.68 | CG iter. 28 -- res = 0.37272E+04, tol = 0.57630E+04, time = 11.13 | CG iter. 29 -- res = 0.30103E+04, tol = 0.57630E+04, time = 11.94 | CG iter. 30 -- res = 0.25500E+04, tol = 0.57630E+04, time = 11.88 | CG iter. 31 -- res = 0.21954E+04, tol = 0.57630E+04, time = 11.49 | CG iter. 32 -- res = 0.18689E+04, tol = 0.57630E+04, time = 12.75 | CG iter. 33 -- res = 0.15466E+04, tol = 0.57630E+04, time = 13.44 | CG iter. 34 -- res = 0.12417E+04, tol = 0.57630E+04, time = 11.93 | CG iter. 35 -- res = 0.10241E+04, tol = 0.57630E+04, time = 11.77 | CG iter. 36 -- res = 0.90350E+03, tol = 0.57630E+04, time = 11.65 | CG iter. 37 -- res = 0.86998E+03, tol = 0.57630E+04, time = 12.19 | CG iter. 38 -- res = 0.87746E+03, tol = 0.57630E+04, time = 11.34 | CG iter. 39 -- res = 0.86565E+03, tol = 0.57630E+04, time = 11.90 | CG iter. 40 -- res = 0.78220E+03, tol = 0.57630E+04, time = 11.65 | CG iter. 41 -- res = 0.68067E+03, tol = 0.57630E+04, time = 11.88 | CG iter. 42 -- res = 0.57973E+03, tol = 0.57630E+04, time = 12.84 | CG iter. 43 -- res = 0.50527E+03, tol = 0.57630E+04, time = 11.75 | CG iter. 44 -- res = 0.45441E+03, tol = 0.57630E+04, time = 12.25 | CG iter. 45 -- res = 0.41059E+03, tol = 0.57630E+04, time = 12.03 | CG iter. 46 -- res = 0.37169E+03, tol = 0.57630E+04, time = 11.92 | CG iter. 47 -- res = 0.33355E+03, tol = 0.57630E+04, time = 11.61 | CG iter. 48 -- res = 0.29247E+03, tol = 0.57630E+04, time = 11.86 | CG iter. 49 -- res = 0.25563E+03, tol = 0.57630E+04, time = 11.76 | CG iter. 50 -- res = 0.22700E+03, tol = 0.57630E+04, time = 17.81 | CG iter. 51 -- res = 0.21721E+03, tol = 0.57630E+04, time = 11.64 | CG iter. 52 -- res = 0.21626E+03, tol = 0.57630E+04, time = 11.46 | CG iter. 53 -- res = 0.21483E+03, tol = 0.57630E+04, time = 12.05 | CG iter. 54 -- res = 0.20747E+03, tol = 0.57630E+04, time = 11.51 | CG iter. 55 -- res = 0.19284E+03, tol = 0.57630E+04, time = 12.10 | CG iter. 56 -- res = 0.17279E+03, tol = 0.57630E+04, time = 11.65 | CG iter. 57 -- res = 0.15216E+03, tol = 0.57630E+04, time = 13.71 | CG iter. 58 -- res = 0.14026E+03, tol = 0.57630E+04, time = 12.35 | CG iter. 59 -- res = 0.13375E+03, tol = 0.57630E+04, time = 11.88 | CG iter. 60 -- res = 0.12749E+03, tol = 0.57630E+04, time = 11.73 | Final CG iter 61 -- res = 0.12749E+03, tol = 0.57630E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.966 ( -229.843 -2233.921 2516.959 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9327447.292 | Old band monopole 8851449.489 | Change to band monopole 475997.804 | Change to component monopole -475995.756 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.847 2.736 | New value 5.150 | Old value 5.847 | Difference -0.697 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.880 ( 6.592 18.692 -19.490 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.980 4.823 | New value -3.912 | Old value -6.980 | Difference 3.069 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.38920E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.26633E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.83941E+00, tol = 0.47627E+18, time = 2.34 | CG iter. 4 -- res = 0.21274E-02, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.15656E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9327407.173 | (Sampled value in CG: 9311566.024 ) | Chain = 1 -- chisq = 0.81515673E+09 | Chain = 1 -- wall time = 6153.052 sec Available RAM: MemAvailable: 378202812 kB Available Swap: SwapFree: 1114126804 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 355 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441095 | --> Sampling calibration, mode = relcal | relcal = 1.3430741E-02 7.5009803E-04 -1.5944421E-03 -1.2586397E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1373859 0.1529804 97035316.2035798 | BP delta = 0.1437874 0.1593820 97035312.7062265 | BP chisq diff = -3.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632835 | --> Sampling calibration, mode = relcal | relcal = -2.8228108E-03 -7.0437102E-04 1.6788765E-03 1.6143308E-03 -4.0844275E-04 6.4241723E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5610263 15218519.2864682 | BP delta = 0.0000000E+00 -0.5669208 15218518.5404071 | BP chisq diff = -0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18336619210864 | --> Sampling calibration, mode = relcal | relcal = -7.6730616E-02 -5.9658419E-02 9.3719035E-02 4.2669997E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.3264779E-05 6.9542779E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6437E-05 | 2: delta_r/delta_0: 2.0089E-06 | 3: delta_s/delta_0: 2.1682E-07 | 4: delta_r/delta_0: 3.8819E-08 | 5: delta_s/delta_0: 1.2045E-08 | 6: delta_r/delta_0: 4.1383E-09 | 7: delta_s/delta_0: 1.0085E-09 | 8: delta_r/delta_0: 3.0086E-10 | 9: delta_s/delta_0: 1.6597E-10 | 10: delta_r/delta_0: 7.8115E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.575194896988781E-003 2.735349040990424E-005 | BP delta = 8.6583376E-02 0.1090276 50487793.3330782 | BP delta = 8.3614744E-02 0.1060590 50487800.4227308 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02635721 | --> Sampling calibration, mode = relcal | relcal = -0.1067581 -9.5604509E-02 0.1450239 5.7338707E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0506800E-03 1.1828749E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9601E-05 | 2: delta_r/delta_0: 1.3296E-06 | 3: delta_s/delta_0: 2.4596E-07 | 4: delta_r/delta_0: 4.2357E-08 | 5: delta_s/delta_0: 2.2971E-08 | 6: delta_r/delta_0: 6.3705E-09 | 7: delta_s/delta_0: 8.1400E-09 | 8: delta_r/delta_0: 1.1797E-09 | 9: delta_s/delta_0: 1.0023E-09 | 10: delta_r/delta_0: 3.1049E-10 | 11: delta_s/delta_0: 2.3734E-09 | 12: delta_r/delta_0: 2.6708E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.928585919321329E-003 2.809857909510623E-005 | BP delta = -0.2744756 -0.2441002 57386458.4115448 | BP delta = -0.2711926 -0.2408172 57386458.3988478 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81277903 | --> Sampling calibration, mode = relcal | relcal = 0.2956710 0.2250403 -0.2839458 -0.2367655 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2597286E-03 4.9476190E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6018E-04 | 2: delta_r/delta_0: 1.0398E-05 | 3: delta_s/delta_0: 1.5846E-05 | 4: delta_r/delta_0: 1.9333E-06 | 5: delta_s/delta_0: 2.0735E-07 | 6: delta_r/delta_0: 6.4782E-08 | 7: delta_s/delta_0: 5.0340E-08 | 8: delta_r/delta_0: 2.9073E-08 | 9: delta_s/delta_0: 8.4658E-08 | 10: delta_r/delta_0: 2.2527E-09 | 11: delta_s/delta_0: 6.8050E-10 | 12: delta_r/delta_0: 4.2653E-10 | 13: delta_s/delta_0: 1.8723E-10 | 14: delta_r/delta_0: 6.6290E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.249544822039769E-002 4.019074345676339E-005 | BP delta = -0.1173146 -0.1597659 72479808.4566190 | BP delta = -9.0488374E-02 -0.1329397 72479810.1226436 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95987786 | --> Sampling calibration, mode = relcal | relcal = 0.1065904 0.1396867 -0.1103796 -0.1358975 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0250404E-02 1.4174646E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5009E-02 | 2: delta_r/delta_0: 3.5596E-04 | 3: delta_s/delta_0: 5.3961E-05 | 4: delta_r/delta_0: 4.9437E-06 | 5: delta_s/delta_0: 2.2067E-05 | 6: delta_r/delta_0: 2.4854E-06 | 7: delta_s/delta_0: 2.0004E-07 | 8: delta_r/delta_0: 7.7272E-09 | 9: delta_s/delta_0: 1.2659E-07 | 10: delta_r/delta_0: 1.9966E-08 | 11: delta_s/delta_0: 2.6934E-09 | 12: delta_r/delta_0: 7.9039E-10 | 13: delta_s/delta_0: 5.5015E-10 | 14: delta_r/delta_0: 8.0133E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.534718758700414E-003 3.694482432336529E-005 | BP delta = 0.1675995 0.2678835 72781951.8699854 | BP delta = 0.1571797 0.2574637 72781951.2971375 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147661 | New value = -3.173978 | poltype: 2 pol: 1 CPU time specind = 1.7138958E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.105921 | New value = -3.161052 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168239 | New value = -3.182050 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.046649 | New value = -3.220791 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155164 | New value = -3.139217 | poltype: 2 pol: 2 CPU time specind = 1.9626141E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.33 | CG iter. 1 -- res = 0.13555E+08, tol = 0.76388E+01, time = 7.28 | CG iter. 2 -- res = 0.35281E+06, tol = 0.76388E+01, time = 10.25 | CG iter. 3 -- res = 0.50750E+05, tol = 0.76388E+01, time = 5.46 | CG iter. 4 -- res = 0.23643E+05, tol = 0.76388E+01, time = 5.90 | CG iter. 5 -- res = 0.12910E+05, tol = 0.76388E+01, time = 5.59 | CG iter. 6 -- res = 0.80517E+04, tol = 0.76388E+01, time = 5.66 | CG iter. 7 -- res = 0.65244E+04, tol = 0.76388E+01, time = 5.82 | CG iter. 8 -- res = 0.54218E+04, tol = 0.76388E+01, time = 5.81 | CG iter. 9 -- res = 0.50079E+04, tol = 0.76388E+01, time = 5.68 | CG iter. 10 -- res = 0.53873E+04, tol = 0.76388E+01, time = 5.70 | CG iter. 11 -- res = 0.47337E+04, tol = 0.76388E+01, time = 5.85 | CG iter. 12 -- res = 0.32048E+04, tol = 0.76388E+01, time = 5.58 | CG iter. 13 -- res = 0.21403E+04, tol = 0.76388E+01, time = 5.62 | CG iter. 14 -- res = 0.17084E+04, tol = 0.76388E+01, time = 5.97 | CG iter. 15 -- res = 0.14759E+04, tol = 0.76388E+01, time = 5.32 | CG iter. 16 -- res = 0.12386E+04, tol = 0.76388E+01, time = 6.40 | CG iter. 17 -- res = 0.99601E+03, tol = 0.76388E+01, time = 6.49 | CG iter. 18 -- res = 0.83178E+03, tol = 0.76388E+01, time = 6.44 | CG iter. 19 -- res = 0.73429E+03, tol = 0.76388E+01, time = 5.63 | CG iter. 20 -- res = 0.58368E+03, tol = 0.76388E+01, time = 5.78 | CG iter. 21 -- res = 0.43301E+03, tol = 0.76388E+01, time = 5.70 | CG iter. 22 -- res = 0.31983E+03, tol = 0.76388E+01, time = 5.78 | CG iter. 23 -- res = 0.26350E+03, tol = 0.76388E+01, time = 6.05 | CG iter. 24 -- res = 0.23842E+03, tol = 0.76388E+01, time = 5.81 | CG iter. 25 -- res = 0.18135E+03, tol = 0.76388E+01, time = 5.46 | CG iter. 26 -- res = 0.13620E+03, tol = 0.76388E+01, time = 5.80 | CG iter. 27 -- res = 0.11142E+03, tol = 0.76388E+01, time = 5.80 | CG iter. 28 -- res = 0.99220E+02, tol = 0.76388E+01, time = 5.72 | CG iter. 29 -- res = 0.86137E+02, tol = 0.76388E+01, time = 5.29 | CG iter. 30 -- res = 0.69363E+02, tol = 0.76388E+01, time = 5.69 | CG iter. 31 -- res = 0.59990E+02, tol = 0.76388E+01, time = 5.56 | CG iter. 32 -- res = 0.55616E+02, tol = 0.76388E+01, time = 5.51 | CG iter. 33 -- res = 0.49337E+02, tol = 0.76388E+01, time = 5.58 | CG iter. 34 -- res = 0.40028E+02, tol = 0.76388E+01, time = 5.93 | CG iter. 35 -- res = 0.32896E+02, tol = 0.76388E+01, time = 6.46 | CG iter. 36 -- res = 0.29566E+02, tol = 0.76388E+01, time = 5.44 | CG iter. 37 -- res = 0.26268E+02, tol = 0.76388E+01, time = 5.95 | CG iter. 38 -- res = 0.21436E+02, tol = 0.76388E+01, time = 5.26 | CG iter. 39 -- res = 0.16859E+02, tol = 0.76388E+01, time = 5.63 | CG iter. 40 -- res = 0.13655E+02, tol = 0.76388E+01, time = 5.70 | CG iter. 41 -- res = 0.11230E+02, tol = 0.76388E+01, time = 5.69 | CG iter. 42 -- res = 0.89449E+01, tol = 0.76388E+01, time = 5.44 | CG iter. 43 -- res = 0.66312E+01, tol = 0.76388E+01, time = 5.86 | CG iter. 44 -- res = 0.52508E+01, tol = 0.76388E+01, time = 5.49 | CG iter. 45 -- res = 0.43695E+01, tol = 0.76388E+01, time = 5.96 | CG iter. 46 -- res = 0.35632E+01, tol = 0.76388E+01, time = 6.01 | CG iter. 47 -- res = 0.27825E+01, tol = 0.76388E+01, time = 5.52 | CG iter. 48 -- res = 0.22367E+01, tol = 0.76388E+01, time = 5.46 | CG iter. 49 -- res = 0.19750E+01, tol = 0.76388E+01, time = 6.17 | CG iter. 50 -- res = 0.17348E+01, tol = 0.76388E+01, time = 5.69 | Final CG iter 51 -- res = 0.17348E+01, tol = 0.76388E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11145029.268 | Old band monopole 9327447.292 | Change to band monopole 1817581.976 | Change to component monopole -1817574.158 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.16370E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.55045E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.23319E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.34130E-02, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.12668E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11144981.331 | (Sampled value in CG: 11121916.759 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.537920 | New value = 1.546276 | poltype: 2 pol: 1 CPU time specind = 1.6547918E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.501386 | New value = 1.503568 | poltype: 2 pol: 2 CPU time specind = 4.1239262E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.24043E+08, tol = 0.47711E+04, time = 6.89 | CG iter. 2 -- res = 0.53103E+07, tol = 0.47711E+04, time = 6.63 | CG iter. 3 -- res = 0.85308E+06, tol = 0.47711E+04, time = 6.23 | CG iter. 4 -- res = 0.35582E+06, tol = 0.47711E+04, time = 6.54 | CG iter. 5 -- res = 0.15547E+06, tol = 0.47711E+04, time = 6.60 | CG iter. 6 -- res = 0.82642E+05, tol = 0.47711E+04, time = 6.82 | CG iter. 7 -- res = 0.44331E+05, tol = 0.47711E+04, time = 6.35 | CG iter. 8 -- res = 0.21080E+05, tol = 0.47711E+04, time = 6.57 | CG iter. 9 -- res = 0.92927E+04, tol = 0.47711E+04, time = 6.55 | CG iter. 10 -- res = 0.38193E+04, tol = 0.47711E+04, time = 6.40 | CG iter. 11 -- res = 0.17238E+04, tol = 0.47711E+04, time = 6.52 | CG iter. 12 -- res = 0.89614E+03, tol = 0.47711E+04, time = 6.59 | CG iter. 13 -- res = 0.51347E+03, tol = 0.47711E+04, time = 5.96 | CG iter. 14 -- res = 0.28863E+03, tol = 0.47711E+04, time = 6.56 | CG iter. 15 -- res = 0.14542E+03, tol = 0.47711E+04, time = 6.40 | CG iter. 16 -- res = 0.68032E+02, tol = 0.47711E+04, time = 6.44 | CG iter. 17 -- res = 0.32166E+02, tol = 0.47711E+04, time = 6.44 | CG iter. 18 -- res = 0.15937E+02, tol = 0.47711E+04, time = 6.44 | CG iter. 19 -- res = 0.87759E+01, tol = 0.47711E+04, time = 6.52 | CG iter. 20 -- res = 0.50112E+01, tol = 0.47711E+04, time = 6.62 | CG iter. 21 -- res = 0.27847E+01, tol = 0.47711E+04, time = 6.38 | CG iter. 22 -- res = 0.14191E+01, tol = 0.47711E+04, time = 6.89 | CG iter. 23 -- res = 0.69979E+00, tol = 0.47711E+04, time = 6.67 | CG iter. 24 -- res = 0.36016E+00, tol = 0.47711E+04, time = 6.33 | CG iter. 25 -- res = 0.19830E+00, tol = 0.47711E+04, time = 6.57 | CG iter. 26 -- res = 0.11501E+00, tol = 0.47711E+04, time = 6.57 | CG iter. 27 -- res = 0.64780E-01, tol = 0.47711E+04, time = 6.46 | CG iter. 28 -- res = 0.34931E-01, tol = 0.47711E+04, time = 6.48 | CG iter. 29 -- res = 0.18512E-01, tol = 0.47711E+04, time = 6.72 | CG iter. 30 -- res = 0.96444E-02, tol = 0.47711E+04, time = 6.49 | CG iter. 31 -- res = 0.52122E-02, tol = 0.47711E+04, time = 12.76 | CG iter. 32 -- res = 0.29298E-02, tol = 0.47711E+04, time = 6.39 | CG iter. 33 -- res = 0.16310E-02, tol = 0.47711E+04, time = 6.59 | CG iter. 34 -- res = 0.88398E-03, tol = 0.47711E+04, time = 6.30 | CG iter. 35 -- res = 0.46780E-03, tol = 0.47711E+04, time = 6.50 | Final CG iter 36 -- res = 0.46780E-03, tol = 0.47711E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.171 2.760 | New value -1.707 | Old value 5.171 | Difference -6.878 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.24479E+07, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.28264E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.56622E+00, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.59624E-03, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.70713E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11144981.331 | (Sampled value in CG: 11122417.425 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.367273 | New value = -3.620816 | poltype: 1 pol: 1 CPU time specind = 1.5241861E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.24743E+07, tol = 0.42752E+01, time = 2.74 | CG iter. 2 -- res = 0.82251E+06, tol = 0.42752E+01, time = 2.72 | CG iter. 3 -- res = 0.15673E+06, tol = 0.42752E+01, time = 2.54 | CG iter. 4 -- res = 0.71406E+05, tol = 0.42752E+01, time = 2.63 | CG iter. 5 -- res = 0.44692E+05, tol = 0.42752E+01, time = 2.86 | CG iter. 6 -- res = 0.19723E+05, tol = 0.42752E+01, time = 2.62 | CG iter. 7 -- res = 0.73502E+04, tol = 0.42752E+01, time = 2.48 | CG iter. 8 -- res = 0.33429E+04, tol = 0.42752E+01, time = 2.63 | CG iter. 9 -- res = 0.15142E+04, tol = 0.42752E+01, time = 2.77 | CG iter. 10 -- res = 0.60018E+03, tol = 0.42752E+01, time = 2.41 | CG iter. 11 -- res = 0.25497E+03, tol = 0.42752E+01, time = 2.65 | CG iter. 12 -- res = 0.12438E+03, tol = 0.42752E+01, time = 2.53 | CG iter. 13 -- res = 0.64626E+02, tol = 0.42752E+01, time = 2.76 | CG iter. 14 -- res = 0.33052E+02, tol = 0.42752E+01, time = 2.84 | CG iter. 15 -- res = 0.15045E+02, tol = 0.42752E+01, time = 2.68 | CG iter. 16 -- res = 0.63945E+01, tol = 0.42752E+01, time = 2.50 | CG iter. 17 -- res = 0.26414E+01, tol = 0.42752E+01, time = 2.82 | CG iter. 18 -- res = 0.12443E+01, tol = 0.42752E+01, time = 2.80 | CG iter. 19 -- res = 0.60934E+00, tol = 0.42752E+01, time = 3.42 | CG iter. 20 -- res = 0.31451E+00, tol = 0.42752E+01, time = 4.00 | CG iter. 21 -- res = 0.15684E+00, tol = 0.42752E+01, time = 2.81 | CG iter. 22 -- res = 0.68921E-01, tol = 0.42752E+01, time = 3.25 | CG iter. 23 -- res = 0.30034E-01, tol = 0.42752E+01, time = 2.87 | CG iter. 24 -- res = 0.14068E-01, tol = 0.42752E+01, time = 2.70 | CG iter. 25 -- res = 0.70481E-02, tol = 0.42752E+01, time = 2.67 | CG iter. 26 -- res = 0.36059E-02, tol = 0.42752E+01, time = 2.82 | CG iter. 27 -- res = 0.17538E-02, tol = 0.42752E+01, time = 2.98 | CG iter. 28 -- res = 0.84740E-03, tol = 0.42752E+01, time = 2.71 | CG iter. 29 -- res = 0.37086E-03, tol = 0.42752E+01, time = 2.65 | CG iter. 30 -- res = 0.17682E-03, tol = 0.42752E+01, time = 2.96 | CG iter. 31 -- res = 0.86548E-04, tol = 0.42752E+01, time = 2.74 | CG iter. 32 -- res = 0.44489E-04, tol = 0.42752E+01, time = 2.74 | CG iter. 33 -- res = 0.22203E-04, tol = 0.42752E+01, time = 2.83 | CG iter. 34 -- res = 0.10170E-04, tol = 0.42752E+01, time = 2.85 | CG iter. 35 -- res = 0.46618E-05, tol = 0.42752E+01, time = 2.48 | CG iter. 36 -- res = 0.22364E-05, tol = 0.42752E+01, time = 2.78 | CG iter. 37 -- res = 0.10637E-05, tol = 0.42752E+01, time = 3.03 | CG iter. 38 -- res = 0.54686E-06, tol = 0.42752E+01, time = 2.74 | CG iter. 39 -- res = 0.25869E-06, tol = 0.42752E+01, time = 2.76 | CG iter. 40 -- res = 0.12083E-06, tol = 0.42752E+01, time = 2.67 | CG iter. 41 -- res = 0.57260E-07, tol = 0.42752E+01, time = 2.67 | CG iter. 42 -- res = 0.27424E-07, tol = 0.42752E+01, time = 2.64 | CG iter. 43 -- res = 0.12651E-07, tol = 0.42752E+01, time = 2.76 | CG iter. 44 -- res = 0.62229E-08, tol = 0.42752E+01, time = 2.80 | CG iter. 45 -- res = 0.30204E-08, tol = 0.42752E+01, time = 2.91 | CG iter. 46 -- res = 0.14708E-08, tol = 0.42752E+01, time = 2.66 | CG iter. 47 -- res = 0.66870E-09, tol = 0.42752E+01, time = 2.81 | CG iter. 48 -- res = 0.31575E-09, tol = 0.42752E+01, time = 2.61 | CG iter. 49 -- res = 0.15074E-09, tol = 0.42752E+01, time = 2.80 | CG iter. 50 -- res = 0.69013E-10, tol = 0.42752E+01, time = 2.86 | Final CG iter 51 -- res = 0.69013E-10, tol = 0.42752E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.249 5.717 | New value -4.040 | Old value -7.249 | Difference 3.209 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.11759E+05, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.19688E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.35332E+00, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.57196E-03, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.24525E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11144981.331 | (Sampled value in CG: 11130082.700 ) | CPU time specind = 1188.303 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.69758E+08, tol = 0.57741E+04, time = 11.83 | CG iter. 2 -- res = 0.58784E+08, tol = 0.57741E+04, time = 11.98 | CG iter. 3 -- res = 0.15333E+08, tol = 0.57741E+04, time = 12.63 | CG iter. 4 -- res = 0.65993E+07, tol = 0.57741E+04, time = 17.99 | CG iter. 5 -- res = 0.39630E+07, tol = 0.57741E+04, time = 11.88 | CG iter. 6 -- res = 0.22408E+07, tol = 0.57741E+04, time = 12.25 | CG iter. 7 -- res = 0.12964E+07, tol = 0.57741E+04, time = 11.47 | CG iter. 8 -- res = 0.81890E+06, tol = 0.57741E+04, time = 11.91 | CG iter. 9 -- res = 0.52734E+06, tol = 0.57741E+04, time = 11.36 | CG iter. 10 -- res = 0.32249E+06, tol = 0.57741E+04, time = 11.56 | CG iter. 11 -- res = 0.17781E+06, tol = 0.57741E+04, time = 13.03 | CG iter. 12 -- res = 0.93477E+05, tol = 0.57741E+04, time = 12.28 | CG iter. 13 -- res = 0.49537E+05, tol = 0.57741E+04, time = 12.47 | CG iter. 14 -- res = 0.29400E+05, tol = 0.57741E+04, time = 11.72 | CG iter. 15 -- res = 0.19680E+05, tol = 0.57741E+04, time = 12.25 | CG iter. 16 -- res = 0.14618E+05, tol = 0.57741E+04, time = 12.43 | CG iter. 17 -- res = 0.11062E+05, tol = 0.57741E+04, time = 11.58 | CG iter. 18 -- res = 0.79659E+04, tol = 0.57741E+04, time = 11.75 | CG iter. 19 -- res = 0.58397E+04, tol = 0.57741E+04, time = 11.98 | CG iter. 20 -- res = 0.44255E+04, tol = 0.57741E+04, time = 12.44 | CG iter. 21 -- res = 0.36729E+04, tol = 0.57741E+04, time = 11.58 | CG iter. 22 -- res = 0.35237E+04, tol = 0.57741E+04, time = 12.61 | CG iter. 23 -- res = 0.37229E+04, tol = 0.57741E+04, time = 12.07 | CG iter. 24 -- res = 0.41301E+04, tol = 0.57741E+04, time = 12.01 | CG iter. 25 -- res = 0.44016E+04, tol = 0.57741E+04, time = 12.10 | CG iter. 26 -- res = 0.43939E+04, tol = 0.57741E+04, time = 11.85 | CG iter. 27 -- res = 0.39775E+04, tol = 0.57741E+04, time = 11.98 | CG iter. 28 -- res = 0.33592E+04, tol = 0.57741E+04, time = 17.92 | CG iter. 29 -- res = 0.28793E+04, tol = 0.57741E+04, time = 11.73 | CG iter. 30 -- res = 0.24518E+04, tol = 0.57741E+04, time = 11.77 | CG iter. 31 -- res = 0.21065E+04, tol = 0.57741E+04, time = 12.16 | CG iter. 32 -- res = 0.17509E+04, tol = 0.57741E+04, time = 11.74 | CG iter. 33 -- res = 0.13981E+04, tol = 0.57741E+04, time = 12.28 | CG iter. 34 -- res = 0.10691E+04, tol = 0.57741E+04, time = 11.56 | CG iter. 35 -- res = 0.82689E+03, tol = 0.57741E+04, time = 13.44 | CG iter. 36 -- res = 0.70085E+03, tol = 0.57741E+04, time = 12.31 | CG iter. 37 -- res = 0.65518E+03, tol = 0.57741E+04, time = 11.61 | CG iter. 38 -- res = 0.64241E+03, tol = 0.57741E+04, time = 12.11 | CG iter. 39 -- res = 0.61987E+03, tol = 0.57741E+04, time = 11.40 | CG iter. 40 -- res = 0.58068E+03, tol = 0.57741E+04, time = 11.85 | CG iter. 41 -- res = 0.51722E+03, tol = 0.57741E+04, time = 12.00 | CG iter. 42 -- res = 0.44302E+03, tol = 0.57741E+04, time = 12.28 | CG iter. 43 -- res = 0.39082E+03, tol = 0.57741E+04, time = 11.75 | CG iter. 44 -- res = 0.35342E+03, tol = 0.57741E+04, time = 12.55 | CG iter. 45 -- res = 0.30950E+03, tol = 0.57741E+04, time = 11.34 | CG iter. 46 -- res = 0.27629E+03, tol = 0.57741E+04, time = 11.61 | CG iter. 47 -- res = 0.23673E+03, tol = 0.57741E+04, time = 11.52 | CG iter. 48 -- res = 0.19278E+03, tol = 0.57741E+04, time = 11.52 | CG iter. 49 -- res = 0.15671E+03, tol = 0.57741E+04, time = 12.20 | CG iter. 50 -- res = 0.13240E+03, tol = 0.57741E+04, time = 11.99 | CG iter. 51 -- res = 0.12393E+03, tol = 0.57741E+04, time = 11.91 | CG iter. 52 -- res = 0.12127E+03, tol = 0.57741E+04, time = 11.46 | CG iter. 53 -- res = 0.11790E+03, tol = 0.57741E+04, time = 17.88 | CG iter. 54 -- res = 0.11229E+03, tol = 0.57741E+04, time = 11.69 | CG iter. 55 -- res = 0.10392E+03, tol = 0.57741E+04, time = 12.00 | CG iter. 56 -- res = 0.93944E+02, tol = 0.57741E+04, time = 11.26 | CG iter. 57 -- res = 0.85546E+02, tol = 0.57741E+04, time = 11.74 | CG iter. 58 -- res = 0.80470E+02, tol = 0.57741E+04, time = 11.96 | CG iter. 59 -- res = 0.78477E+02, tol = 0.57741E+04, time = 12.00 | CG iter. 60 -- res = 0.78143E+02, tol = 0.57741E+04, time = 13.73 | Final CG iter 61 -- res = 0.78143E+02, tol = 0.57741E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.645 ( -229.926 -2230.176 2512.646 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8306241.400 | Old band monopole 11145029.268 | Change to band monopole -2838787.868 | Change to component monopole 2838775.657 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.754 2.743 | New value 0.996 | Old value -1.754 | Difference 2.750 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.212 ( 7.223 10.607 -9.902 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.567 5.621 | New value 7.826 | Old value 2.567 | Difference 5.260 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.44 | CG iter. 1 -- res = 0.78112E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.10988E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.32743E+01, tol = 0.47627E+18, time = 2.29 | CG iter. 4 -- res = 0.33583E-02, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.43814E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8306205.673 | (Sampled value in CG: 8285850.202 ) | Chain = 1 -- chisq = 0.81531433E+09 | Chain = 1 -- wall time = 5666.906 sec Available RAM: MemAvailable: 378734372 kB Available Swap: SwapFree: 1114806228 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 356 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445392 | --> Sampling calibration, mode = relcal | relcal = 1.3437726E-02 7.5556367E-04 -1.6154450E-03 -1.2577844E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1437874 0.1593820 9410042.64821861 | BP delta = 0.1437874 0.1557549 9410094.80230010 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632490 | --> Sampling calibration, mode = relcal | relcal = -2.8211796E-03 -7.0464518E-04 1.6782156E-03 1.6147355E-03 -4.0806751E-04 6.4094114E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5669208 15219334.6117023 | BP delta = 0.0000000E+00 -0.5775347 15219333.3334088 | BP chisq diff = -1.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102689 | --> Sampling calibration, mode = relcal | relcal = 3.7074238E-02 1.3721907E-02 5.7449178E-03 -7.1652746E-03 8.2520032E-03 2.3918184E-03 -7.5946967E-03 -7.1782847E-03 -1.5299981E-02 -1.4796326E-02 -3.0593495E-03 -1.2090972E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.196020 132214266.257796 | BP delta = 0.0000000E+00 -1.195416 132214265.494033 | BP chisq diff = -0.8, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18298041388151 | --> Sampling calibration, mode = relcal | relcal = -7.5110175E-02 -5.8692075E-02 9.2087261E-02 4.1714985E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.4058409E-04 4.7486941E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1004E-05 | 2: delta_r/delta_0: 9.1808E-07 | 3: delta_s/delta_0: 2.0464E-07 | 4: delta_r/delta_0: 1.5909E-08 | 5: delta_s/delta_0: 1.3650E-08 | 6: delta_r/delta_0: 9.9512E-10 | 7: delta_s/delta_0: 2.4362E-10 | 8: delta_r/delta_0: 1.1876E-10 | 9: delta_s/delta_0: 1.7719E-10 | 10: delta_r/delta_0: 5.7705E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.427430783901146E-003 2.736455212573112E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1003E-05 | 2: delta_r/delta_0: 9.1807E-07 | 3: delta_s/delta_0: 2.0464E-07 | 4: delta_r/delta_0: 1.5910E-08 | 5: delta_s/delta_0: 1.3651E-08 | 6: delta_r/delta_0: 9.9502E-10 | 7: delta_s/delta_0: 2.4356E-10 | 8: delta_r/delta_0: 1.1876E-10 | 9: delta_s/delta_0: 1.7711E-10 | 10: delta_r/delta_0: 5.7683E-11 | Reached bicg-stab tolerance | BP delta = 8.6583376E-02 0.1090276 3529860.18974365 | BP delta = 8.6583376E-02 0.1091421 3527256.01122611 | BP chisq diff = -2604.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596045 | --> Sampling calibration, mode = relcal | relcal = -0.1066801 -9.5564075E-02 0.1448663 5.7377823E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3498167E-03 1.7117719E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3488E-05 | 2: delta_r/delta_0: 1.2477E-06 | 3: delta_s/delta_0: 2.4189E-07 | 4: delta_r/delta_0: 4.9530E-08 | 5: delta_s/delta_0: 1.8679E-08 | 6: delta_r/delta_0: 6.8077E-09 | 7: delta_s/delta_0: 1.5829E-08 | 8: delta_r/delta_0: 1.0023E-09 | 9: delta_s/delta_0: 9.5858E-10 | 10: delta_r/delta_0: 2.4469E-10 | 11: delta_s/delta_0: 2.2568E-09 | 12: delta_r/delta_0: 2.6629E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.904539174683971E-003 2.810926315878278E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3487E-05 | 2: delta_r/delta_0: 1.2476E-06 | 3: delta_s/delta_0: 2.4187E-07 | 4: delta_r/delta_0: 4.9504E-08 | 5: delta_s/delta_0: 1.8688E-08 | 6: delta_r/delta_0: 6.8058E-09 | 7: delta_s/delta_0: 1.5820E-08 | 8: delta_r/delta_0: 1.0018E-09 | 9: delta_s/delta_0: 9.5844E-10 | 10: delta_r/delta_0: 2.4452E-10 | 11: delta_s/delta_0: 2.2551E-09 | 12: delta_r/delta_0: 2.6618E-11 | Reached bicg-stab tolerance | BP delta = -0.2711926 -0.2408172 2841401.31027638 | BP delta = -0.2711926 -0.2424479 2841388.39977858 | BP chisq diff = -12.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81233852 | --> Sampling calibration, mode = relcal | relcal = 0.2954264 0.2249100 -0.2838250 -0.2365114 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.2001463E-04 5.4441616E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1604E-04 | 2: delta_r/delta_0: 1.2540E-05 | 3: delta_s/delta_0: 6.6681E-06 | 4: delta_r/delta_0: 7.6253E-07 | 5: delta_s/delta_0: 7.8285E-07 | 6: delta_r/delta_0: 2.1098E-07 | 7: delta_s/delta_0: 3.2722E-07 | 8: delta_r/delta_0: 3.6542E-08 | 9: delta_s/delta_0: 2.0901E-08 | 10: delta_r/delta_0: 6.4086E-09 | 11: delta_s/delta_0: 4.4883E-09 | 12: delta_r/delta_0: 1.5560E-09 | 13: delta_s/delta_0: 1.4317E-09 | 14: delta_r/delta_0: 7.7000E-10 | 15: delta_s/delta_0: 7.6995E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.195142537176853E-002 4.021100860080387E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1621E-04 | 2: delta_r/delta_0: 1.2544E-05 | 3: delta_s/delta_0: 6.6707E-06 | 4: delta_r/delta_0: 7.6271E-07 | 5: delta_s/delta_0: 7.8289E-07 | 6: delta_r/delta_0: 2.1096E-07 | 7: delta_s/delta_0: 3.2714E-07 | 8: delta_r/delta_0: 3.6545E-08 | 9: delta_s/delta_0: 2.0885E-08 | 10: delta_r/delta_0: 6.4038E-09 | 11: delta_s/delta_0: 4.4783E-09 | 12: delta_r/delta_0: 1.5477E-09 | 13: delta_s/delta_0: 1.4330E-09 | 14: delta_r/delta_0: 7.6835E-10 | 15: delta_s/delta_0: 7.6869E-11 | Reached bicg-stab tolerance | BP delta = -0.1173146 -0.1597659 2827480.29685278 | BP delta = -0.1173146 -0.1455193 2827506.94470257 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95912246 | --> Sampling calibration, mode = relcal | relcal = 0.1064853 0.1393731 -0.1101037 -0.1357547 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.7385550E-03 1.4318612E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5823E-04 | 2: delta_r/delta_0: 1.1286E-05 | 3: delta_s/delta_0: 1.0443E-05 | 4: delta_r/delta_0: 1.0087E-06 | 5: delta_s/delta_0: 3.0978E-07 | 6: delta_r/delta_0: 1.5629E-07 | 7: delta_s/delta_0: 4.4407E-07 | 8: delta_r/delta_0: 3.5423E-08 | 9: delta_s/delta_0: 1.0947E-08 | 10: delta_r/delta_0: 6.7081E-09 | 11: delta_s/delta_0: 2.2023E-09 | 12: delta_r/delta_0: 9.9715E-10 | 13: delta_s/delta_0: 1.9635E-09 | 14: delta_r/delta_0: 7.8347E-10 | 15: delta_s/delta_0: 7.5816E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.209302486732492E-002 3.697230898450141E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5806E-04 | 2: delta_r/delta_0: 1.1282E-05 | 3: delta_s/delta_0: 1.0443E-05 | 4: delta_r/delta_0: 1.0089E-06 | 5: delta_s/delta_0: 3.0973E-07 | 6: delta_r/delta_0: 1.5630E-07 | 7: delta_s/delta_0: 4.4434E-07 | 8: delta_r/delta_0: 3.5422E-08 | 9: delta_s/delta_0: 1.0944E-08 | 10: delta_r/delta_0: 6.6962E-09 | 11: delta_s/delta_0: 2.2053E-09 | 12: delta_r/delta_0: 9.9712E-10 | 13: delta_s/delta_0: 1.9572E-09 | 14: delta_r/delta_0: 7.8298E-10 | 15: delta_s/delta_0: 7.5845E-11 | Reached bicg-stab tolerance | BP delta = 0.1571797 0.2574637 3004390.94205806 | BP delta = 0.1571797 0.2519663 3004431.22484782 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52164070 | --> Sampling calibration, mode = relcal | relcal = -5.1095158E-02 -3.6623175E-03 2.7293801E-02 2.7463673E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.5091805E-04 1.8225799E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5345E-05 | 2: delta_r/delta_0: 4.4561E-06 | 3: delta_s/delta_0: 5.1481E-06 | 4: delta_r/delta_0: 8.2960E-07 | 5: delta_s/delta_0: 5.3752E-08 | 6: delta_r/delta_0: 2.9581E-08 | 7: delta_s/delta_0: 1.7813E-05 | 8: delta_r/delta_0: 1.1316E-06 | 9: delta_s/delta_0: 3.8383E-09 | 10: delta_r/delta_0: 1.4001E-09 | 11: delta_s/delta_0: 3.6456E-08 | 12: delta_r/delta_0: 7.1075E-09 | 13: delta_s/delta_0: 1.1522E-10 | 14: delta_r/delta_0: 2.4886E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.101602198185754E-002 5.482541685305964E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5345E-05 | 2: delta_r/delta_0: 4.4561E-06 | 3: delta_s/delta_0: 5.1481E-06 | 4: delta_r/delta_0: 8.2959E-07 | 5: delta_s/delta_0: 5.3752E-08 | 6: delta_r/delta_0: 2.9581E-08 | 7: delta_s/delta_0: 1.7789E-05 | 8: delta_r/delta_0: 1.1299E-06 | 9: delta_s/delta_0: 3.8382E-09 | 10: delta_r/delta_0: 1.4000E-09 | 11: delta_s/delta_0: 3.6528E-08 | 12: delta_r/delta_0: 7.1178E-09 | 13: delta_s/delta_0: 1.1523E-10 | 14: delta_r/delta_0: 2.4890E-11 | Reached bicg-stab tolerance | BP delta = 4.4440426E-02 0.1359132 2435207.16637979 | BP delta = 4.4440426E-02 0.1353935 2435216.29843915 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42155942 | --> Sampling calibration, mode = relcal | relcal = 4.5605198E-02 3.9670050E-02 -2.8286530E-02 -5.6988716E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9520406E-03 3.2775013E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1455E-05 | 2: delta_r/delta_0: 3.8591E-06 | 3: delta_s/delta_0: 8.1685E-06 | 4: delta_r/delta_0: 1.1719E-06 | 5: delta_s/delta_0: 5.7002E-08 | 6: delta_r/delta_0: 3.8000E-08 | 7: delta_s/delta_0: 4.6268E-08 | 8: delta_r/delta_0: 1.3717E-08 | 9: delta_s/delta_0: 2.1772E-09 | 10: delta_r/delta_0: 4.8680E-10 | 11: delta_s/delta_0: 7.6557E-10 | 12: delta_r/delta_0: 5.0869E-10 | 13: delta_s/delta_0: 1.4354E-07 | 14: delta_r/delta_0: 1.9266E-09 | 15: delta_s/delta_0: 2.6488E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.487293092936750E-002 4.996013862364893E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.1455E-05 | 2: delta_r/delta_0: 3.8591E-06 | 3: delta_s/delta_0: 8.1685E-06 | 4: delta_r/delta_0: 1.1719E-06 | 5: delta_s/delta_0: 5.7002E-08 | 6: delta_r/delta_0: 3.8000E-08 | 7: delta_s/delta_0: 4.6268E-08 | 8: delta_r/delta_0: 1.3717E-08 | 9: delta_s/delta_0: 2.1773E-09 | 10: delta_r/delta_0: 4.8681E-10 | 11: delta_s/delta_0: 7.6559E-10 | 12: delta_r/delta_0: 5.0864E-10 | 13: delta_s/delta_0: 1.4122E-07 | 14: delta_r/delta_0: 1.9041E-09 | 15: delta_s/delta_0: 2.6484E-11 | Reached bicg-stab tolerance | BP delta = 7.7764355E-02 -3.7934862E-02 2322208.77395469 | BP delta = 7.7764355E-02 -4.1421127E-02 2322211.72379459 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28169161 | --> Sampling calibration, mode = relcal | relcal = 2.4193196E-02 4.5148518E-02 -2.3330608E-02 -4.6011105E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2427361E-02 3.2277633E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0727E-04 | 2: delta_r/delta_0: 8.4237E-06 | 3: delta_s/delta_0: 1.2270E-06 | 4: delta_r/delta_0: 2.4694E-07 | 5: delta_s/delta_0: 6.4274E-08 | 6: delta_r/delta_0: 1.9307E-08 | 7: delta_s/delta_0: 9.5795E-09 | 8: delta_r/delta_0: 5.5980E-09 | 9: delta_s/delta_0: 4.0699E-07 | 10: delta_r/delta_0: 7.1059E-09 | 11: delta_s/delta_0: 9.0554E-10 | 12: delta_r/delta_0: 1.5301E-10 | 13: delta_s/delta_0: 2.4412E-10 | 14: delta_r/delta_0: 1.1440E-10 | 15: delta_s/delta_0: 6.8183E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.134693595326742E-002 7.841633674858188E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0727E-04 | 2: delta_r/delta_0: 8.4237E-06 | 3: delta_s/delta_0: 1.2270E-06 | 4: delta_r/delta_0: 2.4694E-07 | 5: delta_s/delta_0: 6.4274E-08 | 6: delta_r/delta_0: 1.9307E-08 | 7: delta_s/delta_0: 9.5796E-09 | 8: delta_r/delta_0: 5.5980E-09 | 9: delta_s/delta_0: 4.0699E-07 | 10: delta_r/delta_0: 7.1059E-09 | 11: delta_s/delta_0: 9.0552E-10 | 12: delta_r/delta_0: 1.5301E-10 | 13: delta_s/delta_0: 2.4412E-10 | 14: delta_r/delta_0: 1.1440E-10 | 15: delta_s/delta_0: 6.8184E-11 | Reached bicg-stab tolerance | BP delta = -0.3878396 -0.5896496 2490627.97627600 | BP delta = -0.3878396 -0.5948090 2490627.25592895 | BP chisq diff = -0.7, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29395550 | --> Sampling calibration, mode = relcal | relcal = 4.9301307E-04 1.0286174E-02 -3.7939944E-03 -6.9851927E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4458505E-02 1.5923796E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3064E-04 | 2: delta_r/delta_0: 1.1166E-05 | 3: delta_s/delta_0: 1.7478E-06 | 4: delta_r/delta_0: 3.1254E-07 | 5: delta_s/delta_0: 1.3412E-07 | 6: delta_r/delta_0: 2.4745E-08 | 7: delta_s/delta_0: 1.1990E-08 | 8: delta_r/delta_0: 7.7992E-09 | 9: delta_s/delta_0: 1.1816E-08 | 10: delta_r/delta_0: 4.9213E-09 | 11: delta_s/delta_0: 1.5123E-06 | 12: delta_r/delta_0: 8.6846E-07 | 13: delta_s/delta_0: 7.9408E-10 | 14: delta_r/delta_0: 5.5676E-10 | 15: delta_s/delta_0: 7.5693E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.168919714006468E-002 8.305626782101925E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3064E-04 | 2: delta_r/delta_0: 1.1166E-05 | 3: delta_s/delta_0: 1.7478E-06 | 4: delta_r/delta_0: 3.1255E-07 | 5: delta_s/delta_0: 1.3413E-07 | 6: delta_r/delta_0: 2.4746E-08 | 7: delta_s/delta_0: 1.1990E-08 | 8: delta_r/delta_0: 7.7993E-09 | 9: delta_s/delta_0: 1.1816E-08 | 10: delta_r/delta_0: 4.9212E-09 | 11: delta_s/delta_0: 1.5091E-06 | 12: delta_r/delta_0: 8.6668E-07 | 13: delta_s/delta_0: 7.9413E-10 | 14: delta_r/delta_0: 5.5679E-10 | 15: delta_s/delta_0: 7.5693E-11 | Reached bicg-stab tolerance | BP delta = -0.8320770 -0.7874534 2738184.42706938 | BP delta = -0.8320770 -0.7792678 2738188.16694056 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26515051 | --> Sampling calibration, mode = relcal | relcal = -5.6756572E-03 1.5110385E-02 -2.3893882E-03 -7.0453389E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.1396806E-04 4.5056567E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4137E-04 | 2: delta_r/delta_0: 1.1743E-05 | 3: delta_s/delta_0: 1.9371E-06 | 4: delta_r/delta_0: 2.0895E-07 | 5: delta_s/delta_0: 7.8480E-08 | 6: delta_r/delta_0: 1.7218E-08 | 7: delta_s/delta_0: 7.9752E-09 | 8: delta_r/delta_0: 5.4272E-09 | 9: delta_s/delta_0: 5.4598E-09 | 10: delta_r/delta_0: 3.8894E-09 | 11: delta_s/delta_0: 8.3361E-07 | 12: delta_r/delta_0: 2.3775E-08 | 13: delta_s/delta_0: 6.8569E-08 | 14: delta_r/delta_0: 4.6159E-08 | 15: delta_s/delta_0: 1.1408E-10 | 16: delta_r/delta_0: 8.6476E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.771734019220293E-003 9.151061035379501E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4137E-04 | 2: delta_r/delta_0: 1.1743E-05 | 3: delta_s/delta_0: 1.9371E-06 | 4: delta_r/delta_0: 2.0897E-07 | 5: delta_s/delta_0: 7.8474E-08 | 6: delta_r/delta_0: 1.7220E-08 | 7: delta_s/delta_0: 7.9756E-09 | 8: delta_r/delta_0: 5.4274E-09 | 9: delta_s/delta_0: 5.4600E-09 | 10: delta_r/delta_0: 3.8895E-09 | 11: delta_s/delta_0: 8.3324E-07 | 12: delta_r/delta_0: 2.3762E-08 | 13: delta_s/delta_0: 6.8362E-08 | 14: delta_r/delta_0: 4.6020E-08 | 15: delta_s/delta_0: 1.1407E-10 | 16: delta_r/delta_0: 8.6485E-11 | Reached bicg-stab tolerance | BP delta = 0.3693248 0.3787080 2516782.67876075 | BP delta = 0.3693248 0.3742691 2516783.30691383 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25665504 | --> Sampling calibration, mode = relcal | relcal = -3.1697702E-02 -2.5844472E-02 3.6848031E-02 2.0694142E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4338700E-02 1.8211395E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4441E-04 | 2: delta_r/delta_0: 1.1812E-05 | 3: delta_s/delta_0: 1.8342E-06 | 4: delta_r/delta_0: 4.3706E-07 | 5: delta_s/delta_0: 1.3769E-07 | 6: delta_r/delta_0: 2.9541E-08 | 7: delta_s/delta_0: 1.2490E-08 | 8: delta_r/delta_0: 7.4751E-09 | 9: delta_s/delta_0: 1.1399E-08 | 10: delta_r/delta_0: 4.6598E-09 | 11: delta_s/delta_0: 2.2169E-08 | 12: delta_r/delta_0: 2.9148E-09 | 13: delta_s/delta_0: 3.1400E-09 | 14: delta_r/delta_0: 1.1358E-09 | 15: delta_s/delta_0: 1.4352E-10 | 16: delta_r/delta_0: 1.2641E-10 | 17: delta_s/delta_0: 1.1352E-10 | 18: delta_r/delta_0: 1.0117E-10 | 19: delta_s/delta_0: 8.6438E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.142588037546417E-002 8.671312456761879E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4441E-04 | 2: delta_r/delta_0: 1.1812E-05 | 3: delta_s/delta_0: 1.8342E-06 | 4: delta_r/delta_0: 4.3708E-07 | 5: delta_s/delta_0: 1.3770E-07 | 6: delta_r/delta_0: 2.9542E-08 | 7: delta_s/delta_0: 1.2490E-08 | 8: delta_r/delta_0: 7.4752E-09 | 9: delta_s/delta_0: 1.1400E-08 | 10: delta_r/delta_0: 4.6599E-09 | 11: delta_s/delta_0: 2.2150E-08 | 12: delta_r/delta_0: 2.9103E-09 | 13: delta_s/delta_0: 3.1372E-09 | 14: delta_r/delta_0: 1.1340E-09 | 15: delta_s/delta_0: 1.4350E-10 | 16: delta_r/delta_0: 1.2639E-10 | 17: delta_s/delta_0: 1.1350E-10 | 18: delta_r/delta_0: 1.0115E-10 | 19: delta_s/delta_0: 8.6409E-11 | Reached bicg-stab tolerance | BP delta = -0.8661685 -1.068467 2705795.42653160 | BP delta = -0.8661685 -1.081267 2705806.71682275 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173978 | New value = -3.190217 | poltype: 2 pol: 1 CPU time specind = 2.2844791E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161052 | New value = -3.153324 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182050 | New value = -3.127371 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.220791 | New value = -3.158112 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139217 | New value = -3.075369 | poltype: 2 pol: 2 CPU time specind = 2.6715040E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.44 | CG iter. 1 -- res = 0.13548E+08, tol = 0.83169E+01, time = 5.47 | CG iter. 2 -- res = 0.33406E+06, tol = 0.83169E+01, time = 5.81 | CG iter. 3 -- res = 0.44449E+05, tol = 0.83169E+01, time = 5.37 | CG iter. 4 -- res = 0.19154E+05, tol = 0.83169E+01, time = 5.82 | CG iter. 5 -- res = 0.93491E+04, tol = 0.83169E+01, time = 5.72 | CG iter. 6 -- res = 0.46662E+04, tol = 0.83169E+01, time = 5.26 | CG iter. 7 -- res = 0.27437E+04, tol = 0.83169E+01, time = 5.33 | CG iter. 8 -- res = 0.17791E+04, tol = 0.83169E+01, time = 5.61 | CG iter. 9 -- res = 0.13943E+04, tol = 0.83169E+01, time = 5.62 | CG iter. 10 -- res = 0.13634E+04, tol = 0.83169E+01, time = 5.37 | CG iter. 11 -- res = 0.13826E+04, tol = 0.83169E+01, time = 5.48 | CG iter. 12 -- res = 0.11161E+04, tol = 0.83169E+01, time = 5.58 | CG iter. 13 -- res = 0.83639E+03, tol = 0.83169E+01, time = 5.46 | CG iter. 14 -- res = 0.66067E+03, tol = 0.83169E+01, time = 5.40 | CG iter. 15 -- res = 0.57272E+03, tol = 0.83169E+01, time = 5.52 | CG iter. 16 -- res = 0.48492E+03, tol = 0.83169E+01, time = 5.38 | CG iter. 17 -- res = 0.38228E+03, tol = 0.83169E+01, time = 5.36 | CG iter. 18 -- res = 0.32338E+03, tol = 0.83169E+01, time = 5.35 | CG iter. 19 -- res = 0.29521E+03, tol = 0.83169E+01, time = 5.34 | CG iter. 20 -- res = 0.25223E+03, tol = 0.83169E+01, time = 5.69 | CG iter. 21 -- res = 0.18910E+03, tol = 0.83169E+01, time = 5.46 | CG iter. 22 -- res = 0.14561E+03, tol = 0.83169E+01, time = 5.52 | CG iter. 23 -- res = 0.12392E+03, tol = 0.83169E+01, time = 5.37 | CG iter. 24 -- res = 0.11479E+03, tol = 0.83169E+01, time = 5.74 | CG iter. 25 -- res = 0.10209E+03, tol = 0.83169E+01, time = 5.89 | CG iter. 26 -- res = 0.83817E+02, tol = 0.83169E+01, time = 5.46 | CG iter. 27 -- res = 0.72257E+02, tol = 0.83169E+01, time = 5.29 | CG iter. 28 -- res = 0.65805E+02, tol = 0.83169E+01, time = 5.56 | CG iter. 29 -- res = 0.56028E+02, tol = 0.83169E+01, time = 9.19 | CG iter. 30 -- res = 0.44779E+02, tol = 0.83169E+01, time = 8.03 | CG iter. 31 -- res = 0.37209E+02, tol = 0.83169E+01, time = 5.41 | CG iter. 32 -- res = 0.33703E+02, tol = 0.83169E+01, time = 5.62 | CG iter. 33 -- res = 0.29452E+02, tol = 0.83169E+01, time = 5.42 | CG iter. 34 -- res = 0.23529E+02, tol = 0.83169E+01, time = 5.53 | CG iter. 35 -- res = 0.18129E+02, tol = 0.83169E+01, time = 5.40 | CG iter. 36 -- res = 0.15745E+02, tol = 0.83169E+01, time = 5.38 | CG iter. 37 -- res = 0.13815E+02, tol = 0.83169E+01, time = 5.76 | CG iter. 38 -- res = 0.10885E+02, tol = 0.83169E+01, time = 5.47 | CG iter. 39 -- res = 0.84612E+01, tol = 0.83169E+01, time = 5.28 | CG iter. 40 -- res = 0.70715E+01, tol = 0.83169E+01, time = 5.43 | CG iter. 41 -- res = 0.60686E+01, tol = 0.83169E+01, time = 5.82 | CG iter. 42 -- res = 0.49690E+01, tol = 0.83169E+01, time = 5.45 | CG iter. 43 -- res = 0.38839E+01, tol = 0.83169E+01, time = 5.39 | CG iter. 44 -- res = 0.32516E+01, tol = 0.83169E+01, time = 5.99 | CG iter. 45 -- res = 0.28079E+01, tol = 0.83169E+01, time = 6.92 | CG iter. 46 -- res = 0.23919E+01, tol = 0.83169E+01, time = 6.00 | CG iter. 47 -- res = 0.18267E+01, tol = 0.83169E+01, time = 5.70 | CG iter. 48 -- res = 0.14165E+01, tol = 0.83169E+01, time = 5.58 | CG iter. 49 -- res = 0.11302E+01, tol = 0.83169E+01, time = 5.72 | CG iter. 50 -- res = 0.93065E+00, tol = 0.83169E+01, time = 5.63 | Final CG iter 51 -- res = 0.93065E+00, tol = 0.83169E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8000397.828 | Old band monopole 8306241.400 | Change to band monopole -305843.572 | Change to component monopole 305842.257 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.79196E+04, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.21886E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.33368E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.60039E-03, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.10378E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8000363.416 | (Sampled value in CG: 7988470.008 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.546276 | New value = 1.492120 | poltype: 2 pol: 1 CPU time specind = 1.3637066E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.503568 | New value = 1.497944 | poltype: 2 pol: 2 CPU time specind = 3.7910938E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.24632E+08, tol = 0.47548E+04, time = 6.06 | CG iter. 2 -- res = 0.52506E+07, tol = 0.47548E+04, time = 6.26 | CG iter. 3 -- res = 0.82945E+06, tol = 0.47548E+04, time = 6.29 | CG iter. 4 -- res = 0.35332E+06, tol = 0.47548E+04, time = 6.10 | CG iter. 5 -- res = 0.15368E+06, tol = 0.47548E+04, time = 6.62 | CG iter. 6 -- res = 0.81470E+05, tol = 0.47548E+04, time = 6.38 | CG iter. 7 -- res = 0.43645E+05, tol = 0.47548E+04, time = 6.38 | CG iter. 8 -- res = 0.20722E+05, tol = 0.47548E+04, time = 6.11 | CG iter. 9 -- res = 0.90498E+04, tol = 0.47548E+04, time = 6.96 | CG iter. 10 -- res = 0.37130E+04, tol = 0.47548E+04, time = 12.74 | CG iter. 11 -- res = 0.17001E+04, tol = 0.47548E+04, time = 6.60 | CG iter. 12 -- res = 0.87495E+03, tol = 0.47548E+04, time = 6.45 | CG iter. 13 -- res = 0.48931E+03, tol = 0.47548E+04, time = 6.31 | CG iter. 14 -- res = 0.27825E+03, tol = 0.47548E+04, time = 6.24 | CG iter. 15 -- res = 0.14506E+03, tol = 0.47548E+04, time = 6.33 | CG iter. 16 -- res = 0.67454E+02, tol = 0.47548E+04, time = 6.41 | CG iter. 17 -- res = 0.31326E+02, tol = 0.47548E+04, time = 6.64 | CG iter. 18 -- res = 0.15833E+02, tol = 0.47548E+04, time = 6.13 | CG iter. 19 -- res = 0.87557E+01, tol = 0.47548E+04, time = 6.16 | CG iter. 20 -- res = 0.50215E+01, tol = 0.47548E+04, time = 6.10 | CG iter. 21 -- res = 0.27810E+01, tol = 0.47548E+04, time = 6.49 | CG iter. 22 -- res = 0.14082E+01, tol = 0.47548E+04, time = 6.70 | CG iter. 23 -- res = 0.70070E+00, tol = 0.47548E+04, time = 6.78 | CG iter. 24 -- res = 0.36036E+00, tol = 0.47548E+04, time = 7.28 | CG iter. 25 -- res = 0.19721E+00, tol = 0.47548E+04, time = 6.85 | CG iter. 26 -- res = 0.11293E+00, tol = 0.47548E+04, time = 6.56 | CG iter. 27 -- res = 0.64680E-01, tol = 0.47548E+04, time = 6.52 | CG iter. 28 -- res = 0.35000E-01, tol = 0.47548E+04, time = 6.62 | CG iter. 29 -- res = 0.18338E-01, tol = 0.47548E+04, time = 6.53 | CG iter. 30 -- res = 0.96794E-02, tol = 0.47548E+04, time = 6.36 | CG iter. 31 -- res = 0.52626E-02, tol = 0.47548E+04, time = 6.50 | CG iter. 32 -- res = 0.28980E-02, tol = 0.47548E+04, time = 6.56 | CG iter. 33 -- res = 0.16486E-02, tol = 0.47548E+04, time = 6.35 | CG iter. 34 -- res = 0.89184E-03, tol = 0.47548E+04, time = 6.38 | CG iter. 35 -- res = 0.47060E-03, tol = 0.47548E+04, time = 5.88 | Final CG iter 36 -- res = 0.47060E-03, tol = 0.47548E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.014 2.742 | New value -5.684 | Old value 1.014 | Difference -6.699 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.23295E+07, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.18945E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.17165E+00, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.21686E-03, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.49836E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8000363.416 | (Sampled value in CG: 7989244.895 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.620816 | New value = -3.419509 | poltype: 1 pol: 1 CPU time specind = 2.3319960E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.23665E+07, tol = 0.30618E+01, time = 2.57 | CG iter. 2 -- res = 0.11385E+07, tol = 0.30618E+01, time = 2.31 | CG iter. 3 -- res = 0.21248E+06, tol = 0.30618E+01, time = 2.57 | CG iter. 4 -- res = 0.79899E+05, tol = 0.30618E+01, time = 2.29 | CG iter. 5 -- res = 0.41796E+05, tol = 0.30618E+01, time = 2.59 | CG iter. 6 -- res = 0.21850E+05, tol = 0.30618E+01, time = 2.50 | CG iter. 7 -- res = 0.88754E+04, tol = 0.30618E+01, time = 2.62 | CG iter. 8 -- res = 0.41925E+04, tol = 0.30618E+01, time = 2.65 | CG iter. 9 -- res = 0.20720E+04, tol = 0.30618E+01, time = 2.67 | CG iter. 10 -- res = 0.86438E+03, tol = 0.30618E+01, time = 2.64 | CG iter. 11 -- res = 0.34305E+03, tol = 0.30618E+01, time = 2.62 | CG iter. 12 -- res = 0.15236E+03, tol = 0.30618E+01, time = 2.67 | CG iter. 13 -- res = 0.69600E+02, tol = 0.30618E+01, time = 2.58 | CG iter. 14 -- res = 0.35755E+02, tol = 0.30618E+01, time = 2.34 | CG iter. 15 -- res = 0.18563E+02, tol = 0.30618E+01, time = 2.39 | CG iter. 16 -- res = 0.92636E+01, tol = 0.30618E+01, time = 2.97 | CG iter. 17 -- res = 0.42323E+01, tol = 0.30618E+01, time = 2.79 | CG iter. 18 -- res = 0.17916E+01, tol = 0.30618E+01, time = 2.75 | CG iter. 19 -- res = 0.78371E+00, tol = 0.30618E+01, time = 2.52 | CG iter. 20 -- res = 0.37452E+00, tol = 0.30618E+01, time = 2.68 | CG iter. 21 -- res = 0.19471E+00, tol = 0.30618E+01, time = 2.64 | CG iter. 22 -- res = 0.10198E+00, tol = 0.30618E+01, time = 2.54 | CG iter. 23 -- res = 0.49288E-01, tol = 0.30618E+01, time = 2.62 | CG iter. 24 -- res = 0.22796E-01, tol = 0.30618E+01, time = 2.71 | CG iter. 25 -- res = 0.10269E-01, tol = 0.30618E+01, time = 2.60 | CG iter. 26 -- res = 0.47260E-02, tol = 0.30618E+01, time = 2.42 | CG iter. 27 -- res = 0.23472E-02, tol = 0.30618E+01, time = 2.71 | CG iter. 28 -- res = 0.12559E-02, tol = 0.30618E+01, time = 2.17 | CG iter. 29 -- res = 0.64472E-03, tol = 0.30618E+01, time = 2.55 | CG iter. 30 -- res = 0.30562E-03, tol = 0.30618E+01, time = 2.65 | CG iter. 31 -- res = 0.14691E-03, tol = 0.30618E+01, time = 2.55 | CG iter. 32 -- res = 0.71481E-04, tol = 0.30618E+01, time = 2.84 | CG iter. 33 -- res = 0.33701E-04, tol = 0.30618E+01, time = 2.49 | CG iter. 34 -- res = 0.16824E-04, tol = 0.30618E+01, time = 2.70 | CG iter. 35 -- res = 0.87399E-05, tol = 0.30618E+01, time = 2.66 | CG iter. 36 -- res = 0.43788E-05, tol = 0.30618E+01, time = 2.58 | CG iter. 37 -- res = 0.20565E-05, tol = 0.30618E+01, time = 2.61 | CG iter. 38 -- res = 0.99282E-06, tol = 0.30618E+01, time = 2.53 | CG iter. 39 -- res = 0.45249E-06, tol = 0.30618E+01, time = 2.44 | CG iter. 40 -- res = 0.22375E-06, tol = 0.30618E+01, time = 2.47 | CG iter. 41 -- res = 0.11188E-06, tol = 0.30618E+01, time = 2.41 | CG iter. 42 -- res = 0.57891E-07, tol = 0.30618E+01, time = 2.63 | CG iter. 43 -- res = 0.28392E-07, tol = 0.30618E+01, time = 2.50 | CG iter. 44 -- res = 0.13334E-07, tol = 0.30618E+01, time = 2.70 | CG iter. 45 -- res = 0.62015E-08, tol = 0.30618E+01, time = 2.57 | CG iter. 46 -- res = 0.29479E-08, tol = 0.30618E+01, time = 2.59 | CG iter. 47 -- res = 0.14455E-08, tol = 0.30618E+01, time = 2.60 | CG iter. 48 -- res = 0.74367E-09, tol = 0.30618E+01, time = 2.59 | CG iter. 49 -- res = 0.36473E-09, tol = 0.30618E+01, time = 2.82 | CG iter. 50 -- res = 0.17363E-09, tol = 0.30618E+01, time = 2.33 | Final CG iter 51 -- res = 0.17363E-09, tol = 0.30618E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.209 5.794 | New value -5.409 | Old value 7.209 | Difference -12.618 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.16101E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.51843E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.23330E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.52769E-03, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.97830E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8000363.416 | (Sampled value in CG: 7991690.227 ) | CPU time specind = 1153.048 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.70143E+08, tol = 0.57454E+04, time = 11.48 | CG iter. 2 -- res = 0.59148E+08, tol = 0.57454E+04, time = 12.63 | CG iter. 3 -- res = 0.15092E+08, tol = 0.57454E+04, time = 12.85 | CG iter. 4 -- res = 0.64623E+07, tol = 0.57454E+04, time = 11.31 | CG iter. 5 -- res = 0.38831E+07, tol = 0.57454E+04, time = 11.44 | CG iter. 6 -- res = 0.22272E+07, tol = 0.57454E+04, time = 11.46 | CG iter. 7 -- res = 0.13127E+07, tol = 0.57454E+04, time = 11.49 | CG iter. 8 -- res = 0.85401E+06, tol = 0.57454E+04, time = 11.72 | CG iter. 9 -- res = 0.54870E+06, tol = 0.57454E+04, time = 11.91 | CG iter. 10 -- res = 0.32647E+06, tol = 0.57454E+04, time = 11.57 | CG iter. 11 -- res = 0.17886E+06, tol = 0.57454E+04, time = 11.50 | CG iter. 12 -- res = 0.95229E+05, tol = 0.57454E+04, time = 11.44 | CG iter. 13 -- res = 0.50058E+05, tol = 0.57454E+04, time = 11.24 | CG iter. 14 -- res = 0.28557E+05, tol = 0.57454E+04, time = 11.15 | CG iter. 15 -- res = 0.18152E+05, tol = 0.57454E+04, time = 11.88 | CG iter. 16 -- res = 0.12370E+05, tol = 0.57454E+04, time = 11.49 | CG iter. 17 -- res = 0.87529E+04, tol = 0.57454E+04, time = 11.66 | CG iter. 18 -- res = 0.58925E+04, tol = 0.57454E+04, time = 11.35 | CG iter. 19 -- res = 0.39201E+04, tol = 0.57454E+04, time = 11.64 | CG iter. 20 -- res = 0.25883E+04, tol = 0.57454E+04, time = 18.64 | CG iter. 21 -- res = 0.17931E+04, tol = 0.57454E+04, time = 11.33 | CG iter. 22 -- res = 0.14191E+04, tol = 0.57454E+04, time = 11.40 | CG iter. 23 -- res = 0.12809E+04, tol = 0.57454E+04, time = 11.84 | CG iter. 24 -- res = 0.13085E+04, tol = 0.57454E+04, time = 11.18 | CG iter. 25 -- res = 0.13783E+04, tol = 0.57454E+04, time = 11.32 | CG iter. 26 -- res = 0.13636E+04, tol = 0.57454E+04, time = 11.27 | CG iter. 27 -- res = 0.12707E+04, tol = 0.57454E+04, time = 11.96 | CG iter. 28 -- res = 0.11385E+04, tol = 0.57454E+04, time = 13.19 | CG iter. 29 -- res = 0.10390E+04, tol = 0.57454E+04, time = 11.47 | CG iter. 30 -- res = 0.95803E+03, tol = 0.57454E+04, time = 11.71 | CG iter. 31 -- res = 0.88188E+03, tol = 0.57454E+04, time = 11.47 | CG iter. 32 -- res = 0.76326E+03, tol = 0.57454E+04, time = 11.63 | CG iter. 33 -- res = 0.62036E+03, tol = 0.57454E+04, time = 11.33 | CG iter. 34 -- res = 0.47840E+03, tol = 0.57454E+04, time = 11.62 | CG iter. 35 -- res = 0.36134E+03, tol = 0.57454E+04, time = 10.93 | CG iter. 36 -- res = 0.28587E+03, tol = 0.57454E+04, time = 11.56 | CG iter. 37 -- res = 0.24650E+03, tol = 0.57454E+04, time = 12.14 | CG iter. 38 -- res = 0.22260E+03, tol = 0.57454E+04, time = 11.39 | CG iter. 39 -- res = 0.19935E+03, tol = 0.57454E+04, time = 11.23 | CG iter. 40 -- res = 0.17847E+03, tol = 0.57454E+04, time = 11.25 | CG iter. 41 -- res = 0.15840E+03, tol = 0.57454E+04, time = 11.29 | CG iter. 42 -- res = 0.13816E+03, tol = 0.57454E+04, time = 11.01 | CG iter. 43 -- res = 0.12316E+03, tol = 0.57454E+04, time = 11.38 | CG iter. 44 -- res = 0.11671E+03, tol = 0.57454E+04, time = 11.22 | CG iter. 45 -- res = 0.11145E+03, tol = 0.57454E+04, time = 11.34 | CG iter. 46 -- res = 0.10579E+03, tol = 0.57454E+04, time = 16.98 | CG iter. 47 -- res = 0.98194E+02, tol = 0.57454E+04, time = 11.75 | CG iter. 48 -- res = 0.85240E+02, tol = 0.57454E+04, time = 11.63 | CG iter. 49 -- res = 0.72090E+02, tol = 0.57454E+04, time = 11.54 | CG iter. 50 -- res = 0.61436E+02, tol = 0.57454E+04, time = 11.51 | CG iter. 51 -- res = 0.53674E+02, tol = 0.57454E+04, time = 11.33 | CG iter. 52 -- res = 0.51152E+02, tol = 0.57454E+04, time = 11.43 | CG iter. 53 -- res = 0.51603E+02, tol = 0.57454E+04, time = 13.05 | CG iter. 54 -- res = 0.49844E+02, tol = 0.57454E+04, time = 12.08 | CG iter. 55 -- res = 0.47808E+02, tol = 0.57454E+04, time = 11.56 | CG iter. 56 -- res = 0.43858E+02, tol = 0.57454E+04, time = 11.65 | CG iter. 57 -- res = 0.39796E+02, tol = 0.57454E+04, time = 11.20 | CG iter. 58 -- res = 0.37407E+02, tol = 0.57454E+04, time = 11.39 | CG iter. 59 -- res = 0.36772E+02, tol = 0.57454E+04, time = 11.47 | CG iter. 60 -- res = 0.37076E+02, tol = 0.57454E+04, time = 11.57 | Final CG iter 61 -- res = 0.37076E+02, tol = 0.57454E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.933 ( -229.744 -2230.305 2512.846 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9229999.522 | Old band monopole 8000397.828 | Change to band monopole 1229601.694 | Change to component monopole -1229596.405 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.750 2.729 | New value 1.658 | Old value -5.750 | Difference 7.408 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.718 ( 6.820 10.551 -10.125 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.355 5.931 | New value -0.771 | Old value -0.355 | Difference -0.417 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.28409E+07, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.25171E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.79558E+00, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.11294E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.16669E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9229959.821 | (Sampled value in CG: 9200396.890 ) | Chain = 1 -- chisq = 0.81571465E+09 | Chain = 1 -- wall time = 17775.606 sec Available RAM: MemAvailable: 494694488 kB Available Swap: SwapFree: 1055267020 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 357 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446482 | --> Sampling calibration, mode = relcal | relcal = 1.3426574E-02 7.5821963E-04 -1.6061144E-03 -1.2578679E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1437874 0.1593820 97033824.8317421 | BP delta = 0.1551303 0.1707248 97033814.2666886 | BP chisq diff = -10.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632429 | --> Sampling calibration, mode = relcal | relcal = -2.8215561E-03 -7.0394436E-04 1.6776272E-03 1.6150014E-03 -4.0744522E-04 6.4031716E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5775347 15224567.3401403 | BP delta = 0.0000000E+00 -0.5749704 15224571.5388753 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17859101740077 | --> Sampling calibration, mode = relcal | relcal = -7.3813967E-02 -5.7616349E-02 9.0554334E-02 4.0875982E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2314245E-04 2.7228356E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.1344E-04 | 2: delta_r/delta_0: 1.6858E-05 | 3: delta_s/delta_0: 4.1773E-07 | 4: delta_r/delta_0: 7.1393E-08 | 5: delta_s/delta_0: 2.6705E-06 | 6: delta_r/delta_0: 2.3776E-07 | 7: delta_s/delta_0: 1.4316E-09 | 8: delta_r/delta_0: 9.1629E-10 | 9: delta_s/delta_0: 1.1319E-08 | 10: delta_r/delta_0: 1.6762E-09 | 11: delta_s/delta_0: 8.4034E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 5.443875521143834E-003 2.746835940240245E-005 | BP delta = 8.6583376E-02 0.1091421 50488141.7284708 | BP delta = 9.4906338E-02 0.1174651 50488153.9387316 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02588139 | --> Sampling calibration, mode = relcal | relcal = -0.1066838 -9.5547304E-02 0.1449144 5.7316694E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4592557E-03 1.5906070E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3474E-05 | 2: delta_r/delta_0: 1.3897E-06 | 3: delta_s/delta_0: 2.5326E-07 | 4: delta_r/delta_0: 3.8129E-08 | 5: delta_s/delta_0: 2.4619E-08 | 6: delta_r/delta_0: 6.5519E-09 | 7: delta_s/delta_0: 5.2671E-09 | 8: delta_r/delta_0: 1.6841E-09 | 9: delta_s/delta_0: 7.8227E-10 | 10: delta_r/delta_0: 5.9073E-10 | 11: delta_s/delta_0: 2.0255E-09 | 12: delta_r/delta_0: 7.0620E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.825016001892053E-003 2.811158130001874E-005 | BP delta = -0.2711926 -0.2424479 57389219.9559184 | BP delta = -0.2744880 -0.2457432 57389220.0414719 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81219026 | --> Sampling calibration, mode = relcal | relcal = 0.2954228 0.2249203 -0.2837645 -0.2365786 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1470496E-03 4.3071136E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2842E-03 | 2: delta_r/delta_0: 5.2949E-05 | 3: delta_s/delta_0: 4.2184E-06 | 4: delta_r/delta_0: 7.0502E-07 | 5: delta_s/delta_0: 3.8117E-05 | 6: delta_r/delta_0: 3.0155E-06 | 7: delta_s/delta_0: 6.3926E-08 | 8: delta_r/delta_0: 3.7568E-08 | 9: delta_s/delta_0: 3.8709E-07 | 10: delta_r/delta_0: 5.8750E-09 | 11: delta_s/delta_0: 2.0932E-09 | 12: delta_r/delta_0: 6.6156E-10 | 13: delta_s/delta_0: 4.1042E-10 | 14: delta_r/delta_0: 1.3489E-10 | 15: delta_s/delta_0: 3.6043E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.558267757392173E-002 4.021926526000207E-005 | BP delta = -0.1173146 -0.1597659 72480470.5364698 | BP delta = -0.1318630 -0.1743144 72480469.9006585 | BP chisq diff = -0.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95907888 | --> Sampling calibration, mode = relcal | relcal = 0.1065383 0.1395444 -0.1103174 -0.1357653 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6465601E-03 1.3169521E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2340E-03 | 2: delta_r/delta_0: 2.9982E-05 | 3: delta_s/delta_0: 1.6734E-05 | 4: delta_r/delta_0: 1.4239E-06 | 5: delta_s/delta_0: 6.7038E-07 | 6: delta_r/delta_0: 2.3513E-07 | 7: delta_s/delta_0: 4.6911E-07 | 8: delta_r/delta_0: 4.7337E-08 | 9: delta_s/delta_0: 3.2649E-05 | 10: delta_r/delta_0: 1.3972E-05 | 11: delta_s/delta_0: 3.2168E-09 | 12: delta_r/delta_0: 1.5417E-09 | 13: delta_s/delta_0: 3.7814E-09 | 14: delta_r/delta_0: 2.3752E-10 | 15: delta_s/delta_0: 9.8797E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.650454265015406E-002 3.697538235636059E-005 | BP delta = 0.1571797 0.2574637 72778051.5776981 | BP delta = 0.1772341 0.2775181 72778052.4710493 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190217 | New value = -3.218928 | poltype: 2 pol: 1 CPU time specind = 1.5048027E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153324 | New value = -3.190278 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127371 | New value = -3.177406 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158112 | New value = -3.138570 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.075369 | New value = -3.227201 | poltype: 2 pol: 2 CPU time specind = 2.2639036E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.13553E+08, tol = 0.75848E+01, time = 5.67 | CG iter. 2 -- res = 0.32916E+06, tol = 0.75848E+01, time = 5.87 | CG iter. 3 -- res = 0.49327E+05, tol = 0.75848E+01, time = 6.02 | CG iter. 4 -- res = 0.24537E+05, tol = 0.75848E+01, time = 5.66 | CG iter. 5 -- res = 0.15494E+05, tol = 0.75848E+01, time = 6.07 | CG iter. 6 -- res = 0.11701E+05, tol = 0.75848E+01, time = 6.23 | CG iter. 7 -- res = 0.11234E+05, tol = 0.75848E+01, time = 6.01 | CG iter. 8 -- res = 0.10822E+05, tol = 0.75848E+01, time = 6.80 | CG iter. 9 -- res = 0.11632E+05, tol = 0.75848E+01, time = 6.12 | CG iter. 10 -- res = 0.11892E+05, tol = 0.75848E+01, time = 5.98 | CG iter. 11 -- res = 0.90769E+04, tol = 0.75848E+01, time = 6.10 | CG iter. 12 -- res = 0.59015E+04, tol = 0.75848E+01, time = 5.81 | CG iter. 13 -- res = 0.39797E+04, tol = 0.75848E+01, time = 5.84 | CG iter. 14 -- res = 0.32253E+04, tol = 0.75848E+01, time = 6.41 | CG iter. 15 -- res = 0.28462E+04, tol = 0.75848E+01, time = 5.81 | CG iter. 16 -- res = 0.23634E+04, tol = 0.75848E+01, time = 6.07 | CG iter. 17 -- res = 0.18073E+04, tol = 0.75848E+01, time = 6.16 | CG iter. 18 -- res = 0.15045E+04, tol = 0.75848E+01, time = 6.31 | CG iter. 19 -- res = 0.13154E+04, tol = 0.75848E+01, time = 6.25 | CG iter. 20 -- res = 0.10643E+04, tol = 0.75848E+01, time = 5.74 | CG iter. 21 -- res = 0.81889E+03, tol = 0.75848E+01, time = 5.98 | CG iter. 22 -- res = 0.66845E+03, tol = 0.75848E+01, time = 5.88 | CG iter. 23 -- res = 0.63370E+03, tol = 0.75848E+01, time = 5.74 | CG iter. 24 -- res = 0.54727E+03, tol = 0.75848E+01, time = 5.99 | CG iter. 25 -- res = 0.45289E+03, tol = 0.75848E+01, time = 11.41 | CG iter. 26 -- res = 0.35915E+03, tol = 0.75848E+01, time = 17.96 | CG iter. 27 -- res = 0.32477E+03, tol = 0.75848E+01, time = 11.00 | CG iter. 28 -- res = 0.29838E+03, tol = 0.75848E+01, time = 5.62 | CG iter. 29 -- res = 0.26412E+03, tol = 0.75848E+01, time = 6.03 | CG iter. 30 -- res = 0.22064E+03, tol = 0.75848E+01, time = 6.15 | CG iter. 31 -- res = 0.20158E+03, tol = 0.75848E+01, time = 6.15 | CG iter. 32 -- res = 0.19353E+03, tol = 0.75848E+01, time = 5.50 | CG iter. 33 -- res = 0.17366E+03, tol = 0.75848E+01, time = 5.64 | CG iter. 34 -- res = 0.14090E+03, tol = 0.75848E+01, time = 5.65 | CG iter. 35 -- res = 0.12000E+03, tol = 0.75848E+01, time = 5.99 | CG iter. 36 -- res = 0.10822E+03, tol = 0.75848E+01, time = 6.16 | CG iter. 37 -- res = 0.95161E+02, tol = 0.75848E+01, time = 7.20 | CG iter. 38 -- res = 0.75626E+02, tol = 0.75848E+01, time = 6.64 | CG iter. 39 -- res = 0.60613E+02, tol = 0.75848E+01, time = 5.97 | CG iter. 40 -- res = 0.50319E+02, tol = 0.75848E+01, time = 6.50 | CG iter. 41 -- res = 0.42992E+02, tol = 0.75848E+01, time = 6.01 | CG iter. 42 -- res = 0.34323E+02, tol = 0.75848E+01, time = 5.88 | CG iter. 43 -- res = 0.26207E+02, tol = 0.75848E+01, time = 5.82 | CG iter. 44 -- res = 0.21857E+02, tol = 0.75848E+01, time = 5.98 | CG iter. 45 -- res = 0.18441E+02, tol = 0.75848E+01, time = 6.02 | CG iter. 46 -- res = 0.14723E+02, tol = 0.75848E+01, time = 5.94 | CG iter. 47 -- res = 0.11475E+02, tol = 0.75848E+01, time = 6.10 | CG iter. 48 -- res = 0.91442E+01, tol = 0.75848E+01, time = 6.32 | CG iter. 49 -- res = 0.76113E+01, tol = 0.75848E+01, time = 6.23 | CG iter. 50 -- res = 0.65440E+01, tol = 0.75848E+01, time = 5.44 | Final CG iter 51 -- res = 0.65440E+01, tol = 0.75848E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 12723376.321 | Old band monopole 9229999.522 | Change to band monopole 3493376.800 | Change to component monopole -3493361.774 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.24929E+06, tol = 0.47627E+18, time = 2.19 | CG iter. 2 -- res = 0.10984E+03, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.32742E+01, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.23096E-02, tol = 0.47627E+18, time = 1.83 | Final CG iter 5 -- res = 0.14956E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12723321.595 | (Sampled value in CG: 12706852.724 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492120 | New value = 1.565228 | poltype: 2 pol: 1 CPU time specind = 1.3649940E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.497944 | New value = 1.479103 | poltype: 2 pol: 2 CPU time specind = 1.3055086E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.25176E+08, tol = 0.47725E+04, time = 7.26 | CG iter. 2 -- res = 0.53242E+07, tol = 0.47725E+04, time = 12.56 | CG iter. 3 -- res = 0.83345E+06, tol = 0.47725E+04, time = 6.93 | CG iter. 4 -- res = 0.34580E+06, tol = 0.47725E+04, time = 6.63 | CG iter. 5 -- res = 0.14989E+06, tol = 0.47725E+04, time = 6.84 | CG iter. 6 -- res = 0.79263E+05, tol = 0.47725E+04, time = 6.63 | CG iter. 7 -- res = 0.43556E+05, tol = 0.47725E+04, time = 6.74 | CG iter. 8 -- res = 0.20800E+05, tol = 0.47725E+04, time = 6.94 | CG iter. 9 -- res = 0.89879E+04, tol = 0.47725E+04, time = 6.59 | CG iter. 10 -- res = 0.36425E+04, tol = 0.47725E+04, time = 6.85 | CG iter. 11 -- res = 0.16753E+04, tol = 0.47725E+04, time = 6.74 | CG iter. 12 -- res = 0.87518E+03, tol = 0.47725E+04, time = 6.52 | CG iter. 13 -- res = 0.49208E+03, tol = 0.47725E+04, time = 7.08 | CG iter. 14 -- res = 0.27083E+03, tol = 0.47725E+04, time = 7.99 | CG iter. 15 -- res = 0.13882E+03, tol = 0.47725E+04, time = 7.04 | CG iter. 16 -- res = 0.67232E+02, tol = 0.47725E+04, time = 7.21 | CG iter. 17 -- res = 0.31669E+02, tol = 0.47725E+04, time = 7.03 | CG iter. 18 -- res = 0.15668E+02, tol = 0.47725E+04, time = 7.45 | CG iter. 19 -- res = 0.85560E+01, tol = 0.47725E+04, time = 6.64 | CG iter. 20 -- res = 0.49757E+01, tol = 0.47725E+04, time = 7.00 | CG iter. 21 -- res = 0.27478E+01, tol = 0.47725E+04, time = 6.73 | CG iter. 22 -- res = 0.13986E+01, tol = 0.47725E+04, time = 6.98 | CG iter. 23 -- res = 0.68319E+00, tol = 0.47725E+04, time = 6.84 | CG iter. 24 -- res = 0.35164E+00, tol = 0.47725E+04, time = 6.80 | CG iter. 25 -- res = 0.19475E+00, tol = 0.47725E+04, time = 6.37 | CG iter. 26 -- res = 0.11340E+00, tol = 0.47725E+04, time = 7.77 | CG iter. 27 -- res = 0.64809E-01, tol = 0.47725E+04, time = 6.54 | CG iter. 28 -- res = 0.34796E-01, tol = 0.47725E+04, time = 7.07 | CG iter. 29 -- res = 0.18057E-01, tol = 0.47725E+04, time = 7.06 | CG iter. 30 -- res = 0.94964E-02, tol = 0.47725E+04, time = 7.44 | CG iter. 31 -- res = 0.52121E-02, tol = 0.47725E+04, time = 6.82 | CG iter. 32 -- res = 0.29191E-02, tol = 0.47725E+04, time = 7.03 | CG iter. 33 -- res = 0.16300E-02, tol = 0.47725E+04, time = 7.14 | CG iter. 34 -- res = 0.87723E-03, tol = 0.47725E+04, time = 6.82 | CG iter. 35 -- res = 0.46442E-03, tol = 0.47725E+04, time = 6.96 | Final CG iter 36 -- res = 0.46442E-03, tol = 0.47725E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.695 2.727 | New value 1.201 | Old value 1.695 | Difference -0.495 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.23332E+05, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.18785E+02, tol = 0.47627E+18, time = 2.35 | CG iter. 3 -- res = 0.50313E+00, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.10309E-02, tol = 0.47627E+18, time = 2.46 | Final CG iter 5 -- res = 0.79070E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12723321.595 | (Sampled value in CG: 12706412.480 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.419509 | New value = -3.579496 | poltype: 1 pol: 1 CPU time specind = 3.9349079E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.54 | CG iter. 1 -- res = 0.31616E+07, tol = 0.32123E+01, time = 2.81 | CG iter. 2 -- res = 0.85352E+06, tol = 0.32123E+01, time = 2.93 | CG iter. 3 -- res = 0.19777E+06, tol = 0.32123E+01, time = 3.33 | CG iter. 4 -- res = 0.11219E+06, tol = 0.32123E+01, time = 3.01 | CG iter. 5 -- res = 0.63879E+05, tol = 0.32123E+01, time = 2.74 | CG iter. 6 -- res = 0.23879E+05, tol = 0.32123E+01, time = 2.87 | CG iter. 7 -- res = 0.86503E+04, tol = 0.32123E+01, time = 3.12 | CG iter. 8 -- res = 0.40476E+04, tol = 0.32123E+01, time = 2.91 | CG iter. 9 -- res = 0.19690E+04, tol = 0.32123E+01, time = 3.11 | CG iter. 10 -- res = 0.79935E+03, tol = 0.32123E+01, time = 2.58 | CG iter. 11 -- res = 0.31700E+03, tol = 0.32123E+01, time = 2.75 | CG iter. 12 -- res = 0.15089E+03, tol = 0.32123E+01, time = 2.85 | CG iter. 13 -- res = 0.77142E+02, tol = 0.32123E+01, time = 2.94 | CG iter. 14 -- res = 0.39494E+02, tol = 0.32123E+01, time = 2.84 | CG iter. 15 -- res = 0.18574E+02, tol = 0.32123E+01, time = 2.81 | CG iter. 16 -- res = 0.74624E+01, tol = 0.32123E+01, time = 6.77 | CG iter. 17 -- res = 0.32323E+01, tol = 0.32123E+01, time = 6.13 | CG iter. 18 -- res = 0.15639E+01, tol = 0.32123E+01, time = 3.07 | CG iter. 19 -- res = 0.74889E+00, tol = 0.32123E+01, time = 3.30 | CG iter. 20 -- res = 0.37694E+00, tol = 0.32123E+01, time = 2.87 | CG iter. 21 -- res = 0.18908E+00, tol = 0.32123E+01, time = 4.22 | CG iter. 22 -- res = 0.85700E-01, tol = 0.32123E+01, time = 2.86 | CG iter. 23 -- res = 0.38616E-01, tol = 0.32123E+01, time = 2.75 | CG iter. 24 -- res = 0.16829E-01, tol = 0.32123E+01, time = 2.74 | CG iter. 25 -- res = 0.79464E-02, tol = 0.32123E+01, time = 3.00 | CG iter. 26 -- res = 0.40970E-02, tol = 0.32123E+01, time = 2.88 | CG iter. 27 -- res = 0.20924E-02, tol = 0.32123E+01, time = 3.07 | CG iter. 28 -- res = 0.10328E-02, tol = 0.32123E+01, time = 2.79 | CG iter. 29 -- res = 0.47005E-03, tol = 0.32123E+01, time = 3.15 | CG iter. 30 -- res = 0.21571E-03, tol = 0.32123E+01, time = 2.61 | CG iter. 31 -- res = 0.10290E-03, tol = 0.32123E+01, time = 3.04 | CG iter. 32 -- res = 0.52329E-04, tol = 0.32123E+01, time = 2.71 | CG iter. 33 -- res = 0.28528E-04, tol = 0.32123E+01, time = 2.84 | CG iter. 34 -- res = 0.13960E-04, tol = 0.32123E+01, time = 3.07 | CG iter. 35 -- res = 0.62566E-05, tol = 0.32123E+01, time = 2.80 | CG iter. 36 -- res = 0.29410E-05, tol = 0.32123E+01, time = 2.72 | CG iter. 37 -- res = 0.14429E-05, tol = 0.32123E+01, time = 2.75 | CG iter. 38 -- res = 0.73718E-06, tol = 0.32123E+01, time = 2.52 | CG iter. 39 -- res = 0.37307E-06, tol = 0.32123E+01, time = 2.92 | CG iter. 40 -- res = 0.17863E-06, tol = 0.32123E+01, time = 2.81 | CG iter. 41 -- res = 0.85532E-07, tol = 0.32123E+01, time = 2.60 | CG iter. 42 -- res = 0.39910E-07, tol = 0.32123E+01, time = 3.12 | CG iter. 43 -- res = 0.18892E-07, tol = 0.32123E+01, time = 2.90 | CG iter. 44 -- res = 0.89176E-08, tol = 0.32123E+01, time = 3.49 | CG iter. 45 -- res = 0.44717E-08, tol = 0.32123E+01, time = 3.69 | CG iter. 46 -- res = 0.21343E-08, tol = 0.32123E+01, time = 2.95 | CG iter. 47 -- res = 0.10265E-08, tol = 0.32123E+01, time = 2.97 | CG iter. 48 -- res = 0.50277E-09, tol = 0.32123E+01, time = 3.21 | CG iter. 49 -- res = 0.22817E-09, tol = 0.32123E+01, time = 2.93 | CG iter. 50 -- res = 0.10416E-09, tol = 0.32123E+01, time = 2.58 | Final CG iter 51 -- res = 0.10416E-09, tol = 0.32123E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.717 6.121 | New value 7.239 | Old value -2.717 | Difference 9.956 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.98086E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.52006E+02, tol = 0.47627E+18, time = 2.42 | CG iter. 3 -- res = 0.24034E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.12137E-02, tol = 0.47627E+18, time = 2.23 | Final CG iter 5 -- res = 0.14984E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12723321.595 | (Sampled value in CG: 12710884.493 ) | CPU time specind = 1265.445 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.71649E+08, tol = 0.57735E+04, time = 13.24 | CG iter. 2 -- res = 0.59707E+08, tol = 0.57735E+04, time = 12.46 | CG iter. 3 -- res = 0.15471E+08, tol = 0.57735E+04, time = 11.64 | CG iter. 4 -- res = 0.68183E+07, tol = 0.57735E+04, time = 12.40 | CG iter. 5 -- res = 0.41384E+07, tol = 0.57735E+04, time = 12.84 | CG iter. 6 -- res = 0.24240E+07, tol = 0.57735E+04, time = 12.67 | CG iter. 7 -- res = 0.14036E+07, tol = 0.57735E+04, time = 12.23 | CG iter. 8 -- res = 0.91250E+06, tol = 0.57735E+04, time = 12.55 | CG iter. 9 -- res = 0.58389E+06, tol = 0.57735E+04, time = 18.12 | CG iter. 10 -- res = 0.34450E+06, tol = 0.57735E+04, time = 12.34 | CG iter. 11 -- res = 0.19098E+06, tol = 0.57735E+04, time = 11.98 | CG iter. 12 -- res = 0.10242E+06, tol = 0.57735E+04, time = 12.81 | CG iter. 13 -- res = 0.54516E+05, tol = 0.57735E+04, time = 12.75 | CG iter. 14 -- res = 0.31459E+05, tol = 0.57735E+04, time = 11.81 | CG iter. 15 -- res = 0.20191E+05, tol = 0.57735E+04, time = 12.45 | CG iter. 16 -- res = 0.14324E+05, tol = 0.57735E+04, time = 14.36 | CG iter. 17 -- res = 0.10984E+05, tol = 0.57735E+04, time = 12.90 | CG iter. 18 -- res = 0.81480E+04, tol = 0.57735E+04, time = 12.59 | CG iter. 19 -- res = 0.59833E+04, tol = 0.57735E+04, time = 12.80 | CG iter. 20 -- res = 0.45940E+04, tol = 0.57735E+04, time = 12.35 | CG iter. 21 -- res = 0.37818E+04, tol = 0.57735E+04, time = 12.41 | CG iter. 22 -- res = 0.36109E+04, tol = 0.57735E+04, time = 12.32 | CG iter. 23 -- res = 0.38930E+04, tol = 0.57735E+04, time = 12.53 | CG iter. 24 -- res = 0.44176E+04, tol = 0.57735E+04, time = 12.29 | CG iter. 25 -- res = 0.47280E+04, tol = 0.57735E+04, time = 12.03 | CG iter. 26 -- res = 0.46073E+04, tol = 0.57735E+04, time = 12.58 | CG iter. 27 -- res = 0.40531E+04, tol = 0.57735E+04, time = 12.54 | CG iter. 28 -- res = 0.34065E+04, tol = 0.57735E+04, time = 12.77 | CG iter. 29 -- res = 0.29089E+04, tol = 0.57735E+04, time = 12.52 | CG iter. 30 -- res = 0.24977E+04, tol = 0.57735E+04, time = 12.20 | CG iter. 31 -- res = 0.21223E+04, tol = 0.57735E+04, time = 12.43 | CG iter. 32 -- res = 0.17418E+04, tol = 0.57735E+04, time = 18.99 | CG iter. 33 -- res = 0.13374E+04, tol = 0.57735E+04, time = 11.98 | CG iter. 34 -- res = 0.98988E+03, tol = 0.57735E+04, time = 12.46 | CG iter. 35 -- res = 0.77032E+03, tol = 0.57735E+04, time = 12.41 | CG iter. 36 -- res = 0.63790E+03, tol = 0.57735E+04, time = 12.27 | CG iter. 37 -- res = 0.59228E+03, tol = 0.57735E+04, time = 12.36 | CG iter. 38 -- res = 0.58090E+03, tol = 0.57735E+04, time = 12.51 | CG iter. 39 -- res = 0.55397E+03, tol = 0.57735E+04, time = 14.22 | CG iter. 40 -- res = 0.51459E+03, tol = 0.57735E+04, time = 12.87 | CG iter. 41 -- res = 0.47054E+03, tol = 0.57735E+04, time = 12.41 | CG iter. 42 -- res = 0.40996E+03, tol = 0.57735E+04, time = 12.24 | CG iter. 43 -- res = 0.37075E+03, tol = 0.57735E+04, time = 12.12 | CG iter. 44 -- res = 0.34439E+03, tol = 0.57735E+04, time = 12.80 | CG iter. 45 -- res = 0.31646E+03, tol = 0.57735E+04, time = 12.43 | CG iter. 46 -- res = 0.28649E+03, tol = 0.57735E+04, time = 12.42 | CG iter. 47 -- res = 0.24943E+03, tol = 0.57735E+04, time = 12.64 | CG iter. 48 -- res = 0.20870E+03, tol = 0.57735E+04, time = 13.07 | CG iter. 49 -- res = 0.17335E+03, tol = 0.57735E+04, time = 12.01 | CG iter. 50 -- res = 0.15009E+03, tol = 0.57735E+04, time = 12.11 | CG iter. 51 -- res = 0.13922E+03, tol = 0.57735E+04, time = 12.45 | CG iter. 52 -- res = 0.13768E+03, tol = 0.57735E+04, time = 12.28 | CG iter. 53 -- res = 0.13687E+03, tol = 0.57735E+04, time = 12.28 | CG iter. 54 -- res = 0.12908E+03, tol = 0.57735E+04, time = 12.55 | CG iter. 55 -- res = 0.11992E+03, tol = 0.57735E+04, time = 13.24 | CG iter. 56 -- res = 0.10787E+03, tol = 0.57735E+04, time = 18.24 | CG iter. 57 -- res = 0.96811E+02, tol = 0.57735E+04, time = 11.99 | CG iter. 58 -- res = 0.89373E+02, tol = 0.57735E+04, time = 12.26 | CG iter. 59 -- res = 0.86140E+02, tol = 0.57735E+04, time = 12.08 | CG iter. 60 -- res = 0.84345E+02, tol = 0.57735E+04, time = 12.65 | Final CG iter 61 -- res = 0.84345E+02, tol = 0.57735E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.823 ( -230.092 -2231.534 2514.199 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8683312.815 | Old band monopole 12723376.321 | Change to band monopole -4040063.506 | Change to component monopole 4040046.129 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.226 2.733 | New value -2.913 | Old value 1.226 | Difference -4.139 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.009 ( 7.593 13.730 -13.434 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.777 4.621 | New value -12.126 | Old value 13.777 | Difference -25.904 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.10000E+07, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.53743E+02, tol = 0.47627E+18, time = 2.63 | CG iter. 3 -- res = 0.21176E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.39992E-02, tol = 0.47627E+18, time = 2.34 | Final CG iter 5 -- res = 0.83127E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8683275.467 | (Sampled value in CG: 8667266.547 ) | Chain = 1 -- chisq = 0.81493335E+09 | Chain = 1 -- wall time = 5891.551 sec Available RAM: MemAvailable: 383083936 kB Available Swap: SwapFree: 1123147468 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 358 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443396 | --> Sampling calibration, mode = relcal | relcal = 1.3425366E-02 7.5567031E-04 -1.6030746E-03 -1.2577961E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1551303 0.1707248 9406492.27027456 | BP delta = 0.1551303 0.1660621 9406565.35893799 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632625 | --> Sampling calibration, mode = relcal | relcal = -2.8217915E-03 -7.0301915E-04 1.6785929E-03 1.6127360E-03 -4.0732801E-04 6.4080965E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5775347 15221287.5311119 | BP delta = 0.0000000E+00 -0.5766217 15221287.4095224 | BP chisq diff = -0.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18331209182590 | --> Sampling calibration, mode = relcal | relcal = -7.6001093E-02 -5.9157506E-02 9.2925280E-02 4.2233318E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2279381E-04 5.6641730E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8502E-05 | 2: delta_r/delta_0: 1.4054E-06 | 3: delta_s/delta_0: 2.0154E-07 | 4: delta_r/delta_0: 3.7813E-08 | 5: delta_s/delta_0: 1.6360E-08 | 6: delta_r/delta_0: 3.2569E-09 | 7: delta_s/delta_0: 4.6356E-10 | 8: delta_r/delta_0: 2.1947E-10 | 9: delta_s/delta_0: 1.8378E-10 | 10: delta_r/delta_0: 8.1904E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.901239038958623E-003 2.735584229978184E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8503E-05 | 2: delta_r/delta_0: 1.4054E-06 | 3: delta_s/delta_0: 2.0153E-07 | 4: delta_r/delta_0: 3.7808E-08 | 5: delta_s/delta_0: 1.6356E-08 | 6: delta_r/delta_0: 3.2567E-09 | 7: delta_s/delta_0: 4.6354E-10 | 8: delta_r/delta_0: 2.1946E-10 | 9: delta_s/delta_0: 1.8373E-10 | 10: delta_r/delta_0: 8.1891E-11 | Reached bicg-stab tolerance | BP delta = 8.6583376E-02 0.1091421 3493961.38881234 | BP delta = 8.6583376E-02 0.1091097 3497258.15020838 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02618614 | --> Sampling calibration, mode = relcal | relcal = -0.1067497 -9.5596679E-02 0.1450512 5.7295181E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1218030E-03 1.1437468E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3781E-05 | 2: delta_r/delta_0: 1.2523E-06 | 3: delta_s/delta_0: 2.4619E-07 | 4: delta_r/delta_0: 5.0450E-08 | 5: delta_s/delta_0: 2.0665E-08 | 6: delta_r/delta_0: 7.4425E-09 | 7: delta_s/delta_0: 1.4767E-08 | 8: delta_r/delta_0: 1.1523E-09 | 9: delta_s/delta_0: 1.0420E-09 | 10: delta_r/delta_0: 1.6084E-10 | 11: delta_s/delta_0: 2.3024E-09 | 12: delta_r/delta_0: 3.0721E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.976567558050903E-003 2.810330899130551E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3781E-05 | 2: delta_r/delta_0: 1.2523E-06 | 3: delta_s/delta_0: 2.4617E-07 | 4: delta_r/delta_0: 5.0427E-08 | 5: delta_s/delta_0: 2.0673E-08 | 6: delta_r/delta_0: 7.4409E-09 | 7: delta_s/delta_0: 1.4767E-08 | 8: delta_r/delta_0: 1.1520E-09 | 9: delta_s/delta_0: 1.0417E-09 | 10: delta_r/delta_0: 1.6083E-10 | 11: delta_s/delta_0: 2.3022E-09 | 12: delta_r/delta_0: 3.0733E-11 | Reached bicg-stab tolerance | BP delta = -0.2744880 -0.2457432 2841195.56016831 | BP delta = -0.2744880 -0.2492128 2841199.79868982 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81242680 | --> Sampling calibration, mode = relcal | relcal = 0.2954048 0.2249969 -0.2838540 -0.2365477 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.5435538E-04 4.5924922E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9672E-03 | 2: delta_r/delta_0: 6.8704E-05 | 3: delta_s/delta_0: 1.3338E-05 | 4: delta_r/delta_0: 1.1734E-06 | 5: delta_s/delta_0: 1.2495E-06 | 6: delta_r/delta_0: 5.6913E-08 | 7: delta_s/delta_0: 3.4795E-08 | 8: delta_r/delta_0: 1.0578E-08 | 9: delta_s/delta_0: 7.4807E-08 | 10: delta_r/delta_0: 1.2254E-08 | 11: delta_s/delta_0: 2.7553E-09 | 12: delta_r/delta_0: 6.3112E-10 | 13: delta_s/delta_0: 4.7007E-10 | 14: delta_r/delta_0: 7.4021E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.096453840275198E-003 4.020673052651844E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.9658E-03 | 2: delta_r/delta_0: 6.8672E-05 | 3: delta_s/delta_0: 1.3333E-05 | 4: delta_r/delta_0: 1.1731E-06 | 5: delta_s/delta_0: 1.2484E-06 | 6: delta_r/delta_0: 5.6856E-08 | 7: delta_s/delta_0: 3.4799E-08 | 8: delta_r/delta_0: 1.0588E-08 | 9: delta_s/delta_0: 7.5203E-08 | 10: delta_r/delta_0: 1.2298E-08 | 11: delta_s/delta_0: 2.7458E-09 | 12: delta_r/delta_0: 6.3116E-10 | 13: delta_s/delta_0: 4.6954E-10 | 14: delta_r/delta_0: 7.4060E-11 | Reached bicg-stab tolerance | BP delta = -0.1318630 -0.1743144 2827446.37217356 | BP delta = -0.1318630 -0.1740842 2827483.77795077 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95946248 | --> Sampling calibration, mode = relcal | relcal = 0.1064914 0.1396118 -0.1103501 -0.1357532 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5213111E-03 1.2498728E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5732E-04 | 2: delta_r/delta_0: 2.0818E-05 | 3: delta_s/delta_0: 2.1994E-05 | 4: delta_r/delta_0: 1.5553E-06 | 5: delta_s/delta_0: 4.0450E-07 | 6: delta_r/delta_0: 1.7800E-07 | 7: delta_s/delta_0: 4.9318E-07 | 8: delta_r/delta_0: 3.9948E-08 | 9: delta_s/delta_0: 2.4518E-08 | 10: delta_r/delta_0: 3.7879E-09 | 11: delta_s/delta_0: 2.3978E-07 | 12: delta_r/delta_0: 5.4171E-08 | 13: delta_s/delta_0: 1.4621E-09 | 14: delta_r/delta_0: 5.7421E-10 | 15: delta_s/delta_0: 6.2573E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.445909819990220E-002 3.695966558312056E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.5750E-04 | 2: delta_r/delta_0: 2.0822E-05 | 3: delta_s/delta_0: 2.1995E-05 | 4: delta_r/delta_0: 1.5554E-06 | 5: delta_s/delta_0: 4.0459E-07 | 6: delta_r/delta_0: 1.7805E-07 | 7: delta_s/delta_0: 4.9350E-07 | 8: delta_r/delta_0: 3.9951E-08 | 9: delta_s/delta_0: 2.4459E-08 | 10: delta_r/delta_0: 3.7895E-09 | 11: delta_s/delta_0: 1.5487E-07 | 12: delta_r/delta_0: 3.5433E-08 | 13: delta_s/delta_0: 1.4608E-09 | 14: delta_r/delta_0: 5.7567E-10 | 15: delta_s/delta_0: 6.2538E-11 | Reached bicg-stab tolerance | BP delta = 0.1571797 0.2574637 3004511.50819186 | BP delta = 0.1571797 0.2465248 3004573.69587572 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.218928 | New value = -3.189662 | poltype: 2 pol: 1 CPU time specind = 2.0641088E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190278 | New value = -3.079403 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177406 | New value = -3.139744 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138570 | New value = -3.166015 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.227201 | New value = -3.178695 | poltype: 2 pol: 2 CPU time specind = 4.0149689E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.13546E+08, tol = 0.80160E+01, time = 6.08 | CG iter. 2 -- res = 0.32341E+06, tol = 0.80160E+01, time = 5.60 | CG iter. 3 -- res = 0.48700E+05, tol = 0.80160E+01, time = 5.69 | CG iter. 4 -- res = 0.25465E+05, tol = 0.80160E+01, time = 5.63 | CG iter. 5 -- res = 0.16403E+05, tol = 0.80160E+01, time = 7.33 | CG iter. 6 -- res = 0.12571E+05, tol = 0.80160E+01, time = 5.65 | CG iter. 7 -- res = 0.12238E+05, tol = 0.80160E+01, time = 5.99 | CG iter. 8 -- res = 0.11883E+05, tol = 0.80160E+01, time = 5.57 | CG iter. 9 -- res = 0.12338E+05, tol = 0.80160E+01, time = 5.67 | CG iter. 10 -- res = 0.12307E+05, tol = 0.80160E+01, time = 5.83 | CG iter. 11 -- res = 0.87290E+04, tol = 0.80160E+01, time = 5.84 | CG iter. 12 -- res = 0.55054E+04, tol = 0.80160E+01, time = 5.73 | CG iter. 13 -- res = 0.40227E+04, tol = 0.80160E+01, time = 5.75 | CG iter. 14 -- res = 0.36455E+04, tol = 0.80160E+01, time = 5.45 | CG iter. 15 -- res = 0.31441E+04, tol = 0.80160E+01, time = 6.19 | CG iter. 16 -- res = 0.25365E+04, tol = 0.80160E+01, time = 5.53 | CG iter. 17 -- res = 0.19614E+04, tol = 0.80160E+01, time = 6.43 | CG iter. 18 -- res = 0.16643E+04, tol = 0.80160E+01, time = 5.63 | CG iter. 19 -- res = 0.14847E+04, tol = 0.80160E+01, time = 5.74 | CG iter. 20 -- res = 0.11365E+04, tol = 0.80160E+01, time = 6.18 | CG iter. 21 -- res = 0.86470E+03, tol = 0.80160E+01, time = 5.38 | CG iter. 22 -- res = 0.73199E+03, tol = 0.80160E+01, time = 5.98 | CG iter. 23 -- res = 0.66973E+03, tol = 0.80160E+01, time = 5.80 | CG iter. 24 -- res = 0.57458E+03, tol = 0.80160E+01, time = 5.41 | CG iter. 25 -- res = 0.45805E+03, tol = 0.80160E+01, time = 5.89 | CG iter. 26 -- res = 0.36409E+03, tol = 0.80160E+01, time = 5.98 | CG iter. 27 -- res = 0.33119E+03, tol = 0.80160E+01, time = 5.55 | CG iter. 28 -- res = 0.30046E+03, tol = 0.80160E+01, time = 5.93 | CG iter. 29 -- res = 0.25619E+03, tol = 0.80160E+01, time = 5.72 | CG iter. 30 -- res = 0.21366E+03, tol = 0.80160E+01, time = 6.17 | CG iter. 31 -- res = 0.20397E+03, tol = 0.80160E+01, time = 5.83 | CG iter. 32 -- res = 0.18382E+03, tol = 0.80160E+01, time = 5.63 | CG iter. 33 -- res = 0.15171E+03, tol = 0.80160E+01, time = 5.74 | CG iter. 34 -- res = 0.11703E+03, tol = 0.80160E+01, time = 5.68 | CG iter. 35 -- res = 0.98802E+02, tol = 0.80160E+01, time = 5.92 | CG iter. 36 -- res = 0.90420E+02, tol = 0.80160E+01, time = 5.81 | CG iter. 37 -- res = 0.75357E+02, tol = 0.80160E+01, time = 5.97 | CG iter. 38 -- res = 0.57917E+02, tol = 0.80160E+01, time = 6.13 | CG iter. 39 -- res = 0.45779E+02, tol = 0.80160E+01, time = 6.68 | CG iter. 40 -- res = 0.38839E+02, tol = 0.80160E+01, time = 5.95 | CG iter. 41 -- res = 0.31521E+02, tol = 0.80160E+01, time = 12.55 | CG iter. 42 -- res = 0.23024E+02, tol = 0.80160E+01, time = 6.05 | CG iter. 43 -- res = 0.17931E+02, tol = 0.80160E+01, time = 5.83 | CG iter. 44 -- res = 0.14718E+02, tol = 0.80160E+01, time = 5.57 | CG iter. 45 -- res = 0.11797E+02, tol = 0.80160E+01, time = 5.80 | CG iter. 46 -- res = 0.91444E+01, tol = 0.80160E+01, time = 6.02 | CG iter. 47 -- res = 0.72120E+01, tol = 0.80160E+01, time = 5.76 | CG iter. 48 -- res = 0.58098E+01, tol = 0.80160E+01, time = 5.98 | CG iter. 49 -- res = 0.49863E+01, tol = 0.80160E+01, time = 5.74 | CG iter. 50 -- res = 0.40284E+01, tol = 0.80160E+01, time = 5.64 | Final CG iter 51 -- res = 0.40284E+01, tol = 0.80160E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8200809.056 | Old band monopole 8683312.815 | Change to band monopole -482503.759 | Change to component monopole 482501.684 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.47643E+05, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.26303E+02, tol = 0.47627E+18, time = 2.35 | CG iter. 3 -- res = 0.11508E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.19032E-02, tol = 0.47627E+18, time = 1.75 | Final CG iter 5 -- res = 0.36881E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8200773.783 | (Sampled value in CG: 8219065.905 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.565228 | New value = 1.509794 | poltype: 2 pol: 1 CPU time specind = 2.3077965E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.479103 | New value = 1.523911 | poltype: 2 pol: 2 CPU time specind = 5.5291653E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.24677E+08, tol = 0.47534E+04, time = 6.79 | CG iter. 2 -- res = 0.54126E+07, tol = 0.47534E+04, time = 7.01 | CG iter. 3 -- res = 0.85458E+06, tol = 0.47534E+04, time = 6.88 | CG iter. 4 -- res = 0.35387E+06, tol = 0.47534E+04, time = 7.43 | CG iter. 5 -- res = 0.15181E+06, tol = 0.47534E+04, time = 6.90 | CG iter. 6 -- res = 0.80243E+05, tol = 0.47534E+04, time = 7.04 | CG iter. 7 -- res = 0.43228E+05, tol = 0.47534E+04, time = 6.64 | CG iter. 8 -- res = 0.20558E+05, tol = 0.47534E+04, time = 6.96 | CG iter. 9 -- res = 0.87432E+04, tol = 0.47534E+04, time = 6.78 | CG iter. 10 -- res = 0.35449E+04, tol = 0.47534E+04, time = 7.12 | CG iter. 11 -- res = 0.16286E+04, tol = 0.47534E+04, time = 6.76 | CG iter. 12 -- res = 0.84476E+03, tol = 0.47534E+04, time = 6.67 | CG iter. 13 -- res = 0.48548E+03, tol = 0.47534E+04, time = 6.44 | CG iter. 14 -- res = 0.27639E+03, tol = 0.47534E+04, time = 6.74 | CG iter. 15 -- res = 0.14172E+03, tol = 0.47534E+04, time = 6.62 | CG iter. 16 -- res = 0.68269E+02, tol = 0.47534E+04, time = 7.11 | CG iter. 17 -- res = 0.31894E+02, tol = 0.47534E+04, time = 6.94 | CG iter. 18 -- res = 0.15636E+02, tol = 0.47534E+04, time = 13.38 | CG iter. 19 -- res = 0.84830E+01, tol = 0.47534E+04, time = 6.59 | CG iter. 20 -- res = 0.48306E+01, tol = 0.47534E+04, time = 6.94 | CG iter. 21 -- res = 0.26472E+01, tol = 0.47534E+04, time = 6.83 | CG iter. 22 -- res = 0.13824E+01, tol = 0.47534E+04, time = 6.65 | CG iter. 23 -- res = 0.70284E+00, tol = 0.47534E+04, time = 6.67 | CG iter. 24 -- res = 0.37010E+00, tol = 0.47534E+04, time = 6.80 | CG iter. 25 -- res = 0.20866E+00, tol = 0.47534E+04, time = 6.70 | CG iter. 26 -- res = 0.11781E+00, tol = 0.47534E+04, time = 7.03 | CG iter. 27 -- res = 0.66957E-01, tol = 0.47534E+04, time = 6.80 | CG iter. 28 -- res = 0.36234E-01, tol = 0.47534E+04, time = 6.79 | CG iter. 29 -- res = 0.19265E-01, tol = 0.47534E+04, time = 6.88 | CG iter. 30 -- res = 0.10010E-01, tol = 0.47534E+04, time = 6.42 | CG iter. 31 -- res = 0.54010E-02, tol = 0.47534E+04, time = 8.47 | CG iter. 32 -- res = 0.30867E-02, tol = 0.47534E+04, time = 7.08 | CG iter. 33 -- res = 0.17449E-02, tol = 0.47534E+04, time = 6.95 | CG iter. 34 -- res = 0.92033E-03, tol = 0.47534E+04, time = 6.64 | CG iter. 35 -- res = 0.47960E-03, tol = 0.47534E+04, time = 6.78 | Final CG iter 36 -- res = 0.47960E-03, tol = 0.47534E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.960 2.749 | New value 1.867 | Old value -2.960 | Difference 4.827 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.12108E+07, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.23766E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.73572E+00, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.13071E-02, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.35459E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8200773.783 | (Sampled value in CG: 8219758.439 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.579496 | New value = -3.589160 | poltype: 1 pol: 1 CPU time specind = 1.2557983E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.24764E+07, tol = 0.33077E+01, time = 2.70 | CG iter. 2 -- res = 0.72104E+06, tol = 0.33077E+01, time = 2.67 | CG iter. 3 -- res = 0.14448E+06, tol = 0.33077E+01, time = 2.56 | CG iter. 4 -- res = 0.73910E+05, tol = 0.33077E+01, time = 2.72 | CG iter. 5 -- res = 0.45639E+05, tol = 0.33077E+01, time = 3.00 | CG iter. 6 -- res = 0.19294E+05, tol = 0.33077E+01, time = 2.88 | CG iter. 7 -- res = 0.74534E+04, tol = 0.33077E+01, time = 2.74 | CG iter. 8 -- res = 0.33364E+04, tol = 0.33077E+01, time = 2.80 | CG iter. 9 -- res = 0.14683E+04, tol = 0.33077E+01, time = 2.64 | CG iter. 10 -- res = 0.60928E+03, tol = 0.33077E+01, time = 2.69 | CG iter. 11 -- res = 0.25469E+03, tol = 0.33077E+01, time = 2.77 | CG iter. 12 -- res = 0.12658E+03, tol = 0.33077E+01, time = 2.77 | CG iter. 13 -- res = 0.66155E+02, tol = 0.33077E+01, time = 2.62 | CG iter. 14 -- res = 0.33036E+02, tol = 0.33077E+01, time = 2.78 | CG iter. 15 -- res = 0.14959E+02, tol = 0.33077E+01, time = 2.84 | CG iter. 16 -- res = 0.62624E+01, tol = 0.33077E+01, time = 2.66 | CG iter. 17 -- res = 0.27370E+01, tol = 0.33077E+01, time = 3.32 | CG iter. 18 -- res = 0.12921E+01, tol = 0.33077E+01, time = 2.73 | CG iter. 19 -- res = 0.62272E+00, tol = 0.33077E+01, time = 2.76 | CG iter. 20 -- res = 0.32781E+00, tol = 0.33077E+01, time = 2.86 | CG iter. 21 -- res = 0.15811E+00, tol = 0.33077E+01, time = 2.50 | CG iter. 22 -- res = 0.71719E-01, tol = 0.33077E+01, time = 2.86 | CG iter. 23 -- res = 0.30747E-01, tol = 0.33077E+01, time = 2.87 | CG iter. 24 -- res = 0.13924E-01, tol = 0.33077E+01, time = 2.49 | CG iter. 25 -- res = 0.70957E-02, tol = 0.33077E+01, time = 2.74 | CG iter. 26 -- res = 0.36068E-02, tol = 0.33077E+01, time = 3.24 | CG iter. 27 -- res = 0.17886E-02, tol = 0.33077E+01, time = 3.02 | CG iter. 28 -- res = 0.83789E-03, tol = 0.33077E+01, time = 2.77 | CG iter. 29 -- res = 0.37922E-03, tol = 0.33077E+01, time = 2.56 | CG iter. 30 -- res = 0.17526E-03, tol = 0.33077E+01, time = 4.73 | CG iter. 31 -- res = 0.84695E-04, tol = 0.33077E+01, time = 2.75 | CG iter. 32 -- res = 0.41433E-04, tol = 0.33077E+01, time = 2.74 | CG iter. 33 -- res = 0.21009E-04, tol = 0.33077E+01, time = 2.74 | CG iter. 34 -- res = 0.99228E-05, tol = 0.33077E+01, time = 2.87 | CG iter. 35 -- res = 0.46440E-05, tol = 0.33077E+01, time = 2.78 | CG iter. 36 -- res = 0.21725E-05, tol = 0.33077E+01, time = 2.70 | CG iter. 37 -- res = 0.10375E-05, tol = 0.33077E+01, time = 2.80 | CG iter. 38 -- res = 0.52387E-06, tol = 0.33077E+01, time = 2.95 | CG iter. 39 -- res = 0.26695E-06, tol = 0.33077E+01, time = 2.85 | CG iter. 40 -- res = 0.12171E-06, tol = 0.33077E+01, time = 2.86 | CG iter. 41 -- res = 0.58582E-07, tol = 0.33077E+01, time = 2.77 | CG iter. 42 -- res = 0.27372E-07, tol = 0.33077E+01, time = 2.82 | CG iter. 43 -- res = 0.12902E-07, tol = 0.33077E+01, time = 2.87 | CG iter. 44 -- res = 0.62237E-08, tol = 0.33077E+01, time = 2.86 | CG iter. 45 -- res = 0.31306E-08, tol = 0.33077E+01, time = 2.68 | CG iter. 46 -- res = 0.15047E-08, tol = 0.33077E+01, time = 2.64 | CG iter. 47 -- res = 0.72322E-09, tol = 0.33077E+01, time = 3.02 | CG iter. 48 -- res = 0.33969E-09, tol = 0.33077E+01, time = 2.58 | CG iter. 49 -- res = 0.15593E-09, tol = 0.33077E+01, time = 2.69 | CG iter. 50 -- res = 0.74931E-10, tol = 0.33077E+01, time = 2.69 | Final CG iter 51 -- res = 0.74931E-10, tol = 0.33077E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.567 4.561 | New value -3.887 | Old value -10.567 | Difference 6.680 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.42387E+05, tol = 0.47627E+18, time = 2.19 | CG iter. 2 -- res = 0.26769E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.10543E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.13904E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.48650E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8200773.783 | (Sampled value in CG: 8216292.273 ) | CPU time specind = 1224.250 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.70062E+08, tol = 0.57719E+04, time = 12.33 | CG iter. 2 -- res = 0.59015E+08, tol = 0.57719E+04, time = 12.47 | CG iter. 3 -- res = 0.15044E+08, tol = 0.57719E+04, time = 13.55 | CG iter. 4 -- res = 0.64362E+07, tol = 0.57719E+04, time = 12.66 | CG iter. 5 -- res = 0.37858E+07, tol = 0.57719E+04, time = 12.56 | CG iter. 6 -- res = 0.22070E+07, tol = 0.57719E+04, time = 12.55 | CG iter. 7 -- res = 0.13017E+07, tol = 0.57719E+04, time = 12.53 | CG iter. 8 -- res = 0.83577E+06, tol = 0.57719E+04, time = 11.98 | CG iter. 9 -- res = 0.53321E+06, tol = 0.57719E+04, time = 12.24 | CG iter. 10 -- res = 0.31680E+06, tol = 0.57719E+04, time = 11.61 | CG iter. 11 -- res = 0.16879E+06, tol = 0.57719E+04, time = 12.01 | CG iter. 12 -- res = 0.89020E+05, tol = 0.57719E+04, time = 12.60 | CG iter. 13 -- res = 0.50657E+05, tol = 0.57719E+04, time = 12.34 | CG iter. 14 -- res = 0.31204E+05, tol = 0.57719E+04, time = 11.50 | CG iter. 15 -- res = 0.20459E+05, tol = 0.57719E+04, time = 12.04 | CG iter. 16 -- res = 0.14736E+05, tol = 0.57719E+04, time = 12.46 | CG iter. 17 -- res = 0.11223E+05, tol = 0.57719E+04, time = 12.26 | CG iter. 18 -- res = 0.85228E+04, tol = 0.57719E+04, time = 11.62 | CG iter. 19 -- res = 0.65776E+04, tol = 0.57719E+04, time = 12.10 | CG iter. 20 -- res = 0.51016E+04, tol = 0.57719E+04, time = 17.77 | CG iter. 21 -- res = 0.43014E+04, tol = 0.57719E+04, time = 12.41 | CG iter. 22 -- res = 0.41893E+04, tol = 0.57719E+04, time = 11.91 | CG iter. 23 -- res = 0.46335E+04, tol = 0.57719E+04, time = 12.02 | CG iter. 24 -- res = 0.51928E+04, tol = 0.57719E+04, time = 12.11 | CG iter. 25 -- res = 0.55215E+04, tol = 0.57719E+04, time = 12.23 | CG iter. 26 -- res = 0.53292E+04, tol = 0.57719E+04, time = 12.21 | CG iter. 27 -- res = 0.46316E+04, tol = 0.57719E+04, time = 13.79 | CG iter. 28 -- res = 0.37413E+04, tol = 0.57719E+04, time = 12.80 | CG iter. 29 -- res = 0.30771E+04, tol = 0.57719E+04, time = 12.03 | CG iter. 30 -- res = 0.25769E+04, tol = 0.57719E+04, time = 11.78 | CG iter. 31 -- res = 0.21387E+04, tol = 0.57719E+04, time = 12.30 | CG iter. 32 -- res = 0.17374E+04, tol = 0.57719E+04, time = 12.07 | CG iter. 33 -- res = 0.13315E+04, tol = 0.57719E+04, time = 11.95 | CG iter. 34 -- res = 0.10131E+04, tol = 0.57719E+04, time = 12.19 | CG iter. 35 -- res = 0.80728E+03, tol = 0.57719E+04, time = 11.92 | CG iter. 36 -- res = 0.68672E+03, tol = 0.57719E+04, time = 13.66 | CG iter. 37 -- res = 0.62718E+03, tol = 0.57719E+04, time = 11.82 | CG iter. 38 -- res = 0.62003E+03, tol = 0.57719E+04, time = 12.18 | CG iter. 39 -- res = 0.59547E+03, tol = 0.57719E+04, time = 12.24 | CG iter. 40 -- res = 0.54267E+03, tol = 0.57719E+04, time = 11.85 | CG iter. 41 -- res = 0.48754E+03, tol = 0.57719E+04, time = 12.19 | CG iter. 42 -- res = 0.42802E+03, tol = 0.57719E+04, time = 12.16 | CG iter. 43 -- res = 0.37403E+03, tol = 0.57719E+04, time = 12.37 | CG iter. 44 -- res = 0.33972E+03, tol = 0.57719E+04, time = 18.04 | CG iter. 45 -- res = 0.31511E+03, tol = 0.57719E+04, time = 12.02 | CG iter. 46 -- res = 0.28784E+03, tol = 0.57719E+04, time = 11.93 | CG iter. 47 -- res = 0.24518E+03, tol = 0.57719E+04, time = 12.25 | CG iter. 48 -- res = 0.20111E+03, tol = 0.57719E+04, time = 12.01 | CG iter. 49 -- res = 0.16522E+03, tol = 0.57719E+04, time = 11.91 | CG iter. 50 -- res = 0.14175E+03, tol = 0.57719E+04, time = 12.26 | CG iter. 51 -- res = 0.12867E+03, tol = 0.57719E+04, time = 13.76 | CG iter. 52 -- res = 0.12402E+03, tol = 0.57719E+04, time = 12.29 | CG iter. 53 -- res = 0.12283E+03, tol = 0.57719E+04, time = 12.20 | CG iter. 54 -- res = 0.11724E+03, tol = 0.57719E+04, time = 12.22 | CG iter. 55 -- res = 0.10629E+03, tol = 0.57719E+04, time = 12.22 | CG iter. 56 -- res = 0.95416E+02, tol = 0.57719E+04, time = 12.19 | CG iter. 57 -- res = 0.86360E+02, tol = 0.57719E+04, time = 11.96 | CG iter. 58 -- res = 0.80580E+02, tol = 0.57719E+04, time = 12.09 | CG iter. 59 -- res = 0.76376E+02, tol = 0.57719E+04, time = 12.08 | CG iter. 60 -- res = 0.72140E+02, tol = 0.57719E+04, time = 11.86 | Final CG iter 61 -- res = 0.72140E+02, tol = 0.57719E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.772 ( -229.732 -2229.845 2512.130 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8880957.587 | Old band monopole 8200809.056 | Change to band monopole 680148.531 | Change to component monopole -680145.605 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.923 2.758 | New value 2.087 | Old value 1.923 | Difference 0.165 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.567 ( 7.096 10.011 -9.070 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.938 4.816 | New value 1.828 | Old value 0.938 | Difference 0.891 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.20429E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.26006E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.87900E+00, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.19842E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.40565E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8880919.388 | (Sampled value in CG: 8854136.385 ) | Chain = 1 -- chisq = 0.81544738E+09 | Chain = 1 -- wall time = 6140.287 sec Available RAM: MemAvailable: 383125608 kB Available Swap: SwapFree: 1123814348 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 359 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446033 | --> Sampling calibration, mode = relcal | relcal = 1.3416775E-02 7.5198885E-04 -1.5898658E-03 -1.2578897E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1551303 0.1707248 97047465.0003077 | BP delta = 0.1388367 0.1544312 97047466.7916971 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632385 | --> Sampling calibration, mode = relcal | relcal = -2.8218788E-03 -7.0363522E-04 1.6792577E-03 1.6127465E-03 -4.0654565E-04 6.4005546E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5766217 15217975.0594313 | BP delta = 0.0000000E+00 -0.5814436 15217973.7410168 | BP chisq diff = -1.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18044299242667 | --> Sampling calibration, mode = relcal | relcal = -7.4323013E-02 -5.7943404E-02 9.1122389E-02 4.1144028E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.9240533E-04 3.8050497E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4839E-04 | 2: delta_r/delta_0: 3.8306E-06 | 3: delta_s/delta_0: 2.1424E-07 | 4: delta_r/delta_0: 1.9677E-08 | 5: delta_s/delta_0: 1.7047E-08 | 6: delta_r/delta_0: 4.2099E-09 | 7: delta_s/delta_0: 5.1082E-10 | 8: delta_r/delta_0: 1.3265E-10 | 9: delta_s/delta_0: 3.2096E-10 | 10: delta_r/delta_0: 1.9112E-10 | 11: delta_s/delta_0: 3.2686E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.550254624581616E-003 2.742470370377038E-005 | BP delta = 8.6583376E-02 0.1091421 50485675.0902303 | BP delta = 9.3177713E-02 0.1157365 50485678.9673474 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02594111 | --> Sampling calibration, mode = relcal | relcal = -0.1066541 -9.5540710E-02 0.1449339 5.7260923E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5748046E-03 1.3196325E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8592E-05 | 2: delta_r/delta_0: 1.1850E-06 | 3: delta_s/delta_0: 2.4485E-07 | 4: delta_r/delta_0: 4.6531E-08 | 5: delta_s/delta_0: 1.7687E-08 | 6: delta_r/delta_0: 6.3480E-09 | 7: delta_s/delta_0: 1.2613E-08 | 8: delta_r/delta_0: 9.1637E-10 | 9: delta_s/delta_0: 8.7397E-10 | 10: delta_r/delta_0: 1.5221E-10 | 11: delta_s/delta_0: 2.3231E-09 | 12: delta_r/delta_0: 2.2080E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.538405004108609E-003 2.810970377325714E-005 | BP delta = -0.2744880 -0.2457432 57390885.6154697 | BP delta = -0.2698021 -0.2410574 57390885.4679295 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81221462 | --> Sampling calibration, mode = relcal | relcal = 0.2954421 0.2248350 -0.2837748 -0.2365023 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.6300487E-04 5.3923824E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9727E-01 | 2: delta_r/delta_0: 1.6416E-02 | 3: delta_s/delta_0: 1.1549E-02 | 4: delta_r/delta_0: 4.6799E-04 | 5: delta_s/delta_0: 2.6653E-06 | 6: delta_r/delta_0: 1.0627E-06 | 7: delta_s/delta_0: 2.2362E-06 | 8: delta_r/delta_0: 3.9114E-07 | 9: delta_s/delta_0: 1.5645E-07 | 10: delta_r/delta_0: 1.8445E-08 | 11: delta_s/delta_0: 7.7665E-09 | 12: delta_r/delta_0: 3.0506E-09 | 13: delta_s/delta_0: 9.1165E-08 | 14: delta_r/delta_0: 1.6686E-08 | 15: delta_s/delta_0: 1.7448E-10 | 16: delta_r/delta_0: 8.9891E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.806029126931932E-002 4.021791330813132E-005 | BP delta = -0.1318630 -0.1743144 72482745.6241520 | BP delta = -0.1251906 -0.1676420 72482745.7233399 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95906489 | --> Sampling calibration, mode = relcal | relcal = 0.1065238 0.1395139 -0.1101290 -0.1359087 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0181718E-02 1.3885815E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.8250E-04 | 2: delta_r/delta_0: 1.4238E-05 | 3: delta_s/delta_0: 1.2345E-05 | 4: delta_r/delta_0: 1.0836E-06 | 5: delta_s/delta_0: 3.4025E-07 | 6: delta_r/delta_0: 1.5615E-07 | 7: delta_s/delta_0: 3.9754E-07 | 8: delta_r/delta_0: 3.6649E-08 | 9: delta_s/delta_0: 7.8785E-08 | 10: delta_r/delta_0: 1.0946E-08 | 11: delta_s/delta_0: 2.3629E-09 | 12: delta_r/delta_0: 1.4588E-09 | 13: delta_s/delta_0: 7.9671E-10 | 14: delta_r/delta_0: 4.6300E-10 | 15: delta_s/delta_0: 9.0393E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.330336278769938E-002 3.697507507312270E-005 | BP delta = 0.1571797 0.2574637 72775181.2664802 | BP delta = 0.1883011 0.2885851 72775182.6439956 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189662 | New value = -3.159999 | poltype: 2 pol: 1 CPU time specind = 2.2495985E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.079403 | New value = -3.026212 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139744 | New value = -3.182915 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166015 | New value = -3.200183 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178695 | New value = -3.167351 | poltype: 2 pol: 2 CPU time specind = 2.4002075E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.13561E+08, tol = 0.78930E+01, time = 5.92 | CG iter. 2 -- res = 0.30364E+06, tol = 0.78930E+01, time = 6.10 | CG iter. 3 -- res = 0.43821E+05, tol = 0.78930E+01, time = 6.06 | CG iter. 4 -- res = 0.21536E+05, tol = 0.78930E+01, time = 5.85 | CG iter. 5 -- res = 0.11279E+05, tol = 0.78930E+01, time = 5.88 | CG iter. 6 -- res = 0.66235E+04, tol = 0.78930E+01, time = 5.95 | CG iter. 7 -- res = 0.48280E+04, tol = 0.78930E+01, time = 5.82 | CG iter. 8 -- res = 0.37760E+04, tol = 0.78930E+01, time = 5.84 | CG iter. 9 -- res = 0.35228E+04, tol = 0.78930E+01, time = 5.86 | CG iter. 10 -- res = 0.37034E+04, tol = 0.78930E+01, time = 5.77 | CG iter. 11 -- res = 0.31770E+04, tol = 0.78930E+01, time = 5.64 | CG iter. 12 -- res = 0.21498E+04, tol = 0.78930E+01, time = 5.56 | CG iter. 13 -- res = 0.15521E+04, tol = 0.78930E+01, time = 5.85 | CG iter. 14 -- res = 0.12372E+04, tol = 0.78930E+01, time = 5.94 | CG iter. 15 -- res = 0.10414E+04, tol = 0.78930E+01, time = 5.95 | CG iter. 16 -- res = 0.83889E+03, tol = 0.78930E+01, time = 6.18 | CG iter. 17 -- res = 0.62149E+03, tol = 0.78930E+01, time = 5.87 | CG iter. 18 -- res = 0.48852E+03, tol = 0.78930E+01, time = 5.79 | CG iter. 19 -- res = 0.41113E+03, tol = 0.78930E+01, time = 5.80 | CG iter. 20 -- res = 0.31783E+03, tol = 0.78930E+01, time = 5.71 | CG iter. 21 -- res = 0.22232E+03, tol = 0.78930E+01, time = 5.94 | CG iter. 22 -- res = 0.16621E+03, tol = 0.78930E+01, time = 5.92 | CG iter. 23 -- res = 0.14495E+03, tol = 0.78930E+01, time = 5.61 | CG iter. 24 -- res = 0.12300E+03, tol = 0.78930E+01, time = 5.79 | CG iter. 25 -- res = 0.92587E+02, tol = 0.78930E+01, time = 5.67 | CG iter. 26 -- res = 0.69997E+02, tol = 0.78930E+01, time = 5.69 | CG iter. 27 -- res = 0.58385E+02, tol = 0.78930E+01, time = 6.12 | CG iter. 28 -- res = 0.50103E+02, tol = 0.78930E+01, time = 5.75 | CG iter. 29 -- res = 0.38590E+02, tol = 0.78930E+01, time = 6.09 | CG iter. 30 -- res = 0.29441E+02, tol = 0.78930E+01, time = 6.20 | CG iter. 31 -- res = 0.25184E+02, tol = 0.78930E+01, time = 5.95 | CG iter. 32 -- res = 0.22896E+02, tol = 0.78930E+01, time = 5.64 | CG iter. 33 -- res = 0.18327E+02, tol = 0.78930E+01, time = 12.22 | CG iter. 34 -- res = 0.13846E+02, tol = 0.78930E+01, time = 5.78 | CG iter. 35 -- res = 0.11073E+02, tol = 0.78930E+01, time = 5.83 | CG iter. 36 -- res = 0.97472E+01, tol = 0.78930E+01, time = 6.19 | CG iter. 37 -- res = 0.82623E+01, tol = 0.78930E+01, time = 6.16 | CG iter. 38 -- res = 0.68197E+01, tol = 0.78930E+01, time = 6.19 | CG iter. 39 -- res = 0.53628E+01, tol = 0.78930E+01, time = 5.86 | CG iter. 40 -- res = 0.46753E+01, tol = 0.78930E+01, time = 5.75 | CG iter. 41 -- res = 0.40669E+01, tol = 0.78930E+01, time = 5.68 | CG iter. 42 -- res = 0.32173E+01, tol = 0.78930E+01, time = 5.80 | CG iter. 43 -- res = 0.26235E+01, tol = 0.78930E+01, time = 6.05 | CG iter. 44 -- res = 0.22165E+01, tol = 0.78930E+01, time = 5.46 | CG iter. 45 -- res = 0.19197E+01, tol = 0.78930E+01, time = 5.83 | CG iter. 46 -- res = 0.15835E+01, tol = 0.78930E+01, time = 5.92 | CG iter. 47 -- res = 0.12967E+01, tol = 0.78930E+01, time = 7.38 | CG iter. 48 -- res = 0.10584E+01, tol = 0.78930E+01, time = 6.43 | CG iter. 49 -- res = 0.90142E+00, tol = 0.78930E+01, time = 6.00 | CG iter. 50 -- res = 0.73382E+00, tol = 0.78930E+01, time = 5.77 | Final CG iter 51 -- res = 0.73382E+00, tol = 0.78930E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10923182.046 | Old band monopole 8880957.587 | Change to band monopole 2042224.459 | Change to component monopole -2042215.675 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.29945E+04, tol = 0.47627E+18, time = 2.11 | CG iter. 2 -- res = 0.22473E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.47019E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.54983E-03, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.32317E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10923135.063 | (Sampled value in CG: 10946628.763 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509794 | New value = 1.521249 | poltype: 2 pol: 1 CPU time specind = 2.0426035E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.523911 | New value = 1.512632 | poltype: 2 pol: 2 CPU time specind = 3.1061172E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.24039E+08, tol = 0.47634E+04, time = 6.97 | CG iter. 2 -- res = 0.52972E+07, tol = 0.47634E+04, time = 6.80 | CG iter. 3 -- res = 0.85220E+06, tol = 0.47634E+04, time = 6.56 | CG iter. 4 -- res = 0.36318E+06, tol = 0.47634E+04, time = 6.62 | CG iter. 5 -- res = 0.15378E+06, tol = 0.47634E+04, time = 6.81 | CG iter. 6 -- res = 0.77897E+05, tol = 0.47634E+04, time = 6.96 | CG iter. 7 -- res = 0.42603E+05, tol = 0.47634E+04, time = 6.74 | CG iter. 8 -- res = 0.21201E+05, tol = 0.47634E+04, time = 6.61 | CG iter. 9 -- res = 0.93206E+04, tol = 0.47634E+04, time = 6.29 | CG iter. 10 -- res = 0.37195E+04, tol = 0.47634E+04, time = 6.92 | CG iter. 11 -- res = 0.16735E+04, tol = 0.47634E+04, time = 10.86 | CG iter. 12 -- res = 0.85655E+03, tol = 0.47634E+04, time = 9.36 | CG iter. 13 -- res = 0.48769E+03, tol = 0.47634E+04, time = 7.06 | CG iter. 14 -- res = 0.28080E+03, tol = 0.47634E+04, time = 6.54 | CG iter. 15 -- res = 0.14662E+03, tol = 0.47634E+04, time = 6.83 | CG iter. 16 -- res = 0.68433E+02, tol = 0.47634E+04, time = 6.77 | CG iter. 17 -- res = 0.32088E+02, tol = 0.47634E+04, time = 6.54 | CG iter. 18 -- res = 0.16317E+02, tol = 0.47634E+04, time = 6.65 | CG iter. 19 -- res = 0.88198E+01, tol = 0.47634E+04, time = 6.99 | CG iter. 20 -- res = 0.49784E+01, tol = 0.47634E+04, time = 6.59 | CG iter. 21 -- res = 0.27535E+01, tol = 0.47634E+04, time = 6.42 | CG iter. 22 -- res = 0.14356E+01, tol = 0.47634E+04, time = 6.48 | CG iter. 23 -- res = 0.72928E+00, tol = 0.47634E+04, time = 6.51 | CG iter. 24 -- res = 0.38188E+00, tol = 0.47634E+04, time = 7.85 | CG iter. 25 -- res = 0.20968E+00, tol = 0.47634E+04, time = 6.99 | CG iter. 26 -- res = 0.11868E+00, tol = 0.47634E+04, time = 7.21 | CG iter. 27 -- res = 0.66932E-01, tol = 0.47634E+04, time = 6.61 | CG iter. 28 -- res = 0.35357E-01, tol = 0.47634E+04, time = 6.67 | CG iter. 29 -- res = 0.18429E-01, tol = 0.47634E+04, time = 6.79 | CG iter. 30 -- res = 0.96139E-02, tol = 0.47634E+04, time = 6.50 | CG iter. 31 -- res = 0.53296E-02, tol = 0.47634E+04, time = 6.60 | CG iter. 32 -- res = 0.30459E-02, tol = 0.47634E+04, time = 6.94 | CG iter. 33 -- res = 0.17627E-02, tol = 0.47634E+04, time = 6.72 | CG iter. 34 -- res = 0.98850E-03, tol = 0.47634E+04, time = 6.88 | CG iter. 35 -- res = 0.51174E-03, tol = 0.47634E+04, time = 7.08 | Final CG iter 36 -- res = 0.51174E-03, tol = 0.47634E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.081 2.766 | New value 2.355 | Old value 2.081 | Difference 0.274 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.48927E+04, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.18795E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.43213E+00, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.59003E-04, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.11376E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10923135.063 | (Sampled value in CG: 10946755.032 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.589160 | New value = -3.520853 | poltype: 1 pol: 1 CPU time specind = 1.4217138E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.21209E+07, tol = 0.26690E+01, time = 2.71 | CG iter. 2 -- res = 0.73807E+06, tol = 0.26690E+01, time = 3.00 | CG iter. 3 -- res = 0.14645E+06, tol = 0.26690E+01, time = 2.65 | CG iter. 4 -- res = 0.56572E+05, tol = 0.26690E+01, time = 2.89 | CG iter. 5 -- res = 0.30475E+05, tol = 0.26690E+01, time = 2.90 | CG iter. 6 -- res = 0.17049E+05, tol = 0.26690E+01, time = 2.80 | CG iter. 7 -- res = 0.74904E+04, tol = 0.26690E+01, time = 3.02 | CG iter. 8 -- res = 0.32576E+04, tol = 0.26690E+01, time = 3.03 | CG iter. 9 -- res = 0.13720E+04, tol = 0.26690E+01, time = 2.50 | CG iter. 10 -- res = 0.54517E+03, tol = 0.26690E+01, time = 2.81 | CG iter. 11 -- res = 0.23049E+03, tol = 0.26690E+01, time = 2.64 | CG iter. 12 -- res = 0.10699E+03, tol = 0.26690E+01, time = 2.95 | CG iter. 13 -- res = 0.53607E+02, tol = 0.26690E+01, time = 2.96 | CG iter. 14 -- res = 0.28692E+02, tol = 0.26690E+01, time = 2.79 | CG iter. 15 -- res = 0.13512E+02, tol = 0.26690E+01, time = 2.85 | CG iter. 16 -- res = 0.60202E+01, tol = 0.26690E+01, time = 2.83 | CG iter. 17 -- res = 0.24672E+01, tol = 0.26690E+01, time = 2.88 | CG iter. 18 -- res = 0.11051E+01, tol = 0.26690E+01, time = 2.59 | CG iter. 19 -- res = 0.54499E+00, tol = 0.26690E+01, time = 2.63 | CG iter. 20 -- res = 0.27541E+00, tol = 0.26690E+01, time = 2.47 | CG iter. 21 -- res = 0.13875E+00, tol = 0.26690E+01, time = 2.88 | CG iter. 22 -- res = 0.66069E-01, tol = 0.26690E+01, time = 2.92 | CG iter. 23 -- res = 0.29046E-01, tol = 0.26690E+01, time = 3.15 | CG iter. 24 -- res = 0.13336E-01, tol = 0.26690E+01, time = 2.47 | CG iter. 25 -- res = 0.65924E-02, tol = 0.26690E+01, time = 2.77 | CG iter. 26 -- res = 0.35411E-02, tol = 0.26690E+01, time = 2.83 | CG iter. 27 -- res = 0.17384E-02, tol = 0.26690E+01, time = 2.76 | CG iter. 28 -- res = 0.86441E-03, tol = 0.26690E+01, time = 2.97 | CG iter. 29 -- res = 0.39665E-03, tol = 0.26690E+01, time = 2.97 | CG iter. 30 -- res = 0.18508E-03, tol = 0.26690E+01, time = 2.68 | CG iter. 31 -- res = 0.90344E-04, tol = 0.26690E+01, time = 2.45 | CG iter. 32 -- res = 0.44995E-04, tol = 0.26690E+01, time = 2.86 | CG iter. 33 -- res = 0.22491E-04, tol = 0.26690E+01, time = 2.86 | CG iter. 34 -- res = 0.11215E-04, tol = 0.26690E+01, time = 2.81 | CG iter. 35 -- res = 0.51989E-05, tol = 0.26690E+01, time = 2.78 | CG iter. 36 -- res = 0.25311E-05, tol = 0.26690E+01, time = 2.80 | CG iter. 37 -- res = 0.11460E-05, tol = 0.26690E+01, time = 2.89 | CG iter. 38 -- res = 0.55835E-06, tol = 0.26690E+01, time = 2.61 | CG iter. 39 -- res = 0.27755E-06, tol = 0.26690E+01, time = 3.00 | CG iter. 40 -- res = 0.13805E-06, tol = 0.26690E+01, time = 2.96 | CG iter. 41 -- res = 0.67214E-07, tol = 0.26690E+01, time = 2.96 | CG iter. 42 -- res = 0.32364E-07, tol = 0.26690E+01, time = 2.81 | CG iter. 43 -- res = 0.14685E-07, tol = 0.26690E+01, time = 2.89 | CG iter. 44 -- res = 0.67973E-08, tol = 0.26690E+01, time = 2.64 | CG iter. 45 -- res = 0.33980E-08, tol = 0.26690E+01, time = 7.51 | CG iter. 46 -- res = 0.16746E-08, tol = 0.26690E+01, time = 4.67 | CG iter. 47 -- res = 0.83056E-09, tol = 0.26690E+01, time = 2.77 | CG iter. 48 -- res = 0.40990E-09, tol = 0.26690E+01, time = 2.88 | CG iter. 49 -- res = 0.18711E-09, tol = 0.26690E+01, time = 2.62 | CG iter. 50 -- res = 0.82617E-10, tol = 0.26690E+01, time = 3.11 | Final CG iter 51 -- res = 0.82617E-10, tol = 0.26690E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.168 4.239 | New value 2.163 | Old value 4.168 | Difference -2.005 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.31 | CG iter. 1 -- res = 0.46637E+04, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.21197E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.47110E+00, tol = 0.47627E+18, time = 2.17 | CG iter. 4 -- res = 0.59548E-03, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.20169E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10923135.063 | (Sampled value in CG: 10943364.987 ) | CPU time specind = 1216.765 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.68282E+08, tol = 0.57607E+04, time = 12.58 | CG iter. 2 -- res = 0.58406E+08, tol = 0.57607E+04, time = 12.13 | CG iter. 3 -- res = 0.15000E+08, tol = 0.57607E+04, time = 12.10 | CG iter. 4 -- res = 0.62092E+07, tol = 0.57607E+04, time = 12.04 | CG iter. 5 -- res = 0.36774E+07, tol = 0.57607E+04, time = 12.35 | CG iter. 6 -- res = 0.21725E+07, tol = 0.57607E+04, time = 11.80 | CG iter. 7 -- res = 0.12978E+07, tol = 0.57607E+04, time = 11.98 | CG iter. 8 -- res = 0.84953E+06, tol = 0.57607E+04, time = 13.09 | CG iter. 9 -- res = 0.55106E+06, tol = 0.57607E+04, time = 12.54 | CG iter. 10 -- res = 0.32617E+06, tol = 0.57607E+04, time = 12.31 | CG iter. 11 -- res = 0.17389E+06, tol = 0.57607E+04, time = 12.38 | CG iter. 12 -- res = 0.90302E+05, tol = 0.57607E+04, time = 12.06 | CG iter. 13 -- res = 0.49389E+05, tol = 0.57607E+04, time = 11.88 | CG iter. 14 -- res = 0.28730E+05, tol = 0.57607E+04, time = 12.50 | CG iter. 15 -- res = 0.18241E+05, tol = 0.57607E+04, time = 11.72 | CG iter. 16 -- res = 0.12668E+05, tol = 0.57607E+04, time = 19.06 | CG iter. 17 -- res = 0.89137E+04, tol = 0.57607E+04, time = 11.95 | CG iter. 18 -- res = 0.62212E+04, tol = 0.57607E+04, time = 11.97 | CG iter. 19 -- res = 0.42012E+04, tol = 0.57607E+04, time = 12.21 | CG iter. 20 -- res = 0.28242E+04, tol = 0.57607E+04, time = 12.21 | CG iter. 21 -- res = 0.20300E+04, tol = 0.57607E+04, time = 12.05 | CG iter. 22 -- res = 0.16529E+04, tol = 0.57607E+04, time = 11.86 | CG iter. 23 -- res = 0.15656E+04, tol = 0.57607E+04, time = 13.77 | CG iter. 24 -- res = 0.16307E+04, tol = 0.57607E+04, time = 12.47 | CG iter. 25 -- res = 0.17524E+04, tol = 0.57607E+04, time = 12.30 | CG iter. 26 -- res = 0.17735E+04, tol = 0.57607E+04, time = 11.72 | CG iter. 27 -- res = 0.16533E+04, tol = 0.57607E+04, time = 12.06 | CG iter. 28 -- res = 0.14671E+04, tol = 0.57607E+04, time = 12.28 | CG iter. 29 -- res = 0.13125E+04, tol = 0.57607E+04, time = 12.40 | CG iter. 30 -- res = 0.11965E+04, tol = 0.57607E+04, time = 11.94 | CG iter. 31 -- res = 0.11084E+04, tol = 0.57607E+04, time = 12.42 | CG iter. 32 -- res = 0.99440E+03, tol = 0.57607E+04, time = 11.95 | CG iter. 33 -- res = 0.81565E+03, tol = 0.57607E+04, time = 11.78 | CG iter. 34 -- res = 0.62085E+03, tol = 0.57607E+04, time = 11.99 | CG iter. 35 -- res = 0.46678E+03, tol = 0.57607E+04, time = 12.45 | CG iter. 36 -- res = 0.37149E+03, tol = 0.57607E+04, time = 11.92 | CG iter. 37 -- res = 0.32744E+03, tol = 0.57607E+04, time = 12.03 | CG iter. 38 -- res = 0.31653E+03, tol = 0.57607E+04, time = 12.05 | CG iter. 39 -- res = 0.31085E+03, tol = 0.57607E+04, time = 12.02 | CG iter. 40 -- res = 0.29242E+03, tol = 0.57607E+04, time = 19.05 | CG iter. 41 -- res = 0.26753E+03, tol = 0.57607E+04, time = 11.88 | CG iter. 42 -- res = 0.23824E+03, tol = 0.57607E+04, time = 11.95 | CG iter. 43 -- res = 0.21184E+03, tol = 0.57607E+04, time = 12.56 | CG iter. 44 -- res = 0.19798E+03, tol = 0.57607E+04, time = 11.70 | CG iter. 45 -- res = 0.18921E+03, tol = 0.57607E+04, time = 12.02 | CG iter. 46 -- res = 0.17853E+03, tol = 0.57607E+04, time = 11.87 | CG iter. 47 -- res = 0.15916E+03, tol = 0.57607E+04, time = 13.55 | CG iter. 48 -- res = 0.13759E+03, tol = 0.57607E+04, time = 12.68 | CG iter. 49 -- res = 0.11594E+03, tol = 0.57607E+04, time = 12.42 | CG iter. 50 -- res = 0.98280E+02, tol = 0.57607E+04, time = 12.38 | CG iter. 51 -- res = 0.88984E+02, tol = 0.57607E+04, time = 11.86 | CG iter. 52 -- res = 0.85400E+02, tol = 0.57607E+04, time = 11.79 | CG iter. 53 -- res = 0.85029E+02, tol = 0.57607E+04, time = 12.22 | CG iter. 54 -- res = 0.82296E+02, tol = 0.57607E+04, time = 12.66 | CG iter. 55 -- res = 0.74924E+02, tol = 0.57607E+04, time = 12.01 | CG iter. 56 -- res = 0.67199E+02, tol = 0.57607E+04, time = 13.60 | CG iter. 57 -- res = 0.61955E+02, tol = 0.57607E+04, time = 11.56 | CG iter. 58 -- res = 0.55878E+02, tol = 0.57607E+04, time = 12.60 | CG iter. 59 -- res = 0.52973E+02, tol = 0.57607E+04, time = 12.12 | CG iter. 60 -- res = 0.51572E+02, tol = 0.57607E+04, time = 12.28 | Final CG iter 61 -- res = 0.51572E+02, tol = 0.57607E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.899 ( -229.889 -2231.171 2513.670 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10770203.917 | Old band monopole 10923182.046 | Change to band monopole -152978.129 | Change to component monopole 152977.471 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.320 2.731 | New value 1.666 | Old value 2.320 | Difference -0.654 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.377 ( 6.965 12.515 -12.227 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.845 5.314 | New value -4.343 | Old value 4.845 | Difference -9.188 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.37854E+05, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.26976E+02, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.87437E+00, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.20633E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.79574E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10770157.592 | (Sampled value in CG: 10747278.729 ) | Chain = 1 -- chisq = 0.81519200E+09 | Chain = 1 -- wall time = 5749.199 sec Available RAM: MemAvailable: 382517628 kB Available Swap: SwapFree: 1124362956 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 360 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444371 | --> Sampling calibration, mode = relcal | relcal = 1.3424606E-02 7.4679777E-04 -1.5888519E-03 -1.2582552E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1551303 0.1707248 9404244.35006608 | BP delta = 0.1551303 0.1755036 9404268.39352478 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632478 | --> Sampling calibration, mode = relcal | relcal = -2.8214790E-03 -7.0354866E-04 1.6781813E-03 1.6135327E-03 -4.0837596E-04 6.4168964E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5814436 15222633.2986052 | BP delta = 0.0000000E+00 -0.5905456 15222636.2803991 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18114891816151 | --> Sampling calibration, mode = relcal | relcal = -7.4973479E-02 -5.8381863E-02 9.1740817E-02 4.1614525E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7602599E-04 4.7827330E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0890E-05 | 2: delta_r/delta_0: 8.5620E-07 | 3: delta_s/delta_0: 2.2113E-07 | 4: delta_r/delta_0: 2.1273E-08 | 5: delta_s/delta_0: 2.5628E-08 | 6: delta_r/delta_0: 1.1318E-09 | 7: delta_s/delta_0: 4.6770E-10 | 8: delta_r/delta_0: 1.2318E-10 | 9: delta_s/delta_0: 4.4985E-09 | 10: delta_r/delta_0: 9.4242E-10 | 11: delta_s/delta_0: 2.2613E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.535032491985891E-003 2.740732070887214E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0890E-05 | 2: delta_r/delta_0: 8.5621E-07 | 3: delta_s/delta_0: 2.2113E-07 | 4: delta_r/delta_0: 2.1273E-08 | 5: delta_s/delta_0: 2.5628E-08 | 6: delta_r/delta_0: 1.1318E-09 | 7: delta_s/delta_0: 4.6770E-10 | 8: delta_r/delta_0: 1.2318E-10 | 9: delta_s/delta_0: 4.4986E-09 | 10: delta_r/delta_0: 9.4244E-10 | 11: delta_s/delta_0: 2.2613E-11 | Reached bicg-stab tolerance | BP delta = 8.6583376E-02 0.1091421 3542404.42603084 | BP delta = 8.6583376E-02 0.1091227 3542503.79699419 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02608581 | --> Sampling calibration, mode = relcal | relcal = -0.1066305 -9.5593959E-02 0.1449766 5.7247933E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6919406E-03 1.1843487E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2520E-05 | 2: delta_r/delta_0: 1.2307E-06 | 3: delta_s/delta_0: 2.4220E-07 | 4: delta_r/delta_0: 4.5777E-08 | 5: delta_s/delta_0: 1.7980E-08 | 6: delta_r/delta_0: 6.4429E-09 | 7: delta_s/delta_0: 5.9838E-09 | 8: delta_r/delta_0: 1.3161E-09 | 9: delta_s/delta_0: 2.6125E-08 | 10: delta_r/delta_0: 3.7811E-09 | 11: delta_s/delta_0: 1.5344E-10 | 12: delta_r/delta_0: 5.4352E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.722909807201748E-003 2.810579234599797E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2520E-05 | 2: delta_r/delta_0: 1.2306E-06 | 3: delta_s/delta_0: 2.4218E-07 | 4: delta_r/delta_0: 4.5738E-08 | 5: delta_s/delta_0: 1.7991E-08 | 6: delta_r/delta_0: 6.4401E-09 | 7: delta_s/delta_0: 5.9815E-09 | 8: delta_r/delta_0: 1.3157E-09 | 9: delta_s/delta_0: 2.5408E-08 | 10: delta_r/delta_0: 3.6470E-09 | 11: delta_s/delta_0: 1.5340E-10 | 12: delta_r/delta_0: 5.4168E-11 | Reached bicg-stab tolerance | BP delta = -0.2698021 -0.2410574 2841255.85575292 | BP delta = -0.2698021 -0.2434610 2841313.98491654 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81235344 | --> Sampling calibration, mode = relcal | relcal = 0.2955005 0.2249249 -0.2838373 -0.2365882 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1747987E-03 5.4940875E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2835E-03 | 2: delta_r/delta_0: 5.2758E-05 | 3: delta_s/delta_0: 1.1692E-05 | 4: delta_r/delta_0: 1.1182E-06 | 5: delta_s/delta_0: 9.0586E-07 | 6: delta_r/delta_0: 5.3974E-08 | 7: delta_s/delta_0: 4.0660E-08 | 8: delta_r/delta_0: 1.8189E-08 | 9: delta_s/delta_0: 4.6506E-05 | 10: delta_r/delta_0: 1.3239E-06 | 11: delta_s/delta_0: 9.4567E-10 | 12: delta_r/delta_0: 4.6132E-10 | 13: delta_s/delta_0: 2.7048E-10 | 14: delta_r/delta_0: 1.4611E-10 | 15: delta_s/delta_0: 1.2756E-10 | 16: delta_r/delta_0: 6.0326E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.613541446884553E-002 4.021172753441184E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2816E-03 | 2: delta_r/delta_0: 5.2712E-05 | 3: delta_s/delta_0: 1.1690E-05 | 4: delta_r/delta_0: 1.1183E-06 | 5: delta_s/delta_0: 9.0475E-07 | 6: delta_r/delta_0: 5.3925E-08 | 7: delta_s/delta_0: 4.0676E-08 | 8: delta_r/delta_0: 1.8200E-08 | 9: delta_s/delta_0: 4.4444E-05 | 10: delta_r/delta_0: 1.2615E-06 | 11: delta_s/delta_0: 9.4378E-10 | 12: delta_r/delta_0: 4.6068E-10 | 13: delta_s/delta_0: 2.7138E-10 | 14: delta_r/delta_0: 1.4571E-10 | 15: delta_s/delta_0: 1.2612E-10 | 16: delta_r/delta_0: 5.9637E-11 | Reached bicg-stab tolerance | BP delta = -0.1251906 -0.1676420 2827437.59874419 | BP delta = -0.1251906 -0.1533655 2827513.45058311 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95920867 | --> Sampling calibration, mode = relcal | relcal = 0.1065312 0.1395083 -0.1102791 -0.1357604 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0554803E-02 1.4004622E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1781E-02 | 2: delta_r/delta_0: 2.8169E-04 | 3: delta_s/delta_0: 6.3259E-05 | 4: delta_r/delta_0: 2.3287E-06 | 5: delta_s/delta_0: 8.8457E-07 | 6: delta_r/delta_0: 3.9633E-07 | 7: delta_s/delta_0: 1.5016E-07 | 8: delta_r/delta_0: 8.6839E-08 | 9: delta_s/delta_0: 1.2205E-07 | 10: delta_r/delta_0: 9.8873E-09 | 11: delta_s/delta_0: 3.1503E-09 | 12: delta_r/delta_0: 1.8456E-09 | 13: delta_s/delta_0: 3.6135E-10 | 14: delta_r/delta_0: 2.8987E-10 | 15: delta_s/delta_0: 1.0333E-10 | 16: delta_r/delta_0: 7.9420E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.470855264371864E-002 3.696971884020531E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1757E-02 | 2: delta_r/delta_0: 2.8114E-04 | 3: delta_s/delta_0: 6.3207E-05 | 4: delta_r/delta_0: 2.3287E-06 | 5: delta_s/delta_0: 8.8427E-07 | 6: delta_r/delta_0: 3.9622E-07 | 7: delta_s/delta_0: 1.5020E-07 | 8: delta_r/delta_0: 8.6824E-08 | 9: delta_s/delta_0: 1.2191E-07 | 10: delta_r/delta_0: 9.8803E-09 | 11: delta_s/delta_0: 3.1419E-09 | 12: delta_r/delta_0: 1.8429E-09 | 13: delta_s/delta_0: 3.6294E-10 | 14: delta_r/delta_0: 2.9060E-10 | 15: delta_s/delta_0: 1.0308E-10 | 16: delta_r/delta_0: 7.9842E-11 | Reached bicg-stab tolerance | BP delta = 0.1571797 0.2574637 3004362.67034530 | BP delta = 0.1571797 0.2479344 3004498.83593596 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159999 | New value = -3.109555 | poltype: 2 pol: 1 CPU time specind = 1.6013145E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.026212 | New value = -3.084697 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182915 | New value = -3.158186 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200183 | New value = -3.150330 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.167351 | New value = -3.074014 | poltype: 2 pol: 2 CPU time specind = 4.5180321E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.13589E+08, tol = 0.66872E+01, time = 5.79 | CG iter. 2 -- res = 0.32822E+06, tol = 0.66872E+01, time = 6.09 | CG iter. 3 -- res = 0.65744E+05, tol = 0.66872E+01, time = 5.67 | CG iter. 4 -- res = 0.52327E+05, tol = 0.66872E+01, time = 5.52 | CG iter. 5 -- res = 0.47293E+05, tol = 0.66872E+01, time = 5.99 | CG iter. 6 -- res = 0.44200E+05, tol = 0.66872E+01, time = 5.76 | CG iter. 7 -- res = 0.40922E+05, tol = 0.66872E+01, time = 5.69 | CG iter. 8 -- res = 0.31697E+05, tol = 0.66872E+01, time = 5.94 | CG iter. 9 -- res = 0.26483E+05, tol = 0.66872E+01, time = 5.65 | CG iter. 10 -- res = 0.21422E+05, tol = 0.66872E+01, time = 5.52 | CG iter. 11 -- res = 0.14333E+05, tol = 0.66872E+01, time = 5.65 | CG iter. 12 -- res = 0.99435E+04, tol = 0.66872E+01, time = 6.03 | CG iter. 13 -- res = 0.83554E+04, tol = 0.66872E+01, time = 5.72 | CG iter. 14 -- res = 0.70387E+04, tol = 0.66872E+01, time = 6.81 | CG iter. 15 -- res = 0.57074E+04, tol = 0.66872E+01, time = 6.10 | CG iter. 16 -- res = 0.39590E+04, tol = 0.66872E+01, time = 6.13 | CG iter. 17 -- res = 0.27452E+04, tol = 0.66872E+01, time = 5.92 | CG iter. 18 -- res = 0.21498E+04, tol = 0.66872E+01, time = 5.56 | CG iter. 19 -- res = 0.18164E+04, tol = 0.66872E+01, time = 5.87 | CG iter. 20 -- res = 0.13775E+04, tol = 0.66872E+01, time = 5.59 | CG iter. 21 -- res = 0.99559E+03, tol = 0.66872E+01, time = 5.57 | CG iter. 22 -- res = 0.80729E+03, tol = 0.66872E+01, time = 5.75 | CG iter. 23 -- res = 0.71067E+03, tol = 0.66872E+01, time = 5.73 | CG iter. 24 -- res = 0.56306E+03, tol = 0.66872E+01, time = 5.74 | CG iter. 25 -- res = 0.40346E+03, tol = 0.66872E+01, time = 5.87 | CG iter. 26 -- res = 0.31551E+03, tol = 0.66872E+01, time = 5.57 | CG iter. 27 -- res = 0.27597E+03, tol = 0.66872E+01, time = 5.78 | CG iter. 28 -- res = 0.24114E+03, tol = 0.66872E+01, time = 5.82 | CG iter. 29 -- res = 0.17905E+03, tol = 0.66872E+01, time = 5.55 | CG iter. 30 -- res = 0.13531E+03, tol = 0.66872E+01, time = 5.64 | CG iter. 31 -- res = 0.12026E+03, tol = 0.66872E+01, time = 5.62 | CG iter. 32 -- res = 0.99330E+02, tol = 0.66872E+01, time = 6.08 | CG iter. 33 -- res = 0.77428E+02, tol = 0.66872E+01, time = 6.09 | CG iter. 34 -- res = 0.57996E+02, tol = 0.66872E+01, time = 6.19 | CG iter. 35 -- res = 0.48310E+02, tol = 0.66872E+01, time = 5.93 | CG iter. 36 -- res = 0.41370E+02, tol = 0.66872E+01, time = 5.74 | CG iter. 37 -- res = 0.33148E+02, tol = 0.66872E+01, time = 5.52 | CG iter. 38 -- res = 0.24693E+02, tol = 0.66872E+01, time = 5.73 | CG iter. 39 -- res = 0.19396E+02, tol = 0.66872E+01, time = 5.98 | CG iter. 40 -- res = 0.16394E+02, tol = 0.66872E+01, time = 5.64 | CG iter. 41 -- res = 0.13120E+02, tol = 0.66872E+01, time = 5.58 | CG iter. 42 -- res = 0.98785E+01, tol = 0.66872E+01, time = 5.84 | CG iter. 43 -- res = 0.74086E+01, tol = 0.66872E+01, time = 5.56 | CG iter. 44 -- res = 0.59739E+01, tol = 0.66872E+01, time = 5.78 | CG iter. 45 -- res = 0.47530E+01, tol = 0.66872E+01, time = 5.32 | CG iter. 46 -- res = 0.36159E+01, tol = 0.66872E+01, time = 5.91 | CG iter. 47 -- res = 0.27469E+01, tol = 0.66872E+01, time = 5.72 | CG iter. 48 -- res = 0.21700E+01, tol = 0.66872E+01, time = 5.93 | CG iter. 49 -- res = 0.17259E+01, tol = 0.66872E+01, time = 5.54 | CG iter. 50 -- res = 0.13111E+01, tol = 0.66872E+01, time = 12.13 | Final CG iter 51 -- res = 0.13111E+01, tol = 0.66872E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8348642.689 | Old band monopole 10770203.917 | Change to band monopole -2421561.228 | Change to component monopole 2421550.813 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.48528E+06, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.17877E+03, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.34214E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.16320E-01, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.11561E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8348606.780 | (Sampled value in CG: 8398853.287 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.521249 | New value = 1.485573 | poltype: 2 pol: 1 CPU time specind = 1.7125845E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.512632 | New value = 1.505422 | poltype: 2 pol: 2 CPU time specind = 3.4589767E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.24265E+08, tol = 0.47553E+04, time = 6.67 | CG iter. 2 -- res = 0.53514E+07, tol = 0.47553E+04, time = 6.38 | CG iter. 3 -- res = 0.83493E+06, tol = 0.47553E+04, time = 7.27 | CG iter. 4 -- res = 0.34025E+06, tol = 0.47553E+04, time = 6.25 | CG iter. 5 -- res = 0.14305E+06, tol = 0.47553E+04, time = 6.57 | CG iter. 6 -- res = 0.75358E+05, tol = 0.47553E+04, time = 6.79 | CG iter. 7 -- res = 0.41737E+05, tol = 0.47553E+04, time = 6.40 | CG iter. 8 -- res = 0.20338E+05, tol = 0.47553E+04, time = 6.89 | CG iter. 9 -- res = 0.87955E+04, tol = 0.47553E+04, time = 6.66 | CG iter. 10 -- res = 0.35419E+04, tol = 0.47553E+04, time = 6.33 | CG iter. 11 -- res = 0.16238E+04, tol = 0.47553E+04, time = 6.53 | CG iter. 12 -- res = 0.83437E+03, tol = 0.47553E+04, time = 8.29 | CG iter. 13 -- res = 0.47177E+03, tol = 0.47553E+04, time = 6.72 | CG iter. 14 -- res = 0.26442E+03, tol = 0.47553E+04, time = 6.76 | CG iter. 15 -- res = 0.13789E+03, tol = 0.47553E+04, time = 6.52 | CG iter. 16 -- res = 0.66039E+02, tol = 0.47553E+04, time = 6.64 | CG iter. 17 -- res = 0.31022E+02, tol = 0.47553E+04, time = 6.90 | CG iter. 18 -- res = 0.15533E+02, tol = 0.47553E+04, time = 6.43 | CG iter. 19 -- res = 0.84293E+01, tol = 0.47553E+04, time = 6.34 | CG iter. 20 -- res = 0.47069E+01, tol = 0.47553E+04, time = 6.26 | CG iter. 21 -- res = 0.25348E+01, tol = 0.47553E+04, time = 6.74 | CG iter. 22 -- res = 0.13032E+01, tol = 0.47553E+04, time = 6.25 | CG iter. 23 -- res = 0.66646E+00, tol = 0.47553E+04, time = 6.81 | CG iter. 24 -- res = 0.34393E+00, tol = 0.47553E+04, time = 6.96 | CG iter. 25 -- res = 0.19607E+00, tol = 0.47553E+04, time = 6.79 | CG iter. 26 -- res = 0.11251E+00, tol = 0.47553E+04, time = 6.26 | CG iter. 27 -- res = 0.62396E-01, tol = 0.47553E+04, time = 13.36 | CG iter. 28 -- res = 0.33410E-01, tol = 0.47553E+04, time = 6.52 | CG iter. 29 -- res = 0.17339E-01, tol = 0.47553E+04, time = 6.41 | CG iter. 30 -- res = 0.91609E-02, tol = 0.47553E+04, time = 6.23 | CG iter. 31 -- res = 0.50459E-02, tol = 0.47553E+04, time = 6.47 | CG iter. 32 -- res = 0.28024E-02, tol = 0.47553E+04, time = 6.73 | CG iter. 33 -- res = 0.15607E-02, tol = 0.47553E+04, time = 6.50 | CG iter. 34 -- res = 0.84581E-03, tol = 0.47553E+04, time = 6.57 | CG iter. 35 -- res = 0.43791E-03, tol = 0.47553E+04, time = 6.38 | Final CG iter 36 -- res = 0.43791E-03, tol = 0.47553E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.653 2.735 | New value 3.004 | Old value 1.653 | Difference 1.351 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.10057E+06, tol = 0.47627E+18, time = 2.23 | CG iter. 2 -- res = 0.43994E+02, tol = 0.47627E+18, time = 2.32 | CG iter. 3 -- res = 0.13523E+01, tol = 0.47627E+18, time = 2.45 | CG iter. 4 -- res = 0.10514E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.17751E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8348606.780 | (Sampled value in CG: 8398646.462 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.520853 | New value = -3.466676 | poltype: 1 pol: 1 CPU time specind = 1.5874147E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.28741E+07, tol = 0.29276E+01, time = 2.74 | CG iter. 2 -- res = 0.10990E+07, tol = 0.29276E+01, time = 2.77 | CG iter. 3 -- res = 0.22579E+06, tol = 0.29276E+01, time = 2.94 | CG iter. 4 -- res = 0.10772E+06, tol = 0.29276E+01, time = 2.77 | CG iter. 5 -- res = 0.63015E+05, tol = 0.29276E+01, time = 2.76 | CG iter. 6 -- res = 0.29817E+05, tol = 0.29276E+01, time = 2.77 | CG iter. 7 -- res = 0.10770E+05, tol = 0.29276E+01, time = 2.59 | CG iter. 8 -- res = 0.47613E+04, tol = 0.29276E+01, time = 2.89 | CG iter. 9 -- res = 0.23215E+04, tol = 0.29276E+01, time = 2.88 | CG iter. 10 -- res = 0.91997E+03, tol = 0.29276E+01, time = 2.88 | CG iter. 11 -- res = 0.36447E+03, tol = 0.29276E+01, time = 2.53 | CG iter. 12 -- res = 0.16704E+03, tol = 0.29276E+01, time = 3.94 | CG iter. 13 -- res = 0.83241E+02, tol = 0.29276E+01, time = 3.19 | CG iter. 14 -- res = 0.44607E+02, tol = 0.29276E+01, time = 3.26 | CG iter. 15 -- res = 0.21732E+02, tol = 0.29276E+01, time = 3.44 | CG iter. 16 -- res = 0.98064E+01, tol = 0.29276E+01, time = 2.81 | CG iter. 17 -- res = 0.42628E+01, tol = 0.29276E+01, time = 2.50 | CG iter. 18 -- res = 0.18988E+01, tol = 0.29276E+01, time = 2.77 | CG iter. 19 -- res = 0.87285E+00, tol = 0.29276E+01, time = 2.73 | CG iter. 20 -- res = 0.42905E+00, tol = 0.29276E+01, time = 2.81 | CG iter. 21 -- res = 0.21921E+00, tol = 0.29276E+01, time = 2.76 | CG iter. 22 -- res = 0.10840E+00, tol = 0.29276E+01, time = 2.76 | CG iter. 23 -- res = 0.49535E-01, tol = 0.29276E+01, time = 2.55 | CG iter. 24 -- res = 0.22642E-01, tol = 0.29276E+01, time = 2.66 | CG iter. 25 -- res = 0.10045E-01, tol = 0.29276E+01, time = 2.54 | CG iter. 26 -- res = 0.48529E-02, tol = 0.29276E+01, time = 2.49 | CG iter. 27 -- res = 0.24465E-02, tol = 0.29276E+01, time = 2.67 | CG iter. 28 -- res = 0.13151E-02, tol = 0.29276E+01, time = 2.84 | CG iter. 29 -- res = 0.60696E-03, tol = 0.29276E+01, time = 2.68 | CG iter. 30 -- res = 0.28446E-03, tol = 0.29276E+01, time = 2.86 | CG iter. 31 -- res = 0.13344E-03, tol = 0.29276E+01, time = 2.53 | CG iter. 32 -- res = 0.61567E-04, tol = 0.29276E+01, time = 2.78 | CG iter. 33 -- res = 0.29850E-04, tol = 0.29276E+01, time = 2.67 | CG iter. 34 -- res = 0.14929E-04, tol = 0.29276E+01, time = 2.88 | CG iter. 35 -- res = 0.74294E-05, tol = 0.29276E+01, time = 2.90 | CG iter. 36 -- res = 0.35596E-05, tol = 0.29276E+01, time = 2.69 | CG iter. 37 -- res = 0.16599E-05, tol = 0.29276E+01, time = 2.62 | CG iter. 38 -- res = 0.77771E-06, tol = 0.29276E+01, time = 2.56 | CG iter. 39 -- res = 0.37844E-06, tol = 0.29276E+01, time = 2.77 | CG iter. 40 -- res = 0.17899E-06, tol = 0.29276E+01, time = 2.38 | CG iter. 41 -- res = 0.93794E-07, tol = 0.29276E+01, time = 3.10 | CG iter. 42 -- res = 0.45939E-07, tol = 0.29276E+01, time = 2.81 | CG iter. 43 -- res = 0.21427E-07, tol = 0.29276E+01, time = 2.80 | CG iter. 44 -- res = 0.99546E-08, tol = 0.29276E+01, time = 3.17 | CG iter. 45 -- res = 0.46226E-08, tol = 0.29276E+01, time = 2.59 | CG iter. 46 -- res = 0.22989E-08, tol = 0.29276E+01, time = 2.87 | CG iter. 47 -- res = 0.11590E-08, tol = 0.29276E+01, time = 2.83 | CG iter. 48 -- res = 0.60084E-09, tol = 0.29276E+01, time = 2.86 | CG iter. 49 -- res = 0.29007E-09, tol = 0.29276E+01, time = 2.68 | CG iter. 50 -- res = 0.12964E-09, tol = 0.29276E+01, time = 3.53 | Final CG iter 51 -- res = 0.12964E-09, tol = 0.29276E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.158 4.399 | New value 9.952 | Old value 0.158 | Difference 9.794 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.93184E+05, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.61711E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.24355E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.79990E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.74976E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8348606.780 | (Sampled value in CG: 8389578.460 ) | CPU time specind = 1197.838 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.69204E+08, tol = 0.57572E+04, time = 12.02 | CG iter. 2 -- res = 0.59215E+08, tol = 0.57572E+04, time = 18.09 | CG iter. 3 -- res = 0.15414E+08, tol = 0.57572E+04, time = 11.57 | CG iter. 4 -- res = 0.64954E+07, tol = 0.57572E+04, time = 12.14 | CG iter. 5 -- res = 0.38634E+07, tol = 0.57572E+04, time = 12.45 | CG iter. 6 -- res = 0.21887E+07, tol = 0.57572E+04, time = 11.66 | CG iter. 7 -- res = 0.13199E+07, tol = 0.57572E+04, time = 11.32 | CG iter. 8 -- res = 0.88747E+06, tol = 0.57572E+04, time = 12.16 | CG iter. 9 -- res = 0.56555E+06, tol = 0.57572E+04, time = 13.67 | CG iter. 10 -- res = 0.34544E+06, tol = 0.57572E+04, time = 12.12 | CG iter. 11 -- res = 0.19558E+06, tol = 0.57572E+04, time = 11.36 | CG iter. 12 -- res = 0.10567E+06, tol = 0.57572E+04, time = 12.19 | CG iter. 13 -- res = 0.61872E+05, tol = 0.57572E+04, time = 11.93 | CG iter. 14 -- res = 0.39685E+05, tol = 0.57572E+04, time = 12.20 | CG iter. 15 -- res = 0.29412E+05, tol = 0.57572E+04, time = 12.14 | CG iter. 16 -- res = 0.24442E+05, tol = 0.57572E+04, time = 11.73 | CG iter. 17 -- res = 0.21231E+05, tol = 0.57572E+04, time = 11.93 | CG iter. 18 -- res = 0.18437E+05, tol = 0.57572E+04, time = 11.95 | CG iter. 19 -- res = 0.15855E+05, tol = 0.57572E+04, time = 12.01 | CG iter. 20 -- res = 0.13988E+05, tol = 0.57572E+04, time = 11.96 | CG iter. 21 -- res = 0.13190E+05, tol = 0.57572E+04, time = 12.01 | CG iter. 22 -- res = 0.13426E+05, tol = 0.57572E+04, time = 11.88 | CG iter. 23 -- res = 0.14287E+05, tol = 0.57572E+04, time = 11.79 | CG iter. 24 -- res = 0.14467E+05, tol = 0.57572E+04, time = 12.22 | CG iter. 25 -- res = 0.13262E+05, tol = 0.57572E+04, time = 11.58 | CG iter. 26 -- res = 0.10863E+05, tol = 0.57572E+04, time = 18.51 | CG iter. 27 -- res = 0.82577E+04, tol = 0.57572E+04, time = 12.26 | CG iter. 28 -- res = 0.62258E+04, tol = 0.57572E+04, time = 12.44 | CG iter. 29 -- res = 0.50485E+04, tol = 0.57572E+04, time = 12.06 | CG iter. 30 -- res = 0.43200E+04, tol = 0.57572E+04, time = 11.98 | CG iter. 31 -- res = 0.38214E+04, tol = 0.57572E+04, time = 11.84 | CG iter. 32 -- res = 0.33497E+04, tol = 0.57572E+04, time = 11.82 | CG iter. 33 -- res = 0.29484E+04, tol = 0.57572E+04, time = 13.81 | CG iter. 34 -- res = 0.26436E+04, tol = 0.57572E+04, time = 12.45 | CG iter. 35 -- res = 0.23052E+04, tol = 0.57572E+04, time = 11.95 | CG iter. 36 -- res = 0.20938E+04, tol = 0.57572E+04, time = 12.61 | CG iter. 37 -- res = 0.20278E+04, tol = 0.57572E+04, time = 11.69 | CG iter. 38 -- res = 0.19916E+04, tol = 0.57572E+04, time = 12.03 | CG iter. 39 -- res = 0.18716E+04, tol = 0.57572E+04, time = 12.10 | CG iter. 40 -- res = 0.16444E+04, tol = 0.57572E+04, time = 12.11 | CG iter. 41 -- res = 0.13653E+04, tol = 0.57572E+04, time = 11.76 | CG iter. 42 -- res = 0.11047E+04, tol = 0.57572E+04, time = 12.40 | CG iter. 43 -- res = 0.93433E+03, tol = 0.57572E+04, time = 11.93 | CG iter. 44 -- res = 0.83510E+03, tol = 0.57572E+04, time = 11.96 | CG iter. 45 -- res = 0.77859E+03, tol = 0.57572E+04, time = 11.98 | CG iter. 46 -- res = 0.72930E+03, tol = 0.57572E+04, time = 12.16 | CG iter. 47 -- res = 0.67754E+03, tol = 0.57572E+04, time = 11.18 | CG iter. 48 -- res = 0.60939E+03, tol = 0.57572E+04, time = 12.14 | CG iter. 49 -- res = 0.55311E+03, tol = 0.57572E+04, time = 12.16 | CG iter. 50 -- res = 0.50930E+03, tol = 0.57572E+04, time = 18.44 | CG iter. 51 -- res = 0.48635E+03, tol = 0.57572E+04, time = 11.86 | CG iter. 52 -- res = 0.46482E+03, tol = 0.57572E+04, time = 11.90 | CG iter. 53 -- res = 0.45187E+03, tol = 0.57572E+04, time = 11.74 | CG iter. 54 -- res = 0.41245E+03, tol = 0.57572E+04, time = 12.04 | CG iter. 55 -- res = 0.35769E+03, tol = 0.57572E+04, time = 11.88 | CG iter. 56 -- res = 0.30743E+03, tol = 0.57572E+04, time = 11.73 | CG iter. 57 -- res = 0.27169E+03, tol = 0.57572E+04, time = 12.13 | CG iter. 58 -- res = 0.24290E+03, tol = 0.57572E+04, time = 13.57 | CG iter. 59 -- res = 0.22607E+03, tol = 0.57572E+04, time = 11.78 | CG iter. 60 -- res = 0.21162E+03, tol = 0.57572E+04, time = 11.89 | Final CG iter 61 -- res = 0.21162E+03, tol = 0.57572E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.716 ( -229.693 -2230.980 2513.510 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9146428.435 | Old band monopole 8348642.689 | Change to band monopole 797785.746 | Change to component monopole -797782.315 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.020 2.753 | New value 3.835 | Old value 3.020 | Difference 0.815 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.357 ( 6.171 12.008 -12.191 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 12.667 4.221 | New value 1.120 | Old value 12.667 | Difference -11.547 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.14612E+06, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.53255E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.22321E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.41193E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.18614E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9146389.095 | (Sampled value in CG: 9121727.070 ) | Chain = 1 -- chisq = 0.81553232E+09 | Chain = 1 -- wall time = 6170.154 sec Available RAM: MemAvailable: 382920612 kB Available Swap: SwapFree: 1125135052 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 361 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443529 | --> Sampling calibration, mode = relcal | relcal = 1.3435148E-02 7.5466640E-04 -1.6110473E-03 -1.2578767E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1551303 0.1707248 97043715.4474741 | BP delta = 0.1541889 0.1697834 97043716.0964354 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632523 | --> Sampling calibration, mode = relcal | relcal = -2.8209882E-03 -7.0388423E-04 1.6784585E-03 1.6134455E-03 -4.0735517E-04 6.4032362E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5814436 15219745.0194226 | BP delta = 0.0000000E+00 -0.5877137 15219744.1724398 | BP chisq diff = -0.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102818 | --> Sampling calibration, mode = relcal | relcal = 3.7083246E-02 1.3718264E-02 5.7489253E-03 -7.1640443E-03 8.2353065E-03 2.3931914E-03 -7.5954068E-03 -7.1761264E-03 -1.5305337E-02 -1.4797045E-02 -3.0463359E-03 -1.2094638E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.195416 132205875.249998 | BP delta = 0.0000000E+00 -1.203393 132205878.884622 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18134042795911 | --> Sampling calibration, mode = relcal | relcal = -7.4923120E-02 -5.8419328E-02 9.1763362E-02 4.1579083E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3702776E-04 4.8388140E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1028E-05 | 2: delta_r/delta_0: 8.2701E-07 | 3: delta_s/delta_0: 1.9970E-07 | 4: delta_r/delta_0: 1.1704E-08 | 5: delta_s/delta_0: 1.3720E-08 | 6: delta_r/delta_0: 1.0813E-09 | 7: delta_s/delta_0: 3.3816E-10 | 8: delta_r/delta_0: 1.3605E-10 | 9: delta_s/delta_0: 1.9459E-08 | 10: delta_r/delta_0: 4.7354E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.450197093408953E-003 2.740299705907273E-005 | BP delta = 8.6583376E-02 0.1091421 50487434.8134428 | BP delta = 8.7126978E-02 0.1096857 50487434.9095313 | BP chisq diff = 0.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02604385 | --> Sampling calibration, mode = relcal | relcal = -0.1067032 -9.5510647E-02 0.1449581 5.7255771E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1788920E-03 1.4585974E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0450E-05 | 2: delta_r/delta_0: 1.2031E-06 | 3: delta_s/delta_0: 2.4783E-07 | 4: delta_r/delta_0: 4.1999E-08 | 5: delta_s/delta_0: 1.9627E-08 | 6: delta_r/delta_0: 6.3405E-09 | 7: delta_s/delta_0: 9.9258E-09 | 8: delta_r/delta_0: 1.1127E-09 | 9: delta_s/delta_0: 9.6306E-10 | 10: delta_r/delta_0: 2.1648E-10 | 11: delta_s/delta_0: 1.9553E-09 | 12: delta_r/delta_0: 2.1024E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.563644064721077E-003 2.810699812235121E-005 | BP delta = -0.2698021 -0.2410574 57388972.6195870 | BP delta = -0.2540624 -0.2253176 57388971.4932451 | BP chisq diff = -1.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81239478 | --> Sampling calibration, mode = relcal | relcal = 0.2955312 0.2248344 -0.2838567 -0.2365089 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4281124E-05 4.8762509E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0403E-02 | 2: delta_r/delta_0: 2.4326E-04 | 3: delta_s/delta_0: 4.3195E-05 | 4: delta_r/delta_0: 3.9882E-06 | 5: delta_s/delta_0: 2.4558E-05 | 6: delta_r/delta_0: 2.4535E-06 | 7: delta_s/delta_0: 1.4490E-07 | 8: delta_r/delta_0: 1.1309E-08 | 9: delta_s/delta_0: 6.9994E-09 | 10: delta_r/delta_0: 3.0752E-09 | 11: delta_s/delta_0: 6.6463E-09 | 12: delta_r/delta_0: 9.5811E-10 | 13: delta_s/delta_0: 3.4441E-10 | 14: delta_r/delta_0: 1.9035E-10 | 15: delta_s/delta_0: 3.2955E-10 | 16: delta_r/delta_0: 1.2629E-10 | 17: delta_s/delta_0: 1.2627E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.711817184192128E-003 4.020828190537636E-005 | BP delta = -0.1251906 -0.1676420 72482044.1388630 | BP delta = -9.2909500E-02 -0.1353609 72482045.6628223 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95928368 | --> Sampling calibration, mode = relcal | relcal = 0.1065335 0.1396119 -0.1102597 -0.1358858 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8400785E-03 1.2977690E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0475E-03 | 2: delta_r/delta_0: 4.9327E-05 | 3: delta_s/delta_0: 7.3388E-05 | 4: delta_r/delta_0: 3.9386E-06 | 5: delta_s/delta_0: 5.8096E-07 | 6: delta_r/delta_0: 2.0564E-07 | 7: delta_s/delta_0: 2.6172E-07 | 8: delta_r/delta_0: 4.9532E-08 | 9: delta_s/delta_0: 5.1767E-08 | 10: delta_r/delta_0: 4.2912E-09 | 11: delta_s/delta_0: 2.6907E-09 | 12: delta_r/delta_0: 1.1088E-09 | 13: delta_s/delta_0: 1.9619E-09 | 14: delta_r/delta_0: 2.8370E-10 | 15: delta_s/delta_0: 6.9340E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.819458232293909E-002 3.696753278372994E-005 | BP delta = 0.1571797 0.2574637 72774209.4855019 | BP delta = 0.1110234 0.2113075 72774207.1198540 | BP chisq diff = -2.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52162797 | --> Sampling calibration, mode = relcal | relcal = -5.1063944E-02 -3.6812115E-03 2.7246667E-02 2.7498487E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0031062E-04 2.6407838E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7068E-05 | 2: delta_r/delta_0: 4.6189E-06 | 3: delta_s/delta_0: 1.2611E-05 | 4: delta_r/delta_0: 9.1815E-07 | 5: delta_s/delta_0: 5.5308E-08 | 6: delta_r/delta_0: 2.6979E-08 | 7: delta_s/delta_0: 5.7052E-08 | 8: delta_r/delta_0: 8.7306E-09 | 9: delta_s/delta_0: 2.9202E-09 | 10: delta_r/delta_0: 1.2556E-09 | 11: delta_s/delta_0: 2.3824E-09 | 12: delta_r/delta_0: 1.1567E-09 | 13: delta_s/delta_0: 3.8947E-10 | 14: delta_r/delta_0: 1.1825E-10 | 15: delta_s/delta_0: 1.6222E-10 | 16: delta_r/delta_0: 4.2646E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.222534510669380E-002 5.482671077763017E-005 | BP delta = 4.4440426E-02 0.1359132 91248056.5070016 | BP delta = 7.6412298E-02 0.1678850 91248056.1840096 | BP chisq diff = -0.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42157443 | --> Sampling calibration, mode = relcal | relcal = 4.5691673E-02 3.9623588E-02 -2.8296925E-02 -5.7018336E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9642507E-03 4.5714835E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2565E-05 | 2: delta_r/delta_0: 3.8474E-06 | 3: delta_s/delta_0: 2.6396E-05 | 4: delta_r/delta_0: 3.2406E-06 | 5: delta_s/delta_0: 5.9056E-08 | 6: delta_r/delta_0: 3.7833E-08 | 7: delta_s/delta_0: 4.3741E-08 | 8: delta_r/delta_0: 1.2790E-08 | 9: delta_s/delta_0: 5.4575E-09 | 10: delta_r/delta_0: 3.3430E-10 | 11: delta_s/delta_0: 4.2813E-10 | 12: delta_r/delta_0: 2.5499E-10 | 13: delta_s/delta_0: 1.1184E-09 | 14: delta_r/delta_0: 1.8427E-10 | 15: delta_s/delta_0: 1.8706E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.518654228504507E-002 4.995926513242493E-005 | BP delta = 7.7764355E-02 -3.7934862E-02 90180520.8925641 | BP delta = 8.5906379E-02 -2.9792836E-02 90180520.8100751 | BP chisq diff = -0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28162198 | --> Sampling calibration, mode = relcal | relcal = 2.4167327E-02 4.5150649E-02 -2.3375861E-02 -4.5942113E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2358108E-02 4.8784758E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0971E-04 | 2: delta_r/delta_0: 8.8354E-06 | 3: delta_s/delta_0: 1.4970E-06 | 4: delta_r/delta_0: 2.4633E-07 | 5: delta_s/delta_0: 9.6590E-08 | 6: delta_r/delta_0: 2.1182E-08 | 7: delta_s/delta_0: 9.7710E-09 | 8: delta_r/delta_0: 5.8790E-09 | 9: delta_s/delta_0: 4.9423E-08 | 10: delta_r/delta_0: 4.8274E-09 | 11: delta_s/delta_0: 1.3785E-09 | 12: delta_r/delta_0: 4.0640E-10 | 13: delta_s/delta_0: 4.1836E-10 | 14: delta_r/delta_0: 2.3305E-10 | 15: delta_s/delta_0: 5.8947E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.758551124507129E-003 7.843553712438992E-005 | BP delta = -0.3878396 -0.5948090 160951357.869917 | BP delta = -0.4091506 -0.6161200 160951357.549571 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29392781 | --> Sampling calibration, mode = relcal | relcal = 5.1328703E-04 1.0313463E-02 -3.7119647E-03 -7.1147857E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3426415E-02 1.6194273E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3057E-04 | 2: delta_r/delta_0: 1.1146E-05 | 3: delta_s/delta_0: 1.8545E-06 | 4: delta_r/delta_0: 2.8225E-07 | 5: delta_s/delta_0: 1.2165E-07 | 6: delta_r/delta_0: 2.4880E-08 | 7: delta_s/delta_0: 1.1170E-08 | 8: delta_r/delta_0: 7.4927E-09 | 9: delta_s/delta_0: 8.2920E-09 | 10: delta_r/delta_0: 5.0781E-09 | 11: delta_s/delta_0: 5.9615E-07 | 12: delta_r/delta_0: 1.7448E-07 | 13: delta_s/delta_0: 6.5424E-10 | 14: delta_r/delta_0: 2.3870E-10 | 15: delta_s/delta_0: 4.8703E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.034137352532723E-002 8.306406433422770E-005 | BP delta = -0.8320770 -0.7874534 157879566.607081 | BP delta = -0.8695599 -0.8249362 157879566.247442 | BP chisq diff = -0.4, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26513264 | --> Sampling calibration, mode = relcal | relcal = -5.6684539E-03 1.5069519E-02 -2.2976359E-03 -7.1034301E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2808919E-04 4.2875390E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4047E-04 | 2: delta_r/delta_0: 1.1988E-05 | 3: delta_s/delta_0: 2.0691E-06 | 4: delta_r/delta_0: 2.3730E-07 | 5: delta_s/delta_0: 1.0269E-07 | 6: delta_r/delta_0: 2.0504E-08 | 7: delta_s/delta_0: 8.6878E-09 | 8: delta_r/delta_0: 5.5711E-09 | 9: delta_s/delta_0: 5.4231E-09 | 10: delta_r/delta_0: 3.8702E-09 | 11: delta_s/delta_0: 1.0176E-06 | 12: delta_r/delta_0: 6.4572E-08 | 13: delta_s/delta_0: 1.3692E-09 | 14: delta_r/delta_0: 3.9111E-10 | 15: delta_s/delta_0: 5.1144E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.354468824669649E-003 9.151731848229437E-005 | BP delta = 0.3693248 0.3787080 157022879.300325 | BP delta = 0.4244503 0.4338336 157022879.528999 | BP chisq diff = 0.2, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25660145 | --> Sampling calibration, mode = relcal | relcal = -3.1541903E-02 -2.5988685E-02 3.6872871E-02 2.0657718E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1470696E-02 1.7748514E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4356E-04 | 2: delta_r/delta_0: 1.2182E-05 | 3: delta_s/delta_0: 2.0152E-06 | 4: delta_r/delta_0: 3.6653E-07 | 5: delta_s/delta_0: 1.3869E-07 | 6: delta_r/delta_0: 2.9207E-08 | 7: delta_s/delta_0: 1.3707E-08 | 8: delta_r/delta_0: 8.0282E-09 | 9: delta_s/delta_0: 2.9976E-08 | 10: delta_r/delta_0: 5.4724E-09 | 11: delta_s/delta_0: 4.5907E-09 | 12: delta_r/delta_0: 1.3518E-09 | 13: delta_s/delta_0: 1.3457E-09 | 14: delta_r/delta_0: 8.6294E-10 | 15: delta_s/delta_0: 1.2584E-10 | 16: delta_r/delta_0: 1.0143E-10 | 17: delta_s/delta_0: 8.1456E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.044865096730770E-002 8.672900391743203E-005 | BP delta = -0.8661685 -1.068467 158531548.076772 | BP delta = -0.9082144 -1.110513 158531547.846981 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109555 | New value = -3.275486 | poltype: 2 pol: 1 CPU time specind = 1.6860962E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.084697 | New value = -3.136381 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158186 | New value = -3.222702 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150330 | New value = -3.109912 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.074014 | New value = -3.179326 | poltype: 2 pol: 2 CPU time specind = 1.6484022E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.50 | CG iter. 1 -- res = 0.13599E+08, tol = 0.76528E+01, time = 5.70 | CG iter. 2 -- res = 0.35191E+06, tol = 0.76528E+01, time = 5.60 | CG iter. 3 -- res = 0.80711E+05, tol = 0.76528E+01, time = 5.73 | CG iter. 4 -- res = 0.85383E+05, tol = 0.76528E+01, time = 6.05 | CG iter. 5 -- res = 0.96911E+05, tol = 0.76528E+01, time = 5.70 | CG iter. 6 -- res = 0.94012E+05, tol = 0.76528E+01, time = 5.45 | CG iter. 7 -- res = 0.81588E+05, tol = 0.76528E+01, time = 5.81 | CG iter. 8 -- res = 0.63518E+05, tol = 0.76528E+01, time = 5.94 | CG iter. 9 -- res = 0.55462E+05, tol = 0.76528E+01, time = 5.41 | CG iter. 10 -- res = 0.44231E+05, tol = 0.76528E+01, time = 5.90 | CG iter. 11 -- res = 0.31990E+05, tol = 0.76528E+01, time = 5.48 | CG iter. 12 -- res = 0.25355E+05, tol = 0.76528E+01, time = 5.58 | CG iter. 13 -- res = 0.24174E+05, tol = 0.76528E+01, time = 5.59 | CG iter. 14 -- res = 0.22252E+05, tol = 0.76528E+01, time = 12.34 | CG iter. 15 -- res = 0.17519E+05, tol = 0.76528E+01, time = 5.65 | CG iter. 16 -- res = 0.12529E+05, tol = 0.76528E+01, time = 5.87 | CG iter. 17 -- res = 0.97079E+04, tol = 0.76528E+01, time = 5.73 | CG iter. 18 -- res = 0.88689E+04, tol = 0.76528E+01, time = 5.67 | CG iter. 19 -- res = 0.78602E+04, tol = 0.76528E+01, time = 5.67 | CG iter. 20 -- res = 0.62326E+04, tol = 0.76528E+01, time = 5.88 | CG iter. 21 -- res = 0.50030E+04, tol = 0.76528E+01, time = 5.83 | CG iter. 22 -- res = 0.43907E+04, tol = 0.76528E+01, time = 5.70 | CG iter. 23 -- res = 0.39410E+04, tol = 0.76528E+01, time = 5.62 | CG iter. 24 -- res = 0.32103E+04, tol = 0.76528E+01, time = 5.69 | CG iter. 25 -- res = 0.24555E+04, tol = 0.76528E+01, time = 5.66 | CG iter. 26 -- res = 0.21179E+04, tol = 0.76528E+01, time = 5.59 | CG iter. 27 -- res = 0.19657E+04, tol = 0.76528E+01, time = 5.89 | CG iter. 28 -- res = 0.17145E+04, tol = 0.76528E+01, time = 5.92 | CG iter. 29 -- res = 0.13694E+04, tol = 0.76528E+01, time = 7.15 | CG iter. 30 -- res = 0.11234E+04, tol = 0.76528E+01, time = 5.92 | CG iter. 31 -- res = 0.10402E+04, tol = 0.76528E+01, time = 5.77 | CG iter. 32 -- res = 0.91540E+03, tol = 0.76528E+01, time = 5.68 | CG iter. 33 -- res = 0.73601E+03, tol = 0.76528E+01, time = 5.69 | CG iter. 34 -- res = 0.60073E+03, tol = 0.76528E+01, time = 6.20 | CG iter. 35 -- res = 0.53863E+03, tol = 0.76528E+01, time = 5.70 | CG iter. 36 -- res = 0.49867E+03, tol = 0.76528E+01, time = 5.74 | CG iter. 37 -- res = 0.41537E+03, tol = 0.76528E+01, time = 5.53 | CG iter. 38 -- res = 0.33973E+03, tol = 0.76528E+01, time = 5.72 | CG iter. 39 -- res = 0.30684E+03, tol = 0.76528E+01, time = 5.76 | CG iter. 40 -- res = 0.28430E+03, tol = 0.76528E+01, time = 5.74 | CG iter. 41 -- res = 0.24935E+03, tol = 0.76528E+01, time = 5.79 | CG iter. 42 -- res = 0.20309E+03, tol = 0.76528E+01, time = 5.83 | CG iter. 43 -- res = 0.17984E+03, tol = 0.76528E+01, time = 5.90 | CG iter. 44 -- res = 0.16279E+03, tol = 0.76528E+01, time = 5.80 | CG iter. 45 -- res = 0.14139E+03, tol = 0.76528E+01, time = 5.70 | CG iter. 46 -- res = 0.11802E+03, tol = 0.76528E+01, time = 5.81 | CG iter. 47 -- res = 0.10223E+03, tol = 0.76528E+01, time = 5.55 | CG iter. 48 -- res = 0.90734E+02, tol = 0.76528E+01, time = 5.58 | CG iter. 49 -- res = 0.80693E+02, tol = 0.76528E+01, time = 5.97 | CG iter. 50 -- res = 0.67048E+02, tol = 0.76528E+01, time = 5.83 | Final CG iter 51 -- res = 0.67048E+02, tol = 0.76528E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7870838.883 | Old band monopole 9146428.435 | Change to band monopole -1275589.552 | Change to component monopole 1275584.065 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.40 | CG iter. 1 -- res = 0.93900E+06, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.34388E+03, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.50398E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.38813E-01, tol = 0.47627E+18, time = 2.25 | Final CG iter 5 -- res = 0.21192E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7870805.029 | (Sampled value in CG: 7790837.830 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485573 | New value = 1.496804 | poltype: 2 pol: 1 CPU time specind = 2.4001122E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505422 | New value = 1.530691 | poltype: 2 pol: 2 CPU time specind = 1.9376993E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.24043E+08, tol = 0.47613E+04, time = 6.64 | CG iter. 2 -- res = 0.54237E+07, tol = 0.47613E+04, time = 6.76 | CG iter. 3 -- res = 0.85358E+06, tol = 0.47613E+04, time = 6.47 | CG iter. 4 -- res = 0.34285E+06, tol = 0.47613E+04, time = 6.60 | CG iter. 5 -- res = 0.14921E+06, tol = 0.47613E+04, time = 6.62 | CG iter. 6 -- res = 0.79820E+05, tol = 0.47613E+04, time = 6.47 | CG iter. 7 -- res = 0.43085E+05, tol = 0.47613E+04, time = 6.95 | CG iter. 8 -- res = 0.21107E+05, tol = 0.47613E+04, time = 7.30 | CG iter. 9 -- res = 0.91700E+04, tol = 0.47613E+04, time = 7.47 | CG iter. 10 -- res = 0.36810E+04, tol = 0.47613E+04, time = 6.82 | CG iter. 11 -- res = 0.16996E+04, tol = 0.47613E+04, time = 6.89 | CG iter. 12 -- res = 0.89137E+03, tol = 0.47613E+04, time = 6.38 | CG iter. 13 -- res = 0.49556E+03, tol = 0.47613E+04, time = 6.82 | CG iter. 14 -- res = 0.27686E+03, tol = 0.47613E+04, time = 6.59 | CG iter. 15 -- res = 0.14289E+03, tol = 0.47613E+04, time = 6.81 | CG iter. 16 -- res = 0.68052E+02, tol = 0.47613E+04, time = 6.70 | CG iter. 17 -- res = 0.31536E+02, tol = 0.47613E+04, time = 6.22 | CG iter. 18 -- res = 0.15819E+02, tol = 0.47613E+04, time = 6.60 | CG iter. 19 -- res = 0.89664E+01, tol = 0.47613E+04, time = 6.29 | CG iter. 20 -- res = 0.51120E+01, tol = 0.47613E+04, time = 6.51 | CG iter. 21 -- res = 0.27555E+01, tol = 0.47613E+04, time = 6.51 | CG iter. 22 -- res = 0.13821E+01, tol = 0.47613E+04, time = 6.61 | CG iter. 23 -- res = 0.68388E+00, tol = 0.47613E+04, time = 6.99 | CG iter. 24 -- res = 0.35771E+00, tol = 0.47613E+04, time = 6.37 | CG iter. 25 -- res = 0.20037E+00, tol = 0.47613E+04, time = 7.02 | CG iter. 26 -- res = 0.11601E+00, tol = 0.47613E+04, time = 7.01 | CG iter. 27 -- res = 0.65860E-01, tol = 0.47613E+04, time = 6.27 | CG iter. 28 -- res = 0.35416E-01, tol = 0.47613E+04, time = 6.42 | CG iter. 29 -- res = 0.18377E-01, tol = 0.47613E+04, time = 6.48 | CG iter. 30 -- res = 0.96322E-02, tol = 0.47613E+04, time = 6.70 | CG iter. 31 -- res = 0.51709E-02, tol = 0.47613E+04, time = 6.48 | CG iter. 32 -- res = 0.29009E-02, tol = 0.47613E+04, time = 6.26 | CG iter. 33 -- res = 0.16425E-02, tol = 0.47613E+04, time = 6.44 | CG iter. 34 -- res = 0.89861E-03, tol = 0.47613E+04, time = 6.43 | CG iter. 35 -- res = 0.47099E-03, tol = 0.47613E+04, time = 6.82 | Final CG iter 36 -- res = 0.47099E-03, tol = 0.47613E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.819 2.742 | New value 2.343 | Old value 3.819 | Difference -1.476 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.12079E+06, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.89357E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.20645E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.21251E-03, tol = 0.47627E+18, time = 1.82 | Final CG iter 5 -- res = 0.29879E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7870805.029 | (Sampled value in CG: 7789076.107 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.466676 | New value = -3.283937 | poltype: 1 pol: 1 CPU time specind = 2.6777983E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.56742E+07, tol = 0.34283E+01, time = 2.73 | CG iter. 2 -- res = 0.37134E+07, tol = 0.34283E+01, time = 2.51 | CG iter. 3 -- res = 0.86344E+06, tol = 0.34283E+01, time = 2.69 | CG iter. 4 -- res = 0.35860E+06, tol = 0.34283E+01, time = 2.41 | CG iter. 5 -- res = 0.21006E+06, tol = 0.34283E+01, time = 2.74 | CG iter. 6 -- res = 0.10311E+06, tol = 0.34283E+01, time = 2.56 | CG iter. 7 -- res = 0.36540E+05, tol = 0.34283E+01, time = 2.82 | CG iter. 8 -- res = 0.15262E+05, tol = 0.34283E+01, time = 2.43 | CG iter. 9 -- res = 0.74645E+04, tol = 0.34283E+01, time = 2.50 | CG iter. 10 -- res = 0.34058E+04, tol = 0.34283E+01, time = 2.63 | CG iter. 11 -- res = 0.12985E+04, tol = 0.34283E+01, time = 2.72 | CG iter. 12 -- res = 0.55708E+03, tol = 0.34283E+01, time = 2.67 | CG iter. 13 -- res = 0.26170E+03, tol = 0.34283E+01, time = 2.78 | CG iter. 14 -- res = 0.12972E+03, tol = 0.34283E+01, time = 2.38 | CG iter. 15 -- res = 0.62479E+02, tol = 0.34283E+01, time = 3.29 | CG iter. 16 -- res = 0.30302E+02, tol = 0.34283E+01, time = 8.85 | CG iter. 17 -- res = 0.13428E+02, tol = 0.34283E+01, time = 2.65 | CG iter. 18 -- res = 0.60226E+01, tol = 0.34283E+01, time = 2.69 | CG iter. 19 -- res = 0.27284E+01, tol = 0.34283E+01, time = 2.81 | CG iter. 20 -- res = 0.13248E+01, tol = 0.34283E+01, time = 2.66 | CG iter. 21 -- res = 0.65779E+00, tol = 0.34283E+01, time = 2.96 | CG iter. 22 -- res = 0.32252E+00, tol = 0.34283E+01, time = 2.65 | CG iter. 23 -- res = 0.15944E+00, tol = 0.34283E+01, time = 2.87 | CG iter. 24 -- res = 0.75013E-01, tol = 0.34283E+01, time = 2.53 | CG iter. 25 -- res = 0.36406E-01, tol = 0.34283E+01, time = 2.93 | CG iter. 26 -- res = 0.16558E-01, tol = 0.34283E+01, time = 2.68 | CG iter. 27 -- res = 0.76939E-02, tol = 0.34283E+01, time = 2.63 | CG iter. 28 -- res = 0.37675E-02, tol = 0.34283E+01, time = 2.75 | CG iter. 29 -- res = 0.17972E-02, tol = 0.34283E+01, time = 2.44 | CG iter. 30 -- res = 0.95415E-03, tol = 0.34283E+01, time = 2.83 | CG iter. 31 -- res = 0.49377E-03, tol = 0.34283E+01, time = 2.73 | CG iter. 32 -- res = 0.22659E-03, tol = 0.34283E+01, time = 2.28 | CG iter. 33 -- res = 0.10507E-03, tol = 0.34283E+01, time = 2.89 | CG iter. 34 -- res = 0.49689E-04, tol = 0.34283E+01, time = 2.66 | CG iter. 35 -- res = 0.24423E-04, tol = 0.34283E+01, time = 3.00 | CG iter. 36 -- res = 0.13279E-04, tol = 0.34283E+01, time = 2.45 | CG iter. 37 -- res = 0.67828E-05, tol = 0.34283E+01, time = 2.45 | CG iter. 38 -- res = 0.33968E-05, tol = 0.34283E+01, time = 2.70 | CG iter. 39 -- res = 0.16237E-05, tol = 0.34283E+01, time = 2.52 | CG iter. 40 -- res = 0.76243E-06, tol = 0.34283E+01, time = 2.50 | CG iter. 41 -- res = 0.37526E-06, tol = 0.34283E+01, time = 2.68 | CG iter. 42 -- res = 0.19608E-06, tol = 0.34283E+01, time = 2.59 | CG iter. 43 -- res = 0.95502E-07, tol = 0.34283E+01, time = 2.65 | CG iter. 44 -- res = 0.49071E-07, tol = 0.34283E+01, time = 2.63 | CG iter. 45 -- res = 0.23604E-07, tol = 0.34283E+01, time = 2.46 | CG iter. 46 -- res = 0.11253E-07, tol = 0.34283E+01, time = 2.60 | CG iter. 47 -- res = 0.53687E-08, tol = 0.34283E+01, time = 3.39 | CG iter. 48 -- res = 0.26216E-08, tol = 0.34283E+01, time = 3.53 | CG iter. 49 -- res = 0.12953E-08, tol = 0.34283E+01, time = 3.24 | CG iter. 50 -- res = 0.63105E-09, tol = 0.34283E+01, time = 2.76 | Final CG iter 51 -- res = 0.63105E-09, tol = 0.34283E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.701 6.305 | New value -0.129 | Old value -9.701 | Difference 9.572 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.10387E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.84963E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.27377E+01, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.12347E-01, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.12560E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7870805.029 | (Sampled value in CG: 7809155.399 ) | CPU time specind = 1185.323 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.68325E+08, tol = 0.57593E+04, time = 11.90 | CG iter. 2 -- res = 0.57763E+08, tol = 0.57593E+04, time = 13.10 | CG iter. 3 -- res = 0.14648E+08, tol = 0.57593E+04, time = 13.27 | CG iter. 4 -- res = 0.62532E+07, tol = 0.57593E+04, time = 11.75 | CG iter. 5 -- res = 0.37029E+07, tol = 0.57593E+04, time = 11.73 | CG iter. 6 -- res = 0.20920E+07, tol = 0.57593E+04, time = 11.68 | CG iter. 7 -- res = 0.12685E+07, tol = 0.57593E+04, time = 11.63 | CG iter. 8 -- res = 0.85898E+06, tol = 0.57593E+04, time = 11.84 | CG iter. 9 -- res = 0.55784E+06, tol = 0.57593E+04, time = 12.38 | CG iter. 10 -- res = 0.33734E+06, tol = 0.57593E+04, time = 18.15 | CG iter. 11 -- res = 0.18919E+06, tol = 0.57593E+04, time = 11.72 | CG iter. 12 -- res = 0.10948E+06, tol = 0.57593E+04, time = 11.82 | CG iter. 13 -- res = 0.71686E+05, tol = 0.57593E+04, time = 11.63 | CG iter. 14 -- res = 0.56873E+05, tol = 0.57593E+04, time = 11.45 | CG iter. 15 -- res = 0.50922E+05, tol = 0.57593E+04, time = 11.80 | CG iter. 16 -- res = 0.49687E+05, tol = 0.57593E+04, time = 11.80 | CG iter. 17 -- res = 0.48644E+05, tol = 0.57593E+04, time = 13.36 | CG iter. 18 -- res = 0.45788E+05, tol = 0.57593E+04, time = 12.42 | CG iter. 19 -- res = 0.42519E+05, tol = 0.57593E+04, time = 11.75 | CG iter. 20 -- res = 0.40255E+05, tol = 0.57593E+04, time = 11.74 | CG iter. 21 -- res = 0.39994E+05, tol = 0.57593E+04, time = 11.55 | CG iter. 22 -- res = 0.40535E+05, tol = 0.57593E+04, time = 11.68 | CG iter. 23 -- res = 0.39017E+05, tol = 0.57593E+04, time = 11.97 | CG iter. 24 -- res = 0.33672E+05, tol = 0.57593E+04, time = 11.65 | CG iter. 25 -- res = 0.26607E+05, tol = 0.57593E+04, time = 11.69 | CG iter. 26 -- res = 0.19293E+05, tol = 0.57593E+04, time = 11.69 | CG iter. 27 -- res = 0.14724E+05, tol = 0.57593E+04, time = 11.35 | CG iter. 28 -- res = 0.12165E+05, tol = 0.57593E+04, time = 11.93 | CG iter. 29 -- res = 0.10621E+05, tol = 0.57593E+04, time = 11.76 | CG iter. 30 -- res = 0.95160E+04, tol = 0.57593E+04, time = 11.49 | CG iter. 31 -- res = 0.88627E+04, tol = 0.57593E+04, time = 11.79 | CG iter. 32 -- res = 0.79231E+04, tol = 0.57593E+04, time = 12.12 | CG iter. 33 -- res = 0.69891E+04, tol = 0.57593E+04, time = 11.45 | CG iter. 34 -- res = 0.60941E+04, tol = 0.57593E+04, time = 11.81 | CG iter. 35 -- res = 0.56293E+04, tol = 0.57593E+04, time = 17.62 | CG iter. 36 -- res = 0.53582E+04, tol = 0.57593E+04, time = 11.57 | CG iter. 37 -- res = 0.50151E+04, tol = 0.57593E+04, time = 12.00 | CG iter. 38 -- res = 0.45454E+04, tol = 0.57593E+04, time = 11.65 | CG iter. 39 -- res = 0.39488E+04, tol = 0.57593E+04, time = 11.35 | CG iter. 40 -- res = 0.32661E+04, tol = 0.57593E+04, time = 11.61 | CG iter. 41 -- res = 0.27019E+04, tol = 0.57593E+04, time = 11.15 | CG iter. 42 -- res = 0.23206E+04, tol = 0.57593E+04, time = 13.86 | CG iter. 43 -- res = 0.21145E+04, tol = 0.57593E+04, time = 12.28 | CG iter. 44 -- res = 0.20444E+04, tol = 0.57593E+04, time = 11.37 | CG iter. 45 -- res = 0.20174E+04, tol = 0.57593E+04, time = 11.57 | CG iter. 46 -- res = 0.18957E+04, tol = 0.57593E+04, time = 11.77 | CG iter. 47 -- res = 0.17236E+04, tol = 0.57593E+04, time = 11.79 | CG iter. 48 -- res = 0.15823E+04, tol = 0.57593E+04, time = 11.64 | CG iter. 49 -- res = 0.14710E+04, tol = 0.57593E+04, time = 11.76 | CG iter. 50 -- res = 0.13448E+04, tol = 0.57593E+04, time = 10.98 | CG iter. 51 -- res = 0.12647E+04, tol = 0.57593E+04, time = 12.62 | CG iter. 52 -- res = 0.11775E+04, tol = 0.57593E+04, time = 11.62 | CG iter. 53 -- res = 0.10645E+04, tol = 0.57593E+04, time = 11.60 | CG iter. 54 -- res = 0.93103E+03, tol = 0.57593E+04, time = 11.74 | CG iter. 55 -- res = 0.82326E+03, tol = 0.57593E+04, time = 11.38 | CG iter. 56 -- res = 0.73123E+03, tol = 0.57593E+04, time = 11.67 | CG iter. 57 -- res = 0.68423E+03, tol = 0.57593E+04, time = 11.98 | CG iter. 58 -- res = 0.66362E+03, tol = 0.57593E+04, time = 12.08 | CG iter. 59 -- res = 0.63402E+03, tol = 0.57593E+04, time = 11.77 | CG iter. 60 -- res = 0.58922E+03, tol = 0.57593E+04, time = 17.92 | Final CG iter 61 -- res = 0.58922E+03, tol = 0.57593E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.099 ( -229.594 -2231.231 2513.803 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 12031405.574 | Old band monopole 7870838.883 | Change to band monopole 4160566.690 | Change to component monopole -4160548.795 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.333 2.737 | New value 1.349 | Old value 2.333 | Difference -0.984 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.806 ( 6.736 13.210 -12.762 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.059 6.322 | New value -2.683 | Old value 7.059 | Difference -9.742 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.22774E+06, tol = 0.47627E+18, time = 1.73 | CG iter. 2 -- res = 0.76168E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.29874E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.55490E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.25898E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12031353.824 | (Sampled value in CG: 12003082.034 ) | Chain = 1 -- chisq = 0.81610906E+09 | Chain = 1 -- wall time = 16685.554 sec Available RAM: MemAvailable: 479476668 kB Available Swap: SwapFree: 1069197004 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 362 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443550 | --> Sampling calibration, mode = relcal | relcal = 1.3422946E-02 7.5001171E-04 -1.5963132E-03 -1.2576645E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1551303 0.1707248 9406844.80959556 | BP delta = 0.1551303 0.1747221 9406851.11651316 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632527 | --> Sampling calibration, mode = relcal | relcal = -2.8213947E-03 -7.0347846E-04 1.6772657E-03 1.6129304E-03 -4.0626273E-04 6.4093975E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5877137 15218989.7058546 | BP delta = 0.0000000E+00 -0.5909203 15218998.6350147 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18418554058890 | --> Sampling calibration, mode = relcal | relcal = -7.5481452E-02 -5.8952145E-02 9.2416830E-02 4.2016763E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.8584254E-05 5.4671140E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5829E-05 | 2: delta_r/delta_0: 1.1707E-06 | 3: delta_s/delta_0: 1.8911E-07 | 4: delta_r/delta_0: 2.3062E-08 | 5: delta_s/delta_0: 6.2086E-09 | 6: delta_r/delta_0: 1.9793E-09 | 7: delta_s/delta_0: 3.7396E-10 | 8: delta_r/delta_0: 1.1275E-10 | 9: delta_s/delta_0: 1.5063E-10 | 10: delta_r/delta_0: 6.2027E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.372475031979411E-003 2.733638157960160E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5830E-05 | 2: delta_r/delta_0: 1.1707E-06 | 3: delta_s/delta_0: 1.8910E-07 | 4: delta_r/delta_0: 2.3057E-08 | 5: delta_s/delta_0: 6.2054E-09 | 6: delta_r/delta_0: 1.9790E-09 | 7: delta_s/delta_0: 3.7394E-10 | 8: delta_r/delta_0: 1.1271E-10 | 9: delta_s/delta_0: 1.5051E-10 | 10: delta_r/delta_0: 6.1978E-11 | Reached bicg-stab tolerance | BP delta = 8.7126978E-02 0.1096857 3492858.62568961 | BP delta = 8.7126978E-02 0.1093014 3496015.72621867 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599769 | --> Sampling calibration, mode = relcal | relcal = -0.1066458 -9.5586516E-02 0.1449654 5.7266936E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0818838E-03 1.4456238E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1236E-05 | 2: delta_r/delta_0: 1.3532E-06 | 3: delta_s/delta_0: 2.4820E-07 | 4: delta_r/delta_0: 4.5469E-08 | 5: delta_s/delta_0: 2.3342E-08 | 6: delta_r/delta_0: 6.8746E-09 | 7: delta_s/delta_0: 6.1356E-09 | 8: delta_r/delta_0: 1.6063E-09 | 9: delta_s/delta_0: 7.8877E-10 | 10: delta_r/delta_0: 5.9012E-10 | 11: delta_s/delta_0: 1.6488E-09 | 12: delta_r/delta_0: 7.0244E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.668505518484400E-003 2.810818862876124E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1236E-05 | 2: delta_r/delta_0: 1.3532E-06 | 3: delta_s/delta_0: 2.4820E-07 | 4: delta_r/delta_0: 4.5471E-08 | 5: delta_s/delta_0: 2.3341E-08 | 6: delta_r/delta_0: 6.8747E-09 | 7: delta_s/delta_0: 6.1355E-09 | 8: delta_r/delta_0: 1.6063E-09 | 9: delta_s/delta_0: 7.8879E-10 | 10: delta_r/delta_0: 5.9014E-10 | 11: delta_s/delta_0: 1.6489E-09 | 12: delta_r/delta_0: 7.0244E-11 | Reached bicg-stab tolerance | BP delta = -0.2540624 -0.2253176 2841584.69472121 | BP delta = -0.2540624 -0.2261683 2841583.18061052 | BP chisq diff = -1.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81237865 | --> Sampling calibration, mode = relcal | relcal = 0.2954152 0.2249283 -0.2838191 -0.2365243 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.7943980E-04 5.0605638E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7069E-03 | 2: delta_r/delta_0: 6.2839E-05 | 3: delta_s/delta_0: 4.8700E-06 | 4: delta_r/delta_0: 6.8313E-07 | 5: delta_s/delta_0: 2.1002E-03 | 6: delta_r/delta_0: 7.6393E-05 | 7: delta_s/delta_0: 5.4997E-08 | 8: delta_r/delta_0: 3.0571E-08 | 9: delta_s/delta_0: 1.4744E-07 | 10: delta_r/delta_0: 5.7096E-09 | 11: delta_s/delta_0: 2.1588E-09 | 12: delta_r/delta_0: 5.3649E-10 | 13: delta_s/delta_0: 2.0304E-10 | 14: delta_r/delta_0: 1.5209E-10 | 15: delta_s/delta_0: 6.4645E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.318530904534091E-002 4.020859485853083E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7014E-03 | 2: delta_r/delta_0: 6.2709E-05 | 3: delta_s/delta_0: 4.8581E-06 | 4: delta_r/delta_0: 6.8484E-07 | 5: delta_s/delta_0: 1.9996E-03 | 6: delta_r/delta_0: 7.3825E-05 | 7: delta_s/delta_0: 5.4968E-08 | 8: delta_r/delta_0: 3.0659E-08 | 9: delta_s/delta_0: 1.5082E-07 | 10: delta_r/delta_0: 5.7049E-09 | 11: delta_s/delta_0: 2.1603E-09 | 12: delta_r/delta_0: 5.3660E-10 | 13: delta_s/delta_0: 2.0311E-10 | 14: delta_r/delta_0: 1.5176E-10 | 15: delta_s/delta_0: 6.4529E-11 | Reached bicg-stab tolerance | BP delta = -0.1251906 -0.1676420 2827187.02505336 | BP delta = -0.1251906 -0.1614422 2827384.16762220 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95930784 | --> Sampling calibration, mode = relcal | relcal = 0.1065661 0.1395413 -0.1102742 -0.1358332 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5218038E-03 1.1923662E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7229E-04 | 2: delta_r/delta_0: 9.2260E-06 | 3: delta_s/delta_0: 7.0229E-06 | 4: delta_r/delta_0: 8.1587E-07 | 5: delta_s/delta_0: 2.7348E-07 | 6: delta_r/delta_0: 1.2917E-07 | 7: delta_s/delta_0: 2.3447E-07 | 8: delta_r/delta_0: 3.3319E-08 | 9: delta_s/delta_0: 2.9729E-04 | 10: delta_r/delta_0: 7.6355E-05 | 11: delta_s/delta_0: 1.8741E-09 | 12: delta_r/delta_0: 8.8928E-10 | 13: delta_s/delta_0: 3.7469E-09 | 14: delta_r/delta_0: 7.2863E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.164022693369563E-002 3.696572922390135E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7246E-04 | 2: delta_r/delta_0: 9.2296E-06 | 3: delta_s/delta_0: 7.0238E-06 | 4: delta_r/delta_0: 8.1579E-07 | 5: delta_s/delta_0: 2.7352E-07 | 6: delta_r/delta_0: 1.2910E-07 | 7: delta_s/delta_0: 2.3317E-07 | 8: delta_r/delta_0: 3.3318E-08 | 9: delta_s/delta_0: 1.7966E-04 | 10: delta_r/delta_0: 4.5793E-05 | 11: delta_s/delta_0: 1.8728E-09 | 12: delta_r/delta_0: 8.8879E-10 | 13: delta_s/delta_0: 3.6682E-09 | 14: delta_r/delta_0: 7.4015E-11 | Reached bicg-stab tolerance | BP delta = 0.1110234 0.2113075 3003725.23571773 | BP delta = 0.1110234 0.2251607 3003975.62003228 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.275486 | New value = -3.172974 | poltype: 2 pol: 1 CPU time specind = 1.5143156E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136381 | New value = -3.193641 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.222702 | New value = -3.204678 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109912 | New value = -3.150596 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179326 | New value = -3.217677 | poltype: 2 pol: 2 CPU time specind = 1.7141819E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.13616E+08, tol = 0.57445E+01, time = 5.92 | CG iter. 2 -- res = 0.33865E+06, tol = 0.57445E+01, time = 5.82 | CG iter. 3 -- res = 0.75155E+05, tol = 0.57445E+01, time = 6.32 | CG iter. 4 -- res = 0.71201E+05, tol = 0.57445E+01, time = 7.15 | CG iter. 5 -- res = 0.75037E+05, tol = 0.57445E+01, time = 6.60 | CG iter. 6 -- res = 0.76824E+05, tol = 0.57445E+01, time = 6.04 | CG iter. 7 -- res = 0.70432E+05, tol = 0.57445E+01, time = 5.92 | CG iter. 8 -- res = 0.53031E+05, tol = 0.57445E+01, time = 6.31 | CG iter. 9 -- res = 0.46196E+05, tol = 0.57445E+01, time = 5.78 | CG iter. 10 -- res = 0.35809E+05, tol = 0.57445E+01, time = 6.10 | CG iter. 11 -- res = 0.26075E+05, tol = 0.57445E+01, time = 5.59 | CG iter. 12 -- res = 0.19555E+05, tol = 0.57445E+01, time = 5.77 | CG iter. 13 -- res = 0.16485E+05, tol = 0.57445E+01, time = 5.65 | CG iter. 14 -- res = 0.14520E+05, tol = 0.57445E+01, time = 6.08 | CG iter. 15 -- res = 0.11944E+05, tol = 0.57445E+01, time = 5.90 | CG iter. 16 -- res = 0.83595E+04, tol = 0.57445E+01, time = 6.07 | CG iter. 17 -- res = 0.62250E+04, tol = 0.57445E+01, time = 5.89 | CG iter. 18 -- res = 0.52379E+04, tol = 0.57445E+01, time = 5.70 | CG iter. 19 -- res = 0.45489E+04, tol = 0.57445E+01, time = 5.94 | CG iter. 20 -- res = 0.36754E+04, tol = 0.57445E+01, time = 5.75 | CG iter. 21 -- res = 0.28381E+04, tol = 0.57445E+01, time = 5.86 | CG iter. 22 -- res = 0.24363E+04, tol = 0.57445E+01, time = 6.07 | CG iter. 23 -- res = 0.21532E+04, tol = 0.57445E+01, time = 5.68 | CG iter. 24 -- res = 0.16859E+04, tol = 0.57445E+01, time = 6.36 | CG iter. 25 -- res = 0.13012E+04, tol = 0.57445E+01, time = 5.62 | CG iter. 26 -- res = 0.10669E+04, tol = 0.57445E+01, time = 5.71 | CG iter. 27 -- res = 0.99706E+03, tol = 0.57445E+01, time = 5.95 | CG iter. 28 -- res = 0.89861E+03, tol = 0.57445E+01, time = 6.44 | CG iter. 29 -- res = 0.69867E+03, tol = 0.57445E+01, time = 6.24 | CG iter. 30 -- res = 0.57217E+03, tol = 0.57445E+01, time = 5.68 | CG iter. 31 -- res = 0.51127E+03, tol = 0.57445E+01, time = 5.80 | CG iter. 32 -- res = 0.45582E+03, tol = 0.57445E+01, time = 6.18 | CG iter. 33 -- res = 0.36475E+03, tol = 0.57445E+01, time = 5.90 | CG iter. 34 -- res = 0.28910E+03, tol = 0.57445E+01, time = 5.86 | CG iter. 35 -- res = 0.24981E+03, tol = 0.57445E+01, time = 6.36 | CG iter. 36 -- res = 0.23321E+03, tol = 0.57445E+01, time = 6.33 | CG iter. 37 -- res = 0.18872E+03, tol = 0.57445E+01, time = 5.94 | CG iter. 38 -- res = 0.14548E+03, tol = 0.57445E+01, time = 5.99 | CG iter. 39 -- res = 0.11530E+03, tol = 0.57445E+01, time = 11.31 | CG iter. 40 -- res = 0.10459E+03, tol = 0.57445E+01, time = 5.95 | CG iter. 41 -- res = 0.88953E+02, tol = 0.57445E+01, time = 6.29 | CG iter. 42 -- res = 0.69826E+02, tol = 0.57445E+01, time = 5.81 | CG iter. 43 -- res = 0.54330E+02, tol = 0.57445E+01, time = 6.04 | CG iter. 44 -- res = 0.45557E+02, tol = 0.57445E+01, time = 5.81 | CG iter. 45 -- res = 0.38041E+02, tol = 0.57445E+01, time = 5.82 | CG iter. 46 -- res = 0.28944E+02, tol = 0.57445E+01, time = 5.76 | CG iter. 47 -- res = 0.22915E+02, tol = 0.57445E+01, time = 5.55 | CG iter. 48 -- res = 0.18649E+02, tol = 0.57445E+01, time = 5.84 | CG iter. 49 -- res = 0.15582E+02, tol = 0.57445E+01, time = 5.80 | CG iter. 50 -- res = 0.12642E+02, tol = 0.57445E+01, time = 5.92 | Final CG iter 51 -- res = 0.12642E+02, tol = 0.57445E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8861976.598 | Old band monopole 12031405.574 | Change to band monopole -3169428.976 | Change to component monopole 3169415.343 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.64266E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.17553E+03, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.35430E+01, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.15111E-01, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.40642E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8861938.481 | (Sampled value in CG: 8912449.485 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496804 | New value = 1.530020 | poltype: 2 pol: 1 CPU time specind = 1.8015862E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.530691 | New value = 1.487015 | poltype: 2 pol: 2 CPU time specind = 1.7910004E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.24245E+08, tol = 0.47648E+04, time = 6.55 | CG iter. 2 -- res = 0.52930E+07, tol = 0.47648E+04, time = 7.67 | CG iter. 3 -- res = 0.83842E+06, tol = 0.47648E+04, time = 6.78 | CG iter. 4 -- res = 0.35789E+06, tol = 0.47648E+04, time = 6.92 | CG iter. 5 -- res = 0.15756E+06, tol = 0.47648E+04, time = 6.87 | CG iter. 6 -- res = 0.82815E+05, tol = 0.47648E+04, time = 6.90 | CG iter. 7 -- res = 0.44466E+05, tol = 0.47648E+04, time = 7.10 | CG iter. 8 -- res = 0.21254E+05, tol = 0.47648E+04, time = 6.53 | CG iter. 9 -- res = 0.92504E+04, tol = 0.47648E+04, time = 7.00 | CG iter. 10 -- res = 0.37762E+04, tol = 0.47648E+04, time = 7.00 | CG iter. 11 -- res = 0.17409E+04, tol = 0.47648E+04, time = 7.24 | CG iter. 12 -- res = 0.90173E+03, tol = 0.47648E+04, time = 6.89 | CG iter. 13 -- res = 0.51018E+03, tol = 0.47648E+04, time = 6.67 | CG iter. 14 -- res = 0.28809E+03, tol = 0.47648E+04, time = 6.79 | CG iter. 15 -- res = 0.14554E+03, tol = 0.47648E+04, time = 6.76 | CG iter. 16 -- res = 0.68499E+02, tol = 0.47648E+04, time = 13.61 | CG iter. 17 -- res = 0.31595E+02, tol = 0.47648E+04, time = 6.52 | CG iter. 18 -- res = 0.15961E+02, tol = 0.47648E+04, time = 6.90 | CG iter. 19 -- res = 0.88893E+01, tol = 0.47648E+04, time = 6.77 | CG iter. 20 -- res = 0.50993E+01, tol = 0.47648E+04, time = 6.85 | CG iter. 21 -- res = 0.27929E+01, tol = 0.47648E+04, time = 6.80 | CG iter. 22 -- res = 0.14329E+01, tol = 0.47648E+04, time = 6.75 | CG iter. 23 -- res = 0.69786E+00, tol = 0.47648E+04, time = 6.58 | CG iter. 24 -- res = 0.35900E+00, tol = 0.47648E+04, time = 6.48 | CG iter. 25 -- res = 0.19664E+00, tol = 0.47648E+04, time = 6.81 | CG iter. 26 -- res = 0.11005E+00, tol = 0.47648E+04, time = 6.78 | CG iter. 27 -- res = 0.61953E-01, tol = 0.47648E+04, time = 6.81 | CG iter. 28 -- res = 0.32845E-01, tol = 0.47648E+04, time = 6.87 | CG iter. 29 -- res = 0.17232E-01, tol = 0.47648E+04, time = 8.44 | CG iter. 30 -- res = 0.92828E-02, tol = 0.47648E+04, time = 7.27 | CG iter. 31 -- res = 0.51138E-02, tol = 0.47648E+04, time = 6.90 | CG iter. 32 -- res = 0.29417E-02, tol = 0.47648E+04, time = 6.63 | CG iter. 33 -- res = 0.16611E-02, tol = 0.47648E+04, time = 6.85 | CG iter. 34 -- res = 0.89940E-03, tol = 0.47648E+04, time = 7.27 | CG iter. 35 -- res = 0.47466E-03, tol = 0.47648E+04, time = 6.71 | Final CG iter 36 -- res = 0.47466E-03, tol = 0.47648E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.385 2.729 | New value 1.643 | Old value 1.385 | Difference 0.258 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.89637E+04, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.30611E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.11071E+01, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.51346E-03, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.78736E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8861938.481 | (Sampled value in CG: 8912582.420 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.283937 | New value = -3.646105 | poltype: 1 pol: 1 CPU time specind = 1.4365911E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.26143E+07, tol = 0.34557E+01, time = 2.83 | CG iter. 2 -- res = 0.12448E+07, tol = 0.34557E+01, time = 2.78 | CG iter. 3 -- res = 0.23327E+06, tol = 0.34557E+01, time = 2.79 | CG iter. 4 -- res = 0.92020E+05, tol = 0.34557E+01, time = 2.98 | CG iter. 5 -- res = 0.58531E+05, tol = 0.34557E+01, time = 2.96 | CG iter. 6 -- res = 0.30759E+05, tol = 0.34557E+01, time = 3.06 | CG iter. 7 -- res = 0.10778E+05, tol = 0.34557E+01, time = 2.92 | CG iter. 8 -- res = 0.44073E+04, tol = 0.34557E+01, time = 2.70 | CG iter. 9 -- res = 0.20262E+04, tol = 0.34557E+01, time = 3.08 | CG iter. 10 -- res = 0.82294E+03, tol = 0.34557E+01, time = 3.32 | CG iter. 11 -- res = 0.35098E+03, tol = 0.34557E+01, time = 2.90 | CG iter. 12 -- res = 0.17598E+03, tol = 0.34557E+01, time = 2.90 | CG iter. 13 -- res = 0.87836E+02, tol = 0.34557E+01, time = 2.87 | CG iter. 14 -- res = 0.43035E+02, tol = 0.34557E+01, time = 2.58 | CG iter. 15 -- res = 0.18787E+02, tol = 0.34557E+01, time = 2.91 | CG iter. 16 -- res = 0.77158E+01, tol = 0.34557E+01, time = 3.32 | CG iter. 17 -- res = 0.32439E+01, tol = 0.34557E+01, time = 2.50 | CG iter. 18 -- res = 0.15106E+01, tol = 0.34557E+01, time = 3.09 | CG iter. 19 -- res = 0.74700E+00, tol = 0.34557E+01, time = 2.87 | CG iter. 20 -- res = 0.37918E+00, tol = 0.34557E+01, time = 2.89 | CG iter. 21 -- res = 0.17707E+00, tol = 0.34557E+01, time = 3.13 | CG iter. 22 -- res = 0.80116E-01, tol = 0.34557E+01, time = 2.78 | CG iter. 23 -- res = 0.34744E-01, tol = 0.34557E+01, time = 2.72 | CG iter. 24 -- res = 0.16570E-01, tol = 0.34557E+01, time = 2.84 | CG iter. 25 -- res = 0.88398E-02, tol = 0.34557E+01, time = 2.94 | CG iter. 26 -- res = 0.47447E-02, tol = 0.34557E+01, time = 2.89 | CG iter. 27 -- res = 0.22903E-02, tol = 0.34557E+01, time = 2.90 | CG iter. 28 -- res = 0.10775E-02, tol = 0.34557E+01, time = 2.74 | CG iter. 29 -- res = 0.46758E-03, tol = 0.34557E+01, time = 2.72 | CG iter. 30 -- res = 0.23679E-03, tol = 0.34557E+01, time = 2.74 | CG iter. 31 -- res = 0.12322E-03, tol = 0.34557E+01, time = 2.49 | CG iter. 32 -- res = 0.61100E-04, tol = 0.34557E+01, time = 2.94 | CG iter. 33 -- res = 0.29109E-04, tol = 0.34557E+01, time = 2.96 | CG iter. 34 -- res = 0.13092E-04, tol = 0.34557E+01, time = 3.10 | CG iter. 35 -- res = 0.63776E-05, tol = 0.34557E+01, time = 2.93 | CG iter. 36 -- res = 0.30864E-05, tol = 0.34557E+01, time = 2.94 | CG iter. 37 -- res = 0.14790E-05, tol = 0.34557E+01, time = 2.91 | CG iter. 38 -- res = 0.76160E-06, tol = 0.34557E+01, time = 2.64 | CG iter. 39 -- res = 0.35555E-06, tol = 0.34557E+01, time = 3.06 | CG iter. 40 -- res = 0.16971E-06, tol = 0.34557E+01, time = 2.82 | CG iter. 41 -- res = 0.76478E-07, tol = 0.34557E+01, time = 3.02 | CG iter. 42 -- res = 0.35696E-07, tol = 0.34557E+01, time = 3.01 | CG iter. 43 -- res = 0.16885E-07, tol = 0.34557E+01, time = 3.02 | CG iter. 44 -- res = 0.83416E-08, tol = 0.34557E+01, time = 2.98 | CG iter. 45 -- res = 0.39763E-08, tol = 0.34557E+01, time = 2.87 | CG iter. 46 -- res = 0.18838E-08, tol = 0.34557E+01, time = 2.62 | CG iter. 47 -- res = 0.86794E-09, tol = 0.34557E+01, time = 3.05 | CG iter. 48 -- res = 0.40934E-09, tol = 0.34557E+01, time = 2.86 | CG iter. 49 -- res = 0.19509E-09, tol = 0.34557E+01, time = 2.92 | CG iter. 50 -- res = 0.94096E-10, tol = 0.34557E+01, time = 2.86 | Final CG iter 51 -- res = 0.94096E-10, tol = 0.34557E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.214 5.438 | New value -7.657 | Old value 2.214 | Difference -9.872 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.10218E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.59934E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.24490E+01, tol = 0.47627E+18, time = 2.43 | CG iter. 4 -- res = 0.70219E-02, tol = 0.47627E+18, time = 2.33 | Final CG iter 5 -- res = 0.38674E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8861938.481 | (Sampled value in CG: 8903087.496 ) | CPU time specind = 1234.117 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.70219E+08, tol = 0.57831E+04, time = 14.09 | CG iter. 2 -- res = 0.59199E+08, tol = 0.57831E+04, time = 12.79 | CG iter. 3 -- res = 0.15670E+08, tol = 0.57831E+04, time = 12.89 | CG iter. 4 -- res = 0.70470E+07, tol = 0.57831E+04, time = 12.64 | CG iter. 5 -- res = 0.42016E+07, tol = 0.57831E+04, time = 12.08 | CG iter. 6 -- res = 0.23441E+07, tol = 0.57831E+04, time = 12.92 | CG iter. 7 -- res = 0.13666E+07, tol = 0.57831E+04, time = 12.29 | CG iter. 8 -- res = 0.88777E+06, tol = 0.57831E+04, time = 12.24 | CG iter. 9 -- res = 0.58569E+06, tol = 0.57831E+04, time = 12.26 | CG iter. 10 -- res = 0.36684E+06, tol = 0.57831E+04, time = 12.30 | CG iter. 11 -- res = 0.21092E+06, tol = 0.57831E+04, time = 11.96 | CG iter. 12 -- res = 0.11915E+06, tol = 0.57831E+04, time = 12.60 | CG iter. 13 -- res = 0.69313E+05, tol = 0.57831E+04, time = 12.37 | CG iter. 14 -- res = 0.47711E+05, tol = 0.57831E+04, time = 12.21 | CG iter. 15 -- res = 0.39439E+05, tol = 0.57831E+04, time = 12.63 | CG iter. 16 -- res = 0.35733E+05, tol = 0.57831E+04, time = 11.97 | CG iter. 17 -- res = 0.33219E+05, tol = 0.57831E+04, time = 12.66 | CG iter. 18 -- res = 0.30711E+05, tol = 0.57831E+04, time = 18.77 | CG iter. 19 -- res = 0.27822E+05, tol = 0.57831E+04, time = 12.40 | CG iter. 20 -- res = 0.25835E+05, tol = 0.57831E+04, time = 12.26 | CG iter. 21 -- res = 0.25111E+05, tol = 0.57831E+04, time = 12.34 | CG iter. 22 -- res = 0.25874E+05, tol = 0.57831E+04, time = 12.24 | CG iter. 23 -- res = 0.26540E+05, tol = 0.57831E+04, time = 12.50 | CG iter. 24 -- res = 0.25119E+05, tol = 0.57831E+04, time = 13.69 | CG iter. 25 -- res = 0.21489E+05, tol = 0.57831E+04, time = 13.11 | CG iter. 26 -- res = 0.16385E+05, tol = 0.57831E+04, time = 12.50 | CG iter. 27 -- res = 0.11983E+05, tol = 0.57831E+04, time = 12.39 | CG iter. 28 -- res = 0.89060E+04, tol = 0.57831E+04, time = 12.20 | CG iter. 29 -- res = 0.72654E+04, tol = 0.57831E+04, time = 12.05 | CG iter. 30 -- res = 0.62541E+04, tol = 0.57831E+04, time = 12.57 | CG iter. 31 -- res = 0.55783E+04, tol = 0.57831E+04, time = 12.56 | CG iter. 32 -- res = 0.49409E+04, tol = 0.57831E+04, time = 12.95 | CG iter. 33 -- res = 0.43373E+04, tol = 0.57831E+04, time = 13.23 | CG iter. 34 -- res = 0.37768E+04, tol = 0.57831E+04, time = 11.88 | CG iter. 35 -- res = 0.33893E+04, tol = 0.57831E+04, time = 12.92 | CG iter. 36 -- res = 0.31609E+04, tol = 0.57831E+04, time = 13.05 | CG iter. 37 -- res = 0.30265E+04, tol = 0.57831E+04, time = 12.15 | CG iter. 38 -- res = 0.28689E+04, tol = 0.57831E+04, time = 12.44 | CG iter. 39 -- res = 0.25281E+04, tol = 0.57831E+04, time = 12.59 | CG iter. 40 -- res = 0.20641E+04, tol = 0.57831E+04, time = 12.54 | CG iter. 41 -- res = 0.16280E+04, tol = 0.57831E+04, time = 18.03 | CG iter. 42 -- res = 0.13068E+04, tol = 0.57831E+04, time = 12.14 | CG iter. 43 -- res = 0.11161E+04, tol = 0.57831E+04, time = 12.14 | CG iter. 44 -- res = 0.10171E+04, tol = 0.57831E+04, time = 12.21 | CG iter. 45 -- res = 0.93903E+03, tol = 0.57831E+04, time = 12.01 | CG iter. 46 -- res = 0.85435E+03, tol = 0.57831E+04, time = 12.45 | CG iter. 47 -- res = 0.76136E+03, tol = 0.57831E+04, time = 12.19 | CG iter. 48 -- res = 0.66220E+03, tol = 0.57831E+04, time = 14.12 | CG iter. 49 -- res = 0.57669E+03, tol = 0.57831E+04, time = 12.46 | CG iter. 50 -- res = 0.52099E+03, tol = 0.57831E+04, time = 12.41 | CG iter. 51 -- res = 0.50004E+03, tol = 0.57831E+04, time = 12.04 | CG iter. 52 -- res = 0.47623E+03, tol = 0.57831E+04, time = 12.61 | CG iter. 53 -- res = 0.44330E+03, tol = 0.57831E+04, time = 12.02 | CG iter. 54 -- res = 0.39541E+03, tol = 0.57831E+04, time = 12.65 | CG iter. 55 -- res = 0.34043E+03, tol = 0.57831E+04, time = 12.71 | CG iter. 56 -- res = 0.28427E+03, tol = 0.57831E+04, time = 12.68 | CG iter. 57 -- res = 0.24922E+03, tol = 0.57831E+04, time = 12.11 | CG iter. 58 -- res = 0.22893E+03, tol = 0.57831E+04, time = 12.52 | CG iter. 59 -- res = 0.21669E+03, tol = 0.57831E+04, time = 11.99 | CG iter. 60 -- res = 0.20857E+03, tol = 0.57831E+04, time = 12.13 | Final CG iter 61 -- res = 0.20857E+03, tol = 0.57831E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.656 ( -229.913 -2229.512 2511.709 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10113143.909 | Old band monopole 8861976.598 | Change to band monopole 1251167.311 | Change to component monopole -1251161.930 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.638 2.740 | New value 0.265 | Old value 1.638 | Difference -1.373 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.165 ( 7.218 9.033 -7.984 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.094 5.572 | New value 4.064 | Old value -3.094 | Difference 7.158 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.14072E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.25319E+02, tol = 0.47627E+18, time = 2.34 | CG iter. 3 -- res = 0.98315E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.18454E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.54769E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10113100.410 | (Sampled value in CG: 10093565.987 ) | Chain = 1 -- chisq = 0.81541943E+09 | Chain = 1 -- wall time = 6241.318 sec Available RAM: MemAvailable: 377580968 kB Available Swap: SwapFree: 1128780236 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 363 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446075 | --> Sampling calibration, mode = relcal | relcal = 1.3439197E-02 7.4638223E-04 -1.6142995E-03 -1.2571279E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1551303 0.1707248 97034454.8353914 | BP delta = 0.1645928 0.1801874 97034455.6700395 | BP chisq diff = 0.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632314 | --> Sampling calibration, mode = relcal | relcal = -2.8205530E-03 -7.0406997E-04 1.6783404E-03 1.6144565E-03 -4.0800803E-04 6.3983415E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5877137 15219240.3542762 | BP delta = 0.0000000E+00 -0.5843378 15219241.0200151 | BP chisq diff = 0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18295471281617 | --> Sampling calibration, mode = relcal | relcal = -7.4562289E-02 -5.8361646E-02 9.1485798E-02 4.1438133E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3821419E-04 4.2445897E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5922E-05 | 2: delta_r/delta_0: 7.5466E-07 | 3: delta_s/delta_0: 2.5610E-07 | 4: delta_r/delta_0: 1.1353E-08 | 5: delta_s/delta_0: 1.7887E-07 | 6: delta_r/delta_0: 1.0877E-08 | 7: delta_s/delta_0: 2.5487E-10 | 8: delta_r/delta_0: 1.1950E-10 | 9: delta_s/delta_0: 2.3960E-09 | 10: delta_r/delta_0: 4.6637E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.451177306569960E-003 2.736606642766072E-005 | BP delta = 8.7126978E-02 0.1096857 50490034.9591824 | BP delta = 8.8506334E-02 0.1110651 50490034.9233046 | BP chisq diff = -0.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02586273 | --> Sampling calibration, mode = relcal | relcal = -0.1066207 -9.5515087E-02 0.1449714 5.7164323E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3919656E-03 1.4415095E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3061E-05 | 2: delta_r/delta_0: 1.3822E-06 | 3: delta_s/delta_0: 2.4637E-07 | 4: delta_r/delta_0: 4.1441E-08 | 5: delta_s/delta_0: 2.4071E-08 | 6: delta_r/delta_0: 6.7805E-09 | 7: delta_s/delta_0: 6.2984E-09 | 8: delta_r/delta_0: 1.6381E-09 | 9: delta_s/delta_0: 7.9906E-10 | 10: delta_r/delta_0: 5.9341E-10 | 11: delta_s/delta_0: 6.0346E-10 | 12: delta_r/delta_0: 1.1551E-10 | 13: delta_s/delta_0: 7.4044E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.781297088342323E-003 2.811191751531850E-005 | BP delta = -0.2540624 -0.2261683 57388334.5264660 | BP delta = -0.2452168 -0.2173226 57388335.1317222 | BP chisq diff = 0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81210903 | --> Sampling calibration, mode = relcal | relcal = 0.2955633 0.2247516 -0.2837499 -0.2365650 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4038648E-03 5.2202083E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9656E-03 | 2: delta_r/delta_0: 1.6545E-04 | 3: delta_s/delta_0: 2.8649E-04 | 4: delta_r/delta_0: 1.4848E-05 | 5: delta_s/delta_0: 9.9003E-07 | 6: delta_r/delta_0: 3.6450E-07 | 7: delta_s/delta_0: 1.5188E-06 | 8: delta_r/delta_0: 7.4791E-08 | 9: delta_s/delta_0: 3.7945E-07 | 10: delta_r/delta_0: 1.9407E-07 | 11: delta_s/delta_0: 3.3870E-09 | 12: delta_r/delta_0: 1.6851E-09 | 13: delta_s/delta_0: 1.4077E-08 | 14: delta_r/delta_0: 5.3590E-10 | 15: delta_s/delta_0: 1.0406E-10 | 16: delta_r/delta_0: 4.5996E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.376226530815711E-002 4.022374360542135E-005 | BP delta = -0.1251906 -0.1676420 72481075.3402440 | BP delta = -9.1604143E-02 -0.1340555 72481075.8811223 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95892597 | --> Sampling calibration, mode = relcal | relcal = 0.1064704 0.1396104 -0.1102134 -0.1358674 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4769597E-03 1.2892053E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6385E-04 | 2: delta_r/delta_0: 6.6648E-06 | 3: delta_s/delta_0: 2.0692E-05 | 4: delta_r/delta_0: 1.6882E-06 | 5: delta_s/delta_0: 2.0365E-07 | 6: delta_r/delta_0: 1.0974E-07 | 7: delta_s/delta_0: 3.6066E-07 | 8: delta_r/delta_0: 2.8568E-08 | 9: delta_s/delta_0: 2.1690E-08 | 10: delta_r/delta_0: 1.8300E-09 | 11: delta_s/delta_0: 1.3636E-09 | 12: delta_r/delta_0: 1.0484E-09 | 13: delta_s/delta_0: 8.4704E-10 | 14: delta_r/delta_0: 5.8088E-10 | 15: delta_s/delta_0: 7.8158E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.031921805929272E-002 3.698137302589203E-005 | BP delta = 0.1110234 0.2113075 72779883.2702031 | BP delta = 0.1395745 0.2398585 72779881.9741286 | BP chisq diff = -1.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172974 | New value = -3.174938 | poltype: 2 pol: 1 CPU time specind = 1.9091129E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193641 | New value = -3.124825 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.204678 | New value = -3.095705 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150596 | New value = -3.143317 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.217677 | New value = -3.082114 | poltype: 2 pol: 2 CPU time specind = 1.2884140E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.13543E+08, tol = 0.70137E+01, time = 6.23 | CG iter. 2 -- res = 0.32562E+06, tol = 0.70137E+01, time = 5.93 | CG iter. 3 -- res = 0.42688E+05, tol = 0.70137E+01, time = 6.26 | CG iter. 4 -- res = 0.18791E+05, tol = 0.70137E+01, time = 5.84 | CG iter. 5 -- res = 0.87056E+04, tol = 0.70137E+01, time = 5.96 | CG iter. 6 -- res = 0.41275E+04, tol = 0.70137E+01, time = 6.04 | CG iter. 7 -- res = 0.24463E+04, tol = 0.70137E+01, time = 6.09 | CG iter. 8 -- res = 0.13958E+04, tol = 0.70137E+01, time = 5.90 | CG iter. 9 -- res = 0.99279E+03, tol = 0.70137E+01, time = 6.43 | CG iter. 10 -- res = 0.90173E+03, tol = 0.70137E+01, time = 5.98 | CG iter. 11 -- res = 0.87443E+03, tol = 0.70137E+01, time = 5.86 | CG iter. 12 -- res = 0.69670E+03, tol = 0.70137E+01, time = 5.78 | CG iter. 13 -- res = 0.49860E+03, tol = 0.70137E+01, time = 5.87 | CG iter. 14 -- res = 0.37105E+03, tol = 0.70137E+01, time = 5.98 | CG iter. 15 -- res = 0.30964E+03, tol = 0.70137E+01, time = 6.11 | CG iter. 16 -- res = 0.24177E+03, tol = 0.70137E+01, time = 5.71 | CG iter. 17 -- res = 0.17634E+03, tol = 0.70137E+01, time = 5.83 | CG iter. 18 -- res = 0.13495E+03, tol = 0.70137E+01, time = 6.00 | CG iter. 19 -- res = 0.11667E+03, tol = 0.70137E+01, time = 6.17 | CG iter. 20 -- res = 0.10125E+03, tol = 0.70137E+01, time = 5.86 | CG iter. 21 -- res = 0.76843E+02, tol = 0.70137E+01, time = 5.50 | CG iter. 22 -- res = 0.55227E+02, tol = 0.70137E+01, time = 5.98 | CG iter. 23 -- res = 0.42763E+02, tol = 0.70137E+01, time = 6.08 | CG iter. 24 -- res = 0.36291E+02, tol = 0.70137E+01, time = 6.14 | CG iter. 25 -- res = 0.28047E+02, tol = 0.70137E+01, time = 5.90 | CG iter. 26 -- res = 0.20695E+02, tol = 0.70137E+01, time = 12.23 | CG iter. 27 -- res = 0.15734E+02, tol = 0.70137E+01, time = 5.98 | CG iter. 28 -- res = 0.12603E+02, tol = 0.70137E+01, time = 5.90 | CG iter. 29 -- res = 0.98276E+01, tol = 0.70137E+01, time = 5.72 | CG iter. 30 -- res = 0.73123E+01, tol = 0.70137E+01, time = 6.14 | CG iter. 31 -- res = 0.56973E+01, tol = 0.70137E+01, time = 6.04 | CG iter. 32 -- res = 0.49607E+01, tol = 0.70137E+01, time = 5.73 | CG iter. 33 -- res = 0.43648E+01, tol = 0.70137E+01, time = 5.93 | CG iter. 34 -- res = 0.34907E+01, tol = 0.70137E+01, time = 5.99 | CG iter. 35 -- res = 0.28236E+01, tol = 0.70137E+01, time = 6.21 | CG iter. 36 -- res = 0.25005E+01, tol = 0.70137E+01, time = 5.33 | CG iter. 37 -- res = 0.22855E+01, tol = 0.70137E+01, time = 6.03 | CG iter. 38 -- res = 0.18720E+01, tol = 0.70137E+01, time = 6.01 | CG iter. 39 -- res = 0.15306E+01, tol = 0.70137E+01, time = 5.75 | CG iter. 40 -- res = 0.13141E+01, tol = 0.70137E+01, time = 6.82 | CG iter. 41 -- res = 0.11482E+01, tol = 0.70137E+01, time = 6.38 | CG iter. 42 -- res = 0.97419E+00, tol = 0.70137E+01, time = 6.63 | CG iter. 43 -- res = 0.77428E+00, tol = 0.70137E+01, time = 6.12 | CG iter. 44 -- res = 0.61734E+00, tol = 0.70137E+01, time = 5.64 | CG iter. 45 -- res = 0.52263E+00, tol = 0.70137E+01, time = 6.19 | CG iter. 46 -- res = 0.43685E+00, tol = 0.70137E+01, time = 5.90 | CG iter. 47 -- res = 0.35861E+00, tol = 0.70137E+01, time = 5.91 | CG iter. 48 -- res = 0.28044E+00, tol = 0.70137E+01, time = 5.83 | CG iter. 49 -- res = 0.23879E+00, tol = 0.70137E+01, time = 5.80 | CG iter. 50 -- res = 0.20954E+00, tol = 0.70137E+01, time = 5.72 | Final CG iter 51 -- res = 0.20954E+00, tol = 0.70137E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8357841.062 | Old band monopole 10113143.909 | Change to band monopole -1755302.847 | Change to component monopole 1755295.298 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.30953E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.24108E+02, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.85144E+00, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.10678E-03, tol = 0.47627E+18, time = 2.36 | Final CG iter 5 -- res = 0.19685E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8357805.113 | (Sampled value in CG: 8353939.438 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.530020 | New value = 1.496120 | poltype: 2 pol: 1 CPU time specind = 1.4882088E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487015 | New value = 1.496388 | poltype: 2 pol: 2 CPU time specind = 1.8629074E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.24274E+08, tol = 0.47553E+04, time = 6.53 | CG iter. 2 -- res = 0.52974E+07, tol = 0.47553E+04, time = 6.97 | CG iter. 3 -- res = 0.86978E+06, tol = 0.47553E+04, time = 7.07 | CG iter. 4 -- res = 0.36537E+06, tol = 0.47553E+04, time = 6.85 | CG iter. 5 -- res = 0.16055E+06, tol = 0.47553E+04, time = 13.11 | CG iter. 6 -- res = 0.81586E+05, tol = 0.47553E+04, time = 6.92 | CG iter. 7 -- res = 0.44665E+05, tol = 0.47553E+04, time = 6.71 | CG iter. 8 -- res = 0.22025E+05, tol = 0.47553E+04, time = 6.83 | CG iter. 9 -- res = 0.95851E+04, tol = 0.47553E+04, time = 6.89 | CG iter. 10 -- res = 0.39407E+04, tol = 0.47553E+04, time = 6.75 | CG iter. 11 -- res = 0.17664E+04, tol = 0.47553E+04, time = 6.91 | CG iter. 12 -- res = 0.91115E+03, tol = 0.47553E+04, time = 6.94 | CG iter. 13 -- res = 0.51985E+03, tol = 0.47553E+04, time = 6.37 | CG iter. 14 -- res = 0.29105E+03, tol = 0.47553E+04, time = 7.11 | CG iter. 15 -- res = 0.14878E+03, tol = 0.47553E+04, time = 6.77 | CG iter. 16 -- res = 0.69901E+02, tol = 0.47553E+04, time = 7.01 | CG iter. 17 -- res = 0.32370E+02, tol = 0.47553E+04, time = 7.01 | CG iter. 18 -- res = 0.16369E+02, tol = 0.47553E+04, time = 7.74 | CG iter. 19 -- res = 0.88178E+01, tol = 0.47553E+04, time = 7.57 | CG iter. 20 -- res = 0.51265E+01, tol = 0.47553E+04, time = 6.24 | CG iter. 21 -- res = 0.28398E+01, tol = 0.47553E+04, time = 7.13 | CG iter. 22 -- res = 0.14597E+01, tol = 0.47553E+04, time = 6.83 | CG iter. 23 -- res = 0.73213E+00, tol = 0.47553E+04, time = 6.74 | CG iter. 24 -- res = 0.38120E+00, tol = 0.47553E+04, time = 7.04 | CG iter. 25 -- res = 0.21260E+00, tol = 0.47553E+04, time = 6.74 | CG iter. 26 -- res = 0.12468E+00, tol = 0.47553E+04, time = 6.88 | CG iter. 27 -- res = 0.70905E-01, tol = 0.47553E+04, time = 6.98 | CG iter. 28 -- res = 0.38734E-01, tol = 0.47553E+04, time = 6.76 | CG iter. 29 -- res = 0.20395E-01, tol = 0.47553E+04, time = 7.20 | CG iter. 30 -- res = 0.10827E-01, tol = 0.47553E+04, time = 6.68 | CG iter. 31 -- res = 0.60613E-02, tol = 0.47553E+04, time = 7.01 | CG iter. 32 -- res = 0.34029E-02, tol = 0.47553E+04, time = 6.53 | CG iter. 33 -- res = 0.19591E-02, tol = 0.47553E+04, time = 7.75 | CG iter. 34 -- res = 0.10721E-02, tol = 0.47553E+04, time = 7.03 | CG iter. 35 -- res = 0.55369E-03, tol = 0.47553E+04, time = 6.69 | Final CG iter 36 -- res = 0.55369E-03, tol = 0.47553E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.259 2.746 | New value 4.561 | Old value 0.259 | Difference 4.301 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.95920E+06, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.18678E+02, tol = 0.47627E+18, time = 2.28 | CG iter. 3 -- res = 0.27382E+00, tol = 0.47627E+18, time = 2.35 | Final CG iter 4 -- res = 0.22539E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8357805.113 | (Sampled value in CG: 8356059.275 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.646105 | New value = -3.481170 | poltype: 1 pol: 1 CPU time specind = 1.5249968E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.21656E+07, tol = 0.26564E+01, time = 2.64 | CG iter. 2 -- res = 0.83565E+06, tol = 0.26564E+01, time = 2.72 | CG iter. 3 -- res = 0.15473E+06, tol = 0.26564E+01, time = 2.52 | CG iter. 4 -- res = 0.57238E+05, tol = 0.26564E+01, time = 2.71 | CG iter. 5 -- res = 0.30503E+05, tol = 0.26564E+01, time = 2.75 | CG iter. 6 -- res = 0.15623E+05, tol = 0.26564E+01, time = 2.91 | CG iter. 7 -- res = 0.64100E+04, tol = 0.26564E+01, time = 2.78 | CG iter. 8 -- res = 0.32374E+04, tol = 0.26564E+01, time = 2.74 | CG iter. 9 -- res = 0.14985E+04, tol = 0.26564E+01, time = 2.79 | CG iter. 10 -- res = 0.58026E+03, tol = 0.26564E+01, time = 2.90 | CG iter. 11 -- res = 0.23832E+03, tol = 0.26564E+01, time = 2.90 | CG iter. 12 -- res = 0.11236E+03, tol = 0.26564E+01, time = 2.86 | CG iter. 13 -- res = 0.55854E+02, tol = 0.26564E+01, time = 2.81 | CG iter. 14 -- res = 0.29340E+02, tol = 0.26564E+01, time = 2.99 | CG iter. 15 -- res = 0.14472E+02, tol = 0.26564E+01, time = 3.02 | CG iter. 16 -- res = 0.66411E+01, tol = 0.26564E+01, time = 2.93 | CG iter. 17 -- res = 0.29114E+01, tol = 0.26564E+01, time = 2.73 | CG iter. 18 -- res = 0.12587E+01, tol = 0.26564E+01, time = 2.80 | CG iter. 19 -- res = 0.59219E+00, tol = 0.26564E+01, time = 2.96 | CG iter. 20 -- res = 0.29529E+00, tol = 0.26564E+01, time = 3.03 | CG iter. 21 -- res = 0.15445E+00, tol = 0.26564E+01, time = 3.06 | CG iter. 22 -- res = 0.76064E-01, tol = 0.26564E+01, time = 2.69 | CG iter. 23 -- res = 0.35238E-01, tol = 0.26564E+01, time = 2.95 | CG iter. 24 -- res = 0.15618E-01, tol = 0.26564E+01, time = 2.69 | CG iter. 25 -- res = 0.75339E-02, tol = 0.26564E+01, time = 2.57 | CG iter. 26 -- res = 0.36274E-02, tol = 0.26564E+01, time = 9.71 | CG iter. 27 -- res = 0.18511E-02, tol = 0.26564E+01, time = 2.77 | CG iter. 28 -- res = 0.94779E-03, tol = 0.26564E+01, time = 2.78 | CG iter. 29 -- res = 0.44950E-03, tol = 0.26564E+01, time = 2.79 | CG iter. 30 -- res = 0.20609E-03, tol = 0.26564E+01, time = 3.03 | CG iter. 31 -- res = 0.10122E-03, tol = 0.26564E+01, time = 3.02 | CG iter. 32 -- res = 0.47184E-04, tol = 0.26564E+01, time = 2.79 | CG iter. 33 -- res = 0.23438E-04, tol = 0.26564E+01, time = 2.87 | CG iter. 34 -- res = 0.12029E-04, tol = 0.26564E+01, time = 2.78 | CG iter. 35 -- res = 0.60655E-05, tol = 0.26564E+01, time = 3.13 | CG iter. 36 -- res = 0.29845E-05, tol = 0.26564E+01, time = 2.63 | CG iter. 37 -- res = 0.13091E-05, tol = 0.26564E+01, time = 2.86 | CG iter. 38 -- res = 0.63527E-06, tol = 0.26564E+01, time = 2.85 | CG iter. 39 -- res = 0.30990E-06, tol = 0.26564E+01, time = 2.90 | CG iter. 40 -- res = 0.16184E-06, tol = 0.26564E+01, time = 2.64 | CG iter. 41 -- res = 0.83532E-07, tol = 0.26564E+01, time = 2.85 | CG iter. 42 -- res = 0.38233E-07, tol = 0.26564E+01, time = 2.88 | CG iter. 43 -- res = 0.17978E-07, tol = 0.26564E+01, time = 2.90 | CG iter. 44 -- res = 0.83609E-08, tol = 0.26564E+01, time = 2.96 | CG iter. 45 -- res = 0.40398E-08, tol = 0.26564E+01, time = 2.73 | CG iter. 46 -- res = 0.20324E-08, tol = 0.26564E+01, time = 2.69 | CG iter. 47 -- res = 0.10457E-08, tol = 0.26564E+01, time = 2.80 | CG iter. 48 -- res = 0.51852E-09, tol = 0.26564E+01, time = 2.73 | CG iter. 49 -- res = 0.24035E-09, tol = 0.26564E+01, time = 2.63 | CG iter. 50 -- res = 0.11196E-09, tol = 0.26564E+01, time = 2.78 | Final CG iter 51 -- res = 0.11196E-09, tol = 0.26564E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.935 5.130 | New value -0.398 | Old value 4.935 | Difference -5.333 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.29129E+05, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.26408E+02, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.67504E+00, tol = 0.47627E+18, time = 2.27 | Final CG iter 4 -- res = 0.69575E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8357805.113 | (Sampled value in CG: 8356820.247 ) | CPU time specind = 1233.895 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.69010E+08, tol = 0.57598E+04, time = 12.22 | CG iter. 2 -- res = 0.58754E+08, tol = 0.57598E+04, time = 12.05 | CG iter. 3 -- res = 0.15160E+08, tol = 0.57598E+04, time = 12.18 | CG iter. 4 -- res = 0.65716E+07, tol = 0.57598E+04, time = 13.01 | CG iter. 5 -- res = 0.39000E+07, tol = 0.57598E+04, time = 12.25 | CG iter. 6 -- res = 0.22454E+07, tol = 0.57598E+04, time = 12.78 | CG iter. 7 -- res = 0.13299E+07, tol = 0.57598E+04, time = 12.17 | CG iter. 8 -- res = 0.86077E+06, tol = 0.57598E+04, time = 12.31 | CG iter. 9 -- res = 0.54965E+06, tol = 0.57598E+04, time = 12.25 | CG iter. 10 -- res = 0.33917E+06, tol = 0.57598E+04, time = 12.45 | CG iter. 11 -- res = 0.18398E+06, tol = 0.57598E+04, time = 12.45 | CG iter. 12 -- res = 0.95819E+05, tol = 0.57598E+04, time = 18.02 | CG iter. 13 -- res = 0.49797E+05, tol = 0.57598E+04, time = 12.16 | CG iter. 14 -- res = 0.27782E+05, tol = 0.57598E+04, time = 12.17 | CG iter. 15 -- res = 0.17744E+05, tol = 0.57598E+04, time = 12.49 | CG iter. 16 -- res = 0.12136E+05, tol = 0.57598E+04, time = 12.29 | CG iter. 17 -- res = 0.84332E+04, tol = 0.57598E+04, time = 12.18 | CG iter. 18 -- res = 0.57196E+04, tol = 0.57598E+04, time = 12.32 | CG iter. 19 -- res = 0.37057E+04, tol = 0.57598E+04, time = 13.96 | CG iter. 20 -- res = 0.23542E+04, tol = 0.57598E+04, time = 12.38 | CG iter. 21 -- res = 0.15741E+04, tol = 0.57598E+04, time = 12.19 | CG iter. 22 -- res = 0.11812E+04, tol = 0.57598E+04, time = 12.42 | CG iter. 23 -- res = 0.10275E+04, tol = 0.57598E+04, time = 12.23 | CG iter. 24 -- res = 0.98822E+03, tol = 0.57598E+04, time = 12.48 | CG iter. 25 -- res = 0.10015E+04, tol = 0.57598E+04, time = 12.16 | CG iter. 26 -- res = 0.10017E+04, tol = 0.57598E+04, time = 11.95 | CG iter. 27 -- res = 0.94157E+03, tol = 0.57598E+04, time = 12.58 | CG iter. 28 -- res = 0.85487E+03, tol = 0.57598E+04, time = 12.25 | CG iter. 29 -- res = 0.79030E+03, tol = 0.57598E+04, time = 12.72 | CG iter. 30 -- res = 0.76769E+03, tol = 0.57598E+04, time = 12.35 | CG iter. 31 -- res = 0.72555E+03, tol = 0.57598E+04, time = 12.33 | CG iter. 32 -- res = 0.65397E+03, tol = 0.57598E+04, time = 12.36 | CG iter. 33 -- res = 0.54647E+03, tol = 0.57598E+04, time = 12.26 | CG iter. 34 -- res = 0.41510E+03, tol = 0.57598E+04, time = 12.11 | CG iter. 35 -- res = 0.30375E+03, tol = 0.57598E+04, time = 12.14 | CG iter. 36 -- res = 0.23426E+03, tol = 0.57598E+04, time = 18.57 | CG iter. 37 -- res = 0.19802E+03, tol = 0.57598E+04, time = 12.45 | CG iter. 38 -- res = 0.18010E+03, tol = 0.57598E+04, time = 12.44 | CG iter. 39 -- res = 0.16435E+03, tol = 0.57598E+04, time = 12.30 | CG iter. 40 -- res = 0.14851E+03, tol = 0.57598E+04, time = 12.28 | CG iter. 41 -- res = 0.13206E+03, tol = 0.57598E+04, time = 12.27 | CG iter. 42 -- res = 0.11472E+03, tol = 0.57598E+04, time = 12.49 | CG iter. 43 -- res = 0.10056E+03, tol = 0.57598E+04, time = 13.62 | CG iter. 44 -- res = 0.92439E+02, tol = 0.57598E+04, time = 12.33 | CG iter. 45 -- res = 0.88064E+02, tol = 0.57598E+04, time = 12.43 | CG iter. 46 -- res = 0.83703E+02, tol = 0.57598E+04, time = 12.50 | CG iter. 47 -- res = 0.74418E+02, tol = 0.57598E+04, time = 11.99 | CG iter. 48 -- res = 0.62047E+02, tol = 0.57598E+04, time = 12.34 | CG iter. 49 -- res = 0.49412E+02, tol = 0.57598E+04, time = 12.07 | CG iter. 50 -- res = 0.39730E+02, tol = 0.57598E+04, time = 12.12 | CG iter. 51 -- res = 0.34312E+02, tol = 0.57598E+04, time = 12.54 | CG iter. 52 -- res = 0.30944E+02, tol = 0.57598E+04, time = 12.36 | CG iter. 53 -- res = 0.27673E+02, tol = 0.57598E+04, time = 12.26 | CG iter. 54 -- res = 0.24719E+02, tol = 0.57598E+04, time = 12.55 | CG iter. 55 -- res = 0.21835E+02, tol = 0.57598E+04, time = 12.07 | CG iter. 56 -- res = 0.19142E+02, tol = 0.57598E+04, time = 12.48 | CG iter. 57 -- res = 0.16702E+02, tol = 0.57598E+04, time = 12.34 | CG iter. 58 -- res = 0.15168E+02, tol = 0.57598E+04, time = 12.80 | CG iter. 59 -- res = 0.14546E+02, tol = 0.57598E+04, time = 18.85 | CG iter. 60 -- res = 0.14121E+02, tol = 0.57598E+04, time = 11.96 | Final CG iter 61 -- res = 0.14121E+02, tol = 0.57598E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.934 ( -229.667 -2230.474 2512.929 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8819157.917 | Old band monopole 8357841.062 | Change to band monopole 461316.856 | Change to component monopole -461314.871 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.587 2.741 | New value -0.190 | Old value 4.587 | Difference -4.777 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.601 ( 6.867 10.574 -9.922 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.494 4.992 | New value -0.183 | Old value 3.494 | Difference -3.677 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.11802E+07, tol = 0.47627E+18, time = 2.10 | CG iter. 2 -- res = 0.26132E+02, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.63691E+00, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.30636E-03, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.40688E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8819119.984 | (Sampled value in CG: 8792421.173 ) | Chain = 1 -- chisq = 0.81558237E+09 | Chain = 1 -- wall time = 5766.138 sec Available RAM: MemAvailable: 377861888 kB Available Swap: SwapFree: 1129234124 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 364 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445722 | --> Sampling calibration, mode = relcal | relcal = 1.3439058E-02 7.4296020E-04 -1.6054093E-03 -1.2576609E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1645928 0.1801874 9408972.90673563 | BP delta = 0.1645928 0.1824108 9408998.10299023 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632297 | --> Sampling calibration, mode = relcal | relcal = -2.8203432E-03 -7.0281408E-04 1.6783521E-03 1.6136123E-03 -4.0925064E-04 6.4044347E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5843378 15221692.6119815 | BP delta = 0.0000000E+00 -0.5890443 15221695.2382402 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17854227657938 | --> Sampling calibration, mode = relcal | relcal = -7.3709689E-02 -5.7515785E-02 9.0493105E-02 4.0732365E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0581906E-04 2.3230044E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0457E-03 | 2: delta_r/delta_0: 2.0185E-05 | 3: delta_s/delta_0: 2.9724E-07 | 4: delta_r/delta_0: 4.4769E-08 | 5: delta_s/delta_0: 3.1914E-06 | 6: delta_r/delta_0: 3.6901E-07 | 7: delta_s/delta_0: 8.3435E-10 | 8: delta_r/delta_0: 5.1879E-10 | 9: delta_s/delta_0: 7.0848E-10 | 10: delta_r/delta_0: 4.0416E-10 | 11: delta_s/delta_0: 8.3612E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.028042506730705E-003 2.746981516276981E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0458E-03 | 2: delta_r/delta_0: 2.0188E-05 | 3: delta_s/delta_0: 2.9718E-07 | 4: delta_r/delta_0: 4.4755E-08 | 5: delta_s/delta_0: 3.1798E-06 | 6: delta_r/delta_0: 3.6774E-07 | 7: delta_s/delta_0: 8.3400E-10 | 8: delta_r/delta_0: 5.1858E-10 | 9: delta_s/delta_0: 7.0797E-10 | 10: delta_r/delta_0: 4.0394E-10 | 11: delta_s/delta_0: 8.3627E-11 | Reached bicg-stab tolerance | BP delta = 8.8506334E-02 0.1110651 3614415.82914166 | BP delta = 8.8506334E-02 0.1111924 3612415.02894964 | BP chisq diff = -2000.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02598972 | --> Sampling calibration, mode = relcal | relcal = -0.1066610 -9.5477618E-02 0.1448300 5.7308614E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1926434E-03 1.4819197E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8268E-05 | 2: delta_r/delta_0: 1.1869E-06 | 3: delta_s/delta_0: 2.5078E-07 | 4: delta_r/delta_0: 5.9256E-08 | 5: delta_s/delta_0: 1.6394E-08 | 6: delta_r/delta_0: 7.5286E-09 | 7: delta_s/delta_0: 1.0722E-07 | 8: delta_r/delta_0: 1.3942E-08 | 9: delta_s/delta_0: 8.7151E-10 | 10: delta_r/delta_0: 6.3243E-10 | 11: delta_s/delta_0: 2.3111E-09 | 12: delta_r/delta_0: 9.6523E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.783072137106909E-003 2.810842487355613E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8268E-05 | 2: delta_r/delta_0: 1.1868E-06 | 3: delta_s/delta_0: 2.5066E-07 | 4: delta_r/delta_0: 5.9210E-08 | 5: delta_s/delta_0: 1.6387E-08 | 6: delta_r/delta_0: 7.5316E-09 | 7: delta_s/delta_0: 1.0711E-07 | 8: delta_r/delta_0: 1.3960E-08 | 9: delta_s/delta_0: 8.7227E-10 | 10: delta_r/delta_0: 6.3281E-10 | 11: delta_s/delta_0: 2.3074E-09 | 12: delta_r/delta_0: 9.6647E-11 | Reached bicg-stab tolerance | BP delta = -0.2452168 -0.2173226 2841723.44335347 | BP delta = -0.2452168 -0.2220101 2841864.16079968 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81212258 | --> Sampling calibration, mode = relcal | relcal = 0.2954123 0.2249373 -0.2838054 -0.2365442 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.8158761E-04 5.2847229E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3877E-03 | 2: delta_r/delta_0: 3.1894E-05 | 3: delta_s/delta_0: 1.2452E-05 | 4: delta_r/delta_0: 1.3672E-06 | 5: delta_s/delta_0: 7.2925E-07 | 6: delta_r/delta_0: 7.8660E-08 | 7: delta_s/delta_0: 5.3629E-08 | 8: delta_r/delta_0: 2.9739E-08 | 9: delta_s/delta_0: 3.8750E-07 | 10: delta_r/delta_0: 1.8026E-09 | 11: delta_s/delta_0: 1.2562E-09 | 12: delta_r/delta_0: 4.6755E-10 | 13: delta_s/delta_0: 3.5710E-10 | 14: delta_r/delta_0: 2.4186E-10 | 15: delta_s/delta_0: 8.2200E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.449489876606313E-002 4.022417848443044E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3887E-03 | 2: delta_r/delta_0: 3.1917E-05 | 3: delta_s/delta_0: 1.2449E-05 | 4: delta_r/delta_0: 1.3668E-06 | 5: delta_s/delta_0: 7.3046E-07 | 6: delta_r/delta_0: 7.8757E-08 | 7: delta_s/delta_0: 5.3637E-08 | 8: delta_r/delta_0: 2.9749E-08 | 9: delta_s/delta_0: 3.8770E-07 | 10: delta_r/delta_0: 1.8072E-09 | 11: delta_s/delta_0: 1.2600E-09 | 12: delta_r/delta_0: 4.6708E-10 | 13: delta_s/delta_0: 3.5652E-10 | 14: delta_r/delta_0: 2.4146E-10 | 15: delta_s/delta_0: 8.2190E-11 | Reached bicg-stab tolerance | BP delta = -9.1604143E-02 -0.1340555 2827340.58482755 | BP delta = -9.1604143E-02 -0.1414888 2827643.88391540 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95901653 | --> Sampling calibration, mode = relcal | relcal = 0.1064055 0.1395416 -0.1102603 -0.1356868 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.9370739E-03 1.3598352E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8622E-04 | 2: delta_r/delta_0: 9.5486E-06 | 3: delta_s/delta_0: 1.0497E-05 | 4: delta_r/delta_0: 1.0144E-06 | 5: delta_s/delta_0: 2.6228E-07 | 6: delta_r/delta_0: 1.3668E-07 | 7: delta_s/delta_0: 3.8649E-07 | 8: delta_r/delta_0: 3.4490E-08 | 9: delta_s/delta_0: 2.1650E-08 | 10: delta_r/delta_0: 2.5382E-09 | 11: delta_s/delta_0: 2.1408E-09 | 12: delta_r/delta_0: 1.5451E-09 | 13: delta_s/delta_0: 9.9195E-10 | 14: delta_r/delta_0: 7.0667E-10 | 15: delta_s/delta_0: 7.8918E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.167554916625411E-002 3.697674975492228E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8634E-04 | 2: delta_r/delta_0: 9.5512E-06 | 3: delta_s/delta_0: 1.0497E-05 | 4: delta_r/delta_0: 1.0144E-06 | 5: delta_s/delta_0: 2.6237E-07 | 6: delta_r/delta_0: 1.3675E-07 | 7: delta_s/delta_0: 3.8719E-07 | 8: delta_r/delta_0: 3.4495E-08 | 9: delta_s/delta_0: 2.1499E-08 | 10: delta_r/delta_0: 2.5423E-09 | 11: delta_s/delta_0: 2.1632E-09 | 12: delta_r/delta_0: 1.5539E-09 | 13: delta_s/delta_0: 1.0069E-09 | 14: delta_r/delta_0: 7.0231E-10 | 15: delta_s/delta_0: 7.6498E-11 | Reached bicg-stab tolerance | BP delta = 0.1395745 0.2398585 3004319.44732698 | BP delta = 0.1395745 0.2420913 3004525.78487296 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174938 | New value = -3.136268 | poltype: 2 pol: 1 CPU time specind = 1.4381886E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124825 | New value = -3.189453 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.095705 | New value = -3.179106 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143317 | New value = -3.043983 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.082114 | New value = -3.213415 | poltype: 2 pol: 2 CPU time specind = 1.2456894E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.13568E+08, tol = 0.79827E+01, time = 5.63 | CG iter. 2 -- res = 0.34031E+06, tol = 0.79827E+01, time = 5.63 | CG iter. 3 -- res = 0.51846E+05, tol = 0.79827E+01, time = 5.77 | CG iter. 4 -- res = 0.27445E+05, tol = 0.79827E+01, time = 5.66 | CG iter. 5 -- res = 0.16959E+05, tol = 0.79827E+01, time = 6.13 | CG iter. 6 -- res = 0.12406E+05, tol = 0.79827E+01, time = 5.81 | CG iter. 7 -- res = 0.10639E+05, tol = 0.79827E+01, time = 5.72 | CG iter. 8 -- res = 0.90063E+04, tol = 0.79827E+01, time = 5.82 | CG iter. 9 -- res = 0.78055E+04, tol = 0.79827E+01, time = 5.71 | CG iter. 10 -- res = 0.71689E+04, tol = 0.79827E+01, time = 5.81 | CG iter. 11 -- res = 0.53936E+04, tol = 0.79827E+01, time = 5.98 | CG iter. 12 -- res = 0.35541E+04, tol = 0.79827E+01, time = 5.49 | CG iter. 13 -- res = 0.24446E+04, tol = 0.79827E+01, time = 6.83 | CG iter. 14 -- res = 0.20239E+04, tol = 0.79827E+01, time = 6.03 | CG iter. 15 -- res = 0.17451E+04, tol = 0.79827E+01, time = 6.30 | CG iter. 16 -- res = 0.13900E+04, tol = 0.79827E+01, time = 5.84 | CG iter. 17 -- res = 0.98179E+03, tol = 0.79827E+01, time = 5.96 | CG iter. 18 -- res = 0.72557E+03, tol = 0.79827E+01, time = 5.69 | CG iter. 19 -- res = 0.60191E+03, tol = 0.79827E+01, time = 5.83 | CG iter. 20 -- res = 0.46365E+03, tol = 0.79827E+01, time = 6.01 | CG iter. 21 -- res = 0.31524E+03, tol = 0.79827E+01, time = 5.71 | CG iter. 22 -- res = 0.23699E+03, tol = 0.79827E+01, time = 5.90 | CG iter. 23 -- res = 0.18949E+03, tol = 0.79827E+01, time = 5.53 | CG iter. 24 -- res = 0.15912E+03, tol = 0.79827E+01, time = 5.58 | CG iter. 25 -- res = 0.11450E+03, tol = 0.79827E+01, time = 5.79 | CG iter. 26 -- res = 0.79110E+02, tol = 0.79827E+01, time = 5.82 | CG iter. 27 -- res = 0.61008E+02, tol = 0.79827E+01, time = 5.81 | CG iter. 28 -- res = 0.50805E+02, tol = 0.79827E+01, time = 5.49 | CG iter. 29 -- res = 0.38181E+02, tol = 0.79827E+01, time = 5.62 | CG iter. 30 -- res = 0.27019E+02, tol = 0.79827E+01, time = 6.03 | CG iter. 31 -- res = 0.21219E+02, tol = 0.79827E+01, time = 6.02 | CG iter. 32 -- res = 0.17324E+02, tol = 0.79827E+01, time = 5.83 | CG iter. 33 -- res = 0.13280E+02, tol = 0.79827E+01, time = 5.65 | CG iter. 34 -- res = 0.95831E+01, tol = 0.79827E+01, time = 5.84 | CG iter. 35 -- res = 0.69337E+01, tol = 0.79827E+01, time = 5.61 | CG iter. 36 -- res = 0.57266E+01, tol = 0.79827E+01, time = 5.94 | CG iter. 37 -- res = 0.45694E+01, tol = 0.79827E+01, time = 6.06 | CG iter. 38 -- res = 0.33196E+01, tol = 0.79827E+01, time = 5.62 | CG iter. 39 -- res = 0.23556E+01, tol = 0.79827E+01, time = 5.68 | CG iter. 40 -- res = 0.18552E+01, tol = 0.79827E+01, time = 5.66 | CG iter. 41 -- res = 0.15485E+01, tol = 0.79827E+01, time = 6.00 | CG iter. 42 -- res = 0.11510E+01, tol = 0.79827E+01, time = 5.78 | CG iter. 43 -- res = 0.86944E+00, tol = 0.79827E+01, time = 5.95 | CG iter. 44 -- res = 0.67105E+00, tol = 0.79827E+01, time = 6.14 | CG iter. 45 -- res = 0.54475E+00, tol = 0.79827E+01, time = 5.58 | CG iter. 46 -- res = 0.43036E+00, tol = 0.79827E+01, time = 5.79 | CG iter. 47 -- res = 0.33520E+00, tol = 0.79827E+01, time = 6.06 | CG iter. 48 -- res = 0.25167E+00, tol = 0.79827E+01, time = 5.48 | CG iter. 49 -- res = 0.21129E+00, tol = 0.79827E+01, time = 12.92 | CG iter. 50 -- res = 0.18632E+00, tol = 0.79827E+01, time = 5.72 | Final CG iter 51 -- res = 0.18632E+00, tol = 0.79827E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6727869.586 | Old band monopole 8819157.917 | Change to band monopole -2091288.331 | Change to component monopole 2091279.336 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.30805E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.14736E+03, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.44374E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.99563E-02, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.20485E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6727840.648 | (Sampled value in CG: 6764298.190 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496120 | New value = 1.495334 | poltype: 2 pol: 1 CPU time specind = 1.9227982E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496388 | New value = 1.526317 | poltype: 2 pol: 2 CPU time specind = 3.6067963E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.24030E+08, tol = 0.47558E+04, time = 6.89 | CG iter. 2 -- res = 0.53558E+07, tol = 0.47558E+04, time = 6.60 | CG iter. 3 -- res = 0.84421E+06, tol = 0.47558E+04, time = 6.56 | CG iter. 4 -- res = 0.35110E+06, tol = 0.47558E+04, time = 6.37 | CG iter. 5 -- res = 0.14907E+06, tol = 0.47558E+04, time = 6.64 | CG iter. 6 -- res = 0.79528E+05, tol = 0.47558E+04, time = 6.73 | CG iter. 7 -- res = 0.44180E+05, tol = 0.47558E+04, time = 6.86 | CG iter. 8 -- res = 0.21109E+05, tol = 0.47558E+04, time = 7.20 | CG iter. 9 -- res = 0.92233E+04, tol = 0.47558E+04, time = 6.48 | CG iter. 10 -- res = 0.37081E+04, tol = 0.47558E+04, time = 6.57 | CG iter. 11 -- res = 0.16528E+04, tol = 0.47558E+04, time = 7.14 | CG iter. 12 -- res = 0.85391E+03, tol = 0.47558E+04, time = 6.54 | CG iter. 13 -- res = 0.47342E+03, tol = 0.47558E+04, time = 6.52 | CG iter. 14 -- res = 0.26585E+03, tol = 0.47558E+04, time = 6.99 | CG iter. 15 -- res = 0.13671E+03, tol = 0.47558E+04, time = 6.46 | CG iter. 16 -- res = 0.64410E+02, tol = 0.47558E+04, time = 6.79 | CG iter. 17 -- res = 0.30928E+02, tol = 0.47558E+04, time = 6.58 | CG iter. 18 -- res = 0.15561E+02, tol = 0.47558E+04, time = 6.74 | CG iter. 19 -- res = 0.84326E+01, tol = 0.47558E+04, time = 6.66 | CG iter. 20 -- res = 0.47091E+01, tol = 0.47558E+04, time = 6.57 | CG iter. 21 -- res = 0.24937E+01, tol = 0.47558E+04, time = 6.87 | CG iter. 22 -- res = 0.12664E+01, tol = 0.47558E+04, time = 6.73 | CG iter. 23 -- res = 0.62768E+00, tol = 0.47558E+04, time = 6.56 | CG iter. 24 -- res = 0.32306E+00, tol = 0.47558E+04, time = 6.88 | CG iter. 25 -- res = 0.18058E+00, tol = 0.47558E+04, time = 8.04 | CG iter. 26 -- res = 0.10434E+00, tol = 0.47558E+04, time = 11.53 | CG iter. 27 -- res = 0.59082E-01, tol = 0.47558E+04, time = 7.21 | CG iter. 28 -- res = 0.31630E-01, tol = 0.47558E+04, time = 6.94 | CG iter. 29 -- res = 0.16357E-01, tol = 0.47558E+04, time = 6.64 | CG iter. 30 -- res = 0.87228E-02, tol = 0.47558E+04, time = 6.87 | CG iter. 31 -- res = 0.47869E-02, tol = 0.47558E+04, time = 7.02 | CG iter. 32 -- res = 0.27610E-02, tol = 0.47558E+04, time = 6.81 | CG iter. 33 -- res = 0.15869E-02, tol = 0.47558E+04, time = 6.84 | CG iter. 34 -- res = 0.86012E-03, tol = 0.47558E+04, time = 6.62 | CG iter. 35 -- res = 0.44985E-03, tol = 0.47558E+04, time = 6.72 | Final CG iter 36 -- res = 0.44985E-03, tol = 0.47558E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.211 2.745 | New value 0.593 | Old value -0.211 | Difference 0.804 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.35026E+05, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.28392E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.86898E+00, tol = 0.47627E+18, time = 2.20 | Final CG iter 4 -- res = 0.10527E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6727840.648 | (Sampled value in CG: 6764285.880 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.481170 | New value = -3.520806 | poltype: 1 pol: 1 CPU time specind = 1.4838934E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.21739E+07, tol = 0.26948E+01, time = 3.14 | CG iter. 2 -- res = 0.84913E+06, tol = 0.26948E+01, time = 2.81 | CG iter. 3 -- res = 0.16422E+06, tol = 0.26948E+01, time = 2.78 | CG iter. 4 -- res = 0.61023E+05, tol = 0.26948E+01, time = 2.84 | CG iter. 5 -- res = 0.33320E+05, tol = 0.26948E+01, time = 2.49 | CG iter. 6 -- res = 0.18245E+05, tol = 0.26948E+01, time = 2.92 | CG iter. 7 -- res = 0.76609E+04, tol = 0.26948E+01, time = 3.23 | CG iter. 8 -- res = 0.33600E+04, tol = 0.26948E+01, time = 3.54 | CG iter. 9 -- res = 0.14599E+04, tol = 0.26948E+01, time = 3.04 | CG iter. 10 -- res = 0.57337E+03, tol = 0.26948E+01, time = 3.07 | CG iter. 11 -- res = 0.24434E+03, tol = 0.26948E+01, time = 2.95 | CG iter. 12 -- res = 0.11733E+03, tol = 0.26948E+01, time = 2.86 | CG iter. 13 -- res = 0.59674E+02, tol = 0.26948E+01, time = 3.00 | CG iter. 14 -- res = 0.30027E+02, tol = 0.26948E+01, time = 2.83 | CG iter. 15 -- res = 0.14777E+02, tol = 0.26948E+01, time = 2.58 | CG iter. 16 -- res = 0.63341E+01, tol = 0.26948E+01, time = 2.94 | CG iter. 17 -- res = 0.25793E+01, tol = 0.26948E+01, time = 2.91 | CG iter. 18 -- res = 0.12116E+01, tol = 0.26948E+01, time = 2.93 | CG iter. 19 -- res = 0.60045E+00, tol = 0.26948E+01, time = 2.78 | CG iter. 20 -- res = 0.29983E+00, tol = 0.26948E+01, time = 2.78 | CG iter. 21 -- res = 0.14883E+00, tol = 0.26948E+01, time = 2.70 | CG iter. 22 -- res = 0.69343E-01, tol = 0.26948E+01, time = 2.79 | CG iter. 23 -- res = 0.31452E-01, tol = 0.26948E+01, time = 2.82 | CG iter. 24 -- res = 0.14139E-01, tol = 0.26948E+01, time = 2.58 | CG iter. 25 -- res = 0.69029E-02, tol = 0.26948E+01, time = 2.59 | CG iter. 26 -- res = 0.34511E-02, tol = 0.26948E+01, time = 2.59 | CG iter. 27 -- res = 0.16862E-02, tol = 0.26948E+01, time = 2.65 | CG iter. 28 -- res = 0.84697E-03, tol = 0.26948E+01, time = 2.65 | CG iter. 29 -- res = 0.39160E-03, tol = 0.26948E+01, time = 2.72 | CG iter. 30 -- res = 0.18333E-03, tol = 0.26948E+01, time = 2.88 | CG iter. 31 -- res = 0.83564E-04, tol = 0.26948E+01, time = 2.94 | CG iter. 32 -- res = 0.41047E-04, tol = 0.26948E+01, time = 2.84 | CG iter. 33 -- res = 0.20169E-04, tol = 0.26948E+01, time = 2.70 | CG iter. 34 -- res = 0.99385E-05, tol = 0.26948E+01, time = 2.80 | CG iter. 35 -- res = 0.48201E-05, tol = 0.26948E+01, time = 3.08 | CG iter. 36 -- res = 0.23547E-05, tol = 0.26948E+01, time = 2.72 | CG iter. 37 -- res = 0.10527E-05, tol = 0.26948E+01, time = 2.72 | CG iter. 38 -- res = 0.50482E-06, tol = 0.26948E+01, time = 2.66 | CG iter. 39 -- res = 0.25502E-06, tol = 0.26948E+01, time = 2.46 | CG iter. 40 -- res = 0.12737E-06, tol = 0.26948E+01, time = 2.60 | CG iter. 41 -- res = 0.61945E-07, tol = 0.26948E+01, time = 2.93 | CG iter. 42 -- res = 0.30091E-07, tol = 0.26948E+01, time = 2.97 | CG iter. 43 -- res = 0.13560E-07, tol = 0.26948E+01, time = 2.86 | CG iter. 44 -- res = 0.63861E-08, tol = 0.26948E+01, time = 2.68 | CG iter. 45 -- res = 0.31261E-08, tol = 0.26948E+01, time = 2.68 | CG iter. 46 -- res = 0.15607E-08, tol = 0.26948E+01, time = 3.31 | CG iter. 47 -- res = 0.78347E-09, tol = 0.26948E+01, time = 3.09 | CG iter. 48 -- res = 0.38526E-09, tol = 0.26948E+01, time = 2.71 | CG iter. 49 -- res = 0.17588E-09, tol = 0.26948E+01, time = 2.61 | CG iter. 50 -- res = 0.80661E-10, tol = 0.26948E+01, time = 2.81 | Final CG iter 51 -- res = 0.80661E-10, tol = 0.26948E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.222 4.233 | New value -5.337 | Old value 3.222 | Difference -8.560 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.76074E+05, tol = 0.47627E+18, time = 2.11 | CG iter. 2 -- res = 0.51713E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.21609E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.52499E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.22228E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6727840.648 | (Sampled value in CG: 6756898.405 ) | CPU time specind = 1201.650 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.68208E+08, tol = 0.57580E+04, time = 18.01 | CG iter. 2 -- res = 0.58455E+08, tol = 0.57580E+04, time = 12.30 | CG iter. 3 -- res = 0.15390E+08, tol = 0.57580E+04, time = 12.20 | CG iter. 4 -- res = 0.64207E+07, tol = 0.57580E+04, time = 12.18 | CG iter. 5 -- res = 0.36543E+07, tol = 0.57580E+04, time = 11.80 | CG iter. 6 -- res = 0.20799E+07, tol = 0.57580E+04, time = 12.00 | CG iter. 7 -- res = 0.12657E+07, tol = 0.57580E+04, time = 12.07 | CG iter. 8 -- res = 0.83679E+06, tol = 0.57580E+04, time = 13.37 | CG iter. 9 -- res = 0.53607E+06, tol = 0.57580E+04, time = 12.83 | CG iter. 10 -- res = 0.31591E+06, tol = 0.57580E+04, time = 12.12 | CG iter. 11 -- res = 0.16992E+06, tol = 0.57580E+04, time = 11.89 | CG iter. 12 -- res = 0.92815E+05, tol = 0.57580E+04, time = 12.39 | CG iter. 13 -- res = 0.52088E+05, tol = 0.57580E+04, time = 11.68 | CG iter. 14 -- res = 0.30900E+05, tol = 0.57580E+04, time = 12.35 | CG iter. 15 -- res = 0.20213E+05, tol = 0.57580E+04, time = 12.04 | CG iter. 16 -- res = 0.14618E+05, tol = 0.57580E+04, time = 11.66 | CG iter. 17 -- res = 0.10909E+05, tol = 0.57580E+04, time = 11.84 | CG iter. 18 -- res = 0.80481E+04, tol = 0.57580E+04, time = 11.66 | CG iter. 19 -- res = 0.58922E+04, tol = 0.57580E+04, time = 11.87 | CG iter. 20 -- res = 0.44824E+04, tol = 0.57580E+04, time = 12.16 | CG iter. 21 -- res = 0.37162E+04, tol = 0.57580E+04, time = 12.39 | CG iter. 22 -- res = 0.34724E+04, tol = 0.57580E+04, time = 11.58 | CG iter. 23 -- res = 0.35566E+04, tol = 0.57580E+04, time = 11.81 | CG iter. 24 -- res = 0.38570E+04, tol = 0.57580E+04, time = 12.37 | CG iter. 25 -- res = 0.40293E+04, tol = 0.57580E+04, time = 18.60 | CG iter. 26 -- res = 0.38502E+04, tol = 0.57580E+04, time = 11.79 | CG iter. 27 -- res = 0.33862E+04, tol = 0.57580E+04, time = 11.96 | CG iter. 28 -- res = 0.27930E+04, tol = 0.57580E+04, time = 12.22 | CG iter. 29 -- res = 0.23094E+04, tol = 0.57580E+04, time = 11.90 | CG iter. 30 -- res = 0.19850E+04, tol = 0.57580E+04, time = 12.02 | CG iter. 31 -- res = 0.16940E+04, tol = 0.57580E+04, time = 12.16 | CG iter. 32 -- res = 0.14232E+04, tol = 0.57580E+04, time = 13.64 | CG iter. 33 -- res = 0.11984E+04, tol = 0.57580E+04, time = 12.48 | CG iter. 34 -- res = 0.98564E+03, tol = 0.57580E+04, time = 12.34 | CG iter. 35 -- res = 0.79737E+03, tol = 0.57580E+04, time = 12.27 | CG iter. 36 -- res = 0.68088E+03, tol = 0.57580E+04, time = 12.27 | CG iter. 37 -- res = 0.66109E+03, tol = 0.57580E+04, time = 12.39 | CG iter. 38 -- res = 0.67706E+03, tol = 0.57580E+04, time = 11.80 | CG iter. 39 -- res = 0.67062E+03, tol = 0.57580E+04, time = 11.72 | CG iter. 40 -- res = 0.62704E+03, tol = 0.57580E+04, time = 11.99 | CG iter. 41 -- res = 0.56636E+03, tol = 0.57580E+04, time = 12.36 | CG iter. 42 -- res = 0.48745E+03, tol = 0.57580E+04, time = 12.10 | CG iter. 43 -- res = 0.42471E+03, tol = 0.57580E+04, time = 12.47 | CG iter. 44 -- res = 0.37727E+03, tol = 0.57580E+04, time = 12.73 | CG iter. 45 -- res = 0.34739E+03, tol = 0.57580E+04, time = 12.00 | CG iter. 46 -- res = 0.32170E+03, tol = 0.57580E+04, time = 11.95 | CG iter. 47 -- res = 0.29122E+03, tol = 0.57580E+04, time = 12.10 | CG iter. 48 -- res = 0.24894E+03, tol = 0.57580E+04, time = 12.56 | CG iter. 49 -- res = 0.21191E+03, tol = 0.57580E+04, time = 17.92 | CG iter. 50 -- res = 0.18589E+03, tol = 0.57580E+04, time = 12.14 | CG iter. 51 -- res = 0.17639E+03, tol = 0.57580E+04, time = 12.06 | CG iter. 52 -- res = 0.17254E+03, tol = 0.57580E+04, time = 12.16 | CG iter. 53 -- res = 0.17196E+03, tol = 0.57580E+04, time = 11.95 | CG iter. 54 -- res = 0.17125E+03, tol = 0.57580E+04, time = 12.04 | CG iter. 55 -- res = 0.15683E+03, tol = 0.57580E+04, time = 12.06 | CG iter. 56 -- res = 0.13696E+03, tol = 0.57580E+04, time = 14.75 | CG iter. 57 -- res = 0.12063E+03, tol = 0.57580E+04, time = 12.13 | CG iter. 58 -- res = 0.11044E+03, tol = 0.57580E+04, time = 12.16 | CG iter. 59 -- res = 0.10397E+03, tol = 0.57580E+04, time = 11.91 | CG iter. 60 -- res = 0.98364E+02, tol = 0.57580E+04, time = 12.19 | Final CG iter 61 -- res = 0.98364E+02, tol = 0.57580E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.865 ( -229.911 -2232.035 2514.670 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8750523.181 | Old band monopole 6727869.586 | Change to band monopole 2022653.595 | Change to component monopole -2022644.895 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.584 2.756 | New value -0.655 | Old value 0.584 | Difference -1.239 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.431 ( 7.230 13.979 -14.164 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.044 3.655 | New value 4.275 | Old value 0.044 | Difference 4.232 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.83020E+05, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.31372E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.59812E+00, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.69600E-03, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.27269E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8750485.543 | (Sampled value in CG: 8726650.708 ) | Chain = 1 -- chisq = 0.81545887E+09 | Chain = 1 -- wall time = 6127.275 sec Available RAM: MemAvailable: 377516168 kB Available Swap: SwapFree: 1129719500 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 365 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443271 | --> Sampling calibration, mode = relcal | relcal = 1.3420132E-02 7.5273687E-04 -1.5960302E-03 -1.2576839E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1645928 0.1801874 97034760.2499152 | BP delta = 0.1675959 0.1831905 97034760.0644885 | BP chisq diff = -0.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632550 | --> Sampling calibration, mode = relcal | relcal = -2.8211039E-03 -7.0283090E-04 1.6786368E-03 1.6134126E-03 -4.0839962E-04 6.4028491E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5843378 15218878.8035584 | BP delta = 0.0000000E+00 -0.5799635 15218883.1499008 | BP chisq diff = 4.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17919658939090 | --> Sampling calibration, mode = relcal | relcal = -7.5064100E-02 -5.8256388E-02 9.1815144E-02 4.1505344E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1197866E-04 3.9644940E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1936E-05 | 2: delta_r/delta_0: 7.8894E-07 | 3: delta_s/delta_0: 2.6081E-07 | 4: delta_r/delta_0: 1.6347E-08 | 5: delta_s/delta_0: 5.0644E-08 | 6: delta_r/delta_0: 9.4535E-10 | 7: delta_s/delta_0: 4.9452E-10 | 8: delta_r/delta_0: 1.7494E-10 | 9: delta_s/delta_0: 3.8140E-10 | 10: delta_r/delta_0: 6.5501E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.481089873316768E-003 2.745264334326902E-005 | BP delta = 8.8506334E-02 0.1111924 50486199.3202063 | BP delta = 9.6124612E-02 0.1188107 50486200.7138291 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02618018 | --> Sampling calibration, mode = relcal | relcal = -0.1066993 -9.5617414E-02 0.1450522 5.7264570E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1924052E-03 1.3726465E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3440E-05 | 2: delta_r/delta_0: 1.2436E-06 | 3: delta_s/delta_0: 2.3963E-07 | 4: delta_r/delta_0: 4.8158E-08 | 5: delta_s/delta_0: 1.8286E-08 | 6: delta_r/delta_0: 6.3536E-09 | 7: delta_s/delta_0: 1.6319E-08 | 8: delta_r/delta_0: 1.0961E-09 | 9: delta_s/delta_0: 8.5017E-10 | 10: delta_r/delta_0: 3.3938E-10 | 11: delta_s/delta_0: 5.4024E-09 | 12: delta_r/delta_0: 3.1029E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.782449946327456E-003 2.810325574655979E-005 | BP delta = -0.2452168 -0.2173226 57388624.4126942 | BP delta = -0.2480133 -0.2201192 57388624.5545085 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81248902 | --> Sampling calibration, mode = relcal | relcal = 0.2955413 0.2248468 -0.2838440 -0.2365440 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4284618E-04 5.5139670E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0284E-03 | 2: delta_r/delta_0: 2.3540E-05 | 3: delta_s/delta_0: 2.3081E-05 | 4: delta_r/delta_0: 2.3690E-06 | 5: delta_s/delta_0: 7.4341E-07 | 6: delta_r/delta_0: 1.1002E-07 | 7: delta_s/delta_0: 6.0788E-08 | 8: delta_r/delta_0: 3.1485E-08 | 9: delta_s/delta_0: 3.5819E-07 | 10: delta_r/delta_0: 1.8746E-09 | 11: delta_s/delta_0: 8.0020E-10 | 12: delta_r/delta_0: 4.8232E-10 | 13: delta_s/delta_0: 4.6778E-10 | 14: delta_r/delta_0: 2.0870E-10 | 15: delta_s/delta_0: 1.8506E-10 | 16: delta_r/delta_0: 5.2242E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.835183624857366E-002 4.020344619208763E-005 | BP delta = -9.1604143E-02 -0.1340555 72479624.3528129 | BP delta = -8.2342148E-02 -0.1247935 72479624.7863932 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95942198 | --> Sampling calibration, mode = relcal | relcal = 0.1065409 0.1394563 -0.1101562 -0.1358411 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1500775E-02 1.4000605E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0326E-03 | 2: delta_r/delta_0: 2.5047E-05 | 3: delta_s/delta_0: 4.6331E-04 | 4: delta_r/delta_0: 1.9595E-05 | 5: delta_s/delta_0: 3.8297E-07 | 6: delta_r/delta_0: 1.5613E-07 | 7: delta_s/delta_0: 3.2576E-07 | 8: delta_r/delta_0: 4.3606E-08 | 9: delta_s/delta_0: 1.7264E-08 | 10: delta_r/delta_0: 2.9966E-09 | 11: delta_s/delta_0: 2.8862E-09 | 12: delta_r/delta_0: 1.5823E-09 | 13: delta_s/delta_0: 2.7466E-10 | 14: delta_r/delta_0: 9.5802E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.492530726181865E-002 3.696121733612659E-005 | BP delta = 0.1395745 0.2398585 72782602.4200361 | BP delta = 0.2237077 0.3239917 72782605.8639490 | BP chisq diff = 3.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136268 | New value = -3.183057 | poltype: 2 pol: 1 CPU time specind = 2.4309158E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189453 | New value = -3.187720 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.179106 | New value = -3.195385 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.043983 | New value = -3.127760 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.213415 | New value = -3.115991 | poltype: 2 pol: 2 CPU time specind = 2.0115852E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.13542E+08, tol = 0.80166E+01, time = 5.92 | CG iter. 2 -- res = 0.33027E+06, tol = 0.80166E+01, time = 5.67 | CG iter. 3 -- res = 0.50917E+05, tol = 0.80166E+01, time = 5.83 | CG iter. 4 -- res = 0.30065E+05, tol = 0.80166E+01, time = 5.63 | CG iter. 5 -- res = 0.22292E+05, tol = 0.80166E+01, time = 5.61 | CG iter. 6 -- res = 0.18004E+05, tol = 0.80166E+01, time = 6.00 | CG iter. 7 -- res = 0.16953E+05, tol = 0.80166E+01, time = 6.15 | CG iter. 8 -- res = 0.15252E+05, tol = 0.80166E+01, time = 5.74 | CG iter. 9 -- res = 0.14283E+05, tol = 0.80166E+01, time = 5.83 | CG iter. 10 -- res = 0.12839E+05, tol = 0.80166E+01, time = 5.30 | CG iter. 11 -- res = 0.93386E+04, tol = 0.80166E+01, time = 5.71 | CG iter. 12 -- res = 0.63093E+04, tol = 0.80166E+01, time = 5.99 | CG iter. 13 -- res = 0.47710E+04, tol = 0.80166E+01, time = 7.12 | CG iter. 14 -- res = 0.41245E+04, tol = 0.80166E+01, time = 6.30 | CG iter. 15 -- res = 0.37297E+04, tol = 0.80166E+01, time = 5.95 | CG iter. 16 -- res = 0.29962E+04, tol = 0.80166E+01, time = 5.81 | CG iter. 17 -- res = 0.21064E+04, tol = 0.80166E+01, time = 5.60 | CG iter. 18 -- res = 0.17071E+04, tol = 0.80166E+01, time = 5.76 | CG iter. 19 -- res = 0.14543E+04, tol = 0.80166E+01, time = 5.62 | CG iter. 20 -- res = 0.11944E+04, tol = 0.80166E+01, time = 6.19 | CG iter. 21 -- res = 0.90510E+03, tol = 0.80166E+01, time = 5.88 | CG iter. 22 -- res = 0.74187E+03, tol = 0.80166E+01, time = 5.61 | CG iter. 23 -- res = 0.67247E+03, tol = 0.80166E+01, time = 5.78 | CG iter. 24 -- res = 0.58106E+03, tol = 0.80166E+01, time = 5.51 | CG iter. 25 -- res = 0.44638E+03, tol = 0.80166E+01, time = 5.91 | CG iter. 26 -- res = 0.35321E+03, tol = 0.80166E+01, time = 6.08 | CG iter. 27 -- res = 0.30680E+03, tol = 0.80166E+01, time = 5.82 | CG iter. 28 -- res = 0.27690E+03, tol = 0.80166E+01, time = 5.84 | CG iter. 29 -- res = 0.23241E+03, tol = 0.80166E+01, time = 6.08 | CG iter. 30 -- res = 0.18912E+03, tol = 0.80166E+01, time = 5.79 | CG iter. 31 -- res = 0.16596E+03, tol = 0.80166E+01, time = 6.59 | CG iter. 32 -- res = 0.14936E+03, tol = 0.80166E+01, time = 6.06 | CG iter. 33 -- res = 0.12518E+03, tol = 0.80166E+01, time = 6.00 | CG iter. 34 -- res = 0.95716E+02, tol = 0.80166E+01, time = 5.90 | CG iter. 35 -- res = 0.81347E+02, tol = 0.80166E+01, time = 5.79 | CG iter. 36 -- res = 0.73079E+02, tol = 0.80166E+01, time = 6.05 | CG iter. 37 -- res = 0.62802E+02, tol = 0.80166E+01, time = 5.75 | CG iter. 38 -- res = 0.51002E+02, tol = 0.80166E+01, time = 5.68 | CG iter. 39 -- res = 0.40636E+02, tol = 0.80166E+01, time = 5.77 | CG iter. 40 -- res = 0.35901E+02, tol = 0.80166E+01, time = 6.25 | CG iter. 41 -- res = 0.30305E+02, tol = 0.80166E+01, time = 5.68 | CG iter. 42 -- res = 0.24249E+02, tol = 0.80166E+01, time = 6.08 | CG iter. 43 -- res = 0.19209E+02, tol = 0.80166E+01, time = 6.09 | CG iter. 44 -- res = 0.16483E+02, tol = 0.80166E+01, time = 5.47 | CG iter. 45 -- res = 0.14096E+02, tol = 0.80166E+01, time = 5.92 | CG iter. 46 -- res = 0.11233E+02, tol = 0.80166E+01, time = 5.76 | CG iter. 47 -- res = 0.86118E+01, tol = 0.80166E+01, time = 5.80 | CG iter. 48 -- res = 0.68978E+01, tol = 0.80166E+01, time = 11.90 | CG iter. 49 -- res = 0.58712E+01, tol = 0.80166E+01, time = 5.72 | CG iter. 50 -- res = 0.47864E+01, tol = 0.80166E+01, time = 6.09 | Final CG iter 51 -- res = 0.47864E+01, tol = 0.80166E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6732136.010 | Old band monopole 8750523.181 | Change to band monopole -2018387.170 | Change to component monopole 2018378.489 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.47 | CG iter. 1 -- res = 0.18691E+05, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.35613E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.13293E+01, tol = 0.47627E+18, time = 2.27 | CG iter. 4 -- res = 0.35845E-02, tol = 0.47627E+18, time = 2.32 | Final CG iter 5 -- res = 0.13048E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6732107.054 | (Sampled value in CG: 6691453.109 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495334 | New value = 1.556552 | poltype: 2 pol: 1 CPU time specind = 2.3188829E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526317 | New value = 1.498469 | poltype: 2 pol: 2 CPU time specind = 7.0879459E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.24835E+08, tol = 0.47677E+04, time = 6.67 | CG iter. 2 -- res = 0.54168E+07, tol = 0.47677E+04, time = 6.89 | CG iter. 3 -- res = 0.85424E+06, tol = 0.47677E+04, time = 6.70 | CG iter. 4 -- res = 0.35139E+06, tol = 0.47677E+04, time = 6.71 | CG iter. 5 -- res = 0.15363E+06, tol = 0.47677E+04, time = 6.28 | CG iter. 6 -- res = 0.82341E+05, tol = 0.47677E+04, time = 6.68 | CG iter. 7 -- res = 0.45061E+05, tol = 0.47677E+04, time = 6.61 | CG iter. 8 -- res = 0.21188E+05, tol = 0.47677E+04, time = 6.68 | CG iter. 9 -- res = 0.91855E+04, tol = 0.47677E+04, time = 6.61 | CG iter. 10 -- res = 0.37745E+04, tol = 0.47677E+04, time = 7.02 | CG iter. 11 -- res = 0.17131E+04, tol = 0.47677E+04, time = 6.49 | CG iter. 12 -- res = 0.89866E+03, tol = 0.47677E+04, time = 6.59 | CG iter. 13 -- res = 0.50333E+03, tol = 0.47677E+04, time = 6.80 | CG iter. 14 -- res = 0.27789E+03, tol = 0.47677E+04, time = 6.50 | CG iter. 15 -- res = 0.14285E+03, tol = 0.47677E+04, time = 6.56 | CG iter. 16 -- res = 0.66926E+02, tol = 0.47677E+04, time = 6.99 | CG iter. 17 -- res = 0.31518E+02, tol = 0.47677E+04, time = 6.64 | CG iter. 18 -- res = 0.15874E+02, tol = 0.47677E+04, time = 6.63 | CG iter. 19 -- res = 0.86786E+01, tol = 0.47677E+04, time = 6.71 | CG iter. 20 -- res = 0.49687E+01, tol = 0.47677E+04, time = 6.76 | CG iter. 21 -- res = 0.27185E+01, tol = 0.47677E+04, time = 6.70 | CG iter. 22 -- res = 0.13854E+01, tol = 0.47677E+04, time = 6.97 | CG iter. 23 -- res = 0.69150E+00, tol = 0.47677E+04, time = 6.50 | CG iter. 24 -- res = 0.35673E+00, tol = 0.47677E+04, time = 6.47 | CG iter. 25 -- res = 0.19510E+00, tol = 0.47677E+04, time = 12.85 | CG iter. 26 -- res = 0.11215E+00, tol = 0.47677E+04, time = 6.55 | CG iter. 27 -- res = 0.63932E-01, tol = 0.47677E+04, time = 7.08 | CG iter. 28 -- res = 0.34191E-01, tol = 0.47677E+04, time = 6.68 | CG iter. 29 -- res = 0.18023E-01, tol = 0.47677E+04, time = 6.80 | CG iter. 30 -- res = 0.93152E-02, tol = 0.47677E+04, time = 6.95 | CG iter. 31 -- res = 0.51102E-02, tol = 0.47677E+04, time = 6.61 | CG iter. 32 -- res = 0.28513E-02, tol = 0.47677E+04, time = 6.63 | CG iter. 33 -- res = 0.15860E-02, tol = 0.47677E+04, time = 6.99 | CG iter. 34 -- res = 0.85283E-03, tol = 0.47677E+04, time = 6.54 | CG iter. 35 -- res = 0.45019E-03, tol = 0.47677E+04, time = 6.77 | Final CG iter 36 -- res = 0.45019E-03, tol = 0.47677E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.656 2.734 | New value -5.419 | Old value -0.656 | Difference -4.762 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.11820E+07, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.41850E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.14173E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.26306E-02, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.71031E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6732107.054 | (Sampled value in CG: 6692421.804 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.520806 | New value = -3.515124 | poltype: 1 pol: 1 CPU time specind = 2.4925947E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.42 | CG iter. 1 -- res = 0.26962E+07, tol = 0.30718E+01, time = 2.74 | CG iter. 2 -- res = 0.94064E+06, tol = 0.30718E+01, time = 2.67 | CG iter. 3 -- res = 0.20168E+06, tol = 0.30718E+01, time = 2.71 | CG iter. 4 -- res = 0.93071E+05, tol = 0.30718E+01, time = 3.60 | CG iter. 5 -- res = 0.55274E+05, tol = 0.30718E+01, time = 3.67 | CG iter. 6 -- res = 0.24912E+05, tol = 0.30718E+01, time = 3.11 | CG iter. 7 -- res = 0.91368E+04, tol = 0.30718E+01, time = 3.09 | CG iter. 8 -- res = 0.40720E+04, tol = 0.30718E+01, time = 2.87 | CG iter. 9 -- res = 0.18667E+04, tol = 0.30718E+01, time = 2.39 | CG iter. 10 -- res = 0.73260E+03, tol = 0.30718E+01, time = 2.84 | CG iter. 11 -- res = 0.29620E+03, tol = 0.30718E+01, time = 2.90 | CG iter. 12 -- res = 0.15250E+03, tol = 0.30718E+01, time = 2.64 | CG iter. 13 -- res = 0.77947E+02, tol = 0.30718E+01, time = 2.88 | CG iter. 14 -- res = 0.39671E+02, tol = 0.30718E+01, time = 2.87 | CG iter. 15 -- res = 0.18414E+02, tol = 0.30718E+01, time = 2.80 | CG iter. 16 -- res = 0.82264E+01, tol = 0.30718E+01, time = 2.44 | CG iter. 17 -- res = 0.33871E+01, tol = 0.30718E+01, time = 2.76 | CG iter. 18 -- res = 0.15933E+01, tol = 0.30718E+01, time = 3.11 | CG iter. 19 -- res = 0.76277E+00, tol = 0.30718E+01, time = 2.79 | CG iter. 20 -- res = 0.39535E+00, tol = 0.30718E+01, time = 2.54 | CG iter. 21 -- res = 0.20521E+00, tol = 0.30718E+01, time = 2.93 | CG iter. 22 -- res = 0.95731E-01, tol = 0.30718E+01, time = 2.86 | CG iter. 23 -- res = 0.44241E-01, tol = 0.30718E+01, time = 2.75 | CG iter. 24 -- res = 0.20047E-01, tol = 0.30718E+01, time = 2.73 | CG iter. 25 -- res = 0.92256E-02, tol = 0.30718E+01, time = 3.02 | CG iter. 26 -- res = 0.46885E-02, tol = 0.30718E+01, time = 2.87 | CG iter. 27 -- res = 0.24395E-02, tol = 0.30718E+01, time = 2.85 | CG iter. 28 -- res = 0.12123E-02, tol = 0.30718E+01, time = 2.80 | CG iter. 29 -- res = 0.56269E-03, tol = 0.30718E+01, time = 2.84 | CG iter. 30 -- res = 0.26006E-03, tol = 0.30718E+01, time = 2.71 | CG iter. 31 -- res = 0.12089E-03, tol = 0.30718E+01, time = 2.53 | CG iter. 32 -- res = 0.61417E-04, tol = 0.30718E+01, time = 2.92 | CG iter. 33 -- res = 0.30783E-04, tol = 0.30718E+01, time = 2.79 | CG iter. 34 -- res = 0.15390E-04, tol = 0.30718E+01, time = 2.92 | CG iter. 35 -- res = 0.77417E-05, tol = 0.30718E+01, time = 2.89 | CG iter. 36 -- res = 0.36162E-05, tol = 0.30718E+01, time = 2.87 | CG iter. 37 -- res = 0.16301E-05, tol = 0.30718E+01, time = 2.85 | CG iter. 38 -- res = 0.82360E-06, tol = 0.30718E+01, time = 2.83 | CG iter. 39 -- res = 0.41024E-06, tol = 0.30718E+01, time = 3.03 | CG iter. 40 -- res = 0.20368E-06, tol = 0.30718E+01, time = 2.74 | CG iter. 41 -- res = 0.10399E-06, tol = 0.30718E+01, time = 2.80 | CG iter. 42 -- res = 0.50207E-07, tol = 0.30718E+01, time = 2.92 | CG iter. 43 -- res = 0.22454E-07, tol = 0.30718E+01, time = 2.79 | CG iter. 44 -- res = 0.10641E-07, tol = 0.30718E+01, time = 2.77 | CG iter. 45 -- res = 0.51307E-08, tol = 0.30718E+01, time = 2.90 | CG iter. 46 -- res = 0.25498E-08, tol = 0.30718E+01, time = 3.05 | CG iter. 47 -- res = 0.12580E-08, tol = 0.30718E+01, time = 2.70 | CG iter. 48 -- res = 0.62773E-09, tol = 0.30718E+01, time = 2.85 | CG iter. 49 -- res = 0.28156E-09, tol = 0.30718E+01, time = 2.67 | CG iter. 50 -- res = 0.12865E-09, tol = 0.30718E+01, time = 2.94 | Final CG iter 51 -- res = 0.12865E-09, tol = 0.30718E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.368 4.264 | New value -4.880 | Old value 0.368 | Difference -5.247 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.27169E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.30467E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.12322E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.35910E-02, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.41039E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6732107.054 | (Sampled value in CG: 6703142.506 ) | CPU time specind = 1208.397 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.70516E+08, tol = 0.57589E+04, time = 12.10 | CG iter. 2 -- res = 0.59054E+08, tol = 0.57589E+04, time = 12.18 | CG iter. 3 -- res = 0.15410E+08, tol = 0.57589E+04, time = 12.66 | CG iter. 4 -- res = 0.66953E+07, tol = 0.57589E+04, time = 12.25 | CG iter. 5 -- res = 0.39983E+07, tol = 0.57589E+04, time = 11.80 | CG iter. 6 -- res = 0.22889E+07, tol = 0.57589E+04, time = 12.07 | CG iter. 7 -- res = 0.13720E+07, tol = 0.57589E+04, time = 13.08 | CG iter. 8 -- res = 0.88980E+06, tol = 0.57589E+04, time = 12.33 | CG iter. 9 -- res = 0.55407E+06, tol = 0.57589E+04, time = 11.95 | CG iter. 10 -- res = 0.32556E+06, tol = 0.57589E+04, time = 11.73 | CG iter. 11 -- res = 0.17565E+06, tol = 0.57589E+04, time = 11.91 | CG iter. 12 -- res = 0.95069E+05, tol = 0.57589E+04, time = 11.87 | CG iter. 13 -- res = 0.53226E+05, tol = 0.57589E+04, time = 12.09 | CG iter. 14 -- res = 0.31745E+05, tol = 0.57589E+04, time = 11.93 | CG iter. 15 -- res = 0.21227E+05, tol = 0.57589E+04, time = 11.84 | CG iter. 16 -- res = 0.15793E+05, tol = 0.57589E+04, time = 12.56 | CG iter. 17 -- res = 0.12514E+05, tol = 0.57589E+04, time = 12.21 | CG iter. 18 -- res = 0.98536E+04, tol = 0.57589E+04, time = 12.09 | CG iter. 19 -- res = 0.76903E+04, tol = 0.57589E+04, time = 12.09 | CG iter. 20 -- res = 0.61909E+04, tol = 0.57589E+04, time = 12.42 | CG iter. 21 -- res = 0.53098E+04, tol = 0.57589E+04, time = 12.07 | CG iter. 22 -- res = 0.51993E+04, tol = 0.57589E+04, time = 12.29 | CG iter. 23 -- res = 0.55086E+04, tol = 0.57589E+04, time = 12.11 | CG iter. 24 -- res = 0.61277E+04, tol = 0.57589E+04, time = 18.17 | CG iter. 25 -- res = 0.63136E+04, tol = 0.57589E+04, time = 12.11 | CG iter. 26 -- res = 0.57124E+04, tol = 0.57589E+04, time = 11.93 | CG iter. 27 -- res = 0.47575E+04, tol = 0.57589E+04, time = 12.17 | CG iter. 28 -- res = 0.37892E+04, tol = 0.57589E+04, time = 11.51 | CG iter. 29 -- res = 0.30393E+04, tol = 0.57589E+04, time = 12.32 | CG iter. 30 -- res = 0.25217E+04, tol = 0.57589E+04, time = 12.46 | CG iter. 31 -- res = 0.21440E+04, tol = 0.57589E+04, time = 13.77 | CG iter. 32 -- res = 0.17674E+04, tol = 0.57589E+04, time = 12.97 | CG iter. 33 -- res = 0.13979E+04, tol = 0.57589E+04, time = 12.11 | CG iter. 34 -- res = 0.11046E+04, tol = 0.57589E+04, time = 11.90 | CG iter. 35 -- res = 0.92209E+03, tol = 0.57589E+04, time = 12.27 | CG iter. 36 -- res = 0.82874E+03, tol = 0.57589E+04, time = 12.70 | CG iter. 37 -- res = 0.81871E+03, tol = 0.57589E+04, time = 11.75 | CG iter. 38 -- res = 0.82256E+03, tol = 0.57589E+04, time = 12.11 | CG iter. 39 -- res = 0.79134E+03, tol = 0.57589E+04, time = 11.96 | CG iter. 40 -- res = 0.70429E+03, tol = 0.57589E+04, time = 11.89 | CG iter. 41 -- res = 0.60421E+03, tol = 0.57589E+04, time = 12.73 | CG iter. 42 -- res = 0.50376E+03, tol = 0.57589E+04, time = 11.95 | CG iter. 43 -- res = 0.42810E+03, tol = 0.57589E+04, time = 11.95 | CG iter. 44 -- res = 0.38812E+03, tol = 0.57589E+04, time = 11.83 | CG iter. 45 -- res = 0.35359E+03, tol = 0.57589E+04, time = 12.43 | CG iter. 46 -- res = 0.31164E+03, tol = 0.57589E+04, time = 12.14 | CG iter. 47 -- res = 0.27286E+03, tol = 0.57589E+04, time = 12.43 | CG iter. 48 -- res = 0.23141E+03, tol = 0.57589E+04, time = 19.01 | CG iter. 49 -- res = 0.19611E+03, tol = 0.57589E+04, time = 12.13 | CG iter. 50 -- res = 0.17659E+03, tol = 0.57589E+04, time = 11.82 | CG iter. 51 -- res = 0.16805E+03, tol = 0.57589E+04, time = 12.01 | CG iter. 52 -- res = 0.16198E+03, tol = 0.57589E+04, time = 12.36 | CG iter. 53 -- res = 0.15341E+03, tol = 0.57589E+04, time = 11.96 | CG iter. 54 -- res = 0.14138E+03, tol = 0.57589E+04, time = 12.36 | CG iter. 55 -- res = 0.12781E+03, tol = 0.57589E+04, time = 14.05 | CG iter. 56 -- res = 0.11391E+03, tol = 0.57589E+04, time = 12.43 | CG iter. 57 -- res = 0.10090E+03, tol = 0.57589E+04, time = 11.86 | CG iter. 58 -- res = 0.92939E+02, tol = 0.57589E+04, time = 12.24 | CG iter. 59 -- res = 0.87292E+02, tol = 0.57589E+04, time = 12.05 | CG iter. 60 -- res = 0.81257E+02, tol = 0.57589E+04, time = 12.13 | Final CG iter 61 -- res = 0.81257E+02, tol = 0.57589E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.946 ( -230.106 -2231.381 2514.083 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11296026.520 | Old band monopole 6732136.010 | Change to band monopole 4563890.509 | Change to component monopole -4563870.879 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.439 2.725 | New value 3.649 | Old value -5.439 | Difference 9.088 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.217 ( 7.463 13.731 -13.717 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.098 4.751 | New value -2.678 | Old value -0.098 | Difference -2.580 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.44682E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.96188E+02, tol = 0.47627E+18, time = 2.31 | CG iter. 3 -- res = 0.37476E+01, tol = 0.47627E+18, time = 2.57 | CG iter. 4 -- res = 0.59582E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.13772E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11295977.933 | (Sampled value in CG: 11274054.455 ) | Chain = 1 -- chisq = 0.81525644E+09 | Chain = 1 -- wall time = 5712.596 sec Available RAM: MemAvailable: 377740864 kB Available Swap: SwapFree: 1130400204 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 366 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442657 | --> Sampling calibration, mode = relcal | relcal = 1.3423623E-02 7.6590478E-04 -1.6060774E-03 -1.2583450E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1675959 0.1831905 9406375.29777873 | BP delta = 0.1675959 0.1817907 9406372.81614106 | BP chisq diff = -2.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632626 | --> Sampling calibration, mode = relcal | relcal = -2.8222529E-03 -7.0338970E-04 1.6781401E-03 1.6141993E-03 -4.0676902E-04 6.4007222E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5799635 15216956.3008977 | BP delta = 0.0000000E+00 -0.5788043 15216955.8314491 | BP chisq diff = -0.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102599 | --> Sampling calibration, mode = relcal | relcal = 3.7085768E-02 1.3718437E-02 5.7512932E-03 -7.1665095E-03 8.2467888E-03 2.3965489E-03 -7.6010157E-03 -7.1808058E-03 -1.5302843E-02 -1.4799182E-02 -3.0538042E-03 -1.2094674E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.195416 132207433.943802 | BP delta = 0.0000000E+00 -1.210207 132207435.065398 | BP chisq diff = 1.1, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17834574113190 | --> Sampling calibration, mode = relcal | relcal = -7.4862584E-02 -5.8164768E-02 9.1613956E-02 4.1413393E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1795111E-04 3.6533091E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0337E-05 | 2: delta_r/delta_0: 8.0856E-07 | 3: delta_s/delta_0: 2.5191E-07 | 4: delta_r/delta_0: 1.2764E-08 | 5: delta_s/delta_0: 1.4705E-08 | 6: delta_r/delta_0: 3.5556E-09 | 7: delta_s/delta_0: 2.9539E-10 | 8: delta_r/delta_0: 1.2690E-10 | 9: delta_s/delta_0: 3.8704E-08 | 10: delta_r/delta_0: 1.2699E-08 | 11: delta_s/delta_0: 9.2001E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.275890263838315E-003 2.747267914025604E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0337E-05 | 2: delta_r/delta_0: 8.0857E-07 | 3: delta_s/delta_0: 2.5191E-07 | 4: delta_r/delta_0: 1.2764E-08 | 5: delta_s/delta_0: 1.4705E-08 | 6: delta_r/delta_0: 3.5555E-09 | 7: delta_s/delta_0: 2.9540E-10 | 8: delta_r/delta_0: 1.2690E-10 | 9: delta_s/delta_0: 3.8706E-08 | 10: delta_r/delta_0: 1.2700E-08 | 11: delta_s/delta_0: 9.2000E-11 | Reached bicg-stab tolerance | BP delta = 8.8506334E-02 0.1111924 3537807.11878665 | BP delta = 8.8506334E-02 0.1111179 3537921.66084411 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02619145 | --> Sampling calibration, mode = relcal | relcal = -0.1066716 -9.5568299E-02 0.1449453 5.7294663E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8580627E-03 1.5476822E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2274E-05 | 2: delta_r/delta_0: 1.2321E-06 | 3: delta_s/delta_0: 2.4230E-07 | 4: delta_r/delta_0: 5.7685E-08 | 5: delta_s/delta_0: 1.7732E-08 | 6: delta_r/delta_0: 7.8660E-09 | 7: delta_s/delta_0: 1.1805E-08 | 8: delta_r/delta_0: 1.2917E-09 | 9: delta_s/delta_0: 1.0951E-09 | 10: delta_r/delta_0: 1.9178E-10 | 11: delta_s/delta_0: 1.9313E-09 | 12: delta_r/delta_0: 2.6285E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.846516579156814E-003 2.810295316209380E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2274E-05 | 2: delta_r/delta_0: 1.2321E-06 | 3: delta_s/delta_0: 2.4230E-07 | 4: delta_r/delta_0: 5.7685E-08 | 5: delta_s/delta_0: 1.7732E-08 | 6: delta_r/delta_0: 7.8660E-09 | 7: delta_s/delta_0: 1.1805E-08 | 8: delta_r/delta_0: 1.2917E-09 | 9: delta_s/delta_0: 1.0951E-09 | 10: delta_r/delta_0: 1.9178E-10 | 11: delta_s/delta_0: 1.9314E-09 | 12: delta_r/delta_0: 2.6285E-11 | Reached bicg-stab tolerance | BP delta = -0.2480133 -0.2201192 2841637.18400779 | BP delta = -0.2480133 -0.2213271 2841636.94373290 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81253128 | --> Sampling calibration, mode = relcal | relcal = 0.2955864 0.2249437 -0.2838389 -0.2366912 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4440396E-05 5.1169661E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1843E-03 | 2: delta_r/delta_0: 5.0482E-05 | 3: delta_s/delta_0: 1.5744E-05 | 4: delta_r/delta_0: 1.6187E-06 | 5: delta_s/delta_0: 1.7945E-06 | 6: delta_r/delta_0: 1.5576E-07 | 7: delta_s/delta_0: 5.0401E-08 | 8: delta_r/delta_0: 2.5105E-08 | 9: delta_s/delta_0: 7.5419E-07 | 10: delta_r/delta_0: 3.3847E-09 | 11: delta_s/delta_0: 3.2029E-09 | 12: delta_r/delta_0: 1.0731E-09 | 13: delta_s/delta_0: 4.0599E-10 | 14: delta_r/delta_0: 1.6473E-10 | 15: delta_s/delta_0: 2.7681E-10 | 16: delta_r/delta_0: 1.2141E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.976191100368263E-002 4.020246298647483E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1844E-03 | 2: delta_r/delta_0: 5.0484E-05 | 3: delta_s/delta_0: 1.5744E-05 | 4: delta_r/delta_0: 1.6187E-06 | 5: delta_s/delta_0: 1.7945E-06 | 6: delta_r/delta_0: 1.5576E-07 | 7: delta_s/delta_0: 5.0400E-08 | 8: delta_r/delta_0: 2.5104E-08 | 9: delta_s/delta_0: 7.5418E-07 | 10: delta_r/delta_0: 3.3851E-09 | 11: delta_s/delta_0: 3.2030E-09 | 12: delta_r/delta_0: 1.0731E-09 | 13: delta_s/delta_0: 4.0597E-10 | 14: delta_r/delta_0: 1.6472E-10 | 15: delta_s/delta_0: 2.7689E-10 | 16: delta_r/delta_0: 1.2141E-11 | Reached bicg-stab tolerance | BP delta = -8.2342148E-02 -0.1247935 2827516.81385258 | BP delta = -8.2342148E-02 -0.1343432 2827515.59702027 | BP chisq diff = -1.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95950968 | --> Sampling calibration, mode = relcal | relcal = 0.1065010 0.1396374 -0.1103610 -0.1357774 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4946008E-03 1.3656508E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4460E-03 | 2: delta_r/delta_0: 5.9070E-05 | 3: delta_s/delta_0: 3.1380E-05 | 4: delta_r/delta_0: 2.5210E-06 | 5: delta_s/delta_0: 1.1660E-06 | 6: delta_r/delta_0: 3.3025E-07 | 7: delta_s/delta_0: 7.0584E-07 | 8: delta_r/delta_0: 6.7390E-08 | 9: delta_s/delta_0: 1.4257E-05 | 10: delta_r/delta_0: 5.2891E-06 | 11: delta_s/delta_0: 4.4854E-09 | 12: delta_r/delta_0: 2.4106E-09 | 13: delta_s/delta_0: 1.3491E-09 | 14: delta_r/delta_0: 7.7783E-10 | 15: delta_s/delta_0: 1.3971E-10 | 16: delta_r/delta_0: 7.6397E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.048440544709532E-002 3.695784286182055E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.4467E-03 | 2: delta_r/delta_0: 5.9084E-05 | 3: delta_s/delta_0: 3.1387E-05 | 4: delta_r/delta_0: 2.5217E-06 | 5: delta_s/delta_0: 1.1663E-06 | 6: delta_r/delta_0: 3.3032E-07 | 7: delta_s/delta_0: 7.0607E-07 | 8: delta_r/delta_0: 6.7409E-08 | 9: delta_s/delta_0: 1.4434E-05 | 10: delta_r/delta_0: 5.3531E-06 | 11: delta_s/delta_0: 4.4868E-09 | 12: delta_r/delta_0: 2.4114E-09 | 13: delta_s/delta_0: 1.3497E-09 | 14: delta_r/delta_0: 7.7824E-10 | 15: delta_s/delta_0: 1.3963E-10 | 16: delta_r/delta_0: 7.6447E-11 | Reached bicg-stab tolerance | BP delta = 0.2237077 0.3239917 3003934.69111461 | BP delta = 0.2237077 0.3180288 3003969.55849669 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52162755 | --> Sampling calibration, mode = relcal | relcal = -5.1077940E-02 -3.6988682E-03 2.7294049E-02 2.7482755E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.7027652E-04 3.4706255E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8988E-05 | 2: delta_r/delta_0: 4.5218E-06 | 3: delta_s/delta_0: 5.8047E-07 | 4: delta_r/delta_0: 1.4942E-07 | 5: delta_s/delta_0: 6.9773E-08 | 6: delta_r/delta_0: 2.9687E-08 | 7: delta_s/delta_0: 4.5485E-08 | 8: delta_r/delta_0: 3.0675E-08 | 9: delta_s/delta_0: 3.1527E-09 | 10: delta_r/delta_0: 1.7796E-09 | 11: delta_s/delta_0: 3.0575E-09 | 12: delta_r/delta_0: 2.4870E-10 | 13: delta_s/delta_0: 1.9434E-04 | 14: delta_r/delta_0: 6.0011E-05 | 15: delta_s/delta_0: 1.3380E-10 | 16: delta_r/delta_0: 6.2918E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.168972017539099E-002 5.482677227642314E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8988E-05 | 2: delta_r/delta_0: 4.5218E-06 | 3: delta_s/delta_0: 5.8047E-07 | 4: delta_r/delta_0: 1.4942E-07 | 5: delta_s/delta_0: 6.9773E-08 | 6: delta_r/delta_0: 2.9687E-08 | 7: delta_s/delta_0: 4.5485E-08 | 8: delta_r/delta_0: 3.0675E-08 | 9: delta_s/delta_0: 3.1527E-09 | 10: delta_r/delta_0: 1.7796E-09 | 11: delta_s/delta_0: 3.0577E-09 | 12: delta_r/delta_0: 2.4868E-10 | 13: delta_s/delta_0: 1.9139E-04 | 14: delta_r/delta_0: 5.9102E-05 | 15: delta_s/delta_0: 1.3382E-10 | 16: delta_r/delta_0: 6.2927E-11 | Reached bicg-stab tolerance | BP delta = 7.6412298E-02 0.1678850 2435295.89507400 | BP delta = 7.6412298E-02 0.1632657 2435295.73199078 | BP chisq diff = -0.2, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42160278 | --> Sampling calibration, mode = relcal | relcal = 4.5527119E-02 3.9626360E-02 -2.8246764E-02 -5.6906711E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6317774E-03 6.6965949E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2797E-05 | 2: delta_r/delta_0: 3.6035E-06 | 3: delta_s/delta_0: 2.2885E-06 | 4: delta_r/delta_0: 3.5971E-07 | 5: delta_s/delta_0: 6.6433E-08 | 6: delta_r/delta_0: 3.6973E-08 | 7: delta_s/delta_0: 3.5836E-07 | 8: delta_r/delta_0: 3.8994E-09 | 9: delta_s/delta_0: 2.7401E-09 | 10: delta_r/delta_0: 1.0392E-09 | 11: delta_s/delta_0: 8.3855E-10 | 12: delta_r/delta_0: 5.6116E-10 | 13: delta_s/delta_0: 3.6523E-09 | 14: delta_r/delta_0: 3.0283E-10 | 15: delta_s/delta_0: 2.6429E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.433231183054190E-002 4.995305281737368E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2797E-05 | 2: delta_r/delta_0: 3.6035E-06 | 3: delta_s/delta_0: 2.2885E-06 | 4: delta_r/delta_0: 3.5971E-07 | 5: delta_s/delta_0: 6.6432E-08 | 6: delta_r/delta_0: 3.6973E-08 | 7: delta_s/delta_0: 3.5836E-07 | 8: delta_r/delta_0: 3.8994E-09 | 9: delta_s/delta_0: 2.7400E-09 | 10: delta_r/delta_0: 1.0392E-09 | 11: delta_s/delta_0: 8.3852E-10 | 12: delta_r/delta_0: 5.6118E-10 | 13: delta_s/delta_0: 3.6521E-09 | 14: delta_r/delta_0: 3.0282E-10 | 15: delta_s/delta_0: 2.6428E-11 | Reached bicg-stab tolerance | BP delta = 8.5906379E-02 -2.9792836E-02 2321957.32037813 | BP delta = 8.5906379E-02 -3.5755899E-02 2321954.90415062 | BP chisq diff = -2.4, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28160006 | --> Sampling calibration, mode = relcal | relcal = 2.4152355E-02 4.5114074E-02 -2.3362735E-02 -4.5903694E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1571748E-02 3.0080772E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0687E-04 | 2: delta_r/delta_0: 8.7839E-06 | 3: delta_s/delta_0: 1.3524E-06 | 4: delta_r/delta_0: 2.0778E-07 | 5: delta_s/delta_0: 9.0615E-08 | 6: delta_r/delta_0: 1.6734E-08 | 7: delta_s/delta_0: 7.9786E-09 | 8: delta_r/delta_0: 4.9118E-09 | 9: delta_s/delta_0: 1.6567E-08 | 10: delta_r/delta_0: 3.2654E-09 | 11: delta_s/delta_0: 7.4517E-09 | 12: delta_r/delta_0: 2.9363E-09 | 13: delta_s/delta_0: 1.5015E-10 | 14: delta_r/delta_0: 9.5829E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.136209130462590E-002 7.844309865750963E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0687E-04 | 2: delta_r/delta_0: 8.7839E-06 | 3: delta_s/delta_0: 1.3524E-06 | 4: delta_r/delta_0: 2.0778E-07 | 5: delta_s/delta_0: 9.0618E-08 | 6: delta_r/delta_0: 1.6734E-08 | 7: delta_s/delta_0: 7.9785E-09 | 8: delta_r/delta_0: 4.9118E-09 | 9: delta_s/delta_0: 1.6566E-08 | 10: delta_r/delta_0: 3.2654E-09 | 11: delta_s/delta_0: 7.4519E-09 | 12: delta_r/delta_0: 2.9363E-09 | 13: delta_s/delta_0: 1.5015E-10 | 14: delta_r/delta_0: 9.5827E-11 | Reached bicg-stab tolerance | BP delta = -0.4091506 -0.6161200 2489984.07532635 | BP delta = -0.4091506 -0.6077135 2489982.44150248 | BP chisq diff = -1.6, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29382918 | --> Sampling calibration, mode = relcal | relcal = 5.9979281E-04 1.0334753E-02 -3.9184950E-03 -7.0160516E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4285045E-02 1.3935061E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3455E-04 | 2: delta_r/delta_0: 1.1232E-05 | 3: delta_s/delta_0: 1.7960E-06 | 4: delta_r/delta_0: 2.7055E-07 | 5: delta_s/delta_0: 1.0338E-07 | 6: delta_r/delta_0: 2.2766E-08 | 7: delta_s/delta_0: 1.0172E-08 | 8: delta_r/delta_0: 6.8056E-09 | 9: delta_s/delta_0: 6.3065E-09 | 10: delta_r/delta_0: 4.4238E-09 | 11: delta_s/delta_0: 3.6688E-07 | 12: delta_r/delta_0: 3.8117E-09 | 13: delta_s/delta_0: 5.1822E-09 | 14: delta_r/delta_0: 2.3807E-09 | 15: delta_s/delta_0: 7.2642E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.128707854457799E-002 8.309474928131740E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3455E-04 | 2: delta_r/delta_0: 1.1232E-05 | 3: delta_s/delta_0: 1.7960E-06 | 4: delta_r/delta_0: 2.7056E-07 | 5: delta_s/delta_0: 1.0338E-07 | 6: delta_r/delta_0: 2.2766E-08 | 7: delta_s/delta_0: 1.0172E-08 | 8: delta_r/delta_0: 6.8056E-09 | 9: delta_s/delta_0: 6.3065E-09 | 10: delta_r/delta_0: 4.4239E-09 | 11: delta_s/delta_0: 3.6684E-07 | 12: delta_r/delta_0: 3.8103E-09 | 13: delta_s/delta_0: 5.1815E-09 | 14: delta_r/delta_0: 2.3800E-09 | 15: delta_s/delta_0: 7.2638E-11 | Reached bicg-stab tolerance | BP delta = -0.8695599 -0.8249362 2737749.93365743 | BP delta = -0.8695599 -0.8265494 2737748.26571604 | BP chisq diff = -1.7, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26510721 | --> Sampling calibration, mode = relcal | relcal = -5.5938899E-03 1.4958040E-02 -2.2656617E-03 -7.0984880E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6488862E-03 3.2942358E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4751E-04 | 2: delta_r/delta_0: 1.1079E-05 | 3: delta_s/delta_0: 1.4166E-06 | 4: delta_r/delta_0: 3.2080E-07 | 5: delta_s/delta_0: 7.2750E-08 | 6: delta_r/delta_0: 1.5624E-08 | 7: delta_s/delta_0: 5.9436E-08 | 8: delta_r/delta_0: 3.8600E-09 | 9: delta_s/delta_0: 3.0577E-09 | 10: delta_r/delta_0: 2.2388E-09 | 11: delta_s/delta_0: 2.0515E-06 | 12: delta_r/delta_0: 3.0914E-08 | 13: delta_s/delta_0: 3.0587E-10 | 14: delta_r/delta_0: 1.2467E-10 | 15: delta_s/delta_0: 7.3642E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.114886152631549E-003 9.152151199926163E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4751E-04 | 2: delta_r/delta_0: 1.1079E-05 | 3: delta_s/delta_0: 1.4166E-06 | 4: delta_r/delta_0: 3.2078E-07 | 5: delta_s/delta_0: 7.2740E-08 | 6: delta_r/delta_0: 1.5629E-08 | 7: delta_s/delta_0: 5.9444E-08 | 8: delta_r/delta_0: 3.8612E-09 | 9: delta_s/delta_0: 3.0582E-09 | 10: delta_r/delta_0: 2.2391E-09 | 11: delta_s/delta_0: 2.0508E-06 | 12: delta_r/delta_0: 3.0911E-08 | 13: delta_s/delta_0: 3.0604E-10 | 14: delta_r/delta_0: 1.2483E-10 | 15: delta_s/delta_0: 7.3769E-11 | Reached bicg-stab tolerance | BP delta = 0.4244503 0.4338336 2516674.63315565 | BP delta = 0.4244503 0.4547050 2516674.21427259 | BP chisq diff = -0.4, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25657755 | --> Sampling calibration, mode = relcal | relcal = -3.1628247E-02 -2.5933204E-02 3.6937732E-02 2.0623721E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3871498E-02 1.8422510E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4475E-04 | 2: delta_r/delta_0: 1.2038E-05 | 3: delta_s/delta_0: 1.8264E-06 | 4: delta_r/delta_0: 4.7438E-07 | 5: delta_s/delta_0: 1.7603E-07 | 6: delta_r/delta_0: 3.3820E-08 | 7: delta_s/delta_0: 1.7475E-08 | 8: delta_r/delta_0: 7.9534E-09 | 9: delta_s/delta_0: 9.4628E-08 | 10: delta_r/delta_0: 5.8157E-09 | 11: delta_s/delta_0: 7.9029E-09 | 12: delta_r/delta_0: 4.4966E-09 | 13: delta_s/delta_0: 3.4320E-10 | 14: delta_r/delta_0: 1.7934E-10 | 15: delta_s/delta_0: 1.3770E-10 | 16: delta_r/delta_0: 9.4415E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.291595448212070E-002 8.673912280276744E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4475E-04 | 2: delta_r/delta_0: 1.2038E-05 | 3: delta_s/delta_0: 1.8265E-06 | 4: delta_r/delta_0: 4.7438E-07 | 5: delta_s/delta_0: 1.7602E-07 | 6: delta_r/delta_0: 3.3820E-08 | 7: delta_s/delta_0: 1.7475E-08 | 8: delta_r/delta_0: 7.9534E-09 | 9: delta_s/delta_0: 9.4653E-08 | 10: delta_r/delta_0: 5.8160E-09 | 11: delta_s/delta_0: 7.8944E-09 | 12: delta_r/delta_0: 4.4913E-09 | 13: delta_s/delta_0: 3.4338E-10 | 14: delta_r/delta_0: 1.7922E-10 | 15: delta_s/delta_0: 1.3769E-10 | 16: delta_r/delta_0: 9.4512E-11 | Reached bicg-stab tolerance | BP delta = -0.9082144 -1.110513 2706313.40593570 | BP delta = -0.9082144 -1.090633 2706326.95832009 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183057 | New value = -3.208813 | poltype: 2 pol: 1 CPU time specind = 2.3689985E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187720 | New value = -3.133927 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195385 | New value = -3.207228 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127760 | New value = -3.084119 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115991 | New value = -3.117935 | poltype: 2 pol: 2 CPU time specind = 2.7209044E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 25.09 | CG iter. 1 -- res = 0.13539E+08, tol = 0.62402E+01, time = 5.82 | CG iter. 2 -- res = 0.30598E+06, tol = 0.62402E+01, time = 5.43 | CG iter. 3 -- res = 0.43060E+05, tol = 0.62402E+01, time = 5.47 | CG iter. 4 -- res = 0.21039E+05, tol = 0.62402E+01, time = 5.51 | CG iter. 5 -- res = 0.11303E+05, tol = 0.62402E+01, time = 5.70 | CG iter. 6 -- res = 0.63793E+04, tol = 0.62402E+01, time = 5.36 | CG iter. 7 -- res = 0.44297E+04, tol = 0.62402E+01, time = 5.74 | CG iter. 8 -- res = 0.33687E+04, tol = 0.62402E+01, time = 5.59 | CG iter. 9 -- res = 0.31015E+04, tol = 0.62402E+01, time = 5.39 | CG iter. 10 -- res = 0.35002E+04, tol = 0.62402E+01, time = 5.74 | CG iter. 11 -- res = 0.32735E+04, tol = 0.62402E+01, time = 5.33 | CG iter. 12 -- res = 0.24358E+04, tol = 0.62402E+01, time = 5.59 | CG iter. 13 -- res = 0.16847E+04, tol = 0.62402E+01, time = 5.66 | CG iter. 14 -- res = 0.13763E+04, tol = 0.62402E+01, time = 5.63 | CG iter. 15 -- res = 0.11835E+04, tol = 0.62402E+01, time = 5.60 | CG iter. 16 -- res = 0.95162E+03, tol = 0.62402E+01, time = 5.12 | CG iter. 17 -- res = 0.73354E+03, tol = 0.62402E+01, time = 5.77 | CG iter. 18 -- res = 0.58346E+03, tol = 0.62402E+01, time = 5.50 | CG iter. 19 -- res = 0.52866E+03, tol = 0.62402E+01, time = 5.70 | CG iter. 20 -- res = 0.42862E+03, tol = 0.62402E+01, time = 5.66 | CG iter. 21 -- res = 0.32331E+03, tol = 0.62402E+01, time = 5.61 | CG iter. 22 -- res = 0.26309E+03, tol = 0.62402E+01, time = 5.47 | CG iter. 23 -- res = 0.24046E+03, tol = 0.62402E+01, time = 5.42 | CG iter. 24 -- res = 0.22927E+03, tol = 0.62402E+01, time = 5.72 | CG iter. 25 -- res = 0.18719E+03, tol = 0.62402E+01, time = 5.61 | CG iter. 26 -- res = 0.15401E+03, tol = 0.62402E+01, time = 5.01 | CG iter. 27 -- res = 0.12804E+03, tol = 0.62402E+01, time = 5.67 | CG iter. 28 -- res = 0.11807E+03, tol = 0.62402E+01, time = 5.54 | CG iter. 29 -- res = 0.10069E+03, tol = 0.62402E+01, time = 5.51 | CG iter. 30 -- res = 0.81986E+02, tol = 0.62402E+01, time = 5.45 | CG iter. 31 -- res = 0.73812E+02, tol = 0.62402E+01, time = 5.47 | CG iter. 32 -- res = 0.69064E+02, tol = 0.62402E+01, time = 5.57 | CG iter. 33 -- res = 0.60233E+02, tol = 0.62402E+01, time = 5.56 | CG iter. 34 -- res = 0.46986E+02, tol = 0.62402E+01, time = 5.46 | CG iter. 35 -- res = 0.39016E+02, tol = 0.62402E+01, time = 5.38 | CG iter. 36 -- res = 0.35354E+02, tol = 0.62402E+01, time = 5.64 | CG iter. 37 -- res = 0.31181E+02, tol = 0.62402E+01, time = 11.23 | CG iter. 38 -- res = 0.25247E+02, tol = 0.62402E+01, time = 5.83 | CG iter. 39 -- res = 0.19725E+02, tol = 0.62402E+01, time = 5.67 | CG iter. 40 -- res = 0.17070E+02, tol = 0.62402E+01, time = 5.56 | CG iter. 41 -- res = 0.14784E+02, tol = 0.62402E+01, time = 5.87 | CG iter. 42 -- res = 0.11586E+02, tol = 0.62402E+01, time = 5.59 | CG iter. 43 -- res = 0.90710E+01, tol = 0.62402E+01, time = 5.52 | CG iter. 44 -- res = 0.77600E+01, tol = 0.62402E+01, time = 5.74 | CG iter. 45 -- res = 0.65335E+01, tol = 0.62402E+01, time = 5.70 | CG iter. 46 -- res = 0.55249E+01, tol = 0.62402E+01, time = 5.66 | CG iter. 47 -- res = 0.44007E+01, tol = 0.62402E+01, time = 5.67 | CG iter. 48 -- res = 0.34640E+01, tol = 0.62402E+01, time = 5.53 | CG iter. 49 -- res = 0.28972E+01, tol = 0.62402E+01, time = 5.48 | CG iter. 50 -- res = 0.23644E+01, tol = 0.62402E+01, time = 5.35 | Final CG iter 51 -- res = 0.23644E+01, tol = 0.62402E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7725442.667 | Old band monopole 11296026.520 | Change to band monopole -3570583.853 | Change to component monopole 3570568.495 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.43168E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.40648E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.17069E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.15765E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.21391E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7725409.438 | (Sampled value in CG: 7710996.316 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.556552 | New value = 1.470247 | poltype: 2 pol: 1 CPU time specind = 1.9539118E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498469 | New value = 1.479673 | poltype: 2 pol: 2 CPU time specind = 2.6407957E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.25564E+08, tol = 0.47536E+04, time = 6.75 | CG iter. 2 -- res = 0.53882E+07, tol = 0.47536E+04, time = 6.48 | CG iter. 3 -- res = 0.83628E+06, tol = 0.47536E+04, time = 6.53 | CG iter. 4 -- res = 0.35075E+06, tol = 0.47536E+04, time = 6.60 | CG iter. 5 -- res = 0.15179E+06, tol = 0.47536E+04, time = 6.71 | CG iter. 6 -- res = 0.80689E+05, tol = 0.47536E+04, time = 6.61 | CG iter. 7 -- res = 0.44826E+05, tol = 0.47536E+04, time = 6.36 | CG iter. 8 -- res = 0.21116E+05, tol = 0.47536E+04, time = 6.41 | CG iter. 9 -- res = 0.92221E+04, tol = 0.47536E+04, time = 6.53 | CG iter. 10 -- res = 0.38223E+04, tol = 0.47536E+04, time = 6.61 | CG iter. 11 -- res = 0.17231E+04, tol = 0.47536E+04, time = 6.47 | CG iter. 12 -- res = 0.90587E+03, tol = 0.47536E+04, time = 6.38 | CG iter. 13 -- res = 0.51538E+03, tol = 0.47536E+04, time = 6.41 | CG iter. 14 -- res = 0.28170E+03, tol = 0.47536E+04, time = 6.50 | CG iter. 15 -- res = 0.14483E+03, tol = 0.47536E+04, time = 6.57 | CG iter. 16 -- res = 0.70003E+02, tol = 0.47536E+04, time = 12.61 | CG iter. 17 -- res = 0.32410E+02, tol = 0.47536E+04, time = 6.80 | CG iter. 18 -- res = 0.16091E+02, tol = 0.47536E+04, time = 6.45 | CG iter. 19 -- res = 0.88170E+01, tol = 0.47536E+04, time = 6.28 | CG iter. 20 -- res = 0.51172E+01, tol = 0.47536E+04, time = 6.57 | CG iter. 21 -- res = 0.27736E+01, tol = 0.47536E+04, time = 6.38 | CG iter. 22 -- res = 0.13960E+01, tol = 0.47536E+04, time = 6.78 | CG iter. 23 -- res = 0.69223E+00, tol = 0.47536E+04, time = 6.20 | CG iter. 24 -- res = 0.35861E+00, tol = 0.47536E+04, time = 6.20 | CG iter. 25 -- res = 0.19861E+00, tol = 0.47536E+04, time = 6.22 | CG iter. 26 -- res = 0.11349E+00, tol = 0.47536E+04, time = 6.62 | CG iter. 27 -- res = 0.64506E-01, tol = 0.47536E+04, time = 6.29 | CG iter. 28 -- res = 0.34872E-01, tol = 0.47536E+04, time = 6.51 | CG iter. 29 -- res = 0.18077E-01, tol = 0.47536E+04, time = 7.32 | CG iter. 30 -- res = 0.93479E-02, tol = 0.47536E+04, time = 7.22 | CG iter. 31 -- res = 0.50555E-02, tol = 0.47536E+04, time = 6.39 | CG iter. 32 -- res = 0.28833E-02, tol = 0.47536E+04, time = 6.20 | CG iter. 33 -- res = 0.16105E-02, tol = 0.47536E+04, time = 6.57 | CG iter. 34 -- res = 0.86080E-03, tol = 0.47536E+04, time = 6.41 | CG iter. 35 -- res = 0.44893E-03, tol = 0.47536E+04, time = 6.25 | Final CG iter 36 -- res = 0.44893E-03, tol = 0.47536E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.721 2.763 | New value 3.325 | Old value 3.721 | Difference -0.396 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.24769E+05, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.17795E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.46292E+00, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.86110E-03, tol = 0.47627E+18, time = 2.30 | Final CG iter 5 -- res = 0.12546E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7725409.438 | (Sampled value in CG: 7711668.325 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.515124 | New value = -3.527544 | poltype: 1 pol: 1 CPU time specind = 2.2138834E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.21267E+07, tol = 0.34370E+01, time = 2.42 | CG iter. 2 -- res = 0.80016E+06, tol = 0.34370E+01, time = 2.54 | CG iter. 3 -- res = 0.14244E+06, tol = 0.34370E+01, time = 2.46 | CG iter. 4 -- res = 0.55466E+05, tol = 0.34370E+01, time = 2.78 | CG iter. 5 -- res = 0.30150E+05, tol = 0.34370E+01, time = 2.50 | CG iter. 6 -- res = 0.16216E+05, tol = 0.34370E+01, time = 2.63 | CG iter. 7 -- res = 0.70052E+04, tol = 0.34370E+01, time = 2.38 | CG iter. 8 -- res = 0.31540E+04, tol = 0.34370E+01, time = 2.45 | CG iter. 9 -- res = 0.13700E+04, tol = 0.34370E+01, time = 2.54 | CG iter. 10 -- res = 0.54255E+03, tol = 0.34370E+01, time = 2.51 | CG iter. 11 -- res = 0.22505E+03, tol = 0.34370E+01, time = 2.34 | CG iter. 12 -- res = 0.10682E+03, tol = 0.34370E+01, time = 2.62 | CG iter. 13 -- res = 0.54538E+02, tol = 0.34370E+01, time = 2.49 | CG iter. 14 -- res = 0.27453E+02, tol = 0.34370E+01, time = 2.56 | CG iter. 15 -- res = 0.12677E+02, tol = 0.34370E+01, time = 2.53 | CG iter. 16 -- res = 0.55628E+01, tol = 0.34370E+01, time = 2.55 | CG iter. 17 -- res = 0.23103E+01, tol = 0.34370E+01, time = 2.56 | CG iter. 18 -- res = 0.10572E+01, tol = 0.34370E+01, time = 2.57 | CG iter. 19 -- res = 0.51991E+00, tol = 0.34370E+01, time = 2.41 | CG iter. 20 -- res = 0.27639E+00, tol = 0.34370E+01, time = 2.49 | CG iter. 21 -- res = 0.14975E+00, tol = 0.34370E+01, time = 2.68 | CG iter. 22 -- res = 0.70597E-01, tol = 0.34370E+01, time = 2.60 | CG iter. 23 -- res = 0.30179E-01, tol = 0.34370E+01, time = 2.47 | CG iter. 24 -- res = 0.13692E-01, tol = 0.34370E+01, time = 2.78 | CG iter. 25 -- res = 0.68430E-02, tol = 0.34370E+01, time = 2.42 | CG iter. 26 -- res = 0.34169E-02, tol = 0.34370E+01, time = 2.62 | CG iter. 27 -- res = 0.17828E-02, tol = 0.34370E+01, time = 2.25 | CG iter. 28 -- res = 0.87021E-03, tol = 0.34370E+01, time = 2.57 | CG iter. 29 -- res = 0.39370E-03, tol = 0.34370E+01, time = 2.44 | CG iter. 30 -- res = 0.18163E-03, tol = 0.34370E+01, time = 2.52 | CG iter. 31 -- res = 0.90766E-04, tol = 0.34370E+01, time = 2.49 | CG iter. 32 -- res = 0.44475E-04, tol = 0.34370E+01, time = 2.44 | CG iter. 33 -- res = 0.22705E-04, tol = 0.34370E+01, time = 2.62 | CG iter. 34 -- res = 0.11465E-04, tol = 0.34370E+01, time = 2.61 | CG iter. 35 -- res = 0.53945E-05, tol = 0.34370E+01, time = 3.40 | CG iter. 36 -- res = 0.24882E-05, tol = 0.34370E+01, time = 2.48 | CG iter. 37 -- res = 0.11982E-05, tol = 0.34370E+01, time = 2.49 | CG iter. 38 -- res = 0.56984E-06, tol = 0.34370E+01, time = 2.52 | CG iter. 39 -- res = 0.28418E-06, tol = 0.34370E+01, time = 2.52 | CG iter. 40 -- res = 0.14408E-06, tol = 0.34370E+01, time = 2.59 | CG iter. 41 -- res = 0.70393E-07, tol = 0.34370E+01, time = 2.54 | CG iter. 42 -- res = 0.33352E-07, tol = 0.34370E+01, time = 2.47 | CG iter. 43 -- res = 0.14885E-07, tol = 0.34370E+01, time = 2.76 | CG iter. 44 -- res = 0.71554E-08, tol = 0.34370E+01, time = 2.29 | CG iter. 45 -- res = 0.35310E-08, tol = 0.34370E+01, time = 2.74 | CG iter. 46 -- res = 0.17427E-08, tol = 0.34370E+01, time = 2.75 | CG iter. 47 -- res = 0.85999E-09, tol = 0.34370E+01, time = 2.53 | CG iter. 48 -- res = 0.40443E-09, tol = 0.34370E+01, time = 2.92 | CG iter. 49 -- res = 0.19065E-09, tol = 0.34370E+01, time = 2.47 | CG iter. 50 -- res = 0.86107E-10, tol = 0.34370E+01, time = 2.63 | Final CG iter 51 -- res = 0.86107E-10, tol = 0.34370E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.605 5.081 | New value 1.228 | Old value -3.605 | Difference 4.833 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.21917E+05, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.22071E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.84902E+00, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.10154E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.58899E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7725409.438 | (Sampled value in CG: 7713391.516 ) | CPU time specind = 1150.556 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.72708E+08, tol = 0.57595E+04, time = 11.38 | CG iter. 2 -- res = 0.59826E+08, tol = 0.57595E+04, time = 11.62 | CG iter. 3 -- res = 0.15672E+08, tol = 0.57595E+04, time = 11.71 | CG iter. 4 -- res = 0.70838E+07, tol = 0.57595E+04, time = 11.45 | CG iter. 5 -- res = 0.44265E+07, tol = 0.57595E+04, time = 11.33 | CG iter. 6 -- res = 0.25593E+07, tol = 0.57595E+04, time = 13.30 | CG iter. 7 -- res = 0.14688E+07, tol = 0.57595E+04, time = 11.98 | CG iter. 8 -- res = 0.93134E+06, tol = 0.57595E+04, time = 11.68 | CG iter. 9 -- res = 0.58313E+06, tol = 0.57595E+04, time = 11.48 | CG iter. 10 -- res = 0.35281E+06, tol = 0.57595E+04, time = 11.15 | CG iter. 11 -- res = 0.19566E+06, tol = 0.57595E+04, time = 11.49 | CG iter. 12 -- res = 0.10633E+06, tol = 0.57595E+04, time = 11.16 | CG iter. 13 -- res = 0.57685E+05, tol = 0.57595E+04, time = 11.24 | CG iter. 14 -- res = 0.33227E+05, tol = 0.57595E+04, time = 11.53 | CG iter. 15 -- res = 0.22116E+05, tol = 0.57595E+04, time = 11.23 | CG iter. 16 -- res = 0.15910E+05, tol = 0.57595E+04, time = 11.68 | CG iter. 17 -- res = 0.12016E+05, tol = 0.57595E+04, time = 11.38 | CG iter. 18 -- res = 0.90320E+04, tol = 0.57595E+04, time = 11.71 | CG iter. 19 -- res = 0.66746E+04, tol = 0.57595E+04, time = 11.41 | CG iter. 20 -- res = 0.51025E+04, tol = 0.57595E+04, time = 11.73 | CG iter. 21 -- res = 0.42351E+04, tol = 0.57595E+04, time = 11.34 | CG iter. 22 -- res = 0.40451E+04, tol = 0.57595E+04, time = 11.54 | CG iter. 23 -- res = 0.43203E+04, tol = 0.57595E+04, time = 11.17 | CG iter. 24 -- res = 0.48536E+04, tol = 0.57595E+04, time = 17.81 | CG iter. 25 -- res = 0.50625E+04, tol = 0.57595E+04, time = 11.25 | CG iter. 26 -- res = 0.47366E+04, tol = 0.57595E+04, time = 11.79 | CG iter. 27 -- res = 0.40311E+04, tol = 0.57595E+04, time = 11.54 | CG iter. 28 -- res = 0.32861E+04, tol = 0.57595E+04, time = 11.09 | CG iter. 29 -- res = 0.27484E+04, tol = 0.57595E+04, time = 11.51 | CG iter. 30 -- res = 0.23131E+04, tol = 0.57595E+04, time = 11.41 | CG iter. 31 -- res = 0.19658E+04, tol = 0.57595E+04, time = 11.07 | CG iter. 32 -- res = 0.16326E+04, tol = 0.57595E+04, time = 13.16 | CG iter. 33 -- res = 0.13109E+04, tol = 0.57595E+04, time = 12.17 | CG iter. 34 -- res = 0.10152E+04, tol = 0.57595E+04, time = 11.89 | CG iter. 35 -- res = 0.81186E+03, tol = 0.57595E+04, time = 11.30 | CG iter. 36 -- res = 0.70837E+03, tol = 0.57595E+04, time = 11.64 | CG iter. 37 -- res = 0.66615E+03, tol = 0.57595E+04, time = 11.51 | CG iter. 38 -- res = 0.64354E+03, tol = 0.57595E+04, time = 11.35 | CG iter. 39 -- res = 0.61778E+03, tol = 0.57595E+04, time = 11.35 | CG iter. 40 -- res = 0.56735E+03, tol = 0.57595E+04, time = 11.41 | CG iter. 41 -- res = 0.49972E+03, tol = 0.57595E+04, time = 11.61 | CG iter. 42 -- res = 0.43612E+03, tol = 0.57595E+04, time = 10.93 | CG iter. 43 -- res = 0.38461E+03, tol = 0.57595E+04, time = 11.06 | CG iter. 44 -- res = 0.34741E+03, tol = 0.57595E+04, time = 11.79 | CG iter. 45 -- res = 0.30989E+03, tol = 0.57595E+04, time = 11.01 | CG iter. 46 -- res = 0.27008E+03, tol = 0.57595E+04, time = 11.13 | CG iter. 47 -- res = 0.22917E+03, tol = 0.57595E+04, time = 11.30 | CG iter. 48 -- res = 0.18918E+03, tol = 0.57595E+04, time = 11.24 | CG iter. 49 -- res = 0.15651E+03, tol = 0.57595E+04, time = 11.75 | CG iter. 50 -- res = 0.13580E+03, tol = 0.57595E+04, time = 17.50 | CG iter. 51 -- res = 0.12372E+03, tol = 0.57595E+04, time = 11.43 | CG iter. 52 -- res = 0.11859E+03, tol = 0.57595E+04, time = 10.90 | CG iter. 53 -- res = 0.11393E+03, tol = 0.57595E+04, time = 11.53 | CG iter. 54 -- res = 0.10661E+03, tol = 0.57595E+04, time = 11.48 | CG iter. 55 -- res = 0.96748E+02, tol = 0.57595E+04, time = 11.57 | CG iter. 56 -- res = 0.84959E+02, tol = 0.57595E+04, time = 11.28 | CG iter. 57 -- res = 0.74570E+02, tol = 0.57595E+04, time = 13.02 | CG iter. 58 -- res = 0.67835E+02, tol = 0.57595E+04, time = 12.23 | CG iter. 59 -- res = 0.64840E+02, tol = 0.57595E+04, time = 11.54 | CG iter. 60 -- res = 0.62313E+02, tol = 0.57595E+04, time = 11.15 | Final CG iter 61 -- res = 0.62313E+02, tol = 0.57595E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.747 ( -229.949 -2232.129 2514.698 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8605483.336 | Old band monopole 7725442.667 | Change to band monopole 880040.669 | Change to component monopole -880036.884 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.310 2.755 | New value 1.048 | Old value 3.310 | Difference -2.262 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.773 ( 8.022 14.957 -14.491 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.297 4.865 | New value 3.795 | Old value 10.297 | Difference -6.502 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.27375E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.31273E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.92344E+00, tol = 0.47627E+18, time = 1.74 | CG iter. 4 -- res = 0.19648E-02, tol = 0.47627E+18, time = 1.81 | Final CG iter 5 -- res = 0.77538E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8605446.322 | (Sampled value in CG: 8575594.748 ) | Chain = 1 -- chisq = 0.81565996E+09 | Chain = 1 -- wall time = 17667.054 sec Available RAM: MemAvailable: 490713676 kB Available Swap: SwapFree: 1058396068 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 367 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442075 | --> Sampling calibration, mode = relcal | relcal = 1.3420173E-02 7.5159018E-04 -1.5955281E-03 -1.2576235E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1675959 0.1817907 97042812.7977168 | BP delta = 0.1725294 0.1867241 97042811.7158659 | BP chisq diff = -1.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632661 | --> Sampling calibration, mode = relcal | relcal = -2.8224147E-03 -7.0460112E-04 1.6799964E-03 1.6141193E-03 -4.0794464E-04 6.4084498E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5788043 15215386.8248319 | BP delta = 0.0000000E+00 -0.5809718 15215384.9958518 | BP chisq diff = -1.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18329860912879 | --> Sampling calibration, mode = relcal | relcal = -7.6259375E-02 -5.9318807E-02 9.3120962E-02 4.2457215E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8435688E-04 5.8769546E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1141E-05 | 2: delta_r/delta_0: 1.5505E-06 | 3: delta_s/delta_0: 2.0012E-07 | 4: delta_r/delta_0: 3.0517E-08 | 5: delta_s/delta_0: 9.9941E-09 | 6: delta_r/delta_0: 2.8780E-09 | 7: delta_s/delta_0: 5.2853E-10 | 8: delta_r/delta_0: 1.5626E-10 | 9: delta_s/delta_0: 1.6117E-10 | 10: delta_r/delta_0: 6.7023E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.653965499166567E-003 2.735591837053516E-005 | BP delta = 8.8506334E-02 0.1111924 50493485.6460159 | BP delta = 8.7919772E-02 0.1106058 50493486.4319327 | BP chisq diff = 0.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02624363 | --> Sampling calibration, mode = relcal | relcal = -0.1066744 -9.5606536E-02 0.1449420 5.7338849E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3435451E-03 1.7900524E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1853E-05 | 2: delta_r/delta_0: 1.2368E-06 | 3: delta_s/delta_0: 2.5648E-07 | 4: delta_r/delta_0: 5.5248E-08 | 5: delta_s/delta_0: 2.1950E-08 | 6: delta_r/delta_0: 7.8775E-09 | 7: delta_s/delta_0: 1.9553E-08 | 8: delta_r/delta_0: 1.0872E-09 | 9: delta_s/delta_0: 1.0625E-09 | 10: delta_r/delta_0: 1.9632E-10 | 11: delta_s/delta_0: 2.1232E-09 | 12: delta_r/delta_0: 3.5135E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.909935759752990E-003 2.810156779537327E-005 | BP delta = -0.2480133 -0.2213271 57393553.6087864 | BP delta = -0.2628293 -0.2361431 57393555.2395796 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81265623 | --> Sampling calibration, mode = relcal | relcal = 0.2955224 0.2249909 -0.2839024 -0.2366108 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.6638243E-04 4.9327612E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4054E-03 | 2: delta_r/delta_0: 3.2365E-05 | 3: delta_s/delta_0: 2.5734E-05 | 4: delta_r/delta_0: 5.0297E-07 | 5: delta_s/delta_0: 2.1017E-05 | 6: delta_r/delta_0: 1.7976E-06 | 7: delta_s/delta_0: 5.0503E-08 | 8: delta_r/delta_0: 3.4379E-08 | 9: delta_s/delta_0: 3.9323E-07 | 10: delta_r/delta_0: 3.8494E-09 | 11: delta_s/delta_0: 1.2433E-09 | 12: delta_r/delta_0: 5.9372E-10 | 13: delta_s/delta_0: 7.9936E-10 | 14: delta_r/delta_0: 5.9569E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.801532319878640E-002 4.019527147173081E-005 | BP delta = -8.2342148E-02 -0.1343432 72480389.6014960 | BP delta = -5.6062140E-02 -0.1080632 72480390.8250879 | BP chisq diff = 1.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95957273 | --> Sampling calibration, mode = relcal | relcal = 0.1065864 0.1395639 -0.1102115 -0.1359388 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0124561E-02 1.3558646E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0954E-03 | 2: delta_r/delta_0: 1.4383E-04 | 3: delta_s/delta_0: 3.3205E-05 | 4: delta_r/delta_0: 3.1369E-06 | 5: delta_s/delta_0: 1.4800E-05 | 6: delta_r/delta_0: 1.5949E-06 | 7: delta_s/delta_0: 7.5638E-08 | 8: delta_r/delta_0: 1.5964E-08 | 9: delta_s/delta_0: 6.2706E-08 | 10: delta_r/delta_0: 4.6220E-09 | 11: delta_s/delta_0: 6.8938E-09 | 12: delta_r/delta_0: 9.6988E-10 | 13: delta_s/delta_0: 4.0477E-10 | 14: delta_r/delta_0: 2.2252E-10 | 15: delta_s/delta_0: 2.8404E-09 | 16: delta_r/delta_0: 5.3627E-10 | 17: delta_s/delta_0: 1.0895E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.521974127467480E-003 3.695624531548664E-005 | BP delta = 0.2237077 0.3239917 72780585.1067951 | BP delta = 0.2366369 0.3369209 72780585.6558618 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208813 | New value = -3.184652 | poltype: 2 pol: 1 CPU time specind = 1.5258074E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133927 | New value = -3.110075 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.207228 | New value = -3.184404 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.084119 | New value = -3.166681 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117935 | New value = -3.115200 | poltype: 2 pol: 2 CPU time specind = 4.3880939E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.36 | CG iter. 1 -- res = 0.13562E+08, tol = 0.80380E+01, time = 6.19 | CG iter. 2 -- res = 0.29809E+06, tol = 0.80380E+01, time = 6.00 | CG iter. 3 -- res = 0.46796E+05, tol = 0.80380E+01, time = 7.20 | CG iter. 4 -- res = 0.24754E+05, tol = 0.80380E+01, time = 6.55 | CG iter. 5 -- res = 0.15057E+05, tol = 0.80380E+01, time = 6.55 | CG iter. 6 -- res = 0.11371E+05, tol = 0.80380E+01, time = 6.17 | CG iter. 7 -- res = 0.10666E+05, tol = 0.80380E+01, time = 5.93 | CG iter. 8 -- res = 0.10452E+05, tol = 0.80380E+01, time = 5.81 | CG iter. 9 -- res = 0.10811E+05, tol = 0.80380E+01, time = 5.58 | CG iter. 10 -- res = 0.10672E+05, tol = 0.80380E+01, time = 5.78 | CG iter. 11 -- res = 0.82832E+04, tol = 0.80380E+01, time = 5.56 | CG iter. 12 -- res = 0.53452E+04, tol = 0.80380E+01, time = 5.69 | CG iter. 13 -- res = 0.37315E+04, tol = 0.80380E+01, time = 6.21 | CG iter. 14 -- res = 0.32431E+04, tol = 0.80380E+01, time = 5.92 | CG iter. 15 -- res = 0.29287E+04, tol = 0.80380E+01, time = 6.23 | CG iter. 16 -- res = 0.24634E+04, tol = 0.80380E+01, time = 5.80 | CG iter. 17 -- res = 0.18844E+04, tol = 0.80380E+01, time = 5.95 | CG iter. 18 -- res = 0.15769E+04, tol = 0.80380E+01, time = 6.09 | CG iter. 19 -- res = 0.14064E+04, tol = 0.80380E+01, time = 6.05 | CG iter. 20 -- res = 0.11350E+04, tol = 0.80380E+01, time = 5.85 | CG iter. 21 -- res = 0.85156E+03, tol = 0.80380E+01, time = 7.05 | CG iter. 22 -- res = 0.69558E+03, tol = 0.80380E+01, time = 5.86 | CG iter. 23 -- res = 0.64824E+03, tol = 0.80380E+01, time = 5.74 | CG iter. 24 -- res = 0.56056E+03, tol = 0.80380E+01, time = 6.03 | CG iter. 25 -- res = 0.45735E+03, tol = 0.80380E+01, time = 6.00 | CG iter. 26 -- res = 0.37773E+03, tol = 0.80380E+01, time = 6.03 | CG iter. 27 -- res = 0.35360E+03, tol = 0.80380E+01, time = 6.35 | CG iter. 28 -- res = 0.32391E+03, tol = 0.80380E+01, time = 5.95 | CG iter. 29 -- res = 0.26934E+03, tol = 0.80380E+01, time = 6.07 | CG iter. 30 -- res = 0.22313E+03, tol = 0.80380E+01, time = 5.95 | CG iter. 31 -- res = 0.20419E+03, tol = 0.80380E+01, time = 6.05 | CG iter. 32 -- res = 0.18661E+03, tol = 0.80380E+01, time = 5.98 | CG iter. 33 -- res = 0.14964E+03, tol = 0.80380E+01, time = 5.78 | CG iter. 34 -- res = 0.11449E+03, tol = 0.80380E+01, time = 5.57 | CG iter. 35 -- res = 0.94688E+02, tol = 0.80380E+01, time = 6.02 | CG iter. 36 -- res = 0.83196E+02, tol = 0.80380E+01, time = 6.31 | CG iter. 37 -- res = 0.66756E+02, tol = 0.80380E+01, time = 5.73 | CG iter. 38 -- res = 0.51846E+02, tol = 0.80380E+01, time = 11.92 | CG iter. 39 -- res = 0.40419E+02, tol = 0.80380E+01, time = 6.18 | CG iter. 40 -- res = 0.33297E+02, tol = 0.80380E+01, time = 5.66 | CG iter. 41 -- res = 0.26976E+02, tol = 0.80380E+01, time = 5.63 | CG iter. 42 -- res = 0.19305E+02, tol = 0.80380E+01, time = 6.01 | CG iter. 43 -- res = 0.14979E+02, tol = 0.80380E+01, time = 5.95 | CG iter. 44 -- res = 0.11926E+02, tol = 0.80380E+01, time = 6.07 | CG iter. 45 -- res = 0.96660E+01, tol = 0.80380E+01, time = 5.77 | CG iter. 46 -- res = 0.76025E+01, tol = 0.80380E+01, time = 6.28 | CG iter. 47 -- res = 0.58064E+01, tol = 0.80380E+01, time = 5.62 | CG iter. 48 -- res = 0.46340E+01, tol = 0.80380E+01, time = 6.09 | CG iter. 49 -- res = 0.38717E+01, tol = 0.80380E+01, time = 5.86 | CG iter. 50 -- res = 0.30791E+01, tol = 0.80380E+01, time = 5.72 | Final CG iter 51 -- res = 0.30791E+01, tol = 0.80380E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9309622.530 | Old band monopole 8605483.336 | Change to band monopole 704139.194 | Change to component monopole -704136.165 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.42542E+04, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.20926E+02, tol = 0.47627E+18, time = 1.75 | CG iter. 3 -- res = 0.26363E+00, tol = 0.47627E+18, time = 2.22 | CG iter. 4 -- res = 0.52123E-03, tol = 0.47627E+18, time = 2.35 | Final CG iter 5 -- res = 0.33420E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9309582.487 | (Sampled value in CG: 9324133.177 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.470247 | New value = 1.461398 | poltype: 2 pol: 1 CPU time specind = 1.9656897E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.479673 | New value = 1.473062 | poltype: 2 pol: 2 CPU time specind = 3.6220551E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.39 | CG iter. 1 -- res = 0.24031E+08, tol = 0.47517E+04, time = 7.08 | CG iter. 2 -- res = 0.53204E+07, tol = 0.47517E+04, time = 6.91 | CG iter. 3 -- res = 0.84229E+06, tol = 0.47517E+04, time = 6.92 | CG iter. 4 -- res = 0.35654E+06, tol = 0.47517E+04, time = 6.90 | CG iter. 5 -- res = 0.15623E+06, tol = 0.47517E+04, time = 7.15 | CG iter. 6 -- res = 0.82430E+05, tol = 0.47517E+04, time = 6.95 | CG iter. 7 -- res = 0.44687E+05, tol = 0.47517E+04, time = 6.84 | CG iter. 8 -- res = 0.21177E+05, tol = 0.47517E+04, time = 6.61 | CG iter. 9 -- res = 0.92653E+04, tol = 0.47517E+04, time = 7.25 | CG iter. 10 -- res = 0.38100E+04, tol = 0.47517E+04, time = 6.75 | CG iter. 11 -- res = 0.17407E+04, tol = 0.47517E+04, time = 6.89 | CG iter. 12 -- res = 0.90129E+03, tol = 0.47517E+04, time = 6.66 | CG iter. 13 -- res = 0.51459E+03, tol = 0.47517E+04, time = 6.95 | CG iter. 14 -- res = 0.28905E+03, tol = 0.47517E+04, time = 7.09 | CG iter. 15 -- res = 0.14599E+03, tol = 0.47517E+04, time = 11.62 | CG iter. 16 -- res = 0.67567E+02, tol = 0.47517E+04, time = 8.11 | CG iter. 17 -- res = 0.30992E+02, tol = 0.47517E+04, time = 6.36 | CG iter. 18 -- res = 0.15670E+02, tol = 0.47517E+04, time = 6.80 | CG iter. 19 -- res = 0.85466E+01, tol = 0.47517E+04, time = 6.68 | CG iter. 20 -- res = 0.49321E+01, tol = 0.47517E+04, time = 7.01 | CG iter. 21 -- res = 0.27812E+01, tol = 0.47517E+04, time = 6.67 | CG iter. 22 -- res = 0.14042E+01, tol = 0.47517E+04, time = 6.90 | CG iter. 23 -- res = 0.69322E+00, tol = 0.47517E+04, time = 6.72 | CG iter. 24 -- res = 0.36590E+00, tol = 0.47517E+04, time = 6.45 | CG iter. 25 -- res = 0.20186E+00, tol = 0.47517E+04, time = 7.03 | CG iter. 26 -- res = 0.11499E+00, tol = 0.47517E+04, time = 6.34 | CG iter. 27 -- res = 0.63323E-01, tol = 0.47517E+04, time = 6.86 | CG iter. 28 -- res = 0.33409E-01, tol = 0.47517E+04, time = 7.62 | CG iter. 29 -- res = 0.16961E-01, tol = 0.47517E+04, time = 7.43 | CG iter. 30 -- res = 0.89459E-02, tol = 0.47517E+04, time = 6.53 | CG iter. 31 -- res = 0.49834E-02, tol = 0.47517E+04, time = 6.64 | CG iter. 32 -- res = 0.28697E-02, tol = 0.47517E+04, time = 6.76 | CG iter. 33 -- res = 0.16190E-02, tol = 0.47517E+04, time = 6.48 | CG iter. 34 -- res = 0.87172E-03, tol = 0.47517E+04, time = 7.15 | CG iter. 35 -- res = 0.45854E-03, tol = 0.47517E+04, time = 6.17 | Final CG iter 36 -- res = 0.45854E-03, tol = 0.47517E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.014 2.746 | New value -1.427 | Old value 1.014 | Difference -2.441 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.29 | CG iter. 1 -- res = 0.30910E+06, tol = 0.47627E+18, time = 2.28 | CG iter. 2 -- res = 0.24536E+02, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.24141E+00, tol = 0.47627E+18, time = 2.26 | Final CG iter 4 -- res = 0.13896E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9309582.487 | (Sampled value in CG: 9325403.609 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.527544 | New value = -3.731120 | poltype: 1 pol: 1 CPU time specind = 1.4595032E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.20842E+07, tol = 0.24790E+01, time = 2.63 | CG iter. 2 -- res = 0.59002E+06, tol = 0.24790E+01, time = 3.02 | CG iter. 3 -- res = 0.11546E+06, tol = 0.24790E+01, time = 2.66 | CG iter. 4 -- res = 0.50274E+05, tol = 0.24790E+01, time = 2.55 | CG iter. 5 -- res = 0.32967E+05, tol = 0.24790E+01, time = 2.97 | CG iter. 6 -- res = 0.16638E+05, tol = 0.24790E+01, time = 2.77 | CG iter. 7 -- res = 0.58657E+04, tol = 0.24790E+01, time = 2.63 | CG iter. 8 -- res = 0.24214E+04, tol = 0.24790E+01, time = 3.16 | CG iter. 9 -- res = 0.10247E+04, tol = 0.24790E+01, time = 2.94 | CG iter. 10 -- res = 0.41896E+03, tol = 0.24790E+01, time = 2.79 | CG iter. 11 -- res = 0.19226E+03, tol = 0.24790E+01, time = 3.08 | CG iter. 12 -- res = 0.97455E+02, tol = 0.24790E+01, time = 2.93 | CG iter. 13 -- res = 0.48778E+02, tol = 0.24790E+01, time = 2.67 | CG iter. 14 -- res = 0.22269E+02, tol = 0.24790E+01, time = 2.80 | CG iter. 15 -- res = 0.92517E+01, tol = 0.24790E+01, time = 2.87 | CG iter. 16 -- res = 0.38741E+01, tol = 0.24790E+01, time = 3.03 | CG iter. 17 -- res = 0.18338E+01, tol = 0.24790E+01, time = 2.51 | CG iter. 18 -- res = 0.90503E+00, tol = 0.24790E+01, time = 2.60 | CG iter. 19 -- res = 0.44426E+00, tol = 0.24790E+01, time = 2.51 | CG iter. 20 -- res = 0.21138E+00, tol = 0.24790E+01, time = 3.02 | CG iter. 21 -- res = 0.90478E-01, tol = 0.24790E+01, time = 2.94 | CG iter. 22 -- res = 0.40721E-01, tol = 0.24790E+01, time = 3.07 | CG iter. 23 -- res = 0.19354E-01, tol = 0.24790E+01, time = 2.87 | CG iter. 24 -- res = 0.98275E-02, tol = 0.24790E+01, time = 2.42 | CG iter. 25 -- res = 0.48365E-02, tol = 0.24790E+01, time = 2.96 | CG iter. 26 -- res = 0.23078E-02, tol = 0.24790E+01, time = 3.26 | CG iter. 27 -- res = 0.10490E-02, tol = 0.24790E+01, time = 2.74 | CG iter. 28 -- res = 0.49493E-03, tol = 0.24790E+01, time = 2.91 | CG iter. 29 -- res = 0.24081E-03, tol = 0.24790E+01, time = 2.94 | CG iter. 30 -- res = 0.12030E-03, tol = 0.24790E+01, time = 2.56 | CG iter. 31 -- res = 0.61123E-04, tol = 0.24790E+01, time = 2.81 | CG iter. 32 -- res = 0.29208E-04, tol = 0.24790E+01, time = 2.60 | CG iter. 33 -- res = 0.13221E-04, tol = 0.24790E+01, time = 3.10 | CG iter. 34 -- res = 0.62519E-05, tol = 0.24790E+01, time = 2.90 | CG iter. 35 -- res = 0.30027E-05, tol = 0.24790E+01, time = 2.57 | CG iter. 36 -- res = 0.15307E-05, tol = 0.24790E+01, time = 2.62 | CG iter. 37 -- res = 0.75412E-06, tol = 0.24790E+01, time = 2.80 | CG iter. 38 -- res = 0.35925E-06, tol = 0.24790E+01, time = 2.87 | CG iter. 39 -- res = 0.15911E-06, tol = 0.24790E+01, time = 2.89 | CG iter. 40 -- res = 0.72409E-07, tol = 0.24790E+01, time = 2.98 | CG iter. 41 -- res = 0.35121E-07, tol = 0.24790E+01, time = 2.77 | CG iter. 42 -- res = 0.17937E-07, tol = 0.24790E+01, time = 2.76 | CG iter. 43 -- res = 0.85342E-08, tol = 0.24790E+01, time = 2.62 | CG iter. 44 -- res = 0.40347E-08, tol = 0.24790E+01, time = 3.13 | CG iter. 45 -- res = 0.18536E-08, tol = 0.24790E+01, time = 2.98 | CG iter. 46 -- res = 0.83103E-09, tol = 0.24790E+01, time = 3.05 | CG iter. 47 -- res = 0.41810E-09, tol = 0.24790E+01, time = 2.81 | CG iter. 48 -- res = 0.20489E-09, tol = 0.24790E+01, time = 2.61 | CG iter. 49 -- res = 0.98493E-10, tol = 0.24790E+01, time = 2.39 | CG iter. 50 -- res = 0.46044E-10, tol = 0.24790E+01, time = 2.71 | Final CG iter 51 -- res = 0.46044E-10, tol = 0.24790E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.711 4.934 | New value -7.134 | Old value 4.711 | Difference -11.845 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.13216E+06, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.50904E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.23976E+01, tol = 0.47627E+18, time = 2.52 | CG iter. 4 -- res = 0.11515E-02, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.27790E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9309582.487 | (Sampled value in CG: 9322518.551 ) | CPU time specind = 1221.171 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.35 | CG iter. 1 -- res = 0.68756E+08, tol = 0.57909E+04, time = 12.64 | CG iter. 2 -- res = 0.58655E+08, tol = 0.57909E+04, time = 13.98 | CG iter. 3 -- res = 0.15230E+08, tol = 0.57909E+04, time = 12.55 | CG iter. 4 -- res = 0.65592E+07, tol = 0.57909E+04, time = 11.88 | CG iter. 5 -- res = 0.39807E+07, tol = 0.57909E+04, time = 12.31 | CG iter. 6 -- res = 0.22925E+07, tol = 0.57909E+04, time = 12.67 | CG iter. 7 -- res = 0.13046E+07, tol = 0.57909E+04, time = 12.32 | CG iter. 8 -- res = 0.84561E+06, tol = 0.57909E+04, time = 12.42 | CG iter. 9 -- res = 0.55307E+06, tol = 0.57909E+04, time = 12.61 | CG iter. 10 -- res = 0.33599E+06, tol = 0.57909E+04, time = 12.75 | CG iter. 11 -- res = 0.18450E+06, tol = 0.57909E+04, time = 12.86 | CG iter. 12 -- res = 0.98387E+05, tol = 0.57909E+04, time = 12.63 | CG iter. 13 -- res = 0.52600E+05, tol = 0.57909E+04, time = 12.32 | CG iter. 14 -- res = 0.31478E+05, tol = 0.57909E+04, time = 12.55 | CG iter. 15 -- res = 0.21501E+05, tol = 0.57909E+04, time = 11.93 | CG iter. 16 -- res = 0.15467E+05, tol = 0.57909E+04, time = 12.09 | CG iter. 17 -- res = 0.11821E+05, tol = 0.57909E+04, time = 12.07 | CG iter. 18 -- res = 0.88590E+04, tol = 0.57909E+04, time = 18.82 | CG iter. 19 -- res = 0.66581E+04, tol = 0.57909E+04, time = 12.38 | CG iter. 20 -- res = 0.52627E+04, tol = 0.57909E+04, time = 12.07 | CG iter. 21 -- res = 0.45041E+04, tol = 0.57909E+04, time = 12.26 | CG iter. 22 -- res = 0.44450E+04, tol = 0.57909E+04, time = 12.57 | CG iter. 23 -- res = 0.48911E+04, tol = 0.57909E+04, time = 11.96 | CG iter. 24 -- res = 0.55237E+04, tol = 0.57909E+04, time = 12.39 | CG iter. 25 -- res = 0.58457E+04, tol = 0.57909E+04, time = 13.72 | CG iter. 26 -- res = 0.55741E+04, tol = 0.57909E+04, time = 13.65 | CG iter. 27 -- res = 0.48327E+04, tol = 0.57909E+04, time = 12.23 | CG iter. 28 -- res = 0.38602E+04, tol = 0.57909E+04, time = 12.06 | CG iter. 29 -- res = 0.31824E+04, tol = 0.57909E+04, time = 12.50 | CG iter. 30 -- res = 0.26981E+04, tol = 0.57909E+04, time = 12.13 | CG iter. 31 -- res = 0.23089E+04, tol = 0.57909E+04, time = 12.51 | CG iter. 32 -- res = 0.19141E+04, tol = 0.57909E+04, time = 12.51 | CG iter. 33 -- res = 0.15244E+04, tol = 0.57909E+04, time = 12.37 | CG iter. 34 -- res = 0.11658E+04, tol = 0.57909E+04, time = 12.16 | CG iter. 35 -- res = 0.89639E+03, tol = 0.57909E+04, time = 12.26 | CG iter. 36 -- res = 0.75026E+03, tol = 0.57909E+04, time = 12.37 | CG iter. 37 -- res = 0.69437E+03, tol = 0.57909E+04, time = 12.53 | CG iter. 38 -- res = 0.67857E+03, tol = 0.57909E+04, time = 12.20 | CG iter. 39 -- res = 0.65560E+03, tol = 0.57909E+04, time = 12.04 | CG iter. 40 -- res = 0.60487E+03, tol = 0.57909E+04, time = 11.93 | CG iter. 41 -- res = 0.52884E+03, tol = 0.57909E+04, time = 12.92 | CG iter. 42 -- res = 0.45831E+03, tol = 0.57909E+04, time = 18.35 | CG iter. 43 -- res = 0.40217E+03, tol = 0.57909E+04, time = 12.32 | CG iter. 44 -- res = 0.35815E+03, tol = 0.57909E+04, time = 12.39 | CG iter. 45 -- res = 0.32656E+03, tol = 0.57909E+04, time = 12.12 | CG iter. 46 -- res = 0.28569E+03, tol = 0.57909E+04, time = 12.70 | CG iter. 47 -- res = 0.24167E+03, tol = 0.57909E+04, time = 12.59 | CG iter. 48 -- res = 0.19935E+03, tol = 0.57909E+04, time = 11.95 | CG iter. 49 -- res = 0.16337E+03, tol = 0.57909E+04, time = 14.08 | CG iter. 50 -- res = 0.14062E+03, tol = 0.57909E+04, time = 12.51 | CG iter. 51 -- res = 0.12933E+03, tol = 0.57909E+04, time = 12.38 | CG iter. 52 -- res = 0.12762E+03, tol = 0.57909E+04, time = 12.28 | CG iter. 53 -- res = 0.12307E+03, tol = 0.57909E+04, time = 12.06 | CG iter. 54 -- res = 0.11346E+03, tol = 0.57909E+04, time = 12.18 | CG iter. 55 -- res = 0.10496E+03, tol = 0.57909E+04, time = 11.96 | CG iter. 56 -- res = 0.96449E+02, tol = 0.57909E+04, time = 11.91 | CG iter. 57 -- res = 0.86156E+02, tol = 0.57909E+04, time = 11.95 | CG iter. 58 -- res = 0.81264E+02, tol = 0.57909E+04, time = 13.10 | CG iter. 59 -- res = 0.79060E+02, tol = 0.57909E+04, time = 12.46 | CG iter. 60 -- res = 0.74273E+02, tol = 0.57909E+04, time = 12.16 | Final CG iter 61 -- res = 0.74273E+02, tol = 0.57909E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.685 ( -230.039 -2230.147 2512.302 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9223299.908 | Old band monopole 9309622.530 | Change to band monopole -86322.622 | Change to component monopole 86322.250 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.490 2.728 | New value -4.923 | Old value -1.490 | Difference -3.432 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.325 ( 8.189 10.249 -8.919 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.662 5.573 | New value 3.091 | Old value -1.662 | Difference 4.753 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.69845E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.43714E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.18804E+01, tol = 0.47627E+18, time = 2.18 | CG iter. 4 -- res = 0.31047E-02, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.20759E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9223260.237 | (Sampled value in CG: 9200794.321 ) | Chain = 1 -- chisq = 0.81572372E+09 | Chain = 1 -- wall time = 5814.049 sec Available RAM: MemAvailable: 379727260 kB Available Swap: SwapFree: 1122544804 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 368 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444857 | --> Sampling calibration, mode = relcal | relcal = 1.3439833E-02 7.5368531E-04 -1.6199601E-03 -1.2573559E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1725294 0.1867241 9408407.22018774 | BP delta = 0.1725294 0.1892034 9408414.65682586 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632404 | --> Sampling calibration, mode = relcal | relcal = -2.8213167E-03 -7.0350012E-04 1.6784064E-03 1.6134389E-03 -4.0866085E-04 6.4163230E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5809718 15217453.9910676 | BP delta = 0.0000000E+00 -0.5835858 15217463.4475385 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17756342653387 | --> Sampling calibration, mode = relcal | relcal = -7.3794641E-02 -5.7501208E-02 9.0490155E-02 4.0805690E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.5936497E-04 2.4384668E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.0443E-04 | 2: delta_r/delta_0: 7.0941E-06 | 3: delta_s/delta_0: 1.6843E-07 | 4: delta_r/delta_0: 2.7337E-08 | 5: delta_s/delta_0: 8.8091E-09 | 6: delta_r/delta_0: 2.9104E-09 | 7: delta_s/delta_0: 3.2202E-10 | 8: delta_r/delta_0: 1.3332E-10 | 9: delta_s/delta_0: 1.8994E-10 | 10: delta_r/delta_0: 1.9493E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.098593288452882E-004 2.749244243015395E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.0443E-04 | 2: delta_r/delta_0: 7.0930E-06 | 3: delta_s/delta_0: 1.6843E-07 | 4: delta_r/delta_0: 2.7338E-08 | 5: delta_s/delta_0: 8.8102E-09 | 6: delta_r/delta_0: 2.9109E-09 | 7: delta_s/delta_0: 3.2219E-10 | 8: delta_r/delta_0: 1.3333E-10 | 9: delta_s/delta_0: 1.8889E-10 | 10: delta_r/delta_0: 1.9444E-11 | Reached bicg-stab tolerance | BP delta = 8.7919772E-02 0.1106058 3592132.66905924 | BP delta = 8.7919772E-02 0.1104894 3595848.96061653 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02597437 | --> Sampling calibration, mode = relcal | relcal = -0.1066294 -9.5573455E-02 0.1449361 5.7266798E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1990942E-03 1.2622165E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8795E-05 | 2: delta_r/delta_0: 1.1922E-06 | 3: delta_s/delta_0: 2.5102E-07 | 4: delta_r/delta_0: 4.4380E-08 | 5: delta_s/delta_0: 1.8343E-08 | 6: delta_r/delta_0: 6.6039E-09 | 7: delta_s/delta_0: 7.1081E-09 | 8: delta_r/delta_0: 1.3681E-09 | 9: delta_s/delta_0: 6.6845E-10 | 10: delta_r/delta_0: 4.8868E-10 | 11: delta_s/delta_0: 1.5174E-10 | 12: delta_r/delta_0: 1.1423E-10 | 13: delta_s/delta_0: 1.6668E-10 | 14: delta_r/delta_0: 8.7414E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.675678797460363E-003 2.810908921341798E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8795E-05 | 2: delta_r/delta_0: 1.1922E-06 | 3: delta_s/delta_0: 2.5102E-07 | 4: delta_r/delta_0: 4.4380E-08 | 5: delta_s/delta_0: 1.8343E-08 | 6: delta_r/delta_0: 6.6039E-09 | 7: delta_s/delta_0: 7.1082E-09 | 8: delta_r/delta_0: 1.3681E-09 | 9: delta_s/delta_0: 6.6845E-10 | 10: delta_r/delta_0: 4.8869E-10 | 11: delta_s/delta_0: 1.5174E-10 | 12: delta_r/delta_0: 1.1423E-10 | 13: delta_s/delta_0: 1.6666E-10 | 14: delta_r/delta_0: 8.7412E-11 | Reached bicg-stab tolerance | BP delta = -0.2480133 -0.2213271 2841877.00540577 | BP delta = -0.2480133 -0.2174054 2841877.40154288 | BP chisq diff = 0.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81228756 | --> Sampling calibration, mode = relcal | relcal = 0.2954158 0.2249527 -0.2838351 -0.2365335 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.3716333E-05 5.0673550E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.4615E+00 | 2: delta_r/delta_0: 1.2876E-01 | 3: delta_s/delta_0: 9.2866E-05 | 4: delta_r/delta_0: 8.1639E-06 | 5: delta_s/delta_0: 9.0261E-05 | 6: delta_r/delta_0: 1.0755E-05 | 7: delta_s/delta_0: 7.3879E-07 | 8: delta_r/delta_0: 6.5997E-09 | 9: delta_s/delta_0: 3.8108E-09 | 10: delta_r/delta_0: 6.7613E-10 | 11: delta_s/delta_0: 2.4556E-09 | 12: delta_r/delta_0: 8.9000E-10 | 13: delta_s/delta_0: 1.3390E-09 | 14: delta_r/delta_0: 6.9654E-10 | 15: delta_s/delta_0: 1.2316E-09 | 16: delta_r/delta_0: 3.2541E-10 | 17: delta_s/delta_0: 7.9531E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.617152154903357E-002 4.021460766151438E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1048E+00 | 2: delta_r/delta_0: 1.2035E-01 | 3: delta_s/delta_0: 9.2455E-05 | 4: delta_r/delta_0: 8.1278E-06 | 5: delta_s/delta_0: 9.1103E-05 | 6: delta_r/delta_0: 1.0831E-05 | 7: delta_s/delta_0: 7.3382E-07 | 8: delta_r/delta_0: 6.6063E-09 | 9: delta_s/delta_0: 3.7950E-09 | 10: delta_r/delta_0: 6.4688E-10 | 11: delta_s/delta_0: 2.0119E-09 | 12: delta_r/delta_0: 7.7830E-10 | 13: delta_s/delta_0: 1.1319E-09 | 14: delta_r/delta_0: 6.2517E-10 | 15: delta_s/delta_0: 1.0365E-09 | 16: delta_r/delta_0: 2.9383E-10 | 17: delta_s/delta_0: 8.7453E-11 | Reached bicg-stab tolerance | BP delta = -5.6062140E-02 -0.1080632 2827546.27391003 | BP delta = -5.6062140E-02 -0.1010434 2827613.06494852 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95909215 | --> Sampling calibration, mode = relcal | relcal = 0.1065323 0.1394763 -0.1101541 -0.1358545 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7798891E-03 1.3043969E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4361E-03 | 2: delta_r/delta_0: 3.4683E-05 | 3: delta_s/delta_0: 2.1394E-05 | 4: delta_r/delta_0: 1.6495E-06 | 5: delta_s/delta_0: 6.2264E-07 | 6: delta_r/delta_0: 2.2337E-07 | 7: delta_s/delta_0: 4.3070E-07 | 8: delta_r/delta_0: 4.6910E-08 | 9: delta_s/delta_0: 3.5412E-07 | 10: delta_r/delta_0: 9.5338E-08 | 11: delta_s/delta_0: 3.0424E-09 | 12: delta_r/delta_0: 1.4855E-09 | 13: delta_s/delta_0: 1.5056E-09 | 14: delta_r/delta_0: 3.8323E-10 | 15: delta_s/delta_0: 9.6091E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.708747303743065E-002 3.697426435344226E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4354E-03 | 2: delta_r/delta_0: 3.4666E-05 | 3: delta_s/delta_0: 2.1387E-05 | 4: delta_r/delta_0: 1.6492E-06 | 5: delta_s/delta_0: 6.2254E-07 | 6: delta_r/delta_0: 2.2349E-07 | 7: delta_s/delta_0: 4.3209E-07 | 8: delta_r/delta_0: 4.6910E-08 | 9: delta_s/delta_0: 3.5853E-07 | 10: delta_r/delta_0: 9.6994E-08 | 11: delta_s/delta_0: 3.0441E-09 | 12: delta_r/delta_0: 1.4837E-09 | 13: delta_s/delta_0: 1.5191E-09 | 14: delta_r/delta_0: 3.8141E-10 | 15: delta_s/delta_0: 9.6067E-11 | Reached bicg-stab tolerance | BP delta = 0.2237077 0.3239917 3003917.99922914 | BP delta = 0.2237077 0.3232949 3003959.95685745 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184652 | New value = -3.156562 | poltype: 2 pol: 1 CPU time specind = 2.6937008E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.110075 | New value = -3.138210 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184404 | New value = -3.229137 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166681 | New value = -3.139594 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115200 | New value = -3.200767 | poltype: 2 pol: 2 CPU time specind = 9.8929405E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.13552E+08, tol = 0.76088E+01, time = 5.71 | CG iter. 2 -- res = 0.31077E+06, tol = 0.76088E+01, time = 5.68 | CG iter. 3 -- res = 0.46166E+05, tol = 0.76088E+01, time = 6.24 | CG iter. 4 -- res = 0.22370E+05, tol = 0.76088E+01, time = 5.82 | CG iter. 5 -- res = 0.11883E+05, tol = 0.76088E+01, time = 11.85 | CG iter. 6 -- res = 0.71359E+04, tol = 0.76088E+01, time = 5.60 | CG iter. 7 -- res = 0.52862E+04, tol = 0.76088E+01, time = 5.90 | CG iter. 8 -- res = 0.42530E+04, tol = 0.76088E+01, time = 5.96 | CG iter. 9 -- res = 0.39785E+04, tol = 0.76088E+01, time = 5.31 | CG iter. 10 -- res = 0.40456E+04, tol = 0.76088E+01, time = 5.55 | CG iter. 11 -- res = 0.31715E+04, tol = 0.76088E+01, time = 5.94 | CG iter. 12 -- res = 0.20671E+04, tol = 0.76088E+01, time = 5.53 | CG iter. 13 -- res = 0.14366E+04, tol = 0.76088E+01, time = 5.68 | CG iter. 14 -- res = 0.12145E+04, tol = 0.76088E+01, time = 6.36 | CG iter. 15 -- res = 0.11007E+04, tol = 0.76088E+01, time = 5.39 | CG iter. 16 -- res = 0.87471E+03, tol = 0.76088E+01, time = 6.11 | CG iter. 17 -- res = 0.67269E+03, tol = 0.76088E+01, time = 6.11 | CG iter. 18 -- res = 0.53669E+03, tol = 0.76088E+01, time = 5.52 | CG iter. 19 -- res = 0.45154E+03, tol = 0.76088E+01, time = 5.45 | CG iter. 20 -- res = 0.34909E+03, tol = 0.76088E+01, time = 7.34 | CG iter. 21 -- res = 0.24814E+03, tol = 0.76088E+01, time = 6.01 | CG iter. 22 -- res = 0.17910E+03, tol = 0.76088E+01, time = 6.37 | CG iter. 23 -- res = 0.14673E+03, tol = 0.76088E+01, time = 5.93 | CG iter. 24 -- res = 0.12558E+03, tol = 0.76088E+01, time = 5.48 | CG iter. 25 -- res = 0.93504E+02, tol = 0.76088E+01, time = 5.91 | CG iter. 26 -- res = 0.69237E+02, tol = 0.76088E+01, time = 5.58 | CG iter. 27 -- res = 0.54599E+02, tol = 0.76088E+01, time = 5.81 | CG iter. 28 -- res = 0.45240E+02, tol = 0.76088E+01, time = 5.85 | CG iter. 29 -- res = 0.36329E+02, tol = 0.76088E+01, time = 5.87 | CG iter. 30 -- res = 0.27902E+02, tol = 0.76088E+01, time = 5.29 | CG iter. 31 -- res = 0.23242E+02, tol = 0.76088E+01, time = 6.01 | CG iter. 32 -- res = 0.20126E+02, tol = 0.76088E+01, time = 5.65 | CG iter. 33 -- res = 0.17208E+02, tol = 0.76088E+01, time = 5.86 | CG iter. 34 -- res = 0.13447E+02, tol = 0.76088E+01, time = 5.84 | CG iter. 35 -- res = 0.10707E+02, tol = 0.76088E+01, time = 5.94 | CG iter. 36 -- res = 0.98830E+01, tol = 0.76088E+01, time = 5.57 | CG iter. 37 -- res = 0.83522E+01, tol = 0.76088E+01, time = 5.71 | CG iter. 38 -- res = 0.67909E+01, tol = 0.76088E+01, time = 5.91 | CG iter. 39 -- res = 0.52428E+01, tol = 0.76088E+01, time = 5.89 | CG iter. 40 -- res = 0.44423E+01, tol = 0.76088E+01, time = 6.26 | CG iter. 41 -- res = 0.38843E+01, tol = 0.76088E+01, time = 5.46 | CG iter. 42 -- res = 0.30845E+01, tol = 0.76088E+01, time = 5.70 | CG iter. 43 -- res = 0.24248E+01, tol = 0.76088E+01, time = 6.26 | CG iter. 44 -- res = 0.19662E+01, tol = 0.76088E+01, time = 5.71 | CG iter. 45 -- res = 0.17031E+01, tol = 0.76088E+01, time = 5.98 | CG iter. 46 -- res = 0.14001E+01, tol = 0.76088E+01, time = 5.96 | CG iter. 47 -- res = 0.11379E+01, tol = 0.76088E+01, time = 5.76 | CG iter. 48 -- res = 0.93248E+00, tol = 0.76088E+01, time = 6.19 | CG iter. 49 -- res = 0.80433E+00, tol = 0.76088E+01, time = 5.51 | CG iter. 50 -- res = 0.68951E+00, tol = 0.76088E+01, time = 5.79 | Final CG iter 51 -- res = 0.68951E+00, tol = 0.76088E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10837360.130 | Old band monopole 9223299.908 | Change to band monopole 1614060.222 | Change to component monopole -1614053.280 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.71941E+03, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.10680E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.83241E-01, tol = 0.47627E+18, time = 1.94 | Final CG iter 4 -- res = 0.41553E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10837313.517 | (Sampled value in CG: 10859797.624 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.461398 | New value = 1.508675 | poltype: 2 pol: 1 CPU time specind = 1.5562057E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473062 | New value = 1.440110 | poltype: 2 pol: 2 CPU time specind = 4.5809746E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.24461E+08, tol = 0.47543E+04, time = 8.22 | CG iter. 2 -- res = 0.54131E+07, tol = 0.47543E+04, time = 7.21 | CG iter. 3 -- res = 0.83794E+06, tol = 0.47543E+04, time = 6.71 | CG iter. 4 -- res = 0.35589E+06, tol = 0.47543E+04, time = 6.55 | CG iter. 5 -- res = 0.15780E+06, tol = 0.47543E+04, time = 7.01 | CG iter. 6 -- res = 0.81863E+05, tol = 0.47543E+04, time = 6.92 | CG iter. 7 -- res = 0.44368E+05, tol = 0.47543E+04, time = 6.69 | CG iter. 8 -- res = 0.21406E+05, tol = 0.47543E+04, time = 6.59 | CG iter. 9 -- res = 0.93252E+04, tol = 0.47543E+04, time = 6.33 | CG iter. 10 -- res = 0.37331E+04, tol = 0.47543E+04, time = 6.67 | CG iter. 11 -- res = 0.16902E+04, tol = 0.47543E+04, time = 6.19 | CG iter. 12 -- res = 0.89367E+03, tol = 0.47543E+04, time = 6.77 | CG iter. 13 -- res = 0.50236E+03, tol = 0.47543E+04, time = 6.61 | CG iter. 14 -- res = 0.28539E+03, tol = 0.47543E+04, time = 6.49 | CG iter. 15 -- res = 0.14566E+03, tol = 0.47543E+04, time = 6.76 | CG iter. 16 -- res = 0.68354E+02, tol = 0.47543E+04, time = 6.66 | CG iter. 17 -- res = 0.32697E+02, tol = 0.47543E+04, time = 7.26 | CG iter. 18 -- res = 0.16491E+02, tol = 0.47543E+04, time = 7.01 | CG iter. 19 -- res = 0.91218E+01, tol = 0.47543E+04, time = 6.52 | CG iter. 20 -- res = 0.51387E+01, tol = 0.47543E+04, time = 6.94 | CG iter. 21 -- res = 0.28323E+01, tol = 0.47543E+04, time = 6.60 | CG iter. 22 -- res = 0.14421E+01, tol = 0.47543E+04, time = 6.75 | CG iter. 23 -- res = 0.71690E+00, tol = 0.47543E+04, time = 6.71 | CG iter. 24 -- res = 0.36493E+00, tol = 0.47543E+04, time = 6.75 | CG iter. 25 -- res = 0.19936E+00, tol = 0.47543E+04, time = 6.56 | CG iter. 26 -- res = 0.11535E+00, tol = 0.47543E+04, time = 6.80 | CG iter. 27 -- res = 0.65203E-01, tol = 0.47543E+04, time = 6.83 | CG iter. 28 -- res = 0.34836E-01, tol = 0.47543E+04, time = 6.71 | CG iter. 29 -- res = 0.17989E-01, tol = 0.47543E+04, time = 7.04 | CG iter. 30 -- res = 0.93388E-02, tol = 0.47543E+04, time = 6.42 | CG iter. 31 -- res = 0.51136E-02, tol = 0.47543E+04, time = 7.15 | CG iter. 32 -- res = 0.28783E-02, tol = 0.47543E+04, time = 12.51 | CG iter. 33 -- res = 0.16087E-02, tol = 0.47543E+04, time = 6.88 | CG iter. 34 -- res = 0.86538E-03, tol = 0.47543E+04, time = 7.06 | CG iter. 35 -- res = 0.45245E-03, tol = 0.47543E+04, time = 6.90 | Final CG iter 36 -- res = 0.45245E-03, tol = 0.47543E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.904 2.746 | New value 1.668 | Old value -4.904 | Difference 6.572 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.22385E+07, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.18077E+02, tol = 0.47627E+18, time = 2.42 | CG iter. 3 -- res = 0.47002E+00, tol = 0.47627E+18, time = 2.40 | CG iter. 4 -- res = 0.19953E-03, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.10165E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10837313.517 | (Sampled value in CG: 10860770.147 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.731120 | New value = -3.614846 | poltype: 1 pol: 1 CPU time specind = 1.5403986E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.21752E+07, tol = 0.18830E+01, time = 2.75 | CG iter. 2 -- res = 0.65398E+06, tol = 0.18830E+01, time = 2.94 | CG iter. 3 -- res = 0.12661E+06, tol = 0.18830E+01, time = 2.75 | CG iter. 4 -- res = 0.55328E+05, tol = 0.18830E+01, time = 2.77 | CG iter. 5 -- res = 0.32283E+05, tol = 0.18830E+01, time = 2.91 | CG iter. 6 -- res = 0.16585E+05, tol = 0.18830E+01, time = 2.87 | CG iter. 7 -- res = 0.63565E+04, tol = 0.18830E+01, time = 2.91 | CG iter. 8 -- res = 0.28045E+04, tol = 0.18830E+01, time = 2.45 | CG iter. 9 -- res = 0.12117E+04, tol = 0.18830E+01, time = 2.67 | CG iter. 10 -- res = 0.47736E+03, tol = 0.18830E+01, time = 2.92 | CG iter. 11 -- res = 0.20943E+03, tol = 0.18830E+01, time = 2.78 | CG iter. 12 -- res = 0.10379E+03, tol = 0.18830E+01, time = 2.51 | CG iter. 13 -- res = 0.53798E+02, tol = 0.18830E+01, time = 2.66 | CG iter. 14 -- res = 0.26563E+02, tol = 0.18830E+01, time = 2.85 | CG iter. 15 -- res = 0.11620E+02, tol = 0.18830E+01, time = 2.74 | CG iter. 16 -- res = 0.52186E+01, tol = 0.18830E+01, time = 2.81 | CG iter. 17 -- res = 0.22192E+01, tol = 0.18830E+01, time = 2.93 | CG iter. 18 -- res = 0.10342E+01, tol = 0.18830E+01, time = 2.58 | CG iter. 19 -- res = 0.53707E+00, tol = 0.18830E+01, time = 2.55 | CG iter. 20 -- res = 0.26385E+00, tol = 0.18830E+01, time = 3.73 | CG iter. 21 -- res = 0.12587E+00, tol = 0.18830E+01, time = 3.97 | CG iter. 22 -- res = 0.58817E-01, tol = 0.18830E+01, time = 3.24 | CG iter. 23 -- res = 0.25907E-01, tol = 0.18830E+01, time = 3.00 | CG iter. 24 -- res = 0.11884E-01, tol = 0.18830E+01, time = 2.71 | CG iter. 25 -- res = 0.60735E-02, tol = 0.18830E+01, time = 2.71 | CG iter. 26 -- res = 0.31714E-02, tol = 0.18830E+01, time = 2.92 | CG iter. 27 -- res = 0.15135E-02, tol = 0.18830E+01, time = 3.18 | CG iter. 28 -- res = 0.71134E-03, tol = 0.18830E+01, time = 3.04 | CG iter. 29 -- res = 0.32237E-03, tol = 0.18830E+01, time = 2.85 | CG iter. 30 -- res = 0.14813E-03, tol = 0.18830E+01, time = 2.68 | CG iter. 31 -- res = 0.76553E-04, tol = 0.18830E+01, time = 2.80 | CG iter. 32 -- res = 0.39550E-04, tol = 0.18830E+01, time = 3.05 | CG iter. 33 -- res = 0.18714E-04, tol = 0.18830E+01, time = 2.80 | CG iter. 34 -- res = 0.86228E-05, tol = 0.18830E+01, time = 2.82 | CG iter. 35 -- res = 0.39661E-05, tol = 0.18830E+01, time = 2.75 | CG iter. 36 -- res = 0.19285E-05, tol = 0.18830E+01, time = 2.77 | CG iter. 37 -- res = 0.94814E-06, tol = 0.18830E+01, time = 2.72 | CG iter. 38 -- res = 0.47551E-06, tol = 0.18830E+01, time = 2.86 | CG iter. 39 -- res = 0.23852E-06, tol = 0.18830E+01, time = 2.75 | CG iter. 40 -- res = 0.10864E-06, tol = 0.18830E+01, time = 3.02 | CG iter. 41 -- res = 0.51363E-07, tol = 0.18830E+01, time = 2.90 | CG iter. 42 -- res = 0.24297E-07, tol = 0.18830E+01, time = 2.53 | CG iter. 43 -- res = 0.11699E-07, tol = 0.18830E+01, time = 2.73 | CG iter. 44 -- res = 0.57003E-08, tol = 0.18830E+01, time = 3.10 | CG iter. 45 -- res = 0.27887E-08, tol = 0.18830E+01, time = 2.67 | CG iter. 46 -- res = 0.13183E-08, tol = 0.18830E+01, time = 3.00 | CG iter. 47 -- res = 0.59004E-09, tol = 0.18830E+01, time = 2.63 | CG iter. 48 -- res = 0.28659E-09, tol = 0.18830E+01, time = 3.01 | CG iter. 49 -- res = 0.13709E-09, tol = 0.18830E+01, time = 2.86 | CG iter. 50 -- res = 0.65687E-10, tol = 0.18830E+01, time = 2.56 | Final CG iter 51 -- res = 0.65687E-10, tol = 0.18830E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.367 4.697 | New value 10.117 | Old value 5.367 | Difference 4.750 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.22149E+05, tol = 0.47627E+18, time = 1.70 | CG iter. 2 -- res = 0.32867E+02, tol = 0.47627E+18, time = 2.36 | CG iter. 3 -- res = 0.11990E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.22374E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.11225E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10837313.517 | (Sampled value in CG: 10856494.155 ) | CPU time specind = 1209.537 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.69973E+08, tol = 0.57700E+04, time = 12.31 | CG iter. 2 -- res = 0.59469E+08, tol = 0.57700E+04, time = 12.22 | CG iter. 3 -- res = 0.15410E+08, tol = 0.57700E+04, time = 18.92 | CG iter. 4 -- res = 0.65679E+07, tol = 0.57700E+04, time = 12.12 | CG iter. 5 -- res = 0.39541E+07, tol = 0.57700E+04, time = 12.24 | CG iter. 6 -- res = 0.22831E+07, tol = 0.57700E+04, time = 12.10 | CG iter. 7 -- res = 0.13000E+07, tol = 0.57700E+04, time = 12.15 | CG iter. 8 -- res = 0.86248E+06, tol = 0.57700E+04, time = 12.01 | CG iter. 9 -- res = 0.56976E+06, tol = 0.57700E+04, time = 11.91 | CG iter. 10 -- res = 0.33903E+06, tol = 0.57700E+04, time = 13.06 | CG iter. 11 -- res = 0.18170E+06, tol = 0.57700E+04, time = 13.30 | CG iter. 12 -- res = 0.96566E+05, tol = 0.57700E+04, time = 12.11 | CG iter. 13 -- res = 0.52337E+05, tol = 0.57700E+04, time = 12.26 | CG iter. 14 -- res = 0.29669E+05, tol = 0.57700E+04, time = 12.29 | CG iter. 15 -- res = 0.18727E+05, tol = 0.57700E+04, time = 11.93 | CG iter. 16 -- res = 0.12837E+05, tol = 0.57700E+04, time = 11.99 | CG iter. 17 -- res = 0.92446E+04, tol = 0.57700E+04, time = 11.82 | CG iter. 18 -- res = 0.63642E+04, tol = 0.57700E+04, time = 11.66 | CG iter. 19 -- res = 0.42985E+04, tol = 0.57700E+04, time = 12.78 | CG iter. 20 -- res = 0.29541E+04, tol = 0.57700E+04, time = 12.48 | CG iter. 21 -- res = 0.21818E+04, tol = 0.57700E+04, time = 12.19 | CG iter. 22 -- res = 0.18267E+04, tol = 0.57700E+04, time = 12.12 | CG iter. 23 -- res = 0.17496E+04, tol = 0.57700E+04, time = 12.53 | CG iter. 24 -- res = 0.18190E+04, tol = 0.57700E+04, time = 12.58 | CG iter. 25 -- res = 0.19383E+04, tol = 0.57700E+04, time = 12.00 | CG iter. 26 -- res = 0.19671E+04, tol = 0.57700E+04, time = 12.53 | CG iter. 27 -- res = 0.18956E+04, tol = 0.57700E+04, time = 18.68 | CG iter. 28 -- res = 0.16962E+04, tol = 0.57700E+04, time = 12.47 | CG iter. 29 -- res = 0.14842E+04, tol = 0.57700E+04, time = 11.68 | CG iter. 30 -- res = 0.13385E+04, tol = 0.57700E+04, time = 12.09 | CG iter. 31 -- res = 0.12541E+04, tol = 0.57700E+04, time = 12.48 | CG iter. 32 -- res = 0.11022E+04, tol = 0.57700E+04, time = 11.99 | CG iter. 33 -- res = 0.91266E+03, tol = 0.57700E+04, time = 12.08 | CG iter. 34 -- res = 0.71536E+03, tol = 0.57700E+04, time = 12.64 | CG iter. 35 -- res = 0.54530E+03, tol = 0.57700E+04, time = 12.77 | CG iter. 36 -- res = 0.44512E+03, tol = 0.57700E+04, time = 12.15 | CG iter. 37 -- res = 0.40267E+03, tol = 0.57700E+04, time = 11.67 | CG iter. 38 -- res = 0.37954E+03, tol = 0.57700E+04, time = 11.76 | CG iter. 39 -- res = 0.35947E+03, tol = 0.57700E+04, time = 12.01 | CG iter. 40 -- res = 0.33716E+03, tol = 0.57700E+04, time = 12.17 | CG iter. 41 -- res = 0.30574E+03, tol = 0.57700E+04, time = 11.84 | CG iter. 42 -- res = 0.27333E+03, tol = 0.57700E+04, time = 12.22 | CG iter. 43 -- res = 0.25382E+03, tol = 0.57700E+04, time = 12.92 | CG iter. 44 -- res = 0.24025E+03, tol = 0.57700E+04, time = 11.99 | CG iter. 45 -- res = 0.22418E+03, tol = 0.57700E+04, time = 12.04 | CG iter. 46 -- res = 0.21118E+03, tol = 0.57700E+04, time = 12.19 | CG iter. 47 -- res = 0.19291E+03, tol = 0.57700E+04, time = 11.88 | CG iter. 48 -- res = 0.16701E+03, tol = 0.57700E+04, time = 12.29 | CG iter. 49 -- res = 0.14151E+03, tol = 0.57700E+04, time = 12.47 | CG iter. 50 -- res = 0.12582E+03, tol = 0.57700E+04, time = 12.56 | CG iter. 51 -- res = 0.12084E+03, tol = 0.57700E+04, time = 18.23 | CG iter. 52 -- res = 0.11849E+03, tol = 0.57700E+04, time = 12.55 | CG iter. 53 -- res = 0.11268E+03, tol = 0.57700E+04, time = 11.91 | CG iter. 54 -- res = 0.10674E+03, tol = 0.57700E+04, time = 12.37 | CG iter. 55 -- res = 0.10235E+03, tol = 0.57700E+04, time = 12.25 | CG iter. 56 -- res = 0.97599E+02, tol = 0.57700E+04, time = 11.72 | CG iter. 57 -- res = 0.89784E+02, tol = 0.57700E+04, time = 11.80 | CG iter. 58 -- res = 0.84282E+02, tol = 0.57700E+04, time = 13.93 | CG iter. 59 -- res = 0.82811E+02, tol = 0.57700E+04, time = 13.31 | CG iter. 60 -- res = 0.82477E+02, tol = 0.57700E+04, time = 12.17 | Final CG iter 61 -- res = 0.82477E+02, tol = 0.57700E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.848 ( -230.238 -2232.315 2514.942 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9110063.809 | Old band monopole 10837360.130 | Change to band monopole -1727296.321 | Change to component monopole 1727288.892 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.731 2.756 | New value 1.673 | Old value 1.731 | Difference -0.058 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.042 ( 7.761 14.778 -14.638 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.663 4.149 | New value 0.949 | Old value 11.663 | Difference -10.714 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.18724E+04, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.17345E+02, tol = 0.47627E+18, time = 2.32 | CG iter. 3 -- res = 0.30096E+00, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.23214E-03, tol = 0.47627E+18, time = 2.35 | Final CG iter 5 -- res = 0.33728E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9110024.625 | (Sampled value in CG: 9093359.596 ) | Chain = 1 -- chisq = 0.81536415E+09 | Chain = 1 -- wall time = 6177.413 sec Available RAM: MemAvailable: 379664336 kB Available Swap: SwapFree: 1123631716 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 369 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442294 | --> Sampling calibration, mode = relcal | relcal = 1.3429508E-02 7.4494490E-04 -1.5968332E-03 -1.2577619E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1725294 0.1867241 97044066.5818729 | BP delta = 0.1671571 0.1813518 97044067.9199178 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632665 | --> Sampling calibration, mode = relcal | relcal = -2.8218227E-03 -7.0416951E-04 1.6785628E-03 1.6132332E-03 -4.0640830E-04 6.4060435E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5809718 15215501.2709875 | BP delta = 0.0000000E+00 -0.5732161 15215502.3912240 | BP chisq diff = 1.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17955918886341 | --> Sampling calibration, mode = relcal | relcal = -7.5467326E-02 -5.8553115E-02 9.2185162E-02 4.1835282E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.5673005E-05 4.6286718E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1631E-05 | 2: delta_r/delta_0: 9.7708E-07 | 3: delta_s/delta_0: 2.0175E-07 | 4: delta_r/delta_0: 3.0646E-08 | 5: delta_s/delta_0: 2.2657E-08 | 6: delta_r/delta_0: 1.7179E-09 | 7: delta_s/delta_0: 2.5413E-10 | 8: delta_r/delta_0: 1.2589E-10 | 9: delta_s/delta_0: 2.4792E-10 | 10: delta_r/delta_0: 6.5569E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.445162977273947E-003 2.744347361781345E-005 | BP delta = 8.7919772E-02 0.1106058 50492221.6655122 | BP delta = 8.9127712E-02 0.1118138 50492221.0138530 | BP chisq diff = -0.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02627816 | --> Sampling calibration, mode = relcal | relcal = -0.1066775 -9.5557012E-02 0.1449673 5.7267122E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1168936E-03 1.1644614E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8716E-05 | 2: delta_r/delta_0: 1.1935E-06 | 3: delta_s/delta_0: 2.3955E-07 | 4: delta_r/delta_0: 5.4813E-08 | 5: delta_s/delta_0: 1.6134E-08 | 6: delta_r/delta_0: 7.1489E-09 | 7: delta_s/delta_0: 4.2060E-08 | 8: delta_r/delta_0: 1.8204E-09 | 9: delta_s/delta_0: 9.1440E-10 | 10: delta_r/delta_0: 3.6596E-10 | 11: delta_s/delta_0: 3.6597E-09 | 12: delta_r/delta_0: 3.0260E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.813601460654860E-003 2.810038755568325E-005 | BP delta = -0.2480133 -0.2174054 57392482.8202948 | BP delta = -0.2435052 -0.2128973 57392482.4899393 | BP chisq diff = -0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81255534 | --> Sampling calibration, mode = relcal | relcal = 0.2955430 0.2249517 -0.2839176 -0.2365770 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.2162657E-05 5.6534954E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8940E-04 | 2: delta_r/delta_0: 1.5659E-05 | 3: delta_s/delta_0: 1.5405E-05 | 4: delta_r/delta_0: 1.7689E-06 | 5: delta_s/delta_0: 2.7019E-07 | 6: delta_r/delta_0: 6.3163E-08 | 7: delta_s/delta_0: 5.2347E-08 | 8: delta_r/delta_0: 3.0916E-08 | 9: delta_s/delta_0: 1.6881E-07 | 10: delta_r/delta_0: 1.6765E-09 | 11: delta_s/delta_0: 6.6908E-10 | 12: delta_r/delta_0: 4.2227E-10 | 13: delta_s/delta_0: 1.9851E-09 | 14: delta_r/delta_0: 5.7147E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.025243858381289E-002 4.020104870509294E-005 | BP delta = -5.6062140E-02 -0.1080632 72480884.2191730 | BP delta = -8.2920775E-02 -0.1349218 72480883.5404340 | BP chisq diff = -0.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95952975 | --> Sampling calibration, mode = relcal | relcal = 0.1065434 0.1395559 -0.1103023 -0.1357970 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1213907E-02 1.4048931E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4947E+00 | 2: delta_r/delta_0: 3.5674E-02 | 3: delta_s/delta_0: 5.0352E-02 | 4: delta_r/delta_0: 2.9626E-03 | 5: delta_s/delta_0: 4.5814E-06 | 6: delta_r/delta_0: 1.7578E-06 | 7: delta_s/delta_0: 5.9153E-06 | 8: delta_r/delta_0: 1.1178E-06 | 9: delta_s/delta_0: 2.5335E-06 | 10: delta_r/delta_0: 2.3000E-07 | 11: delta_s/delta_0: 1.3155E-08 | 12: delta_r/delta_0: 3.7895E-09 | 13: delta_s/delta_0: 2.0895E-08 | 14: delta_r/delta_0: 8.8565E-10 | 15: delta_s/delta_0: 3.8381E-10 | 16: delta_r/delta_0: 1.0173E-10 | 17: delta_s/delta_0: 7.2178E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.871978777565857E-002 3.695757031177820E-005 | BP delta = 0.2237077 0.3239917 72784178.3426970 | BP delta = 0.2321973 0.3324813 72784178.7043726 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156562 | New value = -3.191967 | poltype: 2 pol: 1 CPU time specind = 2.4658203E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138210 | New value = -3.162691 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.229137 | New value = -3.142422 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139594 | New value = -3.136211 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200767 | New value = -3.123112 | poltype: 2 pol: 2 CPU time specind = 2.2871017E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.13542E+08, tol = 0.77257E+01, time = 5.33 | CG iter. 2 -- res = 0.33157E+06, tol = 0.77257E+01, time = 5.83 | CG iter. 3 -- res = 0.47311E+05, tol = 0.77257E+01, time = 12.11 | CG iter. 4 -- res = 0.22954E+05, tol = 0.77257E+01, time = 5.97 | CG iter. 5 -- res = 0.13466E+05, tol = 0.77257E+01, time = 5.92 | CG iter. 6 -- res = 0.83047E+04, tol = 0.77257E+01, time = 6.05 | CG iter. 7 -- res = 0.63813E+04, tol = 0.77257E+01, time = 5.72 | CG iter. 8 -- res = 0.54246E+04, tol = 0.77257E+01, time = 5.95 | CG iter. 9 -- res = 0.51599E+04, tol = 0.77257E+01, time = 5.58 | CG iter. 10 -- res = 0.54451E+04, tol = 0.77257E+01, time = 5.47 | CG iter. 11 -- res = 0.47077E+04, tol = 0.77257E+01, time = 5.97 | CG iter. 12 -- res = 0.32100E+04, tol = 0.77257E+01, time = 5.62 | CG iter. 13 -- res = 0.22769E+04, tol = 0.77257E+01, time = 5.72 | CG iter. 14 -- res = 0.18596E+04, tol = 0.77257E+01, time = 5.97 | CG iter. 15 -- res = 0.16178E+04, tol = 0.77257E+01, time = 5.91 | CG iter. 16 -- res = 0.13130E+04, tol = 0.77257E+01, time = 5.74 | CG iter. 17 -- res = 0.10391E+04, tol = 0.77257E+01, time = 6.04 | CG iter. 18 -- res = 0.83769E+03, tol = 0.77257E+01, time = 7.09 | CG iter. 19 -- res = 0.73663E+03, tol = 0.77257E+01, time = 6.63 | CG iter. 20 -- res = 0.58960E+03, tol = 0.77257E+01, time = 6.06 | CG iter. 21 -- res = 0.44130E+03, tol = 0.77257E+01, time = 6.37 | CG iter. 22 -- res = 0.34426E+03, tol = 0.77257E+01, time = 5.76 | CG iter. 23 -- res = 0.30947E+03, tol = 0.77257E+01, time = 5.87 | CG iter. 24 -- res = 0.27535E+03, tol = 0.77257E+01, time = 5.73 | CG iter. 25 -- res = 0.21762E+03, tol = 0.77257E+01, time = 5.77 | CG iter. 26 -- res = 0.16783E+03, tol = 0.77257E+01, time = 6.03 | CG iter. 27 -- res = 0.13948E+03, tol = 0.77257E+01, time = 5.89 | CG iter. 28 -- res = 0.12198E+03, tol = 0.77257E+01, time = 6.01 | CG iter. 29 -- res = 0.98726E+02, tol = 0.77257E+01, time = 6.10 | CG iter. 30 -- res = 0.80546E+02, tol = 0.77257E+01, time = 6.09 | CG iter. 31 -- res = 0.67725E+02, tol = 0.77257E+01, time = 5.71 | CG iter. 32 -- res = 0.60751E+02, tol = 0.77257E+01, time = 5.51 | CG iter. 33 -- res = 0.51059E+02, tol = 0.77257E+01, time = 5.91 | CG iter. 34 -- res = 0.39173E+02, tol = 0.77257E+01, time = 5.99 | CG iter. 35 -- res = 0.32078E+02, tol = 0.77257E+01, time = 5.58 | CG iter. 36 -- res = 0.29170E+02, tol = 0.77257E+01, time = 6.62 | CG iter. 37 -- res = 0.26071E+02, tol = 0.77257E+01, time = 5.77 | CG iter. 38 -- res = 0.21047E+02, tol = 0.77257E+01, time = 5.74 | CG iter. 39 -- res = 0.17631E+02, tol = 0.77257E+01, time = 5.71 | CG iter. 40 -- res = 0.15378E+02, tol = 0.77257E+01, time = 6.06 | CG iter. 41 -- res = 0.13707E+02, tol = 0.77257E+01, time = 5.40 | CG iter. 42 -- res = 0.11163E+02, tol = 0.77257E+01, time = 6.07 | CG iter. 43 -- res = 0.89782E+01, tol = 0.77257E+01, time = 5.60 | CG iter. 44 -- res = 0.79756E+01, tol = 0.77257E+01, time = 5.79 | CG iter. 45 -- res = 0.68118E+01, tol = 0.77257E+01, time = 5.81 | CG iter. 46 -- res = 0.57298E+01, tol = 0.77257E+01, time = 5.63 | CG iter. 47 -- res = 0.45685E+01, tol = 0.77257E+01, time = 5.78 | CG iter. 48 -- res = 0.36800E+01, tol = 0.77257E+01, time = 5.92 | CG iter. 49 -- res = 0.31075E+01, tol = 0.77257E+01, time = 5.75 | CG iter. 50 -- res = 0.26269E+01, tol = 0.77257E+01, time = 5.44 | Final CG iter 51 -- res = 0.26269E+01, tol = 0.77257E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11057130.184 | Old band monopole 9110063.809 | Change to band monopole 1947066.375 | Change to component monopole -1947058.000 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.20229E+06, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.83875E+02, tol = 0.47627E+18, time = 2.43 | CG iter. 3 -- res = 0.26881E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.51305E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.90323E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11057082.625 | (Sampled value in CG: 11030916.733 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.508675 | New value = 1.545017 | poltype: 2 pol: 1 CPU time specind = 1.4939070E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.440110 | New value = 1.532877 | poltype: 2 pol: 2 CPU time specind = 3.7739277E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.24330E+08, tol = 0.47676E+04, time = 7.19 | CG iter. 2 -- res = 0.53382E+07, tol = 0.47676E+04, time = 6.86 | CG iter. 3 -- res = 0.85477E+06, tol = 0.47676E+04, time = 6.61 | CG iter. 4 -- res = 0.36001E+06, tol = 0.47676E+04, time = 6.69 | CG iter. 5 -- res = 0.15833E+06, tol = 0.47676E+04, time = 6.90 | CG iter. 6 -- res = 0.81648E+05, tol = 0.47676E+04, time = 6.48 | CG iter. 7 -- res = 0.44795E+05, tol = 0.47676E+04, time = 6.86 | CG iter. 8 -- res = 0.21462E+05, tol = 0.47676E+04, time = 6.82 | CG iter. 9 -- res = 0.94472E+04, tol = 0.47676E+04, time = 6.89 | CG iter. 10 -- res = 0.37659E+04, tol = 0.47676E+04, time = 6.33 | CG iter. 11 -- res = 0.16962E+04, tol = 0.47676E+04, time = 6.52 | CG iter. 12 -- res = 0.87380E+03, tol = 0.47676E+04, time = 6.99 | CG iter. 13 -- res = 0.49232E+03, tol = 0.47676E+04, time = 6.50 | CG iter. 14 -- res = 0.27848E+03, tol = 0.47676E+04, time = 7.20 | CG iter. 15 -- res = 0.14289E+03, tol = 0.47676E+04, time = 6.21 | CG iter. 16 -- res = 0.66030E+02, tol = 0.47676E+04, time = 6.58 | CG iter. 17 -- res = 0.30624E+02, tol = 0.47676E+04, time = 7.19 | CG iter. 18 -- res = 0.15290E+02, tol = 0.47676E+04, time = 6.70 | CG iter. 19 -- res = 0.84687E+01, tol = 0.47676E+04, time = 7.03 | CG iter. 20 -- res = 0.47790E+01, tol = 0.47676E+04, time = 6.48 | CG iter. 21 -- res = 0.26517E+01, tol = 0.47676E+04, time = 6.74 | CG iter. 22 -- res = 0.13777E+01, tol = 0.47676E+04, time = 6.94 | CG iter. 23 -- res = 0.67944E+00, tol = 0.47676E+04, time = 6.71 | CG iter. 24 -- res = 0.34386E+00, tol = 0.47676E+04, time = 6.54 | CG iter. 25 -- res = 0.18691E+00, tol = 0.47676E+04, time = 6.72 | CG iter. 26 -- res = 0.10627E+00, tol = 0.47676E+04, time = 6.59 | CG iter. 27 -- res = 0.60210E-01, tol = 0.47676E+04, time = 6.81 | CG iter. 28 -- res = 0.32383E-01, tol = 0.47676E+04, time = 6.79 | CG iter. 29 -- res = 0.16886E-01, tol = 0.47676E+04, time = 6.73 | CG iter. 30 -- res = 0.88886E-02, tol = 0.47676E+04, time = 12.67 | CG iter. 31 -- res = 0.48176E-02, tol = 0.47676E+04, time = 6.69 | CG iter. 32 -- res = 0.27032E-02, tol = 0.47676E+04, time = 6.78 | CG iter. 33 -- res = 0.15364E-02, tol = 0.47676E+04, time = 6.50 | CG iter. 34 -- res = 0.83665E-03, tol = 0.47676E+04, time = 6.74 | CG iter. 35 -- res = 0.45274E-03, tol = 0.47676E+04, time = 6.44 | Final CG iter 36 -- res = 0.45274E-03, tol = 0.47676E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.648 2.742 | New value -0.985 | Old value 1.648 | Difference -2.633 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.36305E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.27601E+02, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.72406E+00, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.94875E-03, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.29489E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11057082.625 | (Sampled value in CG: 11031322.777 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.614846 | New value = -3.770415 | poltype: 1 pol: 1 CPU time specind = 0.2540569 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.24255E+07, tol = 0.27280E+01, time = 2.99 | CG iter. 2 -- res = 0.60195E+06, tol = 0.27280E+01, time = 2.63 | CG iter. 3 -- res = 0.13394E+06, tol = 0.27280E+01, time = 2.84 | CG iter. 4 -- res = 0.70419E+05, tol = 0.27280E+01, time = 2.72 | CG iter. 5 -- res = 0.44274E+05, tol = 0.27280E+01, time = 2.92 | CG iter. 6 -- res = 0.18790E+05, tol = 0.27280E+01, time = 2.71 | CG iter. 7 -- res = 0.62599E+04, tol = 0.27280E+01, time = 3.09 | CG iter. 8 -- res = 0.26341E+04, tol = 0.27280E+01, time = 2.64 | CG iter. 9 -- res = 0.11115E+04, tol = 0.27280E+01, time = 2.51 | CG iter. 10 -- res = 0.45564E+03, tol = 0.27280E+01, time = 2.67 | CG iter. 11 -- res = 0.21350E+03, tol = 0.27280E+01, time = 3.23 | CG iter. 12 -- res = 0.10953E+03, tol = 0.27280E+01, time = 2.68 | CG iter. 13 -- res = 0.52805E+02, tol = 0.27280E+01, time = 2.83 | CG iter. 14 -- res = 0.24538E+02, tol = 0.27280E+01, time = 2.98 | CG iter. 15 -- res = 0.10286E+02, tol = 0.27280E+01, time = 2.79 | CG iter. 16 -- res = 0.43208E+01, tol = 0.27280E+01, time = 2.93 | CG iter. 17 -- res = 0.19550E+01, tol = 0.27280E+01, time = 4.39 | CG iter. 18 -- res = 0.10092E+01, tol = 0.27280E+01, time = 2.91 | CG iter. 19 -- res = 0.47899E+00, tol = 0.27280E+01, time = 2.95 | CG iter. 20 -- res = 0.21845E+00, tol = 0.27280E+01, time = 3.14 | CG iter. 21 -- res = 0.92860E-01, tol = 0.27280E+01, time = 3.03 | CG iter. 22 -- res = 0.41722E-01, tol = 0.27280E+01, time = 3.11 | CG iter. 23 -- res = 0.20649E-01, tol = 0.27280E+01, time = 2.85 | CG iter. 24 -- res = 0.10537E-01, tol = 0.27280E+01, time = 2.96 | CG iter. 25 -- res = 0.52383E-02, tol = 0.27280E+01, time = 2.74 | CG iter. 26 -- res = 0.24436E-02, tol = 0.27280E+01, time = 2.99 | CG iter. 27 -- res = 0.11228E-02, tol = 0.27280E+01, time = 3.13 | CG iter. 28 -- res = 0.51767E-03, tol = 0.27280E+01, time = 2.76 | CG iter. 29 -- res = 0.25244E-03, tol = 0.27280E+01, time = 2.98 | CG iter. 30 -- res = 0.13056E-03, tol = 0.27280E+01, time = 2.71 | CG iter. 31 -- res = 0.66102E-04, tol = 0.27280E+01, time = 2.75 | CG iter. 32 -- res = 0.30723E-04, tol = 0.27280E+01, time = 2.73 | CG iter. 33 -- res = 0.14060E-04, tol = 0.27280E+01, time = 3.06 | CG iter. 34 -- res = 0.65708E-05, tol = 0.27280E+01, time = 2.83 | CG iter. 35 -- res = 0.31995E-05, tol = 0.27280E+01, time = 2.50 | CG iter. 36 -- res = 0.16084E-05, tol = 0.27280E+01, time = 2.70 | CG iter. 37 -- res = 0.81201E-06, tol = 0.27280E+01, time = 2.77 | CG iter. 38 -- res = 0.37357E-06, tol = 0.27280E+01, time = 2.91 | CG iter. 39 -- res = 0.16228E-06, tol = 0.27280E+01, time = 2.75 | CG iter. 40 -- res = 0.73459E-07, tol = 0.27280E+01, time = 2.69 | CG iter. 41 -- res = 0.37297E-07, tol = 0.27280E+01, time = 2.65 | CG iter. 42 -- res = 0.18288E-07, tol = 0.27280E+01, time = 2.58 | CG iter. 43 -- res = 0.85575E-08, tol = 0.27280E+01, time = 2.69 | CG iter. 44 -- res = 0.38034E-08, tol = 0.27280E+01, time = 2.63 | CG iter. 45 -- res = 0.17379E-08, tol = 0.27280E+01, time = 2.92 | CG iter. 46 -- res = 0.82099E-09, tol = 0.27280E+01, time = 2.52 | CG iter. 47 -- res = 0.39857E-09, tol = 0.27280E+01, time = 2.49 | CG iter. 48 -- res = 0.19419E-09, tol = 0.27280E+01, time = 2.78 | CG iter. 49 -- res = 0.89614E-10, tol = 0.27280E+01, time = 2.87 | CG iter. 50 -- res = 0.40007E-10, tol = 0.27280E+01, time = 2.84 | Final CG iter 51 -- res = 0.40007E-10, tol = 0.27280E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.043 4.832 | New value 4.500 | Old value -2.043 | Difference 6.543 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.41700E+05, tol = 0.47627E+18, time = 2.18 | CG iter. 2 -- res = 0.28743E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.11987E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.24237E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.36681E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11057082.625 | (Sampled value in CG: 11036437.187 ) | CPU time specind = 1208.828 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.69338E+08, tol = 0.58107E+04, time = 12.13 | CG iter. 2 -- res = 0.58616E+08, tol = 0.58107E+04, time = 12.60 | CG iter. 3 -- res = 0.15495E+08, tol = 0.58107E+04, time = 18.26 | CG iter. 4 -- res = 0.65896E+07, tol = 0.58107E+04, time = 12.69 | CG iter. 5 -- res = 0.39498E+07, tol = 0.58107E+04, time = 12.50 | CG iter. 6 -- res = 0.23062E+07, tol = 0.58107E+04, time = 11.84 | CG iter. 7 -- res = 0.13220E+07, tol = 0.58107E+04, time = 12.24 | CG iter. 8 -- res = 0.87536E+06, tol = 0.58107E+04, time = 11.95 | CG iter. 9 -- res = 0.57408E+06, tol = 0.58107E+04, time = 11.95 | CG iter. 10 -- res = 0.34510E+06, tol = 0.58107E+04, time = 13.83 | CG iter. 11 -- res = 0.18419E+06, tol = 0.58107E+04, time = 12.69 | CG iter. 12 -- res = 0.96804E+05, tol = 0.58107E+04, time = 12.42 | CG iter. 13 -- res = 0.51591E+05, tol = 0.58107E+04, time = 11.95 | CG iter. 14 -- res = 0.29470E+05, tol = 0.58107E+04, time = 12.04 | CG iter. 15 -- res = 0.18857E+05, tol = 0.58107E+04, time = 12.06 | CG iter. 16 -- res = 0.13165E+05, tol = 0.58107E+04, time = 11.86 | CG iter. 17 -- res = 0.95587E+04, tol = 0.58107E+04, time = 12.22 | CG iter. 18 -- res = 0.68332E+04, tol = 0.58107E+04, time = 11.64 | CG iter. 19 -- res = 0.47509E+04, tol = 0.58107E+04, time = 12.71 | CG iter. 20 -- res = 0.33615E+04, tol = 0.58107E+04, time = 12.30 | CG iter. 21 -- res = 0.25178E+04, tol = 0.58107E+04, time = 12.27 | CG iter. 22 -- res = 0.21812E+04, tol = 0.58107E+04, time = 12.42 | CG iter. 23 -- res = 0.21808E+04, tol = 0.58107E+04, time = 12.26 | CG iter. 24 -- res = 0.23371E+04, tol = 0.58107E+04, time = 12.08 | CG iter. 25 -- res = 0.25069E+04, tol = 0.58107E+04, time = 12.29 | CG iter. 26 -- res = 0.25434E+04, tol = 0.58107E+04, time = 13.17 | CG iter. 27 -- res = 0.23197E+04, tol = 0.58107E+04, time = 17.93 | CG iter. 28 -- res = 0.19604E+04, tol = 0.58107E+04, time = 12.20 | CG iter. 29 -- res = 0.16907E+04, tol = 0.58107E+04, time = 12.00 | CG iter. 30 -- res = 0.15242E+04, tol = 0.58107E+04, time = 12.32 | CG iter. 31 -- res = 0.13705E+04, tol = 0.58107E+04, time = 12.41 | CG iter. 32 -- res = 0.12013E+04, tol = 0.58107E+04, time = 11.93 | CG iter. 33 -- res = 0.10054E+04, tol = 0.58107E+04, time = 12.16 | CG iter. 34 -- res = 0.75718E+03, tol = 0.58107E+04, time = 13.98 | CG iter. 35 -- res = 0.56674E+03, tol = 0.58107E+04, time = 11.91 | CG iter. 36 -- res = 0.46151E+03, tol = 0.58107E+04, time = 12.25 | CG iter. 37 -- res = 0.41396E+03, tol = 0.58107E+04, time = 12.29 | CG iter. 38 -- res = 0.39559E+03, tol = 0.58107E+04, time = 12.48 | CG iter. 39 -- res = 0.38536E+03, tol = 0.58107E+04, time = 12.19 | CG iter. 40 -- res = 0.36762E+03, tol = 0.58107E+04, time = 12.00 | CG iter. 41 -- res = 0.33386E+03, tol = 0.58107E+04, time = 12.25 | CG iter. 42 -- res = 0.29254E+03, tol = 0.58107E+04, time = 12.23 | CG iter. 43 -- res = 0.26011E+03, tol = 0.58107E+04, time = 11.98 | CG iter. 44 -- res = 0.23845E+03, tol = 0.58107E+04, time = 12.16 | CG iter. 45 -- res = 0.22181E+03, tol = 0.58107E+04, time = 11.99 | CG iter. 46 -- res = 0.20278E+03, tol = 0.58107E+04, time = 11.92 | CG iter. 47 -- res = 0.18128E+03, tol = 0.58107E+04, time = 11.69 | CG iter. 48 -- res = 0.15486E+03, tol = 0.58107E+04, time = 12.23 | CG iter. 49 -- res = 0.13414E+03, tol = 0.58107E+04, time = 12.14 | CG iter. 50 -- res = 0.11703E+03, tol = 0.58107E+04, time = 12.31 | CG iter. 51 -- res = 0.10279E+03, tol = 0.58107E+04, time = 18.59 | CG iter. 52 -- res = 0.93929E+02, tol = 0.58107E+04, time = 12.23 | CG iter. 53 -- res = 0.89726E+02, tol = 0.58107E+04, time = 11.81 | CG iter. 54 -- res = 0.87074E+02, tol = 0.58107E+04, time = 12.16 | CG iter. 55 -- res = 0.81719E+02, tol = 0.58107E+04, time = 12.11 | CG iter. 56 -- res = 0.74310E+02, tol = 0.58107E+04, time = 12.01 | CG iter. 57 -- res = 0.67166E+02, tol = 0.58107E+04, time = 12.14 | CG iter. 58 -- res = 0.62089E+02, tol = 0.58107E+04, time = 14.11 | CG iter. 59 -- res = 0.59180E+02, tol = 0.58107E+04, time = 12.19 | CG iter. 60 -- res = 0.55691E+02, tol = 0.58107E+04, time = 12.08 | Final CG iter 61 -- res = 0.55691E+02, tol = 0.58107E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.702 ( -230.329 -2230.974 2513.490 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9446511.101 | Old band monopole 11057130.184 | Change to band monopole -1610619.083 | Change to component monopole 1610612.156 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.023 2.736 | New value 3.214 | Old value -1.023 | Difference 4.237 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.002 ( 8.295 12.620 -11.942 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.061 4.475 | New value -0.139 | Old value 11.061 | Difference -11.200 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.93767E+06, tol = 0.47627E+18, time = 2.11 | CG iter. 2 -- res = 0.21532E+02, tol = 0.47627E+18, time = 2.30 | CG iter. 3 -- res = 0.46921E+00, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.11695E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.49816E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9446470.469 | (Sampled value in CG: 9428787.977 ) | Chain = 1 -- chisq = 0.81511454E+09 | Chain = 1 -- wall time = 5709.295 sec Available RAM: MemAvailable: 379478736 kB Available Swap: SwapFree: 1123921304 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 370 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443491 | --> Sampling calibration, mode = relcal | relcal = 1.3443710E-02 7.3722232E-04 -1.6002274E-03 -1.2580705E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1725294 0.1867241 9404212.63091337 | BP delta = 0.1725294 0.1888680 9404214.91801729 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632575 | --> Sampling calibration, mode = relcal | relcal = -2.8225104E-03 -7.0458185E-04 1.6801781E-03 1.6137349E-03 -4.0831915E-04 6.4149825E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5732161 15220046.7178497 | BP delta = 0.0000000E+00 -0.5722603 15220052.3027134 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17703851894634 | --> Sampling calibration, mode = relcal | relcal = -7.4632734E-02 -5.7879485E-02 9.1236830E-02 4.1275389E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.2617444E-05 3.3513356E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3663E-04 | 2: delta_r/delta_0: 3.5985E-06 | 3: delta_s/delta_0: 2.1355E-07 | 4: delta_r/delta_0: 1.7926E-08 | 5: delta_s/delta_0: 6.6848E-09 | 6: delta_r/delta_0: 1.5606E-09 | 7: delta_s/delta_0: 2.2341E-09 | 8: delta_r/delta_0: 8.4555E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.302089013631790E-003 2.750329355391947E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3659E-04 | 2: delta_r/delta_0: 3.5977E-06 | 3: delta_s/delta_0: 2.1356E-07 | 4: delta_r/delta_0: 1.7927E-08 | 5: delta_s/delta_0: 6.6853E-09 | 6: delta_r/delta_0: 1.5609E-09 | 7: delta_s/delta_0: 2.2354E-09 | 8: delta_r/delta_0: 8.4565E-11 | Reached bicg-stab tolerance | BP delta = 8.9127712E-02 0.1118138 3565493.16405153 | BP delta = 8.9127712E-02 0.1118228 3561864.92555803 | BP chisq diff = -3628.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02613180 | --> Sampling calibration, mode = relcal | relcal = -0.1066526 -9.5585741E-02 0.1449715 5.7266865E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1172985E-03 1.4102806E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2710E-05 | 2: delta_r/delta_0: 1.3802E-06 | 3: delta_s/delta_0: 2.5056E-07 | 4: delta_r/delta_0: 3.9123E-08 | 5: delta_s/delta_0: 2.3594E-08 | 6: delta_r/delta_0: 6.6662E-09 | 7: delta_s/delta_0: 4.8788E-09 | 8: delta_r/delta_0: 1.8020E-09 | 9: delta_s/delta_0: 8.2655E-10 | 10: delta_r/delta_0: 6.2407E-10 | 11: delta_s/delta_0: 2.0226E-09 | 12: delta_r/delta_0: 8.1620E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.940340029968317E-003 2.810459578582169E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.2710E-05 | 2: delta_r/delta_0: 1.3802E-06 | 3: delta_s/delta_0: 2.5056E-07 | 4: delta_r/delta_0: 3.9131E-08 | 5: delta_s/delta_0: 2.3592E-08 | 6: delta_r/delta_0: 6.6667E-09 | 7: delta_s/delta_0: 4.8788E-09 | 8: delta_r/delta_0: 1.8021E-09 | 9: delta_s/delta_0: 8.2663E-10 | 10: delta_r/delta_0: 6.2413E-10 | 11: delta_s/delta_0: 2.0230E-09 | 12: delta_r/delta_0: 8.1623E-11 | Reached bicg-stab tolerance | BP delta = -0.2435052 -0.2128973 2841713.53613832 | BP delta = -0.2435052 -0.2114924 2841713.29039992 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81252666 | --> Sampling calibration, mode = relcal | relcal = 0.2955673 0.2247919 -0.2837467 -0.2366125 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2513255E-03 5.4865349E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8845E-03 | 2: delta_r/delta_0: 9.2416E-05 | 3: delta_s/delta_0: 5.0211E-05 | 4: delta_r/delta_0: 3.7331E-06 | 5: delta_s/delta_0: 1.2477E-06 | 6: delta_r/delta_0: 3.4307E-07 | 7: delta_s/delta_0: 6.7473E-07 | 8: delta_r/delta_0: 7.4898E-08 | 9: delta_s/delta_0: 8.0752E-07 | 10: delta_r/delta_0: 3.2148E-07 | 11: delta_s/delta_0: 4.1830E-09 | 12: delta_r/delta_0: 1.3812E-09 | 13: delta_s/delta_0: 1.3700E-04 | 14: delta_r/delta_0: 5.1800E-06 | 15: delta_s/delta_0: 9.9127E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.199281486094241E-002 4.020054391263780E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8933E-03 | 2: delta_r/delta_0: 9.2623E-05 | 3: delta_s/delta_0: 5.0323E-05 | 4: delta_r/delta_0: 3.7416E-06 | 5: delta_s/delta_0: 1.2496E-06 | 6: delta_r/delta_0: 3.4328E-07 | 7: delta_s/delta_0: 6.7408E-07 | 8: delta_r/delta_0: 7.5019E-08 | 9: delta_s/delta_0: 8.1231E-07 | 10: delta_r/delta_0: 3.2295E-07 | 11: delta_s/delta_0: 4.1876E-09 | 12: delta_r/delta_0: 1.3820E-09 | 13: delta_s/delta_0: 9.8083E-05 | 14: delta_r/delta_0: 3.6917E-06 | 15: delta_s/delta_0: 9.9147E-11 | Reached bicg-stab tolerance | BP delta = -8.2920775E-02 -0.1349218 2827517.59668240 | BP delta = -8.2920775E-02 -0.1261427 2827709.67825691 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95940562 | --> Sampling calibration, mode = relcal | relcal = 0.1065447 0.1395388 -0.1102703 -0.1358132 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0587743E-02 1.3313398E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3224E-03 | 2: delta_r/delta_0: 3.1937E-05 | 3: delta_s/delta_0: 1.9654E-05 | 4: delta_r/delta_0: 1.5319E-06 | 5: delta_s/delta_0: 5.8079E-07 | 6: delta_r/delta_0: 1.9798E-07 | 7: delta_s/delta_0: 2.9278E-07 | 8: delta_r/delta_0: 4.3287E-08 | 9: delta_s/delta_0: 8.5225E-07 | 10: delta_r/delta_0: 1.8773E-07 | 11: delta_s/delta_0: 2.7795E-09 | 12: delta_r/delta_0: 1.0344E-09 | 13: delta_s/delta_0: 4.0089E-09 | 14: delta_r/delta_0: 8.0966E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.635851312703426E-002 3.696176400292116E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3221E-03 | 2: delta_r/delta_0: 3.1930E-05 | 3: delta_s/delta_0: 1.9651E-05 | 4: delta_r/delta_0: 1.5317E-06 | 5: delta_s/delta_0: 5.8072E-07 | 6: delta_r/delta_0: 1.9801E-07 | 7: delta_s/delta_0: 2.9325E-07 | 8: delta_r/delta_0: 4.3287E-08 | 9: delta_s/delta_0: 8.5821E-07 | 10: delta_r/delta_0: 1.8944E-07 | 11: delta_s/delta_0: 2.7801E-09 | 12: delta_r/delta_0: 1.0344E-09 | 13: delta_s/delta_0: 4.0332E-09 | 14: delta_r/delta_0: 8.0647E-11 | Reached bicg-stab tolerance | BP delta = 0.2321973 0.3324813 3004277.25684218 | BP delta = 0.2321973 0.3382586 3004238.89067883 | BP chisq diff = -38.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.191967 | New value = -3.238725 | poltype: 2 pol: 1 CPU time specind = 2.3221970E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162691 | New value = -3.162971 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142422 | New value = -3.215455 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136211 | New value = -3.162663 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123112 | New value = -3.123108 | poltype: 2 pol: 2 CPU time specind = 6.6530704E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.42 | CG iter. 1 -- res = 0.13526E+08, tol = 0.74207E+01, time = 5.58 | CG iter. 2 -- res = 0.31730E+06, tol = 0.74207E+01, time = 6.20 | CG iter. 3 -- res = 0.46263E+05, tol = 0.74207E+01, time = 7.03 | CG iter. 4 -- res = 0.24380E+05, tol = 0.74207E+01, time = 6.13 | CG iter. 5 -- res = 0.15249E+05, tol = 0.74207E+01, time = 5.49 | CG iter. 6 -- res = 0.11218E+05, tol = 0.74207E+01, time = 5.95 | CG iter. 7 -- res = 0.10337E+05, tol = 0.74207E+01, time = 5.70 | CG iter. 8 -- res = 0.10055E+05, tol = 0.74207E+01, time = 5.51 | CG iter. 9 -- res = 0.10144E+05, tol = 0.74207E+01, time = 5.76 | CG iter. 10 -- res = 0.10227E+05, tol = 0.74207E+01, time = 5.56 | CG iter. 11 -- res = 0.79831E+04, tol = 0.74207E+01, time = 6.17 | CG iter. 12 -- res = 0.54066E+04, tol = 0.74207E+01, time = 5.51 | CG iter. 13 -- res = 0.38969E+04, tol = 0.74207E+01, time = 5.65 | CG iter. 14 -- res = 0.33691E+04, tol = 0.74207E+01, time = 5.73 | CG iter. 15 -- res = 0.28730E+04, tol = 0.74207E+01, time = 6.11 | CG iter. 16 -- res = 0.22976E+04, tol = 0.74207E+01, time = 5.49 | CG iter. 17 -- res = 0.17223E+04, tol = 0.74207E+01, time = 6.16 | CG iter. 18 -- res = 0.14614E+04, tol = 0.74207E+01, time = 5.74 | CG iter. 19 -- res = 0.12567E+04, tol = 0.74207E+01, time = 5.72 | CG iter. 20 -- res = 0.10096E+04, tol = 0.74207E+01, time = 5.74 | CG iter. 21 -- res = 0.76482E+03, tol = 0.74207E+01, time = 6.69 | CG iter. 22 -- res = 0.64827E+03, tol = 0.74207E+01, time = 5.52 | CG iter. 23 -- res = 0.59430E+03, tol = 0.74207E+01, time = 5.72 | CG iter. 24 -- res = 0.53282E+03, tol = 0.74207E+01, time = 5.77 | CG iter. 25 -- res = 0.42512E+03, tol = 0.74207E+01, time = 5.62 | CG iter. 26 -- res = 0.34213E+03, tol = 0.74207E+01, time = 6.12 | CG iter. 27 -- res = 0.29861E+03, tol = 0.74207E+01, time = 5.42 | CG iter. 28 -- res = 0.27843E+03, tol = 0.74207E+01, time = 6.02 | CG iter. 29 -- res = 0.23201E+03, tol = 0.74207E+01, time = 5.66 | CG iter. 30 -- res = 0.19862E+03, tol = 0.74207E+01, time = 5.72 | CG iter. 31 -- res = 0.18437E+03, tol = 0.74207E+01, time = 5.71 | CG iter. 32 -- res = 0.17740E+03, tol = 0.74207E+01, time = 5.98 | CG iter. 33 -- res = 0.14786E+03, tol = 0.74207E+01, time = 6.04 | CG iter. 34 -- res = 0.12180E+03, tol = 0.74207E+01, time = 5.76 | CG iter. 35 -- res = 0.10336E+03, tol = 0.74207E+01, time = 6.12 | CG iter. 36 -- res = 0.95987E+02, tol = 0.74207E+01, time = 5.51 | CG iter. 37 -- res = 0.86115E+02, tol = 0.74207E+01, time = 5.58 | CG iter. 38 -- res = 0.69257E+02, tol = 0.74207E+01, time = 12.49 | CG iter. 39 -- res = 0.57635E+02, tol = 0.74207E+01, time = 6.06 | CG iter. 40 -- res = 0.52881E+02, tol = 0.74207E+01, time = 6.14 | CG iter. 41 -- res = 0.45887E+02, tol = 0.74207E+01, time = 5.44 | CG iter. 42 -- res = 0.36805E+02, tol = 0.74207E+01, time = 5.72 | CG iter. 43 -- res = 0.29119E+02, tol = 0.74207E+01, time = 5.71 | CG iter. 44 -- res = 0.25709E+02, tol = 0.74207E+01, time = 5.72 | CG iter. 45 -- res = 0.22669E+02, tol = 0.74207E+01, time = 5.92 | CG iter. 46 -- res = 0.18031E+02, tol = 0.74207E+01, time = 5.78 | CG iter. 47 -- res = 0.14243E+02, tol = 0.74207E+01, time = 5.81 | CG iter. 48 -- res = 0.11886E+02, tol = 0.74207E+01, time = 5.47 | CG iter. 49 -- res = 0.10058E+02, tol = 0.74207E+01, time = 5.80 | CG iter. 50 -- res = 0.84510E+01, tol = 0.74207E+01, time = 5.71 | Final CG iter 51 -- res = 0.84510E+01, tol = 0.74207E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8896230.154 | Old band monopole 9446511.101 | Change to band monopole -550280.947 | Change to component monopole 550278.580 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.34 | CG iter. 1 -- res = 0.46619E+05, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.41392E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.18741E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.36128E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.50520E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8896191.889 | (Sampled value in CG: 8873375.553 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.545017 | New value = 1.492208 | poltype: 2 pol: 1 CPU time specind = 1.9045115E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.532877 | New value = 1.506678 | poltype: 2 pol: 2 CPU time specind = 4.4441223E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.47 | CG iter. 1 -- res = 0.24602E+08, tol = 0.47576E+04, time = 6.40 | CG iter. 2 -- res = 0.53204E+07, tol = 0.47576E+04, time = 6.73 | CG iter. 3 -- res = 0.82551E+06, tol = 0.47576E+04, time = 6.48 | CG iter. 4 -- res = 0.34439E+06, tol = 0.47576E+04, time = 6.73 | CG iter. 5 -- res = 0.15058E+06, tol = 0.47576E+04, time = 6.68 | CG iter. 6 -- res = 0.79464E+05, tol = 0.47576E+04, time = 6.62 | CG iter. 7 -- res = 0.43933E+05, tol = 0.47576E+04, time = 6.64 | CG iter. 8 -- res = 0.20516E+05, tol = 0.47576E+04, time = 6.62 | CG iter. 9 -- res = 0.90532E+04, tol = 0.47576E+04, time = 6.40 | CG iter. 10 -- res = 0.37391E+04, tol = 0.47576E+04, time = 6.62 | CG iter. 11 -- res = 0.16938E+04, tol = 0.47576E+04, time = 6.75 | CG iter. 12 -- res = 0.87754E+03, tol = 0.47576E+04, time = 6.22 | CG iter. 13 -- res = 0.49313E+03, tol = 0.47576E+04, time = 6.58 | CG iter. 14 -- res = 0.27629E+03, tol = 0.47576E+04, time = 6.83 | CG iter. 15 -- res = 0.14344E+03, tol = 0.47576E+04, time = 6.52 | CG iter. 16 -- res = 0.68063E+02, tol = 0.47576E+04, time = 6.61 | CG iter. 17 -- res = 0.31561E+02, tol = 0.47576E+04, time = 12.79 | CG iter. 18 -- res = 0.15906E+02, tol = 0.47576E+04, time = 6.50 | CG iter. 19 -- res = 0.87666E+01, tol = 0.47576E+04, time = 6.53 | CG iter. 20 -- res = 0.50464E+01, tol = 0.47576E+04, time = 6.37 | CG iter. 21 -- res = 0.27661E+01, tol = 0.47576E+04, time = 6.49 | CG iter. 22 -- res = 0.13794E+01, tol = 0.47576E+04, time = 6.64 | CG iter. 23 -- res = 0.67460E+00, tol = 0.47576E+04, time = 6.47 | CG iter. 24 -- res = 0.34859E+00, tol = 0.47576E+04, time = 6.61 | CG iter. 25 -- res = 0.19094E+00, tol = 0.47576E+04, time = 6.41 | CG iter. 26 -- res = 0.10845E+00, tol = 0.47576E+04, time = 6.62 | CG iter. 27 -- res = 0.62215E-01, tol = 0.47576E+04, time = 6.50 | CG iter. 28 -- res = 0.33373E-01, tol = 0.47576E+04, time = 6.68 | CG iter. 29 -- res = 0.17356E-01, tol = 0.47576E+04, time = 6.90 | CG iter. 30 -- res = 0.91185E-02, tol = 0.47576E+04, time = 7.67 | CG iter. 31 -- res = 0.49457E-02, tol = 0.47576E+04, time = 6.96 | CG iter. 32 -- res = 0.27822E-02, tol = 0.47576E+04, time = 6.61 | CG iter. 33 -- res = 0.15392E-02, tol = 0.47576E+04, time = 6.32 | CG iter. 34 -- res = 0.82549E-03, tol = 0.47576E+04, time = 6.53 | CG iter. 35 -- res = 0.43581E-03, tol = 0.47576E+04, time = 6.71 | Final CG iter 36 -- res = 0.43581E-03, tol = 0.47576E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.257 2.753 | New value -3.256 | Old value 3.257 | Difference -6.513 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.40 | CG iter. 1 -- res = 0.21964E+07, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.25763E+02, tol = 0.47627E+18, time = 2.19 | CG iter. 3 -- res = 0.50429E+00, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.32944E-03, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.30101E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8896191.889 | (Sampled value in CG: 8873680.337 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.770415 | New value = -3.505141 | poltype: 1 pol: 1 CPU time specind = 1.6112089E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.40 | CG iter. 1 -- res = 0.22724E+07, tol = 0.27007E+01, time = 2.70 | CG iter. 2 -- res = 0.11075E+07, tol = 0.27007E+01, time = 2.65 | CG iter. 3 -- res = 0.20960E+06, tol = 0.27007E+01, time = 2.79 | CG iter. 4 -- res = 0.68009E+05, tol = 0.27007E+01, time = 2.98 | CG iter. 5 -- res = 0.38147E+05, tol = 0.27007E+01, time = 2.61 | CG iter. 6 -- res = 0.20859E+05, tol = 0.27007E+01, time = 2.69 | CG iter. 7 -- res = 0.88050E+04, tol = 0.27007E+01, time = 2.42 | CG iter. 8 -- res = 0.41995E+04, tol = 0.27007E+01, time = 2.77 | CG iter. 9 -- res = 0.18853E+04, tol = 0.27007E+01, time = 2.64 | CG iter. 10 -- res = 0.76024E+03, tol = 0.27007E+01, time = 2.85 | CG iter. 11 -- res = 0.30587E+03, tol = 0.27007E+01, time = 2.65 | CG iter. 12 -- res = 0.14218E+03, tol = 0.27007E+01, time = 3.16 | CG iter. 13 -- res = 0.68956E+02, tol = 0.27007E+01, time = 2.49 | CG iter. 14 -- res = 0.36169E+02, tol = 0.27007E+01, time = 2.44 | CG iter. 15 -- res = 0.17837E+02, tol = 0.27007E+01, time = 3.15 | CG iter. 16 -- res = 0.78307E+01, tol = 0.27007E+01, time = 2.73 | CG iter. 17 -- res = 0.33773E+01, tol = 0.27007E+01, time = 2.86 | CG iter. 18 -- res = 0.15009E+01, tol = 0.27007E+01, time = 2.88 | CG iter. 19 -- res = 0.70285E+00, tol = 0.27007E+01, time = 2.88 | CG iter. 20 -- res = 0.36099E+00, tol = 0.27007E+01, time = 2.68 | CG iter. 21 -- res = 0.18537E+00, tol = 0.27007E+01, time = 2.67 | CG iter. 22 -- res = 0.93631E-01, tol = 0.27007E+01, time = 2.89 | CG iter. 23 -- res = 0.41941E-01, tol = 0.27007E+01, time = 2.53 | CG iter. 24 -- res = 0.18430E-01, tol = 0.27007E+01, time = 2.73 | CG iter. 25 -- res = 0.90958E-02, tol = 0.27007E+01, time = 2.92 | CG iter. 26 -- res = 0.44735E-02, tol = 0.27007E+01, time = 2.74 | CG iter. 27 -- res = 0.23189E-02, tol = 0.27007E+01, time = 2.59 | CG iter. 28 -- res = 0.11970E-02, tol = 0.27007E+01, time = 2.66 | CG iter. 29 -- res = 0.56035E-03, tol = 0.27007E+01, time = 2.56 | CG iter. 30 -- res = 0.26130E-03, tol = 0.27007E+01, time = 2.49 | CG iter. 31 -- res = 0.12621E-03, tol = 0.27007E+01, time = 2.98 | CG iter. 32 -- res = 0.61212E-04, tol = 0.27007E+01, time = 2.76 | CG iter. 33 -- res = 0.30982E-04, tol = 0.27007E+01, time = 2.94 | CG iter. 34 -- res = 0.15747E-04, tol = 0.27007E+01, time = 2.67 | CG iter. 35 -- res = 0.82349E-05, tol = 0.27007E+01, time = 2.93 | CG iter. 36 -- res = 0.38133E-05, tol = 0.27007E+01, time = 2.55 | CG iter. 37 -- res = 0.17171E-05, tol = 0.27007E+01, time = 2.67 | CG iter. 38 -- res = 0.85554E-06, tol = 0.27007E+01, time = 2.71 | CG iter. 39 -- res = 0.39653E-06, tol = 0.27007E+01, time = 2.68 | CG iter. 40 -- res = 0.20996E-06, tol = 0.27007E+01, time = 2.47 | CG iter. 41 -- res = 0.10426E-06, tol = 0.27007E+01, time = 2.62 | CG iter. 42 -- res = 0.50743E-07, tol = 0.27007E+01, time = 2.49 | CG iter. 43 -- res = 0.22981E-07, tol = 0.27007E+01, time = 2.78 | CG iter. 44 -- res = 0.10783E-07, tol = 0.27007E+01, time = 2.81 | CG iter. 45 -- res = 0.50393E-08, tol = 0.27007E+01, time = 2.76 | CG iter. 46 -- res = 0.24719E-08, tol = 0.27007E+01, time = 2.90 | CG iter. 47 -- res = 0.12405E-08, tol = 0.27007E+01, time = 2.65 | CG iter. 48 -- res = 0.62705E-09, tol = 0.27007E+01, time = 2.69 | CG iter. 49 -- res = 0.28842E-09, tol = 0.27007E+01, time = 3.01 | CG iter. 50 -- res = 0.13220E-09, tol = 0.27007E+01, time = 2.84 | Final CG iter 51 -- res = 0.13220E-09, tol = 0.27007E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.195 4.968 | New value 3.015 | Old value -2.195 | Difference 5.210 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.38 | CG iter. 1 -- res = 0.28168E+05, tol = 0.47627E+18, time = 6.82 | CG iter. 2 -- res = 0.34137E+02, tol = 0.47627E+18, time = 7.10 | CG iter. 3 -- res = 0.13803E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.23355E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.23936E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8896191.889 | (Sampled value in CG: 8877679.667 ) | CPU time specind = 1201.041 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.46 | CG iter. 1 -- res = 0.70296E+08, tol = 0.57510E+04, time = 12.06 | CG iter. 2 -- res = 0.58687E+08, tol = 0.57510E+04, time = 11.79 | CG iter. 3 -- res = 0.14932E+08, tol = 0.57510E+04, time = 13.67 | CG iter. 4 -- res = 0.65161E+07, tol = 0.57510E+04, time = 12.05 | CG iter. 5 -- res = 0.40125E+07, tol = 0.57510E+04, time = 11.61 | CG iter. 6 -- res = 0.23445E+07, tol = 0.57510E+04, time = 12.02 | CG iter. 7 -- res = 0.13875E+07, tol = 0.57510E+04, time = 11.95 | CG iter. 8 -- res = 0.89570E+06, tol = 0.57510E+04, time = 12.11 | CG iter. 9 -- res = 0.55869E+06, tol = 0.57510E+04, time = 12.27 | CG iter. 10 -- res = 0.33715E+06, tol = 0.57510E+04, time = 12.16 | CG iter. 11 -- res = 0.18545E+06, tol = 0.57510E+04, time = 11.93 | CG iter. 12 -- res = 0.10012E+06, tol = 0.57510E+04, time = 12.77 | CG iter. 13 -- res = 0.54810E+05, tol = 0.57510E+04, time = 12.40 | CG iter. 14 -- res = 0.33355E+05, tol = 0.57510E+04, time = 12.09 | CG iter. 15 -- res = 0.23173E+05, tol = 0.57510E+04, time = 11.83 | CG iter. 16 -- res = 0.17887E+05, tol = 0.57510E+04, time = 11.99 | CG iter. 17 -- res = 0.14521E+05, tol = 0.57510E+04, time = 12.08 | CG iter. 18 -- res = 0.11730E+05, tol = 0.57510E+04, time = 11.63 | CG iter. 19 -- res = 0.93415E+04, tol = 0.57510E+04, time = 12.04 | CG iter. 20 -- res = 0.79188E+04, tol = 0.57510E+04, time = 18.19 | CG iter. 21 -- res = 0.73651E+04, tol = 0.57510E+04, time = 11.87 | CG iter. 22 -- res = 0.77447E+04, tol = 0.57510E+04, time = 11.57 | CG iter. 23 -- res = 0.87220E+04, tol = 0.57510E+04, time = 11.60 | CG iter. 24 -- res = 0.96541E+04, tol = 0.57510E+04, time = 11.88 | CG iter. 25 -- res = 0.97551E+04, tol = 0.57510E+04, time = 12.22 | CG iter. 26 -- res = 0.87133E+04, tol = 0.57510E+04, time = 12.07 | CG iter. 27 -- res = 0.69511E+04, tol = 0.57510E+04, time = 13.75 | CG iter. 28 -- res = 0.53704E+04, tol = 0.57510E+04, time = 13.60 | CG iter. 29 -- res = 0.43461E+04, tol = 0.57510E+04, time = 12.21 | CG iter. 30 -- res = 0.36753E+04, tol = 0.57510E+04, time = 11.51 | CG iter. 31 -- res = 0.30889E+04, tol = 0.57510E+04, time = 12.01 | CG iter. 32 -- res = 0.24957E+04, tol = 0.57510E+04, time = 11.82 | CG iter. 33 -- res = 0.20330E+04, tol = 0.57510E+04, time = 12.00 | CG iter. 34 -- res = 0.16324E+04, tol = 0.57510E+04, time = 11.88 | CG iter. 35 -- res = 0.13570E+04, tol = 0.57510E+04, time = 12.07 | CG iter. 36 -- res = 0.12419E+04, tol = 0.57510E+04, time = 12.20 | CG iter. 37 -- res = 0.12477E+04, tol = 0.57510E+04, time = 12.04 | CG iter. 38 -- res = 0.12469E+04, tol = 0.57510E+04, time = 11.82 | CG iter. 39 -- res = 0.11690E+04, tol = 0.57510E+04, time = 11.58 | CG iter. 40 -- res = 0.10371E+04, tol = 0.57510E+04, time = 11.67 | CG iter. 41 -- res = 0.88747E+03, tol = 0.57510E+04, time = 11.49 | CG iter. 42 -- res = 0.75908E+03, tol = 0.57510E+04, time = 12.23 | CG iter. 43 -- res = 0.66225E+03, tol = 0.57510E+04, time = 11.99 | CG iter. 44 -- res = 0.58055E+03, tol = 0.57510E+04, time = 12.82 | CG iter. 45 -- res = 0.51867E+03, tol = 0.57510E+04, time = 17.58 | CG iter. 46 -- res = 0.45364E+03, tol = 0.57510E+04, time = 12.21 | CG iter. 47 -- res = 0.39017E+03, tol = 0.57510E+04, time = 11.87 | CG iter. 48 -- res = 0.32309E+03, tol = 0.57510E+04, time = 12.19 | CG iter. 49 -- res = 0.27565E+03, tol = 0.57510E+04, time = 11.54 | CG iter. 50 -- res = 0.24706E+03, tol = 0.57510E+04, time = 12.22 | CG iter. 51 -- res = 0.23222E+03, tol = 0.57510E+04, time = 12.28 | CG iter. 52 -- res = 0.22594E+03, tol = 0.57510E+04, time = 13.62 | CG iter. 53 -- res = 0.21865E+03, tol = 0.57510E+04, time = 11.87 | CG iter. 54 -- res = 0.20564E+03, tol = 0.57510E+04, time = 12.21 | CG iter. 55 -- res = 0.18428E+03, tol = 0.57510E+04, time = 11.97 | CG iter. 56 -- res = 0.16210E+03, tol = 0.57510E+04, time = 11.92 | CG iter. 57 -- res = 0.14495E+03, tol = 0.57510E+04, time = 12.25 | CG iter. 58 -- res = 0.13544E+03, tol = 0.57510E+04, time = 11.89 | CG iter. 59 -- res = 0.13155E+03, tol = 0.57510E+04, time = 12.14 | CG iter. 60 -- res = 0.12340E+03, tol = 0.57510E+04, time = 12.35 | Final CG iter 61 -- res = 0.12340E+03, tol = 0.57510E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.898 ( -230.030 -2232.726 2515.380 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9779693.335 | Old band monopole 8896230.154 | Change to band monopole 883463.181 | Change to component monopole -883459.381 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.317 2.723 | New value -1.401 | Old value -3.317 | Difference 1.916 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.634 ( 8.056 16.375 -15.933 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.218 4.880 | New value -1.031 | Old value 7.218 | Difference -8.249 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.32 | CG iter. 1 -- res = 0.21217E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.39585E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.14312E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.45919E-02, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.29944E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9779651.271 | (Sampled value in CG: 9751610.089 ) | Chain = 1 -- chisq = 0.81577549E+09 | Chain = 1 -- wall time = 6071.528 sec Available RAM: MemAvailable: 379216824 kB Available Swap: SwapFree: 1124191440 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 371 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441467 | --> Sampling calibration, mode = relcal | relcal = 1.3418295E-02 7.4524520E-04 -1.5838859E-03 -1.2579654E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1725294 0.1867241 97046604.5396091 | BP delta = 0.1809234 0.1951181 97046604.3476854 | BP chisq diff = -0.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632733 | --> Sampling calibration, mode = relcal | relcal = -2.8225065E-03 -7.0424215E-04 1.6804528E-03 1.6146254E-03 -4.0851056E-04 6.4018084E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5732161 15219452.9851902 | BP delta = 0.0000000E+00 -0.5753132 15219462.2368836 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102523 | --> Sampling calibration, mode = relcal | relcal = 3.7084907E-02 1.3715549E-02 5.7443338E-03 -7.1640988E-03 8.2466137E-03 2.3941551E-03 -7.6045590E-03 -7.1793767E-03 -1.5297846E-02 -1.4797702E-02 -3.0543604E-03 -1.2087614E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.210207 132213090.278620 | BP delta = 0.0000000E+00 -1.193649 132213091.418739 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17895261136824 | --> Sampling calibration, mode = relcal | relcal = -7.5588658E-02 -5.8593139E-02 9.2320643E-02 4.1861154E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3799123E-05 4.9709687E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1978E-05 | 2: delta_r/delta_0: 9.9091E-07 | 3: delta_s/delta_0: 1.9833E-07 | 4: delta_r/delta_0: 2.7019E-08 | 5: delta_s/delta_0: 9.0020E-09 | 6: delta_r/delta_0: 2.2580E-09 | 7: delta_s/delta_0: 4.0620E-10 | 8: delta_r/delta_0: 1.9313E-10 | 9: delta_s/delta_0: 7.7528E-10 | 10: delta_r/delta_0: 1.8989E-10 | 11: delta_s/delta_0: 1.9694E-10 | 12: delta_r/delta_0: 5.7042E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.091123517495569E-003 2.745746774761804E-005 | BP delta = 8.9127712E-02 0.1118228 50493208.4175455 | BP delta = 9.2358075E-02 0.1150532 50493207.5169177 | BP chisq diff = -0.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02628582 | --> Sampling calibration, mode = relcal | relcal = -0.1066498 -9.5561944E-02 0.1449504 5.7261311E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7912008E-03 1.3650827E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6117E-05 | 2: delta_r/delta_0: 1.2804E-06 | 3: delta_s/delta_0: 2.5093E-07 | 4: delta_r/delta_0: 4.0939E-08 | 5: delta_s/delta_0: 2.1371E-08 | 6: delta_r/delta_0: 6.5416E-09 | 7: delta_s/delta_0: 5.8860E-09 | 8: delta_r/delta_0: 1.5723E-09 | 9: delta_s/delta_0: 8.0382E-10 | 10: delta_r/delta_0: 5.9028E-10 | 11: delta_s/delta_0: 8.2377E-10 | 12: delta_r/delta_0: 9.2273E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.780301838123839E-003 2.810037483935086E-005 | BP delta = -0.2435052 -0.2114924 57391198.8388592 | BP delta = -0.2359493 -0.2039365 57391198.3845258 | BP chisq diff = -0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81268214 | --> Sampling calibration, mode = relcal | relcal = 0.2954940 0.2250636 -0.2838800 -0.2366775 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.6667988E-04 4.9712341E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0331E-03 | 2: delta_r/delta_0: 2.3654E-05 | 3: delta_s/delta_0: 2.9459E-05 | 4: delta_r/delta_0: 2.8678E-06 | 5: delta_s/delta_0: 1.0524E-06 | 6: delta_r/delta_0: 1.6766E-07 | 7: delta_s/delta_0: 6.1467E-08 | 8: delta_r/delta_0: 3.4528E-08 | 9: delta_s/delta_0: 3.8193E-07 | 10: delta_r/delta_0: 2.5631E-09 | 11: delta_s/delta_0: 9.9718E-10 | 12: delta_r/delta_0: 4.0289E-10 | 13: delta_s/delta_0: 3.7779E-09 | 14: delta_r/delta_0: 1.3888E-10 | 15: delta_s/delta_0: 2.9986E-10 | 16: delta_r/delta_0: 6.8091E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.812007356758498E-002 4.019358704321703E-005 | BP delta = -8.2920775E-02 -0.1349218 72482677.1484019 | BP delta = -7.3402509E-02 -0.1254036 72482677.5823729 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95969021 | --> Sampling calibration, mode = relcal | relcal = 0.1064936 0.1396175 -0.1102578 -0.1358532 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4255488E-03 1.3444831E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9886E-03 | 2: delta_r/delta_0: 1.4107E-04 | 3: delta_s/delta_0: 2.1815E-05 | 4: delta_r/delta_0: 2.0033E-06 | 5: delta_s/delta_0: 4.8874E-05 | 6: delta_r/delta_0: 3.1395E-06 | 7: delta_s/delta_0: 4.3916E-08 | 8: delta_r/delta_0: 1.7613E-08 | 9: delta_s/delta_0: 9.8966E-08 | 10: delta_r/delta_0: 3.8290E-09 | 11: delta_s/delta_0: 4.2295E-09 | 12: delta_r/delta_0: 5.2053E-10 | 13: delta_s/delta_0: 4.0933E-10 | 14: delta_r/delta_0: 2.7718E-10 | 15: delta_s/delta_0: 5.2606E-08 | 16: delta_r/delta_0: 1.7464E-08 | 17: delta_s/delta_0: 1.2788E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.140259159448719E-002 3.695104810449559E-005 | BP delta = 0.2321973 0.3382586 72782666.3694776 | BP delta = 0.2774778 0.3835391 72782669.1158989 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52161126 | --> Sampling calibration, mode = relcal | relcal = -5.1013216E-02 -3.6509787E-03 2.7228108E-02 2.7436087E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.5379402E-05 2.6783519E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5924E-05 | 2: delta_r/delta_0: 4.5762E-06 | 3: delta_s/delta_0: 2.8905E-04 | 4: delta_r/delta_0: 3.0650E-05 | 5: delta_s/delta_0: 4.7538E-08 | 6: delta_r/delta_0: 3.0092E-08 | 7: delta_s/delta_0: 1.3598E-07 | 8: delta_r/delta_0: 7.4778E-09 | 9: delta_s/delta_0: 1.8720E-09 | 10: delta_r/delta_0: 1.2334E-09 | 11: delta_s/delta_0: 5.0701E-09 | 12: delta_r/delta_0: 1.8837E-09 | 13: delta_s/delta_0: 5.9304E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.189602820660696E-002 5.482730153515662E-005 | BP delta = 7.6412298E-02 0.1632657 91253021.1764910 | BP delta = 7.2897628E-02 0.1597511 91253021.2214241 | BP chisq diff = 0.0, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42156181 | --> Sampling calibration, mode = relcal | relcal = 4.5596443E-02 3.9657403E-02 -2.8266413E-02 -5.6987431E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4464966E-03 3.6258597E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5135E-05 | 2: delta_r/delta_0: 3.7835E-06 | 3: delta_s/delta_0: 5.0648E-05 | 4: delta_r/delta_0: 3.8009E-06 | 5: delta_s/delta_0: 6.5534E-08 | 6: delta_r/delta_0: 3.7691E-08 | 7: delta_s/delta_0: 2.6681E-08 | 8: delta_r/delta_0: 1.2418E-08 | 9: delta_s/delta_0: 2.1718E-08 | 10: delta_r/delta_0: 7.0728E-10 | 11: delta_s/delta_0: 4.2817E-07 | 12: delta_r/delta_0: 1.0894E-07 | 13: delta_s/delta_0: 2.0784E-10 | 14: delta_r/delta_0: 1.0934E-10 | 15: delta_s/delta_0: 1.8924E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.570991321794006E-002 4.996005967608385E-005 | BP delta = 8.5906379E-02 -3.5755899E-02 90178419.8888676 | BP delta = 3.3952009E-02 -8.7710269E-02 90178420.4095780 | BP chisq diff = 0.5, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28158178 | --> Sampling calibration, mode = relcal | relcal = 2.4240986E-02 4.5044288E-02 -2.3321250E-02 -4.5964025E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1910698E-02 3.9557437E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0751E-04 | 2: delta_r/delta_0: 8.2693E-06 | 3: delta_s/delta_0: 1.1869E-06 | 4: delta_r/delta_0: 2.5784E-07 | 5: delta_s/delta_0: 5.3665E-08 | 6: delta_r/delta_0: 1.9825E-08 | 7: delta_s/delta_0: 9.4770E-09 | 8: delta_r/delta_0: 5.9236E-09 | 9: delta_s/delta_0: 2.3774E-08 | 10: delta_r/delta_0: 3.1054E-09 | 11: delta_s/delta_0: 3.5220E-09 | 12: delta_r/delta_0: 1.6070E-09 | 13: delta_s/delta_0: 1.0965E-09 | 14: delta_r/delta_0: 9.3685E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.379171616402206E-003 7.844658866830062E-005 | BP delta = -0.4091506 -0.6077135 160946808.248047 | BP delta = -0.4368341 -0.6353970 160946807.834433 | BP chisq diff = -0.4, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29387720 | --> Sampling calibration, mode = relcal | relcal = 5.1066681E-04 1.0351681E-02 -3.9268830E-03 -6.9354651E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4721094E-02 1.5089234E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3123E-04 | 2: delta_r/delta_0: 1.0694E-05 | 3: delta_s/delta_0: 1.6703E-06 | 4: delta_r/delta_0: 3.3643E-07 | 5: delta_s/delta_0: 9.3092E-08 | 6: delta_r/delta_0: 2.6823E-08 | 7: delta_s/delta_0: 1.2834E-08 | 8: delta_r/delta_0: 8.5670E-09 | 9: delta_s/delta_0: 3.6272E-07 | 10: delta_r/delta_0: 1.6031E-08 | 11: delta_s/delta_0: 8.1069E-09 | 12: delta_r/delta_0: 5.6155E-09 | 13: delta_s/delta_0: 5.7651E-10 | 14: delta_r/delta_0: 3.3437E-10 | 15: delta_s/delta_0: 8.0223E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.046796141465328E-002 8.307891269456529E-005 | BP delta = -0.8695599 -0.8265494 157877409.717728 | BP delta = -0.8149801 -0.7719696 157877410.185505 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26499782 | --> Sampling calibration, mode = relcal | relcal = -5.6457738E-03 1.4999821E-02 -2.2987297E-03 -7.0553171E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5664413E-04 3.8366395E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4030E-04 | 2: delta_r/delta_0: 1.1960E-05 | 3: delta_s/delta_0: 2.0851E-06 | 4: delta_r/delta_0: 2.2273E-07 | 5: delta_s/delta_0: 9.0837E-08 | 6: delta_r/delta_0: 1.8832E-08 | 7: delta_s/delta_0: 8.4552E-09 | 8: delta_r/delta_0: 5.3976E-09 | 9: delta_s/delta_0: 5.6802E-09 | 10: delta_r/delta_0: 4.0244E-09 | 11: delta_s/delta_0: 2.5249E-05 | 12: delta_r/delta_0: 1.6240E-06 | 13: delta_s/delta_0: 9.6088E-10 | 14: delta_r/delta_0: 4.7129E-10 | 15: delta_s/delta_0: 7.3538E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.225328779153111E-003 9.155928909319114E-005 | BP delta = 0.4244503 0.4547050 157020978.889199 | BP delta = 0.4414698 0.4717245 157020978.960379 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25655029 | --> Sampling calibration, mode = relcal | relcal = -3.1777918E-02 -2.5953054E-02 3.6947604E-02 2.0783367E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6002361E-02 2.0169973E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4510E-04 | 2: delta_r/delta_0: 1.1953E-05 | 3: delta_s/delta_0: 1.8170E-06 | 4: delta_r/delta_0: 4.3033E-07 | 5: delta_s/delta_0: 1.3964E-07 | 6: delta_r/delta_0: 3.3708E-08 | 7: delta_s/delta_0: 1.7119E-08 | 8: delta_r/delta_0: 8.6416E-09 | 9: delta_s/delta_0: 1.9450E-07 | 10: delta_r/delta_0: 7.1077E-09 | 11: delta_s/delta_0: 1.8665E-09 | 12: delta_r/delta_0: 5.2443E-10 | 13: delta_s/delta_0: 5.8810E-10 | 14: delta_r/delta_0: 3.6992E-10 | 15: delta_s/delta_0: 9.4641E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.121211048890951E-002 8.675707177772387E-005 | BP delta = -0.9082144 -1.110513 158539474.880149 | BP delta = -0.8867164 -1.089015 158539474.923249 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.238725 | New value = -3.210986 | poltype: 2 pol: 1 CPU time specind = 2.2853851E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162971 | New value = -3.225400 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.215455 | New value = -3.182827 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162663 | New value = -3.153688 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123108 | New value = -3.035155 | poltype: 2 pol: 2 CPU time specind = 1.5060902E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 25.04 | CG iter. 1 -- res = 0.13539E+08, tol = 0.71738E+01, time = 5.79 | CG iter. 2 -- res = 0.33467E+06, tol = 0.71738E+01, time = 5.73 | CG iter. 3 -- res = 0.46454E+05, tol = 0.71738E+01, time = 5.58 | CG iter. 4 -- res = 0.20966E+05, tol = 0.71738E+01, time = 5.66 | CG iter. 5 -- res = 0.10905E+05, tol = 0.71738E+01, time = 5.72 | CG iter. 6 -- res = 0.62137E+04, tol = 0.71738E+01, time = 5.78 | CG iter. 7 -- res = 0.43678E+04, tol = 0.71738E+01, time = 5.76 | CG iter. 8 -- res = 0.33937E+04, tol = 0.71738E+01, time = 5.93 | CG iter. 9 -- res = 0.31324E+04, tol = 0.71738E+01, time = 5.15 | CG iter. 10 -- res = 0.34364E+04, tol = 0.71738E+01, time = 5.80 | CG iter. 11 -- res = 0.33521E+04, tol = 0.71738E+01, time = 5.80 | CG iter. 12 -- res = 0.25476E+04, tol = 0.71738E+01, time = 5.65 | CG iter. 13 -- res = 0.18567E+04, tol = 0.71738E+01, time = 5.57 | CG iter. 14 -- res = 0.14489E+04, tol = 0.71738E+01, time = 5.61 | CG iter. 15 -- res = 0.12535E+04, tol = 0.71738E+01, time = 6.55 | CG iter. 16 -- res = 0.10468E+04, tol = 0.71738E+01, time = 5.69 | CG iter. 17 -- res = 0.82464E+03, tol = 0.71738E+01, time = 5.54 | CG iter. 18 -- res = 0.66301E+03, tol = 0.71738E+01, time = 5.62 | CG iter. 19 -- res = 0.57724E+03, tol = 0.71738E+01, time = 5.68 | CG iter. 20 -- res = 0.48161E+03, tol = 0.71738E+01, time = 5.69 | CG iter. 21 -- res = 0.35082E+03, tol = 0.71738E+01, time = 5.56 | CG iter. 22 -- res = 0.28161E+03, tol = 0.71738E+01, time = 5.79 | CG iter. 23 -- res = 0.24831E+03, tol = 0.71738E+01, time = 5.60 | CG iter. 24 -- res = 0.22312E+03, tol = 0.71738E+01, time = 5.73 | CG iter. 25 -- res = 0.18082E+03, tol = 0.71738E+01, time = 5.82 | CG iter. 26 -- res = 0.13944E+03, tol = 0.71738E+01, time = 5.54 | CG iter. 27 -- res = 0.11524E+03, tol = 0.71738E+01, time = 5.71 | CG iter. 28 -- res = 0.10289E+03, tol = 0.71738E+01, time = 5.61 | CG iter. 29 -- res = 0.87618E+02, tol = 0.71738E+01, time = 5.76 | CG iter. 30 -- res = 0.69986E+02, tol = 0.71738E+01, time = 5.79 | CG iter. 31 -- res = 0.59784E+02, tol = 0.71738E+01, time = 5.83 | CG iter. 32 -- res = 0.54933E+02, tol = 0.71738E+01, time = 7.80 | CG iter. 33 -- res = 0.48135E+02, tol = 0.71738E+01, time = 10.48 | CG iter. 34 -- res = 0.37948E+02, tol = 0.71738E+01, time = 5.54 | CG iter. 35 -- res = 0.31378E+02, tol = 0.71738E+01, time = 5.28 | CG iter. 36 -- res = 0.28383E+02, tol = 0.71738E+01, time = 5.88 | CG iter. 37 -- res = 0.25630E+02, tol = 0.71738E+01, time = 5.73 | CG iter. 38 -- res = 0.21301E+02, tol = 0.71738E+01, time = 5.66 | CG iter. 39 -- res = 0.17701E+02, tol = 0.71738E+01, time = 5.70 | CG iter. 40 -- res = 0.15287E+02, tol = 0.71738E+01, time = 5.58 | CG iter. 41 -- res = 0.13588E+02, tol = 0.71738E+01, time = 5.88 | CG iter. 42 -- res = 0.11650E+02, tol = 0.71738E+01, time = 5.51 | CG iter. 43 -- res = 0.92011E+01, tol = 0.71738E+01, time = 5.56 | CG iter. 44 -- res = 0.79580E+01, tol = 0.71738E+01, time = 5.81 | CG iter. 45 -- res = 0.69205E+01, tol = 0.71738E+01, time = 5.28 | CG iter. 46 -- res = 0.57111E+01, tol = 0.71738E+01, time = 5.99 | CG iter. 47 -- res = 0.46596E+01, tol = 0.71738E+01, time = 6.18 | CG iter. 48 -- res = 0.36445E+01, tol = 0.71738E+01, time = 6.45 | CG iter. 49 -- res = 0.30542E+01, tol = 0.71738E+01, time = 6.36 | CG iter. 50 -- res = 0.25356E+01, tol = 0.71738E+01, time = 5.63 | Final CG iter 51 -- res = 0.25356E+01, tol = 0.71738E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11421620.892 | Old band monopole 9779693.335 | Change to band monopole 1641927.556 | Change to component monopole -1641920.494 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.66420E+03, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.13641E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.11549E+00, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.11401E-03, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.26592E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11421571.765 | (Sampled value in CG: 11432418.012 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492208 | New value = 1.506284 | poltype: 2 pol: 1 CPU time specind = 1.9340992E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.506678 | New value = 1.520598 | poltype: 2 pol: 2 CPU time specind = 1.6782045E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.24 | CG iter. 1 -- res = 0.24025E+08, tol = 0.47571E+04, time = 6.80 | CG iter. 2 -- res = 0.52700E+07, tol = 0.47571E+04, time = 6.57 | CG iter. 3 -- res = 0.83853E+06, tol = 0.47571E+04, time = 6.79 | CG iter. 4 -- res = 0.35151E+06, tol = 0.47571E+04, time = 6.44 | CG iter. 5 -- res = 0.14875E+06, tol = 0.47571E+04, time = 6.58 | CG iter. 6 -- res = 0.79505E+05, tol = 0.47571E+04, time = 6.49 | CG iter. 7 -- res = 0.44116E+05, tol = 0.47571E+04, time = 6.63 | CG iter. 8 -- res = 0.20888E+05, tol = 0.47571E+04, time = 6.64 | CG iter. 9 -- res = 0.90902E+04, tol = 0.47571E+04, time = 6.46 | CG iter. 10 -- res = 0.37530E+04, tol = 0.47571E+04, time = 6.32 | CG iter. 11 -- res = 0.16707E+04, tol = 0.47571E+04, time = 7.02 | CG iter. 12 -- res = 0.84701E+03, tol = 0.47571E+04, time = 12.68 | CG iter. 13 -- res = 0.48303E+03, tol = 0.47571E+04, time = 6.78 | CG iter. 14 -- res = 0.27527E+03, tol = 0.47571E+04, time = 6.60 | CG iter. 15 -- res = 0.14149E+03, tol = 0.47571E+04, time = 7.03 | CG iter. 16 -- res = 0.67571E+02, tol = 0.47571E+04, time = 6.59 | CG iter. 17 -- res = 0.31941E+02, tol = 0.47571E+04, time = 6.66 | CG iter. 18 -- res = 0.15820E+02, tol = 0.47571E+04, time = 6.34 | CG iter. 19 -- res = 0.86586E+01, tol = 0.47571E+04, time = 6.41 | CG iter. 20 -- res = 0.49570E+01, tol = 0.47571E+04, time = 6.49 | CG iter. 21 -- res = 0.27393E+01, tol = 0.47571E+04, time = 6.49 | CG iter. 22 -- res = 0.14051E+01, tol = 0.47571E+04, time = 6.91 | CG iter. 23 -- res = 0.71347E+00, tol = 0.47571E+04, time = 6.29 | CG iter. 24 -- res = 0.36520E+00, tol = 0.47571E+04, time = 6.63 | CG iter. 25 -- res = 0.19763E+00, tol = 0.47571E+04, time = 7.98 | CG iter. 26 -- res = 0.11120E+00, tol = 0.47571E+04, time = 6.90 | CG iter. 27 -- res = 0.63139E-01, tol = 0.47571E+04, time = 6.55 | CG iter. 28 -- res = 0.34691E-01, tol = 0.47571E+04, time = 6.67 | CG iter. 29 -- res = 0.18285E-01, tol = 0.47571E+04, time = 6.61 | CG iter. 30 -- res = 0.95892E-02, tol = 0.47571E+04, time = 6.41 | CG iter. 31 -- res = 0.52326E-02, tol = 0.47571E+04, time = 6.64 | CG iter. 32 -- res = 0.29450E-02, tol = 0.47571E+04, time = 6.56 | CG iter. 33 -- res = 0.16787E-02, tol = 0.47571E+04, time = 6.45 | CG iter. 34 -- res = 0.91446E-03, tol = 0.47571E+04, time = 6.82 | CG iter. 35 -- res = 0.48588E-03, tol = 0.47571E+04, time = 6.61 | Final CG iter 36 -- res = 0.48588E-03, tol = 0.47571E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.344 2.733 | New value 5.297 | Old value -1.344 | Difference 6.640 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.22766E+07, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.17843E+02, tol = 0.47627E+18, time = 2.68 | CG iter. 3 -- res = 0.14465E+00, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.14113E-03, tol = 0.47627E+18, time = 2.35 | Final CG iter 5 -- res = 0.18279E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11421571.765 | (Sampled value in CG: 11432436.797 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.505141 | New value = -3.564242 | poltype: 1 pol: 1 CPU time specind = 3.4770966E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.20129E+07, tol = 0.29811E+01, time = 2.72 | CG iter. 2 -- res = 0.66235E+06, tol = 0.29811E+01, time = 2.52 | CG iter. 3 -- res = 0.11935E+06, tol = 0.29811E+01, time = 2.75 | CG iter. 4 -- res = 0.45103E+05, tol = 0.29811E+01, time = 2.70 | CG iter. 5 -- res = 0.25955E+05, tol = 0.29811E+01, time = 2.43 | CG iter. 6 -- res = 0.14090E+05, tol = 0.29811E+01, time = 2.54 | CG iter. 7 -- res = 0.58696E+04, tol = 0.29811E+01, time = 2.41 | CG iter. 8 -- res = 0.25029E+04, tol = 0.29811E+01, time = 2.47 | CG iter. 9 -- res = 0.10331E+04, tol = 0.29811E+01, time = 2.71 | CG iter. 10 -- res = 0.42162E+03, tol = 0.29811E+01, time = 2.72 | CG iter. 11 -- res = 0.18491E+03, tol = 0.29811E+01, time = 2.88 | CG iter. 12 -- res = 0.92109E+02, tol = 0.29811E+01, time = 2.82 | CG iter. 13 -- res = 0.49882E+02, tol = 0.29811E+01, time = 2.66 | CG iter. 14 -- res = 0.24350E+02, tol = 0.29811E+01, time = 2.80 | CG iter. 15 -- res = 0.10530E+02, tol = 0.29811E+01, time = 2.69 | CG iter. 16 -- res = 0.43800E+01, tol = 0.29811E+01, time = 2.69 | CG iter. 17 -- res = 0.19464E+01, tol = 0.29811E+01, time = 2.80 | CG iter. 18 -- res = 0.89459E+00, tol = 0.29811E+01, time = 2.61 | CG iter. 19 -- res = 0.44941E+00, tol = 0.29811E+01, time = 2.61 | CG iter. 20 -- res = 0.23526E+00, tol = 0.29811E+01, time = 2.53 | CG iter. 21 -- res = 0.11654E+00, tol = 0.29811E+01, time = 2.42 | CG iter. 22 -- res = 0.52445E-01, tol = 0.29811E+01, time = 2.59 | CG iter. 23 -- res = 0.23328E-01, tol = 0.29811E+01, time = 2.59 | CG iter. 24 -- res = 0.10849E-01, tol = 0.29811E+01, time = 2.79 | CG iter. 25 -- res = 0.54951E-02, tol = 0.29811E+01, time = 2.77 | CG iter. 26 -- res = 0.28271E-02, tol = 0.29811E+01, time = 2.85 | CG iter. 27 -- res = 0.13921E-02, tol = 0.29811E+01, time = 2.62 | CG iter. 28 -- res = 0.65184E-03, tol = 0.29811E+01, time = 2.60 | CG iter. 29 -- res = 0.30063E-03, tol = 0.29811E+01, time = 2.58 | CG iter. 30 -- res = 0.13533E-03, tol = 0.29811E+01, time = 2.63 | CG iter. 31 -- res = 0.70390E-04, tol = 0.29811E+01, time = 2.73 | CG iter. 32 -- res = 0.36133E-04, tol = 0.29811E+01, time = 2.50 | CG iter. 33 -- res = 0.16852E-04, tol = 0.29811E+01, time = 2.74 | CG iter. 34 -- res = 0.80512E-05, tol = 0.29811E+01, time = 2.89 | CG iter. 35 -- res = 0.38445E-05, tol = 0.29811E+01, time = 2.55 | CG iter. 36 -- res = 0.17731E-05, tol = 0.29811E+01, time = 2.90 | CG iter. 37 -- res = 0.86425E-06, tol = 0.29811E+01, time = 2.98 | CG iter. 38 -- res = 0.43832E-06, tol = 0.29811E+01, time = 2.76 | CG iter. 39 -- res = 0.21014E-06, tol = 0.29811E+01, time = 2.58 | CG iter. 40 -- res = 0.10171E-06, tol = 0.29811E+01, time = 2.46 | CG iter. 41 -- res = 0.47765E-07, tol = 0.29811E+01, time = 2.84 | CG iter. 42 -- res = 0.22853E-07, tol = 0.29811E+01, time = 2.58 | CG iter. 43 -- res = 0.10306E-07, tol = 0.29811E+01, time = 2.71 | CG iter. 44 -- res = 0.51530E-08, tol = 0.29811E+01, time = 2.82 | CG iter. 45 -- res = 0.25249E-08, tol = 0.29811E+01, time = 2.50 | CG iter. 46 -- res = 0.12208E-08, tol = 0.29811E+01, time = 2.72 | CG iter. 47 -- res = 0.59893E-09, tol = 0.29811E+01, time = 2.61 | CG iter. 48 -- res = 0.27061E-09, tol = 0.29811E+01, time = 2.47 | CG iter. 49 -- res = 0.12638E-09, tol = 0.29811E+01, time = 2.43 | CG iter. 50 -- res = 0.62123E-10, tol = 0.29811E+01, time = 2.65 | Final CG iter 51 -- res = 0.62123E-10, tol = 0.29811E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.057 4.779 | New value -3.687 | Old value -0.057 | Difference -3.630 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.13002E+05, tol = 0.47627E+18, time = 1.72 | CG iter. 2 -- res = 0.18196E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.53472E+00, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.55870E-03, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.38141E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11421571.765 | (Sampled value in CG: 11430444.649 ) | CPU time specind = 1178.233 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.68303E+08, tol = 0.57678E+04, time = 11.61 | CG iter. 2 -- res = 0.58064E+08, tol = 0.57678E+04, time = 13.70 | CG iter. 3 -- res = 0.14771E+08, tol = 0.57678E+04, time = 12.13 | CG iter. 4 -- res = 0.63669E+07, tol = 0.57678E+04, time = 11.89 | CG iter. 5 -- res = 0.38503E+07, tol = 0.57678E+04, time = 11.93 | CG iter. 6 -- res = 0.22010E+07, tol = 0.57678E+04, time = 11.91 | CG iter. 7 -- res = 0.13120E+07, tol = 0.57678E+04, time = 12.12 | CG iter. 8 -- res = 0.86835E+06, tol = 0.57678E+04, time = 11.93 | CG iter. 9 -- res = 0.55408E+06, tol = 0.57678E+04, time = 11.62 | CG iter. 10 -- res = 0.32421E+06, tol = 0.57678E+04, time = 11.58 | CG iter. 11 -- res = 0.17147E+06, tol = 0.57678E+04, time = 12.15 | CG iter. 12 -- res = 0.92547E+05, tol = 0.57678E+04, time = 11.66 | CG iter. 13 -- res = 0.50301E+05, tol = 0.57678E+04, time = 11.72 | CG iter. 14 -- res = 0.28879E+05, tol = 0.57678E+04, time = 11.53 | CG iter. 15 -- res = 0.18486E+05, tol = 0.57678E+04, time = 11.66 | CG iter. 16 -- res = 0.12972E+05, tol = 0.57678E+04, time = 11.83 | CG iter. 17 -- res = 0.93257E+04, tol = 0.57678E+04, time = 11.83 | CG iter. 18 -- res = 0.63514E+04, tol = 0.57678E+04, time = 11.50 | CG iter. 19 -- res = 0.42890E+04, tol = 0.57678E+04, time = 11.07 | CG iter. 20 -- res = 0.29543E+04, tol = 0.57678E+04, time = 17.71 | CG iter. 21 -- res = 0.21705E+04, tol = 0.57678E+04, time = 11.62 | CG iter. 22 -- res = 0.18354E+04, tol = 0.57678E+04, time = 11.78 | CG iter. 23 -- res = 0.17987E+04, tol = 0.57678E+04, time = 12.03 | CG iter. 24 -- res = 0.19115E+04, tol = 0.57678E+04, time = 11.53 | CG iter. 25 -- res = 0.20587E+04, tol = 0.57678E+04, time = 11.22 | CG iter. 26 -- res = 0.20781E+04, tol = 0.57678E+04, time = 11.47 | CG iter. 27 -- res = 0.19758E+04, tol = 0.57678E+04, time = 13.54 | CG iter. 28 -- res = 0.17797E+04, tol = 0.57678E+04, time = 12.05 | CG iter. 29 -- res = 0.15941E+04, tol = 0.57678E+04, time = 11.86 | CG iter. 30 -- res = 0.14405E+04, tol = 0.57678E+04, time = 11.90 | CG iter. 31 -- res = 0.12697E+04, tol = 0.57678E+04, time = 11.79 | CG iter. 32 -- res = 0.10839E+04, tol = 0.57678E+04, time = 11.71 | CG iter. 33 -- res = 0.89938E+03, tol = 0.57678E+04, time = 11.61 | CG iter. 34 -- res = 0.67184E+03, tol = 0.57678E+04, time = 11.64 | CG iter. 35 -- res = 0.49405E+03, tol = 0.57678E+04, time = 11.90 | CG iter. 36 -- res = 0.37809E+03, tol = 0.57678E+04, time = 11.50 | CG iter. 37 -- res = 0.31623E+03, tol = 0.57678E+04, time = 11.91 | CG iter. 38 -- res = 0.28664E+03, tol = 0.57678E+04, time = 11.21 | CG iter. 39 -- res = 0.27104E+03, tol = 0.57678E+04, time = 11.81 | CG iter. 40 -- res = 0.24883E+03, tol = 0.57678E+04, time = 11.82 | CG iter. 41 -- res = 0.21441E+03, tol = 0.57678E+04, time = 12.07 | CG iter. 42 -- res = 0.18102E+03, tol = 0.57678E+04, time = 11.46 | CG iter. 43 -- res = 0.15916E+03, tol = 0.57678E+04, time = 12.07 | CG iter. 44 -- res = 0.14754E+03, tol = 0.57678E+04, time = 11.86 | CG iter. 45 -- res = 0.13874E+03, tol = 0.57678E+04, time = 17.28 | CG iter. 46 -- res = 0.12663E+03, tol = 0.57678E+04, time = 11.86 | CG iter. 47 -- res = 0.11077E+03, tol = 0.57678E+04, time = 11.56 | CG iter. 48 -- res = 0.91411E+02, tol = 0.57678E+04, time = 11.67 | CG iter. 49 -- res = 0.73346E+02, tol = 0.57678E+04, time = 11.65 | CG iter. 50 -- res = 0.61227E+02, tol = 0.57678E+04, time = 11.53 | CG iter. 51 -- res = 0.53981E+02, tol = 0.57678E+04, time = 11.48 | CG iter. 52 -- res = 0.49246E+02, tol = 0.57678E+04, time = 13.21 | CG iter. 53 -- res = 0.45231E+02, tol = 0.57678E+04, time = 12.27 | CG iter. 54 -- res = 0.40499E+02, tol = 0.57678E+04, time = 11.72 | CG iter. 55 -- res = 0.36205E+02, tol = 0.57678E+04, time = 11.81 | CG iter. 56 -- res = 0.31797E+02, tol = 0.57678E+04, time = 11.73 | CG iter. 57 -- res = 0.28211E+02, tol = 0.57678E+04, time = 11.40 | CG iter. 58 -- res = 0.25971E+02, tol = 0.57678E+04, time = 11.68 | CG iter. 59 -- res = 0.24421E+02, tol = 0.57678E+04, time = 11.87 | CG iter. 60 -- res = 0.22534E+02, tol = 0.57678E+04, time = 11.61 | Final CG iter 61 -- res = 0.22534E+02, tol = 0.57678E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.798 ( -229.905 -2231.767 2514.358 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9342666.391 | Old band monopole 11421620.892 | Change to band monopole -2078954.501 | Change to component monopole 2078945.559 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.327 2.733 | New value -6.478 | Old value 5.327 | Difference -11.805 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.203 ( 7.810 14.385 -13.890 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.368 4.859 | New value 4.013 | Old value -0.368 | Difference 4.381 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.73879E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.83568E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.28167E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.58699E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.13265E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9342626.206 | (Sampled value in CG: 9322933.341 ) | Chain = 1 -- chisq = 0.81561282E+09 | Chain = 1 -- wall time = 16792.659 sec Available RAM: MemAvailable: 488199660 kB Available Swap: SwapFree: 1056760068 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 372 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442353 | --> Sampling calibration, mode = relcal | relcal = 1.3417883E-02 7.4391533E-04 -1.5742695E-03 -1.2587529E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1809234 0.1951181 9407699.74699347 | BP delta = 0.1809234 0.1936897 9407721.70953934 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632645 | --> Sampling calibration, mode = relcal | relcal = -2.8217372E-03 -7.0352328E-04 1.6791830E-03 1.6142908E-03 -4.0785957E-04 6.3964626E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5732161 15218827.7587269 | BP delta = 0.0000000E+00 -0.5722271 15218828.4267181 | BP chisq diff = 0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17711614683092 | --> Sampling calibration, mode = relcal | relcal = -7.4869297E-02 -5.8020651E-02 9.1429718E-02 4.1460231E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -9.3276110E-05 3.4929097E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7079E-05 | 2: delta_r/delta_0: 1.3680E-06 | 3: delta_s/delta_0: 2.2761E-07 | 4: delta_r/delta_0: 1.4667E-08 | 5: delta_s/delta_0: 3.8492E-09 | 6: delta_r/delta_0: 7.9360E-10 | 7: delta_s/delta_0: 1.6580E-09 | 8: delta_r/delta_0: 1.0205E-10 | 9: delta_s/delta_0: 1.6663E-10 | 10: delta_r/delta_0: 8.9903E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.864434947060297E-004 2.750100466198343E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.7075E-05 | 2: delta_r/delta_0: 1.3679E-06 | 3: delta_s/delta_0: 2.2761E-07 | 4: delta_r/delta_0: 1.4668E-08 | 5: delta_s/delta_0: 3.8494E-09 | 6: delta_r/delta_0: 7.9366E-10 | 7: delta_s/delta_0: 1.6591E-09 | 8: delta_r/delta_0: 1.0205E-10 | 9: delta_s/delta_0: 1.6670E-10 | 10: delta_r/delta_0: 8.9935E-11 | Reached bicg-stab tolerance | BP delta = 9.2358075E-02 0.1150532 3528584.03038917 | BP delta = 9.2358075E-02 0.1151245 3526744.90851815 | BP chisq diff = -1839.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02623807 | --> Sampling calibration, mode = relcal | relcal = -0.1067037 -9.5513828E-02 0.1448946 5.7322994E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0509611E-03 1.7405001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8731E-05 | 2: delta_r/delta_0: 1.1834E-06 | 3: delta_s/delta_0: 2.3445E-07 | 4: delta_r/delta_0: 4.9888E-08 | 5: delta_s/delta_0: 1.4845E-08 | 6: delta_r/delta_0: 6.6616E-09 | 7: delta_s/delta_0: 8.8835E-09 | 8: delta_r/delta_0: 1.1886E-09 | 9: delta_s/delta_0: 9.3159E-10 | 10: delta_r/delta_0: 3.1362E-10 | 11: delta_s/delta_0: 3.8832E-09 | 12: delta_r/delta_0: 2.9634E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.561774340248776E-003 2.810165890381011E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8731E-05 | 2: delta_r/delta_0: 1.1834E-06 | 3: delta_s/delta_0: 2.3447E-07 | 4: delta_r/delta_0: 4.9899E-08 | 5: delta_s/delta_0: 1.4842E-08 | 6: delta_r/delta_0: 6.6623E-09 | 7: delta_s/delta_0: 8.8863E-09 | 8: delta_r/delta_0: 1.1887E-09 | 9: delta_s/delta_0: 9.3155E-10 | 10: delta_r/delta_0: 3.1375E-10 | 11: delta_s/delta_0: 3.8837E-09 | 12: delta_r/delta_0: 2.9651E-11 | Reached bicg-stab tolerance | BP delta = -0.2359493 -0.2039365 2841656.56042249 | BP delta = -0.2359493 -0.2029371 2841660.74516154 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81256354 | --> Sampling calibration, mode = relcal | relcal = 0.2955203 0.2250540 -0.2838793 -0.2366951 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.3511056E-04 5.1184832E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6368E-03 | 2: delta_r/delta_0: 3.7718E-05 | 3: delta_s/delta_0: 1.5964E-05 | 4: delta_r/delta_0: 1.6955E-06 | 5: delta_s/delta_0: 1.1557E-06 | 6: delta_r/delta_0: 1.1823E-07 | 7: delta_s/delta_0: 5.7307E-08 | 8: delta_r/delta_0: 3.0567E-08 | 9: delta_s/delta_0: 4.5951E-07 | 10: delta_r/delta_0: 2.2072E-09 | 11: delta_s/delta_0: 1.2986E-09 | 12: delta_r/delta_0: 4.1908E-10 | 13: delta_s/delta_0: 4.4589E-10 | 14: delta_r/delta_0: 2.8772E-10 | 15: delta_s/delta_0: 8.7841E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.352324103945587E-002 4.020119648849794E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6363E-03 | 2: delta_r/delta_0: 3.7706E-05 | 3: delta_s/delta_0: 1.5966E-05 | 4: delta_r/delta_0: 1.6957E-06 | 5: delta_s/delta_0: 1.1550E-06 | 6: delta_r/delta_0: 1.1816E-07 | 7: delta_s/delta_0: 5.7303E-08 | 8: delta_r/delta_0: 3.0560E-08 | 9: delta_s/delta_0: 4.5950E-07 | 10: delta_r/delta_0: 2.2046E-09 | 11: delta_s/delta_0: 1.2962E-09 | 12: delta_r/delta_0: 4.1920E-10 | 13: delta_s/delta_0: 4.4643E-10 | 14: delta_r/delta_0: 2.8784E-10 | 15: delta_s/delta_0: 8.7595E-11 | Reached bicg-stab tolerance | BP delta = -7.3402509E-02 -0.1254036 2827179.25617328 | BP delta = -7.3402509E-02 -0.1155072 2827188.01184607 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95958943 | --> Sampling calibration, mode = relcal | relcal = 0.1066433 0.1395588 -0.1103650 -0.1358371 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7843772E-03 1.4079667E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.6075E-03 | 2: delta_r/delta_0: 2.3078E-04 | 3: delta_s/delta_0: 1.4233E-04 | 4: delta_r/delta_0: 1.0067E-05 | 5: delta_s/delta_0: 1.7425E-06 | 6: delta_r/delta_0: 5.0076E-07 | 7: delta_s/delta_0: 1.3590E-06 | 8: delta_r/delta_0: 1.6167E-07 | 9: delta_s/delta_0: 1.4169E-07 | 10: delta_r/delta_0: 2.0261E-08 | 11: delta_s/delta_0: 1.6546E-08 | 12: delta_r/delta_0: 3.6475E-09 | 13: delta_s/delta_0: 1.9506E-09 | 14: delta_r/delta_0: 1.2720E-09 | 15: delta_s/delta_0: 1.6969E-10 | 16: delta_r/delta_0: 7.8599E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.921553031061703E-002 3.695577974054207E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 9.6075E-03 | 2: delta_r/delta_0: 2.3078E-04 | 3: delta_s/delta_0: 1.4233E-04 | 4: delta_r/delta_0: 1.0067E-05 | 5: delta_s/delta_0: 1.7425E-06 | 6: delta_r/delta_0: 5.0076E-07 | 7: delta_s/delta_0: 1.3590E-06 | 8: delta_r/delta_0: 1.6168E-07 | 9: delta_s/delta_0: 1.4168E-07 | 10: delta_r/delta_0: 2.0260E-08 | 11: delta_s/delta_0: 1.6545E-08 | 12: delta_r/delta_0: 3.6472E-09 | 13: delta_s/delta_0: 1.9505E-09 | 14: delta_r/delta_0: 1.2720E-09 | 15: delta_s/delta_0: 1.6969E-10 | 16: delta_r/delta_0: 7.8598E-11 | Reached bicg-stab tolerance | BP delta = 0.2321973 0.3382586 3004454.89289873 | BP delta = 0.2321973 0.3378043 3004455.00910178 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.210986 | New value = -3.116426 | poltype: 2 pol: 1 CPU time specind = 1.5320063E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.225400 | New value = -3.210416 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.182827 | New value = -3.152145 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153688 | New value = -3.123386 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.035155 | New value = -3.137449 | poltype: 2 pol: 2 CPU time specind = 8.3591938E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.13683E+08, tol = 0.75977E+01, time = 5.84 | CG iter. 2 -- res = 0.38653E+06, tol = 0.75977E+01, time = 6.18 | CG iter. 3 -- res = 0.98230E+05, tol = 0.75977E+01, time = 5.59 | CG iter. 4 -- res = 0.11483E+06, tol = 0.75977E+01, time = 5.65 | CG iter. 5 -- res = 0.11820E+06, tol = 0.75977E+01, time = 6.24 | CG iter. 6 -- res = 0.11285E+06, tol = 0.75977E+01, time = 6.28 | CG iter. 7 -- res = 0.89542E+05, tol = 0.75977E+01, time = 11.48 | CG iter. 8 -- res = 0.64332E+05, tol = 0.75977E+01, time = 5.59 | CG iter. 9 -- res = 0.55080E+05, tol = 0.75977E+01, time = 6.04 | CG iter. 10 -- res = 0.43603E+05, tol = 0.75977E+01, time = 5.92 | CG iter. 11 -- res = 0.30492E+05, tol = 0.75977E+01, time = 5.58 | CG iter. 12 -- res = 0.22631E+05, tol = 0.75977E+01, time = 5.77 | CG iter. 13 -- res = 0.18513E+05, tol = 0.75977E+01, time = 6.21 | CG iter. 14 -- res = 0.16026E+05, tol = 0.75977E+01, time = 5.52 | CG iter. 15 -- res = 0.12421E+05, tol = 0.75977E+01, time = 5.75 | CG iter. 16 -- res = 0.84576E+04, tol = 0.75977E+01, time = 5.93 | CG iter. 17 -- res = 0.61523E+04, tol = 0.75977E+01, time = 5.92 | CG iter. 18 -- res = 0.51060E+04, tol = 0.75977E+01, time = 6.21 | CG iter. 19 -- res = 0.44254E+04, tol = 0.75977E+01, time = 6.15 | CG iter. 20 -- res = 0.34350E+04, tol = 0.75977E+01, time = 6.12 | CG iter. 21 -- res = 0.25278E+04, tol = 0.75977E+01, time = 7.45 | CG iter. 22 -- res = 0.20944E+04, tol = 0.75977E+01, time = 7.52 | CG iter. 23 -- res = 0.18076E+04, tol = 0.75977E+01, time = 6.27 | CG iter. 24 -- res = 0.14547E+04, tol = 0.75977E+01, time = 6.15 | CG iter. 25 -- res = 0.10713E+04, tol = 0.75977E+01, time = 5.74 | CG iter. 26 -- res = 0.87711E+03, tol = 0.75977E+01, time = 6.26 | CG iter. 27 -- res = 0.79316E+03, tol = 0.75977E+01, time = 5.48 | CG iter. 28 -- res = 0.67165E+03, tol = 0.75977E+01, time = 6.26 | CG iter. 29 -- res = 0.51273E+03, tol = 0.75977E+01, time = 6.08 | CG iter. 30 -- res = 0.39609E+03, tol = 0.75977E+01, time = 5.65 | CG iter. 31 -- res = 0.34359E+03, tol = 0.75977E+01, time = 6.12 | CG iter. 32 -- res = 0.28855E+03, tol = 0.75977E+01, time = 5.59 | CG iter. 33 -- res = 0.22358E+03, tol = 0.75977E+01, time = 5.90 | CG iter. 34 -- res = 0.16914E+03, tol = 0.75977E+01, time = 5.87 | CG iter. 35 -- res = 0.14125E+03, tol = 0.75977E+01, time = 6.09 | CG iter. 36 -- res = 0.11979E+03, tol = 0.75977E+01, time = 6.16 | CG iter. 37 -- res = 0.93539E+02, tol = 0.75977E+01, time = 6.10 | CG iter. 38 -- res = 0.69432E+02, tol = 0.75977E+01, time = 6.09 | CG iter. 39 -- res = 0.54732E+02, tol = 0.75977E+01, time = 5.87 | CG iter. 40 -- res = 0.47126E+02, tol = 0.75977E+01, time = 6.21 | CG iter. 41 -- res = 0.37301E+02, tol = 0.75977E+01, time = 5.94 | CG iter. 42 -- res = 0.27233E+02, tol = 0.75977E+01, time = 6.06 | CG iter. 43 -- res = 0.21097E+02, tol = 0.75977E+01, time = 5.94 | CG iter. 44 -- res = 0.17609E+02, tol = 0.75977E+01, time = 5.71 | CG iter. 45 -- res = 0.13760E+02, tol = 0.75977E+01, time = 5.89 | CG iter. 46 -- res = 0.10309E+02, tol = 0.75977E+01, time = 5.91 | CG iter. 47 -- res = 0.79103E+01, tol = 0.75977E+01, time = 6.01 | CG iter. 48 -- res = 0.63016E+01, tol = 0.75977E+01, time = 5.72 | CG iter. 49 -- res = 0.51432E+01, tol = 0.75977E+01, time = 5.84 | CG iter. 50 -- res = 0.38032E+01, tol = 0.75977E+01, time = 6.15 | Final CG iter 51 -- res = 0.38032E+01, tol = 0.75977E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9126144.073 | Old band monopole 9342666.391 | Change to band monopole -216522.317 | Change to component monopole 216521.386 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.45344E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.28282E+03, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.45533E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.49062E-01, tol = 0.47627E+18, time = 2.23 | Final CG iter 5 -- res = 0.46403E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9126104.820 | (Sampled value in CG: 9218082.624 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.506284 | New value = 1.509495 | poltype: 2 pol: 1 CPU time specind = 1.6685009E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.520598 | New value = 1.498978 | poltype: 2 pol: 2 CPU time specind = 4.5850277E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.24011E+08, tol = 0.47510E+04, time = 7.94 | CG iter. 2 -- res = 0.53632E+07, tol = 0.47510E+04, time = 6.89 | CG iter. 3 -- res = 0.83618E+06, tol = 0.47510E+04, time = 7.09 | CG iter. 4 -- res = 0.34788E+06, tol = 0.47510E+04, time = 7.01 | CG iter. 5 -- res = 0.15335E+06, tol = 0.47510E+04, time = 6.93 | CG iter. 6 -- res = 0.81826E+05, tol = 0.47510E+04, time = 6.72 | CG iter. 7 -- res = 0.43888E+05, tol = 0.47510E+04, time = 6.80 | CG iter. 8 -- res = 0.20924E+05, tol = 0.47510E+04, time = 6.78 | CG iter. 9 -- res = 0.90352E+04, tol = 0.47510E+04, time = 7.01 | CG iter. 10 -- res = 0.37230E+04, tol = 0.47510E+04, time = 6.80 | CG iter. 11 -- res = 0.17056E+04, tol = 0.47510E+04, time = 7.17 | CG iter. 12 -- res = 0.87596E+03, tol = 0.47510E+04, time = 7.11 | CG iter. 13 -- res = 0.49803E+03, tol = 0.47510E+04, time = 6.51 | CG iter. 14 -- res = 0.27873E+03, tol = 0.47510E+04, time = 7.33 | CG iter. 15 -- res = 0.14571E+03, tol = 0.47510E+04, time = 6.86 | CG iter. 16 -- res = 0.69166E+02, tol = 0.47510E+04, time = 7.50 | CG iter. 17 -- res = 0.32013E+02, tol = 0.47510E+04, time = 6.73 | CG iter. 18 -- res = 0.16035E+02, tol = 0.47510E+04, time = 6.91 | CG iter. 19 -- res = 0.88553E+01, tol = 0.47510E+04, time = 7.10 | CG iter. 20 -- res = 0.51437E+01, tol = 0.47510E+04, time = 6.97 | CG iter. 21 -- res = 0.28122E+01, tol = 0.47510E+04, time = 6.94 | CG iter. 22 -- res = 0.14179E+01, tol = 0.47510E+04, time = 6.79 | CG iter. 23 -- res = 0.69887E+00, tol = 0.47510E+04, time = 6.76 | CG iter. 24 -- res = 0.35470E+00, tol = 0.47510E+04, time = 7.04 | CG iter. 25 -- res = 0.19409E+00, tol = 0.47510E+04, time = 6.77 | CG iter. 26 -- res = 0.11017E+00, tol = 0.47510E+04, time = 6.63 | CG iter. 27 -- res = 0.62687E-01, tol = 0.47510E+04, time = 7.16 | CG iter. 28 -- res = 0.33648E-01, tol = 0.47510E+04, time = 6.80 | CG iter. 29 -- res = 0.17607E-01, tol = 0.47510E+04, time = 7.05 | CG iter. 30 -- res = 0.92333E-02, tol = 0.47510E+04, time = 10.37 | CG iter. 31 -- res = 0.50264E-02, tol = 0.47510E+04, time = 9.14 | CG iter. 32 -- res = 0.28014E-02, tol = 0.47510E+04, time = 6.99 | CG iter. 33 -- res = 0.15629E-02, tol = 0.47510E+04, time = 6.81 | CG iter. 34 -- res = 0.84234E-03, tol = 0.47510E+04, time = 7.14 | CG iter. 35 -- res = 0.43883E-03, tol = 0.47510E+04, time = 7.07 | Final CG iter 36 -- res = 0.43883E-03, tol = 0.47510E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.554 2.715 | New value 0.696 | Old value -6.554 | Difference 7.250 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.27294E+07, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.11866E+03, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.26147E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.47655E-03, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.15678E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9126104.820 | (Sampled value in CG: 9217061.423 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.564242 | New value = -3.686466 | poltype: 1 pol: 1 CPU time specind = 1.6124010E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.28681E+07, tol = 0.25649E+01, time = 2.70 | CG iter. 2 -- res = 0.10866E+07, tol = 0.25649E+01, time = 2.86 | CG iter. 3 -- res = 0.23517E+06, tol = 0.25649E+01, time = 2.94 | CG iter. 4 -- res = 0.10388E+06, tol = 0.25649E+01, time = 3.12 | CG iter. 5 -- res = 0.66026E+05, tol = 0.25649E+01, time = 2.87 | CG iter. 6 -- res = 0.29112E+05, tol = 0.25649E+01, time = 3.00 | CG iter. 7 -- res = 0.90598E+04, tol = 0.25649E+01, time = 2.93 | CG iter. 8 -- res = 0.36065E+04, tol = 0.25649E+01, time = 3.06 | CG iter. 9 -- res = 0.15487E+04, tol = 0.25649E+01, time = 2.93 | CG iter. 10 -- res = 0.64218E+03, tol = 0.25649E+01, time = 2.91 | CG iter. 11 -- res = 0.30071E+03, tol = 0.25649E+01, time = 2.50 | CG iter. 12 -- res = 0.15501E+03, tol = 0.25649E+01, time = 2.90 | CG iter. 13 -- res = 0.77998E+02, tol = 0.25649E+01, time = 3.09 | CG iter. 14 -- res = 0.34503E+02, tol = 0.25649E+01, time = 4.19 | CG iter. 15 -- res = 0.14709E+02, tol = 0.25649E+01, time = 3.56 | CG iter. 16 -- res = 0.64043E+01, tol = 0.25649E+01, time = 3.21 | CG iter. 17 -- res = 0.28776E+01, tol = 0.25649E+01, time = 3.23 | CG iter. 18 -- res = 0.14411E+01, tol = 0.25649E+01, time = 2.95 | CG iter. 19 -- res = 0.73209E+00, tol = 0.25649E+01, time = 2.83 | CG iter. 20 -- res = 0.35529E+00, tol = 0.25649E+01, time = 3.09 | CG iter. 21 -- res = 0.15655E+00, tol = 0.25649E+01, time = 2.87 | CG iter. 22 -- res = 0.69596E-01, tol = 0.25649E+01, time = 2.80 | CG iter. 23 -- res = 0.31423E-01, tol = 0.25649E+01, time = 2.96 | CG iter. 24 -- res = 0.16055E-01, tol = 0.25649E+01, time = 2.99 | CG iter. 25 -- res = 0.83960E-02, tol = 0.25649E+01, time = 2.64 | CG iter. 26 -- res = 0.40427E-02, tol = 0.25649E+01, time = 2.60 | CG iter. 27 -- res = 0.18893E-02, tol = 0.25649E+01, time = 3.10 | CG iter. 28 -- res = 0.85652E-03, tol = 0.25649E+01, time = 2.77 | CG iter. 29 -- res = 0.38565E-03, tol = 0.25649E+01, time = 2.87 | CG iter. 30 -- res = 0.20170E-03, tol = 0.25649E+01, time = 2.77 | CG iter. 31 -- res = 0.10168E-03, tol = 0.25649E+01, time = 2.70 | CG iter. 32 -- res = 0.50096E-04, tol = 0.25649E+01, time = 2.92 | CG iter. 33 -- res = 0.23220E-04, tol = 0.25649E+01, time = 2.68 | CG iter. 34 -- res = 0.10374E-04, tol = 0.25649E+01, time = 2.80 | CG iter. 35 -- res = 0.51506E-05, tol = 0.25649E+01, time = 3.02 | CG iter. 36 -- res = 0.25142E-05, tol = 0.25649E+01, time = 2.73 | CG iter. 37 -- res = 0.12416E-05, tol = 0.25649E+01, time = 2.98 | CG iter. 38 -- res = 0.61410E-06, tol = 0.25649E+01, time = 3.00 | CG iter. 39 -- res = 0.28944E-06, tol = 0.25649E+01, time = 2.78 | CG iter. 40 -- res = 0.12936E-06, tol = 0.25649E+01, time = 2.61 | CG iter. 41 -- res = 0.60457E-07, tol = 0.25649E+01, time = 2.79 | CG iter. 42 -- res = 0.31159E-07, tol = 0.25649E+01, time = 2.91 | CG iter. 43 -- res = 0.14607E-07, tol = 0.25649E+01, time = 2.97 | CG iter. 44 -- res = 0.71920E-08, tol = 0.25649E+01, time = 2.82 | CG iter. 45 -- res = 0.32141E-08, tol = 0.25649E+01, time = 2.75 | CG iter. 46 -- res = 0.14483E-08, tol = 0.25649E+01, time = 2.67 | CG iter. 47 -- res = 0.71182E-09, tol = 0.25649E+01, time = 2.93 | CG iter. 48 -- res = 0.34614E-09, tol = 0.25649E+01, time = 3.22 | CG iter. 49 -- res = 0.16739E-09, tol = 0.25649E+01, time = 2.83 | CG iter. 50 -- res = 0.78843E-10, tol = 0.25649E+01, time = 2.99 | Final CG iter 51 -- res = 0.78843E-10, tol = 0.25649E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.212 3.600 | New value -1.843 | Old value 11.212 | Difference -13.055 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.17012E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.13799E+03, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.33578E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.23313E-01, tol = 0.47627E+18, time = 2.18 | Final CG iter 5 -- res = 0.77742E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9126104.820 | (Sampled value in CG: 9196792.714 ) | CPU time specind = 1240.715 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.68384E+08, tol = 0.57817E+04, time = 12.69 | CG iter. 2 -- res = 0.59380E+08, tol = 0.57817E+04, time = 18.43 | CG iter. 3 -- res = 0.15752E+08, tol = 0.57817E+04, time = 12.36 | CG iter. 4 -- res = 0.66509E+07, tol = 0.57817E+04, time = 12.06 | CG iter. 5 -- res = 0.39851E+07, tol = 0.57817E+04, time = 12.56 | CG iter. 6 -- res = 0.22938E+07, tol = 0.57817E+04, time = 12.48 | CG iter. 7 -- res = 0.13465E+07, tol = 0.57817E+04, time = 12.32 | CG iter. 8 -- res = 0.89387E+06, tol = 0.57817E+04, time = 12.74 | CG iter. 9 -- res = 0.58062E+06, tol = 0.57817E+04, time = 13.65 | CG iter. 10 -- res = 0.36146E+06, tol = 0.57817E+04, time = 12.58 | CG iter. 11 -- res = 0.20632E+06, tol = 0.57817E+04, time = 13.02 | CG iter. 12 -- res = 0.11801E+06, tol = 0.57817E+04, time = 12.22 | CG iter. 13 -- res = 0.73150E+05, tol = 0.57817E+04, time = 11.67 | CG iter. 14 -- res = 0.53465E+05, tol = 0.57817E+04, time = 12.59 | CG iter. 15 -- res = 0.45044E+05, tol = 0.57817E+04, time = 12.37 | CG iter. 16 -- res = 0.41629E+05, tol = 0.57817E+04, time = 12.26 | CG iter. 17 -- res = 0.40368E+05, tol = 0.57817E+04, time = 12.26 | CG iter. 18 -- res = 0.38205E+05, tol = 0.57817E+04, time = 11.88 | CG iter. 19 -- res = 0.34631E+05, tol = 0.57817E+04, time = 12.59 | CG iter. 20 -- res = 0.31983E+05, tol = 0.57817E+04, time = 12.50 | CG iter. 21 -- res = 0.29474E+05, tol = 0.57817E+04, time = 12.36 | CG iter. 22 -- res = 0.28553E+05, tol = 0.57817E+04, time = 12.25 | CG iter. 23 -- res = 0.27621E+05, tol = 0.57817E+04, time = 12.68 | CG iter. 24 -- res = 0.25334E+05, tol = 0.57817E+04, time = 12.28 | CG iter. 25 -- res = 0.20830E+05, tol = 0.57817E+04, time = 19.00 | CG iter. 26 -- res = 0.15732E+05, tol = 0.57817E+04, time = 12.29 | CG iter. 27 -- res = 0.11843E+05, tol = 0.57817E+04, time = 12.81 | CG iter. 28 -- res = 0.90850E+04, tol = 0.57817E+04, time = 12.21 | CG iter. 29 -- res = 0.75404E+04, tol = 0.57817E+04, time = 12.36 | CG iter. 30 -- res = 0.68138E+04, tol = 0.57817E+04, time = 12.48 | CG iter. 31 -- res = 0.63553E+04, tol = 0.57817E+04, time = 12.26 | CG iter. 32 -- res = 0.58356E+04, tol = 0.57817E+04, time = 13.67 | CG iter. 33 -- res = 0.51913E+04, tol = 0.57817E+04, time = 12.66 | CG iter. 34 -- res = 0.45952E+04, tol = 0.57817E+04, time = 12.35 | CG iter. 35 -- res = 0.41543E+04, tol = 0.57817E+04, time = 12.02 | CG iter. 36 -- res = 0.37418E+04, tol = 0.57817E+04, time = 12.56 | CG iter. 37 -- res = 0.35019E+04, tol = 0.57817E+04, time = 12.33 | CG iter. 38 -- res = 0.33031E+04, tol = 0.57817E+04, time = 12.38 | CG iter. 39 -- res = 0.29947E+04, tol = 0.57817E+04, time = 12.37 | CG iter. 40 -- res = 0.24753E+04, tol = 0.57817E+04, time = 12.51 | CG iter. 41 -- res = 0.20210E+04, tol = 0.57817E+04, time = 12.93 | CG iter. 42 -- res = 0.16504E+04, tol = 0.57817E+04, time = 12.51 | CG iter. 43 -- res = 0.14460E+04, tol = 0.57817E+04, time = 12.45 | CG iter. 44 -- res = 0.13614E+04, tol = 0.57817E+04, time = 12.66 | CG iter. 45 -- res = 0.13226E+04, tol = 0.57817E+04, time = 12.44 | CG iter. 46 -- res = 0.12886E+04, tol = 0.57817E+04, time = 12.29 | CG iter. 47 -- res = 0.11838E+04, tol = 0.57817E+04, time = 12.56 | CG iter. 48 -- res = 0.10415E+04, tol = 0.57817E+04, time = 12.40 | CG iter. 49 -- res = 0.92112E+03, tol = 0.57817E+04, time = 18.44 | CG iter. 50 -- res = 0.84247E+03, tol = 0.57817E+04, time = 12.06 | CG iter. 51 -- res = 0.79462E+03, tol = 0.57817E+04, time = 12.04 | CG iter. 52 -- res = 0.77312E+03, tol = 0.57817E+04, time = 12.32 | CG iter. 53 -- res = 0.72365E+03, tol = 0.57817E+04, time = 12.03 | CG iter. 54 -- res = 0.64122E+03, tol = 0.57817E+04, time = 12.52 | CG iter. 55 -- res = 0.55964E+03, tol = 0.57817E+04, time = 12.07 | CG iter. 56 -- res = 0.49606E+03, tol = 0.57817E+04, time = 13.65 | CG iter. 57 -- res = 0.44458E+03, tol = 0.57817E+04, time = 12.57 | CG iter. 58 -- res = 0.42703E+03, tol = 0.57817E+04, time = 12.48 | CG iter. 59 -- res = 0.42187E+03, tol = 0.57817E+04, time = 12.09 | CG iter. 60 -- res = 0.40120E+03, tol = 0.57817E+04, time = 12.48 | Final CG iter 61 -- res = 0.40120E+03, tol = 0.57817E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.719 ( -230.059 -2232.211 2514.937 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11017850.990 | Old band monopole 9126144.073 | Change to band monopole 1891706.916 | Change to component monopole -1891698.780 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.783 2.755 | New value -0.547 | Old value 0.783 | Difference -1.329 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.214 ( 7.468 14.777 -15.050 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.141 4.227 | New value 3.906 | Old value -0.141 | Difference 4.048 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.96020E+05, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.21329E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.47064E+00, tol = 0.47627E+18, time = 2.38 | CG iter. 4 -- res = 0.59862E-03, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.10369E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11017803.600 | (Sampled value in CG: 10997530.035 ) | Chain = 1 -- chisq = 0.81525913E+09 | Chain = 1 -- wall time = 6257.932 sec Available RAM: MemAvailable: 377881540 kB Available Swap: SwapFree: 1109411588 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 373 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442043 | --> Sampling calibration, mode = relcal | relcal = 1.3423661E-02 7.4767444E-04 -1.5865443E-03 -1.2584791E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1809234 0.1951181 97040067.5932307 | BP delta = 0.1708455 0.1850403 97040068.4302586 | BP chisq diff = 0.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632665 | --> Sampling calibration, mode = relcal | relcal = -2.8218846E-03 -7.0462178E-04 1.6794164E-03 1.6144970E-03 -4.0871798E-04 6.4131099E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5722271 15218151.8317968 | BP delta = 0.0000000E+00 -0.5714967 15218150.4096391 | BP chisq diff = -1.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18461064543304 | --> Sampling calibration, mode = relcal | relcal = -7.7019431E-02 -5.9741128E-02 9.3906321E-02 4.2854242E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8656295E-05 7.2610639E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6612E-05 | 2: delta_r/delta_0: 2.1424E-06 | 3: delta_s/delta_0: 2.2320E-07 | 4: delta_r/delta_0: 3.4478E-08 | 5: delta_s/delta_0: 1.0627E-08 | 6: delta_r/delta_0: 3.5898E-09 | 7: delta_s/delta_0: 8.7412E-10 | 8: delta_r/delta_0: 2.2946E-10 | 9: delta_s/delta_0: 1.7627E-10 | 10: delta_r/delta_0: 7.6491E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.696086594039659E-003 2.732451998984884E-005 | BP delta = 9.2358075E-02 0.1151245 50497181.4187052 | BP delta = 8.5143052E-02 0.1079094 50497203.1788331 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02631285 | --> Sampling calibration, mode = relcal | relcal = -0.1066649 -9.5603526E-02 0.1450085 5.7259917E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9405111E-03 1.4823654E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2977E-05 | 2: delta_r/delta_0: 1.2410E-06 | 3: delta_s/delta_0: 2.4854E-07 | 4: delta_r/delta_0: 4.5428E-08 | 5: delta_s/delta_0: 2.0411E-08 | 6: delta_r/delta_0: 6.6440E-09 | 7: delta_s/delta_0: 8.1629E-09 | 8: delta_r/delta_0: 1.2537E-09 | 9: delta_s/delta_0: 1.2484E-09 | 10: delta_r/delta_0: 7.7381E-10 | 11: delta_s/delta_0: 1.0029E-09 | 12: delta_r/delta_0: 5.2523E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.795982593633979E-003 2.809952910484760E-005 | BP delta = -0.2359493 -0.2039365 57397183.7328313 | BP delta = -0.2353242 -0.2033114 57397183.7157099 | BP chisq diff = -0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81266822 | --> Sampling calibration, mode = relcal | relcal = 0.2955131 0.2250213 -0.2838557 -0.2366787 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.7441269E-05 5.2509527E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9161E-03 | 2: delta_r/delta_0: 6.7585E-05 | 3: delta_s/delta_0: 2.2189E-05 | 4: delta_r/delta_0: 2.2032E-06 | 5: delta_s/delta_0: 3.8535E-06 | 6: delta_r/delta_0: 3.5949E-07 | 7: delta_s/delta_0: 5.9598E-08 | 8: delta_r/delta_0: 2.8136E-08 | 9: delta_s/delta_0: 2.3951E-07 | 10: delta_r/delta_0: 4.2856E-09 | 11: delta_s/delta_0: 3.6297E-09 | 12: delta_r/delta_0: 3.9800E-10 | 13: delta_s/delta_0: 5.5092E-10 | 14: delta_r/delta_0: 3.2546E-10 | 15: delta_s/delta_0: 4.2085E-10 | 16: delta_r/delta_0: 2.1084E-10 | 17: delta_s/delta_0: 1.1706E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.709441055667501E-002 4.019437999313852E-005 | BP delta = -7.3402509E-02 -0.1254036 72482241.3694327 | BP delta = -0.1013675 -0.1533685 72482241.0521163 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95969297 | --> Sampling calibration, mode = relcal | relcal = 0.1065288 0.1396088 -0.1102352 -0.1359023 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5307147E-03 1.3569560E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9955E-03 | 2: delta_r/delta_0: 4.8122E-05 | 3: delta_s/delta_0: 2.5449E-05 | 4: delta_r/delta_0: 2.0980E-06 | 5: delta_s/delta_0: 9.8688E-07 | 6: delta_r/delta_0: 2.6763E-07 | 7: delta_s/delta_0: 3.8996E-07 | 8: delta_r/delta_0: 5.5844E-08 | 9: delta_s/delta_0: 7.5153E-07 | 10: delta_r/delta_0: 3.0411E-07 | 11: delta_s/delta_0: 3.5728E-09 | 12: delta_r/delta_0: 1.8174E-09 | 13: delta_s/delta_0: 2.2970E-09 | 14: delta_r/delta_0: 3.5138E-10 | 15: delta_s/delta_0: 1.1715E-10 | 16: delta_r/delta_0: 4.5830E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.931994672035485E-002 3.695046086862245E-005 | BP delta = 0.2321973 0.3382586 72789013.5212787 | BP delta = 0.2568599 0.3629212 72789013.7814469 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.116426 | New value = -3.126905 | poltype: 2 pol: 1 CPU time specind = 1.5887976E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.210416 | New value = -3.142413 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152145 | New value = -3.037112 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123386 | New value = -3.177343 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.137449 | New value = -3.189543 | poltype: 2 pol: 2 CPU time specind = 6.5870285E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.13555E+08, tol = 0.65369E+01, time = 6.43 | CG iter. 2 -- res = 0.32978E+06, tol = 0.65369E+01, time = 5.86 | CG iter. 3 -- res = 0.50535E+05, tol = 0.65369E+01, time = 6.00 | CG iter. 4 -- res = 0.29137E+05, tol = 0.65369E+01, time = 5.96 | CG iter. 5 -- res = 0.19257E+05, tol = 0.65369E+01, time = 5.91 | CG iter. 6 -- res = 0.15895E+05, tol = 0.65369E+01, time = 5.97 | CG iter. 7 -- res = 0.16398E+05, tol = 0.65369E+01, time = 7.36 | CG iter. 8 -- res = 0.14848E+05, tol = 0.65369E+01, time = 6.90 | CG iter. 9 -- res = 0.14207E+05, tol = 0.65369E+01, time = 6.11 | CG iter. 10 -- res = 0.12329E+05, tol = 0.65369E+01, time = 5.84 | CG iter. 11 -- res = 0.83872E+04, tol = 0.65369E+01, time = 5.61 | CG iter. 12 -- res = 0.53481E+04, tol = 0.65369E+01, time = 5.81 | CG iter. 13 -- res = 0.37077E+04, tol = 0.65369E+01, time = 6.10 | CG iter. 14 -- res = 0.33652E+04, tol = 0.65369E+01, time = 5.76 | CG iter. 15 -- res = 0.30985E+04, tol = 0.65369E+01, time = 6.19 | CG iter. 16 -- res = 0.25407E+04, tol = 0.65369E+01, time = 5.96 | CG iter. 17 -- res = 0.19473E+04, tol = 0.65369E+01, time = 5.78 | CG iter. 18 -- res = 0.14947E+04, tol = 0.65369E+01, time = 6.08 | CG iter. 19 -- res = 0.12274E+04, tol = 0.65369E+01, time = 6.00 | CG iter. 20 -- res = 0.92306E+03, tol = 0.65369E+01, time = 5.90 | CG iter. 21 -- res = 0.61443E+03, tol = 0.65369E+01, time = 5.91 | CG iter. 22 -- res = 0.46936E+03, tol = 0.65369E+01, time = 5.88 | CG iter. 23 -- res = 0.41138E+03, tol = 0.65369E+01, time = 6.10 | CG iter. 24 -- res = 0.35723E+03, tol = 0.65369E+01, time = 5.95 | CG iter. 25 -- res = 0.27774E+03, tol = 0.65369E+01, time = 6.72 | CG iter. 26 -- res = 0.21538E+03, tol = 0.65369E+01, time = 6.08 | CG iter. 27 -- res = 0.19291E+03, tol = 0.65369E+01, time = 6.12 | CG iter. 28 -- res = 0.17500E+03, tol = 0.65369E+01, time = 5.58 | CG iter. 29 -- res = 0.14744E+03, tol = 0.65369E+01, time = 6.16 | CG iter. 30 -- res = 0.12397E+03, tol = 0.65369E+01, time = 5.87 | CG iter. 31 -- res = 0.11071E+03, tol = 0.65369E+01, time = 5.80 | CG iter. 32 -- res = 0.10166E+03, tol = 0.65369E+01, time = 6.13 | CG iter. 33 -- res = 0.83288E+02, tol = 0.65369E+01, time = 5.65 | CG iter. 34 -- res = 0.63635E+02, tol = 0.65369E+01, time = 5.92 | CG iter. 35 -- res = 0.50704E+02, tol = 0.65369E+01, time = 5.56 | CG iter. 36 -- res = 0.40561E+02, tol = 0.65369E+01, time = 5.79 | CG iter. 37 -- res = 0.30620E+02, tol = 0.65369E+01, time = 6.16 | CG iter. 38 -- res = 0.21145E+02, tol = 0.65369E+01, time = 5.81 | CG iter. 39 -- res = 0.14874E+02, tol = 0.65369E+01, time = 5.57 | CG iter. 40 -- res = 0.11338E+02, tol = 0.65369E+01, time = 5.96 | CG iter. 41 -- res = 0.86218E+01, tol = 0.65369E+01, time = 6.93 | CG iter. 42 -- res = 0.61805E+01, tol = 0.65369E+01, time = 11.52 | CG iter. 43 -- res = 0.45130E+01, tol = 0.65369E+01, time = 5.78 | CG iter. 44 -- res = 0.35441E+01, tol = 0.65369E+01, time = 5.84 | CG iter. 45 -- res = 0.28174E+01, tol = 0.65369E+01, time = 6.03 | CG iter. 46 -- res = 0.22709E+01, tol = 0.65369E+01, time = 5.89 | CG iter. 47 -- res = 0.17513E+01, tol = 0.65369E+01, time = 5.86 | CG iter. 48 -- res = 0.14248E+01, tol = 0.65369E+01, time = 5.70 | CG iter. 49 -- res = 0.11522E+01, tol = 0.65369E+01, time = 6.01 | CG iter. 50 -- res = 0.89431E+00, tol = 0.65369E+01, time = 5.73 | Final CG iter 51 -- res = 0.89431E+00, tol = 0.65369E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10825155.755 | Old band monopole 11017850.990 | Change to band monopole -192695.235 | Change to component monopole 192694.406 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.48687E+04, tol = 0.47627E+18, time = 3.03 | CG iter. 2 -- res = 0.16066E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.19488E+00, tol = 0.47627E+18, time = 2.58 | CG iter. 4 -- res = 0.30606E-03, tol = 0.47627E+18, time = 2.44 | Final CG iter 5 -- res = 0.36148E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10825109.194 | (Sampled value in CG: 10813509.765 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509495 | New value = 1.511198 | poltype: 2 pol: 1 CPU time specind = 1.5677929E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.498978 | New value = 1.519199 | poltype: 2 pol: 2 CPU time specind = 9.1009140E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.24014E+08, tol = 0.47580E+04, time = 6.21 | CG iter. 2 -- res = 0.54688E+07, tol = 0.47580E+04, time = 7.42 | CG iter. 3 -- res = 0.86852E+06, tol = 0.47580E+04, time = 6.40 | CG iter. 4 -- res = 0.36103E+06, tol = 0.47580E+04, time = 6.77 | CG iter. 5 -- res = 0.15236E+06, tol = 0.47580E+04, time = 6.76 | CG iter. 6 -- res = 0.77760E+05, tol = 0.47580E+04, time = 7.35 | CG iter. 7 -- res = 0.42820E+05, tol = 0.47580E+04, time = 7.12 | CG iter. 8 -- res = 0.20836E+05, tol = 0.47580E+04, time = 6.72 | CG iter. 9 -- res = 0.94279E+04, tol = 0.47580E+04, time = 7.08 | CG iter. 10 -- res = 0.39247E+04, tol = 0.47580E+04, time = 6.63 | CG iter. 11 -- res = 0.16883E+04, tol = 0.47580E+04, time = 6.92 | CG iter. 12 -- res = 0.86130E+03, tol = 0.47580E+04, time = 6.93 | CG iter. 13 -- res = 0.47733E+03, tol = 0.47580E+04, time = 7.02 | CG iter. 14 -- res = 0.26727E+03, tol = 0.47580E+04, time = 6.96 | CG iter. 15 -- res = 0.13967E+03, tol = 0.47580E+04, time = 6.52 | CG iter. 16 -- res = 0.65305E+02, tol = 0.47580E+04, time = 6.33 | CG iter. 17 -- res = 0.32107E+02, tol = 0.47580E+04, time = 7.16 | CG iter. 18 -- res = 0.16330E+02, tol = 0.47580E+04, time = 12.35 | CG iter. 19 -- res = 0.88363E+01, tol = 0.47580E+04, time = 7.39 | CG iter. 20 -- res = 0.48853E+01, tol = 0.47580E+04, time = 6.58 | CG iter. 21 -- res = 0.26063E+01, tol = 0.47580E+04, time = 7.03 | CG iter. 22 -- res = 0.13427E+01, tol = 0.47580E+04, time = 6.82 | CG iter. 23 -- res = 0.68374E+00, tol = 0.47580E+04, time = 6.85 | CG iter. 24 -- res = 0.34824E+00, tol = 0.47580E+04, time = 6.61 | CG iter. 25 -- res = 0.19037E+00, tol = 0.47580E+04, time = 6.60 | CG iter. 26 -- res = 0.10754E+00, tol = 0.47580E+04, time = 7.11 | CG iter. 27 -- res = 0.59226E-01, tol = 0.47580E+04, time = 6.95 | CG iter. 28 -- res = 0.31579E-01, tol = 0.47580E+04, time = 6.80 | CG iter. 29 -- res = 0.16208E-01, tol = 0.47580E+04, time = 6.84 | CG iter. 30 -- res = 0.84512E-02, tol = 0.47580E+04, time = 6.55 | CG iter. 31 -- res = 0.47572E-02, tol = 0.47580E+04, time = 8.14 | CG iter. 32 -- res = 0.27333E-02, tol = 0.47580E+04, time = 7.52 | CG iter. 33 -- res = 0.15540E-02, tol = 0.47580E+04, time = 6.52 | CG iter. 34 -- res = 0.83866E-03, tol = 0.47580E+04, time = 6.83 | CG iter. 35 -- res = 0.43868E-03, tol = 0.47580E+04, time = 6.70 | Final CG iter 36 -- res = 0.43868E-03, tol = 0.47580E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.632 2.723 | New value -1.861 | Old value -0.632 | Difference -1.230 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.78305E+05, tol = 0.47627E+18, time = 2.18 | CG iter. 2 -- res = 0.15820E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.15237E+00, tol = 0.47627E+18, time = 2.19 | Final CG iter 4 -- res = 0.32781E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10825109.194 | (Sampled value in CG: 10812723.499 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.686466 | New value = -3.541316 | poltype: 1 pol: 1 CPU time specind = 2.2870064E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.23438E+07, tol = 0.25422E+01, time = 2.93 | CG iter. 2 -- res = 0.85576E+06, tol = 0.25422E+01, time = 2.85 | CG iter. 3 -- res = 0.17294E+06, tol = 0.25422E+01, time = 2.87 | CG iter. 4 -- res = 0.70219E+05, tol = 0.25422E+01, time = 2.73 | CG iter. 5 -- res = 0.39042E+05, tol = 0.25422E+01, time = 2.85 | CG iter. 6 -- res = 0.20187E+05, tol = 0.25422E+01, time = 2.45 | CG iter. 7 -- res = 0.78790E+04, tol = 0.25422E+01, time = 2.93 | CG iter. 8 -- res = 0.36975E+04, tol = 0.25422E+01, time = 2.86 | CG iter. 9 -- res = 0.16082E+04, tol = 0.25422E+01, time = 2.73 | CG iter. 10 -- res = 0.66502E+03, tol = 0.25422E+01, time = 2.85 | CG iter. 11 -- res = 0.27320E+03, tol = 0.25422E+01, time = 2.87 | CG iter. 12 -- res = 0.12649E+03, tol = 0.25422E+01, time = 2.61 | CG iter. 13 -- res = 0.64130E+02, tol = 0.25422E+01, time = 2.93 | CG iter. 14 -- res = 0.33412E+02, tol = 0.25422E+01, time = 2.58 | CG iter. 15 -- res = 0.16257E+02, tol = 0.25422E+01, time = 2.98 | CG iter. 16 -- res = 0.71170E+01, tol = 0.25422E+01, time = 2.74 | CG iter. 17 -- res = 0.30117E+01, tol = 0.25422E+01, time = 2.70 | CG iter. 18 -- res = 0.13135E+01, tol = 0.25422E+01, time = 2.88 | CG iter. 19 -- res = 0.60020E+00, tol = 0.25422E+01, time = 2.83 | CG iter. 20 -- res = 0.31276E+00, tol = 0.25422E+01, time = 2.58 | CG iter. 21 -- res = 0.16624E+00, tol = 0.25422E+01, time = 3.03 | CG iter. 22 -- res = 0.80190E-01, tol = 0.25422E+01, time = 2.95 | CG iter. 23 -- res = 0.34718E-01, tol = 0.25422E+01, time = 2.90 | CG iter. 24 -- res = 0.15521E-01, tol = 0.25422E+01, time = 2.75 | CG iter. 25 -- res = 0.75746E-02, tol = 0.25422E+01, time = 2.95 | CG iter. 26 -- res = 0.38003E-02, tol = 0.25422E+01, time = 2.83 | CG iter. 27 -- res = 0.19446E-02, tol = 0.25422E+01, time = 2.97 | CG iter. 28 -- res = 0.10202E-02, tol = 0.25422E+01, time = 2.51 | CG iter. 29 -- res = 0.45925E-03, tol = 0.25422E+01, time = 2.80 | CG iter. 30 -- res = 0.20662E-03, tol = 0.25422E+01, time = 2.71 | CG iter. 31 -- res = 0.97676E-04, tol = 0.25422E+01, time = 2.58 | CG iter. 32 -- res = 0.47906E-04, tol = 0.25422E+01, time = 2.76 | CG iter. 33 -- res = 0.24644E-04, tol = 0.25422E+01, time = 2.85 | CG iter. 34 -- res = 0.12030E-04, tol = 0.25422E+01, time = 2.62 | CG iter. 35 -- res = 0.59140E-05, tol = 0.25422E+01, time = 3.04 | CG iter. 36 -- res = 0.26732E-05, tol = 0.25422E+01, time = 2.58 | CG iter. 37 -- res = 0.12107E-05, tol = 0.25422E+01, time = 2.95 | CG iter. 38 -- res = 0.58504E-06, tol = 0.25422E+01, time = 2.82 | CG iter. 39 -- res = 0.28775E-06, tol = 0.25422E+01, time = 2.91 | CG iter. 40 -- res = 0.13784E-06, tol = 0.25422E+01, time = 2.91 | CG iter. 41 -- res = 0.65772E-07, tol = 0.25422E+01, time = 2.63 | CG iter. 42 -- res = 0.30991E-07, tol = 0.25422E+01, time = 3.12 | CG iter. 43 -- res = 0.14533E-07, tol = 0.25422E+01, time = 2.77 | CG iter. 44 -- res = 0.68545E-08, tol = 0.25422E+01, time = 2.61 | CG iter. 45 -- res = 0.34062E-08, tol = 0.25422E+01, time = 2.84 | CG iter. 46 -- res = 0.16865E-08, tol = 0.25422E+01, time = 2.50 | CG iter. 47 -- res = 0.81645E-09, tol = 0.25422E+01, time = 2.83 | CG iter. 48 -- res = 0.39379E-09, tol = 0.25422E+01, time = 2.65 | CG iter. 49 -- res = 0.18223E-09, tol = 0.25422E+01, time = 2.71 | CG iter. 50 -- res = 0.83141E-10, tol = 0.25422E+01, time = 2.83 | Final CG iter 51 -- res = 0.83141E-10, tol = 0.25422E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.868 4.769 | New value 0.084 | Old value 1.868 | Difference -1.784 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.33970E+04, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.16787E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.98832E-01, tol = 0.47627E+18, time = 2.18 | CG iter. 4 -- res = 0.15924E-03, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.17108E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10825109.194 | (Sampled value in CG: 10817776.204 ) | CPU time specind = 1234.343 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.68182E+08, tol = 0.57570E+04, time = 11.82 | CG iter. 2 -- res = 0.58969E+08, tol = 0.57570E+04, time = 12.25 | CG iter. 3 -- res = 0.15578E+08, tol = 0.57570E+04, time = 13.60 | CG iter. 4 -- res = 0.65029E+07, tol = 0.57570E+04, time = 12.14 | CG iter. 5 -- res = 0.38092E+07, tol = 0.57570E+04, time = 12.15 | CG iter. 6 -- res = 0.22081E+07, tol = 0.57570E+04, time = 12.60 | CG iter. 7 -- res = 0.13020E+07, tol = 0.57570E+04, time = 11.85 | CG iter. 8 -- res = 0.84373E+06, tol = 0.57570E+04, time = 12.16 | CG iter. 9 -- res = 0.54242E+06, tol = 0.57570E+04, time = 12.26 | CG iter. 10 -- res = 0.33380E+06, tol = 0.57570E+04, time = 12.79 | CG iter. 11 -- res = 0.18762E+06, tol = 0.57570E+04, time = 12.47 | CG iter. 12 -- res = 0.99879E+05, tol = 0.57570E+04, time = 13.04 | CG iter. 13 -- res = 0.55321E+05, tol = 0.57570E+04, time = 12.27 | CG iter. 14 -- res = 0.32902E+05, tol = 0.57570E+04, time = 12.35 | CG iter. 15 -- res = 0.22151E+05, tol = 0.57570E+04, time = 12.48 | CG iter. 16 -- res = 0.16680E+05, tol = 0.57570E+04, time = 12.55 | CG iter. 17 -- res = 0.13558E+05, tol = 0.57570E+04, time = 11.96 | CG iter. 18 -- res = 0.10871E+05, tol = 0.57570E+04, time = 12.83 | CG iter. 19 -- res = 0.86446E+04, tol = 0.57570E+04, time = 12.24 | CG iter. 20 -- res = 0.72787E+04, tol = 0.57570E+04, time = 22.28 | CG iter. 21 -- res = 0.66988E+04, tol = 0.57570E+04, time = 12.10 | CG iter. 22 -- res = 0.68582E+04, tol = 0.57570E+04, time = 12.15 | CG iter. 23 -- res = 0.75975E+04, tol = 0.57570E+04, time = 12.52 | CG iter. 24 -- res = 0.85328E+04, tol = 0.57570E+04, time = 12.18 | CG iter. 25 -- res = 0.86337E+04, tol = 0.57570E+04, time = 12.17 | CG iter. 26 -- res = 0.79589E+04, tol = 0.57570E+04, time = 14.08 | CG iter. 27 -- res = 0.66702E+04, tol = 0.57570E+04, time = 13.46 | CG iter. 28 -- res = 0.52027E+04, tol = 0.57570E+04, time = 12.32 | CG iter. 29 -- res = 0.41848E+04, tol = 0.57570E+04, time = 12.45 | CG iter. 30 -- res = 0.35567E+04, tol = 0.57570E+04, time = 12.16 | CG iter. 31 -- res = 0.30738E+04, tol = 0.57570E+04, time = 12.22 | CG iter. 32 -- res = 0.26121E+04, tol = 0.57570E+04, time = 12.01 | CG iter. 33 -- res = 0.20960E+04, tol = 0.57570E+04, time = 12.21 | CG iter. 34 -- res = 0.16415E+04, tol = 0.57570E+04, time = 12.27 | CG iter. 35 -- res = 0.13470E+04, tol = 0.57570E+04, time = 12.10 | CG iter. 36 -- res = 0.11771E+04, tol = 0.57570E+04, time = 12.58 | CG iter. 37 -- res = 0.11283E+04, tol = 0.57570E+04, time = 12.88 | CG iter. 38 -- res = 0.11275E+04, tol = 0.57570E+04, time = 11.92 | CG iter. 39 -- res = 0.10969E+04, tol = 0.57570E+04, time = 12.05 | CG iter. 40 -- res = 0.98697E+03, tol = 0.57570E+04, time = 12.95 | CG iter. 41 -- res = 0.85119E+03, tol = 0.57570E+04, time = 12.31 | CG iter. 42 -- res = 0.70808E+03, tol = 0.57570E+04, time = 12.60 | CG iter. 43 -- res = 0.59330E+03, tol = 0.57570E+04, time = 18.62 | CG iter. 44 -- res = 0.51388E+03, tol = 0.57570E+04, time = 12.23 | CG iter. 45 -- res = 0.45323E+03, tol = 0.57570E+04, time = 12.09 | CG iter. 46 -- res = 0.41078E+03, tol = 0.57570E+04, time = 12.47 | CG iter. 47 -- res = 0.35584E+03, tol = 0.57570E+04, time = 12.32 | CG iter. 48 -- res = 0.30125E+03, tol = 0.57570E+04, time = 11.70 | CG iter. 49 -- res = 0.25630E+03, tol = 0.57570E+04, time = 12.11 | CG iter. 50 -- res = 0.22865E+03, tol = 0.57570E+04, time = 13.90 | CG iter. 51 -- res = 0.20882E+03, tol = 0.57570E+04, time = 12.48 | CG iter. 52 -- res = 0.19775E+03, tol = 0.57570E+04, time = 12.00 | CG iter. 53 -- res = 0.19589E+03, tol = 0.57570E+04, time = 12.42 | CG iter. 54 -- res = 0.18710E+03, tol = 0.57570E+04, time = 12.46 | CG iter. 55 -- res = 0.17054E+03, tol = 0.57570E+04, time = 12.45 | CG iter. 56 -- res = 0.15146E+03, tol = 0.57570E+04, time = 12.31 | CG iter. 57 -- res = 0.13434E+03, tol = 0.57570E+04, time = 12.13 | CG iter. 58 -- res = 0.12401E+03, tol = 0.57570E+04, time = 12.44 | CG iter. 59 -- res = 0.11763E+03, tol = 0.57570E+04, time = 12.85 | CG iter. 60 -- res = 0.11233E+03, tol = 0.57570E+04, time = 12.11 | Final CG iter 61 -- res = 0.11233E+03, tol = 0.57570E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.871 ( -229.691 -2229.824 2512.278 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8848063.604 | Old band monopole 10825155.755 | Change to band monopole -1977092.151 | Change to component monopole 1977083.647 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.812 2.748 | New value -0.752 | Old value -1.812 | Difference 1.060 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.273 ( 6.327 9.594 -9.077 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.409 6.496 | New value 3.334 | Old value 0.409 | Difference 2.925 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.30380E+06, tol = 0.47627E+18, time = 2.21 | CG iter. 2 -- res = 0.66582E+02, tol = 0.47627E+18, time = 2.28 | CG iter. 3 -- res = 0.23823E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.32260E-02, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.67128E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8848025.547 | (Sampled value in CG: 8825581.169 ) | Chain = 1 -- chisq = 0.81564803E+09 | Chain = 1 -- wall time = 5772.706 sec Available RAM: MemAvailable: 377764996 kB Available Swap: SwapFree: 1110084356 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 374 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446197 | --> Sampling calibration, mode = relcal | relcal = 1.3432181E-02 7.4732298E-04 -1.5963216E-03 -1.2583183E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1708455 0.1850403 9405861.04421086 | BP delta = 0.1708455 0.1983492 9405879.77783215 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632391 | --> Sampling calibration, mode = relcal | relcal = -2.8203838E-03 -7.0379925E-04 1.6791944E-03 1.6129439E-03 -4.0677688E-04 6.3882163E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5714967 15213554.1073401 | BP delta = 0.0000000E+00 -0.5669412 15213553.8723519 | BP chisq diff = -0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17904162859167 | --> Sampling calibration, mode = relcal | relcal = -7.3863588E-02 -5.7593044E-02 9.0635099E-02 4.0821537E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -9.8152035E-05 2.8391150E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5826E-04 | 2: delta_r/delta_0: 1.6135E-05 | 3: delta_s/delta_0: 4.6377E-07 | 4: delta_r/delta_0: 8.4395E-08 | 5: delta_s/delta_0: 1.9367E-06 | 6: delta_r/delta_0: 1.8041E-07 | 7: delta_s/delta_0: 1.9926E-09 | 8: delta_r/delta_0: 1.2481E-09 | 9: delta_s/delta_0: 3.7625E-08 | 10: delta_r/delta_0: 4.2765E-09 | 11: delta_s/delta_0: 1.1249E-10 | 12: delta_r/delta_0: 4.7026E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 5.850743229725277E-003 2.745791777492576E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.5828E-04 | 2: delta_r/delta_0: 1.6136E-05 | 3: delta_s/delta_0: 4.6363E-07 | 4: delta_r/delta_0: 8.4365E-08 | 5: delta_s/delta_0: 1.9390E-06 | 6: delta_r/delta_0: 1.8063E-07 | 7: delta_s/delta_0: 1.9919E-09 | 8: delta_r/delta_0: 1.2476E-09 | 9: delta_s/delta_0: 3.7282E-08 | 10: delta_r/delta_0: 4.2514E-09 | 11: delta_s/delta_0: 1.1245E-10 | 12: delta_r/delta_0: 4.7104E-11 | Reached bicg-stab tolerance | BP delta = 9.2358075E-02 0.1151245 3587922.54496497 | BP delta = 9.2358075E-02 0.1153898 3586956.72956979 | BP chisq diff = -965.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595740 | --> Sampling calibration, mode = relcal | relcal = -0.1066520 -9.5564097E-02 0.1449255 5.7290576E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0035719E-03 1.3579887E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3985E-05 | 2: delta_r/delta_0: 1.2555E-06 | 3: delta_s/delta_0: 2.4803E-07 | 4: delta_r/delta_0: 4.7710E-08 | 5: delta_s/delta_0: 1.9971E-08 | 6: delta_r/delta_0: 6.8579E-09 | 7: delta_s/delta_0: 8.3294E-09 | 8: delta_r/delta_0: 1.2928E-09 | 9: delta_s/delta_0: 1.1737E-09 | 10: delta_r/delta_0: 5.7673E-10 | 11: delta_s/delta_0: 2.3442E-09 | 12: delta_r/delta_0: 3.7815E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.876222241184019E-003 2.810945753762004E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3985E-05 | 2: delta_r/delta_0: 1.2554E-06 | 3: delta_s/delta_0: 2.4801E-07 | 4: delta_r/delta_0: 4.7680E-08 | 5: delta_s/delta_0: 1.9983E-08 | 6: delta_r/delta_0: 6.8562E-09 | 7: delta_s/delta_0: 8.3305E-09 | 8: delta_r/delta_0: 1.2925E-09 | 9: delta_s/delta_0: 1.1736E-09 | 10: delta_r/delta_0: 5.7676E-10 | 11: delta_s/delta_0: 2.3431E-09 | 12: delta_r/delta_0: 3.7828E-11 | Reached bicg-stab tolerance | BP delta = -0.2353242 -0.2033114 2841558.96550693 | BP delta = -0.2353242 -0.2004674 2841551.33934749 | BP chisq diff = -7.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81218462 | --> Sampling calibration, mode = relcal | relcal = 0.2955120 0.2248306 -0.2837427 -0.2365999 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0525733E-03 5.2397987E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.8861E-03 | 2: delta_r/delta_0: 1.8688E-04 | 3: delta_s/delta_0: 4.4839E-04 | 4: delta_r/delta_0: 2.1581E-05 | 5: delta_s/delta_0: 1.0593E-06 | 6: delta_r/delta_0: 3.3964E-07 | 7: delta_s/delta_0: 8.2445E-07 | 8: delta_r/delta_0: 7.2563E-08 | 9: delta_s/delta_0: 5.2759E-06 | 10: delta_r/delta_0: 1.5591E-06 | 11: delta_s/delta_0: 3.7805E-09 | 12: delta_r/delta_0: 1.4179E-09 | 13: delta_s/delta_0: 5.6365E-08 | 14: delta_r/delta_0: 3.9830E-09 | 15: delta_s/delta_0: 1.0819E-10 | 16: delta_r/delta_0: 4.2887E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.429870710451673E-002 4.022054286946480E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.8890E-03 | 2: delta_r/delta_0: 1.8695E-04 | 3: delta_s/delta_0: 4.4852E-04 | 4: delta_r/delta_0: 2.1587E-05 | 5: delta_s/delta_0: 1.0595E-06 | 6: delta_r/delta_0: 3.3967E-07 | 7: delta_s/delta_0: 8.2410E-07 | 8: delta_r/delta_0: 7.2572E-08 | 9: delta_s/delta_0: 5.2704E-06 | 10: delta_r/delta_0: 1.5571E-06 | 11: delta_s/delta_0: 3.7808E-09 | 12: delta_r/delta_0: 1.4180E-09 | 13: delta_s/delta_0: 5.6343E-08 | 14: delta_r/delta_0: 3.9807E-09 | 15: delta_s/delta_0: 1.0820E-10 | 16: delta_r/delta_0: 4.2900E-11 | Reached bicg-stab tolerance | BP delta = -0.1013675 -0.1533685 2827201.64289166 | BP delta = -0.1013675 -0.1471608 2827198.53283533 | BP chisq diff = -3.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95891444 | --> Sampling calibration, mode = relcal | relcal = 0.1065058 0.1395517 -0.1102504 -0.1358072 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0163052E-03 1.2979495E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2175E-02 | 2: delta_r/delta_0: 2.8747E-04 | 3: delta_s/delta_0: 6.2514E-03 | 4: delta_r/delta_0: 1.8568E-04 | 5: delta_s/delta_0: 5.2630E-06 | 6: delta_r/delta_0: 3.7531E-07 | 7: delta_s/delta_0: 1.1935E-07 | 8: delta_r/delta_0: 3.2515E-08 | 9: delta_s/delta_0: 6.3318E-07 | 10: delta_r/delta_0: 2.7976E-08 | 11: delta_s/delta_0: 2.5500E-08 | 12: delta_r/delta_0: 2.6294E-09 | 13: delta_s/delta_0: 1.6008E-05 | 14: delta_r/delta_0: 2.2785E-06 | 15: delta_s/delta_0: 4.8206E-10 | 16: delta_r/delta_0: 9.9526E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 3.777548570643819E-002 3.698114198577525E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2183E-02 | 2: delta_r/delta_0: 2.8768E-04 | 3: delta_s/delta_0: 6.2705E-03 | 4: delta_r/delta_0: 1.8629E-04 | 5: delta_s/delta_0: 5.2620E-06 | 6: delta_r/delta_0: 3.7520E-07 | 7: delta_s/delta_0: 1.1947E-07 | 8: delta_r/delta_0: 3.2679E-08 | 9: delta_s/delta_0: 6.4337E-07 | 10: delta_r/delta_0: 2.8103E-08 | 11: delta_s/delta_0: 2.5556E-08 | 12: delta_r/delta_0: 2.6329E-09 | 13: delta_s/delta_0: 1.5743E-05 | 14: delta_r/delta_0: 2.2417E-06 | 15: delta_s/delta_0: 4.8195E-10 | 16: delta_r/delta_0: 9.9435E-11 | Reached bicg-stab tolerance | BP delta = 0.2568599 0.3629212 3004235.88549993 | BP delta = 0.2568599 0.3680027 3004234.93810162 | BP chisq diff = -0.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126905 | New value = -3.204178 | poltype: 2 pol: 1 CPU time specind = 1.7731905E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142413 | New value = -3.102654 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.037112 | New value = -3.091601 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177343 | New value = -3.208224 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189543 | New value = -3.237178 | poltype: 2 pol: 2 CPU time specind = 8.3642006E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.13575E+08, tol = 0.79486E+01, time = 5.72 | CG iter. 2 -- res = 0.32753E+06, tol = 0.79486E+01, time = 6.01 | CG iter. 3 -- res = 0.65066E+05, tol = 0.79486E+01, time = 5.99 | CG iter. 4 -- res = 0.57270E+05, tol = 0.79486E+01, time = 5.67 | CG iter. 5 -- res = 0.59267E+05, tol = 0.79486E+01, time = 12.06 | CG iter. 6 -- res = 0.60871E+05, tol = 0.79486E+01, time = 5.64 | CG iter. 7 -- res = 0.58438E+05, tol = 0.79486E+01, time = 5.84 | CG iter. 8 -- res = 0.48090E+05, tol = 0.79486E+01, time = 5.87 | CG iter. 9 -- res = 0.39475E+05, tol = 0.79486E+01, time = 5.81 | CG iter. 10 -- res = 0.31749E+05, tol = 0.79486E+01, time = 5.86 | CG iter. 11 -- res = 0.21396E+05, tol = 0.79486E+01, time = 6.16 | CG iter. 12 -- res = 0.15913E+05, tol = 0.79486E+01, time = 5.64 | CG iter. 13 -- res = 0.13944E+05, tol = 0.79486E+01, time = 5.79 | CG iter. 14 -- res = 0.13130E+05, tol = 0.79486E+01, time = 5.80 | CG iter. 15 -- res = 0.10510E+05, tol = 0.79486E+01, time = 5.75 | CG iter. 16 -- res = 0.76638E+04, tol = 0.79486E+01, time = 5.80 | CG iter. 17 -- res = 0.58055E+04, tol = 0.79486E+01, time = 5.77 | CG iter. 18 -- res = 0.49458E+04, tol = 0.79486E+01, time = 5.59 | CG iter. 19 -- res = 0.42410E+04, tol = 0.79486E+01, time = 5.66 | CG iter. 20 -- res = 0.34586E+04, tol = 0.79486E+01, time = 7.36 | CG iter. 21 -- res = 0.27693E+04, tol = 0.79486E+01, time = 6.35 | CG iter. 22 -- res = 0.24504E+04, tol = 0.79486E+01, time = 5.91 | CG iter. 23 -- res = 0.22023E+04, tol = 0.79486E+01, time = 5.81 | CG iter. 24 -- res = 0.17702E+04, tol = 0.79486E+01, time = 5.56 | CG iter. 25 -- res = 0.13778E+04, tol = 0.79486E+01, time = 5.67 | CG iter. 26 -- res = 0.12028E+04, tol = 0.79486E+01, time = 6.11 | CG iter. 27 -- res = 0.11353E+04, tol = 0.79486E+01, time = 5.88 | CG iter. 28 -- res = 0.10286E+04, tol = 0.79486E+01, time = 5.96 | CG iter. 29 -- res = 0.81782E+03, tol = 0.79486E+01, time = 5.75 | CG iter. 30 -- res = 0.70179E+03, tol = 0.79486E+01, time = 5.83 | CG iter. 31 -- res = 0.62885E+03, tol = 0.79486E+01, time = 5.87 | CG iter. 32 -- res = 0.56085E+03, tol = 0.79486E+01, time = 5.42 | CG iter. 33 -- res = 0.45718E+03, tol = 0.79486E+01, time = 5.70 | CG iter. 34 -- res = 0.36677E+03, tol = 0.79486E+01, time = 6.01 | CG iter. 35 -- res = 0.33663E+03, tol = 0.79486E+01, time = 5.63 | CG iter. 36 -- res = 0.29079E+03, tol = 0.79486E+01, time = 5.65 | CG iter. 37 -- res = 0.23878E+03, tol = 0.79486E+01, time = 6.00 | CG iter. 38 -- res = 0.19602E+03, tol = 0.79486E+01, time = 5.73 | CG iter. 39 -- res = 0.16447E+03, tol = 0.79486E+01, time = 5.63 | CG iter. 40 -- res = 0.14371E+03, tol = 0.79486E+01, time = 5.98 | CG iter. 41 -- res = 0.11537E+03, tol = 0.79486E+01, time = 5.68 | CG iter. 42 -- res = 0.86385E+02, tol = 0.79486E+01, time = 5.78 | CG iter. 43 -- res = 0.74433E+02, tol = 0.79486E+01, time = 6.15 | CG iter. 44 -- res = 0.63742E+02, tol = 0.79486E+01, time = 5.87 | CG iter. 45 -- res = 0.51505E+02, tol = 0.79486E+01, time = 6.02 | CG iter. 46 -- res = 0.39102E+02, tol = 0.79486E+01, time = 5.96 | CG iter. 47 -- res = 0.31170E+02, tol = 0.79486E+01, time = 6.04 | CG iter. 48 -- res = 0.26679E+02, tol = 0.79486E+01, time = 6.13 | CG iter. 49 -- res = 0.21937E+02, tol = 0.79486E+01, time = 5.63 | CG iter. 50 -- res = 0.17047E+02, tol = 0.79486E+01, time = 5.88 | Final CG iter 51 -- res = 0.17047E+02, tol = 0.79486E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8767654.172 | Old band monopole 8848063.604 | Change to band monopole -80409.432 | Change to component monopole 80409.086 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.29600E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.15485E+03, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.38843E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.19962E-01, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.18909E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8767616.461 | (Sampled value in CG: 8710859.152 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.511198 | New value = 1.496938 | poltype: 2 pol: 1 CPU time specind = 2.4323940E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519199 | New value = 1.477766 | poltype: 2 pol: 2 CPU time specind = 1.0752916E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.24053E+08, tol = 0.47549E+04, time = 7.31 | CG iter. 2 -- res = 0.51165E+07, tol = 0.47549E+04, time = 7.22 | CG iter. 3 -- res = 0.81979E+06, tol = 0.47549E+04, time = 6.86 | CG iter. 4 -- res = 0.33596E+06, tol = 0.47549E+04, time = 6.54 | CG iter. 5 -- res = 0.14228E+06, tol = 0.47549E+04, time = 6.82 | CG iter. 6 -- res = 0.76375E+05, tol = 0.47549E+04, time = 6.76 | CG iter. 7 -- res = 0.42200E+05, tol = 0.47549E+04, time = 6.92 | CG iter. 8 -- res = 0.20309E+05, tol = 0.47549E+04, time = 6.68 | CG iter. 9 -- res = 0.87584E+04, tol = 0.47549E+04, time = 6.93 | CG iter. 10 -- res = 0.35101E+04, tol = 0.47549E+04, time = 6.77 | CG iter. 11 -- res = 0.16208E+04, tol = 0.47549E+04, time = 6.78 | CG iter. 12 -- res = 0.85366E+03, tol = 0.47549E+04, time = 6.42 | CG iter. 13 -- res = 0.48424E+03, tol = 0.47549E+04, time = 7.00 | CG iter. 14 -- res = 0.26893E+03, tol = 0.47549E+04, time = 6.55 | CG iter. 15 -- res = 0.13876E+03, tol = 0.47549E+04, time = 6.97 | CG iter. 16 -- res = 0.65620E+02, tol = 0.47549E+04, time = 7.54 | CG iter. 17 -- res = 0.31184E+02, tol = 0.47549E+04, time = 6.55 | CG iter. 18 -- res = 0.15615E+02, tol = 0.47549E+04, time = 6.93 | CG iter. 19 -- res = 0.85802E+01, tol = 0.47549E+04, time = 6.46 | CG iter. 20 -- res = 0.49741E+01, tol = 0.47549E+04, time = 6.67 | CG iter. 21 -- res = 0.27572E+01, tol = 0.47549E+04, time = 6.64 | CG iter. 22 -- res = 0.14112E+01, tol = 0.47549E+04, time = 6.36 | CG iter. 23 -- res = 0.69691E+00, tol = 0.47549E+04, time = 7.17 | CG iter. 24 -- res = 0.35407E+00, tol = 0.47549E+04, time = 6.71 | CG iter. 25 -- res = 0.19609E+00, tol = 0.47549E+04, time = 6.85 | CG iter. 26 -- res = 0.11488E+00, tol = 0.47549E+04, time = 6.58 | CG iter. 27 -- res = 0.64960E-01, tol = 0.47549E+04, time = 6.50 | CG iter. 28 -- res = 0.34501E-01, tol = 0.47549E+04, time = 6.90 | CG iter. 29 -- res = 0.18087E-01, tol = 0.47549E+04, time = 6.64 | CG iter. 30 -- res = 0.95376E-02, tol = 0.47549E+04, time = 6.72 | CG iter. 31 -- res = 0.52724E-02, tol = 0.47549E+04, time = 12.82 | CG iter. 32 -- res = 0.30419E-02, tol = 0.47549E+04, time = 6.74 | CG iter. 33 -- res = 0.16690E-02, tol = 0.47549E+04, time = 7.04 | CG iter. 34 -- res = 0.89145E-03, tol = 0.47549E+04, time = 6.94 | CG iter. 35 -- res = 0.45260E-03, tol = 0.47549E+04, time = 6.62 | Final CG iter 36 -- res = 0.45260E-03, tol = 0.47549E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.787 2.748 | New value 5.724 | Old value -0.787 | Difference 6.511 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.21920E+07, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.49267E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.11420E+01, tol = 0.47627E+18, time = 2.39 | CG iter. 4 -- res = 0.10750E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.22387E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8767616.461 | (Sampled value in CG: 8710394.333 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.541316 | New value = -3.531227 | poltype: 1 pol: 1 CPU time specind = 1.5655994E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.31229E+07, tol = 0.28038E+01, time = 3.06 | CG iter. 2 -- res = 0.13367E+07, tol = 0.28038E+01, time = 2.73 | CG iter. 3 -- res = 0.28507E+06, tol = 0.28038E+01, time = 2.84 | CG iter. 4 -- res = 0.13003E+06, tol = 0.28038E+01, time = 2.70 | CG iter. 5 -- res = 0.80052E+05, tol = 0.28038E+01, time = 2.54 | CG iter. 6 -- res = 0.37852E+05, tol = 0.28038E+01, time = 2.86 | CG iter. 7 -- res = 0.12871E+05, tol = 0.28038E+01, time = 2.44 | CG iter. 8 -- res = 0.53841E+04, tol = 0.28038E+01, time = 3.07 | CG iter. 9 -- res = 0.24376E+04, tol = 0.28038E+01, time = 2.52 | CG iter. 10 -- res = 0.98416E+03, tol = 0.28038E+01, time = 2.85 | CG iter. 11 -- res = 0.39093E+03, tol = 0.28038E+01, time = 2.77 | CG iter. 12 -- res = 0.19347E+03, tol = 0.28038E+01, time = 2.80 | CG iter. 13 -- res = 0.97720E+02, tol = 0.28038E+01, time = 2.75 | CG iter. 14 -- res = 0.50465E+02, tol = 0.28038E+01, time = 2.49 | CG iter. 15 -- res = 0.23879E+02, tol = 0.28038E+01, time = 2.82 | CG iter. 16 -- res = 0.10206E+02, tol = 0.28038E+01, time = 2.71 | CG iter. 17 -- res = 0.41672E+01, tol = 0.28038E+01, time = 2.74 | CG iter. 18 -- res = 0.19131E+01, tol = 0.28038E+01, time = 2.90 | CG iter. 19 -- res = 0.96557E+00, tol = 0.28038E+01, time = 4.19 | CG iter. 20 -- res = 0.48787E+00, tol = 0.28038E+01, time = 3.11 | CG iter. 21 -- res = 0.23898E+00, tol = 0.28038E+01, time = 2.82 | CG iter. 22 -- res = 0.10470E+00, tol = 0.28038E+01, time = 3.57 | CG iter. 23 -- res = 0.46173E-01, tol = 0.28038E+01, time = 2.66 | CG iter. 24 -- res = 0.20928E-01, tol = 0.28038E+01, time = 2.94 | CG iter. 25 -- res = 0.10262E-01, tol = 0.28038E+01, time = 2.69 | CG iter. 26 -- res = 0.50720E-02, tol = 0.28038E+01, time = 2.68 | CG iter. 27 -- res = 0.25535E-02, tol = 0.28038E+01, time = 3.10 | CG iter. 28 -- res = 0.12460E-02, tol = 0.28038E+01, time = 2.81 | CG iter. 29 -- res = 0.56375E-03, tol = 0.28038E+01, time = 3.08 | CG iter. 30 -- res = 0.25860E-03, tol = 0.28038E+01, time = 2.72 | CG iter. 31 -- res = 0.12085E-03, tol = 0.28038E+01, time = 2.61 | CG iter. 32 -- res = 0.58648E-04, tol = 0.28038E+01, time = 2.71 | CG iter. 33 -- res = 0.30096E-04, tol = 0.28038E+01, time = 2.76 | CG iter. 34 -- res = 0.14721E-04, tol = 0.28038E+01, time = 2.60 | CG iter. 35 -- res = 0.71317E-05, tol = 0.28038E+01, time = 2.85 | CG iter. 36 -- res = 0.33695E-05, tol = 0.28038E+01, time = 2.59 | CG iter. 37 -- res = 0.14897E-05, tol = 0.28038E+01, time = 2.74 | CG iter. 38 -- res = 0.72699E-06, tol = 0.28038E+01, time = 2.66 | CG iter. 39 -- res = 0.35837E-06, tol = 0.28038E+01, time = 2.94 | CG iter. 40 -- res = 0.17993E-06, tol = 0.28038E+01, time = 2.54 | CG iter. 41 -- res = 0.88019E-07, tol = 0.28038E+01, time = 2.82 | CG iter. 42 -- res = 0.42003E-07, tol = 0.28038E+01, time = 2.61 | CG iter. 43 -- res = 0.18438E-07, tol = 0.28038E+01, time = 3.04 | CG iter. 44 -- res = 0.87964E-08, tol = 0.28038E+01, time = 3.10 | CG iter. 45 -- res = 0.44549E-08, tol = 0.28038E+01, time = 2.99 | CG iter. 46 -- res = 0.21621E-08, tol = 0.28038E+01, time = 2.94 | CG iter. 47 -- res = 0.10963E-08, tol = 0.28038E+01, time = 2.65 | CG iter. 48 -- res = 0.51931E-09, tol = 0.28038E+01, time = 3.15 | CG iter. 49 -- res = 0.23477E-09, tol = 0.28038E+01, time = 2.32 | CG iter. 50 -- res = 0.10472E-09, tol = 0.28038E+01, time = 2.97 | Final CG iter 51 -- res = 0.10472E-09, tol = 0.28038E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.229 7.332 | New value 14.173 | Old value -1.229 | Difference 15.402 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.23532E+06, tol = 0.47627E+18, time = 2.23 | CG iter. 2 -- res = 0.11903E+03, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.34372E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.12614E-01, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.52671E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8767616.461 | (Sampled value in CG: 8723082.860 ) | CPU time specind = 1214.178 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.68308E+08, tol = 0.57658E+04, time = 12.08 | CG iter. 2 -- res = 0.57978E+08, tol = 0.57658E+04, time = 12.42 | CG iter. 3 -- res = 0.14939E+08, tol = 0.57658E+04, time = 18.48 | CG iter. 4 -- res = 0.63349E+07, tol = 0.57658E+04, time = 12.01 | CG iter. 5 -- res = 0.37025E+07, tol = 0.57658E+04, time = 11.81 | CG iter. 6 -- res = 0.21299E+07, tol = 0.57658E+04, time = 12.30 | CG iter. 7 -- res = 0.12615E+07, tol = 0.57658E+04, time = 12.06 | CG iter. 8 -- res = 0.84701E+06, tol = 0.57658E+04, time = 12.20 | CG iter. 9 -- res = 0.55498E+06, tol = 0.57658E+04, time = 12.30 | CG iter. 10 -- res = 0.33333E+06, tol = 0.57658E+04, time = 14.09 | CG iter. 11 -- res = 0.18297E+06, tol = 0.57658E+04, time = 12.81 | CG iter. 12 -- res = 0.10343E+06, tol = 0.57658E+04, time = 12.42 | CG iter. 13 -- res = 0.64611E+05, tol = 0.57658E+04, time = 12.71 | CG iter. 14 -- res = 0.44443E+05, tol = 0.57658E+04, time = 12.00 | CG iter. 15 -- res = 0.35649E+05, tol = 0.57658E+04, time = 12.02 | CG iter. 16 -- res = 0.31876E+05, tol = 0.57658E+04, time = 11.98 | CG iter. 17 -- res = 0.29613E+05, tol = 0.57658E+04, time = 12.48 | CG iter. 18 -- res = 0.27296E+05, tol = 0.57658E+04, time = 11.89 | CG iter. 19 -- res = 0.25100E+05, tol = 0.57658E+04, time = 12.52 | CG iter. 20 -- res = 0.23356E+05, tol = 0.57658E+04, time = 12.58 | CG iter. 21 -- res = 0.22538E+05, tol = 0.57658E+04, time = 12.14 | CG iter. 22 -- res = 0.23396E+05, tol = 0.57658E+04, time = 12.08 | CG iter. 23 -- res = 0.24084E+05, tol = 0.57658E+04, time = 11.99 | CG iter. 24 -- res = 0.22712E+05, tol = 0.57658E+04, time = 12.29 | CG iter. 25 -- res = 0.19243E+05, tol = 0.57658E+04, time = 12.07 | CG iter. 26 -- res = 0.14622E+05, tol = 0.57658E+04, time = 12.21 | CG iter. 27 -- res = 0.10806E+05, tol = 0.57658E+04, time = 18.02 | CG iter. 28 -- res = 0.80970E+04, tol = 0.57658E+04, time = 12.42 | CG iter. 29 -- res = 0.64661E+04, tol = 0.57658E+04, time = 12.11 | CG iter. 30 -- res = 0.55620E+04, tol = 0.57658E+04, time = 12.42 | CG iter. 31 -- res = 0.49005E+04, tol = 0.57658E+04, time = 11.73 | CG iter. 32 -- res = 0.42845E+04, tol = 0.57658E+04, time = 12.31 | CG iter. 33 -- res = 0.37274E+04, tol = 0.57658E+04, time = 12.22 | CG iter. 34 -- res = 0.32458E+04, tol = 0.57658E+04, time = 13.75 | CG iter. 35 -- res = 0.29575E+04, tol = 0.57658E+04, time = 12.47 | CG iter. 36 -- res = 0.28051E+04, tol = 0.57658E+04, time = 12.10 | CG iter. 37 -- res = 0.27660E+04, tol = 0.57658E+04, time = 12.19 | CG iter. 38 -- res = 0.26139E+04, tol = 0.57658E+04, time = 12.09 | CG iter. 39 -- res = 0.22844E+04, tol = 0.57658E+04, time = 11.97 | CG iter. 40 -- res = 0.19003E+04, tol = 0.57658E+04, time = 11.84 | CG iter. 41 -- res = 0.15301E+04, tol = 0.57658E+04, time = 12.58 | CG iter. 42 -- res = 0.12274E+04, tol = 0.57658E+04, time = 12.18 | CG iter. 43 -- res = 0.10521E+04, tol = 0.57658E+04, time = 12.82 | CG iter. 44 -- res = 0.95949E+03, tol = 0.57658E+04, time = 14.22 | CG iter. 45 -- res = 0.88805E+03, tol = 0.57658E+04, time = 12.56 | CG iter. 46 -- res = 0.80909E+03, tol = 0.57658E+04, time = 12.25 | CG iter. 47 -- res = 0.73111E+03, tol = 0.57658E+04, time = 12.18 | CG iter. 48 -- res = 0.65053E+03, tol = 0.57658E+04, time = 12.35 | CG iter. 49 -- res = 0.57550E+03, tol = 0.57658E+04, time = 12.02 | CG iter. 50 -- res = 0.52779E+03, tol = 0.57658E+04, time = 11.75 | CG iter. 51 -- res = 0.50447E+03, tol = 0.57658E+04, time = 18.21 | CG iter. 52 -- res = 0.48729E+03, tol = 0.57658E+04, time = 12.03 | CG iter. 53 -- res = 0.45273E+03, tol = 0.57658E+04, time = 12.21 | CG iter. 54 -- res = 0.40164E+03, tol = 0.57658E+04, time = 11.95 | CG iter. 55 -- res = 0.35105E+03, tol = 0.57658E+04, time = 12.23 | CG iter. 56 -- res = 0.31032E+03, tol = 0.57658E+04, time = 12.38 | CG iter. 57 -- res = 0.27906E+03, tol = 0.57658E+04, time = 12.25 | CG iter. 58 -- res = 0.25344E+03, tol = 0.57658E+04, time = 13.33 | CG iter. 59 -- res = 0.24178E+03, tol = 0.57658E+04, time = 12.46 | CG iter. 60 -- res = 0.23008E+03, tol = 0.57658E+04, time = 12.63 | Final CG iter 61 -- res = 0.23008E+03, tol = 0.57658E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.807 ( -229.792 -2232.187 2514.988 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8651374.571 | Old band monopole 8767654.172 | Change to band monopole -116279.601 | Change to component monopole 116279.101 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.751 2.740 | New value -1.557 | Old value 5.751 | Difference -7.308 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.447 ( 7.443 14.425 -14.114 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 26.119 4.633 | New value 1.306 | Old value 26.119 | Difference -24.813 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.31287E+07, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.15548E+03, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.43575E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.95053E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.21974E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8651337.360 | (Sampled value in CG: 8627963.642 ) | Chain = 1 -- chisq = 0.81562586E+09 | Chain = 1 -- wall time = 6202.365 sec Available RAM: MemAvailable: 377484416 kB Available Swap: SwapFree: 1110746372 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 375 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444173 | --> Sampling calibration, mode = relcal | relcal = 1.3428634E-02 7.4666960E-04 -1.5960499E-03 -1.2579254E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1708455 0.1850403 97043795.3074751 | BP delta = 0.1710574 0.1852521 97043795.1758347 | BP chisq diff = -0.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632493 | --> Sampling calibration, mode = relcal | relcal = -2.8216555E-03 -7.0372235E-04 1.6788716E-03 1.6131974E-03 -4.0755526E-04 6.4086413E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5669412 15218091.1524015 | BP delta = 0.0000000E+00 -0.5651706 15218089.7444742 | BP chisq diff = -1.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18112307030233 | --> Sampling calibration, mode = relcal | relcal = -7.5317472E-02 -5.8616009E-02 9.2042170E-02 4.1891307E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.6029079E-04 4.7804746E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1939E-05 | 2: delta_r/delta_0: 9.8185E-07 | 3: delta_s/delta_0: 1.9729E-07 | 4: delta_r/delta_0: 2.3081E-08 | 5: delta_s/delta_0: 1.0450E-08 | 6: delta_r/delta_0: 1.5350E-09 | 7: delta_s/delta_0: 2.7269E-10 | 8: delta_r/delta_0: 1.0546E-10 | 9: delta_s/delta_0: 1.9109E-10 | 10: delta_r/delta_0: 5.4807E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.326025930079217E-003 2.740750466419730E-005 | BP delta = 9.2358075E-02 0.1153898 50493495.8802072 | BP delta = 9.3823284E-02 0.1168551 50493495.0952928 | BP chisq diff = -0.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02621800 | --> Sampling calibration, mode = relcal | relcal = -0.1067520 -9.5549144E-02 0.1449589 5.7342246E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3667937E-03 1.3213420E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6949E-05 | 2: delta_r/delta_0: 1.2877E-06 | 3: delta_s/delta_0: 2.4052E-07 | 4: delta_r/delta_0: 4.2988E-08 | 5: delta_s/delta_0: 2.0107E-08 | 6: delta_r/delta_0: 6.3183E-09 | 7: delta_s/delta_0: 6.5716E-09 | 8: delta_r/delta_0: 1.2875E-09 | 9: delta_s/delta_0: 1.0258E-08 | 10: delta_r/delta_0: 4.5271E-09 | 11: delta_s/delta_0: 1.9053E-10 | 12: delta_r/delta_0: 1.4600E-10 | 13: delta_s/delta_0: 6.7616E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.820444317090836E-003 2.810203246281950E-005 | BP delta = -0.2353242 -0.2004674 57395015.2063608 | BP delta = -0.2457269 -0.2108701 57395015.6179538 | BP chisq diff = 0.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81251518 | --> Sampling calibration, mode = relcal | relcal = 0.2955297 0.2249219 -0.2838117 -0.2366399 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8379116E-04 4.6107019E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.8548E-03 | 2: delta_r/delta_0: 2.3031E-04 | 3: delta_s/delta_0: 1.3239E-04 | 4: delta_r/delta_0: 1.0552E-05 | 5: delta_s/delta_0: 6.6622E-06 | 6: delta_r/delta_0: 9.8462E-07 | 7: delta_s/delta_0: 9.0627E-08 | 8: delta_r/delta_0: 3.7497E-09 | 9: delta_s/delta_0: 1.5728E-09 | 10: delta_r/delta_0: 4.6836E-10 | 11: delta_s/delta_0: 2.5541E-10 | 12: delta_r/delta_0: 1.8559E-10 | 13: delta_s/delta_0: 3.4536E-10 | 14: delta_r/delta_0: 1.9683E-10 | 15: delta_s/delta_0: 2.5619E-10 | 16: delta_r/delta_0: 1.7620E-10 | 17: delta_s/delta_0: 2.7924E-10 | 18: delta_r/delta_0: 1.9937E-10 | 19: delta_s/delta_0: 1.7427E-10 | 20: delta_r/delta_0: 1.3066E-10 | 21: delta_s/delta_0: 2.0035E-10 | 22: delta_r/delta_0: 5.7679E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.646232312059287E-003 4.020260853782575E-005 | BP delta = -0.1013675 -0.1471608 72485311.3196542 | BP delta = -9.4173975E-02 -0.1399674 72485311.5715549 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95935290 | --> Sampling calibration, mode = relcal | relcal = 0.1065280 0.1395961 -0.1104062 -0.1357179 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0000132E-02 1.4398029E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3723E-03 | 2: delta_r/delta_0: 3.1953E-05 | 3: delta_s/delta_0: 4.2913E-04 | 4: delta_r/delta_0: 1.6333E-05 | 5: delta_s/delta_0: 5.1062E-04 | 6: delta_r/delta_0: 6.5940E-05 | 7: delta_s/delta_0: 5.3166E-08 | 8: delta_r/delta_0: 3.3208E-08 | 9: delta_s/delta_0: 4.1858E-07 | 10: delta_r/delta_0: 2.9542E-09 | 11: delta_s/delta_0: 2.2162E-09 | 12: delta_r/delta_0: 9.1218E-10 | 13: delta_s/delta_0: 4.5449E-10 | 14: delta_r/delta_0: 8.5719E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.728188267637318E-002 3.696456505716305E-005 | BP delta = 0.2568599 0.3680027 72782143.6299736 | BP delta = 0.2104287 0.3215716 72782139.7341437 | BP chisq diff = -3.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.204178 | New value = -3.108926 | poltype: 2 pol: 1 CPU time specind = 1.6506910E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.102654 | New value = -3.153293 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091601 | New value = -3.227788 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.208224 | New value = -3.171164 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.237178 | New value = -3.194003 | poltype: 2 pol: 2 CPU time specind = 5.7399273E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.13706E+08, tol = 0.81233E+01, time = 5.71 | CG iter. 2 -- res = 0.37446E+06, tol = 0.81233E+01, time = 5.55 | CG iter. 3 -- res = 0.12005E+06, tol = 0.81233E+01, time = 5.99 | CG iter. 4 -- res = 0.17122E+06, tol = 0.81233E+01, time = 5.83 | CG iter. 5 -- res = 0.18019E+06, tol = 0.81233E+01, time = 5.93 | CG iter. 6 -- res = 0.16238E+06, tol = 0.81233E+01, time = 5.65 | CG iter. 7 -- res = 0.13106E+06, tol = 0.81233E+01, time = 7.17 | CG iter. 8 -- res = 0.90236E+05, tol = 0.81233E+01, time = 6.56 | CG iter. 9 -- res = 0.73109E+05, tol = 0.81233E+01, time = 5.80 | CG iter. 10 -- res = 0.58026E+05, tol = 0.81233E+01, time = 5.77 | CG iter. 11 -- res = 0.41420E+05, tol = 0.81233E+01, time = 5.96 | CG iter. 12 -- res = 0.30796E+05, tol = 0.81233E+01, time = 5.92 | CG iter. 13 -- res = 0.26320E+05, tol = 0.81233E+01, time = 6.10 | CG iter. 14 -- res = 0.22086E+05, tol = 0.81233E+01, time = 5.57 | CG iter. 15 -- res = 0.16447E+05, tol = 0.81233E+01, time = 5.74 | CG iter. 16 -- res = 0.11550E+05, tol = 0.81233E+01, time = 5.77 | CG iter. 17 -- res = 0.84508E+04, tol = 0.81233E+01, time = 5.80 | CG iter. 18 -- res = 0.72674E+04, tol = 0.81233E+01, time = 6.10 | CG iter. 19 -- res = 0.63767E+04, tol = 0.81233E+01, time = 6.05 | CG iter. 20 -- res = 0.48841E+04, tol = 0.81233E+01, time = 6.00 | CG iter. 21 -- res = 0.35666E+04, tol = 0.81233E+01, time = 5.76 | CG iter. 22 -- res = 0.30399E+04, tol = 0.81233E+01, time = 5.70 | CG iter. 23 -- res = 0.26041E+04, tol = 0.81233E+01, time = 5.49 | CG iter. 24 -- res = 0.20223E+04, tol = 0.81233E+01, time = 5.61 | CG iter. 25 -- res = 0.15175E+04, tol = 0.81233E+01, time = 6.52 | CG iter. 26 -- res = 0.12748E+04, tol = 0.81233E+01, time = 5.94 | CG iter. 27 -- res = 0.11441E+04, tol = 0.81233E+01, time = 5.80 | CG iter. 28 -- res = 0.93933E+03, tol = 0.81233E+01, time = 5.76 | CG iter. 29 -- res = 0.70507E+03, tol = 0.81233E+01, time = 5.81 | CG iter. 30 -- res = 0.56079E+03, tol = 0.81233E+01, time = 5.91 | CG iter. 31 -- res = 0.49009E+03, tol = 0.81233E+01, time = 5.96 | CG iter. 32 -- res = 0.39809E+03, tol = 0.81233E+01, time = 5.43 | CG iter. 33 -- res = 0.29606E+03, tol = 0.81233E+01, time = 5.83 | CG iter. 34 -- res = 0.22362E+03, tol = 0.81233E+01, time = 5.95 | CG iter. 35 -- res = 0.18672E+03, tol = 0.81233E+01, time = 5.49 | CG iter. 36 -- res = 0.15317E+03, tol = 0.81233E+01, time = 5.97 | CG iter. 37 -- res = 0.11547E+03, tol = 0.81233E+01, time = 5.48 | CG iter. 38 -- res = 0.86128E+02, tol = 0.81233E+01, time = 5.81 | CG iter. 39 -- res = 0.65473E+02, tol = 0.81233E+01, time = 5.63 | CG iter. 40 -- res = 0.53925E+02, tol = 0.81233E+01, time = 5.97 | CG iter. 41 -- res = 0.42198E+02, tol = 0.81233E+01, time = 5.96 | CG iter. 42 -- res = 0.29821E+02, tol = 0.81233E+01, time = 12.26 | CG iter. 43 -- res = 0.23247E+02, tol = 0.81233E+01, time = 5.95 | CG iter. 44 -- res = 0.19106E+02, tol = 0.81233E+01, time = 5.96 | CG iter. 45 -- res = 0.14892E+02, tol = 0.81233E+01, time = 5.39 | CG iter. 46 -- res = 0.10689E+02, tol = 0.81233E+01, time = 5.73 | CG iter. 47 -- res = 0.80097E+01, tol = 0.81233E+01, time = 5.50 | CG iter. 48 -- res = 0.64431E+01, tol = 0.81233E+01, time = 6.01 | CG iter. 49 -- res = 0.51485E+01, tol = 0.81233E+01, time = 5.89 | CG iter. 50 -- res = 0.37424E+01, tol = 0.81233E+01, time = 5.88 | Final CG iter 51 -- res = 0.37424E+01, tol = 0.81233E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8080638.279 | Old band monopole 8651374.571 | Change to band monopole -570736.292 | Change to component monopole 570733.837 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.61347E+06, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.30488E+03, tol = 0.47627E+18, time = 2.94 | CG iter. 3 -- res = 0.57265E+01, tol = 0.47627E+18, time = 2.34 | CG iter. 4 -- res = 0.51248E-01, tol = 0.47627E+18, time = 2.40 | Final CG iter 5 -- res = 0.15961E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8080603.522 | (Sampled value in CG: 8184354.704 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496938 | New value = 1.475797 | poltype: 2 pol: 1 CPU time specind = 1.5661001E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477766 | New value = 1.509898 | poltype: 2 pol: 2 CPU time specind = 1.2223959E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.24108E+08, tol = 0.47503E+04, time = 6.65 | CG iter. 2 -- res = 0.53628E+07, tol = 0.47503E+04, time = 6.65 | CG iter. 3 -- res = 0.85156E+06, tol = 0.47503E+04, time = 6.78 | CG iter. 4 -- res = 0.35508E+06, tol = 0.47503E+04, time = 6.96 | CG iter. 5 -- res = 0.15563E+06, tol = 0.47503E+04, time = 6.80 | CG iter. 6 -- res = 0.82717E+05, tol = 0.47503E+04, time = 6.83 | CG iter. 7 -- res = 0.45457E+05, tol = 0.47503E+04, time = 6.75 | CG iter. 8 -- res = 0.21517E+05, tol = 0.47503E+04, time = 6.80 | CG iter. 9 -- res = 0.93238E+04, tol = 0.47503E+04, time = 6.76 | CG iter. 10 -- res = 0.37992E+04, tol = 0.47503E+04, time = 6.57 | CG iter. 11 -- res = 0.16988E+04, tol = 0.47503E+04, time = 6.87 | CG iter. 12 -- res = 0.87189E+03, tol = 0.47503E+04, time = 7.04 | CG iter. 13 -- res = 0.50080E+03, tol = 0.47503E+04, time = 7.10 | CG iter. 14 -- res = 0.28453E+03, tol = 0.47503E+04, time = 6.64 | CG iter. 15 -- res = 0.14483E+03, tol = 0.47503E+04, time = 6.78 | CG iter. 16 -- res = 0.67644E+02, tol = 0.47503E+04, time = 6.54 | CG iter. 17 -- res = 0.31755E+02, tol = 0.47503E+04, time = 6.68 | CG iter. 18 -- res = 0.15817E+02, tol = 0.47503E+04, time = 6.97 | CG iter. 19 -- res = 0.86702E+01, tol = 0.47503E+04, time = 12.37 | CG iter. 20 -- res = 0.49720E+01, tol = 0.47503E+04, time = 7.48 | CG iter. 21 -- res = 0.27075E+01, tol = 0.47503E+04, time = 6.98 | CG iter. 22 -- res = 0.13913E+01, tol = 0.47503E+04, time = 6.87 | CG iter. 23 -- res = 0.68832E+00, tol = 0.47503E+04, time = 6.67 | CG iter. 24 -- res = 0.35289E+00, tol = 0.47503E+04, time = 7.02 | CG iter. 25 -- res = 0.19137E+00, tol = 0.47503E+04, time = 6.46 | CG iter. 26 -- res = 0.10674E+00, tol = 0.47503E+04, time = 6.32 | CG iter. 27 -- res = 0.59962E-01, tol = 0.47503E+04, time = 6.68 | CG iter. 28 -- res = 0.32146E-01, tol = 0.47503E+04, time = 6.38 | CG iter. 29 -- res = 0.16672E-01, tol = 0.47503E+04, time = 6.82 | CG iter. 30 -- res = 0.88411E-02, tol = 0.47503E+04, time = 6.59 | CG iter. 31 -- res = 0.47498E-02, tol = 0.47503E+04, time = 6.64 | CG iter. 32 -- res = 0.26481E-02, tol = 0.47503E+04, time = 8.12 | CG iter. 33 -- res = 0.15078E-02, tol = 0.47503E+04, time = 7.01 | CG iter. 34 -- res = 0.83874E-03, tol = 0.47503E+04, time = 6.83 | CG iter. 35 -- res = 0.43230E-03, tol = 0.47503E+04, time = 6.83 | Final CG iter 36 -- res = 0.43230E-03, tol = 0.47503E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.565 2.740 | New value -2.644 | Old value -1.565 | Difference -1.079 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.72348E+05, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.11329E+03, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.19105E+01, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.17406E-03, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.22538E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8080603.522 | (Sampled value in CG: 8183321.703 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.531227 | New value = -3.549366 | poltype: 1 pol: 1 CPU time specind = 1.5993118E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.36114E+07, tol = 0.25839E+01, time = 2.76 | CG iter. 2 -- res = 0.14943E+07, tol = 0.25839E+01, time = 2.89 | CG iter. 3 -- res = 0.32848E+06, tol = 0.25839E+01, time = 2.70 | CG iter. 4 -- res = 0.16286E+06, tol = 0.25839E+01, time = 2.90 | CG iter. 5 -- res = 0.97728E+05, tol = 0.25839E+01, time = 2.92 | CG iter. 6 -- res = 0.40692E+05, tol = 0.25839E+01, time = 2.77 | CG iter. 7 -- res = 0.13330E+05, tol = 0.25839E+01, time = 2.75 | CG iter. 8 -- res = 0.56533E+04, tol = 0.25839E+01, time = 2.96 | CG iter. 9 -- res = 0.26623E+04, tol = 0.25839E+01, time = 2.84 | CG iter. 10 -- res = 0.10682E+04, tol = 0.25839E+01, time = 2.67 | CG iter. 11 -- res = 0.43985E+03, tol = 0.25839E+01, time = 2.79 | CG iter. 12 -- res = 0.21840E+03, tol = 0.25839E+01, time = 3.01 | CG iter. 13 -- res = 0.11451E+03, tol = 0.25839E+01, time = 2.62 | CG iter. 14 -- res = 0.56894E+02, tol = 0.25839E+01, time = 2.92 | CG iter. 15 -- res = 0.25072E+02, tol = 0.25839E+01, time = 3.05 | CG iter. 16 -- res = 0.10710E+02, tol = 0.25839E+01, time = 2.67 | CG iter. 17 -- res = 0.45720E+01, tol = 0.25839E+01, time = 3.03 | CG iter. 18 -- res = 0.22090E+01, tol = 0.25839E+01, time = 2.97 | CG iter. 19 -- res = 0.10975E+01, tol = 0.25839E+01, time = 2.70 | CG iter. 20 -- res = 0.56902E+00, tol = 0.25839E+01, time = 2.67 | CG iter. 21 -- res = 0.27195E+00, tol = 0.25839E+01, time = 2.67 | CG iter. 22 -- res = 0.12050E+00, tol = 0.25839E+01, time = 2.84 | CG iter. 23 -- res = 0.52964E-01, tol = 0.25839E+01, time = 2.66 | CG iter. 24 -- res = 0.24555E-01, tol = 0.25839E+01, time = 2.80 | CG iter. 25 -- res = 0.12037E-01, tol = 0.25839E+01, time = 2.46 | CG iter. 26 -- res = 0.61488E-02, tol = 0.25839E+01, time = 2.63 | CG iter. 27 -- res = 0.31294E-02, tol = 0.25839E+01, time = 2.72 | CG iter. 28 -- res = 0.15067E-02, tol = 0.25839E+01, time = 2.87 | CG iter. 29 -- res = 0.67531E-03, tol = 0.25839E+01, time = 2.78 | CG iter. 30 -- res = 0.32120E-03, tol = 0.25839E+01, time = 2.82 | CG iter. 31 -- res = 0.15680E-03, tol = 0.25839E+01, time = 2.70 | CG iter. 32 -- res = 0.79159E-04, tol = 0.25839E+01, time = 2.73 | CG iter. 33 -- res = 0.39017E-04, tol = 0.25839E+01, time = 2.73 | CG iter. 34 -- res = 0.18644E-04, tol = 0.25839E+01, time = 2.78 | CG iter. 35 -- res = 0.90925E-05, tol = 0.25839E+01, time = 2.62 | CG iter. 36 -- res = 0.43931E-05, tol = 0.25839E+01, time = 2.77 | CG iter. 37 -- res = 0.19972E-05, tol = 0.25839E+01, time = 2.71 | CG iter. 38 -- res = 0.98332E-06, tol = 0.25839E+01, time = 2.81 | CG iter. 39 -- res = 0.50366E-06, tol = 0.25839E+01, time = 2.73 | CG iter. 40 -- res = 0.24943E-06, tol = 0.25839E+01, time = 2.61 | CG iter. 41 -- res = 0.11670E-06, tol = 0.25839E+01, time = 2.61 | CG iter. 42 -- res = 0.56303E-07, tol = 0.25839E+01, time = 2.76 | CG iter. 43 -- res = 0.25369E-07, tol = 0.25839E+01, time = 2.78 | CG iter. 44 -- res = 0.12132E-07, tol = 0.25839E+01, time = 2.87 | CG iter. 45 -- res = 0.58817E-08, tol = 0.25839E+01, time = 2.54 | CG iter. 46 -- res = 0.29240E-08, tol = 0.25839E+01, time = 2.86 | CG iter. 47 -- res = 0.14426E-08, tol = 0.25839E+01, time = 2.85 | CG iter. 48 -- res = 0.69789E-09, tol = 0.25839E+01, time = 2.71 | CG iter. 49 -- res = 0.32172E-09, tol = 0.25839E+01, time = 2.85 | CG iter. 50 -- res = 0.14321E-09, tol = 0.25839E+01, time = 2.88 | Final CG iter 51 -- res = 0.14321E-09, tol = 0.25839E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.042 3.491 | New value 3.306 | Old value 8.042 | Difference -4.736 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.30314E+05, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.70796E+02, tol = 0.47627E+18, time = 2.37 | CG iter. 3 -- res = 0.17300E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.40448E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.27316E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8080603.522 | (Sampled value in CG: 8159203.836 ) | CPU time specind = 1210.850 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.68760E+08, tol = 0.57542E+04, time = 12.09 | CG iter. 2 -- res = 0.59429E+08, tol = 0.57542E+04, time = 12.78 | CG iter. 3 -- res = 0.15641E+08, tol = 0.57542E+04, time = 12.48 | CG iter. 4 -- res = 0.66335E+07, tol = 0.57542E+04, time = 14.08 | CG iter. 5 -- res = 0.40229E+07, tol = 0.57542E+04, time = 11.92 | CG iter. 6 -- res = 0.23089E+07, tol = 0.57542E+04, time = 12.03 | CG iter. 7 -- res = 0.13659E+07, tol = 0.57542E+04, time = 12.03 | CG iter. 8 -- res = 0.94447E+06, tol = 0.57542E+04, time = 12.07 | CG iter. 9 -- res = 0.63366E+06, tol = 0.57542E+04, time = 12.36 | CG iter. 10 -- res = 0.39622E+06, tol = 0.57542E+04, time = 12.43 | CG iter. 11 -- res = 0.23022E+06, tol = 0.57542E+04, time = 11.88 | CG iter. 12 -- res = 0.13423E+06, tol = 0.57542E+04, time = 11.71 | CG iter. 13 -- res = 0.85051E+05, tol = 0.57542E+04, time = 12.92 | CG iter. 14 -- res = 0.62256E+05, tol = 0.57542E+04, time = 12.01 | CG iter. 15 -- res = 0.55585E+05, tol = 0.57542E+04, time = 12.26 | CG iter. 16 -- res = 0.54901E+05, tol = 0.57542E+04, time = 12.16 | CG iter. 17 -- res = 0.54578E+05, tol = 0.57542E+04, time = 12.17 | CG iter. 18 -- res = 0.51886E+05, tol = 0.57542E+04, time = 12.48 | CG iter. 19 -- res = 0.47260E+05, tol = 0.57542E+04, time = 11.99 | CG iter. 20 -- res = 0.43112E+05, tol = 0.57542E+04, time = 12.07 | CG iter. 21 -- res = 0.40394E+05, tol = 0.57542E+04, time = 18.01 | CG iter. 22 -- res = 0.39333E+05, tol = 0.57542E+04, time = 12.24 | CG iter. 23 -- res = 0.36508E+05, tol = 0.57542E+04, time = 12.35 | CG iter. 24 -- res = 0.31799E+05, tol = 0.57542E+04, time = 12.50 | CG iter. 25 -- res = 0.25698E+05, tol = 0.57542E+04, time = 12.04 | CG iter. 26 -- res = 0.19139E+05, tol = 0.57542E+04, time = 11.64 | CG iter. 27 -- res = 0.14493E+05, tol = 0.57542E+04, time = 11.94 | CG iter. 28 -- res = 0.11649E+05, tol = 0.57542E+04, time = 13.56 | CG iter. 29 -- res = 0.10006E+05, tol = 0.57542E+04, time = 12.43 | CG iter. 30 -- res = 0.90338E+04, tol = 0.57542E+04, time = 12.33 | CG iter. 31 -- res = 0.84470E+04, tol = 0.57542E+04, time = 12.15 | CG iter. 32 -- res = 0.78835E+04, tol = 0.57542E+04, time = 11.65 | CG iter. 33 -- res = 0.70842E+04, tol = 0.57542E+04, time = 12.39 | CG iter. 34 -- res = 0.58372E+04, tol = 0.57542E+04, time = 12.00 | CG iter. 35 -- res = 0.50278E+04, tol = 0.57542E+04, time = 12.13 | CG iter. 36 -- res = 0.45402E+04, tol = 0.57542E+04, time = 11.91 | CG iter. 37 -- res = 0.42651E+04, tol = 0.57542E+04, time = 12.32 | CG iter. 38 -- res = 0.39053E+04, tol = 0.57542E+04, time = 12.14 | CG iter. 39 -- res = 0.34570E+04, tol = 0.57542E+04, time = 12.22 | CG iter. 40 -- res = 0.28452E+04, tol = 0.57542E+04, time = 11.94 | CG iter. 41 -- res = 0.22986E+04, tol = 0.57542E+04, time = 11.96 | CG iter. 42 -- res = 0.19167E+04, tol = 0.57542E+04, time = 12.04 | CG iter. 43 -- res = 0.16947E+04, tol = 0.57542E+04, time = 11.99 | CG iter. 44 -- res = 0.15921E+04, tol = 0.57542E+04, time = 12.06 | CG iter. 45 -- res = 0.15219E+04, tol = 0.57542E+04, time = 18.62 | CG iter. 46 -- res = 0.14497E+04, tol = 0.57542E+04, time = 12.21 | CG iter. 47 -- res = 0.13447E+04, tol = 0.57542E+04, time = 12.36 | CG iter. 48 -- res = 0.11636E+04, tol = 0.57542E+04, time = 12.25 | CG iter. 49 -- res = 0.10101E+04, tol = 0.57542E+04, time = 12.04 | CG iter. 50 -- res = 0.93185E+03, tol = 0.57542E+04, time = 11.87 | CG iter. 51 -- res = 0.90639E+03, tol = 0.57542E+04, time = 12.11 | CG iter. 52 -- res = 0.85150E+03, tol = 0.57542E+04, time = 13.60 | CG iter. 53 -- res = 0.76047E+03, tol = 0.57542E+04, time = 12.26 | CG iter. 54 -- res = 0.67045E+03, tol = 0.57542E+04, time = 12.21 | CG iter. 55 -- res = 0.58042E+03, tol = 0.57542E+04, time = 12.32 | CG iter. 56 -- res = 0.49322E+03, tol = 0.57542E+04, time = 11.99 | CG iter. 57 -- res = 0.44230E+03, tol = 0.57542E+04, time = 11.83 | CG iter. 58 -- res = 0.41723E+03, tol = 0.57542E+04, time = 12.16 | CG iter. 59 -- res = 0.40715E+03, tol = 0.57542E+04, time = 12.22 | CG iter. 60 -- res = 0.39127E+03, tol = 0.57542E+04, time = 12.53 | Final CG iter 61 -- res = 0.39127E+03, tol = 0.57542E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.815 ( -229.787 -2231.414 2513.959 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11502770.957 | Old band monopole 8080638.279 | Change to band monopole 3422132.678 | Change to component monopole -3422117.959 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.683 2.727 | New value -0.612 | Old value -2.683 | Difference 2.071 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.487 ( 6.641 12.556 -12.437 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.838 4.966 | New value 0.249 | Old value 2.838 | Difference -2.588 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.39568E+06, tol = 0.47627E+18, time = 2.30 | CG iter. 2 -- res = 0.79955E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.31907E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.51188E-02, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.58742E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11502721.482 | (Sampled value in CG: 11476992.644 ) | Chain = 1 -- chisq = 0.81566563E+09 | Chain = 1 -- wall time = 5770.035 sec Available RAM: MemAvailable: 377905016 kB Available Swap: SwapFree: 1111551928 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 376 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444543 | --> Sampling calibration, mode = relcal | relcal = 1.3426123E-02 7.5134356E-04 -1.5949721E-03 -1.2582494E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1710574 0.1852521 9403119.94970120 | BP delta = 0.1710574 0.1808901 9403137.80347392 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632489 | --> Sampling calibration, mode = relcal | relcal = -2.8215253E-03 -7.0408650E-04 1.6786313E-03 1.6141767E-03 -4.0729588E-04 6.4009987E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5651706 15215637.6638078 | BP delta = 0.0000000E+00 -0.5621278 15215640.0700041 | BP chisq diff = 2.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102388 | --> Sampling calibration, mode = relcal | relcal = 3.7071861E-02 1.3712633E-02 5.7503087E-03 -7.1648937E-03 8.2436800E-03 2.3914692E-03 -7.5963251E-03 -7.1743601E-03 -1.5297898E-02 -1.4796296E-02 -3.0558517E-03 -1.2084325E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.210207 132213051.111826 | BP delta = 0.0000000E+00 -1.174415 132213049.520040 | BP chisq diff = -1.6, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18388198680210 | --> Sampling calibration, mode = relcal | relcal = -7.5703658E-02 -5.8983695E-02 9.2638396E-02 4.2048961E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.7009856E-05 5.8825673E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5939E-05 | 2: delta_r/delta_0: 1.1934E-06 | 3: delta_s/delta_0: 1.9136E-07 | 4: delta_r/delta_0: 2.6981E-08 | 5: delta_s/delta_0: 8.2772E-09 | 6: delta_r/delta_0: 2.5031E-09 | 7: delta_s/delta_0: 4.8126E-10 | 8: delta_r/delta_0: 1.8523E-10 | 9: delta_s/delta_0: 1.5334E-10 | 10: delta_r/delta_0: 6.4370E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.338250816441791E-003 2.734328181366205E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5939E-05 | 2: delta_r/delta_0: 1.1934E-06 | 3: delta_s/delta_0: 1.9136E-07 | 4: delta_r/delta_0: 2.6982E-08 | 5: delta_s/delta_0: 8.2780E-09 | 6: delta_r/delta_0: 2.5032E-09 | 7: delta_s/delta_0: 4.8125E-10 | 8: delta_r/delta_0: 1.8524E-10 | 9: delta_s/delta_0: 1.5337E-10 | 10: delta_r/delta_0: 6.4380E-11 | Reached bicg-stab tolerance | BP delta = 9.3823284E-02 0.1168551 3480930.76197210 | BP delta = 9.3823284E-02 0.1167106 3479954.20204957 | BP chisq diff = -976.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02610832 | --> Sampling calibration, mode = relcal | relcal = -0.1067275 -9.5555015E-02 0.1450036 5.7278886E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9695211E-03 1.3922235E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8466E-05 | 2: delta_r/delta_0: 1.3188E-06 | 3: delta_s/delta_0: 2.5772E-07 | 4: delta_r/delta_0: 3.9956E-08 | 5: delta_s/delta_0: 2.3229E-08 | 6: delta_r/delta_0: 6.7785E-09 | 7: delta_s/delta_0: 5.3982E-09 | 8: delta_r/delta_0: 1.7763E-09 | 9: delta_s/delta_0: 8.5106E-10 | 10: delta_r/delta_0: 6.3789E-10 | 11: delta_s/delta_0: 2.3547E-09 | 12: delta_r/delta_0: 7.4960E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.954593564616020E-003 2.810528816985158E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.8466E-05 | 2: delta_r/delta_0: 1.3187E-06 | 3: delta_s/delta_0: 2.5770E-07 | 4: delta_r/delta_0: 3.9911E-08 | 5: delta_s/delta_0: 2.3245E-08 | 6: delta_r/delta_0: 6.7762E-09 | 7: delta_s/delta_0: 5.3984E-09 | 8: delta_r/delta_0: 1.7756E-09 | 9: delta_s/delta_0: 8.5065E-10 | 10: delta_r/delta_0: 6.3757E-10 | 11: delta_s/delta_0: 2.3522E-09 | 12: delta_r/delta_0: 7.4931E-11 | Reached bicg-stab tolerance | BP delta = -0.2457269 -0.2108701 2841479.84787273 | BP delta = -0.2457269 -0.2092241 2841565.19533803 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243767 | --> Sampling calibration, mode = relcal | relcal = 0.2956084 0.2248287 -0.2838458 -0.2365913 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.5373001E-04 4.1235988E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5016E-02 | 2: delta_r/delta_0: 3.5195E-04 | 3: delta_s/delta_0: 4.5806E-05 | 4: delta_r/delta_0: 4.1815E-06 | 5: delta_s/delta_0: 4.5795E-05 | 6: delta_r/delta_0: 4.2213E-06 | 7: delta_s/delta_0: 2.4625E-07 | 8: delta_r/delta_0: 1.0398E-08 | 9: delta_s/delta_0: 6.4742E-09 | 10: delta_r/delta_0: 3.0118E-09 | 11: delta_s/delta_0: 3.5551E-09 | 12: delta_r/delta_0: 1.2463E-09 | 13: delta_s/delta_0: 6.3914E-10 | 14: delta_r/delta_0: 1.3134E-10 | 15: delta_s/delta_0: 3.9350E-10 | 16: delta_r/delta_0: 1.3254E-10 | 17: delta_s/delta_0: 1.1414E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.954028512021090E-005 4.020721801760498E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5016E-02 | 2: delta_r/delta_0: 3.5196E-04 | 3: delta_s/delta_0: 4.5809E-05 | 4: delta_r/delta_0: 4.1817E-06 | 5: delta_s/delta_0: 4.5790E-05 | 6: delta_r/delta_0: 4.2210E-06 | 7: delta_s/delta_0: 2.4628E-07 | 8: delta_r/delta_0: 1.0397E-08 | 9: delta_s/delta_0: 6.4735E-09 | 10: delta_r/delta_0: 3.0113E-09 | 11: delta_s/delta_0: 3.5547E-09 | 12: delta_r/delta_0: 1.2462E-09 | 13: delta_s/delta_0: 6.3913E-10 | 14: delta_r/delta_0: 1.3134E-10 | 15: delta_s/delta_0: 3.9333E-10 | 16: delta_r/delta_0: 1.3253E-10 | 17: delta_s/delta_0: 1.1414E-11 | Reached bicg-stab tolerance | BP delta = -9.4173975E-02 -0.1399674 2827399.28491662 | BP delta = -9.4173975E-02 -0.1420446 2827399.16894895 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95929941 | --> Sampling calibration, mode = relcal | relcal = 0.1066767 0.1394779 -0.1102519 -0.1359026 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0446050E-02 1.2565621E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.1749E-03 | 2: delta_r/delta_0: 1.7207E-04 | 3: delta_s/delta_0: 1.0512E-04 | 4: delta_r/delta_0: 7.3678E-06 | 5: delta_s/delta_0: 1.5332E-06 | 6: delta_r/delta_0: 4.4115E-07 | 7: delta_s/delta_0: 1.0636E-06 | 8: delta_r/delta_0: 1.1857E-07 | 9: delta_s/delta_0: 2.3124E-04 | 10: delta_r/delta_0: 7.4929E-05 | 11: delta_s/delta_0: 5.6092E-09 | 12: delta_r/delta_0: 2.4501E-09 | 13: delta_s/delta_0: 1.0387E-08 | 14: delta_r/delta_0: 3.3127E-10 | 15: delta_s/delta_0: 1.6656E-10 | 16: delta_r/delta_0: 7.8049E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.723827725295564E-002 3.696690406367931E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.1860E-03 | 2: delta_r/delta_0: 1.7234E-04 | 3: delta_s/delta_0: 1.0527E-04 | 4: delta_r/delta_0: 7.3785E-06 | 5: delta_s/delta_0: 1.5346E-06 | 6: delta_r/delta_0: 4.4122E-07 | 7: delta_s/delta_0: 1.0616E-06 | 8: delta_r/delta_0: 1.1869E-07 | 9: delta_s/delta_0: 1.9924E-04 | 10: delta_r/delta_0: 6.4424E-05 | 11: delta_s/delta_0: 5.6121E-09 | 12: delta_r/delta_0: 2.4528E-09 | 13: delta_s/delta_0: 1.0173E-08 | 14: delta_r/delta_0: 3.3676E-10 | 15: delta_s/delta_0: 1.6782E-10 | 16: delta_r/delta_0: 7.7683E-11 | Reached bicg-stab tolerance | BP delta = 0.2104287 0.3215716 3004113.14335868 | BP delta = 0.2104287 0.3210712 3004129.68811867 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52156225 | --> Sampling calibration, mode = relcal | relcal = -5.0998420E-02 -3.7833606E-03 2.7188132E-02 2.7593648E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.7397330E-04 1.9623579E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6042E-05 | 2: delta_r/delta_0: 4.6075E-06 | 3: delta_s/delta_0: 1.6909E-05 | 4: delta_r/delta_0: 1.3815E-06 | 5: delta_s/delta_0: 5.0608E-08 | 6: delta_r/delta_0: 2.8794E-08 | 7: delta_s/delta_0: 1.8385E-07 | 8: delta_r/delta_0: 7.7704E-09 | 9: delta_s/delta_0: 1.6427E-09 | 10: delta_r/delta_0: 9.3018E-10 | 11: delta_s/delta_0: 8.2100E-10 | 12: delta_r/delta_0: 6.3189E-10 | 13: delta_s/delta_0: 1.3890E-10 | 14: delta_r/delta_0: 5.2151E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.186435700752924E-002 5.483285904786232E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6042E-05 | 2: delta_r/delta_0: 4.6075E-06 | 3: delta_s/delta_0: 1.6906E-05 | 4: delta_r/delta_0: 1.3812E-06 | 5: delta_s/delta_0: 5.0608E-08 | 6: delta_r/delta_0: 2.8793E-08 | 7: delta_s/delta_0: 1.8386E-07 | 8: delta_r/delta_0: 7.7703E-09 | 9: delta_s/delta_0: 1.6428E-09 | 10: delta_r/delta_0: 9.3041E-10 | 11: delta_s/delta_0: 8.2111E-10 | 12: delta_r/delta_0: 6.3217E-10 | 13: delta_s/delta_0: 1.3856E-10 | 14: delta_r/delta_0: 5.2139E-11 | Reached bicg-stab tolerance | BP delta = 7.2897628E-02 0.1597511 2435450.98111084 | BP delta = 7.2897628E-02 0.1457982 2435466.43973306 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42157314 | --> Sampling calibration, mode = relcal | relcal = 4.5557611E-02 3.9679699E-02 -2.8336544E-02 -5.6900766E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2414743E-03 3.6282318E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8763E-05 | 2: delta_r/delta_0: 3.3310E-06 | 3: delta_s/delta_0: 1.9056E-06 | 4: delta_r/delta_0: 2.4819E-07 | 5: delta_s/delta_0: 6.9844E-08 | 6: delta_r/delta_0: 3.5997E-08 | 7: delta_s/delta_0: 1.7437E-07 | 8: delta_r/delta_0: 4.9275E-09 | 9: delta_s/delta_0: 9.9815E-09 | 10: delta_r/delta_0: 5.1743E-09 | 11: delta_s/delta_0: 5.6423E-09 | 12: delta_r/delta_0: 3.0856E-09 | 13: delta_s/delta_0: 3.4826E-10 | 14: delta_r/delta_0: 2.3865E-10 | 15: delta_s/delta_0: 1.1138E-10 | 16: delta_r/delta_0: 8.8802E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.444329375621303E-002 4.995778835791570E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.8763E-05 | 2: delta_r/delta_0: 3.3311E-06 | 3: delta_s/delta_0: 1.9056E-06 | 4: delta_r/delta_0: 2.4819E-07 | 5: delta_s/delta_0: 6.9844E-08 | 6: delta_r/delta_0: 3.5997E-08 | 7: delta_s/delta_0: 1.7437E-07 | 8: delta_r/delta_0: 4.9275E-09 | 9: delta_s/delta_0: 9.9710E-09 | 10: delta_r/delta_0: 5.1705E-09 | 11: delta_s/delta_0: 5.6373E-09 | 12: delta_r/delta_0: 3.0798E-09 | 13: delta_s/delta_0: 3.4856E-10 | 14: delta_r/delta_0: 2.3902E-10 | 15: delta_s/delta_0: 1.1132E-10 | 16: delta_r/delta_0: 8.8780E-11 | Reached bicg-stab tolerance | BP delta = 3.3952009E-02 -8.7710269E-02 2322003.95895478 | BP delta = 3.3952009E-02 -8.8116720E-02 2322010.88766668 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28162194 | --> Sampling calibration, mode = relcal | relcal = 2.4206167E-02 4.5102276E-02 -2.3358239E-02 -4.5950204E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1149020E-02 3.1423478E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0641E-04 | 2: delta_r/delta_0: 8.7526E-06 | 3: delta_s/delta_0: 1.4345E-06 | 4: delta_r/delta_0: 1.8653E-07 | 5: delta_s/delta_0: 7.0654E-08 | 6: delta_r/delta_0: 1.7437E-08 | 7: delta_s/delta_0: 9.0366E-09 | 8: delta_r/delta_0: 5.4585E-09 | 9: delta_s/delta_0: 2.2725E-07 | 10: delta_r/delta_0: 5.8534E-09 | 11: delta_s/delta_0: 1.7232E-09 | 12: delta_r/delta_0: 4.9303E-10 | 13: delta_s/delta_0: 3.1298E-10 | 14: delta_r/delta_0: 1.2912E-10 | 15: delta_s/delta_0: 6.2537E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.925748814869715E-003 7.843741385477862E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0641E-04 | 2: delta_r/delta_0: 8.7526E-06 | 3: delta_s/delta_0: 1.4345E-06 | 4: delta_r/delta_0: 1.8653E-07 | 5: delta_s/delta_0: 7.0655E-08 | 6: delta_r/delta_0: 1.7438E-08 | 7: delta_s/delta_0: 9.0367E-09 | 8: delta_r/delta_0: 5.4585E-09 | 9: delta_s/delta_0: 2.2724E-07 | 10: delta_r/delta_0: 5.8534E-09 | 11: delta_s/delta_0: 1.7232E-09 | 12: delta_r/delta_0: 4.9303E-10 | 13: delta_s/delta_0: 3.1307E-10 | 14: delta_r/delta_0: 1.2916E-10 | 15: delta_s/delta_0: 6.2537E-11 | Reached bicg-stab tolerance | BP delta = -0.4368341 -0.6353970 2490317.92163103 | BP delta = -0.4368341 -0.6293256 2490316.28422898 | BP chisq diff = -1.6, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29388538 | --> Sampling calibration, mode = relcal | relcal = 5.3475046E-04 1.0196972E-02 -3.7722441E-03 -6.9594779E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5800595E-02 1.6397430E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3127E-04 | 2: delta_r/delta_0: 1.1242E-05 | 3: delta_s/delta_0: 1.8868E-06 | 4: delta_r/delta_0: 2.8964E-07 | 5: delta_s/delta_0: 1.0861E-07 | 6: delta_r/delta_0: 2.6672E-08 | 7: delta_s/delta_0: 1.3089E-08 | 8: delta_r/delta_0: 8.8305E-09 | 9: delta_s/delta_0: 3.0525E-08 | 10: delta_r/delta_0: 7.1943E-09 | 11: delta_s/delta_0: 2.0405E-08 | 12: delta_r/delta_0: 1.0781E-08 | 13: delta_s/delta_0: 4.3377E-10 | 14: delta_r/delta_0: 2.8269E-10 | 15: delta_s/delta_0: 8.1924E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.045708194554318E-002 8.307571612944676E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3127E-04 | 2: delta_r/delta_0: 1.1242E-05 | 3: delta_s/delta_0: 1.8868E-06 | 4: delta_r/delta_0: 2.8964E-07 | 5: delta_s/delta_0: 1.0860E-07 | 6: delta_r/delta_0: 2.6671E-08 | 7: delta_s/delta_0: 1.3089E-08 | 8: delta_r/delta_0: 8.8305E-09 | 9: delta_s/delta_0: 3.0525E-08 | 10: delta_r/delta_0: 7.1943E-09 | 11: delta_s/delta_0: 2.0399E-08 | 12: delta_r/delta_0: 1.0777E-08 | 13: delta_s/delta_0: 4.3371E-10 | 14: delta_r/delta_0: 2.8264E-10 | 15: delta_s/delta_0: 8.1928E-11 | Reached bicg-stab tolerance | BP delta = -0.8695599 -0.8265494 2737591.43371110 | BP delta = -0.8695599 -0.8251241 2737589.98855041 | BP chisq diff = -1.4, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26506738 | --> Sampling calibration, mode = relcal | relcal = -5.5966876E-03 1.5053339E-02 -2.4502289E-03 -7.0064222E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.6992891E-03 2.4728610E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4100E-04 | 2: delta_r/delta_0: 1.1861E-05 | 3: delta_s/delta_0: 2.1258E-06 | 4: delta_r/delta_0: 2.3193E-07 | 5: delta_s/delta_0: 9.8068E-08 | 6: delta_r/delta_0: 2.1011E-08 | 7: delta_s/delta_0: 1.0269E-08 | 8: delta_r/delta_0: 6.2595E-09 | 9: delta_s/delta_0: 1.9449E-08 | 10: delta_r/delta_0: 7.9228E-09 | 11: delta_s/delta_0: 5.6612E-09 | 12: delta_r/delta_0: 2.8039E-10 | 13: delta_s/delta_0: 1.6541E-09 | 14: delta_r/delta_0: 3.2132E-10 | 15: delta_s/delta_0: 5.2698E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.771702036300628E-003 9.153590146748094E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4100E-04 | 2: delta_r/delta_0: 1.1861E-05 | 3: delta_s/delta_0: 2.1259E-06 | 4: delta_r/delta_0: 2.3195E-07 | 5: delta_s/delta_0: 9.8058E-08 | 6: delta_r/delta_0: 2.1012E-08 | 7: delta_s/delta_0: 1.0270E-08 | 8: delta_r/delta_0: 6.2598E-09 | 9: delta_s/delta_0: 1.9452E-08 | 10: delta_r/delta_0: 7.9232E-09 | 11: delta_s/delta_0: 5.6596E-09 | 12: delta_r/delta_0: 2.8028E-10 | 13: delta_s/delta_0: 1.6541E-09 | 14: delta_r/delta_0: 3.2130E-10 | 15: delta_s/delta_0: 5.2698E-11 | Reached bicg-stab tolerance | BP delta = 0.4414698 0.4717245 2516882.29725019 | BP delta = 0.4414698 0.4765828 2516882.82336936 | BP chisq diff = 0.5, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25664832 | --> Sampling calibration, mode = relcal | relcal = -3.1634189E-02 -2.5969727E-02 3.6825150E-02 2.0778766E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3322415E-02 1.5967952E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4299E-04 | 2: delta_r/delta_0: 1.1911E-05 | 3: delta_s/delta_0: 1.7979E-06 | 4: delta_r/delta_0: 4.5482E-07 | 5: delta_s/delta_0: 1.5712E-07 | 6: delta_r/delta_0: 3.3419E-08 | 7: delta_s/delta_0: 1.5767E-08 | 8: delta_r/delta_0: 8.1062E-09 | 9: delta_s/delta_0: 7.1168E-08 | 10: delta_r/delta_0: 6.0037E-09 | 11: delta_s/delta_0: 1.1303E-09 | 12: delta_r/delta_0: 3.5306E-10 | 13: delta_s/delta_0: 6.5653E-10 | 14: delta_r/delta_0: 2.7132E-10 | 15: delta_s/delta_0: 9.6538E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.901446808517286E-003 8.672224262756118E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4299E-04 | 2: delta_r/delta_0: 1.1911E-05 | 3: delta_s/delta_0: 1.7979E-06 | 4: delta_r/delta_0: 4.5483E-07 | 5: delta_s/delta_0: 1.5712E-07 | 6: delta_r/delta_0: 3.3420E-08 | 7: delta_s/delta_0: 1.5767E-08 | 8: delta_r/delta_0: 8.1063E-09 | 9: delta_s/delta_0: 7.1169E-08 | 10: delta_r/delta_0: 6.0037E-09 | 11: delta_s/delta_0: 1.1302E-09 | 12: delta_r/delta_0: 3.5303E-10 | 13: delta_s/delta_0: 6.5653E-10 | 14: delta_r/delta_0: 2.7131E-10 | 15: delta_s/delta_0: 9.6537E-11 | Reached bicg-stab tolerance | BP delta = -0.8867164 -1.089015 2706237.05011049 | BP delta = -0.8867164 -1.099442 2706238.97122648 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.108926 | New value = -3.157450 | poltype: 2 pol: 1 CPU time specind = 2.0368099E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153293 | New value = -3.100436 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.227788 | New value = -3.125398 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.171164 | New value = -3.181743 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194003 | New value = -3.258013 | poltype: 2 pol: 2 CPU time specind = 2.5091887E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.03 | CG iter. 1 -- res = 0.13555E+08, tol = 0.61825E+01, time = 5.68 | CG iter. 2 -- res = 0.33690E+06, tol = 0.61825E+01, time = 5.24 | CG iter. 3 -- res = 0.53756E+05, tol = 0.61825E+01, time = 5.52 | CG iter. 4 -- res = 0.32021E+05, tol = 0.61825E+01, time = 5.63 | CG iter. 5 -- res = 0.23154E+05, tol = 0.61825E+01, time = 5.60 | CG iter. 6 -- res = 0.18983E+05, tol = 0.61825E+01, time = 5.57 | CG iter. 7 -- res = 0.18232E+05, tol = 0.61825E+01, time = 5.64 | CG iter. 8 -- res = 0.15468E+05, tol = 0.61825E+01, time = 5.19 | CG iter. 9 -- res = 0.14376E+05, tol = 0.61825E+01, time = 5.99 | CG iter. 10 -- res = 0.12638E+05, tol = 0.61825E+01, time = 5.51 | CG iter. 11 -- res = 0.90075E+04, tol = 0.61825E+01, time = 5.42 | CG iter. 12 -- res = 0.58305E+04, tol = 0.61825E+01, time = 5.66 | CG iter. 13 -- res = 0.43028E+04, tol = 0.61825E+01, time = 5.68 | CG iter. 14 -- res = 0.37459E+04, tol = 0.61825E+01, time = 5.30 | CG iter. 15 -- res = 0.32991E+04, tol = 0.61825E+01, time = 5.21 | CG iter. 16 -- res = 0.24978E+04, tol = 0.61825E+01, time = 5.32 | CG iter. 17 -- res = 0.17507E+04, tol = 0.61825E+01, time = 12.03 | CG iter. 18 -- res = 0.13601E+04, tol = 0.61825E+01, time = 5.75 | CG iter. 19 -- res = 0.11661E+04, tol = 0.61825E+01, time = 5.48 | CG iter. 20 -- res = 0.92822E+03, tol = 0.61825E+01, time = 5.29 | CG iter. 21 -- res = 0.68899E+03, tol = 0.61825E+01, time = 5.74 | CG iter. 22 -- res = 0.55565E+03, tol = 0.61825E+01, time = 5.38 | CG iter. 23 -- res = 0.48824E+03, tol = 0.61825E+01, time = 5.60 | CG iter. 24 -- res = 0.39403E+03, tol = 0.61825E+01, time = 5.57 | CG iter. 25 -- res = 0.27734E+03, tol = 0.61825E+01, time = 5.27 | CG iter. 26 -- res = 0.21791E+03, tol = 0.61825E+01, time = 5.59 | CG iter. 27 -- res = 0.18206E+03, tol = 0.61825E+01, time = 5.79 | CG iter. 28 -- res = 0.15349E+03, tol = 0.61825E+01, time = 5.40 | CG iter. 29 -- res = 0.12059E+03, tol = 0.61825E+01, time = 5.72 | CG iter. 30 -- res = 0.92629E+02, tol = 0.61825E+01, time = 5.13 | CG iter. 31 -- res = 0.80507E+02, tol = 0.61825E+01, time = 5.32 | CG iter. 32 -- res = 0.67294E+02, tol = 0.61825E+01, time = 5.69 | CG iter. 33 -- res = 0.54872E+02, tol = 0.61825E+01, time = 7.07 | CG iter. 34 -- res = 0.41278E+02, tol = 0.61825E+01, time = 5.86 | CG iter. 35 -- res = 0.34533E+02, tol = 0.61825E+01, time = 5.82 | CG iter. 36 -- res = 0.31322E+02, tol = 0.61825E+01, time = 5.32 | CG iter. 37 -- res = 0.26282E+02, tol = 0.61825E+01, time = 5.26 | CG iter. 38 -- res = 0.20294E+02, tol = 0.61825E+01, time = 5.66 | CG iter. 39 -- res = 0.16611E+02, tol = 0.61825E+01, time = 5.65 | CG iter. 40 -- res = 0.14932E+02, tol = 0.61825E+01, time = 5.58 | CG iter. 41 -- res = 0.12607E+02, tol = 0.61825E+01, time = 5.47 | CG iter. 42 -- res = 0.99571E+01, tol = 0.61825E+01, time = 5.54 | CG iter. 43 -- res = 0.81105E+01, tol = 0.61825E+01, time = 5.66 | CG iter. 44 -- res = 0.71120E+01, tol = 0.61825E+01, time = 5.56 | CG iter. 45 -- res = 0.60543E+01, tol = 0.61825E+01, time = 5.67 | CG iter. 46 -- res = 0.47729E+01, tol = 0.61825E+01, time = 5.15 | CG iter. 47 -- res = 0.38277E+01, tol = 0.61825E+01, time = 5.28 | CG iter. 48 -- res = 0.30189E+01, tol = 0.61825E+01, time = 5.62 | CG iter. 49 -- res = 0.27064E+01, tol = 0.61825E+01, time = 5.46 | CG iter. 50 -- res = 0.21357E+01, tol = 0.61825E+01, time = 5.28 | Final CG iter 51 -- res = 0.21357E+01, tol = 0.61825E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8772336.481 | Old band monopole 11502770.957 | Change to band monopole -2730434.476 | Change to component monopole 2730422.732 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.51 | CG iter. 1 -- res = 0.20245E+04, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.10207E+02, tol = 0.47627E+18, time = 1.78 | CG iter. 3 -- res = 0.14886E+00, tol = 0.47627E+18, time = 2.05 | Final CG iter 4 -- res = 0.15232E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8772298.749 | (Sampled value in CG: 8731250.646 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475797 | New value = 1.456264 | poltype: 2 pol: 1 CPU time specind = 1.6548872E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.509898 | New value = 1.496982 | poltype: 2 pol: 2 CPU time specind = 2.4719238E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.24081E+08, tol = 0.47483E+04, time = 6.48 | CG iter. 2 -- res = 0.54014E+07, tol = 0.47483E+04, time = 6.65 | CG iter. 3 -- res = 0.84962E+06, tol = 0.47483E+04, time = 6.25 | CG iter. 4 -- res = 0.35609E+06, tol = 0.47483E+04, time = 6.28 | CG iter. 5 -- res = 0.15621E+06, tol = 0.47483E+04, time = 6.18 | CG iter. 6 -- res = 0.80746E+05, tol = 0.47483E+04, time = 6.32 | CG iter. 7 -- res = 0.43431E+05, tol = 0.47483E+04, time = 6.58 | CG iter. 8 -- res = 0.20783E+05, tol = 0.47483E+04, time = 6.20 | CG iter. 9 -- res = 0.91491E+04, tol = 0.47483E+04, time = 6.00 | CG iter. 10 -- res = 0.37399E+04, tol = 0.47483E+04, time = 6.50 | CG iter. 11 -- res = 0.16683E+04, tol = 0.47483E+04, time = 6.58 | CG iter. 12 -- res = 0.86933E+03, tol = 0.47483E+04, time = 6.15 | CG iter. 13 -- res = 0.49884E+03, tol = 0.47483E+04, time = 6.62 | CG iter. 14 -- res = 0.28337E+03, tol = 0.47483E+04, time = 7.31 | CG iter. 15 -- res = 0.14452E+03, tol = 0.47483E+04, time = 6.89 | CG iter. 16 -- res = 0.67388E+02, tol = 0.47483E+04, time = 6.41 | CG iter. 17 -- res = 0.31812E+02, tol = 0.47483E+04, time = 6.42 | CG iter. 18 -- res = 0.15737E+02, tol = 0.47483E+04, time = 6.57 | CG iter. 19 -- res = 0.84912E+01, tol = 0.47483E+04, time = 6.23 | CG iter. 20 -- res = 0.49084E+01, tol = 0.47483E+04, time = 6.31 | CG iter. 21 -- res = 0.27420E+01, tol = 0.47483E+04, time = 6.35 | CG iter. 22 -- res = 0.13875E+01, tol = 0.47483E+04, time = 6.16 | CG iter. 23 -- res = 0.67362E+00, tol = 0.47483E+04, time = 6.28 | CG iter. 24 -- res = 0.33986E+00, tol = 0.47483E+04, time = 6.46 | CG iter. 25 -- res = 0.18340E+00, tol = 0.47483E+04, time = 6.50 | CG iter. 26 -- res = 0.10659E+00, tol = 0.47483E+04, time = 6.13 | CG iter. 27 -- res = 0.61236E-01, tol = 0.47483E+04, time = 6.42 | CG iter. 28 -- res = 0.32931E-01, tol = 0.47483E+04, time = 6.33 | CG iter. 29 -- res = 0.16907E-01, tol = 0.47483E+04, time = 6.40 | CG iter. 30 -- res = 0.86272E-02, tol = 0.47483E+04, time = 6.69 | CG iter. 31 -- res = 0.46964E-02, tol = 0.47483E+04, time = 6.45 | CG iter. 32 -- res = 0.26497E-02, tol = 0.47483E+04, time = 6.39 | CG iter. 33 -- res = 0.14871E-02, tol = 0.47483E+04, time = 6.37 | CG iter. 34 -- res = 0.78509E-03, tol = 0.47483E+04, time = 6.19 | CG iter. 35 -- res = 0.40167E-03, tol = 0.47483E+04, time = 6.36 | Final CG iter 36 -- res = 0.40167E-03, tol = 0.47483E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.606 2.743 | New value 1.835 | Old value -0.606 | Difference 2.441 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.30892E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.39762E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.12284E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.64467E-03, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.85359E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8772298.749 | (Sampled value in CG: 8730704.003 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.549366 | New value = -3.520698 | poltype: 1 pol: 1 CPU time specind = 2.0884991E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.23071E+07, tol = 0.25005E+01, time = 2.33 | CG iter. 2 -- res = 0.10036E+07, tol = 0.25005E+01, time = 2.51 | CG iter. 3 -- res = 0.19546E+06, tol = 0.25005E+01, time = 2.29 | CG iter. 4 -- res = 0.70849E+05, tol = 0.25005E+01, time = 2.82 | CG iter. 5 -- res = 0.40331E+05, tol = 0.25005E+01, time = 2.63 | CG iter. 6 -- res = 0.22145E+05, tol = 0.25005E+01, time = 2.62 | CG iter. 7 -- res = 0.85686E+04, tol = 0.25005E+01, time = 2.57 | CG iter. 8 -- res = 0.37580E+04, tol = 0.25005E+01, time = 2.81 | CG iter. 9 -- res = 0.16003E+04, tol = 0.25005E+01, time = 2.42 | CG iter. 10 -- res = 0.65062E+03, tol = 0.25005E+01, time = 2.77 | CG iter. 11 -- res = 0.26936E+03, tol = 0.25005E+01, time = 2.50 | CG iter. 12 -- res = 0.13084E+03, tol = 0.25005E+01, time = 2.35 | CG iter. 13 -- res = 0.65774E+02, tol = 0.25005E+01, time = 2.68 | CG iter. 14 -- res = 0.33567E+02, tol = 0.25005E+01, time = 2.31 | CG iter. 15 -- res = 0.14902E+02, tol = 0.25005E+01, time = 2.70 | CG iter. 16 -- res = 0.66930E+01, tol = 0.25005E+01, time = 2.49 | CG iter. 17 -- res = 0.27268E+01, tol = 0.25005E+01, time = 2.46 | CG iter. 18 -- res = 0.12543E+01, tol = 0.25005E+01, time = 2.42 | CG iter. 19 -- res = 0.60746E+00, tol = 0.25005E+01, time = 2.74 | CG iter. 20 -- res = 0.31931E+00, tol = 0.25005E+01, time = 2.64 | CG iter. 21 -- res = 0.16243E+00, tol = 0.25005E+01, time = 2.55 | CG iter. 22 -- res = 0.75456E-01, tol = 0.25005E+01, time = 2.56 | CG iter. 23 -- res = 0.35618E-01, tol = 0.25005E+01, time = 2.59 | CG iter. 24 -- res = 0.16049E-01, tol = 0.25005E+01, time = 2.34 | CG iter. 25 -- res = 0.80297E-02, tol = 0.25005E+01, time = 2.72 | CG iter. 26 -- res = 0.40250E-02, tol = 0.25005E+01, time = 2.58 | CG iter. 27 -- res = 0.21012E-02, tol = 0.25005E+01, time = 2.20 | CG iter. 28 -- res = 0.10489E-02, tol = 0.25005E+01, time = 2.53 | CG iter. 29 -- res = 0.48983E-03, tol = 0.25005E+01, time = 2.48 | CG iter. 30 -- res = 0.22903E-03, tol = 0.25005E+01, time = 2.53 | CG iter. 31 -- res = 0.10665E-03, tol = 0.25005E+01, time = 2.54 | CG iter. 32 -- res = 0.53557E-04, tol = 0.25005E+01, time = 2.69 | CG iter. 33 -- res = 0.27042E-04, tol = 0.25005E+01, time = 3.00 | CG iter. 34 -- res = 0.13247E-04, tol = 0.25005E+01, time = 8.94 | CG iter. 35 -- res = 0.64097E-05, tol = 0.25005E+01, time = 2.68 | CG iter. 36 -- res = 0.31010E-05, tol = 0.25005E+01, time = 2.69 | CG iter. 37 -- res = 0.14503E-05, tol = 0.25005E+01, time = 2.55 | CG iter. 38 -- res = 0.72910E-06, tol = 0.25005E+01, time = 2.50 | CG iter. 39 -- res = 0.36084E-06, tol = 0.25005E+01, time = 2.77 | CG iter. 40 -- res = 0.17113E-06, tol = 0.25005E+01, time = 2.66 | CG iter. 41 -- res = 0.81443E-07, tol = 0.25005E+01, time = 2.39 | CG iter. 42 -- res = 0.38735E-07, tol = 0.25005E+01, time = 2.35 | CG iter. 43 -- res = 0.18396E-07, tol = 0.25005E+01, time = 2.44 | CG iter. 44 -- res = 0.88058E-08, tol = 0.25005E+01, time = 2.51 | CG iter. 45 -- res = 0.43083E-08, tol = 0.25005E+01, time = 2.45 | CG iter. 46 -- res = 0.21456E-08, tol = 0.25005E+01, time = 2.90 | CG iter. 47 -- res = 0.10599E-08, tol = 0.25005E+01, time = 2.53 | CG iter. 48 -- res = 0.51177E-09, tol = 0.25005E+01, time = 2.38 | CG iter. 49 -- res = 0.23603E-09, tol = 0.25005E+01, time = 2.52 | CG iter. 50 -- res = 0.10606E-09, tol = 0.25005E+01, time = 2.70 | Final CG iter 51 -- res = 0.10606E-09, tol = 0.25005E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.028 6.118 | New value 1.947 | Old value -4.028 | Difference 5.975 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.19 | CG iter. 1 -- res = 0.35951E+05, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.31279E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.11747E+01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.28683E-02, tol = 0.47627E+18, time = 2.35 | Final CG iter 5 -- res = 0.47093E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8772298.749 | (Sampled value in CG: 8742889.025 ) | CPU time specind = 1147.302 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.68349E+08, tol = 0.57550E+04, time = 11.24 | CG iter. 2 -- res = 0.58345E+08, tol = 0.57550E+04, time = 11.55 | CG iter. 3 -- res = 0.14975E+08, tol = 0.57550E+04, time = 11.35 | CG iter. 4 -- res = 0.63369E+07, tol = 0.57550E+04, time = 11.11 | CG iter. 5 -- res = 0.36874E+07, tol = 0.57550E+04, time = 11.58 | CG iter. 6 -- res = 0.21469E+07, tol = 0.57550E+04, time = 12.44 | CG iter. 7 -- res = 0.13208E+07, tol = 0.57550E+04, time = 11.49 | CG iter. 8 -- res = 0.86791E+06, tol = 0.57550E+04, time = 11.95 | CG iter. 9 -- res = 0.56193E+06, tol = 0.57550E+04, time = 11.16 | CG iter. 10 -- res = 0.33397E+06, tol = 0.57550E+04, time = 11.40 | CG iter. 11 -- res = 0.17876E+06, tol = 0.57550E+04, time = 11.76 | CG iter. 12 -- res = 0.94950E+05, tol = 0.57550E+04, time = 11.17 | CG iter. 13 -- res = 0.53109E+05, tol = 0.57550E+04, time = 11.05 | CG iter. 14 -- res = 0.32286E+05, tol = 0.57550E+04, time = 11.86 | CG iter. 15 -- res = 0.22055E+05, tol = 0.57550E+04, time = 17.96 | CG iter. 16 -- res = 0.16900E+05, tol = 0.57550E+04, time = 11.45 | CG iter. 17 -- res = 0.13320E+05, tol = 0.57550E+04, time = 11.10 | CG iter. 18 -- res = 0.10520E+05, tol = 0.57550E+04, time = 11.35 | CG iter. 19 -- res = 0.81919E+04, tol = 0.57550E+04, time = 11.50 | CG iter. 20 -- res = 0.66175E+04, tol = 0.57550E+04, time = 11.62 | CG iter. 21 -- res = 0.58955E+04, tol = 0.57550E+04, time = 11.44 | CG iter. 22 -- res = 0.58785E+04, tol = 0.57550E+04, time = 12.87 | CG iter. 23 -- res = 0.62343E+04, tol = 0.57550E+04, time = 12.62 | CG iter. 24 -- res = 0.66411E+04, tol = 0.57550E+04, time = 11.50 | CG iter. 25 -- res = 0.66354E+04, tol = 0.57550E+04, time = 11.20 | CG iter. 26 -- res = 0.57670E+04, tol = 0.57550E+04, time = 11.42 | CG iter. 27 -- res = 0.46373E+04, tol = 0.57550E+04, time = 11.11 | CG iter. 28 -- res = 0.37740E+04, tol = 0.57550E+04, time = 11.65 | CG iter. 29 -- res = 0.31723E+04, tol = 0.57550E+04, time = 11.37 | CG iter. 30 -- res = 0.26828E+04, tol = 0.57550E+04, time = 11.31 | CG iter. 31 -- res = 0.22064E+04, tol = 0.57550E+04, time = 11.59 | CG iter. 32 -- res = 0.18097E+04, tol = 0.57550E+04, time = 11.79 | CG iter. 33 -- res = 0.14688E+04, tol = 0.57550E+04, time = 11.29 | CG iter. 34 -- res = 0.11760E+04, tol = 0.57550E+04, time = 11.66 | CG iter. 35 -- res = 0.95930E+03, tol = 0.57550E+04, time = 11.02 | CG iter. 36 -- res = 0.84430E+03, tol = 0.57550E+04, time = 11.22 | CG iter. 37 -- res = 0.78676E+03, tol = 0.57550E+04, time = 11.26 | CG iter. 38 -- res = 0.75742E+03, tol = 0.57550E+04, time = 11.16 | CG iter. 39 -- res = 0.72378E+03, tol = 0.57550E+04, time = 11.60 | CG iter. 40 -- res = 0.65340E+03, tol = 0.57550E+04, time = 18.16 | CG iter. 41 -- res = 0.55807E+03, tol = 0.57550E+04, time = 11.00 | CG iter. 42 -- res = 0.45964E+03, tol = 0.57550E+04, time = 11.84 | CG iter. 43 -- res = 0.38798E+03, tol = 0.57550E+04, time = 11.16 | CG iter. 44 -- res = 0.34673E+03, tol = 0.57550E+04, time = 11.46 | CG iter. 45 -- res = 0.31535E+03, tol = 0.57550E+04, time = 11.10 | CG iter. 46 -- res = 0.28105E+03, tol = 0.57550E+04, time = 11.50 | CG iter. 47 -- res = 0.24879E+03, tol = 0.57550E+04, time = 11.01 | CG iter. 48 -- res = 0.21391E+03, tol = 0.57550E+04, time = 12.83 | CG iter. 49 -- res = 0.18271E+03, tol = 0.57550E+04, time = 11.41 | CG iter. 50 -- res = 0.16479E+03, tol = 0.57550E+04, time = 11.32 | CG iter. 51 -- res = 0.15785E+03, tol = 0.57550E+04, time = 11.24 | CG iter. 52 -- res = 0.15443E+03, tol = 0.57550E+04, time = 11.53 | CG iter. 53 -- res = 0.14802E+03, tol = 0.57550E+04, time = 10.99 | CG iter. 54 -- res = 0.13689E+03, tol = 0.57550E+04, time = 11.44 | CG iter. 55 -- res = 0.12500E+03, tol = 0.57550E+04, time = 11.18 | CG iter. 56 -- res = 0.11007E+03, tol = 0.57550E+04, time = 11.30 | CG iter. 57 -- res = 0.98581E+02, tol = 0.57550E+04, time = 11.86 | CG iter. 58 -- res = 0.89324E+02, tol = 0.57550E+04, time = 11.27 | CG iter. 59 -- res = 0.84443E+02, tol = 0.57550E+04, time = 11.28 | CG iter. 60 -- res = 0.80955E+02, tol = 0.57550E+04, time = 11.81 | Final CG iter 61 -- res = 0.80955E+02, tol = 0.57550E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.876 ( -229.737 -2230.468 2512.769 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8574885.224 | Old band monopole 8772336.481 | Change to band monopole -197451.257 | Change to component monopole 197450.408 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.849 2.758 | New value 7.826 | Old value 1.849 | Difference 5.977 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.582 ( 7.038 10.290 -9.542 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.843 6.075 | New value 3.218 | Old value 7.843 | Difference -4.625 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.18544E+07, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.33692E+02, tol = 0.47627E+18, time = 1.83 | CG iter. 3 -- res = 0.83617E+00, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.11651E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.83617E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8574848.342 | (Sampled value in CG: 8548213.843 ) | Chain = 1 -- chisq = 0.81603448E+09 | Chain = 1 -- wall time = 19246.008 sec Available RAM: MemAvailable: 496292596 kB Available Swap: SwapFree: 1055101980 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 377 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446836 | --> Sampling calibration, mode = relcal | relcal = 1.3438368E-02 7.2962226E-04 -1.5901332E-03 -1.2577857E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1710574 0.1852521 97034927.9466200 | BP delta = 0.1762650 0.1904597 97034929.1048729 | BP chisq diff = 1.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632374 | --> Sampling calibration, mode = relcal | relcal = -2.8207495E-03 -7.0436136E-04 1.6780890E-03 1.6146832E-03 -4.0813614E-04 6.4047484E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5621278 15221928.7298632 | BP delta = 0.0000000E+00 -0.5537090 15221931.4462396 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18122662055077 | --> Sampling calibration, mode = relcal | relcal = -7.4230410E-02 -5.8046050E-02 9.1048174E-02 4.1228294E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6708749E-04 3.5122223E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4220E-04 | 2: delta_r/delta_0: 3.6165E-06 | 3: delta_s/delta_0: 2.0923E-07 | 4: delta_r/delta_0: 1.8180E-08 | 5: delta_s/delta_0: 5.3915E-09 | 6: delta_r/delta_0: 1.0378E-09 | 7: delta_s/delta_0: 1.9735E-08 | 8: delta_r/delta_0: 1.3869E-10 | 9: delta_s/delta_0: 1.5143E-10 | 10: delta_r/delta_0: 4.0309E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.647510744835575E-004 2.740663210775970E-005 | BP delta = 9.3823284E-02 0.1167106 50491915.9449919 | BP delta = 8.8607125E-02 0.1114944 50491912.7838181 | BP chisq diff = -3.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599810 | --> Sampling calibration, mode = relcal | relcal = -0.1066831 -9.5472276E-02 0.1448643 5.7291105E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9616384E-03 1.3819546E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5071E-05 | 2: delta_r/delta_0: 1.1533E-06 | 3: delta_s/delta_0: 2.3626E-07 | 4: delta_r/delta_0: 5.8813E-08 | 5: delta_s/delta_0: 1.5132E-08 | 6: delta_r/delta_0: 7.7413E-09 | 7: delta_s/delta_0: 3.5745E-07 | 8: delta_r/delta_0: 1.6155E-08 | 9: delta_s/delta_0: 8.9115E-10 | 10: delta_r/delta_0: 4.0639E-10 | 11: delta_s/delta_0: 2.7627E-09 | 12: delta_r/delta_0: 4.0878E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.444230327079955E-003 2.810795966090086E-005 | BP delta = -0.2457269 -0.2108701 57392403.4213205 | BP delta = -0.2366861 -0.2018293 57392402.1786548 | BP chisq diff = -1.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81220804 | --> Sampling calibration, mode = relcal | relcal = 0.2955049 0.2248102 -0.2837687 -0.2365464 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6568401E-04 5.1812120E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.5267E-02 | 2: delta_r/delta_0: 2.2502E-03 | 3: delta_s/delta_0: 1.8006E-03 | 4: delta_r/delta_0: 1.5434E-04 | 5: delta_s/delta_0: 4.1495E-05 | 6: delta_r/delta_0: 1.3517E-05 | 7: delta_s/delta_0: 4.7160E-05 | 8: delta_r/delta_0: 1.1259E-05 | 9: delta_s/delta_0: 2.4252E-05 | 10: delta_r/delta_0: 3.4051E-06 | 11: delta_s/delta_0: 2.8706E-07 | 12: delta_r/delta_0: 8.6702E-08 | 13: delta_s/delta_0: 1.1498E-07 | 14: delta_r/delta_0: 4.1263E-08 | 15: delta_s/delta_0: 5.9608E-09 | 16: delta_r/delta_0: 1.4100E-09 | 17: delta_s/delta_0: 6.1921E-10 | 18: delta_r/delta_0: 4.5879E-10 | 19: delta_s/delta_0: 4.7954E-10 | 20: delta_r/delta_0: 3.2000E-10 | 21: delta_s/delta_0: 3.0398E-10 | 22: delta_r/delta_0: 5.7313E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.227326603902093 4.021847910644692E-005 | BP delta = -9.4173975E-02 -0.1420446 72486154.9884472 | BP delta = -5.4175656E-02 -0.1020462 72486156.3287161 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95903743 | --> Sampling calibration, mode = relcal | relcal = 0.1064654 0.1394941 -0.1101705 -0.1357889 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6799433E-03 1.3900605E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6602E-03 | 2: delta_r/delta_0: 4.0148E-05 | 3: delta_s/delta_0: 2.1440E-05 | 4: delta_r/delta_0: 1.7924E-06 | 5: delta_s/delta_0: 8.9741E-07 | 6: delta_r/delta_0: 2.6600E-07 | 7: delta_s/delta_0: 4.8269E-07 | 8: delta_r/delta_0: 5.3686E-08 | 9: delta_s/delta_0: 4.6901E-04 | 10: delta_r/delta_0: 1.7185E-04 | 11: delta_s/delta_0: 3.7917E-09 | 12: delta_r/delta_0: 2.2436E-09 | 13: delta_s/delta_0: 1.1506E-09 | 14: delta_r/delta_0: 7.0524E-10 | 15: delta_s/delta_0: 1.0963E-10 | 16: delta_r/delta_0: 6.8025E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.823632384807444E-002 3.697597216387299E-005 | BP delta = 0.2104287 0.3215716 72786101.0650546 | BP delta = 0.1777167 0.2888595 72786099.9434766 | BP chisq diff = -1.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157450 | New value = -3.130403 | poltype: 2 pol: 1 CPU time specind = 1.3981819E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.100436 | New value = -3.157720 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125398 | New value = -3.133606 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181743 | New value = -3.204765 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.258013 | New value = -3.111136 | poltype: 2 pol: 2 CPU time specind = 2.6431084E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.13561E+08, tol = 0.81759E+01, time = 5.70 | CG iter. 2 -- res = 0.31964E+06, tol = 0.81759E+01, time = 5.66 | CG iter. 3 -- res = 0.46999E+05, tol = 0.81759E+01, time = 5.55 | CG iter. 4 -- res = 0.22699E+05, tol = 0.81759E+01, time = 5.97 | CG iter. 5 -- res = 0.12671E+05, tol = 0.81759E+01, time = 5.65 | CG iter. 6 -- res = 0.81423E+04, tol = 0.81759E+01, time = 5.72 | CG iter. 7 -- res = 0.64717E+04, tol = 0.81759E+01, time = 6.01 | CG iter. 8 -- res = 0.51558E+04, tol = 0.81759E+01, time = 5.88 | CG iter. 9 -- res = 0.46655E+04, tol = 0.81759E+01, time = 5.70 | CG iter. 10 -- res = 0.46849E+04, tol = 0.81759E+01, time = 5.70 | CG iter. 11 -- res = 0.37979E+04, tol = 0.81759E+01, time = 5.89 | CG iter. 12 -- res = 0.25667E+04, tol = 0.81759E+01, time = 12.42 | CG iter. 13 -- res = 0.16449E+04, tol = 0.81759E+01, time = 5.92 | CG iter. 14 -- res = 0.12960E+04, tol = 0.81759E+01, time = 5.62 | CG iter. 15 -- res = 0.11042E+04, tol = 0.81759E+01, time = 5.76 | CG iter. 16 -- res = 0.89331E+03, tol = 0.81759E+01, time = 5.52 | CG iter. 17 -- res = 0.65179E+03, tol = 0.81759E+01, time = 6.06 | CG iter. 18 -- res = 0.49044E+03, tol = 0.81759E+01, time = 5.98 | CG iter. 19 -- res = 0.39947E+03, tol = 0.81759E+01, time = 6.32 | CG iter. 20 -- res = 0.31157E+03, tol = 0.81759E+01, time = 5.54 | CG iter. 21 -- res = 0.20868E+03, tol = 0.81759E+01, time = 5.92 | CG iter. 22 -- res = 0.14888E+03, tol = 0.81759E+01, time = 5.85 | CG iter. 23 -- res = 0.12012E+03, tol = 0.81759E+01, time = 5.69 | CG iter. 24 -- res = 0.96494E+02, tol = 0.81759E+01, time = 5.54 | CG iter. 25 -- res = 0.72404E+02, tol = 0.81759E+01, time = 6.01 | CG iter. 26 -- res = 0.52749E+02, tol = 0.81759E+01, time = 6.40 | CG iter. 27 -- res = 0.40222E+02, tol = 0.81759E+01, time = 6.91 | CG iter. 28 -- res = 0.32705E+02, tol = 0.81759E+01, time = 6.42 | CG iter. 29 -- res = 0.25343E+02, tol = 0.81759E+01, time = 5.83 | CG iter. 30 -- res = 0.17578E+02, tol = 0.81759E+01, time = 5.97 | CG iter. 31 -- res = 0.13617E+02, tol = 0.81759E+01, time = 5.43 | CG iter. 32 -- res = 0.11074E+02, tol = 0.81759E+01, time = 5.55 | CG iter. 33 -- res = 0.86347E+01, tol = 0.81759E+01, time = 5.78 | CG iter. 34 -- res = 0.60594E+01, tol = 0.81759E+01, time = 5.76 | CG iter. 35 -- res = 0.42967E+01, tol = 0.81759E+01, time = 5.96 | CG iter. 36 -- res = 0.34627E+01, tol = 0.81759E+01, time = 5.56 | CG iter. 37 -- res = 0.28021E+01, tol = 0.81759E+01, time = 5.98 | CG iter. 38 -- res = 0.20574E+01, tol = 0.81759E+01, time = 5.85 | CG iter. 39 -- res = 0.14602E+01, tol = 0.81759E+01, time = 5.84 | CG iter. 40 -- res = 0.11573E+01, tol = 0.81759E+01, time = 5.73 | CG iter. 41 -- res = 0.92569E+00, tol = 0.81759E+01, time = 5.91 | CG iter. 42 -- res = 0.69833E+00, tol = 0.81759E+01, time = 5.69 | CG iter. 43 -- res = 0.50065E+00, tol = 0.81759E+01, time = 5.85 | CG iter. 44 -- res = 0.38793E+00, tol = 0.81759E+01, time = 5.91 | CG iter. 45 -- res = 0.30440E+00, tol = 0.81759E+01, time = 6.16 | CG iter. 46 -- res = 0.23948E+00, tol = 0.81759E+01, time = 6.03 | CG iter. 47 -- res = 0.17299E+00, tol = 0.81759E+01, time = 5.79 | CG iter. 48 -- res = 0.12770E+00, tol = 0.81759E+01, time = 5.77 | CG iter. 49 -- res = 0.99169E-01, tol = 0.81759E+01, time = 6.00 | CG iter. 50 -- res = 0.79971E-01, tol = 0.81759E+01, time = 5.35 | Final CG iter 51 -- res = 0.79971E-01, tol = 0.81759E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10937153.183 | Old band monopole 8574885.224 | Change to band monopole 2362267.959 | Change to component monopole -2362257.798 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.14174E+05, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.24406E+02, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.86058E+00, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.21147E-02, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.21986E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10937106.140 | (Sampled value in CG: 10964321.193 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.456264 | New value = 1.560012 | poltype: 2 pol: 1 CPU time specind = 1.7624855E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496982 | New value = 1.494184 | poltype: 2 pol: 2 CPU time specind = 2.0477772E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.26328E+08, tol = 0.47796E+04, time = 6.78 | CG iter. 2 -- res = 0.54139E+07, tol = 0.47796E+04, time = 6.72 | CG iter. 3 -- res = 0.84455E+06, tol = 0.47796E+04, time = 6.89 | CG iter. 4 -- res = 0.35544E+06, tol = 0.47796E+04, time = 6.64 | CG iter. 5 -- res = 0.15008E+06, tol = 0.47796E+04, time = 6.91 | CG iter. 6 -- res = 0.79318E+05, tol = 0.47796E+04, time = 7.52 | CG iter. 7 -- res = 0.43497E+05, tol = 0.47796E+04, time = 7.25 | CG iter. 8 -- res = 0.20513E+05, tol = 0.47796E+04, time = 7.82 | CG iter. 9 -- res = 0.91499E+04, tol = 0.47796E+04, time = 6.95 | CG iter. 10 -- res = 0.37335E+04, tol = 0.47796E+04, time = 6.68 | CG iter. 11 -- res = 0.17038E+04, tol = 0.47796E+04, time = 6.58 | CG iter. 12 -- res = 0.88566E+03, tol = 0.47796E+04, time = 6.60 | CG iter. 13 -- res = 0.49996E+03, tol = 0.47796E+04, time = 6.64 | CG iter. 14 -- res = 0.27647E+03, tol = 0.47796E+04, time = 6.33 | CG iter. 15 -- res = 0.14318E+03, tol = 0.47796E+04, time = 6.69 | CG iter. 16 -- res = 0.68932E+02, tol = 0.47796E+04, time = 6.58 | CG iter. 17 -- res = 0.32552E+02, tol = 0.47796E+04, time = 6.80 | CG iter. 18 -- res = 0.16274E+02, tol = 0.47796E+04, time = 6.70 | CG iter. 19 -- res = 0.88210E+01, tol = 0.47796E+04, time = 6.50 | CG iter. 20 -- res = 0.50367E+01, tol = 0.47796E+04, time = 6.75 | CG iter. 21 -- res = 0.27820E+01, tol = 0.47796E+04, time = 6.42 | CG iter. 22 -- res = 0.14195E+01, tol = 0.47796E+04, time = 6.66 | CG iter. 23 -- res = 0.72638E+00, tol = 0.47796E+04, time = 6.82 | CG iter. 24 -- res = 0.36854E+00, tol = 0.47796E+04, time = 6.57 | CG iter. 25 -- res = 0.20085E+00, tol = 0.47796E+04, time = 6.84 | CG iter. 26 -- res = 0.11358E+00, tol = 0.47796E+04, time = 6.63 | CG iter. 27 -- res = 0.63400E-01, tol = 0.47796E+04, time = 6.58 | CG iter. 28 -- res = 0.33505E-01, tol = 0.47796E+04, time = 6.80 | CG iter. 29 -- res = 0.17691E-01, tol = 0.47796E+04, time = 6.43 | CG iter. 30 -- res = 0.95538E-02, tol = 0.47796E+04, time = 6.95 | CG iter. 31 -- res = 0.51868E-02, tol = 0.47796E+04, time = 6.29 | CG iter. 32 -- res = 0.29216E-02, tol = 0.47796E+04, time = 7.03 | CG iter. 33 -- res = 0.16227E-02, tol = 0.47796E+04, time = 6.72 | CG iter. 34 -- res = 0.86273E-03, tol = 0.47796E+04, time = 6.59 | CG iter. 35 -- res = 0.45218E-03, tol = 0.47796E+04, time = 6.66 | Final CG iter 36 -- res = 0.45218E-03, tol = 0.47796E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 7.853 2.728 | New value 0.698 | Old value 7.853 | Difference -7.155 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.26754E+07, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.46301E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.18745E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.34864E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.16133E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10937106.140 | (Sampled value in CG: 10964702.040 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.520698 | New value = -3.705092 | poltype: 1 pol: 1 CPU time specind = 1.4344931E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.24394E+07, tol = 0.22057E+01, time = 2.68 | CG iter. 2 -- res = 0.68935E+06, tol = 0.22057E+01, time = 2.93 | CG iter. 3 -- res = 0.13829E+06, tol = 0.22057E+01, time = 2.70 | CG iter. 4 -- res = 0.65145E+05, tol = 0.22057E+01, time = 2.51 | CG iter. 5 -- res = 0.41174E+05, tol = 0.22057E+01, time = 2.49 | CG iter. 6 -- res = 0.19216E+05, tol = 0.22057E+01, time = 2.77 | CG iter. 7 -- res = 0.69653E+04, tol = 0.22057E+01, time = 2.60 | CG iter. 8 -- res = 0.30483E+04, tol = 0.22057E+01, time = 9.25 | CG iter. 9 -- res = 0.14099E+04, tol = 0.22057E+01, time = 2.90 | CG iter. 10 -- res = 0.53990E+03, tol = 0.22057E+01, time = 2.86 | CG iter. 11 -- res = 0.22488E+03, tol = 0.22057E+01, time = 2.69 | CG iter. 12 -- res = 0.11331E+03, tol = 0.22057E+01, time = 2.93 | CG iter. 13 -- res = 0.55854E+02, tol = 0.22057E+01, time = 2.96 | CG iter. 14 -- res = 0.27443E+02, tol = 0.22057E+01, time = 2.79 | CG iter. 15 -- res = 0.11107E+02, tol = 0.22057E+01, time = 2.62 | CG iter. 16 -- res = 0.46778E+01, tol = 0.22057E+01, time = 2.69 | CG iter. 17 -- res = 0.19972E+01, tol = 0.22057E+01, time = 2.61 | CG iter. 18 -- res = 0.98205E+00, tol = 0.22057E+01, time = 2.78 | CG iter. 19 -- res = 0.48980E+00, tol = 0.22057E+01, time = 2.87 | CG iter. 20 -- res = 0.24062E+00, tol = 0.22057E+01, time = 2.68 | CG iter. 21 -- res = 0.10758E+00, tol = 0.22057E+01, time = 2.91 | CG iter. 22 -- res = 0.49039E-01, tol = 0.22057E+01, time = 2.79 | CG iter. 23 -- res = 0.21530E-01, tol = 0.22057E+01, time = 2.49 | CG iter. 24 -- res = 0.10058E-01, tol = 0.22057E+01, time = 2.87 | CG iter. 25 -- res = 0.51476E-02, tol = 0.22057E+01, time = 3.05 | CG iter. 26 -- res = 0.25198E-02, tol = 0.22057E+01, time = 2.59 | CG iter. 27 -- res = 0.12112E-02, tol = 0.22057E+01, time = 2.76 | CG iter. 28 -- res = 0.55275E-03, tol = 0.22057E+01, time = 2.55 | CG iter. 29 -- res = 0.25333E-03, tol = 0.22057E+01, time = 2.60 | CG iter. 30 -- res = 0.12277E-03, tol = 0.22057E+01, time = 2.60 | CG iter. 31 -- res = 0.64372E-04, tol = 0.22057E+01, time = 2.77 | CG iter. 32 -- res = 0.32530E-04, tol = 0.22057E+01, time = 2.81 | CG iter. 33 -- res = 0.15544E-04, tol = 0.22057E+01, time = 2.57 | CG iter. 34 -- res = 0.67411E-05, tol = 0.22057E+01, time = 2.72 | CG iter. 35 -- res = 0.31643E-05, tol = 0.22057E+01, time = 2.84 | CG iter. 36 -- res = 0.14885E-05, tol = 0.22057E+01, time = 2.40 | CG iter. 37 -- res = 0.75932E-06, tol = 0.22057E+01, time = 2.47 | CG iter. 38 -- res = 0.38135E-06, tol = 0.22057E+01, time = 2.94 | CG iter. 39 -- res = 0.17462E-06, tol = 0.22057E+01, time = 4.36 | CG iter. 40 -- res = 0.77246E-07, tol = 0.22057E+01, time = 3.33 | CG iter. 41 -- res = 0.36424E-07, tol = 0.22057E+01, time = 2.94 | CG iter. 42 -- res = 0.17959E-07, tol = 0.22057E+01, time = 3.14 | CG iter. 43 -- res = 0.89667E-08, tol = 0.22057E+01, time = 2.67 | CG iter. 44 -- res = 0.42932E-08, tol = 0.22057E+01, time = 2.66 | CG iter. 45 -- res = 0.19676E-08, tol = 0.22057E+01, time = 2.92 | CG iter. 46 -- res = 0.88172E-09, tol = 0.22057E+01, time = 2.79 | CG iter. 47 -- res = 0.42207E-09, tol = 0.22057E+01, time = 2.78 | CG iter. 48 -- res = 0.21439E-09, tol = 0.22057E+01, time = 3.16 | CG iter. 49 -- res = 0.10415E-09, tol = 0.22057E+01, time = 2.54 | CG iter. 50 -- res = 0.48005E-10, tol = 0.22057E+01, time = 2.81 | Final CG iter 51 -- res = 0.48005E-10, tol = 0.22057E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.795 5.596 | New value 1.894 | Old value 4.795 | Difference -2.901 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.90910E+04, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.24667E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.65579E+00, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.14074E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.19517E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10937106.140 | (Sampled value in CG: 10960200.569 ) | CPU time specind = 1198.464 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.75511E+08, tol = 0.57932E+04, time = 11.51 | CG iter. 2 -- res = 0.61877E+08, tol = 0.57932E+04, time = 12.07 | CG iter. 3 -- res = 0.16337E+08, tol = 0.57932E+04, time = 12.04 | CG iter. 4 -- res = 0.73327E+07, tol = 0.57932E+04, time = 11.89 | CG iter. 5 -- res = 0.46015E+07, tol = 0.57932E+04, time = 11.53 | CG iter. 6 -- res = 0.26519E+07, tol = 0.57932E+04, time = 11.91 | CG iter. 7 -- res = 0.15462E+07, tol = 0.57932E+04, time = 12.21 | CG iter. 8 -- res = 0.99150E+06, tol = 0.57932E+04, time = 17.72 | CG iter. 9 -- res = 0.63658E+06, tol = 0.57932E+04, time = 12.15 | CG iter. 10 -- res = 0.38237E+06, tol = 0.57932E+04, time = 11.85 | CG iter. 11 -- res = 0.20908E+06, tol = 0.57932E+04, time = 11.92 | CG iter. 12 -- res = 0.11414E+06, tol = 0.57932E+04, time = 11.85 | CG iter. 13 -- res = 0.62353E+05, tol = 0.57932E+04, time = 12.32 | CG iter. 14 -- res = 0.35450E+05, tol = 0.57932E+04, time = 11.85 | CG iter. 15 -- res = 0.23026E+05, tol = 0.57932E+04, time = 13.96 | CG iter. 16 -- res = 0.16635E+05, tol = 0.57932E+04, time = 12.82 | CG iter. 17 -- res = 0.12814E+05, tol = 0.57932E+04, time = 12.08 | CG iter. 18 -- res = 0.10062E+05, tol = 0.57932E+04, time = 11.75 | CG iter. 19 -- res = 0.78529E+04, tol = 0.57932E+04, time = 11.61 | CG iter. 20 -- res = 0.62907E+04, tol = 0.57932E+04, time = 11.87 | CG iter. 21 -- res = 0.53945E+04, tol = 0.57932E+04, time = 12.22 | CG iter. 22 -- res = 0.52261E+04, tol = 0.57932E+04, time = 12.06 | CG iter. 23 -- res = 0.55130E+04, tol = 0.57932E+04, time = 11.74 | CG iter. 24 -- res = 0.60394E+04, tol = 0.57932E+04, time = 12.65 | CG iter. 25 -- res = 0.63311E+04, tol = 0.57932E+04, time = 11.92 | CG iter. 26 -- res = 0.59267E+04, tol = 0.57932E+04, time = 11.77 | CG iter. 27 -- res = 0.49419E+04, tol = 0.57932E+04, time = 11.91 | CG iter. 28 -- res = 0.39797E+04, tol = 0.57932E+04, time = 12.09 | CG iter. 29 -- res = 0.32315E+04, tol = 0.57932E+04, time = 12.12 | CG iter. 30 -- res = 0.26974E+04, tol = 0.57932E+04, time = 11.82 | CG iter. 31 -- res = 0.22777E+04, tol = 0.57932E+04, time = 12.12 | CG iter. 32 -- res = 0.18723E+04, tol = 0.57932E+04, time = 19.09 | CG iter. 33 -- res = 0.15102E+04, tol = 0.57932E+04, time = 12.27 | CG iter. 34 -- res = 0.12334E+04, tol = 0.57932E+04, time = 11.67 | CG iter. 35 -- res = 0.10202E+04, tol = 0.57932E+04, time = 12.00 | CG iter. 36 -- res = 0.88705E+03, tol = 0.57932E+04, time = 12.02 | CG iter. 37 -- res = 0.82132E+03, tol = 0.57932E+04, time = 12.03 | CG iter. 38 -- res = 0.80218E+03, tol = 0.57932E+04, time = 11.98 | CG iter. 39 -- res = 0.78519E+03, tol = 0.57932E+04, time = 13.43 | CG iter. 40 -- res = 0.72288E+03, tol = 0.57932E+04, time = 12.36 | CG iter. 41 -- res = 0.62604E+03, tol = 0.57932E+04, time = 12.08 | CG iter. 42 -- res = 0.52437E+03, tol = 0.57932E+04, time = 11.89 | CG iter. 43 -- res = 0.45110E+03, tol = 0.57932E+04, time = 12.50 | CG iter. 44 -- res = 0.39498E+03, tol = 0.57932E+04, time = 11.86 | CG iter. 45 -- res = 0.34952E+03, tol = 0.57932E+04, time = 12.14 | CG iter. 46 -- res = 0.31043E+03, tol = 0.57932E+04, time = 12.29 | CG iter. 47 -- res = 0.26967E+03, tol = 0.57932E+04, time = 11.91 | CG iter. 48 -- res = 0.22560E+03, tol = 0.57932E+04, time = 12.11 | CG iter. 49 -- res = 0.18604E+03, tol = 0.57932E+04, time = 12.19 | CG iter. 50 -- res = 0.15842E+03, tol = 0.57932E+04, time = 11.92 | CG iter. 51 -- res = 0.14065E+03, tol = 0.57932E+04, time = 12.08 | CG iter. 52 -- res = 0.13192E+03, tol = 0.57932E+04, time = 11.71 | CG iter. 53 -- res = 0.12603E+03, tol = 0.57932E+04, time = 11.96 | CG iter. 54 -- res = 0.11837E+03, tol = 0.57932E+04, time = 12.01 | CG iter. 55 -- res = 0.10902E+03, tol = 0.57932E+04, time = 11.93 | CG iter. 56 -- res = 0.96812E+02, tol = 0.57932E+04, time = 12.96 | CG iter. 57 -- res = 0.83397E+02, tol = 0.57932E+04, time = 16.96 | CG iter. 58 -- res = 0.73429E+02, tol = 0.57932E+04, time = 11.88 | CG iter. 59 -- res = 0.67313E+02, tol = 0.57932E+04, time = 11.72 | CG iter. 60 -- res = 0.62562E+02, tol = 0.57932E+04, time = 12.09 | Final CG iter 61 -- res = 0.62562E+02, tol = 0.57932E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.808 ( -230.175 -2230.877 2513.511 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6603525.973 | Old band monopole 10937153.183 | Change to band monopole -4333627.211 | Change to component monopole 4333608.571 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.653 2.736 | New value -0.360 | Old value 0.653 | Difference -1.013 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.748 ( 7.128 11.398 -11.277 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.322 4.383 | New value 9.186 | Old value 5.322 | Difference 3.864 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.62775E+06, tol = 0.47627E+18, time = 2.71 | CG iter. 2 -- res = 0.18889E+03, tol = 0.47627E+18, time = 2.89 | CG iter. 3 -- res = 0.39799E+01, tol = 0.47627E+18, time = 2.30 | CG iter. 4 -- res = 0.14091E-02, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.30465E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6603497.569 | (Sampled value in CG: 6592287.297 ) | Chain = 1 -- chisq = 0.81476815E+09 | Chain = 1 -- wall time = 5815.394 sec Available RAM: MemAvailable: 417166408 kB Available Swap: SwapFree: 1102657052 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 378 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445454 | --> Sampling calibration, mode = relcal | relcal = 1.3430506E-02 7.3353911E-04 -1.5862362E-03 -1.2577808E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1762650 0.1904597 9409315.75887427 | BP delta = 0.1762650 0.1870170 9409321.07798262 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632387 | --> Sampling calibration, mode = relcal | relcal = -2.8204394E-03 -7.0538186E-04 1.6775113E-03 1.6133328E-03 -4.0733404E-04 6.4231129E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5621278 15218815.0106555 | BP delta = 0.0000000E+00 -0.5612693 15218816.2389107 | BP chisq diff = 1.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18264643580498 | --> Sampling calibration, mode = relcal | relcal = -7.5206690E-02 -5.8626320E-02 9.2068009E-02 4.1765004E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0283820E-04 4.7592837E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1176E-05 | 2: delta_r/delta_0: 9.3782E-07 | 3: delta_s/delta_0: 2.0520E-07 | 4: delta_r/delta_0: 1.9773E-08 | 5: delta_s/delta_0: 8.3807E-09 | 6: delta_r/delta_0: 1.3193E-09 | 7: delta_s/delta_0: 2.4875E-10 | 8: delta_r/delta_0: 1.1744E-10 | 9: delta_s/delta_0: 4.2231E-10 | 10: delta_r/delta_0: 1.3220E-10 | 11: delta_s/delta_0: 3.1314E-10 | 12: delta_r/delta_0: 1.2554E-10 | 13: delta_s/delta_0: 8.9945E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.204688938219233E-003 2.737262831404882E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1176E-05 | 2: delta_r/delta_0: 9.3781E-07 | 3: delta_s/delta_0: 2.0520E-07 | 4: delta_r/delta_0: 1.9774E-08 | 5: delta_s/delta_0: 8.3822E-09 | 6: delta_r/delta_0: 1.3194E-09 | 7: delta_s/delta_0: 2.4875E-10 | 8: delta_r/delta_0: 1.1745E-10 | 9: delta_s/delta_0: 4.2234E-10 | 10: delta_r/delta_0: 1.3222E-10 | 11: delta_s/delta_0: 3.1293E-10 | 12: delta_r/delta_0: 1.2546E-10 | 13: delta_s/delta_0: 8.9951E-12 | Reached bicg-stab tolerance | BP delta = 8.8607125E-02 0.1114944 3524201.71966705 | BP delta = 8.8607125E-02 0.1117307 3523255.62783398 | BP chisq diff = -946.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02610248 | --> Sampling calibration, mode = relcal | relcal = -0.1067099 -9.5543578E-02 0.1449694 5.7284128E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0655116E-03 1.6291403E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4378E-05 | 2: delta_r/delta_0: 1.5724E-06 | 3: delta_s/delta_0: 2.5032E-07 | 4: delta_r/delta_0: 3.6039E-08 | 5: delta_s/delta_0: 2.8556E-08 | 6: delta_r/delta_0: 6.7625E-09 | 7: delta_s/delta_0: 4.6411E-09 | 8: delta_r/delta_0: 1.8992E-09 | 9: delta_s/delta_0: 8.1651E-10 | 10: delta_r/delta_0: 6.0862E-10 | 11: delta_s/delta_0: 1.3929E-09 | 12: delta_r/delta_0: 9.8583E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.004153095552313E-002 2.810549820265105E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.4377E-05 | 2: delta_r/delta_0: 1.5723E-06 | 3: delta_s/delta_0: 2.5031E-07 | 4: delta_r/delta_0: 3.6018E-08 | 5: delta_s/delta_0: 2.8578E-08 | 6: delta_r/delta_0: 6.7631E-09 | 7: delta_s/delta_0: 4.6432E-09 | 8: delta_r/delta_0: 1.8989E-09 | 9: delta_s/delta_0: 8.1636E-10 | 10: delta_r/delta_0: 6.0851E-10 | 11: delta_s/delta_0: 1.3930E-09 | 12: delta_r/delta_0: 9.8560E-11 | Reached bicg-stab tolerance | BP delta = -0.2366861 -0.2018293 2841528.61234916 | BP delta = -0.2366861 -0.2022896 2841547.36632768 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81229770 | --> Sampling calibration, mode = relcal | relcal = 0.2954037 0.2248841 -0.2837511 -0.2365366 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.7962276E-04 5.5713532E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9982E-02 | 2: delta_r/delta_0: 1.6510E-03 | 3: delta_s/delta_0: 1.4829E-04 | 4: delta_r/delta_0: 4.7276E-06 | 5: delta_s/delta_0: 1.6558E-06 | 6: delta_r/delta_0: 6.9425E-07 | 7: delta_s/delta_0: 6.9485E-07 | 8: delta_r/delta_0: 1.6812E-07 | 9: delta_s/delta_0: 4.8567E-07 | 10: delta_r/delta_0: 5.8764E-08 | 11: delta_s/delta_0: 8.9959E-09 | 12: delta_r/delta_0: 2.8435E-09 | 13: delta_s/delta_0: 3.2071E-10 | 14: delta_r/delta_0: 1.6724E-10 | 15: delta_s/delta_0: 1.8632E-10 | 16: delta_r/delta_0: 9.1435E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.329611550510865E-002 4.021301257970964E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9836E-02 | 2: delta_r/delta_0: 1.6475E-03 | 3: delta_s/delta_0: 1.4824E-04 | 4: delta_r/delta_0: 4.7278E-06 | 5: delta_s/delta_0: 1.6553E-06 | 6: delta_r/delta_0: 6.9400E-07 | 7: delta_s/delta_0: 6.9506E-07 | 8: delta_r/delta_0: 1.6801E-07 | 9: delta_s/delta_0: 4.8506E-07 | 10: delta_r/delta_0: 5.8791E-08 | 11: delta_s/delta_0: 8.9942E-09 | 12: delta_r/delta_0: 2.8429E-09 | 13: delta_s/delta_0: 3.2075E-10 | 14: delta_r/delta_0: 1.6722E-10 | 15: delta_s/delta_0: 1.8631E-10 | 16: delta_r/delta_0: 9.1408E-11 | Reached bicg-stab tolerance | BP delta = -9.4173975E-02 -0.1420446 2826963.03763355 | BP delta = -9.4173975E-02 -0.1447514 2826951.84314333 | BP chisq diff = -11.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95914476 | --> Sampling calibration, mode = relcal | relcal = 0.1066428 0.1396078 -0.1103160 -0.1359346 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0286599E-02 1.3729703E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.2981E-04 | 2: delta_r/delta_0: 2.0127E-05 | 3: delta_s/delta_0: 4.1052E-05 | 4: delta_r/delta_0: 1.7302E-06 | 5: delta_s/delta_0: 3.5998E-07 | 6: delta_r/delta_0: 1.5077E-07 | 7: delta_s/delta_0: 2.0268E-07 | 8: delta_r/delta_0: 4.1162E-08 | 9: delta_s/delta_0: 1.2031E-08 | 10: delta_r/delta_0: 5.3241E-09 | 11: delta_s/delta_0: 1.8799E-09 | 12: delta_r/delta_0: 1.3730E-09 | 13: delta_s/delta_0: 1.8845E-10 | 14: delta_r/delta_0: 1.4912E-10 | 15: delta_s/delta_0: 1.3875E-10 | 16: delta_r/delta_0: 1.0558E-10 | 17: delta_s/delta_0: 2.5275E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.348081268386930E-002 3.697344731821230E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.2988E-04 | 2: delta_r/delta_0: 2.0129E-05 | 3: delta_s/delta_0: 4.1056E-05 | 4: delta_r/delta_0: 1.7301E-06 | 5: delta_s/delta_0: 3.5999E-07 | 6: delta_r/delta_0: 1.5077E-07 | 7: delta_s/delta_0: 2.0266E-07 | 8: delta_r/delta_0: 4.1162E-08 | 9: delta_s/delta_0: 1.2031E-08 | 10: delta_r/delta_0: 5.3262E-09 | 11: delta_s/delta_0: 1.8811E-09 | 12: delta_r/delta_0: 1.3736E-09 | 13: delta_s/delta_0: 1.8830E-10 | 14: delta_r/delta_0: 1.4897E-10 | 15: delta_s/delta_0: 1.3868E-10 | 16: delta_r/delta_0: 1.0558E-10 | 17: delta_s/delta_0: 2.5266E-11 | Reached bicg-stab tolerance | BP delta = 0.1777167 0.2888595 3003871.86877580 | BP delta = 0.1777167 0.2919488 3003856.33241349 | BP chisq diff = -15.5, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.130403 | New value = -3.074544 | poltype: 2 pol: 1 CPU time specind = 1.6968012E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157720 | New value = -3.101944 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133606 | New value = -3.113670 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.204765 | New value = -3.187224 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111136 | New value = -3.147299 | poltype: 2 pol: 2 CPU time specind = 4.4441223E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.43 | CG iter. 1 -- res = 0.13668E+08, tol = 0.99953E+01, time = 5.66 | CG iter. 2 -- res = 0.35784E+06, tol = 0.99953E+01, time = 5.53 | CG iter. 3 -- res = 0.10143E+06, tol = 0.99953E+01, time = 5.54 | CG iter. 4 -- res = 0.11037E+06, tol = 0.99953E+01, time = 5.98 | CG iter. 5 -- res = 0.10783E+06, tol = 0.99953E+01, time = 5.62 | CG iter. 6 -- res = 0.10840E+06, tol = 0.99953E+01, time = 5.79 | CG iter. 7 -- res = 0.85637E+05, tol = 0.99953E+01, time = 5.70 | CG iter. 8 -- res = 0.58985E+05, tol = 0.99953E+01, time = 5.72 | CG iter. 9 -- res = 0.47267E+05, tol = 0.99953E+01, time = 5.69 | CG iter. 10 -- res = 0.36917E+05, tol = 0.99953E+01, time = 5.33 | CG iter. 11 -- res = 0.25506E+05, tol = 0.99953E+01, time = 6.01 | CG iter. 12 -- res = 0.18413E+05, tol = 0.99953E+01, time = 5.82 | CG iter. 13 -- res = 0.14582E+05, tol = 0.99953E+01, time = 6.24 | CG iter. 14 -- res = 0.12170E+05, tol = 0.99953E+01, time = 5.91 | CG iter. 15 -- res = 0.93099E+04, tol = 0.99953E+01, time = 5.87 | CG iter. 16 -- res = 0.59698E+04, tol = 0.99953E+01, time = 5.74 | CG iter. 17 -- res = 0.42426E+04, tol = 0.99953E+01, time = 5.77 | CG iter. 18 -- res = 0.35323E+04, tol = 0.99953E+01, time = 5.09 | CG iter. 19 -- res = 0.29854E+04, tol = 0.99953E+01, time = 5.60 | CG iter. 20 -- res = 0.22400E+04, tol = 0.99953E+01, time = 5.80 | CG iter. 21 -- res = 0.15861E+04, tol = 0.99953E+01, time = 5.54 | CG iter. 22 -- res = 0.12810E+04, tol = 0.99953E+01, time = 5.56 | CG iter. 23 -- res = 0.10916E+04, tol = 0.99953E+01, time = 5.79 | CG iter. 24 -- res = 0.84566E+03, tol = 0.99953E+01, time = 5.58 | CG iter. 25 -- res = 0.60458E+03, tol = 0.99953E+01, time = 5.62 | CG iter. 26 -- res = 0.49027E+03, tol = 0.99953E+01, time = 5.66 | CG iter. 27 -- res = 0.42247E+03, tol = 0.99953E+01, time = 5.47 | CG iter. 28 -- res = 0.33655E+03, tol = 0.99953E+01, time = 5.76 | CG iter. 29 -- res = 0.24635E+03, tol = 0.99953E+01, time = 5.82 | CG iter. 30 -- res = 0.18941E+03, tol = 0.99953E+01, time = 12.03 | CG iter. 31 -- res = 0.15425E+03, tol = 0.99953E+01, time = 5.61 | CG iter. 32 -- res = 0.12711E+03, tol = 0.99953E+01, time = 5.95 | CG iter. 33 -- res = 0.93542E+02, tol = 0.99953E+01, time = 5.56 | CG iter. 34 -- res = 0.68416E+02, tol = 0.99953E+01, time = 5.66 | CG iter. 35 -- res = 0.54418E+02, tol = 0.99953E+01, time = 5.80 | CG iter. 36 -- res = 0.44008E+02, tol = 0.99953E+01, time = 5.26 | CG iter. 37 -- res = 0.32184E+02, tol = 0.99953E+01, time = 5.78 | CG iter. 38 -- res = 0.23694E+02, tol = 0.99953E+01, time = 5.66 | CG iter. 39 -- res = 0.17535E+02, tol = 0.99953E+01, time = 5.66 | CG iter. 40 -- res = 0.13821E+02, tol = 0.99953E+01, time = 5.66 | CG iter. 41 -- res = 0.10671E+02, tol = 0.99953E+01, time = 5.73 | CG iter. 42 -- res = 0.75174E+01, tol = 0.99953E+01, time = 5.70 | CG iter. 43 -- res = 0.56860E+01, tol = 0.99953E+01, time = 5.67 | CG iter. 44 -- res = 0.44305E+01, tol = 0.99953E+01, time = 5.69 | CG iter. 45 -- res = 0.33415E+01, tol = 0.99953E+01, time = 7.00 | CG iter. 46 -- res = 0.24659E+01, tol = 0.99953E+01, time = 6.50 | CG iter. 47 -- res = 0.17892E+01, tol = 0.99953E+01, time = 5.73 | CG iter. 48 -- res = 0.13374E+01, tol = 0.99953E+01, time = 5.81 | CG iter. 49 -- res = 0.10243E+01, tol = 0.99953E+01, time = 5.62 | CG iter. 50 -- res = 0.72788E+00, tol = 0.99953E+01, time = 5.90 | Final CG iter 51 -- res = 0.72788E+00, tol = 0.99953E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 12587019.838 | Old band monopole 6603525.973 | Change to band monopole 5983493.865 | Change to component monopole -5983468.129 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.21505E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.15595E+03, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.29302E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.25697E-01, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.16573E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12586965.698 | (Sampled value in CG: 12683296.852 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.560012 | New value = 1.439051 | poltype: 2 pol: 1 CPU time specind = 1.4643908E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.494184 | New value = 1.492752 | poltype: 2 pol: 2 CPU time specind = 1.8988132E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.27016E+08, tol = 0.47419E+04, time = 6.37 | CG iter. 2 -- res = 0.55270E+07, tol = 0.47419E+04, time = 6.22 | CG iter. 3 -- res = 0.84431E+06, tol = 0.47419E+04, time = 6.25 | CG iter. 4 -- res = 0.35145E+06, tol = 0.47419E+04, time = 6.65 | CG iter. 5 -- res = 0.15528E+06, tol = 0.47419E+04, time = 6.65 | CG iter. 6 -- res = 0.82362E+05, tol = 0.47419E+04, time = 6.77 | CG iter. 7 -- res = 0.45409E+05, tol = 0.47419E+04, time = 6.48 | CG iter. 8 -- res = 0.21880E+05, tol = 0.47419E+04, time = 6.22 | CG iter. 9 -- res = 0.94298E+04, tol = 0.47419E+04, time = 6.79 | CG iter. 10 -- res = 0.37949E+04, tol = 0.47419E+04, time = 12.69 | CG iter. 11 -- res = 0.17095E+04, tol = 0.47419E+04, time = 6.49 | CG iter. 12 -- res = 0.89713E+03, tol = 0.47419E+04, time = 6.33 | CG iter. 13 -- res = 0.51788E+03, tol = 0.47419E+04, time = 7.01 | CG iter. 14 -- res = 0.28456E+03, tol = 0.47419E+04, time = 6.50 | CG iter. 15 -- res = 0.14278E+03, tol = 0.47419E+04, time = 6.82 | CG iter. 16 -- res = 0.67577E+02, tol = 0.47419E+04, time = 6.04 | CG iter. 17 -- res = 0.31661E+02, tol = 0.47419E+04, time = 6.38 | CG iter. 18 -- res = 0.16157E+02, tol = 0.47419E+04, time = 6.66 | CG iter. 19 -- res = 0.89497E+01, tol = 0.47419E+04, time = 6.31 | CG iter. 20 -- res = 0.50820E+01, tol = 0.47419E+04, time = 6.08 | CG iter. 21 -- res = 0.27350E+01, tol = 0.47419E+04, time = 6.16 | CG iter. 22 -- res = 0.13875E+01, tol = 0.47419E+04, time = 6.34 | CG iter. 23 -- res = 0.69477E+00, tol = 0.47419E+04, time = 8.01 | CG iter. 24 -- res = 0.35379E+00, tol = 0.47419E+04, time = 7.11 | CG iter. 25 -- res = 0.19279E+00, tol = 0.47419E+04, time = 7.00 | CG iter. 26 -- res = 0.10898E+00, tol = 0.47419E+04, time = 6.40 | CG iter. 27 -- res = 0.61508E-01, tol = 0.47419E+04, time = 6.72 | CG iter. 28 -- res = 0.33178E-01, tol = 0.47419E+04, time = 6.42 | CG iter. 29 -- res = 0.17271E-01, tol = 0.47419E+04, time = 6.39 | CG iter. 30 -- res = 0.91203E-02, tol = 0.47419E+04, time = 6.87 | CG iter. 31 -- res = 0.49648E-02, tol = 0.47419E+04, time = 6.42 | CG iter. 32 -- res = 0.27807E-02, tol = 0.47419E+04, time = 6.77 | CG iter. 33 -- res = 0.15614E-02, tol = 0.47419E+04, time = 6.51 | CG iter. 34 -- res = 0.84185E-03, tol = 0.47419E+04, time = 6.73 | CG iter. 35 -- res = 0.44023E-03, tol = 0.47419E+04, time = 6.59 | Final CG iter 36 -- res = 0.44023E-03, tol = 0.47419E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.344 2.731 | New value 7.674 | Old value -0.344 | Difference 8.018 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.33567E+07, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.15452E+03, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.30813E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.12661E-01, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.21173E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12586965.698 | (Sampled value in CG: 12684295.436 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.705092 | New value = -3.578165 | poltype: 1 pol: 1 CPU time specind = 1.4266968E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.45335E+07, tol = 0.24343E+01, time = 2.36 | CG iter. 2 -- res = 0.13298E+07, tol = 0.24343E+01, time = 2.48 | CG iter. 3 -- res = 0.34506E+06, tol = 0.24343E+01, time = 2.63 | CG iter. 4 -- res = 0.21688E+06, tol = 0.24343E+01, time = 2.87 | CG iter. 5 -- res = 0.11627E+06, tol = 0.24343E+01, time = 2.68 | CG iter. 6 -- res = 0.40268E+05, tol = 0.24343E+01, time = 2.72 | CG iter. 7 -- res = 0.13837E+05, tol = 0.24343E+01, time = 2.30 | CG iter. 8 -- res = 0.66213E+04, tol = 0.24343E+01, time = 2.90 | CG iter. 9 -- res = 0.31888E+04, tol = 0.24343E+01, time = 2.83 | CG iter. 10 -- res = 0.12462E+04, tol = 0.24343E+01, time = 2.60 | CG iter. 11 -- res = 0.50189E+03, tol = 0.24343E+01, time = 2.67 | CG iter. 12 -- res = 0.25124E+03, tol = 0.24343E+01, time = 2.45 | CG iter. 13 -- res = 0.12592E+03, tol = 0.24343E+01, time = 2.39 | CG iter. 14 -- res = 0.64037E+02, tol = 0.24343E+01, time = 2.80 | CG iter. 15 -- res = 0.29153E+02, tol = 0.24343E+01, time = 2.86 | CG iter. 16 -- res = 0.12702E+02, tol = 0.24343E+01, time = 2.75 | CG iter. 17 -- res = 0.54181E+01, tol = 0.24343E+01, time = 2.86 | CG iter. 18 -- res = 0.26103E+01, tol = 0.24343E+01, time = 2.71 | CG iter. 19 -- res = 0.12603E+01, tol = 0.24343E+01, time = 2.67 | CG iter. 20 -- res = 0.63198E+00, tol = 0.24343E+01, time = 2.75 | CG iter. 21 -- res = 0.30127E+00, tol = 0.24343E+01, time = 2.65 | CG iter. 22 -- res = 0.13083E+00, tol = 0.24343E+01, time = 2.79 | CG iter. 23 -- res = 0.58868E-01, tol = 0.24343E+01, time = 2.63 | CG iter. 24 -- res = 0.28533E-01, tol = 0.24343E+01, time = 2.54 | CG iter. 25 -- res = 0.13849E-01, tol = 0.24343E+01, time = 2.68 | CG iter. 26 -- res = 0.68225E-02, tol = 0.24343E+01, time = 2.71 | CG iter. 27 -- res = 0.34892E-02, tol = 0.24343E+01, time = 2.73 | CG iter. 28 -- res = 0.16861E-02, tol = 0.24343E+01, time = 2.80 | CG iter. 29 -- res = 0.75055E-03, tol = 0.24343E+01, time = 2.56 | CG iter. 30 -- res = 0.36463E-03, tol = 0.24343E+01, time = 2.91 | CG iter. 31 -- res = 0.17026E-03, tol = 0.24343E+01, time = 2.44 | CG iter. 32 -- res = 0.85456E-04, tol = 0.24343E+01, time = 2.82 | CG iter. 33 -- res = 0.45126E-04, tol = 0.24343E+01, time = 2.64 | CG iter. 34 -- res = 0.21717E-04, tol = 0.24343E+01, time = 2.76 | CG iter. 35 -- res = 0.10217E-04, tol = 0.24343E+01, time = 2.28 | CG iter. 36 -- res = 0.46657E-05, tol = 0.24343E+01, time = 2.58 | CG iter. 37 -- res = 0.22191E-05, tol = 0.24343E+01, time = 2.72 | CG iter. 38 -- res = 0.11229E-05, tol = 0.24343E+01, time = 2.60 | CG iter. 39 -- res = 0.55859E-06, tol = 0.24343E+01, time = 2.86 | CG iter. 40 -- res = 0.26614E-06, tol = 0.24343E+01, time = 2.62 | CG iter. 41 -- res = 0.12353E-06, tol = 0.24343E+01, time = 2.31 | CG iter. 42 -- res = 0.60013E-07, tol = 0.24343E+01, time = 2.80 | CG iter. 43 -- res = 0.26727E-07, tol = 0.24343E+01, time = 9.28 | CG iter. 44 -- res = 0.12730E-07, tol = 0.24343E+01, time = 2.63 | CG iter. 45 -- res = 0.64027E-08, tol = 0.24343E+01, time = 2.75 | CG iter. 46 -- res = 0.30197E-08, tol = 0.24343E+01, time = 2.63 | CG iter. 47 -- res = 0.15007E-08, tol = 0.24343E+01, time = 2.74 | CG iter. 48 -- res = 0.72144E-09, tol = 0.24343E+01, time = 3.23 | CG iter. 49 -- res = 0.31880E-09, tol = 0.24343E+01, time = 2.47 | CG iter. 50 -- res = 0.14649E-09, tol = 0.24343E+01, time = 2.55 | Final CG iter 51 -- res = 0.14649E-09, tol = 0.24343E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 15.580 3.539 | New value -2.359 | Old value 15.580 | Difference -17.939 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.31256E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.15105E+03, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.33879E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.23038E-01, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.47438E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12586965.698 | (Sampled value in CG: 12663775.076 ) | CPU time specind = 1201.516 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.79080E+08, tol = 0.57619E+04, time = 11.86 | CG iter. 2 -- res = 0.63498E+08, tol = 0.57619E+04, time = 11.82 | CG iter. 3 -- res = 0.17375E+08, tol = 0.57619E+04, time = 11.97 | CG iter. 4 -- res = 0.81027E+07, tol = 0.57619E+04, time = 11.90 | CG iter. 5 -- res = 0.52055E+07, tol = 0.57619E+04, time = 11.82 | CG iter. 6 -- res = 0.30169E+07, tol = 0.57619E+04, time = 11.80 | CG iter. 7 -- res = 0.17329E+07, tol = 0.57619E+04, time = 11.75 | CG iter. 8 -- res = 0.10969E+07, tol = 0.57619E+04, time = 12.72 | CG iter. 9 -- res = 0.68333E+06, tol = 0.57619E+04, time = 12.29 | CG iter. 10 -- res = 0.41959E+06, tol = 0.57619E+04, time = 11.96 | CG iter. 11 -- res = 0.24735E+06, tol = 0.57619E+04, time = 11.45 | CG iter. 12 -- res = 0.14807E+06, tol = 0.57619E+04, time = 11.85 | CG iter. 13 -- res = 0.89486E+05, tol = 0.57619E+04, time = 11.86 | CG iter. 14 -- res = 0.58897E+05, tol = 0.57619E+04, time = 11.75 | CG iter. 15 -- res = 0.46868E+05, tol = 0.57619E+04, time = 11.92 | CG iter. 16 -- res = 0.43213E+05, tol = 0.57619E+04, time = 18.32 | CG iter. 17 -- res = 0.42045E+05, tol = 0.57619E+04, time = 11.50 | CG iter. 18 -- res = 0.39638E+05, tol = 0.57619E+04, time = 11.87 | CG iter. 19 -- res = 0.36170E+05, tol = 0.57619E+04, time = 11.71 | CG iter. 20 -- res = 0.32217E+05, tol = 0.57619E+04, time = 11.66 | CG iter. 21 -- res = 0.28952E+05, tol = 0.57619E+04, time = 12.29 | CG iter. 22 -- res = 0.27509E+05, tol = 0.57619E+04, time = 11.98 | CG iter. 23 -- res = 0.27257E+05, tol = 0.57619E+04, time = 12.14 | CG iter. 24 -- res = 0.25939E+05, tol = 0.57619E+04, time = 14.11 | CG iter. 25 -- res = 0.21854E+05, tol = 0.57619E+04, time = 11.86 | CG iter. 26 -- res = 0.16634E+05, tol = 0.57619E+04, time = 12.39 | CG iter. 27 -- res = 0.12134E+05, tol = 0.57619E+04, time = 12.06 | CG iter. 28 -- res = 0.91153E+04, tol = 0.57619E+04, time = 11.63 | CG iter. 29 -- res = 0.74800E+04, tol = 0.57619E+04, time = 12.21 | CG iter. 30 -- res = 0.67664E+04, tol = 0.57619E+04, time = 11.64 | CG iter. 31 -- res = 0.63098E+04, tol = 0.57619E+04, time = 12.24 | CG iter. 32 -- res = 0.57282E+04, tol = 0.57619E+04, time = 11.65 | CG iter. 33 -- res = 0.51476E+04, tol = 0.57619E+04, time = 11.43 | CG iter. 34 -- res = 0.45322E+04, tol = 0.57619E+04, time = 11.96 | CG iter. 35 -- res = 0.39496E+04, tol = 0.57619E+04, time = 12.69 | CG iter. 36 -- res = 0.35891E+04, tol = 0.57619E+04, time = 11.96 | CG iter. 37 -- res = 0.34630E+04, tol = 0.57619E+04, time = 11.85 | CG iter. 38 -- res = 0.32590E+04, tol = 0.57619E+04, time = 11.68 | CG iter. 39 -- res = 0.28097E+04, tol = 0.57619E+04, time = 12.08 | CG iter. 40 -- res = 0.23215E+04, tol = 0.57619E+04, time = 12.02 | CG iter. 41 -- res = 0.18584E+04, tol = 0.57619E+04, time = 18.34 | CG iter. 42 -- res = 0.15196E+04, tol = 0.57619E+04, time = 11.53 | CG iter. 43 -- res = 0.13105E+04, tol = 0.57619E+04, time = 11.89 | CG iter. 44 -- res = 0.11887E+04, tol = 0.57619E+04, time = 11.69 | CG iter. 45 -- res = 0.11300E+04, tol = 0.57619E+04, time = 11.97 | CG iter. 46 -- res = 0.10808E+04, tol = 0.57619E+04, time = 12.06 | CG iter. 47 -- res = 0.99983E+03, tol = 0.57619E+04, time = 11.97 | CG iter. 48 -- res = 0.86614E+03, tol = 0.57619E+04, time = 13.46 | CG iter. 49 -- res = 0.75958E+03, tol = 0.57619E+04, time = 12.17 | CG iter. 50 -- res = 0.69393E+03, tol = 0.57619E+04, time = 11.73 | CG iter. 51 -- res = 0.65433E+03, tol = 0.57619E+04, time = 11.50 | CG iter. 52 -- res = 0.61793E+03, tol = 0.57619E+04, time = 11.77 | CG iter. 53 -- res = 0.57167E+03, tol = 0.57619E+04, time = 11.85 | CG iter. 54 -- res = 0.51298E+03, tol = 0.57619E+04, time = 11.85 | CG iter. 55 -- res = 0.44636E+03, tol = 0.57619E+04, time = 12.16 | CG iter. 56 -- res = 0.38271E+03, tol = 0.57619E+04, time = 11.55 | CG iter. 57 -- res = 0.33875E+03, tol = 0.57619E+04, time = 12.21 | CG iter. 58 -- res = 0.31037E+03, tol = 0.57619E+04, time = 11.99 | CG iter. 59 -- res = 0.28602E+03, tol = 0.57619E+04, time = 11.91 | CG iter. 60 -- res = 0.27049E+03, tol = 0.57619E+04, time = 11.45 | Final CG iter 61 -- res = 0.27049E+03, tol = 0.57619E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.794 ( -229.504 -2230.833 2513.353 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11361015.953 | Old band monopole 12587019.838 | Change to band monopole -1226003.884 | Change to component monopole 1225998.611 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 7.673 2.753 | New value 1.075 | Old value 7.673 | Difference -6.598 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.939 ( 6.104 10.549 -10.786 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.128 4.384 | New value 1.130 | Old value 1.128 | Difference 0.002 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.24364E+07, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.81835E+02, tol = 0.47627E+18, time = 2.34 | CG iter. 3 -- res = 0.22578E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.74018E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.63948E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11360967.087 | (Sampled value in CG: 11326612.530 ) | Chain = 1 -- chisq = 0.81547484E+09 | Chain = 1 -- wall time = 6188.995 sec Available RAM: MemAvailable: 417405020 kB Available Swap: SwapFree: 1103068188 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 379 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446389 | --> Sampling calibration, mode = relcal | relcal = 1.3427069E-02 7.3756307E-04 -1.5899596E-03 -1.2574673E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1762650 0.1904597 97042892.6568472 | BP delta = 0.1783341 0.1925289 97042892.0534434 | BP chisq diff = -0.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632401 | --> Sampling calibration, mode = relcal | relcal = -2.8202299E-03 -7.0416665E-04 1.6770095E-03 1.6143144E-03 -4.0743549E-04 6.4050808E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5612693 15218687.5566271 | BP delta = 0.0000000E+00 -0.5598686 15218687.7927815 | BP chisq diff = 0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17976528825510 | --> Sampling calibration, mode = relcal | relcal = -7.4293926E-02 -5.7864331E-02 9.1079861E-02 4.1078396E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.8771685E-04 3.6631580E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0797E-04 | 2: delta_r/delta_0: 1.2132E-05 | 3: delta_s/delta_0: 2.0022E-07 | 4: delta_r/delta_0: 1.8675E-08 | 5: delta_s/delta_0: 5.6034E-09 | 6: delta_r/delta_0: 9.5050E-10 | 7: delta_s/delta_0: 6.7167E-09 | 8: delta_r/delta_0: 1.5240E-10 | 9: delta_s/delta_0: 7.3676E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.000569331438785E-003 2.744064260795754E-005 | BP delta = 8.8607125E-02 0.1117307 50491130.7069640 | BP delta = 9.1197036E-02 0.1143206 50491132.9045030 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02606136 | --> Sampling calibration, mode = relcal | relcal = -0.1066656 -9.5587611E-02 0.1449719 5.7281375E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0866226E-03 1.8723987E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7522E-05 | 2: delta_r/delta_0: 1.1752E-06 | 3: delta_s/delta_0: 2.3683E-07 | 4: delta_r/delta_0: 5.5045E-08 | 5: delta_s/delta_0: 1.5066E-08 | 6: delta_r/delta_0: 7.3190E-09 | 7: delta_s/delta_0: 2.3460E-08 | 8: delta_r/delta_0: 1.2026E-09 | 9: delta_s/delta_0: 8.9880E-10 | 10: delta_r/delta_0: 3.3247E-10 | 11: delta_s/delta_0: 3.2618E-09 | 12: delta_r/delta_0: 3.0857E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.475917976706548E-003 2.810651496116163E-005 | BP delta = -0.2366861 -0.2018293 57394546.0574808 | BP delta = -0.2356230 -0.2007661 57394545.9378110 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81222863 | --> Sampling calibration, mode = relcal | relcal = 0.2954422 0.2248744 -0.2837636 -0.2365530 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7379980E-03 5.0884890E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2242E-02 | 2: delta_r/delta_0: 2.8649E-04 | 3: delta_s/delta_0: 5.9294E-05 | 4: delta_r/delta_0: 5.4217E-06 | 5: delta_s/delta_0: 1.1569E-05 | 6: delta_r/delta_0: 1.5042E-06 | 7: delta_s/delta_0: 1.1015E-07 | 8: delta_r/delta_0: 5.6674E-09 | 9: delta_s/delta_0: 2.6040E-09 | 10: delta_r/delta_0: 1.0570E-09 | 11: delta_s/delta_0: 6.3782E-09 | 12: delta_r/delta_0: 1.7003E-09 | 13: delta_s/delta_0: 8.8821E-10 | 14: delta_r/delta_0: 1.0624E-10 | 15: delta_s/delta_0: 1.0403E-10 | 16: delta_r/delta_0: 3.7368E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.125443680763278E-003 4.021692182715506E-005 | BP delta = -9.4173975E-02 -0.1447514 72484116.5787617 | BP delta = -0.1193324 -0.1699098 72484115.7653071 | BP chisq diff = -0.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95909785 | --> Sampling calibration, mode = relcal | relcal = 0.1064765 0.1395096 -0.1102414 -0.1357446 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9054910E-03 1.1934132E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.1171E-04 | 2: delta_r/delta_0: 1.9724E-05 | 3: delta_s/delta_0: 1.7530E-05 | 4: delta_r/delta_0: 1.3582E-06 | 5: delta_s/delta_0: 4.0722E-07 | 6: delta_r/delta_0: 1.8605E-07 | 7: delta_s/delta_0: 4.9674E-07 | 8: delta_r/delta_0: 4.1633E-08 | 9: delta_s/delta_0: 6.3087E-08 | 10: delta_r/delta_0: 1.2481E-08 | 11: delta_s/delta_0: 2.7409E-09 | 12: delta_r/delta_0: 1.0793E-09 | 13: delta_s/delta_0: 1.7685E-09 | 14: delta_r/delta_0: 2.5577E-10 | 15: delta_s/delta_0: 7.7721E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.468276614964824E-002 3.697347194876774E-005 | BP delta = 0.1777167 0.2919488 72791837.2161797 | BP delta = 0.1819758 0.2962079 72791837.1850976 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.074544 | New value = -3.204536 | poltype: 2 pol: 1 CPU time specind = 1.5558004E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.101944 | New value = -3.143850 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.113670 | New value = -3.065356 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.187224 | New value = -3.141551 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147299 | New value = -3.089717 | poltype: 2 pol: 2 CPU time specind = 5.6769848E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.13622E+08, tol = 0.62249E+01, time = 5.66 | CG iter. 2 -- res = 0.36697E+06, tol = 0.62249E+01, time = 5.35 | CG iter. 3 -- res = 0.10943E+06, tol = 0.62249E+01, time = 5.94 | CG iter. 4 -- res = 0.15551E+06, tol = 0.62249E+01, time = 6.10 | CG iter. 5 -- res = 0.17956E+06, tol = 0.62249E+01, time = 5.82 | CG iter. 6 -- res = 0.15570E+06, tol = 0.62249E+01, time = 5.85 | CG iter. 7 -- res = 0.13009E+06, tol = 0.62249E+01, time = 5.56 | CG iter. 8 -- res = 0.95693E+05, tol = 0.62249E+01, time = 5.81 | CG iter. 9 -- res = 0.80526E+05, tol = 0.62249E+01, time = 5.73 | CG iter. 10 -- res = 0.64658E+05, tol = 0.62249E+01, time = 5.75 | CG iter. 11 -- res = 0.46444E+05, tol = 0.62249E+01, time = 5.74 | CG iter. 12 -- res = 0.36489E+05, tol = 0.62249E+01, time = 5.60 | CG iter. 13 -- res = 0.32912E+05, tol = 0.62249E+01, time = 5.77 | CG iter. 14 -- res = 0.28140E+05, tol = 0.62249E+01, time = 5.79 | CG iter. 15 -- res = 0.21007E+05, tol = 0.62249E+01, time = 5.42 | CG iter. 16 -- res = 0.15131E+05, tol = 0.62249E+01, time = 5.73 | CG iter. 17 -- res = 0.12167E+05, tol = 0.62249E+01, time = 5.97 | CG iter. 18 -- res = 0.10748E+05, tol = 0.62249E+01, time = 6.16 | CG iter. 19 -- res = 0.92139E+04, tol = 0.62249E+01, time = 5.26 | CG iter. 20 -- res = 0.70820E+04, tol = 0.62249E+01, time = 6.04 | CG iter. 21 -- res = 0.55088E+04, tol = 0.62249E+01, time = 5.26 | CG iter. 22 -- res = 0.47589E+04, tol = 0.62249E+01, time = 5.51 | CG iter. 23 -- res = 0.41838E+04, tol = 0.62249E+01, time = 6.03 | CG iter. 24 -- res = 0.32722E+04, tol = 0.62249E+01, time = 5.65 | CG iter. 25 -- res = 0.26013E+04, tol = 0.62249E+01, time = 5.66 | CG iter. 26 -- res = 0.22516E+04, tol = 0.62249E+01, time = 5.94 | CG iter. 27 -- res = 0.20348E+04, tol = 0.62249E+01, time = 5.54 | CG iter. 28 -- res = 0.17234E+04, tol = 0.62249E+01, time = 5.82 | CG iter. 29 -- res = 0.13514E+04, tol = 0.62249E+01, time = 5.64 | CG iter. 30 -- res = 0.11295E+04, tol = 0.62249E+01, time = 5.57 | CG iter. 31 -- res = 0.10556E+04, tol = 0.62249E+01, time = 5.98 | CG iter. 32 -- res = 0.90795E+03, tol = 0.62249E+01, time = 12.22 | CG iter. 33 -- res = 0.71867E+03, tol = 0.62249E+01, time = 5.38 | CG iter. 34 -- res = 0.59483E+03, tol = 0.62249E+01, time = 5.81 | CG iter. 35 -- res = 0.55243E+03, tol = 0.62249E+01, time = 5.66 | CG iter. 36 -- res = 0.49459E+03, tol = 0.62249E+01, time = 5.53 | CG iter. 37 -- res = 0.40246E+03, tol = 0.62249E+01, time = 5.75 | CG iter. 38 -- res = 0.31403E+03, tol = 0.62249E+01, time = 5.79 | CG iter. 39 -- res = 0.27971E+03, tol = 0.62249E+01, time = 5.89 | CG iter. 40 -- res = 0.25411E+03, tol = 0.62249E+01, time = 5.76 | CG iter. 41 -- res = 0.21275E+03, tol = 0.62249E+01, time = 5.87 | CG iter. 42 -- res = 0.16896E+03, tol = 0.62249E+01, time = 5.83 | CG iter. 43 -- res = 0.14527E+03, tol = 0.62249E+01, time = 5.98 | CG iter. 44 -- res = 0.12537E+03, tol = 0.62249E+01, time = 5.68 | CG iter. 45 -- res = 0.10313E+03, tol = 0.62249E+01, time = 5.42 | CG iter. 46 -- res = 0.81707E+02, tol = 0.62249E+01, time = 6.25 | CG iter. 47 -- res = 0.67717E+02, tol = 0.62249E+01, time = 6.88 | CG iter. 48 -- res = 0.57395E+02, tol = 0.62249E+01, time = 6.32 | CG iter. 49 -- res = 0.48423E+02, tol = 0.62249E+01, time = 6.19 | CG iter. 50 -- res = 0.38332E+02, tol = 0.62249E+01, time = 5.63 | Final CG iter 51 -- res = 0.38332E+02, tol = 0.62249E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9180914.324 | Old band monopole 11361015.953 | Change to band monopole -2180101.629 | Change to component monopole 2180092.252 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.42521E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.23389E+03, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.40675E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.38764E-01, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.22522E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9180874.835 | (Sampled value in CG: 9093455.178 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.439051 | New value = 1.475998 | poltype: 2 pol: 1 CPU time specind = 2.2104025E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492752 | New value = 1.466864 | poltype: 2 pol: 2 CPU time specind = 1.2534857E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.24252E+08, tol = 0.47551E+04, time = 6.23 | CG iter. 2 -- res = 0.52749E+07, tol = 0.47551E+04, time = 6.51 | CG iter. 3 -- res = 0.82220E+06, tol = 0.47551E+04, time = 6.41 | CG iter. 4 -- res = 0.34332E+06, tol = 0.47551E+04, time = 6.75 | CG iter. 5 -- res = 0.14879E+06, tol = 0.47551E+04, time = 6.49 | CG iter. 6 -- res = 0.78120E+05, tol = 0.47551E+04, time = 6.73 | CG iter. 7 -- res = 0.42904E+05, tol = 0.47551E+04, time = 6.62 | CG iter. 8 -- res = 0.20434E+05, tol = 0.47551E+04, time = 6.68 | CG iter. 9 -- res = 0.88551E+04, tol = 0.47551E+04, time = 6.72 | CG iter. 10 -- res = 0.35716E+04, tol = 0.47551E+04, time = 6.54 | CG iter. 11 -- res = 0.16213E+04, tol = 0.47551E+04, time = 12.80 | CG iter. 12 -- res = 0.85390E+03, tol = 0.47551E+04, time = 6.66 | CG iter. 13 -- res = 0.47885E+03, tol = 0.47551E+04, time = 6.44 | CG iter. 14 -- res = 0.27164E+03, tol = 0.47551E+04, time = 6.54 | CG iter. 15 -- res = 0.13933E+03, tol = 0.47551E+04, time = 6.56 | CG iter. 16 -- res = 0.66595E+02, tol = 0.47551E+04, time = 6.30 | CG iter. 17 -- res = 0.31112E+02, tol = 0.47551E+04, time = 6.59 | CG iter. 18 -- res = 0.15723E+02, tol = 0.47551E+04, time = 6.45 | CG iter. 19 -- res = 0.84633E+01, tol = 0.47551E+04, time = 6.73 | CG iter. 20 -- res = 0.46342E+01, tol = 0.47551E+04, time = 6.58 | CG iter. 21 -- res = 0.25154E+01, tol = 0.47551E+04, time = 7.06 | CG iter. 22 -- res = 0.12854E+01, tol = 0.47551E+04, time = 6.93 | CG iter. 23 -- res = 0.65895E+00, tol = 0.47551E+04, time = 6.83 | CG iter. 24 -- res = 0.34900E+00, tol = 0.47551E+04, time = 7.65 | CG iter. 25 -- res = 0.19112E+00, tol = 0.47551E+04, time = 7.59 | CG iter. 26 -- res = 0.10635E+00, tol = 0.47551E+04, time = 6.43 | CG iter. 27 -- res = 0.60495E-01, tol = 0.47551E+04, time = 6.74 | CG iter. 28 -- res = 0.32173E-01, tol = 0.47551E+04, time = 6.46 | CG iter. 29 -- res = 0.16637E-01, tol = 0.47551E+04, time = 6.29 | CG iter. 30 -- res = 0.88328E-02, tol = 0.47551E+04, time = 6.61 | CG iter. 31 -- res = 0.48660E-02, tol = 0.47551E+04, time = 6.70 | CG iter. 32 -- res = 0.27569E-02, tol = 0.47551E+04, time = 6.59 | CG iter. 33 -- res = 0.15328E-02, tol = 0.47551E+04, time = 6.59 | CG iter. 34 -- res = 0.83958E-03, tol = 0.47551E+04, time = 6.39 | CG iter. 35 -- res = 0.43866E-03, tol = 0.47551E+04, time = 6.90 | Final CG iter 36 -- res = 0.43866E-03, tol = 0.47551E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.014 2.732 | New value -2.622 | Old value 1.014 | Difference -3.636 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.69512E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.11168E+03, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.25268E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.20988E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.50127E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9180874.835 | (Sampled value in CG: 9093303.421 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.578165 | New value = -3.515208 | poltype: 1 pol: 1 CPU time specind = 1.4872074E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.61098E+07, tol = 0.22868E+01, time = 2.75 | CG iter. 2 -- res = 0.26868E+07, tol = 0.22868E+01, time = 2.86 | CG iter. 3 -- res = 0.65538E+06, tol = 0.22868E+01, time = 2.57 | CG iter. 4 -- res = 0.34904E+06, tol = 0.22868E+01, time = 2.95 | CG iter. 5 -- res = 0.20312E+06, tol = 0.22868E+01, time = 2.92 | CG iter. 6 -- res = 0.81004E+05, tol = 0.22868E+01, time = 2.60 | CG iter. 7 -- res = 0.25567E+05, tol = 0.22868E+01, time = 2.78 | CG iter. 8 -- res = 0.10885E+05, tol = 0.22868E+01, time = 2.84 | CG iter. 9 -- res = 0.56145E+04, tol = 0.22868E+01, time = 2.67 | CG iter. 10 -- res = 0.23247E+04, tol = 0.22868E+01, time = 2.75 | CG iter. 11 -- res = 0.89910E+03, tol = 0.22868E+01, time = 2.69 | CG iter. 12 -- res = 0.41861E+03, tol = 0.22868E+01, time = 2.75 | CG iter. 13 -- res = 0.21635E+03, tol = 0.22868E+01, time = 2.17 | CG iter. 14 -- res = 0.10528E+03, tol = 0.22868E+01, time = 3.35 | CG iter. 15 -- res = 0.47889E+02, tol = 0.22868E+01, time = 2.78 | CG iter. 16 -- res = 0.20941E+02, tol = 0.22868E+01, time = 2.65 | CG iter. 17 -- res = 0.90636E+01, tol = 0.22868E+01, time = 2.67 | CG iter. 18 -- res = 0.44408E+01, tol = 0.22868E+01, time = 2.99 | CG iter. 19 -- res = 0.20870E+01, tol = 0.22868E+01, time = 2.71 | CG iter. 20 -- res = 0.10508E+01, tol = 0.22868E+01, time = 2.68 | CG iter. 21 -- res = 0.51043E+00, tol = 0.22868E+01, time = 2.43 | CG iter. 22 -- res = 0.22693E+00, tol = 0.22868E+01, time = 2.80 | CG iter. 23 -- res = 0.10428E+00, tol = 0.22868E+01, time = 2.75 | CG iter. 24 -- res = 0.47724E-01, tol = 0.22868E+01, time = 2.81 | CG iter. 25 -- res = 0.23018E-01, tol = 0.22868E+01, time = 2.78 | CG iter. 26 -- res = 0.11330E-01, tol = 0.22868E+01, time = 2.58 | CG iter. 27 -- res = 0.57720E-02, tol = 0.22868E+01, time = 2.70 | CG iter. 28 -- res = 0.28504E-02, tol = 0.22868E+01, time = 2.65 | CG iter. 29 -- res = 0.13174E-02, tol = 0.22868E+01, time = 2.72 | CG iter. 30 -- res = 0.62598E-03, tol = 0.22868E+01, time = 2.69 | CG iter. 31 -- res = 0.29387E-03, tol = 0.22868E+01, time = 3.00 | CG iter. 32 -- res = 0.14216E-03, tol = 0.22868E+01, time = 2.73 | CG iter. 33 -- res = 0.72186E-04, tol = 0.22868E+01, time = 2.52 | CG iter. 34 -- res = 0.35603E-04, tol = 0.22868E+01, time = 2.80 | CG iter. 35 -- res = 0.17876E-04, tol = 0.22868E+01, time = 2.47 | CG iter. 36 -- res = 0.87461E-05, tol = 0.22868E+01, time = 2.78 | CG iter. 37 -- res = 0.39779E-05, tol = 0.22868E+01, time = 2.44 | CG iter. 38 -- res = 0.19780E-05, tol = 0.22868E+01, time = 2.78 | CG iter. 39 -- res = 0.99331E-06, tol = 0.22868E+01, time = 2.94 | CG iter. 40 -- res = 0.49596E-06, tol = 0.22868E+01, time = 2.72 | CG iter. 41 -- res = 0.24306E-06, tol = 0.22868E+01, time = 2.65 | CG iter. 42 -- res = 0.11758E-06, tol = 0.22868E+01, time = 2.77 | CG iter. 43 -- res = 0.52692E-07, tol = 0.22868E+01, time = 2.83 | CG iter. 44 -- res = 0.25733E-07, tol = 0.22868E+01, time = 2.83 | CG iter. 45 -- res = 0.12468E-07, tol = 0.22868E+01, time = 2.80 | CG iter. 46 -- res = 0.61128E-08, tol = 0.22868E+01, time = 2.47 | CG iter. 47 -- res = 0.31285E-08, tol = 0.22868E+01, time = 2.69 | CG iter. 48 -- res = 0.14922E-08, tol = 0.22868E+01, time = 2.70 | CG iter. 49 -- res = 0.67680E-09, tol = 0.22868E+01, time = 2.88 | CG iter. 50 -- res = 0.31016E-09, tol = 0.22868E+01, time = 9.36 | Final CG iter 51 -- res = 0.31016E-09, tol = 0.22868E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.503 6.312 | New value -2.522 | Old value -9.503 | Difference 6.981 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.53870E+05, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.87612E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.30726E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.81827E-02, tol = 0.47627E+18, time = 1.78 | Final CG iter 5 -- res = 0.11108E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9180874.835 | (Sampled value in CG: 9115938.037 ) | CPU time specind = 1191.879 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.69710E+08, tol = 0.57504E+04, time = 13.84 | CG iter. 2 -- res = 0.58735E+08, tol = 0.57504E+04, time = 11.79 | CG iter. 3 -- res = 0.15304E+08, tol = 0.57504E+04, time = 11.92 | CG iter. 4 -- res = 0.66361E+07, tol = 0.57504E+04, time = 11.88 | CG iter. 5 -- res = 0.39542E+07, tol = 0.57504E+04, time = 11.98 | CG iter. 6 -- res = 0.22930E+07, tol = 0.57504E+04, time = 11.76 | CG iter. 7 -- res = 0.13717E+07, tol = 0.57504E+04, time = 12.10 | CG iter. 8 -- res = 0.91177E+06, tol = 0.57504E+04, time = 12.14 | CG iter. 9 -- res = 0.59347E+06, tol = 0.57504E+04, time = 12.11 | CG iter. 10 -- res = 0.36991E+06, tol = 0.57504E+04, time = 11.80 | CG iter. 11 -- res = 0.21752E+06, tol = 0.57504E+04, time = 12.06 | CG iter. 12 -- res = 0.13386E+06, tol = 0.57504E+04, time = 11.99 | CG iter. 13 -- res = 0.93157E+05, tol = 0.57504E+04, time = 12.10 | CG iter. 14 -- res = 0.75645E+05, tol = 0.57504E+04, time = 12.12 | CG iter. 15 -- res = 0.70417E+05, tol = 0.57504E+04, time = 12.13 | CG iter. 16 -- res = 0.71558E+05, tol = 0.57504E+04, time = 11.91 | CG iter. 17 -- res = 0.72949E+05, tol = 0.57504E+04, time = 11.93 | CG iter. 18 -- res = 0.70181E+05, tol = 0.57504E+04, time = 19.15 | CG iter. 19 -- res = 0.64071E+05, tol = 0.57504E+04, time = 11.97 | CG iter. 20 -- res = 0.58171E+05, tol = 0.57504E+04, time = 11.80 | CG iter. 21 -- res = 0.54558E+05, tol = 0.57504E+04, time = 12.23 | CG iter. 22 -- res = 0.51358E+05, tol = 0.57504E+04, time = 11.81 | CG iter. 23 -- res = 0.46523E+05, tol = 0.57504E+04, time = 11.84 | CG iter. 24 -- res = 0.39703E+05, tol = 0.57504E+04, time = 12.16 | CG iter. 25 -- res = 0.30856E+05, tol = 0.57504E+04, time = 13.74 | CG iter. 26 -- res = 0.22819E+05, tol = 0.57504E+04, time = 11.87 | CG iter. 27 -- res = 0.17449E+05, tol = 0.57504E+04, time = 11.59 | CG iter. 28 -- res = 0.13640E+05, tol = 0.57504E+04, time = 12.00 | CG iter. 29 -- res = 0.11849E+05, tol = 0.57504E+04, time = 12.05 | CG iter. 30 -- res = 0.11232E+05, tol = 0.57504E+04, time = 11.80 | CG iter. 31 -- res = 0.10668E+05, tol = 0.57504E+04, time = 11.96 | CG iter. 32 -- res = 0.96061E+04, tol = 0.57504E+04, time = 12.06 | CG iter. 33 -- res = 0.84638E+04, tol = 0.57504E+04, time = 12.34 | CG iter. 34 -- res = 0.73895E+04, tol = 0.57504E+04, time = 12.67 | CG iter. 35 -- res = 0.66478E+04, tol = 0.57504E+04, time = 11.99 | CG iter. 36 -- res = 0.59784E+04, tol = 0.57504E+04, time = 12.19 | CG iter. 37 -- res = 0.54653E+04, tol = 0.57504E+04, time = 12.06 | CG iter. 38 -- res = 0.48543E+04, tol = 0.57504E+04, time = 11.47 | CG iter. 39 -- res = 0.40652E+04, tol = 0.57504E+04, time = 11.91 | CG iter. 40 -- res = 0.33037E+04, tol = 0.57504E+04, time = 11.68 | CG iter. 41 -- res = 0.27063E+04, tol = 0.57504E+04, time = 11.73 | CG iter. 42 -- res = 0.23923E+04, tol = 0.57504E+04, time = 17.95 | CG iter. 43 -- res = 0.22655E+04, tol = 0.57504E+04, time = 11.76 | CG iter. 44 -- res = 0.21928E+04, tol = 0.57504E+04, time = 11.73 | CG iter. 45 -- res = 0.20906E+04, tol = 0.57504E+04, time = 11.50 | CG iter. 46 -- res = 0.19151E+04, tol = 0.57504E+04, time = 11.71 | CG iter. 47 -- res = 0.17055E+04, tol = 0.57504E+04, time = 11.97 | CG iter. 48 -- res = 0.14805E+04, tol = 0.57504E+04, time = 11.99 | CG iter. 49 -- res = 0.13237E+04, tol = 0.57504E+04, time = 13.56 | CG iter. 50 -- res = 0.12122E+04, tol = 0.57504E+04, time = 12.32 | CG iter. 51 -- res = 0.11490E+04, tol = 0.57504E+04, time = 11.50 | CG iter. 52 -- res = 0.10822E+04, tol = 0.57504E+04, time = 12.62 | CG iter. 53 -- res = 0.98402E+03, tol = 0.57504E+04, time = 12.07 | CG iter. 54 -- res = 0.85863E+03, tol = 0.57504E+04, time = 11.75 | CG iter. 55 -- res = 0.74207E+03, tol = 0.57504E+04, time = 11.22 | CG iter. 56 -- res = 0.66711E+03, tol = 0.57504E+04, time = 11.81 | CG iter. 57 -- res = 0.61134E+03, tol = 0.57504E+04, time = 11.58 | CG iter. 58 -- res = 0.57260E+03, tol = 0.57504E+04, time = 11.81 | CG iter. 59 -- res = 0.54715E+03, tol = 0.57504E+04, time = 11.90 | CG iter. 60 -- res = 0.51668E+03, tol = 0.57504E+04, time = 12.05 | Final CG iter 61 -- res = 0.51668E+03, tol = 0.57504E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.034 ( -229.972 -2232.067 2514.648 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8972756.932 | Old band monopole 9180914.324 | Change to band monopole -208157.392 | Change to component monopole 208156.497 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.599 2.733 | New value -2.060 | Old value -2.599 | Difference 0.539 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.558 ( 7.687 14.056 -13.453 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.012 5.009 | New value -0.716 | Old value 8.012 | Difference -8.728 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.22904E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.25230E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.77417E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.15056E-02, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.50636E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8972718.338 | (Sampled value in CG: 8945687.094 ) | Chain = 1 -- chisq = 0.81573429E+09 | Chain = 1 -- wall time = 5680.738 sec Available RAM: MemAvailable: 416808220 kB Available Swap: SwapFree: 1103355932 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 380 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444394 | --> Sampling calibration, mode = relcal | relcal = 1.3427558E-02 7.4391864E-04 -1.5963092E-03 -1.2575167E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1783341 0.1925289 9407031.91735895 | BP delta = 0.1783341 0.1940323 9407026.77128893 | BP chisq diff = -5.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632534 | --> Sampling calibration, mode = relcal | relcal = -2.8210776E-03 -7.0397806E-04 1.6781585E-03 1.6138970E-03 -4.0815282E-04 6.4115296E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5598686 15218353.2887316 | BP delta = 0.0000000E+00 -0.5604066 15218354.0347444 | BP chisq diff = 0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18181211858957 | --> Sampling calibration, mode = relcal | relcal = -7.5370423E-02 -5.8658153E-02 9.2245951E-02 4.1782625E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0632839E-04 5.0776200E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2120E-05 | 2: delta_r/delta_0: 1.0019E-06 | 3: delta_s/delta_0: 1.9867E-07 | 4: delta_r/delta_0: 2.6074E-08 | 5: delta_s/delta_0: 8.1892E-09 | 6: delta_r/delta_0: 2.2351E-09 | 7: delta_s/delta_0: 3.9833E-10 | 8: delta_r/delta_0: 1.5657E-10 | 9: delta_s/delta_0: 7.9050E-10 | 10: delta_r/delta_0: 3.0147E-10 | 11: delta_s/delta_0: 2.8310E-10 | 12: delta_r/delta_0: 1.1257E-10 | 13: delta_s/delta_0: 7.5414E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.091778570312680E-003 2.739152715678020E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2121E-05 | 2: delta_r/delta_0: 1.0019E-06 | 3: delta_s/delta_0: 1.9866E-07 | 4: delta_r/delta_0: 2.6067E-08 | 5: delta_s/delta_0: 8.1850E-09 | 6: delta_r/delta_0: 2.2347E-09 | 7: delta_s/delta_0: 3.9831E-10 | 8: delta_r/delta_0: 1.5654E-10 | 9: delta_s/delta_0: 7.8987E-10 | 10: delta_r/delta_0: 3.0122E-10 | 11: delta_s/delta_0: 2.8292E-10 | 12: delta_r/delta_0: 1.1250E-10 | 13: delta_s/delta_0: 7.5388E-12 | Reached bicg-stab tolerance | BP delta = 8.8607125E-02 0.1117307 3494971.99544494 | BP delta = 8.8607125E-02 0.1114895 3498313.75098465 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02620495 | --> Sampling calibration, mode = relcal | relcal = -0.1066657 -9.5590852E-02 0.1449392 5.7317369E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3483950E-03 1.3694627E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2381E-05 | 2: delta_r/delta_0: 1.2329E-06 | 3: delta_s/delta_0: 2.4286E-07 | 4: delta_r/delta_0: 4.9015E-08 | 5: delta_s/delta_0: 1.8497E-08 | 6: delta_r/delta_0: 6.8588E-09 | 7: delta_s/delta_0: 1.5516E-08 | 8: delta_r/delta_0: 9.8956E-10 | 9: delta_s/delta_0: 9.5027E-10 | 10: delta_r/delta_0: 2.0459E-10 | 11: delta_s/delta_0: 1.6599E-09 | 12: delta_r/delta_0: 2.1934E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.751509543477071E-003 2.810254184148442E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2381E-05 | 2: delta_r/delta_0: 1.2330E-06 | 3: delta_s/delta_0: 2.4287E-07 | 4: delta_r/delta_0: 4.9025E-08 | 5: delta_s/delta_0: 1.8494E-08 | 6: delta_r/delta_0: 6.8594E-09 | 7: delta_s/delta_0: 1.5518E-08 | 8: delta_r/delta_0: 9.8974E-10 | 9: delta_s/delta_0: 9.5032E-10 | 10: delta_r/delta_0: 2.0468E-10 | 11: delta_s/delta_0: 1.6607E-09 | 12: delta_r/delta_0: 2.1939E-11 | Reached bicg-stab tolerance | BP delta = -0.2356230 -0.2007661 2841611.69324181 | BP delta = -0.2356230 -0.1999592 2841606.95114239 | BP chisq diff = -4.7, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81238358 | --> Sampling calibration, mode = relcal | relcal = 0.2955321 0.2247755 -0.2837436 -0.2365640 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.5095460E-04 4.6766368E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5509E-03 | 2: delta_r/delta_0: 8.2501E-05 | 3: delta_s/delta_0: 1.4438E-05 | 4: delta_r/delta_0: 1.2379E-06 | 5: delta_s/delta_0: 1.4507E-06 | 6: delta_r/delta_0: 7.3717E-08 | 7: delta_s/delta_0: 3.0063E-08 | 8: delta_r/delta_0: 8.4183E-09 | 9: delta_s/delta_0: 2.5110E-08 | 10: delta_r/delta_0: 5.7863E-09 | 11: delta_s/delta_0: 8.0970E-09 | 12: delta_r/delta_0: 1.9697E-09 | 13: delta_s/delta_0: 5.2311E-10 | 14: delta_r/delta_0: 6.9099E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.480952948147126E-003 4.020820939714678E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.5550E-03 | 2: delta_r/delta_0: 8.2599E-05 | 3: delta_s/delta_0: 1.4449E-05 | 4: delta_r/delta_0: 1.2391E-06 | 5: delta_s/delta_0: 1.4525E-06 | 6: delta_r/delta_0: 7.3931E-08 | 7: delta_s/delta_0: 3.0018E-08 | 8: delta_r/delta_0: 8.3882E-09 | 9: delta_s/delta_0: 2.4622E-08 | 10: delta_r/delta_0: 5.7185E-09 | 11: delta_s/delta_0: 8.2410E-09 | 12: delta_r/delta_0: 1.9771E-09 | 13: delta_s/delta_0: 5.2370E-10 | 14: delta_r/delta_0: 6.8959E-11 | Reached bicg-stab tolerance | BP delta = -0.1193324 -0.1699098 2827392.03258837 | BP delta = -0.1193324 -0.1708889 2827613.27767080 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95932927 | --> Sampling calibration, mode = relcal | relcal = 0.1065564 0.1396368 -0.1103247 -0.1358685 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5715355E-03 1.3014016E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.5086E-03 | 2: delta_r/delta_0: 1.3204E-04 | 3: delta_s/delta_0: 1.0414E+02 | 4: delta_r/delta_0: 4.1853E+00 | 5: delta_s/delta_0: 7.3026E-07 | 6: delta_r/delta_0: 2.6048E-07 | 7: delta_s/delta_0: 4.9752E-07 | 8: delta_r/delta_0: 6.3593E-08 | 9: delta_s/delta_0: 2.3753E-08 | 10: delta_r/delta_0: 5.9772E-09 | 11: delta_s/delta_0: 2.4934E-09 | 12: delta_r/delta_0: 1.7203E-09 | 13: delta_s/delta_0: 6.8065E-10 | 14: delta_r/delta_0: 1.5545E-10 | 15: delta_s/delta_0: 1.5303E-10 | 16: delta_r/delta_0: 4.9999E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.182531306200723E-002 3.696561760233351E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.5067E-03 | 2: delta_r/delta_0: 1.3200E-04 | 3: delta_s/delta_0: 9.5164E+01 | 4: delta_r/delta_0: 3.8249E+00 | 5: delta_s/delta_0: 7.3015E-07 | 6: delta_r/delta_0: 2.6045E-07 | 7: delta_s/delta_0: 4.9819E-07 | 8: delta_r/delta_0: 6.3587E-08 | 9: delta_s/delta_0: 2.3746E-08 | 10: delta_r/delta_0: 5.9739E-09 | 11: delta_s/delta_0: 2.4894E-09 | 12: delta_r/delta_0: 1.7168E-09 | 13: delta_s/delta_0: 6.7366E-10 | 14: delta_r/delta_0: 1.5672E-10 | 15: delta_s/delta_0: 1.5349E-10 | 16: delta_r/delta_0: 5.0148E-11 | Reached bicg-stab tolerance | BP delta = 0.1819758 0.2962079 3004336.49003566 | BP delta = 0.1819758 0.2904577 3004381.00694084 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.204536 | New value = -3.120904 | poltype: 2 pol: 1 CPU time specind = 1.5249014E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143850 | New value = -3.146898 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.065356 | New value = -3.106113 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141551 | New value = -3.227721 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.089717 | New value = -3.133390 | poltype: 2 pol: 2 CPU time specind = 4.6300888E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.13655E+08, tol = 0.78405E+01, time = 5.43 | CG iter. 2 -- res = 0.34829E+06, tol = 0.78405E+01, time = 5.21 | CG iter. 3 -- res = 0.93758E+05, tol = 0.78405E+01, time = 5.75 | CG iter. 4 -- res = 0.11228E+06, tol = 0.78405E+01, time = 5.63 | CG iter. 5 -- res = 0.11949E+06, tol = 0.78405E+01, time = 5.40 | CG iter. 6 -- res = 0.11598E+06, tol = 0.78405E+01, time = 11.78 | CG iter. 7 -- res = 0.97667E+05, tol = 0.78405E+01, time = 5.60 | CG iter. 8 -- res = 0.67450E+05, tol = 0.78405E+01, time = 5.72 | CG iter. 9 -- res = 0.53066E+05, tol = 0.78405E+01, time = 5.38 | CG iter. 10 -- res = 0.42566E+05, tol = 0.78405E+01, time = 5.36 | CG iter. 11 -- res = 0.29363E+05, tol = 0.78405E+01, time = 5.52 | CG iter. 12 -- res = 0.21851E+05, tol = 0.78405E+01, time = 5.86 | CG iter. 13 -- res = 0.18324E+05, tol = 0.78405E+01, time = 5.90 | CG iter. 14 -- res = 0.15516E+05, tol = 0.78405E+01, time = 5.83 | CG iter. 15 -- res = 0.12041E+05, tol = 0.78405E+01, time = 5.61 | CG iter. 16 -- res = 0.82852E+04, tol = 0.78405E+01, time = 6.10 | CG iter. 17 -- res = 0.61015E+04, tol = 0.78405E+01, time = 5.63 | CG iter. 18 -- res = 0.51991E+04, tol = 0.78405E+01, time = 5.58 | CG iter. 19 -- res = 0.44939E+04, tol = 0.78405E+01, time = 5.52 | CG iter. 20 -- res = 0.34432E+04, tol = 0.78405E+01, time = 5.82 | CG iter. 21 -- res = 0.25571E+04, tol = 0.78405E+01, time = 7.09 | CG iter. 22 -- res = 0.21071E+04, tol = 0.78405E+01, time = 6.16 | CG iter. 23 -- res = 0.18130E+04, tol = 0.78405E+01, time = 5.80 | CG iter. 24 -- res = 0.14108E+04, tol = 0.78405E+01, time = 6.03 | CG iter. 25 -- res = 0.10617E+04, tol = 0.78405E+01, time = 5.94 | CG iter. 26 -- res = 0.85004E+03, tol = 0.78405E+01, time = 5.30 | CG iter. 27 -- res = 0.78701E+03, tol = 0.78405E+01, time = 5.60 | CG iter. 28 -- res = 0.65491E+03, tol = 0.78405E+01, time = 5.75 | CG iter. 29 -- res = 0.49603E+03, tol = 0.78405E+01, time = 5.76 | CG iter. 30 -- res = 0.40309E+03, tol = 0.78405E+01, time = 5.74 | CG iter. 31 -- res = 0.35061E+03, tol = 0.78405E+01, time = 5.75 | CG iter. 32 -- res = 0.29803E+03, tol = 0.78405E+01, time = 5.62 | CG iter. 33 -- res = 0.23015E+03, tol = 0.78405E+01, time = 5.61 | CG iter. 34 -- res = 0.17721E+03, tol = 0.78405E+01, time = 5.55 | CG iter. 35 -- res = 0.14551E+03, tol = 0.78405E+01, time = 5.50 | CG iter. 36 -- res = 0.12672E+03, tol = 0.78405E+01, time = 5.69 | CG iter. 37 -- res = 0.99579E+02, tol = 0.78405E+01, time = 5.97 | CG iter. 38 -- res = 0.72749E+02, tol = 0.78405E+01, time = 5.70 | CG iter. 39 -- res = 0.57518E+02, tol = 0.78405E+01, time = 5.52 | CG iter. 40 -- res = 0.49429E+02, tol = 0.78405E+01, time = 6.13 | CG iter. 41 -- res = 0.39208E+02, tol = 0.78405E+01, time = 5.58 | CG iter. 42 -- res = 0.28357E+02, tol = 0.78405E+01, time = 5.32 | CG iter. 43 -- res = 0.22103E+02, tol = 0.78405E+01, time = 5.79 | CG iter. 44 -- res = 0.18295E+02, tol = 0.78405E+01, time = 5.60 | CG iter. 45 -- res = 0.14154E+02, tol = 0.78405E+01, time = 5.47 | CG iter. 46 -- res = 0.10786E+02, tol = 0.78405E+01, time = 5.56 | CG iter. 47 -- res = 0.83085E+01, tol = 0.78405E+01, time = 5.75 | CG iter. 48 -- res = 0.64906E+01, tol = 0.78405E+01, time = 5.31 | CG iter. 49 -- res = 0.52987E+01, tol = 0.78405E+01, time = 5.85 | CG iter. 50 -- res = 0.40545E+01, tol = 0.78405E+01, time = 5.73 | Final CG iter 51 -- res = 0.40545E+01, tol = 0.78405E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11512652.489 | Old band monopole 8972756.932 | Change to band monopole 2539895.558 | Change to component monopole -2539884.633 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.57024E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.84858E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.22449E+01, tol = 0.47627E+18, time = 3.23 | CG iter. 4 -- res = 0.92200E-02, tol = 0.47627E+18, time = 7.27 | Final CG iter 5 -- res = 0.11733E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11512602.971 | (Sampled value in CG: 11593933.127 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475998 | New value = 1.464064 | poltype: 2 pol: 1 CPU time specind = 1.5275002E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.466864 | New value = 1.495379 | poltype: 2 pol: 2 CPU time specind = 2.7759075E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.24042E+08, tol = 0.47478E+04, time = 6.58 | CG iter. 2 -- res = 0.53270E+07, tol = 0.47478E+04, time = 7.57 | CG iter. 3 -- res = 0.85275E+06, tol = 0.47478E+04, time = 7.06 | CG iter. 4 -- res = 0.35876E+06, tol = 0.47478E+04, time = 7.34 | CG iter. 5 -- res = 0.15537E+06, tol = 0.47478E+04, time = 6.62 | CG iter. 6 -- res = 0.80381E+05, tol = 0.47478E+04, time = 6.64 | CG iter. 7 -- res = 0.43886E+05, tol = 0.47478E+04, time = 6.42 | CG iter. 8 -- res = 0.20426E+05, tol = 0.47478E+04, time = 6.67 | CG iter. 9 -- res = 0.88152E+04, tol = 0.47478E+04, time = 6.60 | CG iter. 10 -- res = 0.36232E+04, tol = 0.47478E+04, time = 6.47 | CG iter. 11 -- res = 0.16415E+04, tol = 0.47478E+04, time = 6.37 | CG iter. 12 -- res = 0.85118E+03, tol = 0.47478E+04, time = 6.68 | CG iter. 13 -- res = 0.48482E+03, tol = 0.47478E+04, time = 6.64 | CG iter. 14 -- res = 0.27279E+03, tol = 0.47478E+04, time = 6.40 | CG iter. 15 -- res = 0.14177E+03, tol = 0.47478E+04, time = 6.71 | CG iter. 16 -- res = 0.67566E+02, tol = 0.47478E+04, time = 6.19 | CG iter. 17 -- res = 0.31549E+02, tol = 0.47478E+04, time = 6.62 | CG iter. 18 -- res = 0.15656E+02, tol = 0.47478E+04, time = 6.50 | CG iter. 19 -- res = 0.83811E+01, tol = 0.47478E+04, time = 6.55 | CG iter. 20 -- res = 0.48376E+01, tol = 0.47478E+04, time = 6.59 | CG iter. 21 -- res = 0.26520E+01, tol = 0.47478E+04, time = 6.40 | CG iter. 22 -- res = 0.13217E+01, tol = 0.47478E+04, time = 6.42 | CG iter. 23 -- res = 0.65335E+00, tol = 0.47478E+04, time = 6.28 | CG iter. 24 -- res = 0.34045E+00, tol = 0.47478E+04, time = 6.31 | CG iter. 25 -- res = 0.18749E+00, tol = 0.47478E+04, time = 6.58 | CG iter. 26 -- res = 0.10559E+00, tol = 0.47478E+04, time = 6.43 | CG iter. 27 -- res = 0.59865E-01, tol = 0.47478E+04, time = 6.86 | CG iter. 28 -- res = 0.32744E-01, tol = 0.47478E+04, time = 6.31 | CG iter. 29 -- res = 0.16908E-01, tol = 0.47478E+04, time = 6.48 | CG iter. 30 -- res = 0.84986E-02, tol = 0.47478E+04, time = 6.70 | CG iter. 31 -- res = 0.45497E-02, tol = 0.47478E+04, time = 6.25 | CG iter. 32 -- res = 0.25998E-02, tol = 0.47478E+04, time = 6.53 | CG iter. 33 -- res = 0.14763E-02, tol = 0.47478E+04, time = 6.69 | CG iter. 34 -- res = 0.78205E-03, tol = 0.47478E+04, time = 12.57 | CG iter. 35 -- res = 0.40708E-03, tol = 0.47478E+04, time = 6.34 | Final CG iter 36 -- res = 0.40708E-03, tol = 0.47478E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.071 2.727 | New value 1.365 | Old value -2.071 | Difference 3.435 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.61790E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.95812E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.21392E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.52155E-03, tol = 0.47627E+18, time = 1.73 | Final CG iter 5 -- res = 0.69658E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11512602.971 | (Sampled value in CG: 11594592.949 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.515208 | New value = -3.595270 | poltype: 1 pol: 1 CPU time specind = 2.0626068E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.29781E+07, tol = 0.23764E+01, time = 2.46 | CG iter. 2 -- res = 0.11305E+07, tol = 0.23764E+01, time = 2.55 | CG iter. 3 -- res = 0.24032E+06, tol = 0.23764E+01, time = 2.81 | CG iter. 4 -- res = 0.11758E+06, tol = 0.23764E+01, time = 2.36 | CG iter. 5 -- res = 0.70961E+05, tol = 0.23764E+01, time = 2.58 | CG iter. 6 -- res = 0.31353E+05, tol = 0.23764E+01, time = 2.54 | CG iter. 7 -- res = 0.10608E+05, tol = 0.23764E+01, time = 2.63 | CG iter. 8 -- res = 0.43944E+04, tol = 0.23764E+01, time = 2.73 | CG iter. 9 -- res = 0.20175E+04, tol = 0.23764E+01, time = 2.41 | CG iter. 10 -- res = 0.81439E+03, tol = 0.23764E+01, time = 2.68 | CG iter. 11 -- res = 0.33392E+03, tol = 0.23764E+01, time = 2.39 | CG iter. 12 -- res = 0.17245E+03, tol = 0.23764E+01, time = 2.55 | CG iter. 13 -- res = 0.90846E+02, tol = 0.23764E+01, time = 2.88 | CG iter. 14 -- res = 0.43217E+02, tol = 0.23764E+01, time = 2.95 | CG iter. 15 -- res = 0.18945E+02, tol = 0.23764E+01, time = 2.62 | CG iter. 16 -- res = 0.82302E+01, tol = 0.23764E+01, time = 2.83 | CG iter. 17 -- res = 0.35287E+01, tol = 0.23764E+01, time = 2.39 | CG iter. 18 -- res = 0.17088E+01, tol = 0.23764E+01, time = 2.84 | CG iter. 19 -- res = 0.85422E+00, tol = 0.23764E+01, time = 2.74 | CG iter. 20 -- res = 0.43138E+00, tol = 0.23764E+01, time = 2.76 | CG iter. 21 -- res = 0.19967E+00, tol = 0.23764E+01, time = 2.77 | CG iter. 22 -- res = 0.87257E-01, tol = 0.23764E+01, time = 2.53 | CG iter. 23 -- res = 0.37740E-01, tol = 0.23764E+01, time = 2.76 | CG iter. 24 -- res = 0.18322E-01, tol = 0.23764E+01, time = 2.74 | CG iter. 25 -- res = 0.94435E-02, tol = 0.23764E+01, time = 2.77 | CG iter. 26 -- res = 0.48772E-02, tol = 0.23764E+01, time = 2.67 | CG iter. 27 -- res = 0.22758E-02, tol = 0.23764E+01, time = 2.42 | CG iter. 28 -- res = 0.11164E-02, tol = 0.23764E+01, time = 2.79 | CG iter. 29 -- res = 0.48848E-03, tol = 0.23764E+01, time = 2.76 | CG iter. 30 -- res = 0.22775E-03, tol = 0.23764E+01, time = 2.80 | CG iter. 31 -- res = 0.11503E-03, tol = 0.23764E+01, time = 3.12 | CG iter. 32 -- res = 0.60780E-04, tol = 0.23764E+01, time = 3.80 | CG iter. 33 -- res = 0.30039E-04, tol = 0.23764E+01, time = 2.73 | CG iter. 34 -- res = 0.14072E-04, tol = 0.23764E+01, time = 2.54 | CG iter. 35 -- res = 0.65497E-05, tol = 0.23764E+01, time = 3.30 | CG iter. 36 -- res = 0.31668E-05, tol = 0.23764E+01, time = 2.54 | CG iter. 37 -- res = 0.14997E-05, tol = 0.23764E+01, time = 2.79 | CG iter. 38 -- res = 0.75478E-06, tol = 0.23764E+01, time = 2.60 | CG iter. 39 -- res = 0.38748E-06, tol = 0.23764E+01, time = 2.78 | CG iter. 40 -- res = 0.18158E-06, tol = 0.23764E+01, time = 2.57 | CG iter. 41 -- res = 0.84521E-07, tol = 0.23764E+01, time = 2.55 | CG iter. 42 -- res = 0.39827E-07, tol = 0.23764E+01, time = 2.77 | CG iter. 43 -- res = 0.18052E-07, tol = 0.23764E+01, time = 2.68 | CG iter. 44 -- res = 0.90679E-08, tol = 0.23764E+01, time = 2.58 | CG iter. 45 -- res = 0.45306E-08, tol = 0.23764E+01, time = 2.90 | CG iter. 46 -- res = 0.21813E-08, tol = 0.23764E+01, time = 2.74 | CG iter. 47 -- res = 0.10269E-08, tol = 0.23764E+01, time = 2.57 | CG iter. 48 -- res = 0.49258E-09, tol = 0.23764E+01, time = 2.42 | CG iter. 49 -- res = 0.22555E-09, tol = 0.23764E+01, time = 2.83 | CG iter. 50 -- res = 0.10815E-09, tol = 0.23764E+01, time = 2.86 | Final CG iter 51 -- res = 0.10815E-09, tol = 0.23764E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.329 4.044 | New value -2.448 | Old value 5.329 | Difference -7.777 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.63420E+05, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.77265E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.24073E+01, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.84211E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.39160E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11512602.971 | (Sampled value in CG: 11578824.339 ) | CPU time specind = 1178.551 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.68492E+08, tol = 0.57601E+04, time = 11.81 | CG iter. 2 -- res = 0.59026E+08, tol = 0.57601E+04, time = 11.45 | CG iter. 3 -- res = 0.15432E+08, tol = 0.57601E+04, time = 11.44 | CG iter. 4 -- res = 0.66269E+07, tol = 0.57601E+04, time = 12.19 | CG iter. 5 -- res = 0.39919E+07, tol = 0.57601E+04, time = 11.72 | CG iter. 6 -- res = 0.22618E+07, tol = 0.57601E+04, time = 11.56 | CG iter. 7 -- res = 0.13153E+07, tol = 0.57601E+04, time = 17.85 | CG iter. 8 -- res = 0.87967E+06, tol = 0.57601E+04, time = 11.51 | CG iter. 9 -- res = 0.58574E+06, tol = 0.57601E+04, time = 11.80 | CG iter. 10 -- res = 0.36283E+06, tol = 0.57601E+04, time = 12.25 | CG iter. 11 -- res = 0.20940E+06, tol = 0.57601E+04, time = 11.77 | CG iter. 12 -- res = 0.12003E+06, tol = 0.57601E+04, time = 11.89 | CG iter. 13 -- res = 0.71541E+05, tol = 0.57601E+04, time = 11.76 | CG iter. 14 -- res = 0.49651E+05, tol = 0.57601E+04, time = 12.97 | CG iter. 15 -- res = 0.40014E+05, tol = 0.57601E+04, time = 12.28 | CG iter. 16 -- res = 0.37295E+05, tol = 0.57601E+04, time = 11.83 | CG iter. 17 -- res = 0.35417E+05, tol = 0.57601E+04, time = 11.60 | CG iter. 18 -- res = 0.32229E+05, tol = 0.57601E+04, time = 11.85 | CG iter. 19 -- res = 0.28827E+05, tol = 0.57601E+04, time = 11.63 | CG iter. 20 -- res = 0.26694E+05, tol = 0.57601E+04, time = 11.92 | CG iter. 21 -- res = 0.25768E+05, tol = 0.57601E+04, time = 11.75 | CG iter. 22 -- res = 0.25930E+05, tol = 0.57601E+04, time = 12.03 | CG iter. 23 -- res = 0.25818E+05, tol = 0.57601E+04, time = 12.98 | CG iter. 24 -- res = 0.23709E+05, tol = 0.57601E+04, time = 11.98 | CG iter. 25 -- res = 0.20019E+05, tol = 0.57601E+04, time = 11.87 | CG iter. 26 -- res = 0.15261E+05, tol = 0.57601E+04, time = 11.36 | CG iter. 27 -- res = 0.11050E+05, tol = 0.57601E+04, time = 12.07 | CG iter. 28 -- res = 0.81915E+04, tol = 0.57601E+04, time = 11.92 | CG iter. 29 -- res = 0.66193E+04, tol = 0.57601E+04, time = 11.44 | CG iter. 30 -- res = 0.58498E+04, tol = 0.57601E+04, time = 12.01 | CG iter. 31 -- res = 0.52722E+04, tol = 0.57601E+04, time = 18.05 | CG iter. 32 -- res = 0.47471E+04, tol = 0.57601E+04, time = 11.24 | CG iter. 33 -- res = 0.41672E+04, tol = 0.57601E+04, time = 11.73 | CG iter. 34 -- res = 0.35579E+04, tol = 0.57601E+04, time = 11.84 | CG iter. 35 -- res = 0.30364E+04, tol = 0.57601E+04, time = 11.90 | CG iter. 36 -- res = 0.26751E+04, tol = 0.57601E+04, time = 11.61 | CG iter. 37 -- res = 0.25477E+04, tol = 0.57601E+04, time = 11.78 | CG iter. 38 -- res = 0.23880E+04, tol = 0.57601E+04, time = 11.31 | CG iter. 39 -- res = 0.21155E+04, tol = 0.57601E+04, time = 13.54 | CG iter. 40 -- res = 0.18068E+04, tol = 0.57601E+04, time = 11.86 | CG iter. 41 -- res = 0.14160E+04, tol = 0.57601E+04, time = 11.71 | CG iter. 42 -- res = 0.11120E+04, tol = 0.57601E+04, time = 11.78 | CG iter. 43 -- res = 0.93997E+03, tol = 0.57601E+04, time = 11.62 | CG iter. 44 -- res = 0.84671E+03, tol = 0.57601E+04, time = 11.67 | CG iter. 45 -- res = 0.78701E+03, tol = 0.57601E+04, time = 11.65 | CG iter. 46 -- res = 0.72323E+03, tol = 0.57601E+04, time = 12.43 | CG iter. 47 -- res = 0.64316E+03, tol = 0.57601E+04, time = 12.13 | CG iter. 48 -- res = 0.55606E+03, tol = 0.57601E+04, time = 11.73 | CG iter. 49 -- res = 0.47665E+03, tol = 0.57601E+04, time = 11.38 | CG iter. 50 -- res = 0.42388E+03, tol = 0.57601E+04, time = 12.16 | CG iter. 51 -- res = 0.39294E+03, tol = 0.57601E+04, time = 11.14 | CG iter. 52 -- res = 0.36549E+03, tol = 0.57601E+04, time = 11.94 | CG iter. 53 -- res = 0.33663E+03, tol = 0.57601E+04, time = 11.39 | CG iter. 54 -- res = 0.30050E+03, tol = 0.57601E+04, time = 11.78 | CG iter. 55 -- res = 0.25394E+03, tol = 0.57601E+04, time = 11.59 | CG iter. 56 -- res = 0.21747E+03, tol = 0.57601E+04, time = 18.81 | CG iter. 57 -- res = 0.19131E+03, tol = 0.57601E+04, time = 11.87 | CG iter. 58 -- res = 0.17597E+03, tol = 0.57601E+04, time = 11.81 | CG iter. 59 -- res = 0.16724E+03, tol = 0.57601E+04, time = 11.40 | CG iter. 60 -- res = 0.15441E+03, tol = 0.57601E+04, time = 11.50 | Final CG iter 61 -- res = 0.15441E+03, tol = 0.57601E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.801 ( -229.851 -2231.041 2513.447 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8563909.172 | Old band monopole 11512652.489 | Change to band monopole -2948743.317 | Change to component monopole 2948730.634 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.394 2.758 | New value -2.971 | Old value 1.394 | Difference -4.365 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.336 ( 7.019 11.618 -11.341 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.241 5.348 | New value 2.035 | Old value -1.241 | Difference 3.276 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.14051E+07, tol = 0.47627E+18, time = 2.43 | CG iter. 2 -- res = 0.14231E+03, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.37453E+01, tol = 0.47627E+18, time = 2.32 | CG iter. 4 -- res = 0.49775E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.11205E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8563872.337 | (Sampled value in CG: 8542506.636 ) | Chain = 1 -- chisq = 0.81568833E+09 | Chain = 1 -- wall time = 6130.108 sec Available RAM: MemAvailable: 417085460 kB Available Swap: SwapFree: 1103915548 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 381 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445121 | --> Sampling calibration, mode = relcal | relcal = 1.3441212E-02 7.5104949E-04 -1.6103040E-03 -1.2581957E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1783341 0.1940323 97047403.2135537 | BP delta = 0.1793152 0.1950134 97047402.7733119 | BP chisq diff = -0.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632462 | --> Sampling calibration, mode = relcal | relcal = -2.8208571E-03 -7.0423941E-04 1.6784549E-03 1.6141934E-03 -4.0781891E-04 6.4026710E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5604066 15220231.6593178 | BP delta = 0.0000000E+00 -0.5629569 15220228.3379489 | BP chisq diff = -3.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03102576 | --> Sampling calibration, mode = relcal | relcal = 3.7072577E-02 1.3719820E-02 5.7517821E-03 -7.1651428E-03 8.2432181E-03 2.3956164E-03 -7.6008812E-03 -7.1764076E-03 -1.5297127E-02 -1.4800111E-02 -3.0541758E-03 -1.2089169E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.174415 132208126.915121 | BP delta = 0.0000000E+00 -1.154867 132208127.836517 | BP chisq diff = 0.9, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18066040161558 | --> Sampling calibration, mode = relcal | relcal = -7.4778795E-02 -5.8232866E-02 9.1542296E-02 4.1469365E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.5053413E-04 4.3141250E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9575E-05 | 2: delta_r/delta_0: 7.9369E-07 | 3: delta_s/delta_0: 2.4977E-07 | 4: delta_r/delta_0: 1.2866E-08 | 5: delta_s/delta_0: 1.0365E-08 | 6: delta_r/delta_0: 2.8172E-09 | 7: delta_s/delta_0: 4.2048E-10 | 8: delta_r/delta_0: 9.7624E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.063303053279437E-003 2.741905225468180E-005 | BP delta = 8.8607125E-02 0.1117307 50490718.5033393 | BP delta = 8.7811969E-02 0.1109356 50490718.2889904 | BP chisq diff = -0.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02609175 | --> Sampling calibration, mode = relcal | relcal = -0.1066749 -9.5582575E-02 0.1450254 5.7232112E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2544388E-03 1.2097491E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6428E-05 | 2: delta_r/delta_0: 1.2871E-06 | 3: delta_s/delta_0: 2.5344E-07 | 4: delta_r/delta_0: 3.9905E-08 | 5: delta_s/delta_0: 2.2117E-08 | 6: delta_r/delta_0: 6.6880E-09 | 7: delta_s/delta_0: 6.1772E-09 | 8: delta_r/delta_0: 1.6198E-09 | 9: delta_s/delta_0: 8.1776E-10 | 10: delta_r/delta_0: 6.0552E-10 | 11: delta_s/delta_0: 7.6989E-10 | 12: delta_r/delta_0: 9.9924E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.917124118049365E-003 2.810569189255771E-005 | BP delta = -0.2356230 -0.1999592 57390066.8351556 | BP delta = -0.2345247 -0.1988609 57390066.7086412 | BP chisq diff = -0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81230275 | --> Sampling calibration, mode = relcal | relcal = 0.2954582 0.2249298 -0.2838304 -0.2365575 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.0676643E-04 5.0752615E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.6697E-03 | 2: delta_r/delta_0: 2.2542E-04 | 3: delta_s/delta_0: 9.7872E-05 | 4: delta_r/delta_0: 1.3129E-05 | 5: delta_s/delta_0: 1.3411E-04 | 6: delta_r/delta_0: 1.9646E-05 | 7: delta_s/delta_0: 1.0442E-04 | 8: delta_r/delta_0: 7.6012E-06 | 9: delta_s/delta_0: 9.9146E-05 | 10: delta_r/delta_0: 7.7096E-06 | 11: delta_s/delta_0: 7.6942E-06 | 12: delta_r/delta_0: 2.0627E-06 | 13: delta_s/delta_0: 2.1715E-06 | 14: delta_r/delta_0: 7.6800E-07 | 15: delta_s/delta_0: 7.6789E-08 | 16: delta_r/delta_0: 2.7770E-08 | 17: delta_s/delta_0: 1.0161E-08 | 18: delta_r/delta_0: 3.9390E-09 | 19: delta_s/delta_0: 1.5091E-09 | 20: delta_r/delta_0: 1.2014E-09 | 21: delta_s/delta_0: 1.0605E-09 | 22: delta_r/delta_0: 7.6423E-10 | 23: delta_s/delta_0: 1.2781E-09 | 24: delta_r/delta_0: 3.3124E-10 | 25: delta_s/delta_0: 9.1682E-10 | 26: delta_r/delta_0: 4.5531E-10 | 27: delta_s/delta_0: 8.8548E-10 | 28: delta_r/delta_0: 4.9512E-10 | 29: delta_s/delta_0: 1.4954E-08 | 30: delta_r/delta_0: 9.9604E-09 | 31: delta_s/delta_0: 6.0065E-10 | 32: delta_r/delta_0: 1.4103E-10 | 33: delta_s/delta_0: 3.5616E-10 | 34: delta_r/delta_0: 1.9580E-10 | 35: delta_s/delta_0: 1.5531E-10 | 36: delta_r/delta_0: 1.1905E-10 | 37: delta_s/delta_0: 2.2305E-10 | 38: delta_r/delta_0: 1.2596E-10 | 39: delta_s/delta_0: 7.4326E-10 | 40: delta_r/delta_0: 2.0807E-10 | 41: delta_s/delta_0: 3.4331E-10 | 42: delta_r/delta_0: 1.8132E-10 | 43: delta_s/delta_0: 2.6733E-09 | 44: delta_r/delta_0: 9.5775E-10 | 45: delta_s/delta_0: 3.8254E-10 | 46: delta_r/delta_0: 1.7485E-10 | 47: delta_s/delta_0: 2.8571E-09 | 48: delta_r/delta_0: 9.8431E-10 | 49: delta_s/delta_0: 1.1691E-09 | 50: delta_r/delta_0: 8.4478E-10 | 51: delta_s/delta_0: 1.8954E-09 | 52: delta_r/delta_0: 1.3562E-09 | 53: delta_s/delta_0: 1.0681E-10 | 54: delta_r/delta_0: 2.9091E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 0.330805485195453 4.021466021161096E-005 | BP delta = -0.1193324 -0.1699098 72484111.7486651 | BP delta = -0.1158056 -0.1663830 72484111.7480183 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95926106 | --> Sampling calibration, mode = relcal | relcal = 0.1066366 0.1394616 -0.1103333 -0.1357650 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8027447E-03 1.3713369E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3252E-04 | 2: delta_r/delta_0: 1.0669E-05 | 3: delta_s/delta_0: 6.8910E-06 | 4: delta_r/delta_0: 8.0764E-07 | 5: delta_s/delta_0: 3.2378E-07 | 6: delta_r/delta_0: 1.4798E-07 | 7: delta_s/delta_0: 3.5077E-07 | 8: delta_r/delta_0: 3.3944E-08 | 9: delta_s/delta_0: 1.3594E-07 | 10: delta_r/delta_0: 2.4364E-08 | 11: delta_s/delta_0: 2.6765E-09 | 12: delta_r/delta_0: 1.8496E-09 | 13: delta_s/delta_0: 6.9193E-10 | 14: delta_r/delta_0: 5.2671E-10 | 15: delta_s/delta_0: 8.6334E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.225399546932282E-002 3.696770514436420E-005 | BP delta = 0.1819758 0.2962079 72790486.1253044 | BP delta = 0.2007858 0.3150179 72790486.3918352 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52160496 | --> Sampling calibration, mode = relcal | relcal = -5.1120572E-02 -3.7384897E-03 2.7289070E-02 2.7569992E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.2114763E-04 2.3360355E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6967E-05 | 2: delta_r/delta_0: 4.5650E-06 | 3: delta_s/delta_0: 1.1723E-06 | 4: delta_r/delta_0: 1.1362E-07 | 5: delta_s/delta_0: 7.1974E-08 | 6: delta_r/delta_0: 4.1284E-08 | 7: delta_s/delta_0: 1.6401E-08 | 8: delta_r/delta_0: 1.2549E-08 | 9: delta_s/delta_0: 5.6895E-08 | 10: delta_r/delta_0: 1.6418E-09 | 11: delta_s/delta_0: 8.2321E-10 | 12: delta_r/delta_0: 3.3684E-10 | 13: delta_s/delta_0: 1.7136E-10 | 14: delta_r/delta_0: 3.3426E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.173654775321297E-002 5.483002356064518E-005 | BP delta = 7.2897628E-02 0.1597511 91254923.0348451 | BP delta = 4.5712791E-02 0.1325662 91254923.3018092 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42156072 | --> Sampling calibration, mode = relcal | relcal = 4.5628723E-02 3.9572123E-02 -2.8231870E-02 -5.6968980E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1180557E-03 3.6612614E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0378E-05 | 2: delta_r/delta_0: 3.8092E-06 | 3: delta_s/delta_0: 3.1726E-06 | 4: delta_r/delta_0: 5.4042E-07 | 5: delta_s/delta_0: 5.9844E-08 | 6: delta_r/delta_0: 3.7090E-08 | 7: delta_s/delta_0: 4.0392E-08 | 8: delta_r/delta_0: 1.3354E-08 | 9: delta_s/delta_0: 2.4202E-09 | 10: delta_r/delta_0: 1.3959E-09 | 11: delta_s/delta_0: 1.1206E-09 | 12: delta_r/delta_0: 4.8405E-10 | 13: delta_s/delta_0: 1.7027E-08 | 14: delta_r/delta_0: 2.5306E-10 | 15: delta_s/delta_0: 1.3499E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.468374023987159E-002 4.995917628290436E-005 | BP delta = 3.3952009E-02 -8.7710269E-02 90182633.9545567 | BP delta = 3.5595872E-02 -8.6066402E-02 90182633.9332006 | BP chisq diff = -0.0, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28170530 | --> Sampling calibration, mode = relcal | relcal = 2.4217712E-02 4.5181010E-02 -2.3406880E-02 -4.5991842E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1030335E-02 3.5659026E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0634E-04 | 2: delta_r/delta_0: 8.4310E-06 | 3: delta_s/delta_0: 1.3465E-06 | 4: delta_r/delta_0: 2.4468E-07 | 5: delta_s/delta_0: 7.2751E-08 | 6: delta_r/delta_0: 1.8592E-08 | 7: delta_s/delta_0: 8.7582E-09 | 8: delta_r/delta_0: 5.6997E-09 | 9: delta_s/delta_0: 2.1399E-03 | 10: delta_r/delta_0: 1.4224E-05 | 11: delta_s/delta_0: 1.8471E-09 | 12: delta_r/delta_0: 1.0147E-09 | 13: delta_s/delta_0: 1.1617E-10 | 14: delta_r/delta_0: 9.7373E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.382905147771500E-003 7.841540682870495E-005 | BP delta = -0.4368341 -0.6293256 160940078.017528 | BP delta = -0.4500624 -0.6425538 160940077.838698 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29392273 | --> Sampling calibration, mode = relcal | relcal = 5.1930023E-04 1.0275305E-02 -3.8891328E-03 -6.9054724E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7943397E-02 1.5113527E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3203E-04 | 2: delta_r/delta_0: 1.1259E-05 | 3: delta_s/delta_0: 1.8294E-06 | 4: delta_r/delta_0: 2.6223E-07 | 5: delta_s/delta_0: 9.6544E-08 | 6: delta_r/delta_0: 2.3070E-08 | 7: delta_s/delta_0: 1.0904E-08 | 8: delta_r/delta_0: 7.5725E-09 | 9: delta_s/delta_0: 5.3419E-09 | 10: delta_r/delta_0: 2.3944E-09 | 11: delta_s/delta_0: 2.4506E-05 | 12: delta_r/delta_0: 1.8261E-08 | 13: delta_s/delta_0: 2.8231E-10 | 14: delta_r/delta_0: 1.3698E-10 | 15: delta_s/delta_0: 1.1452E-10 | 16: delta_r/delta_0: 9.5731E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.040379420180590E-002 8.306670479214771E-005 | BP delta = -0.8695599 -0.8251241 157879847.515262 | BP delta = -0.8888119 -0.8443761 157879847.365559 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26504566 | --> Sampling calibration, mode = relcal | relcal = -5.5714478E-03 1.5069089E-02 -2.3715906E-03 -7.1260510E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7873014E-03 5.1762238E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4238E-04 | 2: delta_r/delta_0: 1.2210E-05 | 3: delta_s/delta_0: 2.1449E-06 | 4: delta_r/delta_0: 2.5973E-07 | 5: delta_s/delta_0: 9.0687E-08 | 6: delta_r/delta_0: 2.2153E-08 | 7: delta_s/delta_0: 1.0336E-08 | 8: delta_r/delta_0: 6.9171E-09 | 9: delta_s/delta_0: 7.1711E-09 | 10: delta_r/delta_0: 5.0374E-09 | 11: delta_s/delta_0: 2.5437E-06 | 12: delta_r/delta_0: 2.2618E-07 | 13: delta_s/delta_0: 1.4615E-09 | 14: delta_r/delta_0: 5.7895E-10 | 15: delta_s/delta_0: 6.7394E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.801446010632978E-003 9.154210564529281E-005 | BP delta = 0.4414698 0.4765828 157026269.603216 | BP delta = 0.4231864 0.4582994 157026269.475829 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25674682 | --> Sampling calibration, mode = relcal | relcal = -3.1673655E-02 -2.5840225E-02 3.6806360E-02 2.0707520E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4395462E-02 1.9625461E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4602E-04 | 2: delta_r/delta_0: 1.1713E-05 | 3: delta_s/delta_0: 1.7379E-06 | 4: delta_r/delta_0: 5.1618E-07 | 5: delta_s/delta_0: 1.2092E-07 | 6: delta_r/delta_0: 4.3275E-08 | 7: delta_s/delta_0: 1.9091E-08 | 8: delta_r/delta_0: 1.0181E-08 | 9: delta_s/delta_0: 1.4627E-07 | 10: delta_r/delta_0: 8.6714E-09 | 11: delta_s/delta_0: 3.9771E-09 | 12: delta_r/delta_0: 2.1401E-09 | 13: delta_s/delta_0: 4.2006E-09 | 14: delta_r/delta_0: 2.7187E-09 | 15: delta_s/delta_0: 1.9956E-10 | 16: delta_r/delta_0: 1.2498E-10 | 17: delta_s/delta_0: 9.1095E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.048726455206840E-002 8.668147858221764E-005 | BP delta = -0.8867164 -1.089015 158539726.227859 | BP delta = -0.9048797 -1.107179 158539726.142304 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120904 | New value = -3.130056 | poltype: 2 pol: 1 CPU time specind = 2.2057056E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146898 | New value = -3.161289 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106113 | New value = -3.091498 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.227721 | New value = -3.165497 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133390 | New value = -3.227568 | poltype: 2 pol: 2 CPU time specind = 4.0956974E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 24.10 | CG iter. 1 -- res = 0.13532E+08, tol = 0.82229E+01, time = 5.73 | CG iter. 2 -- res = 0.31380E+06, tol = 0.82229E+01, time = 5.78 | CG iter. 3 -- res = 0.45590E+05, tol = 0.82229E+01, time = 5.72 | CG iter. 4 -- res = 0.20416E+05, tol = 0.82229E+01, time = 6.19 | CG iter. 5 -- res = 0.98679E+04, tol = 0.82229E+01, time = 5.55 | CG iter. 6 -- res = 0.52502E+04, tol = 0.82229E+01, time = 5.61 | CG iter. 7 -- res = 0.35297E+04, tol = 0.82229E+01, time = 5.56 | CG iter. 8 -- res = 0.23897E+04, tol = 0.82229E+01, time = 5.78 | CG iter. 9 -- res = 0.19079E+04, tol = 0.82229E+01, time = 5.93 | CG iter. 10 -- res = 0.20646E+04, tol = 0.82229E+01, time = 5.49 | CG iter. 11 -- res = 0.19453E+04, tol = 0.82229E+01, time = 5.80 | CG iter. 12 -- res = 0.14859E+04, tol = 0.82229E+01, time = 5.99 | CG iter. 13 -- res = 0.10190E+04, tol = 0.82229E+01, time = 5.77 | CG iter. 14 -- res = 0.75405E+03, tol = 0.82229E+01, time = 6.01 | CG iter. 15 -- res = 0.60924E+03, tol = 0.82229E+01, time = 7.18 | CG iter. 16 -- res = 0.46893E+03, tol = 0.82229E+01, time = 6.15 | CG iter. 17 -- res = 0.33783E+03, tol = 0.82229E+01, time = 5.94 | CG iter. 18 -- res = 0.26016E+03, tol = 0.82229E+01, time = 5.72 | CG iter. 19 -- res = 0.22429E+03, tol = 0.82229E+01, time = 5.65 | CG iter. 20 -- res = 0.18528E+03, tol = 0.82229E+01, time = 5.77 | CG iter. 21 -- res = 0.13952E+03, tol = 0.82229E+01, time = 5.58 | CG iter. 22 -- res = 0.98347E+02, tol = 0.82229E+01, time = 5.84 | CG iter. 23 -- res = 0.81200E+02, tol = 0.82229E+01, time = 6.00 | CG iter. 24 -- res = 0.68691E+02, tol = 0.82229E+01, time = 5.57 | CG iter. 25 -- res = 0.51552E+02, tol = 0.82229E+01, time = 5.74 | CG iter. 26 -- res = 0.37261E+02, tol = 0.82229E+01, time = 5.54 | CG iter. 27 -- res = 0.29393E+02, tol = 0.82229E+01, time = 5.65 | CG iter. 28 -- res = 0.24191E+02, tol = 0.82229E+01, time = 5.77 | CG iter. 29 -- res = 0.19812E+02, tol = 0.82229E+01, time = 5.65 | CG iter. 30 -- res = 0.15697E+02, tol = 0.82229E+01, time = 5.78 | CG iter. 31 -- res = 0.13253E+02, tol = 0.82229E+01, time = 5.89 | CG iter. 32 -- res = 0.11755E+02, tol = 0.82229E+01, time = 5.72 | CG iter. 33 -- res = 0.10265E+02, tol = 0.82229E+01, time = 6.35 | CG iter. 34 -- res = 0.78507E+01, tol = 0.82229E+01, time = 5.63 | CG iter. 35 -- res = 0.62275E+01, tol = 0.82229E+01, time = 6.18 | CG iter. 36 -- res = 0.53039E+01, tol = 0.82229E+01, time = 5.45 | CG iter. 37 -- res = 0.46107E+01, tol = 0.82229E+01, time = 5.35 | CG iter. 38 -- res = 0.38359E+01, tol = 0.82229E+01, time = 5.84 | CG iter. 39 -- res = 0.28938E+01, tol = 0.82229E+01, time = 5.70 | CG iter. 40 -- res = 0.24452E+01, tol = 0.82229E+01, time = 5.86 | CG iter. 41 -- res = 0.20435E+01, tol = 0.82229E+01, time = 5.71 | CG iter. 42 -- res = 0.15599E+01, tol = 0.82229E+01, time = 5.67 | CG iter. 43 -- res = 0.11885E+01, tol = 0.82229E+01, time = 5.61 | CG iter. 44 -- res = 0.94715E+00, tol = 0.82229E+01, time = 5.92 | CG iter. 45 -- res = 0.79426E+00, tol = 0.82229E+01, time = 5.56 | CG iter. 46 -- res = 0.62467E+00, tol = 0.82229E+01, time = 5.41 | CG iter. 47 -- res = 0.49872E+00, tol = 0.82229E+01, time = 5.58 | CG iter. 48 -- res = 0.38016E+00, tol = 0.82229E+01, time = 5.86 | CG iter. 49 -- res = 0.30797E+00, tol = 0.82229E+01, time = 5.74 | CG iter. 50 -- res = 0.25110E+00, tol = 0.82229E+01, time = 5.56 | Final CG iter 51 -- res = 0.25110E+00, tol = 0.82229E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8800882.263 | Old band monopole 8563909.172 | Change to band monopole 236973.091 | Change to component monopole -236972.072 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.14057E+05, tol = 0.47627E+18, time = 2.19 | CG iter. 2 -- res = 0.22215E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.62202E+00, tol = 0.47627E+18, time = 2.27 | CG iter. 4 -- res = 0.10927E-02, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.49017E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8800844.409 | (Sampled value in CG: 8786509.788 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.464064 | New value = 1.493082 | poltype: 2 pol: 1 CPU time specind = 2.6961088E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495379 | New value = 1.520719 | poltype: 2 pol: 2 CPU time specind = 1.6232967E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.24191E+08, tol = 0.47528E+04, time = 6.40 | CG iter. 2 -- res = 0.53140E+07, tol = 0.47528E+04, time = 6.67 | CG iter. 3 -- res = 0.84983E+06, tol = 0.47528E+04, time = 6.33 | CG iter. 4 -- res = 0.35989E+06, tol = 0.47528E+04, time = 6.35 | CG iter. 5 -- res = 0.15467E+06, tol = 0.47528E+04, time = 6.63 | CG iter. 6 -- res = 0.81582E+05, tol = 0.47528E+04, time = 6.56 | CG iter. 7 -- res = 0.44552E+05, tol = 0.47528E+04, time = 6.51 | CG iter. 8 -- res = 0.21437E+05, tol = 0.47528E+04, time = 6.86 | CG iter. 9 -- res = 0.93027E+04, tol = 0.47528E+04, time = 6.47 | CG iter. 10 -- res = 0.37690E+04, tol = 0.47528E+04, time = 6.79 | CG iter. 11 -- res = 0.17043E+04, tol = 0.47528E+04, time = 6.43 | CG iter. 12 -- res = 0.88436E+03, tol = 0.47528E+04, time = 6.57 | CG iter. 13 -- res = 0.50077E+03, tol = 0.47528E+04, time = 6.49 | CG iter. 14 -- res = 0.28512E+03, tol = 0.47528E+04, time = 6.54 | CG iter. 15 -- res = 0.14467E+03, tol = 0.47528E+04, time = 6.83 | CG iter. 16 -- res = 0.68630E+02, tol = 0.47528E+04, time = 6.15 | CG iter. 17 -- res = 0.32397E+02, tol = 0.47528E+04, time = 6.84 | CG iter. 18 -- res = 0.16640E+02, tol = 0.47528E+04, time = 6.52 | CG iter. 19 -- res = 0.91732E+01, tol = 0.47528E+04, time = 6.48 | CG iter. 20 -- res = 0.51008E+01, tol = 0.47528E+04, time = 6.91 | CG iter. 21 -- res = 0.27989E+01, tol = 0.47528E+04, time = 6.76 | CG iter. 22 -- res = 0.14666E+01, tol = 0.47528E+04, time = 6.85 | CG iter. 23 -- res = 0.73150E+00, tol = 0.47528E+04, time = 6.41 | CG iter. 24 -- res = 0.36837E+00, tol = 0.47528E+04, time = 6.20 | CG iter. 25 -- res = 0.20333E+00, tol = 0.47528E+04, time = 6.26 | CG iter. 26 -- res = 0.11621E+00, tol = 0.47528E+04, time = 6.91 | CG iter. 27 -- res = 0.65554E-01, tol = 0.47528E+04, time = 5.92 | CG iter. 28 -- res = 0.35930E-01, tol = 0.47528E+04, time = 11.50 | CG iter. 29 -- res = 0.18755E-01, tol = 0.47528E+04, time = 11.92 | CG iter. 30 -- res = 0.98041E-02, tol = 0.47528E+04, time = 6.44 | CG iter. 31 -- res = 0.52492E-02, tol = 0.47528E+04, time = 6.49 | CG iter. 32 -- res = 0.29429E-02, tol = 0.47528E+04, time = 6.22 | CG iter. 33 -- res = 0.16620E-02, tol = 0.47528E+04, time = 6.53 | CG iter. 34 -- res = 0.90760E-03, tol = 0.47528E+04, time = 6.56 | CG iter. 35 -- res = 0.47516E-03, tol = 0.47528E+04, time = 6.54 | Final CG iter 36 -- res = 0.47516E-03, tol = 0.47528E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.014 2.736 | New value 5.506 | Old value -3.014 | Difference 8.520 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.37424E+07, tol = 0.47627E+18, time = 2.94 | CG iter. 2 -- res = 0.29033E+02, tol = 0.47627E+18, time = 2.65 | CG iter. 3 -- res = 0.18969E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.77368E-04, tol = 0.47627E+18, time = 2.22 | Final CG iter 5 -- res = 0.74895E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8800844.409 | (Sampled value in CG: 8787460.889 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.595270 | New value = -3.436035 | poltype: 1 pol: 1 CPU time specind = 2.6086807E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.21019E+07, tol = 0.22527E+01, time = 2.39 | CG iter. 2 -- res = 0.86721E+06, tol = 0.22527E+01, time = 2.87 | CG iter. 3 -- res = 0.15196E+06, tol = 0.22527E+01, time = 2.65 | CG iter. 4 -- res = 0.54010E+05, tol = 0.22527E+01, time = 2.50 | CG iter. 5 -- res = 0.28628E+05, tol = 0.22527E+01, time = 2.49 | CG iter. 6 -- res = 0.15533E+05, tol = 0.22527E+01, time = 2.77 | CG iter. 7 -- res = 0.65190E+04, tol = 0.22527E+01, time = 2.44 | CG iter. 8 -- res = 0.31597E+04, tol = 0.22527E+01, time = 2.80 | CG iter. 9 -- res = 0.14093E+04, tol = 0.22527E+01, time = 2.43 | CG iter. 10 -- res = 0.54947E+03, tol = 0.22527E+01, time = 2.56 | CG iter. 11 -- res = 0.24128E+03, tol = 0.22527E+01, time = 2.73 | CG iter. 12 -- res = 0.11784E+03, tol = 0.22527E+01, time = 2.63 | CG iter. 13 -- res = 0.57267E+02, tol = 0.22527E+01, time = 2.40 | CG iter. 14 -- res = 0.28820E+02, tol = 0.22527E+01, time = 2.82 | CG iter. 15 -- res = 0.13990E+02, tol = 0.22527E+01, time = 2.97 | CG iter. 16 -- res = 0.66003E+01, tol = 0.22527E+01, time = 2.54 | CG iter. 17 -- res = 0.27811E+01, tol = 0.22527E+01, time = 3.93 | CG iter. 18 -- res = 0.12299E+01, tol = 0.22527E+01, time = 3.15 | CG iter. 19 -- res = 0.56466E+00, tol = 0.22527E+01, time = 3.05 | CG iter. 20 -- res = 0.28784E+00, tol = 0.22527E+01, time = 4.25 | CG iter. 21 -- res = 0.14930E+00, tol = 0.22527E+01, time = 2.54 | CG iter. 22 -- res = 0.77727E-01, tol = 0.22527E+01, time = 2.37 | CG iter. 23 -- res = 0.36978E-01, tol = 0.22527E+01, time = 2.63 | CG iter. 24 -- res = 0.16594E-01, tol = 0.22527E+01, time = 2.69 | CG iter. 25 -- res = 0.77518E-02, tol = 0.22527E+01, time = 2.93 | CG iter. 26 -- res = 0.39226E-02, tol = 0.22527E+01, time = 2.70 | CG iter. 27 -- res = 0.20467E-02, tol = 0.22527E+01, time = 2.65 | CG iter. 28 -- res = 0.10424E-02, tol = 0.22527E+01, time = 2.38 | CG iter. 29 -- res = 0.49985E-03, tol = 0.22527E+01, time = 2.79 | CG iter. 30 -- res = 0.23981E-03, tol = 0.22527E+01, time = 2.78 | CG iter. 31 -- res = 0.11198E-03, tol = 0.22527E+01, time = 2.96 | CG iter. 32 -- res = 0.54737E-04, tol = 0.22527E+01, time = 2.69 | CG iter. 33 -- res = 0.27028E-04, tol = 0.22527E+01, time = 2.86 | CG iter. 34 -- res = 0.13461E-04, tol = 0.22527E+01, time = 2.73 | CG iter. 35 -- res = 0.65656E-05, tol = 0.22527E+01, time = 2.75 | CG iter. 36 -- res = 0.32821E-05, tol = 0.22527E+01, time = 3.00 | CG iter. 37 -- res = 0.15590E-05, tol = 0.22527E+01, time = 2.55 | CG iter. 38 -- res = 0.72027E-06, tol = 0.22527E+01, time = 2.64 | CG iter. 39 -- res = 0.35472E-06, tol = 0.22527E+01, time = 2.79 | CG iter. 40 -- res = 0.17583E-06, tol = 0.22527E+01, time = 2.60 | CG iter. 41 -- res = 0.90909E-07, tol = 0.22527E+01, time = 2.59 | CG iter. 42 -- res = 0.45142E-07, tol = 0.22527E+01, time = 2.38 | CG iter. 43 -- res = 0.21379E-07, tol = 0.22527E+01, time = 2.88 | CG iter. 44 -- res = 0.96923E-08, tol = 0.22527E+01, time = 2.63 | CG iter. 45 -- res = 0.47104E-08, tol = 0.22527E+01, time = 2.68 | CG iter. 46 -- res = 0.22611E-08, tol = 0.22527E+01, time = 2.47 | CG iter. 47 -- res = 0.11727E-08, tol = 0.22527E+01, time = 2.58 | CG iter. 48 -- res = 0.60510E-09, tol = 0.22527E+01, time = 2.89 | CG iter. 49 -- res = 0.28572E-09, tol = 0.22527E+01, time = 2.81 | CG iter. 50 -- res = 0.12720E-09, tol = 0.22527E+01, time = 2.61 | Final CG iter 51 -- res = 0.12720E-09, tol = 0.22527E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.096 5.303 | New value -7.091 | Old value 1.096 | Difference -8.187 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.66887E+05, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.39985E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.17866E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.38530E-03, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.40405E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8800844.409 | (Sampled value in CG: 8793715.897 ) | CPU time specind = 1188.941 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.54 | CG iter. 1 -- res = 0.68714E+08, tol = 0.57573E+04, time = 11.22 | CG iter. 2 -- res = 0.58530E+08, tol = 0.57573E+04, time = 11.78 | CG iter. 3 -- res = 0.15000E+08, tol = 0.57573E+04, time = 18.42 | CG iter. 4 -- res = 0.64457E+07, tol = 0.57573E+04, time = 11.91 | CG iter. 5 -- res = 0.38411E+07, tol = 0.57573E+04, time = 11.56 | CG iter. 6 -- res = 0.22270E+07, tol = 0.57573E+04, time = 12.21 | CG iter. 7 -- res = 0.13202E+07, tol = 0.57573E+04, time = 11.92 | CG iter. 8 -- res = 0.86687E+06, tol = 0.57573E+04, time = 11.74 | CG iter. 9 -- res = 0.55961E+06, tol = 0.57573E+04, time = 11.27 | CG iter. 10 -- res = 0.32902E+06, tol = 0.57573E+04, time = 13.61 | CG iter. 11 -- res = 0.18086E+06, tol = 0.57573E+04, time = 12.09 | CG iter. 12 -- res = 0.96830E+05, tol = 0.57573E+04, time = 11.99 | CG iter. 13 -- res = 0.51202E+05, tol = 0.57573E+04, time = 11.85 | CG iter. 14 -- res = 0.28610E+05, tol = 0.57573E+04, time = 11.64 | CG iter. 15 -- res = 0.17992E+05, tol = 0.57573E+04, time = 11.82 | CG iter. 16 -- res = 0.12376E+05, tol = 0.57573E+04, time = 12.04 | CG iter. 17 -- res = 0.86488E+04, tol = 0.57573E+04, time = 11.83 | CG iter. 18 -- res = 0.58953E+04, tol = 0.57573E+04, time = 12.41 | CG iter. 19 -- res = 0.37497E+04, tol = 0.57573E+04, time = 12.46 | CG iter. 20 -- res = 0.23995E+04, tol = 0.57573E+04, time = 11.73 | CG iter. 21 -- res = 0.16112E+04, tol = 0.57573E+04, time = 11.70 | CG iter. 22 -- res = 0.12166E+04, tol = 0.57573E+04, time = 11.51 | CG iter. 23 -- res = 0.10361E+04, tol = 0.57573E+04, time = 11.60 | CG iter. 24 -- res = 0.10023E+04, tol = 0.57573E+04, time = 11.82 | CG iter. 25 -- res = 0.10267E+04, tol = 0.57573E+04, time = 11.88 | CG iter. 26 -- res = 0.10572E+04, tol = 0.57573E+04, time = 11.83 | CG iter. 27 -- res = 0.10190E+04, tol = 0.57573E+04, time = 11.29 | CG iter. 28 -- res = 0.93924E+03, tol = 0.57573E+04, time = 18.20 | CG iter. 29 -- res = 0.85634E+03, tol = 0.57573E+04, time = 12.18 | CG iter. 30 -- res = 0.80585E+03, tol = 0.57573E+04, time = 11.38 | CG iter. 31 -- res = 0.75724E+03, tol = 0.57573E+04, time = 11.67 | CG iter. 32 -- res = 0.69321E+03, tol = 0.57573E+04, time = 11.61 | CG iter. 33 -- res = 0.59474E+03, tol = 0.57573E+04, time = 11.78 | CG iter. 34 -- res = 0.47550E+03, tol = 0.57573E+04, time = 11.50 | CG iter. 35 -- res = 0.36189E+03, tol = 0.57573E+04, time = 13.76 | CG iter. 36 -- res = 0.27669E+03, tol = 0.57573E+04, time = 11.79 | CG iter. 37 -- res = 0.22884E+03, tol = 0.57573E+04, time = 12.05 | CG iter. 38 -- res = 0.20925E+03, tol = 0.57573E+04, time = 11.70 | CG iter. 39 -- res = 0.19488E+03, tol = 0.57573E+04, time = 12.03 | CG iter. 40 -- res = 0.17533E+03, tol = 0.57573E+04, time = 11.62 | CG iter. 41 -- res = 0.15340E+03, tol = 0.57573E+04, time = 11.73 | CG iter. 42 -- res = 0.13283E+03, tol = 0.57573E+04, time = 11.54 | CG iter. 43 -- res = 0.11745E+03, tol = 0.57573E+04, time = 11.66 | CG iter. 44 -- res = 0.10894E+03, tol = 0.57573E+04, time = 12.08 | CG iter. 45 -- res = 0.10274E+03, tol = 0.57573E+04, time = 11.26 | CG iter. 46 -- res = 0.97246E+02, tol = 0.57573E+04, time = 11.61 | CG iter. 47 -- res = 0.91276E+02, tol = 0.57573E+04, time = 12.02 | CG iter. 48 -- res = 0.79968E+02, tol = 0.57573E+04, time = 11.48 | CG iter. 49 -- res = 0.65406E+02, tol = 0.57573E+04, time = 11.47 | CG iter. 50 -- res = 0.53985E+02, tol = 0.57573E+04, time = 12.03 | CG iter. 51 -- res = 0.46921E+02, tol = 0.57573E+04, time = 11.67 | CG iter. 52 -- res = 0.41281E+02, tol = 0.57573E+04, time = 11.81 | CG iter. 53 -- res = 0.38078E+02, tol = 0.57573E+04, time = 17.11 | CG iter. 54 -- res = 0.35703E+02, tol = 0.57573E+04, time = 11.53 | CG iter. 55 -- res = 0.32544E+02, tol = 0.57573E+04, time = 11.65 | CG iter. 56 -- res = 0.29218E+02, tol = 0.57573E+04, time = 11.70 | CG iter. 57 -- res = 0.25582E+02, tol = 0.57573E+04, time = 11.42 | CG iter. 58 -- res = 0.23947E+02, tol = 0.57573E+04, time = 11.57 | CG iter. 59 -- res = 0.23707E+02, tol = 0.57573E+04, time = 11.73 | CG iter. 60 -- res = 0.22680E+02, tol = 0.57573E+04, time = 13.82 | Final CG iter 61 -- res = 0.22680E+02, tol = 0.57573E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.933 ( -229.626 -2231.364 2513.950 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7417988.680 | Old band monopole 8800882.263 | Change to band monopole -1382893.583 | Change to component monopole 1382887.635 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 5.583 2.728 | New value 3.080 | Old value 5.583 | Difference -2.502 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.321 ( 6.255 12.891 -12.998 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.117 5.159 | New value 5.770 | Old value -4.117 | Difference 9.887 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.72119E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.14066E+03, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.33270E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.49365E-02, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.10639E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7417956.774 | (Sampled value in CG: 7397105.869 ) | Chain = 1 -- chisq = 0.81570764E+09 | Chain = 1 -- wall time = 17442.441 sec Available RAM: MemAvailable: 474435084 kB Available Swap: SwapFree: 1057265848 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 382 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444412 | --> Sampling calibration, mode = relcal | relcal = 1.3423447E-02 7.4293005E-04 -1.5891331E-03 -1.2577244E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1793152 0.1950134 9405748.72209054 | BP delta = 0.1793152 0.1965769 9405810.98388491 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632524 | --> Sampling calibration, mode = relcal | relcal = -2.8217358E-03 -7.0516631E-04 1.6792428E-03 1.6146902E-03 -4.0797511E-04 6.4094423E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5629569 15218309.5756302 | BP delta = 0.0000000E+00 -0.5539562 15218311.1468261 | BP chisq diff = 1.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18114563625993 | --> Sampling calibration, mode = relcal | relcal = -7.4974298E-02 -5.8411345E-02 9.1798902E-02 4.1586738E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1233085E-04 4.3117753E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0924E-05 | 2: delta_r/delta_0: 8.3874E-07 | 3: delta_s/delta_0: 2.3631E-07 | 4: delta_r/delta_0: 1.5728E-08 | 5: delta_s/delta_0: 3.0651E-08 | 6: delta_r/delta_0: 1.3280E-09 | 7: delta_s/delta_0: 1.1926E-07 | 8: delta_r/delta_0: 1.2493E-08 | 9: delta_s/delta_0: 2.5907E-09 | 10: delta_r/delta_0: 8.2840E-10 | 11: delta_s/delta_0: 1.0424E-10 | 12: delta_r/delta_0: 1.6134E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.914072933712124E-004 2.740729862700061E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0925E-05 | 2: delta_r/delta_0: 8.3874E-07 | 3: delta_s/delta_0: 2.3631E-07 | 4: delta_r/delta_0: 1.5728E-08 | 5: delta_s/delta_0: 3.0651E-08 | 6: delta_r/delta_0: 1.3280E-09 | 7: delta_s/delta_0: 1.1923E-07 | 8: delta_r/delta_0: 1.2489E-08 | 9: delta_s/delta_0: 2.5904E-09 | 10: delta_r/delta_0: 8.2829E-10 | 11: delta_s/delta_0: 1.0424E-10 | 12: delta_r/delta_0: 1.6134E-11 | Reached bicg-stab tolerance | BP delta = 8.7811969E-02 0.1109356 3515852.80668606 | BP delta = 8.7811969E-02 0.1105080 3516052.11651573 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02614710 | --> Sampling calibration, mode = relcal | relcal = -0.1067572 -9.5586315E-02 0.1450148 5.7328682E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0538538E-03 1.3159076E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3662E-05 | 2: delta_r/delta_0: 1.2466E-06 | 3: delta_s/delta_0: 2.4530E-07 | 4: delta_r/delta_0: 4.7985E-08 | 5: delta_s/delta_0: 2.0353E-08 | 6: delta_r/delta_0: 7.1162E-09 | 7: delta_s/delta_0: 1.0775E-08 | 8: delta_r/delta_0: 1.2496E-09 | 9: delta_s/delta_0: 1.0725E-09 | 10: delta_r/delta_0: 2.4137E-10 | 11: delta_s/delta_0: 2.4180E-09 | 12: delta_r/delta_0: 2.6868E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.696660016832696E-003 2.810418335869529E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3662E-05 | 2: delta_r/delta_0: 1.2466E-06 | 3: delta_s/delta_0: 2.4530E-07 | 4: delta_r/delta_0: 4.7982E-08 | 5: delta_s/delta_0: 2.0355E-08 | 6: delta_r/delta_0: 7.1162E-09 | 7: delta_s/delta_0: 1.0775E-08 | 8: delta_r/delta_0: 1.2496E-09 | 9: delta_s/delta_0: 1.0725E-09 | 10: delta_r/delta_0: 2.4143E-10 | 11: delta_s/delta_0: 2.4178E-09 | 12: delta_r/delta_0: 2.6872E-11 | Reached bicg-stab tolerance | BP delta = -0.2345247 -0.1988609 2841583.01128598 | BP delta = -0.2345247 -0.2005385 2841585.18540618 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81247844 | --> Sampling calibration, mode = relcal | relcal = 0.2954148 0.2249209 -0.2837962 -0.2365396 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.3754847E-04 4.8300549E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4337E-03 | 2: delta_r/delta_0: 8.1649E-05 | 3: delta_s/delta_0: 4.3910E-05 | 4: delta_r/delta_0: 3.3539E-06 | 5: delta_s/delta_0: 1.2735E-06 | 6: delta_r/delta_0: 3.3735E-07 | 7: delta_s/delta_0: 6.6045E-07 | 8: delta_r/delta_0: 7.2766E-08 | 9: delta_s/delta_0: 1.5796E-07 | 10: delta_r/delta_0: 7.7131E-08 | 11: delta_s/delta_0: 3.5714E-09 | 12: delta_r/delta_0: 1.8703E-09 | 13: delta_s/delta_0: 1.0273E-08 | 14: delta_r/delta_0: 2.1979E-09 | 15: delta_s/delta_0: 1.4363E-10 | 16: delta_r/delta_0: 5.9329E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.157461604109422E-002 4.020317462663650E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.4356E-03 | 2: delta_r/delta_0: 8.1694E-05 | 3: delta_s/delta_0: 4.3935E-05 | 4: delta_r/delta_0: 3.3559E-06 | 5: delta_s/delta_0: 1.2739E-06 | 6: delta_r/delta_0: 3.3736E-07 | 7: delta_s/delta_0: 6.5986E-07 | 8: delta_r/delta_0: 7.2792E-08 | 9: delta_s/delta_0: 1.5807E-07 | 10: delta_r/delta_0: 7.7167E-08 | 11: delta_s/delta_0: 3.5735E-09 | 12: delta_r/delta_0: 1.8710E-09 | 13: delta_s/delta_0: 1.0290E-08 | 14: delta_r/delta_0: 2.1995E-09 | 15: delta_s/delta_0: 1.4366E-10 | 16: delta_r/delta_0: 5.9348E-11 | Reached bicg-stab tolerance | BP delta = -0.1158056 -0.1663830 2827294.00326571 | BP delta = -0.1158056 -0.1689340 2827305.57373922 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95932139 | --> Sampling calibration, mode = relcal | relcal = 0.1064623 0.1397198 -0.1102758 -0.1359064 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0035342E-02 1.5302615E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9686E-03 | 2: delta_r/delta_0: 4.7555E-05 | 3: delta_s/delta_0: 2.1206E-04 | 4: delta_r/delta_0: 9.8567E-06 | 5: delta_s/delta_0: 5.2666E-07 | 6: delta_r/delta_0: 1.9986E-07 | 7: delta_s/delta_0: 4.4960E-07 | 8: delta_r/delta_0: 5.0809E-08 | 9: delta_s/delta_0: 1.5162E-08 | 10: delta_r/delta_0: 6.3831E-09 | 11: delta_s/delta_0: 2.6924E-09 | 12: delta_r/delta_0: 1.2855E-09 | 13: delta_s/delta_0: 1.6824E-09 | 14: delta_r/delta_0: 1.4010E-10 | 15: delta_s/delta_0: 8.3697E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.749880565861907E-002 3.696609498832145E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9685E-03 | 2: delta_r/delta_0: 4.7551E-05 | 3: delta_s/delta_0: 2.1208E-04 | 4: delta_r/delta_0: 9.8575E-06 | 5: delta_s/delta_0: 5.2663E-07 | 6: delta_r/delta_0: 1.9986E-07 | 7: delta_s/delta_0: 4.4976E-07 | 8: delta_r/delta_0: 5.0808E-08 | 9: delta_s/delta_0: 1.5161E-08 | 10: delta_r/delta_0: 6.3817E-09 | 11: delta_s/delta_0: 2.6923E-09 | 12: delta_r/delta_0: 1.2856E-09 | 13: delta_s/delta_0: 1.6834E-09 | 14: delta_r/delta_0: 1.4015E-10 | 15: delta_s/delta_0: 8.3704E-11 | Reached bicg-stab tolerance | BP delta = 0.1819758 0.2962079 3004142.65382451 | BP delta = 0.1819758 0.3008327 3004156.58941289 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.130056 | New value = -3.169576 | poltype: 2 pol: 1 CPU time specind = 1.5575886E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.161289 | New value = -3.181565 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091498 | New value = -3.201516 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165497 | New value = -3.141707 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.227568 | New value = -3.031732 | poltype: 2 pol: 2 CPU time specind = 4.9519539E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.43 | CG iter. 1 -- res = 0.13561E+08, tol = 0.90904E+01, time = 5.54 | CG iter. 2 -- res = 0.34484E+06, tol = 0.90904E+01, time = 6.17 | CG iter. 3 -- res = 0.50972E+05, tol = 0.90904E+01, time = 6.45 | CG iter. 4 -- res = 0.27138E+05, tol = 0.90904E+01, time = 5.81 | CG iter. 5 -- res = 0.18257E+05, tol = 0.90904E+01, time = 5.96 | CG iter. 6 -- res = 0.13925E+05, tol = 0.90904E+01, time = 5.89 | CG iter. 7 -- res = 0.13400E+05, tol = 0.90904E+01, time = 6.25 | CG iter. 8 -- res = 0.11753E+05, tol = 0.90904E+01, time = 5.80 | CG iter. 9 -- res = 0.10700E+05, tol = 0.90904E+01, time = 6.00 | CG iter. 10 -- res = 0.10063E+05, tol = 0.90904E+01, time = 5.73 | CG iter. 11 -- res = 0.75579E+04, tol = 0.90904E+01, time = 5.71 | CG iter. 12 -- res = 0.48271E+04, tol = 0.90904E+01, time = 5.91 | CG iter. 13 -- res = 0.35039E+04, tol = 0.90904E+01, time = 5.93 | CG iter. 14 -- res = 0.30088E+04, tol = 0.90904E+01, time = 6.03 | CG iter. 15 -- res = 0.26795E+04, tol = 0.90904E+01, time = 5.77 | CG iter. 16 -- res = 0.21098E+04, tol = 0.90904E+01, time = 5.65 | CG iter. 17 -- res = 0.15139E+04, tol = 0.90904E+01, time = 12.52 | CG iter. 18 -- res = 0.11953E+04, tol = 0.90904E+01, time = 5.70 | CG iter. 19 -- res = 0.98449E+03, tol = 0.90904E+01, time = 5.55 | CG iter. 20 -- res = 0.79714E+03, tol = 0.90904E+01, time = 5.78 | CG iter. 21 -- res = 0.59472E+03, tol = 0.90904E+01, time = 5.88 | CG iter. 22 -- res = 0.48024E+03, tol = 0.90904E+01, time = 5.75 | CG iter. 23 -- res = 0.43292E+03, tol = 0.90904E+01, time = 5.59 | CG iter. 24 -- res = 0.36675E+03, tol = 0.90904E+01, time = 5.64 | CG iter. 25 -- res = 0.27866E+03, tol = 0.90904E+01, time = 6.04 | CG iter. 26 -- res = 0.20893E+03, tol = 0.90904E+01, time = 5.65 | CG iter. 27 -- res = 0.17985E+03, tol = 0.90904E+01, time = 5.84 | CG iter. 28 -- res = 0.15863E+03, tol = 0.90904E+01, time = 5.79 | CG iter. 29 -- res = 0.12857E+03, tol = 0.90904E+01, time = 6.08 | CG iter. 30 -- res = 0.10391E+03, tol = 0.90904E+01, time = 6.52 | CG iter. 31 -- res = 0.89426E+02, tol = 0.90904E+01, time = 6.41 | CG iter. 32 -- res = 0.78691E+02, tol = 0.90904E+01, time = 7.11 | CG iter. 33 -- res = 0.64058E+02, tol = 0.90904E+01, time = 6.15 | CG iter. 34 -- res = 0.50525E+02, tol = 0.90904E+01, time = 5.94 | CG iter. 35 -- res = 0.42199E+02, tol = 0.90904E+01, time = 6.17 | CG iter. 36 -- res = 0.37221E+02, tol = 0.90904E+01, time = 5.85 | CG iter. 37 -- res = 0.33136E+02, tol = 0.90904E+01, time = 5.65 | CG iter. 38 -- res = 0.25506E+02, tol = 0.90904E+01, time = 5.80 | CG iter. 39 -- res = 0.20510E+02, tol = 0.90904E+01, time = 6.57 | CG iter. 40 -- res = 0.18118E+02, tol = 0.90904E+01, time = 5.64 | CG iter. 41 -- res = 0.15801E+02, tol = 0.90904E+01, time = 5.95 | CG iter. 42 -- res = 0.12922E+02, tol = 0.90904E+01, time = 5.78 | CG iter. 43 -- res = 0.10291E+02, tol = 0.90904E+01, time = 6.12 | CG iter. 44 -- res = 0.86495E+01, tol = 0.90904E+01, time = 5.89 | CG iter. 45 -- res = 0.75142E+01, tol = 0.90904E+01, time = 6.76 | CG iter. 46 -- res = 0.61688E+01, tol = 0.90904E+01, time = 5.97 | CG iter. 47 -- res = 0.48423E+01, tol = 0.90904E+01, time = 5.85 | CG iter. 48 -- res = 0.38846E+01, tol = 0.90904E+01, time = 5.83 | CG iter. 49 -- res = 0.31965E+01, tol = 0.90904E+01, time = 5.87 | CG iter. 50 -- res = 0.26371E+01, tol = 0.90904E+01, time = 6.17 | Final CG iter 51 -- res = 0.26371E+01, tol = 0.90904E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9680665.715 | Old band monopole 7417988.680 | Change to band monopole 2262677.035 | Change to component monopole -2262667.303 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.35177E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.13353E+03, tol = 0.47627E+18, time = 2.55 | CG iter. 3 -- res = 0.36063E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.10918E-01, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.84088E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9680624.077 | (Sampled value in CG: 9639977.023 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493082 | New value = 1.504223 | poltype: 2 pol: 1 CPU time specind = 1.5885115E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.520719 | New value = 1.499636 | poltype: 2 pol: 2 CPU time specind = 3.4160614E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.58 | CG iter. 1 -- res = 0.24041E+08, tol = 0.47613E+04, time = 6.71 | CG iter. 2 -- res = 0.53840E+07, tol = 0.47613E+04, time = 6.97 | CG iter. 3 -- res = 0.85392E+06, tol = 0.47613E+04, time = 6.70 | CG iter. 4 -- res = 0.35496E+06, tol = 0.47613E+04, time = 6.91 | CG iter. 5 -- res = 0.15305E+06, tol = 0.47613E+04, time = 6.91 | CG iter. 6 -- res = 0.80578E+05, tol = 0.47613E+04, time = 6.68 | CG iter. 7 -- res = 0.44106E+05, tol = 0.47613E+04, time = 6.52 | CG iter. 8 -- res = 0.20463E+05, tol = 0.47613E+04, time = 7.38 | CG iter. 9 -- res = 0.88341E+04, tol = 0.47613E+04, time = 6.74 | CG iter. 10 -- res = 0.36623E+04, tol = 0.47613E+04, time = 7.26 | CG iter. 11 -- res = 0.16858E+04, tol = 0.47613E+04, time = 7.67 | CG iter. 12 -- res = 0.88449E+03, tol = 0.47613E+04, time = 7.37 | CG iter. 13 -- res = 0.50097E+03, tol = 0.47613E+04, time = 6.71 | CG iter. 14 -- res = 0.28110E+03, tol = 0.47613E+04, time = 7.12 | CG iter. 15 -- res = 0.14544E+03, tol = 0.47613E+04, time = 6.80 | CG iter. 16 -- res = 0.67713E+02, tol = 0.47613E+04, time = 7.12 | CG iter. 17 -- res = 0.31986E+02, tol = 0.47613E+04, time = 6.38 | CG iter. 18 -- res = 0.16136E+02, tol = 0.47613E+04, time = 6.69 | CG iter. 19 -- res = 0.88056E+01, tol = 0.47613E+04, time = 6.93 | CG iter. 20 -- res = 0.50122E+01, tol = 0.47613E+04, time = 6.40 | CG iter. 21 -- res = 0.27469E+01, tol = 0.47613E+04, time = 6.94 | CG iter. 22 -- res = 0.13831E+01, tol = 0.47613E+04, time = 6.78 | CG iter. 23 -- res = 0.68402E+00, tol = 0.47613E+04, time = 7.03 | CG iter. 24 -- res = 0.35542E+00, tol = 0.47613E+04, time = 6.78 | CG iter. 25 -- res = 0.20130E+00, tol = 0.47613E+04, time = 6.42 | CG iter. 26 -- res = 0.11668E+00, tol = 0.47613E+04, time = 7.77 | CG iter. 27 -- res = 0.67140E-01, tol = 0.47613E+04, time = 6.84 | CG iter. 28 -- res = 0.35700E-01, tol = 0.47613E+04, time = 6.70 | CG iter. 29 -- res = 0.18553E-01, tol = 0.47613E+04, time = 6.32 | CG iter. 30 -- res = 0.96951E-02, tol = 0.47613E+04, time = 7.09 | CG iter. 31 -- res = 0.52791E-02, tol = 0.47613E+04, time = 6.13 | CG iter. 32 -- res = 0.30403E-02, tol = 0.47613E+04, time = 6.93 | CG iter. 33 -- res = 0.17030E-02, tol = 0.47613E+04, time = 6.61 | CG iter. 34 -- res = 0.92822E-03, tol = 0.47613E+04, time = 6.81 | CG iter. 35 -- res = 0.48582E-03, tol = 0.47613E+04, time = 6.82 | Final CG iter 36 -- res = 0.48582E-03, tol = 0.47613E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.057 2.753 | New value 1.125 | Old value 3.057 | Difference -1.932 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.38 | CG iter. 1 -- res = 0.19379E+06, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.30244E+02, tol = 0.47627E+18, time = 8.58 | CG iter. 3 -- res = 0.93056E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.24927E-03, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.68973E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9680624.077 | (Sampled value in CG: 9640866.660 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.436035 | New value = -3.484205 | poltype: 1 pol: 1 CPU time specind = 1.5341997E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.23750E+07, tol = 0.30358E+01, time = 3.10 | CG iter. 2 -- res = 0.87933E+06, tol = 0.30358E+01, time = 2.82 | CG iter. 3 -- res = 0.17148E+06, tol = 0.30358E+01, time = 2.86 | CG iter. 4 -- res = 0.71770E+05, tol = 0.30358E+01, time = 2.62 | CG iter. 5 -- res = 0.41990E+05, tol = 0.30358E+01, time = 2.67 | CG iter. 6 -- res = 0.21418E+05, tol = 0.30358E+01, time = 2.94 | CG iter. 7 -- res = 0.79347E+04, tol = 0.30358E+01, time = 2.90 | CG iter. 8 -- res = 0.36184E+04, tol = 0.30358E+01, time = 2.64 | CG iter. 9 -- res = 0.15921E+04, tol = 0.30358E+01, time = 2.80 | CG iter. 10 -- res = 0.62476E+03, tol = 0.30358E+01, time = 2.98 | CG iter. 11 -- res = 0.25752E+03, tol = 0.30358E+01, time = 4.84 | CG iter. 12 -- res = 0.12380E+03, tol = 0.30358E+01, time = 7.55 | CG iter. 13 -- res = 0.61907E+02, tol = 0.30358E+01, time = 2.80 | CG iter. 14 -- res = 0.32883E+02, tol = 0.30358E+01, time = 2.88 | CG iter. 15 -- res = 0.15771E+02, tol = 0.30358E+01, time = 2.85 | CG iter. 16 -- res = 0.71047E+01, tol = 0.30358E+01, time = 2.87 | CG iter. 17 -- res = 0.30384E+01, tol = 0.30358E+01, time = 2.90 | CG iter. 18 -- res = 0.13913E+01, tol = 0.30358E+01, time = 2.98 | CG iter. 19 -- res = 0.62004E+00, tol = 0.30358E+01, time = 2.74 | CG iter. 20 -- res = 0.32593E+00, tol = 0.30358E+01, time = 2.50 | CG iter. 21 -- res = 0.17026E+00, tol = 0.30358E+01, time = 2.78 | CG iter. 22 -- res = 0.81478E-01, tol = 0.30358E+01, time = 2.62 | CG iter. 23 -- res = 0.36846E-01, tol = 0.30358E+01, time = 3.15 | CG iter. 24 -- res = 0.16403E-01, tol = 0.30358E+01, time = 3.03 | CG iter. 25 -- res = 0.75231E-02, tol = 0.30358E+01, time = 2.73 | CG iter. 26 -- res = 0.38435E-02, tol = 0.30358E+01, time = 2.98 | CG iter. 27 -- res = 0.20279E-02, tol = 0.30358E+01, time = 2.85 | CG iter. 28 -- res = 0.10093E-02, tol = 0.30358E+01, time = 2.89 | CG iter. 29 -- res = 0.47543E-03, tol = 0.30358E+01, time = 2.89 | CG iter. 30 -- res = 0.21415E-03, tol = 0.30358E+01, time = 2.89 | CG iter. 31 -- res = 0.10013E-03, tol = 0.30358E+01, time = 2.63 | CG iter. 32 -- res = 0.49471E-04, tol = 0.30358E+01, time = 2.81 | CG iter. 33 -- res = 0.24670E-04, tol = 0.30358E+01, time = 2.74 | CG iter. 34 -- res = 0.12524E-04, tol = 0.30358E+01, time = 2.83 | CG iter. 35 -- res = 0.60211E-05, tol = 0.30358E+01, time = 2.94 | CG iter. 36 -- res = 0.28226E-05, tol = 0.30358E+01, time = 2.81 | CG iter. 37 -- res = 0.13037E-05, tol = 0.30358E+01, time = 2.71 | CG iter. 38 -- res = 0.62988E-06, tol = 0.30358E+01, time = 3.06 | CG iter. 39 -- res = 0.31866E-06, tol = 0.30358E+01, time = 2.86 | CG iter. 40 -- res = 0.15441E-06, tol = 0.30358E+01, time = 3.01 | CG iter. 41 -- res = 0.78452E-07, tol = 0.30358E+01, time = 4.05 | CG iter. 42 -- res = 0.38242E-07, tol = 0.30358E+01, time = 3.35 | CG iter. 43 -- res = 0.17276E-07, tol = 0.30358E+01, time = 2.97 | CG iter. 44 -- res = 0.82291E-08, tol = 0.30358E+01, time = 3.34 | CG iter. 45 -- res = 0.41038E-08, tol = 0.30358E+01, time = 3.05 | CG iter. 46 -- res = 0.19948E-08, tol = 0.30358E+01, time = 2.81 | CG iter. 47 -- res = 0.10161E-08, tol = 0.30358E+01, time = 2.64 | CG iter. 48 -- res = 0.50039E-09, tol = 0.30358E+01, time = 2.82 | CG iter. 49 -- res = 0.23192E-09, tol = 0.30358E+01, time = 2.72 | CG iter. 50 -- res = 0.10266E-09, tol = 0.30358E+01, time = 2.88 | Final CG iter 51 -- res = 0.10266E-09, tol = 0.30358E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.836 5.867 | New value 3.142 | Old value 2.836 | Difference 0.307 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.13782E+04, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.16012E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.30979E+00, tol = 0.47627E+18, time = 1.83 | Final CG iter 4 -- res = 0.13098E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9680624.077 | (Sampled value in CG: 9650591.493 ) | CPU time specind = 1222.383 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.68237E+08, tol = 0.57549E+04, time = 14.18 | CG iter. 2 -- res = 0.58374E+08, tol = 0.57549E+04, time = 12.34 | CG iter. 3 -- res = 0.15210E+08, tol = 0.57549E+04, time = 12.65 | CG iter. 4 -- res = 0.63475E+07, tol = 0.57549E+04, time = 12.79 | CG iter. 5 -- res = 0.36676E+07, tol = 0.57549E+04, time = 12.29 | CG iter. 6 -- res = 0.20956E+07, tol = 0.57549E+04, time = 12.91 | CG iter. 7 -- res = 0.12561E+07, tol = 0.57549E+04, time = 12.47 | CG iter. 8 -- res = 0.81535E+06, tol = 0.57549E+04, time = 18.63 | CG iter. 9 -- res = 0.52260E+06, tol = 0.57549E+04, time = 12.44 | CG iter. 10 -- res = 0.30098E+06, tol = 0.57549E+04, time = 12.04 | CG iter. 11 -- res = 0.15668E+06, tol = 0.57549E+04, time = 12.46 | CG iter. 12 -- res = 0.83623E+05, tol = 0.57549E+04, time = 12.04 | CG iter. 13 -- res = 0.48188E+05, tol = 0.57549E+04, time = 12.46 | CG iter. 14 -- res = 0.30064E+05, tol = 0.57549E+04, time = 12.44 | CG iter. 15 -- res = 0.20005E+05, tol = 0.57549E+04, time = 13.61 | CG iter. 16 -- res = 0.14387E+05, tol = 0.57549E+04, time = 12.66 | CG iter. 17 -- res = 0.10599E+05, tol = 0.57549E+04, time = 12.35 | CG iter. 18 -- res = 0.79090E+04, tol = 0.57549E+04, time = 12.31 | CG iter. 19 -- res = 0.58788E+04, tol = 0.57549E+04, time = 12.19 | CG iter. 20 -- res = 0.44449E+04, tol = 0.57549E+04, time = 12.29 | CG iter. 21 -- res = 0.36751E+04, tol = 0.57549E+04, time = 12.56 | CG iter. 22 -- res = 0.34693E+04, tol = 0.57549E+04, time = 12.44 | CG iter. 23 -- res = 0.36098E+04, tol = 0.57549E+04, time = 12.24 | CG iter. 24 -- res = 0.39233E+04, tol = 0.57549E+04, time = 11.95 | CG iter. 25 -- res = 0.40760E+04, tol = 0.57549E+04, time = 12.45 | CG iter. 26 -- res = 0.38355E+04, tol = 0.57549E+04, time = 12.49 | CG iter. 27 -- res = 0.32484E+04, tol = 0.57549E+04, time = 12.30 | CG iter. 28 -- res = 0.26175E+04, tol = 0.57549E+04, time = 11.97 | CG iter. 29 -- res = 0.21665E+04, tol = 0.57549E+04, time = 12.33 | CG iter. 30 -- res = 0.18145E+04, tol = 0.57549E+04, time = 12.29 | CG iter. 31 -- res = 0.15178E+04, tol = 0.57549E+04, time = 11.98 | CG iter. 32 -- res = 0.12448E+04, tol = 0.57549E+04, time = 18.98 | CG iter. 33 -- res = 0.98790E+03, tol = 0.57549E+04, time = 12.60 | CG iter. 34 -- res = 0.79080E+03, tol = 0.57549E+04, time = 12.52 | CG iter. 35 -- res = 0.64283E+03, tol = 0.57549E+04, time = 12.35 | CG iter. 36 -- res = 0.53676E+03, tol = 0.57549E+04, time = 12.41 | CG iter. 37 -- res = 0.48914E+03, tol = 0.57549E+04, time = 12.66 | CG iter. 38 -- res = 0.47917E+03, tol = 0.57549E+04, time = 12.36 | CG iter. 39 -- res = 0.47086E+03, tol = 0.57549E+04, time = 14.01 | CG iter. 40 -- res = 0.43911E+03, tol = 0.57549E+04, time = 12.74 | CG iter. 41 -- res = 0.37535E+03, tol = 0.57549E+04, time = 11.90 | CG iter. 42 -- res = 0.31623E+03, tol = 0.57549E+04, time = 12.18 | CG iter. 43 -- res = 0.27016E+03, tol = 0.57549E+04, time = 12.46 | CG iter. 44 -- res = 0.24293E+03, tol = 0.57549E+04, time = 12.69 | CG iter. 45 -- res = 0.21984E+03, tol = 0.57549E+04, time = 12.10 | CG iter. 46 -- res = 0.20181E+03, tol = 0.57549E+04, time = 12.06 | CG iter. 47 -- res = 0.17790E+03, tol = 0.57549E+04, time = 12.51 | CG iter. 48 -- res = 0.14989E+03, tol = 0.57549E+04, time = 12.54 | CG iter. 49 -- res = 0.12757E+03, tol = 0.57549E+04, time = 12.16 | CG iter. 50 -- res = 0.11049E+03, tol = 0.57549E+04, time = 12.26 | CG iter. 51 -- res = 0.10286E+03, tol = 0.57549E+04, time = 12.04 | CG iter. 52 -- res = 0.10138E+03, tol = 0.57549E+04, time = 12.64 | CG iter. 53 -- res = 0.98772E+02, tol = 0.57549E+04, time = 12.41 | CG iter. 54 -- res = 0.93910E+02, tol = 0.57549E+04, time = 12.22 | CG iter. 55 -- res = 0.87388E+02, tol = 0.57549E+04, time = 18.78 | CG iter. 56 -- res = 0.81827E+02, tol = 0.57549E+04, time = 12.40 | CG iter. 57 -- res = 0.73567E+02, tol = 0.57549E+04, time = 12.75 | CG iter. 58 -- res = 0.69064E+02, tol = 0.57549E+04, time = 12.62 | CG iter. 59 -- res = 0.67493E+02, tol = 0.57549E+04, time = 11.98 | CG iter. 60 -- res = 0.63431E+02, tol = 0.57549E+04, time = 11.79 | Final CG iter 61 -- res = 0.63431E+02, tol = 0.57549E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.867 ( -229.811 -2230.977 2513.534 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8294648.518 | Old band monopole 9680665.715 | Change to band monopole -1386017.198 | Change to component monopole 1386011.236 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.107 2.746 | New value -0.616 | Old value 1.107 | Difference -1.723 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.397 ( 7.044 12.505 -12.014 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.375 5.344 | New value -8.287 | Old value 9.375 | Difference -17.662 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.21391E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.35420E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.15058E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.36573E-02, tol = 0.47627E+18, time = 2.39 | Final CG iter 5 -- res = 0.28178E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8294612.840 | (Sampled value in CG: 8270861.234 ) | Chain = 1 -- chisq = 0.81578757E+09 | Chain = 1 -- wall time = 6271.693 sec Available RAM: MemAvailable: 377846088 kB Available Swap: SwapFree: 1115890616 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 383 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444539 | --> Sampling calibration, mode = relcal | relcal = 1.3436356E-02 7.4112741E-04 -1.5989358E-03 -1.2578547E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1793152 0.1950134 97043433.3392010 | BP delta = 0.1613075 0.1770056 97043447.6751318 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632592 | --> Sampling calibration, mode = relcal | relcal = -2.8211128E-03 -7.0453010E-04 1.6774639E-03 1.6142770E-03 -4.0782394E-04 6.4172596E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5539562 15217572.5980116 | BP delta = 0.0000000E+00 -0.5647287 15217586.1932393 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18058709168260 | --> Sampling calibration, mode = relcal | relcal = -7.4873544E-02 -5.8261909E-02 9.1672234E-02 4.1463222E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.5569559E-05 4.1480134E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4512E-05 | 2: delta_r/delta_0: 7.5883E-07 | 3: delta_s/delta_0: 2.5451E-07 | 4: delta_r/delta_0: 1.6069E-08 | 5: delta_s/delta_0: 2.3930E-08 | 6: delta_r/delta_0: 4.7081E-09 | 7: delta_s/delta_0: 2.7415E-10 | 8: delta_r/delta_0: 1.4006E-10 | 9: delta_s/delta_0: 5.2475E-08 | 10: delta_r/delta_0: 1.6692E-08 | 11: delta_s/delta_0: 3.3385E-10 | 12: delta_r/delta_0: 1.0476E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.024169884513153E-003 2.742053638490620E-005 | BP delta = 8.7811969E-02 0.1109356 50492936.0322604 | BP delta = 8.4433235E-02 0.1075568 50492935.5950184 | BP chisq diff = -0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02611018 | --> Sampling calibration, mode = relcal | relcal = -0.1066895 -9.5509686E-02 0.1449437 5.7255421E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1651414E-03 1.8384103E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4352E-05 | 2: delta_r/delta_0: 1.2551E-06 | 3: delta_s/delta_0: 2.4355E-07 | 4: delta_r/delta_0: 4.5716E-08 | 5: delta_s/delta_0: 1.9181E-08 | 6: delta_r/delta_0: 6.5890E-09 | 7: delta_s/delta_0: 8.2839E-09 | 8: delta_r/delta_0: 1.2344E-09 | 9: delta_s/delta_0: 1.1075E-09 | 10: delta_r/delta_0: 5.1460E-10 | 11: delta_s/delta_0: 1.3499E-09 | 12: delta_r/delta_0: 2.9562E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.774355011849109E-003 2.810521007254224E-005 | BP delta = -0.2345247 -0.1988609 57388875.3460684 | BP delta = -0.2254397 -0.1897759 57388875.0633862 | BP chisq diff = -0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81237028 | --> Sampling calibration, mode = relcal | relcal = 0.2954225 0.2248957 -0.2837775 -0.2365407 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3806956E-03 5.0561586E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2061E-01 | 2: delta_r/delta_0: 2.8333E-03 | 3: delta_s/delta_0: 4.5458E-04 | 4: delta_r/delta_0: 1.4429E-05 | 5: delta_s/delta_0: 9.0429E-06 | 6: delta_r/delta_0: 4.5542E-06 | 7: delta_s/delta_0: 4.1075E-06 | 8: delta_r/delta_0: 1.2956E-06 | 9: delta_s/delta_0: 1.2002E-06 | 10: delta_r/delta_0: 6.4948E-08 | 11: delta_s/delta_0: 1.1800E-07 | 12: delta_r/delta_0: 3.3305E-08 | 13: delta_s/delta_0: 1.4699E-09 | 14: delta_r/delta_0: 9.6771E-10 | 15: delta_s/delta_0: 3.0878E-10 | 16: delta_r/delta_0: 1.8831E-10 | 17: delta_s/delta_0: 1.2088E-10 | 18: delta_r/delta_0: 7.3470E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.101044269525215 4.020924275845587E-005 | BP delta = -0.1158056 -0.1663830 72483180.3831815 | BP delta = -0.1091788 -0.1597562 72483180.4567762 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95928822 | --> Sampling calibration, mode = relcal | relcal = 0.1065489 0.1395197 -0.1103024 -0.1357662 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8803304E-03 1.3480678E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2527E-03 | 2: delta_r/delta_0: 3.0347E-05 | 3: delta_s/delta_0: 1.1298E-04 | 4: delta_r/delta_0: 5.4935E-06 | 5: delta_s/delta_0: 4.3084E-07 | 6: delta_r/delta_0: 1.7355E-07 | 7: delta_s/delta_0: 3.8509E-07 | 8: delta_r/delta_0: 4.5791E-08 | 9: delta_s/delta_0: 1.5869E-08 | 10: delta_r/delta_0: 4.4198E-09 | 11: delta_s/delta_0: 8.9173E-09 | 12: delta_r/delta_0: 5.2379E-09 | 13: delta_s/delta_0: 5.9068E-10 | 14: delta_r/delta_0: 3.5699E-10 | 15: delta_s/delta_0: 1.3645E-10 | 16: delta_r/delta_0: 6.4647E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.565655123766788E-002 3.696729780164417E-005 | BP delta = 0.1819758 0.2962079 72793599.0881169 | BP delta = 0.1427872 0.2570194 72793599.0337377 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.169576 | New value = -3.083914 | poltype: 2 pol: 1 CPU time specind = 1.8033981E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181565 | New value = -3.216181 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.201516 | New value = -3.070063 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141707 | New value = -3.219539 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.031732 | New value = -3.138840 | poltype: 2 pol: 2 CPU time specind = 3.1758070E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.13744E+08, tol = 0.84858E+01, time = 12.37 | CG iter. 2 -- res = 0.41281E+06, tol = 0.84858E+01, time = 6.11 | CG iter. 3 -- res = 0.13761E+06, tol = 0.84858E+01, time = 5.98 | CG iter. 4 -- res = 0.18412E+06, tol = 0.84858E+01, time = 5.74 | CG iter. 5 -- res = 0.19177E+06, tol = 0.84858E+01, time = 5.68 | CG iter. 6 -- res = 0.17415E+06, tol = 0.84858E+01, time = 5.83 | CG iter. 7 -- res = 0.12757E+06, tol = 0.84858E+01, time = 6.13 | CG iter. 8 -- res = 0.84045E+05, tol = 0.84858E+01, time = 5.65 | CG iter. 9 -- res = 0.71889E+05, tol = 0.84858E+01, time = 5.85 | CG iter. 10 -- res = 0.56206E+05, tol = 0.84858E+01, time = 5.78 | CG iter. 11 -- res = 0.40316E+05, tol = 0.84858E+01, time = 5.75 | CG iter. 12 -- res = 0.29532E+05, tol = 0.84858E+01, time = 5.86 | CG iter. 13 -- res = 0.23246E+05, tol = 0.84858E+01, time = 5.66 | CG iter. 14 -- res = 0.19018E+05, tol = 0.84858E+01, time = 5.77 | CG iter. 15 -- res = 0.14627E+05, tol = 0.84858E+01, time = 6.20 | CG iter. 16 -- res = 0.95078E+04, tol = 0.84858E+01, time = 6.99 | CG iter. 17 -- res = 0.68672E+04, tol = 0.84858E+01, time = 6.35 | CG iter. 18 -- res = 0.56500E+04, tol = 0.84858E+01, time = 5.86 | CG iter. 19 -- res = 0.49849E+04, tol = 0.84858E+01, time = 6.09 | CG iter. 20 -- res = 0.36587E+04, tol = 0.84858E+01, time = 5.67 | CG iter. 21 -- res = 0.26605E+04, tol = 0.84858E+01, time = 5.82 | CG iter. 22 -- res = 0.21861E+04, tol = 0.84858E+01, time = 6.02 | CG iter. 23 -- res = 0.18818E+04, tol = 0.84858E+01, time = 5.79 | CG iter. 24 -- res = 0.14501E+04, tol = 0.84858E+01, time = 5.84 | CG iter. 25 -- res = 0.10723E+04, tol = 0.84858E+01, time = 6.14 | CG iter. 26 -- res = 0.83653E+03, tol = 0.84858E+01, time = 5.98 | CG iter. 27 -- res = 0.75491E+03, tol = 0.84858E+01, time = 6.08 | CG iter. 28 -- res = 0.61416E+03, tol = 0.84858E+01, time = 6.16 | CG iter. 29 -- res = 0.44084E+03, tol = 0.84858E+01, time = 5.87 | CG iter. 30 -- res = 0.33266E+03, tol = 0.84858E+01, time = 5.55 | CG iter. 31 -- res = 0.28363E+03, tol = 0.84858E+01, time = 5.94 | CG iter. 32 -- res = 0.23238E+03, tol = 0.84858E+01, time = 5.94 | CG iter. 33 -- res = 0.17034E+03, tol = 0.84858E+01, time = 6.09 | CG iter. 34 -- res = 0.12504E+03, tol = 0.84858E+01, time = 6.49 | CG iter. 35 -- res = 0.10443E+03, tol = 0.84858E+01, time = 6.14 | CG iter. 36 -- res = 0.87065E+02, tol = 0.84858E+01, time = 5.72 | CG iter. 37 -- res = 0.64498E+02, tol = 0.84858E+01, time = 6.19 | CG iter. 38 -- res = 0.47211E+02, tol = 0.84858E+01, time = 5.59 | CG iter. 39 -- res = 0.35535E+02, tol = 0.84858E+01, time = 6.10 | CG iter. 40 -- res = 0.29855E+02, tol = 0.84858E+01, time = 6.15 | CG iter. 41 -- res = 0.23306E+02, tol = 0.84858E+01, time = 5.82 | CG iter. 42 -- res = 0.16817E+02, tol = 0.84858E+01, time = 6.17 | CG iter. 43 -- res = 0.12507E+02, tol = 0.84858E+01, time = 5.63 | CG iter. 44 -- res = 0.96662E+01, tol = 0.84858E+01, time = 5.79 | CG iter. 45 -- res = 0.76328E+01, tol = 0.84858E+01, time = 6.21 | CG iter. 46 -- res = 0.55592E+01, tol = 0.84858E+01, time = 6.00 | CG iter. 47 -- res = 0.40140E+01, tol = 0.84858E+01, time = 5.82 | CG iter. 48 -- res = 0.30398E+01, tol = 0.84858E+01, time = 5.99 | CG iter. 49 -- res = 0.23676E+01, tol = 0.84858E+01, time = 6.05 | CG iter. 50 -- res = 0.17528E+01, tol = 0.84858E+01, time = 9.99 | Final CG iter 51 -- res = 0.17528E+01, tol = 0.84858E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9510784.310 | Old band monopole 8294648.518 | Change to band monopole 1216135.792 | Change to component monopole -1216130.561 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.28177E+06, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.23363E+03, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.30841E+01, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.40884E-01, tol = 0.47627E+18, time = 2.22 | Final CG iter 5 -- res = 0.95118E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9510743.402 | (Sampled value in CG: 9630446.901 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504223 | New value = 1.560554 | poltype: 2 pol: 1 CPU time specind = 1.6949892E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499636 | New value = 1.464766 | poltype: 2 pol: 2 CPU time specind = 1.3263941E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.24707E+08, tol = 0.47680E+04, time = 6.68 | CG iter. 2 -- res = 0.53582E+07, tol = 0.47680E+04, time = 6.45 | CG iter. 3 -- res = 0.84324E+06, tol = 0.47680E+04, time = 6.97 | CG iter. 4 -- res = 0.34880E+06, tol = 0.47680E+04, time = 6.88 | CG iter. 5 -- res = 0.15046E+06, tol = 0.47680E+04, time = 6.76 | CG iter. 6 -- res = 0.80755E+05, tol = 0.47680E+04, time = 6.99 | CG iter. 7 -- res = 0.43922E+05, tol = 0.47680E+04, time = 7.41 | CG iter. 8 -- res = 0.21146E+05, tol = 0.47680E+04, time = 6.93 | CG iter. 9 -- res = 0.90963E+04, tol = 0.47680E+04, time = 6.98 | CG iter. 10 -- res = 0.36573E+04, tol = 0.47680E+04, time = 6.41 | CG iter. 11 -- res = 0.16778E+04, tol = 0.47680E+04, time = 6.50 | CG iter. 12 -- res = 0.87304E+03, tol = 0.47680E+04, time = 6.83 | CG iter. 13 -- res = 0.48542E+03, tol = 0.47680E+04, time = 6.87 | CG iter. 14 -- res = 0.27095E+03, tol = 0.47680E+04, time = 6.83 | CG iter. 15 -- res = 0.13850E+03, tol = 0.47680E+04, time = 6.98 | CG iter. 16 -- res = 0.65677E+02, tol = 0.47680E+04, time = 6.77 | CG iter. 17 -- res = 0.30818E+02, tol = 0.47680E+04, time = 6.95 | CG iter. 18 -- res = 0.15399E+02, tol = 0.47680E+04, time = 6.87 | CG iter. 19 -- res = 0.82781E+01, tol = 0.47680E+04, time = 6.80 | CG iter. 20 -- res = 0.46157E+01, tol = 0.47680E+04, time = 6.92 | CG iter. 21 -- res = 0.25037E+01, tol = 0.47680E+04, time = 6.57 | CG iter. 22 -- res = 0.12729E+01, tol = 0.47680E+04, time = 6.88 | CG iter. 23 -- res = 0.64378E+00, tol = 0.47680E+04, time = 6.59 | CG iter. 24 -- res = 0.34261E+00, tol = 0.47680E+04, time = 7.03 | CG iter. 25 -- res = 0.19239E+00, tol = 0.47680E+04, time = 6.79 | CG iter. 26 -- res = 0.10838E+00, tol = 0.47680E+04, time = 7.13 | CG iter. 27 -- res = 0.59625E-01, tol = 0.47680E+04, time = 12.34 | CG iter. 28 -- res = 0.31265E-01, tol = 0.47680E+04, time = 6.89 | CG iter. 29 -- res = 0.16610E-01, tol = 0.47680E+04, time = 7.01 | CG iter. 30 -- res = 0.88002E-02, tol = 0.47680E+04, time = 6.83 | CG iter. 31 -- res = 0.48633E-02, tol = 0.47680E+04, time = 6.55 | CG iter. 32 -- res = 0.28023E-02, tol = 0.47680E+04, time = 7.18 | CG iter. 33 -- res = 0.15614E-02, tol = 0.47680E+04, time = 6.39 | CG iter. 34 -- res = 0.84801E-03, tol = 0.47680E+04, time = 6.92 | CG iter. 35 -- res = 0.44563E-03, tol = 0.47680E+04, time = 6.87 | Final CG iter 36 -- res = 0.44563E-03, tol = 0.47680E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.585 2.751 | New value 2.280 | Old value -0.585 | Difference 2.865 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.43 | CG iter. 1 -- res = 0.44469E+06, tol = 0.47627E+18, time = 2.36 | CG iter. 2 -- res = 0.17814E+03, tol = 0.47627E+18, time = 2.39 | CG iter. 3 -- res = 0.21977E+01, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.10035E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.16897E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9510743.402 | (Sampled value in CG: 9631014.163 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.484205 | New value = -3.364860 | poltype: 1 pol: 1 CPU time specind = 1.5440941E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.54 | CG iter. 1 -- res = 0.34168E+07, tol = 0.27536E+01, time = 3.26 | CG iter. 2 -- res = 0.18452E+07, tol = 0.27536E+01, time = 3.14 | CG iter. 3 -- res = 0.38471E+06, tol = 0.27536E+01, time = 2.81 | CG iter. 4 -- res = 0.15831E+06, tol = 0.27536E+01, time = 2.58 | CG iter. 5 -- res = 0.91299E+05, tol = 0.27536E+01, time = 2.69 | CG iter. 6 -- res = 0.45079E+05, tol = 0.27536E+01, time = 3.89 | CG iter. 7 -- res = 0.16408E+05, tol = 0.27536E+01, time = 3.84 | CG iter. 8 -- res = 0.69030E+04, tol = 0.27536E+01, time = 2.78 | CG iter. 9 -- res = 0.34306E+04, tol = 0.27536E+01, time = 2.85 | CG iter. 10 -- res = 0.13730E+04, tol = 0.27536E+01, time = 2.99 | CG iter. 11 -- res = 0.52026E+03, tol = 0.27536E+01, time = 2.90 | CG iter. 12 -- res = 0.23776E+03, tol = 0.27536E+01, time = 2.75 | CG iter. 13 -- res = 0.11278E+03, tol = 0.27536E+01, time = 3.09 | CG iter. 14 -- res = 0.58188E+02, tol = 0.27536E+01, time = 3.02 | CG iter. 15 -- res = 0.29916E+02, tol = 0.27536E+01, time = 2.72 | CG iter. 16 -- res = 0.14481E+02, tol = 0.27536E+01, time = 2.90 | CG iter. 17 -- res = 0.64221E+01, tol = 0.27536E+01, time = 2.82 | CG iter. 18 -- res = 0.28949E+01, tol = 0.27536E+01, time = 2.69 | CG iter. 19 -- res = 0.12706E+01, tol = 0.27536E+01, time = 2.94 | CG iter. 20 -- res = 0.60157E+00, tol = 0.27536E+01, time = 2.89 | CG iter. 21 -- res = 0.30476E+00, tol = 0.27536E+01, time = 2.99 | CG iter. 22 -- res = 0.15431E+00, tol = 0.27536E+01, time = 2.81 | CG iter. 23 -- res = 0.70265E-01, tol = 0.27536E+01, time = 2.51 | CG iter. 24 -- res = 0.32693E-01, tol = 0.27536E+01, time = 2.78 | CG iter. 25 -- res = 0.14781E-01, tol = 0.27536E+01, time = 3.06 | CG iter. 26 -- res = 0.67831E-02, tol = 0.27536E+01, time = 2.90 | CG iter. 27 -- res = 0.33017E-02, tol = 0.27536E+01, time = 2.95 | CG iter. 28 -- res = 0.16893E-02, tol = 0.27536E+01, time = 2.85 | CG iter. 29 -- res = 0.82455E-03, tol = 0.27536E+01, time = 2.68 | CG iter. 30 -- res = 0.42757E-03, tol = 0.27536E+01, time = 2.59 | CG iter. 31 -- res = 0.20398E-03, tol = 0.27536E+01, time = 2.74 | CG iter. 32 -- res = 0.93799E-04, tol = 0.27536E+01, time = 2.88 | CG iter. 33 -- res = 0.42698E-04, tol = 0.27536E+01, time = 2.72 | CG iter. 34 -- res = 0.20682E-04, tol = 0.27536E+01, time = 2.79 | CG iter. 35 -- res = 0.10756E-04, tol = 0.27536E+01, time = 2.93 | CG iter. 36 -- res = 0.58206E-05, tol = 0.27536E+01, time = 2.85 | CG iter. 37 -- res = 0.27644E-05, tol = 0.27536E+01, time = 2.72 | CG iter. 38 -- res = 0.13146E-05, tol = 0.27536E+01, time = 2.82 | CG iter. 39 -- res = 0.60040E-06, tol = 0.27536E+01, time = 2.99 | CG iter. 40 -- res = 0.28528E-06, tol = 0.27536E+01, time = 2.95 | CG iter. 41 -- res = 0.14302E-06, tol = 0.27536E+01, time = 2.75 | CG iter. 42 -- res = 0.76230E-07, tol = 0.27536E+01, time = 2.76 | CG iter. 43 -- res = 0.38328E-07, tol = 0.27536E+01, time = 2.70 | CG iter. 44 -- res = 0.18102E-07, tol = 0.27536E+01, time = 2.81 | CG iter. 45 -- res = 0.83277E-08, tol = 0.27536E+01, time = 2.92 | CG iter. 46 -- res = 0.38433E-08, tol = 0.27536E+01, time = 3.11 | CG iter. 47 -- res = 0.18768E-08, tol = 0.27536E+01, time = 2.72 | CG iter. 48 -- res = 0.10049E-08, tol = 0.27536E+01, time = 2.71 | CG iter. 49 -- res = 0.50935E-09, tol = 0.27536E+01, time = 2.47 | CG iter. 50 -- res = 0.24080E-09, tol = 0.27536E+01, time = 2.89 | Final CG iter 51 -- res = 0.24080E-09, tol = 0.27536E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.556 3.971 | New value -7.968 | Old value -1.556 | Difference -6.412 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.39 | CG iter. 1 -- res = 0.52807E+05, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.10657E+03, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.22888E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.73294E-02, tol = 0.47627E+18, time = 2.29 | Final CG iter 5 -- res = 0.38418E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9510743.402 | (Sampled value in CG: 9602795.456 ) | CPU time specind = 1227.961 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.70029E+08, tol = 0.57671E+04, time = 12.71 | CG iter. 2 -- res = 0.59831E+08, tol = 0.57671E+04, time = 11.82 | CG iter. 3 -- res = 0.15651E+08, tol = 0.57671E+04, time = 12.46 | CG iter. 4 -- res = 0.65641E+07, tol = 0.57671E+04, time = 12.50 | CG iter. 5 -- res = 0.38650E+07, tol = 0.57671E+04, time = 12.44 | CG iter. 6 -- res = 0.22443E+07, tol = 0.57671E+04, time = 12.44 | CG iter. 7 -- res = 0.13582E+07, tol = 0.57671E+04, time = 14.12 | CG iter. 8 -- res = 0.90221E+06, tol = 0.57671E+04, time = 12.83 | CG iter. 9 -- res = 0.60338E+06, tol = 0.57671E+04, time = 12.32 | CG iter. 10 -- res = 0.37473E+06, tol = 0.57671E+04, time = 11.89 | CG iter. 11 -- res = 0.21371E+06, tol = 0.57671E+04, time = 12.19 | CG iter. 12 -- res = 0.12936E+06, tol = 0.57671E+04, time = 12.12 | CG iter. 13 -- res = 0.88774E+05, tol = 0.57671E+04, time = 12.44 | CG iter. 14 -- res = 0.67919E+05, tol = 0.57671E+04, time = 12.74 | CG iter. 15 -- res = 0.59828E+05, tol = 0.57671E+04, time = 12.36 | CG iter. 16 -- res = 0.58106E+05, tol = 0.57671E+04, time = 13.26 | CG iter. 17 -- res = 0.56882E+05, tol = 0.57671E+04, time = 12.63 | CG iter. 18 -- res = 0.54242E+05, tol = 0.57671E+04, time = 12.33 | CG iter. 19 -- res = 0.48978E+05, tol = 0.57671E+04, time = 12.24 | CG iter. 20 -- res = 0.44517E+05, tol = 0.57671E+04, time = 11.85 | CG iter. 21 -- res = 0.41979E+05, tol = 0.57671E+04, time = 11.98 | CG iter. 22 -- res = 0.40171E+05, tol = 0.57671E+04, time = 12.16 | CG iter. 23 -- res = 0.37295E+05, tol = 0.57671E+04, time = 12.43 | CG iter. 24 -- res = 0.32137E+05, tol = 0.57671E+04, time = 18.19 | CG iter. 25 -- res = 0.25517E+05, tol = 0.57671E+04, time = 11.64 | CG iter. 26 -- res = 0.18981E+05, tol = 0.57671E+04, time = 12.41 | CG iter. 27 -- res = 0.14026E+05, tol = 0.57671E+04, time = 12.17 | CG iter. 28 -- res = 0.11117E+05, tol = 0.57671E+04, time = 12.06 | CG iter. 29 -- res = 0.97542E+04, tol = 0.57671E+04, time = 12.69 | CG iter. 30 -- res = 0.89502E+04, tol = 0.57671E+04, time = 12.22 | CG iter. 31 -- res = 0.83114E+04, tol = 0.57671E+04, time = 13.74 | CG iter. 32 -- res = 0.74473E+04, tol = 0.57671E+04, time = 12.59 | CG iter. 33 -- res = 0.64493E+04, tol = 0.57671E+04, time = 12.53 | CG iter. 34 -- res = 0.54531E+04, tol = 0.57671E+04, time = 12.19 | CG iter. 35 -- res = 0.48662E+04, tol = 0.57671E+04, time = 12.71 | CG iter. 36 -- res = 0.45571E+04, tol = 0.57671E+04, time = 12.74 | CG iter. 37 -- res = 0.41204E+04, tol = 0.57671E+04, time = 12.07 | CG iter. 38 -- res = 0.37113E+04, tol = 0.57671E+04, time = 12.49 | CG iter. 39 -- res = 0.32563E+04, tol = 0.57671E+04, time = 12.53 | CG iter. 40 -- res = 0.27453E+04, tol = 0.57671E+04, time = 12.33 | CG iter. 41 -- res = 0.22320E+04, tol = 0.57671E+04, time = 12.41 | CG iter. 42 -- res = 0.18266E+04, tol = 0.57671E+04, time = 12.50 | CG iter. 43 -- res = 0.15805E+04, tol = 0.57671E+04, time = 12.24 | CG iter. 44 -- res = 0.15032E+04, tol = 0.57671E+04, time = 12.40 | CG iter. 45 -- res = 0.14269E+04, tol = 0.57671E+04, time = 12.20 | CG iter. 46 -- res = 0.13569E+04, tol = 0.57671E+04, time = 12.47 | CG iter. 47 -- res = 0.12735E+04, tol = 0.57671E+04, time = 17.07 | CG iter. 48 -- res = 0.11170E+04, tol = 0.57671E+04, time = 14.87 | CG iter. 49 -- res = 0.96334E+03, tol = 0.57671E+04, time = 12.65 | CG iter. 50 -- res = 0.86606E+03, tol = 0.57671E+04, time = 12.11 | CG iter. 51 -- res = 0.81288E+03, tol = 0.57671E+04, time = 12.43 | CG iter. 52 -- res = 0.77219E+03, tol = 0.57671E+04, time = 12.18 | CG iter. 53 -- res = 0.72023E+03, tol = 0.57671E+04, time = 12.19 | CG iter. 54 -- res = 0.64721E+03, tol = 0.57671E+04, time = 14.07 | CG iter. 55 -- res = 0.56189E+03, tol = 0.57671E+04, time = 12.96 | CG iter. 56 -- res = 0.48822E+03, tol = 0.57671E+04, time = 12.07 | CG iter. 57 -- res = 0.44124E+03, tol = 0.57671E+04, time = 12.59 | CG iter. 58 -- res = 0.41947E+03, tol = 0.57671E+04, time = 12.71 | CG iter. 59 -- res = 0.41401E+03, tol = 0.57671E+04, time = 11.96 | CG iter. 60 -- res = 0.39817E+03, tol = 0.57671E+04, time = 12.06 | Final CG iter 61 -- res = 0.39817E+03, tol = 0.57671E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.913 ( -229.664 -2231.134 2514.001 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6262466.349 | Old band monopole 9510784.310 | Change to band monopole -3248317.961 | Change to component monopole 3248303.989 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.250 2.726 | New value 0.431 | Old value 2.250 | Difference -1.819 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.029 ( 5.395 12.931 -13.868 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.724 4.838 | New value -4.013 | Old value -10.724 | Difference 6.711 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.85755E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.23040E+03, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.39596E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.38790E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.86210E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6262439.412 | (Sampled value in CG: 6244335.236 ) | Chain = 1 -- chisq = 0.81500556E+09 | Chain = 1 -- wall time = 5798.739 sec Available RAM: MemAvailable: 377913752 kB Available Swap: SwapFree: 1116396216 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 384 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443370 | --> Sampling calibration, mode = relcal | relcal = 1.3413014E-02 7.6798670E-04 -1.5990930E-03 -1.2581907E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1793152 0.1950134 9403003.93755274 | BP delta = 0.1793152 0.1929798 9403165.05375756 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632555 | --> Sampling calibration, mode = relcal | relcal = -2.8216110E-03 -7.0501794E-04 1.6789974E-03 1.6141532E-03 -4.0779001E-04 6.4126856E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5539562 15218695.1648250 | BP delta = 0.0000000E+00 -0.5502996 15218694.5735924 | BP chisq diff = -0.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18154848581535 | --> Sampling calibration, mode = relcal | relcal = -7.5125895E-02 -5.8542114E-02 9.2032999E-02 4.1635010E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4712592E-04 4.6808990E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0951E-05 | 2: delta_r/delta_0: 9.0984E-07 | 3: delta_s/delta_0: 2.1567E-07 | 4: delta_r/delta_0: 1.6815E-08 | 5: delta_s/delta_0: 3.6594E-09 | 6: delta_r/delta_0: 1.2897E-09 | 7: delta_s/delta_0: 3.1924E-10 | 8: delta_r/delta_0: 1.5924E-10 | 9: delta_s/delta_0: 2.0902E-09 | 10: delta_r/delta_0: 8.8043E-10 | 11: delta_s/delta_0: 5.7087E-10 | 12: delta_r/delta_0: 5.5286E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.070890895630700E-003 2.739781733976349E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0951E-05 | 2: delta_r/delta_0: 9.0984E-07 | 3: delta_s/delta_0: 2.1567E-07 | 4: delta_r/delta_0: 1.6814E-08 | 5: delta_s/delta_0: 3.6589E-09 | 6: delta_r/delta_0: 1.2896E-09 | 7: delta_s/delta_0: 3.1923E-10 | 8: delta_r/delta_0: 1.5923E-10 | 9: delta_s/delta_0: 2.0893E-09 | 10: delta_r/delta_0: 8.8007E-10 | 11: delta_s/delta_0: 5.7085E-10 | 12: delta_r/delta_0: 5.5297E-11 | Reached bicg-stab tolerance | BP delta = 8.4433235E-02 0.1075568 3511482.19662846 | BP delta = 8.4433235E-02 0.1071035 3512368.06026528 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02614668 | --> Sampling calibration, mode = relcal | relcal = -0.1066612 -9.5571168E-02 0.1450036 5.7228778E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8947813E-03 1.4987432E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6978E-05 | 2: delta_r/delta_0: 1.2916E-06 | 3: delta_s/delta_0: 2.4168E-07 | 4: delta_r/delta_0: 6.0017E-08 | 5: delta_s/delta_0: 1.7295E-08 | 6: delta_r/delta_0: 8.1180E-09 | 7: delta_s/delta_0: 3.6842E-08 | 8: delta_r/delta_0: 1.2467E-09 | 9: delta_s/delta_0: 1.0414E-09 | 10: delta_r/delta_0: 2.1647E-10 | 11: delta_s/delta_0: 1.2387E-09 | 12: delta_r/delta_0: 2.4633E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.887713601205316E-003 2.810403847062042E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.6978E-05 | 2: delta_r/delta_0: 1.2916E-06 | 3: delta_s/delta_0: 2.4168E-07 | 4: delta_r/delta_0: 6.0024E-08 | 5: delta_s/delta_0: 1.7294E-08 | 6: delta_r/delta_0: 8.1186E-09 | 7: delta_s/delta_0: 3.6854E-08 | 8: delta_r/delta_0: 1.2469E-09 | 9: delta_s/delta_0: 1.0414E-09 | 10: delta_r/delta_0: 2.1653E-10 | 11: delta_s/delta_0: 1.2395E-09 | 12: delta_r/delta_0: 2.4640E-11 | Reached bicg-stab tolerance | BP delta = -0.2254397 -0.1897759 2841503.58276087 | BP delta = -0.2254397 -0.1904998 2841500.11332556 | BP chisq diff = -3.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81241101 | --> Sampling calibration, mode = relcal | relcal = 0.2954399 0.2250020 -0.2838903 -0.2365516 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.6654687E-04 5.0988612E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3773E-03 | 2: delta_r/delta_0: 1.4867E-04 | 3: delta_s/delta_0: 2.6906E-05 | 4: delta_r/delta_0: 2.9209E-06 | 5: delta_s/delta_0: 9.2128E-07 | 6: delta_r/delta_0: 3.2556E-07 | 7: delta_s/delta_0: 2.0653E-07 | 8: delta_r/delta_0: 8.8592E-08 | 9: delta_s/delta_0: 9.1974E-06 | 10: delta_r/delta_0: 5.8970E-08 | 11: delta_s/delta_0: 9.6035E-06 | 12: delta_r/delta_0: 3.2333E-06 | 13: delta_s/delta_0: 1.4504E-09 | 14: delta_r/delta_0: 2.6895E-10 | 15: delta_s/delta_0: 1.3457E-10 | 16: delta_r/delta_0: 8.5440E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 3.766962417089915E-002 4.020812893703154E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3770E-03 | 2: delta_r/delta_0: 1.4866E-04 | 3: delta_s/delta_0: 2.6904E-05 | 4: delta_r/delta_0: 2.9205E-06 | 5: delta_s/delta_0: 9.2122E-07 | 6: delta_r/delta_0: 3.2552E-07 | 7: delta_s/delta_0: 2.0639E-07 | 8: delta_r/delta_0: 8.8492E-08 | 9: delta_s/delta_0: 9.2087E-06 | 10: delta_r/delta_0: 5.8859E-08 | 11: delta_s/delta_0: 9.5855E-06 | 12: delta_r/delta_0: 3.2242E-06 | 13: delta_s/delta_0: 1.4478E-09 | 14: delta_r/delta_0: 2.6866E-10 | 15: delta_s/delta_0: 1.3443E-10 | 16: delta_r/delta_0: 8.5366E-11 | Reached bicg-stab tolerance | BP delta = -0.1091788 -0.1597562 2827265.64000961 | BP delta = -0.1091788 -0.1609387 2827262.91812531 | BP chisq diff = -2.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95947091 | --> Sampling calibration, mode = relcal | relcal = 0.1065205 0.1396048 -0.1102413 -0.1358839 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0818594E-02 1.3392308E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2443E-04 | 2: delta_r/delta_0: 5.7748E-06 | 3: delta_s/delta_0: 4.7802E-06 | 4: delta_r/delta_0: 7.4604E-07 | 5: delta_s/delta_0: 2.1000E-07 | 6: delta_r/delta_0: 1.1769E-07 | 7: delta_s/delta_0: 4.7397E-07 | 8: delta_r/delta_0: 2.5835E-08 | 9: delta_s/delta_0: 3.9052E-08 | 10: delta_r/delta_0: 2.4034E-08 | 11: delta_s/delta_0: 1.4824E-09 | 12: delta_r/delta_0: 1.0031E-09 | 13: delta_s/delta_0: 9.4696E-10 | 14: delta_r/delta_0: 1.5051E-10 | 15: delta_s/delta_0: 6.3809E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.988107463808880E-002 3.695995312455199E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2446E-04 | 2: delta_r/delta_0: 5.7753E-06 | 3: delta_s/delta_0: 4.7802E-06 | 4: delta_r/delta_0: 7.4600E-07 | 5: delta_s/delta_0: 2.1004E-07 | 6: delta_r/delta_0: 1.1772E-07 | 7: delta_s/delta_0: 4.7425E-07 | 8: delta_r/delta_0: 2.5837E-08 | 9: delta_s/delta_0: 3.9111E-08 | 10: delta_r/delta_0: 2.4068E-08 | 11: delta_s/delta_0: 1.4843E-09 | 12: delta_r/delta_0: 1.0042E-09 | 13: delta_s/delta_0: 9.3357E-10 | 14: delta_r/delta_0: 1.5254E-10 | 15: delta_s/delta_0: 6.5675E-11 | Reached bicg-stab tolerance | BP delta = 0.1427872 0.2570194 3004598.55596007 | BP delta = 0.1427872 0.2548063 3004670.10979370 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.083914 | New value = -3.075199 | poltype: 2 pol: 1 CPU time specind = 1.6510010E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216181 | New value = -3.066789 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.070063 | New value = -3.209449 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.219539 | New value = -3.136863 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138840 | New value = -3.120678 | poltype: 2 pol: 2 CPU time specind = 4.6141148E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.13552E+08, tol = 0.10436E+02, time = 5.66 | CG iter. 2 -- res = 0.30945E+06, tol = 0.10436E+02, time = 5.64 | CG iter. 3 -- res = 0.46256E+05, tol = 0.10436E+02, time = 5.73 | CG iter. 4 -- res = 0.22198E+05, tol = 0.10436E+02, time = 5.92 | CG iter. 5 -- res = 0.11163E+05, tol = 0.10436E+02, time = 5.88 | CG iter. 6 -- res = 0.61321E+04, tol = 0.10436E+02, time = 5.83 | CG iter. 7 -- res = 0.41724E+04, tol = 0.10436E+02, time = 6.06 | CG iter. 8 -- res = 0.30487E+04, tol = 0.10436E+02, time = 5.81 | CG iter. 9 -- res = 0.25763E+04, tol = 0.10436E+02, time = 6.14 | CG iter. 10 -- res = 0.27105E+04, tol = 0.10436E+02, time = 5.58 | CG iter. 11 -- res = 0.23493E+04, tol = 0.10436E+02, time = 5.79 | CG iter. 12 -- res = 0.17067E+04, tol = 0.10436E+02, time = 5.58 | CG iter. 13 -- res = 0.10648E+04, tol = 0.10436E+02, time = 5.71 | CG iter. 14 -- res = 0.74023E+03, tol = 0.10436E+02, time = 5.42 | CG iter. 15 -- res = 0.59149E+03, tol = 0.10436E+02, time = 5.45 | CG iter. 16 -- res = 0.44668E+03, tol = 0.10436E+02, time = 12.59 | CG iter. 17 -- res = 0.30432E+03, tol = 0.10436E+02, time = 5.74 | CG iter. 18 -- res = 0.21446E+03, tol = 0.10436E+02, time = 5.86 | CG iter. 19 -- res = 0.16905E+03, tol = 0.10436E+02, time = 5.83 | CG iter. 20 -- res = 0.12343E+03, tol = 0.10436E+02, time = 5.64 | CG iter. 21 -- res = 0.79148E+02, tol = 0.10436E+02, time = 6.22 | CG iter. 22 -- res = 0.54182E+02, tol = 0.10436E+02, time = 5.68 | CG iter. 23 -- res = 0.42011E+02, tol = 0.10436E+02, time = 6.15 | CG iter. 24 -- res = 0.35624E+02, tol = 0.10436E+02, time = 5.81 | CG iter. 25 -- res = 0.26257E+02, tol = 0.10436E+02, time = 5.98 | CG iter. 26 -- res = 0.18772E+02, tol = 0.10436E+02, time = 5.81 | CG iter. 27 -- res = 0.14863E+02, tol = 0.10436E+02, time = 5.54 | CG iter. 28 -- res = 0.12498E+02, tol = 0.10436E+02, time = 5.83 | CG iter. 29 -- res = 0.95195E+01, tol = 0.10436E+02, time = 5.71 | CG iter. 30 -- res = 0.71232E+01, tol = 0.10436E+02, time = 5.73 | CG iter. 31 -- res = 0.58888E+01, tol = 0.10436E+02, time = 7.58 | CG iter. 32 -- res = 0.50011E+01, tol = 0.10436E+02, time = 6.25 | CG iter. 33 -- res = 0.41197E+01, tol = 0.10436E+02, time = 5.88 | CG iter. 34 -- res = 0.29399E+01, tol = 0.10436E+02, time = 5.72 | CG iter. 35 -- res = 0.22057E+01, tol = 0.10436E+02, time = 5.92 | CG iter. 36 -- res = 0.17746E+01, tol = 0.10436E+02, time = 5.80 | CG iter. 37 -- res = 0.14609E+01, tol = 0.10436E+02, time = 5.95 | CG iter. 38 -- res = 0.11040E+01, tol = 0.10436E+02, time = 5.24 | CG iter. 39 -- res = 0.81919E+00, tol = 0.10436E+02, time = 5.88 | CG iter. 40 -- res = 0.65476E+00, tol = 0.10436E+02, time = 5.52 | CG iter. 41 -- res = 0.52516E+00, tol = 0.10436E+02, time = 5.74 | CG iter. 42 -- res = 0.39067E+00, tol = 0.10436E+02, time = 5.95 | CG iter. 43 -- res = 0.28864E+00, tol = 0.10436E+02, time = 5.91 | CG iter. 44 -- res = 0.22710E+00, tol = 0.10436E+02, time = 5.90 | CG iter. 45 -- res = 0.18363E+00, tol = 0.10436E+02, time = 6.00 | CG iter. 46 -- res = 0.13714E+00, tol = 0.10436E+02, time = 5.82 | CG iter. 47 -- res = 0.10536E+00, tol = 0.10436E+02, time = 6.05 | CG iter. 48 -- res = 0.76966E-01, tol = 0.10436E+02, time = 5.66 | CG iter. 49 -- res = 0.59717E-01, tol = 0.10436E+02, time = 5.90 | CG iter. 50 -- res = 0.46321E-01, tol = 0.10436E+02, time = 6.23 | Final CG iter 51 -- res = 0.46321E-01, tol = 0.10436E+02 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10703587.286 | Old band monopole 6262466.349 | Change to band monopole 4441120.938 | Change to component monopole -4441101.836 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.43853E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.14481E+03, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.49286E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.16915E-02, tol = 0.47627E+18, time = 2.18 | Final CG iter 5 -- res = 0.75098E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10703541.248 | (Sampled value in CG: 10718227.496 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.560554 | New value = 1.565976 | poltype: 2 pol: 1 CPU time specind = 4.6792984E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.464766 | New value = 1.523302 | poltype: 2 pol: 2 CPU time specind = 4.0957928E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.24043E+08, tol = 0.47684E+04, time = 6.11 | CG iter. 2 -- res = 0.54246E+07, tol = 0.47684E+04, time = 6.79 | CG iter. 3 -- res = 0.86739E+06, tol = 0.47684E+04, time = 6.39 | CG iter. 4 -- res = 0.37650E+06, tol = 0.47684E+04, time = 6.65 | CG iter. 5 -- res = 0.16280E+06, tol = 0.47684E+04, time = 6.52 | CG iter. 6 -- res = 0.83105E+05, tol = 0.47684E+04, time = 6.64 | CG iter. 7 -- res = 0.45108E+05, tol = 0.47684E+04, time = 6.49 | CG iter. 8 -- res = 0.21809E+05, tol = 0.47684E+04, time = 6.27 | CG iter. 9 -- res = 0.96235E+04, tol = 0.47684E+04, time = 7.09 | CG iter. 10 -- res = 0.39469E+04, tol = 0.47684E+04, time = 6.87 | CG iter. 11 -- res = 0.17617E+04, tol = 0.47684E+04, time = 8.00 | CG iter. 12 -- res = 0.90351E+03, tol = 0.47684E+04, time = 7.54 | CG iter. 13 -- res = 0.50985E+03, tol = 0.47684E+04, time = 6.90 | CG iter. 14 -- res = 0.28523E+03, tol = 0.47684E+04, time = 6.72 | CG iter. 15 -- res = 0.14720E+03, tol = 0.47684E+04, time = 6.70 | CG iter. 16 -- res = 0.69401E+02, tol = 0.47684E+04, time = 6.78 | CG iter. 17 -- res = 0.32717E+02, tol = 0.47684E+04, time = 6.40 | CG iter. 18 -- res = 0.16453E+02, tol = 0.47684E+04, time = 6.78 | CG iter. 19 -- res = 0.89197E+01, tol = 0.47684E+04, time = 6.94 | CG iter. 20 -- res = 0.51039E+01, tol = 0.47684E+04, time = 6.77 | CG iter. 21 -- res = 0.28098E+01, tol = 0.47684E+04, time = 6.36 | CG iter. 22 -- res = 0.14393E+01, tol = 0.47684E+04, time = 6.29 | CG iter. 23 -- res = 0.69386E+00, tol = 0.47684E+04, time = 6.97 | CG iter. 24 -- res = 0.34824E+00, tol = 0.47684E+04, time = 6.60 | CG iter. 25 -- res = 0.19043E+00, tol = 0.47684E+04, time = 7.01 | CG iter. 26 -- res = 0.11255E+00, tol = 0.47684E+04, time = 6.63 | CG iter. 27 -- res = 0.65234E-01, tol = 0.47684E+04, time = 7.02 | CG iter. 28 -- res = 0.34752E-01, tol = 0.47684E+04, time = 7.18 | CG iter. 29 -- res = 0.17557E-01, tol = 0.47684E+04, time = 6.77 | CG iter. 30 -- res = 0.91237E-02, tol = 0.47684E+04, time = 6.63 | CG iter. 31 -- res = 0.49628E-02, tol = 0.47684E+04, time = 6.78 | CG iter. 32 -- res = 0.28350E-02, tol = 0.47684E+04, time = 6.34 | CG iter. 33 -- res = 0.16171E-02, tol = 0.47684E+04, time = 6.80 | CG iter. 34 -- res = 0.89500E-03, tol = 0.47684E+04, time = 6.59 | CG iter. 35 -- res = 0.46684E-03, tol = 0.47684E+04, time = 6.70 | Final CG iter 36 -- res = 0.46684E-03, tol = 0.47684E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.435 2.738 | New value -2.492 | Old value 0.435 | Difference -2.926 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.44545E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.25901E+02, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.23233E+00, tol = 0.47627E+18, time = 4.07 | CG iter. 4 -- res = 0.13887E-03, tol = 0.47627E+18, time = 7.04 | Final CG iter 5 -- res = 0.24158E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10703541.248 | (Sampled value in CG: 10718151.975 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.364860 | New value = -3.527597 | poltype: 1 pol: 1 CPU time specind = 1.5875816E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.20686E+07, tol = 0.36660E+01, time = 2.65 | CG iter. 2 -- res = 0.73017E+06, tol = 0.36660E+01, time = 2.98 | CG iter. 3 -- res = 0.12889E+06, tol = 0.36660E+01, time = 2.76 | CG iter. 4 -- res = 0.48883E+05, tol = 0.36660E+01, time = 2.78 | CG iter. 5 -- res = 0.27558E+05, tol = 0.36660E+01, time = 2.82 | CG iter. 6 -- res = 0.14374E+05, tol = 0.36660E+01, time = 2.71 | CG iter. 7 -- res = 0.61165E+04, tol = 0.36660E+01, time = 2.70 | CG iter. 8 -- res = 0.28758E+04, tol = 0.36660E+01, time = 2.83 | CG iter. 9 -- res = 0.12770E+04, tol = 0.36660E+01, time = 2.95 | CG iter. 10 -- res = 0.51114E+03, tol = 0.36660E+01, time = 2.64 | CG iter. 11 -- res = 0.20717E+03, tol = 0.36660E+01, time = 2.81 | CG iter. 12 -- res = 0.10004E+03, tol = 0.36660E+01, time = 4.44 | CG iter. 13 -- res = 0.50939E+02, tol = 0.36660E+01, time = 7.47 | CG iter. 14 -- res = 0.25952E+02, tol = 0.36660E+01, time = 2.84 | CG iter. 15 -- res = 0.12213E+02, tol = 0.36660E+01, time = 2.92 | CG iter. 16 -- res = 0.53839E+01, tol = 0.36660E+01, time = 2.57 | CG iter. 17 -- res = 0.22944E+01, tol = 0.36660E+01, time = 3.12 | CG iter. 18 -- res = 0.10330E+01, tol = 0.36660E+01, time = 2.93 | CG iter. 19 -- res = 0.48657E+00, tol = 0.36660E+01, time = 2.88 | CG iter. 20 -- res = 0.25163E+00, tol = 0.36660E+01, time = 2.78 | CG iter. 21 -- res = 0.13051E+00, tol = 0.36660E+01, time = 2.61 | CG iter. 22 -- res = 0.61142E-01, tol = 0.36660E+01, time = 2.65 | CG iter. 23 -- res = 0.27589E-01, tol = 0.36660E+01, time = 3.05 | CG iter. 24 -- res = 0.12558E-01, tol = 0.36660E+01, time = 2.87 | CG iter. 25 -- res = 0.60252E-02, tol = 0.36660E+01, time = 2.71 | CG iter. 26 -- res = 0.30565E-02, tol = 0.36660E+01, time = 2.59 | CG iter. 27 -- res = 0.15988E-02, tol = 0.36660E+01, time = 2.51 | CG iter. 28 -- res = 0.76704E-03, tol = 0.36660E+01, time = 3.02 | CG iter. 29 -- res = 0.34404E-03, tol = 0.36660E+01, time = 2.81 | CG iter. 30 -- res = 0.16106E-03, tol = 0.36660E+01, time = 2.94 | CG iter. 31 -- res = 0.77327E-04, tol = 0.36660E+01, time = 2.96 | CG iter. 32 -- res = 0.39455E-04, tol = 0.36660E+01, time = 2.85 | CG iter. 33 -- res = 0.19301E-04, tol = 0.36660E+01, time = 2.55 | CG iter. 34 -- res = 0.93811E-05, tol = 0.36660E+01, time = 3.02 | CG iter. 35 -- res = 0.45849E-05, tol = 0.36660E+01, time = 2.88 | CG iter. 36 -- res = 0.22034E-05, tol = 0.36660E+01, time = 3.00 | CG iter. 37 -- res = 0.99595E-06, tol = 0.36660E+01, time = 2.54 | CG iter. 38 -- res = 0.48513E-06, tol = 0.36660E+01, time = 2.64 | CG iter. 39 -- res = 0.23584E-06, tol = 0.36660E+01, time = 2.80 | CG iter. 40 -- res = 0.11816E-06, tol = 0.36660E+01, time = 2.90 | CG iter. 41 -- res = 0.58366E-07, tol = 0.36660E+01, time = 3.00 | CG iter. 42 -- res = 0.26823E-07, tol = 0.36660E+01, time = 3.23 | CG iter. 43 -- res = 0.12226E-07, tol = 0.36660E+01, time = 3.94 | CG iter. 44 -- res = 0.56895E-08, tol = 0.36660E+01, time = 3.27 | CG iter. 45 -- res = 0.27898E-08, tol = 0.36660E+01, time = 3.09 | CG iter. 46 -- res = 0.13850E-08, tol = 0.36660E+01, time = 3.08 | CG iter. 47 -- res = 0.67181E-09, tol = 0.36660E+01, time = 2.67 | CG iter. 48 -- res = 0.32135E-09, tol = 0.36660E+01, time = 2.80 | CG iter. 49 -- res = 0.15276E-09, tol = 0.36660E+01, time = 2.79 | CG iter. 50 -- res = 0.71166E-10, tol = 0.36660E+01, time = 2.98 | Final CG iter 51 -- res = 0.71166E-10, tol = 0.36660E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.037 4.671 | New value -1.583 | Old value -3.037 | Difference 1.454 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.29544E+04, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.17529E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.22317E+00, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.21202E-03, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.12821E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10703541.248 | (Sampled value in CG: 10716959.040 ) | CPU time specind = 1211.805 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.68365E+08, tol = 0.57623E+04, time = 11.80 | CG iter. 2 -- res = 0.59116E+08, tol = 0.57623E+04, time = 12.44 | CG iter. 3 -- res = 0.15637E+08, tol = 0.57623E+04, time = 12.20 | CG iter. 4 -- res = 0.66091E+07, tol = 0.57623E+04, time = 11.94 | CG iter. 5 -- res = 0.39328E+07, tol = 0.57623E+04, time = 11.99 | CG iter. 6 -- res = 0.23290E+07, tol = 0.57623E+04, time = 12.40 | CG iter. 7 -- res = 0.13425E+07, tol = 0.57623E+04, time = 12.11 | CG iter. 8 -- res = 0.86523E+06, tol = 0.57623E+04, time = 12.67 | CG iter. 9 -- res = 0.57003E+06, tol = 0.57623E+04, time = 18.33 | CG iter. 10 -- res = 0.35341E+06, tol = 0.57623E+04, time = 11.90 | CG iter. 11 -- res = 0.19238E+06, tol = 0.57623E+04, time = 12.20 | CG iter. 12 -- res = 0.99832E+05, tol = 0.57623E+04, time = 12.18 | CG iter. 13 -- res = 0.52709E+05, tol = 0.57623E+04, time = 12.08 | CG iter. 14 -- res = 0.29781E+05, tol = 0.57623E+04, time = 12.52 | CG iter. 15 -- res = 0.19007E+05, tol = 0.57623E+04, time = 12.74 | CG iter. 16 -- res = 0.12887E+05, tol = 0.57623E+04, time = 14.04 | CG iter. 17 -- res = 0.91919E+04, tol = 0.57623E+04, time = 12.73 | CG iter. 18 -- res = 0.65233E+04, tol = 0.57623E+04, time = 12.15 | CG iter. 19 -- res = 0.44007E+04, tol = 0.57623E+04, time = 12.05 | CG iter. 20 -- res = 0.30310E+04, tol = 0.57623E+04, time = 11.71 | CG iter. 21 -- res = 0.21531E+04, tol = 0.57623E+04, time = 12.12 | CG iter. 22 -- res = 0.17450E+04, tol = 0.57623E+04, time = 12.22 | CG iter. 23 -- res = 0.16492E+04, tol = 0.57623E+04, time = 11.98 | CG iter. 24 -- res = 0.17300E+04, tol = 0.57623E+04, time = 11.68 | CG iter. 25 -- res = 0.18616E+04, tol = 0.57623E+04, time = 11.92 | CG iter. 26 -- res = 0.19195E+04, tol = 0.57623E+04, time = 12.41 | CG iter. 27 -- res = 0.18848E+04, tol = 0.57623E+04, time = 12.20 | CG iter. 28 -- res = 0.17143E+04, tol = 0.57623E+04, time = 12.10 | CG iter. 29 -- res = 0.15427E+04, tol = 0.57623E+04, time = 12.41 | CG iter. 30 -- res = 0.14129E+04, tol = 0.57623E+04, time = 12.25 | CG iter. 31 -- res = 0.12792E+04, tol = 0.57623E+04, time = 12.25 | CG iter. 32 -- res = 0.11444E+04, tol = 0.57623E+04, time = 14.16 | CG iter. 33 -- res = 0.96857E+03, tol = 0.57623E+04, time = 17.15 | CG iter. 34 -- res = 0.76817E+03, tol = 0.57623E+04, time = 12.06 | CG iter. 35 -- res = 0.60133E+03, tol = 0.57623E+04, time = 12.32 | CG iter. 36 -- res = 0.48096E+03, tol = 0.57623E+04, time = 12.10 | CG iter. 37 -- res = 0.42094E+03, tol = 0.57623E+04, time = 12.37 | CG iter. 38 -- res = 0.40779E+03, tol = 0.57623E+04, time = 11.78 | CG iter. 39 -- res = 0.39237E+03, tol = 0.57623E+04, time = 13.25 | CG iter. 40 -- res = 0.36919E+03, tol = 0.57623E+04, time = 13.62 | CG iter. 41 -- res = 0.34270E+03, tol = 0.57623E+04, time = 12.01 | CG iter. 42 -- res = 0.30302E+03, tol = 0.57623E+04, time = 12.63 | CG iter. 43 -- res = 0.27559E+03, tol = 0.57623E+04, time = 12.37 | CG iter. 44 -- res = 0.25703E+03, tol = 0.57623E+04, time = 12.43 | CG iter. 45 -- res = 0.24211E+03, tol = 0.57623E+04, time = 12.05 | CG iter. 46 -- res = 0.23111E+03, tol = 0.57623E+04, time = 12.42 | CG iter. 47 -- res = 0.21610E+03, tol = 0.57623E+04, time = 12.09 | CG iter. 48 -- res = 0.18570E+03, tol = 0.57623E+04, time = 12.62 | CG iter. 49 -- res = 0.15759E+03, tol = 0.57623E+04, time = 11.99 | CG iter. 50 -- res = 0.13375E+03, tol = 0.57623E+04, time = 12.38 | CG iter. 51 -- res = 0.11686E+03, tol = 0.57623E+04, time = 11.62 | CG iter. 52 -- res = 0.11009E+03, tol = 0.57623E+04, time = 12.04 | CG iter. 53 -- res = 0.10852E+03, tol = 0.57623E+04, time = 11.70 | CG iter. 54 -- res = 0.10537E+03, tol = 0.57623E+04, time = 12.17 | CG iter. 55 -- res = 0.99920E+02, tol = 0.57623E+04, time = 12.24 | CG iter. 56 -- res = 0.92538E+02, tol = 0.57623E+04, time = 17.50 | CG iter. 57 -- res = 0.83717E+02, tol = 0.57623E+04, time = 13.19 | CG iter. 58 -- res = 0.78906E+02, tol = 0.57623E+04, time = 11.99 | CG iter. 59 -- res = 0.77899E+02, tol = 0.57623E+04, time = 12.04 | CG iter. 60 -- res = 0.77589E+02, tol = 0.57623E+04, time = 12.16 | Final CG iter 61 -- res = 0.77589E+02, tol = 0.57623E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.855 ( -229.952 -2230.533 2513.212 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9003079.397 | Old band monopole 10703587.286 | Change to band monopole -1700507.889 | Change to component monopole 1700500.575 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.497 2.728 | New value -1.624 | Old value -2.497 | Difference 0.873 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.470 ( 5.856 11.104 -11.890 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.081 4.280 | New value -4.579 | Old value 6.081 | Difference -10.660 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.57413E+05, tol = 0.47627E+18, time = 3.15 | CG iter. 2 -- res = 0.29114E+02, tol = 0.47627E+18, time = 2.59 | CG iter. 3 -- res = 0.93334E+00, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.19121E-02, tol = 0.47627E+18, time = 2.34 | Final CG iter 5 -- res = 0.50605E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9003040.673 | (Sampled value in CG: 8981125.411 ) | Chain = 1 -- chisq = 0.81490234E+09 | Chain = 1 -- wall time = 6189.513 sec Available RAM: MemAvailable: 377196064 kB Available Swap: SwapFree: 1116987284 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 385 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444827 | --> Sampling calibration, mode = relcal | relcal = 1.3426604E-02 7.4564427E-04 -1.5888255E-03 -1.2583422E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1793152 0.1950134 97040846.0382799 | BP delta = 0.1842743 0.1999725 97040847.3004043 | BP chisq diff = 1.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632525 | --> Sampling calibration, mode = relcal | relcal = -2.8221437E-03 -7.0389191E-04 1.6786394E-03 1.6147887E-03 -4.0796262E-04 6.4057019E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5502996 15222574.4725367 | BP delta = 0.0000000E+00 -0.5536225 15222574.7067965 | BP chisq diff = 0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18676725175790 | --> Sampling calibration, mode = relcal | relcal = -7.6125465E-02 -5.9521124E-02 9.3310513E-02 4.2336080E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7232155E-06 6.6111530E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1398E-05 | 2: delta_r/delta_0: 1.6964E-06 | 3: delta_s/delta_0: 2.0967E-07 | 4: delta_r/delta_0: 2.8242E-08 | 5: delta_s/delta_0: 8.0311E-09 | 6: delta_r/delta_0: 2.8095E-09 | 7: delta_s/delta_0: 6.9980E-10 | 8: delta_r/delta_0: 1.7163E-10 | 9: delta_s/delta_0: 1.2480E-10 | 10: delta_r/delta_0: 5.2179E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.296835242226602E-003 2.727632585938261E-005 | BP delta = 8.4433235E-02 0.1075568 50490257.9924355 | BP delta = 8.2568020E-02 0.1056916 50490261.6815877 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02604628 | --> Sampling calibration, mode = relcal | relcal = -0.1066402 -9.5517740E-02 0.1449072 5.7250708E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3804527E-03 1.5030741E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3296E-05 | 2: delta_r/delta_0: 1.5525E-06 | 3: delta_s/delta_0: 2.4230E-07 | 4: delta_r/delta_0: 4.1961E-08 | 5: delta_s/delta_0: 2.6178E-08 | 6: delta_r/delta_0: 6.9029E-09 | 7: delta_s/delta_0: 4.8769E-09 | 8: delta_r/delta_0: 1.8762E-09 | 9: delta_s/delta_0: 8.6282E-10 | 10: delta_r/delta_0: 6.4817E-10 | 11: delta_s/delta_0: 1.2416E-09 | 12: delta_r/delta_0: 1.1842E-10 | 13: delta_s/delta_0: 1.0033E-10 | 14: delta_r/delta_0: 1.6642E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.008786034473025E-002 2.810693529233540E-005 | BP delta = -0.2254397 -0.1904998 57386359.4494944 | BP delta = -0.2309146 -0.1959746 57386359.2456379 | BP chisq diff = -0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81234684 | --> Sampling calibration, mode = relcal | relcal = 0.2953891 0.2250262 -0.2839137 -0.2365017 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2087203E-04 5.0260252E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5321E-01 | 2: delta_r/delta_0: 5.9463E-03 | 3: delta_s/delta_0: 1.8982E-05 | 4: delta_r/delta_0: 3.9508E-06 | 5: delta_s/delta_0: 4.9031E-05 | 6: delta_r/delta_0: 1.0644E-05 | 7: delta_s/delta_0: 9.9483E-07 | 8: delta_r/delta_0: 1.6902E-07 | 9: delta_s/delta_0: 8.2050E-07 | 10: delta_r/delta_0: 2.1195E-08 | 11: delta_s/delta_0: 5.6294E-09 | 12: delta_r/delta_0: 1.9133E-09 | 13: delta_s/delta_0: 1.3715E-09 | 14: delta_r/delta_0: 6.4822E-10 | 15: delta_s/delta_0: 1.6235E-10 | 16: delta_r/delta_0: 8.7943E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.461079538130394E-002 4.021266541675245E-005 | BP delta = -0.1091788 -0.1609387 72484009.6105659 | BP delta = -0.1489512 -0.2007111 72484009.9160792 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95933116 | --> Sampling calibration, mode = relcal | relcal = 0.1065052 0.1394978 -0.1101893 -0.1358137 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0884012E-02 1.3636540E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5753E-04 | 2: delta_r/delta_0: 4.2884E-06 | 3: delta_s/delta_0: 3.1928E-06 | 4: delta_r/delta_0: 6.5119E-07 | 5: delta_s/delta_0: 1.7460E-07 | 6: delta_r/delta_0: 1.0406E-07 | 7: delta_s/delta_0: 5.0439E-07 | 8: delta_r/delta_0: 2.2595E-08 | 9: delta_s/delta_0: 2.0758E-08 | 10: delta_r/delta_0: 1.3433E-08 | 11: delta_s/delta_0: 1.8312E-09 | 12: delta_r/delta_0: 7.6099E-10 | 13: delta_s/delta_0: 2.4606E-10 | 14: delta_r/delta_0: 1.5252E-10 | 15: delta_s/delta_0: 6.6935E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.872186083192321E-002 3.696455825910131E-005 | BP delta = 0.1427872 0.2570194 72789425.6993874 | BP delta = 0.1283506 0.2425827 72789426.0475774 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.075199 | New value = -3.111771 | poltype: 2 pol: 1 CPU time specind = 1.5559912E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.066789 | New value = -3.108455 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.209449 | New value = -3.143675 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136863 | New value = -3.184364 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120678 | New value = -3.212206 | poltype: 2 pol: 2 CPU time specind = 2.9401064E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.13560E+08, tol = 0.80853E+01, time = 5.74 | CG iter. 2 -- res = 0.33419E+06, tol = 0.80853E+01, time = 5.96 | CG iter. 3 -- res = 0.53473E+05, tol = 0.80853E+01, time = 6.19 | CG iter. 4 -- res = 0.32888E+05, tol = 0.80853E+01, time = 5.60 | CG iter. 5 -- res = 0.23031E+05, tol = 0.80853E+01, time = 12.02 | CG iter. 6 -- res = 0.18279E+05, tol = 0.80853E+01, time = 5.94 | CG iter. 7 -- res = 0.16932E+05, tol = 0.80853E+01, time = 6.03 | CG iter. 8 -- res = 0.13515E+05, tol = 0.80853E+01, time = 5.94 | CG iter. 9 -- res = 0.11281E+05, tol = 0.80853E+01, time = 5.62 | CG iter. 10 -- res = 0.93232E+04, tol = 0.80853E+01, time = 5.86 | CG iter. 11 -- res = 0.63755E+04, tol = 0.80853E+01, time = 5.74 | CG iter. 12 -- res = 0.40187E+04, tol = 0.80853E+01, time = 5.90 | CG iter. 13 -- res = 0.30792E+04, tol = 0.80853E+01, time = 5.82 | CG iter. 14 -- res = 0.26732E+04, tol = 0.80853E+01, time = 5.62 | CG iter. 15 -- res = 0.23099E+04, tol = 0.80853E+01, time = 5.76 | CG iter. 16 -- res = 0.17116E+04, tol = 0.80853E+01, time = 5.91 | CG iter. 17 -- res = 0.11846E+04, tol = 0.80853E+01, time = 5.54 | CG iter. 18 -- res = 0.89914E+03, tol = 0.80853E+01, time = 5.60 | CG iter. 19 -- res = 0.71067E+03, tol = 0.80853E+01, time = 6.16 | CG iter. 20 -- res = 0.53402E+03, tol = 0.80853E+01, time = 7.64 | CG iter. 21 -- res = 0.36540E+03, tol = 0.80853E+01, time = 6.69 | CG iter. 22 -- res = 0.27972E+03, tol = 0.80853E+01, time = 5.60 | CG iter. 23 -- res = 0.22631E+03, tol = 0.80853E+01, time = 5.82 | CG iter. 24 -- res = 0.18005E+03, tol = 0.80853E+01, time = 6.05 | CG iter. 25 -- res = 0.12322E+03, tol = 0.80853E+01, time = 6.02 | CG iter. 26 -- res = 0.88396E+02, tol = 0.80853E+01, time = 6.08 | CG iter. 27 -- res = 0.71740E+02, tol = 0.80853E+01, time = 5.86 | CG iter. 28 -- res = 0.58719E+02, tol = 0.80853E+01, time = 5.69 | CG iter. 29 -- res = 0.43016E+02, tol = 0.80853E+01, time = 5.87 | CG iter. 30 -- res = 0.31508E+02, tol = 0.80853E+01, time = 5.91 | CG iter. 31 -- res = 0.25275E+02, tol = 0.80853E+01, time = 5.75 | CG iter. 32 -- res = 0.20760E+02, tol = 0.80853E+01, time = 5.86 | CG iter. 33 -- res = 0.15734E+02, tol = 0.80853E+01, time = 5.93 | CG iter. 34 -- res = 0.11497E+02, tol = 0.80853E+01, time = 6.00 | CG iter. 35 -- res = 0.89439E+01, tol = 0.80853E+01, time = 5.42 | CG iter. 36 -- res = 0.75427E+01, tol = 0.80853E+01, time = 6.07 | CG iter. 37 -- res = 0.63545E+01, tol = 0.80853E+01, time = 5.97 | CG iter. 38 -- res = 0.47027E+01, tol = 0.80853E+01, time = 6.58 | CG iter. 39 -- res = 0.35871E+01, tol = 0.80853E+01, time = 5.58 | CG iter. 40 -- res = 0.30545E+01, tol = 0.80853E+01, time = 5.82 | CG iter. 41 -- res = 0.26227E+01, tol = 0.80853E+01, time = 5.62 | CG iter. 42 -- res = 0.19805E+01, tol = 0.80853E+01, time = 5.53 | CG iter. 43 -- res = 0.15272E+01, tol = 0.80853E+01, time = 5.97 | CG iter. 44 -- res = 0.12635E+01, tol = 0.80853E+01, time = 5.70 | CG iter. 45 -- res = 0.10458E+01, tol = 0.80853E+01, time = 6.02 | CG iter. 46 -- res = 0.84188E+00, tol = 0.80853E+01, time = 5.74 | CG iter. 47 -- res = 0.66895E+00, tol = 0.80853E+01, time = 5.59 | CG iter. 48 -- res = 0.55674E+00, tol = 0.80853E+01, time = 6.16 | CG iter. 49 -- res = 0.47936E+00, tol = 0.80853E+01, time = 5.89 | CG iter. 50 -- res = 0.38574E+00, tol = 0.80853E+01, time = 5.81 | Final CG iter 51 -- res = 0.38574E+00, tol = 0.80853E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9121584.185 | Old band monopole 9003079.397 | Change to band monopole 118504.788 | Change to component monopole -118504.278 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.29 | CG iter. 1 -- res = 0.14339E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.66016E+02, tol = 0.47627E+18, time = 2.35 | CG iter. 3 -- res = 0.23831E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.88837E-02, tol = 0.47627E+18, time = 2.18 | Final CG iter 5 -- res = 0.26281E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9121544.951 | (Sampled value in CG: 9069139.496 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.565976 | New value = 1.520262 | poltype: 2 pol: 1 CPU time specind = 3.7237883E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.523302 | New value = 1.485602 | poltype: 2 pol: 2 CPU time specind = 9.2968941E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.24448E+08, tol = 0.47565E+04, time = 8.13 | CG iter. 2 -- res = 0.51206E+07, tol = 0.47565E+04, time = 7.18 | CG iter. 3 -- res = 0.79870E+06, tol = 0.47565E+04, time = 6.35 | CG iter. 4 -- res = 0.33660E+06, tol = 0.47565E+04, time = 6.82 | CG iter. 5 -- res = 0.14723E+06, tol = 0.47565E+04, time = 6.43 | CG iter. 6 -- res = 0.78335E+05, tol = 0.47565E+04, time = 6.52 | CG iter. 7 -- res = 0.43633E+05, tol = 0.47565E+04, time = 6.50 | CG iter. 8 -- res = 0.20511E+05, tol = 0.47565E+04, time = 6.82 | CG iter. 9 -- res = 0.87986E+04, tol = 0.47565E+04, time = 6.53 | CG iter. 10 -- res = 0.35875E+04, tol = 0.47565E+04, time = 6.69 | CG iter. 11 -- res = 0.16363E+04, tol = 0.47565E+04, time = 6.31 | CG iter. 12 -- res = 0.84853E+03, tol = 0.47565E+04, time = 6.78 | CG iter. 13 -- res = 0.47661E+03, tol = 0.47565E+04, time = 6.94 | CG iter. 14 -- res = 0.26455E+03, tol = 0.47565E+04, time = 6.88 | CG iter. 15 -- res = 0.13685E+03, tol = 0.47565E+04, time = 6.59 | CG iter. 16 -- res = 0.65531E+02, tol = 0.47565E+04, time = 6.69 | CG iter. 17 -- res = 0.31141E+02, tol = 0.47565E+04, time = 7.00 | CG iter. 18 -- res = 0.15720E+02, tol = 0.47565E+04, time = 6.29 | CG iter. 19 -- res = 0.85762E+01, tol = 0.47565E+04, time = 6.53 | CG iter. 20 -- res = 0.48192E+01, tol = 0.47565E+04, time = 6.80 | CG iter. 21 -- res = 0.26328E+01, tol = 0.47565E+04, time = 6.82 | CG iter. 22 -- res = 0.13464E+01, tol = 0.47565E+04, time = 6.94 | CG iter. 23 -- res = 0.66000E+00, tol = 0.47565E+04, time = 6.72 | CG iter. 24 -- res = 0.33760E+00, tol = 0.47565E+04, time = 6.13 | CG iter. 25 -- res = 0.18307E+00, tol = 0.47565E+04, time = 6.87 | CG iter. 26 -- res = 0.10240E+00, tol = 0.47565E+04, time = 6.83 | CG iter. 27 -- res = 0.56723E-01, tol = 0.47565E+04, time = 6.72 | CG iter. 28 -- res = 0.30803E-01, tol = 0.47565E+04, time = 6.75 | CG iter. 29 -- res = 0.16492E-01, tol = 0.47565E+04, time = 7.06 | CG iter. 30 -- res = 0.87327E-02, tol = 0.47565E+04, time = 6.64 | CG iter. 31 -- res = 0.47351E-02, tol = 0.47565E+04, time = 11.52 | CG iter. 32 -- res = 0.26503E-02, tol = 0.47565E+04, time = 9.32 | CG iter. 33 -- res = 0.14915E-02, tol = 0.47565E+04, time = 6.90 | CG iter. 34 -- res = 0.81066E-03, tol = 0.47565E+04, time = 6.92 | CG iter. 35 -- res = 0.43672E-03, tol = 0.47565E+04, time = 6.91 | Final CG iter 36 -- res = 0.43672E-03, tol = 0.47565E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.616 2.737 | New value 2.784 | Old value -1.616 | Difference 4.399 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.10099E+07, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.54633E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.16851E+01, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.18858E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.22390E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9121544.951 | (Sampled value in CG: 9067912.438 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.527597 | New value = -3.650937 | poltype: 1 pol: 1 CPU time specind = 2.2722960E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.23019E+07, tol = 0.30188E+01, time = 2.72 | CG iter. 2 -- res = 0.77250E+06, tol = 0.30188E+01, time = 2.68 | CG iter. 3 -- res = 0.15477E+06, tol = 0.30188E+01, time = 2.90 | CG iter. 4 -- res = 0.65191E+05, tol = 0.30188E+01, time = 2.97 | CG iter. 5 -- res = 0.38640E+05, tol = 0.30188E+01, time = 2.74 | CG iter. 6 -- res = 0.20069E+05, tol = 0.30188E+01, time = 3.22 | CG iter. 7 -- res = 0.73964E+04, tol = 0.30188E+01, time = 2.85 | CG iter. 8 -- res = 0.30886E+04, tol = 0.30188E+01, time = 2.95 | CG iter. 9 -- res = 0.12772E+04, tol = 0.30188E+01, time = 2.87 | CG iter. 10 -- res = 0.50455E+03, tol = 0.30188E+01, time = 2.78 | CG iter. 11 -- res = 0.22197E+03, tol = 0.30188E+01, time = 3.06 | CG iter. 12 -- res = 0.11786E+03, tol = 0.30188E+01, time = 2.74 | CG iter. 13 -- res = 0.57956E+02, tol = 0.30188E+01, time = 2.65 | CG iter. 14 -- res = 0.26732E+02, tol = 0.30188E+01, time = 2.53 | CG iter. 15 -- res = 0.11444E+02, tol = 0.30188E+01, time = 2.92 | CG iter. 16 -- res = 0.49440E+01, tol = 0.30188E+01, time = 2.60 | CG iter. 17 -- res = 0.20952E+01, tol = 0.30188E+01, time = 2.66 | CG iter. 18 -- res = 0.98723E+00, tol = 0.30188E+01, time = 4.26 | CG iter. 19 -- res = 0.51465E+00, tol = 0.30188E+01, time = 2.92 | CG iter. 20 -- res = 0.25555E+00, tol = 0.30188E+01, time = 3.13 | CG iter. 21 -- res = 0.11983E+00, tol = 0.30188E+01, time = 3.36 | CG iter. 22 -- res = 0.51961E-01, tol = 0.30188E+01, time = 2.78 | CG iter. 23 -- res = 0.23290E-01, tol = 0.30188E+01, time = 2.67 | CG iter. 24 -- res = 0.11543E-01, tol = 0.30188E+01, time = 2.97 | CG iter. 25 -- res = 0.59577E-02, tol = 0.30188E+01, time = 2.67 | CG iter. 26 -- res = 0.29187E-02, tol = 0.30188E+01, time = 2.60 | CG iter. 27 -- res = 0.13944E-02, tol = 0.30188E+01, time = 2.64 | CG iter. 28 -- res = 0.63668E-03, tol = 0.30188E+01, time = 2.84 | CG iter. 29 -- res = 0.27488E-03, tol = 0.30188E+01, time = 2.71 | CG iter. 30 -- res = 0.13270E-03, tol = 0.30188E+01, time = 2.80 | CG iter. 31 -- res = 0.67108E-04, tol = 0.30188E+01, time = 2.55 | CG iter. 32 -- res = 0.33963E-04, tol = 0.30188E+01, time = 2.69 | CG iter. 33 -- res = 0.16103E-04, tol = 0.30188E+01, time = 2.84 | CG iter. 34 -- res = 0.71724E-05, tol = 0.30188E+01, time = 2.85 | CG iter. 35 -- res = 0.34317E-05, tol = 0.30188E+01, time = 2.75 | CG iter. 36 -- res = 0.16170E-05, tol = 0.30188E+01, time = 2.82 | CG iter. 37 -- res = 0.77707E-06, tol = 0.30188E+01, time = 2.78 | CG iter. 38 -- res = 0.39341E-06, tol = 0.30188E+01, time = 2.78 | CG iter. 39 -- res = 0.18783E-06, tol = 0.30188E+01, time = 2.66 | CG iter. 40 -- res = 0.86789E-07, tol = 0.30188E+01, time = 2.75 | CG iter. 41 -- res = 0.40396E-07, tol = 0.30188E+01, time = 2.89 | CG iter. 42 -- res = 0.19172E-07, tol = 0.30188E+01, time = 2.76 | CG iter. 43 -- res = 0.90631E-08, tol = 0.30188E+01, time = 2.76 | CG iter. 44 -- res = 0.45629E-08, tol = 0.30188E+01, time = 2.86 | CG iter. 45 -- res = 0.21810E-08, tol = 0.30188E+01, time = 2.58 | CG iter. 46 -- res = 0.99955E-09, tol = 0.30188E+01, time = 2.74 | CG iter. 47 -- res = 0.47432E-09, tol = 0.30188E+01, time = 2.76 | CG iter. 48 -- res = 0.21935E-09, tol = 0.30188E+01, time = 2.83 | CG iter. 49 -- res = 0.10533E-09, tol = 0.30188E+01, time = 3.01 | CG iter. 50 -- res = 0.50296E-10, tol = 0.30188E+01, time = 3.06 | Final CG iter 51 -- res = 0.50296E-10, tol = 0.30188E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.418 5.439 | New value -2.710 | Old value -8.418 | Difference 5.708 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.33295E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.29410E+02, tol = 0.47627E+18, time = 1.81 | CG iter. 3 -- res = 0.10277E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.21184E-02, tol = 0.47627E+18, time = 1.89 | Final CG iter 5 -- res = 0.19604E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9121544.951 | (Sampled value in CG: 9084182.452 ) | CPU time specind = 1214.944 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.69551E+08, tol = 0.57819E+04, time = 12.50 | CG iter. 2 -- res = 0.59084E+08, tol = 0.57819E+04, time = 12.52 | CG iter. 3 -- res = 0.15616E+08, tol = 0.57819E+04, time = 19.16 | CG iter. 4 -- res = 0.67457E+07, tol = 0.57819E+04, time = 12.65 | CG iter. 5 -- res = 0.41013E+07, tol = 0.57819E+04, time = 11.71 | CG iter. 6 -- res = 0.24055E+07, tol = 0.57819E+04, time = 12.00 | CG iter. 7 -- res = 0.13998E+07, tol = 0.57819E+04, time = 12.54 | CG iter. 8 -- res = 0.89509E+06, tol = 0.57819E+04, time = 12.43 | CG iter. 9 -- res = 0.57861E+06, tol = 0.57819E+04, time = 11.78 | CG iter. 10 -- res = 0.35347E+06, tol = 0.57819E+04, time = 13.81 | CG iter. 11 -- res = 0.19815E+06, tol = 0.57819E+04, time = 12.23 | CG iter. 12 -- res = 0.10464E+06, tol = 0.57819E+04, time = 11.81 | CG iter. 13 -- res = 0.55644E+05, tol = 0.57819E+04, time = 12.09 | CG iter. 14 -- res = 0.32772E+05, tol = 0.57819E+04, time = 12.19 | CG iter. 15 -- res = 0.21971E+05, tol = 0.57819E+04, time = 12.14 | CG iter. 16 -- res = 0.15699E+05, tol = 0.57819E+04, time = 12.35 | CG iter. 17 -- res = 0.12271E+05, tol = 0.57819E+04, time = 12.27 | CG iter. 18 -- res = 0.95719E+04, tol = 0.57819E+04, time = 12.11 | CG iter. 19 -- res = 0.73130E+04, tol = 0.57819E+04, time = 12.56 | CG iter. 20 -- res = 0.58619E+04, tol = 0.57819E+04, time = 12.31 | CG iter. 21 -- res = 0.49587E+04, tol = 0.57819E+04, time = 12.17 | CG iter. 22 -- res = 0.47192E+04, tol = 0.57819E+04, time = 11.80 | CG iter. 23 -- res = 0.49603E+04, tol = 0.57819E+04, time = 12.44 | CG iter. 24 -- res = 0.53785E+04, tol = 0.57819E+04, time = 11.91 | CG iter. 25 -- res = 0.53956E+04, tol = 0.57819E+04, time = 11.64 | CG iter. 26 -- res = 0.48857E+04, tol = 0.57819E+04, time = 11.70 | CG iter. 27 -- res = 0.40627E+04, tol = 0.57819E+04, time = 18.87 | CG iter. 28 -- res = 0.31766E+04, tol = 0.57819E+04, time = 12.08 | CG iter. 29 -- res = 0.24904E+04, tol = 0.57819E+04, time = 12.36 | CG iter. 30 -- res = 0.20921E+04, tol = 0.57819E+04, time = 12.87 | CG iter. 31 -- res = 0.17797E+04, tol = 0.57819E+04, time = 12.26 | CG iter. 32 -- res = 0.15032E+04, tol = 0.57819E+04, time = 12.33 | CG iter. 33 -- res = 0.12123E+04, tol = 0.57819E+04, time = 12.39 | CG iter. 34 -- res = 0.97456E+03, tol = 0.57819E+04, time = 14.17 | CG iter. 35 -- res = 0.83088E+03, tol = 0.57819E+04, time = 12.96 | CG iter. 36 -- res = 0.75201E+03, tol = 0.57819E+04, time = 12.40 | CG iter. 37 -- res = 0.71271E+03, tol = 0.57819E+04, time = 11.78 | CG iter. 38 -- res = 0.69177E+03, tol = 0.57819E+04, time = 12.59 | CG iter. 39 -- res = 0.66704E+03, tol = 0.57819E+04, time = 12.02 | CG iter. 40 -- res = 0.61145E+03, tol = 0.57819E+04, time = 12.10 | CG iter. 41 -- res = 0.53770E+03, tol = 0.57819E+04, time = 12.71 | CG iter. 42 -- res = 0.44751E+03, tol = 0.57819E+04, time = 12.33 | CG iter. 43 -- res = 0.37797E+03, tol = 0.57819E+04, time = 11.92 | CG iter. 44 -- res = 0.32941E+03, tol = 0.57819E+04, time = 12.05 | CG iter. 45 -- res = 0.29713E+03, tol = 0.57819E+04, time = 11.93 | CG iter. 46 -- res = 0.27038E+03, tol = 0.57819E+04, time = 11.97 | CG iter. 47 -- res = 0.24109E+03, tol = 0.57819E+04, time = 12.55 | CG iter. 48 -- res = 0.21067E+03, tol = 0.57819E+04, time = 11.93 | CG iter. 49 -- res = 0.18543E+03, tol = 0.57819E+04, time = 12.14 | CG iter. 50 -- res = 0.16697E+03, tol = 0.57819E+04, time = 11.93 | CG iter. 51 -- res = 0.15780E+03, tol = 0.57819E+04, time = 18.14 | CG iter. 52 -- res = 0.15577E+03, tol = 0.57819E+04, time = 12.61 | CG iter. 53 -- res = 0.15569E+03, tol = 0.57819E+04, time = 12.03 | CG iter. 54 -- res = 0.15240E+03, tol = 0.57819E+04, time = 12.27 | CG iter. 55 -- res = 0.14297E+03, tol = 0.57819E+04, time = 12.24 | CG iter. 56 -- res = 0.13313E+03, tol = 0.57819E+04, time = 12.33 | CG iter. 57 -- res = 0.12257E+03, tol = 0.57819E+04, time = 12.02 | CG iter. 58 -- res = 0.11205E+03, tol = 0.57819E+04, time = 14.01 | CG iter. 59 -- res = 0.10583E+03, tol = 0.57819E+04, time = 12.64 | CG iter. 60 -- res = 0.99837E+02, tol = 0.57819E+04, time = 11.97 | Final CG iter 61 -- res = 0.99837E+02, tol = 0.57819E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.684 ( -229.730 -2228.723 2511.096 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9055450.290 | Old band monopole 9121584.185 | Change to band monopole -66133.895 | Change to component monopole 66133.611 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.800 2.740 | New value 2.018 | Old value 2.800 | Difference -0.782 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.463 ( 6.448 6.635 -6.330 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.301 5.714 | New value 11.993 | Old value 5.301 | Difference 6.692 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.18152E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.45854E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.19300E+01, tol = 0.47627E+18, time = 1.87 | CG iter. 4 -- res = 0.35313E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.20069E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9055411.340 | (Sampled value in CG: 9029118.682 ) | Chain = 1 -- chisq = 0.81576408E+09 | Chain = 1 -- wall time = 5766.226 sec Available RAM: MemAvailable: 377597240 kB Available Swap: SwapFree: 1117254804 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 386 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06448777 | --> Sampling calibration, mode = relcal | relcal = 1.3434624E-02 7.4257329E-04 -1.5929908E-03 -1.2584207E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1842743 0.1999725 9404588.46780127 | BP delta = 0.1842743 0.2018766 9404546.13129179 | BP chisq diff = -42.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632204 | --> Sampling calibration, mode = relcal | relcal = -2.8205169E-03 -7.0391706E-04 1.6784139E-03 1.6125113E-03 -4.0651584E-04 6.4002455E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5536225 15218420.3289872 | BP delta = 0.0000000E+00 -0.5574862 15218423.5457168 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103125 | --> Sampling calibration, mode = relcal | relcal = 3.7085284E-02 1.3715703E-02 5.7557812E-03 -7.1678367E-03 8.2468828E-03 2.3929900E-03 -7.5995252E-03 -7.1823662E-03 -1.5300457E-02 -1.4799221E-02 -3.0553616E-03 -1.2091871E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.154867 132210636.698164 | BP delta = 0.0000000E+00 -1.154749 132210634.219016 | BP chisq diff = -2.5, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17697294778306 | --> Sampling calibration, mode = relcal | relcal = -7.2662733E-02 -5.6745142E-02 8.9297622E-02 4.0110253E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1840959E-04 9.8561973E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1399E-04 | 2: delta_r/delta_0: 1.6865E-06 | 3: delta_s/delta_0: 4.7362E-07 | 4: delta_r/delta_0: 2.6642E-08 | 5: delta_s/delta_0: 2.0412E-07 | 6: delta_r/delta_0: 3.2315E-08 | 7: delta_s/delta_0: 3.6943E-08 | 8: delta_r/delta_0: 1.2839E-09 | 9: delta_s/delta_0: 7.0129E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.398940884583424E-004 2.750796306113527E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1397E-04 | 2: delta_r/delta_0: 1.6865E-06 | 3: delta_s/delta_0: 4.7427E-07 | 4: delta_r/delta_0: 2.6696E-08 | 5: delta_s/delta_0: 1.9999E-07 | 6: delta_r/delta_0: 3.1671E-08 | 7: delta_s/delta_0: 3.6899E-08 | 8: delta_r/delta_0: 1.2698E-09 | 9: delta_s/delta_0: 7.0092E-11 | Reached bicg-stab tolerance | BP delta = 8.4433235E-02 0.1075568 3681107.60461800 | BP delta = 8.4433235E-02 0.1078825 3677266.45058580 | BP chisq diff = -3841.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02576221 | --> Sampling calibration, mode = relcal | relcal = -0.1066187 -9.5519483E-02 0.1448586 5.7279624E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3987132E-03 1.2895836E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.4084E-05 | 2: delta_r/delta_0: 1.2516E-06 | 3: delta_s/delta_0: 2.3875E-07 | 4: delta_r/delta_0: 5.3021E-08 | 5: delta_s/delta_0: 1.5450E-08 | 6: delta_r/delta_0: 7.3699E-09 | 7: delta_s/delta_0: 5.4510E-09 | 8: delta_r/delta_0: 1.6310E-09 | 9: delta_s/delta_0: 8.2757E-10 | 10: delta_r/delta_0: 6.1534E-10 | 11: delta_s/delta_0: 5.6162E-10 | 12: delta_r/delta_0: 1.2001E-10 | 13: delta_s/delta_0: 1.0071E-10 | 14: delta_r/delta_0: 1.0870E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.843687855264139E-003 2.811467869211068E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.4083E-05 | 2: delta_r/delta_0: 1.2516E-06 | 3: delta_s/delta_0: 2.3872E-07 | 4: delta_r/delta_0: 5.2994E-08 | 5: delta_s/delta_0: 1.5454E-08 | 6: delta_r/delta_0: 7.3674E-09 | 7: delta_s/delta_0: 5.4484E-09 | 8: delta_r/delta_0: 1.6308E-09 | 9: delta_s/delta_0: 8.2750E-10 | 10: delta_r/delta_0: 6.1530E-10 | 11: delta_s/delta_0: 5.6152E-10 | 12: delta_r/delta_0: 1.2000E-10 | 13: delta_s/delta_0: 1.0071E-10 | 14: delta_r/delta_0: 1.0849E-11 | Reached bicg-stab tolerance | BP delta = -0.2309146 -0.1959746 2841806.21247703 | BP delta = -0.2309146 -0.1999079 2841789.61285448 | BP chisq diff = -16.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81200888 | --> Sampling calibration, mode = relcal | relcal = 0.2952650 0.2248199 -0.2836413 -0.2364435 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5988254E-03 5.3015635E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1576E-04 | 2: delta_r/delta_0: 3.6249E-06 | 3: delta_s/delta_0: 2.0130E-06 | 4: delta_r/delta_0: 4.9566E-07 | 5: delta_s/delta_0: 1.8720E-07 | 6: delta_r/delta_0: 9.2843E-08 | 7: delta_s/delta_0: 4.6727E-07 | 8: delta_r/delta_0: 1.8267E-08 | 9: delta_s/delta_0: 1.4795E-08 | 10: delta_r/delta_0: 9.1460E-09 | 11: delta_s/delta_0: 4.5666E-09 | 12: delta_r/delta_0: 4.5330E-10 | 13: delta_s/delta_0: 1.3238E-10 | 14: delta_r/delta_0: 9.6659E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.686033572797407E-002 4.022693938196323E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1575E-04 | 2: delta_r/delta_0: 3.6249E-06 | 3: delta_s/delta_0: 2.0130E-06 | 4: delta_r/delta_0: 4.9566E-07 | 5: delta_s/delta_0: 1.8725E-07 | 6: delta_r/delta_0: 9.2871E-08 | 7: delta_s/delta_0: 4.6818E-07 | 8: delta_r/delta_0: 1.8257E-08 | 9: delta_s/delta_0: 1.4796E-08 | 10: delta_r/delta_0: 9.1404E-09 | 11: delta_s/delta_0: 4.5539E-09 | 12: delta_r/delta_0: 4.5267E-10 | 13: delta_s/delta_0: 1.3218E-10 | 14: delta_r/delta_0: 9.6250E-11 | Reached bicg-stab tolerance | BP delta = -0.1489512 -0.2007111 2827403.97277885 | BP delta = -0.1489512 -0.2096982 2827474.66361593 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95866000 | --> Sampling calibration, mode = relcal | relcal = 0.1064169 0.1395413 -0.1102898 -0.1356685 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1129029E-03 1.2936629E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4253E-04 | 2: delta_r/delta_0: 6.1790E-06 | 3: delta_s/delta_0: 1.6675E-04 | 4: delta_r/delta_0: 9.9842E-06 | 5: delta_s/delta_0: 2.0162E-07 | 6: delta_r/delta_0: 1.0793E-07 | 7: delta_s/delta_0: 5.0074E-07 | 8: delta_r/delta_0: 2.8464E-08 | 9: delta_s/delta_0: 8.2518E-09 | 10: delta_r/delta_0: 4.1540E-09 | 11: delta_s/delta_0: 1.3037E-09 | 12: delta_r/delta_0: 8.1737E-10 | 13: delta_s/delta_0: 5.3727E-10 | 14: delta_r/delta_0: 6.3809E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.997888464297528E-002 3.699113699342221E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.4254E-04 | 2: delta_r/delta_0: 6.1791E-06 | 3: delta_s/delta_0: 1.6670E-04 | 4: delta_r/delta_0: 9.9800E-06 | 5: delta_s/delta_0: 2.0162E-07 | 6: delta_r/delta_0: 1.0793E-07 | 7: delta_s/delta_0: 5.0046E-07 | 8: delta_r/delta_0: 2.8464E-08 | 9: delta_s/delta_0: 8.2517E-09 | 10: delta_r/delta_0: 4.1565E-09 | 11: delta_s/delta_0: 1.3037E-09 | 12: delta_r/delta_0: 8.1712E-10 | 13: delta_s/delta_0: 5.3750E-10 | 14: delta_r/delta_0: 6.3799E-11 | Reached bicg-stab tolerance | BP delta = 0.1283506 0.2425827 3003420.99134446 | BP delta = 0.1283506 0.2459002 3003399.06038355 | BP chisq diff = -21.9, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52164089 | --> Sampling calibration, mode = relcal | relcal = -5.1083121E-02 -3.7309704E-03 2.7289893E-02 2.7524199E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.9225808E-04 2.7366355E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9373E-05 | 2: delta_r/delta_0: 4.1786E-06 | 3: delta_s/delta_0: 2.5201E-06 | 4: delta_r/delta_0: 3.4858E-07 | 5: delta_s/delta_0: 9.4463E-08 | 6: delta_r/delta_0: 2.8815E-08 | 7: delta_s/delta_0: 2.7923E-07 | 8: delta_r/delta_0: 8.4505E-08 | 9: delta_s/delta_0: 3.7253E-09 | 10: delta_r/delta_0: 2.2273E-09 | 11: delta_s/delta_0: 4.3354E-08 | 12: delta_r/delta_0: 4.0276E-09 | 13: delta_s/delta_0: 4.2919E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.089438967559619E-002 5.482517392113584E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9373E-05 | 2: delta_r/delta_0: 4.1786E-06 | 3: delta_s/delta_0: 2.5201E-06 | 4: delta_r/delta_0: 3.4858E-07 | 5: delta_s/delta_0: 9.4462E-08 | 6: delta_r/delta_0: 2.8815E-08 | 7: delta_s/delta_0: 2.7920E-07 | 8: delta_r/delta_0: 8.4499E-08 | 9: delta_s/delta_0: 3.7253E-09 | 10: delta_r/delta_0: 2.2273E-09 | 11: delta_s/delta_0: 4.3333E-08 | 12: delta_r/delta_0: 4.0265E-09 | 13: delta_s/delta_0: 4.2919E-11 | Reached bicg-stab tolerance | BP delta = 7.2897628E-02 0.1597511 2435587.25102266 | BP delta = 7.2897628E-02 0.1643060 2435582.76928132 | BP chisq diff = -4.5, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42158094 | --> Sampling calibration, mode = relcal | relcal = 4.5646116E-02 3.9568488E-02 -2.8234554E-02 -5.6980051E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2263874E-03 2.7723082E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2152E-05 | 2: delta_r/delta_0: 3.8635E-06 | 3: delta_s/delta_0: 7.7693E-06 | 4: delta_r/delta_0: 1.1017E-06 | 5: delta_s/delta_0: 5.9303E-08 | 6: delta_r/delta_0: 3.8070E-08 | 7: delta_s/delta_0: 2.4243E-08 | 8: delta_r/delta_0: 1.4228E-08 | 9: delta_s/delta_0: 1.0536E-08 | 10: delta_r/delta_0: 2.8865E-10 | 11: delta_s/delta_0: 4.9580E-10 | 12: delta_r/delta_0: 2.9447E-10 | 13: delta_s/delta_0: 1.0484E-09 | 14: delta_r/delta_0: 1.4658E-10 | 15: delta_s/delta_0: 1.6072E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.508169177136152E-002 4.995719689030619E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2152E-05 | 2: delta_r/delta_0: 3.8635E-06 | 3: delta_s/delta_0: 7.7696E-06 | 4: delta_r/delta_0: 1.1018E-06 | 5: delta_s/delta_0: 5.9303E-08 | 6: delta_r/delta_0: 3.8070E-08 | 7: delta_s/delta_0: 2.4244E-08 | 8: delta_r/delta_0: 1.4228E-08 | 9: delta_s/delta_0: 1.0536E-08 | 10: delta_r/delta_0: 2.8863E-10 | 11: delta_s/delta_0: 4.9583E-10 | 12: delta_r/delta_0: 2.9446E-10 | 13: delta_s/delta_0: 1.0467E-09 | 14: delta_r/delta_0: 1.4652E-10 | 15: delta_s/delta_0: 1.6072E-11 | Reached bicg-stab tolerance | BP delta = 3.5595872E-02 -8.6066402E-02 2322098.54421223 | BP delta = 3.5595872E-02 -8.5892826E-02 2322113.37089010 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28180820 | --> Sampling calibration, mode = relcal | relcal = 2.4144910E-02 4.5195043E-02 -2.3356387E-02 -4.5983568E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0803286E-02 5.2858645E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0630E-04 | 2: delta_r/delta_0: 8.4637E-06 | 3: delta_s/delta_0: 1.3347E-06 | 4: delta_r/delta_0: 1.8564E-07 | 5: delta_s/delta_0: 5.7934E-08 | 6: delta_r/delta_0: 1.5396E-08 | 7: delta_s/delta_0: 8.1880E-09 | 8: delta_r/delta_0: 4.6703E-09 | 9: delta_s/delta_0: 6.6213E-07 | 10: delta_r/delta_0: 6.2872E-09 | 11: delta_s/delta_0: 2.3792E-09 | 12: delta_r/delta_0: 2.3211E-10 | 13: delta_s/delta_0: 2.2241E-10 | 14: delta_r/delta_0: 1.5727E-10 | 15: delta_s/delta_0: 7.3818E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.064556741825459E-002 7.838271838994072E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0630E-04 | 2: delta_r/delta_0: 8.4637E-06 | 3: delta_s/delta_0: 1.3347E-06 | 4: delta_r/delta_0: 1.8564E-07 | 5: delta_s/delta_0: 5.7935E-08 | 6: delta_r/delta_0: 1.5396E-08 | 7: delta_s/delta_0: 8.1879E-09 | 8: delta_r/delta_0: 4.6704E-09 | 9: delta_s/delta_0: 6.6212E-07 | 10: delta_r/delta_0: 6.2873E-09 | 11: delta_s/delta_0: 2.3795E-09 | 12: delta_r/delta_0: 2.3208E-10 | 13: delta_s/delta_0: 2.2238E-10 | 14: delta_r/delta_0: 1.5725E-10 | 15: delta_s/delta_0: 7.3818E-11 | Reached bicg-stab tolerance | BP delta = -0.4500624 -0.6425538 2490174.31599914 | BP delta = -0.4500624 -0.6314700 2490171.00163736 | BP chisq diff = -3.3, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29409454 | --> Sampling calibration, mode = relcal | relcal = 4.9024093E-04 1.0288048E-02 -3.8194663E-03 -6.9588223E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3467979E-02 1.7100839E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3079E-04 | 2: delta_r/delta_0: 1.1088E-05 | 3: delta_s/delta_0: 1.7449E-06 | 4: delta_r/delta_0: 3.0459E-07 | 5: delta_s/delta_0: 1.3866E-07 | 6: delta_r/delta_0: 2.5492E-08 | 7: delta_s/delta_0: 1.2306E-08 | 8: delta_r/delta_0: 8.7059E-09 | 9: delta_s/delta_0: 7.2730E-09 | 10: delta_r/delta_0: 5.3554E-09 | 11: delta_s/delta_0: 1.8075E-07 | 12: delta_r/delta_0: 3.2966E-10 | 13: delta_s/delta_0: 6.9226E-10 | 14: delta_r/delta_0: 3.4728E-10 | 15: delta_s/delta_0: 1.7600E-10 | 16: delta_r/delta_0: 1.4688E-10 | 17: delta_s/delta_0: 2.7042E-10 | 18: delta_r/delta_0: 9.7675E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.196782152758950E-002 8.301920349537784E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3079E-04 | 2: delta_r/delta_0: 1.1088E-05 | 3: delta_s/delta_0: 1.7449E-06 | 4: delta_r/delta_0: 3.0460E-07 | 5: delta_s/delta_0: 1.3866E-07 | 6: delta_r/delta_0: 2.5492E-08 | 7: delta_s/delta_0: 1.2306E-08 | 8: delta_r/delta_0: 8.7060E-09 | 9: delta_s/delta_0: 7.2730E-09 | 10: delta_r/delta_0: 5.3554E-09 | 11: delta_s/delta_0: 1.8073E-07 | 12: delta_r/delta_0: 3.2959E-10 | 13: delta_s/delta_0: 6.9216E-10 | 14: delta_r/delta_0: 3.4718E-10 | 15: delta_s/delta_0: 1.7599E-10 | 16: delta_r/delta_0: 1.4687E-10 | 17: delta_s/delta_0: 2.7041E-10 | 18: delta_r/delta_0: 9.7673E-11 | Reached bicg-stab tolerance | BP delta = -0.8888119 -0.8443761 2737780.73313058 | BP delta = -0.8888119 -0.8438418 2737779.42368986 | BP chisq diff = -1.3, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26513466 | --> Sampling calibration, mode = relcal | relcal = -5.5023460E-03 1.4961453E-02 -2.2900812E-03 -7.1690255E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.8522105E-03 3.3258277E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4238E-04 | 2: delta_r/delta_0: 1.2218E-05 | 3: delta_s/delta_0: 2.1256E-06 | 4: delta_r/delta_0: 2.8312E-07 | 5: delta_s/delta_0: 1.0844E-07 | 6: delta_r/delta_0: 2.3986E-08 | 7: delta_s/delta_0: 9.9590E-09 | 8: delta_r/delta_0: 6.5134E-09 | 9: delta_s/delta_0: 7.1985E-09 | 10: delta_r/delta_0: 4.7339E-09 | 11: delta_s/delta_0: 6.6813E-07 | 12: delta_r/delta_0: 2.6195E-08 | 13: delta_s/delta_0: 3.0419E-08 | 14: delta_r/delta_0: 1.2174E-08 | 15: delta_s/delta_0: 7.7107E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.333499288306497E-003 9.150932604226263E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4238E-04 | 2: delta_r/delta_0: 1.2218E-05 | 3: delta_s/delta_0: 2.1256E-06 | 4: delta_r/delta_0: 2.8312E-07 | 5: delta_s/delta_0: 1.0845E-07 | 6: delta_r/delta_0: 2.3986E-08 | 7: delta_s/delta_0: 9.9590E-09 | 8: delta_r/delta_0: 6.5134E-09 | 9: delta_s/delta_0: 7.1985E-09 | 10: delta_r/delta_0: 4.7339E-09 | 11: delta_s/delta_0: 6.6816E-07 | 12: delta_r/delta_0: 2.6196E-08 | 13: delta_s/delta_0: 3.0422E-08 | 14: delta_r/delta_0: 1.2176E-08 | 15: delta_s/delta_0: 7.7107E-11 | Reached bicg-stab tolerance | BP delta = 0.4231864 0.4582994 2516637.73745288 | BP delta = 0.4231864 0.4621387 2516637.65794426 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25677999 | --> Sampling calibration, mode = relcal | relcal = -3.1773966E-02 -2.5785619E-02 3.6886875E-02 2.0672707E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8960319E-02 1.6187269E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4520E-04 | 2: delta_r/delta_0: 1.1874E-05 | 3: delta_s/delta_0: 1.7695E-06 | 4: delta_r/delta_0: 4.2970E-07 | 5: delta_s/delta_0: 1.5137E-07 | 6: delta_r/delta_0: 3.0375E-08 | 7: delta_s/delta_0: 1.4389E-08 | 8: delta_r/delta_0: 8.4733E-09 | 9: delta_s/delta_0: 6.2838E-08 | 10: delta_r/delta_0: 6.5291E-09 | 11: delta_s/delta_0: 1.9742E-09 | 12: delta_r/delta_0: 1.2274E-09 | 13: delta_s/delta_0: 7.4736E-10 | 14: delta_r/delta_0: 3.0773E-10 | 15: delta_s/delta_0: 1.8668E-10 | 16: delta_r/delta_0: 1.6190E-10 | 17: delta_s/delta_0: 1.4266E-10 | 18: delta_r/delta_0: 1.2903E-10 | 19: delta_s/delta_0: 1.1712E-10 | 20: delta_r/delta_0: 1.0054E-10 | 21: delta_s/delta_0: 6.1196E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.122051835026338E-002 8.667030937764532E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4520E-04 | 2: delta_r/delta_0: 1.1874E-05 | 3: delta_s/delta_0: 1.7695E-06 | 4: delta_r/delta_0: 4.2970E-07 | 5: delta_s/delta_0: 1.5138E-07 | 6: delta_r/delta_0: 3.0375E-08 | 7: delta_s/delta_0: 1.4388E-08 | 8: delta_r/delta_0: 8.4732E-09 | 9: delta_s/delta_0: 6.2852E-08 | 10: delta_r/delta_0: 6.5293E-09 | 11: delta_s/delta_0: 1.9751E-09 | 12: delta_r/delta_0: 1.2284E-09 | 13: delta_s/delta_0: 7.4729E-10 | 14: delta_r/delta_0: 3.0778E-10 | 15: delta_s/delta_0: 1.8667E-10 | 16: delta_r/delta_0: 1.6190E-10 | 17: delta_s/delta_0: 1.4266E-10 | 18: delta_r/delta_0: 1.2904E-10 | 19: delta_s/delta_0: 1.1711E-10 | 20: delta_r/delta_0: 1.0056E-10 | 21: delta_s/delta_0: 6.1223E-11 | Reached bicg-stab tolerance | BP delta = -0.9048797 -1.107179 2706373.36884508 | BP delta = -0.9048797 -1.102042 2706380.34393326 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111771 | New value = -3.188569 | poltype: 2 pol: 1 CPU time specind = 4.1090965E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.108455 | New value = -3.136027 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143675 | New value = -3.222995 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184364 | New value = -3.139118 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.212206 | New value = -3.087138 | poltype: 2 pol: 2 CPU time specind = 2.8012037E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.89 | CG iter. 1 -- res = 0.13606E+08, tol = 0.78145E+01, time = 5.71 | CG iter. 2 -- res = 0.35543E+06, tol = 0.78145E+01, time = 5.20 | CG iter. 3 -- res = 0.81965E+05, tol = 0.78145E+01, time = 6.20 | CG iter. 4 -- res = 0.95031E+05, tol = 0.78145E+01, time = 5.74 | CG iter. 5 -- res = 0.10621E+06, tol = 0.78145E+01, time = 5.34 | CG iter. 6 -- res = 0.10834E+06, tol = 0.78145E+01, time = 5.97 | CG iter. 7 -- res = 0.99453E+05, tol = 0.78145E+01, time = 5.41 | CG iter. 8 -- res = 0.76269E+05, tol = 0.78145E+01, time = 5.49 | CG iter. 9 -- res = 0.63014E+05, tol = 0.78145E+01, time = 5.48 | CG iter. 10 -- res = 0.48772E+05, tol = 0.78145E+01, time = 5.62 | CG iter. 11 -- res = 0.33178E+05, tol = 0.78145E+01, time = 5.47 | CG iter. 12 -- res = 0.25331E+05, tol = 0.78145E+01, time = 5.49 | CG iter. 13 -- res = 0.22431E+05, tol = 0.78145E+01, time = 5.43 | CG iter. 14 -- res = 0.20355E+05, tol = 0.78145E+01, time = 5.66 | CG iter. 15 -- res = 0.15531E+05, tol = 0.78145E+01, time = 5.71 | CG iter. 16 -- res = 0.11036E+05, tol = 0.78145E+01, time = 5.42 | CG iter. 17 -- res = 0.83595E+04, tol = 0.78145E+01, time = 5.38 | CG iter. 18 -- res = 0.71331E+04, tol = 0.78145E+01, time = 5.54 | CG iter. 19 -- res = 0.62683E+04, tol = 0.78145E+01, time = 5.83 | CG iter. 20 -- res = 0.48886E+04, tol = 0.78145E+01, time = 5.22 | CG iter. 21 -- res = 0.39217E+04, tol = 0.78145E+01, time = 11.53 | CG iter. 22 -- res = 0.34026E+04, tol = 0.78145E+01, time = 5.35 | CG iter. 23 -- res = 0.30034E+04, tol = 0.78145E+01, time = 5.68 | CG iter. 24 -- res = 0.24100E+04, tol = 0.78145E+01, time = 5.90 | CG iter. 25 -- res = 0.18526E+04, tol = 0.78145E+01, time = 5.22 | CG iter. 26 -- res = 0.16180E+04, tol = 0.78145E+01, time = 5.43 | CG iter. 27 -- res = 0.15307E+04, tol = 0.78145E+01, time = 5.71 | CG iter. 28 -- res = 0.13919E+04, tol = 0.78145E+01, time = 5.23 | CG iter. 29 -- res = 0.10720E+04, tol = 0.78145E+01, time = 5.30 | CG iter. 30 -- res = 0.92597E+03, tol = 0.78145E+01, time = 5.50 | CG iter. 31 -- res = 0.87538E+03, tol = 0.78145E+01, time = 5.19 | CG iter. 32 -- res = 0.75961E+03, tol = 0.78145E+01, time = 5.48 | CG iter. 33 -- res = 0.61728E+03, tol = 0.78145E+01, time = 5.76 | CG iter. 34 -- res = 0.49136E+03, tol = 0.78145E+01, time = 5.65 | CG iter. 35 -- res = 0.44165E+03, tol = 0.78145E+01, time = 5.24 | CG iter. 36 -- res = 0.39232E+03, tol = 0.78145E+01, time = 5.93 | CG iter. 37 -- res = 0.30928E+03, tol = 0.78145E+01, time = 6.41 | CG iter. 38 -- res = 0.23948E+03, tol = 0.78145E+01, time = 6.18 | CG iter. 39 -- res = 0.19901E+03, tol = 0.78145E+01, time = 5.35 | CG iter. 40 -- res = 0.17150E+03, tol = 0.78145E+01, time = 5.64 | CG iter. 41 -- res = 0.13491E+03, tol = 0.78145E+01, time = 5.46 | CG iter. 42 -- res = 0.10450E+03, tol = 0.78145E+01, time = 5.46 | CG iter. 43 -- res = 0.86402E+02, tol = 0.78145E+01, time = 5.57 | CG iter. 44 -- res = 0.73347E+02, tol = 0.78145E+01, time = 5.57 | CG iter. 45 -- res = 0.59783E+02, tol = 0.78145E+01, time = 5.23 | CG iter. 46 -- res = 0.44465E+02, tol = 0.78145E+01, time = 5.32 | CG iter. 47 -- res = 0.36548E+02, tol = 0.78145E+01, time = 5.44 | CG iter. 48 -- res = 0.30584E+02, tol = 0.78145E+01, time = 5.44 | CG iter. 49 -- res = 0.25050E+02, tol = 0.78145E+01, time = 5.82 | CG iter. 50 -- res = 0.19424E+02, tol = 0.78145E+01, time = 5.48 | Final CG iter 51 -- res = 0.19424E+02, tol = 0.78145E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10196027.455 | Old band monopole 9055450.290 | Change to band monopole 1140577.165 | Change to component monopole -1140572.259 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.12 | CG iter. 1 -- res = 0.47485E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.26269E+03, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.42120E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.27642E-01, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.57814E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10195983.599 | (Sampled value in CG: 10133526.737 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.520262 | New value = 1.461419 | poltype: 2 pol: 1 CPU time specind = 1.6628027E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485602 | New value = 1.480105 | poltype: 2 pol: 2 CPU time specind = 4.3308735E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.24713E+08, tol = 0.47509E+04, time = 5.90 | CG iter. 2 -- res = 0.52716E+07, tol = 0.47509E+04, time = 5.84 | CG iter. 3 -- res = 0.81608E+06, tol = 0.47509E+04, time = 8.21 | CG iter. 4 -- res = 0.33090E+06, tol = 0.47509E+04, time = 11.47 | CG iter. 5 -- res = 0.14047E+06, tol = 0.47509E+04, time = 6.54 | CG iter. 6 -- res = 0.76144E+05, tol = 0.47509E+04, time = 6.43 | CG iter. 7 -- res = 0.42133E+05, tol = 0.47509E+04, time = 6.71 | CG iter. 8 -- res = 0.19831E+05, tol = 0.47509E+04, time = 6.00 | CG iter. 9 -- res = 0.85521E+04, tol = 0.47509E+04, time = 6.01 | CG iter. 10 -- res = 0.34964E+04, tol = 0.47509E+04, time = 6.72 | CG iter. 11 -- res = 0.16150E+04, tol = 0.47509E+04, time = 6.20 | CG iter. 12 -- res = 0.83413E+03, tol = 0.47509E+04, time = 6.21 | CG iter. 13 -- res = 0.47646E+03, tol = 0.47509E+04, time = 6.61 | CG iter. 14 -- res = 0.27031E+03, tol = 0.47509E+04, time = 6.54 | CG iter. 15 -- res = 0.14079E+03, tol = 0.47509E+04, time = 6.02 | CG iter. 16 -- res = 0.66156E+02, tol = 0.47509E+04, time = 6.56 | CG iter. 17 -- res = 0.31176E+02, tol = 0.47509E+04, time = 7.90 | CG iter. 18 -- res = 0.15551E+02, tol = 0.47509E+04, time = 6.76 | CG iter. 19 -- res = 0.83991E+01, tol = 0.47509E+04, time = 6.49 | CG iter. 20 -- res = 0.47832E+01, tol = 0.47509E+04, time = 6.15 | CG iter. 21 -- res = 0.25503E+01, tol = 0.47509E+04, time = 6.09 | CG iter. 22 -- res = 0.12953E+01, tol = 0.47509E+04, time = 6.48 | CG iter. 23 -- res = 0.66363E+00, tol = 0.47509E+04, time = 6.11 | CG iter. 24 -- res = 0.34745E+00, tol = 0.47509E+04, time = 6.27 | CG iter. 25 -- res = 0.19580E+00, tol = 0.47509E+04, time = 6.20 | CG iter. 26 -- res = 0.11329E+00, tol = 0.47509E+04, time = 6.01 | CG iter. 27 -- res = 0.61822E-01, tol = 0.47509E+04, time = 6.21 | CG iter. 28 -- res = 0.31984E-01, tol = 0.47509E+04, time = 6.71 | CG iter. 29 -- res = 0.16556E-01, tol = 0.47509E+04, time = 6.21 | CG iter. 30 -- res = 0.86893E-02, tol = 0.47509E+04, time = 6.65 | CG iter. 31 -- res = 0.47800E-02, tol = 0.47509E+04, time = 6.34 | CG iter. 32 -- res = 0.27198E-02, tol = 0.47509E+04, time = 5.95 | CG iter. 33 -- res = 0.15407E-02, tol = 0.47509E+04, time = 6.42 | CG iter. 34 -- res = 0.83505E-03, tol = 0.47509E+04, time = 6.65 | CG iter. 35 -- res = 0.43631E-03, tol = 0.47509E+04, time = 6.43 | Final CG iter 36 -- res = 0.43631E-03, tol = 0.47509E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.999 2.759 | New value 4.052 | Old value 1.999 | Difference 2.053 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.22854E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.62598E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.16998E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.27670E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.78480E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10195983.599 | (Sampled value in CG: 10133748.619 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.650937 | New value = -3.578107 | poltype: 1 pol: 1 CPU time specind = 2.6442051E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.30953E+07, tol = 0.24079E+01, time = 2.64 | CG iter. 2 -- res = 0.13541E+07, tol = 0.24079E+01, time = 2.47 | CG iter. 3 -- res = 0.27616E+06, tol = 0.24079E+01, time = 2.54 | CG iter. 4 -- res = 0.13038E+06, tol = 0.24079E+01, time = 2.27 | CG iter. 5 -- res = 0.80927E+05, tol = 0.24079E+01, time = 2.53 | CG iter. 6 -- res = 0.37166E+05, tol = 0.24079E+01, time = 2.84 | CG iter. 7 -- res = 0.12564E+05, tol = 0.24079E+01, time = 2.37 | CG iter. 8 -- res = 0.50765E+04, tol = 0.24079E+01, time = 2.63 | CG iter. 9 -- res = 0.22703E+04, tol = 0.24079E+01, time = 2.33 | CG iter. 10 -- res = 0.90701E+03, tol = 0.24079E+01, time = 2.74 | CG iter. 11 -- res = 0.38095E+03, tol = 0.24079E+01, time = 2.32 | CG iter. 12 -- res = 0.18581E+03, tol = 0.24079E+01, time = 2.71 | CG iter. 13 -- res = 0.97683E+02, tol = 0.24079E+01, time = 2.50 | CG iter. 14 -- res = 0.48412E+02, tol = 0.24079E+01, time = 2.39 | CG iter. 15 -- res = 0.21622E+02, tol = 0.24079E+01, time = 2.50 | CG iter. 16 -- res = 0.89870E+01, tol = 0.24079E+01, time = 2.70 | CG iter. 17 -- res = 0.37752E+01, tol = 0.24079E+01, time = 2.57 | CG iter. 18 -- res = 0.18620E+01, tol = 0.24079E+01, time = 2.46 | CG iter. 19 -- res = 0.93024E+00, tol = 0.24079E+01, time = 2.87 | CG iter. 20 -- res = 0.47403E+00, tol = 0.24079E+01, time = 2.48 | CG iter. 21 -- res = 0.22037E+00, tol = 0.24079E+01, time = 2.62 | CG iter. 22 -- res = 0.99495E-01, tol = 0.24079E+01, time = 2.44 | CG iter. 23 -- res = 0.42660E-01, tol = 0.24079E+01, time = 2.73 | CG iter. 24 -- res = 0.20606E-01, tol = 0.24079E+01, time = 2.64 | CG iter. 25 -- res = 0.10337E-01, tol = 0.24079E+01, time = 2.44 | CG iter. 26 -- res = 0.52711E-02, tol = 0.24079E+01, time = 2.59 | CG iter. 27 -- res = 0.26270E-02, tol = 0.24079E+01, time = 2.21 | CG iter. 28 -- res = 0.12166E-02, tol = 0.24079E+01, time = 2.83 | CG iter. 29 -- res = 0.55485E-03, tol = 0.24079E+01, time = 2.60 | CG iter. 30 -- res = 0.25991E-03, tol = 0.24079E+01, time = 2.47 | CG iter. 31 -- res = 0.12595E-03, tol = 0.24079E+01, time = 2.58 | CG iter. 32 -- res = 0.66169E-04, tol = 0.24079E+01, time = 2.73 | CG iter. 33 -- res = 0.31791E-04, tol = 0.24079E+01, time = 2.59 | CG iter. 34 -- res = 0.15357E-04, tol = 0.24079E+01, time = 2.53 | CG iter. 35 -- res = 0.74208E-05, tol = 0.24079E+01, time = 2.41 | CG iter. 36 -- res = 0.34890E-05, tol = 0.24079E+01, time = 2.60 | CG iter. 37 -- res = 0.16320E-05, tol = 0.24079E+01, time = 2.46 | CG iter. 38 -- res = 0.84092E-06, tol = 0.24079E+01, time = 2.57 | CG iter. 39 -- res = 0.41279E-06, tol = 0.24079E+01, time = 2.56 | CG iter. 40 -- res = 0.19686E-06, tol = 0.24079E+01, time = 3.24 | CG iter. 41 -- res = 0.93741E-07, tol = 0.24079E+01, time = 8.11 | CG iter. 42 -- res = 0.42849E-07, tol = 0.24079E+01, time = 2.61 | CG iter. 43 -- res = 0.20279E-07, tol = 0.24079E+01, time = 2.51 | CG iter. 44 -- res = 0.99654E-08, tol = 0.24079E+01, time = 2.74 | CG iter. 45 -- res = 0.48721E-08, tol = 0.24079E+01, time = 2.50 | CG iter. 46 -- res = 0.23164E-08, tol = 0.24079E+01, time = 2.82 | CG iter. 47 -- res = 0.11081E-08, tol = 0.24079E+01, time = 2.35 | CG iter. 48 -- res = 0.52007E-09, tol = 0.24079E+01, time = 2.48 | CG iter. 49 -- res = 0.24035E-09, tol = 0.24079E+01, time = 2.64 | CG iter. 50 -- res = 0.11354E-09, tol = 0.24079E+01, time = 2.47 | Final CG iter 51 -- res = 0.11354E-09, tol = 0.24079E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.987 6.142 | New value -2.352 | Old value 7.987 | Difference -10.339 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.10105E+06, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.88366E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.30476E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.12515E-01, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.29891E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10195983.599 | (Sampled value in CG: 10147389.720 ) | CPU time specind = 1150.529 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.70827E+08, tol = 0.57633E+04, time = 11.29 | CG iter. 2 -- res = 0.59105E+08, tol = 0.57633E+04, time = 11.63 | CG iter. 3 -- res = 0.15453E+08, tol = 0.57633E+04, time = 11.36 | CG iter. 4 -- res = 0.67288E+07, tol = 0.57633E+04, time = 11.90 | CG iter. 5 -- res = 0.40675E+07, tol = 0.57633E+04, time = 11.37 | CG iter. 6 -- res = 0.23839E+07, tol = 0.57633E+04, time = 11.67 | CG iter. 7 -- res = 0.14268E+07, tol = 0.57633E+04, time = 11.56 | CG iter. 8 -- res = 0.93086E+06, tol = 0.57633E+04, time = 11.78 | CG iter. 9 -- res = 0.61893E+06, tol = 0.57633E+04, time = 11.33 | CG iter. 10 -- res = 0.39253E+06, tol = 0.57633E+04, time = 11.91 | CG iter. 11 -- res = 0.22743E+06, tol = 0.57633E+04, time = 11.33 | CG iter. 12 -- res = 0.13512E+06, tol = 0.57633E+04, time = 11.58 | CG iter. 13 -- res = 0.87500E+05, tol = 0.57633E+04, time = 11.67 | CG iter. 14 -- res = 0.67069E+05, tol = 0.57633E+04, time = 11.34 | CG iter. 15 -- res = 0.60248E+05, tol = 0.57633E+04, time = 11.25 | CG iter. 16 -- res = 0.59446E+05, tol = 0.57633E+04, time = 12.49 | CG iter. 17 -- res = 0.62586E+05, tol = 0.57633E+04, time = 16.38 | CG iter. 18 -- res = 0.62569E+05, tol = 0.57633E+04, time = 11.62 | CG iter. 19 -- res = 0.58168E+05, tol = 0.57633E+04, time = 11.21 | CG iter. 20 -- res = 0.54593E+05, tol = 0.57633E+04, time = 11.38 | CG iter. 21 -- res = 0.52063E+05, tol = 0.57633E+04, time = 11.73 | CG iter. 22 -- res = 0.51603E+05, tol = 0.57633E+04, time = 11.03 | CG iter. 23 -- res = 0.49193E+05, tol = 0.57633E+04, time = 10.96 | CG iter. 24 -- res = 0.43457E+05, tol = 0.57633E+04, time = 13.08 | CG iter. 25 -- res = 0.34231E+05, tol = 0.57633E+04, time = 11.89 | CG iter. 26 -- res = 0.25244E+05, tol = 0.57633E+04, time = 11.69 | CG iter. 27 -- res = 0.18056E+05, tol = 0.57633E+04, time = 11.86 | CG iter. 28 -- res = 0.13784E+05, tol = 0.57633E+04, time = 11.62 | CG iter. 29 -- res = 0.11706E+05, tol = 0.57633E+04, time = 11.27 | CG iter. 30 -- res = 0.10867E+05, tol = 0.57633E+04, time = 11.31 | CG iter. 31 -- res = 0.10248E+05, tol = 0.57633E+04, time = 11.55 | CG iter. 32 -- res = 0.94938E+04, tol = 0.57633E+04, time = 11.27 | CG iter. 33 -- res = 0.83968E+04, tol = 0.57633E+04, time = 11.61 | CG iter. 34 -- res = 0.72348E+04, tol = 0.57633E+04, time = 11.12 | CG iter. 35 -- res = 0.65696E+04, tol = 0.57633E+04, time = 11.48 | CG iter. 36 -- res = 0.62736E+04, tol = 0.57633E+04, time = 11.57 | CG iter. 37 -- res = 0.60020E+04, tol = 0.57633E+04, time = 11.43 | CG iter. 38 -- res = 0.54311E+04, tol = 0.57633E+04, time = 11.31 | CG iter. 39 -- res = 0.45090E+04, tol = 0.57633E+04, time = 11.35 | CG iter. 40 -- res = 0.35660E+04, tol = 0.57633E+04, time = 11.79 | CG iter. 41 -- res = 0.28525E+04, tol = 0.57633E+04, time = 11.23 | CG iter. 42 -- res = 0.23721E+04, tol = 0.57633E+04, time = 18.03 | CG iter. 43 -- res = 0.20726E+04, tol = 0.57633E+04, time = 11.74 | CG iter. 44 -- res = 0.19393E+04, tol = 0.57633E+04, time = 11.43 | CG iter. 45 -- res = 0.18734E+04, tol = 0.57633E+04, time = 11.85 | CG iter. 46 -- res = 0.17256E+04, tol = 0.57633E+04, time = 11.27 | CG iter. 47 -- res = 0.15123E+04, tol = 0.57633E+04, time = 11.23 | CG iter. 48 -- res = 0.13127E+04, tol = 0.57633E+04, time = 11.01 | CG iter. 49 -- res = 0.11738E+04, tol = 0.57633E+04, time = 11.96 | CG iter. 50 -- res = 0.10877E+04, tol = 0.57633E+04, time = 12.87 | CG iter. 51 -- res = 0.10361E+04, tol = 0.57633E+04, time = 11.25 | CG iter. 52 -- res = 0.10003E+04, tol = 0.57633E+04, time = 11.09 | CG iter. 53 -- res = 0.93527E+03, tol = 0.57633E+04, time = 11.43 | CG iter. 54 -- res = 0.80482E+03, tol = 0.57633E+04, time = 11.75 | CG iter. 55 -- res = 0.67909E+03, tol = 0.57633E+04, time = 11.53 | CG iter. 56 -- res = 0.58794E+03, tol = 0.57633E+04, time = 11.29 | CG iter. 57 -- res = 0.53698E+03, tol = 0.57633E+04, time = 11.38 | CG iter. 58 -- res = 0.52439E+03, tol = 0.57633E+04, time = 11.41 | CG iter. 59 -- res = 0.50574E+03, tol = 0.57633E+04, time = 11.61 | CG iter. 60 -- res = 0.47662E+03, tol = 0.57633E+04, time = 11.46 | Final CG iter 61 -- res = 0.47662E+03, tol = 0.57633E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.910 ( -229.897 -2232.227 2514.774 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9727613.117 | Old band monopole 10196027.455 | Change to band monopole -468414.337 | Change to component monopole 468412.323 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.054 2.745 | New value 0.672 | Old value 4.054 | Difference -3.382 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -2.006 ( 8.139 14.882 -14.347 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.186 3.671 | New value -2.869 | Old value 9.186 | Difference -12.055 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.59843E+06, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.34000E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.11061E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.32607E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.11263E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9727571.277 | (Sampled value in CG: 9695161.036 ) | Chain = 1 -- chisq = 0.81577822E+09 | Chain = 1 -- wall time = 18091.816 sec Available RAM: MemAvailable: 499634476 kB Available Swap: SwapFree: 1054337872 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 387 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443219 | --> Sampling calibration, mode = relcal | relcal = 1.3426670E-02 7.3758990E-04 -1.5874754E-03 -1.2576785E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1842743 0.2018766 97044377.1367419 | BP delta = 0.1795307 0.1971329 97044381.9776069 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632600 | --> Sampling calibration, mode = relcal | relcal = -2.8213055E-03 -7.0452137E-04 1.6793355E-03 1.6135856E-03 -4.0783326E-04 6.4073905E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5536225 15216641.6474517 | BP delta = 0.0000000E+00 -0.5413783 15216641.4813092 | BP chisq diff = -0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17789846842863 | --> Sampling calibration, mode = relcal | relcal = -7.5003758E-02 -5.8193672E-02 9.1646276E-02 4.1551154E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.6220641E-05 3.9528031E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4292E-05 | 2: delta_r/delta_0: 7.6075E-07 | 3: delta_s/delta_0: 2.5156E-07 | 4: delta_r/delta_0: 1.5690E-08 | 5: delta_s/delta_0: 5.5370E-09 | 6: delta_r/delta_0: 1.3528E-09 | 7: delta_s/delta_0: 1.4477E-09 | 8: delta_r/delta_0: 3.7184E-10 | 9: delta_s/delta_0: 3.2906E-10 | 10: delta_r/delta_0: 1.3691E-10 | 11: delta_s/delta_0: 2.2188E-10 | 12: delta_r/delta_0: 3.2076E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.742825436388201E-004 2.748284127997462E-005 | BP delta = 8.4433235E-02 0.1078825 50487602.9109762 | BP delta = 7.5879909E-02 9.9329174E-02 50487603.7229791 | BP chisq diff = 0.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02623110 | --> Sampling calibration, mode = relcal | relcal = -0.1066551 -9.5645800E-02 0.1450052 5.7295751E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2625173E-03 1.5713264E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3428E-05 | 2: delta_r/delta_0: 1.3953E-06 | 3: delta_s/delta_0: 2.5176E-07 | 4: delta_r/delta_0: 4.7576E-08 | 5: delta_s/delta_0: 2.6913E-08 | 6: delta_r/delta_0: 7.6287E-09 | 7: delta_s/delta_0: 6.5633E-09 | 8: delta_r/delta_0: 1.8586E-09 | 9: delta_s/delta_0: 8.7970E-10 | 10: delta_r/delta_0: 6.5684E-10 | 11: delta_s/delta_0: 1.3800E-08 | 12: delta_r/delta_0: 2.5391E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.002198787822335E-002 2.810207586809499E-005 | BP delta = -0.2309146 -0.1999079 57387125.3184022 | BP delta = -0.2378908 -0.2068841 57387125.7812729 | BP chisq diff = 0.5, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81247793 | --> Sampling calibration, mode = relcal | relcal = 0.2956759 0.2247813 -0.2838838 -0.2365734 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.6471245E-04 4.4787200E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1436E-03 | 2: delta_r/delta_0: 7.2672E-05 | 3: delta_s/delta_0: 1.5956E-05 | 4: delta_r/delta_0: 1.5211E-06 | 5: delta_s/delta_0: 1.0891E-06 | 6: delta_r/delta_0: 6.6650E-08 | 7: delta_s/delta_0: 2.1418E-08 | 8: delta_r/delta_0: 4.2481E-09 | 9: delta_s/delta_0: 1.0749E-08 | 10: delta_r/delta_0: 4.6593E-09 | 11: delta_s/delta_0: 2.4331E-07 | 12: delta_r/delta_0: 5.9575E-09 | 13: delta_s/delta_0: 1.5561E-09 | 14: delta_r/delta_0: 9.1501E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.508132429850189E-003 4.020466321664235E-005 | BP delta = -0.1489512 -0.2007111 72481745.6235594 | BP delta = -0.1418944 -0.1936543 72481745.7329320 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95957045 | --> Sampling calibration, mode = relcal | relcal = 0.1065599 0.1396387 -0.1102407 -0.1359580 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0135490E-02 1.2678976E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7135E-04 | 2: delta_r/delta_0: 1.1602E-05 | 3: delta_s/delta_0: 2.4866E-05 | 4: delta_r/delta_0: 1.7656E-06 | 5: delta_s/delta_0: 2.7799E-07 | 6: delta_r/delta_0: 1.4576E-07 | 7: delta_s/delta_0: 5.8490E-07 | 8: delta_r/delta_0: 3.4895E-08 | 9: delta_s/delta_0: 1.1402E-07 | 10: delta_r/delta_0: 2.5237E-08 | 11: delta_s/delta_0: 2.1996E-09 | 12: delta_r/delta_0: 8.5507E-10 | 13: delta_s/delta_0: 1.9349E-09 | 14: delta_r/delta_0: 1.2004E-10 | 15: delta_s/delta_0: 5.9024E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.222444518311643E-002 3.695599597354901E-005 | BP delta = 0.1283506 0.2459002 72787211.6905828 | BP delta = 9.3472287E-02 0.2110219 72787212.1303486 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188569 | New value = -3.146022 | poltype: 2 pol: 1 CPU time specind = 2.5408030E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136027 | New value = -3.155412 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.222995 | New value = -3.176483 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.139118 | New value = -3.230960 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.087138 | New value = -3.131342 | poltype: 2 pol: 2 CPU time specind = 1.6147137E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.13580E+08, tol = 0.72724E+01, time = 5.50 | CG iter. 2 -- res = 0.31758E+06, tol = 0.72724E+01, time = 5.53 | CG iter. 3 -- res = 0.53114E+05, tol = 0.72724E+01, time = 5.62 | CG iter. 4 -- res = 0.33287E+05, tol = 0.72724E+01, time = 5.56 | CG iter. 5 -- res = 0.24850E+05, tol = 0.72724E+01, time = 6.21 | CG iter. 6 -- res = 0.21685E+05, tol = 0.72724E+01, time = 5.62 | CG iter. 7 -- res = 0.22402E+05, tol = 0.72724E+01, time = 5.79 | CG iter. 8 -- res = 0.20234E+05, tol = 0.72724E+01, time = 6.45 | CG iter. 9 -- res = 0.18512E+05, tol = 0.72724E+01, time = 5.73 | CG iter. 10 -- res = 0.16147E+05, tol = 0.72724E+01, time = 6.14 | CG iter. 11 -- res = 0.11375E+05, tol = 0.72724E+01, time = 6.89 | CG iter. 12 -- res = 0.74515E+04, tol = 0.72724E+01, time = 5.69 | CG iter. 13 -- res = 0.56653E+04, tol = 0.72724E+01, time = 5.87 | CG iter. 14 -- res = 0.50695E+04, tol = 0.72724E+01, time = 6.07 | CG iter. 15 -- res = 0.44703E+04, tol = 0.72724E+01, time = 5.90 | CG iter. 16 -- res = 0.34777E+04, tol = 0.72724E+01, time = 5.73 | CG iter. 17 -- res = 0.25249E+04, tol = 0.72724E+01, time = 6.18 | CG iter. 18 -- res = 0.20155E+04, tol = 0.72724E+01, time = 11.95 | CG iter. 19 -- res = 0.17687E+04, tol = 0.72724E+01, time = 6.29 | CG iter. 20 -- res = 0.14272E+04, tol = 0.72724E+01, time = 5.83 | CG iter. 21 -- res = 0.11005E+04, tol = 0.72724E+01, time = 5.94 | CG iter. 22 -- res = 0.91740E+03, tol = 0.72724E+01, time = 6.21 | CG iter. 23 -- res = 0.80409E+03, tol = 0.72724E+01, time = 6.13 | CG iter. 24 -- res = 0.68016E+03, tol = 0.72724E+01, time = 6.10 | CG iter. 25 -- res = 0.51549E+03, tol = 0.72724E+01, time = 5.78 | CG iter. 26 -- res = 0.39295E+03, tol = 0.72724E+01, time = 5.89 | CG iter. 27 -- res = 0.36685E+03, tol = 0.72724E+01, time = 6.06 | CG iter. 28 -- res = 0.33199E+03, tol = 0.72724E+01, time = 5.70 | CG iter. 29 -- res = 0.26181E+03, tol = 0.72724E+01, time = 5.96 | CG iter. 30 -- res = 0.21140E+03, tol = 0.72724E+01, time = 5.89 | CG iter. 31 -- res = 0.18132E+03, tol = 0.72724E+01, time = 5.70 | CG iter. 32 -- res = 0.16411E+03, tol = 0.72724E+01, time = 7.11 | CG iter. 33 -- res = 0.12687E+03, tol = 0.72724E+01, time = 6.22 | CG iter. 34 -- res = 0.96572E+02, tol = 0.72724E+01, time = 6.73 | CG iter. 35 -- res = 0.78999E+02, tol = 0.72724E+01, time = 5.71 | CG iter. 36 -- res = 0.70332E+02, tol = 0.72724E+01, time = 5.56 | CG iter. 37 -- res = 0.56809E+02, tol = 0.72724E+01, time = 5.78 | CG iter. 38 -- res = 0.42331E+02, tol = 0.72724E+01, time = 6.27 | CG iter. 39 -- res = 0.32930E+02, tol = 0.72724E+01, time = 6.12 | CG iter. 40 -- res = 0.28176E+02, tol = 0.72724E+01, time = 6.15 | CG iter. 41 -- res = 0.23041E+02, tol = 0.72724E+01, time = 6.10 | CG iter. 42 -- res = 0.17015E+02, tol = 0.72724E+01, time = 5.64 | CG iter. 43 -- res = 0.13228E+02, tol = 0.72724E+01, time = 6.23 | CG iter. 44 -- res = 0.10406E+02, tol = 0.72724E+01, time = 5.79 | CG iter. 45 -- res = 0.84476E+01, tol = 0.72724E+01, time = 5.97 | CG iter. 46 -- res = 0.62623E+01, tol = 0.72724E+01, time = 5.83 | CG iter. 47 -- res = 0.47103E+01, tol = 0.72724E+01, time = 5.92 | CG iter. 48 -- res = 0.36915E+01, tol = 0.72724E+01, time = 5.79 | CG iter. 49 -- res = 0.31252E+01, tol = 0.72724E+01, time = 5.93 | CG iter. 50 -- res = 0.23669E+01, tol = 0.72724E+01, time = 6.51 | Final CG iter 51 -- res = 0.23669E+01, tol = 0.72724E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7130253.073 | Old band monopole 9727613.117 | Change to band monopole -2597360.044 | Change to component monopole 2597348.872 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.35836E+06, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.15884E+03, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.33064E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.94051E-02, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.27193E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7130222.404 | (Sampled value in CG: 7164477.006 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.461419 | New value = 1.487639 | poltype: 2 pol: 1 CPU time specind = 2.2554159E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.480105 | New value = 1.465939 | poltype: 2 pol: 2 CPU time specind = 1.0838032E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.24128E+08, tol = 0.47566E+04, time = 6.75 | CG iter. 2 -- res = 0.52927E+07, tol = 0.47566E+04, time = 7.05 | CG iter. 3 -- res = 0.84000E+06, tol = 0.47566E+04, time = 6.73 | CG iter. 4 -- res = 0.34638E+06, tol = 0.47566E+04, time = 6.84 | CG iter. 5 -- res = 0.14895E+06, tol = 0.47566E+04, time = 7.10 | CG iter. 6 -- res = 0.79142E+05, tol = 0.47566E+04, time = 6.63 | CG iter. 7 -- res = 0.43197E+05, tol = 0.47566E+04, time = 6.87 | CG iter. 8 -- res = 0.20971E+05, tol = 0.47566E+04, time = 6.63 | CG iter. 9 -- res = 0.90561E+04, tol = 0.47566E+04, time = 6.67 | CG iter. 10 -- res = 0.37305E+04, tol = 0.47566E+04, time = 6.66 | CG iter. 11 -- res = 0.16967E+04, tol = 0.47566E+04, time = 7.99 | CG iter. 12 -- res = 0.86897E+03, tol = 0.47566E+04, time = 7.66 | CG iter. 13 -- res = 0.48043E+03, tol = 0.47566E+04, time = 6.67 | CG iter. 14 -- res = 0.27076E+03, tol = 0.47566E+04, time = 6.84 | CG iter. 15 -- res = 0.14203E+03, tol = 0.47566E+04, time = 7.12 | CG iter. 16 -- res = 0.68401E+02, tol = 0.47566E+04, time = 6.52 | CG iter. 17 -- res = 0.32262E+02, tol = 0.47566E+04, time = 6.97 | CG iter. 18 -- res = 0.15805E+02, tol = 0.47566E+04, time = 7.12 | CG iter. 19 -- res = 0.86376E+01, tol = 0.47566E+04, time = 6.90 | CG iter. 20 -- res = 0.49954E+01, tol = 0.47566E+04, time = 7.03 | CG iter. 21 -- res = 0.27468E+01, tol = 0.47566E+04, time = 6.60 | CG iter. 22 -- res = 0.14204E+01, tol = 0.47566E+04, time = 6.88 | CG iter. 23 -- res = 0.70431E+00, tol = 0.47566E+04, time = 7.02 | CG iter. 24 -- res = 0.35948E+00, tol = 0.47566E+04, time = 6.69 | CG iter. 25 -- res = 0.19952E+00, tol = 0.47566E+04, time = 6.96 | CG iter. 26 -- res = 0.11204E+00, tol = 0.47566E+04, time = 6.54 | CG iter. 27 -- res = 0.62926E-01, tol = 0.47566E+04, time = 6.76 | CG iter. 28 -- res = 0.34183E-01, tol = 0.47566E+04, time = 6.93 | CG iter. 29 -- res = 0.17502E-01, tol = 0.47566E+04, time = 6.70 | CG iter. 30 -- res = 0.93574E-02, tol = 0.47566E+04, time = 6.84 | CG iter. 31 -- res = 0.51506E-02, tol = 0.47566E+04, time = 6.92 | CG iter. 32 -- res = 0.29256E-02, tol = 0.47566E+04, time = 7.02 | CG iter. 33 -- res = 0.16120E-02, tol = 0.47566E+04, time = 6.66 | CG iter. 34 -- res = 0.85787E-03, tol = 0.47566E+04, time = 6.98 | CG iter. 35 -- res = 0.43903E-03, tol = 0.47566E+04, time = 6.75 | Final CG iter 36 -- res = 0.43903E-03, tol = 0.47566E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.649 2.725 | New value 0.043 | Old value 0.649 | Difference -0.605 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.22243E+05, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.28877E+02, tol = 0.47627E+18, time = 2.79 | CG iter. 3 -- res = 0.85955E+00, tol = 0.47627E+18, time = 7.82 | CG iter. 4 -- res = 0.53808E-03, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.99978E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7130222.404 | (Sampled value in CG: 7163911.603 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.578107 | New value = -3.576912 | poltype: 1 pol: 1 CPU time specind = 1.6556025E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.21756E+07, tol = 0.23197E+01, time = 3.07 | CG iter. 2 -- res = 0.75618E+06, tol = 0.23197E+01, time = 3.13 | CG iter. 3 -- res = 0.14273E+06, tol = 0.23197E+01, time = 2.65 | CG iter. 4 -- res = 0.56200E+05, tol = 0.23197E+01, time = 2.62 | CG iter. 5 -- res = 0.33763E+05, tol = 0.23197E+01, time = 2.99 | CG iter. 6 -- res = 0.17452E+05, tol = 0.23197E+01, time = 2.64 | CG iter. 7 -- res = 0.65148E+04, tol = 0.23197E+01, time = 2.63 | CG iter. 8 -- res = 0.27415E+04, tol = 0.23197E+01, time = 2.86 | CG iter. 9 -- res = 0.11727E+04, tol = 0.23197E+01, time = 2.88 | CG iter. 10 -- res = 0.45406E+03, tol = 0.23197E+01, time = 2.73 | CG iter. 11 -- res = 0.20498E+03, tol = 0.23197E+01, time = 9.15 | CG iter. 12 -- res = 0.10610E+03, tol = 0.23197E+01, time = 2.79 | CG iter. 13 -- res = 0.53652E+02, tol = 0.23197E+01, time = 2.92 | CG iter. 14 -- res = 0.26779E+02, tol = 0.23197E+01, time = 3.40 | CG iter. 15 -- res = 0.11626E+02, tol = 0.23197E+01, time = 2.86 | CG iter. 16 -- res = 0.49040E+01, tol = 0.23197E+01, time = 2.51 | CG iter. 17 -- res = 0.21773E+01, tol = 0.23197E+01, time = 2.76 | CG iter. 18 -- res = 0.10090E+01, tol = 0.23197E+01, time = 2.63 | CG iter. 19 -- res = 0.51976E+00, tol = 0.23197E+01, time = 2.96 | CG iter. 20 -- res = 0.26644E+00, tol = 0.23197E+01, time = 2.94 | CG iter. 21 -- res = 0.12779E+00, tol = 0.23197E+01, time = 3.05 | CG iter. 22 -- res = 0.56940E-01, tol = 0.23197E+01, time = 2.77 | CG iter. 23 -- res = 0.25588E-01, tol = 0.23197E+01, time = 2.85 | CG iter. 24 -- res = 0.11998E-01, tol = 0.23197E+01, time = 2.92 | CG iter. 25 -- res = 0.63062E-02, tol = 0.23197E+01, time = 2.77 | CG iter. 26 -- res = 0.32350E-02, tol = 0.23197E+01, time = 2.89 | CG iter. 27 -- res = 0.16205E-02, tol = 0.23197E+01, time = 2.66 | CG iter. 28 -- res = 0.75801E-03, tol = 0.23197E+01, time = 2.64 | CG iter. 29 -- res = 0.34230E-03, tol = 0.23197E+01, time = 3.08 | CG iter. 30 -- res = 0.16802E-03, tol = 0.23197E+01, time = 2.96 | CG iter. 31 -- res = 0.83592E-04, tol = 0.23197E+01, time = 2.89 | CG iter. 32 -- res = 0.41785E-04, tol = 0.23197E+01, time = 2.70 | CG iter. 33 -- res = 0.20856E-04, tol = 0.23197E+01, time = 2.66 | CG iter. 34 -- res = 0.95968E-05, tol = 0.23197E+01, time = 2.66 | CG iter. 35 -- res = 0.45333E-05, tol = 0.23197E+01, time = 2.68 | CG iter. 36 -- res = 0.21623E-05, tol = 0.23197E+01, time = 3.09 | CG iter. 37 -- res = 0.10374E-05, tol = 0.23197E+01, time = 2.82 | CG iter. 38 -- res = 0.52175E-06, tol = 0.23197E+01, time = 2.83 | CG iter. 39 -- res = 0.25606E-06, tol = 0.23197E+01, time = 3.01 | CG iter. 40 -- res = 0.12189E-06, tol = 0.23197E+01, time = 2.63 | CG iter. 41 -- res = 0.56278E-07, tol = 0.23197E+01, time = 4.20 | CG iter. 42 -- res = 0.26110E-07, tol = 0.23197E+01, time = 3.16 | CG iter. 43 -- res = 0.12319E-07, tol = 0.23197E+01, time = 2.67 | CG iter. 44 -- res = 0.60661E-08, tol = 0.23197E+01, time = 3.24 | CG iter. 45 -- res = 0.29040E-08, tol = 0.23197E+01, time = 2.87 | CG iter. 46 -- res = 0.13478E-08, tol = 0.23197E+01, time = 2.82 | CG iter. 47 -- res = 0.65548E-09, tol = 0.23197E+01, time = 2.87 | CG iter. 48 -- res = 0.30150E-09, tol = 0.23197E+01, time = 3.03 | CG iter. 49 -- res = 0.14219E-09, tol = 0.23197E+01, time = 2.86 | CG iter. 50 -- res = 0.67123E-10, tol = 0.23197E+01, time = 2.90 | Final CG iter 51 -- res = 0.67123E-10, tol = 0.23197E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.137 3.232 | New value -4.413 | Old value 0.137 | Difference -4.551 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.22106E+05, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.35165E+02, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.12595E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.29363E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.85571E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7130222.404 | (Sampled value in CG: 7156263.219 ) | CPU time specind = 1226.711 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.68615E+08, tol = 0.57625E+04, time = 12.39 | CG iter. 2 -- res = 0.58946E+08, tol = 0.57625E+04, time = 12.59 | CG iter. 3 -- res = 0.15431E+08, tol = 0.57625E+04, time = 12.60 | CG iter. 4 -- res = 0.67136E+07, tol = 0.57625E+04, time = 12.55 | CG iter. 5 -- res = 0.40429E+07, tol = 0.57625E+04, time = 12.54 | CG iter. 6 -- res = 0.23304E+07, tol = 0.57625E+04, time = 12.89 | CG iter. 7 -- res = 0.13450E+07, tol = 0.57625E+04, time = 12.20 | CG iter. 8 -- res = 0.89805E+06, tol = 0.57625E+04, time = 18.73 | CG iter. 9 -- res = 0.58479E+06, tol = 0.57625E+04, time = 12.46 | CG iter. 10 -- res = 0.35221E+06, tol = 0.57625E+04, time = 12.14 | CG iter. 11 -- res = 0.19241E+06, tol = 0.57625E+04, time = 12.34 | CG iter. 12 -- res = 0.10224E+06, tol = 0.57625E+04, time = 12.57 | CG iter. 13 -- res = 0.56538E+05, tol = 0.57625E+04, time = 12.17 | CG iter. 14 -- res = 0.34824E+05, tol = 0.57625E+04, time = 12.15 | CG iter. 15 -- res = 0.24259E+05, tol = 0.57625E+04, time = 14.00 | CG iter. 16 -- res = 0.18409E+05, tol = 0.57625E+04, time = 12.31 | CG iter. 17 -- res = 0.14959E+05, tol = 0.57625E+04, time = 12.50 | CG iter. 18 -- res = 0.12092E+05, tol = 0.57625E+04, time = 13.12 | CG iter. 19 -- res = 0.98268E+04, tol = 0.57625E+04, time = 12.26 | CG iter. 20 -- res = 0.84837E+04, tol = 0.57625E+04, time = 12.15 | CG iter. 21 -- res = 0.76843E+04, tol = 0.57625E+04, time = 12.80 | CG iter. 22 -- res = 0.77734E+04, tol = 0.57625E+04, time = 12.53 | CG iter. 23 -- res = 0.86454E+04, tol = 0.57625E+04, time = 12.81 | CG iter. 24 -- res = 0.94791E+04, tol = 0.57625E+04, time = 12.43 | CG iter. 25 -- res = 0.94373E+04, tol = 0.57625E+04, time = 12.48 | CG iter. 26 -- res = 0.83173E+04, tol = 0.57625E+04, time = 12.37 | CG iter. 27 -- res = 0.64711E+04, tol = 0.57625E+04, time = 12.22 | CG iter. 28 -- res = 0.49366E+04, tol = 0.57625E+04, time = 12.45 | CG iter. 29 -- res = 0.39352E+04, tol = 0.57625E+04, time = 12.07 | CG iter. 30 -- res = 0.33670E+04, tol = 0.57625E+04, time = 11.92 | CG iter. 31 -- res = 0.28823E+04, tol = 0.57625E+04, time = 12.48 | CG iter. 32 -- res = 0.24341E+04, tol = 0.57625E+04, time = 17.81 | CG iter. 33 -- res = 0.19448E+04, tol = 0.57625E+04, time = 12.28 | CG iter. 34 -- res = 0.15331E+04, tol = 0.57625E+04, time = 12.29 | CG iter. 35 -- res = 0.12347E+04, tol = 0.57625E+04, time = 12.48 | CG iter. 36 -- res = 0.10789E+04, tol = 0.57625E+04, time = 12.39 | CG iter. 37 -- res = 0.10202E+04, tol = 0.57625E+04, time = 12.37 | CG iter. 38 -- res = 0.97118E+03, tol = 0.57625E+04, time = 12.93 | CG iter. 39 -- res = 0.90461E+03, tol = 0.57625E+04, time = 13.91 | CG iter. 40 -- res = 0.81087E+03, tol = 0.57625E+04, time = 12.06 | CG iter. 41 -- res = 0.69234E+03, tol = 0.57625E+04, time = 12.19 | CG iter. 42 -- res = 0.56871E+03, tol = 0.57625E+04, time = 12.21 | CG iter. 43 -- res = 0.47205E+03, tol = 0.57625E+04, time = 11.89 | CG iter. 44 -- res = 0.41947E+03, tol = 0.57625E+04, time = 12.31 | CG iter. 45 -- res = 0.37178E+03, tol = 0.57625E+04, time = 12.23 | CG iter. 46 -- res = 0.32779E+03, tol = 0.57625E+04, time = 12.23 | CG iter. 47 -- res = 0.28612E+03, tol = 0.57625E+04, time = 12.19 | CG iter. 48 -- res = 0.23519E+03, tol = 0.57625E+04, time = 12.79 | CG iter. 49 -- res = 0.19504E+03, tol = 0.57625E+04, time = 11.99 | CG iter. 50 -- res = 0.17327E+03, tol = 0.57625E+04, time = 12.22 | CG iter. 51 -- res = 0.16228E+03, tol = 0.57625E+04, time = 12.55 | CG iter. 52 -- res = 0.15739E+03, tol = 0.57625E+04, time = 11.76 | CG iter. 53 -- res = 0.15226E+03, tol = 0.57625E+04, time = 12.46 | CG iter. 54 -- res = 0.13861E+03, tol = 0.57625E+04, time = 12.13 | CG iter. 55 -- res = 0.11943E+03, tol = 0.57625E+04, time = 20.05 | CG iter. 56 -- res = 0.10297E+03, tol = 0.57625E+04, time = 12.36 | CG iter. 57 -- res = 0.88488E+02, tol = 0.57625E+04, time = 12.25 | CG iter. 58 -- res = 0.79768E+02, tol = 0.57625E+04, time = 12.04 | CG iter. 59 -- res = 0.74734E+02, tol = 0.57625E+04, time = 12.33 | CG iter. 60 -- res = 0.69286E+02, tol = 0.57625E+04, time = 12.07 | Final CG iter 61 -- res = 0.69286E+02, tol = 0.57625E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.891 ( -229.968 -2231.318 2513.796 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7088478.298 | Old band monopole 7130253.073 | Change to band monopole -41774.775 | Change to component monopole 41774.596 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.058 2.744 | New value -3.275 | Old value 0.058 | Difference -3.333 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.232 ( 7.702 13.917 -13.806 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.713 4.065 | New value -2.049 | Old value -1.713 | Difference -0.336 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.23 | CG iter. 1 -- res = 0.58973E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.27324E+02, tol = 0.47627E+18, time = 2.30 | CG iter. 3 -- res = 0.88937E+00, tol = 0.47627E+18, time = 2.42 | CG iter. 4 -- res = 0.26655E-02, tol = 0.47627E+18, time = 1.98 | Final CG iter 5 -- res = 0.16755E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7088447.809 | (Sampled value in CG: 7066152.881 ) | Chain = 1 -- chisq = 0.81563132E+09 | Chain = 1 -- wall time = 5853.746 sec Available RAM: MemAvailable: 386301824 kB Available Swap: SwapFree: 1123670608 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 388 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441769 | --> Sampling calibration, mode = relcal | relcal = 1.3419988E-02 7.4792281E-04 -1.5767753E-03 -1.2591136E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1842743 0.2018766 9406622.62019040 | BP delta = 0.1842743 0.2043733 9406646.21683322 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632681 | --> Sampling calibration, mode = relcal | relcal = -2.8220706E-03 -7.0305867E-04 1.6795186E-03 1.6148660E-03 -4.0947300E-04 6.4021774E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5413783 15216805.7245449 | BP delta = 0.0000000E+00 -0.5401195 15216806.7433941 | BP chisq diff = 1.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18145059376728 | --> Sampling calibration, mode = relcal | relcal = -7.5920112E-02 -5.8963772E-02 9.2733391E-02 4.2150497E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7711349E-04 5.4913890E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6310E-05 | 2: delta_r/delta_0: 1.2583E-06 | 3: delta_s/delta_0: 1.9458E-07 | 4: delta_r/delta_0: 2.3821E-08 | 5: delta_s/delta_0: 6.4448E-09 | 6: delta_r/delta_0: 2.1975E-09 | 7: delta_s/delta_0: 5.0707E-10 | 8: delta_r/delta_0: 1.3627E-10 | 9: delta_s/delta_0: 1.7732E-10 | 10: delta_r/delta_0: 6.8800E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.309350779691546E-003 2.739905389060130E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6309E-05 | 2: delta_r/delta_0: 1.2583E-06 | 3: delta_s/delta_0: 1.9459E-07 | 4: delta_r/delta_0: 2.3826E-08 | 5: delta_s/delta_0: 6.4471E-09 | 6: delta_r/delta_0: 2.1979E-09 | 7: delta_s/delta_0: 5.0707E-10 | 8: delta_r/delta_0: 1.3629E-10 | 9: delta_s/delta_0: 1.7741E-10 | 10: delta_r/delta_0: 6.8841E-11 | Reached bicg-stab tolerance | BP delta = 7.5879909E-02 9.9329174E-02 3467924.46425798 | BP delta = 7.5879909E-02 9.9432997E-02 3465412.42886880 | BP chisq diff = -2512.0, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02622224 | --> Sampling calibration, mode = relcal | relcal = -0.1067174 -9.5592514E-02 0.1449276 5.7382300E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7867670E-03 1.0640001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8951E-05 | 2: delta_r/delta_0: 1.1926E-06 | 3: delta_s/delta_0: 2.3846E-07 | 4: delta_r/delta_0: 5.6427E-08 | 5: delta_s/delta_0: 1.6045E-08 | 6: delta_r/delta_0: 7.2391E-09 | 7: delta_s/delta_0: 4.1106E-07 | 8: delta_r/delta_0: 2.7991E-08 | 9: delta_s/delta_0: 9.0401E-10 | 10: delta_r/delta_0: 4.5864E-10 | 11: delta_s/delta_0: 5.1048E-09 | 12: delta_r/delta_0: 3.8913E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.710863630944548E-003 2.810199047527416E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8952E-05 | 2: delta_r/delta_0: 1.1927E-06 | 3: delta_s/delta_0: 2.3850E-07 | 4: delta_r/delta_0: 5.6463E-08 | 5: delta_s/delta_0: 1.6038E-08 | 6: delta_r/delta_0: 7.2423E-09 | 7: delta_s/delta_0: 4.1187E-07 | 8: delta_r/delta_0: 2.8006E-08 | 9: delta_s/delta_0: 9.0404E-10 | 10: delta_r/delta_0: 4.5918E-10 | 11: delta_s/delta_0: 5.1117E-09 | 12: delta_r/delta_0: 3.8978E-11 | Reached bicg-stab tolerance | BP delta = -0.2378908 -0.2068841 2841657.78697489 | BP delta = -0.2378908 -0.2048533 2841632.34681219 | BP chisq diff = -25.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81261720 | --> Sampling calibration, mode = relcal | relcal = 0.2956044 0.2248974 -0.2838773 -0.2366245 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2178324E-03 5.2184272E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0072E-02 | 2: delta_r/delta_0: 2.3481E-04 | 3: delta_s/delta_0: 6.2450E-04 | 4: delta_r/delta_0: 9.6141E-05 | 5: delta_s/delta_0: 1.0708E-03 | 6: delta_r/delta_0: 1.2311E-04 | 7: delta_s/delta_0: 8.1353E-05 | 8: delta_r/delta_0: 1.8480E-05 | 9: delta_s/delta_0: 8.0238E-06 | 10: delta_r/delta_0: 6.3957E-07 | 11: delta_s/delta_0: 9.3604E-08 | 12: delta_r/delta_0: 3.0708E-08 | 13: delta_s/delta_0: 2.7769E-08 | 14: delta_r/delta_0: 1.6318E-08 | 15: delta_s/delta_0: 1.8727E-09 | 16: delta_r/delta_0: 1.1212E-09 | 17: delta_s/delta_0: 5.6727E-10 | 18: delta_r/delta_0: 3.9155E-10 | 19: delta_s/delta_0: 2.7363E-10 | 20: delta_r/delta_0: 1.7190E-10 | 21: delta_s/delta_0: 1.6096E-10 | 22: delta_r/delta_0: 2.0818E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.262464149015831 4.019795277371220E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0084E-02 | 2: delta_r/delta_0: 2.3509E-04 | 3: delta_s/delta_0: 6.3200E-04 | 4: delta_r/delta_0: 9.7383E-05 | 5: delta_s/delta_0: 1.0598E-03 | 6: delta_r/delta_0: 1.2188E-04 | 7: delta_s/delta_0: 7.9732E-05 | 8: delta_r/delta_0: 1.8128E-05 | 9: delta_s/delta_0: 7.9514E-06 | 10: delta_r/delta_0: 6.3324E-07 | 11: delta_s/delta_0: 9.2864E-08 | 12: delta_r/delta_0: 3.0476E-08 | 13: delta_s/delta_0: 2.7541E-08 | 14: delta_r/delta_0: 1.6187E-08 | 15: delta_s/delta_0: 1.8549E-09 | 16: delta_r/delta_0: 1.1141E-09 | 17: delta_s/delta_0: 5.6415E-10 | 18: delta_r/delta_0: 3.8872E-10 | 19: delta_s/delta_0: 2.7080E-10 | 20: delta_r/delta_0: 1.7077E-10 | 21: delta_s/delta_0: 1.5980E-10 | 22: delta_r/delta_0: 2.1052E-11 | Reached bicg-stab tolerance | BP delta = -0.1418944 -0.1936543 2827317.74368410 | BP delta = -0.1418944 -0.2072653 2827482.63420602 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95964245 | --> Sampling calibration, mode = relcal | relcal = 0.1065844 0.1396569 -0.1102881 -0.1359532 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6186500E-03 1.4295505E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9238E-04 | 2: delta_r/delta_0: 7.3298E-06 | 3: delta_s/delta_0: 2.6487E-04 | 4: delta_r/delta_0: 1.4034E-05 | 5: delta_s/delta_0: 2.1790E-07 | 6: delta_r/delta_0: 1.1326E-07 | 7: delta_s/delta_0: 4.7448E-07 | 8: delta_r/delta_0: 3.0786E-08 | 9: delta_s/delta_0: 8.3713E-09 | 10: delta_r/delta_0: 3.7011E-09 | 11: delta_s/delta_0: 1.3754E-09 | 12: delta_r/delta_0: 1.0550E-09 | 13: delta_s/delta_0: 2.1225E-10 | 14: delta_r/delta_0: 7.6783E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.074277006768805E-002 3.695356886605869E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.9241E-04 | 2: delta_r/delta_0: 7.3301E-06 | 3: delta_s/delta_0: 2.6470E-04 | 4: delta_r/delta_0: 1.4020E-05 | 5: delta_s/delta_0: 2.1788E-07 | 6: delta_r/delta_0: 1.1323E-07 | 7: delta_s/delta_0: 4.7334E-07 | 8: delta_r/delta_0: 3.0785E-08 | 9: delta_s/delta_0: 8.3734E-09 | 10: delta_r/delta_0: 3.7035E-09 | 11: delta_s/delta_0: 1.3761E-09 | 12: delta_r/delta_0: 1.0556E-09 | 13: delta_s/delta_0: 2.1298E-10 | 14: delta_r/delta_0: 7.6719E-11 | Reached bicg-stab tolerance | BP delta = 9.3472287E-02 0.2110219 3004321.45678785 | BP delta = 9.3472287E-02 0.2066862 3004339.91909903 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146022 | New value = -3.109027 | poltype: 2 pol: 1 CPU time specind = 1.5795946E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155412 | New value = -3.140020 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.176483 | New value = -3.082127 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230960 | New value = -3.147733 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.131342 | New value = -3.057557 | poltype: 2 pol: 2 CPU time specind = 6.0539246E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.13587E+08, tol = 0.94285E+01, time = 5.62 | CG iter. 2 -- res = 0.32820E+06, tol = 0.94285E+01, time = 5.98 | CG iter. 3 -- res = 0.62883E+05, tol = 0.94285E+01, time = 5.55 | CG iter. 4 -- res = 0.46845E+05, tol = 0.94285E+01, time = 6.31 | CG iter. 5 -- res = 0.40626E+05, tol = 0.94285E+01, time = 5.88 | CG iter. 6 -- res = 0.39186E+05, tol = 0.94285E+01, time = 5.85 | CG iter. 7 -- res = 0.37509E+05, tol = 0.94285E+01, time = 5.71 | CG iter. 8 -- res = 0.29544E+05, tol = 0.94285E+01, time = 5.83 | CG iter. 9 -- res = 0.24566E+05, tol = 0.94285E+01, time = 5.16 | CG iter. 10 -- res = 0.19902E+05, tol = 0.94285E+01, time = 5.57 | CG iter. 11 -- res = 0.13579E+05, tol = 0.94285E+01, time = 5.58 | CG iter. 12 -- res = 0.92772E+04, tol = 0.94285E+01, time = 6.28 | CG iter. 13 -- res = 0.73652E+04, tol = 0.94285E+01, time = 5.55 | CG iter. 14 -- res = 0.64426E+04, tol = 0.94285E+01, time = 5.50 | CG iter. 15 -- res = 0.52908E+04, tol = 0.94285E+01, time = 5.90 | CG iter. 16 -- res = 0.37134E+04, tol = 0.94285E+01, time = 5.90 | CG iter. 17 -- res = 0.25341E+04, tol = 0.94285E+01, time = 5.88 | CG iter. 18 -- res = 0.20162E+04, tol = 0.94285E+01, time = 6.25 | CG iter. 19 -- res = 0.17083E+04, tol = 0.94285E+01, time = 5.83 | CG iter. 20 -- res = 0.12847E+04, tol = 0.94285E+01, time = 5.98 | CG iter. 21 -- res = 0.94167E+03, tol = 0.94285E+01, time = 12.04 | CG iter. 22 -- res = 0.76969E+03, tol = 0.94285E+01, time = 5.74 | CG iter. 23 -- res = 0.67804E+03, tol = 0.94285E+01, time = 5.66 | CG iter. 24 -- res = 0.54202E+03, tol = 0.94285E+01, time = 5.62 | CG iter. 25 -- res = 0.41201E+03, tol = 0.94285E+01, time = 5.95 | CG iter. 26 -- res = 0.32509E+03, tol = 0.94285E+01, time = 5.63 | CG iter. 27 -- res = 0.28693E+03, tol = 0.94285E+01, time = 5.65 | CG iter. 28 -- res = 0.25271E+03, tol = 0.94285E+01, time = 5.71 | CG iter. 29 -- res = 0.18719E+03, tol = 0.94285E+01, time = 5.80 | CG iter. 30 -- res = 0.14923E+03, tol = 0.94285E+01, time = 6.27 | CG iter. 31 -- res = 0.12767E+03, tol = 0.94285E+01, time = 5.96 | CG iter. 32 -- res = 0.11129E+03, tol = 0.94285E+01, time = 5.91 | CG iter. 33 -- res = 0.85109E+02, tol = 0.94285E+01, time = 5.42 | CG iter. 34 -- res = 0.62552E+02, tol = 0.94285E+01, time = 5.81 | CG iter. 35 -- res = 0.51529E+02, tol = 0.94285E+01, time = 6.01 | CG iter. 36 -- res = 0.44599E+02, tol = 0.94285E+01, time = 6.97 | CG iter. 37 -- res = 0.35054E+02, tol = 0.94285E+01, time = 6.41 | CG iter. 38 -- res = 0.25492E+02, tol = 0.94285E+01, time = 6.11 | CG iter. 39 -- res = 0.18993E+02, tol = 0.94285E+01, time = 5.80 | CG iter. 40 -- res = 0.15386E+02, tol = 0.94285E+01, time = 5.58 | CG iter. 41 -- res = 0.11955E+02, tol = 0.94285E+01, time = 5.85 | CG iter. 42 -- res = 0.90815E+01, tol = 0.94285E+01, time = 5.65 | CG iter. 43 -- res = 0.67462E+01, tol = 0.94285E+01, time = 5.47 | CG iter. 44 -- res = 0.55796E+01, tol = 0.94285E+01, time = 5.70 | CG iter. 45 -- res = 0.43778E+01, tol = 0.94285E+01, time = 5.65 | CG iter. 46 -- res = 0.33113E+01, tol = 0.94285E+01, time = 6.25 | CG iter. 47 -- res = 0.24565E+01, tol = 0.94285E+01, time = 5.88 | CG iter. 48 -- res = 0.18941E+01, tol = 0.94285E+01, time = 5.63 | CG iter. 49 -- res = 0.15040E+01, tol = 0.94285E+01, time = 5.80 | CG iter. 50 -- res = 0.11490E+01, tol = 0.94285E+01, time = 5.69 | Final CG iter 51 -- res = 0.11490E+01, tol = 0.94285E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10965714.673 | Old band monopole 7088478.298 | Change to band monopole 3877236.375 | Change to component monopole -3877219.699 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.64335E+05, tol = 0.47627E+18, time = 2.13 | CG iter. 2 -- res = 0.54636E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.19374E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.77740E-02, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.82259E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10965667.507 | (Sampled value in CG: 11014111.047 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487639 | New value = 1.482835 | poltype: 2 pol: 1 CPU time specind = 2.1252871E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.465939 | New value = 1.485860 | poltype: 2 pol: 2 CPU time specind = 1.5560865E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.23981E+08, tol = 0.47500E+04, time = 6.83 | CG iter. 2 -- res = 0.53760E+07, tol = 0.47500E+04, time = 13.00 | CG iter. 3 -- res = 0.87751E+06, tol = 0.47500E+04, time = 6.65 | CG iter. 4 -- res = 0.36952E+06, tol = 0.47500E+04, time = 6.84 | CG iter. 5 -- res = 0.16341E+06, tol = 0.47500E+04, time = 6.62 | CG iter. 6 -- res = 0.83975E+05, tol = 0.47500E+04, time = 6.70 | CG iter. 7 -- res = 0.44150E+05, tol = 0.47500E+04, time = 6.54 | CG iter. 8 -- res = 0.20743E+05, tol = 0.47500E+04, time = 6.77 | CG iter. 9 -- res = 0.91135E+04, tol = 0.47500E+04, time = 6.84 | CG iter. 10 -- res = 0.37653E+04, tol = 0.47500E+04, time = 6.79 | CG iter. 11 -- res = 0.17376E+04, tol = 0.47500E+04, time = 6.38 | CG iter. 12 -- res = 0.90933E+03, tol = 0.47500E+04, time = 6.47 | CG iter. 13 -- res = 0.50913E+03, tol = 0.47500E+04, time = 6.91 | CG iter. 14 -- res = 0.28256E+03, tol = 0.47500E+04, time = 6.71 | CG iter. 15 -- res = 0.14063E+03, tol = 0.47500E+04, time = 8.09 | CG iter. 16 -- res = 0.66757E+02, tol = 0.47500E+04, time = 6.96 | CG iter. 17 -- res = 0.31892E+02, tol = 0.47500E+04, time = 6.66 | CG iter. 18 -- res = 0.16331E+02, tol = 0.47500E+04, time = 6.67 | CG iter. 19 -- res = 0.91936E+01, tol = 0.47500E+04, time = 6.43 | CG iter. 20 -- res = 0.52074E+01, tol = 0.47500E+04, time = 6.65 | CG iter. 21 -- res = 0.27913E+01, tol = 0.47500E+04, time = 6.66 | CG iter. 22 -- res = 0.14299E+01, tol = 0.47500E+04, time = 6.77 | CG iter. 23 -- res = 0.70792E+00, tol = 0.47500E+04, time = 6.75 | CG iter. 24 -- res = 0.36975E+00, tol = 0.47500E+04, time = 6.41 | CG iter. 25 -- res = 0.20362E+00, tol = 0.47500E+04, time = 7.13 | CG iter. 26 -- res = 0.11677E+00, tol = 0.47500E+04, time = 6.79 | CG iter. 27 -- res = 0.68019E-01, tol = 0.47500E+04, time = 6.69 | CG iter. 28 -- res = 0.36391E-01, tol = 0.47500E+04, time = 6.86 | CG iter. 29 -- res = 0.18999E-01, tol = 0.47500E+04, time = 6.81 | CG iter. 30 -- res = 0.98164E-02, tol = 0.47500E+04, time = 6.57 | CG iter. 31 -- res = 0.53459E-02, tol = 0.47500E+04, time = 7.29 | CG iter. 32 -- res = 0.30388E-02, tol = 0.47500E+04, time = 6.90 | CG iter. 33 -- res = 0.17337E-02, tol = 0.47500E+04, time = 6.89 | CG iter. 34 -- res = 0.92533E-03, tol = 0.47500E+04, time = 6.79 | CG iter. 35 -- res = 0.48254E-03, tol = 0.47500E+04, time = 6.36 | Final CG iter 36 -- res = 0.48254E-03, tol = 0.47500E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.285 2.741 | New value -2.921 | Old value -3.285 | Difference 0.364 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.95642E+04, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.33179E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.11507E+01, tol = 0.47627E+18, time = 1.94 | Final CG iter 4 -- res = 0.39913E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10965667.507 | (Sampled value in CG: 11013067.196 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.576912 | New value = -3.447218 | poltype: 1 pol: 1 CPU time specind = 1.6427040E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.26852E+07, tol = 0.24426E+01, time = 2.63 | CG iter. 2 -- res = 0.10095E+07, tol = 0.24426E+01, time = 2.63 | CG iter. 3 -- res = 0.21117E+06, tol = 0.24426E+01, time = 3.02 | CG iter. 4 -- res = 0.93609E+05, tol = 0.24426E+01, time = 2.68 | CG iter. 5 -- res = 0.55063E+05, tol = 0.24426E+01, time = 2.94 | CG iter. 6 -- res = 0.25021E+05, tol = 0.24426E+01, time = 2.85 | CG iter. 7 -- res = 0.98601E+04, tol = 0.24426E+01, time = 2.93 | CG iter. 8 -- res = 0.46161E+04, tol = 0.24426E+01, time = 2.79 | CG iter. 9 -- res = 0.21065E+04, tol = 0.24426E+01, time = 2.75 | CG iter. 10 -- res = 0.84868E+03, tol = 0.24426E+01, time = 2.65 | CG iter. 11 -- res = 0.32773E+03, tol = 0.24426E+01, time = 2.83 | CG iter. 12 -- res = 0.15237E+03, tol = 0.24426E+01, time = 2.96 | CG iter. 13 -- res = 0.76872E+02, tol = 0.24426E+01, time = 2.65 | CG iter. 14 -- res = 0.37734E+02, tol = 0.24426E+01, time = 2.57 | CG iter. 15 -- res = 0.19294E+02, tol = 0.24426E+01, time = 2.48 | CG iter. 16 -- res = 0.92496E+01, tol = 0.24426E+01, time = 3.01 | CG iter. 17 -- res = 0.37442E+01, tol = 0.24426E+01, time = 2.76 | CG iter. 18 -- res = 0.16276E+01, tol = 0.24426E+01, time = 2.75 | CG iter. 19 -- res = 0.77286E+00, tol = 0.24426E+01, time = 2.72 | CG iter. 20 -- res = 0.40088E+00, tol = 0.24426E+01, time = 2.67 | CG iter. 21 -- res = 0.21342E+00, tol = 0.24426E+01, time = 3.82 | CG iter. 22 -- res = 0.10127E+00, tol = 0.24426E+01, time = 2.57 | CG iter. 23 -- res = 0.45908E-01, tol = 0.24426E+01, time = 4.65 | CG iter. 24 -- res = 0.21341E-01, tol = 0.24426E+01, time = 7.13 | CG iter. 25 -- res = 0.10260E-01, tol = 0.24426E+01, time = 2.95 | CG iter. 26 -- res = 0.49609E-02, tol = 0.24426E+01, time = 2.78 | CG iter. 27 -- res = 0.25984E-02, tol = 0.24426E+01, time = 2.80 | CG iter. 28 -- res = 0.13823E-02, tol = 0.24426E+01, time = 2.98 | CG iter. 29 -- res = 0.65056E-03, tol = 0.24426E+01, time = 2.67 | CG iter. 30 -- res = 0.30595E-03, tol = 0.24426E+01, time = 2.79 | CG iter. 31 -- res = 0.14272E-03, tol = 0.24426E+01, time = 2.93 | CG iter. 32 -- res = 0.71098E-04, tol = 0.24426E+01, time = 2.39 | CG iter. 33 -- res = 0.34569E-04, tol = 0.24426E+01, time = 3.08 | CG iter. 34 -- res = 0.18552E-04, tol = 0.24426E+01, time = 2.70 | CG iter. 35 -- res = 0.93091E-05, tol = 0.24426E+01, time = 2.79 | CG iter. 36 -- res = 0.43676E-05, tol = 0.24426E+01, time = 2.71 | CG iter. 37 -- res = 0.19724E-05, tol = 0.24426E+01, time = 2.83 | CG iter. 38 -- res = 0.94835E-06, tol = 0.24426E+01, time = 2.83 | CG iter. 39 -- res = 0.44969E-06, tol = 0.24426E+01, time = 2.51 | CG iter. 40 -- res = 0.22886E-06, tol = 0.24426E+01, time = 2.64 | CG iter. 41 -- res = 0.11975E-06, tol = 0.24426E+01, time = 2.92 | CG iter. 42 -- res = 0.54568E-07, tol = 0.24426E+01, time = 2.70 | CG iter. 43 -- res = 0.23858E-07, tol = 0.24426E+01, time = 2.61 | CG iter. 44 -- res = 0.11174E-07, tol = 0.24426E+01, time = 2.71 | CG iter. 45 -- res = 0.54823E-08, tol = 0.24426E+01, time = 2.72 | CG iter. 46 -- res = 0.27085E-08, tol = 0.24426E+01, time = 2.70 | CG iter. 47 -- res = 0.13177E-08, tol = 0.24426E+01, time = 2.70 | CG iter. 48 -- res = 0.67318E-09, tol = 0.24426E+01, time = 2.63 | CG iter. 49 -- res = 0.31385E-09, tol = 0.24426E+01, time = 2.68 | CG iter. 50 -- res = 0.13454E-09, tol = 0.24426E+01, time = 2.89 | Final CG iter 51 -- res = 0.13454E-09, tol = 0.24426E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.814 3.653 | New value -1.813 | Old value 0.814 | Difference -2.627 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.87533E+04, tol = 0.47627E+18, time = 1.97 | CG iter. 2 -- res = 0.34396E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.11551E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.88184E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.21846E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10965667.507 | (Sampled value in CG: 11005390.573 ) | CPU time specind = 1206.140 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.68213E+08, tol = 0.57460E+04, time = 11.86 | CG iter. 2 -- res = 0.58949E+08, tol = 0.57460E+04, time = 11.88 | CG iter. 3 -- res = 0.15373E+08, tol = 0.57460E+04, time = 12.54 | CG iter. 4 -- res = 0.65451E+07, tol = 0.57460E+04, time = 12.00 | CG iter. 5 -- res = 0.38484E+07, tol = 0.57460E+04, time = 11.58 | CG iter. 6 -- res = 0.21891E+07, tol = 0.57460E+04, time = 12.37 | CG iter. 7 -- res = 0.12919E+07, tol = 0.57460E+04, time = 11.86 | CG iter. 8 -- res = 0.85043E+06, tol = 0.57460E+04, time = 11.90 | CG iter. 9 -- res = 0.54788E+06, tol = 0.57460E+04, time = 11.94 | CG iter. 10 -- res = 0.32087E+06, tol = 0.57460E+04, time = 12.13 | CG iter. 11 -- res = 0.17287E+06, tol = 0.57460E+04, time = 12.42 | CG iter. 12 -- res = 0.93984E+05, tol = 0.57460E+04, time = 17.79 | CG iter. 13 -- res = 0.55215E+05, tol = 0.57460E+04, time = 11.78 | CG iter. 14 -- res = 0.36017E+05, tol = 0.57460E+04, time = 12.53 | CG iter. 15 -- res = 0.26972E+05, tol = 0.57460E+04, time = 11.66 | CG iter. 16 -- res = 0.22609E+05, tol = 0.57460E+04, time = 12.11 | CG iter. 17 -- res = 0.19541E+05, tol = 0.57460E+04, time = 12.00 | CG iter. 18 -- res = 0.16613E+05, tol = 0.57460E+04, time = 11.68 | CG iter. 19 -- res = 0.14079E+05, tol = 0.57460E+04, time = 13.83 | CG iter. 20 -- res = 0.12590E+05, tol = 0.57460E+04, time = 12.39 | CG iter. 21 -- res = 0.12066E+05, tol = 0.57460E+04, time = 11.94 | CG iter. 22 -- res = 0.12648E+05, tol = 0.57460E+04, time = 12.16 | CG iter. 23 -- res = 0.13672E+05, tol = 0.57460E+04, time = 12.14 | CG iter. 24 -- res = 0.14104E+05, tol = 0.57460E+04, time = 11.92 | CG iter. 25 -- res = 0.13117E+05, tol = 0.57460E+04, time = 12.06 | CG iter. 26 -- res = 0.11012E+05, tol = 0.57460E+04, time = 12.08 | CG iter. 27 -- res = 0.84997E+04, tol = 0.57460E+04, time = 12.06 | CG iter. 28 -- res = 0.63991E+04, tol = 0.57460E+04, time = 12.21 | CG iter. 29 -- res = 0.49766E+04, tol = 0.57460E+04, time = 11.68 | CG iter. 30 -- res = 0.41719E+04, tol = 0.57460E+04, time = 11.98 | CG iter. 31 -- res = 0.35704E+04, tol = 0.57460E+04, time = 11.95 | CG iter. 32 -- res = 0.30621E+04, tol = 0.57460E+04, time = 11.62 | CG iter. 33 -- res = 0.26282E+04, tol = 0.57460E+04, time = 11.72 | CG iter. 34 -- res = 0.21783E+04, tol = 0.57460E+04, time = 12.04 | CG iter. 35 -- res = 0.18646E+04, tol = 0.57460E+04, time = 12.23 | CG iter. 36 -- res = 0.16939E+04, tol = 0.57460E+04, time = 18.39 | CG iter. 37 -- res = 0.16233E+04, tol = 0.57460E+04, time = 12.55 | CG iter. 38 -- res = 0.16248E+04, tol = 0.57460E+04, time = 11.75 | CG iter. 39 -- res = 0.15965E+04, tol = 0.57460E+04, time = 11.79 | CG iter. 40 -- res = 0.14105E+04, tol = 0.57460E+04, time = 11.71 | CG iter. 41 -- res = 0.11579E+04, tol = 0.57460E+04, time = 12.28 | CG iter. 42 -- res = 0.92716E+03, tol = 0.57460E+04, time = 11.99 | CG iter. 43 -- res = 0.77857E+03, tol = 0.57460E+04, time = 13.63 | CG iter. 44 -- res = 0.68614E+03, tol = 0.57460E+04, time = 12.29 | CG iter. 45 -- res = 0.61843E+03, tol = 0.57460E+04, time = 11.84 | CG iter. 46 -- res = 0.57013E+03, tol = 0.57460E+04, time = 12.18 | CG iter. 47 -- res = 0.52136E+03, tol = 0.57460E+04, time = 11.84 | CG iter. 48 -- res = 0.44276E+03, tol = 0.57460E+04, time = 11.93 | CG iter. 49 -- res = 0.37872E+03, tol = 0.57460E+04, time = 12.11 | CG iter. 50 -- res = 0.34181E+03, tol = 0.57460E+04, time = 11.90 | CG iter. 51 -- res = 0.32367E+03, tol = 0.57460E+04, time = 12.22 | CG iter. 52 -- res = 0.31851E+03, tol = 0.57460E+04, time = 12.45 | CG iter. 53 -- res = 0.30601E+03, tol = 0.57460E+04, time = 11.68 | CG iter. 54 -- res = 0.28265E+03, tol = 0.57460E+04, time = 12.24 | CG iter. 55 -- res = 0.25522E+03, tol = 0.57460E+04, time = 11.77 | CG iter. 56 -- res = 0.22143E+03, tol = 0.57460E+04, time = 11.60 | CG iter. 57 -- res = 0.18971E+03, tol = 0.57460E+04, time = 11.93 | CG iter. 58 -- res = 0.17051E+03, tol = 0.57460E+04, time = 11.52 | CG iter. 59 -- res = 0.15922E+03, tol = 0.57460E+04, time = 11.88 | CG iter. 60 -- res = 0.14888E+03, tol = 0.57460E+04, time = 17.99 | Final CG iter 61 -- res = 0.14888E+03, tol = 0.57460E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.970 ( -229.717 -2230.058 2512.526 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8552693.897 | Old band monopole 10965714.673 | Change to band monopole -2413020.776 | Change to component monopole 2413010.397 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.947 2.722 | New value -5.118 | Old value -2.947 | Difference -2.172 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.550 ( 6.545 11.031 -11.231 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.354 4.657 | New value 3.203 | Old value -1.354 | Difference 4.557 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.68113E+06, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.14849E+03, tol = 0.47627E+18, time = 2.31 | CG iter. 3 -- res = 0.48690E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.53215E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.78966E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8552657.110 | (Sampled value in CG: 8528425.105 ) | Chain = 1 -- chisq = 0.81601599E+09 | Chain = 1 -- wall time = 6236.150 sec Available RAM: MemAvailable: 386450208 kB Available Swap: SwapFree: 1124575056 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 389 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443749 | --> Sampling calibration, mode = relcal | relcal = 1.3409300E-02 7.6625735E-04 -1.5916765E-03 -1.2583881E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1842743 0.2018766 97055332.1110662 | BP delta = 0.1817273 0.1993295 97055331.8418956 | BP chisq diff = -0.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632562 | --> Sampling calibration, mode = relcal | relcal = -2.8214720E-03 -7.0371298E-04 1.6779118E-03 1.6147181E-03 -4.0798564E-04 6.4054067E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5401195 15214735.3948701 | BP delta = 0.0000000E+00 -0.5321190 15214737.7620326 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18214193698855 | --> Sampling calibration, mode = relcal | relcal = -7.5165793E-02 -5.8629170E-02 9.2108041E-02 4.1686922E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5680036E-05 5.1436150E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1356E-05 | 2: delta_r/delta_0: 9.4889E-07 | 3: delta_s/delta_0: 2.0017E-07 | 4: delta_r/delta_0: 1.6498E-08 | 5: delta_s/delta_0: 6.5339E-09 | 6: delta_r/delta_0: 9.6090E-10 | 7: delta_s/delta_0: 2.3785E-10 | 8: delta_r/delta_0: 1.0733E-10 | 9: delta_s/delta_0: 1.8429E-10 | 10: delta_r/delta_0: 5.8819E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.253757621620101E-003 2.738417945704936E-005 | BP delta = 7.5879909E-02 9.9432997E-02 50486980.2646092 | BP delta = 7.2598629E-02 9.6151717E-02 50486981.5398247 | BP chisq diff = 1.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595433 | --> Sampling calibration, mode = relcal | relcal = -0.1065992 -9.5576927E-02 0.1449167 5.7259407E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1358835E-03 1.3468568E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7099E-05 | 2: delta_r/delta_0: 1.2945E-06 | 3: delta_s/delta_0: 2.5272E-07 | 4: delta_r/delta_0: 4.3565E-08 | 5: delta_s/delta_0: 2.2608E-08 | 6: delta_r/delta_0: 6.9770E-09 | 7: delta_s/delta_0: 5.4537E-09 | 8: delta_r/delta_0: 1.7565E-09 | 9: delta_s/delta_0: 8.2048E-10 | 10: delta_r/delta_0: 6.1012E-10 | 11: delta_s/delta_0: 2.8149E-09 | 12: delta_r/delta_0: 5.1652E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.733586230519920E-003 2.810960870407691E-005 | BP delta = -0.2378908 -0.2048533 57388043.8328524 | BP delta = -0.2473165 -0.2142789 57388045.0706999 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81249136 | --> Sampling calibration, mode = relcal | relcal = 0.2955311 0.2249978 -0.2839316 -0.2365972 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1523133E-04 5.2265278E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0197E-03 | 2: delta_r/delta_0: 2.4489E-05 | 3: delta_s/delta_0: 1.8742E-05 | 4: delta_r/delta_0: 1.4165E-06 | 5: delta_s/delta_0: 4.8956E-07 | 6: delta_r/delta_0: 2.0546E-07 | 7: delta_s/delta_0: 6.2679E-07 | 8: delta_r/delta_0: 3.9227E-08 | 9: delta_s/delta_0: 7.3446E-08 | 10: delta_r/delta_0: 5.2933E-08 | 11: delta_s/delta_0: 1.9551E-09 | 12: delta_r/delta_0: 1.1106E-09 | 13: delta_s/delta_0: 6.8868E-09 | 14: delta_r/delta_0: 1.5539E-09 | 15: delta_s/delta_0: 8.4692E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.466974461102811E-002 4.020500295562252E-005 | BP delta = -0.1418944 -0.1936543 72483093.7912714 | BP delta = -0.1227268 -0.1744867 72483094.0799844 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95938667 | --> Sampling calibration, mode = relcal | relcal = 0.1065340 0.1395667 -0.1102876 -0.1358131 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0483911E-02 1.4020020E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6401E-04 | 2: delta_r/delta_0: 4.4367E-06 | 3: delta_s/delta_0: 4.6754E-06 | 4: delta_r/delta_0: 8.1705E-07 | 5: delta_s/delta_0: 1.7125E-07 | 6: delta_r/delta_0: 1.0809E-07 | 7: delta_s/delta_0: 6.3785E-07 | 8: delta_r/delta_0: 2.3869E-08 | 9: delta_s/delta_0: 2.5408E-08 | 10: delta_r/delta_0: 1.4904E-08 | 11: delta_s/delta_0: 1.5123E-09 | 12: delta_r/delta_0: 8.1715E-10 | 13: delta_s/delta_0: 3.1354E-10 | 14: delta_r/delta_0: 1.9404E-10 | 15: delta_s/delta_0: 8.2965E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.916935688805196E-002 3.696300264281923E-005 | BP delta = 9.3472287E-02 0.2110219 72784574.5809092 | BP delta = 8.8563293E-02 0.2061129 72784574.7446761 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109027 | New value = -3.143082 | poltype: 2 pol: 1 CPU time specind = 1.6937971E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140020 | New value = -3.114045 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.082127 | New value = -3.136788 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.147733 | New value = -3.111528 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.057557 | New value = -3.142014 | poltype: 2 pol: 2 CPU time specind = 6.0379505E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.13546E+08, tol = 0.82642E+01, time = 5.40 | CG iter. 2 -- res = 0.31664E+06, tol = 0.82642E+01, time = 5.59 | CG iter. 3 -- res = 0.49551E+05, tol = 0.82642E+01, time = 5.90 | CG iter. 4 -- res = 0.26160E+05, tol = 0.82642E+01, time = 5.85 | CG iter. 5 -- res = 0.16609E+05, tol = 0.82642E+01, time = 5.76 | CG iter. 6 -- res = 0.12877E+05, tol = 0.82642E+01, time = 5.97 | CG iter. 7 -- res = 0.11729E+05, tol = 0.82642E+01, time = 5.80 | CG iter. 8 -- res = 0.10161E+05, tol = 0.82642E+01, time = 6.06 | CG iter. 9 -- res = 0.95464E+04, tol = 0.82642E+01, time = 5.86 | CG iter. 10 -- res = 0.86436E+04, tol = 0.82642E+01, time = 5.88 | CG iter. 11 -- res = 0.63813E+04, tol = 0.82642E+01, time = 6.09 | CG iter. 12 -- res = 0.41605E+04, tol = 0.82642E+01, time = 6.07 | CG iter. 13 -- res = 0.29582E+04, tol = 0.82642E+01, time = 5.82 | CG iter. 14 -- res = 0.25324E+04, tol = 0.82642E+01, time = 5.76 | CG iter. 15 -- res = 0.22636E+04, tol = 0.82642E+01, time = 5.68 | CG iter. 16 -- res = 0.17453E+04, tol = 0.82642E+01, time = 11.92 | CG iter. 17 -- res = 0.12411E+04, tol = 0.82642E+01, time = 5.45 | CG iter. 18 -- res = 0.94406E+03, tol = 0.82642E+01, time = 5.93 | CG iter. 19 -- res = 0.78771E+03, tol = 0.82642E+01, time = 5.62 | CG iter. 20 -- res = 0.61319E+03, tol = 0.82642E+01, time = 6.28 | CG iter. 21 -- res = 0.43052E+03, tol = 0.82642E+01, time = 5.59 | CG iter. 22 -- res = 0.32701E+03, tol = 0.82642E+01, time = 6.22 | CG iter. 23 -- res = 0.28546E+03, tol = 0.82642E+01, time = 5.78 | CG iter. 24 -- res = 0.23680E+03, tol = 0.82642E+01, time = 5.67 | CG iter. 25 -- res = 0.17160E+03, tol = 0.82642E+01, time = 5.92 | CG iter. 26 -- res = 0.12647E+03, tol = 0.82642E+01, time = 5.40 | CG iter. 27 -- res = 0.10221E+03, tol = 0.82642E+01, time = 5.70 | CG iter. 28 -- res = 0.86334E+02, tol = 0.82642E+01, time = 5.61 | CG iter. 29 -- res = 0.66103E+02, tol = 0.82642E+01, time = 5.99 | CG iter. 30 -- res = 0.50025E+02, tol = 0.82642E+01, time = 6.52 | CG iter. 31 -- res = 0.42658E+02, tol = 0.82642E+01, time = 6.83 | CG iter. 32 -- res = 0.37156E+02, tol = 0.82642E+01, time = 5.94 | CG iter. 33 -- res = 0.29523E+02, tol = 0.82642E+01, time = 5.52 | CG iter. 34 -- res = 0.22135E+02, tol = 0.82642E+01, time = 5.92 | CG iter. 35 -- res = 0.17410E+02, tol = 0.82642E+01, time = 5.89 | CG iter. 36 -- res = 0.15360E+02, tol = 0.82642E+01, time = 5.87 | CG iter. 37 -- res = 0.12646E+02, tol = 0.82642E+01, time = 5.57 | CG iter. 38 -- res = 0.97882E+01, tol = 0.82642E+01, time = 5.79 | CG iter. 39 -- res = 0.79925E+01, tol = 0.82642E+01, time = 5.77 | CG iter. 40 -- res = 0.69740E+01, tol = 0.82642E+01, time = 5.91 | CG iter. 41 -- res = 0.60098E+01, tol = 0.82642E+01, time = 5.78 | CG iter. 42 -- res = 0.48761E+01, tol = 0.82642E+01, time = 6.42 | CG iter. 43 -- res = 0.38080E+01, tol = 0.82642E+01, time = 5.88 | CG iter. 44 -- res = 0.32068E+01, tol = 0.82642E+01, time = 5.63 | CG iter. 45 -- res = 0.27059E+01, tol = 0.82642E+01, time = 5.77 | CG iter. 46 -- res = 0.21517E+01, tol = 0.82642E+01, time = 5.93 | CG iter. 47 -- res = 0.17422E+01, tol = 0.82642E+01, time = 5.81 | CG iter. 48 -- res = 0.14155E+01, tol = 0.82642E+01, time = 5.72 | CG iter. 49 -- res = 0.12222E+01, tol = 0.82642E+01, time = 6.84 | CG iter. 50 -- res = 0.10403E+01, tol = 0.82642E+01, time = 5.72 | Final CG iter 51 -- res = 0.10403E+01, tol = 0.82642E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8415518.285 | Old band monopole 8552693.897 | Change to band monopole -137175.612 | Change to component monopole 137175.022 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.79055E+05, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.55395E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.22727E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.67722E-02, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.13913E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8415482.088 | (Sampled value in CG: 8376230.227 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.482835 | New value = 1.454767 | poltype: 2 pol: 1 CPU time specind = 2.0901918E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485860 | New value = 1.525944 | poltype: 2 pol: 2 CPU time specind = 8.2709789E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.24170E+08, tol = 0.47426E+04, time = 6.97 | CG iter. 2 -- res = 0.54015E+07, tol = 0.47426E+04, time = 7.50 | CG iter. 3 -- res = 0.85597E+06, tol = 0.47426E+04, time = 9.74 | CG iter. 4 -- res = 0.35636E+06, tol = 0.47426E+04, time = 6.83 | CG iter. 5 -- res = 0.15031E+06, tol = 0.47426E+04, time = 6.91 | CG iter. 6 -- res = 0.79011E+05, tol = 0.47426E+04, time = 6.81 | CG iter. 7 -- res = 0.43138E+05, tol = 0.47426E+04, time = 7.01 | CG iter. 8 -- res = 0.20902E+05, tol = 0.47426E+04, time = 7.89 | CG iter. 9 -- res = 0.91569E+04, tol = 0.47426E+04, time = 8.00 | CG iter. 10 -- res = 0.37221E+04, tol = 0.47426E+04, time = 7.07 | CG iter. 11 -- res = 0.17055E+04, tol = 0.47426E+04, time = 7.03 | CG iter. 12 -- res = 0.86771E+03, tol = 0.47426E+04, time = 7.03 | CG iter. 13 -- res = 0.48813E+03, tol = 0.47426E+04, time = 6.50 | CG iter. 14 -- res = 0.27681E+03, tol = 0.47426E+04, time = 6.86 | CG iter. 15 -- res = 0.14200E+03, tol = 0.47426E+04, time = 6.70 | CG iter. 16 -- res = 0.68280E+02, tol = 0.47426E+04, time = 6.69 | CG iter. 17 -- res = 0.31374E+02, tol = 0.47426E+04, time = 6.35 | CG iter. 18 -- res = 0.15510E+02, tol = 0.47426E+04, time = 6.80 | CG iter. 19 -- res = 0.84023E+01, tol = 0.47426E+04, time = 6.70 | CG iter. 20 -- res = 0.46873E+01, tol = 0.47426E+04, time = 6.64 | CG iter. 21 -- res = 0.25210E+01, tol = 0.47426E+04, time = 6.85 | CG iter. 22 -- res = 0.12860E+01, tol = 0.47426E+04, time = 6.73 | CG iter. 23 -- res = 0.64524E+00, tol = 0.47426E+04, time = 6.65 | CG iter. 24 -- res = 0.34315E+00, tol = 0.47426E+04, time = 6.80 | CG iter. 25 -- res = 0.18765E+00, tol = 0.47426E+04, time = 6.63 | CG iter. 26 -- res = 0.10807E+00, tol = 0.47426E+04, time = 6.62 | CG iter. 27 -- res = 0.61392E-01, tol = 0.47426E+04, time = 6.95 | CG iter. 28 -- res = 0.32871E-01, tol = 0.47426E+04, time = 6.63 | CG iter. 29 -- res = 0.17484E-01, tol = 0.47426E+04, time = 6.63 | CG iter. 30 -- res = 0.93000E-02, tol = 0.47426E+04, time = 6.84 | CG iter. 31 -- res = 0.51036E-02, tol = 0.47426E+04, time = 6.69 | CG iter. 32 -- res = 0.29461E-02, tol = 0.47426E+04, time = 7.01 | CG iter. 33 -- res = 0.16674E-02, tol = 0.47426E+04, time = 6.78 | CG iter. 34 -- res = 0.92545E-03, tol = 0.47426E+04, time = 6.26 | CG iter. 35 -- res = 0.47740E-03, tol = 0.47426E+04, time = 7.00 | Final CG iter 36 -- res = 0.47740E-03, tol = 0.47426E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.118 2.730 | New value 0.084 | Old value -5.118 | Difference 5.202 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.13980E+07, tol = 0.47627E+18, time = 3.98 | CG iter. 2 -- res = 0.46499E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.14066E+01, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.16056E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.26402E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8415482.088 | (Sampled value in CG: 8376046.082 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.447218 | New value = -3.575368 | poltype: 1 pol: 1 CPU time specind = 1.6447067E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.22537E+07, tol = 0.25982E+01, time = 3.03 | CG iter. 2 -- res = 0.80227E+06, tol = 0.25982E+01, time = 2.89 | CG iter. 3 -- res = 0.15688E+06, tol = 0.25982E+01, time = 2.86 | CG iter. 4 -- res = 0.63410E+05, tol = 0.25982E+01, time = 2.83 | CG iter. 5 -- res = 0.35491E+05, tol = 0.25982E+01, time = 2.93 | CG iter. 6 -- res = 0.18936E+05, tol = 0.25982E+01, time = 2.53 | CG iter. 7 -- res = 0.75650E+04, tol = 0.25982E+01, time = 2.79 | CG iter. 8 -- res = 0.32227E+04, tol = 0.25982E+01, time = 2.81 | CG iter. 9 -- res = 0.13687E+04, tol = 0.25982E+01, time = 4.91 | CG iter. 10 -- res = 0.52854E+03, tol = 0.25982E+01, time = 7.10 | CG iter. 11 -- res = 0.22463E+03, tol = 0.25982E+01, time = 2.85 | CG iter. 12 -- res = 0.11383E+03, tol = 0.25982E+01, time = 2.81 | CG iter. 13 -- res = 0.57921E+02, tol = 0.25982E+01, time = 2.79 | CG iter. 14 -- res = 0.28358E+02, tol = 0.25982E+01, time = 2.81 | CG iter. 15 -- res = 0.12709E+02, tol = 0.25982E+01, time = 2.76 | CG iter. 16 -- res = 0.54940E+01, tol = 0.25982E+01, time = 2.88 | CG iter. 17 -- res = 0.23274E+01, tol = 0.25982E+01, time = 2.86 | CG iter. 18 -- res = 0.10520E+01, tol = 0.25982E+01, time = 2.85 | CG iter. 19 -- res = 0.53559E+00, tol = 0.25982E+01, time = 2.63 | CG iter. 20 -- res = 0.27583E+00, tol = 0.25982E+01, time = 2.84 | CG iter. 21 -- res = 0.13767E+00, tol = 0.25982E+01, time = 2.85 | CG iter. 22 -- res = 0.63762E-01, tol = 0.25982E+01, time = 2.99 | CG iter. 23 -- res = 0.27755E-01, tol = 0.25982E+01, time = 2.74 | CG iter. 24 -- res = 0.13228E-01, tol = 0.25982E+01, time = 2.57 | CG iter. 25 -- res = 0.70047E-02, tol = 0.25982E+01, time = 2.85 | CG iter. 26 -- res = 0.35083E-02, tol = 0.25982E+01, time = 2.46 | CG iter. 27 -- res = 0.17805E-02, tol = 0.25982E+01, time = 2.81 | CG iter. 28 -- res = 0.86033E-03, tol = 0.25982E+01, time = 2.73 | CG iter. 29 -- res = 0.38058E-03, tol = 0.25982E+01, time = 2.86 | CG iter. 30 -- res = 0.17929E-03, tol = 0.25982E+01, time = 2.53 | CG iter. 31 -- res = 0.89218E-04, tol = 0.25982E+01, time = 2.79 | CG iter. 32 -- res = 0.44317E-04, tol = 0.25982E+01, time = 2.80 | CG iter. 33 -- res = 0.21992E-04, tol = 0.25982E+01, time = 2.63 | CG iter. 34 -- res = 0.10926E-04, tol = 0.25982E+01, time = 2.82 | CG iter. 35 -- res = 0.51695E-05, tol = 0.25982E+01, time = 2.85 | CG iter. 36 -- res = 0.24063E-05, tol = 0.25982E+01, time = 2.75 | CG iter. 37 -- res = 0.11124E-05, tol = 0.25982E+01, time = 2.69 | CG iter. 38 -- res = 0.54379E-06, tol = 0.25982E+01, time = 2.87 | CG iter. 39 -- res = 0.26818E-06, tol = 0.25982E+01, time = 2.75 | CG iter. 40 -- res = 0.12954E-06, tol = 0.25982E+01, time = 4.15 | CG iter. 41 -- res = 0.60747E-07, tol = 0.25982E+01, time = 3.07 | CG iter. 42 -- res = 0.29473E-07, tol = 0.25982E+01, time = 2.86 | CG iter. 43 -- res = 0.13572E-07, tol = 0.25982E+01, time = 3.28 | CG iter. 44 -- res = 0.67527E-08, tol = 0.25982E+01, time = 2.64 | CG iter. 45 -- res = 0.34089E-08, tol = 0.25982E+01, time = 2.73 | CG iter. 46 -- res = 0.15951E-08, tol = 0.25982E+01, time = 2.97 | CG iter. 47 -- res = 0.77070E-09, tol = 0.25982E+01, time = 2.86 | CG iter. 48 -- res = 0.36684E-09, tol = 0.25982E+01, time = 2.79 | CG iter. 49 -- res = 0.16704E-09, tol = 0.25982E+01, time = 2.74 | CG iter. 50 -- res = 0.77519E-10, tol = 0.25982E+01, time = 2.57 | Final CG iter 51 -- res = 0.77519E-10, tol = 0.25982E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.658 5.383 | New value 5.498 | Old value 0.658 | Difference 4.840 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.24531E+05, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.27220E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.98520E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.22524E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.21595E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8415482.088 | (Sampled value in CG: 8386308.562 ) | CPU time specind = 1215.916 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.68742E+08, tol = 0.57595E+04, time = 12.00 | CG iter. 2 -- res = 0.58976E+08, tol = 0.57595E+04, time = 12.25 | CG iter. 3 -- res = 0.15574E+08, tol = 0.57595E+04, time = 12.16 | CG iter. 4 -- res = 0.66787E+07, tol = 0.57595E+04, time = 11.90 | CG iter. 5 -- res = 0.39387E+07, tol = 0.57595E+04, time = 11.96 | CG iter. 6 -- res = 0.22560E+07, tol = 0.57595E+04, time = 11.92 | CG iter. 7 -- res = 0.13274E+07, tol = 0.57595E+04, time = 11.99 | CG iter. 8 -- res = 0.89484E+06, tol = 0.57595E+04, time = 18.10 | CG iter. 9 -- res = 0.57133E+06, tol = 0.57595E+04, time = 12.41 | CG iter. 10 -- res = 0.33889E+06, tol = 0.57595E+04, time = 12.31 | CG iter. 11 -- res = 0.18758E+06, tol = 0.57595E+04, time = 11.84 | CG iter. 12 -- res = 0.10107E+06, tol = 0.57595E+04, time = 11.95 | CG iter. 13 -- res = 0.55343E+05, tol = 0.57595E+04, time = 12.23 | CG iter. 14 -- res = 0.31809E+05, tol = 0.57595E+04, time = 12.01 | CG iter. 15 -- res = 0.20909E+05, tol = 0.57595E+04, time = 13.59 | CG iter. 16 -- res = 0.15407E+05, tol = 0.57595E+04, time = 12.73 | CG iter. 17 -- res = 0.11977E+05, tol = 0.57595E+04, time = 12.10 | CG iter. 18 -- res = 0.90420E+04, tol = 0.57595E+04, time = 12.33 | CG iter. 19 -- res = 0.65996E+04, tol = 0.57595E+04, time = 12.22 | CG iter. 20 -- res = 0.49748E+04, tol = 0.57595E+04, time = 12.07 | CG iter. 21 -- res = 0.41908E+04, tol = 0.57595E+04, time = 12.18 | CG iter. 22 -- res = 0.40146E+04, tol = 0.57595E+04, time = 12.33 | CG iter. 23 -- res = 0.42217E+04, tol = 0.57595E+04, time = 12.37 | CG iter. 24 -- res = 0.45779E+04, tol = 0.57595E+04, time = 12.63 | CG iter. 25 -- res = 0.47592E+04, tol = 0.57595E+04, time = 12.33 | CG iter. 26 -- res = 0.44543E+04, tol = 0.57595E+04, time = 11.91 | CG iter. 27 -- res = 0.37471E+04, tol = 0.57595E+04, time = 12.05 | CG iter. 28 -- res = 0.29804E+04, tol = 0.57595E+04, time = 11.77 | CG iter. 29 -- res = 0.23800E+04, tol = 0.57595E+04, time = 12.08 | CG iter. 30 -- res = 0.20158E+04, tol = 0.57595E+04, time = 12.03 | CG iter. 31 -- res = 0.17244E+04, tol = 0.57595E+04, time = 12.29 | CG iter. 32 -- res = 0.14544E+04, tol = 0.57595E+04, time = 18.74 | CG iter. 33 -- res = 0.11761E+04, tol = 0.57595E+04, time = 12.19 | CG iter. 34 -- res = 0.93296E+03, tol = 0.57595E+04, time = 11.63 | CG iter. 35 -- res = 0.74610E+03, tol = 0.57595E+04, time = 12.30 | CG iter. 36 -- res = 0.63439E+03, tol = 0.57595E+04, time = 12.08 | CG iter. 37 -- res = 0.57554E+03, tol = 0.57595E+04, time = 12.28 | CG iter. 38 -- res = 0.55022E+03, tol = 0.57595E+04, time = 12.00 | CG iter. 39 -- res = 0.52981E+03, tol = 0.57595E+04, time = 13.76 | CG iter. 40 -- res = 0.48758E+03, tol = 0.57595E+04, time = 12.32 | CG iter. 41 -- res = 0.41954E+03, tol = 0.57595E+04, time = 11.93 | CG iter. 42 -- res = 0.34592E+03, tol = 0.57595E+04, time = 12.31 | CG iter. 43 -- res = 0.29215E+03, tol = 0.57595E+04, time = 12.22 | CG iter. 44 -- res = 0.26004E+03, tol = 0.57595E+04, time = 11.91 | CG iter. 45 -- res = 0.23275E+03, tol = 0.57595E+04, time = 11.80 | CG iter. 46 -- res = 0.21267E+03, tol = 0.57595E+04, time = 12.39 | CG iter. 47 -- res = 0.19007E+03, tol = 0.57595E+04, time = 12.01 | CG iter. 48 -- res = 0.15737E+03, tol = 0.57595E+04, time = 11.68 | CG iter. 49 -- res = 0.13204E+03, tol = 0.57595E+04, time = 12.02 | CG iter. 50 -- res = 0.11584E+03, tol = 0.57595E+04, time = 13.07 | CG iter. 51 -- res = 0.10745E+03, tol = 0.57595E+04, time = 12.48 | CG iter. 52 -- res = 0.10425E+03, tol = 0.57595E+04, time = 12.54 | CG iter. 53 -- res = 0.99596E+02, tol = 0.57595E+04, time = 11.72 | CG iter. 54 -- res = 0.92110E+02, tol = 0.57595E+04, time = 12.27 | CG iter. 55 -- res = 0.85623E+02, tol = 0.57595E+04, time = 12.16 | CG iter. 56 -- res = 0.77185E+02, tol = 0.57595E+04, time = 18.70 | CG iter. 57 -- res = 0.68620E+02, tol = 0.57595E+04, time = 12.22 | CG iter. 58 -- res = 0.62605E+02, tol = 0.57595E+04, time = 12.18 | CG iter. 59 -- res = 0.58842E+02, tol = 0.57595E+04, time = 12.06 | CG iter. 60 -- res = 0.53964E+02, tol = 0.57595E+04, time = 12.02 | Final CG iter 61 -- res = 0.53964E+02, tol = 0.57595E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.757 ( -229.809 -2229.892 2512.208 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10207462.600 | Old band monopole 8415518.285 | Change to band monopole 1791944.315 | Change to component monopole -1791936.608 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.121 2.738 | New value -0.725 | Old value 0.121 | Difference -0.847 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.540 ( 7.312 10.078 -9.536 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.951 4.839 | New value -1.967 | Old value 13.951 | Difference -15.918 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.33391E+06, tol = 0.47627E+18, time = 2.29 | CG iter. 2 -- res = 0.10122E+03, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.35612E+01, tol = 0.47627E+18, time = 2.38 | CG iter. 4 -- res = 0.48087E-02, tol = 0.47627E+18, time = 2.45 | Final CG iter 5 -- res = 0.16920E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10207418.696 | (Sampled value in CG: 10181377.819 ) | Chain = 1 -- chisq = 0.81620820E+09 | Chain = 1 -- wall time = 5752.801 sec Available RAM: MemAvailable: 385824200 kB Available Swap: SwapFree: 1125209424 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 390 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444690 | --> Sampling calibration, mode = relcal | relcal = 1.3439554E-02 7.5435184E-04 -1.6038035E-03 -1.2590102E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1817273 0.1993295 9403595.26799770 | BP delta = 0.1817273 0.2138186 9403613.97179581 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632521 | --> Sampling calibration, mode = relcal | relcal = -2.8216143E-03 -7.0401788E-04 1.6788272E-03 1.6139420E-03 -4.0745048E-04 6.4031343E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5401195 15216589.3027538 | BP delta = 0.0000000E+00 -0.5395257 15216584.1652007 | BP chisq diff = -5.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18297461732896 | --> Sampling calibration, mode = relcal | relcal = -7.5053781E-02 -5.8608923E-02 9.1986924E-02 4.1675776E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.0028779E-05 5.0483453E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1252E-05 | 2: delta_r/delta_0: 9.4561E-07 | 3: delta_s/delta_0: 2.0326E-07 | 4: delta_r/delta_0: 2.3163E-08 | 5: delta_s/delta_0: 1.9376E-08 | 6: delta_r/delta_0: 1.2568E-09 | 7: delta_s/delta_0: 2.4528E-10 | 8: delta_r/delta_0: 1.1694E-10 | 9: delta_s/delta_0: 2.3613E-10 | 10: delta_r/delta_0: 6.0301E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.295816750941923E-003 2.736490627202042E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1251E-05 | 2: delta_r/delta_0: 9.4561E-07 | 3: delta_s/delta_0: 2.0327E-07 | 4: delta_r/delta_0: 2.3166E-08 | 5: delta_s/delta_0: 1.9382E-08 | 6: delta_r/delta_0: 1.2569E-09 | 7: delta_s/delta_0: 2.4529E-10 | 8: delta_r/delta_0: 1.1695E-10 | 9: delta_s/delta_0: 2.3614E-10 | 10: delta_r/delta_0: 6.0316E-11 | Reached bicg-stab tolerance | BP delta = 7.2598629E-02 9.6151717E-02 3499520.61263934 | BP delta = 7.2598629E-02 9.5909573E-02 3497650.42117810 | BP chisq diff = -1870.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02593870 | --> Sampling calibration, mode = relcal | relcal = -0.1067292 -9.5484383E-02 0.1448424 5.7371188E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3217343E-03 1.7850845E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.8220E-05 | 2: delta_r/delta_0: 1.1811E-06 | 3: delta_s/delta_0: 2.3779E-07 | 4: delta_r/delta_0: 5.1193E-08 | 5: delta_s/delta_0: 1.5666E-08 | 6: delta_r/delta_0: 6.6580E-09 | 7: delta_s/delta_0: 1.4677E-08 | 8: delta_r/delta_0: 1.0055E-09 | 9: delta_s/delta_0: 8.8203E-10 | 10: delta_r/delta_0: 2.3960E-10 | 11: delta_s/delta_0: 2.3188E-09 | 12: delta_r/delta_0: 2.5124E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.477414750955628E-003 2.810983880389770E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.8220E-05 | 2: delta_r/delta_0: 1.1811E-06 | 3: delta_s/delta_0: 2.3778E-07 | 4: delta_r/delta_0: 5.1181E-08 | 5: delta_s/delta_0: 1.5668E-08 | 6: delta_r/delta_0: 6.6572E-09 | 7: delta_s/delta_0: 1.4672E-08 | 8: delta_r/delta_0: 1.0053E-09 | 9: delta_s/delta_0: 8.8201E-10 | 10: delta_r/delta_0: 2.3948E-10 | 11: delta_s/delta_0: 2.3175E-09 | 12: delta_r/delta_0: 2.5114E-11 | Reached bicg-stab tolerance | BP delta = -0.2378908 -0.2048533 2841584.62210795 | BP delta = -0.2378908 -0.2069512 2841580.57669777 | BP chisq diff = -4.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81231376 | --> Sampling calibration, mode = relcal | relcal = 0.2954967 0.2248513 -0.2837791 -0.2365690 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2282047E-04 5.1564407E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.3413E-03 | 2: delta_r/delta_0: 7.9424E-05 | 3: delta_s/delta_0: 6.8772E-05 | 4: delta_r/delta_0: 4.1039E-06 | 5: delta_s/delta_0: 7.9542E-07 | 6: delta_r/delta_0: 2.7288E-07 | 7: delta_s/delta_0: 5.7295E-07 | 8: delta_r/delta_0: 5.7752E-08 | 9: delta_s/delta_0: 7.7239E-05 | 10: delta_r/delta_0: 2.6590E-05 | 11: delta_s/delta_0: 3.3134E-09 | 12: delta_r/delta_0: 1.2325E-09 | 13: delta_s/delta_0: 2.3001E-07 | 14: delta_r/delta_0: 1.1110E-08 | 15: delta_s/delta_0: 9.1046E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.996290776158645E-002 4.021306240179222E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.3432E-03 | 2: delta_r/delta_0: 7.9468E-05 | 3: delta_s/delta_0: 6.8803E-05 | 4: delta_r/delta_0: 4.1058E-06 | 5: delta_s/delta_0: 7.9562E-07 | 6: delta_r/delta_0: 2.7288E-07 | 7: delta_s/delta_0: 5.7223E-07 | 8: delta_r/delta_0: 5.7760E-08 | 9: delta_s/delta_0: 7.5265E-05 | 10: delta_r/delta_0: 2.5886E-05 | 11: delta_s/delta_0: 3.3137E-09 | 12: delta_r/delta_0: 1.2326E-09 | 13: delta_s/delta_0: 2.2841E-07 | 14: delta_r/delta_0: 1.1019E-08 | 15: delta_s/delta_0: 9.1047E-11 | Reached bicg-stab tolerance | BP delta = -0.1227268 -0.1744867 2827808.41117433 | BP delta = -0.1227268 -0.1729341 2827803.65823874 | BP chisq diff = -4.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95916801 | --> Sampling calibration, mode = relcal | relcal = 0.1063711 0.1396824 -0.1102423 -0.1358112 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0240306E-02 1.3077307E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7338E-04 | 2: delta_r/delta_0: 4.6476E-06 | 3: delta_s/delta_0: 6.2538E-06 | 4: delta_r/delta_0: 9.6808E-07 | 5: delta_s/delta_0: 1.8443E-07 | 6: delta_r/delta_0: 1.2089E-07 | 7: delta_s/delta_0: 6.8468E-07 | 8: delta_r/delta_0: 2.5310E-08 | 9: delta_s/delta_0: 1.4611E-07 | 10: delta_r/delta_0: 8.3177E-08 | 11: delta_s/delta_0: 1.6782E-09 | 12: delta_r/delta_0: 1.1344E-09 | 13: delta_s/delta_0: 4.8408E-10 | 14: delta_r/delta_0: 3.1307E-10 | 15: delta_s/delta_0: 7.9142E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.926409392563483E-002 3.697095315023882E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7338E-04 | 2: delta_r/delta_0: 4.6477E-06 | 3: delta_s/delta_0: 6.2544E-06 | 4: delta_r/delta_0: 9.6830E-07 | 5: delta_s/delta_0: 1.8447E-07 | 6: delta_r/delta_0: 1.2091E-07 | 7: delta_s/delta_0: 6.8480E-07 | 8: delta_r/delta_0: 2.5313E-08 | 9: delta_s/delta_0: 1.4442E-07 | 10: delta_r/delta_0: 8.2401E-08 | 11: delta_s/delta_0: 1.6765E-09 | 12: delta_r/delta_0: 1.1330E-09 | 13: delta_s/delta_0: 4.8504E-10 | 14: delta_r/delta_0: 3.1259E-10 | 15: delta_s/delta_0: 7.9199E-11 | Reached bicg-stab tolerance | BP delta = 8.8563293E-02 0.2061129 3004674.54402062 | BP delta = 8.8563293E-02 0.1970141 3004821.89282534 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143082 | New value = -3.083248 | poltype: 2 pol: 1 CPU time specind = 1.6514063E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114045 | New value = -3.215427 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136788 | New value = -3.140319 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111528 | New value = -3.165862 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142014 | New value = -3.144020 | poltype: 2 pol: 2 CPU time specind = 4.5480728E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.13666E+08, tol = 0.70860E+01, time = 5.49 | CG iter. 2 -- res = 0.37475E+06, tol = 0.70860E+01, time = 5.73 | CG iter. 3 -- res = 0.94150E+05, tol = 0.70860E+01, time = 6.17 | CG iter. 4 -- res = 0.99144E+05, tol = 0.70860E+01, time = 5.67 | CG iter. 5 -- res = 0.99921E+05, tol = 0.70860E+01, time = 7.51 | CG iter. 6 -- res = 0.96092E+05, tol = 0.70860E+01, time = 5.94 | CG iter. 7 -- res = 0.78999E+05, tol = 0.70860E+01, time = 5.72 | CG iter. 8 -- res = 0.52410E+05, tol = 0.70860E+01, time = 5.76 | CG iter. 9 -- res = 0.41825E+05, tol = 0.70860E+01, time = 5.38 | CG iter. 10 -- res = 0.33573E+05, tol = 0.70860E+01, time = 5.79 | CG iter. 11 -- res = 0.23314E+05, tol = 0.70860E+01, time = 5.72 | CG iter. 12 -- res = 0.17596E+05, tol = 0.70860E+01, time = 5.49 | CG iter. 13 -- res = 0.14060E+05, tol = 0.70860E+01, time = 5.86 | CG iter. 14 -- res = 0.11572E+05, tol = 0.70860E+01, time = 5.90 | CG iter. 15 -- res = 0.89051E+04, tol = 0.70860E+01, time = 5.52 | CG iter. 16 -- res = 0.59193E+04, tol = 0.70860E+01, time = 5.38 | CG iter. 17 -- res = 0.40510E+04, tol = 0.70860E+01, time = 6.08 | CG iter. 18 -- res = 0.32247E+04, tol = 0.70860E+01, time = 5.52 | CG iter. 19 -- res = 0.28176E+04, tol = 0.70860E+01, time = 5.57 | CG iter. 20 -- res = 0.21618E+04, tol = 0.70860E+01, time = 5.93 | CG iter. 21 -- res = 0.15133E+04, tol = 0.70860E+01, time = 5.49 | CG iter. 22 -- res = 0.11767E+04, tol = 0.70860E+01, time = 5.27 | CG iter. 23 -- res = 0.10049E+04, tol = 0.70860E+01, time = 5.86 | CG iter. 24 -- res = 0.80922E+03, tol = 0.70860E+01, time = 5.99 | CG iter. 25 -- res = 0.58822E+03, tol = 0.70860E+01, time = 5.74 | CG iter. 26 -- res = 0.46295E+03, tol = 0.70860E+01, time = 5.55 | CG iter. 27 -- res = 0.40039E+03, tol = 0.70860E+01, time = 5.91 | CG iter. 28 -- res = 0.34455E+03, tol = 0.70860E+01, time = 5.57 | CG iter. 29 -- res = 0.24707E+03, tol = 0.70860E+01, time = 5.72 | CG iter. 30 -- res = 0.18820E+03, tol = 0.70860E+01, time = 5.71 | CG iter. 31 -- res = 0.15274E+03, tol = 0.70860E+01, time = 5.54 | CG iter. 32 -- res = 0.12497E+03, tol = 0.70860E+01, time = 5.66 | CG iter. 33 -- res = 0.94279E+02, tol = 0.70860E+01, time = 5.52 | CG iter. 34 -- res = 0.70138E+02, tol = 0.70860E+01, time = 6.03 | CG iter. 35 -- res = 0.57142E+02, tol = 0.70860E+01, time = 6.18 | CG iter. 36 -- res = 0.46996E+02, tol = 0.70860E+01, time = 5.43 | CG iter. 37 -- res = 0.37533E+02, tol = 0.70860E+01, time = 5.57 | CG iter. 38 -- res = 0.26311E+02, tol = 0.70860E+01, time = 5.70 | CG iter. 39 -- res = 0.20082E+02, tol = 0.70860E+01, time = 5.95 | CG iter. 40 -- res = 0.16319E+02, tol = 0.70860E+01, time = 5.53 | CG iter. 41 -- res = 0.12695E+02, tol = 0.70860E+01, time = 7.17 | CG iter. 42 -- res = 0.91506E+01, tol = 0.70860E+01, time = 10.30 | CG iter. 43 -- res = 0.69754E+01, tol = 0.70860E+01, time = 5.48 | CG iter. 44 -- res = 0.56106E+01, tol = 0.70860E+01, time = 6.01 | CG iter. 45 -- res = 0.44653E+01, tol = 0.70860E+01, time = 5.86 | CG iter. 46 -- res = 0.32875E+01, tol = 0.70860E+01, time = 5.53 | CG iter. 47 -- res = 0.24030E+01, tol = 0.70860E+01, time = 5.56 | CG iter. 48 -- res = 0.18297E+01, tol = 0.70860E+01, time = 5.90 | CG iter. 49 -- res = 0.14376E+01, tol = 0.70860E+01, time = 5.75 | CG iter. 50 -- res = 0.10481E+01, tol = 0.70860E+01, time = 5.87 | Final CG iter 51 -- res = 0.10481E+01, tol = 0.70860E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9559100.563 | Old band monopole 10207462.600 | Change to band monopole -648362.037 | Change to component monopole 648359.248 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.32065E+06, tol = 0.47627E+18, time = 3.06 | CG iter. 2 -- res = 0.15003E+03, tol = 0.47627E+18, time = 2.64 | CG iter. 3 -- res = 0.36018E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.24577E-01, tol = 0.47627E+18, time = 2.23 | Final CG iter 5 -- res = 0.30935E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9559059.447 | (Sampled value in CG: 9634714.676 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.454767 | New value = 1.489587 | poltype: 2 pol: 1 CPU time specind = 1.6503811E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.525944 | New value = 1.534560 | poltype: 2 pol: 2 CPU time specind = 8.1160069E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.24271E+08, tol = 0.47554E+04, time = 6.35 | CG iter. 2 -- res = 0.53784E+07, tol = 0.47554E+04, time = 6.69 | CG iter. 3 -- res = 0.86852E+06, tol = 0.47554E+04, time = 6.61 | CG iter. 4 -- res = 0.34964E+06, tol = 0.47554E+04, time = 6.50 | CG iter. 5 -- res = 0.14645E+06, tol = 0.47554E+04, time = 6.60 | CG iter. 6 -- res = 0.76921E+05, tol = 0.47554E+04, time = 6.60 | CG iter. 7 -- res = 0.43425E+05, tol = 0.47554E+04, time = 6.06 | CG iter. 8 -- res = 0.20786E+05, tol = 0.47554E+04, time = 6.69 | CG iter. 9 -- res = 0.89398E+04, tol = 0.47554E+04, time = 6.93 | CG iter. 10 -- res = 0.35596E+04, tol = 0.47554E+04, time = 6.31 | CG iter. 11 -- res = 0.16429E+04, tol = 0.47554E+04, time = 6.69 | CG iter. 12 -- res = 0.85814E+03, tol = 0.47554E+04, time = 6.36 | CG iter. 13 -- res = 0.48603E+03, tol = 0.47554E+04, time = 6.92 | CG iter. 14 -- res = 0.27567E+03, tol = 0.47554E+04, time = 6.56 | CG iter. 15 -- res = 0.14448E+03, tol = 0.47554E+04, time = 6.93 | CG iter. 16 -- res = 0.68110E+02, tol = 0.47554E+04, time = 6.80 | CG iter. 17 -- res = 0.31787E+02, tol = 0.47554E+04, time = 6.54 | CG iter. 18 -- res = 0.15793E+02, tol = 0.47554E+04, time = 6.29 | CG iter. 19 -- res = 0.84804E+01, tol = 0.47554E+04, time = 8.43 | CG iter. 20 -- res = 0.47833E+01, tol = 0.47554E+04, time = 11.14 | CG iter. 21 -- res = 0.26701E+01, tol = 0.47554E+04, time = 6.73 | CG iter. 22 -- res = 0.13846E+01, tol = 0.47554E+04, time = 6.64 | CG iter. 23 -- res = 0.69112E+00, tol = 0.47554E+04, time = 6.81 | CG iter. 24 -- res = 0.34999E+00, tol = 0.47554E+04, time = 6.50 | CG iter. 25 -- res = 0.19324E+00, tol = 0.47554E+04, time = 6.90 | CG iter. 26 -- res = 0.10969E+00, tol = 0.47554E+04, time = 6.58 | CG iter. 27 -- res = 0.62629E-01, tol = 0.47554E+04, time = 6.56 | CG iter. 28 -- res = 0.33261E-01, tol = 0.47554E+04, time = 6.50 | CG iter. 29 -- res = 0.17305E-01, tol = 0.47554E+04, time = 6.37 | CG iter. 30 -- res = 0.89485E-02, tol = 0.47554E+04, time = 6.63 | CG iter. 31 -- res = 0.48063E-02, tol = 0.47554E+04, time = 6.51 | CG iter. 32 -- res = 0.27427E-02, tol = 0.47554E+04, time = 6.96 | CG iter. 33 -- res = 0.15564E-02, tol = 0.47554E+04, time = 7.63 | CG iter. 34 -- res = 0.84395E-03, tol = 0.47554E+04, time = 7.06 | CG iter. 35 -- res = 0.44033E-03, tol = 0.47554E+04, time = 6.67 | Final CG iter 36 -- res = 0.44033E-03, tol = 0.47554E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.708 2.724 | New value 0.382 | Old value -0.708 | Difference 1.090 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.71095E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.77623E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.19237E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.59889E-03, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.80296E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9559059.447 | (Sampled value in CG: 9636080.483 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.575368 | New value = -3.594543 | poltype: 1 pol: 1 CPU time specind = 1.6990900E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.25160E+07, tol = 0.18682E+01, time = 2.92 | CG iter. 2 -- res = 0.92077E+06, tol = 0.18682E+01, time = 2.58 | CG iter. 3 -- res = 0.19107E+06, tol = 0.18682E+01, time = 2.65 | CG iter. 4 -- res = 0.82100E+05, tol = 0.18682E+01, time = 2.69 | CG iter. 5 -- res = 0.48744E+05, tol = 0.18682E+01, time = 2.45 | CG iter. 6 -- res = 0.25041E+05, tol = 0.18682E+01, time = 2.74 | CG iter. 7 -- res = 0.85594E+04, tol = 0.18682E+01, time = 2.85 | CG iter. 8 -- res = 0.35187E+04, tol = 0.18682E+01, time = 3.06 | CG iter. 9 -- res = 0.15126E+04, tol = 0.18682E+01, time = 2.60 | CG iter. 10 -- res = 0.60106E+03, tol = 0.18682E+01, time = 2.42 | CG iter. 11 -- res = 0.25006E+03, tol = 0.18682E+01, time = 2.52 | CG iter. 12 -- res = 0.12638E+03, tol = 0.18682E+01, time = 2.78 | CG iter. 13 -- res = 0.68317E+02, tol = 0.18682E+01, time = 2.88 | CG iter. 14 -- res = 0.33831E+02, tol = 0.18682E+01, time = 2.92 | CG iter. 15 -- res = 0.14536E+02, tol = 0.18682E+01, time = 2.36 | CG iter. 16 -- res = 0.60109E+01, tol = 0.18682E+01, time = 2.42 | CG iter. 17 -- res = 0.26278E+01, tol = 0.18682E+01, time = 2.31 | CG iter. 18 -- res = 0.12476E+01, tol = 0.18682E+01, time = 2.92 | CG iter. 19 -- res = 0.62872E+00, tol = 0.18682E+01, time = 2.50 | CG iter. 20 -- res = 0.30266E+00, tol = 0.18682E+01, time = 2.81 | CG iter. 21 -- res = 0.14315E+00, tol = 0.18682E+01, time = 2.71 | CG iter. 22 -- res = 0.65774E-01, tol = 0.18682E+01, time = 2.40 | CG iter. 23 -- res = 0.28866E-01, tol = 0.18682E+01, time = 3.01 | CG iter. 24 -- res = 0.13910E-01, tol = 0.18682E+01, time = 2.96 | CG iter. 25 -- res = 0.69879E-02, tol = 0.18682E+01, time = 2.52 | CG iter. 26 -- res = 0.35433E-02, tol = 0.18682E+01, time = 2.91 | CG iter. 27 -- res = 0.17742E-02, tol = 0.18682E+01, time = 2.78 | CG iter. 28 -- res = 0.81385E-03, tol = 0.18682E+01, time = 2.90 | CG iter. 29 -- res = 0.35043E-03, tol = 0.18682E+01, time = 2.92 | CG iter. 30 -- res = 0.16816E-03, tol = 0.18682E+01, time = 2.70 | CG iter. 31 -- res = 0.84218E-04, tol = 0.18682E+01, time = 2.78 | CG iter. 32 -- res = 0.42398E-04, tol = 0.18682E+01, time = 2.55 | CG iter. 33 -- res = 0.20287E-04, tol = 0.18682E+01, time = 2.67 | CG iter. 34 -- res = 0.95009E-05, tol = 0.18682E+01, time = 2.88 | CG iter. 35 -- res = 0.45237E-05, tol = 0.18682E+01, time = 2.64 | CG iter. 36 -- res = 0.20970E-05, tol = 0.18682E+01, time = 2.82 | CG iter. 37 -- res = 0.99336E-06, tol = 0.18682E+01, time = 2.50 | CG iter. 38 -- res = 0.52141E-06, tol = 0.18682E+01, time = 2.56 | CG iter. 39 -- res = 0.24862E-06, tol = 0.18682E+01, time = 2.68 | CG iter. 40 -- res = 0.11273E-06, tol = 0.18682E+01, time = 2.73 | CG iter. 41 -- res = 0.53342E-07, tol = 0.18682E+01, time = 2.59 | CG iter. 42 -- res = 0.24471E-07, tol = 0.18682E+01, time = 2.96 | CG iter. 43 -- res = 0.11839E-07, tol = 0.18682E+01, time = 2.63 | CG iter. 44 -- res = 0.58424E-08, tol = 0.18682E+01, time = 2.69 | CG iter. 45 -- res = 0.28428E-08, tol = 0.18682E+01, time = 2.50 | CG iter. 46 -- res = 0.12962E-08, tol = 0.18682E+01, time = 2.57 | CG iter. 47 -- res = 0.61309E-09, tol = 0.18682E+01, time = 2.77 | CG iter. 48 -- res = 0.29347E-09, tol = 0.18682E+01, time = 2.91 | CG iter. 49 -- res = 0.13580E-09, tol = 0.18682E+01, time = 2.59 | CG iter. 50 -- res = 0.65097E-10, tol = 0.18682E+01, time = 2.67 | Final CG iter 51 -- res = 0.65097E-10, tol = 0.18682E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.660 3.900 | New value 2.296 | Old value 2.660 | Difference -0.363 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.42292E+04, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.12098E+02, tol = 0.47627E+18, time = 2.45 | CG iter. 3 -- res = 0.35846E+00, tol = 0.47627E+18, time = 1.90 | Final CG iter 4 -- res = 0.15180E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9559059.447 | (Sampled value in CG: 9618723.216 ) | CPU time specind = 1188.622 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.69137E+08, tol = 0.57645E+04, time = 11.57 | CG iter. 2 -- res = 0.59334E+08, tol = 0.57645E+04, time = 11.59 | CG iter. 3 -- res = 0.15539E+08, tol = 0.57645E+04, time = 11.83 | CG iter. 4 -- res = 0.65078E+07, tol = 0.57645E+04, time = 11.93 | CG iter. 5 -- res = 0.38822E+07, tol = 0.57645E+04, time = 12.05 | CG iter. 6 -- res = 0.22122E+07, tol = 0.57645E+04, time = 13.45 | CG iter. 7 -- res = 0.13231E+07, tol = 0.57645E+04, time = 12.25 | CG iter. 8 -- res = 0.90164E+06, tol = 0.57645E+04, time = 12.06 | CG iter. 9 -- res = 0.59293E+06, tol = 0.57645E+04, time = 11.94 | CG iter. 10 -- res = 0.35754E+06, tol = 0.57645E+04, time = 11.57 | CG iter. 11 -- res = 0.19900E+06, tol = 0.57645E+04, time = 11.85 | CG iter. 12 -- res = 0.11335E+06, tol = 0.57645E+04, time = 11.86 | CG iter. 13 -- res = 0.71089E+05, tol = 0.57645E+04, time = 11.98 | CG iter. 14 -- res = 0.50711E+05, tol = 0.57645E+04, time = 12.06 | CG iter. 15 -- res = 0.41536E+05, tol = 0.57645E+04, time = 12.18 | CG iter. 16 -- res = 0.38078E+05, tol = 0.57645E+04, time = 11.92 | CG iter. 17 -- res = 0.36295E+05, tol = 0.57645E+04, time = 11.93 | CG iter. 18 -- res = 0.33789E+05, tol = 0.57645E+04, time = 11.71 | CG iter. 19 -- res = 0.30527E+05, tol = 0.57645E+04, time = 11.69 | CG iter. 20 -- res = 0.27675E+05, tol = 0.57645E+04, time = 11.97 | CG iter. 21 -- res = 0.25836E+05, tol = 0.57645E+04, time = 12.05 | CG iter. 22 -- res = 0.25511E+05, tol = 0.57645E+04, time = 12.13 | CG iter. 23 -- res = 0.25696E+05, tol = 0.57645E+04, time = 18.51 | CG iter. 24 -- res = 0.23865E+05, tol = 0.57645E+04, time = 11.89 | CG iter. 25 -- res = 0.19767E+05, tol = 0.57645E+04, time = 11.85 | CG iter. 26 -- res = 0.14947E+05, tol = 0.57645E+04, time = 11.62 | CG iter. 27 -- res = 0.11072E+05, tol = 0.57645E+04, time = 12.31 | CG iter. 28 -- res = 0.84858E+04, tol = 0.57645E+04, time = 12.05 | CG iter. 29 -- res = 0.70663E+04, tol = 0.57645E+04, time = 11.87 | CG iter. 30 -- res = 0.62923E+04, tol = 0.57645E+04, time = 13.20 | CG iter. 31 -- res = 0.57343E+04, tol = 0.57645E+04, time = 12.74 | CG iter. 32 -- res = 0.51685E+04, tol = 0.57645E+04, time = 12.09 | CG iter. 33 -- res = 0.45178E+04, tol = 0.57645E+04, time = 11.83 | CG iter. 34 -- res = 0.39589E+04, tol = 0.57645E+04, time = 11.92 | CG iter. 35 -- res = 0.35445E+04, tol = 0.57645E+04, time = 11.93 | CG iter. 36 -- res = 0.32288E+04, tol = 0.57645E+04, time = 11.69 | CG iter. 37 -- res = 0.30055E+04, tol = 0.57645E+04, time = 11.77 | CG iter. 38 -- res = 0.27634E+04, tol = 0.57645E+04, time = 11.88 | CG iter. 39 -- res = 0.24754E+04, tol = 0.57645E+04, time = 11.97 | CG iter. 40 -- res = 0.20845E+04, tol = 0.57645E+04, time = 11.18 | CG iter. 41 -- res = 0.16873E+04, tol = 0.57645E+04, time = 12.09 | CG iter. 42 -- res = 0.13605E+04, tol = 0.57645E+04, time = 11.94 | CG iter. 43 -- res = 0.11523E+04, tol = 0.57645E+04, time = 12.12 | CG iter. 44 -- res = 0.10485E+04, tol = 0.57645E+04, time = 12.25 | CG iter. 45 -- res = 0.96739E+03, tol = 0.57645E+04, time = 12.11 | CG iter. 46 -- res = 0.91059E+03, tol = 0.57645E+04, time = 12.10 | CG iter. 47 -- res = 0.84147E+03, tol = 0.57645E+04, time = 12.32 | CG iter. 48 -- res = 0.75700E+03, tol = 0.57645E+04, time = 18.96 | CG iter. 49 -- res = 0.67678E+03, tol = 0.57645E+04, time = 11.99 | CG iter. 50 -- res = 0.60899E+03, tol = 0.57645E+04, time = 11.95 | CG iter. 51 -- res = 0.56339E+03, tol = 0.57645E+04, time = 11.97 | CG iter. 52 -- res = 0.53552E+03, tol = 0.57645E+04, time = 11.83 | CG iter. 53 -- res = 0.52147E+03, tol = 0.57645E+04, time = 11.89 | CG iter. 54 -- res = 0.47001E+03, tol = 0.57645E+04, time = 11.78 | CG iter. 55 -- res = 0.39526E+03, tol = 0.57645E+04, time = 13.85 | CG iter. 56 -- res = 0.34258E+03, tol = 0.57645E+04, time = 12.22 | CG iter. 57 -- res = 0.30199E+03, tol = 0.57645E+04, time = 12.10 | CG iter. 58 -- res = 0.27840E+03, tol = 0.57645E+04, time = 11.90 | CG iter. 59 -- res = 0.26155E+03, tol = 0.57645E+04, time = 11.87 | CG iter. 60 -- res = 0.25558E+03, tol = 0.57645E+04, time = 11.95 | Final CG iter 61 -- res = 0.25558E+03, tol = 0.57645E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.816 ( -229.696 -2229.524 2511.918 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11129952.797 | Old band monopole 9559100.563 | Change to band monopole 1570852.234 | Change to component monopole -1570845.478 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.374 2.734 | New value -3.673 | Old value 0.374 | Difference -4.047 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.090 ( 6.240 9.008 -8.978 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.784 4.808 | New value 1.154 | Old value 1.784 | Difference -0.630 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.88548E+06, tol = 0.47627E+18, time = 2.66 | CG iter. 2 -- res = 0.33619E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.13442E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.18822E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.87143E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11129904.925 | (Sampled value in CG: 11111284.609 ) | Chain = 1 -- chisq = 0.81587195E+09 | Chain = 1 -- wall time = 6103.140 sec Available RAM: MemAvailable: 385996416 kB Available Swap: SwapFree: 1125709136 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 391 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445925 | --> Sampling calibration, mode = relcal | relcal = 1.3446853E-02 7.4680999E-04 -1.6106501E-03 -1.2583013E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1817273 0.1993295 97036930.4388901 | BP delta = 0.1743868 0.1919890 97036927.7748983 | BP chisq diff = -2.7, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632433 | --> Sampling calibration, mode = relcal | relcal = -2.8208951E-03 -7.0424186E-04 1.6787094E-03 1.6138365E-03 -4.0625379E-04 6.3884485E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5395257 15218476.1927222 | BP delta = 0.0000000E+00 -0.5437972 15218477.3500701 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103245 | --> Sampling calibration, mode = relcal | relcal = 3.7082128E-02 1.3718663E-02 5.7541621E-03 -7.1653174E-03 8.2486225E-03 2.3947153E-03 -7.5999713E-03 -7.1800263E-03 -1.5300033E-02 -1.4801914E-02 -3.0562009E-03 -1.2094828E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.154749 132205754.919815 | BP delta = 0.0000000E+00 -1.159609 132205757.103649 | BP chisq diff = 2.2, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18195684175591 | --> Sampling calibration, mode = relcal | relcal = -7.4645281E-02 -5.8285914E-02 9.1580100E-02 4.1351095E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4304505E-04 4.0608416E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7201E-05 | 2: delta_r/delta_0: 7.6488E-07 | 3: delta_s/delta_0: 2.5025E-07 | 4: delta_r/delta_0: 1.0646E-08 | 5: delta_s/delta_0: 2.8328E-09 | 6: delta_r/delta_0: 8.2339E-10 | 7: delta_s/delta_0: 3.5353E-10 | 8: delta_r/delta_0: 1.4167E-10 | 9: delta_s/delta_0: 8.5668E-10 | 10: delta_r/delta_0: 2.2662E-10 | 11: delta_s/delta_0: 2.5348E-10 | 12: delta_r/delta_0: 1.1343E-10 | 13: delta_s/delta_0: 7.3176E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.721618968354126E-004 2.738921566639067E-005 | BP delta = 7.2598629E-02 9.5909573E-02 50486772.6601936 | BP delta = 7.5901940E-02 9.9212885E-02 50486772.9278340 | BP chisq diff = 0.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02587292 | --> Sampling calibration, mode = relcal | relcal = -0.1066573 -9.5504433E-02 0.1448801 5.7281639E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9162024E-03 1.7176071E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5654E-05 | 2: delta_r/delta_0: 1.2806E-06 | 3: delta_s/delta_0: 2.4921E-07 | 4: delta_r/delta_0: 5.4067E-08 | 5: delta_s/delta_0: 2.2968E-08 | 6: delta_r/delta_0: 7.9111E-09 | 7: delta_s/delta_0: 6.3718E-09 | 8: delta_r/delta_0: 1.8680E-09 | 9: delta_s/delta_0: 9.6128E-10 | 10: delta_r/delta_0: 7.0565E-10 | 11: delta_s/delta_0: 5.7843E-10 | 12: delta_r/delta_0: 1.3337E-10 | 13: delta_s/delta_0: 8.8277E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.886487174020934E-003 2.811178455685818E-005 | BP delta = -0.2378908 -0.2069512 57386973.4035910 | BP delta = -0.2427374 -0.2117978 57386973.8712751 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224584 | --> Sampling calibration, mode = relcal | relcal = 0.2953555 0.2249595 -0.2838278 -0.2364872 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.3632858E-05 5.0943187E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5540E-04 | 2: delta_r/delta_0: 8.7519E-06 | 3: delta_s/delta_0: 4.5565E-06 | 4: delta_r/delta_0: 6.5138E-07 | 5: delta_s/delta_0: 3.5557E-07 | 6: delta_r/delta_0: 1.4395E-07 | 7: delta_s/delta_0: 3.1788E-07 | 8: delta_r/delta_0: 3.0116E-08 | 9: delta_s/delta_0: 1.0111E-07 | 10: delta_r/delta_0: 6.3516E-08 | 11: delta_s/delta_0: 2.0057E-09 | 12: delta_r/delta_0: 1.0688E-09 | 13: delta_s/delta_0: 7.0186E-09 | 14: delta_r/delta_0: 5.5560E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.063422477537002E-002 4.021584194704377E-005 | BP delta = -0.1227268 -0.1729341 72483818.9328538 | BP delta = -0.1020545 -0.1522619 72483818.9191229 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95897169 | --> Sampling calibration, mode = relcal | relcal = 0.1065912 0.1395224 -0.1102875 -0.1358261 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0819019E-02 1.4800437E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6879E-04 | 2: delta_r/delta_0: 6.7904E-06 | 3: delta_s/delta_0: 2.0597E-05 | 4: delta_r/delta_0: 9.4264E-07 | 5: delta_s/delta_0: 2.2749E-07 | 6: delta_r/delta_0: 1.1052E-07 | 7: delta_s/delta_0: 1.7804E-07 | 8: delta_r/delta_0: 3.1075E-08 | 9: delta_s/delta_0: 8.7495E-09 | 10: delta_r/delta_0: 5.0611E-09 | 11: delta_s/delta_0: 1.4347E-09 | 12: delta_r/delta_0: 1.0830E-09 | 13: delta_s/delta_0: 2.0036E-10 | 14: delta_r/delta_0: 1.0944E-10 | 15: delta_s/delta_0: 1.5009E-10 | 16: delta_r/delta_0: 1.4194E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.056486712209215E-002 3.697924955297946E-005 | BP delta = 8.8563293E-02 0.2061129 72790697.9534933 | BP delta = 9.1741435E-02 0.2092910 72790697.6994607 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52161825 | --> Sampling calibration, mode = relcal | relcal = -5.1093549E-02 -3.6451451E-03 2.7305542E-02 2.7433151E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1117542E-03 2.7618110E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.5420E-05 | 2: delta_r/delta_0: 4.2782E-06 | 3: delta_s/delta_0: 5.3863E-07 | 4: delta_r/delta_0: 1.6631E-07 | 5: delta_s/delta_0: 1.4443E-07 | 6: delta_r/delta_0: 2.7914E-08 | 7: delta_s/delta_0: 3.7049E-08 | 8: delta_r/delta_0: 2.4721E-08 | 9: delta_s/delta_0: 2.9204E-09 | 10: delta_r/delta_0: 1.6504E-09 | 11: delta_s/delta_0: 7.7147E-10 | 12: delta_r/delta_0: 4.9322E-10 | 13: delta_s/delta_0: 6.0802E-09 | 14: delta_r/delta_0: 1.0714E-09 | 15: delta_s/delta_0: 1.6797E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.241664347941260E-002 5.482797689192099E-005 | BP delta = 7.2897628E-02 0.1643060 91254020.6160445 | BP delta = 7.3745675E-02 0.1651540 91254020.6082246 | BP chisq diff = -0.0, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42166976 | --> Sampling calibration, mode = relcal | relcal = 4.5579724E-02 3.9664287E-02 -2.8339697E-02 -5.6904312E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5546800E-03 4.9641118E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3111E-05 | 2: delta_r/delta_0: 3.1896E-06 | 3: delta_s/delta_0: 1.7966E-06 | 4: delta_r/delta_0: 2.1791E-07 | 5: delta_s/delta_0: 6.2830E-08 | 6: delta_r/delta_0: 3.2472E-08 | 7: delta_s/delta_0: 2.2879E-07 | 8: delta_r/delta_0: 4.3881E-09 | 9: delta_s/delta_0: 2.9519E-09 | 10: delta_r/delta_0: 1.4673E-09 | 11: delta_s/delta_0: 5.6788E-07 | 12: delta_r/delta_0: 6.9924E-08 | 13: delta_s/delta_0: 2.3746E-10 | 14: delta_r/delta_0: 4.1552E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.411768876666153E-002 4.994651224734582E-005 | BP delta = 3.5595872E-02 -8.6066402E-02 90185001.3559105 | BP delta = 3.4693945E-02 -8.6968333E-02 90185001.3685978 | BP chisq diff = 0.0, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28179320 | --> Sampling calibration, mode = relcal | relcal = 2.4242740E-02 4.5213938E-02 -2.3442607E-02 -4.6014071E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1277688E-02 2.6670897E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0554E-04 | 2: delta_r/delta_0: 8.5500E-06 | 3: delta_s/delta_0: 1.3950E-06 | 4: delta_r/delta_0: 2.0703E-07 | 5: delta_s/delta_0: 7.6146E-08 | 6: delta_r/delta_0: 1.6575E-08 | 7: delta_s/delta_0: 7.4946E-09 | 8: delta_r/delta_0: 4.9963E-09 | 9: delta_s/delta_0: 2.1941E-08 | 10: delta_r/delta_0: 4.6566E-09 | 11: delta_s/delta_0: 1.1132E-08 | 12: delta_r/delta_0: 6.6751E-09 | 13: delta_s/delta_0: 2.6043E-10 | 14: delta_r/delta_0: 1.8455E-10 | 15: delta_s/delta_0: 1.0157E-10 | 16: delta_r/delta_0: 9.0194E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.887985121896311E-003 7.839144899842998E-005 | BP delta = -0.4500624 -0.6314700 160950550.619502 | BP delta = -0.4392911 -0.6206986 160950550.737011 | BP chisq diff = 0.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29409906 | --> Sampling calibration, mode = relcal | relcal = 4.6734948E-04 1.0322148E-02 -3.8554496E-03 -6.9340481E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6131535E-02 1.4973012E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3041E-04 | 2: delta_r/delta_0: 1.1056E-05 | 3: delta_s/delta_0: 1.7677E-06 | 4: delta_r/delta_0: 2.6127E-07 | 5: delta_s/delta_0: 1.0260E-07 | 6: delta_r/delta_0: 2.2276E-08 | 7: delta_s/delta_0: 1.0660E-08 | 8: delta_r/delta_0: 7.5594E-09 | 9: delta_s/delta_0: 5.4566E-09 | 10: delta_r/delta_0: 3.6647E-09 | 11: delta_s/delta_0: 2.1129E-05 | 12: delta_r/delta_0: 3.4771E-08 | 13: delta_s/delta_0: 8.6582E-10 | 14: delta_r/delta_0: 7.3794E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.105072982681350E-002 8.301761729648737E-005 | BP delta = -0.8888119 -0.8438418 157872001.116376 | BP delta = -0.8710914 -0.8261213 157872001.284804 | BP chisq diff = 0.2, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26514308 | --> Sampling calibration, mode = relcal | relcal = -5.6119021E-03 1.5052257E-02 -2.4084770E-03 -7.0318780E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.5729586E-04 4.2497306E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4066E-04 | 2: delta_r/delta_0: 1.2082E-05 | 3: delta_s/delta_0: 2.1012E-06 | 4: delta_r/delta_0: 2.4055E-07 | 5: delta_s/delta_0: 9.4052E-08 | 6: delta_r/delta_0: 2.0090E-08 | 7: delta_s/delta_0: 8.4836E-09 | 8: delta_r/delta_0: 5.3469E-09 | 9: delta_s/delta_0: 5.0165E-09 | 10: delta_r/delta_0: 3.5826E-09 | 11: delta_s/delta_0: 6.6247E-07 | 12: delta_r/delta_0: 2.7670E-08 | 13: delta_s/delta_0: 1.6093E-09 | 14: delta_r/delta_0: 6.8219E-10 | 15: delta_s/delta_0: 7.3695E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.425215423037261E-003 9.150743855214671E-005 | BP delta = 0.4231864 0.4621387 157024395.493444 | BP delta = 0.4080256 0.4469779 157024395.445938 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25679101 | --> Sampling calibration, mode = relcal | relcal = -3.1590205E-02 -2.6178010E-02 3.7071943E-02 2.0696273E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6810220E-02 1.7888252E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4547E-04 | 2: delta_r/delta_0: 1.1641E-05 | 3: delta_s/delta_0: 1.7526E-06 | 4: delta_r/delta_0: 4.6687E-07 | 5: delta_s/delta_0: 1.0871E-07 | 6: delta_r/delta_0: 3.5523E-08 | 7: delta_s/delta_0: 1.4519E-08 | 8: delta_r/delta_0: 9.1571E-09 | 9: delta_s/delta_0: 4.9096E-08 | 10: delta_r/delta_0: 8.6264E-09 | 11: delta_s/delta_0: 3.1461E-09 | 12: delta_r/delta_0: 8.4764E-10 | 13: delta_s/delta_0: 1.7711E-09 | 14: delta_r/delta_0: 4.3808E-10 | 15: delta_s/delta_0: 1.3208E-10 | 16: delta_r/delta_0: 1.1475E-10 | 17: delta_s/delta_0: 9.9556E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.650935200928128E-003 8.666717629448696E-005 | BP delta = -0.9048797 -1.107179 158528022.334100 | BP delta = -0.8813981 -1.083697 158528022.348714 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.083248 | New value = -3.166288 | poltype: 2 pol: 1 CPU time specind = 3.9258957E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.215427 | New value = -3.158621 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.140319 | New value = -3.143435 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165862 | New value = -3.153587 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144020 | New value = -3.181894 | poltype: 2 pol: 2 CPU time specind = 3.6174774E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 25.72 | CG iter. 1 -- res = 0.13598E+08, tol = 0.64417E+01, time = 5.59 | CG iter. 2 -- res = 0.34516E+06, tol = 0.64417E+01, time = 5.69 | CG iter. 3 -- res = 0.81322E+05, tol = 0.64417E+01, time = 5.80 | CG iter. 4 -- res = 0.85735E+05, tol = 0.64417E+01, time = 11.75 | CG iter. 5 -- res = 0.91182E+05, tol = 0.64417E+01, time = 5.78 | CG iter. 6 -- res = 0.88368E+05, tol = 0.64417E+01, time = 5.53 | CG iter. 7 -- res = 0.78447E+05, tol = 0.64417E+01, time = 5.71 | CG iter. 8 -- res = 0.57348E+05, tol = 0.64417E+01, time = 5.94 | CG iter. 9 -- res = 0.48245E+05, tol = 0.64417E+01, time = 5.81 | CG iter. 10 -- res = 0.37954E+05, tol = 0.64417E+01, time = 5.77 | CG iter. 11 -- res = 0.26966E+05, tol = 0.64417E+01, time = 5.47 | CG iter. 12 -- res = 0.20173E+05, tol = 0.64417E+01, time = 5.83 | CG iter. 13 -- res = 0.16764E+05, tol = 0.64417E+01, time = 5.33 | CG iter. 14 -- res = 0.15255E+05, tol = 0.64417E+01, time = 5.62 | CG iter. 15 -- res = 0.11610E+05, tol = 0.64417E+01, time = 6.02 | CG iter. 16 -- res = 0.83236E+04, tol = 0.64417E+01, time = 5.74 | CG iter. 17 -- res = 0.62548E+04, tol = 0.64417E+01, time = 5.60 | CG iter. 18 -- res = 0.52718E+04, tol = 0.64417E+01, time = 5.56 | CG iter. 19 -- res = 0.45230E+04, tol = 0.64417E+01, time = 7.16 | CG iter. 20 -- res = 0.36204E+04, tol = 0.64417E+01, time = 6.17 | CG iter. 21 -- res = 0.26965E+04, tol = 0.64417E+01, time = 6.19 | CG iter. 22 -- res = 0.22710E+04, tol = 0.64417E+01, time = 5.77 | CG iter. 23 -- res = 0.19808E+04, tol = 0.64417E+01, time = 5.86 | CG iter. 24 -- res = 0.15737E+04, tol = 0.64417E+01, time = 5.80 | CG iter. 25 -- res = 0.11816E+04, tol = 0.64417E+01, time = 5.89 | CG iter. 26 -- res = 0.99198E+03, tol = 0.64417E+01, time = 5.59 | CG iter. 27 -- res = 0.87799E+03, tol = 0.64417E+01, time = 5.46 | CG iter. 28 -- res = 0.75144E+03, tol = 0.64417E+01, time = 5.53 | CG iter. 29 -- res = 0.58446E+03, tol = 0.64417E+01, time = 5.44 | CG iter. 30 -- res = 0.47063E+03, tol = 0.64417E+01, time = 5.67 | CG iter. 31 -- res = 0.42219E+03, tol = 0.64417E+01, time = 5.91 | CG iter. 32 -- res = 0.37772E+03, tol = 0.64417E+01, time = 5.52 | CG iter. 33 -- res = 0.29562E+03, tol = 0.64417E+01, time = 5.84 | CG iter. 34 -- res = 0.23249E+03, tol = 0.64417E+01, time = 6.03 | CG iter. 35 -- res = 0.20440E+03, tol = 0.64417E+01, time = 5.80 | CG iter. 36 -- res = 0.18142E+03, tol = 0.64417E+01, time = 5.77 | CG iter. 37 -- res = 0.14920E+03, tol = 0.64417E+01, time = 5.65 | CG iter. 38 -- res = 0.11704E+03, tol = 0.64417E+01, time = 6.46 | CG iter. 39 -- res = 0.96975E+02, tol = 0.64417E+01, time = 6.21 | CG iter. 40 -- res = 0.86878E+02, tol = 0.64417E+01, time = 5.58 | CG iter. 41 -- res = 0.72709E+02, tol = 0.64417E+01, time = 5.67 | CG iter. 42 -- res = 0.56389E+02, tol = 0.64417E+01, time = 5.79 | CG iter. 43 -- res = 0.45629E+02, tol = 0.64417E+01, time = 6.04 | CG iter. 44 -- res = 0.38182E+02, tol = 0.64417E+01, time = 5.91 | CG iter. 45 -- res = 0.31538E+02, tol = 0.64417E+01, time = 5.33 | CG iter. 46 -- res = 0.24561E+02, tol = 0.64417E+01, time = 5.76 | CG iter. 47 -- res = 0.19278E+02, tol = 0.64417E+01, time = 6.34 | CG iter. 48 -- res = 0.15919E+02, tol = 0.64417E+01, time = 5.78 | CG iter. 49 -- res = 0.13289E+02, tol = 0.64417E+01, time = 5.38 | CG iter. 50 -- res = 0.10607E+02, tol = 0.64417E+01, time = 6.03 | Final CG iter 51 -- res = 0.10607E+02, tol = 0.64417E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7291734.025 | Old band monopole 11129952.797 | Change to band monopole -3838218.772 | Change to component monopole 3838202.263 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.32 | CG iter. 1 -- res = 0.27724E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.63783E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.20767E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.42272E-02, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.78208E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7291702.662 | (Sampled value in CG: 7218928.816 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489587 | New value = 1.508067 | poltype: 2 pol: 1 CPU time specind = 2.0771027E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.534560 | New value = 1.488693 | poltype: 2 pol: 2 CPU time specind = 2.5290012E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.24078E+08, tol = 0.47544E+04, time = 7.21 | CG iter. 2 -- res = 0.53075E+07, tol = 0.47544E+04, time = 6.95 | CG iter. 3 -- res = 0.81578E+06, tol = 0.47544E+04, time = 6.92 | CG iter. 4 -- res = 0.34153E+06, tol = 0.47544E+04, time = 6.84 | CG iter. 5 -- res = 0.14848E+06, tol = 0.47544E+04, time = 6.11 | CG iter. 6 -- res = 0.77275E+05, tol = 0.47544E+04, time = 6.61 | CG iter. 7 -- res = 0.42411E+05, tol = 0.47544E+04, time = 6.87 | CG iter. 8 -- res = 0.20172E+05, tol = 0.47544E+04, time = 6.78 | CG iter. 9 -- res = 0.89246E+04, tol = 0.47544E+04, time = 6.60 | CG iter. 10 -- res = 0.37360E+04, tol = 0.47544E+04, time = 6.69 | CG iter. 11 -- res = 0.16627E+04, tol = 0.47544E+04, time = 6.36 | CG iter. 12 -- res = 0.86011E+03, tol = 0.47544E+04, time = 6.74 | CG iter. 13 -- res = 0.47616E+03, tol = 0.47544E+04, time = 6.12 | CG iter. 14 -- res = 0.26029E+03, tol = 0.47544E+04, time = 6.69 | CG iter. 15 -- res = 0.13222E+03, tol = 0.47544E+04, time = 6.90 | CG iter. 16 -- res = 0.63939E+02, tol = 0.47544E+04, time = 6.80 | CG iter. 17 -- res = 0.30644E+02, tol = 0.47544E+04, time = 6.63 | CG iter. 18 -- res = 0.15706E+02, tol = 0.47544E+04, time = 6.68 | CG iter. 19 -- res = 0.85213E+01, tol = 0.47544E+04, time = 6.91 | CG iter. 20 -- res = 0.47277E+01, tol = 0.47544E+04, time = 6.51 | CG iter. 21 -- res = 0.25887E+01, tol = 0.47544E+04, time = 6.55 | CG iter. 22 -- res = 0.13287E+01, tol = 0.47544E+04, time = 6.43 | CG iter. 23 -- res = 0.66515E+00, tol = 0.47544E+04, time = 6.41 | CG iter. 24 -- res = 0.35395E+00, tol = 0.47544E+04, time = 6.63 | CG iter. 25 -- res = 0.19989E+00, tol = 0.47544E+04, time = 6.51 | CG iter. 26 -- res = 0.11454E+00, tol = 0.47544E+04, time = 6.36 | CG iter. 27 -- res = 0.64324E-01, tol = 0.47544E+04, time = 6.52 | CG iter. 28 -- res = 0.33505E-01, tol = 0.47544E+04, time = 6.42 | CG iter. 29 -- res = 0.17192E-01, tol = 0.47544E+04, time = 6.62 | CG iter. 30 -- res = 0.89801E-02, tol = 0.47544E+04, time = 6.73 | CG iter. 31 -- res = 0.49869E-02, tol = 0.47544E+04, time = 7.91 | CG iter. 32 -- res = 0.28889E-02, tol = 0.47544E+04, time = 11.29 | CG iter. 33 -- res = 0.16555E-02, tol = 0.47544E+04, time = 6.55 | CG iter. 34 -- res = 0.87717E-03, tol = 0.47544E+04, time = 6.55 | CG iter. 35 -- res = 0.46682E-03, tol = 0.47544E+04, time = 6.72 | Final CG iter 36 -- res = 0.46682E-03, tol = 0.47544E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.667 2.748 | New value 1.039 | Old value -3.667 | Difference 4.706 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.11501E+07, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.80154E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.21212E+01, tol = 0.47627E+18, time = 1.81 | Final CG iter 4 -- res = 0.10196E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7291702.662 | (Sampled value in CG: 7219845.018 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.594543 | New value = -3.500825 | poltype: 1 pol: 1 CPU time specind = 2.6556969E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.34965E+07, tol = 0.24230E+01, time = 2.49 | CG iter. 2 -- res = 0.16021E+07, tol = 0.24230E+01, time = 2.67 | CG iter. 3 -- res = 0.34896E+06, tol = 0.24230E+01, time = 2.54 | CG iter. 4 -- res = 0.15764E+06, tol = 0.24230E+01, time = 2.58 | CG iter. 5 -- res = 0.92825E+05, tol = 0.24230E+01, time = 2.92 | CG iter. 6 -- res = 0.43840E+05, tol = 0.24230E+01, time = 2.75 | CG iter. 7 -- res = 0.14606E+05, tol = 0.24230E+01, time = 2.37 | CG iter. 8 -- res = 0.62918E+04, tol = 0.24230E+01, time = 2.64 | CG iter. 9 -- res = 0.30049E+04, tol = 0.24230E+01, time = 2.77 | CG iter. 10 -- res = 0.12073E+04, tol = 0.24230E+01, time = 2.83 | CG iter. 11 -- res = 0.48537E+03, tol = 0.24230E+01, time = 2.41 | CG iter. 12 -- res = 0.23437E+03, tol = 0.24230E+01, time = 2.97 | CG iter. 13 -- res = 0.11821E+03, tol = 0.24230E+01, time = 2.38 | CG iter. 14 -- res = 0.60905E+02, tol = 0.24230E+01, time = 3.01 | CG iter. 15 -- res = 0.27377E+02, tol = 0.24230E+01, time = 2.79 | CG iter. 16 -- res = 0.12173E+02, tol = 0.24230E+01, time = 2.53 | CG iter. 17 -- res = 0.50699E+01, tol = 0.24230E+01, time = 2.77 | CG iter. 18 -- res = 0.22784E+01, tol = 0.24230E+01, time = 2.48 | CG iter. 19 -- res = 0.11409E+01, tol = 0.24230E+01, time = 2.92 | CG iter. 20 -- res = 0.58995E+00, tol = 0.24230E+01, time = 2.80 | CG iter. 21 -- res = 0.28491E+00, tol = 0.24230E+01, time = 2.63 | CG iter. 22 -- res = 0.13118E+00, tol = 0.24230E+01, time = 2.80 | CG iter. 23 -- res = 0.58019E-01, tol = 0.24230E+01, time = 2.78 | CG iter. 24 -- res = 0.27295E-01, tol = 0.24230E+01, time = 2.34 | CG iter. 25 -- res = 0.12987E-01, tol = 0.24230E+01, time = 2.57 | CG iter. 26 -- res = 0.63789E-02, tol = 0.24230E+01, time = 2.69 | CG iter. 27 -- res = 0.32989E-02, tol = 0.24230E+01, time = 4.10 | CG iter. 28 -- res = 0.16590E-02, tol = 0.24230E+01, time = 3.00 | CG iter. 29 -- res = 0.74659E-03, tol = 0.24230E+01, time = 2.91 | CG iter. 30 -- res = 0.34882E-03, tol = 0.24230E+01, time = 2.75 | CG iter. 31 -- res = 0.16440E-03, tol = 0.24230E+01, time = 2.49 | CG iter. 32 -- res = 0.79999E-04, tol = 0.24230E+01, time = 2.41 | CG iter. 33 -- res = 0.40193E-04, tol = 0.24230E+01, time = 2.76 | CG iter. 34 -- res = 0.20305E-04, tol = 0.24230E+01, time = 3.11 | CG iter. 35 -- res = 0.10339E-04, tol = 0.24230E+01, time = 2.62 | CG iter. 36 -- res = 0.49088E-05, tol = 0.24230E+01, time = 2.63 | CG iter. 37 -- res = 0.21834E-05, tol = 0.24230E+01, time = 2.47 | CG iter. 38 -- res = 0.10596E-05, tol = 0.24230E+01, time = 2.73 | CG iter. 39 -- res = 0.52874E-06, tol = 0.24230E+01, time = 2.49 | CG iter. 40 -- res = 0.26241E-06, tol = 0.24230E+01, time = 2.79 | CG iter. 41 -- res = 0.12782E-06, tol = 0.24230E+01, time = 2.86 | CG iter. 42 -- res = 0.64370E-07, tol = 0.24230E+01, time = 2.87 | CG iter. 43 -- res = 0.27181E-07, tol = 0.24230E+01, time = 2.69 | CG iter. 44 -- res = 0.12557E-07, tol = 0.24230E+01, time = 2.53 | CG iter. 45 -- res = 0.60553E-08, tol = 0.24230E+01, time = 2.73 | CG iter. 46 -- res = 0.30780E-08, tol = 0.24230E+01, time = 2.54 | CG iter. 47 -- res = 0.15606E-08, tol = 0.24230E+01, time = 2.89 | CG iter. 48 -- res = 0.74296E-09, tol = 0.24230E+01, time = 2.45 | CG iter. 49 -- res = 0.33702E-09, tol = 0.24230E+01, time = 2.71 | CG iter. 50 -- res = 0.15329E-09, tol = 0.24230E+01, time = 2.22 | Final CG iter 51 -- res = 0.15329E-09, tol = 0.24230E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.900 6.168 | New value 5.145 | Old value -5.900 | Difference 11.045 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.12360E+06, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.73098E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.20467E+01, tol = 0.47627E+18, time = 1.91 | CG iter. 4 -- res = 0.11057E-01, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.60651E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7291702.662 | (Sampled value in CG: 7238421.754 ) | CPU time specind = 1186.442 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.68499E+08, tol = 0.57599E+04, time = 11.82 | CG iter. 2 -- res = 0.58759E+08, tol = 0.57599E+04, time = 11.77 | CG iter. 3 -- res = 0.15239E+08, tol = 0.57599E+04, time = 11.69 | CG iter. 4 -- res = 0.63533E+07, tol = 0.57599E+04, time = 11.94 | CG iter. 5 -- res = 0.37543E+07, tol = 0.57599E+04, time = 14.95 | CG iter. 6 -- res = 0.21544E+07, tol = 0.57599E+04, time = 15.39 | CG iter. 7 -- res = 0.13100E+07, tol = 0.57599E+04, time = 11.71 | CG iter. 8 -- res = 0.89075E+06, tol = 0.57599E+04, time = 12.01 | CG iter. 9 -- res = 0.59003E+06, tol = 0.57599E+04, time = 11.44 | CG iter. 10 -- res = 0.35967E+06, tol = 0.57599E+04, time = 11.72 | CG iter. 11 -- res = 0.19777E+06, tol = 0.57599E+04, time = 11.63 | CG iter. 12 -- res = 0.11331E+06, tol = 0.57599E+04, time = 11.95 | CG iter. 13 -- res = 0.70755E+05, tol = 0.57599E+04, time = 13.75 | CG iter. 14 -- res = 0.49231E+05, tol = 0.57599E+04, time = 12.08 | CG iter. 15 -- res = 0.39579E+05, tol = 0.57599E+04, time = 11.73 | CG iter. 16 -- res = 0.36288E+05, tol = 0.57599E+04, time = 11.18 | CG iter. 17 -- res = 0.35368E+05, tol = 0.57599E+04, time = 12.32 | CG iter. 18 -- res = 0.32287E+05, tol = 0.57599E+04, time = 11.85 | CG iter. 19 -- res = 0.29518E+05, tol = 0.57599E+04, time = 11.72 | CG iter. 20 -- res = 0.27673E+05, tol = 0.57599E+04, time = 11.48 | CG iter. 21 -- res = 0.26109E+05, tol = 0.57599E+04, time = 11.79 | CG iter. 22 -- res = 0.26346E+05, tol = 0.57599E+04, time = 12.05 | CG iter. 23 -- res = 0.26567E+05, tol = 0.57599E+04, time = 11.74 | CG iter. 24 -- res = 0.24048E+05, tol = 0.57599E+04, time = 11.95 | CG iter. 25 -- res = 0.19615E+05, tol = 0.57599E+04, time = 12.07 | CG iter. 26 -- res = 0.14920E+05, tol = 0.57599E+04, time = 11.52 | CG iter. 27 -- res = 0.11154E+05, tol = 0.57599E+04, time = 12.25 | CG iter. 28 -- res = 0.84044E+04, tol = 0.57599E+04, time = 11.68 | CG iter. 29 -- res = 0.68505E+04, tol = 0.57599E+04, time = 11.83 | CG iter. 30 -- res = 0.61626E+04, tol = 0.57599E+04, time = 18.22 | CG iter. 31 -- res = 0.57629E+04, tol = 0.57599E+04, time = 11.47 | CG iter. 32 -- res = 0.51615E+04, tol = 0.57599E+04, time = 11.72 | CG iter. 33 -- res = 0.45234E+04, tol = 0.57599E+04, time = 10.99 | CG iter. 34 -- res = 0.38123E+04, tol = 0.57599E+04, time = 11.89 | CG iter. 35 -- res = 0.32547E+04, tol = 0.57599E+04, time = 11.29 | CG iter. 36 -- res = 0.29863E+04, tol = 0.57599E+04, time = 11.59 | CG iter. 37 -- res = 0.28424E+04, tol = 0.57599E+04, time = 12.58 | CG iter. 38 -- res = 0.26804E+04, tol = 0.57599E+04, time = 13.22 | CG iter. 39 -- res = 0.23780E+04, tol = 0.57599E+04, time = 11.65 | CG iter. 40 -- res = 0.19488E+04, tol = 0.57599E+04, time = 11.56 | CG iter. 41 -- res = 0.15600E+04, tol = 0.57599E+04, time = 11.67 | CG iter. 42 -- res = 0.12797E+04, tol = 0.57599E+04, time = 11.61 | CG iter. 43 -- res = 0.11026E+04, tol = 0.57599E+04, time = 11.80 | CG iter. 44 -- res = 0.10241E+04, tol = 0.57599E+04, time = 12.14 | CG iter. 45 -- res = 0.96990E+03, tol = 0.57599E+04, time = 11.63 | CG iter. 46 -- res = 0.90999E+03, tol = 0.57599E+04, time = 11.94 | CG iter. 47 -- res = 0.83185E+03, tol = 0.57599E+04, time = 11.81 | CG iter. 48 -- res = 0.73779E+03, tol = 0.57599E+04, time = 12.09 | CG iter. 49 -- res = 0.65262E+03, tol = 0.57599E+04, time = 12.14 | CG iter. 50 -- res = 0.61637E+03, tol = 0.57599E+04, time = 11.70 | CG iter. 51 -- res = 0.59638E+03, tol = 0.57599E+04, time = 12.35 | CG iter. 52 -- res = 0.55441E+03, tol = 0.57599E+04, time = 12.08 | CG iter. 53 -- res = 0.50379E+03, tol = 0.57599E+04, time = 11.66 | CG iter. 54 -- res = 0.43922E+03, tol = 0.57599E+04, time = 11.52 | CG iter. 55 -- res = 0.37999E+03, tol = 0.57599E+04, time = 18.44 | CG iter. 56 -- res = 0.33220E+03, tol = 0.57599E+04, time = 11.52 | CG iter. 57 -- res = 0.29965E+03, tol = 0.57599E+04, time = 11.67 | CG iter. 58 -- res = 0.28825E+03, tol = 0.57599E+04, time = 11.70 | CG iter. 59 -- res = 0.27999E+03, tol = 0.57599E+04, time = 11.77 | CG iter. 60 -- res = 0.26805E+03, tol = 0.57599E+04, time = 11.98 | Final CG iter 61 -- res = 0.26805E+03, tol = 0.57599E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.830 ( -229.654 -2229.829 2512.324 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9839495.313 | Old band monopole 7291734.025 | Change to band monopole 2547761.288 | Change to component monopole -2547750.330 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.047 2.741 | New value 6.661 | Old value 1.047 | Difference 5.614 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.240 ( 6.812 10.343 -9.798 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.118 5.186 | New value 5.662 | Old value 11.118 | Difference -5.456 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.17305E+07, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.53067E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.21510E+01, tol = 0.47627E+18, time = 1.81 | CG iter. 4 -- res = 0.34041E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.46739E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9839452.992 | (Sampled value in CG: 9818161.128 ) | Chain = 1 -- chisq = 0.81584113E+09 | Chain = 1 -- wall time = 16707.075 sec Available RAM: MemAvailable: 465312756 kB Available Swap: SwapFree: 1055783348 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 392 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445388 | --> Sampling calibration, mode = relcal | relcal = 1.3429214E-02 7.4131152E-04 -1.5882071E-03 -1.2582318E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1743868 0.1919890 9401613.39366221 | BP delta = 0.1743868 0.1865636 9401618.19067971 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632448 | --> Sampling calibration, mode = relcal | relcal = -2.8205607E-03 -7.0414157E-04 1.6807036E-03 1.6126382E-03 -4.0642012E-04 6.3778053E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5395257 15215403.7732725 | BP delta = 0.0000000E+00 -0.5456668 15215404.8384764 | BP chisq diff = 1.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17897416928295 | --> Sampling calibration, mode = relcal | relcal = -7.4075930E-02 -5.7732381E-02 9.0797737E-02 4.1010570E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7744385E-04 3.1609004E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6763E-04 | 2: delta_r/delta_0: 1.8773E-05 | 3: delta_s/delta_0: 1.9782E-07 | 4: delta_r/delta_0: 1.8929E-08 | 5: delta_s/delta_0: 6.0284E-09 | 6: delta_r/delta_0: 1.0362E-09 | 7: delta_s/delta_0: 6.4607E-09 | 8: delta_r/delta_0: 1.6613E-10 | 9: delta_s/delta_0: 6.3038E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.052674465771428E-003 2.745913619627273E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.6761E-04 | 2: delta_r/delta_0: 1.8773E-05 | 3: delta_s/delta_0: 1.9782E-07 | 4: delta_r/delta_0: 1.8929E-08 | 5: delta_s/delta_0: 6.0285E-09 | 6: delta_r/delta_0: 1.0362E-09 | 7: delta_s/delta_0: 6.4612E-09 | 8: delta_r/delta_0: 1.6613E-10 | 9: delta_s/delta_0: 6.3040E-11 | Reached bicg-stab tolerance | BP delta = 7.5901940E-02 9.9212885E-02 3569067.14704470 | BP delta = 7.5901940E-02 9.9245287E-02 3568874.07808394 | BP chisq diff = -193.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02592598 | --> Sampling calibration, mode = relcal | relcal = -0.1066088 -9.5492013E-02 0.1448451 5.7255745E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1083119E-03 1.1234586E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6304E-05 | 2: delta_r/delta_0: 1.2802E-06 | 3: delta_s/delta_0: 2.3888E-07 | 4: delta_r/delta_0: 5.0145E-08 | 5: delta_s/delta_0: 1.8007E-08 | 6: delta_r/delta_0: 6.8271E-09 | 7: delta_s/delta_0: 6.9175E-09 | 8: delta_r/delta_0: 1.3379E-09 | 9: delta_s/delta_0: 6.1750E-09 | 10: delta_r/delta_0: 3.2342E-09 | 11: delta_s/delta_0: 2.0932E-10 | 12: delta_r/delta_0: 1.5670E-10 | 13: delta_s/delta_0: 9.6618E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.789209006579473E-003 2.811007347662827E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.6306E-05 | 2: delta_r/delta_0: 1.2804E-06 | 3: delta_s/delta_0: 2.3895E-07 | 4: delta_r/delta_0: 5.0219E-08 | 5: delta_s/delta_0: 1.7972E-08 | 6: delta_r/delta_0: 6.8321E-09 | 7: delta_s/delta_0: 6.9185E-09 | 8: delta_r/delta_0: 1.3386E-09 | 9: delta_s/delta_0: 6.0906E-09 | 10: delta_r/delta_0: 3.1977E-09 | 11: delta_s/delta_0: 2.0932E-10 | 12: delta_r/delta_0: 1.5657E-10 | 13: delta_s/delta_0: 9.6859E-11 | Reached bicg-stab tolerance | BP delta = -0.2378908 -0.2069512 2841454.90422409 | BP delta = -0.2378908 -0.1988068 2841617.60248695 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81216947 | --> Sampling calibration, mode = relcal | relcal = 0.2955140 0.2247798 -0.2837168 -0.2365770 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6832099E-04 5.6093466E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.8534E-03 | 2: delta_r/delta_0: 6.6036E-05 | 3: delta_s/delta_0: 1.2631E-05 | 4: delta_r/delta_0: 1.1081E-06 | 5: delta_s/delta_0: 9.9575E-07 | 6: delta_r/delta_0: 4.9205E-08 | 7: delta_s/delta_0: 3.1977E-08 | 8: delta_r/delta_0: 1.0999E-08 | 9: delta_s/delta_0: 1.7064E-07 | 10: delta_r/delta_0: 1.8724E-08 | 11: delta_s/delta_0: 1.4799E-09 | 12: delta_r/delta_0: 5.6005E-10 | 13: delta_s/delta_0: 4.5705E-10 | 14: delta_r/delta_0: 7.4015E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.442585457862488E-003 4.022021240854722E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.8559E-03 | 2: delta_r/delta_0: 6.6093E-05 | 3: delta_s/delta_0: 1.2638E-05 | 4: delta_r/delta_0: 1.1086E-06 | 5: delta_s/delta_0: 9.9742E-07 | 6: delta_r/delta_0: 4.9329E-08 | 7: delta_s/delta_0: 3.1970E-08 | 8: delta_r/delta_0: 1.0984E-08 | 9: delta_s/delta_0: 1.6887E-07 | 10: delta_r/delta_0: 1.8599E-08 | 11: delta_s/delta_0: 1.4852E-09 | 12: delta_r/delta_0: 5.6012E-10 | 13: delta_s/delta_0: 4.5836E-10 | 14: delta_r/delta_0: 7.4017E-11 | Reached bicg-stab tolerance | BP delta = -0.1020545 -0.1522619 2827484.94553590 | BP delta = -0.1020545 -0.1466412 2827584.07822520 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95908680 | --> Sampling calibration, mode = relcal | relcal = 0.1064643 0.1396631 -0.1102508 -0.1358766 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8629985E-03 1.3135083E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7324E-04 | 2: delta_r/delta_0: 6.9000E-06 | 3: delta_s/delta_0: 3.4296E-04 | 4: delta_r/delta_0: 1.8476E-05 | 5: delta_s/delta_0: 2.1659E-07 | 6: delta_r/delta_0: 1.1345E-07 | 7: delta_s/delta_0: 4.7792E-07 | 8: delta_r/delta_0: 3.1277E-08 | 9: delta_s/delta_0: 8.3837E-09 | 10: delta_r/delta_0: 5.2864E-09 | 11: delta_s/delta_0: 1.5222E-09 | 12: delta_r/delta_0: 1.0592E-09 | 13: delta_s/delta_0: 2.8210E-10 | 14: delta_r/delta_0: 7.5080E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.073997991271199E-002 3.697490105789761E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.7324E-04 | 2: delta_r/delta_0: 6.9000E-06 | 3: delta_s/delta_0: 3.4296E-04 | 4: delta_r/delta_0: 1.8476E-05 | 5: delta_s/delta_0: 2.1659E-07 | 6: delta_r/delta_0: 1.1345E-07 | 7: delta_s/delta_0: 4.7792E-07 | 8: delta_r/delta_0: 3.1277E-08 | 9: delta_s/delta_0: 8.3837E-09 | 10: delta_r/delta_0: 5.2864E-09 | 11: delta_s/delta_0: 1.5222E-09 | 12: delta_r/delta_0: 1.0592E-09 | 13: delta_s/delta_0: 2.8209E-10 | 14: delta_r/delta_0: 7.5080E-11 | Reached bicg-stab tolerance | BP delta = 9.1741435E-02 0.2092910 3003939.33761551 | BP delta = 9.1741435E-02 0.2110453 3003939.36865057 | BP chisq diff = 0.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166288 | New value = -3.186003 | poltype: 2 pol: 1 CPU time specind = 1.7170906E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158621 | New value = -3.212025 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143435 | New value = -3.230019 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153587 | New value = -3.134135 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181894 | New value = -3.114062 | poltype: 2 pol: 2 CPU time specind = 3.3022165E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.13549E+08, tol = 0.72136E+01, time = 5.74 | CG iter. 2 -- res = 0.35051E+06, tol = 0.72136E+01, time = 5.66 | CG iter. 3 -- res = 0.48986E+05, tol = 0.72136E+01, time = 6.27 | CG iter. 4 -- res = 0.22475E+05, tol = 0.72136E+01, time = 5.19 | CG iter. 5 -- res = 0.12855E+05, tol = 0.72136E+01, time = 6.11 | CG iter. 6 -- res = 0.86765E+04, tol = 0.72136E+01, time = 5.98 | CG iter. 7 -- res = 0.73075E+04, tol = 0.72136E+01, time = 5.41 | CG iter. 8 -- res = 0.62754E+04, tol = 0.72136E+01, time = 5.89 | CG iter. 9 -- res = 0.62250E+04, tol = 0.72136E+01, time = 6.15 | CG iter. 10 -- res = 0.69291E+04, tol = 0.72136E+01, time = 5.82 | CG iter. 11 -- res = 0.61345E+04, tol = 0.72136E+01, time = 5.57 | CG iter. 12 -- res = 0.42251E+04, tol = 0.72136E+01, time = 6.50 | CG iter. 13 -- res = 0.28720E+04, tol = 0.72136E+01, time = 5.74 | CG iter. 14 -- res = 0.22218E+04, tol = 0.72136E+01, time = 5.42 | CG iter. 15 -- res = 0.19047E+04, tol = 0.72136E+01, time = 5.79 | CG iter. 16 -- res = 0.15414E+04, tol = 0.72136E+01, time = 6.42 | CG iter. 17 -- res = 0.11792E+04, tol = 0.72136E+01, time = 5.81 | CG iter. 18 -- res = 0.91299E+03, tol = 0.72136E+01, time = 5.81 | CG iter. 19 -- res = 0.76552E+03, tol = 0.72136E+01, time = 5.97 | CG iter. 20 -- res = 0.62984E+03, tol = 0.72136E+01, time = 5.93 | CG iter. 21 -- res = 0.48008E+03, tol = 0.72136E+01, time = 5.80 | CG iter. 22 -- res = 0.37520E+03, tol = 0.72136E+01, time = 5.80 | CG iter. 23 -- res = 0.33854E+03, tol = 0.72136E+01, time = 5.69 | CG iter. 24 -- res = 0.30412E+03, tol = 0.72136E+01, time = 5.75 | CG iter. 25 -- res = 0.26604E+03, tol = 0.72136E+01, time = 5.59 | CG iter. 26 -- res = 0.21052E+03, tol = 0.72136E+01, time = 5.89 | CG iter. 27 -- res = 0.18531E+03, tol = 0.72136E+01, time = 5.94 | CG iter. 28 -- res = 0.16988E+03, tol = 0.72136E+01, time = 5.59 | CG iter. 29 -- res = 0.14676E+03, tol = 0.72136E+01, time = 6.25 | CG iter. 30 -- res = 0.12288E+03, tol = 0.72136E+01, time = 6.16 | CG iter. 31 -- res = 0.10688E+03, tol = 0.72136E+01, time = 5.64 | CG iter. 32 -- res = 0.98009E+02, tol = 0.72136E+01, time = 6.40 | CG iter. 33 -- res = 0.85167E+02, tol = 0.72136E+01, time = 12.13 | CG iter. 34 -- res = 0.68110E+02, tol = 0.72136E+01, time = 5.64 | CG iter. 35 -- res = 0.55695E+02, tol = 0.72136E+01, time = 5.96 | CG iter. 36 -- res = 0.48870E+02, tol = 0.72136E+01, time = 5.84 | CG iter. 37 -- res = 0.43388E+02, tol = 0.72136E+01, time = 6.00 | CG iter. 38 -- res = 0.34805E+02, tol = 0.72136E+01, time = 6.11 | CG iter. 39 -- res = 0.26843E+02, tol = 0.72136E+01, time = 6.10 | CG iter. 40 -- res = 0.22564E+02, tol = 0.72136E+01, time = 5.68 | CG iter. 41 -- res = 0.18230E+02, tol = 0.72136E+01, time = 6.18 | CG iter. 42 -- res = 0.14185E+02, tol = 0.72136E+01, time = 5.49 | CG iter. 43 -- res = 0.10710E+02, tol = 0.72136E+01, time = 6.08 | CG iter. 44 -- res = 0.86170E+01, tol = 0.72136E+01, time = 6.05 | CG iter. 45 -- res = 0.71207E+01, tol = 0.72136E+01, time = 6.11 | CG iter. 46 -- res = 0.57235E+01, tol = 0.72136E+01, time = 5.92 | CG iter. 47 -- res = 0.43542E+01, tol = 0.72136E+01, time = 7.13 | CG iter. 48 -- res = 0.34481E+01, tol = 0.72136E+01, time = 6.73 | CG iter. 49 -- res = 0.28588E+01, tol = 0.72136E+01, time = 6.22 | CG iter. 50 -- res = 0.23431E+01, tol = 0.72136E+01, time = 5.88 | Final CG iter 51 -- res = 0.23431E+01, tol = 0.72136E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8368645.038 | Old band monopole 9839495.313 | Change to band monopole -1470850.276 | Change to component monopole 1470843.949 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.11917E+04, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.19804E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.22091E+00, tol = 0.47627E+18, time = 2.22 | CG iter. 4 -- res = 0.23903E-03, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.19363E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8368609.042 | (Sampled value in CG: 8352655.374 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.508067 | New value = 1.493952 | poltype: 2 pol: 1 CPU time specind = 2.0455122E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.488693 | New value = 1.485565 | poltype: 2 pol: 2 CPU time specind = 5.0210953E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.24046E+08, tol = 0.47632E+04, time = 7.11 | CG iter. 2 -- res = 0.53063E+07, tol = 0.47632E+04, time = 7.05 | CG iter. 3 -- res = 0.84016E+06, tol = 0.47632E+04, time = 6.69 | CG iter. 4 -- res = 0.36536E+06, tol = 0.47632E+04, time = 6.78 | CG iter. 5 -- res = 0.16270E+06, tol = 0.47632E+04, time = 6.45 | CG iter. 6 -- res = 0.81655E+05, tol = 0.47632E+04, time = 6.87 | CG iter. 7 -- res = 0.43913E+05, tol = 0.47632E+04, time = 6.81 | CG iter. 8 -- res = 0.21464E+05, tol = 0.47632E+04, time = 6.96 | CG iter. 9 -- res = 0.94174E+04, tol = 0.47632E+04, time = 7.04 | CG iter. 10 -- res = 0.38380E+04, tol = 0.47632E+04, time = 6.76 | CG iter. 11 -- res = 0.17440E+04, tol = 0.47632E+04, time = 14.14 | CG iter. 12 -- res = 0.91456E+03, tol = 0.47632E+04, time = 6.52 | CG iter. 13 -- res = 0.50808E+03, tol = 0.47632E+04, time = 6.81 | CG iter. 14 -- res = 0.28362E+03, tol = 0.47632E+04, time = 7.12 | CG iter. 15 -- res = 0.14540E+03, tol = 0.47632E+04, time = 7.04 | CG iter. 16 -- res = 0.69333E+02, tol = 0.47632E+04, time = 6.40 | CG iter. 17 -- res = 0.32597E+02, tol = 0.47632E+04, time = 6.90 | CG iter. 18 -- res = 0.16296E+02, tol = 0.47632E+04, time = 6.67 | CG iter. 19 -- res = 0.90471E+01, tol = 0.47632E+04, time = 6.84 | CG iter. 20 -- res = 0.51194E+01, tol = 0.47632E+04, time = 6.96 | CG iter. 21 -- res = 0.28039E+01, tol = 0.47632E+04, time = 6.42 | CG iter. 22 -- res = 0.14304E+01, tol = 0.47632E+04, time = 6.75 | CG iter. 23 -- res = 0.69726E+00, tol = 0.47632E+04, time = 7.62 | CG iter. 24 -- res = 0.35715E+00, tol = 0.47632E+04, time = 8.15 | CG iter. 25 -- res = 0.19425E+00, tol = 0.47632E+04, time = 7.33 | CG iter. 26 -- res = 0.11187E+00, tol = 0.47632E+04, time = 6.28 | CG iter. 27 -- res = 0.65369E-01, tol = 0.47632E+04, time = 6.91 | CG iter. 28 -- res = 0.34834E-01, tol = 0.47632E+04, time = 6.82 | CG iter. 29 -- res = 0.17782E-01, tol = 0.47632E+04, time = 6.67 | CG iter. 30 -- res = 0.91421E-02, tol = 0.47632E+04, time = 7.04 | CG iter. 31 -- res = 0.49562E-02, tol = 0.47632E+04, time = 6.81 | CG iter. 32 -- res = 0.27902E-02, tol = 0.47632E+04, time = 7.02 | CG iter. 33 -- res = 0.15738E-02, tol = 0.47632E+04, time = 6.76 | CG iter. 34 -- res = 0.85872E-03, tol = 0.47632E+04, time = 6.89 | CG iter. 35 -- res = 0.44595E-03, tol = 0.47632E+04, time = 6.81 | Final CG iter 36 -- res = 0.44595E-03, tol = 0.47632E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 6.671 2.740 | New value -4.894 | Old value 6.671 | Difference -11.566 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.69113E+07, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.22490E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.37675E+00, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.56897E-03, tol = 0.47627E+18, time = 1.88 | Final CG iter 5 -- res = 0.10097E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8368609.042 | (Sampled value in CG: 8352910.569 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.500825 | New value = -3.671431 | poltype: 1 pol: 1 CPU time specind = 1.8404961E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.22661E+07, tol = 0.27552E+01, time = 2.85 | CG iter. 2 -- res = 0.62261E+06, tol = 0.27552E+01, time = 2.67 | CG iter. 3 -- res = 0.12363E+06, tol = 0.27552E+01, time = 2.88 | CG iter. 4 -- res = 0.60063E+05, tol = 0.27552E+01, time = 2.55 | CG iter. 5 -- res = 0.36698E+05, tol = 0.27552E+01, time = 2.49 | CG iter. 6 -- res = 0.16761E+05, tol = 0.27552E+01, time = 2.66 | CG iter. 7 -- res = 0.61005E+04, tol = 0.27552E+01, time = 2.73 | CG iter. 8 -- res = 0.25873E+04, tol = 0.27552E+01, time = 3.05 | CG iter. 9 -- res = 0.10894E+04, tol = 0.27552E+01, time = 2.64 | CG iter. 10 -- res = 0.44625E+03, tol = 0.27552E+01, time = 2.79 | CG iter. 11 -- res = 0.19138E+03, tol = 0.27552E+01, time = 2.76 | CG iter. 12 -- res = 0.98424E+02, tol = 0.27552E+01, time = 2.85 | CG iter. 13 -- res = 0.50024E+02, tol = 0.27552E+01, time = 3.29 | CG iter. 14 -- res = 0.23396E+02, tol = 0.27552E+01, time = 2.97 | CG iter. 15 -- res = 0.10062E+02, tol = 0.27552E+01, time = 2.81 | CG iter. 16 -- res = 0.42575E+01, tol = 0.27552E+01, time = 2.95 | CG iter. 17 -- res = 0.19660E+01, tol = 0.27552E+01, time = 2.96 | CG iter. 18 -- res = 0.94860E+00, tol = 0.27552E+01, time = 2.81 | CG iter. 19 -- res = 0.47168E+00, tol = 0.27552E+01, time = 3.06 | CG iter. 20 -- res = 0.24379E+00, tol = 0.27552E+01, time = 2.67 | CG iter. 21 -- res = 0.10954E+00, tol = 0.27552E+01, time = 2.75 | CG iter. 22 -- res = 0.48443E-01, tol = 0.27552E+01, time = 2.80 | CG iter. 23 -- res = 0.21503E-01, tol = 0.27552E+01, time = 3.01 | CG iter. 24 -- res = 0.11037E-01, tol = 0.27552E+01, time = 2.82 | CG iter. 25 -- res = 0.56070E-02, tol = 0.27552E+01, time = 2.74 | CG iter. 26 -- res = 0.27790E-02, tol = 0.27552E+01, time = 2.80 | CG iter. 27 -- res = 0.13004E-02, tol = 0.27552E+01, time = 2.83 | CG iter. 28 -- res = 0.59169E-03, tol = 0.27552E+01, time = 2.87 | CG iter. 29 -- res = 0.27038E-03, tol = 0.27552E+01, time = 2.69 | CG iter. 30 -- res = 0.13480E-03, tol = 0.27552E+01, time = 2.70 | CG iter. 31 -- res = 0.68029E-04, tol = 0.27552E+01, time = 2.87 | CG iter. 32 -- res = 0.35268E-04, tol = 0.27552E+01, time = 2.88 | CG iter. 33 -- res = 0.15714E-04, tol = 0.27552E+01, time = 2.64 | CG iter. 34 -- res = 0.71163E-05, tol = 0.27552E+01, time = 3.01 | CG iter. 35 -- res = 0.33398E-05, tol = 0.27552E+01, time = 2.85 | CG iter. 36 -- res = 0.16999E-05, tol = 0.27552E+01, time = 2.71 | CG iter. 37 -- res = 0.84608E-06, tol = 0.27552E+01, time = 2.60 | CG iter. 38 -- res = 0.41954E-06, tol = 0.27552E+01, time = 2.52 | CG iter. 39 -- res = 0.19647E-06, tol = 0.27552E+01, time = 2.90 | CG iter. 40 -- res = 0.89716E-07, tol = 0.27552E+01, time = 2.89 | CG iter. 41 -- res = 0.42070E-07, tol = 0.27552E+01, time = 2.67 | CG iter. 42 -- res = 0.20737E-07, tol = 0.27552E+01, time = 4.66 | CG iter. 43 -- res = 0.10121E-07, tol = 0.27552E+01, time = 7.52 | CG iter. 44 -- res = 0.47761E-08, tol = 0.27552E+01, time = 2.84 | CG iter. 45 -- res = 0.22570E-08, tol = 0.27552E+01, time = 3.13 | CG iter. 46 -- res = 0.10528E-08, tol = 0.27552E+01, time = 2.80 | CG iter. 47 -- res = 0.50330E-09, tol = 0.27552E+01, time = 2.90 | CG iter. 48 -- res = 0.24009E-09, tol = 0.27552E+01, time = 2.87 | CG iter. 49 -- res = 0.11651E-09, tol = 0.27552E+01, time = 2.92 | CG iter. 50 -- res = 0.55117E-10, tol = 0.27552E+01, time = 2.89 | Final CG iter 51 -- res = 0.55117E-10, tol = 0.27552E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.892 5.318 | New value -0.945 | Old value 4.892 | Difference -5.837 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.33251E+05, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.29860E+02, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.12761E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.10061E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.12638E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8368609.042 | (Sampled value in CG: 8356951.375 ) | CPU time specind = 1228.053 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.68332E+08, tol = 0.57764E+04, time = 12.62 | CG iter. 2 -- res = 0.58292E+08, tol = 0.57764E+04, time = 12.05 | CG iter. 3 -- res = 0.15002E+08, tol = 0.57764E+04, time = 12.22 | CG iter. 4 -- res = 0.63163E+07, tol = 0.57764E+04, time = 12.46 | CG iter. 5 -- res = 0.37499E+07, tol = 0.57764E+04, time = 12.34 | CG iter. 6 -- res = 0.21487E+07, tol = 0.57764E+04, time = 12.44 | CG iter. 7 -- res = 0.12931E+07, tol = 0.57764E+04, time = 12.87 | CG iter. 8 -- res = 0.86177E+06, tol = 0.57764E+04, time = 12.68 | CG iter. 9 -- res = 0.55551E+06, tol = 0.57764E+04, time = 12.84 | CG iter. 10 -- res = 0.32857E+06, tol = 0.57764E+04, time = 12.80 | CG iter. 11 -- res = 0.17551E+06, tol = 0.57764E+04, time = 12.41 | CG iter. 12 -- res = 0.94218E+05, tol = 0.57764E+04, time = 12.30 | CG iter. 13 -- res = 0.51548E+05, tol = 0.57764E+04, time = 12.59 | CG iter. 14 -- res = 0.29765E+05, tol = 0.57764E+04, time = 12.23 | CG iter. 15 -- res = 0.19316E+05, tol = 0.57764E+04, time = 18.93 | CG iter. 16 -- res = 0.13983E+05, tol = 0.57764E+04, time = 12.44 | CG iter. 17 -- res = 0.10556E+05, tol = 0.57764E+04, time = 12.16 | CG iter. 18 -- res = 0.76470E+04, tol = 0.57764E+04, time = 12.62 | CG iter. 19 -- res = 0.54496E+04, tol = 0.57764E+04, time = 12.21 | CG iter. 20 -- res = 0.40509E+04, tol = 0.57764E+04, time = 12.53 | CG iter. 21 -- res = 0.32701E+04, tol = 0.57764E+04, time = 12.71 | CG iter. 22 -- res = 0.30967E+04, tol = 0.57764E+04, time = 14.13 | CG iter. 23 -- res = 0.33211E+04, tol = 0.57764E+04, time = 12.78 | CG iter. 24 -- res = 0.37166E+04, tol = 0.57764E+04, time = 12.82 | CG iter. 25 -- res = 0.40286E+04, tol = 0.57764E+04, time = 12.25 | CG iter. 26 -- res = 0.40263E+04, tol = 0.57764E+04, time = 12.37 | CG iter. 27 -- res = 0.36027E+04, tol = 0.57764E+04, time = 12.18 | CG iter. 28 -- res = 0.30208E+04, tol = 0.57764E+04, time = 12.38 | CG iter. 29 -- res = 0.25872E+04, tol = 0.57764E+04, time = 12.04 | CG iter. 30 -- res = 0.22366E+04, tol = 0.57764E+04, time = 12.01 | CG iter. 31 -- res = 0.19086E+04, tol = 0.57764E+04, time = 12.59 | CG iter. 32 -- res = 0.16476E+04, tol = 0.57764E+04, time = 12.96 | CG iter. 33 -- res = 0.13342E+04, tol = 0.57764E+04, time = 12.37 | CG iter. 34 -- res = 0.97410E+03, tol = 0.57764E+04, time = 11.96 | CG iter. 35 -- res = 0.71545E+03, tol = 0.57764E+04, time = 12.19 | CG iter. 36 -- res = 0.59456E+03, tol = 0.57764E+04, time = 12.95 | CG iter. 37 -- res = 0.54407E+03, tol = 0.57764E+04, time = 12.10 | CG iter. 38 -- res = 0.51900E+03, tol = 0.57764E+04, time = 13.03 | CG iter. 39 -- res = 0.51513E+03, tol = 0.57764E+04, time = 18.60 | CG iter. 40 -- res = 0.48694E+03, tol = 0.57764E+04, time = 12.28 | CG iter. 41 -- res = 0.43320E+03, tol = 0.57764E+04, time = 11.75 | CG iter. 42 -- res = 0.38195E+03, tol = 0.57764E+04, time = 11.83 | CG iter. 43 -- res = 0.34310E+03, tol = 0.57764E+04, time = 13.04 | CG iter. 44 -- res = 0.31836E+03, tol = 0.57764E+04, time = 12.45 | CG iter. 45 -- res = 0.29474E+03, tol = 0.57764E+04, time = 12.31 | CG iter. 46 -- res = 0.26826E+03, tol = 0.57764E+04, time = 14.30 | CG iter. 47 -- res = 0.23746E+03, tol = 0.57764E+04, time = 12.58 | CG iter. 48 -- res = 0.19929E+03, tol = 0.57764E+04, time = 12.32 | CG iter. 49 -- res = 0.16269E+03, tol = 0.57764E+04, time = 12.20 | CG iter. 50 -- res = 0.14164E+03, tol = 0.57764E+04, time = 12.49 | CG iter. 51 -- res = 0.13034E+03, tol = 0.57764E+04, time = 12.08 | CG iter. 52 -- res = 0.11793E+03, tol = 0.57764E+04, time = 12.81 | CG iter. 53 -- res = 0.11030E+03, tol = 0.57764E+04, time = 12.80 | CG iter. 54 -- res = 0.10444E+03, tol = 0.57764E+04, time = 12.91 | CG iter. 55 -- res = 0.97335E+02, tol = 0.57764E+04, time = 11.97 | CG iter. 56 -- res = 0.90766E+02, tol = 0.57764E+04, time = 12.58 | CG iter. 57 -- res = 0.84100E+02, tol = 0.57764E+04, time = 12.28 | CG iter. 58 -- res = 0.76936E+02, tol = 0.57764E+04, time = 12.23 | CG iter. 59 -- res = 0.70729E+02, tol = 0.57764E+04, time = 12.50 | CG iter. 60 -- res = 0.65950E+02, tol = 0.57764E+04, time = 12.36 | Final CG iter 61 -- res = 0.65950E+02, tol = 0.57764E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.790 ( -230.040 -2230.745 2513.259 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9261659.946 | Old band monopole 8368645.038 | Change to band monopole 893014.908 | Change to component monopole -893011.067 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.977 2.724 | New value -3.364 | Old value -4.977 | Difference 1.613 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.440 ( 7.864 12.366 -11.785 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.780 3.976 | New value -1.369 | Old value 8.780 | Difference -10.148 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.19439E+06, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.43416E+02, tol = 0.47627E+18, time = 2.39 | CG iter. 3 -- res = 0.19163E+01, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.44275E-02, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.46809E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9261620.110 | (Sampled value in CG: 9237945.183 ) | Chain = 1 -- chisq = 0.81566605E+09 | Chain = 1 -- wall time = 6209.681 sec Available RAM: MemAvailable: 376302092 kB Available Swap: SwapFree: 1113777844 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 393 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443415 | --> Sampling calibration, mode = relcal | relcal = 1.3422828E-02 7.3582947E-04 -1.5792218E-03 -1.2579436E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1743868 0.1919890 97041599.5700708 | BP delta = 0.1825939 0.2001962 97041604.5110418 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632515 | --> Sampling calibration, mode = relcal | relcal = -2.8212697E-03 -7.0420088E-04 1.6801890E-03 1.6142505E-03 -4.0817802E-04 6.3920912E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5456668 15215413.8541121 | BP delta = 0.0000000E+00 -0.5407539 15215414.2923818 | BP chisq diff = 0.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17860077230737 | --> Sampling calibration, mode = relcal | relcal = -7.4809268E-02 -5.8142390E-02 9.1515750E-02 4.1435905E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -5.2714317E-05 3.5607007E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8128E-05 | 2: delta_r/delta_0: 7.8072E-07 | 3: delta_s/delta_0: 2.5033E-07 | 4: delta_r/delta_0: 1.4784E-08 | 5: delta_s/delta_0: 3.4975E-09 | 6: delta_r/delta_0: 1.2883E-09 | 7: delta_s/delta_0: 1.3356E-09 | 8: delta_r/delta_0: 1.2474E-10 | 9: delta_s/delta_0: 5.5389E-10 | 10: delta_r/delta_0: 8.8765E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.218679688053022E-004 2.746663721495058E-005 | BP delta = 7.5901940E-02 9.9245287E-02 50487830.2371873 | BP delta = 7.9023950E-02 0.1023673 50487829.8802033 | BP chisq diff = -0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02609477 | --> Sampling calibration, mode = relcal | relcal = -0.1066727 -9.5539302E-02 0.1449375 5.7274520E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6330300E-03 1.6520477E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3232E-05 | 2: delta_r/delta_0: 1.3914E-06 | 3: delta_s/delta_0: 2.4909E-07 | 4: delta_r/delta_0: 4.4276E-08 | 5: delta_s/delta_0: 2.3787E-08 | 6: delta_r/delta_0: 7.0462E-09 | 7: delta_s/delta_0: 5.4171E-09 | 8: delta_r/delta_0: 1.8067E-09 | 9: delta_s/delta_0: 8.6694E-10 | 10: delta_r/delta_0: 6.4669E-10 | 11: delta_s/delta_0: 1.6435E-09 | 12: delta_r/delta_0: 8.8458E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.004899087156332E-002 2.810577373995037E-005 | BP delta = -0.2378908 -0.2069512 57392792.4583745 | BP delta = -0.2491788 -0.2182391 57392792.6043303 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243639 | --> Sampling calibration, mode = relcal | relcal = 0.2954252 0.2250549 -0.2838420 -0.2366381 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.2243630E-04 5.7288930E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2285E-03 | 2: delta_r/delta_0: 7.4817E-05 | 3: delta_s/delta_0: 1.3511E-05 | 4: delta_r/delta_0: 1.1526E-06 | 5: delta_s/delta_0: 1.1895E-06 | 6: delta_r/delta_0: 5.1033E-08 | 7: delta_s/delta_0: 2.8797E-08 | 8: delta_r/delta_0: 1.0082E-08 | 9: delta_s/delta_0: 4.8810E-07 | 10: delta_r/delta_0: 3.1998E-08 | 11: delta_s/delta_0: 1.3330E-09 | 12: delta_r/delta_0: 5.5789E-10 | 13: delta_s/delta_0: 3.4165E-10 | 14: delta_r/delta_0: 7.6438E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.570019225730912E-003 4.020730920097709E-005 | BP delta = -0.1020545 -0.1522619 72484653.8286738 | BP delta = -8.6627245E-02 -0.1368346 72484654.3653074 | BP chisq diff = 0.5, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95940401 | --> Sampling calibration, mode = relcal | relcal = 0.1065688 0.1395941 -0.1103284 -0.1358345 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0215077E-02 1.3672951E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9820E-04 | 2: delta_r/delta_0: 7.4809E-06 | 3: delta_s/delta_0: 3.4201E-04 | 4: delta_r/delta_0: 1.4801E-05 | 5: delta_s/delta_0: 2.2837E-07 | 6: delta_r/delta_0: 1.1223E-07 | 7: delta_s/delta_0: 4.2240E-07 | 8: delta_r/delta_0: 3.1806E-08 | 9: delta_s/delta_0: 7.8191E-09 | 10: delta_r/delta_0: 4.1758E-09 | 11: delta_s/delta_0: 1.3825E-09 | 12: delta_r/delta_0: 9.7078E-10 | 13: delta_s/delta_0: 1.8952E-10 | 14: delta_r/delta_0: 1.3493E-10 | 15: delta_s/delta_0: 1.2235E-10 | 16: delta_r/delta_0: 7.5400E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.105732827579055E-002 3.696285682194002E-005 | BP delta = 9.1741435E-02 0.2110453 72786504.6999717 | BP delta = 8.5520908E-02 0.2048247 72786505.0316797 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.186003 | New value = -3.207812 | poltype: 2 pol: 1 CPU time specind = 2.5573969E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.212025 | New value = -3.117720 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.230019 | New value = -3.132838 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134135 | New value = -3.189706 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114062 | New value = -3.120397 | poltype: 2 pol: 2 CPU time specind = 5.1679611E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.13531E+08, tol = 0.75616E+01, time = 5.93 | CG iter. 2 -- res = 0.30865E+06, tol = 0.75616E+01, time = 5.86 | CG iter. 3 -- res = 0.43405E+05, tol = 0.75616E+01, time = 5.69 | CG iter. 4 -- res = 0.19651E+05, tol = 0.75616E+01, time = 5.65 | CG iter. 5 -- res = 0.10063E+05, tol = 0.75616E+01, time = 5.66 | CG iter. 6 -- res = 0.54891E+04, tol = 0.75616E+01, time = 6.05 | CG iter. 7 -- res = 0.36645E+04, tol = 0.75616E+01, time = 5.84 | CG iter. 8 -- res = 0.27523E+04, tol = 0.75616E+01, time = 5.64 | CG iter. 9 -- res = 0.24117E+04, tol = 0.75616E+01, time = 6.27 | CG iter. 10 -- res = 0.26706E+04, tol = 0.75616E+01, time = 5.69 | CG iter. 11 -- res = 0.25396E+04, tol = 0.75616E+01, time = 6.18 | CG iter. 12 -- res = 0.19092E+04, tol = 0.75616E+01, time = 5.96 | CG iter. 13 -- res = 0.13776E+04, tol = 0.75616E+01, time = 6.05 | CG iter. 14 -- res = 0.10781E+04, tol = 0.75616E+01, time = 5.67 | CG iter. 15 -- res = 0.92431E+03, tol = 0.75616E+01, time = 5.89 | CG iter. 16 -- res = 0.73883E+03, tol = 0.75616E+01, time = 6.19 | CG iter. 17 -- res = 0.56136E+03, tol = 0.75616E+01, time = 6.08 | CG iter. 18 -- res = 0.45928E+03, tol = 0.75616E+01, time = 5.69 | CG iter. 19 -- res = 0.38905E+03, tol = 0.75616E+01, time = 5.99 | CG iter. 20 -- res = 0.32613E+03, tol = 0.75616E+01, time = 6.15 | CG iter. 21 -- res = 0.23959E+03, tol = 0.75616E+01, time = 12.13 | CG iter. 22 -- res = 0.19349E+03, tol = 0.75616E+01, time = 5.95 | CG iter. 23 -- res = 0.18036E+03, tol = 0.75616E+01, time = 5.79 | CG iter. 24 -- res = 0.16599E+03, tol = 0.75616E+01, time = 6.64 | CG iter. 25 -- res = 0.13692E+03, tol = 0.75616E+01, time = 5.87 | CG iter. 26 -- res = 0.11147E+03, tol = 0.75616E+01, time = 5.88 | CG iter. 27 -- res = 0.94785E+02, tol = 0.75616E+01, time = 5.79 | CG iter. 28 -- res = 0.83930E+02, tol = 0.75616E+01, time = 6.05 | CG iter. 29 -- res = 0.70858E+02, tol = 0.75616E+01, time = 5.77 | CG iter. 30 -- res = 0.59255E+02, tol = 0.75616E+01, time = 5.81 | CG iter. 31 -- res = 0.52498E+02, tol = 0.75616E+01, time = 6.14 | CG iter. 32 -- res = 0.48625E+02, tol = 0.75616E+01, time = 5.66 | CG iter. 33 -- res = 0.43141E+02, tol = 0.75616E+01, time = 5.76 | CG iter. 34 -- res = 0.34914E+02, tol = 0.75616E+01, time = 6.03 | CG iter. 35 -- res = 0.29664E+02, tol = 0.75616E+01, time = 7.31 | CG iter. 36 -- res = 0.26464E+02, tol = 0.75616E+01, time = 6.74 | CG iter. 37 -- res = 0.23435E+02, tol = 0.75616E+01, time = 6.49 | CG iter. 38 -- res = 0.19007E+02, tol = 0.75616E+01, time = 5.91 | CG iter. 39 -- res = 0.15012E+02, tol = 0.75616E+01, time = 6.02 | CG iter. 40 -- res = 0.13112E+02, tol = 0.75616E+01, time = 6.39 | CG iter. 41 -- res = 0.11328E+02, tol = 0.75616E+01, time = 6.28 | CG iter. 42 -- res = 0.90538E+01, tol = 0.75616E+01, time = 5.91 | CG iter. 43 -- res = 0.71942E+01, tol = 0.75616E+01, time = 5.82 | CG iter. 44 -- res = 0.57547E+01, tol = 0.75616E+01, time = 6.01 | CG iter. 45 -- res = 0.49121E+01, tol = 0.75616E+01, time = 5.48 | CG iter. 46 -- res = 0.39080E+01, tol = 0.75616E+01, time = 5.65 | CG iter. 47 -- res = 0.30535E+01, tol = 0.75616E+01, time = 5.86 | CG iter. 48 -- res = 0.24001E+01, tol = 0.75616E+01, time = 5.93 | CG iter. 49 -- res = 0.20062E+01, tol = 0.75616E+01, time = 6.04 | CG iter. 50 -- res = 0.16526E+01, tol = 0.75616E+01, time = 5.92 | Final CG iter 51 -- res = 0.16526E+01, tol = 0.75616E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8888933.192 | Old band monopole 9261659.946 | Change to band monopole -372726.754 | Change to component monopole 372725.151 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.10745E+05, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.24754E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.57920E+00, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.10650E-02, tol = 0.47627E+18, time = 2.27 | Final CG iter 5 -- res = 0.79717E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8888894.959 | (Sampled value in CG: 8875016.835 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493952 | New value = 1.488612 | poltype: 2 pol: 1 CPU time specind = 2.1223783E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485565 | New value = 1.495163 | poltype: 2 pol: 2 CPU time specind = 2.1212101E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.24001E+08, tol = 0.47509E+04, time = 12.31 | CG iter. 2 -- res = 0.53835E+07, tol = 0.47509E+04, time = 6.85 | CG iter. 3 -- res = 0.87355E+06, tol = 0.47509E+04, time = 7.05 | CG iter. 4 -- res = 0.36420E+06, tol = 0.47509E+04, time = 6.66 | CG iter. 5 -- res = 0.15493E+06, tol = 0.47509E+04, time = 7.01 | CG iter. 6 -- res = 0.78683E+05, tol = 0.47509E+04, time = 7.22 | CG iter. 7 -- res = 0.42212E+05, tol = 0.47509E+04, time = 6.78 | CG iter. 8 -- res = 0.20545E+05, tol = 0.47509E+04, time = 6.38 | CG iter. 9 -- res = 0.91555E+04, tol = 0.47509E+04, time = 6.54 | CG iter. 10 -- res = 0.37228E+04, tol = 0.47509E+04, time = 6.70 | CG iter. 11 -- res = 0.16700E+04, tol = 0.47509E+04, time = 6.76 | CG iter. 12 -- res = 0.86673E+03, tol = 0.47509E+04, time = 6.60 | CG iter. 13 -- res = 0.48900E+03, tol = 0.47509E+04, time = 8.05 | CG iter. 14 -- res = 0.26997E+03, tol = 0.47509E+04, time = 6.96 | CG iter. 15 -- res = 0.14330E+03, tol = 0.47509E+04, time = 7.36 | CG iter. 16 -- res = 0.70150E+02, tol = 0.47509E+04, time = 6.66 | CG iter. 17 -- res = 0.32567E+02, tol = 0.47509E+04, time = 6.79 | CG iter. 18 -- res = 0.16069E+02, tol = 0.47509E+04, time = 6.88 | CG iter. 19 -- res = 0.88958E+01, tol = 0.47509E+04, time = 6.71 | CG iter. 20 -- res = 0.49532E+01, tol = 0.47509E+04, time = 6.83 | CG iter. 21 -- res = 0.26574E+01, tol = 0.47509E+04, time = 6.95 | CG iter. 22 -- res = 0.13789E+01, tol = 0.47509E+04, time = 6.95 | CG iter. 23 -- res = 0.69596E+00, tol = 0.47509E+04, time = 7.02 | CG iter. 24 -- res = 0.36523E+00, tol = 0.47509E+04, time = 6.55 | CG iter. 25 -- res = 0.20296E+00, tol = 0.47509E+04, time = 6.64 | CG iter. 26 -- res = 0.11423E+00, tol = 0.47509E+04, time = 6.74 | CG iter. 27 -- res = 0.64363E-01, tol = 0.47509E+04, time = 6.65 | CG iter. 28 -- res = 0.34874E-01, tol = 0.47509E+04, time = 6.52 | CG iter. 29 -- res = 0.17980E-01, tol = 0.47509E+04, time = 6.56 | CG iter. 30 -- res = 0.94893E-02, tol = 0.47509E+04, time = 7.01 | CG iter. 31 -- res = 0.51890E-02, tol = 0.47509E+04, time = 6.74 | CG iter. 32 -- res = 0.29613E-02, tol = 0.47509E+04, time = 6.79 | CG iter. 33 -- res = 0.16899E-02, tol = 0.47509E+04, time = 6.85 | CG iter. 34 -- res = 0.90563E-03, tol = 0.47509E+04, time = 6.97 | CG iter. 35 -- res = 0.46495E-03, tol = 0.47509E+04, time = 7.06 | Final CG iter 36 -- res = 0.46495E-03, tol = 0.47509E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.349 2.736 | New value 1.153 | Old value -3.349 | Difference 4.502 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.10471E+07, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.19114E+02, tol = 0.47627E+18, time = 2.38 | CG iter. 3 -- res = 0.28819E+00, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.33700E-03, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.11724E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8888894.959 | (Sampled value in CG: 8873688.034 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.671431 | New value = -3.641808 | poltype: 1 pol: 1 CPU time specind = 1.7775059E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.20198E+07, tol = 0.23762E+01, time = 2.87 | CG iter. 2 -- res = 0.63343E+06, tol = 0.23762E+01, time = 2.99 | CG iter. 3 -- res = 0.11688E+06, tol = 0.23762E+01, time = 2.90 | CG iter. 4 -- res = 0.44757E+05, tol = 0.23762E+01, time = 2.67 | CG iter. 5 -- res = 0.26937E+05, tol = 0.23762E+01, time = 2.62 | CG iter. 6 -- res = 0.14639E+05, tol = 0.23762E+01, time = 2.71 | CG iter. 7 -- res = 0.58258E+04, tol = 0.23762E+01, time = 3.15 | CG iter. 8 -- res = 0.24818E+04, tol = 0.23762E+01, time = 2.65 | CG iter. 9 -- res = 0.10058E+04, tol = 0.23762E+01, time = 3.01 | CG iter. 10 -- res = 0.38363E+03, tol = 0.23762E+01, time = 2.72 | CG iter. 11 -- res = 0.18061E+03, tol = 0.23762E+01, time = 2.72 | CG iter. 12 -- res = 0.94541E+02, tol = 0.23762E+01, time = 3.05 | CG iter. 13 -- res = 0.48885E+02, tol = 0.23762E+01, time = 2.95 | CG iter. 14 -- res = 0.23174E+02, tol = 0.23762E+01, time = 2.97 | CG iter. 15 -- res = 0.98518E+01, tol = 0.23762E+01, time = 3.26 | CG iter. 16 -- res = 0.41304E+01, tol = 0.23762E+01, time = 8.55 | CG iter. 17 -- res = 0.18352E+01, tol = 0.23762E+01, time = 2.98 | CG iter. 18 -- res = 0.91613E+00, tol = 0.23762E+01, time = 3.02 | CG iter. 19 -- res = 0.45049E+00, tol = 0.23762E+01, time = 2.76 | CG iter. 20 -- res = 0.22446E+00, tol = 0.23762E+01, time = 2.86 | CG iter. 21 -- res = 0.10643E+00, tol = 0.23762E+01, time = 2.84 | CG iter. 22 -- res = 0.47352E-01, tol = 0.23762E+01, time = 2.96 | CG iter. 23 -- res = 0.21206E-01, tol = 0.23762E+01, time = 3.14 | CG iter. 24 -- res = 0.10377E-01, tol = 0.23762E+01, time = 2.79 | CG iter. 25 -- res = 0.53377E-02, tol = 0.23762E+01, time = 2.79 | CG iter. 26 -- res = 0.27208E-02, tol = 0.23762E+01, time = 3.02 | CG iter. 27 -- res = 0.12980E-02, tol = 0.23762E+01, time = 2.71 | CG iter. 28 -- res = 0.58877E-03, tol = 0.23762E+01, time = 2.75 | CG iter. 29 -- res = 0.25793E-03, tol = 0.23762E+01, time = 2.78 | CG iter. 30 -- res = 0.12987E-03, tol = 0.23762E+01, time = 3.07 | CG iter. 31 -- res = 0.65415E-04, tol = 0.23762E+01, time = 2.74 | CG iter. 32 -- res = 0.32679E-04, tol = 0.23762E+01, time = 2.80 | CG iter. 33 -- res = 0.14796E-04, tol = 0.23762E+01, time = 2.83 | CG iter. 34 -- res = 0.69961E-05, tol = 0.23762E+01, time = 2.90 | CG iter. 35 -- res = 0.31821E-05, tol = 0.23762E+01, time = 2.67 | CG iter. 36 -- res = 0.15730E-05, tol = 0.23762E+01, time = 2.99 | CG iter. 37 -- res = 0.76064E-06, tol = 0.23762E+01, time = 2.76 | CG iter. 38 -- res = 0.37392E-06, tol = 0.23762E+01, time = 2.65 | CG iter. 39 -- res = 0.17999E-06, tol = 0.23762E+01, time = 2.73 | CG iter. 40 -- res = 0.82271E-07, tol = 0.23762E+01, time = 2.85 | CG iter. 41 -- res = 0.40328E-07, tol = 0.23762E+01, time = 2.93 | CG iter. 42 -- res = 0.18984E-07, tol = 0.23762E+01, time = 3.08 | CG iter. 43 -- res = 0.90265E-08, tol = 0.23762E+01, time = 2.76 | CG iter. 44 -- res = 0.45125E-08, tol = 0.23762E+01, time = 2.83 | CG iter. 45 -- res = 0.21630E-08, tol = 0.23762E+01, time = 3.14 | CG iter. 46 -- res = 0.10307E-08, tol = 0.23762E+01, time = 4.09 | CG iter. 47 -- res = 0.48817E-09, tol = 0.23762E+01, time = 3.23 | CG iter. 48 -- res = 0.22979E-09, tol = 0.23762E+01, time = 3.01 | CG iter. 49 -- res = 0.11310E-09, tol = 0.23762E+01, time = 3.15 | CG iter. 50 -- res = 0.54422E-10, tol = 0.23762E+01, time = 2.84 | Final CG iter 51 -- res = 0.54422E-10, tol = 0.23762E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.384 4.005 | New value 5.154 | Old value -2.384 | Difference 7.538 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.54910E+05, tol = 0.47627E+18, time = 2.20 | CG iter. 2 -- res = 0.33230E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.15548E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.11815E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.13821E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8888894.959 | (Sampled value in CG: 8876568.294 ) | CPU time specind = 1235.803 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.68108E+08, tol = 0.57773E+04, time = 12.15 | CG iter. 2 -- res = 0.57996E+08, tol = 0.57773E+04, time = 12.10 | CG iter. 3 -- res = 0.14588E+08, tol = 0.57773E+04, time = 12.48 | CG iter. 4 -- res = 0.62763E+07, tol = 0.57773E+04, time = 12.44 | CG iter. 5 -- res = 0.36352E+07, tol = 0.57773E+04, time = 12.49 | CG iter. 6 -- res = 0.20511E+07, tol = 0.57773E+04, time = 12.32 | CG iter. 7 -- res = 0.12368E+07, tol = 0.57773E+04, time = 12.77 | CG iter. 8 -- res = 0.82390E+06, tol = 0.57773E+04, time = 12.12 | CG iter. 9 -- res = 0.52832E+06, tol = 0.57773E+04, time = 19.10 | CG iter. 10 -- res = 0.30968E+06, tol = 0.57773E+04, time = 12.31 | CG iter. 11 -- res = 0.16933E+06, tol = 0.57773E+04, time = 12.11 | CG iter. 12 -- res = 0.90288E+05, tol = 0.57773E+04, time = 12.62 | CG iter. 13 -- res = 0.48345E+05, tol = 0.57773E+04, time = 12.62 | CG iter. 14 -- res = 0.27216E+05, tol = 0.57773E+04, time = 12.23 | CG iter. 15 -- res = 0.17207E+05, tol = 0.57773E+04, time = 12.25 | CG iter. 16 -- res = 0.12108E+05, tol = 0.57773E+04, time = 14.05 | CG iter. 17 -- res = 0.85349E+04, tol = 0.57773E+04, time = 13.05 | CG iter. 18 -- res = 0.57641E+04, tol = 0.57773E+04, time = 12.12 | CG iter. 19 -- res = 0.37586E+04, tol = 0.57773E+04, time = 12.80 | CG iter. 20 -- res = 0.25167E+04, tol = 0.57773E+04, time = 12.52 | CG iter. 21 -- res = 0.17969E+04, tol = 0.57773E+04, time = 12.67 | CG iter. 22 -- res = 0.14512E+04, tol = 0.57773E+04, time = 12.53 | CG iter. 23 -- res = 0.13955E+04, tol = 0.57773E+04, time = 12.18 | CG iter. 24 -- res = 0.14601E+04, tol = 0.57773E+04, time = 12.37 | CG iter. 25 -- res = 0.15248E+04, tol = 0.57773E+04, time = 12.83 | CG iter. 26 -- res = 0.15541E+04, tol = 0.57773E+04, time = 12.12 | CG iter. 27 -- res = 0.14940E+04, tol = 0.57773E+04, time = 12.52 | CG iter. 28 -- res = 0.13613E+04, tol = 0.57773E+04, time = 12.41 | CG iter. 29 -- res = 0.12467E+04, tol = 0.57773E+04, time = 12.68 | CG iter. 30 -- res = 0.11941E+04, tol = 0.57773E+04, time = 12.26 | CG iter. 31 -- res = 0.10868E+04, tol = 0.57773E+04, time = 12.09 | CG iter. 32 -- res = 0.93952E+03, tol = 0.57773E+04, time = 12.06 | CG iter. 33 -- res = 0.78276E+03, tol = 0.57773E+04, time = 18.56 | CG iter. 34 -- res = 0.60468E+03, tol = 0.57773E+04, time = 12.35 | CG iter. 35 -- res = 0.44899E+03, tol = 0.57773E+04, time = 12.31 | CG iter. 36 -- res = 0.36548E+03, tol = 0.57773E+04, time = 12.62 | CG iter. 37 -- res = 0.31944E+03, tol = 0.57773E+04, time = 12.20 | CG iter. 38 -- res = 0.28746E+03, tol = 0.57773E+04, time = 12.40 | CG iter. 39 -- res = 0.26822E+03, tol = 0.57773E+04, time = 12.26 | CG iter. 40 -- res = 0.24678E+03, tol = 0.57773E+04, time = 13.74 | CG iter. 41 -- res = 0.22338E+03, tol = 0.57773E+04, time = 12.24 | CG iter. 42 -- res = 0.20374E+03, tol = 0.57773E+04, time = 12.55 | CG iter. 43 -- res = 0.19148E+03, tol = 0.57773E+04, time = 12.37 | CG iter. 44 -- res = 0.18412E+03, tol = 0.57773E+04, time = 12.64 | CG iter. 45 -- res = 0.17618E+03, tol = 0.57773E+04, time = 12.64 | CG iter. 46 -- res = 0.16571E+03, tol = 0.57773E+04, time = 12.13 | CG iter. 47 -- res = 0.15037E+03, tol = 0.57773E+04, time = 12.25 | CG iter. 48 -- res = 0.13009E+03, tol = 0.57773E+04, time = 12.60 | CG iter. 49 -- res = 0.10964E+03, tol = 0.57773E+04, time = 12.24 | CG iter. 50 -- res = 0.94815E+02, tol = 0.57773E+04, time = 12.28 | CG iter. 51 -- res = 0.85268E+02, tol = 0.57773E+04, time = 12.63 | CG iter. 52 -- res = 0.79932E+02, tol = 0.57773E+04, time = 11.93 | CG iter. 53 -- res = 0.78255E+02, tol = 0.57773E+04, time = 12.25 | CG iter. 54 -- res = 0.74230E+02, tol = 0.57773E+04, time = 12.34 | CG iter. 55 -- res = 0.68728E+02, tol = 0.57773E+04, time = 11.78 | CG iter. 56 -- res = 0.64055E+02, tol = 0.57773E+04, time = 19.50 | CG iter. 57 -- res = 0.60061E+02, tol = 0.57773E+04, time = 12.62 | CG iter. 58 -- res = 0.59199E+02, tol = 0.57773E+04, time = 11.94 | CG iter. 59 -- res = 0.58816E+02, tol = 0.57773E+04, time = 12.06 | CG iter. 60 -- res = 0.55354E+02, tol = 0.57773E+04, time = 12.38 | Final CG iter 61 -- res = 0.55354E+02, tol = 0.57773E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.831 ( -229.909 -2230.718 2513.180 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8212852.851 | Old band monopole 8888933.192 | Change to band monopole -676080.341 | Change to component monopole 676077.433 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.177 2.719 | New value -3.829 | Old value 1.177 | Difference -5.006 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.299 ( 7.801 12.946 -12.199 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 8.592 5.083 | New value -2.086 | Old value 8.592 | Difference -10.678 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.13135E+07, tol = 0.47627E+18, time = 2.26 | CG iter. 2 -- res = 0.37762E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.11574E+01, tol = 0.47627E+18, time = 2.47 | CG iter. 4 -- res = 0.31885E-02, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.21367E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8212817.526 | (Sampled value in CG: 8188719.569 ) | Chain = 1 -- chisq = 0.81571146E+09 | Chain = 1 -- wall time = 5781.140 sec Available RAM: MemAvailable: 376277020 kB Available Swap: SwapFree: 1114243508 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 394 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442773 | --> Sampling calibration, mode = relcal | relcal = 1.3430075E-02 7.4977486E-04 -1.5883018E-03 -1.2591548E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1743868 0.1919890 9403382.01261692 | BP delta = 0.1743868 0.1940062 9403419.42586265 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632625 | --> Sampling calibration, mode = relcal | relcal = -2.8224632E-03 -7.0164812E-04 1.6800349E-03 1.6147066E-03 -4.1042955E-04 6.3979940E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5407539 15220173.8289735 | BP delta = 0.0000000E+00 -0.5495732 15220170.8040424 | BP chisq diff = -3.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18432534916271 | --> Sampling calibration, mode = relcal | relcal = -7.6411009E-02 -5.9386924E-02 9.3395464E-02 4.2402461E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7390101E-05 6.5136398E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2129E-05 | 2: delta_r/delta_0: 1.7223E-06 | 3: delta_s/delta_0: 2.1034E-07 | 4: delta_r/delta_0: 3.5552E-08 | 5: delta_s/delta_0: 1.2060E-08 | 6: delta_r/delta_0: 3.4759E-09 | 7: delta_s/delta_0: 6.4490E-10 | 8: delta_r/delta_0: 2.3233E-10 | 9: delta_s/delta_0: 1.4748E-10 | 10: delta_r/delta_0: 7.4815E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.592369223152982E-003 2.733192114773527E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2128E-05 | 2: delta_r/delta_0: 1.7223E-06 | 3: delta_s/delta_0: 2.1035E-07 | 4: delta_r/delta_0: 3.5555E-08 | 5: delta_s/delta_0: 1.2061E-08 | 6: delta_r/delta_0: 3.4761E-09 | 7: delta_s/delta_0: 6.4492E-10 | 8: delta_r/delta_0: 2.3236E-10 | 9: delta_s/delta_0: 1.4752E-10 | 10: delta_r/delta_0: 7.4833E-11 | Reached bicg-stab tolerance | BP delta = 7.9023950E-02 0.1023673 3442081.30159360 | BP delta = 7.9023950E-02 0.1028749 3440512.12147147 | BP chisq diff = -1569.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02612307 | --> Sampling calibration, mode = relcal | relcal = -0.1066847 -9.5522806E-02 0.1448953 5.7312138E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6669905E-03 1.3766302E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1348E-05 | 2: delta_r/delta_0: 1.2217E-06 | 3: delta_s/delta_0: 2.4475E-07 | 4: delta_r/delta_0: 5.1516E-08 | 5: delta_s/delta_0: 1.8529E-08 | 6: delta_r/delta_0: 7.2633E-09 | 7: delta_s/delta_0: 9.9568E-09 | 8: delta_r/delta_0: 1.2614E-09 | 9: delta_s/delta_0: 1.0878E-09 | 10: delta_r/delta_0: 2.3630E-10 | 11: delta_s/delta_0: 2.2982E-09 | 12: delta_r/delta_0: 2.1761E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.732057262000871E-003 2.810487302471362E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1348E-05 | 2: delta_r/delta_0: 1.2216E-06 | 3: delta_s/delta_0: 2.4474E-07 | 4: delta_r/delta_0: 5.1497E-08 | 5: delta_s/delta_0: 1.8535E-08 | 6: delta_r/delta_0: 7.2621E-09 | 7: delta_s/delta_0: 9.9565E-09 | 8: delta_r/delta_0: 1.2613E-09 | 9: delta_s/delta_0: 1.0876E-09 | 10: delta_r/delta_0: 2.3626E-10 | 11: delta_s/delta_0: 2.2977E-09 | 12: delta_r/delta_0: 2.1763E-11 | Reached bicg-stab tolerance | BP delta = -0.2491788 -0.2182391 2841564.51491564 | BP delta = -0.2491788 -0.2217307 2841575.10311239 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81253018 | --> Sampling calibration, mode = relcal | relcal = 0.2956029 0.2248943 -0.2838788 -0.2366184 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2104993E-03 5.4179933E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4937E-03 | 2: delta_r/delta_0: 3.4349E-05 | 3: delta_s/delta_0: 1.8474E-05 | 4: delta_r/delta_0: 1.9337E-06 | 5: delta_s/delta_0: 1.0129E-06 | 6: delta_r/delta_0: 1.1222E-07 | 7: delta_s/delta_0: 5.9558E-08 | 8: delta_r/delta_0: 3.1276E-08 | 9: delta_s/delta_0: 3.8648E-07 | 10: delta_r/delta_0: 2.2201E-09 | 11: delta_s/delta_0: 1.0481E-09 | 12: delta_r/delta_0: 3.7443E-10 | 13: delta_s/delta_0: 1.5807E-09 | 14: delta_r/delta_0: 5.4515E-10 | 15: delta_s/delta_0: 7.9529E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.470694514696494E-002 4.020229051801805E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4930E-03 | 2: delta_r/delta_0: 3.4333E-05 | 3: delta_s/delta_0: 1.8479E-05 | 4: delta_r/delta_0: 1.9341E-06 | 5: delta_s/delta_0: 1.0120E-06 | 6: delta_r/delta_0: 1.1214E-07 | 7: delta_s/delta_0: 5.9554E-08 | 8: delta_r/delta_0: 3.1267E-08 | 9: delta_s/delta_0: 3.8634E-07 | 10: delta_r/delta_0: 2.2179E-09 | 11: delta_s/delta_0: 1.0463E-09 | 12: delta_r/delta_0: 3.7440E-10 | 13: delta_s/delta_0: 1.5898E-09 | 14: delta_r/delta_0: 5.4634E-10 | 15: delta_s/delta_0: 7.9494E-11 | Reached bicg-stab tolerance | BP delta = -8.6627245E-02 -0.1368346 2827116.09086519 | BP delta = -8.6627245E-02 -0.1307441 2827176.75369128 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95949797 | --> Sampling calibration, mode = relcal | relcal = 0.1066063 0.1395318 -0.1103171 -0.1358210 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0184753E-02 1.3806119E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1067E-04 | 2: delta_r/delta_0: 5.4426E-06 | 3: delta_s/delta_0: 1.1515E-05 | 4: delta_r/delta_0: 1.2454E-06 | 5: delta_s/delta_0: 1.8528E-07 | 6: delta_r/delta_0: 1.1025E-07 | 7: delta_s/delta_0: 5.3847E-07 | 8: delta_r/delta_0: 2.6157E-08 | 9: delta_s/delta_0: 5.9212E-06 | 10: delta_r/delta_0: 1.1916E-06 | 11: delta_s/delta_0: 1.2715E-09 | 12: delta_r/delta_0: 7.8706E-10 | 13: delta_s/delta_0: 2.0619E-09 | 14: delta_r/delta_0: 1.2528E-10 | 15: delta_s/delta_0: 5.6675E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.959189924543126E-002 3.695824831772971E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1067E-04 | 2: delta_r/delta_0: 5.4425E-06 | 3: delta_s/delta_0: 1.1515E-05 | 4: delta_r/delta_0: 1.2455E-06 | 5: delta_s/delta_0: 1.8527E-07 | 6: delta_r/delta_0: 1.1025E-07 | 7: delta_s/delta_0: 5.3842E-07 | 8: delta_r/delta_0: 2.6156E-08 | 9: delta_s/delta_0: 6.0576E-06 | 10: delta_r/delta_0: 1.2205E-06 | 11: delta_s/delta_0: 1.2713E-09 | 12: delta_r/delta_0: 7.8690E-10 | 13: delta_s/delta_0: 2.0673E-09 | 14: delta_r/delta_0: 1.2500E-10 | 15: delta_s/delta_0: 5.6648E-11 | Reached bicg-stab tolerance | BP delta = 8.5520908E-02 0.2048247 3004415.73848443 | BP delta = 8.5520908E-02 0.2055725 3004424.21552152 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.207812 | New value = -3.184280 | poltype: 2 pol: 1 CPU time specind = 1.6746044E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.117720 | New value = -3.149040 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132838 | New value = -3.199807 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189706 | New value = -3.132760 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120397 | New value = -3.098186 | poltype: 2 pol: 2 CPU time specind = 1.9443989E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.13552E+08, tol = 0.83449E+01, time = 5.72 | CG iter. 2 -- res = 0.33306E+06, tol = 0.83449E+01, time = 5.95 | CG iter. 3 -- res = 0.50030E+05, tol = 0.83449E+01, time = 5.77 | CG iter. 4 -- res = 0.27497E+05, tol = 0.83449E+01, time = 7.38 | CG iter. 5 -- res = 0.18207E+05, tol = 0.83449E+01, time = 6.42 | CG iter. 6 -- res = 0.14170E+05, tol = 0.83449E+01, time = 5.99 | CG iter. 7 -- res = 0.14267E+05, tol = 0.83449E+01, time = 5.98 | CG iter. 8 -- res = 0.13592E+05, tol = 0.83449E+01, time = 5.76 | CG iter. 9 -- res = 0.13729E+05, tol = 0.83449E+01, time = 5.74 | CG iter. 10 -- res = 0.13430E+05, tol = 0.83449E+01, time = 5.47 | CG iter. 11 -- res = 0.98255E+04, tol = 0.83449E+01, time = 6.08 | CG iter. 12 -- res = 0.64391E+04, tol = 0.83449E+01, time = 5.75 | CG iter. 13 -- res = 0.45017E+04, tol = 0.83449E+01, time = 6.00 | CG iter. 14 -- res = 0.36987E+04, tol = 0.83449E+01, time = 5.73 | CG iter. 15 -- res = 0.33074E+04, tol = 0.83449E+01, time = 5.48 | CG iter. 16 -- res = 0.27734E+04, tol = 0.83449E+01, time = 5.73 | CG iter. 17 -- res = 0.21182E+04, tol = 0.83449E+01, time = 6.44 | CG iter. 18 -- res = 0.18103E+04, tol = 0.83449E+01, time = 5.68 | CG iter. 19 -- res = 0.15475E+04, tol = 0.83449E+01, time = 6.03 | CG iter. 20 -- res = 0.12333E+04, tol = 0.83449E+01, time = 5.76 | CG iter. 21 -- res = 0.91519E+03, tol = 0.83449E+01, time = 5.48 | CG iter. 22 -- res = 0.76154E+03, tol = 0.83449E+01, time = 6.64 | CG iter. 23 -- res = 0.69725E+03, tol = 0.83449E+01, time = 5.83 | CG iter. 24 -- res = 0.61326E+03, tol = 0.83449E+01, time = 5.86 | CG iter. 25 -- res = 0.48918E+03, tol = 0.83449E+01, time = 6.08 | CG iter. 26 -- res = 0.40964E+03, tol = 0.83449E+01, time = 5.72 | CG iter. 27 -- res = 0.36905E+03, tol = 0.83449E+01, time = 5.84 | CG iter. 28 -- res = 0.34830E+03, tol = 0.83449E+01, time = 6.22 | CG iter. 29 -- res = 0.29214E+03, tol = 0.83449E+01, time = 5.59 | CG iter. 30 -- res = 0.24681E+03, tol = 0.83449E+01, time = 5.74 | CG iter. 31 -- res = 0.21930E+03, tol = 0.83449E+01, time = 6.03 | CG iter. 32 -- res = 0.20079E+03, tol = 0.83449E+01, time = 5.78 | CG iter. 33 -- res = 0.16715E+03, tol = 0.83449E+01, time = 5.86 | CG iter. 34 -- res = 0.13187E+03, tol = 0.83449E+01, time = 6.10 | CG iter. 35 -- res = 0.10965E+03, tol = 0.83449E+01, time = 5.89 | CG iter. 36 -- res = 0.10066E+03, tol = 0.83449E+01, time = 5.57 | CG iter. 37 -- res = 0.82196E+02, tol = 0.83449E+01, time = 5.80 | CG iter. 38 -- res = 0.61676E+02, tol = 0.83449E+01, time = 5.89 | CG iter. 39 -- res = 0.46223E+02, tol = 0.83449E+01, time = 11.88 | CG iter. 40 -- res = 0.38195E+02, tol = 0.83449E+01, time = 5.90 | CG iter. 41 -- res = 0.31154E+02, tol = 0.83449E+01, time = 5.56 | CG iter. 42 -- res = 0.22543E+02, tol = 0.83449E+01, time = 5.91 | CG iter. 43 -- res = 0.17112E+02, tol = 0.83449E+01, time = 5.54 | CG iter. 44 -- res = 0.13862E+02, tol = 0.83449E+01, time = 5.83 | CG iter. 45 -- res = 0.11177E+02, tol = 0.83449E+01, time = 5.56 | CG iter. 46 -- res = 0.89003E+01, tol = 0.83449E+01, time = 5.67 | CG iter. 47 -- res = 0.69307E+01, tol = 0.83449E+01, time = 5.86 | CG iter. 48 -- res = 0.56229E+01, tol = 0.83449E+01, time = 5.81 | CG iter. 49 -- res = 0.47561E+01, tol = 0.83449E+01, time = 5.90 | CG iter. 50 -- res = 0.37981E+01, tol = 0.83449E+01, time = 5.93 | Final CG iter 51 -- res = 0.37981E+01, tol = 0.83449E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7218143.981 | Old band monopole 8212852.851 | Change to band monopole -994708.871 | Change to component monopole 994704.592 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.60848E+05, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.26878E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.12149E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.13474E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.40064E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7218112.934 | (Sampled value in CG: 7232994.898 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.488612 | New value = 1.481681 | poltype: 2 pol: 1 CPU time specind = 1.8521070E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.495163 | New value = 1.489849 | poltype: 2 pol: 2 CPU time specind = 1.2789011E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.23997E+08, tol = 0.47491E+04, time = 6.71 | CG iter. 2 -- res = 0.52904E+07, tol = 0.47491E+04, time = 6.98 | CG iter. 3 -- res = 0.83887E+06, tol = 0.47491E+04, time = 6.61 | CG iter. 4 -- res = 0.35626E+06, tol = 0.47491E+04, time = 7.11 | CG iter. 5 -- res = 0.15507E+06, tol = 0.47491E+04, time = 6.85 | CG iter. 6 -- res = 0.81498E+05, tol = 0.47491E+04, time = 7.00 | CG iter. 7 -- res = 0.45087E+05, tol = 0.47491E+04, time = 6.46 | CG iter. 8 -- res = 0.21605E+05, tol = 0.47491E+04, time = 6.71 | CG iter. 9 -- res = 0.90923E+04, tol = 0.47491E+04, time = 7.22 | CG iter. 10 -- res = 0.36329E+04, tol = 0.47491E+04, time = 6.59 | CG iter. 11 -- res = 0.16390E+04, tol = 0.47491E+04, time = 7.05 | CG iter. 12 -- res = 0.85713E+03, tol = 0.47491E+04, time = 6.58 | CG iter. 13 -- res = 0.49486E+03, tol = 0.47491E+04, time = 6.79 | CG iter. 14 -- res = 0.27959E+03, tol = 0.47491E+04, time = 6.67 | CG iter. 15 -- res = 0.14164E+03, tol = 0.47491E+04, time = 6.51 | CG iter. 16 -- res = 0.66919E+02, tol = 0.47491E+04, time = 6.52 | CG iter. 17 -- res = 0.31791E+02, tol = 0.47491E+04, time = 13.00 | CG iter. 18 -- res = 0.16255E+02, tol = 0.47491E+04, time = 6.74 | CG iter. 19 -- res = 0.87461E+01, tol = 0.47491E+04, time = 6.74 | CG iter. 20 -- res = 0.49301E+01, tol = 0.47491E+04, time = 6.46 | CG iter. 21 -- res = 0.26745E+01, tol = 0.47491E+04, time = 7.14 | CG iter. 22 -- res = 0.13643E+01, tol = 0.47491E+04, time = 6.56 | CG iter. 23 -- res = 0.66188E+00, tol = 0.47491E+04, time = 6.43 | CG iter. 24 -- res = 0.33288E+00, tol = 0.47491E+04, time = 6.77 | CG iter. 25 -- res = 0.17866E+00, tol = 0.47491E+04, time = 6.84 | CG iter. 26 -- res = 0.10166E+00, tol = 0.47491E+04, time = 6.82 | CG iter. 27 -- res = 0.56654E-01, tol = 0.47491E+04, time = 6.93 | CG iter. 28 -- res = 0.30010E-01, tol = 0.47491E+04, time = 6.84 | CG iter. 29 -- res = 0.15827E-01, tol = 0.47491E+04, time = 6.60 | CG iter. 30 -- res = 0.83615E-02, tol = 0.47491E+04, time = 7.79 | CG iter. 31 -- res = 0.45439E-02, tol = 0.47491E+04, time = 7.37 | CG iter. 32 -- res = 0.25409E-02, tol = 0.47491E+04, time = 6.88 | CG iter. 33 -- res = 0.14426E-02, tol = 0.47491E+04, time = 6.47 | CG iter. 34 -- res = 0.77795E-03, tol = 0.47491E+04, time = 6.80 | CG iter. 35 -- res = 0.40801E-03, tol = 0.47491E+04, time = 6.61 | Final CG iter 36 -- res = 0.40801E-03, tol = 0.47491E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.826 2.737 | New value -1.092 | Old value -3.826 | Difference 2.734 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.38613E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.15925E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.23402E+00, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.20597E-03, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.23763E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7218112.934 | (Sampled value in CG: 7232554.085 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.641808 | New value = -3.545240 | poltype: 1 pol: 1 CPU time specind = 1.7340899E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.24218E+07, tol = 0.23958E+01, time = 2.69 | CG iter. 2 -- res = 0.82048E+06, tol = 0.23958E+01, time = 2.82 | CG iter. 3 -- res = 0.16843E+06, tol = 0.23958E+01, time = 2.64 | CG iter. 4 -- res = 0.72103E+05, tol = 0.23958E+01, time = 2.59 | CG iter. 5 -- res = 0.43279E+05, tol = 0.23958E+01, time = 3.02 | CG iter. 6 -- res = 0.20354E+05, tol = 0.23958E+01, time = 3.07 | CG iter. 7 -- res = 0.77279E+04, tol = 0.23958E+01, time = 2.74 | CG iter. 8 -- res = 0.35588E+04, tol = 0.23958E+01, time = 2.84 | CG iter. 9 -- res = 0.15759E+04, tol = 0.23958E+01, time = 2.77 | CG iter. 10 -- res = 0.60905E+03, tol = 0.23958E+01, time = 3.03 | CG iter. 11 -- res = 0.25858E+03, tol = 0.23958E+01, time = 3.05 | CG iter. 12 -- res = 0.12221E+03, tol = 0.23958E+01, time = 2.82 | CG iter. 13 -- res = 0.63998E+02, tol = 0.23958E+01, time = 2.82 | CG iter. 14 -- res = 0.32776E+02, tol = 0.23958E+01, time = 2.67 | CG iter. 15 -- res = 0.15466E+02, tol = 0.23958E+01, time = 2.53 | CG iter. 16 -- res = 0.65672E+01, tol = 0.23958E+01, time = 2.89 | CG iter. 17 -- res = 0.28560E+01, tol = 0.23958E+01, time = 2.80 | CG iter. 18 -- res = 0.12888E+01, tol = 0.23958E+01, time = 2.84 | CG iter. 19 -- res = 0.63207E+00, tol = 0.23958E+01, time = 2.65 | CG iter. 20 -- res = 0.31758E+00, tol = 0.23958E+01, time = 2.90 | CG iter. 21 -- res = 0.16616E+00, tol = 0.23958E+01, time = 2.91 | CG iter. 22 -- res = 0.78652E-01, tol = 0.23958E+01, time = 2.74 | CG iter. 23 -- res = 0.34476E-01, tol = 0.23958E+01, time = 2.60 | CG iter. 24 -- res = 0.15845E-01, tol = 0.23958E+01, time = 2.79 | CG iter. 25 -- res = 0.73823E-02, tol = 0.23958E+01, time = 2.74 | CG iter. 26 -- res = 0.37108E-02, tol = 0.23958E+01, time = 3.08 | CG iter. 27 -- res = 0.19824E-02, tol = 0.23958E+01, time = 2.76 | CG iter. 28 -- res = 0.96641E-03, tol = 0.23958E+01, time = 2.69 | CG iter. 29 -- res = 0.44152E-03, tol = 0.23958E+01, time = 2.90 | CG iter. 30 -- res = 0.20602E-03, tol = 0.23958E+01, time = 2.80 | CG iter. 31 -- res = 0.98068E-04, tol = 0.23958E+01, time = 2.79 | CG iter. 32 -- res = 0.50353E-04, tol = 0.23958E+01, time = 2.80 | CG iter. 33 -- res = 0.25689E-04, tol = 0.23958E+01, time = 3.11 | CG iter. 34 -- res = 0.12575E-04, tol = 0.23958E+01, time = 2.94 | CG iter. 35 -- res = 0.57301E-05, tol = 0.23958E+01, time = 2.92 | CG iter. 36 -- res = 0.26758E-05, tol = 0.23958E+01, time = 2.89 | CG iter. 37 -- res = 0.12852E-05, tol = 0.23958E+01, time = 2.65 | CG iter. 38 -- res = 0.64923E-06, tol = 0.23958E+01, time = 2.94 | CG iter. 39 -- res = 0.32351E-06, tol = 0.23958E+01, time = 2.79 | CG iter. 40 -- res = 0.15723E-06, tol = 0.23958E+01, time = 2.95 | CG iter. 41 -- res = 0.76180E-07, tol = 0.23958E+01, time = 2.67 | CG iter. 42 -- res = 0.35475E-07, tol = 0.23958E+01, time = 2.61 | CG iter. 43 -- res = 0.16223E-07, tol = 0.23958E+01, time = 2.96 | CG iter. 44 -- res = 0.78923E-08, tol = 0.23958E+01, time = 2.68 | CG iter. 45 -- res = 0.38694E-08, tol = 0.23958E+01, time = 2.70 | CG iter. 46 -- res = 0.18896E-08, tol = 0.23958E+01, time = 2.65 | CG iter. 47 -- res = 0.94699E-09, tol = 0.23958E+01, time = 2.68 | CG iter. 48 -- res = 0.44745E-09, tol = 0.23958E+01, time = 2.90 | CG iter. 49 -- res = 0.20337E-09, tol = 0.23958E+01, time = 3.01 | CG iter. 50 -- res = 0.97823E-10, tol = 0.23958E+01, time = 2.92 | Final CG iter 51 -- res = 0.97823E-10, tol = 0.23958E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.266 5.025 | New value 0.843 | Old value -1.266 | Difference 2.110 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.44592E+04, tol = 0.47627E+18, time = 2.25 | CG iter. 2 -- res = 0.20340E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.19068E+00, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.37243E-03, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.16954E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7218112.934 | (Sampled value in CG: 7228365.970 ) | CPU time specind = 1224.512 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.68232E+08, tol = 0.57598E+04, time = 12.11 | CG iter. 2 -- res = 0.58439E+08, tol = 0.57598E+04, time = 14.47 | CG iter. 3 -- res = 0.15426E+08, tol = 0.57598E+04, time = 12.15 | CG iter. 4 -- res = 0.64394E+07, tol = 0.57598E+04, time = 12.61 | CG iter. 5 -- res = 0.37789E+07, tol = 0.57598E+04, time = 11.94 | CG iter. 6 -- res = 0.21671E+07, tol = 0.57598E+04, time = 12.21 | CG iter. 7 -- res = 0.12880E+07, tol = 0.57598E+04, time = 11.99 | CG iter. 8 -- res = 0.85025E+06, tol = 0.57598E+04, time = 12.09 | CG iter. 9 -- res = 0.55071E+06, tol = 0.57598E+04, time = 12.18 | CG iter. 10 -- res = 0.33518E+06, tol = 0.57598E+04, time = 12.97 | CG iter. 11 -- res = 0.18483E+06, tol = 0.57598E+04, time = 12.42 | CG iter. 12 -- res = 0.97223E+05, tol = 0.57598E+04, time = 12.08 | CG iter. 13 -- res = 0.52672E+05, tol = 0.57598E+04, time = 12.05 | CG iter. 14 -- res = 0.31455E+05, tol = 0.57598E+04, time = 12.35 | CG iter. 15 -- res = 0.21890E+05, tol = 0.57598E+04, time = 11.82 | CG iter. 16 -- res = 0.16685E+05, tol = 0.57598E+04, time = 12.50 | CG iter. 17 -- res = 0.13198E+05, tol = 0.57598E+04, time = 12.45 | CG iter. 18 -- res = 0.10218E+05, tol = 0.57598E+04, time = 13.25 | CG iter. 19 -- res = 0.78788E+04, tol = 0.57598E+04, time = 17.48 | CG iter. 20 -- res = 0.65891E+04, tol = 0.57598E+04, time = 11.86 | CG iter. 21 -- res = 0.59400E+04, tol = 0.57598E+04, time = 12.27 | CG iter. 22 -- res = 0.60369E+04, tol = 0.57598E+04, time = 12.19 | CG iter. 23 -- res = 0.66616E+04, tol = 0.57598E+04, time = 12.33 | CG iter. 24 -- res = 0.75290E+04, tol = 0.57598E+04, time = 12.40 | CG iter. 25 -- res = 0.77502E+04, tol = 0.57598E+04, time = 12.70 | CG iter. 26 -- res = 0.70524E+04, tol = 0.57598E+04, time = 13.45 | CG iter. 27 -- res = 0.57635E+04, tol = 0.57598E+04, time = 12.37 | CG iter. 28 -- res = 0.44548E+04, tol = 0.57598E+04, time = 11.80 | CG iter. 29 -- res = 0.35921E+04, tol = 0.57598E+04, time = 12.25 | CG iter. 30 -- res = 0.30206E+04, tol = 0.57598E+04, time = 11.90 | CG iter. 31 -- res = 0.25005E+04, tol = 0.57598E+04, time = 12.16 | CG iter. 32 -- res = 0.20558E+04, tol = 0.57598E+04, time = 11.93 | CG iter. 33 -- res = 0.16194E+04, tol = 0.57598E+04, time = 12.27 | CG iter. 34 -- res = 0.12709E+04, tol = 0.57598E+04, time = 12.40 | CG iter. 35 -- res = 0.10240E+04, tol = 0.57598E+04, time = 12.38 | CG iter. 36 -- res = 0.90461E+03, tol = 0.57598E+04, time = 12.10 | CG iter. 37 -- res = 0.88324E+03, tol = 0.57598E+04, time = 12.54 | CG iter. 38 -- res = 0.89247E+03, tol = 0.57598E+04, time = 12.15 | CG iter. 39 -- res = 0.88640E+03, tol = 0.57598E+04, time = 12.49 | CG iter. 40 -- res = 0.78288E+03, tol = 0.57598E+04, time = 11.88 | CG iter. 41 -- res = 0.65380E+03, tol = 0.57598E+04, time = 11.99 | CG iter. 42 -- res = 0.53786E+03, tol = 0.57598E+04, time = 15.71 | CG iter. 43 -- res = 0.45545E+03, tol = 0.57598E+04, time = 14.66 | CG iter. 44 -- res = 0.40053E+03, tol = 0.57598E+04, time = 11.96 | CG iter. 45 -- res = 0.35479E+03, tol = 0.57598E+04, time = 12.00 | CG iter. 46 -- res = 0.30851E+03, tol = 0.57598E+04, time = 12.11 | CG iter. 47 -- res = 0.26154E+03, tol = 0.57598E+04, time = 12.15 | CG iter. 48 -- res = 0.21591E+03, tol = 0.57598E+04, time = 12.15 | CG iter. 49 -- res = 0.17657E+03, tol = 0.57598E+04, time = 12.48 | CG iter. 50 -- res = 0.15074E+03, tol = 0.57598E+04, time = 13.58 | CG iter. 51 -- res = 0.13784E+03, tol = 0.57598E+04, time = 12.15 | CG iter. 52 -- res = 0.13312E+03, tol = 0.57598E+04, time = 12.63 | CG iter. 53 -- res = 0.13098E+03, tol = 0.57598E+04, time = 12.10 | CG iter. 54 -- res = 0.12594E+03, tol = 0.57598E+04, time = 12.59 | CG iter. 55 -- res = 0.11431E+03, tol = 0.57598E+04, time = 12.38 | CG iter. 56 -- res = 0.10037E+03, tol = 0.57598E+04, time = 12.62 | CG iter. 57 -- res = 0.88988E+02, tol = 0.57598E+04, time = 12.00 | CG iter. 58 -- res = 0.81854E+02, tol = 0.57598E+04, time = 12.69 | CG iter. 59 -- res = 0.77269E+02, tol = 0.57598E+04, time = 12.02 | CG iter. 60 -- res = 0.74076E+02, tol = 0.57598E+04, time = 11.97 | Final CG iter 61 -- res = 0.74076E+02, tol = 0.57598E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.840 ( -229.618 -2228.780 2511.068 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8970976.715 | Old band monopole 7218143.981 | Change to band monopole 1752832.734 | Change to component monopole -1752825.194 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.085 2.750 | New value 0.738 | Old value -1.085 | Difference 1.823 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.392 ( 6.981 8.512 -7.530 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.136 6.968 | New value -0.072 | Old value 2.136 | Difference -2.208 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.18190E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.22474E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.66442E+00, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.12302E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.14982E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8970938.128 | (Sampled value in CG: 8949613.235 ) | Chain = 1 -- chisq = 0.81612896E+09 | Chain = 1 -- wall time = 6167.955 sec Available RAM: MemAvailable: 376085772 kB Available Swap: SwapFree: 1115004084 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 395 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445719 | --> Sampling calibration, mode = relcal | relcal = 1.3441448E-02 7.4934936E-04 -1.6049412E-03 -1.2585856E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1743868 0.1919890 97036423.4800687 | BP delta = 0.1780934 0.1956957 97036426.0521393 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632383 | --> Sampling calibration, mode = relcal | relcal = -2.8209202E-03 -7.0307526E-04 1.6779585E-03 1.6127802E-03 -4.0649844E-04 6.3975516E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5495732 15217375.1360726 | BP delta = 0.0000000E+00 -0.5481676 15217369.1211529 | BP chisq diff = -6.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18019909791229 | --> Sampling calibration, mode = relcal | relcal = -7.4100867E-02 -5.7855848E-02 9.0880118E-02 4.1076593E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4054940E-04 3.4994136E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2248E-03 | 2: delta_r/delta_0: 5.1560E-05 | 3: delta_s/delta_0: 1.9714E-07 | 4: delta_r/delta_0: 2.1864E-08 | 5: delta_s/delta_0: 9.4625E-09 | 6: delta_r/delta_0: 2.2556E-09 | 7: delta_s/delta_0: 4.1163E-09 | 8: delta_r/delta_0: 1.1442E-10 | 9: delta_s/delta_0: 9.5823E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.235862742529512E-003 2.743058406738515E-005 | BP delta = 7.9023950E-02 0.1028749 50489943.1354807 | BP delta = 7.5683549E-02 9.9534512E-02 50489940.0777801 | BP chisq diff = -3.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02581644 | --> Sampling calibration, mode = relcal | relcal = -0.1065631 -9.5530905E-02 0.1448635 5.7230428E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6492928E-03 1.0804080E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7622E-05 | 2: delta_r/delta_0: 1.1759E-06 | 3: delta_s/delta_0: 2.3681E-07 | 4: delta_r/delta_0: 5.2713E-08 | 5: delta_s/delta_0: 1.5460E-08 | 6: delta_r/delta_0: 7.0860E-09 | 7: delta_s/delta_0: 1.6206E-08 | 8: delta_r/delta_0: 1.0932E-09 | 9: delta_s/delta_0: 9.3011E-10 | 10: delta_r/delta_0: 2.7724E-10 | 11: delta_s/delta_0: 2.6626E-09 | 12: delta_r/delta_0: 2.8273E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.546253324312290E-003 2.811309616900979E-005 | BP delta = -0.2491788 -0.2182391 57388440.4483158 | BP delta = -0.2563081 -0.2253685 57388441.3078308 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81216957 | --> Sampling calibration, mode = relcal | relcal = 0.2955016 0.2247970 -0.2837696 -0.2365289 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.9326022E-04 5.6838975E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8760E-02 | 2: delta_r/delta_0: 4.3956E-04 | 3: delta_s/delta_0: 1.4543E-04 | 4: delta_r/delta_0: 1.2256E-05 | 5: delta_s/delta_0: 5.7699E-06 | 6: delta_r/delta_0: 8.1083E-07 | 7: delta_s/delta_0: 2.8986E-07 | 8: delta_r/delta_0: 2.0919E-08 | 9: delta_s/delta_0: 1.2299E-07 | 10: delta_r/delta_0: 2.7271E-08 | 11: delta_s/delta_0: 2.2733E-08 | 12: delta_r/delta_0: 3.9532E-09 | 13: delta_s/delta_0: 1.6912E-08 | 14: delta_r/delta_0: 2.2299E-09 | 15: delta_s/delta_0: 5.5142E-10 | 16: delta_r/delta_0: 1.0940E-10 | 17: delta_s/delta_0: 2.2643E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 3.024885820558828E-002 4.022069886030438E-005 | BP delta = -8.6627245E-02 -0.1368346 72488553.0481315 | BP delta = -0.1286172 -0.1788245 72488551.9503987 | BP chisq diff = -1.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95895601 | --> Sampling calibration, mode = relcal | relcal = 0.1064101 0.1395201 -0.1101804 -0.1357498 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8744780E-03 1.3526061E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2007E-04 | 2: delta_r/delta_0: 5.6694E-06 | 3: delta_s/delta_0: 3.7210E-05 | 4: delta_r/delta_0: 2.8737E-06 | 5: delta_s/delta_0: 1.9482E-07 | 6: delta_r/delta_0: 1.1158E-07 | 7: delta_s/delta_0: 5.4591E-07 | 8: delta_r/delta_0: 2.8323E-08 | 9: delta_s/delta_0: 8.6837E-09 | 10: delta_r/delta_0: 3.7942E-09 | 11: delta_s/delta_0: 1.4356E-09 | 12: delta_r/delta_0: 7.6938E-10 | 13: delta_s/delta_0: 4.7036E-09 | 14: delta_r/delta_0: 2.9810E-10 | 15: delta_s/delta_0: 5.5107E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.992247555688121E-002 3.697930569447412E-005 | BP delta = 8.5520908E-02 0.2048247 72786243.0413790 | BP delta = 6.6704653E-02 0.1860085 72786243.3834727 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.184280 | New value = -3.135698 | poltype: 2 pol: 1 CPU time specind = 2.5647879E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149040 | New value = -3.133247 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199807 | New value = -3.146413 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132760 | New value = -3.120118 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.098186 | New value = -3.186740 | poltype: 2 pol: 2 CPU time specind = 3.2949448E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.13573E+08, tol = 0.78591E+01, time = 5.62 | CG iter. 2 -- res = 0.32195E+06, tol = 0.78591E+01, time = 5.42 | CG iter. 3 -- res = 0.54222E+05, tol = 0.78591E+01, time = 5.65 | CG iter. 4 -- res = 0.33170E+05, tol = 0.78591E+01, time = 5.90 | CG iter. 5 -- res = 0.23624E+05, tol = 0.78591E+01, time = 5.68 | CG iter. 6 -- res = 0.19886E+05, tol = 0.78591E+01, time = 5.60 | CG iter. 7 -- res = 0.18642E+05, tol = 0.78591E+01, time = 5.64 | CG iter. 8 -- res = 0.15383E+05, tol = 0.78591E+01, time = 5.63 | CG iter. 9 -- res = 0.13527E+05, tol = 0.78591E+01, time = 5.86 | CG iter. 10 -- res = 0.11890E+05, tol = 0.78591E+01, time = 5.37 | CG iter. 11 -- res = 0.82655E+04, tol = 0.78591E+01, time = 5.88 | CG iter. 12 -- res = 0.55876E+04, tol = 0.78591E+01, time = 5.80 | CG iter. 13 -- res = 0.42918E+04, tol = 0.78591E+01, time = 5.88 | CG iter. 14 -- res = 0.36893E+04, tol = 0.78591E+01, time = 5.24 | CG iter. 15 -- res = 0.30890E+04, tol = 0.78591E+01, time = 5.85 | CG iter. 16 -- res = 0.23053E+04, tol = 0.78591E+01, time = 5.63 | CG iter. 17 -- res = 0.16037E+04, tol = 0.78591E+01, time = 5.76 | CG iter. 18 -- res = 0.12261E+04, tol = 0.78591E+01, time = 5.93 | CG iter. 19 -- res = 0.98655E+03, tol = 0.78591E+01, time = 5.95 | CG iter. 20 -- res = 0.77820E+03, tol = 0.78591E+01, time = 5.89 | CG iter. 21 -- res = 0.55287E+03, tol = 0.78591E+01, time = 5.85 | CG iter. 22 -- res = 0.44645E+03, tol = 0.78591E+01, time = 5.88 | CG iter. 23 -- res = 0.39068E+03, tol = 0.78591E+01, time = 5.69 | CG iter. 24 -- res = 0.31669E+03, tol = 0.78591E+01, time = 6.04 | CG iter. 25 -- res = 0.22883E+03, tol = 0.78591E+01, time = 5.74 | CG iter. 26 -- res = 0.17185E+03, tol = 0.78591E+01, time = 6.13 | CG iter. 27 -- res = 0.14433E+03, tol = 0.78591E+01, time = 5.49 | CG iter. 28 -- res = 0.12467E+03, tol = 0.78591E+01, time = 11.82 | CG iter. 29 -- res = 0.95182E+02, tol = 0.78591E+01, time = 5.91 | CG iter. 30 -- res = 0.71699E+02, tol = 0.78591E+01, time = 6.18 | CG iter. 31 -- res = 0.62087E+02, tol = 0.78591E+01, time = 5.92 | CG iter. 32 -- res = 0.54395E+02, tol = 0.78591E+01, time = 5.79 | CG iter. 33 -- res = 0.42901E+02, tol = 0.78591E+01, time = 5.59 | CG iter. 34 -- res = 0.32256E+02, tol = 0.78591E+01, time = 5.61 | CG iter. 35 -- res = 0.26521E+02, tol = 0.78591E+01, time = 5.95 | CG iter. 36 -- res = 0.23397E+02, tol = 0.78591E+01, time = 6.04 | CG iter. 37 -- res = 0.19469E+02, tol = 0.78591E+01, time = 6.06 | CG iter. 38 -- res = 0.15468E+02, tol = 0.78591E+01, time = 5.88 | CG iter. 39 -- res = 0.12280E+02, tol = 0.78591E+01, time = 6.13 | CG iter. 40 -- res = 0.10734E+02, tol = 0.78591E+01, time = 5.43 | CG iter. 41 -- res = 0.91431E+01, tol = 0.78591E+01, time = 5.83 | CG iter. 42 -- res = 0.72973E+01, tol = 0.78591E+01, time = 5.99 | CG iter. 43 -- res = 0.57390E+01, tol = 0.78591E+01, time = 6.91 | CG iter. 44 -- res = 0.48627E+01, tol = 0.78591E+01, time = 6.25 | CG iter. 45 -- res = 0.40482E+01, tol = 0.78591E+01, time = 5.88 | CG iter. 46 -- res = 0.31811E+01, tol = 0.78591E+01, time = 5.79 | CG iter. 47 -- res = 0.25280E+01, tol = 0.78591E+01, time = 5.70 | CG iter. 48 -- res = 0.19918E+01, tol = 0.78591E+01, time = 5.78 | CG iter. 49 -- res = 0.16708E+01, tol = 0.78591E+01, time = 5.97 | CG iter. 50 -- res = 0.13572E+01, tol = 0.78591E+01, time = 5.52 | Final CG iter 51 -- res = 0.13572E+01, tol = 0.78591E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8420909.467 | Old band monopole 8970976.715 | Change to band monopole -550067.247 | Change to component monopole 550064.881 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.17274E+06, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.97337E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.36429E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.11953E-01, tol = 0.47627E+18, time = 2.39 | Final CG iter 5 -- res = 0.62809E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8420873.247 | (Sampled value in CG: 8466397.274 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.481681 | New value = 1.477844 | poltype: 2 pol: 1 CPU time specind = 1.7416000E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489849 | New value = 1.492211 | poltype: 2 pol: 2 CPU time specind = 9.0770721E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.30 | CG iter. 1 -- res = 0.24017E+08, tol = 0.47538E+04, time = 6.70 | CG iter. 2 -- res = 0.53578E+07, tol = 0.47538E+04, time = 6.83 | CG iter. 3 -- res = 0.83233E+06, tol = 0.47538E+04, time = 6.75 | CG iter. 4 -- res = 0.34303E+06, tol = 0.47538E+04, time = 6.59 | CG iter. 5 -- res = 0.14920E+06, tol = 0.47538E+04, time = 6.53 | CG iter. 6 -- res = 0.80115E+05, tol = 0.47538E+04, time = 6.50 | CG iter. 7 -- res = 0.44083E+05, tol = 0.47538E+04, time = 13.01 | CG iter. 8 -- res = 0.20880E+05, tol = 0.47538E+04, time = 6.59 | CG iter. 9 -- res = 0.88825E+04, tol = 0.47538E+04, time = 6.79 | CG iter. 10 -- res = 0.36162E+04, tol = 0.47538E+04, time = 6.49 | CG iter. 11 -- res = 0.16689E+04, tol = 0.47538E+04, time = 6.86 | CG iter. 12 -- res = 0.84960E+03, tol = 0.47538E+04, time = 6.63 | CG iter. 13 -- res = 0.49284E+03, tol = 0.47538E+04, time = 6.67 | CG iter. 14 -- res = 0.27610E+03, tol = 0.47538E+04, time = 6.77 | CG iter. 15 -- res = 0.14027E+03, tol = 0.47538E+04, time = 6.63 | CG iter. 16 -- res = 0.65905E+02, tol = 0.47538E+04, time = 6.70 | CG iter. 17 -- res = 0.31189E+02, tol = 0.47538E+04, time = 6.93 | CG iter. 18 -- res = 0.15557E+02, tol = 0.47538E+04, time = 6.64 | CG iter. 19 -- res = 0.84764E+01, tol = 0.47538E+04, time = 6.90 | CG iter. 20 -- res = 0.48248E+01, tol = 0.47538E+04, time = 7.91 | CG iter. 21 -- res = 0.26189E+01, tol = 0.47538E+04, time = 6.97 | CG iter. 22 -- res = 0.13694E+01, tol = 0.47538E+04, time = 7.15 | CG iter. 23 -- res = 0.67332E+00, tol = 0.47538E+04, time = 6.88 | CG iter. 24 -- res = 0.33744E+00, tol = 0.47538E+04, time = 7.04 | CG iter. 25 -- res = 0.18461E+00, tol = 0.47538E+04, time = 6.81 | CG iter. 26 -- res = 0.10521E+00, tol = 0.47538E+04, time = 6.48 | CG iter. 27 -- res = 0.59802E-01, tol = 0.47538E+04, time = 6.94 | CG iter. 28 -- res = 0.32440E-01, tol = 0.47538E+04, time = 6.94 | CG iter. 29 -- res = 0.17009E-01, tol = 0.47538E+04, time = 6.70 | CG iter. 30 -- res = 0.89088E-02, tol = 0.47538E+04, time = 6.59 | CG iter. 31 -- res = 0.47910E-02, tol = 0.47538E+04, time = 6.74 | CG iter. 32 -- res = 0.27003E-02, tol = 0.47538E+04, time = 6.65 | CG iter. 33 -- res = 0.15429E-02, tol = 0.47538E+04, time = 6.84 | CG iter. 34 -- res = 0.84501E-03, tol = 0.47538E+04, time = 6.66 | CG iter. 35 -- res = 0.44764E-03, tol = 0.47538E+04, time = 6.68 | Final CG iter 36 -- res = 0.44764E-03, tol = 0.47538E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.690 2.720 | New value -0.208 | Old value 0.690 | Difference -0.898 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.44096E+05, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.37682E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.11690E+01, tol = 0.47627E+18, time = 1.87 | Final CG iter 4 -- res = 0.61762E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8420873.247 | (Sampled value in CG: 8467433.776 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.545240 | New value = -3.527883 | poltype: 1 pol: 1 CPU time specind = 1.5435934E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.23191E+07, tol = 0.22467E+01, time = 2.74 | CG iter. 2 -- res = 0.85639E+06, tol = 0.22467E+01, time = 3.21 | CG iter. 3 -- res = 0.17123E+06, tol = 0.22467E+01, time = 2.76 | CG iter. 4 -- res = 0.70074E+05, tol = 0.22467E+01, time = 2.88 | CG iter. 5 -- res = 0.39883E+05, tol = 0.22467E+01, time = 2.80 | CG iter. 6 -- res = 0.20827E+05, tol = 0.22467E+01, time = 2.62 | CG iter. 7 -- res = 0.80328E+04, tol = 0.22467E+01, time = 2.50 | CG iter. 8 -- res = 0.36296E+04, tol = 0.22467E+01, time = 2.77 | CG iter. 9 -- res = 0.15473E+04, tol = 0.22467E+01, time = 2.75 | CG iter. 10 -- res = 0.59864E+03, tol = 0.22467E+01, time = 3.00 | CG iter. 11 -- res = 0.24818E+03, tol = 0.22467E+01, time = 3.02 | CG iter. 12 -- res = 0.12290E+03, tol = 0.22467E+01, time = 2.73 | CG iter. 13 -- res = 0.65347E+02, tol = 0.22467E+01, time = 2.81 | CG iter. 14 -- res = 0.32808E+02, tol = 0.22467E+01, time = 3.11 | CG iter. 15 -- res = 0.14852E+02, tol = 0.22467E+01, time = 2.91 | CG iter. 16 -- res = 0.67430E+01, tol = 0.22467E+01, time = 2.39 | CG iter. 17 -- res = 0.27802E+01, tol = 0.22467E+01, time = 2.69 | CG iter. 18 -- res = 0.12816E+01, tol = 0.22467E+01, time = 2.67 | CG iter. 19 -- res = 0.61345E+00, tol = 0.22467E+01, time = 2.84 | CG iter. 20 -- res = 0.31674E+00, tol = 0.22467E+01, time = 2.82 | CG iter. 21 -- res = 0.16319E+00, tol = 0.22467E+01, time = 2.79 | CG iter. 22 -- res = 0.74263E-01, tol = 0.22467E+01, time = 2.63 | CG iter. 23 -- res = 0.33061E-01, tol = 0.22467E+01, time = 2.70 | CG iter. 24 -- res = 0.15629E-01, tol = 0.22467E+01, time = 2.46 | CG iter. 25 -- res = 0.76167E-02, tol = 0.22467E+01, time = 2.48 | CG iter. 26 -- res = 0.39215E-02, tol = 0.22467E+01, time = 2.74 | CG iter. 27 -- res = 0.20202E-02, tol = 0.22467E+01, time = 2.75 | CG iter. 28 -- res = 0.10001E-02, tol = 0.22467E+01, time = 2.68 | CG iter. 29 -- res = 0.47607E-03, tol = 0.22467E+01, time = 2.44 | CG iter. 30 -- res = 0.21276E-03, tol = 0.22467E+01, time = 3.06 | CG iter. 31 -- res = 0.10201E-03, tol = 0.22467E+01, time = 2.94 | CG iter. 32 -- res = 0.52107E-04, tol = 0.22467E+01, time = 2.35 | CG iter. 33 -- res = 0.25708E-04, tol = 0.22467E+01, time = 2.89 | CG iter. 34 -- res = 0.13115E-04, tol = 0.22467E+01, time = 2.74 | CG iter. 35 -- res = 0.63295E-05, tol = 0.22467E+01, time = 2.78 | CG iter. 36 -- res = 0.28931E-05, tol = 0.22467E+01, time = 3.11 | CG iter. 37 -- res = 0.13299E-05, tol = 0.22467E+01, time = 3.25 | CG iter. 38 -- res = 0.64632E-06, tol = 0.22467E+01, time = 8.71 | CG iter. 39 -- res = 0.32230E-06, tol = 0.22467E+01, time = 2.77 | CG iter. 40 -- res = 0.15744E-06, tol = 0.22467E+01, time = 2.87 | CG iter. 41 -- res = 0.79285E-07, tol = 0.22467E+01, time = 2.74 | CG iter. 42 -- res = 0.36600E-07, tol = 0.22467E+01, time = 2.54 | CG iter. 43 -- res = 0.16609E-07, tol = 0.22467E+01, time = 2.77 | CG iter. 44 -- res = 0.78710E-08, tol = 0.22467E+01, time = 3.09 | CG iter. 45 -- res = 0.38321E-08, tol = 0.22467E+01, time = 2.80 | CG iter. 46 -- res = 0.19827E-08, tol = 0.22467E+01, time = 2.70 | CG iter. 47 -- res = 0.95700E-09, tol = 0.22467E+01, time = 3.00 | CG iter. 48 -- res = 0.44102E-09, tol = 0.22467E+01, time = 3.00 | CG iter. 49 -- res = 0.19992E-09, tol = 0.22467E+01, time = 2.71 | CG iter. 50 -- res = 0.93380E-10, tol = 0.22467E+01, time = 2.72 | Final CG iter 51 -- res = 0.93380E-10, tol = 0.22467E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.889 5.934 | New value -1.278 | Old value 3.889 | Difference -5.167 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.28891E+05, tol = 0.47627E+18, time = 2.04 | CG iter. 2 -- res = 0.43934E+02, tol = 0.47627E+18, time = 2.28 | CG iter. 3 -- res = 0.16309E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.40115E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.33622E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8420873.247 | (Sampled value in CG: 8459512.712 ) | CPU time specind = 1207.327 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.68282E+08, tol = 0.57551E+04, time = 12.51 | CG iter. 2 -- res = 0.58861E+08, tol = 0.57551E+04, time = 12.20 | CG iter. 3 -- res = 0.15600E+08, tol = 0.57551E+04, time = 12.39 | CG iter. 4 -- res = 0.65343E+07, tol = 0.57551E+04, time = 11.95 | CG iter. 5 -- res = 0.38047E+07, tol = 0.57551E+04, time = 12.18 | CG iter. 6 -- res = 0.22151E+07, tol = 0.57551E+04, time = 12.18 | CG iter. 7 -- res = 0.12900E+07, tol = 0.57551E+04, time = 12.35 | CG iter. 8 -- res = 0.84286E+06, tol = 0.57551E+04, time = 12.29 | CG iter. 9 -- res = 0.53913E+06, tol = 0.57551E+04, time = 11.98 | CG iter. 10 -- res = 0.32042E+06, tol = 0.57551E+04, time = 12.32 | CG iter. 11 -- res = 0.17319E+06, tol = 0.57551E+04, time = 12.78 | CG iter. 12 -- res = 0.93158E+05, tol = 0.57551E+04, time = 12.32 | CG iter. 13 -- res = 0.52890E+05, tol = 0.57551E+04, time = 12.19 | CG iter. 14 -- res = 0.33161E+05, tol = 0.57551E+04, time = 16.09 | CG iter. 15 -- res = 0.22120E+05, tol = 0.57551E+04, time = 14.85 | CG iter. 16 -- res = 0.16343E+05, tol = 0.57551E+04, time = 12.22 | CG iter. 17 -- res = 0.12791E+05, tol = 0.57551E+04, time = 12.48 | CG iter. 18 -- res = 0.99666E+04, tol = 0.57551E+04, time = 12.20 | CG iter. 19 -- res = 0.75344E+04, tol = 0.57551E+04, time = 11.68 | CG iter. 20 -- res = 0.60508E+04, tol = 0.57551E+04, time = 12.26 | CG iter. 21 -- res = 0.52409E+04, tol = 0.57551E+04, time = 13.66 | CG iter. 22 -- res = 0.50559E+04, tol = 0.57551E+04, time = 13.45 | CG iter. 23 -- res = 0.53098E+04, tol = 0.57551E+04, time = 12.27 | CG iter. 24 -- res = 0.58140E+04, tol = 0.57551E+04, time = 12.16 | CG iter. 25 -- res = 0.58486E+04, tol = 0.57551E+04, time = 12.14 | CG iter. 26 -- res = 0.53414E+04, tol = 0.57551E+04, time = 12.11 | CG iter. 27 -- res = 0.43816E+04, tol = 0.57551E+04, time = 12.19 | CG iter. 28 -- res = 0.34120E+04, tol = 0.57551E+04, time = 11.80 | CG iter. 29 -- res = 0.27422E+04, tol = 0.57551E+04, time = 12.04 | CG iter. 30 -- res = 0.23495E+04, tol = 0.57551E+04, time = 12.96 | CG iter. 31 -- res = 0.19896E+04, tol = 0.57551E+04, time = 14.40 | CG iter. 32 -- res = 0.16906E+04, tol = 0.57551E+04, time = 12.18 | CG iter. 33 -- res = 0.14178E+04, tol = 0.57551E+04, time = 12.24 | CG iter. 34 -- res = 0.11685E+04, tol = 0.57551E+04, time = 12.14 | CG iter. 35 -- res = 0.97776E+03, tol = 0.57551E+04, time = 11.79 | CG iter. 36 -- res = 0.86485E+03, tol = 0.57551E+04, time = 11.94 | CG iter. 37 -- res = 0.82825E+03, tol = 0.57551E+04, time = 12.22 | CG iter. 38 -- res = 0.82951E+03, tol = 0.57551E+04, time = 17.83 | CG iter. 39 -- res = 0.81241E+03, tol = 0.57551E+04, time = 12.38 | CG iter. 40 -- res = 0.73544E+03, tol = 0.57551E+04, time = 12.18 | CG iter. 41 -- res = 0.62741E+03, tol = 0.57551E+04, time = 11.84 | CG iter. 42 -- res = 0.52248E+03, tol = 0.57551E+04, time = 12.32 | CG iter. 43 -- res = 0.44846E+03, tol = 0.57551E+04, time = 11.98 | CG iter. 44 -- res = 0.39459E+03, tol = 0.57551E+04, time = 11.88 | CG iter. 45 -- res = 0.36127E+03, tol = 0.57551E+04, time = 13.66 | CG iter. 46 -- res = 0.34067E+03, tol = 0.57551E+04, time = 12.18 | CG iter. 47 -- res = 0.31044E+03, tol = 0.57551E+04, time = 12.25 | CG iter. 48 -- res = 0.26948E+03, tol = 0.57551E+04, time = 12.05 | CG iter. 49 -- res = 0.23371E+03, tol = 0.57551E+04, time = 12.58 | CG iter. 50 -- res = 0.20870E+03, tol = 0.57551E+04, time = 12.54 | CG iter. 51 -- res = 0.20066E+03, tol = 0.57551E+04, time = 12.18 | CG iter. 52 -- res = 0.19802E+03, tol = 0.57551E+04, time = 12.27 | CG iter. 53 -- res = 0.19679E+03, tol = 0.57551E+04, time = 12.00 | CG iter. 54 -- res = 0.18817E+03, tol = 0.57551E+04, time = 11.66 | CG iter. 55 -- res = 0.17332E+03, tol = 0.57551E+04, time = 12.04 | CG iter. 56 -- res = 0.15223E+03, tol = 0.57551E+04, time = 12.32 | CG iter. 57 -- res = 0.13274E+03, tol = 0.57551E+04, time = 12.18 | CG iter. 58 -- res = 0.12001E+03, tol = 0.57551E+04, time = 11.70 | CG iter. 59 -- res = 0.11390E+03, tol = 0.57551E+04, time = 12.43 | CG iter. 60 -- res = 0.10924E+03, tol = 0.57551E+04, time = 12.25 | Final CG iter 61 -- res = 0.10924E+03, tol = 0.57551E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.897 ( -229.714 -2230.560 2513.084 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9727781.046 | Old band monopole 8420909.467 | Change to band monopole 1306871.578 | Change to component monopole -1306865.957 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.150 2.743 | New value 0.103 | Old value -0.150 | Difference 0.253 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.410 ( 6.775 11.581 -11.476 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.049 5.010 | New value -8.541 | Old value 3.049 | Difference -11.590 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.15191E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.69837E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.28296E+01, tol = 0.47627E+18, time = 1.78 | CG iter. 4 -- res = 0.40707E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.58323E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9727739.204 | (Sampled value in CG: 9703726.115 ) | Chain = 1 -- chisq = 0.81592152E+09 | Chain = 1 -- wall time = 5749.008 sec Available RAM: MemAvailable: 376147060 kB Available Swap: SwapFree: 1115254964 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 396 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444029 | --> Sampling calibration, mode = relcal | relcal = 1.3443956E-02 7.4590772E-04 -1.6015499E-03 -1.2588314E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1743868 0.1919890 9412557.40285728 | BP delta = 0.1743868 0.1943126 9412598.17923844 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632507 | --> Sampling calibration, mode = relcal | relcal = -2.8211090E-03 -7.0365384E-04 1.6786017E-03 1.6142246E-03 -4.0836897E-04 6.4030557E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5481676 15214697.2014193 | BP delta = 0.0000000E+00 -0.5373931 15214697.5760165 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103023 | --> Sampling calibration, mode = relcal | relcal = 3.7086386E-02 1.3716141E-02 5.7557249E-03 -7.1670362E-03 8.2425987E-03 2.3901504E-03 -7.5976420E-03 -7.1784994E-03 -1.5300029E-02 -1.4800128E-02 -3.0528908E-03 -1.2094776E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.159609 132209860.839737 | BP delta = 0.0000000E+00 -1.105496 132209872.766176 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18003326936110 | --> Sampling calibration, mode = relcal | relcal = -7.4722014E-02 -5.8161397E-02 9.1505140E-02 4.1378271E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2889260E-04 3.8187043E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5385E-05 | 2: delta_r/delta_0: 7.5502E-07 | 3: delta_s/delta_0: 2.5437E-07 | 4: delta_r/delta_0: 1.0568E-08 | 5: delta_s/delta_0: 9.1770E-08 | 6: delta_r/delta_0: 1.3889E-08 | 7: delta_s/delta_0: 1.9233E-10 | 8: delta_r/delta_0: 9.9043E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.138359347551305E-003 2.743356666317268E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5386E-05 | 2: delta_r/delta_0: 7.5502E-07 | 3: delta_s/delta_0: 2.5437E-07 | 4: delta_r/delta_0: 1.0568E-08 | 5: delta_s/delta_0: 9.1715E-08 | 6: delta_r/delta_0: 1.3883E-08 | 7: delta_s/delta_0: 1.9232E-10 | 8: delta_r/delta_0: 9.9043E-11 | Reached bicg-stab tolerance | BP delta = 7.5683549E-02 9.9534512E-02 3525909.79586585 | BP delta = 7.5683549E-02 9.9268131E-02 3527091.37261679 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02597657 | --> Sampling calibration, mode = relcal | relcal = -0.1067198 -9.5520794E-02 0.1450129 5.7227693E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0470772E-03 1.3410811E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1928E-05 | 2: delta_r/delta_0: 1.3696E-06 | 3: delta_s/delta_0: 2.5746E-07 | 4: delta_r/delta_0: 3.6783E-08 | 5: delta_s/delta_0: 2.5056E-08 | 6: delta_r/delta_0: 6.6995E-09 | 7: delta_s/delta_0: 5.2371E-09 | 8: delta_r/delta_0: 1.7870E-09 | 9: delta_s/delta_0: 8.1698E-10 | 10: delta_r/delta_0: 6.0897E-10 | 11: delta_s/delta_0: 1.8363E-09 | 12: delta_r/delta_0: 7.8810E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.002208645352517E-002 2.810912392832820E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1928E-05 | 2: delta_r/delta_0: 1.3696E-06 | 3: delta_s/delta_0: 2.5746E-07 | 4: delta_r/delta_0: 3.6785E-08 | 5: delta_s/delta_0: 2.5055E-08 | 6: delta_r/delta_0: 6.6996E-09 | 7: delta_s/delta_0: 5.2370E-09 | 8: delta_r/delta_0: 1.7870E-09 | 9: delta_s/delta_0: 8.1699E-10 | 10: delta_r/delta_0: 6.0899E-10 | 11: delta_s/delta_0: 1.8363E-09 | 12: delta_r/delta_0: 7.8812E-11 | Reached bicg-stab tolerance | BP delta = -0.2491788 -0.2182391 2841377.77820550 | BP delta = -0.2491788 -0.2144644 2841377.50283077 | BP chisq diff = -0.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236764 | --> Sampling calibration, mode = relcal | relcal = 0.2954926 0.2248800 -0.2838157 -0.2365570 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9727035E-04 5.5160522E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0061E-02 | 2: delta_r/delta_0: 7.0453E-04 | 3: delta_s/delta_0: 2.7810E-03 | 4: delta_r/delta_0: 1.5426E-04 | 5: delta_s/delta_0: 7.8803E-05 | 6: delta_r/delta_0: 2.1213E-05 | 7: delta_s/delta_0: 5.4180E-05 | 8: delta_r/delta_0: 1.1518E-05 | 9: delta_s/delta_0: 6.1896E-06 | 10: delta_r/delta_0: 5.6165E-07 | 11: delta_s/delta_0: 1.6221E-04 | 12: delta_r/delta_0: 9.8599E-08 | 13: delta_s/delta_0: 1.1003E-08 | 14: delta_r/delta_0: 6.3860E-09 | 15: delta_s/delta_0: 3.7089E-08 | 16: delta_r/delta_0: 1.6353E-09 | 17: delta_s/delta_0: 1.1263E-09 | 18: delta_r/delta_0: 8.0102E-10 | 19: delta_s/delta_0: 2.4066E-10 | 20: delta_r/delta_0: 1.6087E-10 | 21: delta_s/delta_0: 1.6296E-10 | 22: delta_r/delta_0: 1.8100E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.265582433903841 4.021015207135160E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.0103E-02 | 2: delta_r/delta_0: 7.0550E-04 | 3: delta_s/delta_0: 2.8173E-03 | 4: delta_r/delta_0: 1.5608E-04 | 5: delta_s/delta_0: 7.9575E-05 | 6: delta_r/delta_0: 2.1456E-05 | 7: delta_s/delta_0: 5.3904E-05 | 8: delta_r/delta_0: 1.1461E-05 | 9: delta_s/delta_0: 6.1286E-06 | 10: delta_r/delta_0: 5.3807E-07 | 11: delta_s/delta_0: 1.6334E-04 | 12: delta_r/delta_0: 9.7868E-08 | 13: delta_s/delta_0: 1.0915E-08 | 14: delta_r/delta_0: 6.3478E-09 | 15: delta_s/delta_0: 3.6585E-08 | 16: delta_r/delta_0: 1.6221E-09 | 17: delta_s/delta_0: 1.1205E-09 | 18: delta_r/delta_0: 7.9719E-10 | 19: delta_s/delta_0: 2.3948E-10 | 20: delta_r/delta_0: 1.5992E-10 | 21: delta_s/delta_0: 1.6198E-10 | 22: delta_r/delta_0: 1.7963E-11 | Reached bicg-stab tolerance | BP delta = -0.1286172 -0.1788245 2827359.70257533 | BP delta = -0.1286172 -0.1671274 2827359.76470187 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95931169 | --> Sampling calibration, mode = relcal | relcal = 0.1065868 0.1395371 -0.1102941 -0.1358299 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0338224E-02 1.3048047E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8313E-04 | 2: delta_r/delta_0: 4.8524E-06 | 3: delta_s/delta_0: 9.3457E-06 | 4: delta_r/delta_0: 1.1855E-06 | 5: delta_s/delta_0: 1.7885E-07 | 6: delta_r/delta_0: 1.1193E-07 | 7: delta_s/delta_0: 7.2645E-07 | 8: delta_r/delta_0: 2.4355E-08 | 9: delta_s/delta_0: 8.0102E-08 | 10: delta_r/delta_0: 3.2001E-08 | 11: delta_s/delta_0: 1.2475E-09 | 12: delta_r/delta_0: 8.8940E-10 | 13: delta_s/delta_0: 3.7213E-10 | 14: delta_r/delta_0: 2.6992E-10 | 15: delta_s/delta_0: 6.8712E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.951393172533752E-002 3.696617255153191E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8313E-04 | 2: delta_r/delta_0: 4.8524E-06 | 3: delta_s/delta_0: 9.3458E-06 | 4: delta_r/delta_0: 1.1856E-06 | 5: delta_s/delta_0: 1.7885E-07 | 6: delta_r/delta_0: 1.1192E-07 | 7: delta_s/delta_0: 7.2634E-07 | 8: delta_r/delta_0: 2.4355E-08 | 9: delta_s/delta_0: 8.0008E-08 | 10: delta_r/delta_0: 3.1974E-08 | 11: delta_s/delta_0: 1.2470E-09 | 12: delta_r/delta_0: 8.8905E-10 | 13: delta_s/delta_0: 3.7211E-10 | 14: delta_r/delta_0: 2.6977E-10 | 15: delta_s/delta_0: 6.8727E-11 | Reached bicg-stab tolerance | BP delta = 6.6704653E-02 0.1860085 3004303.37410238 | BP delta = 6.6704653E-02 0.1941766 3004317.55172316 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52166250 | --> Sampling calibration, mode = relcal | relcal = -5.1074497E-02 -3.7016480E-03 2.7279343E-02 2.7496802E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8169048E-04 1.2695694E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7482E-05 | 2: delta_r/delta_0: 4.5809E-06 | 3: delta_s/delta_0: 9.2666E-07 | 4: delta_r/delta_0: 1.3489E-07 | 5: delta_s/delta_0: 1.1115E-07 | 6: delta_r/delta_0: 5.9626E-08 | 7: delta_s/delta_0: 1.9498E-08 | 8: delta_r/delta_0: 1.4644E-08 | 9: delta_s/delta_0: 4.0461E-07 | 10: delta_r/delta_0: 8.4221E-10 | 11: delta_s/delta_0: 7.7426E-10 | 12: delta_r/delta_0: 5.3917E-10 | 13: delta_s/delta_0: 1.8885E-10 | 14: delta_r/delta_0: 2.0905E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.185175833819923E-002 5.482344285514349E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7482E-05 | 2: delta_r/delta_0: 4.5809E-06 | 3: delta_s/delta_0: 9.2665E-07 | 4: delta_r/delta_0: 1.3489E-07 | 5: delta_s/delta_0: 1.1115E-07 | 6: delta_r/delta_0: 5.9626E-08 | 7: delta_s/delta_0: 1.9498E-08 | 8: delta_r/delta_0: 1.4643E-08 | 9: delta_s/delta_0: 4.0462E-07 | 10: delta_r/delta_0: 8.4222E-10 | 11: delta_s/delta_0: 7.7427E-10 | 12: delta_r/delta_0: 5.3918E-10 | 13: delta_s/delta_0: 1.8882E-10 | 14: delta_r/delta_0: 2.0904E-11 | Reached bicg-stab tolerance | BP delta = 7.3745675E-02 0.1651540 2435288.98927848 | BP delta = 7.3745675E-02 0.1537294 2435289.53955519 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42164248 | --> Sampling calibration, mode = relcal | relcal = 4.5626119E-02 3.9694816E-02 -2.8306792E-02 -5.7014145E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8489905E-03 4.6994663E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2830E-05 | 2: delta_r/delta_0: 3.5372E-06 | 3: delta_s/delta_0: 2.1866E-06 | 4: delta_r/delta_0: 3.2986E-07 | 5: delta_s/delta_0: 6.1607E-08 | 6: delta_r/delta_0: 3.4429E-08 | 7: delta_s/delta_0: 1.3770E-07 | 8: delta_r/delta_0: 5.4797E-09 | 9: delta_s/delta_0: 2.9415E-09 | 10: delta_r/delta_0: 1.3866E-09 | 11: delta_s/delta_0: 6.0255E-08 | 12: delta_r/delta_0: 5.9635E-09 | 13: delta_s/delta_0: 5.8474E-09 | 14: delta_r/delta_0: 3.8471E-09 | 15: delta_s/delta_0: 6.7114E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.418652505466283E-002 4.995076791057073E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2830E-05 | 2: delta_r/delta_0: 3.5372E-06 | 3: delta_s/delta_0: 2.1866E-06 | 4: delta_r/delta_0: 3.2986E-07 | 5: delta_s/delta_0: 6.1608E-08 | 6: delta_r/delta_0: 3.4429E-08 | 7: delta_s/delta_0: 1.3771E-07 | 8: delta_r/delta_0: 5.4797E-09 | 9: delta_s/delta_0: 2.9416E-09 | 10: delta_r/delta_0: 1.3865E-09 | 11: delta_s/delta_0: 6.0205E-08 | 12: delta_r/delta_0: 5.9602E-09 | 13: delta_s/delta_0: 5.8447E-09 | 14: delta_r/delta_0: 3.8453E-09 | 15: delta_s/delta_0: 6.7114E-11 | Reached bicg-stab tolerance | BP delta = 3.4693945E-02 -8.6968333E-02 2322188.35699269 | BP delta = 3.4693945E-02 -9.5940225E-02 2322190.77684687 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28168330 | --> Sampling calibration, mode = relcal | relcal = 2.4295131E-02 4.5118891E-02 -2.3444669E-02 -4.5969352E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.9216828E-03 6.2473081E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0592E-04 | 2: delta_r/delta_0: 8.7668E-06 | 3: delta_s/delta_0: 1.4689E-06 | 4: delta_r/delta_0: 2.1778E-07 | 5: delta_s/delta_0: 8.8001E-08 | 6: delta_r/delta_0: 1.7384E-08 | 7: delta_s/delta_0: 7.5604E-09 | 8: delta_r/delta_0: 4.6371E-09 | 9: delta_s/delta_0: 3.3551E-08 | 10: delta_r/delta_0: 4.2474E-09 | 11: delta_s/delta_0: 1.4662E-09 | 12: delta_r/delta_0: 6.1010E-10 | 13: delta_s/delta_0: 5.9659E-10 | 14: delta_r/delta_0: 3.3546E-10 | 15: delta_s/delta_0: 5.8378E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.197468065261059E-003 7.842206690857958E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0592E-04 | 2: delta_r/delta_0: 8.7667E-06 | 3: delta_s/delta_0: 1.4688E-06 | 4: delta_r/delta_0: 2.1776E-07 | 5: delta_s/delta_0: 8.7995E-08 | 6: delta_r/delta_0: 1.7382E-08 | 7: delta_s/delta_0: 7.5597E-09 | 8: delta_r/delta_0: 4.6368E-09 | 9: delta_s/delta_0: 3.3550E-08 | 10: delta_r/delta_0: 4.2476E-09 | 11: delta_s/delta_0: 1.4663E-09 | 12: delta_r/delta_0: 6.1010E-10 | 13: delta_s/delta_0: 5.9657E-10 | 14: delta_r/delta_0: 3.3542E-10 | 15: delta_s/delta_0: 5.8372E-11 | Reached bicg-stab tolerance | BP delta = -0.4392911 -0.6206986 2490607.61976851 | BP delta = -0.4392911 -0.6047539 2490620.36338825 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29401202 | --> Sampling calibration, mode = relcal | relcal = 4.1109402E-04 1.0438669E-02 -3.8172198E-03 -7.0325430E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5961770E-02 1.6915662E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3077E-04 | 2: delta_r/delta_0: 1.0916E-05 | 3: delta_s/delta_0: 1.7469E-06 | 4: delta_r/delta_0: 3.6366E-07 | 5: delta_s/delta_0: 1.0675E-07 | 6: delta_r/delta_0: 2.8663E-08 | 7: delta_s/delta_0: 1.3605E-08 | 8: delta_r/delta_0: 8.6182E-09 | 9: delta_s/delta_0: 5.3092E-08 | 10: delta_r/delta_0: 7.2342E-09 | 11: delta_s/delta_0: 4.3286E-08 | 12: delta_r/delta_0: 2.8846E-08 | 13: delta_s/delta_0: 3.8054E-10 | 14: delta_r/delta_0: 2.4391E-10 | 15: delta_s/delta_0: 8.1286E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.029022598692486E-002 8.303965768492631E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3077E-04 | 2: delta_r/delta_0: 1.0916E-05 | 3: delta_s/delta_0: 1.7469E-06 | 4: delta_r/delta_0: 3.6367E-07 | 5: delta_s/delta_0: 1.0675E-07 | 6: delta_r/delta_0: 2.8663E-08 | 7: delta_s/delta_0: 1.3605E-08 | 8: delta_r/delta_0: 8.6182E-09 | 9: delta_s/delta_0: 5.3088E-08 | 10: delta_r/delta_0: 7.2339E-09 | 11: delta_s/delta_0: 4.3313E-08 | 12: delta_r/delta_0: 2.8864E-08 | 13: delta_s/delta_0: 3.8050E-10 | 14: delta_r/delta_0: 2.4389E-10 | 15: delta_s/delta_0: 8.1280E-11 | Reached bicg-stab tolerance | BP delta = -0.8710914 -0.8261213 2738431.30232027 | BP delta = -0.8710914 -0.8427464 2738434.57703691 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26504411 | --> Sampling calibration, mode = relcal | relcal = -5.6110546E-03 1.4994144E-02 -2.3008103E-03 -7.0822793E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8993591E-05 4.5680068E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4736E-04 | 2: delta_r/delta_0: 1.2207E-05 | 3: delta_s/delta_0: 2.1264E-06 | 4: delta_r/delta_0: 3.1576E-07 | 5: delta_s/delta_0: 1.0766E-07 | 6: delta_r/delta_0: 2.5744E-08 | 7: delta_s/delta_0: 1.0065E-08 | 8: delta_r/delta_0: 6.1714E-09 | 9: delta_s/delta_0: 9.0198E-09 | 10: delta_r/delta_0: 4.6020E-09 | 11: delta_s/delta_0: 1.2208E-07 | 12: delta_r/delta_0: 1.7500E-08 | 13: delta_s/delta_0: 2.5449E-07 | 14: delta_r/delta_0: 1.2713E-07 | 15: delta_s/delta_0: 1.1861E-10 | 16: delta_r/delta_0: 7.6576E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.238461329093165E-003 9.154091907668056E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4736E-04 | 2: delta_r/delta_0: 1.2207E-05 | 3: delta_s/delta_0: 2.1264E-06 | 4: delta_r/delta_0: 3.1576E-07 | 5: delta_s/delta_0: 1.0766E-07 | 6: delta_r/delta_0: 2.5744E-08 | 7: delta_s/delta_0: 1.0065E-08 | 8: delta_r/delta_0: 6.1714E-09 | 9: delta_s/delta_0: 9.0195E-09 | 10: delta_r/delta_0: 4.6019E-09 | 11: delta_s/delta_0: 1.2210E-07 | 12: delta_r/delta_0: 1.7503E-08 | 13: delta_s/delta_0: 2.5562E-07 | 14: delta_r/delta_0: 1.2772E-07 | 15: delta_s/delta_0: 1.1864E-10 | 16: delta_r/delta_0: 7.6578E-11 | Reached bicg-stab tolerance | BP delta = 0.4080256 0.4469779 2516678.58219693 | BP delta = 0.4080256 0.4532981 2516678.19023569 | BP chisq diff = -0.4, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25659114 | --> Sampling calibration, mode = relcal | relcal = -3.1726178E-02 -2.5880339E-02 3.6828350E-02 2.0778168E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6827283E-02 2.0107036E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4823E-04 | 2: delta_r/delta_0: 1.2473E-05 | 3: delta_s/delta_0: 2.0418E-06 | 4: delta_r/delta_0: 3.8360E-07 | 5: delta_s/delta_0: 1.3615E-07 | 6: delta_r/delta_0: 3.0956E-08 | 7: delta_s/delta_0: 1.4402E-08 | 8: delta_r/delta_0: 7.8487E-09 | 9: delta_s/delta_0: 4.4300E-08 | 10: delta_r/delta_0: 5.6245E-09 | 11: delta_s/delta_0: 3.4114E-09 | 12: delta_r/delta_0: 7.5112E-10 | 13: delta_s/delta_0: 8.1357E-10 | 14: delta_r/delta_0: 4.8301E-10 | 15: delta_s/delta_0: 1.0997E-10 | 16: delta_r/delta_0: 9.0515E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.951410655685848E-003 8.673760558023009E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4823E-04 | 2: delta_r/delta_0: 1.2473E-05 | 3: delta_s/delta_0: 2.0418E-06 | 4: delta_r/delta_0: 3.8359E-07 | 5: delta_s/delta_0: 1.3615E-07 | 6: delta_r/delta_0: 3.0956E-08 | 7: delta_s/delta_0: 1.4402E-08 | 8: delta_r/delta_0: 7.8486E-09 | 9: delta_s/delta_0: 4.4298E-08 | 10: delta_r/delta_0: 5.6243E-09 | 11: delta_s/delta_0: 3.4118E-09 | 12: delta_r/delta_0: 7.5143E-10 | 13: delta_s/delta_0: 8.1368E-10 | 14: delta_r/delta_0: 4.8314E-10 | 15: delta_s/delta_0: 1.0998E-10 | 16: delta_r/delta_0: 9.0516E-11 | Reached bicg-stab tolerance | BP delta = -0.8813981 -1.083697 2705615.77211159 | BP delta = -0.8813981 -1.089996 2705606.97768064 | BP chisq diff = -8.8, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135698 | New value = -3.175852 | poltype: 2 pol: 1 CPU time specind = 3.0210018E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133247 | New value = -3.100181 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.146413 | New value = -3.200534 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120118 | New value = -3.155026 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.186740 | New value = -3.198553 | poltype: 2 pol: 2 CPU time specind = 3.9623976E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 25.01 | CG iter. 1 -- res = 0.13550E+08, tol = 0.73212E+01, time = 5.48 | CG iter. 2 -- res = 0.30710E+06, tol = 0.73212E+01, time = 5.32 | CG iter. 3 -- res = 0.47616E+05, tol = 0.73212E+01, time = 5.47 | CG iter. 4 -- res = 0.27315E+05, tol = 0.73212E+01, time = 5.98 | CG iter. 5 -- res = 0.18642E+05, tol = 0.73212E+01, time = 5.29 | CG iter. 6 -- res = 0.14632E+05, tol = 0.73212E+01, time = 5.45 | CG iter. 7 -- res = 0.13417E+05, tol = 0.73212E+01, time = 5.59 | CG iter. 8 -- res = 0.12087E+05, tol = 0.73212E+01, time = 5.66 | CG iter. 9 -- res = 0.11638E+05, tol = 0.73212E+01, time = 5.39 | CG iter. 10 -- res = 0.10972E+05, tol = 0.73212E+01, time = 5.41 | CG iter. 11 -- res = 0.81373E+04, tol = 0.73212E+01, time = 5.22 | CG iter. 12 -- res = 0.52809E+04, tol = 0.73212E+01, time = 5.59 | CG iter. 13 -- res = 0.38627E+04, tol = 0.73212E+01, time = 5.29 | CG iter. 14 -- res = 0.33076E+04, tol = 0.73212E+01, time = 5.68 | CG iter. 15 -- res = 0.28753E+04, tol = 0.73212E+01, time = 5.83 | CG iter. 16 -- res = 0.23297E+04, tol = 0.73212E+01, time = 5.52 | CG iter. 17 -- res = 0.16818E+04, tol = 0.73212E+01, time = 5.21 | CG iter. 18 -- res = 0.13499E+04, tol = 0.73212E+01, time = 5.60 | CG iter. 19 -- res = 0.11619E+04, tol = 0.73212E+01, time = 5.53 | CG iter. 20 -- res = 0.90928E+03, tol = 0.73212E+01, time = 5.54 | CG iter. 21 -- res = 0.66962E+03, tol = 0.73212E+01, time = 5.50 | CG iter. 22 -- res = 0.56483E+03, tol = 0.73212E+01, time = 5.42 | CG iter. 23 -- res = 0.49106E+03, tol = 0.73212E+01, time = 5.65 | CG iter. 24 -- res = 0.42316E+03, tol = 0.73212E+01, time = 5.58 | CG iter. 25 -- res = 0.31932E+03, tol = 0.73212E+01, time = 5.56 | CG iter. 26 -- res = 0.24920E+03, tol = 0.73212E+01, time = 5.71 | CG iter. 27 -- res = 0.22166E+03, tol = 0.73212E+01, time = 5.47 | CG iter. 28 -- res = 0.19265E+03, tol = 0.73212E+01, time = 5.54 | CG iter. 29 -- res = 0.15651E+03, tol = 0.73212E+01, time = 5.25 | CG iter. 30 -- res = 0.12492E+03, tol = 0.73212E+01, time = 5.84 | CG iter. 31 -- res = 0.11122E+03, tol = 0.73212E+01, time = 5.48 | CG iter. 32 -- res = 0.10031E+03, tol = 0.73212E+01, time = 5.65 | CG iter. 33 -- res = 0.81716E+02, tol = 0.73212E+01, time = 5.57 | CG iter. 34 -- res = 0.62399E+02, tol = 0.73212E+01, time = 5.48 | CG iter. 35 -- res = 0.53925E+02, tol = 0.73212E+01, time = 5.89 | CG iter. 36 -- res = 0.47623E+02, tol = 0.73212E+01, time = 11.36 | CG iter. 37 -- res = 0.41827E+02, tol = 0.73212E+01, time = 5.08 | CG iter. 38 -- res = 0.32462E+02, tol = 0.73212E+01, time = 5.55 | CG iter. 39 -- res = 0.26519E+02, tol = 0.73212E+01, time = 5.68 | CG iter. 40 -- res = 0.23501E+02, tol = 0.73212E+01, time = 5.23 | CG iter. 41 -- res = 0.20052E+02, tol = 0.73212E+01, time = 5.57 | CG iter. 42 -- res = 0.15795E+02, tol = 0.73212E+01, time = 5.61 | CG iter. 43 -- res = 0.12735E+02, tol = 0.73212E+01, time = 5.26 | CG iter. 44 -- res = 0.10802E+02, tol = 0.73212E+01, time = 5.99 | CG iter. 45 -- res = 0.90828E+01, tol = 0.73212E+01, time = 5.43 | CG iter. 46 -- res = 0.72741E+01, tol = 0.73212E+01, time = 5.44 | CG iter. 47 -- res = 0.55822E+01, tol = 0.73212E+01, time = 5.61 | CG iter. 48 -- res = 0.44838E+01, tol = 0.73212E+01, time = 5.45 | CG iter. 49 -- res = 0.38361E+01, tol = 0.73212E+01, time = 5.75 | CG iter. 50 -- res = 0.31295E+01, tol = 0.73212E+01, time = 5.42 | Final CG iter 51 -- res = 0.31295E+01, tol = 0.73212E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8055422.798 | Old band monopole 9727781.046 | Change to band monopole -1672358.247 | Change to component monopole 1672351.054 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.10695E+05, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.29178E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.99126E+00, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.19506E-02, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.56018E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8055388.150 | (Sampled value in CG: 8021748.674 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477844 | New value = 1.574378 | poltype: 2 pol: 1 CPU time specind = 1.9954920E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492211 | New value = 1.489314 | poltype: 2 pol: 2 CPU time specind = 1.9284010E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.26050E+08, tol = 0.47727E+04, time = 6.55 | CG iter. 2 -- res = 0.53101E+07, tol = 0.47727E+04, time = 6.25 | CG iter. 3 -- res = 0.82484E+06, tol = 0.47727E+04, time = 6.34 | CG iter. 4 -- res = 0.34141E+06, tol = 0.47727E+04, time = 6.04 | CG iter. 5 -- res = 0.14725E+06, tol = 0.47727E+04, time = 6.51 | CG iter. 6 -- res = 0.79431E+05, tol = 0.47727E+04, time = 6.69 | CG iter. 7 -- res = 0.43315E+05, tol = 0.47727E+04, time = 6.05 | CG iter. 8 -- res = 0.20426E+05, tol = 0.47727E+04, time = 6.28 | CG iter. 9 -- res = 0.87773E+04, tol = 0.47727E+04, time = 6.45 | CG iter. 10 -- res = 0.36698E+04, tol = 0.47727E+04, time = 6.42 | CG iter. 11 -- res = 0.16794E+04, tol = 0.47727E+04, time = 6.40 | CG iter. 12 -- res = 0.84529E+03, tol = 0.47727E+04, time = 6.16 | CG iter. 13 -- res = 0.48152E+03, tol = 0.47727E+04, time = 6.43 | CG iter. 14 -- res = 0.27436E+03, tol = 0.47727E+04, time = 6.32 | CG iter. 15 -- res = 0.13878E+03, tol = 0.47727E+04, time = 6.31 | CG iter. 16 -- res = 0.66068E+02, tol = 0.47727E+04, time = 12.54 | CG iter. 17 -- res = 0.31518E+02, tol = 0.47727E+04, time = 6.18 | CG iter. 18 -- res = 0.15984E+02, tol = 0.47727E+04, time = 6.46 | CG iter. 19 -- res = 0.85948E+01, tol = 0.47727E+04, time = 6.08 | CG iter. 20 -- res = 0.47262E+01, tol = 0.47727E+04, time = 6.40 | CG iter. 21 -- res = 0.25997E+01, tol = 0.47727E+04, time = 6.48 | CG iter. 22 -- res = 0.13534E+01, tol = 0.47727E+04, time = 6.27 | CG iter. 23 -- res = 0.69482E+00, tol = 0.47727E+04, time = 6.19 | CG iter. 24 -- res = 0.37051E+00, tol = 0.47727E+04, time = 6.35 | CG iter. 25 -- res = 0.20551E+00, tol = 0.47727E+04, time = 6.35 | CG iter. 26 -- res = 0.11612E+00, tol = 0.47727E+04, time = 6.24 | CG iter. 27 -- res = 0.65168E-01, tol = 0.47727E+04, time = 6.25 | CG iter. 28 -- res = 0.35180E-01, tol = 0.47727E+04, time = 6.61 | CG iter. 29 -- res = 0.18383E-01, tol = 0.47727E+04, time = 6.73 | CG iter. 30 -- res = 0.99295E-02, tol = 0.47727E+04, time = 7.37 | CG iter. 31 -- res = 0.55513E-02, tol = 0.47727E+04, time = 6.88 | CG iter. 32 -- res = 0.30655E-02, tol = 0.47727E+04, time = 5.91 | CG iter. 33 -- res = 0.17014E-02, tol = 0.47727E+04, time = 6.19 | CG iter. 34 -- res = 0.92264E-03, tol = 0.47727E+04, time = 6.24 | CG iter. 35 -- res = 0.48500E-03, tol = 0.47727E+04, time = 6.02 | Final CG iter 36 -- res = 0.48500E-03, tol = 0.47727E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.061 2.739 | New value 0.582 | Old value 0.061 | Difference 0.521 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.67 | CG iter. 1 -- res = 0.33297E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.29124E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.99076E+00, tol = 0.47627E+18, time = 1.79 | CG iter. 4 -- res = 0.22567E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.96959E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8055388.150 | (Sampled value in CG: 8022426.166 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.527883 | New value = -3.436364 | poltype: 1 pol: 1 CPU time specind = 2.7406216E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.27827E+07, tol = 0.27035E+01, time = 2.33 | CG iter. 2 -- res = 0.10225E+07, tol = 0.27035E+01, time = 2.56 | CG iter. 3 -- res = 0.22269E+06, tol = 0.27035E+01, time = 2.30 | CG iter. 4 -- res = 0.10342E+06, tol = 0.27035E+01, time = 2.73 | CG iter. 5 -- res = 0.61240E+05, tol = 0.27035E+01, time = 2.34 | CG iter. 6 -- res = 0.27647E+05, tol = 0.27035E+01, time = 2.47 | CG iter. 7 -- res = 0.10619E+05, tol = 0.27035E+01, time = 2.58 | CG iter. 8 -- res = 0.52752E+04, tol = 0.27035E+01, time = 2.61 | CG iter. 9 -- res = 0.24585E+04, tol = 0.27035E+01, time = 2.65 | CG iter. 10 -- res = 0.99743E+03, tol = 0.27035E+01, time = 2.85 | CG iter. 11 -- res = 0.39147E+03, tol = 0.27035E+01, time = 2.52 | CG iter. 12 -- res = 0.17594E+03, tol = 0.27035E+01, time = 2.63 | CG iter. 13 -- res = 0.88660E+02, tol = 0.27035E+01, time = 2.70 | CG iter. 14 -- res = 0.46034E+02, tol = 0.27035E+01, time = 2.56 | CG iter. 15 -- res = 0.22250E+02, tol = 0.27035E+01, time = 2.69 | CG iter. 16 -- res = 0.10226E+02, tol = 0.27035E+01, time = 2.68 | CG iter. 17 -- res = 0.44189E+01, tol = 0.27035E+01, time = 2.43 | CG iter. 18 -- res = 0.19820E+01, tol = 0.27035E+01, time = 2.60 | CG iter. 19 -- res = 0.89291E+00, tol = 0.27035E+01, time = 2.48 | CG iter. 20 -- res = 0.46328E+00, tol = 0.27035E+01, time = 2.71 | CG iter. 21 -- res = 0.24801E+00, tol = 0.27035E+01, time = 2.56 | CG iter. 22 -- res = 0.12171E+00, tol = 0.27035E+01, time = 2.55 | CG iter. 23 -- res = 0.54856E-01, tol = 0.27035E+01, time = 2.49 | CG iter. 24 -- res = 0.24904E-01, tol = 0.27035E+01, time = 2.57 | CG iter. 25 -- res = 0.11818E-01, tol = 0.27035E+01, time = 2.58 | CG iter. 26 -- res = 0.58185E-02, tol = 0.27035E+01, time = 2.65 | CG iter. 27 -- res = 0.29226E-02, tol = 0.27035E+01, time = 2.61 | CG iter. 28 -- res = 0.15434E-02, tol = 0.27035E+01, time = 2.65 | CG iter. 29 -- res = 0.77024E-03, tol = 0.27035E+01, time = 2.61 | CG iter. 30 -- res = 0.36801E-03, tol = 0.27035E+01, time = 2.50 | CG iter. 31 -- res = 0.17009E-03, tol = 0.27035E+01, time = 2.77 | CG iter. 32 -- res = 0.81402E-04, tol = 0.27035E+01, time = 2.62 | CG iter. 33 -- res = 0.38709E-04, tol = 0.27035E+01, time = 2.55 | CG iter. 34 -- res = 0.20537E-04, tol = 0.27035E+01, time = 2.81 | CG iter. 35 -- res = 0.10716E-04, tol = 0.27035E+01, time = 3.05 | CG iter. 36 -- res = 0.52378E-05, tol = 0.27035E+01, time = 2.66 | CG iter. 37 -- res = 0.23420E-05, tol = 0.27035E+01, time = 2.44 | CG iter. 38 -- res = 0.11281E-05, tol = 0.27035E+01, time = 2.63 | CG iter. 39 -- res = 0.54413E-06, tol = 0.27035E+01, time = 2.45 | CG iter. 40 -- res = 0.26852E-06, tol = 0.27035E+01, time = 2.72 | CG iter. 41 -- res = 0.13958E-06, tol = 0.27035E+01, time = 2.77 | CG iter. 42 -- res = 0.68257E-07, tol = 0.27035E+01, time = 2.66 | CG iter. 43 -- res = 0.31170E-07, tol = 0.27035E+01, time = 2.59 | CG iter. 44 -- res = 0.14596E-07, tol = 0.27035E+01, time = 2.61 | CG iter. 45 -- res = 0.69753E-08, tol = 0.27035E+01, time = 2.69 | CG iter. 46 -- res = 0.34474E-08, tol = 0.27035E+01, time = 2.90 | CG iter. 47 -- res = 0.17539E-08, tol = 0.27035E+01, time = 2.40 | CG iter. 48 -- res = 0.87177E-09, tol = 0.27035E+01, time = 2.73 | CG iter. 49 -- res = 0.40540E-09, tol = 0.27035E+01, time = 2.57 | CG iter. 50 -- res = 0.19049E-09, tol = 0.27035E+01, time = 2.47 | Final CG iter 51 -- res = 0.19049E-09, tol = 0.27035E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -12.294 5.555 | New value -0.519 | Old value -12.294 | Difference 11.775 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.13962E+06, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.64912E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.26797E+01, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.38862E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.23439E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8055388.150 | (Sampled value in CG: 8031920.031 ) | CPU time specind = 1145.041 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.73709E+08, tol = 0.57629E+04, time = 11.77 | CG iter. 2 -- res = 0.60381E+08, tol = 0.57629E+04, time = 11.53 | CG iter. 3 -- res = 0.15729E+08, tol = 0.57629E+04, time = 11.49 | CG iter. 4 -- res = 0.71095E+07, tol = 0.57629E+04, time = 11.50 | CG iter. 5 -- res = 0.43264E+07, tol = 0.57629E+04, time = 11.19 | CG iter. 6 -- res = 0.25292E+07, tol = 0.57629E+04, time = 13.70 | CG iter. 7 -- res = 0.14683E+07, tol = 0.57629E+04, time = 11.90 | CG iter. 8 -- res = 0.97494E+06, tol = 0.57629E+04, time = 11.44 | CG iter. 9 -- res = 0.61394E+06, tol = 0.57629E+04, time = 11.34 | CG iter. 10 -- res = 0.35912E+06, tol = 0.57629E+04, time = 11.76 | CG iter. 11 -- res = 0.19291E+06, tol = 0.57629E+04, time = 11.17 | CG iter. 12 -- res = 0.10418E+06, tol = 0.57629E+04, time = 11.22 | CG iter. 13 -- res = 0.58006E+05, tol = 0.57629E+04, time = 11.88 | CG iter. 14 -- res = 0.35068E+05, tol = 0.57629E+04, time = 11.63 | CG iter. 15 -- res = 0.22902E+05, tol = 0.57629E+04, time = 11.37 | CG iter. 16 -- res = 0.16240E+05, tol = 0.57629E+04, time = 11.60 | CG iter. 17 -- res = 0.12541E+05, tol = 0.57629E+04, time = 11.41 | CG iter. 18 -- res = 0.97752E+04, tol = 0.57629E+04, time = 11.49 | CG iter. 19 -- res = 0.73159E+04, tol = 0.57629E+04, time = 11.50 | CG iter. 20 -- res = 0.57421E+04, tol = 0.57629E+04, time = 11.39 | CG iter. 21 -- res = 0.49495E+04, tol = 0.57629E+04, time = 11.43 | CG iter. 22 -- res = 0.47830E+04, tol = 0.57629E+04, time = 11.02 | CG iter. 23 -- res = 0.49828E+04, tol = 0.57629E+04, time = 11.58 | CG iter. 24 -- res = 0.54259E+04, tol = 0.57629E+04, time = 17.77 | CG iter. 25 -- res = 0.55758E+04, tol = 0.57629E+04, time = 11.59 | CG iter. 26 -- res = 0.51313E+04, tol = 0.57629E+04, time = 11.60 | CG iter. 27 -- res = 0.43717E+04, tol = 0.57629E+04, time = 11.41 | CG iter. 28 -- res = 0.35358E+04, tol = 0.57629E+04, time = 11.68 | CG iter. 29 -- res = 0.28907E+04, tol = 0.57629E+04, time = 11.52 | CG iter. 30 -- res = 0.24149E+04, tol = 0.57629E+04, time = 11.67 | CG iter. 31 -- res = 0.20410E+04, tol = 0.57629E+04, time = 11.52 | CG iter. 32 -- res = 0.16818E+04, tol = 0.57629E+04, time = 13.05 | CG iter. 33 -- res = 0.13530E+04, tol = 0.57629E+04, time = 11.51 | CG iter. 34 -- res = 0.10701E+04, tol = 0.57629E+04, time = 11.25 | CG iter. 35 -- res = 0.87626E+03, tol = 0.57629E+04, time = 11.21 | CG iter. 36 -- res = 0.77432E+03, tol = 0.57629E+04, time = 11.56 | CG iter. 37 -- res = 0.72887E+03, tol = 0.57629E+04, time = 11.44 | CG iter. 38 -- res = 0.70270E+03, tol = 0.57629E+04, time = 11.33 | CG iter. 39 -- res = 0.66617E+03, tol = 0.57629E+04, time = 11.43 | CG iter. 40 -- res = 0.60841E+03, tol = 0.57629E+04, time = 11.66 | CG iter. 41 -- res = 0.52824E+03, tol = 0.57629E+04, time = 12.00 | CG iter. 42 -- res = 0.44689E+03, tol = 0.57629E+04, time = 11.56 | CG iter. 43 -- res = 0.38493E+03, tol = 0.57629E+04, time = 11.18 | CG iter. 44 -- res = 0.34482E+03, tol = 0.57629E+04, time = 11.20 | CG iter. 45 -- res = 0.30442E+03, tol = 0.57629E+04, time = 11.62 | CG iter. 46 -- res = 0.26495E+03, tol = 0.57629E+04, time = 11.59 | CG iter. 47 -- res = 0.23064E+03, tol = 0.57629E+04, time = 11.24 | CG iter. 48 -- res = 0.19054E+03, tol = 0.57629E+04, time = 11.58 | CG iter. 49 -- res = 0.15485E+03, tol = 0.57629E+04, time = 11.22 | CG iter. 50 -- res = 0.13257E+03, tol = 0.57629E+04, time = 17.26 | CG iter. 51 -- res = 0.12005E+03, tol = 0.57629E+04, time = 11.41 | CG iter. 52 -- res = 0.11378E+03, tol = 0.57629E+04, time = 11.01 | CG iter. 53 -- res = 0.10950E+03, tol = 0.57629E+04, time = 11.34 | CG iter. 54 -- res = 0.10218E+03, tol = 0.57629E+04, time = 11.28 | CG iter. 55 -- res = 0.92325E+02, tol = 0.57629E+04, time = 11.61 | CG iter. 56 -- res = 0.81881E+02, tol = 0.57629E+04, time = 11.72 | CG iter. 57 -- res = 0.71669E+02, tol = 0.57629E+04, time = 13.42 | CG iter. 58 -- res = 0.64648E+02, tol = 0.57629E+04, time = 11.69 | CG iter. 59 -- res = 0.58775E+02, tol = 0.57629E+04, time = 11.24 | CG iter. 60 -- res = 0.53305E+02, tol = 0.57629E+04, time = 11.53 | Final CG iter 61 -- res = 0.53305E+02, tol = 0.57629E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.931 ( -229.716 -2230.682 2513.390 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7953370.387 | Old band monopole 8055422.798 | Change to band monopole -102052.411 | Change to component monopole 102051.972 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.617 2.727 | New value 1.327 | Old value 0.617 | Difference 0.710 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.896 ( 6.503 12.496 -12.574 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.230 4.710 | New value -11.356 | Old value 1.230 | Difference -12.586 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.12526E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.56267E+02, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.26416E+01, tol = 0.47627E+18, time = 1.82 | CG iter. 4 -- res = 0.21822E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.19753E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7953336.178 | (Sampled value in CG: 7937083.295 ) | Chain = 1 -- chisq = 0.81504565E+09 | Chain = 1 -- wall time = 17852.936 sec Available RAM: MemAvailable: 486430660 kB Available Swap: SwapFree: 1055033904 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 397 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442931 | --> Sampling calibration, mode = relcal | relcal = 1.3427422E-02 7.4691774E-04 -1.5900660E-03 -1.2584274E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1743868 0.1919890 97044954.8770505 | BP delta = 0.1680307 0.1856329 97044955.0016095 | BP chisq diff = 0.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632523 | --> Sampling calibration, mode = relcal | relcal = -2.8215225E-03 -7.0597703E-04 1.6800178E-03 1.6127932E-03 -4.0631488E-04 6.4100360E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5481676 15218708.1657543 | BP delta = 0.0000000E+00 -0.5437441 15218710.6666167 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18236773639716 | --> Sampling calibration, mode = relcal | relcal = -7.5494073E-02 -5.8759950E-02 9.2301980E-02 4.1952036E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2604241E-04 5.3886506E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3171E-05 | 2: delta_r/delta_0: 1.0685E-06 | 3: delta_s/delta_0: 1.9522E-07 | 4: delta_r/delta_0: 2.3001E-08 | 5: delta_s/delta_0: 7.9157E-09 | 6: delta_r/delta_0: 1.7412E-09 | 7: delta_s/delta_0: 3.2176E-10 | 8: delta_r/delta_0: 1.4191E-10 | 9: delta_s/delta_0: 1.8222E-10 | 10: delta_r/delta_0: 6.5250E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.474212706433374E-003 2.737853045184231E-005 | BP delta = 7.5683549E-02 9.9534512E-02 50489906.8722863 | BP delta = 7.4949287E-02 9.8800249E-02 50489907.5412954 | BP chisq diff = 0.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02605567 | --> Sampling calibration, mode = relcal | relcal = -0.1066765 -9.5570847E-02 0.1450205 5.7226874E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3130362E-03 1.4347214E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7643E-05 | 2: delta_r/delta_0: 1.3058E-06 | 3: delta_s/delta_0: 2.4565E-07 | 4: delta_r/delta_0: 5.0424E-08 | 5: delta_s/delta_0: 2.1737E-08 | 6: delta_r/delta_0: 7.4370E-09 | 7: delta_s/delta_0: 1.2351E-08 | 8: delta_r/delta_0: 1.2313E-09 | 9: delta_s/delta_0: 1.0781E-09 | 10: delta_r/delta_0: 1.7689E-10 | 11: delta_s/delta_0: 2.2239E-09 | 12: delta_r/delta_0: 2.7710E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006749682117200E-002 2.810694848192687E-005 | BP delta = -0.2491788 -0.2144644 57387022.2161346 | BP delta = -0.2452507 -0.2105363 57387022.3707621 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243650 | --> Sampling calibration, mode = relcal | relcal = 0.2955153 0.2249391 -0.2837840 -0.2366704 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.9379131E-04 5.3914892E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9740E-01 | 2: delta_r/delta_0: 7.0032E-03 | 3: delta_s/delta_0: 1.4666E-04 | 4: delta_r/delta_0: 4.2141E-06 | 5: delta_s/delta_0: 1.9285E-06 | 6: delta_r/delta_0: 8.7949E-07 | 7: delta_s/delta_0: 6.0881E-07 | 8: delta_r/delta_0: 2.3453E-07 | 9: delta_s/delta_0: 5.4677E-07 | 10: delta_r/delta_0: 1.3012E-08 | 11: delta_s/delta_0: 1.1405E-08 | 12: delta_r/delta_0: 5.1838E-09 | 13: delta_s/delta_0: 4.3665E-10 | 14: delta_r/delta_0: 3.3405E-10 | 15: delta_s/delta_0: 6.1748E-10 | 16: delta_r/delta_0: 2.7946E-10 | 17: delta_s/delta_0: 6.1008E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.866182456361070E-002 4.020704093360518E-005 | BP delta = -0.1286172 -0.1671274 72484763.0375778 | BP delta = -9.6083187E-02 -0.1345934 72484763.8435376 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95938271 | --> Sampling calibration, mode = relcal | relcal = 0.1064593 0.1396380 -0.1102788 -0.1358185 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0397916E-02 1.3083071E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7706E-04 | 2: delta_r/delta_0: 4.7048E-06 | 3: delta_s/delta_0: 1.2796E-05 | 4: delta_r/delta_0: 1.4670E-06 | 5: delta_s/delta_0: 1.7459E-07 | 6: delta_r/delta_0: 1.1279E-07 | 7: delta_s/delta_0: 8.6214E-07 | 8: delta_r/delta_0: 2.3037E-08 | 9: delta_s/delta_0: 2.7556E-07 | 10: delta_r/delta_0: 1.0293E-07 | 11: delta_s/delta_0: 1.1650E-09 | 12: delta_r/delta_0: 8.1774E-10 | 13: delta_s/delta_0: 5.3985E-10 | 14: delta_r/delta_0: 2.0882E-10 | 15: delta_s/delta_0: 6.4958E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.894007545378528E-002 3.696289250981074E-005 | BP delta = 6.6704653E-02 0.1860085 72782272.0566732 | BP delta = 6.0140293E-02 0.1794441 72782272.2987550 | BP chisq diff = 0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.175852 | New value = -3.153490 | poltype: 2 pol: 1 CPU time specind = 1.6781807E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.100181 | New value = -3.155934 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.200534 | New value = -3.099631 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155026 | New value = -3.125040 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.198553 | New value = -3.112958 | poltype: 2 pol: 2 CPU time specind = 1.6795158E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.13563E+08, tol = 0.87022E+01, time = 6.19 | CG iter. 2 -- res = 0.33041E+06, tol = 0.87022E+01, time = 6.10 | CG iter. 3 -- res = 0.47316E+05, tol = 0.87022E+01, time = 6.17 | CG iter. 4 -- res = 0.25045E+05, tol = 0.87022E+01, time = 5.44 | CG iter. 5 -- res = 0.15685E+05, tol = 0.87022E+01, time = 5.83 | CG iter. 6 -- res = 0.11463E+05, tol = 0.87022E+01, time = 6.04 | CG iter. 7 -- res = 0.10670E+05, tol = 0.87022E+01, time = 5.90 | CG iter. 8 -- res = 0.99105E+04, tol = 0.87022E+01, time = 6.31 | CG iter. 9 -- res = 0.98222E+04, tol = 0.87022E+01, time = 5.88 | CG iter. 10 -- res = 0.98918E+04, tol = 0.87022E+01, time = 6.09 | CG iter. 11 -- res = 0.77813E+04, tol = 0.87022E+01, time = 5.69 | CG iter. 12 -- res = 0.50398E+04, tol = 0.87022E+01, time = 6.04 | CG iter. 13 -- res = 0.35195E+04, tol = 0.87022E+01, time = 5.82 | CG iter. 14 -- res = 0.27857E+04, tol = 0.87022E+01, time = 5.90 | CG iter. 15 -- res = 0.24527E+04, tol = 0.87022E+01, time = 5.99 | CG iter. 16 -- res = 0.19842E+04, tol = 0.87022E+01, time = 5.86 | CG iter. 17 -- res = 0.14819E+04, tol = 0.87022E+01, time = 5.61 | CG iter. 18 -- res = 0.11839E+04, tol = 0.87022E+01, time = 6.67 | CG iter. 19 -- res = 0.10077E+04, tol = 0.87022E+01, time = 5.87 | CG iter. 20 -- res = 0.80019E+03, tol = 0.87022E+01, time = 6.04 | CG iter. 21 -- res = 0.59746E+03, tol = 0.87022E+01, time = 5.96 | CG iter. 22 -- res = 0.47767E+03, tol = 0.87022E+01, time = 6.32 | CG iter. 23 -- res = 0.43069E+03, tol = 0.87022E+01, time = 5.99 | CG iter. 24 -- res = 0.38050E+03, tol = 0.87022E+01, time = 6.08 | CG iter. 25 -- res = 0.30362E+03, tol = 0.87022E+01, time = 5.86 | CG iter. 26 -- res = 0.23361E+03, tol = 0.87022E+01, time = 5.85 | CG iter. 27 -- res = 0.20899E+03, tol = 0.87022E+01, time = 6.04 | CG iter. 28 -- res = 0.19417E+03, tol = 0.87022E+01, time = 6.09 | CG iter. 29 -- res = 0.16208E+03, tol = 0.87022E+01, time = 6.04 | CG iter. 30 -- res = 0.12922E+03, tol = 0.87022E+01, time = 5.90 | CG iter. 31 -- res = 0.11387E+03, tol = 0.87022E+01, time = 5.82 | CG iter. 32 -- res = 0.10276E+03, tol = 0.87022E+01, time = 6.02 | CG iter. 33 -- res = 0.84238E+02, tol = 0.87022E+01, time = 6.30 | CG iter. 34 -- res = 0.64446E+02, tol = 0.87022E+01, time = 6.23 | CG iter. 35 -- res = 0.51201E+02, tol = 0.87022E+01, time = 12.03 | CG iter. 36 -- res = 0.45269E+02, tol = 0.87022E+01, time = 5.88 | CG iter. 37 -- res = 0.37089E+02, tol = 0.87022E+01, time = 6.04 | CG iter. 38 -- res = 0.28096E+02, tol = 0.87022E+01, time = 5.92 | CG iter. 39 -- res = 0.21207E+02, tol = 0.87022E+01, time = 6.17 | CG iter. 40 -- res = 0.17281E+02, tol = 0.87022E+01, time = 5.74 | CG iter. 41 -- res = 0.14489E+02, tol = 0.87022E+01, time = 5.79 | CG iter. 42 -- res = 0.10626E+02, tol = 0.87022E+01, time = 6.13 | CG iter. 43 -- res = 0.81633E+01, tol = 0.87022E+01, time = 5.91 | CG iter. 44 -- res = 0.64578E+01, tol = 0.87022E+01, time = 5.57 | CG iter. 45 -- res = 0.52726E+01, tol = 0.87022E+01, time = 5.86 | CG iter. 46 -- res = 0.41968E+01, tol = 0.87022E+01, time = 5.80 | CG iter. 47 -- res = 0.32182E+01, tol = 0.87022E+01, time = 5.78 | CG iter. 48 -- res = 0.24667E+01, tol = 0.87022E+01, time = 5.98 | CG iter. 49 -- res = 0.19986E+01, tol = 0.87022E+01, time = 7.60 | CG iter. 50 -- res = 0.15938E+01, tol = 0.87022E+01, time = 6.32 | Final CG iter 51 -- res = 0.15938E+01, tol = 0.87022E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8771481.661 | Old band monopole 7953370.387 | Change to band monopole 818111.274 | Change to component monopole -818107.755 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.38438E+04, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.16536E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.37058E+00, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.60281E-03, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.55860E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8771443.933 | (Sampled value in CG: 8792340.181 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.574378 | New value = 1.485172 | poltype: 2 pol: 1 CPU time specind = 2.0445108E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489314 | New value = 1.531528 | poltype: 2 pol: 2 CPU time specind = 1.2825966E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.25736E+08, tol = 0.47529E+04, time = 6.50 | CG iter. 2 -- res = 0.54585E+07, tol = 0.47529E+04, time = 6.98 | CG iter. 3 -- res = 0.86971E+06, tol = 0.47529E+04, time = 7.03 | CG iter. 4 -- res = 0.35643E+06, tol = 0.47529E+04, time = 7.02 | CG iter. 5 -- res = 0.15179E+06, tol = 0.47529E+04, time = 7.02 | CG iter. 6 -- res = 0.79596E+05, tol = 0.47529E+04, time = 6.85 | CG iter. 7 -- res = 0.43120E+05, tol = 0.47529E+04, time = 6.72 | CG iter. 8 -- res = 0.20832E+05, tol = 0.47529E+04, time = 6.88 | CG iter. 9 -- res = 0.91113E+04, tol = 0.47529E+04, time = 6.58 | CG iter. 10 -- res = 0.37245E+04, tol = 0.47529E+04, time = 6.73 | CG iter. 11 -- res = 0.16764E+04, tol = 0.47529E+04, time = 6.68 | CG iter. 12 -- res = 0.86973E+03, tol = 0.47529E+04, time = 7.28 | CG iter. 13 -- res = 0.49364E+03, tol = 0.47529E+04, time = 16.05 | CG iter. 14 -- res = 0.27878E+03, tol = 0.47529E+04, time = 6.91 | CG iter. 15 -- res = 0.14339E+03, tol = 0.47529E+04, time = 7.30 | CG iter. 16 -- res = 0.68349E+02, tol = 0.47529E+04, time = 7.13 | CG iter. 17 -- res = 0.32073E+02, tol = 0.47529E+04, time = 6.95 | CG iter. 18 -- res = 0.16216E+02, tol = 0.47529E+04, time = 6.72 | CG iter. 19 -- res = 0.87540E+01, tol = 0.47529E+04, time = 6.52 | CG iter. 20 -- res = 0.49038E+01, tol = 0.47529E+04, time = 7.03 | CG iter. 21 -- res = 0.26938E+01, tol = 0.47529E+04, time = 6.88 | CG iter. 22 -- res = 0.13759E+01, tol = 0.47529E+04, time = 6.75 | CG iter. 23 -- res = 0.70916E+00, tol = 0.47529E+04, time = 6.83 | CG iter. 24 -- res = 0.37232E+00, tol = 0.47529E+04, time = 7.20 | CG iter. 25 -- res = 0.20361E+00, tol = 0.47529E+04, time = 8.84 | CG iter. 26 -- res = 0.11631E+00, tol = 0.47529E+04, time = 7.14 | CG iter. 27 -- res = 0.64698E-01, tol = 0.47529E+04, time = 6.65 | CG iter. 28 -- res = 0.34846E-01, tol = 0.47529E+04, time = 6.84 | CG iter. 29 -- res = 0.18535E-01, tol = 0.47529E+04, time = 7.10 | CG iter. 30 -- res = 0.98210E-02, tol = 0.47529E+04, time = 6.51 | CG iter. 31 -- res = 0.53486E-02, tol = 0.47529E+04, time = 7.01 | CG iter. 32 -- res = 0.30564E-02, tol = 0.47529E+04, time = 6.87 | CG iter. 33 -- res = 0.17248E-02, tol = 0.47529E+04, time = 7.38 | CG iter. 34 -- res = 0.92568E-03, tol = 0.47529E+04, time = 6.68 | CG iter. 35 -- res = 0.47773E-03, tol = 0.47529E+04, time = 6.59 | Final CG iter 36 -- res = 0.47773E-03, tol = 0.47529E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.339 2.735 | New value 1.893 | Old value 1.339 | Difference 0.554 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.31949E+05, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.25472E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.70086E+00, tol = 0.47627E+18, time = 2.18 | CG iter. 4 -- res = 0.14631E-02, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.58507E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8771443.933 | (Sampled value in CG: 8791929.106 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.436364 | New value = -3.562138 | poltype: 1 pol: 1 CPU time specind = 1.5802145E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.23856E+07, tol = 0.35562E+01, time = 2.72 | CG iter. 2 -- res = 0.69430E+06, tol = 0.35562E+01, time = 2.88 | CG iter. 3 -- res = 0.14034E+06, tol = 0.35562E+01, time = 2.76 | CG iter. 4 -- res = 0.72081E+05, tol = 0.35562E+01, time = 2.75 | CG iter. 5 -- res = 0.43362E+05, tol = 0.35562E+01, time = 2.93 | CG iter. 6 -- res = 0.20413E+05, tol = 0.35562E+01, time = 3.12 | CG iter. 7 -- res = 0.74261E+04, tol = 0.35562E+01, time = 3.07 | CG iter. 8 -- res = 0.34658E+04, tol = 0.35562E+01, time = 2.92 | CG iter. 9 -- res = 0.15526E+04, tol = 0.35562E+01, time = 2.84 | CG iter. 10 -- res = 0.62949E+03, tol = 0.35562E+01, time = 2.89 | CG iter. 11 -- res = 0.26324E+03, tol = 0.35562E+01, time = 2.77 | CG iter. 12 -- res = 0.12879E+03, tol = 0.35562E+01, time = 3.03 | CG iter. 13 -- res = 0.66303E+02, tol = 0.35562E+01, time = 2.87 | CG iter. 14 -- res = 0.33289E+02, tol = 0.35562E+01, time = 2.77 | CG iter. 15 -- res = 0.15261E+02, tol = 0.35562E+01, time = 2.85 | CG iter. 16 -- res = 0.63669E+01, tol = 0.35562E+01, time = 2.78 | CG iter. 17 -- res = 0.27620E+01, tol = 0.35562E+01, time = 2.68 | CG iter. 18 -- res = 0.12970E+01, tol = 0.35562E+01, time = 3.01 | CG iter. 19 -- res = 0.62621E+00, tol = 0.35562E+01, time = 3.16 | CG iter. 20 -- res = 0.32095E+00, tol = 0.35562E+01, time = 2.71 | CG iter. 21 -- res = 0.16076E+00, tol = 0.35562E+01, time = 2.64 | CG iter. 22 -- res = 0.73174E-01, tol = 0.35562E+01, time = 2.92 | CG iter. 23 -- res = 0.33000E-01, tol = 0.35562E+01, time = 2.80 | CG iter. 24 -- res = 0.14656E-01, tol = 0.35562E+01, time = 2.95 | CG iter. 25 -- res = 0.68595E-02, tol = 0.35562E+01, time = 2.99 | CG iter. 26 -- res = 0.34351E-02, tol = 0.35562E+01, time = 2.95 | CG iter. 27 -- res = 0.17799E-02, tol = 0.35562E+01, time = 2.74 | CG iter. 28 -- res = 0.85310E-03, tol = 0.35562E+01, time = 2.88 | CG iter. 29 -- res = 0.38701E-03, tol = 0.35562E+01, time = 2.86 | CG iter. 30 -- res = 0.17475E-03, tol = 0.35562E+01, time = 3.25 | CG iter. 31 -- res = 0.84146E-04, tol = 0.35562E+01, time = 2.93 | CG iter. 32 -- res = 0.42109E-04, tol = 0.35562E+01, time = 2.62 | CG iter. 33 -- res = 0.21400E-04, tol = 0.35562E+01, time = 2.94 | CG iter. 34 -- res = 0.10564E-04, tol = 0.35562E+01, time = 2.90 | CG iter. 35 -- res = 0.47779E-05, tol = 0.35562E+01, time = 2.94 | CG iter. 36 -- res = 0.22693E-05, tol = 0.35562E+01, time = 2.86 | CG iter. 37 -- res = 0.10928E-05, tol = 0.35562E+01, time = 2.74 | CG iter. 38 -- res = 0.54172E-06, tol = 0.35562E+01, time = 2.70 | CG iter. 39 -- res = 0.27406E-06, tol = 0.35562E+01, time = 2.75 | CG iter. 40 -- res = 0.13246E-06, tol = 0.35562E+01, time = 2.94 | CG iter. 41 -- res = 0.62948E-07, tol = 0.35562E+01, time = 2.65 | CG iter. 42 -- res = 0.29368E-07, tol = 0.35562E+01, time = 2.91 | CG iter. 43 -- res = 0.13801E-07, tol = 0.35562E+01, time = 7.18 | CG iter. 44 -- res = 0.69493E-08, tol = 0.35562E+01, time = 4.54 | CG iter. 45 -- res = 0.33064E-08, tol = 0.35562E+01, time = 2.82 | CG iter. 46 -- res = 0.16225E-08, tol = 0.35562E+01, time = 2.79 | CG iter. 47 -- res = 0.76670E-09, tol = 0.35562E+01, time = 2.94 | CG iter. 48 -- res = 0.35712E-09, tol = 0.35562E+01, time = 2.83 | CG iter. 49 -- res = 0.16841E-09, tol = 0.35562E+01, time = 3.02 | CG iter. 50 -- res = 0.79060E-10, tol = 0.35562E+01, time = 2.91 | Final CG iter 51 -- res = 0.79060E-10, tol = 0.35562E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -9.327 4.593 | New value 6.407 | Old value -9.327 | Difference 15.734 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.23820E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.76483E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.31455E+01, tol = 0.47627E+18, time = 2.25 | CG iter. 4 -- res = 0.18349E-02, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.40836E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8771443.933 | (Sampled value in CG: 8787512.225 ) | CPU time specind = 1240.617 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.72919E+08, tol = 0.57635E+04, time = 12.52 | CG iter. 2 -- res = 0.60536E+08, tol = 0.57635E+04, time = 12.63 | CG iter. 3 -- res = 0.15852E+08, tol = 0.57635E+04, time = 12.04 | CG iter. 4 -- res = 0.70893E+07, tol = 0.57635E+04, time = 12.43 | CG iter. 5 -- res = 0.43380E+07, tol = 0.57635E+04, time = 12.44 | CG iter. 6 -- res = 0.25314E+07, tol = 0.57635E+04, time = 12.76 | CG iter. 7 -- res = 0.14723E+07, tol = 0.57635E+04, time = 12.74 | CG iter. 8 -- res = 0.96091E+06, tol = 0.57635E+04, time = 12.78 | CG iter. 9 -- res = 0.60924E+06, tol = 0.57635E+04, time = 12.10 | CG iter. 10 -- res = 0.36505E+06, tol = 0.57635E+04, time = 12.93 | CG iter. 11 -- res = 0.19776E+06, tol = 0.57635E+04, time = 12.08 | CG iter. 12 -- res = 0.10546E+06, tol = 0.57635E+04, time = 12.56 | CG iter. 13 -- res = 0.56721E+05, tol = 0.57635E+04, time = 11.90 | CG iter. 14 -- res = 0.32246E+05, tol = 0.57635E+04, time = 12.73 | CG iter. 15 -- res = 0.20505E+05, tol = 0.57635E+04, time = 19.54 | CG iter. 16 -- res = 0.14341E+05, tol = 0.57635E+04, time = 12.72 | CG iter. 17 -- res = 0.10604E+05, tol = 0.57635E+04, time = 12.18 | CG iter. 18 -- res = 0.78394E+04, tol = 0.57635E+04, time = 12.58 | CG iter. 19 -- res = 0.55391E+04, tol = 0.57635E+04, time = 12.50 | CG iter. 20 -- res = 0.41403E+04, tol = 0.57635E+04, time = 11.87 | CG iter. 21 -- res = 0.32313E+04, tol = 0.57635E+04, time = 12.10 | CG iter. 22 -- res = 0.28024E+04, tol = 0.57635E+04, time = 14.46 | CG iter. 23 -- res = 0.28361E+04, tol = 0.57635E+04, time = 13.24 | CG iter. 24 -- res = 0.31903E+04, tol = 0.57635E+04, time = 12.86 | CG iter. 25 -- res = 0.34675E+04, tol = 0.57635E+04, time = 12.43 | CG iter. 26 -- res = 0.34919E+04, tol = 0.57635E+04, time = 12.26 | CG iter. 27 -- res = 0.31410E+04, tol = 0.57635E+04, time = 12.45 | CG iter. 28 -- res = 0.26147E+04, tol = 0.57635E+04, time = 12.66 | CG iter. 29 -- res = 0.22229E+04, tol = 0.57635E+04, time = 12.10 | CG iter. 30 -- res = 0.19581E+04, tol = 0.57635E+04, time = 12.22 | CG iter. 31 -- res = 0.17563E+04, tol = 0.57635E+04, time = 12.49 | CG iter. 32 -- res = 0.15398E+04, tol = 0.57635E+04, time = 12.63 | CG iter. 33 -- res = 0.12275E+04, tol = 0.57635E+04, time = 12.46 | CG iter. 34 -- res = 0.90343E+03, tol = 0.57635E+04, time = 12.25 | CG iter. 35 -- res = 0.67747E+03, tol = 0.57635E+04, time = 12.32 | CG iter. 36 -- res = 0.56460E+03, tol = 0.57635E+04, time = 12.25 | CG iter. 37 -- res = 0.52565E+03, tol = 0.57635E+04, time = 12.43 | CG iter. 38 -- res = 0.49105E+03, tol = 0.57635E+04, time = 12.35 | CG iter. 39 -- res = 0.46630E+03, tol = 0.57635E+04, time = 18.14 | CG iter. 40 -- res = 0.43435E+03, tol = 0.57635E+04, time = 12.67 | CG iter. 41 -- res = 0.38883E+03, tol = 0.57635E+04, time = 12.47 | CG iter. 42 -- res = 0.33794E+03, tol = 0.57635E+04, time = 12.37 | CG iter. 43 -- res = 0.29827E+03, tol = 0.57635E+04, time = 13.07 | CG iter. 44 -- res = 0.27279E+03, tol = 0.57635E+04, time = 11.92 | CG iter. 45 -- res = 0.24854E+03, tol = 0.57635E+04, time = 12.85 | CG iter. 46 -- res = 0.21811E+03, tol = 0.57635E+04, time = 14.74 | CG iter. 47 -- res = 0.19235E+03, tol = 0.57635E+04, time = 12.08 | CG iter. 48 -- res = 0.16482E+03, tol = 0.57635E+04, time = 12.35 | CG iter. 49 -- res = 0.13759E+03, tol = 0.57635E+04, time = 12.56 | CG iter. 50 -- res = 0.12102E+03, tol = 0.57635E+04, time = 12.26 | CG iter. 51 -- res = 0.10749E+03, tol = 0.57635E+04, time = 12.59 | CG iter. 52 -- res = 0.98062E+02, tol = 0.57635E+04, time = 12.87 | CG iter. 53 -- res = 0.93565E+02, tol = 0.57635E+04, time = 12.64 | CG iter. 54 -- res = 0.89477E+02, tol = 0.57635E+04, time = 13.19 | CG iter. 55 -- res = 0.82911E+02, tol = 0.57635E+04, time = 12.51 | CG iter. 56 -- res = 0.73453E+02, tol = 0.57635E+04, time = 12.10 | CG iter. 57 -- res = 0.66127E+02, tol = 0.57635E+04, time = 12.56 | CG iter. 58 -- res = 0.61750E+02, tol = 0.57635E+04, time = 12.55 | CG iter. 59 -- res = 0.57848E+02, tol = 0.57635E+04, time = 12.49 | CG iter. 60 -- res = 0.55632E+02, tol = 0.57635E+04, time = 12.55 | Final CG iter 61 -- res = 0.55632E+02, tol = 0.57635E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.699 ( -229.675 -2229.988 2512.406 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8656133.058 | Old band monopole 8771481.661 | Change to band monopole -115348.602 | Change to component monopole 115348.106 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.865 2.738 | New value -0.764 | Old value 1.865 | Difference -2.628 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.682 ( 6.857 10.278 -9.850 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.454 5.030 | New value 1.936 | Old value 14.454 | Difference -12.518 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.39156E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.35473E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.12629E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.31420E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.13207E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8656095.826 | (Sampled value in CG: 8627690.737 ) | Chain = 1 -- chisq = 0.81553732E+09 | Chain = 1 -- wall time = 5849.335 sec Available RAM: MemAvailable: 378015052 kB Available Swap: SwapFree: 1128641584 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 398 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444715 | --> Sampling calibration, mode = relcal | relcal = 1.3436980E-02 7.4939622E-04 -1.6005338E-03 -1.2585842E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1680307 0.1856329 9409837.05736305 | BP delta = 0.1680307 0.1896926 9409842.65864244 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632462 | --> Sampling calibration, mode = relcal | relcal = -2.8211051E-03 -7.0455059E-04 1.6786017E-03 1.6136880E-03 -4.0684539E-04 6.4021145E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5481676 15217632.3526451 | BP delta = 0.0000000E+00 -0.5497961 15217631.6071286 | BP chisq diff = -0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17938211116299 | --> Sampling calibration, mode = relcal | relcal = -7.4349977E-02 -5.7846200E-02 9.0993412E-02 4.1202769E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.2582679E-04 3.7094294E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.6133E-04 | 2: delta_r/delta_0: 6.5975E-06 | 3: delta_s/delta_0: 2.0629E-07 | 4: delta_r/delta_0: 1.9724E-08 | 5: delta_s/delta_0: 7.4711E-09 | 6: delta_r/delta_0: 1.7284E-09 | 7: delta_s/delta_0: 3.2882E-09 | 8: delta_r/delta_0: 8.5720E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.234337330850018E-003 2.744936395013415E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.6132E-04 | 2: delta_r/delta_0: 6.5973E-06 | 3: delta_s/delta_0: 2.0629E-07 | 4: delta_r/delta_0: 1.9724E-08 | 5: delta_s/delta_0: 7.4712E-09 | 6: delta_r/delta_0: 1.7285E-09 | 7: delta_s/delta_0: 3.2879E-09 | 8: delta_r/delta_0: 8.5720E-11 | Reached bicg-stab tolerance | BP delta = 7.4949287E-02 9.8800249E-02 3547028.23659975 | BP delta = 7.4949287E-02 9.8633781E-02 3546651.38650164 | BP chisq diff = -376.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595164 | --> Sampling calibration, mode = relcal | relcal = -0.1065957 -9.5646054E-02 0.1449181 5.7323691E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6580133E-03 1.7788213E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1938E-05 | 2: delta_r/delta_0: 1.2251E-06 | 3: delta_s/delta_0: 2.4024E-07 | 4: delta_r/delta_0: 5.1279E-08 | 5: delta_s/delta_0: 1.7555E-08 | 6: delta_r/delta_0: 7.0425E-09 | 7: delta_s/delta_0: 1.3966E-08 | 8: delta_r/delta_0: 1.0604E-09 | 9: delta_s/delta_0: 9.7005E-10 | 10: delta_r/delta_0: 2.1303E-10 | 11: delta_s/delta_0: 2.0899E-09 | 12: delta_r/delta_0: 2.2142E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.770311477665699E-003 2.810960080486288E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1937E-05 | 2: delta_r/delta_0: 1.2251E-06 | 3: delta_s/delta_0: 2.4021E-07 | 4: delta_r/delta_0: 5.1249E-08 | 5: delta_s/delta_0: 1.7569E-08 | 6: delta_r/delta_0: 7.0411E-09 | 7: delta_s/delta_0: 1.3964E-08 | 8: delta_r/delta_0: 1.0597E-09 | 9: delta_s/delta_0: 9.6997E-10 | 10: delta_r/delta_0: 2.1250E-10 | 11: delta_s/delta_0: 2.0847E-09 | 12: delta_r/delta_0: 2.2118E-11 | Reached bicg-stab tolerance | BP delta = -0.2452507 -0.2105363 2841575.04717948 | BP delta = -0.2452507 -0.2125349 2841585.84476270 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81225742 | --> Sampling calibration, mode = relcal | relcal = 0.2955275 0.2248646 -0.2838416 -0.2365506 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.8370202E-04 5.1748930E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5067E-01 | 2: delta_r/delta_0: 3.5513E-03 | 3: delta_s/delta_0: 5.1587E-04 | 4: delta_r/delta_0: 1.4889E-05 | 5: delta_s/delta_0: 1.7009E-06 | 6: delta_r/delta_0: 6.9503E-07 | 7: delta_s/delta_0: 4.3693E-07 | 8: delta_r/delta_0: 1.7072E-07 | 9: delta_s/delta_0: 2.4645E-07 | 10: delta_r/delta_0: 1.0047E-08 | 11: delta_s/delta_0: 2.0863E-06 | 12: delta_r/delta_0: 9.4533E-07 | 13: delta_s/delta_0: 1.1509E-09 | 14: delta_r/delta_0: 7.1181E-10 | 15: delta_s/delta_0: 2.7146E-10 | 16: delta_r/delta_0: 1.8313E-10 | 17: delta_s/delta_0: 4.4981E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.785870501761633E-002 4.021677520755614E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5259E-01 | 2: delta_r/delta_0: 3.5964E-03 | 3: delta_s/delta_0: 5.1677E-04 | 4: delta_r/delta_0: 1.4907E-05 | 5: delta_s/delta_0: 1.7046E-06 | 6: delta_r/delta_0: 6.9694E-07 | 7: delta_s/delta_0: 4.3807E-07 | 8: delta_r/delta_0: 1.7129E-07 | 9: delta_s/delta_0: 2.4791E-07 | 10: delta_r/delta_0: 1.0070E-08 | 11: delta_s/delta_0: 8.6403E-07 | 12: delta_r/delta_0: 3.8016E-07 | 13: delta_s/delta_0: 1.1767E-09 | 14: delta_r/delta_0: 7.3809E-10 | 15: delta_s/delta_0: 2.7794E-10 | 16: delta_r/delta_0: 1.7985E-10 | 17: delta_s/delta_0: 4.3510E-11 | Reached bicg-stab tolerance | BP delta = -0.1286172 -0.1671274 2827577.11136217 | BP delta = -0.1286172 -0.1588952 2827675.08862903 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95914519 | --> Sampling calibration, mode = relcal | relcal = 0.1064332 0.1395212 -0.1101571 -0.1357974 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8958611E-03 1.3511227E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7180E-04 | 2: delta_r/delta_0: 4.5921E-06 | 3: delta_s/delta_0: 1.0930E-05 | 4: delta_r/delta_0: 1.3222E-06 | 5: delta_s/delta_0: 1.7252E-07 | 6: delta_r/delta_0: 1.0706E-07 | 7: delta_s/delta_0: 6.9169E-07 | 8: delta_r/delta_0: 2.3959E-08 | 9: delta_s/delta_0: 6.6700E-08 | 10: delta_r/delta_0: 2.7429E-08 | 11: delta_s/delta_0: 1.0740E-09 | 12: delta_r/delta_0: 7.9356E-10 | 13: delta_s/delta_0: 4.9068E-10 | 14: delta_r/delta_0: 2.0240E-10 | 15: delta_s/delta_0: 8.2848E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.933944974817707E-002 3.697192259056432E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7181E-04 | 2: delta_r/delta_0: 4.5921E-06 | 3: delta_s/delta_0: 1.0930E-05 | 4: delta_r/delta_0: 1.3222E-06 | 5: delta_s/delta_0: 1.7252E-07 | 6: delta_r/delta_0: 1.0705E-07 | 7: delta_s/delta_0: 6.9145E-07 | 8: delta_r/delta_0: 2.3960E-08 | 9: delta_s/delta_0: 6.6795E-08 | 10: delta_r/delta_0: 2.7452E-08 | 11: delta_s/delta_0: 1.0743E-09 | 12: delta_r/delta_0: 7.9371E-10 | 13: delta_s/delta_0: 4.8936E-10 | 14: delta_r/delta_0: 2.0285E-10 | 15: delta_s/delta_0: 8.2856E-11 | Reached bicg-stab tolerance | BP delta = 6.0140293E-02 0.1794441 3003690.78339382 | BP delta = 6.0140293E-02 0.1816048 3003700.51881026 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.153490 | New value = -3.132456 | poltype: 2 pol: 1 CPU time specind = 1.5026093E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155934 | New value = -3.165099 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.099631 | New value = -3.169715 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125040 | New value = -3.205562 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112958 | New value = -3.144351 | poltype: 2 pol: 2 CPU time specind = 1.0555983E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.13557E+08, tol = 0.81513E+01, time = 6.12 | CG iter. 2 -- res = 0.32785E+06, tol = 0.81513E+01, time = 11.90 | CG iter. 3 -- res = 0.44345E+05, tol = 0.81513E+01, time = 6.03 | CG iter. 4 -- res = 0.21017E+05, tol = 0.81513E+01, time = 5.82 | CG iter. 5 -- res = 0.10574E+05, tol = 0.81513E+01, time = 5.74 | CG iter. 6 -- res = 0.60012E+04, tol = 0.81513E+01, time = 5.72 | CG iter. 7 -- res = 0.43500E+04, tol = 0.81513E+01, time = 5.57 | CG iter. 8 -- res = 0.32492E+04, tol = 0.81513E+01, time = 5.66 | CG iter. 9 -- res = 0.27845E+04, tol = 0.81513E+01, time = 5.94 | CG iter. 10 -- res = 0.28393E+04, tol = 0.81513E+01, time = 5.72 | CG iter. 11 -- res = 0.25506E+04, tol = 0.81513E+01, time = 5.64 | CG iter. 12 -- res = 0.18630E+04, tol = 0.81513E+01, time = 5.90 | CG iter. 13 -- res = 0.12483E+04, tol = 0.81513E+01, time = 5.63 | CG iter. 14 -- res = 0.93585E+03, tol = 0.81513E+01, time = 5.94 | CG iter. 15 -- res = 0.79082E+03, tol = 0.81513E+01, time = 5.89 | CG iter. 16 -- res = 0.65652E+03, tol = 0.81513E+01, time = 5.82 | CG iter. 17 -- res = 0.47591E+03, tol = 0.81513E+01, time = 7.32 | CG iter. 18 -- res = 0.35834E+03, tol = 0.81513E+01, time = 6.18 | CG iter. 19 -- res = 0.29413E+03, tol = 0.81513E+01, time = 5.83 | CG iter. 20 -- res = 0.23105E+03, tol = 0.81513E+01, time = 5.66 | CG iter. 21 -- res = 0.15897E+03, tol = 0.81513E+01, time = 5.79 | CG iter. 22 -- res = 0.11359E+03, tol = 0.81513E+01, time = 5.59 | CG iter. 23 -- res = 0.90168E+02, tol = 0.81513E+01, time = 5.80 | CG iter. 24 -- res = 0.76784E+02, tol = 0.81513E+01, time = 5.64 | CG iter. 25 -- res = 0.57813E+02, tol = 0.81513E+01, time = 5.66 | CG iter. 26 -- res = 0.41396E+02, tol = 0.81513E+01, time = 5.95 | CG iter. 27 -- res = 0.32004E+02, tol = 0.81513E+01, time = 5.73 | CG iter. 28 -- res = 0.26844E+02, tol = 0.81513E+01, time = 5.97 | CG iter. 29 -- res = 0.20722E+02, tol = 0.81513E+01, time = 5.70 | CG iter. 30 -- res = 0.15033E+02, tol = 0.81513E+01, time = 5.70 | CG iter. 31 -- res = 0.11850E+02, tol = 0.81513E+01, time = 5.97 | CG iter. 32 -- res = 0.10168E+02, tol = 0.81513E+01, time = 6.03 | CG iter. 33 -- res = 0.83340E+01, tol = 0.81513E+01, time = 5.62 | CG iter. 34 -- res = 0.61689E+01, tol = 0.81513E+01, time = 6.29 | CG iter. 35 -- res = 0.46912E+01, tol = 0.81513E+01, time = 6.04 | CG iter. 36 -- res = 0.39364E+01, tol = 0.81513E+01, time = 5.85 | CG iter. 37 -- res = 0.34293E+01, tol = 0.81513E+01, time = 6.07 | CG iter. 38 -- res = 0.26571E+01, tol = 0.81513E+01, time = 5.80 | CG iter. 39 -- res = 0.20237E+01, tol = 0.81513E+01, time = 6.18 | CG iter. 40 -- res = 0.16644E+01, tol = 0.81513E+01, time = 5.77 | CG iter. 41 -- res = 0.13915E+01, tol = 0.81513E+01, time = 5.48 | CG iter. 42 -- res = 0.11157E+01, tol = 0.81513E+01, time = 5.67 | CG iter. 43 -- res = 0.84908E+00, tol = 0.81513E+01, time = 5.64 | CG iter. 44 -- res = 0.69698E+00, tol = 0.81513E+01, time = 5.83 | CG iter. 45 -- res = 0.61180E+00, tol = 0.81513E+01, time = 6.25 | CG iter. 46 -- res = 0.50739E+00, tol = 0.81513E+01, time = 5.31 | CG iter. 47 -- res = 0.41088E+00, tol = 0.81513E+01, time = 6.13 | CG iter. 48 -- res = 0.32805E+00, tol = 0.81513E+01, time = 5.95 | CG iter. 49 -- res = 0.27638E+00, tol = 0.81513E+01, time = 5.78 | CG iter. 50 -- res = 0.23854E+00, tol = 0.81513E+01, time = 5.84 | Final CG iter 51 -- res = 0.23854E+00, tol = 0.81513E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7983364.722 | Old band monopole 8656133.058 | Change to band monopole -672768.337 | Change to component monopole 672765.443 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.61719E+05, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.42433E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.19580E+01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.27275E-02, tol = 0.47627E+18, time = 2.30 | Final CG iter 5 -- res = 0.29882E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7983330.384 | (Sampled value in CG: 8003208.759 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485172 | New value = 1.516697 | poltype: 2 pol: 1 CPU time specind = 1.6407967E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.531528 | New value = 1.521728 | poltype: 2 pol: 2 CPU time specind = 1.2129784E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.24220E+08, tol = 0.47598E+04, time = 6.35 | CG iter. 2 -- res = 0.52904E+07, tol = 0.47598E+04, time = 7.21 | CG iter. 3 -- res = 0.83065E+06, tol = 0.47598E+04, time = 6.41 | CG iter. 4 -- res = 0.35486E+06, tol = 0.47598E+04, time = 6.79 | CG iter. 5 -- res = 0.15418E+06, tol = 0.47598E+04, time = 6.99 | CG iter. 6 -- res = 0.79169E+05, tol = 0.47598E+04, time = 6.72 | CG iter. 7 -- res = 0.43013E+05, tol = 0.47598E+04, time = 6.93 | CG iter. 8 -- res = 0.20717E+05, tol = 0.47598E+04, time = 6.38 | CG iter. 9 -- res = 0.91192E+04, tol = 0.47598E+04, time = 6.71 | CG iter. 10 -- res = 0.36919E+04, tol = 0.47598E+04, time = 6.58 | CG iter. 11 -- res = 0.17109E+04, tol = 0.47598E+04, time = 6.53 | CG iter. 12 -- res = 0.88492E+03, tol = 0.47598E+04, time = 7.16 | CG iter. 13 -- res = 0.50125E+03, tol = 0.47598E+04, time = 6.63 | CG iter. 14 -- res = 0.28461E+03, tol = 0.47598E+04, time = 6.92 | CG iter. 15 -- res = 0.14517E+03, tol = 0.47598E+04, time = 7.37 | CG iter. 16 -- res = 0.68335E+02, tol = 0.47598E+04, time = 8.75 | CG iter. 17 -- res = 0.31999E+02, tol = 0.47598E+04, time = 6.47 | CG iter. 18 -- res = 0.16016E+02, tol = 0.47598E+04, time = 6.83 | CG iter. 19 -- res = 0.88588E+01, tol = 0.47598E+04, time = 6.67 | CG iter. 20 -- res = 0.50081E+01, tol = 0.47598E+04, time = 6.74 | CG iter. 21 -- res = 0.26968E+01, tol = 0.47598E+04, time = 6.97 | CG iter. 22 -- res = 0.13800E+01, tol = 0.47598E+04, time = 6.66 | CG iter. 23 -- res = 0.67826E+00, tol = 0.47598E+04, time = 6.72 | CG iter. 24 -- res = 0.35157E+00, tol = 0.47598E+04, time = 6.68 | CG iter. 25 -- res = 0.19359E+00, tol = 0.47598E+04, time = 6.52 | CG iter. 26 -- res = 0.11161E+00, tol = 0.47598E+04, time = 7.09 | CG iter. 27 -- res = 0.63808E-01, tol = 0.47598E+04, time = 6.56 | CG iter. 28 -- res = 0.34179E-01, tol = 0.47598E+04, time = 6.99 | CG iter. 29 -- res = 0.17747E-01, tol = 0.47598E+04, time = 12.83 | CG iter. 30 -- res = 0.91574E-02, tol = 0.47598E+04, time = 6.77 | CG iter. 31 -- res = 0.48583E-02, tol = 0.47598E+04, time = 6.98 | CG iter. 32 -- res = 0.27010E-02, tol = 0.47598E+04, time = 6.44 | CG iter. 33 -- res = 0.15088E-02, tol = 0.47598E+04, time = 6.71 | CG iter. 34 -- res = 0.80927E-03, tol = 0.47598E+04, time = 6.69 | CG iter. 35 -- res = 0.41821E-03, tol = 0.47598E+04, time = 6.75 | Final CG iter 36 -- res = 0.41821E-03, tol = 0.47598E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.734 2.741 | New value 0.319 | Old value -0.734 | Difference 1.053 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.58884E+05, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.25976E+02, tol = 0.47627E+18, time = 2.38 | CG iter. 3 -- res = 0.37255E+00, tol = 0.47627E+18, time = 2.72 | CG iter. 4 -- res = 0.35066E-03, tol = 0.47627E+18, time = 3.02 | Final CG iter 5 -- res = 0.87462E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7983330.384 | (Sampled value in CG: 8001487.778 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.562138 | New value = -3.573818 | poltype: 1 pol: 1 CPU time specind = 1.5594006E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.20540E+07, tol = 0.23756E+01, time = 2.63 | CG iter. 2 -- res = 0.66892E+06, tol = 0.23756E+01, time = 2.95 | CG iter. 3 -- res = 0.12548E+06, tol = 0.23756E+01, time = 3.04 | CG iter. 4 -- res = 0.47262E+05, tol = 0.23756E+01, time = 2.80 | CG iter. 5 -- res = 0.26803E+05, tol = 0.23756E+01, time = 2.95 | CG iter. 6 -- res = 0.14809E+05, tol = 0.23756E+01, time = 2.98 | CG iter. 7 -- res = 0.59929E+04, tol = 0.23756E+01, time = 2.39 | CG iter. 8 -- res = 0.26973E+04, tol = 0.23756E+01, time = 2.76 | CG iter. 9 -- res = 0.11389E+04, tol = 0.23756E+01, time = 2.78 | CG iter. 10 -- res = 0.45102E+03, tol = 0.23756E+01, time = 3.02 | CG iter. 11 -- res = 0.19455E+03, tol = 0.23756E+01, time = 2.95 | CG iter. 12 -- res = 0.96600E+02, tol = 0.23756E+01, time = 2.74 | CG iter. 13 -- res = 0.49929E+02, tol = 0.23756E+01, time = 2.58 | CG iter. 14 -- res = 0.24261E+02, tol = 0.23756E+01, time = 3.18 | CG iter. 15 -- res = 0.10940E+02, tol = 0.23756E+01, time = 4.06 | CG iter. 16 -- res = 0.46486E+01, tol = 0.23756E+01, time = 3.09 | CG iter. 17 -- res = 0.19968E+01, tol = 0.23756E+01, time = 2.95 | CG iter. 18 -- res = 0.91245E+00, tol = 0.23756E+01, time = 2.93 | CG iter. 19 -- res = 0.46388E+00, tol = 0.23756E+01, time = 2.93 | CG iter. 20 -- res = 0.23916E+00, tol = 0.23756E+01, time = 2.61 | CG iter. 21 -- res = 0.11651E+00, tol = 0.23756E+01, time = 2.93 | CG iter. 22 -- res = 0.53726E-01, tol = 0.23756E+01, time = 3.15 | CG iter. 23 -- res = 0.24054E-01, tol = 0.23756E+01, time = 2.52 | CG iter. 24 -- res = 0.10955E-01, tol = 0.23756E+01, time = 2.88 | CG iter. 25 -- res = 0.54618E-02, tol = 0.23756E+01, time = 2.78 | CG iter. 26 -- res = 0.27027E-02, tol = 0.23756E+01, time = 2.87 | CG iter. 27 -- res = 0.13523E-02, tol = 0.23756E+01, time = 3.04 | CG iter. 28 -- res = 0.64411E-03, tol = 0.23756E+01, time = 2.53 | CG iter. 29 -- res = 0.28927E-03, tol = 0.23756E+01, time = 2.85 | CG iter. 30 -- res = 0.13456E-03, tol = 0.23756E+01, time = 2.51 | CG iter. 31 -- res = 0.64305E-04, tol = 0.23756E+01, time = 2.87 | CG iter. 32 -- res = 0.33255E-04, tol = 0.23756E+01, time = 3.13 | CG iter. 33 -- res = 0.16758E-04, tol = 0.23756E+01, time = 3.01 | CG iter. 34 -- res = 0.80117E-05, tol = 0.23756E+01, time = 2.93 | CG iter. 35 -- res = 0.37395E-05, tol = 0.23756E+01, time = 2.94 | CG iter. 36 -- res = 0.17807E-05, tol = 0.23756E+01, time = 2.73 | CG iter. 37 -- res = 0.84777E-06, tol = 0.23756E+01, time = 2.57 | CG iter. 38 -- res = 0.43744E-06, tol = 0.23756E+01, time = 2.87 | CG iter. 39 -- res = 0.21760E-06, tol = 0.23756E+01, time = 2.77 | CG iter. 40 -- res = 0.10626E-06, tol = 0.23756E+01, time = 2.99 | CG iter. 41 -- res = 0.51284E-07, tol = 0.23756E+01, time = 2.68 | CG iter. 42 -- res = 0.23975E-07, tol = 0.23756E+01, time = 2.69 | CG iter. 43 -- res = 0.11689E-07, tol = 0.23756E+01, time = 2.70 | CG iter. 44 -- res = 0.57122E-08, tol = 0.23756E+01, time = 2.88 | CG iter. 45 -- res = 0.28352E-08, tol = 0.23756E+01, time = 2.94 | CG iter. 46 -- res = 0.13893E-08, tol = 0.23756E+01, time = 2.59 | CG iter. 47 -- res = 0.68037E-09, tol = 0.23756E+01, time = 2.61 | CG iter. 48 -- res = 0.30644E-09, tol = 0.23756E+01, time = 2.66 | CG iter. 49 -- res = 0.14343E-09, tol = 0.23756E+01, time = 2.84 | CG iter. 50 -- res = 0.67610E-10, tol = 0.23756E+01, time = 3.14 | Final CG iter 51 -- res = 0.67610E-10, tol = 0.23756E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.757 4.588 | New value 1.665 | Old value 3.757 | Difference -2.092 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.48538E+04, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.28830E+02, tol = 0.47627E+18, time = 2.35 | CG iter. 3 -- res = 0.40617E+00, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.73362E-03, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.77704E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7983330.384 | (Sampled value in CG: 7999308.152 ) | CPU time specind = 1210.831 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.68860E+08, tol = 0.57660E+04, time = 12.16 | CG iter. 2 -- res = 0.59215E+08, tol = 0.57660E+04, time = 18.32 | CG iter. 3 -- res = 0.15661E+08, tol = 0.57660E+04, time = 12.45 | CG iter. 4 -- res = 0.65573E+07, tol = 0.57660E+04, time = 12.40 | CG iter. 5 -- res = 0.39069E+07, tol = 0.57660E+04, time = 12.28 | CG iter. 6 -- res = 0.22959E+07, tol = 0.57660E+04, time = 11.91 | CG iter. 7 -- res = 0.13413E+07, tol = 0.57660E+04, time = 12.47 | CG iter. 8 -- res = 0.88570E+06, tol = 0.57660E+04, time = 11.97 | CG iter. 9 -- res = 0.57159E+06, tol = 0.57660E+04, time = 14.16 | CG iter. 10 -- res = 0.34656E+06, tol = 0.57660E+04, time = 12.51 | CG iter. 11 -- res = 0.18485E+06, tol = 0.57660E+04, time = 12.04 | CG iter. 12 -- res = 0.96353E+05, tol = 0.57660E+04, time = 12.23 | CG iter. 13 -- res = 0.50552E+05, tol = 0.57660E+04, time = 12.80 | CG iter. 14 -- res = 0.28644E+05, tol = 0.57660E+04, time = 12.28 | CG iter. 15 -- res = 0.18260E+05, tol = 0.57660E+04, time = 12.24 | CG iter. 16 -- res = 0.12348E+05, tol = 0.57660E+04, time = 12.14 | CG iter. 17 -- res = 0.86824E+04, tol = 0.57660E+04, time = 11.86 | CG iter. 18 -- res = 0.59253E+04, tol = 0.57660E+04, time = 11.91 | CG iter. 19 -- res = 0.38539E+04, tol = 0.57660E+04, time = 12.27 | CG iter. 20 -- res = 0.25661E+04, tol = 0.57660E+04, time = 12.51 | CG iter. 21 -- res = 0.18163E+04, tol = 0.57660E+04, time = 11.83 | CG iter. 22 -- res = 0.14143E+04, tol = 0.57660E+04, time = 12.33 | CG iter. 23 -- res = 0.12887E+04, tol = 0.57660E+04, time = 11.99 | CG iter. 24 -- res = 0.13046E+04, tol = 0.57660E+04, time = 12.42 | CG iter. 25 -- res = 0.13568E+04, tol = 0.57660E+04, time = 12.29 | CG iter. 26 -- res = 0.14091E+04, tol = 0.57660E+04, time = 17.75 | CG iter. 27 -- res = 0.13733E+04, tol = 0.57660E+04, time = 12.45 | CG iter. 28 -- res = 0.12367E+04, tol = 0.57660E+04, time = 12.29 | CG iter. 29 -- res = 0.11166E+04, tol = 0.57660E+04, time = 12.64 | CG iter. 30 -- res = 0.10285E+04, tol = 0.57660E+04, time = 12.12 | CG iter. 31 -- res = 0.95297E+03, tol = 0.57660E+04, time = 12.27 | CG iter. 32 -- res = 0.87584E+03, tol = 0.57660E+04, time = 12.34 | CG iter. 33 -- res = 0.74891E+03, tol = 0.57660E+04, time = 14.74 | CG iter. 34 -- res = 0.58047E+03, tol = 0.57660E+04, time = 12.21 | CG iter. 35 -- res = 0.43687E+03, tol = 0.57660E+04, time = 12.40 | CG iter. 36 -- res = 0.34620E+03, tol = 0.57660E+04, time = 11.91 | CG iter. 37 -- res = 0.30479E+03, tol = 0.57660E+04, time = 12.58 | CG iter. 38 -- res = 0.28841E+03, tol = 0.57660E+04, time = 11.84 | CG iter. 39 -- res = 0.26888E+03, tol = 0.57660E+04, time = 12.44 | CG iter. 40 -- res = 0.25143E+03, tol = 0.57660E+04, time = 11.93 | CG iter. 41 -- res = 0.23091E+03, tol = 0.57660E+04, time = 12.29 | CG iter. 42 -- res = 0.20665E+03, tol = 0.57660E+04, time = 13.37 | CG iter. 43 -- res = 0.18721E+03, tol = 0.57660E+04, time = 12.64 | CG iter. 44 -- res = 0.17543E+03, tol = 0.57660E+04, time = 11.87 | CG iter. 45 -- res = 0.16707E+03, tol = 0.57660E+04, time = 12.47 | CG iter. 46 -- res = 0.15711E+03, tol = 0.57660E+04, time = 12.11 | CG iter. 47 -- res = 0.14424E+03, tol = 0.57660E+04, time = 12.46 | CG iter. 48 -- res = 0.12473E+03, tol = 0.57660E+04, time = 12.21 | CG iter. 49 -- res = 0.10337E+03, tol = 0.57660E+04, time = 12.88 | CG iter. 50 -- res = 0.87509E+02, tol = 0.57660E+04, time = 17.87 | CG iter. 51 -- res = 0.77450E+02, tol = 0.57660E+04, time = 12.33 | CG iter. 52 -- res = 0.72604E+02, tol = 0.57660E+04, time = 12.04 | CG iter. 53 -- res = 0.69364E+02, tol = 0.57660E+04, time = 12.49 | CG iter. 54 -- res = 0.67006E+02, tol = 0.57660E+04, time = 11.84 | CG iter. 55 -- res = 0.64257E+02, tol = 0.57660E+04, time = 12.02 | CG iter. 56 -- res = 0.58214E+02, tol = 0.57660E+04, time = 12.91 | CG iter. 57 -- res = 0.52257E+02, tol = 0.57660E+04, time = 13.76 | CG iter. 58 -- res = 0.49958E+02, tol = 0.57660E+04, time = 11.92 | CG iter. 59 -- res = 0.47803E+02, tol = 0.57660E+04, time = 11.88 | CG iter. 60 -- res = 0.44439E+02, tol = 0.57660E+04, time = 12.53 | Final CG iter 61 -- res = 0.44439E+02, tol = 0.57660E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.857 ( -229.778 -2230.957 2513.655 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9480162.387 | Old band monopole 7983364.722 | Change to band monopole 1496797.665 | Change to component monopole -1496791.227 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.270 2.726 | New value 2.980 | Old value 0.270 | Difference 2.710 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.229 ( 6.812 12.386 -12.518 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.618 4.542 | New value -4.668 | Old value 4.618 | Difference -9.286 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.51100E+06, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.72736E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.33016E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.44266E-02, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.83623E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9480121.610 | (Sampled value in CG: 9459655.490 ) | Chain = 1 -- chisq = 0.81513477E+09 | Chain = 1 -- wall time = 6160.982 sec Available RAM: MemAvailable: 378047320 kB Available Swap: SwapFree: 1129143088 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 399 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443566 | --> Sampling calibration, mode = relcal | relcal = 1.3425373E-02 7.4268167E-04 -1.5844041E-03 -1.2583652E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1680307 0.1856329 97039614.3312537 | BP delta = 0.1710280 0.1886302 97039614.7916028 | BP chisq diff = 0.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632573 | --> Sampling calibration, mode = relcal | relcal = -2.8217852E-03 -7.0366421E-04 1.6797784E-03 1.6137024E-03 -4.0829592E-04 6.4026436E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5497961 15218949.0200861 | BP delta = 0.0000000E+00 -0.5624026 15218947.5822274 | BP chisq diff = -1.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18029006393193 | --> Sampling calibration, mode = relcal | relcal = -7.5072207E-02 -5.8477752E-02 9.1887161E-02 4.1662797E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4318660E-04 4.7580912E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0802E-05 | 2: delta_r/delta_0: 8.6527E-07 | 3: delta_s/delta_0: 2.2193E-07 | 4: delta_r/delta_0: 1.3329E-08 | 5: delta_s/delta_0: 4.9147E-09 | 6: delta_r/delta_0: 8.4182E-10 | 7: delta_s/delta_0: 2.3661E-10 | 8: delta_r/delta_0: 1.0959E-10 | 9: delta_s/delta_0: 1.4437E-08 | 10: delta_r/delta_0: 1.9775E-09 | 11: delta_s/delta_0: 3.4091E-10 | 12: delta_r/delta_0: 9.2524E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.076403933122040E-003 2.742701803872292E-005 | BP delta = 7.4949287E-02 9.8633781E-02 50490004.8874766 | BP delta = 7.6128997E-02 9.9813491E-02 50490004.4075309 | BP chisq diff = -0.5, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02606456 | --> Sampling calibration, mode = relcal | relcal = -0.1066923 -9.5583647E-02 0.1449867 5.7289269E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.4499043E-03 1.0795798E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0394E-05 | 2: delta_r/delta_0: 1.3427E-06 | 3: delta_s/delta_0: 2.4135E-07 | 4: delta_r/delta_0: 4.6935E-08 | 5: delta_s/delta_0: 2.1259E-08 | 6: delta_r/delta_0: 7.0405E-09 | 7: delta_s/delta_0: 7.0460E-09 | 8: delta_r/delta_0: 1.5487E-09 | 9: delta_s/delta_0: 7.6241E-10 | 10: delta_r/delta_0: 5.6877E-10 | 11: delta_s/delta_0: 3.5899E-10 | 12: delta_r/delta_0: 1.3502E-10 | 13: delta_s/delta_0: 1.1296E-10 | 14: delta_r/delta_0: 3.4191E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.000492050576618E-002 2.810653183585929E-005 | BP delta = -0.2452507 -0.2105363 57387655.2609199 | BP delta = -0.2503453 -0.2156309 57387655.2683651 | BP chisq diff = 0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81244096 | --> Sampling calibration, mode = relcal | relcal = 0.2955402 0.2249184 -0.2838976 -0.2365610 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.7935596E-06 5.0582755E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2611E-02 | 2: delta_r/delta_0: 5.2914E-04 | 3: delta_s/delta_0: 1.4907E-03 | 4: delta_r/delta_0: 2.5811E-04 | 5: delta_s/delta_0: 3.1763E-04 | 6: delta_r/delta_0: 1.0239E-04 | 7: delta_s/delta_0: 7.0864E-05 | 8: delta_r/delta_0: 2.0380E-05 | 9: delta_s/delta_0: 1.8070E-05 | 10: delta_r/delta_0: 1.3287E-06 | 11: delta_s/delta_0: 1.6833E-06 | 12: delta_r/delta_0: 3.1547E-07 | 13: delta_s/delta_0: 4.4252E-08 | 14: delta_r/delta_0: 7.3796E-09 | 15: delta_s/delta_0: 4.0021E-06 | 16: delta_r/delta_0: 3.3325E-07 | 17: delta_s/delta_0: 1.1523E-09 | 18: delta_r/delta_0: 5.3561E-10 | 19: delta_s/delta_0: 1.5382E-10 | 20: delta_r/delta_0: 1.2710E-10 | 21: delta_s/delta_0: 1.1196E-10 | 22: delta_r/delta_0: 1.7123E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.221741100940602 4.020719717286024E-005 | BP delta = -0.1286172 -0.1671274 72485207.2452974 | BP delta = -0.1348750 -0.1733852 72485207.1660946 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95939055 | --> Sampling calibration, mode = relcal | relcal = 0.1065602 0.1395381 -0.1102887 -0.1358096 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3937730E-03 1.3223798E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6927E-04 | 2: delta_r/delta_0: 4.5466E-06 | 3: delta_s/delta_0: 8.3571E-06 | 4: delta_r/delta_0: 1.1323E-06 | 5: delta_s/delta_0: 1.7021E-07 | 6: delta_r/delta_0: 1.0614E-07 | 7: delta_s/delta_0: 6.5579E-07 | 8: delta_r/delta_0: 2.3797E-08 | 9: delta_s/delta_0: 5.9961E-08 | 10: delta_r/delta_0: 2.4301E-08 | 11: delta_s/delta_0: 1.2195E-09 | 12: delta_r/delta_0: 8.3778E-10 | 13: delta_s/delta_0: 3.5059E-10 | 14: delta_r/delta_0: 2.7210E-10 | 15: delta_s/delta_0: 7.2387E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.919889254441292E-002 3.696265024300476E-005 | BP delta = 6.0140293E-02 0.1794441 72789622.6319081 | BP delta = 2.5275409E-02 0.1445792 72789624.6155693 | BP chisq diff = 2.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.132456 | New value = -3.149360 | poltype: 2 pol: 1 CPU time specind = 1.8156052E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165099 | New value = -3.129186 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.169715 | New value = -3.162675 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.205562 | New value = -3.245140 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144351 | New value = -3.189517 | poltype: 2 pol: 2 CPU time specind = 6.7200661E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.13534E+08, tol = 0.75682E+01, time = 6.35 | CG iter. 2 -- res = 0.31836E+06, tol = 0.75682E+01, time = 5.58 | CG iter. 3 -- res = 0.44945E+05, tol = 0.75682E+01, time = 6.18 | CG iter. 4 -- res = 0.20839E+05, tol = 0.75682E+01, time = 5.69 | CG iter. 5 -- res = 0.10785E+05, tol = 0.75682E+01, time = 5.89 | CG iter. 6 -- res = 0.55781E+04, tol = 0.75682E+01, time = 5.69 | CG iter. 7 -- res = 0.35766E+04, tol = 0.75682E+01, time = 5.91 | CG iter. 8 -- res = 0.25351E+04, tol = 0.75682E+01, time = 5.73 | CG iter. 9 -- res = 0.21269E+04, tol = 0.75682E+01, time = 5.93 | CG iter. 10 -- res = 0.22557E+04, tol = 0.75682E+01, time = 5.62 | CG iter. 11 -- res = 0.21869E+04, tol = 0.75682E+01, time = 6.14 | CG iter. 12 -- res = 0.15947E+04, tol = 0.75682E+01, time = 6.18 | CG iter. 13 -- res = 0.10861E+04, tol = 0.75682E+01, time = 5.50 | CG iter. 14 -- res = 0.79891E+03, tol = 0.75682E+01, time = 5.79 | CG iter. 15 -- res = 0.67411E+03, tol = 0.75682E+01, time = 5.51 | CG iter. 16 -- res = 0.53085E+03, tol = 0.75682E+01, time = 5.63 | CG iter. 17 -- res = 0.39767E+03, tol = 0.75682E+01, time = 5.70 | CG iter. 18 -- res = 0.30424E+03, tol = 0.75682E+01, time = 6.55 | CG iter. 19 -- res = 0.25161E+03, tol = 0.75682E+01, time = 6.11 | CG iter. 20 -- res = 0.20390E+03, tol = 0.75682E+01, time = 5.62 | CG iter. 21 -- res = 0.14655E+03, tol = 0.75682E+01, time = 6.34 | CG iter. 22 -- res = 0.10277E+03, tol = 0.75682E+01, time = 5.53 | CG iter. 23 -- res = 0.84991E+02, tol = 0.75682E+01, time = 6.11 | CG iter. 24 -- res = 0.73017E+02, tol = 0.75682E+01, time = 6.08 | CG iter. 25 -- res = 0.57022E+02, tol = 0.75682E+01, time = 5.45 | CG iter. 26 -- res = 0.41251E+02, tol = 0.75682E+01, time = 5.63 | CG iter. 27 -- res = 0.32451E+02, tol = 0.75682E+01, time = 6.20 | CG iter. 28 -- res = 0.26939E+02, tol = 0.75682E+01, time = 5.82 | CG iter. 29 -- res = 0.20726E+02, tol = 0.75682E+01, time = 5.65 | CG iter. 30 -- res = 0.15403E+02, tol = 0.75682E+01, time = 6.02 | CG iter. 31 -- res = 0.11734E+02, tol = 0.75682E+01, time = 6.05 | CG iter. 32 -- res = 0.98678E+01, tol = 0.75682E+01, time = 5.82 | CG iter. 33 -- res = 0.80185E+01, tol = 0.75682E+01, time = 5.68 | CG iter. 34 -- res = 0.59495E+01, tol = 0.75682E+01, time = 9.87 | CG iter. 35 -- res = 0.46607E+01, tol = 0.75682E+01, time = 7.81 | CG iter. 36 -- res = 0.39418E+01, tol = 0.75682E+01, time = 5.53 | CG iter. 37 -- res = 0.33759E+01, tol = 0.75682E+01, time = 5.53 | CG iter. 38 -- res = 0.26733E+01, tol = 0.75682E+01, time = 5.97 | CG iter. 39 -- res = 0.20314E+01, tol = 0.75682E+01, time = 5.52 | CG iter. 40 -- res = 0.16957E+01, tol = 0.75682E+01, time = 6.01 | CG iter. 41 -- res = 0.14834E+01, tol = 0.75682E+01, time = 6.05 | CG iter. 42 -- res = 0.12037E+01, tol = 0.75682E+01, time = 5.74 | CG iter. 43 -- res = 0.96390E+00, tol = 0.75682E+01, time = 5.64 | CG iter. 44 -- res = 0.79194E+00, tol = 0.75682E+01, time = 5.96 | CG iter. 45 -- res = 0.67189E+00, tol = 0.75682E+01, time = 5.83 | CG iter. 46 -- res = 0.58591E+00, tol = 0.75682E+01, time = 5.74 | CG iter. 47 -- res = 0.46267E+00, tol = 0.75682E+01, time = 5.87 | CG iter. 48 -- res = 0.37395E+00, tol = 0.75682E+01, time = 5.91 | CG iter. 49 -- res = 0.32027E+00, tol = 0.75682E+01, time = 6.99 | CG iter. 50 -- res = 0.27406E+00, tol = 0.75682E+01, time = 6.34 | Final CG iter 51 -- res = 0.27406E+00, tol = 0.75682E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6661356.636 | Old band monopole 9480162.387 | Change to band monopole -2818805.750 | Change to component monopole 2818793.626 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.47245E+05, tol = 0.47627E+18, time = 2.30 | CG iter. 2 -- res = 0.42503E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.16906E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.22211E-02, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.13097E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6661327.984 | (Sampled value in CG: 6642897.389 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.516697 | New value = 1.489374 | poltype: 2 pol: 1 CPU time specind = 1.6139030E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.521728 | New value = 1.548026 | poltype: 2 pol: 2 CPU time specind = 1.6981840E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.24179E+08, tol = 0.47577E+04, time = 6.58 | CG iter. 2 -- res = 0.53938E+07, tol = 0.47577E+04, time = 6.60 | CG iter. 3 -- res = 0.87216E+06, tol = 0.47577E+04, time = 6.71 | CG iter. 4 -- res = 0.36690E+06, tol = 0.47577E+04, time = 6.86 | CG iter. 5 -- res = 0.15980E+06, tol = 0.47577E+04, time = 6.87 | CG iter. 6 -- res = 0.82007E+05, tol = 0.47577E+04, time = 6.68 | CG iter. 7 -- res = 0.44953E+05, tol = 0.47577E+04, time = 6.64 | CG iter. 8 -- res = 0.21985E+05, tol = 0.47577E+04, time = 7.17 | CG iter. 9 -- res = 0.96916E+04, tol = 0.47577E+04, time = 6.63 | CG iter. 10 -- res = 0.39676E+04, tol = 0.47577E+04, time = 6.85 | CG iter. 11 -- res = 0.17879E+04, tol = 0.47577E+04, time = 6.55 | CG iter. 12 -- res = 0.91918E+03, tol = 0.47577E+04, time = 6.68 | CG iter. 13 -- res = 0.51481E+03, tol = 0.47577E+04, time = 13.14 | CG iter. 14 -- res = 0.29057E+03, tol = 0.47577E+04, time = 6.81 | CG iter. 15 -- res = 0.14923E+03, tol = 0.47577E+04, time = 6.56 | CG iter. 16 -- res = 0.70127E+02, tol = 0.47577E+04, time = 6.56 | CG iter. 17 -- res = 0.33100E+02, tol = 0.47577E+04, time = 6.96 | CG iter. 18 -- res = 0.16683E+02, tol = 0.47577E+04, time = 6.61 | CG iter. 19 -- res = 0.91581E+01, tol = 0.47577E+04, time = 6.94 | CG iter. 20 -- res = 0.52338E+01, tol = 0.47577E+04, time = 6.64 | CG iter. 21 -- res = 0.28465E+01, tol = 0.47577E+04, time = 6.83 | CG iter. 22 -- res = 0.14694E+01, tol = 0.47577E+04, time = 6.61 | CG iter. 23 -- res = 0.73059E+00, tol = 0.47577E+04, time = 6.62 | CG iter. 24 -- res = 0.37319E+00, tol = 0.47577E+04, time = 6.71 | CG iter. 25 -- res = 0.20642E+00, tol = 0.47577E+04, time = 6.44 | CG iter. 26 -- res = 0.12134E+00, tol = 0.47577E+04, time = 8.11 | CG iter. 27 -- res = 0.69955E-01, tol = 0.47577E+04, time = 7.31 | CG iter. 28 -- res = 0.37206E-01, tol = 0.47577E+04, time = 6.75 | CG iter. 29 -- res = 0.19299E-01, tol = 0.47577E+04, time = 6.98 | CG iter. 30 -- res = 0.99324E-02, tol = 0.47577E+04, time = 6.69 | CG iter. 31 -- res = 0.53025E-02, tol = 0.47577E+04, time = 6.75 | CG iter. 32 -- res = 0.30084E-02, tol = 0.47577E+04, time = 7.00 | CG iter. 33 -- res = 0.16828E-02, tol = 0.47577E+04, time = 6.36 | CG iter. 34 -- res = 0.90778E-03, tol = 0.47577E+04, time = 7.03 | CG iter. 35 -- res = 0.47860E-03, tol = 0.47577E+04, time = 6.39 | Final CG iter 36 -- res = 0.47860E-03, tol = 0.47577E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.011 2.736 | New value 2.476 | Old value 3.011 | Difference -0.535 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.16680E+05, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.20745E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.35893E+00, tol = 0.47627E+18, time = 2.88 | CG iter. 4 -- res = 0.36690E-03, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.11408E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6661327.984 | (Sampled value in CG: 6643023.007 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.573818 | New value = -3.616290 | poltype: 1 pol: 1 CPU time specind = 1.6526937E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.20098E+07, tol = 0.27113E+01, time = 2.61 | CG iter. 2 -- res = 0.64011E+06, tol = 0.27113E+01, time = 2.90 | CG iter. 3 -- res = 0.11076E+06, tol = 0.27113E+01, time = 2.99 | CG iter. 4 -- res = 0.44254E+05, tol = 0.27113E+01, time = 2.86 | CG iter. 5 -- res = 0.25318E+05, tol = 0.27113E+01, time = 2.67 | CG iter. 6 -- res = 0.14166E+05, tol = 0.27113E+01, time = 2.89 | CG iter. 7 -- res = 0.56152E+04, tol = 0.27113E+01, time = 2.86 | CG iter. 8 -- res = 0.24288E+04, tol = 0.27113E+01, time = 2.65 | CG iter. 9 -- res = 0.10179E+04, tol = 0.27113E+01, time = 3.13 | CG iter. 10 -- res = 0.39019E+03, tol = 0.27113E+01, time = 3.02 | CG iter. 11 -- res = 0.17193E+03, tol = 0.27113E+01, time = 3.10 | CG iter. 12 -- res = 0.87378E+02, tol = 0.27113E+01, time = 2.86 | CG iter. 13 -- res = 0.45831E+02, tol = 0.27113E+01, time = 3.04 | CG iter. 14 -- res = 0.23601E+02, tol = 0.27113E+01, time = 3.01 | CG iter. 15 -- res = 0.97831E+01, tol = 0.27113E+01, time = 3.01 | CG iter. 16 -- res = 0.41197E+01, tol = 0.27113E+01, time = 2.46 | CG iter. 17 -- res = 0.18018E+01, tol = 0.27113E+01, time = 2.75 | CG iter. 18 -- res = 0.88316E+00, tol = 0.27113E+01, time = 3.00 | CG iter. 19 -- res = 0.43377E+00, tol = 0.27113E+01, time = 2.82 | CG iter. 20 -- res = 0.22242E+00, tol = 0.27113E+01, time = 2.56 | CG iter. 21 -- res = 0.10398E+00, tol = 0.27113E+01, time = 2.90 | CG iter. 22 -- res = 0.47323E-01, tol = 0.27113E+01, time = 2.63 | CG iter. 23 -- res = 0.22133E-01, tol = 0.27113E+01, time = 2.92 | CG iter. 24 -- res = 0.10334E-01, tol = 0.27113E+01, time = 2.78 | CG iter. 25 -- res = 0.52506E-02, tol = 0.27113E+01, time = 2.89 | CG iter. 26 -- res = 0.26929E-02, tol = 0.27113E+01, time = 2.83 | CG iter. 27 -- res = 0.13094E-02, tol = 0.27113E+01, time = 2.78 | CG iter. 28 -- res = 0.60540E-03, tol = 0.27113E+01, time = 2.67 | CG iter. 29 -- res = 0.27342E-03, tol = 0.27113E+01, time = 3.11 | CG iter. 30 -- res = 0.13017E-03, tol = 0.27113E+01, time = 2.61 | CG iter. 31 -- res = 0.65020E-04, tol = 0.27113E+01, time = 2.79 | CG iter. 32 -- res = 0.33271E-04, tol = 0.27113E+01, time = 2.64 | CG iter. 33 -- res = 0.15682E-04, tol = 0.27113E+01, time = 2.91 | CG iter. 34 -- res = 0.71948E-05, tol = 0.27113E+01, time = 2.91 | CG iter. 35 -- res = 0.32426E-05, tol = 0.27113E+01, time = 3.05 | CG iter. 36 -- res = 0.15645E-05, tol = 0.27113E+01, time = 2.88 | CG iter. 37 -- res = 0.78446E-06, tol = 0.27113E+01, time = 2.90 | CG iter. 38 -- res = 0.39445E-06, tol = 0.27113E+01, time = 2.90 | CG iter. 39 -- res = 0.19383E-06, tol = 0.27113E+01, time = 2.78 | CG iter. 40 -- res = 0.85383E-07, tol = 0.27113E+01, time = 3.11 | CG iter. 41 -- res = 0.40561E-07, tol = 0.27113E+01, time = 2.80 | CG iter. 42 -- res = 0.19640E-07, tol = 0.27113E+01, time = 2.64 | CG iter. 43 -- res = 0.94248E-08, tol = 0.27113E+01, time = 2.84 | CG iter. 44 -- res = 0.46701E-08, tol = 0.27113E+01, time = 2.69 | CG iter. 45 -- res = 0.22794E-08, tol = 0.27113E+01, time = 2.80 | CG iter. 46 -- res = 0.10603E-08, tol = 0.27113E+01, time = 2.69 | CG iter. 47 -- res = 0.49482E-09, tol = 0.27113E+01, time = 2.76 | CG iter. 48 -- res = 0.23189E-09, tol = 0.27113E+01, time = 2.47 | CG iter. 49 -- res = 0.10877E-09, tol = 0.27113E+01, time = 4.58 | CG iter. 50 -- res = 0.52855E-10, tol = 0.27113E+01, time = 8.27 | Final CG iter 51 -- res = 0.52855E-10, tol = 0.27113E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.813 4.871 | New value 4.578 | Old value -5.813 | Difference 10.391 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.56 | CG iter. 1 -- res = 0.10234E+06, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.53489E+02, tol = 0.47627E+18, time = 2.31 | CG iter. 3 -- res = 0.24975E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.13958E-02, tol = 0.47627E+18, time = 2.23 | Final CG iter 5 -- res = 0.10037E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6661327.984 | (Sampled value in CG: 6647667.054 ) | CPU time specind = 1216.208 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.68615E+08, tol = 0.57742E+04, time = 12.38 | CG iter. 2 -- res = 0.58737E+08, tol = 0.57742E+04, time = 12.74 | CG iter. 3 -- res = 0.15422E+08, tol = 0.57742E+04, time = 12.08 | CG iter. 4 -- res = 0.64727E+07, tol = 0.57742E+04, time = 12.07 | CG iter. 5 -- res = 0.38088E+07, tol = 0.57742E+04, time = 12.03 | CG iter. 6 -- res = 0.21883E+07, tol = 0.57742E+04, time = 12.02 | CG iter. 7 -- res = 0.12791E+07, tol = 0.57742E+04, time = 12.47 | CG iter. 8 -- res = 0.84432E+06, tol = 0.57742E+04, time = 12.64 | CG iter. 9 -- res = 0.53842E+06, tol = 0.57742E+04, time = 13.12 | CG iter. 10 -- res = 0.31232E+06, tol = 0.57742E+04, time = 12.48 | CG iter. 11 -- res = 0.16709E+06, tol = 0.57742E+04, time = 11.68 | CG iter. 12 -- res = 0.88142E+05, tol = 0.57742E+04, time = 12.72 | CG iter. 13 -- res = 0.48192E+05, tol = 0.57742E+04, time = 12.13 | CG iter. 14 -- res = 0.27659E+05, tol = 0.57742E+04, time = 12.39 | CG iter. 15 -- res = 0.17913E+05, tol = 0.57742E+04, time = 12.06 | CG iter. 16 -- res = 0.12079E+05, tol = 0.57742E+04, time = 12.45 | CG iter. 17 -- res = 0.84933E+04, tol = 0.57742E+04, time = 18.30 | CG iter. 18 -- res = 0.58308E+04, tol = 0.57742E+04, time = 12.17 | CG iter. 19 -- res = 0.38918E+04, tol = 0.57742E+04, time = 12.62 | CG iter. 20 -- res = 0.25235E+04, tol = 0.57742E+04, time = 11.84 | CG iter. 21 -- res = 0.17137E+04, tol = 0.57742E+04, time = 12.24 | CG iter. 22 -- res = 0.13105E+04, tol = 0.57742E+04, time = 12.65 | CG iter. 23 -- res = 0.11374E+04, tol = 0.57742E+04, time = 12.08 | CG iter. 24 -- res = 0.10958E+04, tol = 0.57742E+04, time = 14.18 | CG iter. 25 -- res = 0.11256E+04, tol = 0.57742E+04, time = 12.45 | CG iter. 26 -- res = 0.11349E+04, tol = 0.57742E+04, time = 11.91 | CG iter. 27 -- res = 0.10764E+04, tol = 0.57742E+04, time = 12.24 | CG iter. 28 -- res = 0.96094E+03, tol = 0.57742E+04, time = 12.39 | CG iter. 29 -- res = 0.84981E+03, tol = 0.57742E+04, time = 12.47 | CG iter. 30 -- res = 0.77364E+03, tol = 0.57742E+04, time = 12.00 | CG iter. 31 -- res = 0.70886E+03, tol = 0.57742E+04, time = 12.33 | CG iter. 32 -- res = 0.62274E+03, tol = 0.57742E+04, time = 12.33 | CG iter. 33 -- res = 0.51501E+03, tol = 0.57742E+04, time = 12.04 | CG iter. 34 -- res = 0.40342E+03, tol = 0.57742E+04, time = 11.98 | CG iter. 35 -- res = 0.29838E+03, tol = 0.57742E+04, time = 12.37 | CG iter. 36 -- res = 0.22223E+03, tol = 0.57742E+04, time = 11.95 | CG iter. 37 -- res = 0.17857E+03, tol = 0.57742E+04, time = 11.82 | CG iter. 38 -- res = 0.16307E+03, tol = 0.57742E+04, time = 12.57 | CG iter. 39 -- res = 0.15264E+03, tol = 0.57742E+04, time = 12.12 | CG iter. 40 -- res = 0.13669E+03, tol = 0.57742E+04, time = 11.84 | CG iter. 41 -- res = 0.11873E+03, tol = 0.57742E+04, time = 18.14 | CG iter. 42 -- res = 0.10263E+03, tol = 0.57742E+04, time = 12.01 | CG iter. 43 -- res = 0.88719E+02, tol = 0.57742E+04, time = 12.03 | CG iter. 44 -- res = 0.79116E+02, tol = 0.57742E+04, time = 12.27 | CG iter. 45 -- res = 0.74861E+02, tol = 0.57742E+04, time = 12.06 | CG iter. 46 -- res = 0.70525E+02, tol = 0.57742E+04, time = 12.03 | CG iter. 47 -- res = 0.65605E+02, tol = 0.57742E+04, time = 12.32 | CG iter. 48 -- res = 0.57794E+02, tol = 0.57742E+04, time = 13.73 | CG iter. 49 -- res = 0.48358E+02, tol = 0.57742E+04, time = 12.84 | CG iter. 50 -- res = 0.40538E+02, tol = 0.57742E+04, time = 11.75 | CG iter. 51 -- res = 0.34869E+02, tol = 0.57742E+04, time = 12.26 | CG iter. 52 -- res = 0.31265E+02, tol = 0.57742E+04, time = 11.81 | CG iter. 53 -- res = 0.29069E+02, tol = 0.57742E+04, time = 12.51 | CG iter. 54 -- res = 0.27966E+02, tol = 0.57742E+04, time = 11.82 | CG iter. 55 -- res = 0.25570E+02, tol = 0.57742E+04, time = 12.00 | CG iter. 56 -- res = 0.22339E+02, tol = 0.57742E+04, time = 11.75 | CG iter. 57 -- res = 0.19987E+02, tol = 0.57742E+04, time = 12.71 | CG iter. 58 -- res = 0.18672E+02, tol = 0.57742E+04, time = 12.44 | CG iter. 59 -- res = 0.18224E+02, tol = 0.57742E+04, time = 12.26 | CG iter. 60 -- res = 0.17618E+02, tol = 0.57742E+04, time = 12.37 | Final CG iter 61 -- res = 0.17618E+02, tol = 0.57742E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.759 ( -229.846 -2230.583 2513.105 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9646462.011 | Old band monopole 6661356.636 | Change to band monopole 2985105.375 | Change to component monopole -2985092.535 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.461 2.736 | New value 0.546 | Old value 2.461 | Difference -1.915 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.384 ( 7.247 11.770 -11.492 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.383 5.028 | New value -0.479 | Old value 10.383 | Difference -10.862 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.50 | CG iter. 1 -- res = 0.49892E+06, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.11745E+03, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.34977E+01, tol = 0.47627E+18, time = 2.24 | CG iter. 4 -- res = 0.52853E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.86219E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9646420.520 | (Sampled value in CG: 9623006.138 ) | Chain = 1 -- chisq = 0.81543246E+09 | Chain = 1 -- wall time = 5822.949 sec Available RAM: MemAvailable: 377766688 kB Available Swap: SwapFree: 1129660976 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 400 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443686 | --> Sampling calibration, mode = relcal | relcal = 1.3436341E-02 7.5664354E-04 -1.6036155E-03 -1.2589369E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1710280 0.1886302 9403034.31859558 | BP delta = 0.1710280 0.1819628 9403072.49920238 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632585 | --> Sampling calibration, mode = relcal | relcal = -2.8215051E-03 -7.0351391E-04 1.6796428E-03 1.6130503E-03 -4.0789903E-04 6.4022490E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5624026 15214843.1156729 | BP delta = 0.0000000E+00 -0.5583042 15214849.5657286 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18445553188716 | --> Sampling calibration, mode = relcal | relcal = -7.6002583E-02 -5.9209272E-02 9.2951864E-02 4.2259995E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.8416894E-04 6.1012860E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8613E-05 | 2: delta_r/delta_0: 1.4310E-06 | 3: delta_s/delta_0: 1.9902E-07 | 4: delta_r/delta_0: 2.3406E-08 | 5: delta_s/delta_0: 5.9459E-09 | 6: delta_r/delta_0: 2.1821E-09 | 7: delta_s/delta_0: 6.0442E-10 | 8: delta_r/delta_0: 1.1638E-10 | 9: delta_s/delta_0: 1.2209E-10 | 10: delta_r/delta_0: 4.1290E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.275783403452019E-003 2.732966315703123E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.8612E-05 | 2: delta_r/delta_0: 1.4310E-06 | 3: delta_s/delta_0: 1.9903E-07 | 4: delta_r/delta_0: 2.3408E-08 | 5: delta_s/delta_0: 5.9470E-09 | 6: delta_r/delta_0: 2.1824E-09 | 7: delta_s/delta_0: 6.0443E-10 | 8: delta_r/delta_0: 1.1640E-10 | 9: delta_s/delta_0: 1.2213E-10 | 10: delta_r/delta_0: 4.1309E-11 | Reached bicg-stab tolerance | BP delta = 7.6128997E-02 9.9813491E-02 3460908.14823369 | BP delta = 7.6128997E-02 9.9834397E-02 3459090.84993807 | BP chisq diff = -1817.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02605487 | --> Sampling calibration, mode = relcal | relcal = -0.1066566 -9.5570259E-02 0.1449438 5.7283092E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0900599E-03 1.2414097E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2905E-05 | 2: delta_r/delta_0: 1.2405E-06 | 3: delta_s/delta_0: 2.4117E-07 | 4: delta_r/delta_0: 5.2572E-08 | 5: delta_s/delta_0: 1.8443E-08 | 6: delta_r/delta_0: 7.3573E-09 | 7: delta_s/delta_0: 1.6901E-08 | 8: delta_r/delta_0: 1.0218E-09 | 9: delta_s/delta_0: 9.8979E-10 | 10: delta_r/delta_0: 1.7551E-10 | 11: delta_s/delta_0: 1.7723E-09 | 12: delta_r/delta_0: 2.0255E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.896959210691616E-003 2.810663394425923E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.2905E-05 | 2: delta_r/delta_0: 1.2404E-06 | 3: delta_s/delta_0: 2.4116E-07 | 4: delta_r/delta_0: 5.2553E-08 | 5: delta_s/delta_0: 1.8448E-08 | 6: delta_r/delta_0: 7.3556E-09 | 7: delta_s/delta_0: 1.6894E-08 | 8: delta_r/delta_0: 1.0215E-09 | 9: delta_s/delta_0: 9.8961E-10 | 10: delta_r/delta_0: 1.7546E-10 | 11: delta_s/delta_0: 1.7716E-09 | 12: delta_r/delta_0: 2.0254E-11 | Reached bicg-stab tolerance | BP delta = -0.2503453 -0.2156309 2841585.40971843 | BP delta = -0.2503453 -0.2152896 2841590.58294797 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81245349 | --> Sampling calibration, mode = relcal | relcal = 0.2955213 0.2249057 -0.2838192 -0.2366078 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.2188411E-04 5.2427989E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.4672E-03 | 2: delta_r/delta_0: 1.2969E-04 | 3: delta_s/delta_0: 9.4801E-05 | 4: delta_r/delta_0: 5.9354E-06 | 5: delta_s/delta_0: 1.1054E-06 | 6: delta_r/delta_0: 3.4512E-07 | 7: delta_s/delta_0: 7.2067E-07 | 8: delta_r/delta_0: 7.4416E-08 | 9: delta_s/delta_0: 1.1638E-02 | 10: delta_r/delta_0: 3.8009E-03 | 11: delta_s/delta_0: 4.1482E-09 | 12: delta_r/delta_0: 1.3946E-09 | 13: delta_s/delta_0: 1.1238E-07 | 14: delta_r/delta_0: 4.5451E-09 | 15: delta_s/delta_0: 1.0980E-10 | 16: delta_r/delta_0: 3.3222E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.343318361325632E-002 4.020568023546696E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.4702E-03 | 2: delta_r/delta_0: 1.2976E-04 | 3: delta_s/delta_0: 9.4845E-05 | 4: delta_r/delta_0: 5.9383E-06 | 5: delta_s/delta_0: 1.1057E-06 | 6: delta_r/delta_0: 3.4512E-07 | 7: delta_s/delta_0: 7.1986E-07 | 8: delta_r/delta_0: 7.4429E-08 | 9: delta_s/delta_0: 1.5484E-02 | 10: delta_r/delta_0: 5.0526E-03 | 11: delta_s/delta_0: 4.1489E-09 | 12: delta_r/delta_0: 1.3948E-09 | 13: delta_s/delta_0: 1.1193E-07 | 14: delta_r/delta_0: 4.5226E-09 | 15: delta_s/delta_0: 1.0981E-10 | 16: delta_r/delta_0: 3.3265E-11 | Reached bicg-stab tolerance | BP delta = -0.1348750 -0.1733852 2827052.49776940 | BP delta = -0.1348750 -0.1604403 2827046.91582635 | BP chisq diff = -5.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95934916 | --> Sampling calibration, mode = relcal | relcal = 0.1066564 0.1395398 -0.1103911 -0.1358051 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0428100E-02 1.1826786E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5945E-04 | 2: delta_r/delta_0: 4.3381E-06 | 3: delta_s/delta_0: 2.2374E-05 | 4: delta_r/delta_0: 2.3099E-06 | 5: delta_s/delta_0: 1.6680E-07 | 6: delta_r/delta_0: 1.0555E-07 | 7: delta_s/delta_0: 9.0200E-07 | 8: delta_r/delta_0: 2.2014E-08 | 9: delta_s/delta_0: 4.6501E-06 | 10: delta_r/delta_0: 7.9666E-07 | 11: delta_s/delta_0: 1.1282E-09 | 12: delta_r/delta_0: 8.6440E-10 | 13: delta_s/delta_0: 3.5355E-10 | 14: delta_r/delta_0: 2.7297E-10 | 15: delta_s/delta_0: 6.3524E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.894029515033792E-002 3.696516321608083E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5945E-04 | 2: delta_r/delta_0: 4.3381E-06 | 3: delta_s/delta_0: 2.2373E-05 | 4: delta_r/delta_0: 2.3095E-06 | 5: delta_s/delta_0: 1.6679E-07 | 6: delta_r/delta_0: 1.0552E-07 | 7: delta_s/delta_0: 9.0105E-07 | 8: delta_r/delta_0: 2.2017E-08 | 9: delta_s/delta_0: 4.3734E-06 | 10: delta_r/delta_0: 7.4538E-07 | 11: delta_s/delta_0: 1.1300E-09 | 12: delta_r/delta_0: 8.6585E-10 | 13: delta_s/delta_0: 3.5362E-10 | 14: delta_r/delta_0: 2.7345E-10 | 15: delta_s/delta_0: 6.3427E-11 | Reached bicg-stab tolerance | BP delta = 2.5275409E-02 0.1445792 3004010.83522498 | BP delta = 2.5275409E-02 0.1411131 3003993.07139033 | BP chisq diff = -17.8, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.149360 | New value = -3.136931 | poltype: 2 pol: 1 CPU time specind = 2.2117853E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129186 | New value = -3.211886 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162675 | New value = -3.194146 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.245140 | New value = -3.143726 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189517 | New value = -3.237300 | poltype: 2 pol: 2 CPU time specind = 2.9021025E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.13559E+08, tol = 0.74244E+01, time = 5.58 | CG iter. 2 -- res = 0.33893E+06, tol = 0.74244E+01, time = 12.04 | CG iter. 3 -- res = 0.51850E+05, tol = 0.74244E+01, time = 5.79 | CG iter. 4 -- res = 0.25514E+05, tol = 0.74244E+01, time = 5.95 | CG iter. 5 -- res = 0.15347E+05, tol = 0.74244E+01, time = 5.82 | CG iter. 6 -- res = 0.11501E+05, tol = 0.74244E+01, time = 5.69 | CG iter. 7 -- res = 0.11328E+05, tol = 0.74244E+01, time = 5.31 | CG iter. 8 -- res = 0.10049E+05, tol = 0.74244E+01, time = 5.65 | CG iter. 9 -- res = 0.96580E+04, tol = 0.74244E+01, time = 5.72 | CG iter. 10 -- res = 0.98852E+04, tol = 0.74244E+01, time = 5.79 | CG iter. 11 -- res = 0.77581E+04, tol = 0.74244E+01, time = 5.88 | CG iter. 12 -- res = 0.49424E+04, tol = 0.74244E+01, time = 5.80 | CG iter. 13 -- res = 0.32937E+04, tol = 0.74244E+01, time = 5.80 | CG iter. 14 -- res = 0.25733E+04, tol = 0.74244E+01, time = 5.66 | CG iter. 15 -- res = 0.22763E+04, tol = 0.74244E+01, time = 5.39 | CG iter. 16 -- res = 0.19447E+04, tol = 0.74244E+01, time = 6.20 | CG iter. 17 -- res = 0.15020E+04, tol = 0.74244E+01, time = 7.19 | CG iter. 18 -- res = 0.11864E+04, tol = 0.74244E+01, time = 6.26 | CG iter. 19 -- res = 0.10316E+04, tol = 0.74244E+01, time = 5.72 | CG iter. 20 -- res = 0.82800E+03, tol = 0.74244E+01, time = 5.64 | CG iter. 21 -- res = 0.59797E+03, tol = 0.74244E+01, time = 5.81 | CG iter. 22 -- res = 0.45929E+03, tol = 0.74244E+01, time = 5.48 | CG iter. 23 -- res = 0.39437E+03, tol = 0.74244E+01, time = 5.76 | CG iter. 24 -- res = 0.34731E+03, tol = 0.74244E+01, time = 5.95 | CG iter. 25 -- res = 0.28491E+03, tol = 0.74244E+01, time = 5.75 | CG iter. 26 -- res = 0.22151E+03, tol = 0.74244E+01, time = 5.93 | CG iter. 27 -- res = 0.19181E+03, tol = 0.74244E+01, time = 5.84 | CG iter. 28 -- res = 0.18003E+03, tol = 0.74244E+01, time = 5.37 | CG iter. 29 -- res = 0.15383E+03, tol = 0.74244E+01, time = 6.24 | CG iter. 30 -- res = 0.12412E+03, tol = 0.74244E+01, time = 5.62 | CG iter. 31 -- res = 0.10882E+03, tol = 0.74244E+01, time = 5.63 | CG iter. 32 -- res = 0.94182E+02, tol = 0.74244E+01, time = 5.55 | CG iter. 33 -- res = 0.77219E+02, tol = 0.74244E+01, time = 5.54 | CG iter. 34 -- res = 0.57745E+02, tol = 0.74244E+01, time = 6.05 | CG iter. 35 -- res = 0.45044E+02, tol = 0.74244E+01, time = 5.67 | CG iter. 36 -- res = 0.37275E+02, tol = 0.74244E+01, time = 5.73 | CG iter. 37 -- res = 0.30402E+02, tol = 0.74244E+01, time = 5.50 | CG iter. 38 -- res = 0.23048E+02, tol = 0.74244E+01, time = 5.79 | CG iter. 39 -- res = 0.16479E+02, tol = 0.74244E+01, time = 5.96 | CG iter. 40 -- res = 0.13061E+02, tol = 0.74244E+01, time = 5.50 | CG iter. 41 -- res = 0.10042E+02, tol = 0.74244E+01, time = 5.59 | CG iter. 42 -- res = 0.75407E+01, tol = 0.74244E+01, time = 5.59 | CG iter. 43 -- res = 0.54203E+01, tol = 0.74244E+01, time = 5.68 | CG iter. 44 -- res = 0.41587E+01, tol = 0.74244E+01, time = 5.81 | CG iter. 45 -- res = 0.33934E+01, tol = 0.74244E+01, time = 6.19 | CG iter. 46 -- res = 0.27200E+01, tol = 0.74244E+01, time = 5.75 | CG iter. 47 -- res = 0.21183E+01, tol = 0.74244E+01, time = 5.67 | CG iter. 48 -- res = 0.16095E+01, tol = 0.74244E+01, time = 6.13 | CG iter. 49 -- res = 0.12604E+01, tol = 0.74244E+01, time = 5.70 | CG iter. 50 -- res = 0.99294E+00, tol = 0.74244E+01, time = 6.02 | Final CG iter 51 -- res = 0.99294E+00, tol = 0.74244E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9948658.171 | Old band monopole 9646462.011 | Change to band monopole 302196.160 | Change to component monopole -302194.861 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.16537E+04, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.13219E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.96253E-01, tol = 0.47627E+18, time = 1.94 | CG iter. 4 -- res = 0.18837E-03, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.13181E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9948615.380 | (Sampled value in CG: 9958052.245 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489374 | New value = 1.525235 | poltype: 2 pol: 1 CPU time specind = 2.2367001E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.548026 | New value = 1.508668 | poltype: 2 pol: 2 CPU time specind = 1.4885902E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.24295E+08, tol = 0.47630E+04, time = 6.43 | CG iter. 2 -- res = 0.52932E+07, tol = 0.47630E+04, time = 6.98 | CG iter. 3 -- res = 0.86663E+06, tol = 0.47630E+04, time = 6.50 | CG iter. 4 -- res = 0.36501E+06, tol = 0.47630E+04, time = 6.58 | CG iter. 5 -- res = 0.16180E+06, tol = 0.47630E+04, time = 6.91 | CG iter. 6 -- res = 0.82468E+05, tol = 0.47630E+04, time = 6.49 | CG iter. 7 -- res = 0.44753E+05, tol = 0.47630E+04, time = 6.71 | CG iter. 8 -- res = 0.21375E+05, tol = 0.47630E+04, time = 6.37 | CG iter. 9 -- res = 0.92082E+04, tol = 0.47630E+04, time = 6.79 | CG iter. 10 -- res = 0.37608E+04, tol = 0.47630E+04, time = 6.69 | CG iter. 11 -- res = 0.17188E+04, tol = 0.47630E+04, time = 6.23 | CG iter. 12 -- res = 0.86867E+03, tol = 0.47630E+04, time = 6.84 | CG iter. 13 -- res = 0.48795E+03, tol = 0.47630E+04, time = 6.82 | CG iter. 14 -- res = 0.27939E+03, tol = 0.47630E+04, time = 6.71 | CG iter. 15 -- res = 0.14215E+03, tol = 0.47630E+04, time = 7.61 | CG iter. 16 -- res = 0.67335E+02, tol = 0.47630E+04, time = 6.54 | CG iter. 17 -- res = 0.31224E+02, tol = 0.47630E+04, time = 6.67 | CG iter. 18 -- res = 0.15428E+02, tol = 0.47630E+04, time = 6.80 | CG iter. 19 -- res = 0.85290E+01, tol = 0.47630E+04, time = 6.55 | CG iter. 20 -- res = 0.48576E+01, tol = 0.47630E+04, time = 6.81 | CG iter. 21 -- res = 0.27039E+01, tol = 0.47630E+04, time = 6.81 | CG iter. 22 -- res = 0.13919E+01, tol = 0.47630E+04, time = 6.94 | CG iter. 23 -- res = 0.69619E+00, tol = 0.47630E+04, time = 6.70 | CG iter. 24 -- res = 0.36199E+00, tol = 0.47630E+04, time = 6.68 | CG iter. 25 -- res = 0.20143E+00, tol = 0.47630E+04, time = 6.78 | CG iter. 26 -- res = 0.11659E+00, tol = 0.47630E+04, time = 6.83 | CG iter. 27 -- res = 0.66610E-01, tol = 0.47630E+04, time = 6.36 | CG iter. 28 -- res = 0.36225E-01, tol = 0.47630E+04, time = 6.83 | CG iter. 29 -- res = 0.18770E-01, tol = 0.47630E+04, time = 6.58 | CG iter. 30 -- res = 0.98285E-02, tol = 0.47630E+04, time = 12.58 | CG iter. 31 -- res = 0.54119E-02, tol = 0.47630E+04, time = 6.66 | CG iter. 32 -- res = 0.30606E-02, tol = 0.47630E+04, time = 6.83 | CG iter. 33 -- res = 0.17436E-02, tol = 0.47630E+04, time = 6.69 | CG iter. 34 -- res = 0.96443E-03, tol = 0.47630E+04, time = 7.22 | CG iter. 35 -- res = 0.51583E-03, tol = 0.47630E+04, time = 6.43 | Final CG iter 36 -- res = 0.51583E-03, tol = 0.47630E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.577 2.749 | New value -2.171 | Old value 0.577 | Difference -2.749 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.39593E+06, tol = 0.47627E+18, time = 2.24 | CG iter. 2 -- res = 0.21887E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.30743E+00, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.38869E-03, tol = 0.47627E+18, time = 2.25 | Final CG iter 5 -- res = 0.13597E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9948615.380 | (Sampled value in CG: 9957828.979 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.616290 | New value = -3.572176 | poltype: 1 pol: 1 CPU time specind = 9.7903013E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.20693E+07, tol = 0.23850E+01, time = 2.64 | CG iter. 2 -- res = 0.64814E+06, tol = 0.23850E+01, time = 2.91 | CG iter. 3 -- res = 0.11629E+06, tol = 0.23850E+01, time = 2.69 | CG iter. 4 -- res = 0.48881E+05, tol = 0.23850E+01, time = 2.88 | CG iter. 5 -- res = 0.27099E+05, tol = 0.23850E+01, time = 2.92 | CG iter. 6 -- res = 0.14353E+05, tol = 0.23850E+01, time = 2.81 | CG iter. 7 -- res = 0.60334E+04, tol = 0.23850E+01, time = 2.50 | CG iter. 8 -- res = 0.26058E+04, tol = 0.23850E+01, time = 2.90 | CG iter. 9 -- res = 0.11448E+04, tol = 0.23850E+01, time = 2.74 | CG iter. 10 -- res = 0.44324E+03, tol = 0.23850E+01, time = 2.56 | CG iter. 11 -- res = 0.19067E+03, tol = 0.23850E+01, time = 2.93 | CG iter. 12 -- res = 0.92467E+02, tol = 0.23850E+01, time = 2.76 | CG iter. 13 -- res = 0.49176E+02, tol = 0.23850E+01, time = 2.67 | CG iter. 14 -- res = 0.24942E+02, tol = 0.23850E+01, time = 2.95 | CG iter. 15 -- res = 0.11102E+02, tol = 0.23850E+01, time = 2.60 | CG iter. 16 -- res = 0.46750E+01, tol = 0.23850E+01, time = 2.67 | CG iter. 17 -- res = 0.20330E+01, tol = 0.23850E+01, time = 3.49 | CG iter. 18 -- res = 0.93459E+00, tol = 0.23850E+01, time = 3.93 | CG iter. 19 -- res = 0.46466E+00, tol = 0.23850E+01, time = 2.89 | CG iter. 20 -- res = 0.23870E+00, tol = 0.23850E+01, time = 3.10 | CG iter. 21 -- res = 0.11657E+00, tol = 0.23850E+01, time = 3.14 | CG iter. 22 -- res = 0.54902E-01, tol = 0.23850E+01, time = 2.85 | CG iter. 23 -- res = 0.24536E-01, tol = 0.23850E+01, time = 2.83 | CG iter. 24 -- res = 0.11576E-01, tol = 0.23850E+01, time = 3.01 | CG iter. 25 -- res = 0.57324E-02, tol = 0.23850E+01, time = 2.72 | CG iter. 26 -- res = 0.30395E-02, tol = 0.23850E+01, time = 2.79 | CG iter. 27 -- res = 0.14949E-02, tol = 0.23850E+01, time = 2.76 | CG iter. 28 -- res = 0.70505E-03, tol = 0.23850E+01, time = 2.99 | CG iter. 29 -- res = 0.32084E-03, tol = 0.23850E+01, time = 2.64 | CG iter. 30 -- res = 0.14780E-03, tol = 0.23850E+01, time = 2.83 | CG iter. 31 -- res = 0.75897E-04, tol = 0.23850E+01, time = 2.77 | CG iter. 32 -- res = 0.37275E-04, tol = 0.23850E+01, time = 2.88 | CG iter. 33 -- res = 0.18149E-04, tol = 0.23850E+01, time = 2.81 | CG iter. 34 -- res = 0.86870E-05, tol = 0.23850E+01, time = 2.70 | CG iter. 35 -- res = 0.39802E-05, tol = 0.23850E+01, time = 2.83 | CG iter. 36 -- res = 0.19385E-05, tol = 0.23850E+01, time = 2.48 | CG iter. 37 -- res = 0.94027E-06, tol = 0.23850E+01, time = 2.76 | CG iter. 38 -- res = 0.47200E-06, tol = 0.23850E+01, time = 2.80 | CG iter. 39 -- res = 0.22995E-06, tol = 0.23850E+01, time = 2.51 | CG iter. 40 -- res = 0.10364E-06, tol = 0.23850E+01, time = 2.68 | CG iter. 41 -- res = 0.48928E-07, tol = 0.23850E+01, time = 2.80 | CG iter. 42 -- res = 0.24098E-07, tol = 0.23850E+01, time = 2.68 | CG iter. 43 -- res = 0.11308E-07, tol = 0.23850E+01, time = 2.50 | CG iter. 44 -- res = 0.54737E-08, tol = 0.23850E+01, time = 2.81 | CG iter. 45 -- res = 0.27272E-08, tol = 0.23850E+01, time = 2.61 | CG iter. 46 -- res = 0.12818E-08, tol = 0.23850E+01, time = 2.94 | CG iter. 47 -- res = 0.60469E-09, tol = 0.23850E+01, time = 2.65 | CG iter. 48 -- res = 0.28497E-09, tol = 0.23850E+01, time = 2.47 | CG iter. 49 -- res = 0.13180E-09, tol = 0.23850E+01, time = 2.79 | CG iter. 50 -- res = 0.62121E-10, tol = 0.23850E+01, time = 2.73 | Final CG iter 51 -- res = 0.62121E-10, tol = 0.23850E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.345 5.197 | New value -3.843 | Old value -0.345 | Difference -3.498 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.12232E+05, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.17428E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.30527E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.33924E-03, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.14698E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9948615.380 | (Sampled value in CG: 9956476.496 ) | CPU time specind = 1197.501 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.69026E+08, tol = 0.57637E+04, time = 12.35 | CG iter. 2 -- res = 0.59038E+08, tol = 0.57637E+04, time = 11.29 | CG iter. 3 -- res = 0.15373E+08, tol = 0.57637E+04, time = 18.48 | CG iter. 4 -- res = 0.64845E+07, tol = 0.57637E+04, time = 12.08 | CG iter. 5 -- res = 0.38367E+07, tol = 0.57637E+04, time = 11.98 | CG iter. 6 -- res = 0.22062E+07, tol = 0.57637E+04, time = 12.30 | CG iter. 7 -- res = 0.12699E+07, tol = 0.57637E+04, time = 11.98 | CG iter. 8 -- res = 0.83166E+06, tol = 0.57637E+04, time = 12.34 | CG iter. 9 -- res = 0.53270E+06, tol = 0.57637E+04, time = 11.99 | CG iter. 10 -- res = 0.31193E+06, tol = 0.57637E+04, time = 13.98 | CG iter. 11 -- res = 0.16624E+06, tol = 0.57637E+04, time = 12.52 | CG iter. 12 -- res = 0.87773E+05, tol = 0.57637E+04, time = 12.07 | CG iter. 13 -- res = 0.48771E+05, tol = 0.57637E+04, time = 12.40 | CG iter. 14 -- res = 0.29837E+05, tol = 0.57637E+04, time = 11.96 | CG iter. 15 -- res = 0.20959E+05, tol = 0.57637E+04, time = 12.27 | CG iter. 16 -- res = 0.15926E+05, tol = 0.57637E+04, time = 12.15 | CG iter. 17 -- res = 0.12468E+05, tol = 0.57637E+04, time = 12.26 | CG iter. 18 -- res = 0.96299E+04, tol = 0.57637E+04, time = 12.43 | CG iter. 19 -- res = 0.74498E+04, tol = 0.57637E+04, time = 12.28 | CG iter. 20 -- res = 0.62277E+04, tol = 0.57637E+04, time = 12.53 | CG iter. 21 -- res = 0.55808E+04, tol = 0.57637E+04, time = 11.78 | CG iter. 22 -- res = 0.55712E+04, tol = 0.57637E+04, time = 12.14 | CG iter. 23 -- res = 0.61164E+04, tol = 0.57637E+04, time = 12.36 | CG iter. 24 -- res = 0.68709E+04, tol = 0.57637E+04, time = 11.90 | CG iter. 25 -- res = 0.73079E+04, tol = 0.57637E+04, time = 11.84 | CG iter. 26 -- res = 0.68665E+04, tol = 0.57637E+04, time = 12.14 | CG iter. 27 -- res = 0.58809E+04, tol = 0.57637E+04, time = 17.96 | CG iter. 28 -- res = 0.47433E+04, tol = 0.57637E+04, time = 12.05 | CG iter. 29 -- res = 0.38480E+04, tol = 0.57637E+04, time = 12.56 | CG iter. 30 -- res = 0.32084E+04, tol = 0.57637E+04, time = 11.94 | CG iter. 31 -- res = 0.26647E+04, tol = 0.57637E+04, time = 12.63 | CG iter. 32 -- res = 0.21704E+04, tol = 0.57637E+04, time = 11.92 | CG iter. 33 -- res = 0.17018E+04, tol = 0.57637E+04, time = 12.14 | CG iter. 34 -- res = 0.13494E+04, tol = 0.57637E+04, time = 13.83 | CG iter. 35 -- res = 0.10936E+04, tol = 0.57637E+04, time = 12.52 | CG iter. 36 -- res = 0.91870E+03, tol = 0.57637E+04, time = 12.55 | CG iter. 37 -- res = 0.85161E+03, tol = 0.57637E+04, time = 12.03 | CG iter. 38 -- res = 0.85328E+03, tol = 0.57637E+04, time = 12.16 | CG iter. 39 -- res = 0.84007E+03, tol = 0.57637E+04, time = 12.19 | CG iter. 40 -- res = 0.78746E+03, tol = 0.57637E+04, time = 12.37 | CG iter. 41 -- res = 0.69727E+03, tol = 0.57637E+04, time = 11.84 | CG iter. 42 -- res = 0.59027E+03, tol = 0.57637E+04, time = 11.73 | CG iter. 43 -- res = 0.50333E+03, tol = 0.57637E+04, time = 12.72 | CG iter. 44 -- res = 0.43772E+03, tol = 0.57637E+04, time = 12.09 | CG iter. 45 -- res = 0.38441E+03, tol = 0.57637E+04, time = 12.05 | CG iter. 46 -- res = 0.33347E+03, tol = 0.57637E+04, time = 12.00 | CG iter. 47 -- res = 0.28709E+03, tol = 0.57637E+04, time = 11.93 | CG iter. 48 -- res = 0.24210E+03, tol = 0.57637E+04, time = 12.20 | CG iter. 49 -- res = 0.19293E+03, tol = 0.57637E+04, time = 12.26 | CG iter. 50 -- res = 0.16086E+03, tol = 0.57637E+04, time = 12.22 | CG iter. 51 -- res = 0.14408E+03, tol = 0.57637E+04, time = 18.84 | CG iter. 52 -- res = 0.13751E+03, tol = 0.57637E+04, time = 12.15 | CG iter. 53 -- res = 0.13140E+03, tol = 0.57637E+04, time = 11.95 | CG iter. 54 -- res = 0.12282E+03, tol = 0.57637E+04, time = 11.81 | CG iter. 55 -- res = 0.11199E+03, tol = 0.57637E+04, time = 12.08 | CG iter. 56 -- res = 0.99038E+02, tol = 0.57637E+04, time = 12.00 | CG iter. 57 -- res = 0.87967E+02, tol = 0.57637E+04, time = 11.87 | CG iter. 58 -- res = 0.79952E+02, tol = 0.57637E+04, time = 13.37 | CG iter. 59 -- res = 0.75180E+02, tol = 0.57637E+04, time = 12.44 | CG iter. 60 -- res = 0.69761E+02, tol = 0.57637E+04, time = 12.10 | Final CG iter 61 -- res = 0.69761E+02, tol = 0.57637E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.887 ( -229.681 -2229.131 2511.512 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7637622.769 | Old band monopole 9948658.171 | Change to band monopole -2311035.403 | Change to component monopole 2311025.462 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.176 2.757 | New value -3.804 | Old value -2.176 | Difference -1.628 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.163 ( 6.519 8.325 -7.963 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.705 6.189 | New value 5.579 | Old value -2.705 | Difference 8.284 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.59054E+06, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.11431E+03, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.35175E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.28046E-02, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.16765E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7637589.918 | (Sampled value in CG: 7617631.138 ) | Chain = 1 -- chisq = 0.81534027E+09 | Chain = 1 -- wall time = 6155.971 sec Available RAM: MemAvailable: 378109688 kB Available Swap: SwapFree: 1130271280 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 401 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447161 | --> Sampling calibration, mode = relcal | relcal = 1.3436091E-02 7.4616465E-04 -1.5995937E-03 -1.2582663E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1710280 0.1886302 97045212.3953456 | BP delta = 0.1718380 0.1894403 97045212.2741228 | BP chisq diff = -0.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632326 | --> Sampling calibration, mode = relcal | relcal = -2.8207970E-03 -7.0339965E-04 1.6790741E-03 1.6138372E-03 -4.0870393E-04 6.3998933E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5624026 15220481.3974517 | BP delta = 0.0000000E+00 -0.5678486 15220482.9359393 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103514 | --> Sampling calibration, mode = relcal | relcal = 3.7087712E-02 1.3718150E-02 5.7491381E-03 -7.1660937E-03 8.2480675E-03 2.3951980E-03 -7.6045296E-03 -7.1812584E-03 -1.5301970E-02 -1.4800229E-02 -3.0504791E-03 -1.2093707E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.159609 132211159.263842 | BP delta = 0.0000000E+00 -1.219076 132211160.679602 | BP chisq diff = 1.4, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18038671406987 | --> Sampling calibration, mode = relcal | relcal = -7.4010767E-02 -5.7810675E-02 9.0807304E-02 4.1014135E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1084999E-05 3.3105370E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5945E-03 | 2: delta_r/delta_0: 3.8112E-05 | 3: delta_s/delta_0: 1.9595E-07 | 4: delta_r/delta_0: 2.0739E-08 | 5: delta_s/delta_0: 6.5686E-09 | 6: delta_r/delta_0: 9.8627E-10 | 7: delta_s/delta_0: 1.2214E-08 | 8: delta_r/delta_0: 2.6150E-10 | 9: delta_s/delta_0: 6.7458E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.750530198242897E-004 2.742651193287417E-005 | BP delta = 7.6128997E-02 9.9834397E-02 50488506.3508529 | BP delta = 7.9583772E-02 0.1032892 50488508.3292425 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02578542 | --> Sampling calibration, mode = relcal | relcal = -0.1066073 -9.5507957E-02 0.1448603 5.7254970E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1216878E-03 1.5028500E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.4412E-05 | 2: delta_r/delta_0: 1.4049E-06 | 3: delta_s/delta_0: 2.4936E-07 | 4: delta_r/delta_0: 3.7503E-08 | 5: delta_s/delta_0: 2.4081E-08 | 6: delta_r/delta_0: 6.3448E-09 | 7: delta_s/delta_0: 4.5469E-09 | 8: delta_r/delta_0: 1.7176E-09 | 9: delta_s/delta_0: 8.0182E-10 | 10: delta_r/delta_0: 6.0097E-10 | 11: delta_s/delta_0: 1.5184E-09 | 12: delta_r/delta_0: 8.7267E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.908779976822584E-003 2.811397789094894E-005 | BP delta = -0.2503453 -0.2156309 57389224.8833223 | BP delta = -0.2412208 -0.2065064 57389224.3026834 | BP chisq diff = -0.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81214485 | --> Sampling calibration, mode = relcal | relcal = 0.2954540 0.2248307 -0.2837578 -0.2365269 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1470235E-04 5.3319628E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3499E-03 | 2: delta_r/delta_0: 3.2296E-05 | 3: delta_s/delta_0: 3.3352E-05 | 4: delta_r/delta_0: 2.0839E-06 | 5: delta_s/delta_0: 5.0570E-07 | 6: delta_r/delta_0: 1.9935E-07 | 7: delta_s/delta_0: 5.4602E-07 | 8: delta_r/delta_0: 4.1558E-08 | 9: delta_s/delta_0: 1.3379E-07 | 10: delta_r/delta_0: 7.7728E-08 | 11: delta_s/delta_0: 2.1920E-09 | 12: delta_r/delta_0: 1.0555E-09 | 13: delta_s/delta_0: 2.0802E-08 | 14: delta_r/delta_0: 2.3979E-09 | 15: delta_s/delta_0: 7.7198E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.568559223042729E-002 4.022198344287751E-005 | BP delta = -0.1348750 -0.1604403 72486165.0627567 | BP delta = -0.1295539 -0.1551192 72486165.0401804 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95900453 | --> Sampling calibration, mode = relcal | relcal = 0.1064969 0.1395140 -0.1103079 -0.1357031 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0346443E-02 1.3667124E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2662E-04 | 2: delta_r/delta_0: 3.6925E-06 | 3: delta_s/delta_0: 5.7781E-06 | 4: delta_r/delta_0: 1.0336E-06 | 5: delta_s/delta_0: 1.5052E-07 | 6: delta_r/delta_0: 1.0606E-07 | 7: delta_s/delta_0: 1.0327E-06 | 8: delta_r/delta_0: 1.9097E-08 | 9: delta_s/delta_0: 1.8686E-08 | 10: delta_r/delta_0: 1.2286E-08 | 11: delta_s/delta_0: 1.3598E-09 | 12: delta_r/delta_0: 5.6025E-10 | 13: delta_s/delta_0: 2.0893E-10 | 14: delta_r/delta_0: 1.3076E-10 | 15: delta_s/delta_0: 5.6630E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.792788982713644E-002 3.697834337445873E-005 | BP delta = 2.5275409E-02 0.1411131 72785303.4835540 | BP delta = -3.6033433E-02 7.9804294E-02 72785307.5930931 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52168538 | --> Sampling calibration, mode = relcal | relcal = -5.1176909E-02 -3.7019553E-03 2.7278166E-02 2.7600700E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6090487E-04 5.7719479E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5638E-05 | 2: delta_r/delta_0: 4.5798E-06 | 3: delta_s/delta_0: 8.8874E-05 | 4: delta_r/delta_0: 1.0650E-05 | 5: delta_s/delta_0: 4.6169E-08 | 6: delta_r/delta_0: 3.1380E-08 | 7: delta_s/delta_0: 1.7186E-07 | 8: delta_r/delta_0: 7.3736E-09 | 9: delta_s/delta_0: 1.7033E-09 | 10: delta_r/delta_0: 1.0712E-09 | 11: delta_s/delta_0: 1.0306E-09 | 12: delta_r/delta_0: 7.8686E-10 | 13: delta_s/delta_0: 2.5352E-10 | 14: delta_r/delta_0: 9.0250E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.159469633217680E-002 5.482127114009074E-005 | BP delta = 7.3745675E-02 0.1651540 91255209.4501777 | BP delta = 9.7403433E-03 0.1011487 91255210.2510486 | BP chisq diff = 0.8, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42163330 | --> Sampling calibration, mode = relcal | relcal = 4.5613252E-02 3.9729681E-02 -2.8287888E-02 -5.7055045E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2485949E-03 2.7348909E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3355E-05 | 2: delta_r/delta_0: 3.5395E-06 | 3: delta_s/delta_0: 2.1344E-06 | 4: delta_r/delta_0: 3.1747E-07 | 5: delta_s/delta_0: 6.4778E-08 | 6: delta_r/delta_0: 3.6070E-08 | 7: delta_s/delta_0: 1.2571E-07 | 8: delta_r/delta_0: 6.2721E-09 | 9: delta_s/delta_0: 2.8845E-09 | 10: delta_r/delta_0: 1.2741E-09 | 11: delta_s/delta_0: 1.0385E-08 | 12: delta_r/delta_0: 2.4716E-09 | 13: delta_s/delta_0: 2.1490E-09 | 14: delta_r/delta_0: 1.5191E-09 | 15: delta_s/delta_0: 2.4857E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.415512855960038E-002 4.995178234919629E-005 | BP delta = 3.4693945E-02 -8.6968333E-02 90185530.0696991 | BP delta = -1.7925974E-02 -0.1395883 90185530.6111361 | BP chisq diff = 0.5, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28180204 | --> Sampling calibration, mode = relcal | relcal = 2.4087539E-02 4.5189038E-02 -2.3338996E-02 -4.5937583E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2986617E-02 1.9426353E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0863E-04 | 2: delta_r/delta_0: 8.2612E-06 | 3: delta_s/delta_0: 1.1316E-06 | 4: delta_r/delta_0: 3.0013E-07 | 5: delta_s/delta_0: 5.6698E-08 | 6: delta_r/delta_0: 2.4523E-08 | 7: delta_s/delta_0: 1.0747E-08 | 8: delta_r/delta_0: 6.4497E-09 | 9: delta_s/delta_0: 2.1583E-08 | 10: delta_r/delta_0: 2.9914E-09 | 11: delta_s/delta_0: 9.2080E-09 | 12: delta_r/delta_0: 3.7801E-09 | 13: delta_s/delta_0: 8.6286E-10 | 14: delta_r/delta_0: 1.8658E-10 | 15: delta_s/delta_0: 1.1060E-10 | 16: delta_r/delta_0: 6.6111E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.062331684674509E-002 7.838225546967486E-005 | BP delta = -0.4392911 -0.6206986 160947864.301790 | BP delta = -0.4530262 -0.6344338 160947864.232760 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29404997 | --> Sampling calibration, mode = relcal | relcal = 5.2229344E-04 1.0270963E-02 -3.7843599E-03 -7.0088967E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3509547E-02 1.7470507E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3021E-04 | 2: delta_r/delta_0: 1.0939E-05 | 3: delta_s/delta_0: 1.7089E-06 | 4: delta_r/delta_0: 2.9279E-07 | 5: delta_s/delta_0: 1.0798E-07 | 6: delta_r/delta_0: 2.3485E-08 | 7: delta_s/delta_0: 1.1011E-08 | 8: delta_r/delta_0: 7.3861E-09 | 9: delta_s/delta_0: 1.0546E-08 | 10: delta_r/delta_0: 4.9565E-09 | 11: delta_s/delta_0: 2.2456E-07 | 12: delta_r/delta_0: 7.0639E-08 | 13: delta_s/delta_0: 3.7117E-10 | 14: delta_r/delta_0: 2.5136E-10 | 15: delta_s/delta_0: 8.8947E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.117223480978704E-002 8.302726973939963E-005 | BP delta = -0.8710914 -0.8261213 157861593.181048 | BP delta = -0.8860881 -0.8411180 157861593.132433 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26516334 | --> Sampling calibration, mode = relcal | relcal = -5.5796467E-03 1.5056009E-02 -2.4190787E-03 -7.0572845E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.6005308E-03 4.8747147E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4221E-04 | 2: delta_r/delta_0: 1.2185E-05 | 3: delta_s/delta_0: 2.0958E-06 | 4: delta_r/delta_0: 2.5291E-07 | 5: delta_s/delta_0: 9.5412E-08 | 6: delta_r/delta_0: 2.2075E-08 | 7: delta_s/delta_0: 9.7794E-09 | 8: delta_r/delta_0: 6.4734E-09 | 9: delta_s/delta_0: 6.1125E-09 | 10: delta_r/delta_0: 4.4619E-09 | 11: delta_s/delta_0: 5.9904E-06 | 12: delta_r/delta_0: 8.9634E-08 | 13: delta_s/delta_0: 2.8251E-09 | 14: delta_r/delta_0: 1.8396E-09 | 15: delta_s/delta_0: 1.2611E-10 | 16: delta_r/delta_0: 7.1838E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.356556138417243E-003 9.150458462343238E-005 | BP delta = 0.4080256 0.4532981 157025424.990225 | BP delta = 0.4201551 0.4654276 157025425.008304 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25675175 | --> Sampling calibration, mode = relcal | relcal = -3.1645134E-02 -2.5912385E-02 3.6809187E-02 2.0748332E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8431160E-02 1.7806886E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4471E-04 | 2: delta_r/delta_0: 1.2201E-05 | 3: delta_s/delta_0: 1.7794E-06 | 4: delta_r/delta_0: 3.8090E-07 | 5: delta_s/delta_0: 1.9592E-07 | 6: delta_r/delta_0: 2.5194E-08 | 7: delta_s/delta_0: 1.1238E-08 | 8: delta_r/delta_0: 7.5995E-09 | 9: delta_s/delta_0: 1.7759E-08 | 10: delta_r/delta_0: 3.4474E-09 | 11: delta_s/delta_0: 1.2920E-05 | 12: delta_r/delta_0: 4.5474E-06 | 13: delta_s/delta_0: 1.1709E-09 | 14: delta_r/delta_0: 1.7334E-10 | 15: delta_s/delta_0: 1.1356E-10 | 16: delta_r/delta_0: 9.5087E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.101098979990487E-002 8.668107297953391E-005 | BP delta = -0.8813981 -1.089996 158545214.374750 | BP delta = -0.8812328 -1.089831 158545214.374507 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136931 | New value = -3.128138 | poltype: 2 pol: 1 CPU time specind = 2.7581930E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.211886 | New value = -3.133254 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194146 | New value = -3.114427 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143726 | New value = -3.197448 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.237300 | New value = -3.277585 | poltype: 2 pol: 2 CPU time specind = 2.3514986E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.84 | CG iter. 1 -- res = 0.13546E+08, tol = 0.90123E+01, time = 11.42 | CG iter. 2 -- res = 0.32937E+06, tol = 0.90123E+01, time = 7.09 | CG iter. 3 -- res = 0.45969E+05, tol = 0.90123E+01, time = 5.81 | CG iter. 4 -- res = 0.21081E+05, tol = 0.90123E+01, time = 5.85 | CG iter. 5 -- res = 0.10167E+05, tol = 0.90123E+01, time = 5.78 | CG iter. 6 -- res = 0.54375E+04, tol = 0.90123E+01, time = 5.91 | CG iter. 7 -- res = 0.35947E+04, tol = 0.90123E+01, time = 5.70 | CG iter. 8 -- res = 0.25069E+04, tol = 0.90123E+01, time = 5.67 | CG iter. 9 -- res = 0.21223E+04, tol = 0.90123E+01, time = 5.62 | CG iter. 10 -- res = 0.22860E+04, tol = 0.90123E+01, time = 6.06 | CG iter. 11 -- res = 0.22681E+04, tol = 0.90123E+01, time = 6.08 | CG iter. 12 -- res = 0.17516E+04, tol = 0.90123E+01, time = 5.99 | CG iter. 13 -- res = 0.11825E+04, tol = 0.90123E+01, time = 5.56 | CG iter. 14 -- res = 0.87844E+03, tol = 0.90123E+01, time = 5.48 | CG iter. 15 -- res = 0.73391E+03, tol = 0.90123E+01, time = 6.01 | CG iter. 16 -- res = 0.60379E+03, tol = 0.90123E+01, time = 7.40 | CG iter. 17 -- res = 0.45501E+03, tol = 0.90123E+01, time = 6.32 | CG iter. 18 -- res = 0.35646E+03, tol = 0.90123E+01, time = 5.94 | CG iter. 19 -- res = 0.31566E+03, tol = 0.90123E+01, time = 5.66 | CG iter. 20 -- res = 0.25937E+03, tol = 0.90123E+01, time = 5.64 | CG iter. 21 -- res = 0.18380E+03, tol = 0.90123E+01, time = 5.54 | CG iter. 22 -- res = 0.13317E+03, tol = 0.90123E+01, time = 5.74 | CG iter. 23 -- res = 0.10710E+03, tol = 0.90123E+01, time = 6.12 | CG iter. 24 -- res = 0.93239E+02, tol = 0.90123E+01, time = 6.14 | CG iter. 25 -- res = 0.73910E+02, tol = 0.90123E+01, time = 5.99 | CG iter. 26 -- res = 0.56098E+02, tol = 0.90123E+01, time = 5.87 | CG iter. 27 -- res = 0.46997E+02, tol = 0.90123E+01, time = 5.54 | CG iter. 28 -- res = 0.42340E+02, tol = 0.90123E+01, time = 6.00 | CG iter. 29 -- res = 0.35406E+02, tol = 0.90123E+01, time = 5.87 | CG iter. 30 -- res = 0.29356E+02, tol = 0.90123E+01, time = 6.22 | CG iter. 31 -- res = 0.24981E+02, tol = 0.90123E+01, time = 5.64 | CG iter. 32 -- res = 0.23403E+02, tol = 0.90123E+01, time = 6.21 | CG iter. 33 -- res = 0.20733E+02, tol = 0.90123E+01, time = 5.84 | CG iter. 34 -- res = 0.16241E+02, tol = 0.90123E+01, time = 6.39 | CG iter. 35 -- res = 0.12560E+02, tol = 0.90123E+01, time = 5.73 | CG iter. 36 -- res = 0.10281E+02, tol = 0.90123E+01, time = 5.47 | CG iter. 37 -- res = 0.84930E+01, tol = 0.90123E+01, time = 5.69 | CG iter. 38 -- res = 0.63675E+01, tol = 0.90123E+01, time = 5.99 | CG iter. 39 -- res = 0.44858E+01, tol = 0.90123E+01, time = 5.87 | CG iter. 40 -- res = 0.34170E+01, tol = 0.90123E+01, time = 5.76 | CG iter. 41 -- res = 0.26780E+01, tol = 0.90123E+01, time = 5.49 | CG iter. 42 -- res = 0.18884E+01, tol = 0.90123E+01, time = 5.73 | CG iter. 43 -- res = 0.13230E+01, tol = 0.90123E+01, time = 5.59 | CG iter. 44 -- res = 0.98227E+00, tol = 0.90123E+01, time = 5.50 | CG iter. 45 -- res = 0.78344E+00, tol = 0.90123E+01, time = 5.80 | CG iter. 46 -- res = 0.59828E+00, tol = 0.90123E+01, time = 5.68 | CG iter. 47 -- res = 0.45188E+00, tol = 0.90123E+01, time = 5.78 | CG iter. 48 -- res = 0.33923E+00, tol = 0.90123E+01, time = 5.70 | CG iter. 49 -- res = 0.26966E+00, tol = 0.90123E+01, time = 5.48 | CG iter. 50 -- res = 0.22087E+00, tol = 0.90123E+01, time = 5.44 | Final CG iter 51 -- res = 0.22087E+00, tol = 0.90123E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9648049.447 | Old band monopole 7637622.769 | Change to band monopole 2010426.678 | Change to component monopole -2010418.030 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.40803E+05, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.32311E+02, tol = 0.47627E+18, time = 1.84 | CG iter. 3 -- res = 0.13688E+01, tol = 0.47627E+18, time = 2.23 | CG iter. 4 -- res = 0.75038E-03, tol = 0.47627E+18, time = 1.99 | Final CG iter 5 -- res = 0.13865E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9648007.948 | (Sampled value in CG: 9658169.582 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.525235 | New value = 1.454937 | poltype: 2 pol: 1 CPU time specind = 1.8229008E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.508668 | New value = 1.549613 | poltype: 2 pol: 2 CPU time specind = 3.2129288E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.25018E+08, tol = 0.47424E+04, time = 6.26 | CG iter. 2 -- res = 0.53434E+07, tol = 0.47424E+04, time = 6.66 | CG iter. 3 -- res = 0.85115E+06, tol = 0.47424E+04, time = 6.98 | CG iter. 4 -- res = 0.34963E+06, tol = 0.47424E+04, time = 6.72 | CG iter. 5 -- res = 0.14848E+06, tol = 0.47424E+04, time = 6.52 | CG iter. 6 -- res = 0.79176E+05, tol = 0.47424E+04, time = 6.95 | CG iter. 7 -- res = 0.44119E+05, tol = 0.47424E+04, time = 6.93 | CG iter. 8 -- res = 0.21216E+05, tol = 0.47424E+04, time = 6.30 | CG iter. 9 -- res = 0.94553E+04, tol = 0.47424E+04, time = 6.55 | CG iter. 10 -- res = 0.38508E+04, tol = 0.47424E+04, time = 6.39 | CG iter. 11 -- res = 0.16876E+04, tol = 0.47424E+04, time = 6.34 | CG iter. 12 -- res = 0.85905E+03, tol = 0.47424E+04, time = 6.83 | CG iter. 13 -- res = 0.48036E+03, tol = 0.47424E+04, time = 6.61 | CG iter. 14 -- res = 0.27116E+03, tol = 0.47424E+04, time = 6.46 | CG iter. 15 -- res = 0.14291E+03, tol = 0.47424E+04, time = 6.59 | CG iter. 16 -- res = 0.70058E+02, tol = 0.47424E+04, time = 6.74 | CG iter. 17 -- res = 0.32963E+02, tol = 0.47424E+04, time = 6.66 | CG iter. 18 -- res = 0.16194E+02, tol = 0.47424E+04, time = 6.30 | CG iter. 19 -- res = 0.86621E+01, tol = 0.47424E+04, time = 7.15 | CG iter. 20 -- res = 0.48982E+01, tol = 0.47424E+04, time = 6.20 | CG iter. 21 -- res = 0.27195E+01, tol = 0.47424E+04, time = 6.23 | CG iter. 22 -- res = 0.13935E+01, tol = 0.47424E+04, time = 6.66 | CG iter. 23 -- res = 0.69804E+00, tol = 0.47424E+04, time = 6.28 | CG iter. 24 -- res = 0.35755E+00, tol = 0.47424E+04, time = 6.28 | CG iter. 25 -- res = 0.19416E+00, tol = 0.47424E+04, time = 6.42 | CG iter. 26 -- res = 0.11094E+00, tol = 0.47424E+04, time = 6.49 | CG iter. 27 -- res = 0.62796E-01, tol = 0.47424E+04, time = 6.87 | CG iter. 28 -- res = 0.33109E-01, tol = 0.47424E+04, time = 6.45 | CG iter. 29 -- res = 0.16963E-01, tol = 0.47424E+04, time = 12.46 | CG iter. 30 -- res = 0.89435E-02, tol = 0.47424E+04, time = 6.36 | CG iter. 31 -- res = 0.51017E-02, tol = 0.47424E+04, time = 6.41 | CG iter. 32 -- res = 0.29133E-02, tol = 0.47424E+04, time = 6.74 | CG iter. 33 -- res = 0.16853E-02, tol = 0.47424E+04, time = 6.59 | CG iter. 34 -- res = 0.91058E-03, tol = 0.47424E+04, time = 6.78 | CG iter. 35 -- res = 0.48046E-03, tol = 0.47424E+04, time = 6.56 | Final CG iter 36 -- res = 0.48046E-03, tol = 0.47424E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.854 2.729 | New value 0.900 | Old value -3.854 | Difference 4.754 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.11792E+07, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.27953E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.92398E+00, tol = 0.47627E+18, time = 2.37 | CG iter. 4 -- res = 0.77122E-03, tol = 0.47627E+18, time = 3.00 | Final CG iter 5 -- res = 0.99136E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9648007.948 | (Sampled value in CG: 9659736.649 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.572176 | New value = -3.616127 | poltype: 1 pol: 1 CPU time specind = 1.5784979E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.21107E+07, tol = 0.25087E+01, time = 2.90 | CG iter. 2 -- res = 0.65305E+06, tol = 0.25087E+01, time = 2.58 | CG iter. 3 -- res = 0.12080E+06, tol = 0.25087E+01, time = 2.61 | CG iter. 4 -- res = 0.49586E+05, tol = 0.25087E+01, time = 2.89 | CG iter. 5 -- res = 0.29973E+05, tol = 0.25087E+01, time = 2.41 | CG iter. 6 -- res = 0.15677E+05, tol = 0.25087E+01, time = 2.76 | CG iter. 7 -- res = 0.62645E+04, tol = 0.25087E+01, time = 2.77 | CG iter. 8 -- res = 0.28403E+04, tol = 0.25087E+01, time = 2.77 | CG iter. 9 -- res = 0.11955E+04, tol = 0.25087E+01, time = 2.48 | CG iter. 10 -- res = 0.47232E+03, tol = 0.25087E+01, time = 2.89 | CG iter. 11 -- res = 0.19775E+03, tol = 0.25087E+01, time = 2.48 | CG iter. 12 -- res = 0.98528E+02, tol = 0.25087E+01, time = 2.83 | CG iter. 13 -- res = 0.50248E+02, tol = 0.25087E+01, time = 2.71 | CG iter. 14 -- res = 0.24016E+02, tol = 0.25087E+01, time = 2.51 | CG iter. 15 -- res = 0.10285E+02, tol = 0.25087E+01, time = 2.74 | CG iter. 16 -- res = 0.42271E+01, tol = 0.25087E+01, time = 2.64 | CG iter. 17 -- res = 0.17994E+01, tol = 0.25087E+01, time = 2.69 | CG iter. 18 -- res = 0.87406E+00, tol = 0.25087E+01, time = 3.60 | CG iter. 19 -- res = 0.46131E+00, tol = 0.25087E+01, time = 3.31 | CG iter. 20 -- res = 0.23475E+00, tol = 0.25087E+01, time = 3.17 | CG iter. 21 -- res = 0.11183E+00, tol = 0.25087E+01, time = 3.36 | CG iter. 22 -- res = 0.53041E-01, tol = 0.25087E+01, time = 2.97 | CG iter. 23 -- res = 0.23281E-01, tol = 0.25087E+01, time = 2.32 | CG iter. 24 -- res = 0.10982E-01, tol = 0.25087E+01, time = 2.73 | CG iter. 25 -- res = 0.55012E-02, tol = 0.25087E+01, time = 2.67 | CG iter. 26 -- res = 0.28948E-02, tol = 0.25087E+01, time = 2.54 | CG iter. 27 -- res = 0.13901E-02, tol = 0.25087E+01, time = 2.97 | CG iter. 28 -- res = 0.63440E-03, tol = 0.25087E+01, time = 2.64 | CG iter. 29 -- res = 0.28171E-03, tol = 0.25087E+01, time = 2.87 | CG iter. 30 -- res = 0.13330E-03, tol = 0.25087E+01, time = 2.72 | CG iter. 31 -- res = 0.69650E-04, tol = 0.25087E+01, time = 2.60 | CG iter. 32 -- res = 0.35536E-04, tol = 0.25087E+01, time = 2.74 | CG iter. 33 -- res = 0.17290E-04, tol = 0.25087E+01, time = 2.70 | CG iter. 34 -- res = 0.81197E-05, tol = 0.25087E+01, time = 2.43 | CG iter. 35 -- res = 0.37047E-05, tol = 0.25087E+01, time = 2.70 | CG iter. 36 -- res = 0.17656E-05, tol = 0.25087E+01, time = 2.81 | CG iter. 37 -- res = 0.86453E-06, tol = 0.25087E+01, time = 2.63 | CG iter. 38 -- res = 0.44945E-06, tol = 0.25087E+01, time = 2.74 | CG iter. 39 -- res = 0.21600E-06, tol = 0.25087E+01, time = 2.49 | CG iter. 40 -- res = 0.97561E-07, tol = 0.25087E+01, time = 2.31 | CG iter. 41 -- res = 0.44287E-07, tol = 0.25087E+01, time = 2.96 | CG iter. 42 -- res = 0.21675E-07, tol = 0.25087E+01, time = 3.13 | CG iter. 43 -- res = 0.10389E-07, tol = 0.25087E+01, time = 2.83 | CG iter. 44 -- res = 0.53581E-08, tol = 0.25087E+01, time = 2.72 | CG iter. 45 -- res = 0.25443E-08, tol = 0.25087E+01, time = 2.40 | CG iter. 46 -- res = 0.11593E-08, tol = 0.25087E+01, time = 2.81 | CG iter. 47 -- res = 0.54378E-09, tol = 0.25087E+01, time = 2.59 | CG iter. 48 -- res = 0.25263E-09, tol = 0.25087E+01, time = 2.47 | CG iter. 49 -- res = 0.11688E-09, tol = 0.25087E+01, time = 2.78 | CG iter. 50 -- res = 0.55629E-10, tol = 0.25087E+01, time = 2.94 | Final CG iter 51 -- res = 0.55629E-10, tol = 0.25087E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.333 5.802 | New value 2.540 | Old value 7.333 | Difference -4.793 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.22096E+05, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.31686E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.85788E+00, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.57741E-03, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.24011E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9648007.948 | (Sampled value in CG: 9657168.930 ) | CPU time specind = 1193.508 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.71690E+08, tol = 0.57650E+04, time = 12.25 | CG iter. 2 -- res = 0.60101E+08, tol = 0.57650E+04, time = 11.85 | CG iter. 3 -- res = 0.15546E+08, tol = 0.57650E+04, time = 18.35 | CG iter. 4 -- res = 0.67748E+07, tol = 0.57650E+04, time = 12.01 | CG iter. 5 -- res = 0.41612E+07, tol = 0.57650E+04, time = 13.85 | CG iter. 6 -- res = 0.24285E+07, tol = 0.57650E+04, time = 12.02 | CG iter. 7 -- res = 0.14269E+07, tol = 0.57650E+04, time = 11.65 | CG iter. 8 -- res = 0.93874E+06, tol = 0.57650E+04, time = 12.43 | CG iter. 9 -- res = 0.60173E+06, tol = 0.57650E+04, time = 12.00 | CG iter. 10 -- res = 0.35607E+06, tol = 0.57650E+04, time = 13.10 | CG iter. 11 -- res = 0.19300E+06, tol = 0.57650E+04, time = 12.47 | CG iter. 12 -- res = 0.10219E+06, tol = 0.57650E+04, time = 11.44 | CG iter. 13 -- res = 0.55114E+05, tol = 0.57650E+04, time = 11.90 | CG iter. 14 -- res = 0.32003E+05, tol = 0.57650E+04, time = 12.01 | CG iter. 15 -- res = 0.20823E+05, tol = 0.57650E+04, time = 11.62 | CG iter. 16 -- res = 0.14493E+05, tol = 0.57650E+04, time = 12.03 | CG iter. 17 -- res = 0.10840E+05, tol = 0.57650E+04, time = 11.69 | CG iter. 18 -- res = 0.81692E+04, tol = 0.57650E+04, time = 11.88 | CG iter. 19 -- res = 0.60249E+04, tol = 0.57650E+04, time = 12.39 | CG iter. 20 -- res = 0.45109E+04, tol = 0.57650E+04, time = 12.17 | CG iter. 21 -- res = 0.36346E+04, tol = 0.57650E+04, time = 11.52 | CG iter. 22 -- res = 0.33017E+04, tol = 0.57650E+04, time = 11.78 | CG iter. 23 -- res = 0.33980E+04, tol = 0.57650E+04, time = 12.11 | CG iter. 24 -- res = 0.37879E+04, tol = 0.57650E+04, time = 11.34 | CG iter. 25 -- res = 0.41859E+04, tol = 0.57650E+04, time = 11.57 | CG iter. 26 -- res = 0.41230E+04, tol = 0.57650E+04, time = 11.75 | CG iter. 27 -- res = 0.36303E+04, tol = 0.57650E+04, time = 12.15 | CG iter. 28 -- res = 0.29940E+04, tol = 0.57650E+04, time = 18.17 | CG iter. 29 -- res = 0.25287E+04, tol = 0.57650E+04, time = 11.86 | CG iter. 30 -- res = 0.21812E+04, tol = 0.57650E+04, time = 16.04 | CG iter. 31 -- res = 0.18818E+04, tol = 0.57650E+04, time = 11.52 | CG iter. 32 -- res = 0.16032E+04, tol = 0.57650E+04, time = 11.70 | CG iter. 33 -- res = 0.13056E+04, tol = 0.57650E+04, time = 11.96 | CG iter. 34 -- res = 0.10160E+04, tol = 0.57650E+04, time = 13.34 | CG iter. 35 -- res = 0.77806E+03, tol = 0.57650E+04, time = 13.61 | CG iter. 36 -- res = 0.65587E+03, tol = 0.57650E+04, time = 11.88 | CG iter. 37 -- res = 0.62224E+03, tol = 0.57650E+04, time = 11.68 | CG iter. 38 -- res = 0.62058E+03, tol = 0.57650E+04, time = 11.88 | CG iter. 39 -- res = 0.58219E+03, tol = 0.57650E+04, time = 11.54 | CG iter. 40 -- res = 0.52480E+03, tol = 0.57650E+04, time = 11.73 | CG iter. 41 -- res = 0.45559E+03, tol = 0.57650E+04, time = 11.95 | CG iter. 42 -- res = 0.38270E+03, tol = 0.57650E+04, time = 11.90 | CG iter. 43 -- res = 0.32803E+03, tol = 0.57650E+04, time = 12.02 | CG iter. 44 -- res = 0.29000E+03, tol = 0.57650E+04, time = 12.37 | CG iter. 45 -- res = 0.25810E+03, tol = 0.57650E+04, time = 11.71 | CG iter. 46 -- res = 0.22675E+03, tol = 0.57650E+04, time = 11.67 | CG iter. 47 -- res = 0.19237E+03, tol = 0.57650E+04, time = 12.23 | CG iter. 48 -- res = 0.15800E+03, tol = 0.57650E+04, time = 11.69 | CG iter. 49 -- res = 0.12536E+03, tol = 0.57650E+04, time = 11.46 | CG iter. 50 -- res = 0.10233E+03, tol = 0.57650E+04, time = 11.91 | CG iter. 51 -- res = 0.89174E+02, tol = 0.57650E+04, time = 11.69 | CG iter. 52 -- res = 0.82477E+02, tol = 0.57650E+04, time = 19.04 | CG iter. 53 -- res = 0.78599E+02, tol = 0.57650E+04, time = 13.25 | CG iter. 54 -- res = 0.74200E+02, tol = 0.57650E+04, time = 11.77 | CG iter. 55 -- res = 0.67319E+02, tol = 0.57650E+04, time = 11.83 | CG iter. 56 -- res = 0.59143E+02, tol = 0.57650E+04, time = 11.97 | CG iter. 57 -- res = 0.51092E+02, tol = 0.57650E+04, time = 11.85 | CG iter. 58 -- res = 0.45189E+02, tol = 0.57650E+04, time = 11.55 | CG iter. 59 -- res = 0.41514E+02, tol = 0.57650E+04, time = 13.42 | CG iter. 60 -- res = 0.38959E+02, tol = 0.57650E+04, time = 13.11 | Final CG iter 61 -- res = 0.38959E+02, tol = 0.57650E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.747 ( -229.637 -2230.493 2512.956 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7929266.310 | Old band monopole 9648049.447 | Change to band monopole -1718783.137 | Change to component monopole 1718775.744 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.912 2.721 | New value 0.235 | Old value 0.912 | Difference -0.676 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.675 ( 7.040 11.181 -10.913 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 9.599 4.885 | New value 0.686 | Old value 9.599 | Difference -8.913 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.51838E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.38850E+02, tol = 0.47627E+18, time = 2.29 | CG iter. 3 -- res = 0.13999E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.30902E-02, tol = 0.47627E+18, time = 1.79 | Final CG iter 5 -- res = 0.10417E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7929232.204 | (Sampled value in CG: 7903234.374 ) | Chain = 1 -- chisq = 0.81572119E+09 | Chain = 1 -- wall time = 16491.546 sec Available RAM: MemAvailable: 476070844 kB Available Swap: SwapFree: 1054447548 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 402 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444588 | --> Sampling calibration, mode = relcal | relcal = 1.3441165E-02 7.3683093E-04 -1.5921559E-03 -1.2585840E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1718380 0.1894403 9406893.24624618 | BP delta = 0.1718380 0.1799567 9406918.93304814 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632491 | --> Sampling calibration, mode = relcal | relcal = -2.8216527E-03 -7.0471771E-04 1.6794677E-03 1.6135795E-03 -4.0806038E-04 6.4138358E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5624026 15218365.2315346 | BP delta = 0.0000000E+00 -0.5569293 15218364.4828340 | BP chisq diff = -0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17993860873742 | --> Sampling calibration, mode = relcal | relcal = -7.4697435E-02 -5.8193654E-02 9.1592759E-02 4.1298330E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7076577E-04 3.9976845E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9959E-05 | 2: delta_r/delta_0: 7.9990E-07 | 3: delta_s/delta_0: 2.4693E-07 | 4: delta_r/delta_0: 1.2747E-08 | 5: delta_s/delta_0: 3.4620E-09 | 6: delta_r/delta_0: 1.2118E-09 | 7: delta_s/delta_0: 2.9328E-10 | 8: delta_r/delta_0: 1.3546E-10 | 9: delta_s/delta_0: 1.2991E-08 | 10: delta_r/delta_0: 3.9426E-10 | 11: delta_s/delta_0: 6.8512E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.733949519392929E-004 2.743577971522580E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.9959E-05 | 2: delta_r/delta_0: 7.9989E-07 | 3: delta_s/delta_0: 2.4693E-07 | 4: delta_r/delta_0: 1.2748E-08 | 5: delta_s/delta_0: 3.4626E-09 | 6: delta_r/delta_0: 1.2120E-09 | 7: delta_s/delta_0: 2.9331E-10 | 8: delta_r/delta_0: 1.3548E-10 | 9: delta_s/delta_0: 1.2953E-08 | 10: delta_r/delta_0: 3.9310E-10 | 11: delta_s/delta_0: 6.8534E-11 | Reached bicg-stab tolerance | BP delta = 7.6128997E-02 9.9834397E-02 3523773.62724263 | BP delta = 7.6128997E-02 0.1000072 3522178.27877840 | BP chisq diff = -1595.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02599195 | --> Sampling calibration, mode = relcal | relcal = -0.1066658 -9.5568985E-02 0.1449811 5.7253636E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5079354E-03 1.0085593E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9589E-05 | 2: delta_r/delta_0: 1.4938E-06 | 3: delta_s/delta_0: 2.5525E-07 | 4: delta_r/delta_0: 3.4871E-08 | 5: delta_s/delta_0: 2.7870E-08 | 6: delta_r/delta_0: 6.4531E-09 | 7: delta_s/delta_0: 4.7833E-09 | 8: delta_r/delta_0: 1.7819E-09 | 9: delta_s/delta_0: 8.2463E-10 | 10: delta_r/delta_0: 6.2704E-10 | 11: delta_s/delta_0: 2.4137E-09 | 12: delta_r/delta_0: 6.9889E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.008828615485269E-002 2.810846648483110E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.9588E-05 | 2: delta_r/delta_0: 1.4937E-06 | 3: delta_s/delta_0: 2.5524E-07 | 4: delta_r/delta_0: 3.4826E-08 | 5: delta_s/delta_0: 2.7896E-08 | 6: delta_r/delta_0: 6.4504E-09 | 7: delta_s/delta_0: 4.7809E-09 | 8: delta_r/delta_0: 1.7813E-09 | 9: delta_s/delta_0: 8.2427E-10 | 10: delta_r/delta_0: 6.2678E-10 | 11: delta_s/delta_0: 2.4098E-09 | 12: delta_r/delta_0: 6.9919E-11 | Reached bicg-stab tolerance | BP delta = -0.2412208 -0.2065064 2841395.06859475 | BP delta = -0.2412208 -0.2082623 2841413.41844523 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81230604 | --> Sampling calibration, mode = relcal | relcal = 0.2953816 0.2248692 -0.2837121 -0.2365387 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6094199E-03 4.2570392E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3355E-03 | 2: delta_r/delta_0: 1.4747E-04 | 3: delta_s/delta_0: 1.9071E-05 | 4: delta_r/delta_0: 1.7884E-06 | 5: delta_s/delta_0: 1.7161E-06 | 6: delta_r/delta_0: 2.1733E-07 | 7: delta_s/delta_0: 1.6907E-08 | 8: delta_r/delta_0: 6.5673E-09 | 9: delta_s/delta_0: 4.2647E-08 | 10: delta_r/delta_0: 9.2603E-09 | 11: delta_s/delta_0: 1.3051E-08 | 12: delta_r/delta_0: 4.4532E-09 | 13: delta_s/delta_0: 2.1072E-09 | 14: delta_r/delta_0: 2.4417E-10 | 15: delta_s/delta_0: 7.3250E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.636799662183458E-002 4.021187938008477E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3210E-03 | 2: delta_r/delta_0: 1.4713E-04 | 3: delta_s/delta_0: 1.9034E-05 | 4: delta_r/delta_0: 1.7797E-06 | 5: delta_s/delta_0: 1.7244E-06 | 6: delta_r/delta_0: 2.1636E-07 | 7: delta_s/delta_0: 1.6676E-08 | 8: delta_r/delta_0: 6.3889E-09 | 9: delta_s/delta_0: 4.0505E-08 | 10: delta_r/delta_0: 8.9741E-09 | 11: delta_s/delta_0: 1.2980E-08 | 12: delta_r/delta_0: 4.4227E-09 | 13: delta_s/delta_0: 2.1277E-09 | 14: delta_r/delta_0: 2.4632E-10 | 15: delta_s/delta_0: 7.3397E-11 | Reached bicg-stab tolerance | BP delta = -0.1295539 -0.1551192 2827440.71289951 | BP delta = -0.1295539 -0.1507873 2827652.36056465 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95931894 | --> Sampling calibration, mode = relcal | relcal = 0.1064871 0.1397397 -0.1104269 -0.1357999 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.4549200E-03 1.2795533E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4404E-04 | 2: delta_r/delta_0: 4.0128E-06 | 3: delta_s/delta_0: 6.7238E-06 | 4: delta_r/delta_0: 1.0491E-06 | 5: delta_s/delta_0: 1.5400E-07 | 6: delta_r/delta_0: 1.0080E-07 | 7: delta_s/delta_0: 7.7514E-07 | 8: delta_r/delta_0: 2.1635E-08 | 9: delta_s/delta_0: 3.0574E-08 | 10: delta_r/delta_0: 1.5212E-08 | 11: delta_s/delta_0: 1.2261E-09 | 12: delta_r/delta_0: 7.1838E-10 | 13: delta_s/delta_0: 2.9299E-10 | 14: delta_r/delta_0: 2.2935E-10 | 15: delta_s/delta_0: 5.3740E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.844444866503984E-002 3.696667529623542E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4405E-04 | 2: delta_r/delta_0: 4.0128E-06 | 3: delta_s/delta_0: 6.7237E-06 | 4: delta_r/delta_0: 1.0490E-06 | 5: delta_s/delta_0: 1.5399E-07 | 6: delta_r/delta_0: 1.0077E-07 | 7: delta_s/delta_0: 7.7411E-07 | 8: delta_r/delta_0: 2.1643E-08 | 9: delta_s/delta_0: 3.0636E-08 | 10: delta_r/delta_0: 1.5220E-08 | 11: delta_s/delta_0: 1.2278E-09 | 12: delta_r/delta_0: 7.1896E-10 | 13: delta_s/delta_0: 2.9315E-10 | 14: delta_r/delta_0: 2.2937E-10 | 15: delta_s/delta_0: 5.3541E-11 | Reached bicg-stab tolerance | BP delta = 2.5275409E-02 0.1411131 3003673.12467785 | BP delta = 2.5275409E-02 0.1433678 3003723.21012478 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.128138 | New value = -3.232418 | poltype: 2 pol: 1 CPU time specind = 1.6040087E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133254 | New value = -3.188464 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.114427 | New value = -3.067305 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.197448 | New value = -3.120520 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.277585 | New value = -3.292688 | poltype: 2 pol: 2 CPU time specind = 4.4968128E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.13575E+08, tol = 0.85891E+01, time = 5.90 | CG iter. 2 -- res = 0.32393E+06, tol = 0.85891E+01, time = 5.71 | CG iter. 3 -- res = 0.67863E+05, tol = 0.85891E+01, time = 6.52 | CG iter. 4 -- res = 0.59137E+05, tol = 0.85891E+01, time = 5.79 | CG iter. 5 -- res = 0.58859E+05, tol = 0.85891E+01, time = 6.55 | CG iter. 6 -- res = 0.57223E+05, tol = 0.85891E+01, time = 5.79 | CG iter. 7 -- res = 0.56334E+05, tol = 0.85891E+01, time = 6.04 | CG iter. 8 -- res = 0.45353E+05, tol = 0.85891E+01, time = 6.19 | CG iter. 9 -- res = 0.40775E+05, tol = 0.85891E+01, time = 6.25 | CG iter. 10 -- res = 0.33054E+05, tol = 0.85891E+01, time = 5.64 | CG iter. 11 -- res = 0.23104E+05, tol = 0.85891E+01, time = 5.79 | CG iter. 12 -- res = 0.16617E+05, tol = 0.85891E+01, time = 5.94 | CG iter. 13 -- res = 0.14354E+05, tol = 0.85891E+01, time = 6.07 | CG iter. 14 -- res = 0.13301E+05, tol = 0.85891E+01, time = 5.76 | CG iter. 15 -- res = 0.11161E+05, tol = 0.85891E+01, time = 6.14 | CG iter. 16 -- res = 0.85309E+04, tol = 0.85891E+01, time = 5.89 | CG iter. 17 -- res = 0.61486E+04, tol = 0.85891E+01, time = 5.62 | CG iter. 18 -- res = 0.50913E+04, tol = 0.85891E+01, time = 5.72 | CG iter. 19 -- res = 0.46217E+04, tol = 0.85891E+01, time = 5.60 | CG iter. 20 -- res = 0.38652E+04, tol = 0.85891E+01, time = 5.71 | CG iter. 21 -- res = 0.29846E+04, tol = 0.85891E+01, time = 10.89 | CG iter. 22 -- res = 0.25900E+04, tol = 0.85891E+01, time = 7.34 | CG iter. 23 -- res = 0.23146E+04, tol = 0.85891E+01, time = 6.06 | CG iter. 24 -- res = 0.19829E+04, tol = 0.85891E+01, time = 6.49 | CG iter. 25 -- res = 0.15243E+04, tol = 0.85891E+01, time = 5.89 | CG iter. 26 -- res = 0.13023E+04, tol = 0.85891E+01, time = 5.74 | CG iter. 27 -- res = 0.11927E+04, tol = 0.85891E+01, time = 5.81 | CG iter. 28 -- res = 0.10665E+04, tol = 0.85891E+01, time = 6.33 | CG iter. 29 -- res = 0.85213E+03, tol = 0.85891E+01, time = 5.96 | CG iter. 30 -- res = 0.69906E+03, tol = 0.85891E+01, time = 5.90 | CG iter. 31 -- res = 0.62681E+03, tol = 0.85891E+01, time = 5.95 | CG iter. 32 -- res = 0.56760E+03, tol = 0.85891E+01, time = 6.10 | CG iter. 33 -- res = 0.47883E+03, tol = 0.85891E+01, time = 6.03 | CG iter. 34 -- res = 0.37501E+03, tol = 0.85891E+01, time = 5.95 | CG iter. 35 -- res = 0.33161E+03, tol = 0.85891E+01, time = 6.68 | CG iter. 36 -- res = 0.30975E+03, tol = 0.85891E+01, time = 6.96 | CG iter. 37 -- res = 0.25685E+03, tol = 0.85891E+01, time = 6.57 | CG iter. 38 -- res = 0.20683E+03, tol = 0.85891E+01, time = 5.79 | CG iter. 39 -- res = 0.18046E+03, tol = 0.85891E+01, time = 5.51 | CG iter. 40 -- res = 0.16328E+03, tol = 0.85891E+01, time = 6.06 | CG iter. 41 -- res = 0.14325E+03, tol = 0.85891E+01, time = 6.04 | CG iter. 42 -- res = 0.11773E+03, tol = 0.85891E+01, time = 5.94 | CG iter. 43 -- res = 0.10035E+03, tol = 0.85891E+01, time = 6.00 | CG iter. 44 -- res = 0.87686E+02, tol = 0.85891E+01, time = 5.85 | CG iter. 45 -- res = 0.76639E+02, tol = 0.85891E+01, time = 6.09 | CG iter. 46 -- res = 0.61792E+02, tol = 0.85891E+01, time = 5.60 | CG iter. 47 -- res = 0.49356E+02, tol = 0.85891E+01, time = 6.61 | CG iter. 48 -- res = 0.42359E+02, tol = 0.85891E+01, time = 5.96 | CG iter. 49 -- res = 0.37128E+02, tol = 0.85891E+01, time = 5.90 | CG iter. 50 -- res = 0.30446E+02, tol = 0.85891E+01, time = 6.10 | Final CG iter 51 -- res = 0.30446E+02, tol = 0.85891E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8872603.487 | Old band monopole 7929266.310 | Change to band monopole 943337.177 | Change to component monopole -943333.120 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.69729E+06, tol = 0.47627E+18, time = 1.74 | CG iter. 2 -- res = 0.29451E+03, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.59975E+01, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.30530E-01, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.28755E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8872565.324 | (Sampled value in CG: 8804367.257 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.454937 | New value = 1.452566 | poltype: 2 pol: 1 CPU time specind = 1.5943050E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.549613 | New value = 1.543962 | poltype: 2 pol: 2 CPU time specind = 1.3622999E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.24013E+08, tol = 0.47494E+04, time = 13.26 | CG iter. 2 -- res = 0.53156E+07, tol = 0.47494E+04, time = 6.62 | CG iter. 3 -- res = 0.82308E+06, tol = 0.47494E+04, time = 6.73 | CG iter. 4 -- res = 0.33855E+06, tol = 0.47494E+04, time = 6.93 | CG iter. 5 -- res = 0.14140E+06, tol = 0.47494E+04, time = 6.73 | CG iter. 6 -- res = 0.76113E+05, tol = 0.47494E+04, time = 6.63 | CG iter. 7 -- res = 0.41842E+05, tol = 0.47494E+04, time = 6.69 | CG iter. 8 -- res = 0.20263E+05, tol = 0.47494E+04, time = 7.21 | CG iter. 9 -- res = 0.88885E+04, tol = 0.47494E+04, time = 6.78 | CG iter. 10 -- res = 0.36436E+04, tol = 0.47494E+04, time = 6.57 | CG iter. 11 -- res = 0.16439E+04, tol = 0.47494E+04, time = 6.99 | CG iter. 12 -- res = 0.85472E+03, tol = 0.47494E+04, time = 6.91 | CG iter. 13 -- res = 0.48603E+03, tol = 0.47494E+04, time = 7.50 | CG iter. 14 -- res = 0.27255E+03, tol = 0.47494E+04, time = 7.81 | CG iter. 15 -- res = 0.14243E+03, tol = 0.47494E+04, time = 7.43 | CG iter. 16 -- res = 0.67772E+02, tol = 0.47494E+04, time = 6.76 | CG iter. 17 -- res = 0.31518E+02, tol = 0.47494E+04, time = 7.04 | CG iter. 18 -- res = 0.15565E+02, tol = 0.47494E+04, time = 6.65 | CG iter. 19 -- res = 0.85012E+01, tol = 0.47494E+04, time = 7.00 | CG iter. 20 -- res = 0.48664E+01, tol = 0.47494E+04, time = 6.70 | CG iter. 21 -- res = 0.26933E+01, tol = 0.47494E+04, time = 6.91 | CG iter. 22 -- res = 0.13998E+01, tol = 0.47494E+04, time = 6.95 | CG iter. 23 -- res = 0.70626E+00, tol = 0.47494E+04, time = 6.91 | CG iter. 24 -- res = 0.35411E+00, tol = 0.47494E+04, time = 7.01 | CG iter. 25 -- res = 0.19581E+00, tol = 0.47494E+04, time = 6.77 | CG iter. 26 -- res = 0.11105E+00, tol = 0.47494E+04, time = 6.92 | CG iter. 27 -- res = 0.63239E-01, tol = 0.47494E+04, time = 6.85 | CG iter. 28 -- res = 0.34650E-01, tol = 0.47494E+04, time = 6.88 | CG iter. 29 -- res = 0.18017E-01, tol = 0.47494E+04, time = 7.59 | CG iter. 30 -- res = 0.95561E-02, tol = 0.47494E+04, time = 6.74 | CG iter. 31 -- res = 0.51169E-02, tol = 0.47494E+04, time = 6.58 | CG iter. 32 -- res = 0.29045E-02, tol = 0.47494E+04, time = 6.50 | CG iter. 33 -- res = 0.16532E-02, tol = 0.47494E+04, time = 6.68 | CG iter. 34 -- res = 0.88783E-03, tol = 0.47494E+04, time = 6.86 | CG iter. 35 -- res = 0.46254E-03, tol = 0.47494E+04, time = 6.69 | Final CG iter 36 -- res = 0.46254E-03, tol = 0.47494E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.273 2.770 | New value 1.204 | Old value 0.273 | Difference 0.931 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.50604E+05, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.64205E+02, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.17295E+01, tol = 0.47627E+18, time = 2.14 | Final CG iter 4 -- res = 0.27500E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8872565.324 | (Sampled value in CG: 8803359.060 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.616127 | New value = -3.694551 | poltype: 1 pol: 1 CPU time specind = 1.6154051E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.64 | CG iter. 1 -- res = 0.37039E+07, tol = 0.22590E+01, time = 2.80 | CG iter. 2 -- res = 0.13907E+07, tol = 0.22590E+01, time = 3.15 | CG iter. 3 -- res = 0.31957E+06, tol = 0.22590E+01, time = 3.09 | CG iter. 4 -- res = 0.16676E+06, tol = 0.22590E+01, time = 2.85 | CG iter. 5 -- res = 0.99017E+05, tol = 0.22590E+01, time = 2.94 | CG iter. 6 -- res = 0.39081E+05, tol = 0.22590E+01, time = 2.72 | CG iter. 7 -- res = 0.11864E+05, tol = 0.22590E+01, time = 3.15 | CG iter. 8 -- res = 0.49546E+04, tol = 0.22590E+01, time = 2.97 | CG iter. 9 -- res = 0.22829E+04, tol = 0.22590E+01, time = 2.66 | CG iter. 10 -- res = 0.94790E+03, tol = 0.22590E+01, time = 3.12 | CG iter. 11 -- res = 0.39573E+03, tol = 0.22590E+01, time = 3.28 | CG iter. 12 -- res = 0.20983E+03, tol = 0.22590E+01, time = 3.00 | CG iter. 13 -- res = 0.10465E+03, tol = 0.22590E+01, time = 2.61 | CG iter. 14 -- res = 0.47195E+02, tol = 0.22590E+01, time = 2.79 | CG iter. 15 -- res = 0.20060E+02, tol = 0.22590E+01, time = 2.75 | CG iter. 16 -- res = 0.84412E+01, tol = 0.22590E+01, time = 10.14 | CG iter. 17 -- res = 0.37776E+01, tol = 0.22590E+01, time = 2.84 | CG iter. 18 -- res = 0.19368E+01, tol = 0.22590E+01, time = 3.08 | CG iter. 19 -- res = 0.96064E+00, tol = 0.22590E+01, time = 3.04 | CG iter. 20 -- res = 0.44542E+00, tol = 0.22590E+01, time = 2.64 | CG iter. 21 -- res = 0.19450E+00, tol = 0.22590E+01, time = 2.94 | CG iter. 22 -- res = 0.83471E-01, tol = 0.22590E+01, time = 2.59 | CG iter. 23 -- res = 0.37890E-01, tol = 0.22590E+01, time = 3.20 | CG iter. 24 -- res = 0.19421E-01, tol = 0.22590E+01, time = 3.04 | CG iter. 25 -- res = 0.96795E-02, tol = 0.22590E+01, time = 3.06 | CG iter. 26 -- res = 0.47031E-02, tol = 0.22590E+01, time = 2.89 | CG iter. 27 -- res = 0.22143E-02, tol = 0.22590E+01, time = 2.29 | CG iter. 28 -- res = 0.10290E-02, tol = 0.22590E+01, time = 2.84 | CG iter. 29 -- res = 0.44479E-03, tol = 0.22590E+01, time = 2.68 | CG iter. 30 -- res = 0.23028E-03, tol = 0.22590E+01, time = 2.52 | CG iter. 31 -- res = 0.11696E-03, tol = 0.22590E+01, time = 2.92 | CG iter. 32 -- res = 0.58500E-04, tol = 0.22590E+01, time = 2.76 | CG iter. 33 -- res = 0.26720E-04, tol = 0.22590E+01, time = 2.85 | CG iter. 34 -- res = 0.11817E-04, tol = 0.22590E+01, time = 2.69 | CG iter. 35 -- res = 0.57849E-05, tol = 0.22590E+01, time = 2.85 | CG iter. 36 -- res = 0.28512E-05, tol = 0.22590E+01, time = 3.13 | CG iter. 37 -- res = 0.14616E-05, tol = 0.22590E+01, time = 2.88 | CG iter. 38 -- res = 0.71060E-06, tol = 0.22590E+01, time = 2.72 | CG iter. 39 -- res = 0.32665E-06, tol = 0.22590E+01, time = 2.86 | CG iter. 40 -- res = 0.14530E-06, tol = 0.22590E+01, time = 2.44 | CG iter. 41 -- res = 0.66718E-07, tol = 0.22590E+01, time = 2.86 | CG iter. 42 -- res = 0.33959E-07, tol = 0.22590E+01, time = 3.04 | CG iter. 43 -- res = 0.16121E-07, tol = 0.22590E+01, time = 2.69 | CG iter. 44 -- res = 0.80221E-08, tol = 0.22590E+01, time = 3.01 | CG iter. 45 -- res = 0.36822E-08, tol = 0.22590E+01, time = 4.05 | CG iter. 46 -- res = 0.16332E-08, tol = 0.22590E+01, time = 3.54 | CG iter. 47 -- res = 0.78488E-09, tol = 0.22590E+01, time = 3.04 | CG iter. 48 -- res = 0.38719E-09, tol = 0.22590E+01, time = 3.27 | CG iter. 49 -- res = 0.18512E-09, tol = 0.22590E+01, time = 2.93 | CG iter. 50 -- res = 0.87500E-10, tol = 0.22590E+01, time = 3.03 | Final CG iter 51 -- res = 0.87500E-10, tol = 0.22590E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.493 6.465 | New value -5.890 | Old value -6.493 | Difference 0.602 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.43788E+04, tol = 0.47627E+18, time = 2.17 | CG iter. 2 -- res = 0.18257E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.82794E+00, tol = 0.47627E+18, time = 2.08 | Final CG iter 4 -- res = 0.29444E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8872565.324 | (Sampled value in CG: 8817970.324 ) | CPU time specind = 1236.292 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.68318E+08, tol = 0.57880E+04, time = 12.86 | CG iter. 2 -- res = 0.58317E+08, tol = 0.57880E+04, time = 12.45 | CG iter. 3 -- res = 0.14907E+08, tol = 0.57880E+04, time = 12.54 | CG iter. 4 -- res = 0.61907E+07, tol = 0.57880E+04, time = 12.06 | CG iter. 5 -- res = 0.36451E+07, tol = 0.57880E+04, time = 12.31 | CG iter. 6 -- res = 0.21290E+07, tol = 0.57880E+04, time = 12.06 | CG iter. 7 -- res = 0.12934E+07, tol = 0.57880E+04, time = 12.26 | CG iter. 8 -- res = 0.88540E+06, tol = 0.57880E+04, time = 12.00 | CG iter. 9 -- res = 0.56956E+06, tol = 0.57880E+04, time = 19.16 | CG iter. 10 -- res = 0.34115E+06, tol = 0.57880E+04, time = 12.09 | CG iter. 11 -- res = 0.19079E+06, tol = 0.57880E+04, time = 12.61 | CG iter. 12 -- res = 0.10738E+06, tol = 0.57880E+04, time = 12.30 | CG iter. 13 -- res = 0.64211E+05, tol = 0.57880E+04, time = 12.00 | CG iter. 14 -- res = 0.44293E+05, tol = 0.57880E+04, time = 12.76 | CG iter. 15 -- res = 0.36398E+05, tol = 0.57880E+04, time = 12.28 | CG iter. 16 -- res = 0.32627E+05, tol = 0.57880E+04, time = 14.46 | CG iter. 17 -- res = 0.30262E+05, tol = 0.57880E+04, time = 12.44 | CG iter. 18 -- res = 0.27992E+05, tol = 0.57880E+04, time = 12.52 | CG iter. 19 -- res = 0.26000E+05, tol = 0.57880E+04, time = 12.67 | CG iter. 20 -- res = 0.24895E+05, tol = 0.57880E+04, time = 12.16 | CG iter. 21 -- res = 0.24646E+05, tol = 0.57880E+04, time = 12.48 | CG iter. 22 -- res = 0.25771E+05, tol = 0.57880E+04, time = 12.84 | CG iter. 23 -- res = 0.26394E+05, tol = 0.57880E+04, time = 12.14 | CG iter. 24 -- res = 0.24593E+05, tol = 0.57880E+04, time = 12.04 | CG iter. 25 -- res = 0.20908E+05, tol = 0.57880E+04, time = 12.47 | CG iter. 26 -- res = 0.15944E+05, tol = 0.57880E+04, time = 12.53 | CG iter. 27 -- res = 0.11871E+05, tol = 0.57880E+04, time = 12.37 | CG iter. 28 -- res = 0.90024E+04, tol = 0.57880E+04, time = 12.58 | CG iter. 29 -- res = 0.73586E+04, tol = 0.57880E+04, time = 12.59 | CG iter. 30 -- res = 0.65337E+04, tol = 0.57880E+04, time = 12.49 | CG iter. 31 -- res = 0.57935E+04, tol = 0.57880E+04, time = 12.41 | CG iter. 32 -- res = 0.51374E+04, tol = 0.57880E+04, time = 12.42 | CG iter. 33 -- res = 0.44887E+04, tol = 0.57880E+04, time = 18.28 | CG iter. 34 -- res = 0.39340E+04, tol = 0.57880E+04, time = 12.33 | CG iter. 35 -- res = 0.35676E+04, tol = 0.57880E+04, time = 12.02 | CG iter. 36 -- res = 0.34277E+04, tol = 0.57880E+04, time = 12.51 | CG iter. 37 -- res = 0.33002E+04, tol = 0.57880E+04, time = 12.20 | CG iter. 38 -- res = 0.31297E+04, tol = 0.57880E+04, time = 12.23 | CG iter. 39 -- res = 0.28266E+04, tol = 0.57880E+04, time = 12.50 | CG iter. 40 -- res = 0.23931E+04, tol = 0.57880E+04, time = 13.50 | CG iter. 41 -- res = 0.20372E+04, tol = 0.57880E+04, time = 12.39 | CG iter. 42 -- res = 0.17225E+04, tol = 0.57880E+04, time = 12.23 | CG iter. 43 -- res = 0.14699E+04, tol = 0.57880E+04, time = 12.21 | CG iter. 44 -- res = 0.13434E+04, tol = 0.57880E+04, time = 12.27 | CG iter. 45 -- res = 0.12736E+04, tol = 0.57880E+04, time = 12.34 | CG iter. 46 -- res = 0.11817E+04, tol = 0.57880E+04, time = 12.01 | CG iter. 47 -- res = 0.10843E+04, tol = 0.57880E+04, time = 12.45 | CG iter. 48 -- res = 0.97581E+03, tol = 0.57880E+04, time = 12.98 | CG iter. 49 -- res = 0.88202E+03, tol = 0.57880E+04, time = 12.80 | CG iter. 50 -- res = 0.84027E+03, tol = 0.57880E+04, time = 11.86 | CG iter. 51 -- res = 0.81423E+03, tol = 0.57880E+04, time = 12.86 | CG iter. 52 -- res = 0.79499E+03, tol = 0.57880E+04, time = 11.84 | CG iter. 53 -- res = 0.74241E+03, tol = 0.57880E+04, time = 12.17 | CG iter. 54 -- res = 0.65245E+03, tol = 0.57880E+04, time = 12.91 | CG iter. 55 -- res = 0.56774E+03, tol = 0.57880E+04, time = 12.85 | CG iter. 56 -- res = 0.49206E+03, tol = 0.57880E+04, time = 19.39 | CG iter. 57 -- res = 0.45245E+03, tol = 0.57880E+04, time = 11.96 | CG iter. 58 -- res = 0.43996E+03, tol = 0.57880E+04, time = 12.73 | CG iter. 59 -- res = 0.42318E+03, tol = 0.57880E+04, time = 12.27 | CG iter. 60 -- res = 0.39367E+03, tol = 0.57880E+04, time = 11.92 | Final CG iter 61 -- res = 0.39367E+03, tol = 0.57880E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.759 ( -229.818 -2230.521 2512.774 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9110339.278 | Old band monopole 8872603.487 | Change to band monopole 237735.792 | Change to component monopole -237734.769 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.200 2.750 | New value 0.808 | Old value 1.200 | Difference -0.392 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.414 ( 8.532 11.968 -10.585 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.893 4.624 | New value 7.073 | Old value 4.893 | Difference 2.180 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.52480E+05, tol = 0.47627E+18, time = 2.37 | CG iter. 2 -- res = 0.33442E+02, tol = 0.47627E+18, time = 2.12 | CG iter. 3 -- res = 0.14358E+01, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.32883E-02, tol = 0.47627E+18, time = 2.36 | Final CG iter 5 -- res = 0.73798E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9110300.093 | (Sampled value in CG: 9086515.900 ) | Chain = 1 -- chisq = 0.81602788E+09 | Chain = 1 -- wall time = 6248.041 sec Available RAM: MemAvailable: 377815716 kB Available Swap: SwapFree: 1111345084 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 403 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444003 | --> Sampling calibration, mode = relcal | relcal = 1.3421583E-02 7.4719160E-04 -1.5882729E-03 -1.2580502E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1718380 0.1894403 97049582.9258255 | BP delta = 0.1719647 0.1895670 97049582.9136927 | BP chisq diff = -0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632617 | --> Sampling calibration, mode = relcal | relcal = -2.8215433E-03 -7.0476701E-04 1.6781368E-03 1.6148605E-03 -4.0738832E-04 6.4070133E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5569293 15219259.0004849 | BP delta = 0.0000000E+00 -0.5546044 15219266.5031358 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18265452680753 | --> Sampling calibration, mode = relcal | relcal = -7.5566404E-02 -5.8858771E-02 9.2510507E-02 4.1914668E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -6.7778921E-05 5.4677231E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4323E-05 | 2: delta_r/delta_0: 1.1310E-06 | 3: delta_s/delta_0: 1.9293E-07 | 4: delta_r/delta_0: 2.8309E-08 | 5: delta_s/delta_0: 8.2032E-09 | 6: delta_r/delta_0: 2.7201E-09 | 7: delta_s/delta_0: 8.4935E-10 | 8: delta_r/delta_0: 1.0173E-10 | 9: delta_s/delta_0: 6.3049E-10 | 10: delta_r/delta_0: 5.4325E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.686266992421183E-004 2.737159907476308E-005 | BP delta = 7.6128997E-02 0.1000072 50486714.8178604 | BP delta = 7.4298620E-02 9.8176844E-02 50486716.7267407 | BP chisq diff = 1.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02605612 | --> Sampling calibration, mode = relcal | relcal = -0.1067354 -9.5501482E-02 0.1449220 5.7314809E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2755663E-03 1.2989428E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.8921E-05 | 2: delta_r/delta_0: 1.3300E-06 | 3: delta_s/delta_0: 2.5268E-07 | 4: delta_r/delta_0: 4.3879E-08 | 5: delta_s/delta_0: 2.4095E-08 | 6: delta_r/delta_0: 7.1141E-09 | 7: delta_s/delta_0: 9.5627E-09 | 8: delta_r/delta_0: 1.4007E-09 | 9: delta_s/delta_0: 2.0302E-09 | 10: delta_r/delta_0: 1.4502E-09 | 11: delta_s/delta_0: 1.7742E-10 | 12: delta_r/delta_0: 1.1036E-10 | 13: delta_s/delta_0: 9.7272E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.001880495195224E-002 2.810676931345766E-005 | BP delta = -0.2412208 -0.2065064 57389278.1613027 | BP delta = -0.2541845 -0.2194701 57389278.9818766 | BP chisq diff = 0.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81236520 | --> Sampling calibration, mode = relcal | relcal = 0.2954836 0.2249157 -0.2838003 -0.2365990 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.4674043E-04 4.2537255E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7003E-03 | 2: delta_r/delta_0: 6.2390E-05 | 3: delta_s/delta_0: 1.2472E-05 | 4: delta_r/delta_0: 1.1196E-06 | 5: delta_s/delta_0: 1.4486E-06 | 6: delta_r/delta_0: 8.0550E-08 | 7: delta_s/delta_0: 3.5896E-08 | 8: delta_r/delta_0: 9.3076E-09 | 9: delta_s/delta_0: 3.0826E-08 | 10: delta_r/delta_0: 8.2338E-09 | 11: delta_s/delta_0: 8.2968E-09 | 12: delta_r/delta_0: 4.9045E-10 | 13: delta_s/delta_0: 4.3412E-10 | 14: delta_r/delta_0: 6.3067E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.713472794945972E-003 4.021069306902389E-005 | BP delta = -0.1295539 -0.1551192 72483723.4655330 | BP delta = -0.1232104 -0.1487757 72483723.5772394 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95936018 | --> Sampling calibration, mode = relcal | relcal = 0.1065526 0.1395604 -0.1102642 -0.1358487 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.3908301E-03 1.3518682E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9598E-04 | 2: delta_r/delta_0: 5.1405E-06 | 3: delta_s/delta_0: 1.4706E-04 | 4: delta_r/delta_0: 7.2490E-06 | 5: delta_s/delta_0: 1.9306E-07 | 6: delta_r/delta_0: 1.0281E-07 | 7: delta_s/delta_0: 7.4681E-07 | 8: delta_r/delta_0: 2.5376E-08 | 9: delta_s/delta_0: 6.9484E-09 | 10: delta_r/delta_0: 3.7548E-09 | 11: delta_s/delta_0: 1.0891E-09 | 12: delta_r/delta_0: 5.7446E-10 | 13: delta_s/delta_0: 3.0772E-09 | 14: delta_r/delta_0: 1.2545E-10 | 15: delta_s/delta_0: 4.7630E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.977994767676996E-002 3.696487033480853E-005 | BP delta = 2.5275409E-02 0.1411131 72784994.0460720 | BP delta = 3.5297023E-03 0.1193674 72784995.6110992 | BP chisq diff = 1.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.232418 | New value = -3.172065 | poltype: 2 pol: 1 CPU time specind = 1.6191959E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188464 | New value = -3.045506 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.067305 | New value = -3.091522 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.120520 | New value = -3.144021 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.292688 | New value = -3.199238 | poltype: 2 pol: 2 CPU time specind = 4.2479038E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.66 | CG iter. 1 -- res = 0.13568E+08, tol = 0.76489E+01, time = 5.52 | CG iter. 2 -- res = 0.32011E+06, tol = 0.76489E+01, time = 5.84 | CG iter. 3 -- res = 0.56062E+05, tol = 0.76489E+01, time = 6.06 | CG iter. 4 -- res = 0.40080E+05, tol = 0.76489E+01, time = 6.09 | CG iter. 5 -- res = 0.34389E+05, tol = 0.76489E+01, time = 6.16 | CG iter. 6 -- res = 0.32276E+05, tol = 0.76489E+01, time = 6.16 | CG iter. 7 -- res = 0.33777E+05, tol = 0.76489E+01, time = 5.64 | CG iter. 8 -- res = 0.30292E+05, tol = 0.76489E+01, time = 5.72 | CG iter. 9 -- res = 0.27227E+05, tol = 0.76489E+01, time = 12.45 | CG iter. 10 -- res = 0.22675E+05, tol = 0.76489E+01, time = 5.61 | CG iter. 11 -- res = 0.15216E+05, tol = 0.76489E+01, time = 5.71 | CG iter. 12 -- res = 0.99807E+04, tol = 0.76489E+01, time = 6.02 | CG iter. 13 -- res = 0.79093E+04, tol = 0.76489E+01, time = 5.63 | CG iter. 14 -- res = 0.72255E+04, tol = 0.76489E+01, time = 5.81 | CG iter. 15 -- res = 0.61712E+04, tol = 0.76489E+01, time = 5.65 | CG iter. 16 -- res = 0.47485E+04, tol = 0.76489E+01, time = 5.85 | CG iter. 17 -- res = 0.35951E+04, tol = 0.76489E+01, time = 5.69 | CG iter. 18 -- res = 0.29527E+04, tol = 0.76489E+01, time = 6.04 | CG iter. 19 -- res = 0.25158E+04, tol = 0.76489E+01, time = 5.97 | CG iter. 20 -- res = 0.20142E+04, tol = 0.76489E+01, time = 5.87 | CG iter. 21 -- res = 0.15212E+04, tol = 0.76489E+01, time = 5.75 | CG iter. 22 -- res = 0.13059E+04, tol = 0.76489E+01, time = 6.01 | CG iter. 23 -- res = 0.11818E+04, tol = 0.76489E+01, time = 6.59 | CG iter. 24 -- res = 0.97349E+03, tol = 0.76489E+01, time = 6.98 | CG iter. 25 -- res = 0.74364E+03, tol = 0.76489E+01, time = 6.09 | CG iter. 26 -- res = 0.62537E+03, tol = 0.76489E+01, time = 5.99 | CG iter. 27 -- res = 0.59151E+03, tol = 0.76489E+01, time = 5.71 | CG iter. 28 -- res = 0.50886E+03, tol = 0.76489E+01, time = 6.13 | CG iter. 29 -- res = 0.39744E+03, tol = 0.76489E+01, time = 6.26 | CG iter. 30 -- res = 0.32682E+03, tol = 0.76489E+01, time = 5.45 | CG iter. 31 -- res = 0.29603E+03, tol = 0.76489E+01, time = 6.23 | CG iter. 32 -- res = 0.26250E+03, tol = 0.76489E+01, time = 5.80 | CG iter. 33 -- res = 0.20646E+03, tol = 0.76489E+01, time = 5.84 | CG iter. 34 -- res = 0.16259E+03, tol = 0.76489E+01, time = 6.31 | CG iter. 35 -- res = 0.14371E+03, tol = 0.76489E+01, time = 5.68 | CG iter. 36 -- res = 0.12427E+03, tol = 0.76489E+01, time = 5.74 | CG iter. 37 -- res = 0.99727E+02, tol = 0.76489E+01, time = 5.96 | CG iter. 38 -- res = 0.79513E+02, tol = 0.76489E+01, time = 5.99 | CG iter. 39 -- res = 0.62128E+02, tol = 0.76489E+01, time = 6.15 | CG iter. 40 -- res = 0.54181E+02, tol = 0.76489E+01, time = 5.89 | CG iter. 41 -- res = 0.43774E+02, tol = 0.76489E+01, time = 5.81 | CG iter. 42 -- res = 0.33411E+02, tol = 0.76489E+01, time = 6.85 | CG iter. 43 -- res = 0.26920E+02, tol = 0.76489E+01, time = 5.52 | CG iter. 44 -- res = 0.22925E+02, tol = 0.76489E+01, time = 5.92 | CG iter. 45 -- res = 0.17973E+02, tol = 0.76489E+01, time = 5.85 | CG iter. 46 -- res = 0.14020E+02, tol = 0.76489E+01, time = 6.14 | CG iter. 47 -- res = 0.11086E+02, tol = 0.76489E+01, time = 6.00 | CG iter. 48 -- res = 0.88248E+01, tol = 0.76489E+01, time = 5.87 | CG iter. 49 -- res = 0.71237E+01, tol = 0.76489E+01, time = 6.05 | CG iter. 50 -- res = 0.55281E+01, tol = 0.76489E+01, time = 6.42 | Final CG iter 51 -- res = 0.55281E+01, tol = 0.76489E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9931953.076 | Old band monopole 9110339.278 | Change to band monopole 821613.798 | Change to component monopole -821610.264 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.67689E+05, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.48421E+02, tol = 0.47627E+18, time = 2.39 | CG iter. 3 -- res = 0.19547E+01, tol = 0.47627E+18, time = 2.47 | CG iter. 4 -- res = 0.61708E-02, tol = 0.47627E+18, time = 2.33 | Final CG iter 5 -- res = 0.75369E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9931910.357 | (Sampled value in CG: 9971066.184 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.452566 | New value = 1.476960 | poltype: 2 pol: 1 CPU time specind = 2.1453857E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.543962 | New value = 1.479009 | poltype: 2 pol: 2 CPU time specind = 4.0388107E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.24110E+08, tol = 0.47548E+04, time = 7.03 | CG iter. 2 -- res = 0.51752E+07, tol = 0.47548E+04, time = 7.37 | CG iter. 3 -- res = 0.82063E+06, tol = 0.47548E+04, time = 7.75 | CG iter. 4 -- res = 0.34425E+06, tol = 0.47548E+04, time = 7.22 | CG iter. 5 -- res = 0.14872E+06, tol = 0.47548E+04, time = 6.68 | CG iter. 6 -- res = 0.78020E+05, tol = 0.47548E+04, time = 7.10 | CG iter. 7 -- res = 0.43132E+05, tol = 0.47548E+04, time = 6.55 | CG iter. 8 -- res = 0.20716E+05, tol = 0.47548E+04, time = 6.34 | CG iter. 9 -- res = 0.91536E+04, tol = 0.47548E+04, time = 6.71 | CG iter. 10 -- res = 0.37112E+04, tol = 0.47548E+04, time = 6.55 | CG iter. 11 -- res = 0.16675E+04, tol = 0.47548E+04, time = 6.77 | CG iter. 12 -- res = 0.85551E+03, tol = 0.47548E+04, time = 6.85 | CG iter. 13 -- res = 0.47970E+03, tol = 0.47548E+04, time = 6.79 | CG iter. 14 -- res = 0.26477E+03, tol = 0.47548E+04, time = 6.96 | CG iter. 15 -- res = 0.13535E+03, tol = 0.47548E+04, time = 6.78 | CG iter. 16 -- res = 0.65166E+02, tol = 0.47548E+04, time = 6.79 | CG iter. 17 -- res = 0.31521E+02, tol = 0.47548E+04, time = 7.08 | CG iter. 18 -- res = 0.16218E+02, tol = 0.47548E+04, time = 6.81 | CG iter. 19 -- res = 0.87351E+01, tol = 0.47548E+04, time = 6.86 | CG iter. 20 -- res = 0.48610E+01, tol = 0.47548E+04, time = 6.86 | CG iter. 21 -- res = 0.25960E+01, tol = 0.47548E+04, time = 6.60 | CG iter. 22 -- res = 0.13492E+01, tol = 0.47548E+04, time = 7.12 | CG iter. 23 -- res = 0.68137E+00, tol = 0.47548E+04, time = 6.81 | CG iter. 24 -- res = 0.35004E+00, tol = 0.47548E+04, time = 6.75 | CG iter. 25 -- res = 0.19480E+00, tol = 0.47548E+04, time = 7.07 | CG iter. 26 -- res = 0.10919E+00, tol = 0.47548E+04, time = 6.52 | CG iter. 27 -- res = 0.61042E-01, tol = 0.47548E+04, time = 6.77 | CG iter. 28 -- res = 0.32626E-01, tol = 0.47548E+04, time = 7.09 | CG iter. 29 -- res = 0.16820E-01, tol = 0.47548E+04, time = 6.66 | CG iter. 30 -- res = 0.88976E-02, tol = 0.47548E+04, time = 7.04 | CG iter. 31 -- res = 0.48492E-02, tol = 0.47548E+04, time = 6.63 | CG iter. 32 -- res = 0.27474E-02, tol = 0.47548E+04, time = 6.92 | CG iter. 33 -- res = 0.15729E-02, tol = 0.47548E+04, time = 13.50 | CG iter. 34 -- res = 0.84687E-03, tol = 0.47548E+04, time = 6.73 | CG iter. 35 -- res = 0.44073E-03, tol = 0.47548E+04, time = 6.82 | Final CG iter 36 -- res = 0.44073E-03, tol = 0.47548E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.819 2.750 | New value -1.710 | Old value 0.819 | Difference -2.529 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.68 | CG iter. 1 -- res = 0.33450E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.30654E+02, tol = 0.47627E+18, time = 2.13 | CG iter. 3 -- res = 0.97228E+00, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.85428E-03, tol = 0.47627E+18, time = 2.30 | Final CG iter 5 -- res = 0.11217E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9931910.357 | (Sampled value in CG: 9970066.855 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.694551 | New value = -3.592575 | poltype: 1 pol: 1 CPU time specind = 1.6735077E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.25150E+07, tol = 0.19726E+01, time = 2.88 | CG iter. 2 -- res = 0.82562E+06, tol = 0.19726E+01, time = 3.01 | CG iter. 3 -- res = 0.16575E+06, tol = 0.19726E+01, time = 2.59 | CG iter. 4 -- res = 0.78409E+05, tol = 0.19726E+01, time = 2.88 | CG iter. 5 -- res = 0.47276E+05, tol = 0.19726E+01, time = 2.59 | CG iter. 6 -- res = 0.21252E+05, tol = 0.19726E+01, time = 3.00 | CG iter. 7 -- res = 0.75653E+04, tol = 0.19726E+01, time = 2.84 | CG iter. 8 -- res = 0.30647E+04, tol = 0.19726E+01, time = 2.88 | CG iter. 9 -- res = 0.13088E+04, tol = 0.19726E+01, time = 2.84 | CG iter. 10 -- res = 0.52349E+03, tol = 0.19726E+01, time = 2.81 | CG iter. 11 -- res = 0.22908E+03, tol = 0.19726E+01, time = 2.48 | CG iter. 12 -- res = 0.11780E+03, tol = 0.19726E+01, time = 3.15 | CG iter. 13 -- res = 0.61199E+02, tol = 0.19726E+01, time = 2.75 | CG iter. 14 -- res = 0.30313E+02, tol = 0.19726E+01, time = 2.62 | CG iter. 15 -- res = 0.13289E+02, tol = 0.19726E+01, time = 2.90 | CG iter. 16 -- res = 0.54774E+01, tol = 0.19726E+01, time = 2.63 | CG iter. 17 -- res = 0.22479E+01, tol = 0.19726E+01, time = 2.69 | CG iter. 18 -- res = 0.10904E+01, tol = 0.19726E+01, time = 3.10 | CG iter. 19 -- res = 0.57878E+00, tol = 0.19726E+01, time = 2.61 | CG iter. 20 -- res = 0.28638E+00, tol = 0.19726E+01, time = 3.03 | CG iter. 21 -- res = 0.13824E+00, tol = 0.19726E+01, time = 2.77 | CG iter. 22 -- res = 0.63262E-01, tol = 0.19726E+01, time = 2.74 | CG iter. 23 -- res = 0.28316E-01, tol = 0.19726E+01, time = 3.85 | CG iter. 24 -- res = 0.13841E-01, tol = 0.19726E+01, time = 3.38 | CG iter. 25 -- res = 0.71554E-02, tol = 0.19726E+01, time = 3.09 | CG iter. 26 -- res = 0.35396E-02, tol = 0.19726E+01, time = 3.16 | CG iter. 27 -- res = 0.17616E-02, tol = 0.19726E+01, time = 3.00 | CG iter. 28 -- res = 0.84544E-03, tol = 0.19726E+01, time = 3.03 | CG iter. 29 -- res = 0.37462E-03, tol = 0.19726E+01, time = 2.85 | CG iter. 30 -- res = 0.17467E-03, tol = 0.19726E+01, time = 2.98 | CG iter. 31 -- res = 0.88838E-04, tol = 0.19726E+01, time = 2.69 | CG iter. 32 -- res = 0.44423E-04, tol = 0.19726E+01, time = 2.91 | CG iter. 33 -- res = 0.22622E-04, tol = 0.19726E+01, time = 3.04 | CG iter. 34 -- res = 0.10473E-04, tol = 0.19726E+01, time = 2.86 | CG iter. 35 -- res = 0.46624E-05, tol = 0.19726E+01, time = 3.13 | CG iter. 36 -- res = 0.22570E-05, tol = 0.19726E+01, time = 2.73 | CG iter. 37 -- res = 0.10754E-05, tol = 0.19726E+01, time = 2.92 | CG iter. 38 -- res = 0.55204E-06, tol = 0.19726E+01, time = 2.92 | CG iter. 39 -- res = 0.26457E-06, tol = 0.19726E+01, time = 2.78 | CG iter. 40 -- res = 0.12264E-06, tol = 0.19726E+01, time = 3.08 | CG iter. 41 -- res = 0.57622E-07, tol = 0.19726E+01, time = 2.67 | CG iter. 42 -- res = 0.26965E-07, tol = 0.19726E+01, time = 2.65 | CG iter. 43 -- res = 0.12600E-07, tol = 0.19726E+01, time = 2.47 | CG iter. 44 -- res = 0.61092E-08, tol = 0.19726E+01, time = 2.74 | CG iter. 45 -- res = 0.30161E-08, tol = 0.19726E+01, time = 2.78 | CG iter. 46 -- res = 0.14071E-08, tol = 0.19726E+01, time = 2.84 | CG iter. 47 -- res = 0.67259E-09, tol = 0.19726E+01, time = 2.89 | CG iter. 48 -- res = 0.31143E-09, tol = 0.19726E+01, time = 2.68 | CG iter. 49 -- res = 0.14962E-09, tol = 0.19726E+01, time = 3.00 | CG iter. 50 -- res = 0.68826E-10, tol = 0.19726E+01, time = 2.97 | Final CG iter 51 -- res = 0.68826E-10, tol = 0.19726E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 10.240 4.073 | New value -4.650 | Old value 10.240 | Difference -14.890 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.21747E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.81762E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.33330E+01, tol = 0.47627E+18, time = 2.17 | CG iter. 4 -- res = 0.64413E-02, tol = 0.47627E+18, time = 2.08 | Final CG iter 5 -- res = 0.28312E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9931910.357 | (Sampled value in CG: 9964707.680 ) | CPU time specind = 1226.893 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.68645E+08, tol = 0.57622E+04, time = 12.65 | CG iter. 2 -- res = 0.58868E+08, tol = 0.57622E+04, time = 12.37 | CG iter. 3 -- res = 0.15083E+08, tol = 0.57622E+04, time = 12.68 | CG iter. 4 -- res = 0.64154E+07, tol = 0.57622E+04, time = 18.50 | CG iter. 5 -- res = 0.38362E+07, tol = 0.57622E+04, time = 12.55 | CG iter. 6 -- res = 0.22148E+07, tol = 0.57622E+04, time = 12.44 | CG iter. 7 -- res = 0.12857E+07, tol = 0.57622E+04, time = 12.45 | CG iter. 8 -- res = 0.84911E+06, tol = 0.57622E+04, time = 12.56 | CG iter. 9 -- res = 0.55806E+06, tol = 0.57622E+04, time = 11.80 | CG iter. 10 -- res = 0.33739E+06, tol = 0.57622E+04, time = 12.12 | CG iter. 11 -- res = 0.18660E+06, tol = 0.57622E+04, time = 14.81 | CG iter. 12 -- res = 0.10329E+06, tol = 0.57622E+04, time = 12.70 | CG iter. 13 -- res = 0.58368E+05, tol = 0.57622E+04, time = 12.64 | CG iter. 14 -- res = 0.37819E+05, tol = 0.57622E+04, time = 12.75 | CG iter. 15 -- res = 0.28048E+05, tol = 0.57622E+04, time = 11.93 | CG iter. 16 -- res = 0.22751E+05, tol = 0.57622E+04, time = 12.76 | CG iter. 17 -- res = 0.19808E+05, tol = 0.57622E+04, time = 12.35 | CG iter. 18 -- res = 0.17304E+05, tol = 0.57622E+04, time = 12.30 | CG iter. 19 -- res = 0.14767E+05, tol = 0.57622E+04, time = 12.37 | CG iter. 20 -- res = 0.13209E+05, tol = 0.57622E+04, time = 12.50 | CG iter. 21 -- res = 0.12783E+05, tol = 0.57622E+04, time = 12.79 | CG iter. 22 -- res = 0.13859E+05, tol = 0.57622E+04, time = 12.01 | CG iter. 23 -- res = 0.15109E+05, tol = 0.57622E+04, time = 12.39 | CG iter. 24 -- res = 0.15350E+05, tol = 0.57622E+04, time = 12.47 | CG iter. 25 -- res = 0.14207E+05, tol = 0.57622E+04, time = 12.80 | CG iter. 26 -- res = 0.11649E+05, tol = 0.57622E+04, time = 12.32 | CG iter. 27 -- res = 0.87501E+04, tol = 0.57622E+04, time = 18.43 | CG iter. 28 -- res = 0.65559E+04, tol = 0.57622E+04, time = 12.23 | CG iter. 29 -- res = 0.52245E+04, tol = 0.57622E+04, time = 12.74 | CG iter. 30 -- res = 0.44554E+04, tol = 0.57622E+04, time = 12.53 | CG iter. 31 -- res = 0.37968E+04, tol = 0.57622E+04, time = 12.12 | CG iter. 32 -- res = 0.32536E+04, tol = 0.57622E+04, time = 12.69 | CG iter. 33 -- res = 0.27291E+04, tol = 0.57622E+04, time = 12.31 | CG iter. 34 -- res = 0.22666E+04, tol = 0.57622E+04, time = 13.92 | CG iter. 35 -- res = 0.19549E+04, tol = 0.57622E+04, time = 12.71 | CG iter. 36 -- res = 0.18079E+04, tol = 0.57622E+04, time = 12.43 | CG iter. 37 -- res = 0.17389E+04, tol = 0.57622E+04, time = 12.26 | CG iter. 38 -- res = 0.16440E+04, tol = 0.57622E+04, time = 12.08 | CG iter. 39 -- res = 0.15141E+04, tol = 0.57622E+04, time = 12.45 | CG iter. 40 -- res = 0.13112E+04, tol = 0.57622E+04, time = 12.22 | CG iter. 41 -- res = 0.10876E+04, tol = 0.57622E+04, time = 12.08 | CG iter. 42 -- res = 0.88229E+03, tol = 0.57622E+04, time = 12.23 | CG iter. 43 -- res = 0.73772E+03, tol = 0.57622E+04, time = 12.29 | CG iter. 44 -- res = 0.65696E+03, tol = 0.57622E+04, time = 12.43 | CG iter. 45 -- res = 0.59397E+03, tol = 0.57622E+04, time = 12.42 | CG iter. 46 -- res = 0.52966E+03, tol = 0.57622E+04, time = 12.56 | CG iter. 47 -- res = 0.45996E+03, tol = 0.57622E+04, time = 12.18 | CG iter. 48 -- res = 0.38748E+03, tol = 0.57622E+04, time = 12.00 | CG iter. 49 -- res = 0.33467E+03, tol = 0.57622E+04, time = 12.46 | CG iter. 50 -- res = 0.30598E+03, tol = 0.57622E+04, time = 12.43 | CG iter. 51 -- res = 0.28732E+03, tol = 0.57622E+04, time = 19.05 | CG iter. 52 -- res = 0.27835E+03, tol = 0.57622E+04, time = 12.69 | CG iter. 53 -- res = 0.26956E+03, tol = 0.57622E+04, time = 12.50 | CG iter. 54 -- res = 0.24827E+03, tol = 0.57622E+04, time = 12.64 | CG iter. 55 -- res = 0.22090E+03, tol = 0.57622E+04, time = 12.35 | CG iter. 56 -- res = 0.19094E+03, tol = 0.57622E+04, time = 12.39 | CG iter. 57 -- res = 0.16392E+03, tol = 0.57622E+04, time = 12.05 | CG iter. 58 -- res = 0.14492E+03, tol = 0.57622E+04, time = 13.42 | CG iter. 59 -- res = 0.13452E+03, tol = 0.57622E+04, time = 12.53 | CG iter. 60 -- res = 0.12474E+03, tol = 0.57622E+04, time = 12.12 | Final CG iter 61 -- res = 0.12474E+03, tol = 0.57622E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.841 ( -229.592 -2229.439 2511.718 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9522065.730 | Old band monopole 9931953.076 | Change to band monopole -409887.346 | Change to component monopole 409885.583 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.758 2.729 | New value 0.588 | Old value -1.758 | Difference 2.347 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.103 ( 7.217 9.709 -8.739 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.825 5.632 | New value 3.109 | Old value -5.825 | Difference 8.934 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.47551E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.65883E+02, tol = 0.47627E+18, time = 2.35 | CG iter. 3 -- res = 0.24500E+01, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.35821E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.40726E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9522024.773 | (Sampled value in CG: 9500378.322 ) | Chain = 1 -- chisq = 0.81608552E+09 | Chain = 1 -- wall time = 5766.146 sec Available RAM: MemAvailable: 379283804 kB Available Swap: SwapFree: 1111557164 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 404 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445534 | --> Sampling calibration, mode = relcal | relcal = 1.3424479E-02 7.4492226E-04 -1.5940901E-03 -1.2575312E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1719647 0.1895670 9410836.48706034 | BP delta = 0.1719647 0.1766256 9410880.48725555 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632408 | --> Sampling calibration, mode = relcal | relcal = -2.8210750E-03 -7.0461840E-04 1.6785807E-03 1.6127829E-03 -4.0680455E-04 6.4113445E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5569293 15215450.1349897 | BP delta = 0.0000000E+00 -0.5492500 15215450.8283486 | BP chisq diff = 0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18546834831610 | --> Sampling calibration, mode = relcal | relcal = -7.5505979E-02 -5.9117228E-02 9.2632450E-02 4.1990764E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8301476E-04 5.9264991E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5706E-05 | 2: delta_r/delta_0: 1.2241E-06 | 3: delta_s/delta_0: 1.9363E-07 | 4: delta_r/delta_0: 2.4227E-08 | 5: delta_s/delta_0: 6.3662E-09 | 6: delta_r/delta_0: 2.2960E-09 | 7: delta_s/delta_0: 7.4971E-10 | 8: delta_r/delta_0: 1.0755E-10 | 9: delta_s/delta_0: 4.3318E-10 | 10: delta_r/delta_0: 5.7475E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.529009211990698E-004 2.730694176891719E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5707E-05 | 2: delta_r/delta_0: 1.2241E-06 | 3: delta_s/delta_0: 1.9362E-07 | 4: delta_r/delta_0: 2.4223E-08 | 5: delta_s/delta_0: 6.3648E-09 | 6: delta_r/delta_0: 2.2957E-09 | 7: delta_s/delta_0: 7.4983E-10 | 8: delta_r/delta_0: 1.0753E-10 | 9: delta_s/delta_0: 4.3299E-10 | 10: delta_r/delta_0: 5.7424E-11 | Reached bicg-stab tolerance | BP delta = 7.4298620E-02 9.8176844E-02 3479887.48902663 | BP delta = 7.4298620E-02 9.8330535E-02 3481916.21584116 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02590180 | --> Sampling calibration, mode = relcal | relcal = -0.1066501 -9.5547155E-02 0.1448919 5.7305373E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0925949E-03 1.0719794E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.5725E-05 | 2: delta_r/delta_0: 1.2803E-06 | 3: delta_s/delta_0: 2.5614E-07 | 4: delta_r/delta_0: 3.9669E-08 | 5: delta_s/delta_0: 2.3421E-08 | 6: delta_r/delta_0: 6.5747E-09 | 7: delta_s/delta_0: 7.6631E-09 | 8: delta_r/delta_0: 1.3586E-09 | 9: delta_s/delta_0: 7.0159E-10 | 10: delta_r/delta_0: 2.4488E-10 | 11: delta_s/delta_0: 1.6485E-10 | 12: delta_r/delta_0: 7.1333E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.950517445304603E-003 2.811092176449140E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.5724E-05 | 2: delta_r/delta_0: 1.2803E-06 | 3: delta_s/delta_0: 2.5614E-07 | 4: delta_r/delta_0: 3.9660E-08 | 5: delta_s/delta_0: 2.3427E-08 | 6: delta_r/delta_0: 6.5745E-09 | 7: delta_s/delta_0: 7.6644E-09 | 8: delta_r/delta_0: 1.3585E-09 | 9: delta_s/delta_0: 7.0110E-10 | 10: delta_r/delta_0: 2.4520E-10 | 11: delta_s/delta_0: 1.6480E-10 | 12: delta_r/delta_0: 7.1028E-11 | Reached bicg-stab tolerance | BP delta = -0.2541845 -0.2194701 2841450.94839711 | BP delta = -0.2541845 -0.2203742 2841462.75456974 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81228717 | --> Sampling calibration, mode = relcal | relcal = 0.2954430 0.2249244 -0.2838191 -0.2365483 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2456970E-05 4.8531415E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.3683E-03 | 2: delta_r/delta_0: 1.5105E-04 | 3: delta_s/delta_0: 8.6200E-05 | 4: delta_r/delta_0: 6.1310E-06 | 5: delta_s/delta_0: 1.5604E-06 | 6: delta_r/delta_0: 4.4581E-07 | 7: delta_s/delta_0: 1.1478E-06 | 8: delta_r/delta_0: 1.0985E-07 | 9: delta_s/delta_0: 1.0152E-02 | 10: delta_r/delta_0: 3.4256E-03 | 11: delta_s/delta_0: 5.3224E-09 | 12: delta_r/delta_0: 1.5180E-09 | 13: delta_s/delta_0: 3.7085E-09 | 14: delta_r/delta_0: 8.4070E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.548234621997684E-002 4.021454653363560E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.3850E-03 | 2: delta_r/delta_0: 1.5145E-04 | 3: delta_s/delta_0: 8.6416E-05 | 4: delta_r/delta_0: 6.1471E-06 | 5: delta_s/delta_0: 1.5625E-06 | 6: delta_r/delta_0: 4.4592E-07 | 7: delta_s/delta_0: 1.1460E-06 | 8: delta_r/delta_0: 1.1002E-07 | 9: delta_s/delta_0: 2.7783E-02 | 10: delta_r/delta_0: 9.3552E-03 | 11: delta_s/delta_0: 5.3278E-09 | 12: delta_r/delta_0: 1.5182E-09 | 13: delta_s/delta_0: 3.6982E-09 | 14: delta_r/delta_0: 8.4040E-11 | Reached bicg-stab tolerance | BP delta = -0.1232104 -0.1487757 2827850.50635632 | BP delta = -0.1232104 -0.1456295 2827996.22679502 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95917706 | --> Sampling calibration, mode = relcal | relcal = 0.1064078 0.1396236 -0.1101911 -0.1358402 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0903187E-02 1.2330998E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1406E-04 | 2: delta_r/delta_0: 3.4932E-06 | 3: delta_s/delta_0: 3.7961E-06 | 4: delta_r/delta_0: 8.0685E-07 | 5: delta_s/delta_0: 1.4023E-07 | 6: delta_r/delta_0: 9.8744E-08 | 7: delta_s/delta_0: 1.0417E-06 | 8: delta_r/delta_0: 1.9186E-08 | 9: delta_s/delta_0: 1.3443E-08 | 10: delta_r/delta_0: 8.6573E-09 | 11: delta_s/delta_0: 2.1759E-09 | 12: delta_r/delta_0: 3.6162E-10 | 13: delta_s/delta_0: 3.2860E-10 | 14: delta_r/delta_0: 2.3358E-10 | 15: delta_s/delta_0: 4.6301E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.769584551518320E-002 3.697067403427959E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1406E-04 | 2: delta_r/delta_0: 3.4932E-06 | 3: delta_s/delta_0: 3.7961E-06 | 4: delta_r/delta_0: 8.0684E-07 | 5: delta_s/delta_0: 1.4022E-07 | 6: delta_r/delta_0: 9.8739E-08 | 7: delta_s/delta_0: 1.0415E-06 | 8: delta_r/delta_0: 1.9190E-08 | 9: delta_s/delta_0: 1.3443E-08 | 10: delta_r/delta_0: 8.6568E-09 | 11: delta_s/delta_0: 2.1752E-09 | 12: delta_r/delta_0: 3.6167E-10 | 13: delta_s/delta_0: 3.2867E-10 | 14: delta_r/delta_0: 2.3363E-10 | 15: delta_s/delta_0: 4.6293E-11 | Reached bicg-stab tolerance | BP delta = 3.5297023E-03 0.1193674 3004256.97298213 | BP delta = 3.5297023E-03 0.1329934 3004270.25765805 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172065 | New value = -3.196770 | poltype: 2 pol: 1 CPU time specind = 1.9551039E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.045506 | New value = -3.121889 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.091522 | New value = -3.051315 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.144021 | New value = -3.243845 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.199238 | New value = -3.168774 | poltype: 2 pol: 2 CPU time specind = 3.6479950E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.04 | CG iter. 1 -- res = 0.13546E+08, tol = 0.74104E+01, time = 5.85 | CG iter. 2 -- res = 0.31028E+06, tol = 0.74104E+01, time = 5.64 | CG iter. 3 -- res = 0.44118E+05, tol = 0.74104E+01, time = 5.61 | CG iter. 4 -- res = 0.19301E+05, tol = 0.74104E+01, time = 5.49 | CG iter. 5 -- res = 0.10097E+05, tol = 0.74104E+01, time = 5.72 | CG iter. 6 -- res = 0.53003E+04, tol = 0.74104E+01, time = 5.85 | CG iter. 7 -- res = 0.36013E+04, tol = 0.74104E+01, time = 6.02 | CG iter. 8 -- res = 0.24583E+04, tol = 0.74104E+01, time = 5.84 | CG iter. 9 -- res = 0.20629E+04, tol = 0.74104E+01, time = 5.68 | CG iter. 10 -- res = 0.21886E+04, tol = 0.74104E+01, time = 5.61 | CG iter. 11 -- res = 0.21103E+04, tol = 0.74104E+01, time = 5.67 | CG iter. 12 -- res = 0.15672E+04, tol = 0.74104E+01, time = 5.81 | CG iter. 13 -- res = 0.10705E+04, tol = 0.74104E+01, time = 5.56 | CG iter. 14 -- res = 0.81731E+03, tol = 0.74104E+01, time = 5.77 | CG iter. 15 -- res = 0.69781E+03, tol = 0.74104E+01, time = 6.71 | CG iter. 16 -- res = 0.56500E+03, tol = 0.74104E+01, time = 5.47 | CG iter. 17 -- res = 0.44795E+03, tol = 0.74104E+01, time = 5.76 | CG iter. 18 -- res = 0.36756E+03, tol = 0.74104E+01, time = 5.66 | CG iter. 19 -- res = 0.32820E+03, tol = 0.74104E+01, time = 6.11 | CG iter. 20 -- res = 0.26654E+03, tol = 0.74104E+01, time = 6.02 | CG iter. 21 -- res = 0.19201E+03, tol = 0.74104E+01, time = 6.10 | CG iter. 22 -- res = 0.14467E+03, tol = 0.74104E+01, time = 5.60 | CG iter. 23 -- res = 0.12476E+03, tol = 0.74104E+01, time = 5.86 | CG iter. 24 -- res = 0.10412E+03, tol = 0.74104E+01, time = 5.88 | CG iter. 25 -- res = 0.80242E+02, tol = 0.74104E+01, time = 6.30 | CG iter. 26 -- res = 0.59174E+02, tol = 0.74104E+01, time = 5.53 | CG iter. 27 -- res = 0.46643E+02, tol = 0.74104E+01, time = 5.63 | CG iter. 28 -- res = 0.36901E+02, tol = 0.74104E+01, time = 6.10 | CG iter. 29 -- res = 0.28091E+02, tol = 0.74104E+01, time = 5.80 | CG iter. 30 -- res = 0.20756E+02, tol = 0.74104E+01, time = 5.94 | CG iter. 31 -- res = 0.16125E+02, tol = 0.74104E+01, time = 6.32 | CG iter. 32 -- res = 0.13666E+02, tol = 0.74104E+01, time = 11.30 | CG iter. 33 -- res = 0.10974E+02, tol = 0.74104E+01, time = 5.90 | CG iter. 34 -- res = 0.79864E+01, tol = 0.74104E+01, time = 6.18 | CG iter. 35 -- res = 0.58964E+01, tol = 0.74104E+01, time = 5.81 | CG iter. 36 -- res = 0.49337E+01, tol = 0.74104E+01, time = 5.85 | CG iter. 37 -- res = 0.40274E+01, tol = 0.74104E+01, time = 6.03 | CG iter. 38 -- res = 0.30554E+01, tol = 0.74104E+01, time = 5.78 | CG iter. 39 -- res = 0.22893E+01, tol = 0.74104E+01, time = 6.12 | CG iter. 40 -- res = 0.18822E+01, tol = 0.74104E+01, time = 5.78 | CG iter. 41 -- res = 0.15639E+01, tol = 0.74104E+01, time = 5.99 | CG iter. 42 -- res = 0.12202E+01, tol = 0.74104E+01, time = 5.88 | CG iter. 43 -- res = 0.88280E+00, tol = 0.74104E+01, time = 5.69 | CG iter. 44 -- res = 0.68569E+00, tol = 0.74104E+01, time = 5.77 | CG iter. 45 -- res = 0.54349E+00, tol = 0.74104E+01, time = 5.89 | CG iter. 46 -- res = 0.42151E+00, tol = 0.74104E+01, time = 7.14 | CG iter. 47 -- res = 0.30806E+00, tol = 0.74104E+01, time = 5.97 | CG iter. 48 -- res = 0.22966E+00, tol = 0.74104E+01, time = 6.40 | CG iter. 49 -- res = 0.18240E+00, tol = 0.74104E+01, time = 5.89 | CG iter. 50 -- res = 0.14995E+00, tol = 0.74104E+01, time = 6.04 | Final CG iter 51 -- res = 0.14995E+00, tol = 0.74104E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8675291.905 | Old band monopole 9522065.730 | Change to band monopole -846773.825 | Change to component monopole 846770.183 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.45 | CG iter. 1 -- res = 0.68009E+04, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.19927E+02, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.42904E+00, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.67052E-03, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.94832E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8675254.590 | (Sampled value in CG: 8654943.935 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.476960 | New value = 1.462434 | poltype: 2 pol: 1 CPU time specind = 1.6902924E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.479009 | New value = 1.470868 | poltype: 2 pol: 2 CPU time specind = 1.7418146E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.24045E+08, tol = 0.47509E+04, time = 6.56 | CG iter. 2 -- res = 0.52583E+07, tol = 0.47509E+04, time = 6.84 | CG iter. 3 -- res = 0.85065E+06, tol = 0.47509E+04, time = 6.52 | CG iter. 4 -- res = 0.35190E+06, tol = 0.47509E+04, time = 6.97 | CG iter. 5 -- res = 0.14751E+06, tol = 0.47509E+04, time = 6.62 | CG iter. 6 -- res = 0.78263E+05, tol = 0.47509E+04, time = 6.73 | CG iter. 7 -- res = 0.43015E+05, tol = 0.47509E+04, time = 6.94 | CG iter. 8 -- res = 0.20890E+05, tol = 0.47509E+04, time = 6.68 | CG iter. 9 -- res = 0.92154E+04, tol = 0.47509E+04, time = 6.73 | CG iter. 10 -- res = 0.37288E+04, tol = 0.47509E+04, time = 13.40 | CG iter. 11 -- res = 0.16750E+04, tol = 0.47509E+04, time = 6.50 | CG iter. 12 -- res = 0.86721E+03, tol = 0.47509E+04, time = 6.65 | CG iter. 13 -- res = 0.48230E+03, tol = 0.47509E+04, time = 6.64 | CG iter. 14 -- res = 0.27193E+03, tol = 0.47509E+04, time = 6.54 | CG iter. 15 -- res = 0.14134E+03, tol = 0.47509E+04, time = 7.14 | CG iter. 16 -- res = 0.68938E+02, tol = 0.47509E+04, time = 6.58 | CG iter. 17 -- res = 0.32187E+02, tol = 0.47509E+04, time = 6.52 | CG iter. 18 -- res = 0.16177E+02, tol = 0.47509E+04, time = 6.90 | CG iter. 19 -- res = 0.87462E+01, tol = 0.47509E+04, time = 6.73 | CG iter. 20 -- res = 0.49718E+01, tol = 0.47509E+04, time = 7.24 | CG iter. 21 -- res = 0.27769E+01, tol = 0.47509E+04, time = 6.62 | CG iter. 22 -- res = 0.14308E+01, tol = 0.47509E+04, time = 6.66 | CG iter. 23 -- res = 0.70779E+00, tol = 0.47509E+04, time = 7.70 | CG iter. 24 -- res = 0.35870E+00, tol = 0.47509E+04, time = 6.88 | CG iter. 25 -- res = 0.19749E+00, tol = 0.47509E+04, time = 7.02 | CG iter. 26 -- res = 0.11386E+00, tol = 0.47509E+04, time = 6.77 | CG iter. 27 -- res = 0.62702E-01, tol = 0.47509E+04, time = 6.50 | CG iter. 28 -- res = 0.32327E-01, tol = 0.47509E+04, time = 7.14 | CG iter. 29 -- res = 0.16999E-01, tol = 0.47509E+04, time = 6.69 | CG iter. 30 -- res = 0.90127E-02, tol = 0.47509E+04, time = 6.69 | CG iter. 31 -- res = 0.50127E-02, tol = 0.47509E+04, time = 6.73 | CG iter. 32 -- res = 0.28019E-02, tol = 0.47509E+04, time = 6.75 | CG iter. 33 -- res = 0.16038E-02, tol = 0.47509E+04, time = 7.11 | CG iter. 34 -- res = 0.85342E-03, tol = 0.47509E+04, time = 6.43 | CG iter. 35 -- res = 0.43835E-03, tol = 0.47509E+04, time = 6.89 | Final CG iter 36 -- res = 0.43835E-03, tol = 0.47509E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.612 2.773 | New value -4.339 | Old value 0.612 | Difference -4.951 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.12660E+07, tol = 0.47627E+18, time = 2.13 | CG iter. 2 -- res = 0.21987E+02, tol = 0.47627E+18, time = 2.35 | CG iter. 3 -- res = 0.30104E+00, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.55086E-04, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.38079E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8675254.590 | (Sampled value in CG: 8657536.749 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.592575 | New value = -3.557544 | poltype: 1 pol: 1 CPU time specind = 1.6877174E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.20619E+07, tol = 0.23196E+01, time = 2.94 | CG iter. 2 -- res = 0.72169E+06, tol = 0.23196E+01, time = 2.80 | CG iter. 3 -- res = 0.12671E+06, tol = 0.23196E+01, time = 2.79 | CG iter. 4 -- res = 0.48336E+05, tol = 0.23196E+01, time = 2.66 | CG iter. 5 -- res = 0.27195E+05, tol = 0.23196E+01, time = 2.71 | CG iter. 6 -- res = 0.14981E+05, tol = 0.23196E+01, time = 2.86 | CG iter. 7 -- res = 0.62611E+04, tol = 0.23196E+01, time = 2.71 | CG iter. 8 -- res = 0.28202E+04, tol = 0.23196E+01, time = 2.89 | CG iter. 9 -- res = 0.11869E+04, tol = 0.23196E+01, time = 2.68 | CG iter. 10 -- res = 0.47341E+03, tol = 0.23196E+01, time = 2.64 | CG iter. 11 -- res = 0.20047E+03, tol = 0.23196E+01, time = 2.92 | CG iter. 12 -- res = 0.97499E+02, tol = 0.23196E+01, time = 2.78 | CG iter. 13 -- res = 0.50474E+02, tol = 0.23196E+01, time = 2.88 | CG iter. 14 -- res = 0.25336E+02, tol = 0.23196E+01, time = 2.53 | CG iter. 15 -- res = 0.11427E+02, tol = 0.23196E+01, time = 2.84 | CG iter. 16 -- res = 0.51138E+01, tol = 0.23196E+01, time = 2.97 | CG iter. 17 -- res = 0.21155E+01, tol = 0.23196E+01, time = 2.93 | CG iter. 18 -- res = 0.97522E+00, tol = 0.23196E+01, time = 3.00 | CG iter. 19 -- res = 0.47709E+00, tol = 0.23196E+01, time = 2.83 | CG iter. 20 -- res = 0.23638E+00, tol = 0.23196E+01, time = 2.76 | CG iter. 21 -- res = 0.12246E+00, tol = 0.23196E+01, time = 2.63 | CG iter. 22 -- res = 0.56806E-01, tol = 0.23196E+01, time = 3.01 | CG iter. 23 -- res = 0.25452E-01, tol = 0.23196E+01, time = 2.91 | CG iter. 24 -- res = 0.11514E-01, tol = 0.23196E+01, time = 2.80 | CG iter. 25 -- res = 0.56727E-02, tol = 0.23196E+01, time = 2.91 | CG iter. 26 -- res = 0.29915E-02, tol = 0.23196E+01, time = 2.80 | CG iter. 27 -- res = 0.15080E-02, tol = 0.23196E+01, time = 2.93 | CG iter. 28 -- res = 0.75212E-03, tol = 0.23196E+01, time = 3.21 | CG iter. 29 -- res = 0.32556E-03, tol = 0.23196E+01, time = 2.90 | CG iter. 30 -- res = 0.15366E-03, tol = 0.23196E+01, time = 2.87 | CG iter. 31 -- res = 0.76707E-04, tol = 0.23196E+01, time = 2.62 | CG iter. 32 -- res = 0.39048E-04, tol = 0.23196E+01, time = 2.98 | CG iter. 33 -- res = 0.18874E-04, tol = 0.23196E+01, time = 2.88 | CG iter. 34 -- res = 0.90023E-05, tol = 0.23196E+01, time = 2.88 | CG iter. 35 -- res = 0.42548E-05, tol = 0.23196E+01, time = 2.85 | CG iter. 36 -- res = 0.20624E-05, tol = 0.23196E+01, time = 2.55 | CG iter. 37 -- res = 0.93542E-06, tol = 0.23196E+01, time = 2.65 | CG iter. 38 -- res = 0.45467E-06, tol = 0.23196E+01, time = 2.77 | CG iter. 39 -- res = 0.23969E-06, tol = 0.23196E+01, time = 2.75 | CG iter. 40 -- res = 0.11452E-06, tol = 0.23196E+01, time = 2.84 | CG iter. 41 -- res = 0.54185E-07, tol = 0.23196E+01, time = 2.75 | CG iter. 42 -- res = 0.25011E-07, tol = 0.23196E+01, time = 2.85 | CG iter. 43 -- res = 0.11744E-07, tol = 0.23196E+01, time = 9.21 | CG iter. 44 -- res = 0.57433E-08, tol = 0.23196E+01, time = 2.66 | CG iter. 45 -- res = 0.28858E-08, tol = 0.23196E+01, time = 2.72 | CG iter. 46 -- res = 0.13395E-08, tol = 0.23196E+01, time = 2.55 | CG iter. 47 -- res = 0.67020E-09, tol = 0.23196E+01, time = 2.71 | CG iter. 48 -- res = 0.30664E-09, tol = 0.23196E+01, time = 2.91 | CG iter. 49 -- res = 0.14047E-09, tol = 0.23196E+01, time = 2.89 | CG iter. 50 -- res = 0.65705E-10, tol = 0.23196E+01, time = 2.63 | Final CG iter 51 -- res = 0.65705E-10, tol = 0.23196E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.188 6.110 | New value 7.809 | Old value 1.188 | Difference 6.621 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.43058E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.23473E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.88566E+00, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.10631E-02, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.21983E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8675254.590 | (Sampled value in CG: 8661169.057 ) | CPU time specind = 1213.814 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.68211E+08, tol = 0.57562E+04, time = 12.11 | CG iter. 2 -- res = 0.58237E+08, tol = 0.57562E+04, time = 11.72 | CG iter. 3 -- res = 0.14960E+08, tol = 0.57562E+04, time = 12.00 | CG iter. 4 -- res = 0.63392E+07, tol = 0.57562E+04, time = 12.24 | CG iter. 5 -- res = 0.37313E+07, tol = 0.57562E+04, time = 12.42 | CG iter. 6 -- res = 0.21674E+07, tol = 0.57562E+04, time = 12.12 | CG iter. 7 -- res = 0.12648E+07, tol = 0.57562E+04, time = 12.05 | CG iter. 8 -- res = 0.83945E+06, tol = 0.57562E+04, time = 12.98 | CG iter. 9 -- res = 0.54665E+06, tol = 0.57562E+04, time = 11.84 | CG iter. 10 -- res = 0.32349E+06, tol = 0.57562E+04, time = 12.38 | CG iter. 11 -- res = 0.17486E+06, tol = 0.57562E+04, time = 12.01 | CG iter. 12 -- res = 0.92161E+05, tol = 0.57562E+04, time = 12.27 | CG iter. 13 -- res = 0.48835E+05, tol = 0.57562E+04, time = 12.27 | CG iter. 14 -- res = 0.28172E+05, tol = 0.57562E+04, time = 11.81 | CG iter. 15 -- res = 0.17996E+05, tol = 0.57562E+04, time = 11.83 | CG iter. 16 -- res = 0.12275E+05, tol = 0.57562E+04, time = 17.92 | CG iter. 17 -- res = 0.84336E+04, tol = 0.57562E+04, time = 12.27 | CG iter. 18 -- res = 0.55662E+04, tol = 0.57562E+04, time = 11.77 | CG iter. 19 -- res = 0.35936E+04, tol = 0.57562E+04, time = 12.24 | CG iter. 20 -- res = 0.23703E+04, tol = 0.57562E+04, time = 12.29 | CG iter. 21 -- res = 0.16263E+04, tol = 0.57562E+04, time = 11.77 | CG iter. 22 -- res = 0.12527E+04, tol = 0.57562E+04, time = 12.19 | CG iter. 23 -- res = 0.11329E+04, tol = 0.57562E+04, time = 13.63 | CG iter. 24 -- res = 0.11592E+04, tol = 0.57562E+04, time = 12.48 | CG iter. 25 -- res = 0.11909E+04, tol = 0.57562E+04, time = 11.68 | CG iter. 26 -- res = 0.11811E+04, tol = 0.57562E+04, time = 12.24 | CG iter. 27 -- res = 0.11286E+04, tol = 0.57562E+04, time = 12.46 | CG iter. 28 -- res = 0.10418E+04, tol = 0.57562E+04, time = 11.93 | CG iter. 29 -- res = 0.98246E+03, tol = 0.57562E+04, time = 11.96 | CG iter. 30 -- res = 0.91691E+03, tol = 0.57562E+04, time = 11.54 | CG iter. 31 -- res = 0.86073E+03, tol = 0.57562E+04, time = 12.01 | CG iter. 32 -- res = 0.78714E+03, tol = 0.57562E+04, time = 11.95 | CG iter. 33 -- res = 0.66503E+03, tol = 0.57562E+04, time = 12.30 | CG iter. 34 -- res = 0.50986E+03, tol = 0.57562E+04, time = 12.17 | CG iter. 35 -- res = 0.38519E+03, tol = 0.57562E+04, time = 12.46 | CG iter. 36 -- res = 0.29738E+03, tol = 0.57562E+04, time = 12.07 | CG iter. 37 -- res = 0.26219E+03, tol = 0.57562E+04, time = 12.21 | CG iter. 38 -- res = 0.24876E+03, tol = 0.57562E+04, time = 11.56 | CG iter. 39 -- res = 0.23987E+03, tol = 0.57562E+04, time = 12.21 | CG iter. 40 -- res = 0.22828E+03, tol = 0.57562E+04, time = 18.83 | CG iter. 41 -- res = 0.20600E+03, tol = 0.57562E+04, time = 12.27 | CG iter. 42 -- res = 0.17994E+03, tol = 0.57562E+04, time = 12.18 | CG iter. 43 -- res = 0.16210E+03, tol = 0.57562E+04, time = 12.50 | CG iter. 44 -- res = 0.15624E+03, tol = 0.57562E+04, time = 12.46 | CG iter. 45 -- res = 0.15133E+03, tol = 0.57562E+04, time = 12.13 | CG iter. 46 -- res = 0.14540E+03, tol = 0.57562E+04, time = 12.23 | CG iter. 47 -- res = 0.13719E+03, tol = 0.57562E+04, time = 14.18 | CG iter. 48 -- res = 0.11987E+03, tol = 0.57562E+04, time = 12.86 | CG iter. 49 -- res = 0.10176E+03, tol = 0.57562E+04, time = 11.93 | CG iter. 50 -- res = 0.88329E+02, tol = 0.57562E+04, time = 12.36 | CG iter. 51 -- res = 0.79616E+02, tol = 0.57562E+04, time = 11.53 | CG iter. 52 -- res = 0.75904E+02, tol = 0.57562E+04, time = 12.13 | CG iter. 53 -- res = 0.74833E+02, tol = 0.57562E+04, time = 11.83 | CG iter. 54 -- res = 0.73574E+02, tol = 0.57562E+04, time = 12.34 | CG iter. 55 -- res = 0.70173E+02, tol = 0.57562E+04, time = 11.52 | CG iter. 56 -- res = 0.66405E+02, tol = 0.57562E+04, time = 12.65 | CG iter. 57 -- res = 0.63621E+02, tol = 0.57562E+04, time = 12.26 | CG iter. 58 -- res = 0.60933E+02, tol = 0.57562E+04, time = 11.88 | CG iter. 59 -- res = 0.58201E+02, tol = 0.57562E+04, time = 11.59 | CG iter. 60 -- res = 0.55803E+02, tol = 0.57562E+04, time = 12.16 | Final CG iter 61 -- res = 0.55803E+02, tol = 0.57562E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.820 ( -229.493 -2228.673 2510.919 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9990928.886 | Old band monopole 8675291.905 | Change to band monopole 1315636.981 | Change to component monopole -1315631.322 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.341 2.748 | New value 7.756 | Old value -4.341 | Difference 12.097 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.416 ( 7.153 7.507 -6.255 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.724 6.140 | New value 2.524 | Old value 13.724 | Difference -11.200 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.76465E+07, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.47184E+02, tol = 0.47627E+18, time = 2.44 | CG iter. 3 -- res = 0.19846E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.28844E-02, tol = 0.47627E+18, time = 3.95 | Final CG iter 5 -- res = 0.69858E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9990885.913 | (Sampled value in CG: 9967485.015 ) | Chain = 1 -- chisq = 0.81638355E+09 | Chain = 1 -- wall time = 6135.344 sec Available RAM: MemAvailable: 378750588 kB Available Swap: SwapFree: 1112310572 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 405 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447241 | --> Sampling calibration, mode = relcal | relcal = 1.3437020E-02 7.4441242E-04 -1.6058683E-03 -1.2575564E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1719647 0.1895670 97041180.7014851 | BP delta = 0.1626272 0.1802295 97041182.6035358 | BP chisq diff = 1.9, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632266 | --> Sampling calibration, mode = relcal | relcal = -2.8202301E-03 -7.0348824E-04 1.6784526E-03 1.6125754E-03 -4.0653793E-04 6.3922821E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5492500 15217817.5437706 | BP delta = 0.0000000E+00 -0.5421898 15217817.2182758 | BP chisq diff = -0.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18379905342215 | --> Sampling calibration, mode = relcal | relcal = -7.4402109E-02 -5.8194470E-02 9.1326445E-02 4.1270137E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9436776E-04 3.9699613E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3534E-05 | 2: delta_r/delta_0: 8.5939E-07 | 3: delta_s/delta_0: 2.4472E-07 | 4: delta_r/delta_0: 1.2759E-08 | 5: delta_s/delta_0: 8.9386E-09 | 6: delta_r/delta_0: 2.5042E-09 | 7: delta_s/delta_0: 1.0499E-09 | 8: delta_r/delta_0: 8.9434E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.786960777748118E-004 2.734725788975038E-005 | BP delta = 7.4298620E-02 9.8176844E-02 50485644.5523300 | BP delta = 6.7515910E-02 9.1394134E-02 50485643.3399879 | BP chisq diff = -1.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02573433 | --> Sampling calibration, mode = relcal | relcal = -0.1065698 -9.5510229E-02 0.1449122 5.7167817E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8677455E-03 1.7970182E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.2360E-05 | 2: delta_r/delta_0: 1.2328E-06 | 3: delta_s/delta_0: 2.4924E-07 | 4: delta_r/delta_0: 4.5165E-08 | 5: delta_s/delta_0: 2.0752E-08 | 6: delta_r/delta_0: 6.9833E-09 | 7: delta_s/delta_0: 1.1300E-08 | 8: delta_r/delta_0: 1.2077E-09 | 9: delta_s/delta_0: 1.0371E-09 | 10: delta_r/delta_0: 1.8625E-10 | 11: delta_s/delta_0: 2.4097E-09 | 12: delta_r/delta_0: 2.5237E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.802641201935825E-003 2.811538383369533E-005 | BP delta = -0.2541845 -0.2194701 57389464.9833639 | BP delta = -0.2716741 -0.2369597 57389467.1401342 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81201704 | --> Sampling calibration, mode = relcal | relcal = 0.2954141 0.2248645 -0.2837701 -0.2365085 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1007975E-04 5.4152631E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1625E-02 | 2: delta_r/delta_0: 2.7589E-04 | 3: delta_s/delta_0: 1.8290E-04 | 4: delta_r/delta_0: 1.2117E-05 | 5: delta_s/delta_0: 1.7254E-06 | 6: delta_r/delta_0: 5.4111E-07 | 7: delta_s/delta_0: 1.9716E-06 | 8: delta_r/delta_0: 1.5807E-07 | 9: delta_s/delta_0: 5.5345E-07 | 10: delta_r/delta_0: 2.1594E-07 | 11: delta_s/delta_0: 4.3395E-09 | 12: delta_r/delta_0: 2.0251E-09 | 13: delta_s/delta_0: 3.2851E-06 | 14: delta_r/delta_0: 1.3626E-07 | 15: delta_s/delta_0: 1.4561E-10 | 16: delta_r/delta_0: 6.1377E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.926652871817942E-002 4.022908280197609E-005 | BP delta = -0.1232104 -0.1487757 72488303.7659670 | BP delta = -5.1028762E-02 -7.6594047E-02 72488305.7751503 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95872906 | --> Sampling calibration, mode = relcal | relcal = 0.1064854 0.1394940 -0.1102658 -0.1357135 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0672431E-02 1.2648306E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8135E-04 | 2: delta_r/delta_0: 4.8173E-06 | 3: delta_s/delta_0: 1.5910E-05 | 4: delta_r/delta_0: 8.7527E-07 | 5: delta_s/delta_0: 1.9574E-07 | 6: delta_r/delta_0: 9.5824E-08 | 7: delta_s/delta_0: 5.8298E-07 | 8: delta_r/delta_0: 2.6335E-08 | 9: delta_s/delta_0: 7.0017E-09 | 10: delta_r/delta_0: 4.2396E-09 | 11: delta_s/delta_0: 1.1310E-09 | 12: delta_r/delta_0: 8.2525E-10 | 13: delta_s/delta_0: 1.7841E-10 | 14: delta_r/delta_0: 1.1064E-10 | 15: delta_s/delta_0: 2.5191E-09 | 16: delta_r/delta_0: 2.2054E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.926583196689692E-002 3.698842454926778E-005 | BP delta = 3.5297023E-03 0.1193674 72791803.3503244 | BP delta = 3.6612943E-02 0.1524507 72791801.6978749 | BP chisq diff = -1.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.196770 | New value = -3.225058 | poltype: 2 pol: 1 CPU time specind = 1.7447948E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.121889 | New value = -3.127386 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.051315 | New value = -3.174693 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.243845 | New value = -3.181463 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.168774 | New value = -3.115595 | poltype: 2 pol: 2 CPU time specind = 1.2913942E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.13535E+08, tol = 0.70309E+01, time = 5.78 | CG iter. 2 -- res = 0.31004E+06, tol = 0.70309E+01, time = 5.72 | CG iter. 3 -- res = 0.43499E+05, tol = 0.70309E+01, time = 6.17 | CG iter. 4 -- res = 0.19463E+05, tol = 0.70309E+01, time = 5.78 | CG iter. 5 -- res = 0.96809E+04, tol = 0.70309E+01, time = 5.71 | CG iter. 6 -- res = 0.52481E+04, tol = 0.70309E+01, time = 5.75 | CG iter. 7 -- res = 0.35195E+04, tol = 0.70309E+01, time = 5.95 | CG iter. 8 -- res = 0.25595E+04, tol = 0.70309E+01, time = 6.11 | CG iter. 9 -- res = 0.23321E+04, tol = 0.70309E+01, time = 5.87 | CG iter. 10 -- res = 0.25542E+04, tol = 0.70309E+01, time = 5.81 | CG iter. 11 -- res = 0.24405E+04, tol = 0.70309E+01, time = 5.85 | CG iter. 12 -- res = 0.18596E+04, tol = 0.70309E+01, time = 6.44 | CG iter. 13 -- res = 0.13170E+04, tol = 0.70309E+01, time = 9.44 | CG iter. 14 -- res = 0.10287E+04, tol = 0.70309E+01, time = 5.73 | CG iter. 15 -- res = 0.89539E+03, tol = 0.70309E+01, time = 5.87 | CG iter. 16 -- res = 0.74808E+03, tol = 0.70309E+01, time = 5.77 | CG iter. 17 -- res = 0.55953E+03, tol = 0.70309E+01, time = 5.66 | CG iter. 18 -- res = 0.46502E+03, tol = 0.70309E+01, time = 5.10 | CG iter. 19 -- res = 0.39614E+03, tol = 0.70309E+01, time = 5.95 | CG iter. 20 -- res = 0.31537E+03, tol = 0.70309E+01, time = 5.56 | CG iter. 21 -- res = 0.23008E+03, tol = 0.70309E+01, time = 6.04 | CG iter. 22 -- res = 0.17438E+03, tol = 0.70309E+01, time = 5.34 | CG iter. 23 -- res = 0.15257E+03, tol = 0.70309E+01, time = 5.73 | CG iter. 24 -- res = 0.13679E+03, tol = 0.70309E+01, time = 6.28 | CG iter. 25 -- res = 0.11176E+03, tol = 0.70309E+01, time = 5.56 | CG iter. 26 -- res = 0.90165E+02, tol = 0.70309E+01, time = 13.41 | CG iter. 27 -- res = 0.74525E+02, tol = 0.70309E+01, time = 5.82 | CG iter. 28 -- res = 0.62641E+02, tol = 0.70309E+01, time = 5.98 | CG iter. 29 -- res = 0.51399E+02, tol = 0.70309E+01, time = 6.84 | CG iter. 30 -- res = 0.40880E+02, tol = 0.70309E+01, time = 5.62 | CG iter. 31 -- res = 0.33129E+02, tol = 0.70309E+01, time = 5.89 | CG iter. 32 -- res = 0.29623E+02, tol = 0.70309E+01, time = 5.66 | CG iter. 33 -- res = 0.25160E+02, tol = 0.70309E+01, time = 5.80 | CG iter. 34 -- res = 0.19727E+02, tol = 0.70309E+01, time = 5.91 | CG iter. 35 -- res = 0.16129E+02, tol = 0.70309E+01, time = 5.45 | CG iter. 36 -- res = 0.14354E+02, tol = 0.70309E+01, time = 6.05 | CG iter. 37 -- res = 0.12588E+02, tol = 0.70309E+01, time = 5.83 | CG iter. 38 -- res = 0.10108E+02, tol = 0.70309E+01, time = 5.88 | CG iter. 39 -- res = 0.81113E+01, tol = 0.70309E+01, time = 5.90 | CG iter. 40 -- res = 0.67503E+01, tol = 0.70309E+01, time = 6.77 | CG iter. 41 -- res = 0.60030E+01, tol = 0.70309E+01, time = 6.83 | CG iter. 42 -- res = 0.50653E+01, tol = 0.70309E+01, time = 6.08 | CG iter. 43 -- res = 0.41774E+01, tol = 0.70309E+01, time = 5.95 | CG iter. 44 -- res = 0.37480E+01, tol = 0.70309E+01, time = 6.04 | CG iter. 45 -- res = 0.34553E+01, tol = 0.70309E+01, time = 5.92 | CG iter. 46 -- res = 0.29841E+01, tol = 0.70309E+01, time = 5.91 | CG iter. 47 -- res = 0.24711E+01, tol = 0.70309E+01, time = 5.87 | CG iter. 48 -- res = 0.20478E+01, tol = 0.70309E+01, time = 6.15 | CG iter. 49 -- res = 0.17881E+01, tol = 0.70309E+01, time = 5.76 | CG iter. 50 -- res = 0.15598E+01, tol = 0.70309E+01, time = 5.89 | Final CG iter 51 -- res = 0.15598E+01, tol = 0.70309E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10756324.547 | Old band monopole 9990928.886 | Change to band monopole 765395.661 | Change to component monopole -765392.369 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.51740E+05, tol = 0.47627E+18, time = 2.16 | CG iter. 2 -- res = 0.29591E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.12665E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.12751E-02, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.46490E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10756278.282 | (Sampled value in CG: 10741688.126 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.462434 | New value = 1.489935 | poltype: 2 pol: 1 CPU time specind = 3.5264969E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.470868 | New value = 1.518267 | poltype: 2 pol: 2 CPU time specind = 4.1379929E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.24180E+08, tol = 0.47653E+04, time = 6.74 | CG iter. 2 -- res = 0.54157E+07, tol = 0.47653E+04, time = 6.60 | CG iter. 3 -- res = 0.85893E+06, tol = 0.47653E+04, time = 7.00 | CG iter. 4 -- res = 0.35656E+06, tol = 0.47653E+04, time = 6.69 | CG iter. 5 -- res = 0.15252E+06, tol = 0.47653E+04, time = 11.40 | CG iter. 6 -- res = 0.79295E+05, tol = 0.47653E+04, time = 8.17 | CG iter. 7 -- res = 0.43796E+05, tol = 0.47653E+04, time = 7.01 | CG iter. 8 -- res = 0.21079E+05, tol = 0.47653E+04, time = 6.70 | CG iter. 9 -- res = 0.92079E+04, tol = 0.47653E+04, time = 6.23 | CG iter. 10 -- res = 0.37985E+04, tol = 0.47653E+04, time = 6.94 | CG iter. 11 -- res = 0.17272E+04, tol = 0.47653E+04, time = 6.53 | CG iter. 12 -- res = 0.88835E+03, tol = 0.47653E+04, time = 6.73 | CG iter. 13 -- res = 0.50365E+03, tol = 0.47653E+04, time = 6.53 | CG iter. 14 -- res = 0.28430E+03, tol = 0.47653E+04, time = 6.69 | CG iter. 15 -- res = 0.14834E+03, tol = 0.47653E+04, time = 6.26 | CG iter. 16 -- res = 0.69044E+02, tol = 0.47653E+04, time = 6.44 | CG iter. 17 -- res = 0.32316E+02, tol = 0.47653E+04, time = 6.93 | CG iter. 18 -- res = 0.16143E+02, tol = 0.47653E+04, time = 7.93 | CG iter. 19 -- res = 0.90166E+01, tol = 0.47653E+04, time = 7.14 | CG iter. 20 -- res = 0.50691E+01, tol = 0.47653E+04, time = 6.64 | CG iter. 21 -- res = 0.27389E+01, tol = 0.47653E+04, time = 6.78 | CG iter. 22 -- res = 0.14244E+01, tol = 0.47653E+04, time = 6.79 | CG iter. 23 -- res = 0.71983E+00, tol = 0.47653E+04, time = 6.59 | CG iter. 24 -- res = 0.36112E+00, tol = 0.47653E+04, time = 6.67 | CG iter. 25 -- res = 0.19675E+00, tol = 0.47653E+04, time = 6.55 | CG iter. 26 -- res = 0.11354E+00, tol = 0.47653E+04, time = 6.78 | CG iter. 27 -- res = 0.63666E-01, tol = 0.47653E+04, time = 6.80 | CG iter. 28 -- res = 0.34429E-01, tol = 0.47653E+04, time = 6.62 | CG iter. 29 -- res = 0.17832E-01, tol = 0.47653E+04, time = 7.08 | CG iter. 30 -- res = 0.94531E-02, tol = 0.47653E+04, time = 6.74 | CG iter. 31 -- res = 0.51437E-02, tol = 0.47653E+04, time = 7.23 | CG iter. 32 -- res = 0.28755E-02, tol = 0.47653E+04, time = 6.65 | CG iter. 33 -- res = 0.16185E-02, tol = 0.47653E+04, time = 6.65 | CG iter. 34 -- res = 0.87054E-03, tol = 0.47653E+04, time = 7.17 | CG iter. 35 -- res = 0.45214E-03, tol = 0.47653E+04, time = 6.69 | Final CG iter 36 -- res = 0.45214E-03, tol = 0.47653E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 7.766 2.747 | New value 2.140 | Old value 7.766 | Difference -5.626 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.35 | CG iter. 1 -- res = 0.16380E+07, tol = 0.47627E+18, time = 1.88 | CG iter. 2 -- res = 0.28691E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.52958E+00, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.78845E-03, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.25826E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10756278.282 | (Sampled value in CG: 10742242.640 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.557544 | New value = -3.560389 | poltype: 1 pol: 1 CPU time specind = 1.6754150E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.21687E+07, tol = 0.22381E+01, time = 2.84 | CG iter. 2 -- res = 0.72743E+06, tol = 0.22381E+01, time = 2.97 | CG iter. 3 -- res = 0.13275E+06, tol = 0.22381E+01, time = 2.70 | CG iter. 4 -- res = 0.54753E+05, tol = 0.22381E+01, time = 2.58 | CG iter. 5 -- res = 0.32388E+05, tol = 0.22381E+01, time = 2.90 | CG iter. 6 -- res = 0.16601E+05, tol = 0.22381E+01, time = 2.75 | CG iter. 7 -- res = 0.68654E+04, tol = 0.22381E+01, time = 2.88 | CG iter. 8 -- res = 0.30209E+04, tol = 0.22381E+01, time = 3.04 | CG iter. 9 -- res = 0.12776E+04, tol = 0.22381E+01, time = 2.71 | CG iter. 10 -- res = 0.49484E+03, tol = 0.22381E+01, time = 2.91 | CG iter. 11 -- res = 0.21956E+03, tol = 0.22381E+01, time = 2.77 | CG iter. 12 -- res = 0.10660E+03, tol = 0.22381E+01, time = 2.89 | CG iter. 13 -- res = 0.54145E+02, tol = 0.22381E+01, time = 2.89 | CG iter. 14 -- res = 0.26995E+02, tol = 0.22381E+01, time = 2.64 | CG iter. 15 -- res = 0.12914E+02, tol = 0.22381E+01, time = 2.63 | CG iter. 16 -- res = 0.55313E+01, tol = 0.22381E+01, time = 2.84 | CG iter. 17 -- res = 0.22928E+01, tol = 0.22381E+01, time = 2.47 | CG iter. 18 -- res = 0.10657E+01, tol = 0.22381E+01, time = 2.96 | CG iter. 19 -- res = 0.50897E+00, tol = 0.22381E+01, time = 2.71 | CG iter. 20 -- res = 0.26876E+00, tol = 0.22381E+01, time = 2.83 | CG iter. 21 -- res = 0.13246E+00, tol = 0.22381E+01, time = 2.61 | CG iter. 22 -- res = 0.61399E-01, tol = 0.22381E+01, time = 2.85 | CG iter. 23 -- res = 0.26586E-01, tol = 0.22381E+01, time = 2.60 | CG iter. 24 -- res = 0.12584E-01, tol = 0.22381E+01, time = 2.65 | CG iter. 25 -- res = 0.62519E-02, tol = 0.22381E+01, time = 2.71 | CG iter. 26 -- res = 0.32512E-02, tol = 0.22381E+01, time = 2.84 | CG iter. 27 -- res = 0.16270E-02, tol = 0.22381E+01, time = 2.57 | CG iter. 28 -- res = 0.80083E-03, tol = 0.22381E+01, time = 2.76 | CG iter. 29 -- res = 0.36194E-03, tol = 0.22381E+01, time = 2.91 | CG iter. 30 -- res = 0.16829E-03, tol = 0.22381E+01, time = 3.11 | CG iter. 31 -- res = 0.83279E-04, tol = 0.22381E+01, time = 4.13 | CG iter. 32 -- res = 0.40559E-04, tol = 0.22381E+01, time = 7.74 | CG iter. 33 -- res = 0.20269E-04, tol = 0.22381E+01, time = 2.85 | CG iter. 34 -- res = 0.10043E-04, tol = 0.22381E+01, time = 3.02 | CG iter. 35 -- res = 0.47116E-05, tol = 0.22381E+01, time = 2.80 | CG iter. 36 -- res = 0.21531E-05, tol = 0.22381E+01, time = 2.60 | CG iter. 37 -- res = 0.10522E-05, tol = 0.22381E+01, time = 2.75 | CG iter. 38 -- res = 0.52478E-06, tol = 0.22381E+01, time = 2.91 | CG iter. 39 -- res = 0.26515E-06, tol = 0.22381E+01, time = 2.90 | CG iter. 40 -- res = 0.12949E-06, tol = 0.22381E+01, time = 2.90 | CG iter. 41 -- res = 0.62455E-07, tol = 0.22381E+01, time = 2.99 | CG iter. 42 -- res = 0.28701E-07, tol = 0.22381E+01, time = 2.81 | CG iter. 43 -- res = 0.13107E-07, tol = 0.22381E+01, time = 2.41 | CG iter. 44 -- res = 0.63075E-08, tol = 0.22381E+01, time = 2.71 | CG iter. 45 -- res = 0.31535E-08, tol = 0.22381E+01, time = 2.73 | CG iter. 46 -- res = 0.15530E-08, tol = 0.22381E+01, time = 2.64 | CG iter. 47 -- res = 0.75073E-09, tol = 0.22381E+01, time = 2.70 | CG iter. 48 -- res = 0.35829E-09, tol = 0.22381E+01, time = 2.67 | CG iter. 49 -- res = 0.16879E-09, tol = 0.22381E+01, time = 2.46 | CG iter. 50 -- res = 0.77054E-10, tol = 0.22381E+01, time = 3.15 | Final CG iter 51 -- res = 0.77054E-10, tol = 0.22381E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.589 6.435 | New value 3.741 | Old value 0.589 | Difference 3.152 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.10297E+05, tol = 0.47627E+18, time = 3.10 | CG iter. 2 -- res = 0.21772E+02, tol = 0.47627E+18, time = 2.36 | CG iter. 3 -- res = 0.39700E+00, tol = 0.47627E+18, time = 2.20 | CG iter. 4 -- res = 0.69015E-03, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.15145E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10756278.282 | (Sampled value in CG: 10743072.450 ) | CPU time specind = 1220.511 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.68750E+08, tol = 0.57661E+04, time = 12.18 | CG iter. 2 -- res = 0.58635E+08, tol = 0.57661E+04, time = 12.54 | CG iter. 3 -- res = 0.14746E+08, tol = 0.57661E+04, time = 11.82 | CG iter. 4 -- res = 0.62329E+07, tol = 0.57661E+04, time = 12.04 | CG iter. 5 -- res = 0.36883E+07, tol = 0.57661E+04, time = 12.05 | CG iter. 6 -- res = 0.21734E+07, tol = 0.57661E+04, time = 12.29 | CG iter. 7 -- res = 0.13150E+07, tol = 0.57661E+04, time = 12.59 | CG iter. 8 -- res = 0.85026E+06, tol = 0.57661E+04, time = 12.06 | CG iter. 9 -- res = 0.55080E+06, tol = 0.57661E+04, time = 12.59 | CG iter. 10 -- res = 0.32197E+06, tol = 0.57661E+04, time = 12.12 | CG iter. 11 -- res = 0.17003E+06, tol = 0.57661E+04, time = 12.31 | CG iter. 12 -- res = 0.90219E+05, tol = 0.57661E+04, time = 12.37 | CG iter. 13 -- res = 0.48151E+05, tol = 0.57661E+04, time = 19.04 | CG iter. 14 -- res = 0.27820E+05, tol = 0.57661E+04, time = 11.96 | CG iter. 15 -- res = 0.17674E+05, tol = 0.57661E+04, time = 12.27 | CG iter. 16 -- res = 0.12084E+05, tol = 0.57661E+04, time = 11.92 | CG iter. 17 -- res = 0.84659E+04, tol = 0.57661E+04, time = 11.93 | CG iter. 18 -- res = 0.56042E+04, tol = 0.57661E+04, time = 12.20 | CG iter. 19 -- res = 0.36042E+04, tol = 0.57661E+04, time = 12.53 | CG iter. 20 -- res = 0.23917E+04, tol = 0.57661E+04, time = 13.43 | CG iter. 21 -- res = 0.16597E+04, tol = 0.57661E+04, time = 12.09 | CG iter. 22 -- res = 0.12697E+04, tol = 0.57661E+04, time = 11.84 | CG iter. 23 -- res = 0.11397E+04, tol = 0.57661E+04, time = 12.35 | CG iter. 24 -- res = 0.11319E+04, tol = 0.57661E+04, time = 12.24 | CG iter. 25 -- res = 0.11706E+04, tol = 0.57661E+04, time = 11.95 | CG iter. 26 -- res = 0.11755E+04, tol = 0.57661E+04, time = 12.11 | CG iter. 27 -- res = 0.11173E+04, tol = 0.57661E+04, time = 12.48 | CG iter. 28 -- res = 0.10128E+04, tol = 0.57661E+04, time = 12.71 | CG iter. 29 -- res = 0.93856E+03, tol = 0.57661E+04, time = 12.60 | CG iter. 30 -- res = 0.89671E+03, tol = 0.57661E+04, time = 11.77 | CG iter. 31 -- res = 0.87068E+03, tol = 0.57661E+04, time = 12.27 | CG iter. 32 -- res = 0.78915E+03, tol = 0.57661E+04, time = 11.93 | CG iter. 33 -- res = 0.65975E+03, tol = 0.57661E+04, time = 12.08 | CG iter. 34 -- res = 0.51731E+03, tol = 0.57661E+04, time = 12.54 | CG iter. 35 -- res = 0.39178E+03, tol = 0.57661E+04, time = 12.55 | CG iter. 36 -- res = 0.31434E+03, tol = 0.57661E+04, time = 12.55 | CG iter. 37 -- res = 0.27968E+03, tol = 0.57661E+04, time = 18.47 | CG iter. 38 -- res = 0.24942E+03, tol = 0.57661E+04, time = 12.03 | CG iter. 39 -- res = 0.22657E+03, tol = 0.57661E+04, time = 12.71 | CG iter. 40 -- res = 0.21010E+03, tol = 0.57661E+04, time = 12.01 | CG iter. 41 -- res = 0.18966E+03, tol = 0.57661E+04, time = 12.05 | CG iter. 42 -- res = 0.16894E+03, tol = 0.57661E+04, time = 12.44 | CG iter. 43 -- res = 0.15414E+03, tol = 0.57661E+04, time = 12.45 | CG iter. 44 -- res = 0.14895E+03, tol = 0.57661E+04, time = 13.69 | CG iter. 45 -- res = 0.14432E+03, tol = 0.57661E+04, time = 12.73 | CG iter. 46 -- res = 0.13568E+03, tol = 0.57661E+04, time = 12.62 | CG iter. 47 -- res = 0.12335E+03, tol = 0.57661E+04, time = 11.84 | CG iter. 48 -- res = 0.10622E+03, tol = 0.57661E+04, time = 11.95 | CG iter. 49 -- res = 0.88409E+02, tol = 0.57661E+04, time = 12.04 | CG iter. 50 -- res = 0.74675E+02, tol = 0.57661E+04, time = 11.98 | CG iter. 51 -- res = 0.68414E+02, tol = 0.57661E+04, time = 12.04 | CG iter. 52 -- res = 0.66242E+02, tol = 0.57661E+04, time = 12.36 | CG iter. 53 -- res = 0.66872E+02, tol = 0.57661E+04, time = 12.04 | CG iter. 54 -- res = 0.63166E+02, tol = 0.57661E+04, time = 12.33 | CG iter. 55 -- res = 0.56771E+02, tol = 0.57661E+04, time = 11.92 | CG iter. 56 -- res = 0.52419E+02, tol = 0.57661E+04, time = 12.27 | CG iter. 57 -- res = 0.49086E+02, tol = 0.57661E+04, time = 12.28 | CG iter. 58 -- res = 0.47316E+02, tol = 0.57661E+04, time = 12.33 | CG iter. 59 -- res = 0.47725E+02, tol = 0.57661E+04, time = 11.62 | CG iter. 60 -- res = 0.46660E+02, tol = 0.57661E+04, time = 12.30 | Final CG iter 61 -- res = 0.46660E+02, tol = 0.57661E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.893 ( -229.469 -2229.316 2511.598 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9257682.247 | Old band monopole 10756324.547 | Change to band monopole -1498642.300 | Change to component monopole 1498635.854 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.154 2.772 | New value -2.327 | Old value 2.154 | Difference -4.481 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.255 ( 7.119 8.773 -7.577 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.681 5.960 | New value -9.491 | Old value 7.681 | Difference -17.173 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.11136E+07, tol = 0.47627E+18, time = 1.76 | CG iter. 2 -- res = 0.42078E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.17731E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.29721E-02, tol = 0.47627E+18, time = 2.29 | Final CG iter 5 -- res = 0.17576E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9257642.427 | (Sampled value in CG: 9234502.799 ) | Chain = 1 -- chisq = 0.81599955E+09 | Chain = 1 -- wall time = 5739.228 sec Available RAM: MemAvailable: 379064412 kB Available Swap: SwapFree: 1112947500 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 406 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06446700 | --> Sampling calibration, mode = relcal | relcal = 1.3444325E-02 7.4164057E-04 -1.6114549E-03 -1.2574511E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1626272 0.1802295 9407045.10950490 | BP delta = 0.1626272 0.1758582 9407089.37253875 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632276 | --> Sampling calibration, mode = relcal | relcal = -2.8206508E-03 -7.0371456E-04 1.6782462E-03 1.6152486E-03 -4.0844173E-04 6.3931214E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5421898 15218947.9878922 | BP delta = 0.0000000E+00 -0.5424984 15218949.6940560 | BP chisq diff = 1.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103541 | --> Sampling calibration, mode = relcal | relcal = 3.7087541E-02 1.3723007E-02 5.7459534E-03 -7.1616271E-03 8.2495613E-03 2.3916955E-03 -7.6011550E-03 -7.1797092E-03 -1.5302767E-02 -1.4798041E-02 -3.0568601E-03 -1.2097602E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.219076 132211067.172385 | BP delta = 0.0000000E+00 -1.217204 132211068.132600 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17824942423460 | --> Sampling calibration, mode = relcal | relcal = -7.3411159E-02 -5.7293404E-02 9.0110302E-02 4.0594257E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.8220824E-05 2.2407675E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.6471E-04 | 2: delta_r/delta_0: 6.4445E-06 | 3: delta_s/delta_0: 1.6515E-07 | 4: delta_r/delta_0: 2.9256E-08 | 5: delta_s/delta_0: 9.2334E-09 | 6: delta_r/delta_0: 3.0198E-09 | 7: delta_s/delta_0: 3.8954E-10 | 8: delta_r/delta_0: 1.4700E-10 | 9: delta_s/delta_0: 5.5884E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.669751640189505E-004 2.747714544137509E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.6470E-04 | 2: delta_r/delta_0: 6.4451E-06 | 3: delta_s/delta_0: 1.6515E-07 | 4: delta_r/delta_0: 2.9257E-08 | 5: delta_s/delta_0: 9.2338E-09 | 6: delta_r/delta_0: 3.0201E-09 | 7: delta_s/delta_0: 3.8958E-10 | 8: delta_r/delta_0: 1.4701E-10 | 9: delta_s/delta_0: 5.5889E-11 | Reached bicg-stab tolerance | BP delta = 6.7515910E-02 9.1394134E-02 3607011.59119255 | BP delta = 6.7515910E-02 9.1697477E-02 3604202.38651841 | BP chisq diff = -2809.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02578511 | --> Sampling calibration, mode = relcal | relcal = -0.1066142 -9.5489182E-02 0.1448166 5.7286788E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7940106E-03 1.4607077E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.6220E-05 | 2: delta_r/delta_0: 1.4358E-06 | 3: delta_s/delta_0: 2.5268E-07 | 4: delta_r/delta_0: 3.8113E-08 | 5: delta_s/delta_0: 2.6133E-08 | 6: delta_r/delta_0: 6.8222E-09 | 7: delta_s/delta_0: 5.4017E-09 | 8: delta_r/delta_0: 1.7997E-09 | 9: delta_s/delta_0: 8.2547E-10 | 10: delta_r/delta_0: 6.2178E-10 | 11: delta_s/delta_0: 2.5585E-09 | 12: delta_r/delta_0: 6.3184E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.007970297709334E-002 2.811403656513596E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.6220E-05 | 2: delta_r/delta_0: 1.4356E-06 | 3: delta_s/delta_0: 2.5264E-07 | 4: delta_r/delta_0: 3.8018E-08 | 5: delta_s/delta_0: 2.6180E-08 | 6: delta_r/delta_0: 6.8175E-09 | 7: delta_s/delta_0: 5.4014E-09 | 8: delta_r/delta_0: 1.7982E-09 | 9: delta_s/delta_0: 8.2462E-10 | 10: delta_r/delta_0: 6.2114E-10 | 11: delta_s/delta_0: 2.5507E-09 | 12: delta_r/delta_0: 6.3211E-11 | Reached bicg-stab tolerance | BP delta = -0.2541845 -0.2194701 2841518.70099032 | BP delta = -0.2541845 -0.2206378 2841706.53885347 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81207211 | --> Sampling calibration, mode = relcal | relcal = 0.2954683 0.2248006 -0.2837188 -0.2365502 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2200358E-04 4.9869698E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0628E-01 | 2: delta_r/delta_0: 4.8666E-03 | 3: delta_s/delta_0: 4.2392E-01 | 4: delta_r/delta_0: 1.9727E-02 | 5: delta_s/delta_0: 2.3963E-06 | 6: delta_r/delta_0: 9.0025E-07 | 7: delta_s/delta_0: 2.4458E-06 | 8: delta_r/delta_0: 3.2334E-07 | 9: delta_s/delta_0: 1.7038E-05 | 10: delta_r/delta_0: 4.4483E-06 | 11: delta_s/delta_0: 7.1444E-09 | 12: delta_r/delta_0: 2.7768E-09 | 13: delta_s/delta_0: 8.3076E-08 | 14: delta_r/delta_0: 1.0389E-09 | 15: delta_s/delta_0: 1.9476E-10 | 16: delta_r/delta_0: 9.3450E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.458188956377046E-002 4.022562951610695E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.0619E-01 | 2: delta_r/delta_0: 4.8645E-03 | 3: delta_s/delta_0: 4.2323E-01 | 4: delta_r/delta_0: 1.9695E-02 | 5: delta_s/delta_0: 2.3960E-06 | 6: delta_r/delta_0: 9.0016E-07 | 7: delta_s/delta_0: 2.4459E-06 | 8: delta_r/delta_0: 3.2328E-07 | 9: delta_s/delta_0: 1.7037E-05 | 10: delta_r/delta_0: 4.4486E-06 | 11: delta_s/delta_0: 7.1439E-09 | 12: delta_r/delta_0: 2.7766E-09 | 13: delta_s/delta_0: 8.3080E-08 | 14: delta_r/delta_0: 1.0390E-09 | 15: delta_s/delta_0: 1.9475E-10 | 16: delta_r/delta_0: 9.3444E-11 | Reached bicg-stab tolerance | BP delta = -0.1232104 -0.1487757 2827507.61175787 | BP delta = -0.1232104 -0.1470222 2827507.33621106 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95889715 | --> Sampling calibration, mode = relcal | relcal = 0.1064763 0.1394334 -0.1101326 -0.1357770 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0536479E-02 1.3060831E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6326E-04 | 2: delta_r/delta_0: 4.4086E-06 | 3: delta_s/delta_0: 2.0814E-05 | 4: delta_r/delta_0: 2.1003E-06 | 5: delta_s/delta_0: 1.6635E-07 | 6: delta_r/delta_0: 9.9838E-08 | 7: delta_s/delta_0: 6.6294E-07 | 8: delta_r/delta_0: 2.3104E-08 | 9: delta_s/delta_0: 9.9629E-08 | 10: delta_r/delta_0: 3.7093E-08 | 11: delta_s/delta_0: 8.5213E-10 | 12: delta_r/delta_0: 6.3915E-10 | 13: delta_s/delta_0: 7.0407E-08 | 14: delta_r/delta_0: 1.1862E-09 | 15: delta_s/delta_0: 5.3725E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.892761428371781E-002 3.698144732974417E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6325E-04 | 2: delta_r/delta_0: 4.4086E-06 | 3: delta_s/delta_0: 2.0818E-05 | 4: delta_r/delta_0: 2.1010E-06 | 5: delta_s/delta_0: 1.6636E-07 | 6: delta_r/delta_0: 9.9846E-08 | 7: delta_s/delta_0: 6.6356E-07 | 8: delta_r/delta_0: 2.3101E-08 | 9: delta_s/delta_0: 9.8985E-08 | 10: delta_r/delta_0: 3.6932E-08 | 11: delta_s/delta_0: 8.5210E-10 | 12: delta_r/delta_0: 6.3905E-10 | 13: delta_s/delta_0: 7.4569E-08 | 14: delta_r/delta_0: 1.2814E-09 | 15: delta_s/delta_0: 5.3706E-11 | Reached bicg-stab tolerance | BP delta = 3.6612943E-02 0.1524507 3004005.56114577 | BP delta = 3.6612943E-02 0.1381600 3003988.59450918 | BP chisq diff = -17.0, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52163578 | --> Sampling calibration, mode = relcal | relcal = -5.1087771E-02 -3.7177103E-03 2.7325913E-02 2.7479568E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.4344122E-04 1.4810467E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0708E-05 | 2: delta_r/delta_0: 4.4517E-06 | 3: delta_s/delta_0: 5.1644E-07 | 4: delta_r/delta_0: 1.5188E-07 | 5: delta_s/delta_0: 5.2677E-07 | 6: delta_r/delta_0: 5.0941E-08 | 7: delta_s/delta_0: 2.2309E-08 | 8: delta_r/delta_0: 6.9094E-09 | 9: delta_s/delta_0: 3.4370E-08 | 10: delta_r/delta_0: 3.7927E-09 | 11: delta_s/delta_0: 8.5754E-09 | 12: delta_r/delta_0: 2.8299E-09 | 13: delta_s/delta_0: 4.4280E-10 | 14: delta_r/delta_0: 1.4092E-10 | 15: delta_s/delta_0: 1.8806E-10 | 16: delta_r/delta_0: 3.2858E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.207330375538225E-002 5.482657981987369E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.0708E-05 | 2: delta_r/delta_0: 4.4518E-06 | 3: delta_s/delta_0: 5.1647E-07 | 4: delta_r/delta_0: 1.5188E-07 | 5: delta_s/delta_0: 5.2686E-07 | 6: delta_r/delta_0: 5.0956E-08 | 7: delta_s/delta_0: 2.2309E-08 | 8: delta_r/delta_0: 6.9096E-09 | 9: delta_s/delta_0: 3.4373E-08 | 10: delta_r/delta_0: 3.7929E-09 | 11: delta_s/delta_0: 8.5554E-09 | 12: delta_r/delta_0: 2.8230E-09 | 13: delta_s/delta_0: 4.4264E-10 | 14: delta_r/delta_0: 1.4082E-10 | 15: delta_s/delta_0: 1.8790E-10 | 16: delta_r/delta_0: 3.2816E-11 | Reached bicg-stab tolerance | BP delta = 9.7403433E-03 0.1011487 2435190.27461274 | BP delta = 9.7403433E-03 9.5275939E-02 2435181.88403161 | BP chisq diff = -8.4, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42160837 | --> Sampling calibration, mode = relcal | relcal = 4.5627028E-02 3.9698113E-02 -2.8329318E-02 -5.6995817E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1182077E-03 4.7355178E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.0380E-05 | 2: delta_r/delta_0: 3.8453E-06 | 3: delta_s/delta_0: 3.6079E-06 | 4: delta_r/delta_0: 5.9542E-07 | 5: delta_s/delta_0: 5.8086E-08 | 6: delta_r/delta_0: 3.6098E-08 | 7: delta_s/delta_0: 2.8752E-08 | 8: delta_r/delta_0: 1.4056E-08 | 9: delta_s/delta_0: 3.4802E-09 | 10: delta_r/delta_0: 7.4384E-10 | 11: delta_s/delta_0: 7.7563E-10 | 12: delta_r/delta_0: 3.6025E-10 | 13: delta_s/delta_0: 4.4439E-09 | 14: delta_r/delta_0: 6.7243E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.467045548941589E-002 4.995510502734443E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.0380E-05 | 2: delta_r/delta_0: 3.8453E-06 | 3: delta_s/delta_0: 3.6079E-06 | 4: delta_r/delta_0: 5.9543E-07 | 5: delta_s/delta_0: 5.8086E-08 | 6: delta_r/delta_0: 3.6098E-08 | 7: delta_s/delta_0: 2.8753E-08 | 8: delta_r/delta_0: 1.4056E-08 | 9: delta_s/delta_0: 3.4801E-09 | 10: delta_r/delta_0: 7.4388E-10 | 11: delta_s/delta_0: 7.7567E-10 | 12: delta_r/delta_0: 3.6024E-10 | 13: delta_s/delta_0: 4.4490E-09 | 14: delta_r/delta_0: 6.7201E-11 | Reached bicg-stab tolerance | BP delta = -1.7925974E-02 -0.1395883 2321814.10500347 | BP delta = -1.7925974E-02 -0.1256593 2321817.25370349 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28177868 | --> Sampling calibration, mode = relcal | relcal = 2.4171557E-02 4.5279317E-02 -2.3441158E-02 -4.6009716E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0949921E-02 3.9962013E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0576E-04 | 2: delta_r/delta_0: 8.7005E-06 | 3: delta_s/delta_0: 1.4389E-06 | 4: delta_r/delta_0: 1.8896E-07 | 5: delta_s/delta_0: 7.2564E-08 | 6: delta_r/delta_0: 1.6124E-08 | 7: delta_s/delta_0: 7.5754E-09 | 8: delta_r/delta_0: 4.7088E-09 | 9: delta_s/delta_0: 6.6185E-08 | 10: delta_r/delta_0: 4.6146E-09 | 11: delta_s/delta_0: 1.6630E-09 | 12: delta_r/delta_0: 9.5248E-10 | 13: delta_s/delta_0: 1.7362E-10 | 14: delta_r/delta_0: 1.1852E-10 | 15: delta_s/delta_0: 8.8037E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.940046737131766E-003 7.839616933153991E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0576E-04 | 2: delta_r/delta_0: 8.7006E-06 | 3: delta_s/delta_0: 1.4389E-06 | 4: delta_r/delta_0: 1.8897E-07 | 5: delta_s/delta_0: 7.2562E-08 | 6: delta_r/delta_0: 1.6125E-08 | 7: delta_s/delta_0: 7.5758E-09 | 8: delta_r/delta_0: 4.7089E-09 | 9: delta_s/delta_0: 6.6184E-08 | 10: delta_r/delta_0: 4.6146E-09 | 11: delta_s/delta_0: 1.6629E-09 | 12: delta_r/delta_0: 9.5241E-10 | 13: delta_s/delta_0: 1.7362E-10 | 14: delta_r/delta_0: 1.1851E-10 | 15: delta_s/delta_0: 8.8039E-11 | Reached bicg-stab tolerance | BP delta = -0.4530262 -0.6344338 2490009.31041615 | BP delta = -0.4530262 -0.6489024 2490001.76313256 | BP chisq diff = -7.5, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29405549 | --> Sampling calibration, mode = relcal | relcal = 5.7800399E-04 1.0257048E-02 -3.7783491E-03 -7.0567024E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7080581E-02 1.6956300E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3031E-04 | 2: delta_r/delta_0: 1.1134E-05 | 3: delta_s/delta_0: 1.7668E-06 | 4: delta_r/delta_0: 2.9388E-07 | 5: delta_s/delta_0: 1.1763E-07 | 6: delta_r/delta_0: 2.3321E-08 | 7: delta_s/delta_0: 1.0549E-08 | 8: delta_r/delta_0: 7.1435E-09 | 9: delta_s/delta_0: 6.3394E-09 | 10: delta_r/delta_0: 4.4798E-09 | 11: delta_s/delta_0: 1.5533E-07 | 12: delta_r/delta_0: 6.5998E-10 | 13: delta_s/delta_0: 1.1833E-09 | 14: delta_r/delta_0: 5.3754E-10 | 15: delta_s/delta_0: 7.9296E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.014213359682942E-002 8.302835462994107E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3031E-04 | 2: delta_r/delta_0: 1.1134E-05 | 3: delta_s/delta_0: 1.7668E-06 | 4: delta_r/delta_0: 2.9387E-07 | 5: delta_s/delta_0: 1.1761E-07 | 6: delta_r/delta_0: 2.3321E-08 | 7: delta_s/delta_0: 1.0549E-08 | 8: delta_r/delta_0: 7.1435E-09 | 9: delta_s/delta_0: 6.3394E-09 | 10: delta_r/delta_0: 4.4797E-09 | 11: delta_s/delta_0: 1.5544E-07 | 12: delta_r/delta_0: 6.6182E-10 | 13: delta_s/delta_0: 1.1842E-09 | 14: delta_r/delta_0: 5.3823E-10 | 15: delta_s/delta_0: 7.9310E-11 | Reached bicg-stab tolerance | BP delta = -0.8860881 -0.8411180 2737791.53552682 | BP delta = -0.8860881 -0.8523994 2737797.34711447 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26517342 | --> Sampling calibration, mode = relcal | relcal = -5.6026978E-03 1.5014392E-02 -2.4082297E-03 -7.0034647E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.6707375E-03 5.5100764E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4103E-04 | 2: delta_r/delta_0: 1.2093E-05 | 3: delta_s/delta_0: 2.0676E-06 | 4: delta_r/delta_0: 2.2735E-07 | 5: delta_s/delta_0: 8.4472E-08 | 6: delta_r/delta_0: 1.8014E-08 | 7: delta_s/delta_0: 7.8653E-09 | 8: delta_r/delta_0: 5.1267E-09 | 9: delta_s/delta_0: 5.4606E-09 | 10: delta_r/delta_0: 3.6505E-09 | 11: delta_s/delta_0: 7.0419E-06 | 12: delta_r/delta_0: 6.0659E-07 | 13: delta_s/delta_0: 5.9670E-10 | 14: delta_r/delta_0: 3.9807E-10 | 15: delta_s/delta_0: 1.0848E-10 | 16: delta_r/delta_0: 7.4873E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.515546664130486E-003 9.149898437356546E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4103E-04 | 2: delta_r/delta_0: 1.2093E-05 | 3: delta_s/delta_0: 2.0676E-06 | 4: delta_r/delta_0: 2.2733E-07 | 5: delta_s/delta_0: 8.4481E-08 | 6: delta_r/delta_0: 1.8012E-08 | 7: delta_s/delta_0: 7.8648E-09 | 8: delta_r/delta_0: 5.1264E-09 | 9: delta_s/delta_0: 5.4602E-09 | 10: delta_r/delta_0: 3.6505E-09 | 11: delta_s/delta_0: 7.0672E-06 | 12: delta_r/delta_0: 6.0864E-07 | 13: delta_s/delta_0: 5.9718E-10 | 14: delta_r/delta_0: 3.9839E-10 | 15: delta_s/delta_0: 1.0846E-10 | 16: delta_r/delta_0: 7.4861E-11 | Reached bicg-stab tolerance | BP delta = 0.4201551 0.4654276 2516814.62919747 | BP delta = 0.4201551 0.4754131 2516813.80886561 | BP chisq diff = -0.8, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25680933 | --> Sampling calibration, mode = relcal | relcal = -3.1664558E-02 -2.5917053E-02 3.6780883E-02 2.0800728E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0332262E-02 1.8151131E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4691E-04 | 2: delta_r/delta_0: 1.1731E-05 | 3: delta_s/delta_0: 1.6761E-06 | 4: delta_r/delta_0: 4.5449E-07 | 5: delta_s/delta_0: 1.3487E-07 | 6: delta_r/delta_0: 3.6385E-08 | 7: delta_s/delta_0: 2.0205E-08 | 8: delta_r/delta_0: 7.6719E-09 | 9: delta_s/delta_0: 7.1384E-07 | 10: delta_r/delta_0: 9.1850E-09 | 11: delta_s/delta_0: 3.1367E-09 | 12: delta_r/delta_0: 1.4575E-09 | 13: delta_s/delta_0: 4.6233E-10 | 14: delta_r/delta_0: 1.7941E-10 | 15: delta_s/delta_0: 1.5264E-10 | 16: delta_r/delta_0: 8.6187E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.072565737558463E-002 8.665963592981297E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4691E-04 | 2: delta_r/delta_0: 1.1731E-05 | 3: delta_s/delta_0: 1.6761E-06 | 4: delta_r/delta_0: 4.5452E-07 | 5: delta_s/delta_0: 1.3489E-07 | 6: delta_r/delta_0: 3.6388E-08 | 7: delta_s/delta_0: 2.0206E-08 | 8: delta_r/delta_0: 7.6725E-09 | 9: delta_s/delta_0: 7.1451E-07 | 10: delta_r/delta_0: 9.1877E-09 | 11: delta_s/delta_0: 3.1340E-09 | 12: delta_r/delta_0: 1.4553E-09 | 13: delta_s/delta_0: 4.6678E-10 | 14: delta_r/delta_0: 1.8046E-10 | 15: delta_s/delta_0: 1.5263E-10 | 16: delta_r/delta_0: 8.6180E-11 | Reached bicg-stab tolerance | BP delta = -0.8812328 -1.089831 2705919.63942851 | BP delta = -0.8812328 -1.079631 2705944.01136333 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.225058 | New value = -3.129571 | poltype: 2 pol: 1 CPU time specind = 2.8759003E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.127386 | New value = -3.136419 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.174693 | New value = -3.129016 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181463 | New value = -3.188535 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.115595 | New value = -3.109139 | poltype: 2 pol: 2 CPU time specind = 1.1940002E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.78 | CG iter. 1 -- res = 0.13642E+08, tol = 0.76350E+01, time = 5.49 | CG iter. 2 -- res = 0.37449E+06, tol = 0.76350E+01, time = 6.15 | CG iter. 3 -- res = 0.83116E+05, tol = 0.76350E+01, time = 5.62 | CG iter. 4 -- res = 0.81614E+05, tol = 0.76350E+01, time = 5.49 | CG iter. 5 -- res = 0.79593E+05, tol = 0.76350E+01, time = 5.57 | CG iter. 6 -- res = 0.74483E+05, tol = 0.76350E+01, time = 5.53 | CG iter. 7 -- res = 0.62195E+05, tol = 0.76350E+01, time = 5.32 | CG iter. 8 -- res = 0.45261E+05, tol = 0.76350E+01, time = 6.10 | CG iter. 9 -- res = 0.37243E+05, tol = 0.76350E+01, time = 5.47 | CG iter. 10 -- res = 0.30671E+05, tol = 0.76350E+01, time = 5.79 | CG iter. 11 -- res = 0.21337E+05, tol = 0.76350E+01, time = 5.64 | CG iter. 12 -- res = 0.15610E+05, tol = 0.76350E+01, time = 5.12 | CG iter. 13 -- res = 0.13711E+05, tol = 0.76350E+01, time = 5.59 | CG iter. 14 -- res = 0.11802E+05, tol = 0.76350E+01, time = 5.35 | CG iter. 15 -- res = 0.90833E+04, tol = 0.76350E+01, time = 5.48 | CG iter. 16 -- res = 0.62398E+04, tol = 0.76350E+01, time = 5.46 | CG iter. 17 -- res = 0.42993E+04, tol = 0.76350E+01, time = 5.53 | CG iter. 18 -- res = 0.34547E+04, tol = 0.76350E+01, time = 5.28 | CG iter. 19 -- res = 0.29455E+04, tol = 0.76350E+01, time = 5.37 | CG iter. 20 -- res = 0.22687E+04, tol = 0.76350E+01, time = 12.08 | CG iter. 21 -- res = 0.15931E+04, tol = 0.76350E+01, time = 5.62 | CG iter. 22 -- res = 0.12638E+04, tol = 0.76350E+01, time = 5.49 | CG iter. 23 -- res = 0.10763E+04, tol = 0.76350E+01, time = 5.61 | CG iter. 24 -- res = 0.83782E+03, tol = 0.76350E+01, time = 5.65 | CG iter. 25 -- res = 0.57984E+03, tol = 0.76350E+01, time = 5.53 | CG iter. 26 -- res = 0.44925E+03, tol = 0.76350E+01, time = 5.56 | CG iter. 27 -- res = 0.39481E+03, tol = 0.76350E+01, time = 5.40 | CG iter. 28 -- res = 0.32255E+03, tol = 0.76350E+01, time = 5.47 | CG iter. 29 -- res = 0.23248E+03, tol = 0.76350E+01, time = 5.54 | CG iter. 30 -- res = 0.17962E+03, tol = 0.76350E+01, time = 5.36 | CG iter. 31 -- res = 0.15740E+03, tol = 0.76350E+01, time = 5.79 | CG iter. 32 -- res = 0.13164E+03, tol = 0.76350E+01, time = 5.37 | CG iter. 33 -- res = 0.99297E+02, tol = 0.76350E+01, time = 5.56 | CG iter. 34 -- res = 0.75928E+02, tol = 0.76350E+01, time = 5.59 | CG iter. 35 -- res = 0.62968E+02, tol = 0.76350E+01, time = 6.18 | CG iter. 36 -- res = 0.55201E+02, tol = 0.76350E+01, time = 6.64 | CG iter. 37 -- res = 0.44582E+02, tol = 0.76350E+01, time = 6.13 | CG iter. 38 -- res = 0.34543E+02, tol = 0.76350E+01, time = 5.39 | CG iter. 39 -- res = 0.28641E+02, tol = 0.76350E+01, time = 5.38 | CG iter. 40 -- res = 0.24859E+02, tol = 0.76350E+01, time = 5.24 | CG iter. 41 -- res = 0.21003E+02, tol = 0.76350E+01, time = 5.54 | CG iter. 42 -- res = 0.16189E+02, tol = 0.76350E+01, time = 5.51 | CG iter. 43 -- res = 0.13140E+02, tol = 0.76350E+01, time = 5.78 | CG iter. 44 -- res = 0.11367E+02, tol = 0.76350E+01, time = 5.58 | CG iter. 45 -- res = 0.91940E+01, tol = 0.76350E+01, time = 5.40 | CG iter. 46 -- res = 0.72535E+01, tol = 0.76350E+01, time = 5.54 | CG iter. 47 -- res = 0.57567E+01, tol = 0.76350E+01, time = 5.46 | CG iter. 48 -- res = 0.47522E+01, tol = 0.76350E+01, time = 5.80 | CG iter. 49 -- res = 0.40207E+01, tol = 0.76350E+01, time = 5.56 | CG iter. 50 -- res = 0.33014E+01, tol = 0.76350E+01, time = 5.77 | Final CG iter 51 -- res = 0.33014E+01, tol = 0.76350E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10481824.361 | Old band monopole 9257682.247 | Change to band monopole 1224142.115 | Change to component monopole -1224136.849 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.21561E+06, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.17241E+03, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.36052E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.31370E-01, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.16810E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10481779.277 | (Sampled value in CG: 10567330.635 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.489935 | New value = 1.519468 | poltype: 2 pol: 1 CPU time specind = 1.7446995E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.518267 | New value = 1.477872 | poltype: 2 pol: 2 CPU time specind = 6.4451694E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.24200E+08, tol = 0.47582E+04, time = 6.33 | CG iter. 2 -- res = 0.53164E+07, tol = 0.47582E+04, time = 12.58 | CG iter. 3 -- res = 0.82924E+06, tol = 0.47582E+04, time = 6.16 | CG iter. 4 -- res = 0.34906E+06, tol = 0.47582E+04, time = 6.44 | CG iter. 5 -- res = 0.15216E+06, tol = 0.47582E+04, time = 6.43 | CG iter. 6 -- res = 0.81638E+05, tol = 0.47582E+04, time = 6.33 | CG iter. 7 -- res = 0.44628E+05, tol = 0.47582E+04, time = 6.23 | CG iter. 8 -- res = 0.20747E+05, tol = 0.47582E+04, time = 6.15 | CG iter. 9 -- res = 0.90455E+04, tol = 0.47582E+04, time = 6.33 | CG iter. 10 -- res = 0.36630E+04, tol = 0.47582E+04, time = 6.40 | CG iter. 11 -- res = 0.16385E+04, tol = 0.47582E+04, time = 6.23 | CG iter. 12 -- res = 0.85834E+03, tol = 0.47582E+04, time = 6.36 | CG iter. 13 -- res = 0.48026E+03, tol = 0.47582E+04, time = 6.52 | CG iter. 14 -- res = 0.26882E+03, tol = 0.47582E+04, time = 6.39 | CG iter. 15 -- res = 0.14162E+03, tol = 0.47582E+04, time = 7.05 | CG iter. 16 -- res = 0.67157E+02, tol = 0.47582E+04, time = 7.78 | CG iter. 17 -- res = 0.31597E+02, tol = 0.47582E+04, time = 6.88 | CG iter. 18 -- res = 0.15857E+02, tol = 0.47582E+04, time = 6.26 | CG iter. 19 -- res = 0.86960E+01, tol = 0.47582E+04, time = 6.34 | CG iter. 20 -- res = 0.48830E+01, tol = 0.47582E+04, time = 6.35 | CG iter. 21 -- res = 0.26484E+01, tol = 0.47582E+04, time = 6.44 | CG iter. 22 -- res = 0.13396E+01, tol = 0.47582E+04, time = 6.49 | CG iter. 23 -- res = 0.66274E+00, tol = 0.47582E+04, time = 6.22 | CG iter. 24 -- res = 0.33752E+00, tol = 0.47582E+04, time = 6.23 | CG iter. 25 -- res = 0.18082E+00, tol = 0.47582E+04, time = 6.36 | CG iter. 26 -- res = 0.10154E+00, tol = 0.47582E+04, time = 6.08 | CG iter. 27 -- res = 0.56315E-01, tol = 0.47582E+04, time = 6.31 | CG iter. 28 -- res = 0.30069E-01, tol = 0.47582E+04, time = 6.35 | CG iter. 29 -- res = 0.15740E-01, tol = 0.47582E+04, time = 6.55 | CG iter. 30 -- res = 0.83087E-02, tol = 0.47582E+04, time = 6.56 | CG iter. 31 -- res = 0.44872E-02, tol = 0.47582E+04, time = 6.14 | CG iter. 32 -- res = 0.24848E-02, tol = 0.47582E+04, time = 7.06 | CG iter. 33 -- res = 0.14034E-02, tol = 0.47582E+04, time = 6.41 | CG iter. 34 -- res = 0.77888E-03, tol = 0.47582E+04, time = 6.10 | CG iter. 35 -- res = 0.41050E-03, tol = 0.47582E+04, time = 6.13 | Final CG iter 36 -- res = 0.41050E-03, tol = 0.47582E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.340 2.760 | New value -2.346 | Old value -2.340 | Difference -0.006 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.94289E+04, tol = 0.47627E+18, time = 1.75 | CG iter. 2 -- res = 0.15516E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.66841E+00, tol = 0.47627E+18, time = 2.28 | CG iter. 4 -- res = 0.13421E-03, tol = 0.47627E+18, time = 1.75 | Final CG iter 5 -- res = 0.14015E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10481779.277 | (Sampled value in CG: 10566341.997 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.560389 | New value = -3.748977 | poltype: 1 pol: 1 CPU time specind = 1.8043995E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.26705E+07, tol = 0.21648E+01, time = 2.49 | CG iter. 2 -- res = 0.11472E+07, tol = 0.21648E+01, time = 2.54 | CG iter. 3 -- res = 0.22983E+06, tol = 0.21648E+01, time = 2.46 | CG iter. 4 -- res = 0.94835E+05, tol = 0.21648E+01, time = 2.52 | CG iter. 5 -- res = 0.58610E+05, tol = 0.21648E+01, time = 2.53 | CG iter. 6 -- res = 0.28171E+05, tol = 0.21648E+01, time = 2.65 | CG iter. 7 -- res = 0.90423E+04, tol = 0.21648E+01, time = 2.47 | CG iter. 8 -- res = 0.34725E+04, tol = 0.21648E+01, time = 2.72 | CG iter. 9 -- res = 0.14582E+04, tol = 0.21648E+01, time = 2.92 | CG iter. 10 -- res = 0.61830E+03, tol = 0.21648E+01, time = 2.44 | CG iter. 11 -- res = 0.27700E+03, tol = 0.21648E+01, time = 2.22 | CG iter. 12 -- res = 0.14553E+03, tol = 0.21648E+01, time = 2.57 | CG iter. 13 -- res = 0.71331E+02, tol = 0.21648E+01, time = 2.35 | CG iter. 14 -- res = 0.31343E+02, tol = 0.21648E+01, time = 2.60 | CG iter. 15 -- res = 0.13220E+02, tol = 0.21648E+01, time = 2.84 | CG iter. 16 -- res = 0.54436E+01, tol = 0.21648E+01, time = 2.82 | CG iter. 17 -- res = 0.24351E+01, tol = 0.21648E+01, time = 2.78 | CG iter. 18 -- res = 0.11942E+01, tol = 0.21648E+01, time = 2.36 | CG iter. 19 -- res = 0.57631E+00, tol = 0.21648E+01, time = 2.32 | CG iter. 20 -- res = 0.26836E+00, tol = 0.21648E+01, time = 2.46 | CG iter. 21 -- res = 0.11666E+00, tol = 0.21648E+01, time = 2.84 | CG iter. 22 -- res = 0.53217E-01, tol = 0.21648E+01, time = 2.75 | CG iter. 23 -- res = 0.24614E-01, tol = 0.21648E+01, time = 2.66 | CG iter. 24 -- res = 0.12722E-01, tol = 0.21648E+01, time = 2.64 | CG iter. 25 -- res = 0.67214E-02, tol = 0.21648E+01, time = 2.57 | CG iter. 26 -- res = 0.32735E-02, tol = 0.21648E+01, time = 2.45 | CG iter. 27 -- res = 0.15354E-02, tol = 0.21648E+01, time = 2.46 | CG iter. 28 -- res = 0.68915E-03, tol = 0.21648E+01, time = 2.62 | CG iter. 29 -- res = 0.30898E-03, tol = 0.21648E+01, time = 2.22 | CG iter. 30 -- res = 0.15950E-03, tol = 0.21648E+01, time = 2.72 | CG iter. 31 -- res = 0.80689E-04, tol = 0.21648E+01, time = 2.92 | CG iter. 32 -- res = 0.38956E-04, tol = 0.21648E+01, time = 2.47 | CG iter. 33 -- res = 0.17582E-04, tol = 0.21648E+01, time = 2.59 | CG iter. 34 -- res = 0.77228E-05, tol = 0.21648E+01, time = 2.35 | CG iter. 35 -- res = 0.39546E-05, tol = 0.21648E+01, time = 2.56 | CG iter. 36 -- res = 0.19349E-05, tol = 0.21648E+01, time = 2.74 | CG iter. 37 -- res = 0.93334E-06, tol = 0.21648E+01, time = 2.53 | CG iter. 38 -- res = 0.46023E-06, tol = 0.21648E+01, time = 2.70 | CG iter. 39 -- res = 0.20500E-06, tol = 0.21648E+01, time = 7.88 | CG iter. 40 -- res = 0.93762E-07, tol = 0.21648E+01, time = 4.36 | CG iter. 41 -- res = 0.45446E-07, tol = 0.21648E+01, time = 2.41 | CG iter. 42 -- res = 0.22432E-07, tol = 0.21648E+01, time = 2.65 | CG iter. 43 -- res = 0.10800E-07, tol = 0.21648E+01, time = 2.36 | CG iter. 44 -- res = 0.52789E-08, tol = 0.21648E+01, time = 2.61 | CG iter. 45 -- res = 0.22925E-08, tol = 0.21648E+01, time = 2.65 | CG iter. 46 -- res = 0.10428E-08, tol = 0.21648E+01, time = 2.70 | CG iter. 47 -- res = 0.51597E-09, tol = 0.21648E+01, time = 2.50 | CG iter. 48 -- res = 0.25674E-09, tol = 0.21648E+01, time = 2.71 | CG iter. 49 -- res = 0.12150E-09, tol = 0.21648E+01, time = 2.48 | CG iter. 50 -- res = 0.55089E-10, tol = 0.21648E+01, time = 2.71 | Final CG iter 51 -- res = 0.55089E-10, tol = 0.21648E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.235 4.225 | New value -1.784 | Old value -2.235 | Difference 0.450 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.53266E+04, tol = 0.47627E+18, time = 1.67 | CG iter. 2 -- res = 0.16580E+02, tol = 0.47627E+18, time = 1.71 | CG iter. 3 -- res = 0.40623E+00, tol = 0.47627E+18, time = 1.90 | CG iter. 4 -- res = 0.48723E-04, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.94994E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10481779.277 | (Sampled value in CG: 10549127.474 ) | CPU time specind = 1151.678 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.68955E+08, tol = 0.57949E+04, time = 11.88 | CG iter. 2 -- res = 0.59346E+08, tol = 0.57949E+04, time = 11.36 | CG iter. 3 -- res = 0.15312E+08, tol = 0.57949E+04, time = 11.61 | CG iter. 4 -- res = 0.65777E+07, tol = 0.57949E+04, time = 11.59 | CG iter. 5 -- res = 0.40321E+07, tol = 0.57949E+04, time = 11.47 | CG iter. 6 -- res = 0.24108E+07, tol = 0.57949E+04, time = 11.74 | CG iter. 7 -- res = 0.14069E+07, tol = 0.57949E+04, time = 12.01 | CG iter. 8 -- res = 0.90768E+06, tol = 0.57949E+04, time = 11.19 | CG iter. 9 -- res = 0.58715E+06, tol = 0.57949E+04, time = 11.37 | CG iter. 10 -- res = 0.35441E+06, tol = 0.57949E+04, time = 11.51 | CG iter. 11 -- res = 0.19404E+06, tol = 0.57949E+04, time = 11.41 | CG iter. 12 -- res = 0.11014E+06, tol = 0.57949E+04, time = 11.34 | CG iter. 13 -- res = 0.66046E+05, tol = 0.57949E+04, time = 11.94 | CG iter. 14 -- res = 0.44360E+05, tol = 0.57949E+04, time = 11.77 | CG iter. 15 -- res = 0.34962E+05, tol = 0.57949E+04, time = 11.18 | CG iter. 16 -- res = 0.30356E+05, tol = 0.57949E+04, time = 17.70 | CG iter. 17 -- res = 0.28161E+05, tol = 0.57949E+04, time = 11.65 | CG iter. 18 -- res = 0.25400E+05, tol = 0.57949E+04, time = 11.45 | CG iter. 19 -- res = 0.22969E+05, tol = 0.57949E+04, time = 11.30 | CG iter. 20 -- res = 0.20990E+05, tol = 0.57949E+04, time = 11.70 | CG iter. 21 -- res = 0.20070E+05, tol = 0.57949E+04, time = 11.38 | CG iter. 22 -- res = 0.20000E+05, tol = 0.57949E+04, time = 11.62 | CG iter. 23 -- res = 0.20523E+05, tol = 0.57949E+04, time = 12.07 | CG iter. 24 -- res = 0.19653E+05, tol = 0.57949E+04, time = 12.50 | CG iter. 25 -- res = 0.17261E+05, tol = 0.57949E+04, time = 11.39 | CG iter. 26 -- res = 0.13693E+05, tol = 0.57949E+04, time = 11.49 | CG iter. 27 -- res = 0.10291E+05, tol = 0.57949E+04, time = 11.30 | CG iter. 28 -- res = 0.79097E+04, tol = 0.57949E+04, time = 11.76 | CG iter. 29 -- res = 0.64288E+04, tol = 0.57949E+04, time = 11.12 | CG iter. 30 -- res = 0.57329E+04, tol = 0.57949E+04, time = 11.57 | CG iter. 31 -- res = 0.52781E+04, tol = 0.57949E+04, time = 11.58 | CG iter. 32 -- res = 0.48475E+04, tol = 0.57949E+04, time = 11.76 | CG iter. 33 -- res = 0.43075E+04, tol = 0.57949E+04, time = 11.39 | CG iter. 34 -- res = 0.36669E+04, tol = 0.57949E+04, time = 11.27 | CG iter. 35 -- res = 0.32418E+04, tol = 0.57949E+04, time = 11.57 | CG iter. 36 -- res = 0.30009E+04, tol = 0.57949E+04, time = 11.49 | CG iter. 37 -- res = 0.29200E+04, tol = 0.57949E+04, time = 11.24 | CG iter. 38 -- res = 0.27746E+04, tol = 0.57949E+04, time = 12.54 | CG iter. 39 -- res = 0.25549E+04, tol = 0.57949E+04, time = 11.09 | CG iter. 40 -- res = 0.21923E+04, tol = 0.57949E+04, time = 11.13 | CG iter. 41 -- res = 0.18241E+04, tol = 0.57949E+04, time = 13.00 | CG iter. 42 -- res = 0.15178E+04, tol = 0.57949E+04, time = 16.09 | CG iter. 43 -- res = 0.13559E+04, tol = 0.57949E+04, time = 11.42 | CG iter. 44 -- res = 0.12921E+04, tol = 0.57949E+04, time = 11.69 | CG iter. 45 -- res = 0.12416E+04, tol = 0.57949E+04, time = 12.18 | CG iter. 46 -- res = 0.11783E+04, tol = 0.57949E+04, time = 11.09 | CG iter. 47 -- res = 0.10725E+04, tol = 0.57949E+04, time = 11.24 | CG iter. 48 -- res = 0.96554E+03, tol = 0.57949E+04, time = 11.33 | CG iter. 49 -- res = 0.87404E+03, tol = 0.57949E+04, time = 12.87 | CG iter. 50 -- res = 0.81928E+03, tol = 0.57949E+04, time = 11.67 | CG iter. 51 -- res = 0.79659E+03, tol = 0.57949E+04, time = 11.44 | CG iter. 52 -- res = 0.75529E+03, tol = 0.57949E+04, time = 11.05 | CG iter. 53 -- res = 0.70726E+03, tol = 0.57949E+04, time = 11.58 | CG iter. 54 -- res = 0.63525E+03, tol = 0.57949E+04, time = 11.56 | CG iter. 55 -- res = 0.54132E+03, tol = 0.57949E+04, time = 11.61 | CG iter. 56 -- res = 0.46417E+03, tol = 0.57949E+04, time = 11.53 | CG iter. 57 -- res = 0.41655E+03, tol = 0.57949E+04, time = 10.93 | CG iter. 58 -- res = 0.40048E+03, tol = 0.57949E+04, time = 12.06 | CG iter. 59 -- res = 0.39178E+03, tol = 0.57949E+04, time = 11.60 | CG iter. 60 -- res = 0.37227E+03, tol = 0.57949E+04, time = 14.71 | Final CG iter 61 -- res = 0.37227E+03, tol = 0.57949E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.851 ( -229.843 -2230.886 2513.527 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8314758.589 | Old band monopole 10481824.361 | Change to band monopole -2167065.773 | Change to component monopole 2167056.452 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.388 2.725 | New value 1.158 | Old value -2.388 | Difference 3.545 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.232 ( 7.246 12.331 -12.285 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.277 3.740 | New value 1.403 | Old value 3.277 | Difference -1.875 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.78140E+06, tol = 0.47627E+18, time = 3.06 | CG iter. 2 -- res = 0.72524E+02, tol = 0.47627E+18, time = 2.94 | CG iter. 3 -- res = 0.27464E+01, tol = 0.47627E+18, time = 2.92 | CG iter. 4 -- res = 0.56374E-02, tol = 0.47627E+18, time = 2.87 | Final CG iter 5 -- res = 0.11907E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8314722.825 | (Sampled value in CG: 8292839.420 ) | Chain = 1 -- chisq = 0.81531756E+09 | Chain = 1 -- wall time = 18244.569 sec Available RAM: MemAvailable: 493169712 kB Available Swap: SwapFree: 1054402476 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 407 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442658 | --> Sampling calibration, mode = relcal | relcal = 1.3431720E-02 7.3576655E-04 -1.5856267E-03 -1.2581860E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1626272 0.1802295 97040377.2764188 | BP delta = 0.1592456 0.1768479 97040376.0495905 | BP chisq diff = -1.2, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632538 | --> Sampling calibration, mode = relcal | relcal = -2.8215430E-03 -7.0475286E-04 1.6794448E-03 1.6131517E-03 -4.0756367E-04 6.4126303E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5424984 15220257.9002207 | BP delta = 0.0000000E+00 -0.5347618 15220262.3685489 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18145952914433 | --> Sampling calibration, mode = relcal | relcal = -7.5673051E-02 -5.8777679E-02 9.2555314E-02 4.1895423E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.7583467E-05 5.0736531E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3427E-05 | 2: delta_r/delta_0: 1.0997E-06 | 3: delta_s/delta_0: 1.9735E-07 | 4: delta_r/delta_0: 2.8143E-08 | 5: delta_s/delta_0: 7.1231E-09 | 6: delta_r/delta_0: 2.6585E-09 | 7: delta_s/delta_0: 1.0356E-09 | 8: delta_r/delta_0: 3.5036E-10 | 9: delta_s/delta_0: 5.6440E-10 | 10: delta_r/delta_0: 1.7959E-10 | 11: delta_s/delta_0: 2.6340E-09 | 12: delta_r/delta_0: 7.8274E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.048665767005799E-003 2.739955787604892E-005 | BP delta = 6.7515910E-02 9.1697477E-02 50488832.0861253 | BP delta = 6.5919884E-02 9.0101451E-02 50488834.0234127 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02613049 | --> Sampling calibration, mode = relcal | relcal = -0.1067488 -9.5530547E-02 0.1449998 5.7279583E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6918815E-03 1.4524237E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1100E-05 | 2: delta_r/delta_0: 1.3644E-06 | 3: delta_s/delta_0: 2.4861E-07 | 4: delta_r/delta_0: 5.5268E-08 | 5: delta_s/delta_0: 2.3976E-08 | 6: delta_r/delta_0: 8.0631E-09 | 7: delta_s/delta_0: 7.2933E-09 | 8: delta_r/delta_0: 1.8062E-09 | 9: delta_s/delta_0: 8.9111E-10 | 10: delta_r/delta_0: 6.6743E-10 | 11: delta_s/delta_0: 1.9995E-09 | 12: delta_r/delta_0: 5.8925E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.016310543626692E-002 2.810468474416077E-005 | BP delta = -0.2541845 -0.2194701 57388118.7074072 | BP delta = -0.2630882 -0.2283738 57388118.7896929 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243043 | --> Sampling calibration, mode = relcal | relcal = 0.2955474 0.2248506 -0.2838249 -0.2365731 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.7526963E-04 5.4213372E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.8660E-03 | 2: delta_r/delta_0: 1.5985E-04 | 3: delta_s/delta_0: 3.7804E-05 | 4: delta_r/delta_0: 4.1487E-06 | 5: delta_s/delta_0: 1.6750E-05 | 6: delta_r/delta_0: 3.1217E-06 | 7: delta_s/delta_0: 1.3589E-05 | 8: delta_r/delta_0: 1.5944E-06 | 9: delta_s/delta_0: 2.6306E-06 | 10: delta_r/delta_0: 7.0695E-07 | 11: delta_s/delta_0: 7.1950E-06 | 12: delta_r/delta_0: 4.2660E-09 | 13: delta_s/delta_0: 1.7097E-09 | 14: delta_r/delta_0: 8.5526E-10 | 15: delta_s/delta_0: 3.1010E-10 | 16: delta_r/delta_0: 2.1476E-10 | 17: delta_s/delta_0: 2.6506E-10 | 18: delta_r/delta_0: 4.5627E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.264686619838293E-002 4.020685093767641E-005 | BP delta = -0.1232104 -0.1470222 72489466.6222988 | BP delta = -9.7053431E-02 -0.1208652 72489466.5702227 | BP chisq diff = -0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95942751 | --> Sampling calibration, mode = relcal | relcal = 0.1064691 0.1395923 -0.1102723 -0.1357892 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0811618E-02 1.3428769E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7900E-04 | 2: delta_r/delta_0: 4.7376E-06 | 3: delta_s/delta_0: 7.0272E-04 | 4: delta_r/delta_0: 4.5128E-05 | 5: delta_s/delta_0: 1.7693E-07 | 6: delta_r/delta_0: 1.0281E-07 | 7: delta_s/delta_0: 8.5590E-07 | 8: delta_r/delta_0: 2.3348E-08 | 9: delta_s/delta_0: 8.3966E-09 | 10: delta_r/delta_0: 2.6343E-09 | 11: delta_s/delta_0: 1.0649E-09 | 12: delta_r/delta_0: 6.0602E-10 | 13: delta_s/delta_0: 9.7441E-09 | 14: delta_r/delta_0: 1.5586E-09 | 15: delta_s/delta_0: 4.5804E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.913305555978660E-002 3.696149112255908E-005 | BP delta = 3.6612943E-02 0.1381600 72783368.7408690 | BP delta = 4.0636227E-02 0.1421833 72783368.4940669 | BP chisq diff = -0.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129571 | New value = -3.173194 | poltype: 2 pol: 1 CPU time specind = 1.6998053E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136419 | New value = -3.170084 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.129016 | New value = -3.164601 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.188535 | New value = -3.155940 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109139 | New value = -3.164726 | poltype: 2 pol: 2 CPU time specind = 5.4430962E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.13561E+08, tol = 0.83918E+01, time = 5.82 | CG iter. 2 -- res = 0.33931E+06, tol = 0.83918E+01, time = 5.49 | CG iter. 3 -- res = 0.50930E+05, tol = 0.83918E+01, time = 5.58 | CG iter. 4 -- res = 0.27360E+05, tol = 0.83918E+01, time = 5.86 | CG iter. 5 -- res = 0.17538E+05, tol = 0.83918E+01, time = 5.83 | CG iter. 6 -- res = 0.12724E+05, tol = 0.83918E+01, time = 5.92 | CG iter. 7 -- res = 0.11711E+05, tol = 0.83918E+01, time = 5.91 | CG iter. 8 -- res = 0.10391E+05, tol = 0.83918E+01, time = 6.09 | CG iter. 9 -- res = 0.98304E+04, tol = 0.83918E+01, time = 6.16 | CG iter. 10 -- res = 0.90916E+04, tol = 0.83918E+01, time = 5.77 | CG iter. 11 -- res = 0.62879E+04, tol = 0.83918E+01, time = 5.95 | CG iter. 12 -- res = 0.40232E+04, tol = 0.83918E+01, time = 11.96 | CG iter. 13 -- res = 0.30401E+04, tol = 0.83918E+01, time = 5.92 | CG iter. 14 -- res = 0.26756E+04, tol = 0.83918E+01, time = 5.72 | CG iter. 15 -- res = 0.23505E+04, tol = 0.83918E+01, time = 5.78 | CG iter. 16 -- res = 0.18645E+04, tol = 0.83918E+01, time = 6.00 | CG iter. 17 -- res = 0.13734E+04, tol = 0.83918E+01, time = 5.78 | CG iter. 18 -- res = 0.11123E+04, tol = 0.83918E+01, time = 5.84 | CG iter. 19 -- res = 0.90763E+03, tol = 0.83918E+01, time = 5.81 | CG iter. 20 -- res = 0.68772E+03, tol = 0.83918E+01, time = 5.84 | CG iter. 21 -- res = 0.51066E+03, tol = 0.83918E+01, time = 5.86 | CG iter. 22 -- res = 0.40085E+03, tol = 0.83918E+01, time = 5.75 | CG iter. 23 -- res = 0.34788E+03, tol = 0.83918E+01, time = 5.60 | CG iter. 24 -- res = 0.29233E+03, tol = 0.83918E+01, time = 5.58 | CG iter. 25 -- res = 0.21568E+03, tol = 0.83918E+01, time = 5.67 | CG iter. 26 -- res = 0.16178E+03, tol = 0.83918E+01, time = 6.40 | CG iter. 27 -- res = 0.12874E+03, tol = 0.83918E+01, time = 6.83 | CG iter. 28 -- res = 0.10896E+03, tol = 0.83918E+01, time = 6.31 | CG iter. 29 -- res = 0.83691E+02, tol = 0.83918E+01, time = 5.60 | CG iter. 30 -- res = 0.60476E+02, tol = 0.83918E+01, time = 5.54 | CG iter. 31 -- res = 0.47592E+02, tol = 0.83918E+01, time = 5.89 | CG iter. 32 -- res = 0.39751E+02, tol = 0.83918E+01, time = 5.96 | CG iter. 33 -- res = 0.30529E+02, tol = 0.83918E+01, time = 6.14 | CG iter. 34 -- res = 0.22804E+02, tol = 0.83918E+01, time = 5.82 | CG iter. 35 -- res = 0.17828E+02, tol = 0.83918E+01, time = 5.73 | CG iter. 36 -- res = 0.14860E+02, tol = 0.83918E+01, time = 5.95 | CG iter. 37 -- res = 0.12176E+02, tol = 0.83918E+01, time = 5.90 | CG iter. 38 -- res = 0.95322E+01, tol = 0.83918E+01, time = 6.05 | CG iter. 39 -- res = 0.71546E+01, tol = 0.83918E+01, time = 5.72 | CG iter. 40 -- res = 0.62089E+01, tol = 0.83918E+01, time = 5.80 | CG iter. 41 -- res = 0.52823E+01, tol = 0.83918E+01, time = 6.15 | CG iter. 42 -- res = 0.41803E+01, tol = 0.83918E+01, time = 5.69 | CG iter. 43 -- res = 0.33958E+01, tol = 0.83918E+01, time = 5.84 | CG iter. 44 -- res = 0.27868E+01, tol = 0.83918E+01, time = 5.89 | CG iter. 45 -- res = 0.24323E+01, tol = 0.83918E+01, time = 6.27 | CG iter. 46 -- res = 0.20708E+01, tol = 0.83918E+01, time = 5.98 | CG iter. 47 -- res = 0.16449E+01, tol = 0.83918E+01, time = 5.57 | CG iter. 48 -- res = 0.13531E+01, tol = 0.83918E+01, time = 5.61 | CG iter. 49 -- res = 0.11708E+01, tol = 0.83918E+01, time = 6.45 | CG iter. 50 -- res = 0.10297E+01, tol = 0.83918E+01, time = 5.74 | Final CG iter 51 -- res = 0.10297E+01, tol = 0.83918E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9681141.643 | Old band monopole 8314758.589 | Change to band monopole 1366383.055 | Change to component monopole -1366377.177 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.25583E+06, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.10376E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.36090E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.10256E-01, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.51094E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9681100.003 | (Sampled value in CG: 9640687.340 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519468 | New value = 1.526700 | poltype: 2 pol: 1 CPU time specind = 4.5567989E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477872 | New value = 1.467267 | poltype: 2 pol: 2 CPU time specind = 4.4319630E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.24032E+08, tol = 0.47628E+04, time = 6.91 | CG iter. 2 -- res = 0.53604E+07, tol = 0.47628E+04, time = 6.49 | CG iter. 3 -- res = 0.83754E+06, tol = 0.47628E+04, time = 6.73 | CG iter. 4 -- res = 0.34804E+06, tol = 0.47628E+04, time = 6.72 | CG iter. 5 -- res = 0.14958E+06, tol = 0.47628E+04, time = 6.82 | CG iter. 6 -- res = 0.79683E+05, tol = 0.47628E+04, time = 8.58 | CG iter. 7 -- res = 0.43526E+05, tol = 0.47628E+04, time = 7.28 | CG iter. 8 -- res = 0.20746E+05, tol = 0.47628E+04, time = 6.73 | CG iter. 9 -- res = 0.89636E+04, tol = 0.47628E+04, time = 7.00 | CG iter. 10 -- res = 0.36272E+04, tol = 0.47628E+04, time = 6.55 | CG iter. 11 -- res = 0.16470E+04, tol = 0.47628E+04, time = 6.78 | CG iter. 12 -- res = 0.85710E+03, tol = 0.47628E+04, time = 6.91 | CG iter. 13 -- res = 0.48946E+03, tol = 0.47628E+04, time = 6.79 | CG iter. 14 -- res = 0.28072E+03, tol = 0.47628E+04, time = 6.84 | CG iter. 15 -- res = 0.14141E+03, tol = 0.47628E+04, time = 6.85 | CG iter. 16 -- res = 0.66920E+02, tol = 0.47628E+04, time = 6.84 | CG iter. 17 -- res = 0.31161E+02, tol = 0.47628E+04, time = 7.13 | CG iter. 18 -- res = 0.15626E+02, tol = 0.47628E+04, time = 6.86 | CG iter. 19 -- res = 0.85800E+01, tol = 0.47628E+04, time = 7.11 | CG iter. 20 -- res = 0.48630E+01, tol = 0.47628E+04, time = 6.65 | CG iter. 21 -- res = 0.26936E+01, tol = 0.47628E+04, time = 6.72 | CG iter. 22 -- res = 0.13804E+01, tol = 0.47628E+04, time = 6.28 | CG iter. 23 -- res = 0.68159E+00, tol = 0.47628E+04, time = 6.44 | CG iter. 24 -- res = 0.35189E+00, tol = 0.47628E+04, time = 7.08 | CG iter. 25 -- res = 0.19187E+00, tol = 0.47628E+04, time = 6.74 | CG iter. 26 -- res = 0.10932E+00, tol = 0.47628E+04, time = 6.48 | CG iter. 27 -- res = 0.61442E-01, tol = 0.47628E+04, time = 6.64 | CG iter. 28 -- res = 0.33160E-01, tol = 0.47628E+04, time = 6.56 | CG iter. 29 -- res = 0.17477E-01, tol = 0.47628E+04, time = 6.63 | CG iter. 30 -- res = 0.90842E-02, tol = 0.47628E+04, time = 6.75 | CG iter. 31 -- res = 0.48643E-02, tol = 0.47628E+04, time = 6.57 | CG iter. 32 -- res = 0.27216E-02, tol = 0.47628E+04, time = 6.55 | CG iter. 33 -- res = 0.15365E-02, tol = 0.47628E+04, time = 6.73 | CG iter. 34 -- res = 0.84177E-03, tol = 0.47628E+04, time = 6.69 | CG iter. 35 -- res = 0.44121E-03, tol = 0.47628E+04, time = 6.88 | Final CG iter 36 -- res = 0.44121E-03, tol = 0.47628E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.178 2.734 | New value -0.119 | Old value 1.178 | Difference -1.297 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.89129E+05, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.36921E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.11244E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.10498E-03, tol = 0.47627E+18, time = 2.27 | Final CG iter 5 -- res = 0.19196E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9681100.003 | (Sampled value in CG: 9640038.713 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.748977 | New value = -3.735010 | poltype: 1 pol: 1 CPU time specind = 2.0497084E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.22121E+07, tol = 0.24284E+01, time = 9.17 | CG iter. 2 -- res = 0.71239E+06, tol = 0.24284E+01, time = 2.71 | CG iter. 3 -- res = 0.14019E+06, tol = 0.24284E+01, time = 2.76 | CG iter. 4 -- res = 0.61062E+05, tol = 0.24284E+01, time = 2.63 | CG iter. 5 -- res = 0.36804E+05, tol = 0.24284E+01, time = 2.97 | CG iter. 6 -- res = 0.18973E+05, tol = 0.24284E+01, time = 2.85 | CG iter. 7 -- res = 0.68341E+04, tol = 0.24284E+01, time = 2.52 | CG iter. 8 -- res = 0.26485E+04, tol = 0.24284E+01, time = 2.85 | CG iter. 9 -- res = 0.10663E+04, tol = 0.24284E+01, time = 2.79 | CG iter. 10 -- res = 0.44422E+03, tol = 0.24284E+01, time = 2.66 | CG iter. 11 -- res = 0.21034E+03, tol = 0.24284E+01, time = 2.92 | CG iter. 12 -- res = 0.10888E+03, tol = 0.24284E+01, time = 3.02 | CG iter. 13 -- res = 0.55467E+02, tol = 0.24284E+01, time = 2.84 | CG iter. 14 -- res = 0.24398E+02, tol = 0.24284E+01, time = 2.87 | CG iter. 15 -- res = 0.99081E+01, tol = 0.24284E+01, time = 2.64 | CG iter. 16 -- res = 0.42054E+01, tol = 0.24284E+01, time = 2.50 | CG iter. 17 -- res = 0.19411E+01, tol = 0.24284E+01, time = 2.90 | CG iter. 18 -- res = 0.96894E+00, tol = 0.24284E+01, time = 2.90 | CG iter. 19 -- res = 0.48930E+00, tol = 0.24284E+01, time = 2.87 | CG iter. 20 -- res = 0.23311E+00, tol = 0.24284E+01, time = 2.76 | CG iter. 21 -- res = 0.10171E+00, tol = 0.24284E+01, time = 2.84 | CG iter. 22 -- res = 0.44609E-01, tol = 0.24284E+01, time = 2.55 | CG iter. 23 -- res = 0.21500E-01, tol = 0.24284E+01, time = 2.93 | CG iter. 24 -- res = 0.11056E-01, tol = 0.24284E+01, time = 2.78 | CG iter. 25 -- res = 0.57354E-02, tol = 0.24284E+01, time = 3.06 | CG iter. 26 -- res = 0.26835E-02, tol = 0.24284E+01, time = 2.61 | CG iter. 27 -- res = 0.11900E-02, tol = 0.24284E+01, time = 2.68 | CG iter. 28 -- res = 0.54637E-03, tol = 0.24284E+01, time = 3.28 | CG iter. 29 -- res = 0.26201E-03, tol = 0.24284E+01, time = 2.89 | CG iter. 30 -- res = 0.13112E-03, tol = 0.24284E+01, time = 2.86 | CG iter. 31 -- res = 0.66564E-04, tol = 0.24284E+01, time = 4.25 | CG iter. 32 -- res = 0.31998E-04, tol = 0.24284E+01, time = 3.01 | CG iter. 33 -- res = 0.13925E-04, tol = 0.24284E+01, time = 2.90 | CG iter. 34 -- res = 0.63393E-05, tol = 0.24284E+01, time = 3.48 | CG iter. 35 -- res = 0.31953E-05, tol = 0.24284E+01, time = 2.98 | CG iter. 36 -- res = 0.15835E-05, tol = 0.24284E+01, time = 2.94 | CG iter. 37 -- res = 0.75651E-06, tol = 0.24284E+01, time = 2.76 | CG iter. 38 -- res = 0.36742E-06, tol = 0.24284E+01, time = 2.71 | CG iter. 39 -- res = 0.16716E-06, tol = 0.24284E+01, time = 2.70 | CG iter. 40 -- res = 0.76682E-07, tol = 0.24284E+01, time = 2.80 | CG iter. 41 -- res = 0.37749E-07, tol = 0.24284E+01, time = 3.04 | CG iter. 42 -- res = 0.18420E-07, tol = 0.24284E+01, time = 2.89 | CG iter. 43 -- res = 0.87030E-08, tol = 0.24284E+01, time = 2.85 | CG iter. 44 -- res = 0.41286E-08, tol = 0.24284E+01, time = 2.72 | CG iter. 45 -- res = 0.19055E-08, tol = 0.24284E+01, time = 2.69 | CG iter. 46 -- res = 0.88315E-09, tol = 0.24284E+01, time = 2.76 | CG iter. 47 -- res = 0.42368E-09, tol = 0.24284E+01, time = 2.98 | CG iter. 48 -- res = 0.20088E-09, tol = 0.24284E+01, time = 2.80 | CG iter. 49 -- res = 0.96230E-10, tol = 0.24284E+01, time = 2.90 | CG iter. 50 -- res = 0.43562E-10, tol = 0.24284E+01, time = 2.85 | Final CG iter 51 -- res = 0.43562E-10, tol = 0.24284E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.317 4.577 | New value 3.289 | Old value -2.317 | Difference 5.606 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.32019E+05, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.34843E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.12884E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.31137E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.17814E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9681100.003 | (Sampled value in CG: 9651411.724 ) | CPU time specind = 1219.908 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.68225E+08, tol = 0.58002E+04, time = 12.50 | CG iter. 2 -- res = 0.58990E+08, tol = 0.58002E+04, time = 12.07 | CG iter. 3 -- res = 0.15683E+08, tol = 0.58002E+04, time = 12.27 | CG iter. 4 -- res = 0.64760E+07, tol = 0.58002E+04, time = 12.03 | CG iter. 5 -- res = 0.38217E+07, tol = 0.58002E+04, time = 12.12 | CG iter. 6 -- res = 0.22305E+07, tol = 0.58002E+04, time = 18.55 | CG iter. 7 -- res = 0.13520E+07, tol = 0.58002E+04, time = 11.89 | CG iter. 8 -- res = 0.87697E+06, tol = 0.58002E+04, time = 12.37 | CG iter. 9 -- res = 0.56557E+06, tol = 0.58002E+04, time = 12.16 | CG iter. 10 -- res = 0.33851E+06, tol = 0.58002E+04, time = 11.90 | CG iter. 11 -- res = 0.18028E+06, tol = 0.58002E+04, time = 12.56 | CG iter. 12 -- res = 0.96721E+05, tol = 0.58002E+04, time = 12.18 | CG iter. 13 -- res = 0.52232E+05, tol = 0.58002E+04, time = 14.29 | CG iter. 14 -- res = 0.30674E+05, tol = 0.58002E+04, time = 12.32 | CG iter. 15 -- res = 0.20371E+05, tol = 0.58002E+04, time = 12.84 | CG iter. 16 -- res = 0.14802E+05, tol = 0.58002E+04, time = 11.93 | CG iter. 17 -- res = 0.11283E+05, tol = 0.58002E+04, time = 12.06 | CG iter. 18 -- res = 0.84341E+04, tol = 0.58002E+04, time = 12.36 | CG iter. 19 -- res = 0.62375E+04, tol = 0.58002E+04, time = 12.58 | CG iter. 20 -- res = 0.46970E+04, tol = 0.58002E+04, time = 12.20 | CG iter. 21 -- res = 0.38904E+04, tol = 0.58002E+04, time = 12.50 | CG iter. 22 -- res = 0.36546E+04, tol = 0.58002E+04, time = 13.02 | CG iter. 23 -- res = 0.39177E+04, tol = 0.58002E+04, time = 12.28 | CG iter. 24 -- res = 0.42957E+04, tol = 0.58002E+04, time = 12.32 | CG iter. 25 -- res = 0.44072E+04, tol = 0.58002E+04, time = 12.87 | CG iter. 26 -- res = 0.41118E+04, tol = 0.58002E+04, time = 12.27 | CG iter. 27 -- res = 0.36069E+04, tol = 0.58002E+04, time = 12.05 | CG iter. 28 -- res = 0.29971E+04, tol = 0.58002E+04, time = 12.37 | CG iter. 29 -- res = 0.24440E+04, tol = 0.58002E+04, time = 12.13 | CG iter. 30 -- res = 0.20685E+04, tol = 0.58002E+04, time = 18.38 | CG iter. 31 -- res = 0.17702E+04, tol = 0.58002E+04, time = 12.38 | CG iter. 32 -- res = 0.15006E+04, tol = 0.58002E+04, time = 12.25 | CG iter. 33 -- res = 0.12311E+04, tol = 0.58002E+04, time = 12.61 | CG iter. 34 -- res = 0.98524E+03, tol = 0.58002E+04, time = 12.26 | CG iter. 35 -- res = 0.78925E+03, tol = 0.58002E+04, time = 12.46 | CG iter. 36 -- res = 0.67812E+03, tol = 0.58002E+04, time = 12.08 | CG iter. 37 -- res = 0.64225E+03, tol = 0.58002E+04, time = 13.68 | CG iter. 38 -- res = 0.63031E+03, tol = 0.58002E+04, time = 12.08 | CG iter. 39 -- res = 0.60013E+03, tol = 0.58002E+04, time = 12.18 | CG iter. 40 -- res = 0.55141E+03, tol = 0.58002E+04, time = 11.98 | CG iter. 41 -- res = 0.47657E+03, tol = 0.58002E+04, time = 12.39 | CG iter. 42 -- res = 0.40544E+03, tol = 0.58002E+04, time = 12.19 | CG iter. 43 -- res = 0.35434E+03, tol = 0.58002E+04, time = 12.30 | CG iter. 44 -- res = 0.31881E+03, tol = 0.58002E+04, time = 11.97 | CG iter. 45 -- res = 0.29254E+03, tol = 0.58002E+04, time = 12.16 | CG iter. 46 -- res = 0.26406E+03, tol = 0.58002E+04, time = 12.33 | CG iter. 47 -- res = 0.23471E+03, tol = 0.58002E+04, time = 12.38 | CG iter. 48 -- res = 0.20075E+03, tol = 0.58002E+04, time = 11.82 | CG iter. 49 -- res = 0.16945E+03, tol = 0.58002E+04, time = 12.17 | CG iter. 50 -- res = 0.15114E+03, tol = 0.58002E+04, time = 12.30 | CG iter. 51 -- res = 0.14407E+03, tol = 0.58002E+04, time = 11.93 | CG iter. 52 -- res = 0.14444E+03, tol = 0.58002E+04, time = 12.02 | CG iter. 53 -- res = 0.14487E+03, tol = 0.58002E+04, time = 12.79 | CG iter. 54 -- res = 0.13921E+03, tol = 0.58002E+04, time = 17.89 | CG iter. 55 -- res = 0.12514E+03, tol = 0.58002E+04, time = 12.21 | CG iter. 56 -- res = 0.11072E+03, tol = 0.58002E+04, time = 12.16 | CG iter. 57 -- res = 0.99483E+02, tol = 0.58002E+04, time = 12.54 | CG iter. 58 -- res = 0.93367E+02, tol = 0.58002E+04, time = 12.34 | CG iter. 59 -- res = 0.90406E+02, tol = 0.58002E+04, time = 11.96 | CG iter. 60 -- res = 0.83442E+02, tol = 0.58002E+04, time = 11.89 | Final CG iter 61 -- res = 0.83442E+02, tol = 0.58002E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.748 ( -229.648 -2229.484 2511.915 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9164725.898 | Old band monopole 9681141.643 | Change to band monopole -516415.745 | Change to component monopole 516413.524 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.108 2.759 | New value 4.698 | Old value -0.108 | Difference 4.806 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.078 ( 7.356 10.230 -9.374 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.598 5.280 | New value -2.385 | Old value 6.598 | Difference -8.984 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.12063E+07, tol = 0.47627E+18, time = 2.10 | CG iter. 2 -- res = 0.24146E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.57004E+00, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.12695E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.59451E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9164686.479 | (Sampled value in CG: 9146536.230 ) | Chain = 1 -- chisq = 0.81553515E+09 | Chain = 1 -- wall time = 5845.355 sec Available RAM: MemAvailable: 395904548 kB Available Swap: SwapFree: 1126909356 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 408 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444601 | --> Sampling calibration, mode = relcal | relcal = 1.3436275E-02 7.4158900E-04 -1.5950544E-03 -1.2582809E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1592456 0.1768479 9405922.56720069 | BP delta = 0.1592456 0.1758248 9405927.26446685 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632512 | --> Sampling calibration, mode = relcal | relcal = -2.8210266E-03 -7.0404331E-04 1.6779556E-03 1.6132010E-03 -4.0757505E-04 6.4148818E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5424984 15218861.7970033 | BP delta = 0.0000000E+00 -0.5440257 15218860.2873077 | BP chisq diff = -1.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17994733984747 | --> Sampling calibration, mode = relcal | relcal = -7.4688382E-02 -5.8162648E-02 9.1450341E-02 4.1400693E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7715413E-04 4.1754721E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5054E-05 | 2: delta_r/delta_0: 8.8573E-07 | 3: delta_s/delta_0: 2.4063E-07 | 4: delta_r/delta_0: 1.2047E-08 | 5: delta_s/delta_0: 2.8669E-09 | 6: delta_r/delta_0: 1.0637E-09 | 7: delta_s/delta_0: 3.9235E-10 | 8: delta_r/delta_0: 1.9450E-10 | 9: delta_s/delta_0: 8.4162E-09 | 10: delta_r/delta_0: 2.5322E-10 | 11: delta_s/delta_0: 7.2442E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.110545984458856E-004 2.743578376220631E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5056E-05 | 2: delta_r/delta_0: 8.8577E-07 | 3: delta_s/delta_0: 2.4063E-07 | 4: delta_r/delta_0: 1.2047E-08 | 5: delta_s/delta_0: 2.8669E-09 | 6: delta_r/delta_0: 1.0636E-09 | 7: delta_s/delta_0: 3.9232E-10 | 8: delta_r/delta_0: 1.9448E-10 | 9: delta_s/delta_0: 8.3954E-09 | 10: delta_r/delta_0: 2.5316E-10 | 11: delta_s/delta_0: 7.2428E-11 | Reached bicg-stab tolerance | BP delta = 6.7515910E-02 9.1697477E-02 3533334.50920983 | BP delta = 6.7515910E-02 9.1535449E-02 3535072.79555066 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596460 | --> Sampling calibration, mode = relcal | relcal = -0.1067223 -9.5572524E-02 0.1449213 5.7373524E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2181696E-03 1.3248876E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1236E-05 | 2: delta_r/delta_0: 1.2216E-06 | 3: delta_s/delta_0: 2.4261E-07 | 4: delta_r/delta_0: 5.1516E-08 | 5: delta_s/delta_0: 1.8277E-08 | 6: delta_r/delta_0: 7.1717E-09 | 7: delta_s/delta_0: 1.7502E-08 | 8: delta_r/delta_0: 9.7577E-10 | 9: delta_s/delta_0: 9.7622E-10 | 10: delta_r/delta_0: 1.7918E-10 | 11: delta_s/delta_0: 1.5181E-09 | 12: delta_r/delta_0: 2.1045E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.852663345107095E-003 2.810916382349451E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1238E-05 | 2: delta_r/delta_0: 1.2218E-06 | 3: delta_s/delta_0: 2.4268E-07 | 4: delta_r/delta_0: 5.1604E-08 | 5: delta_s/delta_0: 1.8244E-08 | 6: delta_r/delta_0: 7.1771E-09 | 7: delta_s/delta_0: 1.7511E-08 | 8: delta_r/delta_0: 9.7739E-10 | 9: delta_s/delta_0: 9.7668E-10 | 10: delta_r/delta_0: 1.7989E-10 | 11: delta_s/delta_0: 1.5251E-09 | 12: delta_r/delta_0: 2.1078E-11 | Reached bicg-stab tolerance | BP delta = -0.2630882 -0.2283738 2841487.66249968 | BP delta = -0.2630882 -0.2259224 2841765.34447594 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81230669 | --> Sampling calibration, mode = relcal | relcal = 0.2955045 0.2248572 -0.2838376 -0.2365240 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.4573824E-05 4.4740941E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2302E-02 | 2: delta_r/delta_0: 2.8718E-04 | 3: delta_s/delta_0: 4.0751E-05 | 4: delta_r/delta_0: 5.7954E-06 | 5: delta_s/delta_0: 3.6440E-06 | 6: delta_r/delta_0: 2.9661E-07 | 7: delta_s/delta_0: 2.6985E-07 | 8: delta_r/delta_0: 1.3292E-07 | 9: delta_s/delta_0: 7.8656E-05 | 10: delta_r/delta_0: 1.1754E-07 | 11: delta_s/delta_0: 8.7109E-08 | 12: delta_r/delta_0: 2.2325E-08 | 13: delta_s/delta_0: 2.4381E-09 | 14: delta_r/delta_0: 8.4614E-10 | 15: delta_s/delta_0: 4.6027E-10 | 16: delta_r/delta_0: 2.9617E-10 | 17: delta_s/delta_0: 2.9280E-10 | 18: delta_r/delta_0: 1.2999E-10 | 19: delta_s/delta_0: 1.0080E-10 | 20: delta_r/delta_0: 5.8429E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.583049020213644E-002 4.021359864829474E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2312E-02 | 2: delta_r/delta_0: 2.8742E-04 | 3: delta_s/delta_0: 4.0846E-05 | 4: delta_r/delta_0: 5.8028E-06 | 5: delta_s/delta_0: 3.6502E-06 | 6: delta_r/delta_0: 2.9647E-07 | 7: delta_s/delta_0: 2.7260E-07 | 8: delta_r/delta_0: 1.3376E-07 | 9: delta_s/delta_0: 7.7058E-05 | 10: delta_r/delta_0: 1.1726E-07 | 11: delta_s/delta_0: 8.6754E-08 | 12: delta_r/delta_0: 2.2400E-08 | 13: delta_s/delta_0: 2.4591E-09 | 14: delta_r/delta_0: 8.4323E-10 | 15: delta_s/delta_0: 3.9483E-07 | 16: delta_r/delta_0: 9.7701E-08 | 17: delta_s/delta_0: 3.8760E-10 | 18: delta_r/delta_0: 7.7894E-11 | Reached bicg-stab tolerance | BP delta = -9.7053431E-02 -0.1208652 2827454.88823230 | BP delta = -9.7053431E-02 -0.1306081 2827207.30185655 | BP chisq diff = -247.6, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95919785 | --> Sampling calibration, mode = relcal | relcal = 0.1065977 0.1394231 -0.1102597 -0.1357610 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0227764E-02 1.3724099E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6800E-04 | 2: delta_r/delta_0: 4.5118E-06 | 3: delta_s/delta_0: 5.3782E-04 | 4: delta_r/delta_0: 3.4276E-05 | 5: delta_s/delta_0: 1.7148E-07 | 6: delta_r/delta_0: 9.7179E-08 | 7: delta_s/delta_0: 7.2865E-07 | 8: delta_r/delta_0: 2.2095E-08 | 9: delta_s/delta_0: 3.3513E-08 | 10: delta_r/delta_0: 1.4142E-09 | 11: delta_s/delta_0: 1.6969E-09 | 12: delta_r/delta_0: 3.9291E-10 | 13: delta_s/delta_0: 4.4607E-10 | 14: delta_r/delta_0: 2.1221E-10 | 15: delta_s/delta_0: 3.4204E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.898281050559155E-002 3.697004758913025E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6800E-04 | 2: delta_r/delta_0: 4.5118E-06 | 3: delta_s/delta_0: 5.3791E-04 | 4: delta_r/delta_0: 3.4288E-05 | 5: delta_s/delta_0: 1.7149E-07 | 6: delta_r/delta_0: 9.7194E-08 | 7: delta_s/delta_0: 7.2944E-07 | 8: delta_r/delta_0: 2.2094E-08 | 9: delta_s/delta_0: 3.3723E-08 | 10: delta_r/delta_0: 1.4195E-09 | 11: delta_s/delta_0: 1.7485E-09 | 12: delta_r/delta_0: 3.9563E-10 | 13: delta_s/delta_0: 4.4626E-10 | 14: delta_r/delta_0: 2.1167E-10 | 15: delta_s/delta_0: 3.4285E-11 | Reached bicg-stab tolerance | BP delta = 4.0636227E-02 0.1421833 3003548.11110196 | BP delta = 4.0636227E-02 0.1558778 3003642.12582702 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173194 | New value = -3.165029 | poltype: 2 pol: 1 CPU time specind = 2.1597147E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170084 | New value = -3.071888 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164601 | New value = -3.095067 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.155940 | New value = -3.111357 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.164726 | New value = -3.162654 | poltype: 2 pol: 2 CPU time specind = 5.5391788E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.13532E+08, tol = 0.77234E+01, time = 5.82 | CG iter. 2 -- res = 0.30710E+06, tol = 0.77234E+01, time = 5.84 | CG iter. 3 -- res = 0.42186E+05, tol = 0.77234E+01, time = 5.85 | CG iter. 4 -- res = 0.17998E+05, tol = 0.77234E+01, time = 5.87 | CG iter. 5 -- res = 0.80861E+04, tol = 0.77234E+01, time = 5.55 | CG iter. 6 -- res = 0.37808E+04, tol = 0.77234E+01, time = 5.93 | CG iter. 7 -- res = 0.20924E+04, tol = 0.77234E+01, time = 6.26 | CG iter. 8 -- res = 0.11218E+04, tol = 0.77234E+01, time = 5.89 | CG iter. 9 -- res = 0.69812E+03, tol = 0.77234E+01, time = 5.84 | CG iter. 10 -- res = 0.60055E+03, tol = 0.77234E+01, time = 5.49 | CG iter. 11 -- res = 0.56918E+03, tol = 0.77234E+01, time = 5.57 | CG iter. 12 -- res = 0.46502E+03, tol = 0.77234E+01, time = 5.96 | CG iter. 13 -- res = 0.33619E+03, tol = 0.77234E+01, time = 6.00 | CG iter. 14 -- res = 0.25780E+03, tol = 0.77234E+01, time = 5.86 | CG iter. 15 -- res = 0.22158E+03, tol = 0.77234E+01, time = 5.69 | CG iter. 16 -- res = 0.17457E+03, tol = 0.77234E+01, time = 5.66 | CG iter. 17 -- res = 0.13158E+03, tol = 0.77234E+01, time = 5.89 | CG iter. 18 -- res = 0.10406E+03, tol = 0.77234E+01, time = 5.77 | CG iter. 19 -- res = 0.90901E+02, tol = 0.77234E+01, time = 5.55 | CG iter. 20 -- res = 0.77122E+02, tol = 0.77234E+01, time = 5.58 | CG iter. 21 -- res = 0.57526E+02, tol = 0.77234E+01, time = 6.01 | CG iter. 22 -- res = 0.41399E+02, tol = 0.77234E+01, time = 5.85 | CG iter. 23 -- res = 0.32492E+02, tol = 0.77234E+01, time = 5.51 | CG iter. 24 -- res = 0.26908E+02, tol = 0.77234E+01, time = 12.14 | CG iter. 25 -- res = 0.21005E+02, tol = 0.77234E+01, time = 5.72 | CG iter. 26 -- res = 0.15414E+02, tol = 0.77234E+01, time = 5.74 | CG iter. 27 -- res = 0.11459E+02, tol = 0.77234E+01, time = 5.65 | CG iter. 28 -- res = 0.91508E+01, tol = 0.77234E+01, time = 5.82 | CG iter. 29 -- res = 0.68193E+01, tol = 0.77234E+01, time = 5.77 | CG iter. 30 -- res = 0.47410E+01, tol = 0.77234E+01, time = 5.77 | CG iter. 31 -- res = 0.35415E+01, tol = 0.77234E+01, time = 6.19 | CG iter. 32 -- res = 0.28300E+01, tol = 0.77234E+01, time = 5.91 | CG iter. 33 -- res = 0.23275E+01, tol = 0.77234E+01, time = 5.71 | CG iter. 34 -- res = 0.17732E+01, tol = 0.77234E+01, time = 5.63 | CG iter. 35 -- res = 0.13212E+01, tol = 0.77234E+01, time = 5.39 | CG iter. 36 -- res = 0.11079E+01, tol = 0.77234E+01, time = 5.39 | CG iter. 37 -- res = 0.90003E+00, tol = 0.77234E+01, time = 5.68 | CG iter. 38 -- res = 0.68824E+00, tol = 0.77234E+01, time = 5.64 | CG iter. 39 -- res = 0.50383E+00, tol = 0.77234E+01, time = 7.13 | CG iter. 40 -- res = 0.39347E+00, tol = 0.77234E+01, time = 5.89 | CG iter. 41 -- res = 0.31417E+00, tol = 0.77234E+01, time = 6.24 | CG iter. 42 -- res = 0.24228E+00, tol = 0.77234E+01, time = 5.47 | CG iter. 43 -- res = 0.17830E+00, tol = 0.77234E+01, time = 5.64 | CG iter. 44 -- res = 0.13247E+00, tol = 0.77234E+01, time = 5.76 | CG iter. 45 -- res = 0.10623E+00, tol = 0.77234E+01, time = 5.27 | CG iter. 46 -- res = 0.84035E-01, tol = 0.77234E+01, time = 5.75 | CG iter. 47 -- res = 0.64097E-01, tol = 0.77234E+01, time = 5.55 | CG iter. 48 -- res = 0.47773E-01, tol = 0.77234E+01, time = 5.33 | CG iter. 49 -- res = 0.37188E-01, tol = 0.77234E+01, time = 5.75 | CG iter. 50 -- res = 0.30377E-01, tol = 0.77234E+01, time = 5.50 | Final CG iter 51 -- res = 0.30377E-01, tol = 0.77234E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9323525.994 | Old band monopole 9164725.898 | Change to band monopole 158800.095 | Change to component monopole -158799.412 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.75 | CG iter. 1 -- res = 0.11579E+04, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.13516E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.57116E-01, tol = 0.47627E+18, time = 2.14 | CG iter. 4 -- res = 0.93781E-04, tol = 0.47627E+18, time = 2.25 | Final CG iter 5 -- res = 0.69617E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9323485.891 | (Sampled value in CG: 9327602.698 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.526700 | New value = 1.581501 | poltype: 2 pol: 1 CPU time specind = 1.7539024E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.467267 | New value = 1.517040 | poltype: 2 pol: 2 CPU time specind = 2.0138025E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.24704E+08, tol = 0.47780E+04, time = 6.65 | CG iter. 2 -- res = 0.54949E+07, tol = 0.47780E+04, time = 6.58 | CG iter. 3 -- res = 0.88056E+06, tol = 0.47780E+04, time = 7.01 | CG iter. 4 -- res = 0.36293E+06, tol = 0.47780E+04, time = 6.44 | CG iter. 5 -- res = 0.15044E+06, tol = 0.47780E+04, time = 12.87 | CG iter. 6 -- res = 0.78109E+05, tol = 0.47780E+04, time = 6.85 | CG iter. 7 -- res = 0.43312E+05, tol = 0.47780E+04, time = 6.84 | CG iter. 8 -- res = 0.20967E+05, tol = 0.47780E+04, time = 7.16 | CG iter. 9 -- res = 0.91363E+04, tol = 0.47780E+04, time = 6.45 | CG iter. 10 -- res = 0.37805E+04, tol = 0.47780E+04, time = 6.48 | CG iter. 11 -- res = 0.17274E+04, tol = 0.47780E+04, time = 6.89 | CG iter. 12 -- res = 0.88303E+03, tol = 0.47780E+04, time = 6.35 | CG iter. 13 -- res = 0.49739E+03, tol = 0.47780E+04, time = 6.70 | CG iter. 14 -- res = 0.28267E+03, tol = 0.47780E+04, time = 6.84 | CG iter. 15 -- res = 0.14698E+03, tol = 0.47780E+04, time = 6.28 | CG iter. 16 -- res = 0.70396E+02, tol = 0.47780E+04, time = 6.63 | CG iter. 17 -- res = 0.33140E+02, tol = 0.47780E+04, time = 7.03 | CG iter. 18 -- res = 0.16440E+02, tol = 0.47780E+04, time = 7.99 | CG iter. 19 -- res = 0.88128E+01, tol = 0.47780E+04, time = 7.15 | CG iter. 20 -- res = 0.49001E+01, tol = 0.47780E+04, time = 6.52 | CG iter. 21 -- res = 0.26049E+01, tol = 0.47780E+04, time = 6.29 | CG iter. 22 -- res = 0.13204E+01, tol = 0.47780E+04, time = 6.40 | CG iter. 23 -- res = 0.65735E+00, tol = 0.47780E+04, time = 6.86 | CG iter. 24 -- res = 0.34015E+00, tol = 0.47780E+04, time = 6.21 | CG iter. 25 -- res = 0.19609E+00, tol = 0.47780E+04, time = 7.23 | CG iter. 26 -- res = 0.11279E+00, tol = 0.47780E+04, time = 6.53 | CG iter. 27 -- res = 0.62442E-01, tol = 0.47780E+04, time = 6.38 | CG iter. 28 -- res = 0.33732E-01, tol = 0.47780E+04, time = 6.79 | CG iter. 29 -- res = 0.17484E-01, tol = 0.47780E+04, time = 6.58 | CG iter. 30 -- res = 0.92176E-02, tol = 0.47780E+04, time = 6.78 | CG iter. 31 -- res = 0.49519E-02, tol = 0.47780E+04, time = 6.81 | CG iter. 32 -- res = 0.28493E-02, tol = 0.47780E+04, time = 6.36 | CG iter. 33 -- res = 0.16121E-02, tol = 0.47780E+04, time = 6.58 | CG iter. 34 -- res = 0.86573E-03, tol = 0.47780E+04, time = 7.12 | CG iter. 35 -- res = 0.44872E-03, tol = 0.47780E+04, time = 6.76 | Final CG iter 36 -- res = 0.44872E-03, tol = 0.47780E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.674 2.722 | New value -0.716 | Old value 4.674 | Difference -5.390 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.15070E+07, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.25271E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.56264E+00, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.28341E-03, tol = 0.47627E+18, time = 2.14 | Final CG iter 5 -- res = 0.60292E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9323485.891 | (Sampled value in CG: 9330350.025 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.735010 | New value = -3.545531 | poltype: 1 pol: 1 CPU time specind = 1.7559052E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.21082E+07, tol = 0.24626E+01, time = 2.77 | CG iter. 2 -- res = 0.77422E+06, tol = 0.24626E+01, time = 2.51 | CG iter. 3 -- res = 0.13828E+06, tol = 0.24626E+01, time = 2.45 | CG iter. 4 -- res = 0.52182E+05, tol = 0.24626E+01, time = 2.62 | CG iter. 5 -- res = 0.29819E+05, tol = 0.24626E+01, time = 2.85 | CG iter. 6 -- res = 0.15616E+05, tol = 0.24626E+01, time = 2.79 | CG iter. 7 -- res = 0.65811E+04, tol = 0.24626E+01, time = 2.92 | CG iter. 8 -- res = 0.30747E+04, tol = 0.24626E+01, time = 2.81 | CG iter. 9 -- res = 0.13449E+04, tol = 0.24626E+01, time = 2.88 | CG iter. 10 -- res = 0.52648E+03, tol = 0.24626E+01, time = 2.59 | CG iter. 11 -- res = 0.22705E+03, tol = 0.24626E+01, time = 2.50 | CG iter. 12 -- res = 0.10927E+03, tol = 0.24626E+01, time = 2.70 | CG iter. 13 -- res = 0.57021E+02, tol = 0.24626E+01, time = 2.75 | CG iter. 14 -- res = 0.28967E+02, tol = 0.24626E+01, time = 2.94 | CG iter. 15 -- res = 0.12837E+02, tol = 0.24626E+01, time = 2.81 | CG iter. 16 -- res = 0.55842E+01, tol = 0.24626E+01, time = 2.38 | CG iter. 17 -- res = 0.24362E+01, tol = 0.24626E+01, time = 2.56 | CG iter. 18 -- res = 0.11243E+01, tol = 0.24626E+01, time = 3.07 | CG iter. 19 -- res = 0.55399E+00, tol = 0.24626E+01, time = 2.74 | CG iter. 20 -- res = 0.27840E+00, tol = 0.24626E+01, time = 2.61 | CG iter. 21 -- res = 0.13723E+00, tol = 0.24626E+01, time = 2.80 | CG iter. 22 -- res = 0.66299E-01, tol = 0.24626E+01, time = 2.49 | CG iter. 23 -- res = 0.29874E-01, tol = 0.24626E+01, time = 2.84 | CG iter. 24 -- res = 0.12730E-01, tol = 0.24626E+01, time = 2.72 | CG iter. 25 -- res = 0.64100E-02, tol = 0.24626E+01, time = 2.85 | CG iter. 26 -- res = 0.32920E-02, tol = 0.24626E+01, time = 2.70 | CG iter. 27 -- res = 0.16689E-02, tol = 0.24626E+01, time = 2.71 | CG iter. 28 -- res = 0.79507E-03, tol = 0.24626E+01, time = 2.60 | CG iter. 29 -- res = 0.35380E-03, tol = 0.24626E+01, time = 2.47 | CG iter. 30 -- res = 0.16748E-03, tol = 0.24626E+01, time = 2.85 | CG iter. 31 -- res = 0.78365E-04, tol = 0.24626E+01, time = 3.00 | CG iter. 32 -- res = 0.39762E-04, tol = 0.24626E+01, time = 2.82 | CG iter. 33 -- res = 0.20799E-04, tol = 0.24626E+01, time = 9.32 | CG iter. 34 -- res = 0.98055E-05, tol = 0.24626E+01, time = 2.91 | CG iter. 35 -- res = 0.46025E-05, tol = 0.24626E+01, time = 2.63 | CG iter. 36 -- res = 0.21644E-05, tol = 0.24626E+01, time = 2.92 | CG iter. 37 -- res = 0.10257E-05, tol = 0.24626E+01, time = 2.53 | CG iter. 38 -- res = 0.51563E-06, tol = 0.24626E+01, time = 2.78 | CG iter. 39 -- res = 0.25182E-06, tol = 0.24626E+01, time = 2.78 | CG iter. 40 -- res = 0.12100E-06, tol = 0.24626E+01, time = 2.81 | CG iter. 41 -- res = 0.61623E-07, tol = 0.24626E+01, time = 2.94 | CG iter. 42 -- res = 0.28575E-07, tol = 0.24626E+01, time = 2.57 | CG iter. 43 -- res = 0.12892E-07, tol = 0.24626E+01, time = 2.71 | CG iter. 44 -- res = 0.61925E-08, tol = 0.24626E+01, time = 2.88 | CG iter. 45 -- res = 0.30590E-08, tol = 0.24626E+01, time = 2.61 | CG iter. 46 -- res = 0.14930E-08, tol = 0.24626E+01, time = 2.70 | CG iter. 47 -- res = 0.73163E-09, tol = 0.24626E+01, time = 2.53 | CG iter. 48 -- res = 0.33419E-09, tol = 0.24626E+01, time = 2.86 | CG iter. 49 -- res = 0.15593E-09, tol = 0.24626E+01, time = 2.62 | CG iter. 50 -- res = 0.72529E-10, tol = 0.24626E+01, time = 2.79 | Final CG iter 51 -- res = 0.72529E-10, tol = 0.24626E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.895 4.876 | New value -7.460 | Old value -1.895 | Difference -5.566 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.30884E+05, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.27796E+02, tol = 0.47627E+18, time = 2.96 | CG iter. 3 -- res = 0.93359E+00, tol = 0.47627E+18, time = 2.61 | CG iter. 4 -- res = 0.26327E-03, tol = 0.47627E+18, time = 2.38 | Final CG iter 5 -- res = 0.14369E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9323485.891 | (Sampled value in CG: 9329347.283 ) | CPU time specind = 1198.153 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.69825E+08, tol = 0.57697E+04, time = 12.41 | CG iter. 2 -- res = 0.59425E+08, tol = 0.57697E+04, time = 12.36 | CG iter. 3 -- res = 0.15536E+08, tol = 0.57697E+04, time = 11.80 | CG iter. 4 -- res = 0.64938E+07, tol = 0.57697E+04, time = 11.88 | CG iter. 5 -- res = 0.38762E+07, tol = 0.57697E+04, time = 13.20 | CG iter. 6 -- res = 0.22089E+07, tol = 0.57697E+04, time = 12.27 | CG iter. 7 -- res = 0.13485E+07, tol = 0.57697E+04, time = 12.11 | CG iter. 8 -- res = 0.89861E+06, tol = 0.57697E+04, time = 12.50 | CG iter. 9 -- res = 0.56577E+06, tol = 0.57697E+04, time = 12.45 | CG iter. 10 -- res = 0.33140E+06, tol = 0.57697E+04, time = 11.73 | CG iter. 11 -- res = 0.17764E+06, tol = 0.57697E+04, time = 12.13 | CG iter. 12 -- res = 0.93111E+05, tol = 0.57697E+04, time = 12.10 | CG iter. 13 -- res = 0.49987E+05, tol = 0.57697E+04, time = 16.41 | CG iter. 14 -- res = 0.28874E+05, tol = 0.57697E+04, time = 13.86 | CG iter. 15 -- res = 0.17632E+05, tol = 0.57697E+04, time = 11.26 | CG iter. 16 -- res = 0.11609E+05, tol = 0.57697E+04, time = 12.00 | CG iter. 17 -- res = 0.80660E+04, tol = 0.57697E+04, time = 12.12 | CG iter. 18 -- res = 0.53891E+04, tol = 0.57697E+04, time = 11.97 | CG iter. 19 -- res = 0.34362E+04, tol = 0.57697E+04, time = 12.00 | CG iter. 20 -- res = 0.21525E+04, tol = 0.57697E+04, time = 12.20 | CG iter. 21 -- res = 0.13653E+04, tol = 0.57697E+04, time = 14.08 | CG iter. 22 -- res = 0.96964E+03, tol = 0.57697E+04, time = 12.33 | CG iter. 23 -- res = 0.77609E+03, tol = 0.57697E+04, time = 11.94 | CG iter. 24 -- res = 0.70623E+03, tol = 0.57697E+04, time = 11.98 | CG iter. 25 -- res = 0.68133E+03, tol = 0.57697E+04, time = 11.72 | CG iter. 26 -- res = 0.64931E+03, tol = 0.57697E+04, time = 12.02 | CG iter. 27 -- res = 0.61748E+03, tol = 0.57697E+04, time = 11.43 | CG iter. 28 -- res = 0.56824E+03, tol = 0.57697E+04, time = 12.02 | CG iter. 29 -- res = 0.52190E+03, tol = 0.57697E+04, time = 12.24 | CG iter. 30 -- res = 0.48930E+03, tol = 0.57697E+04, time = 12.00 | CG iter. 31 -- res = 0.47343E+03, tol = 0.57697E+04, time = 12.29 | CG iter. 32 -- res = 0.44490E+03, tol = 0.57697E+04, time = 11.79 | CG iter. 33 -- res = 0.38779E+03, tol = 0.57697E+04, time = 12.02 | CG iter. 34 -- res = 0.31738E+03, tol = 0.57697E+04, time = 11.95 | CG iter. 35 -- res = 0.25488E+03, tol = 0.57697E+04, time = 11.95 | CG iter. 36 -- res = 0.19768E+03, tol = 0.57697E+04, time = 11.84 | CG iter. 37 -- res = 0.15876E+03, tol = 0.57697E+04, time = 12.00 | CG iter. 38 -- res = 0.13910E+03, tol = 0.57697E+04, time = 17.55 | CG iter. 39 -- res = 0.12924E+03, tol = 0.57697E+04, time = 12.06 | CG iter. 40 -- res = 0.11691E+03, tol = 0.57697E+04, time = 11.57 | CG iter. 41 -- res = 0.10177E+03, tol = 0.57697E+04, time = 12.36 | CG iter. 42 -- res = 0.87071E+02, tol = 0.57697E+04, time = 11.75 | CG iter. 43 -- res = 0.75722E+02, tol = 0.57697E+04, time = 11.47 | CG iter. 44 -- res = 0.69229E+02, tol = 0.57697E+04, time = 11.84 | CG iter. 45 -- res = 0.64220E+02, tol = 0.57697E+04, time = 13.15 | CG iter. 46 -- res = 0.59429E+02, tol = 0.57697E+04, time = 13.29 | CG iter. 47 -- res = 0.55150E+02, tol = 0.57697E+04, time = 12.09 | CG iter. 48 -- res = 0.48262E+02, tol = 0.57697E+04, time = 11.68 | CG iter. 49 -- res = 0.40057E+02, tol = 0.57697E+04, time = 12.01 | CG iter. 50 -- res = 0.32804E+02, tol = 0.57697E+04, time = 11.69 | CG iter. 51 -- res = 0.27729E+02, tol = 0.57697E+04, time = 11.68 | CG iter. 52 -- res = 0.24348E+02, tol = 0.57697E+04, time = 12.26 | CG iter. 53 -- res = 0.21789E+02, tol = 0.57697E+04, time = 11.90 | CG iter. 54 -- res = 0.19593E+02, tol = 0.57697E+04, time = 12.61 | CG iter. 55 -- res = 0.17408E+02, tol = 0.57697E+04, time = 12.01 | CG iter. 56 -- res = 0.15191E+02, tol = 0.57697E+04, time = 12.68 | CG iter. 57 -- res = 0.13261E+02, tol = 0.57697E+04, time = 11.98 | CG iter. 58 -- res = 0.11955E+02, tol = 0.57697E+04, time = 11.85 | CG iter. 59 -- res = 0.10928E+02, tol = 0.57697E+04, time = 11.88 | CG iter. 60 -- res = 0.10228E+02, tol = 0.57697E+04, time = 12.02 | Final CG iter 61 -- res = 0.10228E+02, tol = 0.57697E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.876 ( -229.621 -2230.109 2512.822 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10106201.911 | Old band monopole 9323525.994 | Change to band monopole 782675.917 | Change to component monopole -782672.550 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.689 2.757 | New value -0.933 | Old value -0.689 | Difference -0.244 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.023 ( 6.557 11.623 -11.577 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.124 5.000 | New value 0.559 | Old value -7.124 | Difference 7.683 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.64663E+05, tol = 0.47627E+18, time = 1.77 | CG iter. 2 -- res = 0.35930E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.16240E+01, tol = 0.47627E+18, time = 2.32 | CG iter. 4 -- res = 0.19532E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.32552E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10106158.442 | (Sampled value in CG: 10089459.403 ) | Chain = 1 -- chisq = 0.81492985E+09 | Chain = 1 -- wall time = 6187.833 sec Available RAM: MemAvailable: 396151592 kB Available Swap: SwapFree: 1127613868 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 409 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444472 | --> Sampling calibration, mode = relcal | relcal = 1.3441918E-02 7.3561084E-04 -1.5995150E-03 -1.2578014E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1592456 0.1768479 97052183.6270665 | BP delta = 0.1687101 0.1863124 97052188.1835992 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632568 | --> Sampling calibration, mode = relcal | relcal = -2.8210331E-03 -7.0409616E-04 1.6800995E-03 1.6134403E-03 -4.0812031E-04 6.3970959E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5440257 15221259.0268935 | BP delta = 0.0000000E+00 -0.5333077 15221263.2933082 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18106705828344 | --> Sampling calibration, mode = relcal | relcal = -7.5178884E-02 -5.8528721E-02 9.2101075E-02 4.1606527E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9675522E-04 4.6562981E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0919E-05 | 2: delta_r/delta_0: 9.0975E-07 | 3: delta_s/delta_0: 2.1322E-07 | 4: delta_r/delta_0: 1.9375E-08 | 5: delta_s/delta_0: 6.6783E-09 | 6: delta_r/delta_0: 1.4034E-09 | 7: delta_s/delta_0: 3.5142E-10 | 8: delta_r/delta_0: 1.0046E-10 | 9: delta_s/delta_0: 4.3930E-09 | 10: delta_r/delta_0: 1.3604E-09 | 11: delta_s/delta_0: 1.3851E-09 | 12: delta_r/delta_0: 1.0496E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.322513386473861E-004 2.740901720314228E-005 | BP delta = 6.7515910E-02 9.1697477E-02 50487093.9781763 | BP delta = 5.7045825E-02 8.1227392E-02 50487103.9051956 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02602039 | --> Sampling calibration, mode = relcal | relcal = -0.1067088 -9.5533304E-02 0.1449150 5.7327133E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8598749E-03 1.2006169E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.9910E-05 | 2: delta_r/delta_0: 1.3397E-06 | 3: delta_s/delta_0: 2.4463E-07 | 4: delta_r/delta_0: 5.3696E-08 | 5: delta_s/delta_0: 2.2081E-08 | 6: delta_r/delta_0: 7.7841E-09 | 7: delta_s/delta_0: 7.8833E-09 | 8: delta_r/delta_0: 1.6270E-09 | 9: delta_s/delta_0: 8.0958E-10 | 10: delta_r/delta_0: 6.0533E-10 | 11: delta_s/delta_0: 3.0526E-10 | 12: delta_r/delta_0: 1.1869E-10 | 13: delta_s/delta_0: 1.0609E-10 | 14: delta_r/delta_0: 5.6263E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.012732249951546E-002 2.810764155613751E-005 | BP delta = -0.2630882 -0.2283738 57388631.0032237 | BP delta = -0.2623167 -0.2276023 57388631.0332873 | BP chisq diff = 0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243699 | --> Sampling calibration, mode = relcal | relcal = 0.2955530 0.2247820 -0.2837707 -0.2365642 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.5037456E-05 5.3800838E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2994E-03 | 2: delta_r/delta_0: 1.7036E-04 | 3: delta_s/delta_0: 8.4194E-03 | 4: delta_r/delta_0: 3.5809E-04 | 5: delta_s/delta_0: 7.0491E-06 | 6: delta_r/delta_0: 7.4999E-07 | 7: delta_s/delta_0: 1.8320E-07 | 8: delta_r/delta_0: 4.9924E-09 | 9: delta_s/delta_0: 4.6646E-09 | 10: delta_r/delta_0: 1.2612E-09 | 11: delta_s/delta_0: 3.5690E-09 | 12: delta_r/delta_0: 3.7525E-10 | 13: delta_s/delta_0: 1.5763E-05 | 14: delta_r/delta_0: 8.4113E-07 | 15: delta_s/delta_0: 1.0676E-10 | 16: delta_r/delta_0: 3.6823E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 3.442182166264076E-004 4.020572470889195E-005 | BP delta = -9.7053431E-02 -0.1306081 72492217.9173899 | BP delta = -0.1332006 -0.1667553 72492217.8899760 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95932883 | --> Sampling calibration, mode = relcal | relcal = 0.1065188 0.1396064 -0.1102968 -0.1358283 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.6338037E-03 1.3901265E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0599E-04 | 2: delta_r/delta_0: 5.3735E-06 | 3: delta_s/delta_0: 5.9413E-05 | 4: delta_r/delta_0: 3.1228E-06 | 5: delta_s/delta_0: 2.0198E-07 | 6: delta_r/delta_0: 1.0414E-07 | 7: delta_s/delta_0: 8.9076E-07 | 8: delta_r/delta_0: 2.6349E-08 | 9: delta_s/delta_0: 7.9287E-09 | 10: delta_r/delta_0: 4.5889E-09 | 11: delta_s/delta_0: 1.1364E-09 | 12: delta_r/delta_0: 7.3666E-10 | 13: delta_s/delta_0: 5.5789E-10 | 14: delta_r/delta_0: 6.6675E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.985146895650829E-002 3.696549450937520E-005 | BP delta = 4.0636227E-02 0.1421833 72781373.6233873 | BP delta = -2.2393423E-03 9.9307768E-02 72781377.0111699 | BP chisq diff = 3.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.165029 | New value = -3.150896 | poltype: 2 pol: 1 CPU time specind = 2.1811962E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.071888 | New value = -3.246767 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.095067 | New value = -3.178823 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.111357 | New value = -3.216288 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.162654 | New value = -3.145037 | poltype: 2 pol: 2 CPU time specind = 2.1216154E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.13549E+08, tol = 0.71386E+01, time = 5.86 | CG iter. 2 -- res = 0.36781E+06, tol = 0.71386E+01, time = 5.52 | CG iter. 3 -- res = 0.51492E+05, tol = 0.71386E+01, time = 5.69 | CG iter. 4 -- res = 0.21836E+05, tol = 0.71386E+01, time = 5.78 | CG iter. 5 -- res = 0.10633E+05, tol = 0.71386E+01, time = 5.73 | CG iter. 6 -- res = 0.57520E+04, tol = 0.71386E+01, time = 5.35 | CG iter. 7 -- res = 0.40231E+04, tol = 0.71386E+01, time = 5.91 | CG iter. 8 -- res = 0.31511E+04, tol = 0.71386E+01, time = 5.76 | CG iter. 9 -- res = 0.27350E+04, tol = 0.71386E+01, time = 5.44 | CG iter. 10 -- res = 0.29171E+04, tol = 0.71386E+01, time = 5.88 | CG iter. 11 -- res = 0.28961E+04, tol = 0.71386E+01, time = 5.90 | CG iter. 12 -- res = 0.22529E+04, tol = 0.71386E+01, time = 5.93 | CG iter. 13 -- res = 0.15185E+04, tol = 0.71386E+01, time = 5.65 | CG iter. 14 -- res = 0.11294E+04, tol = 0.71386E+01, time = 5.71 | CG iter. 15 -- res = 0.89550E+03, tol = 0.71386E+01, time = 6.44 | CG iter. 16 -- res = 0.75230E+03, tol = 0.71386E+01, time = 5.28 | CG iter. 17 -- res = 0.56917E+03, tol = 0.71386E+01, time = 5.84 | CG iter. 18 -- res = 0.43240E+03, tol = 0.71386E+01, time = 5.80 | CG iter. 19 -- res = 0.36522E+03, tol = 0.71386E+01, time = 5.83 | CG iter. 20 -- res = 0.30075E+03, tol = 0.71386E+01, time = 5.64 | CG iter. 21 -- res = 0.22272E+03, tol = 0.71386E+01, time = 6.03 | CG iter. 22 -- res = 0.16209E+03, tol = 0.71386E+01, time = 11.78 | CG iter. 23 -- res = 0.13257E+03, tol = 0.71386E+01, time = 5.79 | CG iter. 24 -- res = 0.11808E+03, tol = 0.71386E+01, time = 5.59 | CG iter. 25 -- res = 0.98170E+02, tol = 0.71386E+01, time = 5.77 | CG iter. 26 -- res = 0.75499E+02, tol = 0.71386E+01, time = 5.88 | CG iter. 27 -- res = 0.61090E+02, tol = 0.71386E+01, time = 5.87 | CG iter. 28 -- res = 0.53884E+02, tol = 0.71386E+01, time = 5.62 | CG iter. 29 -- res = 0.47159E+02, tol = 0.71386E+01, time = 5.67 | CG iter. 30 -- res = 0.38298E+02, tol = 0.71386E+01, time = 5.85 | CG iter. 31 -- res = 0.33173E+02, tol = 0.71386E+01, time = 5.89 | CG iter. 32 -- res = 0.29298E+02, tol = 0.71386E+01, time = 5.77 | CG iter. 33 -- res = 0.25605E+02, tol = 0.71386E+01, time = 5.74 | CG iter. 34 -- res = 0.20551E+02, tol = 0.71386E+01, time = 5.87 | CG iter. 35 -- res = 0.16362E+02, tol = 0.71386E+01, time = 5.43 | CG iter. 36 -- res = 0.14333E+02, tol = 0.71386E+01, time = 5.69 | CG iter. 37 -- res = 0.12213E+02, tol = 0.71386E+01, time = 7.23 | CG iter. 38 -- res = 0.10114E+02, tol = 0.71386E+01, time = 5.91 | CG iter. 39 -- res = 0.77758E+01, tol = 0.71386E+01, time = 6.08 | CG iter. 40 -- res = 0.63246E+01, tol = 0.71386E+01, time = 5.77 | CG iter. 41 -- res = 0.52527E+01, tol = 0.71386E+01, time = 5.95 | CG iter. 42 -- res = 0.42383E+01, tol = 0.71386E+01, time = 5.94 | CG iter. 43 -- res = 0.32322E+01, tol = 0.71386E+01, time = 5.58 | CG iter. 44 -- res = 0.24037E+01, tol = 0.71386E+01, time = 5.65 | CG iter. 45 -- res = 0.19478E+01, tol = 0.71386E+01, time = 5.73 | CG iter. 46 -- res = 0.16047E+01, tol = 0.71386E+01, time = 5.55 | CG iter. 47 -- res = 0.12543E+01, tol = 0.71386E+01, time = 5.79 | CG iter. 48 -- res = 0.93491E+00, tol = 0.71386E+01, time = 6.02 | CG iter. 49 -- res = 0.73898E+00, tol = 0.71386E+01, time = 5.55 | CG iter. 50 -- res = 0.62046E+00, tol = 0.71386E+01, time = 5.59 | Final CG iter 51 -- res = 0.62046E+00, tol = 0.71386E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9056455.794 | Old band monopole 10106201.911 | Change to band monopole -1049746.117 | Change to component monopole 1049741.602 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.46986E+05, tol = 0.47627E+18, time = 2.09 | CG iter. 2 -- res = 0.31056E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.13776E+01, tol = 0.47627E+18, time = 2.32 | CG iter. 4 -- res = 0.10592E-02, tol = 0.47627E+18, time = 1.97 | Final CG iter 5 -- res = 0.11640E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9056416.840 | (Sampled value in CG: 9068702.423 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.581501 | New value = 1.499321 | poltype: 2 pol: 1 CPU time specind = 1.9456863E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.517040 | New value = 1.496029 | poltype: 2 pol: 2 CPU time specind = 1.2027979E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.25476E+08, tol = 0.47528E+04, time = 6.35 | CG iter. 2 -- res = 0.53878E+07, tol = 0.47528E+04, time = 6.50 | CG iter. 3 -- res = 0.83386E+06, tol = 0.47528E+04, time = 12.63 | CG iter. 4 -- res = 0.35034E+06, tol = 0.47528E+04, time = 6.76 | CG iter. 5 -- res = 0.15056E+06, tol = 0.47528E+04, time = 6.92 | CG iter. 6 -- res = 0.79599E+05, tol = 0.47528E+04, time = 6.55 | CG iter. 7 -- res = 0.43934E+05, tol = 0.47528E+04, time = 6.37 | CG iter. 8 -- res = 0.20618E+05, tol = 0.47528E+04, time = 6.79 | CG iter. 9 -- res = 0.89605E+04, tol = 0.47528E+04, time = 6.52 | CG iter. 10 -- res = 0.36613E+04, tol = 0.47528E+04, time = 6.41 | CG iter. 11 -- res = 0.16704E+04, tol = 0.47528E+04, time = 6.83 | CG iter. 12 -- res = 0.85326E+03, tol = 0.47528E+04, time = 6.27 | CG iter. 13 -- res = 0.48947E+03, tol = 0.47528E+04, time = 6.57 | CG iter. 14 -- res = 0.27590E+03, tol = 0.47528E+04, time = 6.65 | CG iter. 15 -- res = 0.14139E+03, tol = 0.47528E+04, time = 6.49 | CG iter. 16 -- res = 0.67354E+02, tol = 0.47528E+04, time = 8.15 | CG iter. 17 -- res = 0.31595E+02, tol = 0.47528E+04, time = 7.26 | CG iter. 18 -- res = 0.15931E+02, tol = 0.47528E+04, time = 6.71 | CG iter. 19 -- res = 0.86788E+01, tol = 0.47528E+04, time = 6.85 | CG iter. 20 -- res = 0.48619E+01, tol = 0.47528E+04, time = 6.48 | CG iter. 21 -- res = 0.26490E+01, tol = 0.47528E+04, time = 6.84 | CG iter. 22 -- res = 0.13971E+01, tol = 0.47528E+04, time = 6.35 | CG iter. 23 -- res = 0.70009E+00, tol = 0.47528E+04, time = 6.65 | CG iter. 24 -- res = 0.36096E+00, tol = 0.47528E+04, time = 6.37 | CG iter. 25 -- res = 0.19993E+00, tol = 0.47528E+04, time = 6.87 | CG iter. 26 -- res = 0.11253E+00, tol = 0.47528E+04, time = 6.65 | CG iter. 27 -- res = 0.62268E-01, tol = 0.47528E+04, time = 6.53 | CG iter. 28 -- res = 0.33118E-01, tol = 0.47528E+04, time = 7.26 | CG iter. 29 -- res = 0.17200E-01, tol = 0.47528E+04, time = 6.61 | CG iter. 30 -- res = 0.91278E-02, tol = 0.47528E+04, time = 6.71 | CG iter. 31 -- res = 0.50410E-02, tol = 0.47528E+04, time = 6.51 | CG iter. 32 -- res = 0.28790E-02, tol = 0.47528E+04, time = 6.66 | CG iter. 33 -- res = 0.16242E-02, tol = 0.47528E+04, time = 6.63 | CG iter. 34 -- res = 0.87392E-03, tol = 0.47528E+04, time = 6.79 | CG iter. 35 -- res = 0.44829E-03, tol = 0.47528E+04, time = 6.73 | Final CG iter 36 -- res = 0.44829E-03, tol = 0.47528E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.924 2.735 | New value 0.987 | Old value -0.924 | Difference 1.911 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.20191E+06, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.21326E+02, tol = 0.47627E+18, time = 2.05 | CG iter. 3 -- res = 0.72479E+00, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.76722E-03, tol = 0.47627E+18, time = 1.84 | Final CG iter 5 -- res = 0.63904E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9056416.840 | (Sampled value in CG: 9068489.021 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.545531 | New value = -3.702440 | poltype: 1 pol: 1 CPU time specind = 1.7421961E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.21562E+07, tol = 0.32663E+01, time = 2.77 | CG iter. 2 -- res = 0.58015E+06, tol = 0.32663E+01, time = 2.79 | CG iter. 3 -- res = 0.11336E+06, tol = 0.32663E+01, time = 2.72 | CG iter. 4 -- res = 0.54001E+05, tol = 0.32663E+01, time = 2.63 | CG iter. 5 -- res = 0.34540E+05, tol = 0.32663E+01, time = 2.80 | CG iter. 6 -- res = 0.16334E+05, tol = 0.32663E+01, time = 2.54 | CG iter. 7 -- res = 0.58549E+04, tol = 0.32663E+01, time = 2.98 | CG iter. 8 -- res = 0.24614E+04, tol = 0.32663E+01, time = 2.81 | CG iter. 9 -- res = 0.10384E+04, tol = 0.32663E+01, time = 2.62 | CG iter. 10 -- res = 0.43930E+03, tol = 0.32663E+01, time = 2.80 | CG iter. 11 -- res = 0.20400E+03, tol = 0.32663E+01, time = 2.71 | CG iter. 12 -- res = 0.10171E+03, tol = 0.32663E+01, time = 2.84 | CG iter. 13 -- res = 0.52238E+02, tol = 0.32663E+01, time = 2.82 | CG iter. 14 -- res = 0.24651E+02, tol = 0.32663E+01, time = 2.75 | CG iter. 15 -- res = 0.99750E+01, tol = 0.32663E+01, time = 2.89 | CG iter. 16 -- res = 0.41523E+01, tol = 0.32663E+01, time = 3.07 | CG iter. 17 -- res = 0.18392E+01, tol = 0.32663E+01, time = 2.68 | CG iter. 18 -- res = 0.91174E+00, tol = 0.32663E+01, time = 2.69 | CG iter. 19 -- res = 0.45193E+00, tol = 0.32663E+01, time = 2.59 | CG iter. 20 -- res = 0.21803E+00, tol = 0.32663E+01, time = 2.96 | CG iter. 21 -- res = 0.93754E-01, tol = 0.32663E+01, time = 2.91 | CG iter. 22 -- res = 0.41034E-01, tol = 0.32663E+01, time = 3.01 | CG iter. 23 -- res = 0.19246E-01, tol = 0.32663E+01, time = 2.63 | CG iter. 24 -- res = 0.98542E-02, tol = 0.32663E+01, time = 2.87 | CG iter. 25 -- res = 0.51503E-02, tol = 0.32663E+01, time = 2.81 | CG iter. 26 -- res = 0.25604E-02, tol = 0.32663E+01, time = 2.89 | CG iter. 27 -- res = 0.11876E-02, tol = 0.32663E+01, time = 3.95 | CG iter. 28 -- res = 0.55583E-03, tol = 0.32663E+01, time = 8.10 | CG iter. 29 -- res = 0.25317E-03, tol = 0.32663E+01, time = 2.69 | CG iter. 30 -- res = 0.12807E-03, tol = 0.32663E+01, time = 2.69 | CG iter. 31 -- res = 0.66160E-04, tol = 0.32663E+01, time = 2.60 | CG iter. 32 -- res = 0.31090E-04, tol = 0.32663E+01, time = 2.96 | CG iter. 33 -- res = 0.15048E-04, tol = 0.32663E+01, time = 2.58 | CG iter. 34 -- res = 0.66467E-05, tol = 0.32663E+01, time = 2.62 | CG iter. 35 -- res = 0.31802E-05, tol = 0.32663E+01, time = 2.92 | CG iter. 36 -- res = 0.16326E-05, tol = 0.32663E+01, time = 2.98 | CG iter. 37 -- res = 0.80619E-06, tol = 0.32663E+01, time = 2.75 | CG iter. 38 -- res = 0.40290E-06, tol = 0.32663E+01, time = 2.86 | CG iter. 39 -- res = 0.18250E-06, tol = 0.32663E+01, time = 2.47 | CG iter. 40 -- res = 0.83667E-07, tol = 0.32663E+01, time = 2.83 | CG iter. 41 -- res = 0.40439E-07, tol = 0.32663E+01, time = 3.04 | CG iter. 42 -- res = 0.19999E-07, tol = 0.32663E+01, time = 2.98 | CG iter. 43 -- res = 0.99856E-08, tol = 0.32663E+01, time = 3.18 | CG iter. 44 -- res = 0.49523E-08, tol = 0.32663E+01, time = 2.64 | CG iter. 45 -- res = 0.22025E-08, tol = 0.32663E+01, time = 2.65 | CG iter. 46 -- res = 0.98186E-09, tol = 0.32663E+01, time = 2.75 | CG iter. 47 -- res = 0.46136E-09, tol = 0.32663E+01, time = 2.65 | CG iter. 48 -- res = 0.22887E-09, tol = 0.32663E+01, time = 2.74 | CG iter. 49 -- res = 0.11687E-09, tol = 0.32663E+01, time = 2.72 | CG iter. 50 -- res = 0.54327E-10, tol = 0.32663E+01, time = 2.78 | Final CG iter 51 -- res = 0.54327E-10, tol = 0.32663E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.164 4.977 | New value -5.612 | Old value 2.164 | Difference -7.776 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.58689E+05, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.28278E+02, tol = 0.47627E+18, time = 2.26 | CG iter. 3 -- res = 0.13143E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.10667E-02, tol = 0.47627E+18, time = 1.90 | Final CG iter 5 -- res = 0.59743E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9056416.840 | (Sampled value in CG: 9068685.780 ) | CPU time specind = 1198.648 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.72089E+08, tol = 0.57894E+04, time = 12.32 | CG iter. 2 -- res = 0.60121E+08, tol = 0.57894E+04, time = 11.95 | CG iter. 3 -- res = 0.15823E+08, tol = 0.57894E+04, time = 11.77 | CG iter. 4 -- res = 0.69678E+07, tol = 0.57894E+04, time = 11.82 | CG iter. 5 -- res = 0.42751E+07, tol = 0.57894E+04, time = 12.11 | CG iter. 6 -- res = 0.24848E+07, tol = 0.57894E+04, time = 12.28 | CG iter. 7 -- res = 0.14732E+07, tol = 0.57894E+04, time = 12.38 | CG iter. 8 -- res = 0.94465E+06, tol = 0.57894E+04, time = 12.08 | CG iter. 9 -- res = 0.59530E+06, tol = 0.57894E+04, time = 12.05 | CG iter. 10 -- res = 0.35857E+06, tol = 0.57894E+04, time = 12.19 | CG iter. 11 -- res = 0.19507E+06, tol = 0.57894E+04, time = 12.26 | CG iter. 12 -- res = 0.10291E+06, tol = 0.57894E+04, time = 15.98 | CG iter. 13 -- res = 0.55664E+05, tol = 0.57894E+04, time = 14.67 | CG iter. 14 -- res = 0.31966E+05, tol = 0.57894E+04, time = 12.15 | CG iter. 15 -- res = 0.19948E+05, tol = 0.57894E+04, time = 12.17 | CG iter. 16 -- res = 0.13586E+05, tol = 0.57894E+04, time = 12.53 | CG iter. 17 -- res = 0.94830E+04, tol = 0.57894E+04, time = 12.11 | CG iter. 18 -- res = 0.65746E+04, tol = 0.57894E+04, time = 11.95 | CG iter. 19 -- res = 0.44868E+04, tol = 0.57894E+04, time = 12.79 | CG iter. 20 -- res = 0.30587E+04, tol = 0.57894E+04, time = 12.97 | CG iter. 21 -- res = 0.21343E+04, tol = 0.57894E+04, time = 12.12 | CG iter. 22 -- res = 0.16836E+04, tol = 0.57894E+04, time = 12.56 | CG iter. 23 -- res = 0.15372E+04, tol = 0.57894E+04, time = 11.56 | CG iter. 24 -- res = 0.16121E+04, tol = 0.57894E+04, time = 12.08 | CG iter. 25 -- res = 0.17289E+04, tol = 0.57894E+04, time = 12.18 | CG iter. 26 -- res = 0.17583E+04, tol = 0.57894E+04, time = 11.91 | CG iter. 27 -- res = 0.16512E+04, tol = 0.57894E+04, time = 11.70 | CG iter. 28 -- res = 0.14646E+04, tol = 0.57894E+04, time = 12.84 | CG iter. 29 -- res = 0.13105E+04, tol = 0.57894E+04, time = 12.17 | CG iter. 30 -- res = 0.12035E+04, tol = 0.57894E+04, time = 12.01 | CG iter. 31 -- res = 0.11081E+04, tol = 0.57894E+04, time = 11.86 | CG iter. 32 -- res = 0.97447E+03, tol = 0.57894E+04, time = 11.85 | CG iter. 33 -- res = 0.82480E+03, tol = 0.57894E+04, time = 11.74 | CG iter. 34 -- res = 0.65458E+03, tol = 0.57894E+04, time = 11.85 | CG iter. 35 -- res = 0.48987E+03, tol = 0.57894E+04, time = 12.08 | CG iter. 36 -- res = 0.38948E+03, tol = 0.57894E+04, time = 12.34 | CG iter. 37 -- res = 0.34325E+03, tol = 0.57894E+04, time = 18.56 | CG iter. 38 -- res = 0.31559E+03, tol = 0.57894E+04, time = 11.69 | CG iter. 39 -- res = 0.29355E+03, tol = 0.57894E+04, time = 12.10 | CG iter. 40 -- res = 0.27396E+03, tol = 0.57894E+04, time = 11.76 | CG iter. 41 -- res = 0.24576E+03, tol = 0.57894E+04, time = 11.96 | CG iter. 42 -- res = 0.21420E+03, tol = 0.57894E+04, time = 12.06 | CG iter. 43 -- res = 0.19260E+03, tol = 0.57894E+04, time = 11.97 | CG iter. 44 -- res = 0.17768E+03, tol = 0.57894E+04, time = 14.06 | CG iter. 45 -- res = 0.16365E+03, tol = 0.57894E+04, time = 12.19 | CG iter. 46 -- res = 0.15104E+03, tol = 0.57894E+04, time = 12.17 | CG iter. 47 -- res = 0.13759E+03, tol = 0.57894E+04, time = 12.04 | CG iter. 48 -- res = 0.11636E+03, tol = 0.57894E+04, time = 11.85 | CG iter. 49 -- res = 0.95846E+02, tol = 0.57894E+04, time = 11.58 | CG iter. 50 -- res = 0.79627E+02, tol = 0.57894E+04, time = 12.01 | CG iter. 51 -- res = 0.69398E+02, tol = 0.57894E+04, time = 11.72 | CG iter. 52 -- res = 0.64690E+02, tol = 0.57894E+04, time = 12.23 | CG iter. 53 -- res = 0.63031E+02, tol = 0.57894E+04, time = 11.88 | CG iter. 54 -- res = 0.61421E+02, tol = 0.57894E+04, time = 12.20 | CG iter. 55 -- res = 0.56660E+02, tol = 0.57894E+04, time = 12.01 | CG iter. 56 -- res = 0.51219E+02, tol = 0.57894E+04, time = 12.01 | CG iter. 57 -- res = 0.45677E+02, tol = 0.57894E+04, time = 12.02 | CG iter. 58 -- res = 0.41635E+02, tol = 0.57894E+04, time = 12.03 | CG iter. 59 -- res = 0.39177E+02, tol = 0.57894E+04, time = 12.01 | CG iter. 60 -- res = 0.37315E+02, tol = 0.57894E+04, time = 11.90 | Final CG iter 61 -- res = 0.37315E+02, tol = 0.57894E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.627 ( -229.548 -2229.763 2512.190 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6596799.007 | Old band monopole 9056455.794 | Change to band monopole -2459656.786 | Change to component monopole 2459646.207 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.969 2.739 | New value -0.240 | Old value 0.969 | Difference -1.210 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.522 ( 6.981 10.425 -9.878 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.120 4.732 | New value 2.659 | Old value 3.120 | Difference -0.461 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.29953E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.86829E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.29948E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.43662E-02, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.39361E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6596770.633 | (Sampled value in CG: 6573195.009 ) | Chain = 1 -- chisq = 0.81543589E+09 | Chain = 1 -- wall time = 5721.347 sec Available RAM: MemAvailable: 395583796 kB Available Swap: SwapFree: 1128174508 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 410 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443754 | --> Sampling calibration, mode = relcal | relcal = 1.3430775E-02 7.5034954E-04 -1.5969691E-03 -1.2584155E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1592456 0.1768479 9407635.83825497 | BP delta = 0.1592456 0.1736421 9407620.02524309 | BP chisq diff = -15.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632506 | --> Sampling calibration, mode = relcal | relcal = -2.8214746E-03 -7.0376974E-04 1.6789485E-03 1.6131280E-03 -4.0803035E-04 6.4119813E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5440257 15218898.4859385 | BP delta = 0.0000000E+00 -0.5441738 15218893.4036291 | BP chisq diff = -5.1, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18211672810473 | --> Sampling calibration, mode = relcal | relcal = -7.5214580E-02 -5.8571238E-02 9.1998041E-02 4.1787777E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5215632E-04 4.9238349E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1324E-05 | 2: delta_r/delta_0: 9.5095E-07 | 3: delta_s/delta_0: 2.0217E-07 | 4: delta_r/delta_0: 1.7888E-08 | 5: delta_s/delta_0: 4.4723E-09 | 6: delta_r/delta_0: 1.2178E-09 | 7: delta_s/delta_0: 2.5301E-10 | 8: delta_r/delta_0: 9.1054E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.040764709507391E-003 2.738459551115308E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1324E-05 | 2: delta_r/delta_0: 9.5095E-07 | 3: delta_s/delta_0: 2.0217E-07 | 4: delta_r/delta_0: 1.7889E-08 | 5: delta_s/delta_0: 4.4736E-09 | 6: delta_r/delta_0: 1.2179E-09 | 7: delta_s/delta_0: 2.5303E-10 | 8: delta_r/delta_0: 9.1060E-11 | Reached bicg-stab tolerance | BP delta = 6.7515910E-02 9.1697477E-02 3504609.28198937 | BP delta = 6.7515910E-02 9.1723107E-02 3502933.06666555 | BP chisq diff = -1676.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02597371 | --> Sampling calibration, mode = relcal | relcal = -0.1066910 -9.5471367E-02 0.1448864 5.7275899E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1473343E-03 1.3535694E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1596E-05 | 2: delta_r/delta_0: 1.3727E-06 | 3: delta_s/delta_0: 2.5510E-07 | 4: delta_r/delta_0: 5.4415E-08 | 5: delta_s/delta_0: 2.6950E-08 | 6: delta_r/delta_0: 8.0977E-09 | 7: delta_s/delta_0: 6.2028E-09 | 8: delta_r/delta_0: 1.9726E-09 | 9: delta_s/delta_0: 9.5742E-10 | 10: delta_r/delta_0: 7.1298E-10 | 11: delta_s/delta_0: 3.7201E-09 | 12: delta_r/delta_0: 5.1721E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.023096041609272E-002 2.810901398497853E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1595E-05 | 2: delta_r/delta_0: 1.3726E-06 | 3: delta_s/delta_0: 2.5507E-07 | 4: delta_r/delta_0: 5.4365E-08 | 5: delta_s/delta_0: 2.6974E-08 | 6: delta_r/delta_0: 8.0957E-09 | 7: delta_s/delta_0: 6.2060E-09 | 8: delta_r/delta_0: 1.9719E-09 | 9: delta_s/delta_0: 9.5693E-10 | 10: delta_r/delta_0: 7.1261E-10 | 11: delta_s/delta_0: 3.7120E-09 | 12: delta_r/delta_0: 5.1791E-11 | Reached bicg-stab tolerance | BP delta = -0.2623167 -0.2276023 2841623.33297815 | BP delta = -0.2623167 -0.2294558 2841690.54301463 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81235325 | --> Sampling calibration, mode = relcal | relcal = 0.2955274 0.2248538 -0.2837877 -0.2365935 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.8512304E-05 4.7766096E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.2998E-02 | 2: delta_r/delta_0: 7.7902E-04 | 3: delta_s/delta_0: 1.7297E-03 | 4: delta_r/delta_0: 8.6701E-05 | 5: delta_s/delta_0: 1.7340E-06 | 6: delta_r/delta_0: 5.5346E-07 | 7: delta_s/delta_0: 1.0403E-06 | 8: delta_r/delta_0: 1.4804E-07 | 9: delta_s/delta_0: 2.0715E-06 | 10: delta_r/delta_0: 4.5489E-07 | 11: delta_s/delta_0: 5.8138E-09 | 12: delta_r/delta_0: 2.0232E-09 | 13: delta_s/delta_0: 8.8275E-09 | 14: delta_r/delta_0: 3.7830E-10 | 15: delta_s/delta_0: 1.4200E-10 | 16: delta_r/delta_0: 6.6528E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -6.419335186598842E-002 4.021042764200026E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.2999E-02 | 2: delta_r/delta_0: 7.7906E-04 | 3: delta_s/delta_0: 1.7298E-03 | 4: delta_r/delta_0: 8.6705E-05 | 5: delta_s/delta_0: 1.7340E-06 | 6: delta_r/delta_0: 5.5347E-07 | 7: delta_s/delta_0: 1.0402E-06 | 8: delta_r/delta_0: 1.4804E-07 | 9: delta_s/delta_0: 2.0714E-06 | 10: delta_r/delta_0: 4.5484E-07 | 11: delta_s/delta_0: 5.8139E-09 | 12: delta_r/delta_0: 2.0232E-09 | 13: delta_s/delta_0: 8.8268E-09 | 14: delta_r/delta_0: 3.7830E-10 | 15: delta_s/delta_0: 1.4200E-10 | 16: delta_r/delta_0: 6.6530E-11 | Reached bicg-stab tolerance | BP delta = -0.1332006 -0.1667553 2827257.45663625 | BP delta = -0.1332006 -0.1694828 2827256.64471763 | BP chisq diff = -0.8, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95923493 | --> Sampling calibration, mode = relcal | relcal = 0.1065061 0.1395462 -0.1102876 -0.1357647 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1110585E-02 1.2926319E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5974E-04 | 2: delta_r/delta_0: 4.3486E-06 | 3: delta_s/delta_0: 2.9431E-03 | 4: delta_r/delta_0: 1.7889E-04 | 5: delta_s/delta_0: 1.7386E-07 | 6: delta_r/delta_0: 9.7830E-08 | 7: delta_s/delta_0: 9.0277E-07 | 8: delta_r/delta_0: 2.1824E-08 | 9: delta_s/delta_0: 3.6042E-07 | 10: delta_r/delta_0: 6.5581E-08 | 11: delta_s/delta_0: 8.3148E-10 | 12: delta_r/delta_0: 4.8401E-10 | 13: delta_s/delta_0: 3.0208E-09 | 14: delta_r/delta_0: 6.4351E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.886063085157076E-002 3.696895228016031E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5974E-04 | 2: delta_r/delta_0: 4.3486E-06 | 3: delta_s/delta_0: 2.9438E-03 | 4: delta_r/delta_0: 1.7897E-04 | 5: delta_s/delta_0: 1.7387E-07 | 6: delta_r/delta_0: 9.7843E-08 | 7: delta_s/delta_0: 9.0352E-07 | 8: delta_r/delta_0: 2.1823E-08 | 9: delta_s/delta_0: 3.6387E-07 | 10: delta_r/delta_0: 6.6361E-08 | 11: delta_s/delta_0: 8.3160E-10 | 12: delta_r/delta_0: 4.8390E-10 | 13: delta_s/delta_0: 3.0317E-09 | 14: delta_r/delta_0: 6.4424E-11 | Reached bicg-stab tolerance | BP delta = -2.2393423E-03 9.9307768E-02 3003414.84632692 | BP delta = -2.2393423E-03 8.7298349E-02 3003462.55773431 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150896 | New value = -3.088393 | poltype: 2 pol: 1 CPU time specind = 1.9746065E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.246767 | New value = -3.185187 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.178823 | New value = -3.125140 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.216288 | New value = -3.177340 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.145037 | New value = -3.181511 | poltype: 2 pol: 2 CPU time specind = 2.6519060E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.13683E+08, tol = 0.99157E+01, time = 5.72 | CG iter. 2 -- res = 0.36421E+06, tol = 0.99157E+01, time = 5.71 | CG iter. 3 -- res = 0.10018E+06, tol = 0.99157E+01, time = 12.21 | CG iter. 4 -- res = 0.10895E+06, tol = 0.99157E+01, time = 5.64 | CG iter. 5 -- res = 0.10802E+06, tol = 0.99157E+01, time = 5.80 | CG iter. 6 -- res = 0.10913E+06, tol = 0.99157E+01, time = 5.47 | CG iter. 7 -- res = 0.90470E+05, tol = 0.99157E+01, time = 5.44 | CG iter. 8 -- res = 0.61466E+05, tol = 0.99157E+01, time = 6.08 | CG iter. 9 -- res = 0.45310E+05, tol = 0.99157E+01, time = 5.64 | CG iter. 10 -- res = 0.37672E+05, tol = 0.99157E+01, time = 5.68 | CG iter. 11 -- res = 0.26346E+05, tol = 0.99157E+01, time = 5.85 | CG iter. 12 -- res = 0.19017E+05, tol = 0.99157E+01, time = 5.70 | CG iter. 13 -- res = 0.14990E+05, tol = 0.99157E+01, time = 5.68 | CG iter. 14 -- res = 0.12559E+05, tol = 0.99157E+01, time = 5.48 | CG iter. 15 -- res = 0.99888E+04, tol = 0.99157E+01, time = 6.02 | CG iter. 16 -- res = 0.66772E+04, tol = 0.99157E+01, time = 5.92 | CG iter. 17 -- res = 0.44874E+04, tol = 0.99157E+01, time = 6.06 | CG iter. 18 -- res = 0.37135E+04, tol = 0.99157E+01, time = 7.04 | CG iter. 19 -- res = 0.32094E+04, tol = 0.99157E+01, time = 6.12 | CG iter. 20 -- res = 0.24024E+04, tol = 0.99157E+01, time = 6.19 | CG iter. 21 -- res = 0.17018E+04, tol = 0.99157E+01, time = 5.58 | CG iter. 22 -- res = 0.13399E+04, tol = 0.99157E+01, time = 5.73 | CG iter. 23 -- res = 0.11525E+04, tol = 0.99157E+01, time = 5.72 | CG iter. 24 -- res = 0.91647E+03, tol = 0.99157E+01, time = 5.80 | CG iter. 25 -- res = 0.67684E+03, tol = 0.99157E+01, time = 5.65 | CG iter. 26 -- res = 0.53322E+03, tol = 0.99157E+01, time = 6.12 | CG iter. 27 -- res = 0.46660E+03, tol = 0.99157E+01, time = 5.47 | CG iter. 28 -- res = 0.38835E+03, tol = 0.99157E+01, time = 5.79 | CG iter. 29 -- res = 0.28971E+03, tol = 0.99157E+01, time = 6.00 | CG iter. 30 -- res = 0.21790E+03, tol = 0.99157E+01, time = 5.68 | CG iter. 31 -- res = 0.18580E+03, tol = 0.99157E+01, time = 5.73 | CG iter. 32 -- res = 0.15772E+03, tol = 0.99157E+01, time = 5.91 | CG iter. 33 -- res = 0.11908E+03, tol = 0.99157E+01, time = 5.73 | CG iter. 34 -- res = 0.86064E+02, tol = 0.99157E+01, time = 5.71 | CG iter. 35 -- res = 0.69957E+02, tol = 0.99157E+01, time = 5.69 | CG iter. 36 -- res = 0.58590E+02, tol = 0.99157E+01, time = 5.34 | CG iter. 37 -- res = 0.45090E+02, tol = 0.99157E+01, time = 6.66 | CG iter. 38 -- res = 0.32407E+02, tol = 0.99157E+01, time = 5.82 | CG iter. 39 -- res = 0.25368E+02, tol = 0.99157E+01, time = 5.60 | CG iter. 40 -- res = 0.20711E+02, tol = 0.99157E+01, time = 5.96 | CG iter. 41 -- res = 0.16168E+02, tol = 0.99157E+01, time = 5.76 | CG iter. 42 -- res = 0.11908E+02, tol = 0.99157E+01, time = 5.53 | CG iter. 43 -- res = 0.87843E+01, tol = 0.99157E+01, time = 5.77 | CG iter. 44 -- res = 0.69362E+01, tol = 0.99157E+01, time = 5.87 | CG iter. 45 -- res = 0.54131E+01, tol = 0.99157E+01, time = 5.76 | CG iter. 46 -- res = 0.41523E+01, tol = 0.99157E+01, time = 5.98 | CG iter. 47 -- res = 0.29982E+01, tol = 0.99157E+01, time = 6.11 | CG iter. 48 -- res = 0.23001E+01, tol = 0.99157E+01, time = 5.50 | CG iter. 49 -- res = 0.18091E+01, tol = 0.99157E+01, time = 5.68 | CG iter. 50 -- res = 0.13624E+01, tol = 0.99157E+01, time = 5.59 | Final CG iter 51 -- res = 0.13624E+01, tol = 0.99157E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11450720.736 | Old band monopole 6596799.007 | Change to band monopole 4853921.729 | Change to component monopole -4853900.851 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.45304E+05, tol = 0.47627E+18, time = 2.14 | CG iter. 2 -- res = 0.95801E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.22466E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.68098E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.27392E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11450671.484 | (Sampled value in CG: 11547670.722 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499321 | New value = 1.485909 | poltype: 2 pol: 1 CPU time specind = 6.4846039E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496029 | New value = 1.478178 | poltype: 2 pol: 2 CPU time specind = 4.2340755E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.24045E+08, tol = 0.47539E+04, time = 7.17 | CG iter. 2 -- res = 0.52286E+07, tol = 0.47539E+04, time = 6.67 | CG iter. 3 -- res = 0.82463E+06, tol = 0.47539E+04, time = 6.74 | CG iter. 4 -- res = 0.34333E+06, tol = 0.47539E+04, time = 6.47 | CG iter. 5 -- res = 0.14699E+06, tol = 0.47539E+04, time = 6.39 | CG iter. 6 -- res = 0.77589E+05, tol = 0.47539E+04, time = 6.87 | CG iter. 7 -- res = 0.42783E+05, tol = 0.47539E+04, time = 6.91 | CG iter. 8 -- res = 0.20511E+05, tol = 0.47539E+04, time = 6.74 | CG iter. 9 -- res = 0.89935E+04, tol = 0.47539E+04, time = 6.52 | CG iter. 10 -- res = 0.36211E+04, tol = 0.47539E+04, time = 6.59 | CG iter. 11 -- res = 0.16357E+04, tol = 0.47539E+04, time = 6.38 | CG iter. 12 -- res = 0.85492E+03, tol = 0.47539E+04, time = 6.22 | CG iter. 13 -- res = 0.48842E+03, tol = 0.47539E+04, time = 6.78 | CG iter. 14 -- res = 0.27414E+03, tol = 0.47539E+04, time = 6.71 | CG iter. 15 -- res = 0.14201E+03, tol = 0.47539E+04, time = 6.68 | CG iter. 16 -- res = 0.68130E+02, tol = 0.47539E+04, time = 6.68 | CG iter. 17 -- res = 0.32357E+02, tol = 0.47539E+04, time = 6.80 | CG iter. 18 -- res = 0.15946E+02, tol = 0.47539E+04, time = 6.80 | CG iter. 19 -- res = 0.86569E+01, tol = 0.47539E+04, time = 6.29 | CG iter. 20 -- res = 0.48923E+01, tol = 0.47539E+04, time = 6.62 | CG iter. 21 -- res = 0.27113E+01, tol = 0.47539E+04, time = 6.52 | CG iter. 22 -- res = 0.14253E+01, tol = 0.47539E+04, time = 6.88 | CG iter. 23 -- res = 0.71294E+00, tol = 0.47539E+04, time = 6.87 | CG iter. 24 -- res = 0.37023E+00, tol = 0.47539E+04, time = 7.04 | CG iter. 25 -- res = 0.20159E+00, tol = 0.47539E+04, time = 6.85 | CG iter. 26 -- res = 0.11265E+00, tol = 0.47539E+04, time = 6.59 | CG iter. 27 -- res = 0.61599E-01, tol = 0.47539E+04, time = 6.65 | CG iter. 28 -- res = 0.32875E-01, tol = 0.47539E+04, time = 6.92 | CG iter. 29 -- res = 0.17122E-01, tol = 0.47539E+04, time = 6.50 | CG iter. 30 -- res = 0.89778E-02, tol = 0.47539E+04, time = 6.62 | CG iter. 31 -- res = 0.49760E-02, tol = 0.47539E+04, time = 12.79 | CG iter. 32 -- res = 0.28622E-02, tol = 0.47539E+04, time = 6.45 | CG iter. 33 -- res = 0.16049E-02, tol = 0.47539E+04, time = 6.34 | CG iter. 34 -- res = 0.85959E-03, tol = 0.47539E+04, time = 6.70 | CG iter. 35 -- res = 0.45178E-03, tol = 0.47539E+04, time = 6.50 | Final CG iter 36 -- res = 0.45178E-03, tol = 0.47539E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.246 2.737 | New value -0.384 | Old value -0.246 | Difference -0.138 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.71 | CG iter. 1 -- res = 0.11507E+05, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.20202E+02, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.93422E+00, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.95343E-04, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.21223E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11450671.484 | (Sampled value in CG: 11546637.462 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.702440 | New value = -3.515419 | poltype: 1 pol: 1 CPU time specind = 1.8012047E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.34470E+07, tol = 0.21422E+01, time = 2.75 | CG iter. 2 -- res = 0.12646E+07, tol = 0.21422E+01, time = 2.64 | CG iter. 3 -- res = 0.26939E+06, tol = 0.21422E+01, time = 2.59 | CG iter. 4 -- res = 0.14256E+06, tol = 0.21422E+01, time = 2.72 | CG iter. 5 -- res = 0.82798E+05, tol = 0.21422E+01, time = 2.83 | CG iter. 6 -- res = 0.33460E+05, tol = 0.21422E+01, time = 2.81 | CG iter. 7 -- res = 0.11582E+05, tol = 0.21422E+01, time = 2.87 | CG iter. 8 -- res = 0.52432E+04, tol = 0.21422E+01, time = 2.72 | CG iter. 9 -- res = 0.24298E+04, tol = 0.21422E+01, time = 2.70 | CG iter. 10 -- res = 0.10175E+04, tol = 0.21422E+01, time = 2.82 | CG iter. 11 -- res = 0.39617E+03, tol = 0.21422E+01, time = 2.75 | CG iter. 12 -- res = 0.18777E+03, tol = 0.21422E+01, time = 2.80 | CG iter. 13 -- res = 0.94439E+02, tol = 0.21422E+01, time = 2.37 | CG iter. 14 -- res = 0.47788E+02, tol = 0.21422E+01, time = 2.73 | CG iter. 15 -- res = 0.23526E+02, tol = 0.21422E+01, time = 2.48 | CG iter. 16 -- res = 0.10415E+02, tol = 0.21422E+01, time = 2.86 | CG iter. 17 -- res = 0.41458E+01, tol = 0.21422E+01, time = 2.95 | CG iter. 18 -- res = 0.18631E+01, tol = 0.21422E+01, time = 2.78 | CG iter. 19 -- res = 0.89100E+00, tol = 0.21422E+01, time = 2.58 | CG iter. 20 -- res = 0.45842E+00, tol = 0.21422E+01, time = 2.73 | CG iter. 21 -- res = 0.23763E+00, tol = 0.21422E+01, time = 2.55 | CG iter. 22 -- res = 0.11218E+00, tol = 0.21422E+01, time = 2.67 | CG iter. 23 -- res = 0.49568E-01, tol = 0.21422E+01, time = 2.44 | CG iter. 24 -- res = 0.22861E-01, tol = 0.21422E+01, time = 2.94 | CG iter. 25 -- res = 0.11016E-01, tol = 0.21422E+01, time = 3.98 | CG iter. 26 -- res = 0.55467E-02, tol = 0.21422E+01, time = 3.07 | CG iter. 27 -- res = 0.28549E-02, tol = 0.21422E+01, time = 2.84 | CG iter. 28 -- res = 0.14442E-02, tol = 0.21422E+01, time = 3.43 | CG iter. 29 -- res = 0.65887E-03, tol = 0.21422E+01, time = 2.63 | CG iter. 30 -- res = 0.30960E-03, tol = 0.21422E+01, time = 2.84 | CG iter. 31 -- res = 0.14456E-03, tol = 0.21422E+01, time = 2.65 | CG iter. 32 -- res = 0.72424E-04, tol = 0.21422E+01, time = 2.82 | CG iter. 33 -- res = 0.36354E-04, tol = 0.21422E+01, time = 2.81 | CG iter. 34 -- res = 0.17699E-04, tol = 0.21422E+01, time = 2.34 | CG iter. 35 -- res = 0.85582E-05, tol = 0.21422E+01, time = 2.85 | CG iter. 36 -- res = 0.40752E-05, tol = 0.21422E+01, time = 2.71 | CG iter. 37 -- res = 0.18544E-05, tol = 0.21422E+01, time = 2.75 | CG iter. 38 -- res = 0.90820E-06, tol = 0.21422E+01, time = 2.80 | CG iter. 39 -- res = 0.44497E-06, tol = 0.21422E+01, time = 2.73 | CG iter. 40 -- res = 0.21683E-06, tol = 0.21422E+01, time = 2.66 | CG iter. 41 -- res = 0.10714E-06, tol = 0.21422E+01, time = 2.67 | CG iter. 42 -- res = 0.51779E-07, tol = 0.21422E+01, time = 2.80 | CG iter. 43 -- res = 0.23087E-07, tol = 0.21422E+01, time = 2.52 | CG iter. 44 -- res = 0.11139E-07, tol = 0.21422E+01, time = 2.56 | CG iter. 45 -- res = 0.51683E-08, tol = 0.21422E+01, time = 2.90 | CG iter. 46 -- res = 0.25050E-08, tol = 0.21422E+01, time = 2.51 | CG iter. 47 -- res = 0.13309E-08, tol = 0.21422E+01, time = 2.88 | CG iter. 48 -- res = 0.64892E-09, tol = 0.21422E+01, time = 2.64 | CG iter. 49 -- res = 0.29366E-09, tol = 0.21422E+01, time = 2.58 | CG iter. 50 -- res = 0.12887E-09, tol = 0.21422E+01, time = 2.65 | Final CG iter 51 -- res = 0.12887E-09, tol = 0.21422E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 7.805 3.755 | New value -1.599 | Old value 7.805 | Difference -9.404 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.92221E+05, tol = 0.47627E+18, time = 2.06 | CG iter. 2 -- res = 0.93332E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.22237E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.10384E-01, tol = 0.47627E+18, time = 1.86 | Final CG iter 5 -- res = 0.15874E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11450671.484 | (Sampled value in CG: 11525901.189 ) | CPU time specind = 1181.881 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.68631E+08, tol = 0.57544E+04, time = 11.82 | CG iter. 2 -- res = 0.59274E+08, tol = 0.57544E+04, time = 11.66 | CG iter. 3 -- res = 0.15762E+08, tol = 0.57544E+04, time = 11.64 | CG iter. 4 -- res = 0.65854E+07, tol = 0.57544E+04, time = 12.11 | CG iter. 5 -- res = 0.39272E+07, tol = 0.57544E+04, time = 17.70 | CG iter. 6 -- res = 0.23501E+07, tol = 0.57544E+04, time = 12.27 | CG iter. 7 -- res = 0.13934E+07, tol = 0.57544E+04, time = 11.58 | CG iter. 8 -- res = 0.92353E+06, tol = 0.57544E+04, time = 11.83 | CG iter. 9 -- res = 0.61053E+06, tol = 0.57544E+04, time = 11.76 | CG iter. 10 -- res = 0.38680E+06, tol = 0.57544E+04, time = 11.62 | CG iter. 11 -- res = 0.21998E+06, tol = 0.57544E+04, time = 11.94 | CG iter. 12 -- res = 0.12483E+06, tol = 0.57544E+04, time = 13.81 | CG iter. 13 -- res = 0.76829E+05, tol = 0.57544E+04, time = 12.49 | CG iter. 14 -- res = 0.53528E+05, tol = 0.57544E+04, time = 11.74 | CG iter. 15 -- res = 0.45106E+05, tol = 0.57544E+04, time = 11.67 | CG iter. 16 -- res = 0.42603E+05, tol = 0.57544E+04, time = 12.08 | CG iter. 17 -- res = 0.41032E+05, tol = 0.57544E+04, time = 11.67 | CG iter. 18 -- res = 0.37832E+05, tol = 0.57544E+04, time = 11.52 | CG iter. 19 -- res = 0.33928E+05, tol = 0.57544E+04, time = 12.58 | CG iter. 20 -- res = 0.30817E+05, tol = 0.57544E+04, time = 12.09 | CG iter. 21 -- res = 0.28953E+05, tol = 0.57544E+04, time = 12.85 | CG iter. 22 -- res = 0.28334E+05, tol = 0.57544E+04, time = 11.82 | CG iter. 23 -- res = 0.27793E+05, tol = 0.57544E+04, time = 11.67 | CG iter. 24 -- res = 0.25357E+05, tol = 0.57544E+04, time = 11.84 | CG iter. 25 -- res = 0.20584E+05, tol = 0.57544E+04, time = 11.58 | CG iter. 26 -- res = 0.15496E+05, tol = 0.57544E+04, time = 11.31 | CG iter. 27 -- res = 0.11558E+05, tol = 0.57544E+04, time = 11.67 | CG iter. 28 -- res = 0.89318E+04, tol = 0.57544E+04, time = 11.78 | CG iter. 29 -- res = 0.75311E+04, tol = 0.57544E+04, time = 11.80 | CG iter. 30 -- res = 0.69764E+04, tol = 0.57544E+04, time = 20.17 | CG iter. 31 -- res = 0.65500E+04, tol = 0.57544E+04, time = 14.58 | CG iter. 32 -- res = 0.59009E+04, tol = 0.57544E+04, time = 11.88 | CG iter. 33 -- res = 0.52813E+04, tol = 0.57544E+04, time = 12.39 | CG iter. 34 -- res = 0.46493E+04, tol = 0.57544E+04, time = 11.73 | CG iter. 35 -- res = 0.39694E+04, tol = 0.57544E+04, time = 11.92 | CG iter. 36 -- res = 0.35537E+04, tol = 0.57544E+04, time = 13.66 | CG iter. 37 -- res = 0.33101E+04, tol = 0.57544E+04, time = 12.24 | CG iter. 38 -- res = 0.31220E+04, tol = 0.57544E+04, time = 12.23 | CG iter. 39 -- res = 0.28028E+04, tol = 0.57544E+04, time = 11.54 | CG iter. 40 -- res = 0.23684E+04, tol = 0.57544E+04, time = 11.81 | CG iter. 41 -- res = 0.19152E+04, tol = 0.57544E+04, time = 11.65 | CG iter. 42 -- res = 0.15780E+04, tol = 0.57544E+04, time = 11.51 | CG iter. 43 -- res = 0.13725E+04, tol = 0.57544E+04, time = 11.76 | CG iter. 44 -- res = 0.12572E+04, tol = 0.57544E+04, time = 11.80 | CG iter. 45 -- res = 0.11953E+04, tol = 0.57544E+04, time = 11.85 | CG iter. 46 -- res = 0.11322E+04, tol = 0.57544E+04, time = 11.87 | CG iter. 47 -- res = 0.10656E+04, tol = 0.57544E+04, time = 11.28 | CG iter. 48 -- res = 0.95078E+03, tol = 0.57544E+04, time = 11.76 | CG iter. 49 -- res = 0.84757E+03, tol = 0.57544E+04, time = 12.10 | CG iter. 50 -- res = 0.76568E+03, tol = 0.57544E+04, time = 11.67 | CG iter. 51 -- res = 0.71085E+03, tol = 0.57544E+04, time = 11.87 | CG iter. 52 -- res = 0.67705E+03, tol = 0.57544E+04, time = 11.74 | CG iter. 53 -- res = 0.64018E+03, tol = 0.57544E+04, time = 11.84 | CG iter. 54 -- res = 0.57591E+03, tol = 0.57544E+04, time = 19.53 | CG iter. 55 -- res = 0.49383E+03, tol = 0.57544E+04, time = 13.27 | CG iter. 56 -- res = 0.42619E+03, tol = 0.57544E+04, time = 11.83 | CG iter. 57 -- res = 0.37367E+03, tol = 0.57544E+04, time = 12.16 | CG iter. 58 -- res = 0.34499E+03, tol = 0.57544E+04, time = 11.40 | CG iter. 59 -- res = 0.33429E+03, tol = 0.57544E+04, time = 11.49 | CG iter. 60 -- res = 0.32243E+03, tol = 0.57544E+04, time = 11.82 | Final CG iter 61 -- res = 0.32243E+03, tol = 0.57544E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.853 ( -229.342 -2229.647 2512.260 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 4949758.594 | Old band monopole 11450720.736 | Change to band monopole -6500962.142 | Change to component monopole 6500934.180 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.378 2.736 | New value -2.359 | Old value -0.378 | Difference -1.981 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.414 ( 5.587 9.817 -10.059 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.156 5.092 | New value -2.846 | Old value -3.156 | Difference 0.309 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.16553E+07, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.40878E+03, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.42915E+01, tol = 0.47627E+18, time = 1.80 | CG iter. 4 -- res = 0.52878E-02, tol = 0.47627E+18, time = 1.92 | Final CG iter 5 -- res = 0.82524E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 4949737.304 | (Sampled value in CG: 4925698.326 ) | Chain = 1 -- chisq = 0.81567547E+09 | Chain = 1 -- wall time = 6087.344 sec Available RAM: MemAvailable: 395901532 kB Available Swap: SwapFree: 1129637036 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 411 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444202 | --> Sampling calibration, mode = relcal | relcal = 1.3430263E-02 7.3753175E-04 -1.5938568E-03 -1.2573938E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1592456 0.1736421 97047290.0666059 | BP delta = 0.1589954 0.1733919 97047290.0312934 | BP chisq diff = -0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632442 | --> Sampling calibration, mode = relcal | relcal = -2.8213440E-03 -7.0345699E-04 1.6792305E-03 1.6137222E-03 -4.0857046E-04 6.4041873E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5441738 15219605.2331289 | BP delta = 0.0000000E+00 -0.5436193 15219618.1044749 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103616 | --> Sampling calibration, mode = relcal | relcal = 3.7094705E-02 1.3720132E-02 5.7471450E-03 -7.1646255E-03 8.2477024E-03 2.3993603E-03 -7.6009296E-03 -7.1805054E-03 -1.5302458E-02 -1.4801285E-02 -3.0561078E-03 -1.2103133E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.219076 132209009.910579 | BP delta = 0.0000000E+00 -1.199141 132209003.478835 | BP chisq diff = -6.4, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17792906869567 | --> Sampling calibration, mode = relcal | relcal = -7.4021734E-02 -5.7512183E-02 9.0593085E-02 4.0940829E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6603295E-05 2.7320695E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5918E-03 | 2: delta_r/delta_0: 1.8288E-04 | 3: delta_s/delta_0: 1.9523E-07 | 4: delta_r/delta_0: 2.5230E-08 | 5: delta_s/delta_0: 1.1215E-08 | 6: delta_r/delta_0: 2.5471E-09 | 7: delta_s/delta_0: 5.0080E-09 | 8: delta_r/delta_0: 1.2763E-10 | 9: delta_s/delta_0: 9.3797E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.276356546406935E-003 2.748348534432613E-005 | BP delta = 6.7515910E-02 9.1723107E-02 50486109.8656802 | BP delta = 7.2325483E-02 9.6532680E-02 50486115.2233549 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595702 | --> Sampling calibration, mode = relcal | relcal = -0.1066176 -9.5543310E-02 0.1449388 5.7222154E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0042503E-03 1.6959149E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7747E-05 | 2: delta_r/delta_0: 1.1778E-06 | 3: delta_s/delta_0: 2.3573E-07 | 4: delta_r/delta_0: 5.5293E-08 | 5: delta_s/delta_0: 1.5695E-08 | 6: delta_r/delta_0: 7.2015E-09 | 7: delta_s/delta_0: 3.2343E-07 | 8: delta_r/delta_0: 4.6709E-08 | 9: delta_s/delta_0: 8.8317E-10 | 10: delta_r/delta_0: 6.5382E-10 | 11: delta_s/delta_0: 3.1797E-09 | 12: delta_r/delta_0: 9.9853E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.783309307782770E-003 2.810934861099106E-005 | BP delta = -0.2623167 -0.2276023 57385926.1331978 | BP delta = -0.2486850 -0.2139706 57385925.7657965 | BP chisq diff = -0.4, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224306 | --> Sampling calibration, mode = relcal | relcal = 0.2954955 0.2248821 -0.2838712 -0.2365064 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.4170147E-04 5.6155715E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1274E-03 | 2: delta_r/delta_0: 9.5793E-05 | 3: delta_s/delta_0: 1.6387E-05 | 4: delta_r/delta_0: 1.3657E-06 | 5: delta_s/delta_0: 1.2515E-06 | 6: delta_r/delta_0: 8.6207E-08 | 7: delta_s/delta_0: 1.9845E-08 | 8: delta_r/delta_0: 5.0505E-09 | 9: delta_s/delta_0: 3.6406E-09 | 10: delta_r/delta_0: 1.5322E-09 | 11: delta_s/delta_0: 2.5024E-08 | 12: delta_r/delta_0: 2.5430E-10 | 13: delta_s/delta_0: 2.9956E-10 | 14: delta_r/delta_0: 3.5788E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.593401567929553E-003 4.021779671708624E-005 | BP delta = -0.1332006 -0.1694828 72493538.5706621 | BP delta = -0.1748610 -0.2111432 72493538.1805115 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95913169 | --> Sampling calibration, mode = relcal | relcal = 0.1064963 0.1394614 -0.1102134 -0.1357442 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.8361176E-03 1.3426146E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6500E-04 | 2: delta_r/delta_0: 4.4427E-06 | 3: delta_s/delta_0: 2.8135E-02 | 4: delta_r/delta_0: 1.6296E-03 | 5: delta_s/delta_0: 1.7207E-07 | 6: delta_r/delta_0: 9.1166E-08 | 7: delta_s/delta_0: 4.5969E-07 | 8: delta_r/delta_0: 2.3007E-08 | 9: delta_s/delta_0: 1.5603E-08 | 10: delta_r/delta_0: 1.4412E-09 | 11: delta_s/delta_0: 1.0826E-09 | 12: delta_r/delta_0: 7.3755E-10 | 13: delta_s/delta_0: 9.8395E-10 | 14: delta_r/delta_0: 5.9718E-10 | 15: delta_s/delta_0: 7.1620E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.876058518398509E-002 3.697228708296063E-005 | BP delta = -2.2393423E-03 9.9307768E-02 72779469.8857559 | BP delta = 3.3766139E-02 0.1353133 72779467.1543943 | BP chisq diff = -2.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52172050 | --> Sampling calibration, mode = relcal | relcal = -5.1161952E-02 -3.7369649E-03 2.7343230E-02 2.7555687E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7381184E-04 8.8354852E-04 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6171E-05 | 2: delta_r/delta_0: 4.5906E-06 | 3: delta_s/delta_0: 4.3306E-06 | 4: delta_r/delta_0: 2.7691E-07 | 5: delta_s/delta_0: 5.1995E-08 | 6: delta_r/delta_0: 2.5562E-08 | 7: delta_s/delta_0: 5.8955E-08 | 8: delta_r/delta_0: 8.0320E-09 | 9: delta_s/delta_0: 2.2810E-09 | 10: delta_r/delta_0: 1.1668E-09 | 11: delta_s/delta_0: 1.1058E-09 | 12: delta_r/delta_0: 2.4535E-10 | 13: delta_s/delta_0: 1.7627E-10 | 14: delta_r/delta_0: 6.2809E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.163703931990714E-002 5.481838055745540E-005 | BP delta = 9.7403433E-03 9.5275939E-02 91257609.4241539 | BP delta = 3.5469025E-02 0.1210046 91257609.1437765 | BP chisq diff = -0.3, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42167559 | --> Sampling calibration, mode = relcal | relcal = 4.5602322E-02 3.9658662E-02 -2.8304825E-02 -5.6956157E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1186839E-03 4.5822663E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.1206E-05 | 2: delta_r/delta_0: 3.5888E-06 | 3: delta_s/delta_0: 2.2224E-06 | 4: delta_r/delta_0: 3.3614E-07 | 5: delta_s/delta_0: 5.8005E-08 | 6: delta_r/delta_0: 3.2726E-08 | 7: delta_s/delta_0: 7.1762E-08 | 8: delta_r/delta_0: 7.5162E-09 | 9: delta_s/delta_0: 2.1237E-09 | 10: delta_r/delta_0: 1.4314E-09 | 11: delta_s/delta_0: 1.1751E-09 | 12: delta_r/delta_0: 8.8987E-10 | 13: delta_s/delta_0: 1.8172E-08 | 14: delta_r/delta_0: 6.8479E-09 | 15: delta_s/delta_0: 2.5085E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.387291366178320E-002 4.994618835878219E-005 | BP delta = -1.7925974E-02 -0.1395883 90185937.3346248 | BP delta = -2.7218815E-02 -0.1488811 90185937.4081118 | BP chisq diff = 0.1, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28175048 | --> Sampling calibration, mode = relcal | relcal = 2.4213735E-02 4.5161527E-02 -2.3338806E-02 -4.6036456E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2070653E-02 4.7116806E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0707E-04 | 2: delta_r/delta_0: 8.8105E-06 | 3: delta_s/delta_0: 1.5212E-06 | 4: delta_r/delta_0: 2.1931E-07 | 5: delta_s/delta_0: 8.7587E-08 | 6: delta_r/delta_0: 1.9264E-08 | 7: delta_s/delta_0: 8.8351E-09 | 8: delta_r/delta_0: 5.9096E-09 | 9: delta_s/delta_0: 2.7113E-08 | 10: delta_r/delta_0: 5.4231E-09 | 11: delta_s/delta_0: 1.3928E-09 | 12: delta_r/delta_0: 2.0652E-10 | 13: delta_s/delta_0: 4.5593E-10 | 14: delta_r/delta_0: 1.3118E-10 | 15: delta_s/delta_0: 6.5526E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.003423612311080E-002 7.840053280591603E-005 | BP delta = -0.4530262 -0.6489024 160945001.858459 | BP delta = -0.4890190 -0.6848952 160945001.606611 | BP chisq diff = -0.3, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29405929 | --> Sampling calibration, mode = relcal | relcal = 4.5597358E-04 1.0315391E-02 -3.7942026E-03 -6.9771623E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6161749E-02 1.6355401E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2995E-04 | 2: delta_r/delta_0: 1.1130E-05 | 3: delta_s/delta_0: 1.8687E-06 | 4: delta_r/delta_0: 2.5457E-07 | 5: delta_s/delta_0: 9.4096E-08 | 6: delta_r/delta_0: 2.1109E-08 | 7: delta_s/delta_0: 9.5131E-09 | 8: delta_r/delta_0: 6.4084E-09 | 9: delta_s/delta_0: 5.8724E-09 | 10: delta_r/delta_0: 4.2822E-09 | 11: delta_s/delta_0: 3.2206E-05 | 12: delta_r/delta_0: 1.3926E-06 | 13: delta_s/delta_0: 4.7391E-10 | 14: delta_r/delta_0: 2.3879E-10 | 15: delta_s/delta_0: 7.9486E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.576931530192694E-003 8.302658092107980E-005 | BP delta = -0.8860881 -0.8411180 157872227.982371 | BP delta = -0.8954110 -0.8504409 157872227.887293 | BP chisq diff = -0.1, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26516333 | --> Sampling calibration, mode = relcal | relcal = -5.6633605E-03 1.5076641E-02 -2.3861083E-03 -7.0271725E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4638160E-03 3.0534973E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4128E-04 | 2: delta_r/delta_0: 1.2103E-05 | 3: delta_s/delta_0: 2.1700E-06 | 4: delta_r/delta_0: 2.3487E-07 | 5: delta_s/delta_0: 8.8830E-08 | 6: delta_r/delta_0: 1.9914E-08 | 7: delta_s/delta_0: 9.5350E-09 | 8: delta_r/delta_0: 6.2291E-09 | 9: delta_s/delta_0: 8.4383E-09 | 10: delta_r/delta_0: 5.2167E-09 | 11: delta_s/delta_0: 2.4267E-07 | 12: delta_r/delta_0: 2.5292E-08 | 13: delta_s/delta_0: 1.0478E-08 | 14: delta_r/delta_0: 6.7639E-09 | 15: delta_s/delta_0: 1.1685E-10 | 16: delta_r/delta_0: 6.6794E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.976617392247144E-003 9.150239508389224E-005 | BP delta = 0.4201551 0.4754131 157021935.794702 | BP delta = 0.4536546 0.5089126 157021935.951484 | BP chisq diff = 0.2, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25672166 | --> Sampling calibration, mode = relcal | relcal = -3.1692069E-02 -2.5917251E-02 3.6930721E-02 2.0678598E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.7715346E-02 1.5915550E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4506E-04 | 2: delta_r/delta_0: 1.2155E-05 | 3: delta_s/delta_0: 1.9207E-06 | 4: delta_r/delta_0: 3.1391E-07 | 5: delta_s/delta_0: 1.1828E-07 | 6: delta_r/delta_0: 2.6784E-08 | 7: delta_s/delta_0: 1.3061E-08 | 8: delta_r/delta_0: 8.0365E-09 | 9: delta_s/delta_0: 2.3706E-08 | 10: delta_r/delta_0: 5.2306E-09 | 11: delta_s/delta_0: 2.8211E-08 | 12: delta_r/delta_0: 1.3985E-08 | 13: delta_s/delta_0: 5.1267E-10 | 14: delta_r/delta_0: 3.9633E-10 | 15: delta_s/delta_0: 2.1140E-10 | 16: delta_r/delta_0: 1.6103E-10 | 17: delta_s/delta_0: 1.3473E-10 | 18: delta_r/delta_0: 1.2062E-10 | 19: delta_s/delta_0: 1.1412E-10 | 20: delta_r/delta_0: 8.3615E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.155800736452657E-002 8.669065764990299E-005 | BP delta = -0.8812328 -1.089831 158515778.517808 | BP delta = -0.8769484 -1.085546 158515778.543064 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.088393 | New value = -3.189853 | poltype: 2 pol: 1 CPU time specind = 4.7441006E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.185187 | New value = -3.170664 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125140 | New value = -3.238133 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177340 | New value = -3.094163 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.181511 | New value = -3.193040 | poltype: 2 pol: 2 CPU time specind = 5.7116985E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.33 | CG iter. 1 -- res = 0.13646E+08, tol = 0.11296E+02, time = 5.43 | CG iter. 2 -- res = 0.38498E+06, tol = 0.11296E+02, time = 5.68 | CG iter. 3 -- res = 0.98204E+05, tol = 0.11296E+02, time = 5.93 | CG iter. 4 -- res = 0.12588E+06, tol = 0.11296E+02, time = 5.48 | CG iter. 5 -- res = 0.14294E+06, tol = 0.11296E+02, time = 6.33 | CG iter. 6 -- res = 0.13504E+06, tol = 0.11296E+02, time = 5.62 | CG iter. 7 -- res = 0.10946E+06, tol = 0.11296E+02, time = 5.70 | CG iter. 8 -- res = 0.82904E+05, tol = 0.11296E+02, time = 5.48 | CG iter. 9 -- res = 0.70729E+05, tol = 0.11296E+02, time = 5.96 | CG iter. 10 -- res = 0.57591E+05, tol = 0.11296E+02, time = 5.44 | CG iter. 11 -- res = 0.41454E+05, tol = 0.11296E+02, time = 5.98 | CG iter. 12 -- res = 0.30669E+05, tol = 0.11296E+02, time = 5.48 | CG iter. 13 -- res = 0.27002E+05, tol = 0.11296E+02, time = 6.05 | CG iter. 14 -- res = 0.23697E+05, tol = 0.11296E+02, time = 5.84 | CG iter. 15 -- res = 0.18305E+05, tol = 0.11296E+02, time = 5.64 | CG iter. 16 -- res = 0.13013E+05, tol = 0.11296E+02, time = 5.82 | CG iter. 17 -- res = 0.99869E+04, tol = 0.11296E+02, time = 5.73 | CG iter. 18 -- res = 0.88234E+04, tol = 0.11296E+02, time = 5.61 | CG iter. 19 -- res = 0.75347E+04, tol = 0.11296E+02, time = 5.95 | CG iter. 20 -- res = 0.59658E+04, tol = 0.11296E+02, time = 5.52 | CG iter. 21 -- res = 0.45880E+04, tol = 0.11296E+02, time = 5.81 | CG iter. 22 -- res = 0.39964E+04, tol = 0.11296E+02, time = 11.75 | CG iter. 23 -- res = 0.34831E+04, tol = 0.11296E+02, time = 5.75 | CG iter. 24 -- res = 0.27950E+04, tol = 0.11296E+02, time = 5.66 | CG iter. 25 -- res = 0.21363E+04, tol = 0.11296E+02, time = 5.62 | CG iter. 26 -- res = 0.18174E+04, tol = 0.11296E+02, time = 5.61 | CG iter. 27 -- res = 0.17072E+04, tol = 0.11296E+02, time = 5.50 | CG iter. 28 -- res = 0.14931E+04, tol = 0.11296E+02, time = 5.69 | CG iter. 29 -- res = 0.11812E+04, tol = 0.11296E+02, time = 5.95 | CG iter. 30 -- res = 0.99121E+03, tol = 0.11296E+02, time = 5.69 | CG iter. 31 -- res = 0.91513E+03, tol = 0.11296E+02, time = 5.73 | CG iter. 32 -- res = 0.79684E+03, tol = 0.11296E+02, time = 5.68 | CG iter. 33 -- res = 0.64026E+03, tol = 0.11296E+02, time = 6.12 | CG iter. 34 -- res = 0.52181E+03, tol = 0.11296E+02, time = 5.26 | CG iter. 35 -- res = 0.46458E+03, tol = 0.11296E+02, time = 5.79 | CG iter. 36 -- res = 0.42521E+03, tol = 0.11296E+02, time = 5.84 | CG iter. 37 -- res = 0.34518E+03, tol = 0.11296E+02, time = 7.05 | CG iter. 38 -- res = 0.26595E+03, tol = 0.11296E+02, time = 5.77 | CG iter. 39 -- res = 0.22016E+03, tol = 0.11296E+02, time = 6.00 | CG iter. 40 -- res = 0.20137E+03, tol = 0.11296E+02, time = 5.50 | CG iter. 41 -- res = 0.16316E+03, tol = 0.11296E+02, time = 5.99 | CG iter. 42 -- res = 0.12800E+03, tol = 0.11296E+02, time = 5.66 | CG iter. 43 -- res = 0.10566E+03, tol = 0.11296E+02, time = 5.78 | CG iter. 44 -- res = 0.90533E+02, tol = 0.11296E+02, time = 6.03 | CG iter. 45 -- res = 0.76084E+02, tol = 0.11296E+02, time = 5.45 | CG iter. 46 -- res = 0.58560E+02, tol = 0.11296E+02, time = 5.64 | CG iter. 47 -- res = 0.46046E+02, tol = 0.11296E+02, time = 5.49 | CG iter. 48 -- res = 0.39146E+02, tol = 0.11296E+02, time = 5.23 | CG iter. 49 -- res = 0.32833E+02, tol = 0.11296E+02, time = 5.50 | CG iter. 50 -- res = 0.26317E+02, tol = 0.11296E+02, time = 6.01 | Final CG iter 51 -- res = 0.26317E+02, tol = 0.11296E+02 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6978239.166 | Old band monopole 4949758.594 | Change to band monopole 2028480.572 | Change to component monopole -2028471.847 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.15231E+07, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.71485E+03, tol = 0.47627E+18, time = 2.28 | CG iter. 3 -- res = 0.41326E+01, tol = 0.47627E+18, time = 2.18 | CG iter. 4 -- res = 0.79604E-01, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.12491E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6978209.151 | (Sampled value in CG: 6866313.013 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.485909 | New value = 1.486796 | poltype: 2 pol: 1 CPU time specind = 1.8560886E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.478178 | New value = 1.519710 | poltype: 2 pol: 2 CPU time specind = 2.1523952E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.24013E+08, tol = 0.47520E+04, time = 6.61 | CG iter. 2 -- res = 0.53763E+07, tol = 0.47520E+04, time = 6.38 | CG iter. 3 -- res = 0.84562E+06, tol = 0.47520E+04, time = 13.10 | CG iter. 4 -- res = 0.35096E+06, tol = 0.47520E+04, time = 6.88 | CG iter. 5 -- res = 0.15422E+06, tol = 0.47520E+04, time = 6.89 | CG iter. 6 -- res = 0.81771E+05, tol = 0.47520E+04, time = 6.54 | CG iter. 7 -- res = 0.44618E+05, tol = 0.47520E+04, time = 6.53 | CG iter. 8 -- res = 0.21197E+05, tol = 0.47520E+04, time = 6.38 | CG iter. 9 -- res = 0.91143E+04, tol = 0.47520E+04, time = 6.52 | CG iter. 10 -- res = 0.36287E+04, tol = 0.47520E+04, time = 6.53 | CG iter. 11 -- res = 0.16631E+04, tol = 0.47520E+04, time = 6.47 | CG iter. 12 -- res = 0.85673E+03, tol = 0.47520E+04, time = 6.79 | CG iter. 13 -- res = 0.48300E+03, tol = 0.47520E+04, time = 6.62 | CG iter. 14 -- res = 0.27112E+03, tol = 0.47520E+04, time = 6.95 | CG iter. 15 -- res = 0.14123E+03, tol = 0.47520E+04, time = 7.55 | CG iter. 16 -- res = 0.66814E+02, tol = 0.47520E+04, time = 7.36 | CG iter. 17 -- res = 0.31291E+02, tol = 0.47520E+04, time = 6.82 | CG iter. 18 -- res = 0.15402E+02, tol = 0.47520E+04, time = 6.58 | CG iter. 19 -- res = 0.83379E+01, tol = 0.47520E+04, time = 6.82 | CG iter. 20 -- res = 0.47389E+01, tol = 0.47520E+04, time = 6.48 | CG iter. 21 -- res = 0.26565E+01, tol = 0.47520E+04, time = 6.72 | CG iter. 22 -- res = 0.13821E+01, tol = 0.47520E+04, time = 6.58 | CG iter. 23 -- res = 0.69495E+00, tol = 0.47520E+04, time = 6.70 | CG iter. 24 -- res = 0.35759E+00, tol = 0.47520E+04, time = 6.40 | CG iter. 25 -- res = 0.20021E+00, tol = 0.47520E+04, time = 6.46 | CG iter. 26 -- res = 0.11679E+00, tol = 0.47520E+04, time = 6.65 | CG iter. 27 -- res = 0.65744E-01, tol = 0.47520E+04, time = 6.22 | CG iter. 28 -- res = 0.35823E-01, tol = 0.47520E+04, time = 6.29 | CG iter. 29 -- res = 0.18797E-01, tol = 0.47520E+04, time = 6.68 | CG iter. 30 -- res = 0.97902E-02, tol = 0.47520E+04, time = 6.53 | CG iter. 31 -- res = 0.52972E-02, tol = 0.47520E+04, time = 6.65 | CG iter. 32 -- res = 0.29829E-02, tol = 0.47520E+04, time = 7.10 | CG iter. 33 -- res = 0.17037E-02, tol = 0.47520E+04, time = 6.71 | CG iter. 34 -- res = 0.93688E-03, tol = 0.47520E+04, time = 6.29 | CG iter. 35 -- res = 0.50072E-03, tol = 0.47520E+04, time = 7.14 | Final CG iter 36 -- res = 0.50072E-03, tol = 0.47520E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.373 2.744 | New value 0.188 | Old value -2.373 | Difference 2.561 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.35391E+06, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.15516E+03, tol = 0.47627E+18, time = 1.82 | CG iter. 3 -- res = 0.22289E+01, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.57912E-04, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.49067E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6978209.151 | (Sampled value in CG: 6866487.837 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.515419 | New value = -3.589109 | poltype: 1 pol: 1 CPU time specind = 6.7080021E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.46050E+07, tol = 0.27187E+01, time = 2.82 | CG iter. 2 -- res = 0.17587E+07, tol = 0.27187E+01, time = 2.52 | CG iter. 3 -- res = 0.41899E+06, tol = 0.27187E+01, time = 2.82 | CG iter. 4 -- res = 0.23230E+06, tol = 0.27187E+01, time = 2.55 | CG iter. 5 -- res = 0.13068E+06, tol = 0.27187E+01, time = 2.66 | CG iter. 6 -- res = 0.50921E+05, tol = 0.27187E+01, time = 2.79 | CG iter. 7 -- res = 0.15543E+05, tol = 0.27187E+01, time = 2.49 | CG iter. 8 -- res = 0.67688E+04, tol = 0.27187E+01, time = 2.53 | CG iter. 9 -- res = 0.33028E+04, tol = 0.27187E+01, time = 2.61 | CG iter. 10 -- res = 0.13377E+04, tol = 0.27187E+01, time = 2.41 | CG iter. 11 -- res = 0.52798E+03, tol = 0.27187E+01, time = 2.84 | CG iter. 12 -- res = 0.27128E+03, tol = 0.27187E+01, time = 2.65 | CG iter. 13 -- res = 0.13553E+03, tol = 0.27187E+01, time = 3.10 | CG iter. 14 -- res = 0.66358E+02, tol = 0.27187E+01, time = 2.77 | CG iter. 15 -- res = 0.30052E+02, tol = 0.27187E+01, time = 2.59 | CG iter. 16 -- res = 0.12693E+02, tol = 0.27187E+01, time = 2.95 | CG iter. 17 -- res = 0.55332E+01, tol = 0.27187E+01, time = 2.99 | CG iter. 18 -- res = 0.26730E+01, tol = 0.27187E+01, time = 2.41 | CG iter. 19 -- res = 0.13557E+01, tol = 0.27187E+01, time = 2.49 | CG iter. 20 -- res = 0.66672E+00, tol = 0.27187E+01, time = 2.73 | CG iter. 21 -- res = 0.31405E+00, tol = 0.27187E+01, time = 2.60 | CG iter. 22 -- res = 0.13859E+00, tol = 0.27187E+01, time = 2.61 | CG iter. 23 -- res = 0.61449E-01, tol = 0.27187E+01, time = 2.64 | CG iter. 24 -- res = 0.28754E-01, tol = 0.27187E+01, time = 2.43 | CG iter. 25 -- res = 0.14152E-01, tol = 0.27187E+01, time = 2.72 | CG iter. 26 -- res = 0.71373E-02, tol = 0.27187E+01, time = 2.73 | CG iter. 27 -- res = 0.35995E-02, tol = 0.27187E+01, time = 2.72 | CG iter. 28 -- res = 0.17175E-02, tol = 0.27187E+01, time = 2.48 | CG iter. 29 -- res = 0.76476E-03, tol = 0.27187E+01, time = 2.67 | CG iter. 30 -- res = 0.37070E-03, tol = 0.27187E+01, time = 4.77 | CG iter. 31 -- res = 0.18034E-03, tol = 0.27187E+01, time = 7.57 | CG iter. 32 -- res = 0.91100E-04, tol = 0.27187E+01, time = 2.98 | CG iter. 33 -- res = 0.45091E-04, tol = 0.27187E+01, time = 2.58 | CG iter. 34 -- res = 0.21534E-04, tol = 0.27187E+01, time = 2.65 | CG iter. 35 -- res = 0.10328E-04, tol = 0.27187E+01, time = 2.83 | CG iter. 36 -- res = 0.50139E-05, tol = 0.27187E+01, time = 2.66 | CG iter. 37 -- res = 0.23621E-05, tol = 0.27187E+01, time = 2.80 | CG iter. 38 -- res = 0.12001E-05, tol = 0.27187E+01, time = 2.79 | CG iter. 39 -- res = 0.58115E-06, tol = 0.27187E+01, time = 2.86 | CG iter. 40 -- res = 0.28345E-06, tol = 0.27187E+01, time = 2.67 | CG iter. 41 -- res = 0.13132E-06, tol = 0.27187E+01, time = 2.75 | CG iter. 42 -- res = 0.60823E-07, tol = 0.27187E+01, time = 2.56 | CG iter. 43 -- res = 0.28446E-07, tol = 0.27187E+01, time = 2.91 | CG iter. 44 -- res = 0.14224E-07, tol = 0.27187E+01, time = 2.52 | CG iter. 45 -- res = 0.69441E-08, tol = 0.27187E+01, time = 2.53 | CG iter. 46 -- res = 0.32644E-08, tol = 0.27187E+01, time = 2.72 | CG iter. 47 -- res = 0.15587E-08, tol = 0.27187E+01, time = 2.77 | CG iter. 48 -- res = 0.73358E-09, tol = 0.27187E+01, time = 2.60 | CG iter. 49 -- res = 0.33519E-09, tol = 0.27187E+01, time = 2.56 | CG iter. 50 -- res = 0.15968E-09, tol = 0.27187E+01, time = 2.71 | Final CG iter 51 -- res = 0.15968E-09, tol = 0.27187E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -10.730 6.602 | New value 0.938 | Old value -10.730 | Difference 11.668 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.14372E+06, tol = 0.47627E+18, time = 2.39 | CG iter. 2 -- res = 0.15019E+03, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.30131E+01, tol = 0.47627E+18, time = 2.47 | CG iter. 4 -- res = 0.22694E-01, tol = 0.47627E+18, time = 2.35 | Final CG iter 5 -- res = 0.38624E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6978209.151 | (Sampled value in CG: 6891353.372 ) | CPU time specind = 1193.126 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.13 | CG iter. 1 -- res = 0.68375E+08, tol = 0.57678E+04, time = 11.86 | CG iter. 2 -- res = 0.58746E+08, tol = 0.57678E+04, time = 12.16 | CG iter. 3 -- res = 0.15614E+08, tol = 0.57678E+04, time = 12.15 | CG iter. 4 -- res = 0.66323E+07, tol = 0.57678E+04, time = 11.27 | CG iter. 5 -- res = 0.39164E+07, tol = 0.57678E+04, time = 12.33 | CG iter. 6 -- res = 0.22820E+07, tol = 0.57678E+04, time = 11.84 | CG iter. 7 -- res = 0.13627E+07, tol = 0.57678E+04, time = 11.90 | CG iter. 8 -- res = 0.91698E+06, tol = 0.57678E+04, time = 11.58 | CG iter. 9 -- res = 0.60605E+06, tol = 0.57678E+04, time = 12.05 | CG iter. 10 -- res = 0.38008E+06, tol = 0.57678E+04, time = 11.55 | CG iter. 11 -- res = 0.21681E+06, tol = 0.57678E+04, time = 11.87 | CG iter. 12 -- res = 0.13054E+06, tol = 0.57678E+04, time = 11.46 | CG iter. 13 -- res = 0.88773E+05, tol = 0.57678E+04, time = 18.72 | CG iter. 14 -- res = 0.67910E+05, tol = 0.57678E+04, time = 11.91 | CG iter. 15 -- res = 0.61469E+05, tol = 0.57678E+04, time = 11.88 | CG iter. 16 -- res = 0.62114E+05, tol = 0.57678E+04, time = 11.98 | CG iter. 17 -- res = 0.62042E+05, tol = 0.57678E+04, time = 11.71 | CG iter. 18 -- res = 0.59773E+05, tol = 0.57678E+04, time = 11.55 | CG iter. 19 -- res = 0.54614E+05, tol = 0.57678E+04, time = 11.81 | CG iter. 20 -- res = 0.50740E+05, tol = 0.57678E+04, time = 12.10 | CG iter. 21 -- res = 0.47847E+05, tol = 0.57678E+04, time = 13.02 | CG iter. 22 -- res = 0.46260E+05, tol = 0.57678E+04, time = 11.86 | CG iter. 23 -- res = 0.43748E+05, tol = 0.57678E+04, time = 11.99 | CG iter. 24 -- res = 0.37900E+05, tol = 0.57678E+04, time = 11.78 | CG iter. 25 -- res = 0.29431E+05, tol = 0.57678E+04, time = 11.51 | CG iter. 26 -- res = 0.21987E+05, tol = 0.57678E+04, time = 12.15 | CG iter. 27 -- res = 0.16516E+05, tol = 0.57678E+04, time = 11.49 | CG iter. 28 -- res = 0.12870E+05, tol = 0.57678E+04, time = 11.70 | CG iter. 29 -- res = 0.11070E+05, tol = 0.57678E+04, time = 11.78 | CG iter. 30 -- res = 0.10175E+05, tol = 0.57678E+04, time = 11.92 | CG iter. 31 -- res = 0.92680E+04, tol = 0.57678E+04, time = 11.59 | CG iter. 32 -- res = 0.84780E+04, tol = 0.57678E+04, time = 11.84 | CG iter. 33 -- res = 0.75623E+04, tol = 0.57678E+04, time = 12.22 | CG iter. 34 -- res = 0.65097E+04, tol = 0.57678E+04, time = 11.50 | CG iter. 35 -- res = 0.57953E+04, tol = 0.57678E+04, time = 12.19 | CG iter. 36 -- res = 0.53618E+04, tol = 0.57678E+04, time = 11.82 | CG iter. 37 -- res = 0.50277E+04, tol = 0.57678E+04, time = 12.11 | CG iter. 38 -- res = 0.44917E+04, tol = 0.57678E+04, time = 18.32 | CG iter. 39 -- res = 0.39414E+04, tol = 0.57678E+04, time = 12.25 | CG iter. 40 -- res = 0.32704E+04, tol = 0.57678E+04, time = 11.73 | CG iter. 41 -- res = 0.26402E+04, tol = 0.57678E+04, time = 11.78 | CG iter. 42 -- res = 0.21929E+04, tol = 0.57678E+04, time = 11.79 | CG iter. 43 -- res = 0.19519E+04, tol = 0.57678E+04, time = 12.00 | CG iter. 44 -- res = 0.18634E+04, tol = 0.57678E+04, time = 11.79 | CG iter. 45 -- res = 0.17742E+04, tol = 0.57678E+04, time = 13.47 | CG iter. 46 -- res = 0.16620E+04, tol = 0.57678E+04, time = 12.44 | CG iter. 47 -- res = 0.15118E+04, tol = 0.57678E+04, time = 12.05 | CG iter. 48 -- res = 0.13160E+04, tol = 0.57678E+04, time = 12.24 | CG iter. 49 -- res = 0.11591E+04, tol = 0.57678E+04, time = 11.91 | CG iter. 50 -- res = 0.10576E+04, tol = 0.57678E+04, time = 11.88 | CG iter. 51 -- res = 0.10061E+04, tol = 0.57678E+04, time = 11.77 | CG iter. 52 -- res = 0.94397E+03, tol = 0.57678E+04, time = 11.79 | CG iter. 53 -- res = 0.85633E+03, tol = 0.57678E+04, time = 11.27 | CG iter. 54 -- res = 0.73886E+03, tol = 0.57678E+04, time = 12.58 | CG iter. 55 -- res = 0.63050E+03, tol = 0.57678E+04, time = 11.79 | CG iter. 56 -- res = 0.54948E+03, tol = 0.57678E+04, time = 11.53 | CG iter. 57 -- res = 0.49936E+03, tol = 0.57678E+04, time = 12.08 | CG iter. 58 -- res = 0.47037E+03, tol = 0.57678E+04, time = 12.10 | CG iter. 59 -- res = 0.45758E+03, tol = 0.57678E+04, time = 12.10 | CG iter. 60 -- res = 0.44338E+03, tol = 0.57678E+04, time = 11.87 | Final CG iter 61 -- res = 0.44338E+03, tol = 0.57678E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.872 ( -229.769 -2231.093 2513.647 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9466380.194 | Old band monopole 6978239.166 | Change to band monopole 2488141.028 | Change to component monopole -2488130.326 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.194 2.742 | New value 2.321 | Old value 0.194 | Difference 2.127 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.611 ( 7.511 13.421 -12.910 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 14.027 4.628 | New value -3.181 | Old value 14.027 | Difference -17.208 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.59883E+06, tol = 0.47627E+18, time = 2.21 | CG iter. 2 -- res = 0.16403E+03, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.42013E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.96244E-02, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.17717E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9466339.477 | (Sampled value in CG: 9437357.506 ) | Chain = 1 -- chisq = 0.81570252E+09 | Chain = 1 -- wall time = 16390.504 sec Available RAM: MemAvailable: 476823064 kB Available Swap: SwapFree: 1054523332 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 412 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441972 | --> Sampling calibration, mode = relcal | relcal = 1.3438789E-02 7.4229104E-04 -1.5927323E-03 -1.2588348E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1589954 0.1733919 9407790.17440137 | BP delta = 0.1589954 0.1620256 9407910.62246761 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632667 | --> Sampling calibration, mode = relcal | relcal = -2.8217377E-03 -7.0373167E-04 1.6790801E-03 1.6152908E-03 -4.0880020E-04 6.3989864E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5441738 15218078.4640991 | BP delta = 0.0000000E+00 -0.5439394 15218082.2324433 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18249346420243 | --> Sampling calibration, mode = relcal | relcal = -7.5956784E-02 -5.9211280E-02 9.2978738E-02 4.2189330E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -3.6280393E-04 5.8852620E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7811E-05 | 2: delta_r/delta_0: 1.3836E-06 | 3: delta_s/delta_0: 2.0165E-07 | 4: delta_r/delta_0: 3.5209E-08 | 5: delta_s/delta_0: 1.1226E-08 | 6: delta_r/delta_0: 3.4713E-09 | 7: delta_s/delta_0: 7.5592E-10 | 8: delta_r/delta_0: 1.9054E-10 | 9: delta_s/delta_0: 2.8751E-10 | 10: delta_r/delta_0: 8.5222E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.125867332884426E-003 2.737492977696049E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7810E-05 | 2: delta_r/delta_0: 1.3836E-06 | 3: delta_s/delta_0: 2.0165E-07 | 4: delta_r/delta_0: 3.5213E-08 | 5: delta_s/delta_0: 1.1228E-08 | 6: delta_r/delta_0: 3.4715E-09 | 7: delta_s/delta_0: 7.5590E-10 | 8: delta_r/delta_0: 1.9055E-10 | 9: delta_s/delta_0: 2.8764E-10 | 10: delta_r/delta_0: 8.5259E-11 | Reached bicg-stab tolerance | BP delta = 6.7515910E-02 9.1723107E-02 3451677.34425980 | BP delta = 6.7515910E-02 9.1989383E-02 3449393.22536018 | BP chisq diff = -2284.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02609018 | --> Sampling calibration, mode = relcal | relcal = -0.1067435 -9.5555201E-02 0.1450108 5.7287853E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9796318E-03 1.4646640E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.7768E-05 | 2: delta_r/delta_0: 1.6416E-06 | 3: delta_s/delta_0: 2.5039E-07 | 4: delta_r/delta_0: 5.0874E-08 | 5: delta_s/delta_0: 3.3045E-08 | 6: delta_r/delta_0: 8.3521E-09 | 7: delta_s/delta_0: 5.4757E-09 | 8: delta_r/delta_0: 2.2465E-09 | 9: delta_s/delta_0: 9.9887E-10 | 10: delta_r/delta_0: 7.4166E-10 | 11: delta_s/delta_0: 2.3287E-09 | 12: delta_r/delta_0: 9.5193E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.027153218452058E-002 2.810595279200066E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.7768E-05 | 2: delta_r/delta_0: 1.6417E-06 | 3: delta_s/delta_0: 2.5040E-07 | 4: delta_r/delta_0: 5.0886E-08 | 5: delta_s/delta_0: 3.3035E-08 | 6: delta_r/delta_0: 8.3523E-09 | 7: delta_s/delta_0: 5.4749E-09 | 8: delta_r/delta_0: 2.2467E-09 | 9: delta_s/delta_0: 9.9900E-10 | 10: delta_r/delta_0: 7.4175E-10 | 11: delta_s/delta_0: 2.3294E-09 | 12: delta_r/delta_0: 9.5187E-11 | Reached bicg-stab tolerance | BP delta = -0.2486850 -0.2139706 2841567.21851639 | BP delta = -0.2486850 -0.2132323 2841578.72054742 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81254450 | --> Sampling calibration, mode = relcal | relcal = 0.2956285 0.2249017 -0.2838524 -0.2366778 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.9975491E-04 5.3042546E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.4219E-01 | 2: delta_r/delta_0: 1.9813E-02 | 3: delta_s/delta_0: 1.5662E-05 | 4: delta_r/delta_0: 3.0808E-06 | 5: delta_s/delta_0: 2.0305E-05 | 6: delta_r/delta_0: 4.5908E-06 | 7: delta_s/delta_0: 8.3104E-07 | 8: delta_r/delta_0: 1.6284E-07 | 9: delta_s/delta_0: 5.9521E-07 | 10: delta_r/delta_0: 1.8776E-08 | 11: delta_s/delta_0: 4.2109E-09 | 12: delta_r/delta_0: 9.4450E-10 | 13: delta_s/delta_0: 1.3126E-09 | 14: delta_r/delta_0: 5.9607E-10 | 15: delta_s/delta_0: 1.4949E-10 | 16: delta_r/delta_0: 6.8359E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.118414475856007E-002 4.020168488973153E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 8.4789E-01 | 2: delta_r/delta_0: 1.9947E-02 | 3: delta_s/delta_0: 1.5647E-05 | 4: delta_r/delta_0: 3.0776E-06 | 5: delta_s/delta_0: 2.0292E-05 | 6: delta_r/delta_0: 4.5875E-06 | 7: delta_s/delta_0: 8.3071E-07 | 8: delta_r/delta_0: 1.6276E-07 | 9: delta_s/delta_0: 5.9518E-07 | 10: delta_r/delta_0: 1.8770E-08 | 11: delta_s/delta_0: 4.2175E-09 | 12: delta_r/delta_0: 9.4661E-10 | 13: delta_s/delta_0: 1.3121E-09 | 14: delta_r/delta_0: 5.9581E-10 | 15: delta_s/delta_0: 1.4952E-10 | 16: delta_r/delta_0: 6.8352E-11 | Reached bicg-stab tolerance | BP delta = -0.1748610 -0.2111432 2827551.84188357 | BP delta = -0.1748610 -0.2167761 2827628.74142085 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95953852 | --> Sampling calibration, mode = relcal | relcal = 0.1065628 0.1396111 -0.1103275 -0.1358464 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5479386E-03 1.3098566E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3807E-04 | 2: delta_r/delta_0: 6.0654E-06 | 3: delta_s/delta_0: 1.4343E-04 | 4: delta_r/delta_0: 6.0943E-06 | 5: delta_s/delta_0: 2.0508E-07 | 6: delta_r/delta_0: 1.0160E-07 | 7: delta_s/delta_0: 3.3195E-07 | 8: delta_r/delta_0: 2.8004E-08 | 9: delta_s/delta_0: 8.3062E-09 | 10: delta_r/delta_0: 2.4967E-09 | 11: delta_s/delta_0: 2.3874E-09 | 12: delta_r/delta_0: 1.7505E-09 | 13: delta_s/delta_0: 1.4279E-10 | 14: delta_r/delta_0: 1.0330E-10 | 15: delta_s/delta_0: 3.8687E-10 | 16: delta_r/delta_0: 8.8049E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.012678121684013E-002 3.695761609186485E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3806E-04 | 2: delta_r/delta_0: 6.0654E-06 | 3: delta_s/delta_0: 1.4343E-04 | 4: delta_r/delta_0: 6.0966E-06 | 5: delta_s/delta_0: 2.0509E-07 | 6: delta_r/delta_0: 1.0160E-07 | 7: delta_s/delta_0: 3.3249E-07 | 8: delta_r/delta_0: 2.8004E-08 | 9: delta_s/delta_0: 8.3081E-09 | 10: delta_r/delta_0: 2.4939E-09 | 11: delta_s/delta_0: 2.3829E-09 | 12: delta_r/delta_0: 1.7468E-09 | 13: delta_s/delta_0: 1.4267E-10 | 14: delta_r/delta_0: 1.0331E-10 | 15: delta_s/delta_0: 3.8350E-10 | 16: delta_r/delta_0: 8.8315E-11 | Reached bicg-stab tolerance | BP delta = 3.3766139E-02 0.1353133 3004260.88783568 | BP delta = 3.3766139E-02 0.1219765 3004379.01921764 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189853 | New value = -3.195618 | poltype: 2 pol: 1 CPU time specind = 1.7910004E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.170664 | New value = -3.177585 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.238133 | New value = -3.189680 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094163 | New value = -3.128358 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193040 | New value = -3.232155 | poltype: 2 pol: 2 CPU time specind = 5.3410530E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.13559E+08, tol = 0.74519E+01, time = 7.36 | CG iter. 2 -- res = 0.32604E+06, tol = 0.74519E+01, time = 6.68 | CG iter. 3 -- res = 0.46331E+05, tol = 0.74519E+01, time = 5.86 | CG iter. 4 -- res = 0.20346E+05, tol = 0.74519E+01, time = 6.23 | CG iter. 5 -- res = 0.98302E+04, tol = 0.74519E+01, time = 5.69 | CG iter. 6 -- res = 0.51291E+04, tol = 0.74519E+01, time = 5.96 | CG iter. 7 -- res = 0.34888E+04, tol = 0.74519E+01, time = 6.13 | CG iter. 8 -- res = 0.25025E+04, tol = 0.74519E+01, time = 5.80 | CG iter. 9 -- res = 0.22215E+04, tol = 0.74519E+01, time = 5.94 | CG iter. 10 -- res = 0.24330E+04, tol = 0.74519E+01, time = 6.06 | CG iter. 11 -- res = 0.24060E+04, tol = 0.74519E+01, time = 5.83 | CG iter. 12 -- res = 0.18544E+04, tol = 0.74519E+01, time = 6.03 | CG iter. 13 -- res = 0.12917E+04, tol = 0.74519E+01, time = 6.30 | CG iter. 14 -- res = 0.95793E+03, tol = 0.74519E+01, time = 5.61 | CG iter. 15 -- res = 0.79109E+03, tol = 0.74519E+01, time = 5.88 | CG iter. 16 -- res = 0.61866E+03, tol = 0.74519E+01, time = 6.11 | CG iter. 17 -- res = 0.47761E+03, tol = 0.74519E+01, time = 5.62 | CG iter. 18 -- res = 0.39487E+03, tol = 0.74519E+01, time = 6.13 | CG iter. 19 -- res = 0.35920E+03, tol = 0.74519E+01, time = 5.98 | CG iter. 20 -- res = 0.30248E+03, tol = 0.74519E+01, time = 6.00 | CG iter. 21 -- res = 0.22298E+03, tol = 0.74519E+01, time = 6.26 | CG iter. 22 -- res = 0.16886E+03, tol = 0.74519E+01, time = 5.82 | CG iter. 23 -- res = 0.14453E+03, tol = 0.74519E+01, time = 5.94 | CG iter. 24 -- res = 0.12840E+03, tol = 0.74519E+01, time = 6.21 | CG iter. 25 -- res = 0.10618E+03, tol = 0.74519E+01, time = 5.91 | CG iter. 26 -- res = 0.82800E+02, tol = 0.74519E+01, time = 6.10 | CG iter. 27 -- res = 0.67781E+02, tol = 0.74519E+01, time = 5.71 | CG iter. 28 -- res = 0.60059E+02, tol = 0.74519E+01, time = 6.00 | CG iter. 29 -- res = 0.51960E+02, tol = 0.74519E+01, time = 5.78 | CG iter. 30 -- res = 0.43344E+02, tol = 0.74519E+01, time = 6.16 | CG iter. 31 -- res = 0.38896E+02, tol = 0.74519E+01, time = 6.04 | CG iter. 32 -- res = 0.38630E+02, tol = 0.74519E+01, time = 6.08 | CG iter. 33 -- res = 0.36063E+02, tol = 0.74519E+01, time = 6.26 | CG iter. 34 -- res = 0.30595E+02, tol = 0.74519E+01, time = 6.40 | CG iter. 35 -- res = 0.25886E+02, tol = 0.74519E+01, time = 12.42 | CG iter. 36 -- res = 0.22964E+02, tol = 0.74519E+01, time = 5.70 | CG iter. 37 -- res = 0.21226E+02, tol = 0.74519E+01, time = 6.66 | CG iter. 38 -- res = 0.17335E+02, tol = 0.74519E+01, time = 5.90 | CG iter. 39 -- res = 0.13660E+02, tol = 0.74519E+01, time = 5.65 | CG iter. 40 -- res = 0.11380E+02, tol = 0.74519E+01, time = 6.16 | CG iter. 41 -- res = 0.93209E+01, tol = 0.74519E+01, time = 5.93 | CG iter. 42 -- res = 0.71560E+01, tol = 0.74519E+01, time = 6.06 | CG iter. 43 -- res = 0.54349E+01, tol = 0.74519E+01, time = 6.08 | CG iter. 44 -- res = 0.40326E+01, tol = 0.74519E+01, time = 5.86 | CG iter. 45 -- res = 0.31918E+01, tol = 0.74519E+01, time = 5.84 | CG iter. 46 -- res = 0.25719E+01, tol = 0.74519E+01, time = 5.77 | CG iter. 47 -- res = 0.19548E+01, tol = 0.74519E+01, time = 6.14 | CG iter. 48 -- res = 0.15118E+01, tol = 0.74519E+01, time = 6.12 | CG iter. 49 -- res = 0.12228E+01, tol = 0.74519E+01, time = 6.65 | CG iter. 50 -- res = 0.10332E+01, tol = 0.74519E+01, time = 7.36 | Final CG iter 51 -- res = 0.10332E+01, tol = 0.74519E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9090199.503 | Old band monopole 9466380.194 | Change to band monopole -376180.691 | Change to component monopole 376179.073 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.22040E+03, tol = 0.47627E+18, time = 2.20 | CG iter. 2 -- res = 0.99425E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.29184E-01, tol = 0.47627E+18, time = 2.12 | Final CG iter 4 -- res = 0.10014E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9090160.404 | (Sampled value in CG: 9084621.983 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.486796 | New value = 1.519552 | poltype: 2 pol: 1 CPU time specind = 1.7524004E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519710 | New value = 1.484443 | poltype: 2 pol: 2 CPU time specind = 3.5200119E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.24236E+08, tol = 0.47641E+04, time = 6.74 | CG iter. 2 -- res = 0.52940E+07, tol = 0.47641E+04, time = 6.88 | CG iter. 3 -- res = 0.82947E+06, tol = 0.47641E+04, time = 6.94 | CG iter. 4 -- res = 0.34239E+06, tol = 0.47641E+04, time = 6.96 | CG iter. 5 -- res = 0.15058E+06, tol = 0.47641E+04, time = 7.04 | CG iter. 6 -- res = 0.78667E+05, tol = 0.47641E+04, time = 6.91 | CG iter. 7 -- res = 0.42782E+05, tol = 0.47641E+04, time = 7.04 | CG iter. 8 -- res = 0.20715E+05, tol = 0.47641E+04, time = 6.97 | CG iter. 9 -- res = 0.92093E+04, tol = 0.47641E+04, time = 6.84 | CG iter. 10 -- res = 0.37572E+04, tol = 0.47641E+04, time = 7.22 | CG iter. 11 -- res = 0.16721E+04, tol = 0.47641E+04, time = 6.99 | CG iter. 12 -- res = 0.84824E+03, tol = 0.47641E+04, time = 6.99 | CG iter. 13 -- res = 0.47678E+03, tol = 0.47641E+04, time = 13.19 | CG iter. 14 -- res = 0.27158E+03, tol = 0.47641E+04, time = 7.26 | CG iter. 15 -- res = 0.14240E+03, tol = 0.47641E+04, time = 6.82 | CG iter. 16 -- res = 0.68714E+02, tol = 0.47641E+04, time = 7.42 | CG iter. 17 -- res = 0.31890E+02, tol = 0.47641E+04, time = 6.96 | CG iter. 18 -- res = 0.15755E+02, tol = 0.47641E+04, time = 7.09 | CG iter. 19 -- res = 0.85638E+01, tol = 0.47641E+04, time = 7.16 | CG iter. 20 -- res = 0.49773E+01, tol = 0.47641E+04, time = 7.15 | CG iter. 21 -- res = 0.27362E+01, tol = 0.47641E+04, time = 6.81 | CG iter. 22 -- res = 0.13972E+01, tol = 0.47641E+04, time = 6.66 | CG iter. 23 -- res = 0.70846E+00, tol = 0.47641E+04, time = 7.08 | CG iter. 24 -- res = 0.36144E+00, tol = 0.47641E+04, time = 7.26 | CG iter. 25 -- res = 0.19895E+00, tol = 0.47641E+04, time = 8.39 | CG iter. 26 -- res = 0.11388E+00, tol = 0.47641E+04, time = 7.66 | CG iter. 27 -- res = 0.64168E-01, tol = 0.47641E+04, time = 6.99 | CG iter. 28 -- res = 0.34115E-01, tol = 0.47641E+04, time = 6.60 | CG iter. 29 -- res = 0.17595E-01, tol = 0.47641E+04, time = 7.39 | CG iter. 30 -- res = 0.93587E-02, tol = 0.47641E+04, time = 7.19 | CG iter. 31 -- res = 0.52055E-02, tol = 0.47641E+04, time = 6.57 | CG iter. 32 -- res = 0.29860E-02, tol = 0.47641E+04, time = 6.81 | CG iter. 33 -- res = 0.17061E-02, tol = 0.47641E+04, time = 6.94 | CG iter. 34 -- res = 0.91814E-03, tol = 0.47641E+04, time = 6.96 | CG iter. 35 -- res = 0.48000E-03, tol = 0.47641E+04, time = 7.25 | Final CG iter 36 -- res = 0.48000E-03, tol = 0.47641E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.357 2.743 | New value -1.067 | Old value 2.357 | Difference -3.425 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.60657E+06, tol = 0.47627E+18, time = 2.16 | CG iter. 2 -- res = 0.21788E+02, tol = 0.47627E+18, time = 2.09 | CG iter. 3 -- res = 0.26959E+00, tol = 0.47627E+18, time = 2.44 | CG iter. 4 -- res = 0.14871E-03, tol = 0.47627E+18, time = 2.20 | Final CG iter 5 -- res = 0.18980E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9090160.404 | (Sampled value in CG: 9085111.759 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.589109 | New value = -3.748615 | poltype: 1 pol: 1 CPU time specind = 1.8697977E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.20718E+07, tol = 0.25238E+01, time = 2.90 | CG iter. 2 -- res = 0.56463E+06, tol = 0.25238E+01, time = 3.18 | CG iter. 3 -- res = 0.99796E+05, tol = 0.25238E+01, time = 2.81 | CG iter. 4 -- res = 0.44891E+05, tol = 0.25238E+01, time = 2.83 | CG iter. 5 -- res = 0.28022E+05, tol = 0.25238E+01, time = 2.91 | CG iter. 6 -- res = 0.13392E+05, tol = 0.25238E+01, time = 2.75 | CG iter. 7 -- res = 0.48550E+04, tol = 0.25238E+01, time = 2.81 | CG iter. 8 -- res = 0.20128E+04, tol = 0.25238E+01, time = 3.58 | CG iter. 9 -- res = 0.82588E+03, tol = 0.25238E+01, time = 2.68 | CG iter. 10 -- res = 0.35149E+03, tol = 0.25238E+01, time = 2.83 | CG iter. 11 -- res = 0.15882E+03, tol = 0.25238E+01, time = 3.19 | CG iter. 12 -- res = 0.80812E+02, tol = 0.25238E+01, time = 2.73 | CG iter. 13 -- res = 0.40294E+02, tol = 0.25238E+01, time = 2.92 | CG iter. 14 -- res = 0.18376E+02, tol = 0.25238E+01, time = 2.92 | CG iter. 15 -- res = 0.72126E+01, tol = 0.25238E+01, time = 2.82 | CG iter. 16 -- res = 0.30557E+01, tol = 0.25238E+01, time = 2.80 | CG iter. 17 -- res = 0.14033E+01, tol = 0.25238E+01, time = 2.67 | CG iter. 18 -- res = 0.73530E+00, tol = 0.25238E+01, time = 3.32 | CG iter. 19 -- res = 0.34876E+00, tol = 0.25238E+01, time = 2.83 | CG iter. 20 -- res = 0.17038E+00, tol = 0.25238E+01, time = 2.76 | CG iter. 21 -- res = 0.74455E-01, tol = 0.25238E+01, time = 2.85 | CG iter. 22 -- res = 0.35791E-01, tol = 0.25238E+01, time = 2.77 | CG iter. 23 -- res = 0.16892E-01, tol = 0.25238E+01, time = 2.96 | CG iter. 24 -- res = 0.86465E-02, tol = 0.25238E+01, time = 2.61 | CG iter. 25 -- res = 0.44986E-02, tol = 0.25238E+01, time = 3.01 | CG iter. 26 -- res = 0.21067E-02, tol = 0.25238E+01, time = 2.60 | CG iter. 27 -- res = 0.96311E-03, tol = 0.25238E+01, time = 2.97 | CG iter. 28 -- res = 0.43999E-03, tol = 0.25238E+01, time = 2.95 | CG iter. 29 -- res = 0.19862E-03, tol = 0.25238E+01, time = 2.89 | CG iter. 30 -- res = 0.10205E-03, tol = 0.25238E+01, time = 2.96 | CG iter. 31 -- res = 0.51784E-04, tol = 0.25238E+01, time = 2.85 | CG iter. 32 -- res = 0.24228E-04, tol = 0.25238E+01, time = 2.99 | CG iter. 33 -- res = 0.10711E-04, tol = 0.25238E+01, time = 2.89 | CG iter. 34 -- res = 0.48316E-05, tol = 0.25238E+01, time = 2.59 | CG iter. 35 -- res = 0.23090E-05, tol = 0.25238E+01, time = 2.89 | CG iter. 36 -- res = 0.11711E-05, tol = 0.25238E+01, time = 2.93 | CG iter. 37 -- res = 0.56499E-06, tol = 0.25238E+01, time = 2.69 | CG iter. 38 -- res = 0.26475E-06, tol = 0.25238E+01, time = 3.12 | CG iter. 39 -- res = 0.12086E-06, tol = 0.25238E+01, time = 2.78 | CG iter. 40 -- res = 0.53878E-07, tol = 0.25238E+01, time = 3.09 | CG iter. 41 -- res = 0.26625E-07, tol = 0.25238E+01, time = 3.26 | CG iter. 42 -- res = 0.13369E-07, tol = 0.25238E+01, time = 8.88 | CG iter. 43 -- res = 0.64473E-08, tol = 0.25238E+01, time = 3.01 | CG iter. 44 -- res = 0.28743E-08, tol = 0.25238E+01, time = 2.84 | CG iter. 45 -- res = 0.13323E-08, tol = 0.25238E+01, time = 2.88 | CG iter. 46 -- res = 0.62550E-09, tol = 0.25238E+01, time = 3.16 | CG iter. 47 -- res = 0.29266E-09, tol = 0.25238E+01, time = 3.02 | CG iter. 48 -- res = 0.14255E-09, tol = 0.25238E+01, time = 2.93 | CG iter. 49 -- res = 0.68281E-10, tol = 0.25238E+01, time = 2.88 | CG iter. 50 -- res = 0.31097E-10, tol = 0.25238E+01, time = 2.81 | Final CG iter 51 -- res = 0.31097E-10, tol = 0.25238E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.720 5.202 | New value -3.321 | Old value -4.720 | Difference 1.399 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.22303E+04, tol = 0.47627E+18, time = 2.10 | CG iter. 2 -- res = 0.11053E+02, tol = 0.47627E+18, time = 2.21 | CG iter. 3 -- res = 0.32134E-01, tol = 0.47627E+18, time = 2.16 | Final CG iter 4 -- res = 0.44553E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9090160.404 | (Sampled value in CG: 9087109.594 ) | CPU time specind = 1247.383 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.69378E+08, tol = 0.58048E+04, time = 12.39 | CG iter. 2 -- res = 0.59263E+08, tol = 0.58048E+04, time = 12.50 | CG iter. 3 -- res = 0.15790E+08, tol = 0.58048E+04, time = 12.58 | CG iter. 4 -- res = 0.67463E+07, tol = 0.58048E+04, time = 12.79 | CG iter. 5 -- res = 0.40691E+07, tol = 0.58048E+04, time = 12.71 | CG iter. 6 -- res = 0.23795E+07, tol = 0.58048E+04, time = 12.68 | CG iter. 7 -- res = 0.13948E+07, tol = 0.58048E+04, time = 12.59 | CG iter. 8 -- res = 0.89031E+06, tol = 0.58048E+04, time = 12.49 | CG iter. 9 -- res = 0.57181E+06, tol = 0.58048E+04, time = 12.49 | CG iter. 10 -- res = 0.33965E+06, tol = 0.58048E+04, time = 12.39 | CG iter. 11 -- res = 0.18208E+06, tol = 0.58048E+04, time = 12.46 | CG iter. 12 -- res = 0.96443E+05, tol = 0.58048E+04, time = 12.55 | CG iter. 13 -- res = 0.51746E+05, tol = 0.58048E+04, time = 12.74 | CG iter. 14 -- res = 0.30422E+05, tol = 0.58048E+04, time = 12.66 | CG iter. 15 -- res = 0.19555E+05, tol = 0.58048E+04, time = 19.92 | CG iter. 16 -- res = 0.13805E+05, tol = 0.58048E+04, time = 12.63 | CG iter. 17 -- res = 0.10171E+05, tol = 0.58048E+04, time = 12.64 | CG iter. 18 -- res = 0.73853E+04, tol = 0.58048E+04, time = 12.50 | CG iter. 19 -- res = 0.52620E+04, tol = 0.58048E+04, time = 12.33 | CG iter. 20 -- res = 0.39212E+04, tol = 0.58048E+04, time = 12.60 | CG iter. 21 -- res = 0.31880E+04, tol = 0.58048E+04, time = 11.98 | CG iter. 22 -- res = 0.29344E+04, tol = 0.58048E+04, time = 14.00 | CG iter. 23 -- res = 0.30888E+04, tol = 0.58048E+04, time = 13.33 | CG iter. 24 -- res = 0.34788E+04, tol = 0.58048E+04, time = 12.35 | CG iter. 25 -- res = 0.38282E+04, tol = 0.58048E+04, time = 12.88 | CG iter. 26 -- res = 0.38501E+04, tol = 0.58048E+04, time = 12.29 | CG iter. 27 -- res = 0.35204E+04, tol = 0.58048E+04, time = 13.21 | CG iter. 28 -- res = 0.30403E+04, tol = 0.58048E+04, time = 12.01 | CG iter. 29 -- res = 0.26352E+04, tol = 0.58048E+04, time = 12.57 | CG iter. 30 -- res = 0.22454E+04, tol = 0.58048E+04, time = 13.08 | CG iter. 31 -- res = 0.18973E+04, tol = 0.58048E+04, time = 12.54 | CG iter. 32 -- res = 0.15839E+04, tol = 0.58048E+04, time = 12.66 | CG iter. 33 -- res = 0.12676E+04, tol = 0.58048E+04, time = 12.79 | CG iter. 34 -- res = 0.97936E+03, tol = 0.58048E+04, time = 12.38 | CG iter. 35 -- res = 0.75165E+03, tol = 0.58048E+04, time = 12.66 | CG iter. 36 -- res = 0.62017E+03, tol = 0.58048E+04, time = 12.07 | CG iter. 37 -- res = 0.57274E+03, tol = 0.58048E+04, time = 12.29 | CG iter. 38 -- res = 0.54674E+03, tol = 0.58048E+04, time = 18.69 | CG iter. 39 -- res = 0.51653E+03, tol = 0.58048E+04, time = 12.57 | CG iter. 40 -- res = 0.47504E+03, tol = 0.58048E+04, time = 12.60 | CG iter. 41 -- res = 0.42010E+03, tol = 0.58048E+04, time = 12.14 | CG iter. 42 -- res = 0.35498E+03, tol = 0.58048E+04, time = 12.40 | CG iter. 43 -- res = 0.30700E+03, tol = 0.58048E+04, time = 12.39 | CG iter. 44 -- res = 0.27442E+03, tol = 0.58048E+04, time = 13.03 | CG iter. 45 -- res = 0.24487E+03, tol = 0.58048E+04, time = 14.14 | CG iter. 46 -- res = 0.21683E+03, tol = 0.58048E+04, time = 12.74 | CG iter. 47 -- res = 0.18641E+03, tol = 0.58048E+04, time = 12.76 | CG iter. 48 -- res = 0.15187E+03, tol = 0.58048E+04, time = 12.70 | CG iter. 49 -- res = 0.12526E+03, tol = 0.58048E+04, time = 12.80 | CG iter. 50 -- res = 0.10725E+03, tol = 0.58048E+04, time = 12.52 | CG iter. 51 -- res = 0.95118E+02, tol = 0.58048E+04, time = 12.68 | CG iter. 52 -- res = 0.87936E+02, tol = 0.58048E+04, time = 12.36 | CG iter. 53 -- res = 0.83059E+02, tol = 0.58048E+04, time = 12.49 | CG iter. 54 -- res = 0.78473E+02, tol = 0.58048E+04, time = 12.33 | CG iter. 55 -- res = 0.74284E+02, tol = 0.58048E+04, time = 12.34 | CG iter. 56 -- res = 0.67510E+02, tol = 0.58048E+04, time = 12.70 | CG iter. 57 -- res = 0.61441E+02, tol = 0.58048E+04, time = 12.58 | CG iter. 58 -- res = 0.57296E+02, tol = 0.58048E+04, time = 13.00 | CG iter. 59 -- res = 0.54216E+02, tol = 0.58048E+04, time = 12.19 | CG iter. 60 -- res = 0.51948E+02, tol = 0.58048E+04, time = 12.83 | Final CG iter 61 -- res = 0.51948E+02, tol = 0.58048E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.723 ( -229.697 -2228.915 2511.159 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7258663.715 | Old band monopole 9090199.503 | Change to band monopole -1831535.788 | Change to component monopole 1831527.910 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.130 2.729 | New value -5.187 | Old value -1.130 | Difference -4.057 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.004 ( 7.616 9.104 -7.921 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.379 5.549 | New value -7.234 | Old value 0.379 | Difference -7.613 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.85497E+06, tol = 0.47627E+18, time = 2.02 | CG iter. 2 -- res = 0.15474E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.37926E+00, tol = 0.47627E+18, time = 2.21 | CG iter. 4 -- res = 0.51261E-03, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.79795E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7258632.494 | (Sampled value in CG: 7240355.063 ) | Chain = 1 -- chisq = 0.81570382E+09 | Chain = 1 -- wall time = 6307.997 sec Available RAM: MemAvailable: 376910404 kB Available Swap: SwapFree: 1113531388 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 413 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445230 | --> Sampling calibration, mode = relcal | relcal = 1.3425785E-02 7.4399984E-04 -1.5876732E-03 -1.2582112E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1589954 0.1733919 97040766.4171863 | BP delta = 0.1589955 0.1733919 97040766.4171280 | BP chisq diff = -0.0, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632457 | --> Sampling calibration, mode = relcal | relcal = -2.8216862E-03 -7.0347957E-04 1.6788885E-03 1.6129609E-03 -4.0682300E-04 6.4013922E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5441738 15218793.5796693 | BP delta = 0.0000000E+00 -0.5481975 15218795.9592468 | BP chisq diff = 2.4, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17933380326858 | --> Sampling calibration, mode = relcal | relcal = -7.4323036E-02 -5.7857573E-02 9.0992868E-02 4.1187737E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0214817E-04 3.6659206E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.9263E-04 | 2: delta_r/delta_0: 4.9852E-06 | 3: delta_s/delta_0: 2.0924E-07 | 4: delta_r/delta_0: 1.8249E-08 | 5: delta_s/delta_0: 7.6380E-09 | 6: delta_r/delta_0: 1.8808E-09 | 7: delta_s/delta_0: 1.8146E-09 | 8: delta_r/delta_0: 9.4267E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.249332990230636E-003 2.745024442717215E-005 | BP delta = 6.7515910E-02 9.1989383E-02 50488913.2920920 | BP delta = 6.5553240E-02 9.0026721E-02 50488912.5167659 | BP chisq diff = -0.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02587817 | --> Sampling calibration, mode = relcal | relcal = -0.1066137 -9.5545270E-02 0.1448686 5.7290349E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9544430E-03 1.3149714E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0622E-05 | 2: delta_r/delta_0: 1.3545E-06 | 3: delta_s/delta_0: 2.4451E-07 | 4: delta_r/delta_0: 5.4700E-08 | 5: delta_s/delta_0: 2.0567E-08 | 6: delta_r/delta_0: 7.6179E-09 | 7: delta_s/delta_0: 8.3468E-09 | 8: delta_r/delta_0: 1.4700E-09 | 9: delta_s/delta_0: 2.0111E-09 | 10: delta_r/delta_0: 1.4490E-09 | 11: delta_s/delta_0: 2.8420E-10 | 12: delta_r/delta_0: 1.2462E-10 | 13: delta_s/delta_0: 9.0374E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.006252804717194E-002 2.811160437542151E-005 | BP delta = -0.2486850 -0.2139706 57388716.9016069 | BP delta = -0.2349563 -0.2002420 57388717.7520612 | BP chisq diff = 0.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81228174 | --> Sampling calibration, mode = relcal | relcal = 0.2955506 0.2248639 -0.2838493 -0.2365651 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.1108884E-04 5.4404135E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.6212E-04 | 2: delta_r/delta_0: 1.8319E-05 | 3: delta_s/delta_0: 6.8556E-01 | 4: delta_r/delta_0: 2.7082E-02 | 5: delta_s/delta_0: 3.2910E-07 | 6: delta_r/delta_0: 1.4500E-07 | 7: delta_s/delta_0: 7.6712E-07 | 8: delta_r/delta_0: 3.5790E-08 | 9: delta_s/delta_0: 1.1995E-07 | 10: delta_r/delta_0: 2.6334E-08 | 11: delta_s/delta_0: 1.9948E-09 | 12: delta_r/delta_0: 8.7825E-10 | 13: delta_s/delta_0: 4.0990E-10 | 14: delta_r/delta_0: 5.7988E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.288111642440574E-002 4.021574964678878E-005 | BP delta = -0.1748610 -0.2111432 72489502.7377018 | BP delta = -0.1611934 -0.1974757 72489502.4380674 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95912804 | --> Sampling calibration, mode = relcal | relcal = 0.1064781 0.1395454 -0.1102087 -0.1358148 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1070171E-02 1.2971705E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5861E-04 | 2: delta_r/delta_0: 4.2914E-06 | 3: delta_s/delta_0: 1.3246E-04 | 4: delta_r/delta_0: 9.7936E-06 | 5: delta_s/delta_0: 1.6451E-07 | 6: delta_r/delta_0: 9.8801E-08 | 7: delta_s/delta_0: 9.2789E-07 | 8: delta_r/delta_0: 2.0451E-08 | 9: delta_s/delta_0: 4.4094E-06 | 10: delta_r/delta_0: 9.2273E-07 | 11: delta_s/delta_0: 8.6216E-10 | 12: delta_r/delta_0: 6.6910E-10 | 13: delta_s/delta_0: 3.1730E-10 | 14: delta_r/delta_0: 2.1431E-10 | 15: delta_s/delta_0: 5.5328E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.844361823684717E-002 3.697301128136518E-005 | BP delta = 3.3766139E-02 0.1353133 72785272.7947643 | BP delta = 7.4799202E-02 0.1763463 72785269.4942072 | BP chisq diff = -3.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195618 | New value = -3.190563 | poltype: 2 pol: 1 CPU time specind = 2.1155119E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.177585 | New value = -3.123586 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189680 | New value = -3.253265 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.128358 | New value = -3.253073 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.232155 | New value = -3.134195 | poltype: 2 pol: 2 CPU time specind = 4.5670986E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.13553E+08, tol = 0.91383E+01, time = 5.77 | CG iter. 2 -- res = 0.30421E+06, tol = 0.91383E+01, time = 6.05 | CG iter. 3 -- res = 0.43422E+05, tol = 0.91383E+01, time = 6.06 | CG iter. 4 -- res = 0.19024E+05, tol = 0.91383E+01, time = 6.20 | CG iter. 5 -- res = 0.88379E+04, tol = 0.91383E+01, time = 5.87 | CG iter. 6 -- res = 0.43088E+04, tol = 0.91383E+01, time = 6.87 | CG iter. 7 -- res = 0.25151E+04, tol = 0.91383E+01, time = 6.31 | CG iter. 8 -- res = 0.15665E+04, tol = 0.91383E+01, time = 6.16 | CG iter. 9 -- res = 0.11679E+04, tol = 0.91383E+01, time = 6.20 | CG iter. 10 -- res = 0.12135E+04, tol = 0.91383E+01, time = 6.08 | CG iter. 11 -- res = 0.12388E+04, tol = 0.91383E+01, time = 6.28 | CG iter. 12 -- res = 0.10668E+04, tol = 0.91383E+01, time = 5.47 | CG iter. 13 -- res = 0.83087E+03, tol = 0.91383E+01, time = 6.43 | CG iter. 14 -- res = 0.65152E+03, tol = 0.91383E+01, time = 6.13 | CG iter. 15 -- res = 0.56214E+03, tol = 0.91383E+01, time = 6.08 | CG iter. 16 -- res = 0.46121E+03, tol = 0.91383E+01, time = 6.25 | CG iter. 17 -- res = 0.36098E+03, tol = 0.91383E+01, time = 6.05 | CG iter. 18 -- res = 0.30333E+03, tol = 0.91383E+01, time = 6.18 | CG iter. 19 -- res = 0.27439E+03, tol = 0.91383E+01, time = 6.24 | CG iter. 20 -- res = 0.22980E+03, tol = 0.91383E+01, time = 5.70 | CG iter. 21 -- res = 0.17883E+03, tol = 0.91383E+01, time = 5.90 | CG iter. 22 -- res = 0.13662E+03, tol = 0.91383E+01, time = 12.26 | CG iter. 23 -- res = 0.11589E+03, tol = 0.91383E+01, time = 6.13 | CG iter. 24 -- res = 0.10548E+03, tol = 0.91383E+01, time = 6.20 | CG iter. 25 -- res = 0.85816E+02, tol = 0.91383E+01, time = 5.92 | CG iter. 26 -- res = 0.68893E+02, tol = 0.91383E+01, time = 6.07 | CG iter. 27 -- res = 0.56377E+02, tol = 0.91383E+01, time = 6.35 | CG iter. 28 -- res = 0.52210E+02, tol = 0.91383E+01, time = 5.77 | CG iter. 29 -- res = 0.44634E+02, tol = 0.91383E+01, time = 6.03 | CG iter. 30 -- res = 0.36837E+02, tol = 0.91383E+01, time = 5.51 | CG iter. 31 -- res = 0.32061E+02, tol = 0.91383E+01, time = 5.79 | CG iter. 32 -- res = 0.29765E+02, tol = 0.91383E+01, time = 5.81 | CG iter. 33 -- res = 0.27010E+02, tol = 0.91383E+01, time = 6.14 | CG iter. 34 -- res = 0.21888E+02, tol = 0.91383E+01, time = 6.19 | CG iter. 35 -- res = 0.18168E+02, tol = 0.91383E+01, time = 5.88 | CG iter. 36 -- res = 0.16449E+02, tol = 0.91383E+01, time = 7.72 | CG iter. 37 -- res = 0.14797E+02, tol = 0.91383E+01, time = 6.31 | CG iter. 38 -- res = 0.11783E+02, tol = 0.91383E+01, time = 6.35 | CG iter. 39 -- res = 0.90321E+01, tol = 0.91383E+01, time = 5.62 | CG iter. 40 -- res = 0.74881E+01, tol = 0.91383E+01, time = 5.55 | CG iter. 41 -- res = 0.61296E+01, tol = 0.91383E+01, time = 5.94 | CG iter. 42 -- res = 0.48253E+01, tol = 0.91383E+01, time = 5.80 | CG iter. 43 -- res = 0.35064E+01, tol = 0.91383E+01, time = 6.05 | CG iter. 44 -- res = 0.27046E+01, tol = 0.91383E+01, time = 5.77 | CG iter. 45 -- res = 0.21586E+01, tol = 0.91383E+01, time = 5.71 | CG iter. 46 -- res = 0.16816E+01, tol = 0.91383E+01, time = 6.18 | CG iter. 47 -- res = 0.12792E+01, tol = 0.91383E+01, time = 5.98 | CG iter. 48 -- res = 0.98622E+00, tol = 0.91383E+01, time = 5.71 | CG iter. 49 -- res = 0.78646E+00, tol = 0.91383E+01, time = 5.71 | CG iter. 50 -- res = 0.65309E+00, tol = 0.91383E+01, time = 5.94 | Final CG iter 51 -- res = 0.65309E+00, tol = 0.91383E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 12176522.933 | Old band monopole 7258663.715 | Change to band monopole 4917859.217 | Change to component monopole -4917838.065 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.23462E+06, tol = 0.47627E+18, time = 2.23 | CG iter. 2 -- res = 0.89475E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.22076E+01, tol = 0.47627E+18, time = 2.53 | CG iter. 4 -- res = 0.15548E-03, tol = 0.47627E+18, time = 2.33 | Final CG iter 5 -- res = 0.32675E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12176470.559 | (Sampled value in CG: 12178724.291 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.519552 | New value = 1.475557 | poltype: 2 pol: 1 CPU time specind = 1.8088818E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.484443 | New value = 1.496618 | poltype: 2 pol: 2 CPU time specind = 2.0917177E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.24414E+08, tol = 0.47454E+04, time = 11.95 | CG iter. 2 -- res = 0.53622E+07, tol = 0.47454E+04, time = 12.13 | CG iter. 3 -- res = 0.81245E+06, tol = 0.47454E+04, time = 7.08 | CG iter. 4 -- res = 0.33913E+06, tol = 0.47454E+04, time = 6.81 | CG iter. 5 -- res = 0.14740E+06, tol = 0.47454E+04, time = 6.56 | CG iter. 6 -- res = 0.78311E+05, tol = 0.47454E+04, time = 7.15 | CG iter. 7 -- res = 0.42822E+05, tol = 0.47454E+04, time = 7.02 | CG iter. 8 -- res = 0.20156E+05, tol = 0.47454E+04, time = 7.13 | CG iter. 9 -- res = 0.87661E+04, tol = 0.47454E+04, time = 6.95 | CG iter. 10 -- res = 0.35879E+04, tol = 0.47454E+04, time = 7.21 | CG iter. 11 -- res = 0.16425E+04, tol = 0.47454E+04, time = 7.24 | CG iter. 12 -- res = 0.86381E+03, tol = 0.47454E+04, time = 7.01 | CG iter. 13 -- res = 0.49916E+03, tol = 0.47454E+04, time = 8.57 | CG iter. 14 -- res = 0.27793E+03, tol = 0.47454E+04, time = 7.62 | CG iter. 15 -- res = 0.14313E+03, tol = 0.47454E+04, time = 6.68 | CG iter. 16 -- res = 0.67113E+02, tol = 0.47454E+04, time = 6.85 | CG iter. 17 -- res = 0.31750E+02, tol = 0.47454E+04, time = 6.86 | CG iter. 18 -- res = 0.16215E+02, tol = 0.47454E+04, time = 6.42 | CG iter. 19 -- res = 0.87761E+01, tol = 0.47454E+04, time = 7.13 | CG iter. 20 -- res = 0.49480E+01, tol = 0.47454E+04, time = 6.97 | CG iter. 21 -- res = 0.27590E+01, tol = 0.47454E+04, time = 6.85 | CG iter. 22 -- res = 0.13989E+01, tol = 0.47454E+04, time = 7.01 | CG iter. 23 -- res = 0.69707E+00, tol = 0.47454E+04, time = 6.69 | CG iter. 24 -- res = 0.36238E+00, tol = 0.47454E+04, time = 6.82 | CG iter. 25 -- res = 0.20174E+00, tol = 0.47454E+04, time = 6.78 | CG iter. 26 -- res = 0.11462E+00, tol = 0.47454E+04, time = 6.97 | CG iter. 27 -- res = 0.65418E-01, tol = 0.47454E+04, time = 6.65 | CG iter. 28 -- res = 0.35129E-01, tol = 0.47454E+04, time = 7.09 | CG iter. 29 -- res = 0.18266E-01, tol = 0.47454E+04, time = 7.69 | CG iter. 30 -- res = 0.96093E-02, tol = 0.47454E+04, time = 6.86 | CG iter. 31 -- res = 0.51382E-02, tol = 0.47454E+04, time = 6.92 | CG iter. 32 -- res = 0.29102E-02, tol = 0.47454E+04, time = 6.98 | CG iter. 33 -- res = 0.16422E-02, tol = 0.47454E+04, time = 7.11 | CG iter. 34 -- res = 0.87767E-03, tol = 0.47454E+04, time = 7.07 | CG iter. 35 -- res = 0.45250E-03, tol = 0.47454E+04, time = 6.66 | Final CG iter 36 -- res = 0.45250E-03, tol = 0.47454E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.195 2.717 | New value -1.744 | Old value -5.195 | Difference 3.450 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.61660E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.24842E+02, tol = 0.47627E+18, time = 2.28 | CG iter. 3 -- res = 0.37927E+00, tol = 0.47627E+18, time = 2.49 | Final CG iter 4 -- res = 0.42880E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12176470.559 | (Sampled value in CG: 12178944.264 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.748615 | New value = -3.625822 | poltype: 1 pol: 1 CPU time specind = 1.7940044E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.21162E+07, tol = 0.22074E+01, time = 3.00 | CG iter. 2 -- res = 0.69415E+06, tol = 0.22074E+01, time = 3.04 | CG iter. 3 -- res = 0.13104E+06, tol = 0.22074E+01, time = 2.96 | CG iter. 4 -- res = 0.51666E+05, tol = 0.22074E+01, time = 2.97 | CG iter. 5 -- res = 0.29763E+05, tol = 0.22074E+01, time = 2.77 | CG iter. 6 -- res = 0.16075E+05, tol = 0.22074E+01, time = 3.07 | CG iter. 7 -- res = 0.64802E+04, tol = 0.22074E+01, time = 2.64 | CG iter. 8 -- res = 0.27942E+04, tol = 0.22074E+01, time = 2.78 | CG iter. 9 -- res = 0.11659E+04, tol = 0.22074E+01, time = 2.75 | CG iter. 10 -- res = 0.45491E+03, tol = 0.22074E+01, time = 2.90 | CG iter. 11 -- res = 0.19955E+03, tol = 0.22074E+01, time = 2.71 | CG iter. 12 -- res = 0.10123E+03, tol = 0.22074E+01, time = 2.79 | CG iter. 13 -- res = 0.52177E+02, tol = 0.22074E+01, time = 3.55 | CG iter. 14 -- res = 0.25797E+02, tol = 0.22074E+01, time = 8.64 | CG iter. 15 -- res = 0.11351E+02, tol = 0.22074E+01, time = 3.08 | CG iter. 16 -- res = 0.49049E+01, tol = 0.22074E+01, time = 3.08 | CG iter. 17 -- res = 0.21412E+01, tol = 0.22074E+01, time = 2.76 | CG iter. 18 -- res = 0.10100E+01, tol = 0.22074E+01, time = 2.77 | CG iter. 19 -- res = 0.49485E+00, tol = 0.22074E+01, time = 2.86 | CG iter. 20 -- res = 0.25686E+00, tol = 0.22074E+01, time = 2.56 | CG iter. 21 -- res = 0.12471E+00, tol = 0.22074E+01, time = 2.82 | CG iter. 22 -- res = 0.56496E-01, tol = 0.22074E+01, time = 2.93 | CG iter. 23 -- res = 0.24997E-01, tol = 0.22074E+01, time = 2.69 | CG iter. 24 -- res = 0.12246E-01, tol = 0.22074E+01, time = 2.86 | CG iter. 25 -- res = 0.61318E-02, tol = 0.22074E+01, time = 3.05 | CG iter. 26 -- res = 0.31737E-02, tol = 0.22074E+01, time = 3.06 | CG iter. 27 -- res = 0.15704E-02, tol = 0.22074E+01, time = 2.93 | CG iter. 28 -- res = 0.73536E-03, tol = 0.22074E+01, time = 2.71 | CG iter. 29 -- res = 0.32574E-03, tol = 0.22074E+01, time = 2.66 | CG iter. 30 -- res = 0.15338E-03, tol = 0.22074E+01, time = 2.98 | CG iter. 31 -- res = 0.78197E-04, tol = 0.22074E+01, time = 3.00 | CG iter. 32 -- res = 0.38452E-04, tol = 0.22074E+01, time = 2.79 | CG iter. 33 -- res = 0.19118E-04, tol = 0.22074E+01, time = 3.38 | CG iter. 34 -- res = 0.86684E-05, tol = 0.22074E+01, time = 2.91 | CG iter. 35 -- res = 0.40274E-05, tol = 0.22074E+01, time = 2.88 | CG iter. 36 -- res = 0.18529E-05, tol = 0.22074E+01, time = 2.79 | CG iter. 37 -- res = 0.91454E-06, tol = 0.22074E+01, time = 2.99 | CG iter. 38 -- res = 0.46070E-06, tol = 0.22074E+01, time = 3.02 | CG iter. 39 -- res = 0.22309E-06, tol = 0.22074E+01, time = 2.82 | CG iter. 40 -- res = 0.10249E-06, tol = 0.22074E+01, time = 2.58 | CG iter. 41 -- res = 0.50200E-07, tol = 0.22074E+01, time = 3.03 | CG iter. 42 -- res = 0.23520E-07, tol = 0.22074E+01, time = 2.64 | CG iter. 43 -- res = 0.11163E-07, tol = 0.22074E+01, time = 4.35 | CG iter. 44 -- res = 0.55585E-08, tol = 0.22074E+01, time = 3.35 | CG iter. 45 -- res = 0.27556E-08, tol = 0.22074E+01, time = 2.93 | CG iter. 46 -- res = 0.13091E-08, tol = 0.22074E+01, time = 3.49 | CG iter. 47 -- res = 0.61417E-09, tol = 0.22074E+01, time = 3.05 | CG iter. 48 -- res = 0.28696E-09, tol = 0.22074E+01, time = 3.17 | CG iter. 49 -- res = 0.13435E-09, tol = 0.22074E+01, time = 2.79 | CG iter. 50 -- res = 0.66257E-10, tol = 0.22074E+01, time = 3.14 | Final CG iter 51 -- res = 0.66257E-10, tol = 0.22074E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.911 5.274 | New value -2.530 | Old value -5.911 | Difference 3.381 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.11815E+05, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.17503E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.47603E+00, tol = 0.47627E+18, time = 2.27 | CG iter. 4 -- res = 0.70736E-04, tol = 0.47627E+18, time = 2.00 | Final CG iter 5 -- res = 0.32077E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 12176470.559 | (Sampled value in CG: 12179397.412 ) | CPU time specind = 1253.619 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.69622E+08, tol = 0.57664E+04, time = 13.45 | CG iter. 2 -- res = 0.59127E+08, tol = 0.57664E+04, time = 12.14 | CG iter. 3 -- res = 0.15351E+08, tol = 0.57664E+04, time = 11.93 | CG iter. 4 -- res = 0.65627E+07, tol = 0.57664E+04, time = 12.90 | CG iter. 5 -- res = 0.38966E+07, tol = 0.57664E+04, time = 12.32 | CG iter. 6 -- res = 0.22529E+07, tol = 0.57664E+04, time = 12.61 | CG iter. 7 -- res = 0.13484E+07, tol = 0.57664E+04, time = 12.80 | CG iter. 8 -- res = 0.87434E+06, tol = 0.57664E+04, time = 19.02 | CG iter. 9 -- res = 0.55623E+06, tol = 0.57664E+04, time = 12.24 | CG iter. 10 -- res = 0.32738E+06, tol = 0.57664E+04, time = 11.96 | CG iter. 11 -- res = 0.17685E+06, tol = 0.57664E+04, time = 12.47 | CG iter. 12 -- res = 0.95751E+05, tol = 0.57664E+04, time = 12.75 | CG iter. 13 -- res = 0.51866E+05, tol = 0.57664E+04, time = 12.55 | CG iter. 14 -- res = 0.29960E+05, tol = 0.57664E+04, time = 12.91 | CG iter. 15 -- res = 0.18826E+05, tol = 0.57664E+04, time = 14.21 | CG iter. 16 -- res = 0.13007E+05, tol = 0.57664E+04, time = 12.57 | CG iter. 17 -- res = 0.92456E+04, tol = 0.57664E+04, time = 12.52 | CG iter. 18 -- res = 0.64866E+04, tol = 0.57664E+04, time = 12.94 | CG iter. 19 -- res = 0.42727E+04, tol = 0.57664E+04, time = 12.56 | CG iter. 20 -- res = 0.28503E+04, tol = 0.57664E+04, time = 12.67 | CG iter. 21 -- res = 0.20712E+04, tol = 0.57664E+04, time = 12.43 | CG iter. 22 -- res = 0.17185E+04, tol = 0.57664E+04, time = 12.54 | CG iter. 23 -- res = 0.16667E+04, tol = 0.57664E+04, time = 12.54 | CG iter. 24 -- res = 0.17640E+04, tol = 0.57664E+04, time = 12.07 | CG iter. 25 -- res = 0.18990E+04, tol = 0.57664E+04, time = 12.13 | CG iter. 26 -- res = 0.19400E+04, tol = 0.57664E+04, time = 12.52 | CG iter. 27 -- res = 0.18667E+04, tol = 0.57664E+04, time = 12.60 | CG iter. 28 -- res = 0.17001E+04, tol = 0.57664E+04, time = 11.85 | CG iter. 29 -- res = 0.15647E+04, tol = 0.57664E+04, time = 12.24 | CG iter. 30 -- res = 0.14618E+04, tol = 0.57664E+04, time = 12.59 | CG iter. 31 -- res = 0.13201E+04, tol = 0.57664E+04, time = 12.90 | CG iter. 32 -- res = 0.11353E+04, tol = 0.57664E+04, time = 17.86 | CG iter. 33 -- res = 0.93403E+03, tol = 0.57664E+04, time = 12.06 | CG iter. 34 -- res = 0.71027E+03, tol = 0.57664E+04, time = 12.83 | CG iter. 35 -- res = 0.53431E+03, tol = 0.57664E+04, time = 12.72 | CG iter. 36 -- res = 0.43038E+03, tol = 0.57664E+04, time = 12.55 | CG iter. 37 -- res = 0.36746E+03, tol = 0.57664E+04, time = 12.32 | CG iter. 38 -- res = 0.33823E+03, tol = 0.57664E+04, time = 12.75 | CG iter. 39 -- res = 0.30816E+03, tol = 0.57664E+04, time = 14.25 | CG iter. 40 -- res = 0.27707E+03, tol = 0.57664E+04, time = 12.35 | CG iter. 41 -- res = 0.24216E+03, tol = 0.57664E+04, time = 12.43 | CG iter. 42 -- res = 0.20843E+03, tol = 0.57664E+04, time = 12.39 | CG iter. 43 -- res = 0.18445E+03, tol = 0.57664E+04, time = 12.36 | CG iter. 44 -- res = 0.16803E+03, tol = 0.57664E+04, time = 12.71 | CG iter. 45 -- res = 0.15310E+03, tol = 0.57664E+04, time = 12.72 | CG iter. 46 -- res = 0.13918E+03, tol = 0.57664E+04, time = 13.12 | CG iter. 47 -- res = 0.12030E+03, tol = 0.57664E+04, time = 12.89 | CG iter. 48 -- res = 0.97651E+02, tol = 0.57664E+04, time = 12.31 | CG iter. 49 -- res = 0.78528E+02, tol = 0.57664E+04, time = 12.79 | CG iter. 50 -- res = 0.62838E+02, tol = 0.57664E+04, time = 12.71 | CG iter. 51 -- res = 0.54072E+02, tol = 0.57664E+04, time = 12.02 | CG iter. 52 -- res = 0.48954E+02, tol = 0.57664E+04, time = 12.52 | CG iter. 53 -- res = 0.44265E+02, tol = 0.57664E+04, time = 12.14 | CG iter. 54 -- res = 0.39327E+02, tol = 0.57664E+04, time = 12.90 | CG iter. 55 -- res = 0.35049E+02, tol = 0.57664E+04, time = 18.69 | CG iter. 56 -- res = 0.30336E+02, tol = 0.57664E+04, time = 12.40 | CG iter. 57 -- res = 0.26845E+02, tol = 0.57664E+04, time = 12.78 | CG iter. 58 -- res = 0.24984E+02, tol = 0.57664E+04, time = 12.61 | CG iter. 59 -- res = 0.24144E+02, tol = 0.57664E+04, time = 12.26 | CG iter. 60 -- res = 0.23376E+02, tol = 0.57664E+04, time = 12.51 | Final CG iter 61 -- res = 0.23376E+02, tol = 0.57664E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.923 ( -229.694 -2230.600 2513.006 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8092989.095 | Old band monopole 12176522.933 | Change to band monopole -4083533.838 | Change to component monopole 4083516.274 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.730 2.736 | New value -1.365 | Old value -1.730 | Difference 0.365 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.642 ( 7.800 12.139 -11.256 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 3.710 4.660 | New value -1.251 | Old value 3.710 | Difference -4.961 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.22267E+06, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.97779E+02, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.32220E+01, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.61407E-02, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.17459E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8092954.285 | (Sampled value in CG: 8064263.845 ) | Chain = 1 -- chisq = 0.81563400E+09 | Chain = 1 -- wall time = 5789.077 sec Available RAM: MemAvailable: 376743012 kB Available Swap: SwapFree: 1114132732 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 414 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06442882 | --> Sampling calibration, mode = relcal | relcal = 1.3417199E-02 7.5046142E-04 -1.5857603E-03 -1.2581900E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1589955 0.1733919 9409379.92592274 | BP delta = 0.1589955 0.1772850 9409364.49939847 | BP chisq diff = -15.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632593 | --> Sampling calibration, mode = relcal | relcal = -2.8218196E-03 -7.0439384E-04 1.6805896E-03 1.6135637E-03 -4.0841455E-04 6.4047461E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5481975 15217795.0336891 | BP delta = 0.0000000E+00 -0.5556581 15217798.7114887 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18573870586054 | --> Sampling calibration, mode = relcal | relcal = -7.6336898E-02 -5.9554156E-02 9.3356811E-02 4.2534247E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.7932285E-04 6.7700655E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3042E-05 | 2: delta_r/delta_0: 1.8178E-06 | 3: delta_s/delta_0: 2.1267E-07 | 4: delta_r/delta_0: 3.0518E-08 | 5: delta_s/delta_0: 8.8668E-09 | 6: delta_r/delta_0: 3.1135E-09 | 7: delta_s/delta_0: 8.1195E-10 | 8: delta_r/delta_0: 2.1657E-10 | 9: delta_s/delta_0: 1.7896E-10 | 10: delta_r/delta_0: 7.4533E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.372601872020578E-003 2.729954958084577E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.3041E-05 | 2: delta_r/delta_0: 1.8178E-06 | 3: delta_s/delta_0: 2.1267E-07 | 4: delta_r/delta_0: 3.0521E-08 | 5: delta_s/delta_0: 8.8682E-09 | 6: delta_r/delta_0: 3.1137E-09 | 7: delta_s/delta_0: 8.1196E-10 | 8: delta_r/delta_0: 2.1658E-10 | 9: delta_s/delta_0: 1.7901E-10 | 10: delta_r/delta_0: 7.4553E-11 | Reached bicg-stab tolerance | BP delta = 6.5553240E-02 9.0026721E-02 3433578.61505848 | BP delta = 6.5553240E-02 9.0252154E-02 3431946.71728692 | BP chisq diff = -1631.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02604994 | --> Sampling calibration, mode = relcal | relcal = -0.1066343 -9.5598496E-02 0.1449443 5.7288587E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1843388E-03 1.4177816E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1645E-05 | 2: delta_r/delta_0: 1.3636E-06 | 3: delta_s/delta_0: 2.3740E-07 | 4: delta_r/delta_0: 5.5345E-08 | 5: delta_s/delta_0: 1.9312E-08 | 6: delta_r/delta_0: 7.4514E-09 | 7: delta_s/delta_0: 2.0945E-08 | 8: delta_r/delta_0: 9.9595E-10 | 9: delta_s/delta_0: 1.0013E-09 | 10: delta_r/delta_0: 1.8030E-10 | 11: delta_s/delta_0: 1.2851E-09 | 12: delta_r/delta_0: 2.0046E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.860062875618844E-003 2.810679096361864E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.1645E-05 | 2: delta_r/delta_0: 1.3636E-06 | 3: delta_s/delta_0: 2.3739E-07 | 4: delta_r/delta_0: 5.5335E-08 | 5: delta_s/delta_0: 1.9316E-08 | 6: delta_r/delta_0: 7.4505E-09 | 7: delta_s/delta_0: 2.0940E-08 | 8: delta_r/delta_0: 9.9575E-10 | 9: delta_s/delta_0: 1.0012E-09 | 10: delta_r/delta_0: 1.8024E-10 | 11: delta_s/delta_0: 1.2845E-09 | 12: delta_r/delta_0: 2.0042E-11 | Reached bicg-stab tolerance | BP delta = -0.2349563 -0.2002420 2841682.76354589 | BP delta = -0.2349563 -0.2009629 2841681.99285026 | BP chisq diff = -0.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81243287 | --> Sampling calibration, mode = relcal | relcal = 0.2955525 0.2249037 -0.2838421 -0.2366140 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.4240024E-04 4.9688001E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2736E-02 | 2: delta_r/delta_0: 5.3651E-04 | 3: delta_s/delta_0: 3.3068E-05 | 4: delta_r/delta_0: 1.4055E-06 | 5: delta_s/delta_0: 1.6323E-06 | 6: delta_r/delta_0: 6.5923E-07 | 7: delta_s/delta_0: 2.1448E-07 | 8: delta_r/delta_0: 1.1276E-07 | 9: delta_s/delta_0: 7.5840E-07 | 10: delta_r/delta_0: 8.5874E-09 | 11: delta_s/delta_0: 9.5642E-07 | 12: delta_r/delta_0: 2.5779E-07 | 13: delta_s/delta_0: 5.7101E-10 | 14: delta_r/delta_0: 2.2493E-10 | 15: delta_s/delta_0: 2.0763E-10 | 16: delta_r/delta_0: 5.6608E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -5.693224629241118E-002 4.020727345381525E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2730E-02 | 2: delta_r/delta_0: 5.3637E-04 | 3: delta_s/delta_0: 3.3066E-05 | 4: delta_r/delta_0: 1.4055E-06 | 5: delta_s/delta_0: 1.6322E-06 | 6: delta_r/delta_0: 6.5919E-07 | 7: delta_s/delta_0: 2.1446E-07 | 8: delta_r/delta_0: 1.1276E-07 | 9: delta_s/delta_0: 7.5836E-07 | 10: delta_r/delta_0: 8.5875E-09 | 11: delta_s/delta_0: 9.9215E-07 | 12: delta_r/delta_0: 2.6817E-07 | 13: delta_s/delta_0: 5.7099E-10 | 14: delta_r/delta_0: 2.2493E-10 | 15: delta_s/delta_0: 2.0823E-10 | 16: delta_r/delta_0: 5.6526E-11 | Reached bicg-stab tolerance | BP delta = -0.1611934 -0.1974757 2827473.04409180 | BP delta = -0.1611934 -0.2038732 2827483.73618237 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95935152 | --> Sampling calibration, mode = relcal | relcal = 0.1064588 0.1395949 -0.1103205 -0.1357331 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0255846E-02 1.3300198E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1916E-04 | 2: delta_r/delta_0: 5.6318E-06 | 3: delta_s/delta_0: 1.3384E-05 | 4: delta_r/delta_0: 1.3444E-06 | 5: delta_s/delta_0: 1.8879E-07 | 6: delta_r/delta_0: 1.1261E-07 | 7: delta_s/delta_0: 5.5463E-07 | 8: delta_r/delta_0: 2.6812E-08 | 9: delta_s/delta_0: 3.6990E-08 | 10: delta_r/delta_0: 2.3598E-09 | 11: delta_s/delta_0: 1.5224E-09 | 12: delta_r/delta_0: 1.1530E-09 | 13: delta_s/delta_0: 5.8443E-10 | 14: delta_r/delta_0: 4.4005E-10 | 15: delta_s/delta_0: 7.7919E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.981927096736471E-002 3.696388947588393E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1915E-04 | 2: delta_r/delta_0: 5.6318E-06 | 3: delta_s/delta_0: 1.3386E-05 | 4: delta_r/delta_0: 1.3447E-06 | 5: delta_s/delta_0: 1.8880E-07 | 6: delta_r/delta_0: 1.1263E-07 | 7: delta_s/delta_0: 5.5524E-07 | 8: delta_r/delta_0: 2.6810E-08 | 9: delta_s/delta_0: 3.7365E-08 | 10: delta_r/delta_0: 2.3870E-09 | 11: delta_s/delta_0: 1.5155E-09 | 12: delta_r/delta_0: 1.1473E-09 | 13: delta_s/delta_0: 5.8334E-10 | 14: delta_r/delta_0: 4.3616E-10 | 15: delta_s/delta_0: 7.8057E-11 | Reached bicg-stab tolerance | BP delta = 7.4799202E-02 0.1763463 3004300.78910779 | BP delta = 7.4799202E-02 0.1603878 3004520.56876696 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.190563 | New value = -3.089512 | poltype: 2 pol: 1 CPU time specind = 1.5135050E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123586 | New value = -3.152232 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.253265 | New value = -3.126700 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.253073 | New value = -3.125359 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134195 | New value = -3.100903 | poltype: 2 pol: 2 CPU time specind = 2.3376942E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.13849E+08, tol = 0.85985E+01, time = 5.83 | CG iter. 2 -- res = 0.44527E+06, tol = 0.85985E+01, time = 6.17 | CG iter. 3 -- res = 0.20542E+06, tol = 0.85985E+01, time = 6.12 | CG iter. 4 -- res = 0.36519E+06, tol = 0.85985E+01, time = 5.66 | CG iter. 5 -- res = 0.36492E+06, tol = 0.85985E+01, time = 5.94 | CG iter. 6 -- res = 0.30298E+06, tol = 0.85985E+01, time = 6.11 | CG iter. 7 -- res = 0.21210E+06, tol = 0.85985E+01, time = 5.57 | CG iter. 8 -- res = 0.14599E+06, tol = 0.85985E+01, time = 5.97 | CG iter. 9 -- res = 0.12259E+06, tol = 0.85985E+01, time = 5.82 | CG iter. 10 -- res = 0.97256E+05, tol = 0.85985E+01, time = 5.72 | CG iter. 11 -- res = 0.68732E+05, tol = 0.85985E+01, time = 6.05 | CG iter. 12 -- res = 0.52926E+05, tol = 0.85985E+01, time = 6.16 | CG iter. 13 -- res = 0.42862E+05, tol = 0.85985E+01, time = 6.12 | CG iter. 14 -- res = 0.34648E+05, tol = 0.85985E+01, time = 5.90 | CG iter. 15 -- res = 0.25422E+05, tol = 0.85985E+01, time = 6.09 | CG iter. 16 -- res = 0.17502E+05, tol = 0.85985E+01, time = 5.71 | CG iter. 17 -- res = 0.13272E+05, tol = 0.85985E+01, time = 6.19 | CG iter. 18 -- res = 0.11727E+05, tol = 0.85985E+01, time = 6.12 | CG iter. 19 -- res = 0.98333E+04, tol = 0.85985E+01, time = 5.47 | CG iter. 20 -- res = 0.69908E+04, tol = 0.85985E+01, time = 5.89 | CG iter. 21 -- res = 0.51140E+04, tol = 0.85985E+01, time = 5.81 | CG iter. 22 -- res = 0.43821E+04, tol = 0.85985E+01, time = 5.89 | CG iter. 23 -- res = 0.38523E+04, tol = 0.85985E+01, time = 6.13 | CG iter. 24 -- res = 0.28666E+04, tol = 0.85985E+01, time = 6.20 | CG iter. 25 -- res = 0.21966E+04, tol = 0.85985E+01, time = 5.57 | CG iter. 26 -- res = 0.18489E+04, tol = 0.85985E+01, time = 5.63 | CG iter. 27 -- res = 0.16024E+04, tol = 0.85985E+01, time = 6.31 | CG iter. 28 -- res = 0.13221E+04, tol = 0.85985E+01, time = 5.72 | CG iter. 29 -- res = 0.92032E+03, tol = 0.85985E+01, time = 5.92 | CG iter. 30 -- res = 0.72590E+03, tol = 0.85985E+01, time = 5.92 | CG iter. 31 -- res = 0.62506E+03, tol = 0.85985E+01, time = 5.72 | CG iter. 32 -- res = 0.49270E+03, tol = 0.85985E+01, time = 6.10 | CG iter. 33 -- res = 0.35456E+03, tol = 0.85985E+01, time = 5.79 | CG iter. 34 -- res = 0.26464E+03, tol = 0.85985E+01, time = 6.45 | CG iter. 35 -- res = 0.21536E+03, tol = 0.85985E+01, time = 11.98 | CG iter. 36 -- res = 0.17696E+03, tol = 0.85985E+01, time = 5.96 | CG iter. 37 -- res = 0.12739E+03, tol = 0.85985E+01, time = 5.63 | CG iter. 38 -- res = 0.90182E+02, tol = 0.85985E+01, time = 5.61 | CG iter. 39 -- res = 0.69128E+02, tol = 0.85985E+01, time = 5.88 | CG iter. 40 -- res = 0.57094E+02, tol = 0.85985E+01, time = 5.93 | CG iter. 41 -- res = 0.43256E+02, tol = 0.85985E+01, time = 6.07 | CG iter. 42 -- res = 0.30778E+02, tol = 0.85985E+01, time = 5.56 | CG iter. 43 -- res = 0.23546E+02, tol = 0.85985E+01, time = 6.02 | CG iter. 44 -- res = 0.18655E+02, tol = 0.85985E+01, time = 5.89 | CG iter. 45 -- res = 0.14327E+02, tol = 0.85985E+01, time = 5.66 | CG iter. 46 -- res = 0.10267E+02, tol = 0.85985E+01, time = 5.81 | CG iter. 47 -- res = 0.76452E+01, tol = 0.85985E+01, time = 5.74 | CG iter. 48 -- res = 0.57444E+01, tol = 0.85985E+01, time = 6.26 | CG iter. 49 -- res = 0.44067E+01, tol = 0.85985E+01, time = 6.95 | CG iter. 50 -- res = 0.31335E+01, tol = 0.85985E+01, time = 6.33 | Final CG iter 51 -- res = 0.31335E+01, tol = 0.85985E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9924442.210 | Old band monopole 8092989.095 | Change to band monopole 1831453.115 | Change to component monopole -1831445.237 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.72 | CG iter. 1 -- res = 0.28659E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.21285E+03, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.27253E+01, tol = 0.47627E+18, time = 1.98 | CG iter. 4 -- res = 0.28677E-01, tol = 0.47627E+18, time = 2.27 | Final CG iter 5 -- res = 0.35264E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9924399.523 | (Sampled value in CG: 10055883.759 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.475557 | New value = 1.465495 | poltype: 2 pol: 1 CPU time specind = 2.4955988E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.496618 | New value = 1.568781 | poltype: 2 pol: 2 CPU time specind = 1.5815020E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.24068E+08, tol = 0.47493E+04, time = 6.71 | CG iter. 2 -- res = 0.54117E+07, tol = 0.47493E+04, time = 6.72 | CG iter. 3 -- res = 0.85544E+06, tol = 0.47493E+04, time = 6.65 | CG iter. 4 -- res = 0.35428E+06, tol = 0.47493E+04, time = 6.76 | CG iter. 5 -- res = 0.14819E+06, tol = 0.47493E+04, time = 6.87 | CG iter. 6 -- res = 0.77693E+05, tol = 0.47493E+04, time = 6.75 | CG iter. 7 -- res = 0.43293E+05, tol = 0.47493E+04, time = 6.73 | CG iter. 8 -- res = 0.21306E+05, tol = 0.47493E+04, time = 7.13 | CG iter. 9 -- res = 0.94274E+04, tol = 0.47493E+04, time = 6.60 | CG iter. 10 -- res = 0.38084E+04, tol = 0.47493E+04, time = 6.82 | CG iter. 11 -- res = 0.17348E+04, tol = 0.47493E+04, time = 6.80 | CG iter. 12 -- res = 0.87986E+03, tol = 0.47493E+04, time = 6.97 | CG iter. 13 -- res = 0.48269E+03, tol = 0.47493E+04, time = 12.97 | CG iter. 14 -- res = 0.27687E+03, tol = 0.47493E+04, time = 6.78 | CG iter. 15 -- res = 0.14505E+03, tol = 0.47493E+04, time = 6.98 | CG iter. 16 -- res = 0.69544E+02, tol = 0.47493E+04, time = 7.24 | CG iter. 17 -- res = 0.33244E+02, tol = 0.47493E+04, time = 6.81 | CG iter. 18 -- res = 0.16381E+02, tol = 0.47493E+04, time = 6.66 | CG iter. 19 -- res = 0.88029E+01, tol = 0.47493E+04, time = 6.54 | CG iter. 20 -- res = 0.49290E+01, tol = 0.47493E+04, time = 6.97 | CG iter. 21 -- res = 0.27149E+01, tol = 0.47493E+04, time = 7.19 | CG iter. 22 -- res = 0.14138E+01, tol = 0.47493E+04, time = 6.50 | CG iter. 23 -- res = 0.70760E+00, tol = 0.47493E+04, time = 6.71 | CG iter. 24 -- res = 0.36436E+00, tol = 0.47493E+04, time = 6.96 | CG iter. 25 -- res = 0.19611E+00, tol = 0.47493E+04, time = 8.05 | CG iter. 26 -- res = 0.11122E+00, tol = 0.47493E+04, time = 7.50 | CG iter. 27 -- res = 0.62400E-01, tol = 0.47493E+04, time = 7.17 | CG iter. 28 -- res = 0.33751E-01, tol = 0.47493E+04, time = 6.98 | CG iter. 29 -- res = 0.17376E-01, tol = 0.47493E+04, time = 6.65 | CG iter. 30 -- res = 0.89764E-02, tol = 0.47493E+04, time = 6.63 | CG iter. 31 -- res = 0.48504E-02, tol = 0.47493E+04, time = 6.75 | CG iter. 32 -- res = 0.27770E-02, tol = 0.47493E+04, time = 6.81 | CG iter. 33 -- res = 0.16072E-02, tol = 0.47493E+04, time = 6.53 | CG iter. 34 -- res = 0.87457E-03, tol = 0.47493E+04, time = 6.84 | CG iter. 35 -- res = 0.45439E-03, tol = 0.47493E+04, time = 6.85 | Final CG iter 36 -- res = 0.45439E-03, tol = 0.47493E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.354 2.726 | New value 1.904 | Old value -1.354 | Difference 3.258 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.56709E+06, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.21586E+03, tol = 0.47627E+18, time = 2.27 | CG iter. 3 -- res = 0.31261E+01, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.41625E-03, tol = 0.47627E+18, time = 2.10 | Final CG iter 5 -- res = 0.34009E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9924399.523 | (Sampled value in CG: 10055541.277 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.625822 | New value = -3.460568 | poltype: 1 pol: 1 CPU time specind = 1.6402960E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.51290E+07, tol = 0.20817E+01, time = 2.99 | CG iter. 2 -- res = 0.18584E+07, tol = 0.20817E+01, time = 2.99 | CG iter. 3 -- res = 0.45919E+06, tol = 0.20817E+01, time = 2.80 | CG iter. 4 -- res = 0.26681E+06, tol = 0.20817E+01, time = 2.95 | CG iter. 5 -- res = 0.14818E+06, tol = 0.20817E+01, time = 3.06 | CG iter. 6 -- res = 0.53226E+05, tol = 0.20817E+01, time = 2.86 | CG iter. 7 -- res = 0.16820E+05, tol = 0.20817E+01, time = 2.91 | CG iter. 8 -- res = 0.80629E+04, tol = 0.20817E+01, time = 2.75 | CG iter. 9 -- res = 0.43064E+04, tol = 0.20817E+01, time = 3.74 | CG iter. 10 -- res = 0.16247E+04, tol = 0.20817E+01, time = 2.91 | CG iter. 11 -- res = 0.60837E+03, tol = 0.20817E+01, time = 2.73 | CG iter. 12 -- res = 0.29185E+03, tol = 0.20817E+01, time = 2.63 | CG iter. 13 -- res = 0.14603E+03, tol = 0.20817E+01, time = 2.46 | CG iter. 14 -- res = 0.75249E+02, tol = 0.20817E+01, time = 4.61 | CG iter. 15 -- res = 0.35779E+02, tol = 0.20817E+01, time = 2.96 | CG iter. 16 -- res = 0.16790E+02, tol = 0.20817E+01, time = 2.93 | CG iter. 17 -- res = 0.70908E+01, tol = 0.20817E+01, time = 2.79 | CG iter. 18 -- res = 0.32842E+01, tol = 0.20817E+01, time = 2.74 | CG iter. 19 -- res = 0.15435E+01, tol = 0.20817E+01, time = 2.82 | CG iter. 20 -- res = 0.78417E+00, tol = 0.20817E+01, time = 2.73 | CG iter. 21 -- res = 0.38688E+00, tol = 0.20817E+01, time = 2.87 | CG iter. 22 -- res = 0.17712E+00, tol = 0.20817E+01, time = 2.80 | CG iter. 23 -- res = 0.82351E-01, tol = 0.20817E+01, time = 3.05 | CG iter. 24 -- res = 0.39037E-01, tol = 0.20817E+01, time = 3.10 | CG iter. 25 -- res = 0.17966E-01, tol = 0.20817E+01, time = 2.91 | CG iter. 26 -- res = 0.82273E-02, tol = 0.20817E+01, time = 2.73 | CG iter. 27 -- res = 0.42795E-02, tol = 0.20817E+01, time = 2.73 | CG iter. 28 -- res = 0.22150E-02, tol = 0.20817E+01, time = 3.10 | CG iter. 29 -- res = 0.10459E-02, tol = 0.20817E+01, time = 2.78 | CG iter. 30 -- res = 0.51439E-03, tol = 0.20817E+01, time = 2.73 | CG iter. 31 -- res = 0.23268E-03, tol = 0.20817E+01, time = 2.60 | CG iter. 32 -- res = 0.11074E-03, tol = 0.20817E+01, time = 2.84 | CG iter. 33 -- res = 0.56097E-04, tol = 0.20817E+01, time = 2.79 | CG iter. 34 -- res = 0.28370E-04, tol = 0.20817E+01, time = 2.89 | CG iter. 35 -- res = 0.14363E-04, tol = 0.20817E+01, time = 3.00 | CG iter. 36 -- res = 0.70710E-05, tol = 0.20817E+01, time = 2.45 | CG iter. 37 -- res = 0.32774E-05, tol = 0.20817E+01, time = 2.96 | CG iter. 38 -- res = 0.15414E-05, tol = 0.20817E+01, time = 3.07 | CG iter. 39 -- res = 0.72315E-06, tol = 0.20817E+01, time = 2.88 | CG iter. 40 -- res = 0.35997E-06, tol = 0.20817E+01, time = 2.80 | CG iter. 41 -- res = 0.18470E-06, tol = 0.20817E+01, time = 2.61 | CG iter. 42 -- res = 0.90957E-07, tol = 0.20817E+01, time = 2.96 | CG iter. 43 -- res = 0.40872E-07, tol = 0.20817E+01, time = 3.99 | CG iter. 44 -- res = 0.19157E-07, tol = 0.20817E+01, time = 7.88 | CG iter. 45 -- res = 0.87160E-08, tol = 0.20817E+01, time = 2.62 | CG iter. 46 -- res = 0.43868E-08, tol = 0.20817E+01, time = 2.86 | CG iter. 47 -- res = 0.22015E-08, tol = 0.20817E+01, time = 2.62 | CG iter. 48 -- res = 0.11051E-08, tol = 0.20817E+01, time = 2.36 | CG iter. 49 -- res = 0.51039E-09, tol = 0.20817E+01, time = 3.02 | CG iter. 50 -- res = 0.22853E-09, tol = 0.20817E+01, time = 2.66 | Final CG iter 51 -- res = 0.22853E-09, tol = 0.20817E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.547 3.543 | New value -3.223 | Old value 5.547 | Difference -8.769 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.92255E+05, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.12018E+03, tol = 0.47627E+18, time = 1.83 | CG iter. 3 -- res = 0.24294E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.73455E-02, tol = 0.47627E+18, time = 1.96 | Final CG iter 5 -- res = 0.29352E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9924399.523 | (Sampled value in CG: 10025224.122 ) | CPU time specind = 1233.742 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.68744E+08, tol = 0.57548E+04, time = 12.24 | CG iter. 2 -- res = 0.59541E+08, tol = 0.57548E+04, time = 12.31 | CG iter. 3 -- res = 0.16047E+08, tol = 0.57548E+04, time = 12.44 | CG iter. 4 -- res = 0.67402E+07, tol = 0.57548E+04, time = 12.75 | CG iter. 5 -- res = 0.40002E+07, tol = 0.57548E+04, time = 12.15 | CG iter. 6 -- res = 0.23916E+07, tol = 0.57548E+04, time = 12.19 | CG iter. 7 -- res = 0.14827E+07, tol = 0.57548E+04, time = 12.25 | CG iter. 8 -- res = 0.10028E+07, tol = 0.57548E+04, time = 12.23 | CG iter. 9 -- res = 0.68604E+06, tol = 0.57548E+04, time = 12.25 | CG iter. 10 -- res = 0.44037E+06, tol = 0.57548E+04, time = 12.12 | CG iter. 11 -- res = 0.26837E+06, tol = 0.57548E+04, time = 12.35 | CG iter. 12 -- res = 0.16781E+06, tol = 0.57548E+04, time = 12.54 | CG iter. 13 -- res = 0.11846E+06, tol = 0.57548E+04, time = 12.16 | CG iter. 14 -- res = 0.10049E+06, tol = 0.57548E+04, time = 12.14 | CG iter. 15 -- res = 0.99245E+05, tol = 0.57548E+04, time = 12.22 | CG iter. 16 -- res = 0.10467E+06, tol = 0.57548E+04, time = 18.25 | CG iter. 17 -- res = 0.10761E+06, tol = 0.57548E+04, time = 12.14 | CG iter. 18 -- res = 0.10325E+06, tol = 0.57548E+04, time = 12.26 | CG iter. 19 -- res = 0.92965E+05, tol = 0.57548E+04, time = 12.12 | CG iter. 20 -- res = 0.81287E+05, tol = 0.57548E+04, time = 12.09 | CG iter. 21 -- res = 0.72857E+05, tol = 0.57548E+04, time = 12.68 | CG iter. 22 -- res = 0.65482E+05, tol = 0.57548E+04, time = 12.22 | CG iter. 23 -- res = 0.58522E+05, tol = 0.57548E+04, time = 14.15 | CG iter. 24 -- res = 0.49726E+05, tol = 0.57548E+04, time = 12.73 | CG iter. 25 -- res = 0.38754E+05, tol = 0.57548E+04, time = 11.97 | CG iter. 26 -- res = 0.29330E+05, tol = 0.57548E+04, time = 12.18 | CG iter. 27 -- res = 0.22728E+05, tol = 0.57548E+04, time = 12.43 | CG iter. 28 -- res = 0.18171E+05, tol = 0.57548E+04, time = 12.08 | CG iter. 29 -- res = 0.16481E+05, tol = 0.57548E+04, time = 12.58 | CG iter. 30 -- res = 0.16128E+05, tol = 0.57548E+04, time = 12.36 | CG iter. 31 -- res = 0.15386E+05, tol = 0.57548E+04, time = 11.84 | CG iter. 32 -- res = 0.13920E+05, tol = 0.57548E+04, time = 12.64 | CG iter. 33 -- res = 0.12241E+05, tol = 0.57548E+04, time = 12.56 | CG iter. 34 -- res = 0.10087E+05, tol = 0.57548E+04, time = 12.35 | CG iter. 35 -- res = 0.84872E+04, tol = 0.57548E+04, time = 12.23 | CG iter. 36 -- res = 0.75041E+04, tol = 0.57548E+04, time = 12.47 | CG iter. 37 -- res = 0.68199E+04, tol = 0.57548E+04, time = 12.03 | CG iter. 38 -- res = 0.62313E+04, tol = 0.57548E+04, time = 12.37 | CG iter. 39 -- res = 0.53117E+04, tol = 0.57548E+04, time = 13.71 | CG iter. 40 -- res = 0.43012E+04, tol = 0.57548E+04, time = 17.77 | CG iter. 41 -- res = 0.34974E+04, tol = 0.57548E+04, time = 12.01 | CG iter. 42 -- res = 0.29643E+04, tol = 0.57548E+04, time = 12.83 | CG iter. 43 -- res = 0.27019E+04, tol = 0.57548E+04, time = 12.33 | CG iter. 44 -- res = 0.25786E+04, tol = 0.57548E+04, time = 12.11 | CG iter. 45 -- res = 0.24853E+04, tol = 0.57548E+04, time = 12.37 | CG iter. 46 -- res = 0.23944E+04, tol = 0.57548E+04, time = 13.38 | CG iter. 47 -- res = 0.22094E+04, tol = 0.57548E+04, time = 12.75 | CG iter. 48 -- res = 0.18483E+04, tol = 0.57548E+04, time = 12.80 | CG iter. 49 -- res = 0.15486E+04, tol = 0.57548E+04, time = 12.65 | CG iter. 50 -- res = 0.13531E+04, tol = 0.57548E+04, time = 12.75 | CG iter. 51 -- res = 0.12580E+04, tol = 0.57548E+04, time = 12.35 | CG iter. 52 -- res = 0.11882E+04, tol = 0.57548E+04, time = 12.11 | CG iter. 53 -- res = 0.10970E+04, tol = 0.57548E+04, time = 12.55 | CG iter. 54 -- res = 0.95681E+03, tol = 0.57548E+04, time = 12.28 | CG iter. 55 -- res = 0.81757E+03, tol = 0.57548E+04, time = 12.26 | CG iter. 56 -- res = 0.72021E+03, tol = 0.57548E+04, time = 12.49 | CG iter. 57 -- res = 0.64882E+03, tol = 0.57548E+04, time = 12.33 | CG iter. 58 -- res = 0.61343E+03, tol = 0.57548E+04, time = 12.18 | CG iter. 59 -- res = 0.58634E+03, tol = 0.57548E+04, time = 12.52 | CG iter. 60 -- res = 0.56086E+03, tol = 0.57548E+04, time = 12.43 | Final CG iter 61 -- res = 0.56086E+03, tol = 0.57548E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.843 ( -229.143 -2228.218 2510.523 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10098374.823 | Old band monopole 9924442.210 | Change to band monopole 173932.613 | Change to component monopole -173931.865 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.920 2.744 | New value -3.150 | Old value 1.920 | Difference -5.069 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.361 ( 5.486 6.648 -6.381 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.495 5.539 | New value -0.099 | Old value -6.495 | Difference 6.395 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.05 | CG iter. 1 -- res = 0.14205E+07, tol = 0.47627E+18, time = 1.91 | CG iter. 2 -- res = 0.48427E+02, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.20149E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.30029E-02, tol = 0.47627E+18, time = 2.27 | Final CG iter 5 -- res = 0.43857E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10098331.388 | (Sampled value in CG: 10073948.519 ) | Chain = 1 -- chisq = 0.81613591E+09 | Chain = 1 -- wall time = 6197.766 sec Available RAM: MemAvailable: 376364476 kB Available Swap: SwapFree: 1114590496 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 415 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447093 | --> Sampling calibration, mode = relcal | relcal = 1.3438102E-02 7.4511766E-04 -1.6037744E-03 -1.2579445E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1589955 0.1772850 97046172.4737692 | BP delta = 0.1588029 0.1770925 97046172.5281335 | BP chisq diff = 0.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632332 | --> Sampling calibration, mode = relcal | relcal = -2.8212538E-03 -7.0445420E-04 1.6777432E-03 1.6130253E-03 -4.0636639E-04 6.4130593E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5481975 15216357.8829134 | BP delta = 0.0000000E+00 -0.5564239 15216356.1500162 | BP chisq diff = -1.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18311155827933 | --> Sampling calibration, mode = relcal | relcal = -7.4245557E-02 -5.8226105E-02 9.1292486E-02 4.1179176E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.1061976E-05 4.0003252E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2689E-05 | 2: delta_r/delta_0: 1.5084E-06 | 3: delta_s/delta_0: 2.2362E-07 | 4: delta_r/delta_0: 1.5272E-08 | 5: delta_s/delta_0: 5.3678E-09 | 6: delta_r/delta_0: 1.2307E-09 | 7: delta_s/delta_0: 4.5749E-09 | 8: delta_r/delta_0: 7.8103E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.620774833161668E-004 2.736323458050068E-005 | BP delta = 6.5553240E-02 9.0252154E-02 50487066.6743254 | BP delta = 6.6477910E-02 9.1176823E-02 50487067.1036912 | BP chisq diff = 0.4, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02571398 | --> Sampling calibration, mode = relcal | relcal = -0.1066495 -9.5524631E-02 0.1448295 5.7344612E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2433837E-03 1.7436566E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.1475E-05 | 2: delta_r/delta_0: 1.3581E-06 | 3: delta_s/delta_0: 2.3979E-07 | 4: delta_r/delta_0: 4.8527E-08 | 5: delta_s/delta_0: 2.0579E-08 | 6: delta_r/delta_0: 7.1099E-09 | 7: delta_s/delta_0: 7.3685E-09 | 8: delta_r/delta_0: 1.4935E-09 | 9: delta_s/delta_0: 6.7299E-10 | 10: delta_r/delta_0: 3.6536E-10 | 11: delta_s/delta_0: 3.5160E-10 | 12: delta_r/delta_0: 2.6885E-10 | 13: delta_s/delta_0: 9.2496E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.858737144502866E-003 2.811607278215711E-005 | BP delta = -0.2349563 -0.2009629 57386045.3727841 | BP delta = -0.2056647 -0.1716713 57386046.6775100 | BP chisq diff = 1.3, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81207460 | --> Sampling calibration, mode = relcal | relcal = 0.2954015 0.2248634 -0.2837890 -0.2364759 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.2802620E-04 5.4376852E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.0546E-04 | 2: delta_r/delta_0: 1.2283E-05 | 3: delta_s/delta_0: 8.7153E-06 | 4: delta_r/delta_0: 8.9186E-07 | 5: delta_s/delta_0: 3.3400E-07 | 6: delta_r/delta_0: 1.5441E-07 | 7: delta_s/delta_0: 4.6300E-07 | 8: delta_r/delta_0: 3.3041E-08 | 9: delta_s/delta_0: 1.1269E-07 | 10: delta_r/delta_0: 6.6139E-08 | 11: delta_s/delta_0: 1.9163E-09 | 12: delta_r/delta_0: 1.0947E-09 | 13: delta_s/delta_0: 2.7347E-08 | 14: delta_r/delta_0: 1.5290E-10 | 15: delta_s/delta_0: 8.0389E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.191169486701318E-002 4.022570023045085E-005 | BP delta = -0.1611934 -0.1974757 72490318.6729651 | BP delta = -0.1268533 -0.1631355 72490319.3475132 | BP chisq diff = 0.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95880087 | --> Sampling calibration, mode = relcal | relcal = 0.1063928 0.1395377 -0.1102082 -0.1357223 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0613603E-02 1.3026875E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.3933E-04 | 2: delta_r/delta_0: 6.0981E-06 | 3: delta_s/delta_0: 1.6645E-04 | 4: delta_r/delta_0: 9.4200E-06 | 5: delta_s/delta_0: 2.0211E-07 | 6: delta_r/delta_0: 1.0417E-07 | 7: delta_s/delta_0: 2.9629E-07 | 8: delta_r/delta_0: 2.8974E-08 | 9: delta_s/delta_0: 1.0271E-08 | 10: delta_r/delta_0: 2.4566E-09 | 11: delta_s/delta_0: 2.3306E-09 | 12: delta_r/delta_0: 1.6673E-09 | 13: delta_s/delta_0: 1.5926E-10 | 14: delta_r/delta_0: 1.1103E-10 | 15: delta_s/delta_0: 1.2013E-10 | 16: delta_r/delta_0: 9.5532E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.013518901068839E-002 3.698556695616104E-005 | BP delta = 7.4799202E-02 0.1763463 72782704.2454850 | BP delta = 8.2295142E-02 0.1838423 72782703.9436760 | BP chisq diff = -0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.089512 | New value = -3.028155 | poltype: 2 pol: 1 CPU time specind = 1.6233206E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152232 | New value = -3.051433 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.126700 | New value = -3.163069 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125359 | New value = -3.062582 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.100903 | New value = -3.112949 | poltype: 2 pol: 2 CPU time specind = 4.1579962E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.13798E+08, tol = 0.74298E+01, time = 5.81 | CG iter. 2 -- res = 0.42515E+06, tol = 0.74298E+01, time = 6.01 | CG iter. 3 -- res = 0.16149E+06, tol = 0.74298E+01, time = 5.54 | CG iter. 4 -- res = 0.20385E+06, tol = 0.74298E+01, time = 5.93 | CG iter. 5 -- res = 0.20876E+06, tol = 0.74298E+01, time = 6.24 | CG iter. 6 -- res = 0.17088E+06, tol = 0.74298E+01, time = 7.37 | CG iter. 7 -- res = 0.10932E+06, tol = 0.74298E+01, time = 6.29 | CG iter. 8 -- res = 0.69829E+05, tol = 0.74298E+01, time = 5.91 | CG iter. 9 -- res = 0.51365E+05, tol = 0.74298E+01, time = 6.19 | CG iter. 10 -- res = 0.40697E+05, tol = 0.74298E+01, time = 5.81 | CG iter. 11 -- res = 0.28760E+05, tol = 0.74298E+01, time = 5.62 | CG iter. 12 -- res = 0.18278E+05, tol = 0.74298E+01, time = 5.64 | CG iter. 13 -- res = 0.13963E+05, tol = 0.74298E+01, time = 5.99 | CG iter. 14 -- res = 0.11410E+05, tol = 0.74298E+01, time = 6.07 | CG iter. 15 -- res = 0.77059E+04, tol = 0.74298E+01, time = 5.71 | CG iter. 16 -- res = 0.47412E+04, tol = 0.74298E+01, time = 6.33 | CG iter. 17 -- res = 0.32692E+04, tol = 0.74298E+01, time = 5.64 | CG iter. 18 -- res = 0.26015E+04, tol = 0.74298E+01, time = 5.84 | CG iter. 19 -- res = 0.20518E+04, tol = 0.74298E+01, time = 5.97 | CG iter. 20 -- res = 0.13952E+04, tol = 0.74298E+01, time = 5.68 | CG iter. 21 -- res = 0.94868E+03, tol = 0.74298E+01, time = 6.18 | CG iter. 22 -- res = 0.76719E+03, tol = 0.74298E+01, time = 6.05 | CG iter. 23 -- res = 0.61489E+03, tol = 0.74298E+01, time = 12.76 | CG iter. 24 -- res = 0.43668E+03, tol = 0.74298E+01, time = 5.82 | CG iter. 25 -- res = 0.29070E+03, tol = 0.74298E+01, time = 6.02 | CG iter. 26 -- res = 0.21996E+03, tol = 0.74298E+01, time = 6.14 | CG iter. 27 -- res = 0.17638E+03, tol = 0.74298E+01, time = 5.78 | CG iter. 28 -- res = 0.13300E+03, tol = 0.74298E+01, time = 5.81 | CG iter. 29 -- res = 0.90969E+02, tol = 0.74298E+01, time = 6.36 | CG iter. 30 -- res = 0.64986E+02, tol = 0.74298E+01, time = 5.61 | CG iter. 31 -- res = 0.52659E+02, tol = 0.74298E+01, time = 5.68 | CG iter. 32 -- res = 0.40441E+02, tol = 0.74298E+01, time = 5.78 | CG iter. 33 -- res = 0.28549E+02, tol = 0.74298E+01, time = 5.37 | CG iter. 34 -- res = 0.20115E+02, tol = 0.74298E+01, time = 5.92 | CG iter. 35 -- res = 0.16036E+02, tol = 0.74298E+01, time = 5.84 | CG iter. 36 -- res = 0.12246E+02, tol = 0.74298E+01, time = 5.74 | CG iter. 37 -- res = 0.89755E+01, tol = 0.74298E+01, time = 7.11 | CG iter. 38 -- res = 0.61354E+01, tol = 0.74298E+01, time = 6.49 | CG iter. 39 -- res = 0.45851E+01, tol = 0.74298E+01, time = 6.71 | CG iter. 40 -- res = 0.36077E+01, tol = 0.74298E+01, time = 5.86 | CG iter. 41 -- res = 0.26995E+01, tol = 0.74298E+01, time = 6.36 | CG iter. 42 -- res = 0.18942E+01, tol = 0.74298E+01, time = 5.90 | CG iter. 43 -- res = 0.13756E+01, tol = 0.74298E+01, time = 5.52 | CG iter. 44 -- res = 0.10397E+01, tol = 0.74298E+01, time = 6.01 | CG iter. 45 -- res = 0.74648E+00, tol = 0.74298E+01, time = 5.72 | CG iter. 46 -- res = 0.51356E+00, tol = 0.74298E+01, time = 5.98 | CG iter. 47 -- res = 0.35456E+00, tol = 0.74298E+01, time = 6.07 | CG iter. 48 -- res = 0.26344E+00, tol = 0.74298E+01, time = 5.66 | CG iter. 49 -- res = 0.19092E+00, tol = 0.74298E+01, time = 5.76 | CG iter. 50 -- res = 0.13424E+00, tol = 0.74298E+01, time = 5.79 | Final CG iter 51 -- res = 0.13424E+00, tol = 0.74298E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10093373.269 | Old band monopole 10098374.823 | Change to band monopole -5001.554 | Change to component monopole 5001.533 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.35694E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.24791E+03, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.36286E+01, tol = 0.47627E+18, time = 2.19 | CG iter. 4 -- res = 0.41544E-01, tol = 0.47627E+18, time = 2.11 | Final CG iter 5 -- res = 0.35767E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10093329.855 | (Sampled value in CG: 10217880.842 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.465495 | New value = 1.492564 | poltype: 2 pol: 1 CPU time specind = 1.5955925E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.568781 | New value = 1.505282 | poltype: 2 pol: 2 CPU time specind = 3.9350986E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.24148E+08, tol = 0.47526E+04, time = 6.62 | CG iter. 2 -- res = 0.53140E+07, tol = 0.47526E+04, time = 13.92 | CG iter. 3 -- res = 0.82720E+06, tol = 0.47526E+04, time = 6.47 | CG iter. 4 -- res = 0.34816E+06, tol = 0.47526E+04, time = 6.68 | CG iter. 5 -- res = 0.14594E+06, tol = 0.47526E+04, time = 6.71 | CG iter. 6 -- res = 0.77218E+05, tol = 0.47526E+04, time = 6.77 | CG iter. 7 -- res = 0.43776E+05, tol = 0.47526E+04, time = 6.92 | CG iter. 8 -- res = 0.20958E+05, tol = 0.47526E+04, time = 6.82 | CG iter. 9 -- res = 0.91577E+04, tol = 0.47526E+04, time = 6.64 | CG iter. 10 -- res = 0.36855E+04, tol = 0.47526E+04, time = 6.96 | CG iter. 11 -- res = 0.16467E+04, tol = 0.47526E+04, time = 6.48 | CG iter. 12 -- res = 0.84898E+03, tol = 0.47526E+04, time = 6.86 | CG iter. 13 -- res = 0.47304E+03, tol = 0.47526E+04, time = 7.04 | CG iter. 14 -- res = 0.25776E+03, tol = 0.47526E+04, time = 7.01 | CG iter. 15 -- res = 0.12935E+03, tol = 0.47526E+04, time = 8.02 | CG iter. 16 -- res = 0.61487E+02, tol = 0.47526E+04, time = 7.25 | CG iter. 17 -- res = 0.30220E+02, tol = 0.47526E+04, time = 6.98 | CG iter. 18 -- res = 0.15609E+02, tol = 0.47526E+04, time = 6.86 | CG iter. 19 -- res = 0.83934E+01, tol = 0.47526E+04, time = 6.75 | CG iter. 20 -- res = 0.45961E+01, tol = 0.47526E+04, time = 7.11 | CG iter. 21 -- res = 0.24506E+01, tol = 0.47526E+04, time = 6.65 | CG iter. 22 -- res = 0.12622E+01, tol = 0.47526E+04, time = 6.79 | CG iter. 23 -- res = 0.63233E+00, tol = 0.47526E+04, time = 6.73 | CG iter. 24 -- res = 0.33385E+00, tol = 0.47526E+04, time = 7.00 | CG iter. 25 -- res = 0.18733E+00, tol = 0.47526E+04, time = 6.58 | CG iter. 26 -- res = 0.10990E+00, tol = 0.47526E+04, time = 7.10 | CG iter. 27 -- res = 0.62231E-01, tol = 0.47526E+04, time = 6.49 | CG iter. 28 -- res = 0.33076E-01, tol = 0.47526E+04, time = 6.64 | CG iter. 29 -- res = 0.17187E-01, tol = 0.47526E+04, time = 6.96 | CG iter. 30 -- res = 0.89181E-02, tol = 0.47526E+04, time = 6.96 | CG iter. 31 -- res = 0.50443E-02, tol = 0.47526E+04, time = 7.60 | CG iter. 32 -- res = 0.29310E-02, tol = 0.47526E+04, time = 6.59 | CG iter. 33 -- res = 0.16976E-02, tol = 0.47526E+04, time = 6.95 | CG iter. 34 -- res = 0.93064E-03, tol = 0.47526E+04, time = 6.75 | CG iter. 35 -- res = 0.49033E-03, tol = 0.47526E+04, time = 7.04 | Final CG iter 36 -- res = 0.49033E-03, tol = 0.47526E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.137 2.752 | New value -2.971 | Old value -3.137 | Difference 0.167 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.19965E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.29901E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.13419E+01, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.32768E-03, tol = 0.47627E+18, time = 2.24 | Final CG iter 5 -- res = 0.77408E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10093329.855 | (Sampled value in CG: 10218085.273 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.460568 | New value = -3.676729 | poltype: 1 pol: 1 CPU time specind = 1.6289949E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.84 | CG iter. 1 -- res = 0.26532E+07, tol = 0.19243E+01, time = 2.93 | CG iter. 2 -- res = 0.12487E+07, tol = 0.19243E+01, time = 2.84 | CG iter. 3 -- res = 0.23367E+06, tol = 0.19243E+01, time = 2.75 | CG iter. 4 -- res = 0.89652E+05, tol = 0.19243E+01, time = 2.90 | CG iter. 5 -- res = 0.54082E+05, tol = 0.19243E+01, time = 2.76 | CG iter. 6 -- res = 0.27653E+05, tol = 0.19243E+01, time = 3.20 | CG iter. 7 -- res = 0.93233E+04, tol = 0.19243E+01, time = 2.59 | CG iter. 8 -- res = 0.34474E+04, tol = 0.19243E+01, time = 2.93 | CG iter. 9 -- res = 0.14993E+04, tol = 0.19243E+01, time = 2.57 | CG iter. 10 -- res = 0.62853E+03, tol = 0.19243E+01, time = 2.78 | CG iter. 11 -- res = 0.27615E+03, tol = 0.19243E+01, time = 2.83 | CG iter. 12 -- res = 0.14429E+03, tol = 0.19243E+01, time = 2.92 | CG iter. 13 -- res = 0.74751E+02, tol = 0.19243E+01, time = 3.01 | CG iter. 14 -- res = 0.34814E+02, tol = 0.19243E+01, time = 2.65 | CG iter. 15 -- res = 0.14676E+02, tol = 0.19243E+01, time = 2.87 | CG iter. 16 -- res = 0.62954E+01, tol = 0.19243E+01, time = 3.85 | CG iter. 17 -- res = 0.27445E+01, tol = 0.19243E+01, time = 8.14 | CG iter. 18 -- res = 0.13086E+01, tol = 0.19243E+01, time = 2.85 | CG iter. 19 -- res = 0.66632E+00, tol = 0.19243E+01, time = 2.56 | CG iter. 20 -- res = 0.33326E+00, tol = 0.19243E+01, time = 2.88 | CG iter. 21 -- res = 0.14862E+00, tol = 0.19243E+01, time = 2.80 | CG iter. 22 -- res = 0.65759E-01, tol = 0.19243E+01, time = 2.88 | CG iter. 23 -- res = 0.30740E-01, tol = 0.19243E+01, time = 2.92 | CG iter. 24 -- res = 0.14723E-01, tol = 0.19243E+01, time = 2.58 | CG iter. 25 -- res = 0.76789E-02, tol = 0.19243E+01, time = 2.63 | CG iter. 26 -- res = 0.39491E-02, tol = 0.19243E+01, time = 2.85 | CG iter. 27 -- res = 0.17860E-02, tol = 0.19243E+01, time = 2.82 | CG iter. 28 -- res = 0.81340E-03, tol = 0.19243E+01, time = 2.90 | CG iter. 29 -- res = 0.35990E-03, tol = 0.19243E+01, time = 2.79 | CG iter. 30 -- res = 0.18162E-03, tol = 0.19243E+01, time = 2.51 | CG iter. 31 -- res = 0.87894E-04, tol = 0.19243E+01, time = 2.79 | CG iter. 32 -- res = 0.44339E-04, tol = 0.19243E+01, time = 2.36 | CG iter. 33 -- res = 0.21076E-04, tol = 0.19243E+01, time = 3.11 | CG iter. 34 -- res = 0.94832E-05, tol = 0.19243E+01, time = 2.77 | CG iter. 35 -- res = 0.45761E-05, tol = 0.19243E+01, time = 2.92 | CG iter. 36 -- res = 0.20799E-05, tol = 0.19243E+01, time = 2.77 | CG iter. 37 -- res = 0.10192E-05, tol = 0.19243E+01, time = 2.78 | CG iter. 38 -- res = 0.53285E-06, tol = 0.19243E+01, time = 2.76 | CG iter. 39 -- res = 0.24867E-06, tol = 0.19243E+01, time = 2.69 | CG iter. 40 -- res = 0.11256E-06, tol = 0.19243E+01, time = 2.94 | CG iter. 41 -- res = 0.51712E-07, tol = 0.19243E+01, time = 2.85 | CG iter. 42 -- res = 0.25495E-07, tol = 0.19243E+01, time = 2.79 | CG iter. 43 -- res = 0.12120E-07, tol = 0.19243E+01, time = 2.67 | CG iter. 44 -- res = 0.60870E-08, tol = 0.19243E+01, time = 3.15 | CG iter. 45 -- res = 0.28408E-08, tol = 0.19243E+01, time = 2.76 | CG iter. 46 -- res = 0.13270E-08, tol = 0.19243E+01, time = 3.05 | CG iter. 47 -- res = 0.63597E-09, tol = 0.19243E+01, time = 4.11 | CG iter. 48 -- res = 0.29055E-09, tol = 0.19243E+01, time = 3.05 | CG iter. 49 -- res = 0.14001E-09, tol = 0.19243E+01, time = 3.16 | CG iter. 50 -- res = 0.68180E-10, tol = 0.19243E+01, time = 3.35 | Final CG iter 51 -- res = 0.68180E-10, tol = 0.19243E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.566 4.001 | New value -3.181 | Old value 6.566 | Difference -9.747 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.10410E+06, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.12559E+03, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.24019E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 4 -- res = 0.13569E-01, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.18233E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10093329.855 | (Sampled value in CG: 10190715.417 ) | CPU time specind = 1242.934 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.69008E+08, tol = 0.57743E+04, time = 12.97 | CG iter. 2 -- res = 0.60558E+08, tol = 0.57743E+04, time = 12.31 | CG iter. 3 -- res = 0.16513E+08, tol = 0.57743E+04, time = 12.51 | CG iter. 4 -- res = 0.68872E+07, tol = 0.57743E+04, time = 12.24 | CG iter. 5 -- res = 0.41260E+07, tol = 0.57743E+04, time = 12.55 | CG iter. 6 -- res = 0.23946E+07, tol = 0.57743E+04, time = 12.36 | CG iter. 7 -- res = 0.14320E+07, tol = 0.57743E+04, time = 12.08 | CG iter. 8 -- res = 0.97395E+06, tol = 0.57743E+04, time = 12.01 | CG iter. 9 -- res = 0.65555E+06, tol = 0.57743E+04, time = 18.56 | CG iter. 10 -- res = 0.43336E+06, tol = 0.57743E+04, time = 12.64 | CG iter. 11 -- res = 0.25816E+06, tol = 0.57743E+04, time = 12.44 | CG iter. 12 -- res = 0.15583E+06, tol = 0.57743E+04, time = 12.06 | CG iter. 13 -- res = 0.10066E+06, tol = 0.57743E+04, time = 12.23 | CG iter. 14 -- res = 0.77067E+05, tol = 0.57743E+04, time = 11.62 | CG iter. 15 -- res = 0.69026E+05, tol = 0.57743E+04, time = 11.95 | CG iter. 16 -- res = 0.67148E+05, tol = 0.57743E+04, time = 13.41 | CG iter. 17 -- res = 0.66896E+05, tol = 0.57743E+04, time = 13.54 | CG iter. 18 -- res = 0.65243E+05, tol = 0.57743E+04, time = 11.64 | CG iter. 19 -- res = 0.58181E+05, tol = 0.57743E+04, time = 12.37 | CG iter. 20 -- res = 0.49973E+05, tol = 0.57743E+04, time = 12.59 | CG iter. 21 -- res = 0.45071E+05, tol = 0.57743E+04, time = 12.14 | CG iter. 22 -- res = 0.41449E+05, tol = 0.57743E+04, time = 12.02 | CG iter. 23 -- res = 0.38282E+05, tol = 0.57743E+04, time = 12.31 | CG iter. 24 -- res = 0.33858E+05, tol = 0.57743E+04, time = 12.00 | CG iter. 25 -- res = 0.27582E+05, tol = 0.57743E+04, time = 12.58 | CG iter. 26 -- res = 0.21052E+05, tol = 0.57743E+04, time = 12.33 | CG iter. 27 -- res = 0.15938E+05, tol = 0.57743E+04, time = 11.98 | CG iter. 28 -- res = 0.12563E+05, tol = 0.57743E+04, time = 11.63 | CG iter. 29 -- res = 0.10893E+05, tol = 0.57743E+04, time = 12.54 | CG iter. 30 -- res = 0.10672E+05, tol = 0.57743E+04, time = 12.20 | CG iter. 31 -- res = 0.10176E+05, tol = 0.57743E+04, time = 12.28 | CG iter. 32 -- res = 0.95976E+04, tol = 0.57743E+04, time = 12.50 | CG iter. 33 -- res = 0.85824E+04, tol = 0.57743E+04, time = 19.77 | CG iter. 34 -- res = 0.72289E+04, tol = 0.57743E+04, time = 11.90 | CG iter. 35 -- res = 0.60959E+04, tol = 0.57743E+04, time = 11.79 | CG iter. 36 -- res = 0.53413E+04, tol = 0.57743E+04, time = 12.64 | CG iter. 37 -- res = 0.48678E+04, tol = 0.57743E+04, time = 12.08 | CG iter. 38 -- res = 0.44462E+04, tol = 0.57743E+04, time = 11.95 | CG iter. 39 -- res = 0.39418E+04, tol = 0.57743E+04, time = 12.13 | CG iter. 40 -- res = 0.33234E+04, tol = 0.57743E+04, time = 14.18 | CG iter. 41 -- res = 0.27628E+04, tol = 0.57743E+04, time = 13.09 | CG iter. 42 -- res = 0.23198E+04, tol = 0.57743E+04, time = 12.14 | CG iter. 43 -- res = 0.20757E+04, tol = 0.57743E+04, time = 12.06 | CG iter. 44 -- res = 0.19900E+04, tol = 0.57743E+04, time = 12.54 | CG iter. 45 -- res = 0.19654E+04, tol = 0.57743E+04, time = 12.21 | CG iter. 46 -- res = 0.18663E+04, tol = 0.57743E+04, time = 12.35 | CG iter. 47 -- res = 0.17316E+04, tol = 0.57743E+04, time = 12.57 | CG iter. 48 -- res = 0.15438E+04, tol = 0.57743E+04, time = 12.31 | CG iter. 49 -- res = 0.13622E+04, tol = 0.57743E+04, time = 13.11 | CG iter. 50 -- res = 0.11724E+04, tol = 0.57743E+04, time = 11.82 | CG iter. 51 -- res = 0.10601E+04, tol = 0.57743E+04, time = 12.79 | CG iter. 52 -- res = 0.98198E+03, tol = 0.57743E+04, time = 12.34 | CG iter. 53 -- res = 0.90534E+03, tol = 0.57743E+04, time = 12.85 | CG iter. 54 -- res = 0.81987E+03, tol = 0.57743E+04, time = 12.39 | CG iter. 55 -- res = 0.72669E+03, tol = 0.57743E+04, time = 12.02 | CG iter. 56 -- res = 0.65430E+03, tol = 0.57743E+04, time = 12.00 | CG iter. 57 -- res = 0.58515E+03, tol = 0.57743E+04, time = 17.84 | CG iter. 58 -- res = 0.54179E+03, tol = 0.57743E+04, time = 12.45 | CG iter. 59 -- res = 0.51680E+03, tol = 0.57743E+04, time = 12.22 | CG iter. 60 -- res = 0.49539E+03, tol = 0.57743E+04, time = 12.11 | Final CG iter 61 -- res = 0.49539E+03, tol = 0.57743E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.775 ( -229.454 -2229.305 2511.814 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6943879.288 | Old band monopole 10093373.269 | Change to band monopole -3149493.981 | Change to component monopole 3149480.435 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.976 2.737 | New value -3.423 | Old value -2.976 | Difference -0.447 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.199 ( 5.070 7.800 -8.554 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.269 4.473 | New value -1.451 | Old value -1.269 | Difference -0.182 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.82 | CG iter. 1 -- res = 0.59753E+06, tol = 0.47627E+18, time = 1.80 | CG iter. 2 -- res = 0.16733E+03, tol = 0.47627E+18, time = 2.65 | CG iter. 3 -- res = 0.35157E+01, tol = 0.47627E+18, time = 3.24 | CG iter. 4 -- res = 0.24808E-02, tol = 0.47627E+18, time = 2.43 | Final CG iter 5 -- res = 0.74200E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6943849.421 | (Sampled value in CG: 6925153.023 ) | Chain = 1 -- chisq = 0.81533404E+09 | Chain = 1 -- wall time = 5780.166 sec Available RAM: MemAvailable: 376564640 kB Available Swap: SwapFree: 1115018016 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 416 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445932 | --> Sampling calibration, mode = relcal | relcal = 1.3428496E-02 7.3851045E-04 -1.5917547E-03 -1.2575252E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1588029 0.1770925 9406970.83327735 | BP delta = 0.1588029 0.1809102 9406970.47142570 | BP chisq diff = -0.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632384 | --> Sampling calibration, mode = relcal | relcal = -2.8208925E-03 -7.0461782E-04 1.6792020E-03 1.6134223E-03 -4.0754926E-04 6.4043538E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5564239 15215345.7640192 | BP delta = 0.0000000E+00 -0.5478514 15215343.5358645 | BP chisq diff = -2.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103454 | --> Sampling calibration, mode = relcal | relcal = 3.7091661E-02 1.3723087E-02 5.7497057E-03 -7.1650031E-03 8.2446961E-03 2.3957174E-03 -7.6066637E-03 -7.1807820E-03 -1.5302226E-02 -1.4802466E-02 -3.0513378E-03 -1.2096390E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.199141 132206744.165009 | BP delta = 0.0000000E+00 -1.216598 132206739.896287 | BP chisq diff = -4.3, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18173701093865 | --> Sampling calibration, mode = relcal | relcal = -7.4321143E-02 -5.8075596E-02 9.1201298E-02 4.1195441E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3735140E-04 3.8086250E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.9312E-05 | 2: delta_r/delta_0: 1.2061E-06 | 3: delta_s/delta_0: 2.3154E-07 | 4: delta_r/delta_0: 1.5040E-08 | 5: delta_s/delta_0: 3.5287E-09 | 6: delta_r/delta_0: 1.2471E-09 | 7: delta_s/delta_0: 1.7715E-09 | 8: delta_r/delta_0: 6.1072E-10 | 9: delta_s/delta_0: 1.4425E-09 | 10: delta_r/delta_0: 5.7355E-10 | 11: delta_s/delta_0: 4.9019E-10 | 12: delta_r/delta_0: 1.5499E-10 | 13: delta_s/delta_0: 1.4418E-09 | 14: delta_r/delta_0: 7.2579E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.740298620933285E-004 2.739496193122378E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.9304E-05 | 2: delta_r/delta_0: 1.2059E-06 | 3: delta_s/delta_0: 2.3155E-07 | 4: delta_r/delta_0: 1.5045E-08 | 5: delta_s/delta_0: 3.5295E-09 | 6: delta_r/delta_0: 1.2475E-09 | 7: delta_s/delta_0: 1.7778E-09 | 8: delta_r/delta_0: 6.1191E-10 | 9: delta_s/delta_0: 1.4416E-09 | 10: delta_r/delta_0: 5.7429E-10 | 11: delta_s/delta_0: 4.9089E-10 | 12: delta_r/delta_0: 1.5526E-10 | 13: delta_s/delta_0: 1.4500E-09 | 14: delta_r/delta_0: 7.2608E-12 | Reached bicg-stab tolerance | BP delta = 6.6477910E-02 9.1176823E-02 3540565.44979631 | BP delta = 6.6477910E-02 9.1024943E-02 3535787.37383165 | BP chisq diff = -4778.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02582666 | --> Sampling calibration, mode = relcal | relcal = -0.1066670 -9.5487244E-02 0.1448776 5.7276696E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9739707E-03 1.5559329E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1405E-04 | 2: delta_r/delta_0: 2.5068E-06 | 3: delta_s/delta_0: 2.1882E-07 | 4: delta_r/delta_0: 4.9705E-08 | 5: delta_s/delta_0: 4.0733E-08 | 6: delta_r/delta_0: 8.8533E-09 | 7: delta_s/delta_0: 7.6112E-09 | 8: delta_r/delta_0: 2.1328E-09 | 9: delta_s/delta_0: 9.3565E-10 | 10: delta_r/delta_0: 6.9944E-10 | 11: delta_s/delta_0: 3.7395E-09 | 12: delta_r/delta_0: 5.8440E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.049712981205559E-002 2.811300964777963E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1404E-04 | 2: delta_r/delta_0: 2.5066E-06 | 3: delta_s/delta_0: 2.1880E-07 | 4: delta_r/delta_0: 4.9668E-08 | 5: delta_s/delta_0: 4.0777E-08 | 6: delta_r/delta_0: 8.8528E-09 | 7: delta_s/delta_0: 7.6162E-09 | 8: delta_r/delta_0: 2.1321E-09 | 9: delta_s/delta_0: 9.3524E-10 | 10: delta_r/delta_0: 6.9915E-10 | 11: delta_s/delta_0: 3.7325E-09 | 12: delta_r/delta_0: 5.8533E-11 | Reached bicg-stab tolerance | BP delta = -0.2056647 -0.1716713 2841635.79871677 | BP delta = -0.2056647 -0.1728926 2841619.90463359 | BP chisq diff = -15.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81211280 | --> Sampling calibration, mode = relcal | relcal = 0.2954111 0.2247926 -0.2837493 -0.2364543 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.0822600E-04 5.2554882E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3642E-03 | 2: delta_r/delta_0: 3.2681E-05 | 3: delta_s/delta_0: 3.5582E-05 | 4: delta_r/delta_0: 2.2338E-06 | 5: delta_s/delta_0: 5.2067E-07 | 6: delta_r/delta_0: 2.2748E-07 | 7: delta_s/delta_0: 7.8539E-07 | 8: delta_r/delta_0: 4.2445E-08 | 9: delta_s/delta_0: 1.5203E-07 | 10: delta_r/delta_0: 1.0525E-07 | 11: delta_s/delta_0: 2.4324E-09 | 12: delta_r/delta_0: 1.1028E-09 | 13: delta_s/delta_0: 3.0202E-08 | 14: delta_r/delta_0: 1.6259E-09 | 15: delta_s/delta_0: 8.1604E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.534754095891756E-002 4.022243985234095E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3651E-03 | 2: delta_r/delta_0: 3.2701E-05 | 3: delta_s/delta_0: 3.5599E-05 | 4: delta_r/delta_0: 2.2346E-06 | 5: delta_s/delta_0: 5.2081E-07 | 6: delta_r/delta_0: 2.2751E-07 | 7: delta_s/delta_0: 7.8537E-07 | 8: delta_r/delta_0: 4.2452E-08 | 9: delta_s/delta_0: 1.5246E-07 | 10: delta_r/delta_0: 1.0549E-07 | 11: delta_s/delta_0: 2.4344E-09 | 12: delta_r/delta_0: 1.1026E-09 | 13: delta_s/delta_0: 3.0097E-08 | 14: delta_r/delta_0: 1.6215E-09 | 15: delta_s/delta_0: 8.1594E-11 | Reached bicg-stab tolerance | BP delta = -0.1268533 -0.1631355 2827078.35135871 | BP delta = -0.1268533 -0.1672113 2827088.99795977 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95896723 | --> Sampling calibration, mode = relcal | relcal = 0.1064353 0.1395716 -0.1101884 -0.1358185 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7777480E-03 1.4692126E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5787E-04 | 2: delta_r/delta_0: 4.2928E-06 | 3: delta_s/delta_0: 7.7537E-06 | 4: delta_r/delta_0: 1.1087E-06 | 5: delta_s/delta_0: 1.6349E-07 | 6: delta_r/delta_0: 1.0818E-07 | 7: delta_s/delta_0: 8.3469E-07 | 8: delta_r/delta_0: 2.1897E-08 | 9: delta_s/delta_0: 3.8052E-08 | 10: delta_r/delta_0: 2.0269E-08 | 11: delta_s/delta_0: 1.1154E-09 | 12: delta_r/delta_0: 7.8613E-10 | 13: delta_s/delta_0: 3.6760E-10 | 14: delta_r/delta_0: 2.2579E-10 | 15: delta_s/delta_0: 7.3529E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.870995076316325E-002 3.697930565893225E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5788E-04 | 2: delta_r/delta_0: 4.2928E-06 | 3: delta_s/delta_0: 7.7530E-06 | 4: delta_r/delta_0: 1.1086E-06 | 5: delta_s/delta_0: 1.6349E-07 | 6: delta_r/delta_0: 1.0820E-07 | 7: delta_s/delta_0: 8.3476E-07 | 8: delta_r/delta_0: 2.1895E-08 | 9: delta_s/delta_0: 3.8101E-08 | 10: delta_r/delta_0: 2.0295E-08 | 11: delta_s/delta_0: 1.1166E-09 | 12: delta_r/delta_0: 7.8692E-10 | 13: delta_s/delta_0: 3.6709E-10 | 14: delta_r/delta_0: 2.2642E-10 | 15: delta_s/delta_0: 7.3496E-11 | Reached bicg-stab tolerance | BP delta = 8.2295142E-02 0.1838423 3004236.17742139 | BP delta = 8.2295142E-02 0.1973698 3004213.93379392 | BP chisq diff = -22.2, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52165639 | --> Sampling calibration, mode = relcal | relcal = -5.1063359E-02 -3.6699194E-03 2.7261285E-02 2.7471993E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2918279E-03 1.4940592E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6273E-05 | 2: delta_r/delta_0: 4.5729E-06 | 3: delta_s/delta_0: 2.3912E-06 | 4: delta_r/delta_0: 1.4340E-07 | 5: delta_s/delta_0: 5.5193E-08 | 6: delta_r/delta_0: 2.9406E-08 | 7: delta_s/delta_0: 2.4636E-08 | 8: delta_r/delta_0: 9.2796E-09 | 9: delta_s/delta_0: 4.2827E-09 | 10: delta_r/delta_0: 9.2260E-10 | 11: delta_s/delta_0: 8.6567E-10 | 12: delta_r/delta_0: 4.8967E-10 | 13: delta_s/delta_0: 1.2997E-09 | 14: delta_r/delta_0: 1.1292E-10 | 15: delta_s/delta_0: 2.9966E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.157835499540916E-002 5.482391074037182E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6273E-05 | 2: delta_r/delta_0: 4.5730E-06 | 3: delta_s/delta_0: 2.3915E-06 | 4: delta_r/delta_0: 1.4342E-07 | 5: delta_s/delta_0: 5.5193E-08 | 6: delta_r/delta_0: 2.9406E-08 | 7: delta_s/delta_0: 2.4642E-08 | 8: delta_r/delta_0: 9.2792E-09 | 9: delta_s/delta_0: 4.2817E-09 | 10: delta_r/delta_0: 9.2250E-10 | 11: delta_s/delta_0: 8.6558E-10 | 12: delta_r/delta_0: 4.8954E-10 | 13: delta_s/delta_0: 1.3000E-09 | 14: delta_r/delta_0: 1.1285E-10 | 15: delta_s/delta_0: 2.9953E-11 | Reached bicg-stab tolerance | BP delta = 3.5469025E-02 0.1210046 2435366.34214302 | BP delta = 3.5469025E-02 0.1502195 2435362.67416001 | BP chisq diff = -3.7, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42163031 | --> Sampling calibration, mode = relcal | relcal = 4.5639981E-02 3.9690081E-02 -2.8281376E-02 -5.7048686E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3691070E-03 4.5873984E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.2145E-05 | 2: delta_r/delta_0: 3.6891E-06 | 3: delta_s/delta_0: 2.4536E-06 | 4: delta_r/delta_0: 4.0272E-07 | 5: delta_s/delta_0: 6.3606E-08 | 6: delta_r/delta_0: 3.7009E-08 | 7: delta_s/delta_0: 1.6728E-07 | 8: delta_r/delta_0: 5.4284E-09 | 9: delta_s/delta_0: 2.1738E-09 | 10: delta_r/delta_0: 1.0997E-09 | 11: delta_s/delta_0: 9.0287E-10 | 12: delta_r/delta_0: 6.3277E-10 | 13: delta_s/delta_0: 1.0807E-07 | 14: delta_r/delta_0: 1.4983E-10 | 15: delta_s/delta_0: 3.2807E-10 | 16: delta_r/delta_0: 7.4440E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.467269979845858E-002 4.995204120408067E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.2145E-05 | 2: delta_r/delta_0: 3.6891E-06 | 3: delta_s/delta_0: 2.4537E-06 | 4: delta_r/delta_0: 4.0273E-07 | 5: delta_s/delta_0: 6.3605E-08 | 6: delta_r/delta_0: 3.7009E-08 | 7: delta_s/delta_0: 1.6728E-07 | 8: delta_r/delta_0: 5.4287E-09 | 9: delta_s/delta_0: 2.1739E-09 | 10: delta_r/delta_0: 1.0997E-09 | 11: delta_s/delta_0: 9.0288E-10 | 12: delta_r/delta_0: 6.3273E-10 | 13: delta_s/delta_0: 1.0677E-07 | 14: delta_r/delta_0: 1.4598E-10 | 15: delta_s/delta_0: 2.8489E-10 | 16: delta_r/delta_0: 6.6209E-11 | Reached bicg-stab tolerance | BP delta = -2.7218815E-02 -0.1488811 2321704.96687102 | BP delta = -2.7218815E-02 -0.1609384 2321705.52453313 | BP chisq diff = 0.6, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28175651 | --> Sampling calibration, mode = relcal | relcal = 2.4250902E-02 4.5043919E-02 -2.3347979E-02 -4.5946840E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0426218E-02 3.0583469E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0631E-04 | 2: delta_r/delta_0: 8.4986E-06 | 3: delta_s/delta_0: 1.4231E-06 | 4: delta_r/delta_0: 1.8239E-07 | 5: delta_s/delta_0: 7.2213E-08 | 6: delta_r/delta_0: 1.8116E-08 | 7: delta_s/delta_0: 9.5719E-09 | 8: delta_r/delta_0: 6.5724E-09 | 9: delta_s/delta_0: 9.2907E-07 | 10: delta_r/delta_0: 1.3237E-08 | 11: delta_s/delta_0: 1.6458E-09 | 12: delta_r/delta_0: 7.9623E-10 | 13: delta_s/delta_0: 1.2631E-10 | 14: delta_r/delta_0: 8.9833E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.069948058152170E-002 7.839374803705962E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0631E-04 | 2: delta_r/delta_0: 8.4986E-06 | 3: delta_s/delta_0: 1.4231E-06 | 4: delta_r/delta_0: 1.8239E-07 | 5: delta_s/delta_0: 7.2220E-08 | 6: delta_r/delta_0: 1.8116E-08 | 7: delta_s/delta_0: 9.5719E-09 | 8: delta_r/delta_0: 6.5724E-09 | 9: delta_s/delta_0: 9.2894E-07 | 10: delta_r/delta_0: 1.3237E-08 | 11: delta_s/delta_0: 1.6456E-09 | 12: delta_r/delta_0: 7.9622E-10 | 13: delta_s/delta_0: 1.2632E-10 | 14: delta_r/delta_0: 8.9831E-11 | Reached bicg-stab tolerance | BP delta = -0.4890190 -0.6848952 2490352.17193592 | BP delta = -0.4890190 -0.7168660 2490345.98194345 | BP chisq diff = -6.2, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29404451 | --> Sampling calibration, mode = relcal | relcal = 5.2155909E-04 1.0301889E-02 -3.8766526E-03 -6.9467952E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4042121E-02 1.6511429E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3055E-04 | 2: delta_r/delta_0: 1.1209E-05 | 3: delta_s/delta_0: 1.7641E-06 | 4: delta_r/delta_0: 3.0500E-07 | 5: delta_s/delta_0: 1.3276E-07 | 6: delta_r/delta_0: 2.3665E-08 | 7: delta_s/delta_0: 1.0359E-08 | 8: delta_r/delta_0: 6.7614E-09 | 9: delta_s/delta_0: 4.9416E-09 | 10: delta_r/delta_0: 3.7822E-09 | 11: delta_s/delta_0: 9.2075E-07 | 12: delta_r/delta_0: 2.9897E-08 | 13: delta_s/delta_0: 2.5682E-10 | 14: delta_r/delta_0: 1.1920E-10 | 15: delta_s/delta_0: 1.0858E-10 | 16: delta_r/delta_0: 9.1196E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.024542330569500E-002 8.303254737486208E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3055E-04 | 2: delta_r/delta_0: 1.1209E-05 | 3: delta_s/delta_0: 1.7641E-06 | 4: delta_r/delta_0: 3.0499E-07 | 5: delta_s/delta_0: 1.3276E-07 | 6: delta_r/delta_0: 2.3664E-08 | 7: delta_s/delta_0: 1.0359E-08 | 8: delta_r/delta_0: 6.7613E-09 | 9: delta_s/delta_0: 4.9415E-09 | 10: delta_r/delta_0: 3.7821E-09 | 11: delta_s/delta_0: 9.2123E-07 | 12: delta_r/delta_0: 2.9903E-08 | 13: delta_s/delta_0: 2.5679E-10 | 14: delta_r/delta_0: 1.1921E-10 | 15: delta_s/delta_0: 1.0859E-10 | 16: delta_r/delta_0: 9.1200E-11 | Reached bicg-stab tolerance | BP delta = -0.8954110 -0.8504409 2738036.45088557 | BP delta = -0.8954110 -0.8578388 2738033.80389944 | BP chisq diff = -2.6, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26514194 | --> Sampling calibration, mode = relcal | relcal = -5.6047663E-03 1.4991448E-02 -2.3135073E-03 -7.0731742E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.0526345E-03 2.8590041E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4669E-04 | 2: delta_r/delta_0: 1.2179E-05 | 3: delta_s/delta_0: 2.0698E-06 | 4: delta_r/delta_0: 2.7115E-07 | 5: delta_s/delta_0: 8.2593E-08 | 6: delta_r/delta_0: 2.1264E-08 | 7: delta_s/delta_0: 8.9934E-09 | 8: delta_r/delta_0: 5.8315E-09 | 9: delta_s/delta_0: 4.1645E-09 | 10: delta_r/delta_0: 1.3676E-09 | 11: delta_s/delta_0: 3.6091E-05 | 12: delta_r/delta_0: 2.7903E-08 | 13: delta_s/delta_0: 1.5397E-08 | 14: delta_r/delta_0: 5.7564E-10 | 15: delta_s/delta_0: 7.7457E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.905536036162023E-003 9.150935428998669E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4669E-04 | 2: delta_r/delta_0: 1.2179E-05 | 3: delta_s/delta_0: 2.0698E-06 | 4: delta_r/delta_0: 2.7114E-07 | 5: delta_s/delta_0: 8.2597E-08 | 6: delta_r/delta_0: 2.1262E-08 | 7: delta_s/delta_0: 8.9932E-09 | 8: delta_r/delta_0: 5.8313E-09 | 9: delta_s/delta_0: 4.1645E-09 | 10: delta_r/delta_0: 1.3676E-09 | 11: delta_s/delta_0: 3.6054E-05 | 12: delta_r/delta_0: 2.7881E-08 | 13: delta_s/delta_0: 1.5381E-08 | 14: delta_r/delta_0: 5.7441E-10 | 15: delta_s/delta_0: 7.7460E-11 | Reached bicg-stab tolerance | BP delta = 0.4536546 0.5089126 2516569.06246959 | BP delta = 0.4536546 0.5342075 2516569.47074937 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25673860 | --> Sampling calibration, mode = relcal | relcal = -3.1671949E-02 -2.5917655E-02 3.6937267E-02 2.0652337E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4602467E-02 1.6944055E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4319E-04 | 2: delta_r/delta_0: 1.2150E-05 | 3: delta_s/delta_0: 1.8714E-06 | 4: delta_r/delta_0: 4.0511E-07 | 5: delta_s/delta_0: 1.7221E-07 | 6: delta_r/delta_0: 2.7699E-08 | 7: delta_s/delta_0: 1.1949E-08 | 8: delta_r/delta_0: 7.3245E-09 | 9: delta_s/delta_0: 5.3466E-09 | 10: delta_r/delta_0: 3.8779E-09 | 11: delta_s/delta_0: 1.0489E-05 | 12: delta_r/delta_0: 4.3535E-07 | 13: delta_s/delta_0: 5.3066E-10 | 14: delta_r/delta_0: 3.7922E-10 | 15: delta_s/delta_0: 2.1752E-10 | 16: delta_r/delta_0: 1.9924E-10 | 17: delta_s/delta_0: 1.8947E-10 | 18: delta_r/delta_0: 1.6935E-10 | 19: delta_s/delta_0: 1.6870E-10 | 20: delta_r/delta_0: 1.5621E-10 | 21: delta_s/delta_0: 1.0513E-10 | 22: delta_r/delta_0: 9.7952E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.021489650097411E-002 8.668771665978142E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4319E-04 | 2: delta_r/delta_0: 1.2150E-05 | 3: delta_s/delta_0: 1.8714E-06 | 4: delta_r/delta_0: 4.0511E-07 | 5: delta_s/delta_0: 1.7221E-07 | 6: delta_r/delta_0: 2.7699E-08 | 7: delta_s/delta_0: 1.1949E-08 | 8: delta_r/delta_0: 7.3245E-09 | 9: delta_s/delta_0: 5.3466E-09 | 10: delta_r/delta_0: 3.8779E-09 | 11: delta_s/delta_0: 1.0476E-05 | 12: delta_r/delta_0: 4.3485E-07 | 13: delta_s/delta_0: 5.3073E-10 | 14: delta_r/delta_0: 3.7924E-10 | 15: delta_s/delta_0: 2.1751E-10 | 16: delta_r/delta_0: 1.9923E-10 | 17: delta_s/delta_0: 1.8945E-10 | 18: delta_r/delta_0: 1.6934E-10 | 19: delta_s/delta_0: 1.6870E-10 | 20: delta_r/delta_0: 1.5623E-10 | 21: delta_s/delta_0: 1.0514E-10 | 22: delta_r/delta_0: 9.7956E-11 | Reached bicg-stab tolerance | BP delta = -0.8769484 -1.085546 2706012.44392990 | BP delta = -0.8769484 -1.080373 2706009.68483517 | BP chisq diff = -2.8, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.028155 | New value = -3.142437 | poltype: 2 pol: 1 CPU time specind = 2.7184963E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.051433 | New value = -3.095355 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163069 | New value = -3.135145 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.062582 | New value = -3.189049 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112949 | New value = -3.202210 | poltype: 2 pol: 2 CPU time specind = 2.3200035E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.44 | CG iter. 1 -- res = 0.13807E+08, tol = 0.97266E+01, time = 5.55 | CG iter. 2 -- res = 0.41337E+06, tol = 0.97266E+01, time = 5.19 | CG iter. 3 -- res = 0.19810E+06, tol = 0.97266E+01, time = 5.46 | CG iter. 4 -- res = 0.35637E+06, tol = 0.97266E+01, time = 5.51 | CG iter. 5 -- res = 0.33446E+06, tol = 0.97266E+01, time = 5.27 | CG iter. 6 -- res = 0.25632E+06, tol = 0.97266E+01, time = 5.67 | CG iter. 7 -- res = 0.18656E+06, tol = 0.97266E+01, time = 5.54 | CG iter. 8 -- res = 0.13200E+06, tol = 0.97266E+01, time = 5.75 | CG iter. 9 -- res = 0.11691E+06, tol = 0.97266E+01, time = 5.28 | CG iter. 10 -- res = 0.94078E+05, tol = 0.97266E+01, time = 5.71 | CG iter. 11 -- res = 0.66278E+05, tol = 0.97266E+01, time = 5.71 | CG iter. 12 -- res = 0.52071E+05, tol = 0.97266E+01, time = 5.58 | CG iter. 13 -- res = 0.45621E+05, tol = 0.97266E+01, time = 5.45 | CG iter. 14 -- res = 0.37030E+05, tol = 0.97266E+01, time = 5.60 | CG iter. 15 -- res = 0.25995E+05, tol = 0.97266E+01, time = 5.61 | CG iter. 16 -- res = 0.18094E+05, tol = 0.97266E+01, time = 5.46 | CG iter. 17 -- res = 0.14507E+05, tol = 0.97266E+01, time = 5.50 | CG iter. 18 -- res = 0.12515E+05, tol = 0.97266E+01, time = 5.45 | CG iter. 19 -- res = 0.10023E+05, tol = 0.97266E+01, time = 5.44 | CG iter. 20 -- res = 0.73069E+04, tol = 0.97266E+01, time = 5.78 | CG iter. 21 -- res = 0.55426E+04, tol = 0.97266E+01, time = 5.38 | CG iter. 22 -- res = 0.48508E+04, tol = 0.97266E+01, time = 5.22 | CG iter. 23 -- res = 0.40557E+04, tol = 0.97266E+01, time = 5.80 | CG iter. 24 -- res = 0.30236E+04, tol = 0.97266E+01, time = 5.46 | CG iter. 25 -- res = 0.23083E+04, tol = 0.97266E+01, time = 5.65 | CG iter. 26 -- res = 0.20612E+04, tol = 0.97266E+01, time = 5.59 | CG iter. 27 -- res = 0.18197E+04, tol = 0.97266E+01, time = 5.69 | CG iter. 28 -- res = 0.14420E+04, tol = 0.97266E+01, time = 5.52 | CG iter. 29 -- res = 0.10697E+04, tol = 0.97266E+01, time = 12.08 | CG iter. 30 -- res = 0.91897E+03, tol = 0.97266E+01, time = 5.53 | CG iter. 31 -- res = 0.83210E+03, tol = 0.97266E+01, time = 5.50 | CG iter. 32 -- res = 0.67504E+03, tol = 0.97266E+01, time = 5.58 | CG iter. 33 -- res = 0.51837E+03, tol = 0.97266E+01, time = 5.36 | CG iter. 34 -- res = 0.42352E+03, tol = 0.97266E+01, time = 5.48 | CG iter. 35 -- res = 0.38148E+03, tol = 0.97266E+01, time = 6.10 | CG iter. 36 -- res = 0.32411E+03, tol = 0.97266E+01, time = 5.43 | CG iter. 37 -- res = 0.25247E+03, tol = 0.97266E+01, time = 5.59 | CG iter. 38 -- res = 0.19769E+03, tol = 0.97266E+01, time = 5.73 | CG iter. 39 -- res = 0.16527E+03, tol = 0.97266E+01, time = 5.68 | CG iter. 40 -- res = 0.14373E+03, tol = 0.97266E+01, time = 5.47 | CG iter. 41 -- res = 0.11306E+03, tol = 0.97266E+01, time = 5.40 | CG iter. 42 -- res = 0.85856E+02, tol = 0.97266E+01, time = 5.67 | CG iter. 43 -- res = 0.72266E+02, tol = 0.97266E+01, time = 5.37 | CG iter. 44 -- res = 0.59239E+02, tol = 0.97266E+01, time = 6.78 | CG iter. 45 -- res = 0.47612E+02, tol = 0.97266E+01, time = 5.80 | CG iter. 46 -- res = 0.35515E+02, tol = 0.97266E+01, time = 5.87 | CG iter. 47 -- res = 0.28481E+02, tol = 0.97266E+01, time = 5.28 | CG iter. 48 -- res = 0.23892E+02, tol = 0.97266E+01, time = 5.59 | CG iter. 49 -- res = 0.19301E+02, tol = 0.97266E+01, time = 5.66 | CG iter. 50 -- res = 0.14457E+02, tol = 0.97266E+01, time = 5.60 | Final CG iter 51 -- res = 0.14457E+02, tol = 0.97266E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7633128.420 | Old band monopole 6943879.288 | Change to band monopole 689249.132 | Change to component monopole -689246.167 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.18889E+07, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.81868E+03, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.55415E+01, tol = 0.47627E+18, time = 1.83 | CG iter. 4 -- res = 0.12501E+00, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.36013E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7633095.588 | (Sampled value in CG: 7465255.366 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492564 | New value = 1.513204 | poltype: 2 pol: 1 CPU time specind = 1.8138170E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505282 | New value = 1.492887 | poltype: 2 pol: 2 CPU time specind = 1.5990973E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.61 | CG iter. 1 -- res = 0.24093E+08, tol = 0.47555E+04, time = 6.23 | CG iter. 2 -- res = 0.55099E+07, tol = 0.47555E+04, time = 6.23 | CG iter. 3 -- res = 0.87503E+06, tol = 0.47555E+04, time = 6.37 | CG iter. 4 -- res = 0.37395E+06, tol = 0.47555E+04, time = 6.34 | CG iter. 5 -- res = 0.16328E+06, tol = 0.47555E+04, time = 6.36 | CG iter. 6 -- res = 0.84837E+05, tol = 0.47555E+04, time = 6.14 | CG iter. 7 -- res = 0.45339E+05, tol = 0.47555E+04, time = 6.38 | CG iter. 8 -- res = 0.21661E+05, tol = 0.47555E+04, time = 6.60 | CG iter. 9 -- res = 0.94343E+04, tol = 0.47555E+04, time = 6.90 | CG iter. 10 -- res = 0.38152E+04, tol = 0.47555E+04, time = 11.89 | CG iter. 11 -- res = 0.17348E+04, tol = 0.47555E+04, time = 6.15 | CG iter. 12 -- res = 0.89994E+03, tol = 0.47555E+04, time = 6.42 | CG iter. 13 -- res = 0.51032E+03, tol = 0.47555E+04, time = 6.29 | CG iter. 14 -- res = 0.29035E+03, tol = 0.47555E+04, time = 7.09 | CG iter. 15 -- res = 0.14859E+03, tol = 0.47555E+04, time = 6.15 | CG iter. 16 -- res = 0.70806E+02, tol = 0.47555E+04, time = 6.17 | CG iter. 17 -- res = 0.33650E+02, tol = 0.47555E+04, time = 6.55 | CG iter. 18 -- res = 0.17161E+02, tol = 0.47555E+04, time = 5.98 | CG iter. 19 -- res = 0.93305E+01, tol = 0.47555E+04, time = 6.41 | CG iter. 20 -- res = 0.51860E+01, tol = 0.47555E+04, time = 6.02 | CG iter. 21 -- res = 0.27664E+01, tol = 0.47555E+04, time = 6.55 | CG iter. 22 -- res = 0.14166E+01, tol = 0.47555E+04, time = 6.70 | CG iter. 23 -- res = 0.68597E+00, tol = 0.47555E+04, time = 8.01 | CG iter. 24 -- res = 0.34665E+00, tol = 0.47555E+04, time = 6.90 | CG iter. 25 -- res = 0.19073E+00, tol = 0.47555E+04, time = 6.00 | CG iter. 26 -- res = 0.10966E+00, tol = 0.47555E+04, time = 6.56 | CG iter. 27 -- res = 0.62958E-01, tol = 0.47555E+04, time = 6.40 | CG iter. 28 -- res = 0.33732E-01, tol = 0.47555E+04, time = 6.14 | CG iter. 29 -- res = 0.17491E-01, tol = 0.47555E+04, time = 6.57 | CG iter. 30 -- res = 0.89522E-02, tol = 0.47555E+04, time = 6.38 | CG iter. 31 -- res = 0.48247E-02, tol = 0.47555E+04, time = 6.08 | CG iter. 32 -- res = 0.27757E-02, tol = 0.47555E+04, time = 6.57 | CG iter. 33 -- res = 0.15181E-02, tol = 0.47555E+04, time = 6.60 | CG iter. 34 -- res = 0.80755E-03, tol = 0.47555E+04, time = 6.43 | CG iter. 35 -- res = 0.41884E-03, tol = 0.47555E+04, time = 6.50 | Final CG iter 36 -- res = 0.41884E-03, tol = 0.47555E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.445 2.743 | New value -0.729 | Old value -3.445 | Difference 2.716 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.41452E+06, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.33524E+03, tol = 0.47627E+18, time = 1.85 | CG iter. 3 -- res = 0.47696E+01, tol = 0.47627E+18, time = 1.80 | Final CG iter 4 -- res = 0.43942E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7633095.588 | (Sampled value in CG: 7464755.281 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.676729 | New value = -3.540384 | poltype: 1 pol: 1 CPU time specind = 3.0848026E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.70 | CG iter. 1 -- res = 0.57850E+07, tol = 0.22929E+01, time = 2.59 | CG iter. 2 -- res = 0.31178E+07, tol = 0.22929E+01, time = 2.78 | CG iter. 3 -- res = 0.68746E+06, tol = 0.22929E+01, time = 2.11 | CG iter. 4 -- res = 0.32358E+06, tol = 0.22929E+01, time = 2.59 | CG iter. 5 -- res = 0.19026E+06, tol = 0.22929E+01, time = 2.45 | CG iter. 6 -- res = 0.82452E+05, tol = 0.22929E+01, time = 2.60 | CG iter. 7 -- res = 0.25623E+05, tol = 0.22929E+01, time = 2.51 | CG iter. 8 -- res = 0.10480E+05, tol = 0.22929E+01, time = 2.53 | CG iter. 9 -- res = 0.53089E+04, tol = 0.22929E+01, time = 2.50 | CG iter. 10 -- res = 0.22916E+04, tol = 0.22929E+01, time = 2.79 | CG iter. 11 -- res = 0.88802E+03, tol = 0.22929E+01, time = 2.37 | CG iter. 12 -- res = 0.42872E+03, tol = 0.22929E+01, time = 2.65 | CG iter. 13 -- res = 0.20889E+03, tol = 0.22929E+01, time = 2.71 | CG iter. 14 -- res = 0.10330E+03, tol = 0.22929E+01, time = 2.88 | CG iter. 15 -- res = 0.47909E+02, tol = 0.22929E+01, time = 2.70 | CG iter. 16 -- res = 0.20619E+02, tol = 0.22929E+01, time = 3.15 | CG iter. 17 -- res = 0.87211E+01, tol = 0.22929E+01, time = 2.29 | CG iter. 18 -- res = 0.42328E+01, tol = 0.22929E+01, time = 2.75 | CG iter. 19 -- res = 0.20887E+01, tol = 0.22929E+01, time = 2.66 | CG iter. 20 -- res = 0.10225E+01, tol = 0.22929E+01, time = 2.88 | CG iter. 21 -- res = 0.48129E+00, tol = 0.22929E+01, time = 2.52 | CG iter. 22 -- res = 0.21558E+00, tol = 0.22929E+01, time = 2.82 | CG iter. 23 -- res = 0.96853E-01, tol = 0.22929E+01, time = 2.44 | CG iter. 24 -- res = 0.45921E-01, tol = 0.22929E+01, time = 2.32 | CG iter. 25 -- res = 0.22509E-01, tol = 0.22929E+01, time = 2.83 | CG iter. 26 -- res = 0.10980E-01, tol = 0.22929E+01, time = 2.76 | CG iter. 27 -- res = 0.56864E-02, tol = 0.22929E+01, time = 2.67 | CG iter. 28 -- res = 0.27189E-02, tol = 0.22929E+01, time = 2.64 | CG iter. 29 -- res = 0.12509E-02, tol = 0.22929E+01, time = 2.66 | CG iter. 30 -- res = 0.60519E-03, tol = 0.22929E+01, time = 2.50 | CG iter. 31 -- res = 0.28956E-03, tol = 0.22929E+01, time = 2.65 | CG iter. 32 -- res = 0.14327E-03, tol = 0.22929E+01, time = 2.62 | CG iter. 33 -- res = 0.71772E-04, tol = 0.22929E+01, time = 2.79 | CG iter. 34 -- res = 0.34009E-04, tol = 0.22929E+01, time = 2.28 | CG iter. 35 -- res = 0.17077E-04, tol = 0.22929E+01, time = 2.78 | CG iter. 36 -- res = 0.82508E-05, tol = 0.22929E+01, time = 2.50 | CG iter. 37 -- res = 0.37845E-05, tol = 0.22929E+01, time = 2.69 | CG iter. 38 -- res = 0.19126E-05, tol = 0.22929E+01, time = 2.61 | CG iter. 39 -- res = 0.94051E-06, tol = 0.22929E+01, time = 2.77 | CG iter. 40 -- res = 0.46962E-06, tol = 0.22929E+01, time = 2.68 | CG iter. 41 -- res = 0.22126E-06, tol = 0.22929E+01, time = 2.41 | CG iter. 42 -- res = 0.10396E-06, tol = 0.22929E+01, time = 3.01 | CG iter. 43 -- res = 0.47504E-07, tol = 0.22929E+01, time = 2.37 | CG iter. 44 -- res = 0.22856E-07, tol = 0.22929E+01, time = 2.69 | CG iter. 45 -- res = 0.11246E-07, tol = 0.22929E+01, time = 2.61 | CG iter. 46 -- res = 0.54084E-08, tol = 0.22929E+01, time = 2.58 | CG iter. 47 -- res = 0.26269E-08, tol = 0.22929E+01, time = 2.71 | CG iter. 48 -- res = 0.12729E-08, tol = 0.22929E+01, time = 2.60 | CG iter. 49 -- res = 0.59777E-09, tol = 0.22929E+01, time = 2.64 | CG iter. 50 -- res = 0.27192E-09, tol = 0.22929E+01, time = 2.38 | Final CG iter 51 -- res = 0.27192E-09, tol = 0.22929E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -12.467 6.605 | New value -17.764 | Old value -12.467 | Difference -5.296 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.40827E+05, tol = 0.47627E+18, time = 1.96 | CG iter. 2 -- res = 0.10697E+03, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.24783E+01, tol = 0.47627E+18, time = 1.92 | CG iter. 4 -- res = 0.55511E-02, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.28910E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7633095.588 | (Sampled value in CG: 7508613.214 ) | CPU time specind = 1155.921 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.68831E+08, tol = 0.57614E+04, time = 11.50 | CG iter. 2 -- res = 0.59081E+08, tol = 0.57614E+04, time = 12.96 | CG iter. 3 -- res = 0.15540E+08, tol = 0.57614E+04, time = 11.90 | CG iter. 4 -- res = 0.65736E+07, tol = 0.57614E+04, time = 11.67 | CG iter. 5 -- res = 0.39378E+07, tol = 0.57614E+04, time = 11.79 | CG iter. 6 -- res = 0.22951E+07, tol = 0.57614E+04, time = 11.70 | CG iter. 7 -- res = 0.14209E+07, tol = 0.57614E+04, time = 11.25 | CG iter. 8 -- res = 0.99689E+06, tol = 0.57614E+04, time = 11.53 | CG iter. 9 -- res = 0.66645E+06, tol = 0.57614E+04, time = 11.81 | CG iter. 10 -- res = 0.42990E+06, tol = 0.57614E+04, time = 11.64 | CG iter. 11 -- res = 0.25706E+06, tol = 0.57614E+04, time = 12.03 | CG iter. 12 -- res = 0.16797E+06, tol = 0.57614E+04, time = 11.59 | CG iter. 13 -- res = 0.12828E+06, tol = 0.57614E+04, time = 11.00 | CG iter. 14 -- res = 0.11646E+06, tol = 0.57614E+04, time = 11.64 | CG iter. 15 -- res = 0.11782E+06, tol = 0.57614E+04, time = 11.35 | CG iter. 16 -- res = 0.12423E+06, tol = 0.57614E+04, time = 11.46 | CG iter. 17 -- res = 0.12515E+06, tol = 0.57614E+04, time = 11.42 | CG iter. 18 -- res = 0.11537E+06, tol = 0.57614E+04, time = 11.72 | CG iter. 19 -- res = 0.10035E+06, tol = 0.57614E+04, time = 11.61 | CG iter. 20 -- res = 0.88195E+05, tol = 0.57614E+04, time = 17.65 | CG iter. 21 -- res = 0.76530E+05, tol = 0.57614E+04, time = 11.55 | CG iter. 22 -- res = 0.69001E+05, tol = 0.57614E+04, time = 11.68 | CG iter. 23 -- res = 0.61340E+05, tol = 0.57614E+04, time = 11.27 | CG iter. 24 -- res = 0.52227E+05, tol = 0.57614E+04, time = 11.18 | CG iter. 25 -- res = 0.39942E+05, tol = 0.57614E+04, time = 11.43 | CG iter. 26 -- res = 0.29102E+05, tol = 0.57614E+04, time = 11.52 | CG iter. 27 -- res = 0.22757E+05, tol = 0.57614E+04, time = 12.81 | CG iter. 28 -- res = 0.18996E+05, tol = 0.57614E+04, time = 12.16 | CG iter. 29 -- res = 0.17345E+05, tol = 0.57614E+04, time = 11.42 | CG iter. 30 -- res = 0.16891E+05, tol = 0.57614E+04, time = 11.67 | CG iter. 31 -- res = 0.16051E+05, tol = 0.57614E+04, time = 11.48 | CG iter. 32 -- res = 0.14105E+05, tol = 0.57614E+04, time = 11.89 | CG iter. 33 -- res = 0.12095E+05, tol = 0.57614E+04, time = 11.42 | CG iter. 34 -- res = 0.10005E+05, tol = 0.57614E+04, time = 11.29 | CG iter. 35 -- res = 0.84689E+04, tol = 0.57614E+04, time = 11.84 | CG iter. 36 -- res = 0.73940E+04, tol = 0.57614E+04, time = 11.97 | CG iter. 37 -- res = 0.66547E+04, tol = 0.57614E+04, time = 11.23 | CG iter. 38 -- res = 0.58440E+04, tol = 0.57614E+04, time = 11.51 | CG iter. 39 -- res = 0.49872E+04, tol = 0.57614E+04, time = 11.62 | CG iter. 40 -- res = 0.40990E+04, tol = 0.57614E+04, time = 11.68 | CG iter. 41 -- res = 0.34628E+04, tol = 0.57614E+04, time = 11.21 | CG iter. 42 -- res = 0.30850E+04, tol = 0.57614E+04, time = 11.39 | CG iter. 43 -- res = 0.27881E+04, tol = 0.57614E+04, time = 11.30 | CG iter. 44 -- res = 0.26790E+04, tol = 0.57614E+04, time = 11.56 | CG iter. 45 -- res = 0.25534E+04, tol = 0.57614E+04, time = 17.66 | CG iter. 46 -- res = 0.23549E+04, tol = 0.57614E+04, time = 11.48 | CG iter. 47 -- res = 0.20985E+04, tol = 0.57614E+04, time = 11.83 | CG iter. 48 -- res = 0.17918E+04, tol = 0.57614E+04, time = 11.49 | CG iter. 49 -- res = 0.15221E+04, tol = 0.57614E+04, time = 11.14 | CG iter. 50 -- res = 0.13258E+04, tol = 0.57614E+04, time = 11.77 | CG iter. 51 -- res = 0.12174E+04, tol = 0.57614E+04, time = 11.54 | CG iter. 52 -- res = 0.11719E+04, tol = 0.57614E+04, time = 11.59 | CG iter. 53 -- res = 0.10862E+04, tol = 0.57614E+04, time = 13.03 | CG iter. 54 -- res = 0.93888E+03, tol = 0.57614E+04, time = 11.46 | CG iter. 55 -- res = 0.79532E+03, tol = 0.57614E+04, time = 11.50 | CG iter. 56 -- res = 0.70231E+03, tol = 0.57614E+04, time = 11.49 | CG iter. 57 -- res = 0.65141E+03, tol = 0.57614E+04, time = 11.44 | CG iter. 58 -- res = 0.62097E+03, tol = 0.57614E+04, time = 11.05 | CG iter. 59 -- res = 0.59497E+03, tol = 0.57614E+04, time = 11.41 | CG iter. 60 -- res = 0.55863E+03, tol = 0.57614E+04, time = 11.34 | Final CG iter 61 -- res = 0.55863E+03, tol = 0.57614E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.943 ( -229.575 -2229.976 2512.452 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 6009300.025 | Old band monopole 7633128.420 | Change to band monopole -1623828.395 | Change to component monopole 1623821.410 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.717 2.729 | New value -1.657 | Old value -0.717 | Difference -0.940 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.409 ( 6.558 10.393 -9.977 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -7.472 5.790 | New value 0.328 | Old value -7.472 | Difference 7.800 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.63 | CG iter. 1 -- res = 0.41378E+06, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.12672E+03, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.38927E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.44521E-02, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.25727E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 6009274.178 | (Sampled value in CG: 5984888.735 ) | Chain = 1 -- chisq = 0.81556246E+09 | Chain = 1 -- wall time = 18130.337 sec Available RAM: MemAvailable: 499459968 kB Available Swap: SwapFree: 1054885136 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 417 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444662 | --> Sampling calibration, mode = relcal | relcal = 1.3433948E-02 7.4720371E-04 -1.6006671E-03 -1.2580485E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1588029 0.1809102 97040170.1568272 | BP delta = 0.1449127 0.1670199 97040173.7305911 | BP chisq diff = 3.6, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632400 | --> Sampling calibration, mode = relcal | relcal = -2.8212024E-03 -7.0403807E-04 1.6781061E-03 1.6149746E-03 -4.0762580E-04 6.3978549E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5478514 15218059.7479366 | BP delta = 0.0000000E+00 -0.5370846 15218064.9432941 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18012920860811 | --> Sampling calibration, mode = relcal | relcal = -7.4407227E-02 -5.8010895E-02 9.1215648E-02 4.1202471E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9195202E-04 3.6335303E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.6862E-05 | 2: delta_r/delta_0: 1.6216E-06 | 3: delta_s/delta_0: 2.2256E-07 | 4: delta_r/delta_0: 1.4802E-08 | 5: delta_s/delta_0: 3.6034E-09 | 6: delta_r/delta_0: 1.0637E-09 | 7: delta_s/delta_0: 8.2595E-08 | 8: delta_r/delta_0: 1.8894E-09 | 9: delta_s/delta_0: 1.7805E-09 | 10: delta_r/delta_0: 4.9302E-10 | 11: delta_s/delta_0: 1.9864E-09 | 12: delta_r/delta_0: 5.6251E-10 | 13: delta_s/delta_0: 1.0539E-09 | 14: delta_r/delta_0: 6.6006E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.660009223215080E-004 2.743200001576492E-005 | BP delta = 6.6477910E-02 9.1024943E-02 50483772.4275105 | BP delta = 6.4251810E-02 8.8798836E-02 50483771.5712086 | BP chisq diff = -0.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02595932 | --> Sampling calibration, mode = relcal | relcal = -0.1067086 -9.5548846E-02 0.1448990 5.7358447E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6821406E-03 1.4547852E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1010E-04 | 2: delta_r/delta_0: 2.4155E-06 | 3: delta_s/delta_0: 2.1163E-07 | 4: delta_r/delta_0: 4.5696E-08 | 5: delta_s/delta_0: 3.8514E-08 | 6: delta_r/delta_0: 7.5636E-09 | 7: delta_s/delta_0: 6.8192E-09 | 8: delta_r/delta_0: 1.8106E-09 | 9: delta_s/delta_0: 8.3986E-10 | 10: delta_r/delta_0: 6.2637E-10 | 11: delta_s/delta_0: 9.6782E-10 | 12: delta_r/delta_0: 1.1303E-10 | 13: delta_s/delta_0: 1.0327E-10 | 14: delta_r/delta_0: 1.6809E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.056885306450879E-002 2.810942034986556E-005 | BP delta = -0.2056647 -0.1728926 57389596.4279136 | BP delta = -0.2054391 -0.1726670 57389596.4664946 | BP chisq diff = 0.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81222035 | --> Sampling calibration, mode = relcal | relcal = 0.2955008 0.2248552 -0.2837512 -0.2366048 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.2758580E-03 4.7406862E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2980E-01 | 2: delta_r/delta_0: 5.4013E-03 | 3: delta_s/delta_0: 3.4788E-05 | 4: delta_r/delta_0: 5.0356E-06 | 5: delta_s/delta_0: 1.9096E-02 | 6: delta_r/delta_0: 4.8731E-03 | 7: delta_s/delta_0: 1.4350E-06 | 8: delta_r/delta_0: 2.0507E-07 | 9: delta_s/delta_0: 1.8952E-06 | 10: delta_r/delta_0: 1.9135E-08 | 11: delta_s/delta_0: 2.7334E-06 | 12: delta_r/delta_0: 1.3909E-06 | 13: delta_s/delta_0: 1.2665E-09 | 14: delta_r/delta_0: 7.2322E-10 | 15: delta_s/delta_0: 2.0715E-10 | 16: delta_r/delta_0: 1.0841E-10 | 17: delta_s/delta_0: 5.4593E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.908208432393680E-002 4.021803155800993E-005 | BP delta = -0.1268533 -0.1631355 72491819.2912946 | BP delta = -0.1051371 -0.1414193 72491819.5661207 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95911307 | --> Sampling calibration, mode = relcal | relcal = 0.1064911 0.1395149 -0.1102572 -0.1357488 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.2380270E-03 1.3151707E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.4622E-04 | 2: delta_r/delta_0: 6.2719E-06 | 3: delta_s/delta_0: 1.4377E-02 | 4: delta_r/delta_0: 6.7423E-04 | 5: delta_s/delta_0: 2.0782E-07 | 6: delta_r/delta_0: 1.0698E-07 | 7: delta_s/delta_0: 4.5529E-07 | 8: delta_r/delta_0: 2.7833E-08 | 9: delta_s/delta_0: 1.3601E-08 | 10: delta_r/delta_0: 1.5487E-09 | 11: delta_s/delta_0: 1.5068E-09 | 12: delta_r/delta_0: 9.4824E-10 | 13: delta_s/delta_0: 7.3013E-10 | 14: delta_r/delta_0: 9.9253E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.053061198290790E-002 3.697324609362923E-005 | BP delta = 8.2295142E-02 0.1973698 72785246.1517881 | BP delta = 0.1037263 0.2188010 72785245.4663627 | BP chisq diff = -0.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142437 | New value = -3.125434 | poltype: 2 pol: 1 CPU time specind = 1.7586946E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.095355 | New value = -3.221448 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.135145 | New value = -3.138519 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.189049 | New value = -3.202887 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.202210 | New value = -3.099879 | poltype: 2 pol: 2 CPU time specind = 2.3890018E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.13561E+08, tol = 0.10376E+02, time = 6.31 | CG iter. 2 -- res = 0.33425E+06, tol = 0.10376E+02, time = 5.87 | CG iter. 3 -- res = 0.47777E+05, tol = 0.10376E+02, time = 6.98 | CG iter. 4 -- res = 0.21747E+05, tol = 0.10376E+02, time = 5.98 | CG iter. 5 -- res = 0.11485E+05, tol = 0.10376E+02, time = 7.70 | CG iter. 6 -- res = 0.66887E+04, tol = 0.10376E+02, time = 7.62 | CG iter. 7 -- res = 0.49343E+04, tol = 0.10376E+02, time = 8.07 | CG iter. 8 -- res = 0.37915E+04, tol = 0.10376E+02, time = 8.07 | CG iter. 9 -- res = 0.31206E+04, tol = 0.10376E+02, time = 8.56 | CG iter. 10 -- res = 0.32875E+04, tol = 0.10376E+02, time = 8.35 | CG iter. 11 -- res = 0.29781E+04, tol = 0.10376E+02, time = 8.76 | CG iter. 12 -- res = 0.21117E+04, tol = 0.10376E+02, time = 8.30 | CG iter. 13 -- res = 0.14544E+04, tol = 0.10376E+02, time = 7.94 | CG iter. 14 -- res = 0.10539E+04, tol = 0.10376E+02, time = 8.27 | CG iter. 15 -- res = 0.85732E+03, tol = 0.10376E+02, time = 13.96 | CG iter. 16 -- res = 0.70446E+03, tol = 0.10376E+02, time = 8.29 | CG iter. 17 -- res = 0.49612E+03, tol = 0.10376E+02, time = 8.23 | CG iter. 18 -- res = 0.36159E+03, tol = 0.10376E+02, time = 8.67 | CG iter. 19 -- res = 0.29921E+03, tol = 0.10376E+02, time = 8.14 | CG iter. 20 -- res = 0.24686E+03, tol = 0.10376E+02, time = 8.36 | CG iter. 21 -- res = 0.18113E+03, tol = 0.10376E+02, time = 6.30 | CG iter. 22 -- res = 0.13030E+03, tol = 0.10376E+02, time = 5.63 | CG iter. 23 -- res = 0.10503E+03, tol = 0.10376E+02, time = 6.05 | CG iter. 24 -- res = 0.89736E+02, tol = 0.10376E+02, time = 5.78 | CG iter. 25 -- res = 0.69256E+02, tol = 0.10376E+02, time = 5.93 | CG iter. 26 -- res = 0.49335E+02, tol = 0.10376E+02, time = 6.11 | CG iter. 27 -- res = 0.37341E+02, tol = 0.10376E+02, time = 5.70 | CG iter. 28 -- res = 0.31297E+02, tol = 0.10376E+02, time = 7.06 | CG iter. 29 -- res = 0.24733E+02, tol = 0.10376E+02, time = 6.48 | CG iter. 30 -- res = 0.18955E+02, tol = 0.10376E+02, time = 5.94 | CG iter. 31 -- res = 0.14819E+02, tol = 0.10376E+02, time = 6.38 | CG iter. 32 -- res = 0.12625E+02, tol = 0.10376E+02, time = 5.90 | CG iter. 33 -- res = 0.10690E+02, tol = 0.10376E+02, time = 6.01 | CG iter. 34 -- res = 0.83504E+01, tol = 0.10376E+02, time = 6.31 | CG iter. 35 -- res = 0.64511E+01, tol = 0.10376E+02, time = 5.84 | CG iter. 36 -- res = 0.54362E+01, tol = 0.10376E+02, time = 6.16 | CG iter. 37 -- res = 0.47497E+01, tol = 0.10376E+02, time = 5.89 | CG iter. 38 -- res = 0.39097E+01, tol = 0.10376E+02, time = 5.97 | CG iter. 39 -- res = 0.30510E+01, tol = 0.10376E+02, time = 5.85 | CG iter. 40 -- res = 0.24288E+01, tol = 0.10376E+02, time = 5.77 | CG iter. 41 -- res = 0.20933E+01, tol = 0.10376E+02, time = 6.03 | CG iter. 42 -- res = 0.16998E+01, tol = 0.10376E+02, time = 6.46 | CG iter. 43 -- res = 0.12958E+01, tol = 0.10376E+02, time = 5.89 | CG iter. 44 -- res = 0.10361E+01, tol = 0.10376E+02, time = 6.02 | CG iter. 45 -- res = 0.86263E+00, tol = 0.10376E+02, time = 5.50 | CG iter. 46 -- res = 0.71635E+00, tol = 0.10376E+02, time = 6.13 | CG iter. 47 -- res = 0.57271E+00, tol = 0.10376E+02, time = 6.23 | CG iter. 48 -- res = 0.44343E+00, tol = 0.10376E+02, time = 5.93 | CG iter. 49 -- res = 0.36967E+00, tol = 0.10376E+02, time = 6.11 | CG iter. 50 -- res = 0.30667E+00, tol = 0.10376E+02, time = 6.21 | Final CG iter 51 -- res = 0.30667E+00, tol = 0.10376E+02 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9311806.676 | Old band monopole 6009300.025 | Change to band monopole 3302506.651 | Change to component monopole -3302492.447 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.89204E+05, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.47883E+02, tol = 0.47627E+18, time = 2.33 | CG iter. 3 -- res = 0.21351E+01, tol = 0.47627E+18, time = 1.93 | CG iter. 4 -- res = 0.32902E-02, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.29040E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9311766.624 | (Sampled value in CG: 9333709.695 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.513204 | New value = 1.524171 | poltype: 2 pol: 1 CPU time specind = 3.3875942E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.492887 | New value = 1.556180 | poltype: 2 pol: 2 CPU time specind = 1.1151075E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.24050E+08, tol = 0.47592E+04, time = 6.57 | CG iter. 2 -- res = 0.54404E+07, tol = 0.47592E+04, time = 7.33 | CG iter. 3 -- res = 0.87103E+06, tol = 0.47592E+04, time = 6.91 | CG iter. 4 -- res = 0.36524E+06, tol = 0.47592E+04, time = 6.89 | CG iter. 5 -- res = 0.15821E+06, tol = 0.47592E+04, time = 7.13 | CG iter. 6 -- res = 0.80425E+05, tol = 0.47592E+04, time = 8.12 | CG iter. 7 -- res = 0.44378E+05, tol = 0.47592E+04, time = 7.46 | CG iter. 8 -- res = 0.21855E+05, tol = 0.47592E+04, time = 7.00 | CG iter. 9 -- res = 0.95506E+04, tol = 0.47592E+04, time = 7.00 | CG iter. 10 -- res = 0.38882E+04, tol = 0.47592E+04, time = 6.69 | CG iter. 11 -- res = 0.16903E+04, tol = 0.47592E+04, time = 6.76 | CG iter. 12 -- res = 0.87449E+03, tol = 0.47592E+04, time = 6.86 | CG iter. 13 -- res = 0.50025E+03, tol = 0.47592E+04, time = 6.28 | CG iter. 14 -- res = 0.28255E+03, tol = 0.47592E+04, time = 6.84 | CG iter. 15 -- res = 0.14726E+03, tol = 0.47592E+04, time = 7.02 | CG iter. 16 -- res = 0.69825E+02, tol = 0.47592E+04, time = 6.82 | CG iter. 17 -- res = 0.32531E+02, tol = 0.47592E+04, time = 7.17 | CG iter. 18 -- res = 0.16225E+02, tol = 0.47592E+04, time = 7.24 | CG iter. 19 -- res = 0.86850E+01, tol = 0.47592E+04, time = 6.64 | CG iter. 20 -- res = 0.48888E+01, tol = 0.47592E+04, time = 6.12 | CG iter. 21 -- res = 0.27521E+01, tol = 0.47592E+04, time = 7.39 | CG iter. 22 -- res = 0.14048E+01, tol = 0.47592E+04, time = 7.11 | CG iter. 23 -- res = 0.70102E+00, tol = 0.47592E+04, time = 6.47 | CG iter. 24 -- res = 0.34901E+00, tol = 0.47592E+04, time = 7.11 | CG iter. 25 -- res = 0.18235E+00, tol = 0.47592E+04, time = 6.87 | CG iter. 26 -- res = 0.10153E+00, tol = 0.47592E+04, time = 6.81 | CG iter. 27 -- res = 0.57865E-01, tol = 0.47592E+04, time = 7.24 | CG iter. 28 -- res = 0.31194E-01, tol = 0.47592E+04, time = 6.82 | CG iter. 29 -- res = 0.15746E-01, tol = 0.47592E+04, time = 7.23 | CG iter. 30 -- res = 0.80342E-02, tol = 0.47592E+04, time = 6.69 | CG iter. 31 -- res = 0.42900E-02, tol = 0.47592E+04, time = 7.08 | CG iter. 32 -- res = 0.24217E-02, tol = 0.47592E+04, time = 6.92 | CG iter. 33 -- res = 0.13767E-02, tol = 0.47592E+04, time = 6.60 | CG iter. 34 -- res = 0.77160E-03, tol = 0.47592E+04, time = 7.01 | CG iter. 35 -- res = 0.40443E-03, tol = 0.47592E+04, time = 7.47 | Final CG iter 36 -- res = 0.40443E-03, tol = 0.47592E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.678 2.706 | New value 2.515 | Old value -1.678 | Difference 4.192 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.91114E+06, tol = 0.47627E+18, time = 2.14 | CG iter. 2 -- res = 0.22267E+02, tol = 0.47627E+18, time = 2.42 | CG iter. 3 -- res = 0.41357E+00, tol = 0.47627E+18, time = 2.15 | Final CG iter 4 -- res = 0.32194E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9311766.624 | (Sampled value in CG: 9333236.390 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.540384 | New value = -3.532997 | poltype: 1 pol: 1 CPU time specind = 1.6307831E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.02 | CG iter. 1 -- res = 0.20299E+07, tol = 0.25951E+01, time = 2.91 | CG iter. 2 -- res = 0.72261E+06, tol = 0.25951E+01, time = 4.20 | CG iter. 3 -- res = 0.13188E+06, tol = 0.25951E+01, time = 3.11 | CG iter. 4 -- res = 0.49874E+05, tol = 0.25951E+01, time = 2.91 | CG iter. 5 -- res = 0.26195E+05, tol = 0.25951E+01, time = 2.84 | CG iter. 6 -- res = 0.14981E+05, tol = 0.25951E+01, time = 2.95 | CG iter. 7 -- res = 0.66519E+04, tol = 0.25951E+01, time = 3.08 | CG iter. 8 -- res = 0.29895E+04, tol = 0.25951E+01, time = 2.87 | CG iter. 9 -- res = 0.13098E+04, tol = 0.25951E+01, time = 2.90 | CG iter. 10 -- res = 0.50249E+03, tol = 0.25951E+01, time = 2.88 | CG iter. 11 -- res = 0.20801E+03, tol = 0.25951E+01, time = 2.87 | CG iter. 12 -- res = 0.10203E+03, tol = 0.25951E+01, time = 3.19 | CG iter. 13 -- res = 0.54058E+02, tol = 0.25951E+01, time = 2.59 | CG iter. 14 -- res = 0.25602E+02, tol = 0.25951E+01, time = 2.93 | CG iter. 15 -- res = 0.12015E+02, tol = 0.25951E+01, time = 2.89 | CG iter. 16 -- res = 0.53259E+01, tol = 0.25951E+01, time = 2.94 | CG iter. 17 -- res = 0.22721E+01, tol = 0.25951E+01, time = 2.78 | CG iter. 18 -- res = 0.10365E+01, tol = 0.25951E+01, time = 2.81 | CG iter. 19 -- res = 0.50983E+00, tol = 0.25951E+01, time = 3.10 | CG iter. 20 -- res = 0.26991E+00, tol = 0.25951E+01, time = 3.08 | CG iter. 21 -- res = 0.13674E+00, tol = 0.25951E+01, time = 2.77 | CG iter. 22 -- res = 0.63388E-01, tol = 0.25951E+01, time = 2.60 | CG iter. 23 -- res = 0.29829E-01, tol = 0.25951E+01, time = 3.03 | CG iter. 24 -- res = 0.13699E-01, tol = 0.25951E+01, time = 2.81 | CG iter. 25 -- res = 0.66629E-02, tol = 0.25951E+01, time = 3.91 | CG iter. 26 -- res = 0.33003E-02, tol = 0.25951E+01, time = 3.52 | CG iter. 27 -- res = 0.17179E-02, tol = 0.25951E+01, time = 3.39 | CG iter. 28 -- res = 0.85254E-03, tol = 0.25951E+01, time = 3.27 | CG iter. 29 -- res = 0.39535E-03, tol = 0.25951E+01, time = 2.81 | CG iter. 30 -- res = 0.18244E-03, tol = 0.25951E+01, time = 3.12 | CG iter. 31 -- res = 0.83705E-04, tol = 0.25951E+01, time = 3.04 | CG iter. 32 -- res = 0.42208E-04, tol = 0.25951E+01, time = 3.15 | CG iter. 33 -- res = 0.20554E-04, tol = 0.25951E+01, time = 2.66 | CG iter. 34 -- res = 0.98137E-05, tol = 0.25951E+01, time = 2.84 | CG iter. 35 -- res = 0.47595E-05, tol = 0.25951E+01, time = 2.84 | CG iter. 36 -- res = 0.23189E-05, tol = 0.25951E+01, time = 2.77 | CG iter. 37 -- res = 0.10447E-05, tol = 0.25951E+01, time = 3.03 | CG iter. 38 -- res = 0.51544E-06, tol = 0.25951E+01, time = 2.68 | CG iter. 39 -- res = 0.24935E-06, tol = 0.25951E+01, time = 2.83 | CG iter. 40 -- res = 0.12272E-06, tol = 0.25951E+01, time = 2.78 | CG iter. 41 -- res = 0.61880E-07, tol = 0.25951E+01, time = 2.93 | CG iter. 42 -- res = 0.29201E-07, tol = 0.25951E+01, time = 2.82 | CG iter. 43 -- res = 0.13301E-07, tol = 0.25951E+01, time = 3.13 | CG iter. 44 -- res = 0.63227E-08, tol = 0.25951E+01, time = 2.88 | CG iter. 45 -- res = 0.31612E-08, tol = 0.25951E+01, time = 2.84 | CG iter. 46 -- res = 0.15999E-08, tol = 0.25951E+01, time = 2.85 | CG iter. 47 -- res = 0.77275E-09, tol = 0.25951E+01, time = 2.84 | CG iter. 48 -- res = 0.37816E-09, tol = 0.25951E+01, time = 2.93 | CG iter. 49 -- res = 0.17500E-09, tol = 0.25951E+01, time = 2.72 | CG iter. 50 -- res = 0.79602E-10, tol = 0.25951E+01, time = 2.87 | Final CG iter 51 -- res = 0.79602E-10, tol = 0.25951E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 2.201 5.342 | New value 7.943 | Old value 2.201 | Difference 5.743 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.33677E+05, tol = 0.47627E+18, time = 2.39 | CG iter. 2 -- res = 0.25513E+02, tol = 0.47627E+18, time = 2.57 | CG iter. 3 -- res = 0.11044E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.19952E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.44053E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9311766.624 | (Sampled value in CG: 9330041.249 ) | CPU time specind = 1286.763 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.68242E+08, tol = 0.57646E+04, time = 12.58 | CG iter. 2 -- res = 0.58560E+08, tol = 0.57646E+04, time = 12.61 | CG iter. 3 -- res = 0.15164E+08, tol = 0.57646E+04, time = 12.65 | CG iter. 4 -- res = 0.64844E+07, tol = 0.57646E+04, time = 18.80 | CG iter. 5 -- res = 0.38067E+07, tol = 0.57646E+04, time = 12.05 | CG iter. 6 -- res = 0.21722E+07, tol = 0.57646E+04, time = 12.21 | CG iter. 7 -- res = 0.12993E+07, tol = 0.57646E+04, time = 12.70 | CG iter. 8 -- res = 0.88075E+06, tol = 0.57646E+04, time = 13.80 | CG iter. 9 -- res = 0.56256E+06, tol = 0.57646E+04, time = 12.22 | CG iter. 10 -- res = 0.33369E+06, tol = 0.57646E+04, time = 12.00 | CG iter. 11 -- res = 0.17955E+06, tol = 0.57646E+04, time = 14.32 | CG iter. 12 -- res = 0.95359E+05, tol = 0.57646E+04, time = 13.05 | CG iter. 13 -- res = 0.50097E+05, tol = 0.57646E+04, time = 12.20 | CG iter. 14 -- res = 0.28240E+05, tol = 0.57646E+04, time = 12.38 | CG iter. 15 -- res = 0.17690E+05, tol = 0.57646E+04, time = 12.53 | CG iter. 16 -- res = 0.12228E+05, tol = 0.57646E+04, time = 12.60 | CG iter. 17 -- res = 0.87457E+04, tol = 0.57646E+04, time = 12.63 | CG iter. 18 -- res = 0.60154E+04, tol = 0.57646E+04, time = 12.79 | CG iter. 19 -- res = 0.39211E+04, tol = 0.57646E+04, time = 12.21 | CG iter. 20 -- res = 0.25389E+04, tol = 0.57646E+04, time = 12.20 | CG iter. 21 -- res = 0.17315E+04, tol = 0.57646E+04, time = 12.26 | CG iter. 22 -- res = 0.13835E+04, tol = 0.57646E+04, time = 12.38 | CG iter. 23 -- res = 0.12404E+04, tol = 0.57646E+04, time = 12.70 | CG iter. 24 -- res = 0.12218E+04, tol = 0.57646E+04, time = 12.10 | CG iter. 25 -- res = 0.12583E+04, tol = 0.57646E+04, time = 12.65 | CG iter. 26 -- res = 0.12580E+04, tol = 0.57646E+04, time = 12.60 | CG iter. 27 -- res = 0.12019E+04, tol = 0.57646E+04, time = 12.73 | CG iter. 28 -- res = 0.10758E+04, tol = 0.57646E+04, time = 18.68 | CG iter. 29 -- res = 0.96825E+03, tol = 0.57646E+04, time = 12.44 | CG iter. 30 -- res = 0.89456E+03, tol = 0.57646E+04, time = 12.66 | CG iter. 31 -- res = 0.81348E+03, tol = 0.57646E+04, time = 12.29 | CG iter. 32 -- res = 0.74211E+03, tol = 0.57646E+04, time = 13.07 | CG iter. 33 -- res = 0.62058E+03, tol = 0.57646E+04, time = 12.28 | CG iter. 34 -- res = 0.45619E+03, tol = 0.57646E+04, time = 13.71 | CG iter. 35 -- res = 0.33340E+03, tol = 0.57646E+04, time = 13.77 | CG iter. 36 -- res = 0.25525E+03, tol = 0.57646E+04, time = 12.07 | CG iter. 37 -- res = 0.21377E+03, tol = 0.57646E+04, time = 12.27 | CG iter. 38 -- res = 0.18462E+03, tol = 0.57646E+04, time = 12.59 | CG iter. 39 -- res = 0.16692E+03, tol = 0.57646E+04, time = 12.17 | CG iter. 40 -- res = 0.15160E+03, tol = 0.57646E+04, time = 12.28 | CG iter. 41 -- res = 0.13253E+03, tol = 0.57646E+04, time = 12.55 | CG iter. 42 -- res = 0.11199E+03, tol = 0.57646E+04, time = 12.47 | CG iter. 43 -- res = 0.97355E+02, tol = 0.57646E+04, time = 13.28 | CG iter. 44 -- res = 0.87906E+02, tol = 0.57646E+04, time = 12.15 | CG iter. 45 -- res = 0.82254E+02, tol = 0.57646E+04, time = 12.52 | CG iter. 46 -- res = 0.76068E+02, tol = 0.57646E+04, time = 12.39 | CG iter. 47 -- res = 0.68639E+02, tol = 0.57646E+04, time = 11.76 | CG iter. 48 -- res = 0.57208E+02, tol = 0.57646E+04, time = 12.54 | CG iter. 49 -- res = 0.45679E+02, tol = 0.57646E+04, time = 12.50 | CG iter. 50 -- res = 0.37443E+02, tol = 0.57646E+04, time = 12.80 | CG iter. 51 -- res = 0.32237E+02, tol = 0.57646E+04, time = 18.41 | CG iter. 52 -- res = 0.28612E+02, tol = 0.57646E+04, time = 12.85 | CG iter. 53 -- res = 0.26181E+02, tol = 0.57646E+04, time = 12.28 | CG iter. 54 -- res = 0.23904E+02, tol = 0.57646E+04, time = 12.27 | CG iter. 55 -- res = 0.21323E+02, tol = 0.57646E+04, time = 12.37 | CG iter. 56 -- res = 0.18685E+02, tol = 0.57646E+04, time = 11.99 | CG iter. 57 -- res = 0.16631E+02, tol = 0.57646E+04, time = 12.22 | CG iter. 58 -- res = 0.15063E+02, tol = 0.57646E+04, time = 13.83 | CG iter. 59 -- res = 0.14203E+02, tol = 0.57646E+04, time = 12.79 | CG iter. 60 -- res = 0.13526E+02, tol = 0.57646E+04, time = 13.04 | Final CG iter 61 -- res = 0.13526E+02, tol = 0.57646E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.904 ( -229.543 -2230.353 2512.874 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8291016.082 | Old band monopole 9311806.676 | Change to band monopole -1020790.594 | Change to component monopole 1020786.203 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.586 2.743 | New value -3.662 | Old value 2.586 | Difference -6.248 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.311 ( 6.256 11.503 -11.519 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.057 4.102 | New value 0.909 | Old value 13.057 | Difference -12.148 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.20314E+07, tol = 0.47627E+18, time = 2.24 | CG iter. 2 -- res = 0.24082E+02, tol = 0.47627E+18, time = 2.06 | CG iter. 3 -- res = 0.79696E+00, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.20981E-02, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.11566E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8290980.421 | (Sampled value in CG: 8268144.250 ) | Chain = 1 -- chisq = 0.81537350E+09 | Chain = 1 -- wall time = 5942.539 sec Available RAM: MemAvailable: 377081036 kB Available Swap: SwapFree: 1128202000 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 418 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443651 | --> Sampling calibration, mode = relcal | relcal = 1.3426949E-02 7.5076520E-04 -1.5972167E-03 -1.2580498E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1449127 0.1670199 9402680.97036710 | BP delta = 0.1449127 0.1638045 9402649.91843418 | BP chisq diff = -31.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632540 | --> Sampling calibration, mode = relcal | relcal = -2.8217668E-03 -7.0477201E-04 1.6780712E-03 1.6140883E-03 -4.0865061E-04 6.4302987E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5478514 15215612.2600480 | BP delta = 0.0000000E+00 -0.5514104 15215609.9629774 | BP chisq diff = -2.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18113828508582 | --> Sampling calibration, mode = relcal | relcal = -7.5042628E-02 -5.8512457E-02 9.1911346E-02 4.1643742E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.2868007E-04 4.9786940E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0828E-05 | 2: delta_r/delta_0: 8.9262E-07 | 3: delta_s/delta_0: 2.2230E-07 | 4: delta_r/delta_0: 1.8940E-08 | 5: delta_s/delta_0: 4.6573E-09 | 6: delta_r/delta_0: 1.5619E-09 | 7: delta_s/delta_0: 8.0057E-10 | 8: delta_r/delta_0: 5.6852E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.797943521176618E-004 2.740760412419610E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0828E-05 | 2: delta_r/delta_0: 8.9262E-07 | 3: delta_s/delta_0: 2.2230E-07 | 4: delta_r/delta_0: 1.8940E-08 | 5: delta_s/delta_0: 4.6573E-09 | 6: delta_r/delta_0: 1.5619E-09 | 7: delta_s/delta_0: 8.0058E-10 | 8: delta_r/delta_0: 5.6852E-11 | Reached bicg-stab tolerance | BP delta = 6.4251810E-02 8.8798836E-02 3487299.54138712 | BP delta = 6.4251810E-02 8.8836074E-02 3487336.01005989 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02602436 | --> Sampling calibration, mode = relcal | relcal = -0.1066541 -9.5525563E-02 0.1449337 5.7246011E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9910128E-03 1.6119109E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7037E-04 | 2: delta_r/delta_0: 3.6035E-06 | 3: delta_s/delta_0: 1.9290E-07 | 4: delta_r/delta_0: 5.2216E-08 | 5: delta_s/delta_0: 4.3493E-08 | 6: delta_r/delta_0: 9.5971E-09 | 7: delta_s/delta_0: 7.6728E-09 | 8: delta_r/delta_0: 2.3462E-09 | 9: delta_s/delta_0: 1.0194E-09 | 10: delta_r/delta_0: 7.5761E-10 | 11: delta_s/delta_0: 4.8853E-09 | 12: delta_r/delta_0: 4.4612E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.094083778474451E-002 2.810749496242991E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7037E-04 | 2: delta_r/delta_0: 3.6036E-06 | 3: delta_s/delta_0: 1.9290E-07 | 4: delta_r/delta_0: 5.2228E-08 | 5: delta_s/delta_0: 4.3468E-08 | 6: delta_r/delta_0: 9.5973E-09 | 7: delta_s/delta_0: 7.6707E-09 | 8: delta_r/delta_0: 2.3465E-09 | 9: delta_s/delta_0: 1.0196E-09 | 10: delta_r/delta_0: 7.5773E-10 | 11: delta_s/delta_0: 4.8923E-09 | 12: delta_r/delta_0: 4.4520E-11 | Reached bicg-stab tolerance | BP delta = -0.2054391 -0.1726670 2841370.80804228 | BP delta = -0.2054391 -0.1739235 2841359.62345619 | BP chisq diff = -11.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81241838 | --> Sampling calibration, mode = relcal | relcal = 0.2954375 0.2250063 -0.2838823 -0.2365615 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1022911E-04 5.0225509E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.9574E-02 | 2: delta_r/delta_0: 1.6346E-03 | 3: delta_s/delta_0: 8.1862E-04 | 4: delta_r/delta_0: 6.0263E-05 | 5: delta_s/delta_0: 7.9304E-06 | 6: delta_r/delta_0: 2.1444E-06 | 7: delta_s/delta_0: 3.1867E-05 | 8: delta_r/delta_0: 3.2042E-06 | 9: delta_s/delta_0: 1.2788E-05 | 10: delta_r/delta_0: 3.2790E-06 | 11: delta_s/delta_0: 6.7446E-06 | 12: delta_r/delta_0: 1.6993E-06 | 13: delta_s/delta_0: 1.4516E-05 | 14: delta_r/delta_0: 2.0138E-06 | 15: delta_s/delta_0: 3.5705E-07 | 16: delta_r/delta_0: 9.1398E-08 | 17: delta_s/delta_0: 7.8559E-08 | 18: delta_r/delta_0: 2.8073E-08 | 19: delta_s/delta_0: 3.5133E-08 | 20: delta_r/delta_0: 1.0788E-08 | 21: delta_s/delta_0: 8.8220E-09 | 22: delta_r/delta_0: 4.6282E-09 | 23: delta_s/delta_0: 3.9174E-09 | 24: delta_r/delta_0: 3.3040E-09 | 25: delta_s/delta_0: 2.7279E-09 | 26: delta_r/delta_0: 1.7861E-09 | 27: delta_s/delta_0: 5.3235E-08 | 28: delta_r/delta_0: 4.4269E-08 | 29: delta_s/delta_0: 1.6343E-08 | 30: delta_r/delta_0: 9.7512E-09 | 31: delta_s/delta_0: 8.4950E-09 | 32: delta_r/delta_0: 3.6607E-09 | 33: delta_s/delta_0: 1.1800E-08 | 34: delta_r/delta_0: 7.0357E-10 | 35: delta_s/delta_0: 1.4271E-09 | 36: delta_r/delta_0: 7.1985E-10 | 37: delta_s/delta_0: 6.4989E-10 | 38: delta_r/delta_0: 5.4230E-10 | 39: delta_s/delta_0: 3.6861E-09 | 40: delta_r/delta_0: 6.6443E-10 | 41: delta_s/delta_0: 5.7383E-10 | 42: delta_r/delta_0: 2.2147E-10 | 43: delta_s/delta_0: 5.6715E-09 | 44: delta_r/delta_0: 9.2056E-10 | 45: delta_s/delta_0: 3.9154E-10 | 46: delta_r/delta_0: 3.1690E-10 | 47: delta_s/delta_0: 1.9023E-10 | 48: delta_r/delta_0: 1.7203E-10 | 49: delta_s/delta_0: 1.0259E-10 | 50: delta_r/delta_0: 8.5100E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.215632834656187E-002 4.020770039282017E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.9360E-02 | 2: delta_r/delta_0: 1.6295E-03 | 3: delta_s/delta_0: 8.1569E-04 | 4: delta_r/delta_0: 6.0060E-05 | 5: delta_s/delta_0: 7.9009E-06 | 6: delta_r/delta_0: 2.1284E-06 | 7: delta_s/delta_0: 3.1474E-05 | 8: delta_r/delta_0: 3.1589E-06 | 9: delta_s/delta_0: 1.2776E-05 | 10: delta_r/delta_0: 3.2624E-06 | 11: delta_s/delta_0: 6.3009E-06 | 12: delta_r/delta_0: 1.5938E-06 | 13: delta_s/delta_0: 1.3851E-05 | 14: delta_r/delta_0: 1.9380E-06 | 15: delta_s/delta_0: 3.2321E-07 | 16: delta_r/delta_0: 8.2606E-08 | 17: delta_s/delta_0: 7.0443E-08 | 18: delta_r/delta_0: 2.5247E-08 | 19: delta_s/delta_0: 3.1728E-08 | 20: delta_r/delta_0: 9.7080E-09 | 21: delta_s/delta_0: 7.9179E-09 | 22: delta_r/delta_0: 4.1479E-09 | 23: delta_s/delta_0: 3.5276E-09 | 24: delta_r/delta_0: 2.9749E-09 | 25: delta_s/delta_0: 2.4689E-09 | 26: delta_r/delta_0: 1.6085E-09 | 27: delta_s/delta_0: 4.7507E-08 | 28: delta_r/delta_0: 3.9421E-08 | 29: delta_s/delta_0: 1.4724E-08 | 30: delta_r/delta_0: 8.7363E-09 | 31: delta_s/delta_0: 7.6562E-09 | 32: delta_r/delta_0: 3.4118E-09 | 33: delta_s/delta_0: 9.9389E-09 | 34: delta_r/delta_0: 6.6970E-10 | 35: delta_s/delta_0: 1.3616E-09 | 36: delta_r/delta_0: 6.8072E-10 | 37: delta_s/delta_0: 6.0843E-10 | 38: delta_r/delta_0: 5.1151E-10 | 39: delta_s/delta_0: 3.3936E-09 | 40: delta_r/delta_0: 6.2325E-10 | 41: delta_s/delta_0: 5.4261E-10 | 42: delta_r/delta_0: 1.9723E-10 | 43: delta_s/delta_0: 5.2003E-09 | 44: delta_r/delta_0: 7.3790E-10 | 45: delta_s/delta_0: 3.8226E-10 | 46: delta_r/delta_0: 3.1761E-10 | 47: delta_s/delta_0: 1.8577E-10 | 48: delta_r/delta_0: 1.6917E-10 | 49: delta_s/delta_0: 9.8384E-11 | Reached bicg-stab tolerance | BP delta = -0.1051371 -0.1414193 4113021.19629229 | BP delta = -0.1051371 -0.1292613 4110742.03505116 | BP chisq diff = -2279.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95926298 | --> Sampling calibration, mode = relcal | relcal = 0.1065020 0.1396328 -0.1103141 -0.1358207 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0425189E-02 1.4252897E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2058E-04 | 2: delta_r/delta_0: 1.2742E-05 | 3: delta_s/delta_0: 1.0163E-05 | 4: delta_r/delta_0: 6.4588E-07 | 5: delta_s/delta_0: 3.5506E-07 | 6: delta_r/delta_0: 1.7862E-07 | 7: delta_s/delta_0: 7.0107E-08 | 8: delta_r/delta_0: 4.5386E-08 | 9: delta_s/delta_0: 4.2947E-08 | 10: delta_r/delta_0: 6.4312E-09 | 11: delta_s/delta_0: 1.1527E-09 | 12: delta_r/delta_0: 7.6227E-10 | 13: delta_s/delta_0: 3.4618E-10 | 14: delta_r/delta_0: 1.4853E-10 | 15: delta_s/delta_0: 8.7494E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.248909078982590E-002 3.696823516309235E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.2063E-04 | 2: delta_r/delta_0: 1.2743E-05 | 3: delta_s/delta_0: 1.0163E-05 | 4: delta_r/delta_0: 6.4575E-07 | 5: delta_s/delta_0: 3.5506E-07 | 6: delta_r/delta_0: 1.7861E-07 | 7: delta_s/delta_0: 7.0073E-08 | 8: delta_r/delta_0: 4.5384E-08 | 9: delta_s/delta_0: 4.2995E-08 | 10: delta_r/delta_0: 6.4307E-09 | 11: delta_s/delta_0: 1.1548E-09 | 12: delta_r/delta_0: 7.6455E-10 | 13: delta_s/delta_0: 3.4094E-10 | 14: delta_r/delta_0: 1.5145E-10 | 15: delta_s/delta_0: 8.7501E-11 | Reached bicg-stab tolerance | BP delta = 0.1037263 0.2188010 3004342.45027775 | BP delta = 0.1037263 0.2264807 3004387.41414806 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.125434 | New value = -3.163295 | poltype: 2 pol: 1 CPU time specind = 1.9023895E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.221448 | New value = -3.154222 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138519 | New value = -3.138207 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.202887 | New value = -3.133370 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.099879 | New value = -3.070619 | poltype: 2 pol: 2 CPU time specind = 4.2698383E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.13542E+08, tol = 0.84571E+01, time = 5.55 | CG iter. 2 -- res = 0.31901E+06, tol = 0.84571E+01, time = 5.78 | CG iter. 3 -- res = 0.48961E+05, tol = 0.84571E+01, time = 7.30 | CG iter. 4 -- res = 0.27048E+05, tol = 0.84571E+01, time = 10.18 | CG iter. 5 -- res = 0.17664E+05, tol = 0.84571E+01, time = 5.89 | CG iter. 6 -- res = 0.14026E+05, tol = 0.84571E+01, time = 5.54 | CG iter. 7 -- res = 0.13111E+05, tol = 0.84571E+01, time = 5.67 | CG iter. 8 -- res = 0.11854E+05, tol = 0.84571E+01, time = 5.81 | CG iter. 9 -- res = 0.11324E+05, tol = 0.84571E+01, time = 6.04 | CG iter. 10 -- res = 0.10208E+05, tol = 0.84571E+01, time = 6.07 | CG iter. 11 -- res = 0.75072E+04, tol = 0.84571E+01, time = 5.96 | CG iter. 12 -- res = 0.48535E+04, tol = 0.84571E+01, time = 5.61 | CG iter. 13 -- res = 0.35719E+04, tol = 0.84571E+01, time = 5.91 | CG iter. 14 -- res = 0.30491E+04, tol = 0.84571E+01, time = 5.71 | CG iter. 15 -- res = 0.27639E+04, tol = 0.84571E+01, time = 5.59 | CG iter. 16 -- res = 0.20746E+04, tol = 0.84571E+01, time = 6.15 | CG iter. 17 -- res = 0.15226E+04, tol = 0.84571E+01, time = 5.85 | CG iter. 18 -- res = 0.11416E+04, tol = 0.84571E+01, time = 7.46 | CG iter. 19 -- res = 0.94315E+03, tol = 0.84571E+01, time = 6.08 | CG iter. 20 -- res = 0.75485E+03, tol = 0.84571E+01, time = 5.99 | CG iter. 21 -- res = 0.55256E+03, tol = 0.84571E+01, time = 5.53 | CG iter. 22 -- res = 0.43796E+03, tol = 0.84571E+01, time = 5.89 | CG iter. 23 -- res = 0.37474E+03, tol = 0.84571E+01, time = 5.83 | CG iter. 24 -- res = 0.31483E+03, tol = 0.84571E+01, time = 5.67 | CG iter. 25 -- res = 0.23188E+03, tol = 0.84571E+01, time = 5.74 | CG iter. 26 -- res = 0.17477E+03, tol = 0.84571E+01, time = 5.94 | CG iter. 27 -- res = 0.14391E+03, tol = 0.84571E+01, time = 5.55 | CG iter. 28 -- res = 0.12583E+03, tol = 0.84571E+01, time = 6.22 | CG iter. 29 -- res = 0.10241E+03, tol = 0.84571E+01, time = 6.04 | CG iter. 30 -- res = 0.80530E+02, tol = 0.84571E+01, time = 5.77 | CG iter. 31 -- res = 0.65605E+02, tol = 0.84571E+01, time = 6.05 | CG iter. 32 -- res = 0.56588E+02, tol = 0.84571E+01, time = 5.51 | CG iter. 33 -- res = 0.46855E+02, tol = 0.84571E+01, time = 5.51 | CG iter. 34 -- res = 0.35982E+02, tol = 0.84571E+01, time = 5.78 | CG iter. 35 -- res = 0.28621E+02, tol = 0.84571E+01, time = 5.34 | CG iter. 36 -- res = 0.25771E+02, tol = 0.84571E+01, time = 5.82 | CG iter. 37 -- res = 0.22757E+02, tol = 0.84571E+01, time = 5.55 | CG iter. 38 -- res = 0.17774E+02, tol = 0.84571E+01, time = 5.76 | CG iter. 39 -- res = 0.14059E+02, tol = 0.84571E+01, time = 5.55 | CG iter. 40 -- res = 0.12264E+02, tol = 0.84571E+01, time = 5.52 | CG iter. 41 -- res = 0.10688E+02, tol = 0.84571E+01, time = 6.01 | CG iter. 42 -- res = 0.88408E+01, tol = 0.84571E+01, time = 5.62 | CG iter. 43 -- res = 0.71989E+01, tol = 0.84571E+01, time = 5.84 | CG iter. 44 -- res = 0.60980E+01, tol = 0.84571E+01, time = 6.15 | CG iter. 45 -- res = 0.52869E+01, tol = 0.84571E+01, time = 5.65 | CG iter. 46 -- res = 0.43987E+01, tol = 0.84571E+01, time = 5.96 | CG iter. 47 -- res = 0.34190E+01, tol = 0.84571E+01, time = 6.34 | CG iter. 48 -- res = 0.27407E+01, tol = 0.84571E+01, time = 5.64 | CG iter. 49 -- res = 0.23485E+01, tol = 0.84571E+01, time = 6.12 | CG iter. 50 -- res = 0.20398E+01, tol = 0.84571E+01, time = 5.98 | Final CG iter 51 -- res = 0.20398E+01, tol = 0.84571E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9323133.399 | Old band monopole 8291016.082 | Change to band monopole 1032117.317 | Change to component monopole -1032112.877 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.53 | CG iter. 1 -- res = 0.18781E+06, tol = 0.47627E+18, time = 2.25 | CG iter. 2 -- res = 0.80103E+02, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.25374E+01, tol = 0.47627E+18, time = 1.89 | CG iter. 4 -- res = 0.87914E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.43239E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9323093.299 | (Sampled value in CG: 9285218.469 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.524171 | New value = 1.456057 | poltype: 2 pol: 1 CPU time specind = 1.6927004E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.556180 | New value = 1.508949 | poltype: 2 pol: 2 CPU time specind = 3.2758713E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.60 | CG iter. 1 -- res = 0.24956E+08, tol = 0.47430E+04, time = 6.98 | CG iter. 2 -- res = 0.53140E+07, tol = 0.47430E+04, time = 6.23 | CG iter. 3 -- res = 0.83466E+06, tol = 0.47430E+04, time = 6.47 | CG iter. 4 -- res = 0.34087E+06, tol = 0.47430E+04, time = 6.66 | CG iter. 5 -- res = 0.15143E+06, tol = 0.47430E+04, time = 6.95 | CG iter. 6 -- res = 0.80509E+05, tol = 0.47430E+04, time = 6.43 | CG iter. 7 -- res = 0.43266E+05, tol = 0.47430E+04, time = 7.22 | CG iter. 8 -- res = 0.21073E+05, tol = 0.47430E+04, time = 6.75 | CG iter. 9 -- res = 0.94076E+04, tol = 0.47430E+04, time = 6.71 | CG iter. 10 -- res = 0.37410E+04, tol = 0.47430E+04, time = 6.31 | CG iter. 11 -- res = 0.16745E+04, tol = 0.47430E+04, time = 6.63 | CG iter. 12 -- res = 0.86028E+03, tol = 0.47430E+04, time = 6.56 | CG iter. 13 -- res = 0.48954E+03, tol = 0.47430E+04, time = 6.28 | CG iter. 14 -- res = 0.27667E+03, tol = 0.47430E+04, time = 7.12 | CG iter. 15 -- res = 0.14260E+03, tol = 0.47430E+04, time = 6.43 | CG iter. 16 -- res = 0.67641E+02, tol = 0.47430E+04, time = 7.51 | CG iter. 17 -- res = 0.32115E+02, tol = 0.47430E+04, time = 7.04 | CG iter. 18 -- res = 0.15736E+02, tol = 0.47430E+04, time = 7.00 | CG iter. 19 -- res = 0.84627E+01, tol = 0.47430E+04, time = 6.32 | CG iter. 20 -- res = 0.48810E+01, tol = 0.47430E+04, time = 6.38 | CG iter. 21 -- res = 0.26914E+01, tol = 0.47430E+04, time = 6.91 | CG iter. 22 -- res = 0.13661E+01, tol = 0.47430E+04, time = 6.66 | CG iter. 23 -- res = 0.68148E+00, tol = 0.47430E+04, time = 6.65 | CG iter. 24 -- res = 0.34618E+00, tol = 0.47430E+04, time = 6.66 | CG iter. 25 -- res = 0.18776E+00, tol = 0.47430E+04, time = 6.78 | CG iter. 26 -- res = 0.10584E+00, tol = 0.47430E+04, time = 6.66 | CG iter. 27 -- res = 0.59267E-01, tol = 0.47430E+04, time = 6.68 | CG iter. 28 -- res = 0.32389E-01, tol = 0.47430E+04, time = 7.03 | CG iter. 29 -- res = 0.16809E-01, tol = 0.47430E+04, time = 6.35 | CG iter. 30 -- res = 0.89747E-02, tol = 0.47430E+04, time = 7.46 | CG iter. 31 -- res = 0.48970E-02, tol = 0.47430E+04, time = 11.86 | CG iter. 32 -- res = 0.27374E-02, tol = 0.47430E+04, time = 6.64 | CG iter. 33 -- res = 0.15604E-02, tol = 0.47430E+04, time = 6.81 | CG iter. 34 -- res = 0.84068E-03, tol = 0.47430E+04, time = 6.62 | CG iter. 35 -- res = 0.43900E-03, tol = 0.47430E+04, time = 6.64 | Final CG iter 36 -- res = 0.43900E-03, tol = 0.47430E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.727 2.730 | New value -5.020 | Old value -3.727 | Difference -1.294 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.59 | CG iter. 1 -- res = 0.97159E+05, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.34614E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.11503E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.17726E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.39802E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9323093.299 | (Sampled value in CG: 9285064.224 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.532997 | New value = -3.533854 | poltype: 1 pol: 1 CPU time specind = 0.5224450 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.21921E+07, tol = 0.28443E+01, time = 2.75 | CG iter. 2 -- res = 0.89514E+06, tol = 0.28443E+01, time = 2.88 | CG iter. 3 -- res = 0.16859E+06, tol = 0.28443E+01, time = 2.80 | CG iter. 4 -- res = 0.61058E+05, tol = 0.28443E+01, time = 3.12 | CG iter. 5 -- res = 0.34278E+05, tol = 0.28443E+01, time = 2.87 | CG iter. 6 -- res = 0.18740E+05, tol = 0.28443E+01, time = 2.72 | CG iter. 7 -- res = 0.74495E+04, tol = 0.28443E+01, time = 2.56 | CG iter. 8 -- res = 0.35299E+04, tol = 0.28443E+01, time = 2.24 | CG iter. 9 -- res = 0.14929E+04, tol = 0.28443E+01, time = 2.82 | CG iter. 10 -- res = 0.58361E+03, tol = 0.28443E+01, time = 2.93 | CG iter. 11 -- res = 0.23908E+03, tol = 0.28443E+01, time = 2.58 | CG iter. 12 -- res = 0.11732E+03, tol = 0.28443E+01, time = 2.75 | CG iter. 13 -- res = 0.60518E+02, tol = 0.28443E+01, time = 2.95 | CG iter. 14 -- res = 0.30865E+02, tol = 0.28443E+01, time = 2.88 | CG iter. 15 -- res = 0.15022E+02, tol = 0.28443E+01, time = 3.00 | CG iter. 16 -- res = 0.67010E+01, tol = 0.28443E+01, time = 2.92 | CG iter. 17 -- res = 0.27793E+01, tol = 0.28443E+01, time = 3.94 | CG iter. 18 -- res = 0.12474E+01, tol = 0.28443E+01, time = 3.21 | CG iter. 19 -- res = 0.59547E+00, tol = 0.28443E+01, time = 2.86 | CG iter. 20 -- res = 0.29651E+00, tol = 0.28443E+01, time = 3.06 | CG iter. 21 -- res = 0.15296E+00, tol = 0.28443E+01, time = 2.89 | CG iter. 22 -- res = 0.73376E-01, tol = 0.28443E+01, time = 2.60 | CG iter. 23 -- res = 0.32535E-01, tol = 0.28443E+01, time = 2.85 | CG iter. 24 -- res = 0.14655E-01, tol = 0.28443E+01, time = 2.97 | CG iter. 25 -- res = 0.72199E-02, tol = 0.28443E+01, time = 2.98 | CG iter. 26 -- res = 0.37005E-02, tol = 0.28443E+01, time = 2.79 | CG iter. 27 -- res = 0.18359E-02, tol = 0.28443E+01, time = 2.79 | CG iter. 28 -- res = 0.94420E-03, tol = 0.28443E+01, time = 3.07 | CG iter. 29 -- res = 0.43524E-03, tol = 0.28443E+01, time = 2.79 | CG iter. 30 -- res = 0.19851E-03, tol = 0.28443E+01, time = 2.70 | CG iter. 31 -- res = 0.90686E-04, tol = 0.28443E+01, time = 2.70 | CG iter. 32 -- res = 0.46254E-04, tol = 0.28443E+01, time = 2.87 | CG iter. 33 -- res = 0.22769E-04, tol = 0.28443E+01, time = 2.85 | CG iter. 34 -- res = 0.11274E-04, tol = 0.28443E+01, time = 2.86 | CG iter. 35 -- res = 0.56352E-05, tol = 0.28443E+01, time = 3.02 | CG iter. 36 -- res = 0.25616E-05, tol = 0.28443E+01, time = 2.85 | CG iter. 37 -- res = 0.11535E-05, tol = 0.28443E+01, time = 2.61 | CG iter. 38 -- res = 0.55697E-06, tol = 0.28443E+01, time = 2.85 | CG iter. 39 -- res = 0.27342E-06, tol = 0.28443E+01, time = 2.99 | CG iter. 40 -- res = 0.13898E-06, tol = 0.28443E+01, time = 2.98 | CG iter. 41 -- res = 0.68300E-07, tol = 0.28443E+01, time = 2.76 | CG iter. 42 -- res = 0.32117E-07, tol = 0.28443E+01, time = 2.34 | CG iter. 43 -- res = 0.14216E-07, tol = 0.28443E+01, time = 2.63 | CG iter. 44 -- res = 0.68085E-08, tol = 0.28443E+01, time = 2.69 | CG iter. 45 -- res = 0.34651E-08, tol = 0.28443E+01, time = 2.66 | CG iter. 46 -- res = 0.17167E-08, tol = 0.28443E+01, time = 2.83 | CG iter. 47 -- res = 0.83068E-09, tol = 0.28443E+01, time = 2.88 | CG iter. 48 -- res = 0.39379E-09, tol = 0.28443E+01, time = 2.35 | CG iter. 49 -- res = 0.17812E-09, tol = 0.28443E+01, time = 2.95 | CG iter. 50 -- res = 0.81281E-10, tol = 0.28443E+01, time = 2.66 | Final CG iter 51 -- res = 0.81281E-10, tol = 0.28443E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.601 4.970 | New value -3.986 | Old value -1.601 | Difference -2.386 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.65909E+04, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.22504E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.70544E+00, tol = 0.47627E+18, time = 1.73 | CG iter. 4 -- res = 0.11744E-02, tol = 0.47627E+18, time = 1.72 | Final CG iter 5 -- res = 0.36477E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9323093.299 | (Sampled value in CG: 9293757.660 ) | CPU time specind = 1208.248 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.07 | CG iter. 1 -- res = 0.71325E+08, tol = 0.57479E+04, time = 12.18 | CG iter. 2 -- res = 0.59771E+08, tol = 0.57479E+04, time = 12.21 | CG iter. 3 -- res = 0.15601E+08, tol = 0.57479E+04, time = 18.20 | CG iter. 4 -- res = 0.68243E+07, tol = 0.57479E+04, time = 12.32 | CG iter. 5 -- res = 0.42182E+07, tol = 0.57479E+04, time = 12.06 | CG iter. 6 -- res = 0.24288E+07, tol = 0.57479E+04, time = 12.07 | CG iter. 7 -- res = 0.13970E+07, tol = 0.57479E+04, time = 12.05 | CG iter. 8 -- res = 0.91037E+06, tol = 0.57479E+04, time = 12.29 | CG iter. 9 -- res = 0.58735E+06, tol = 0.57479E+04, time = 12.21 | CG iter. 10 -- res = 0.35342E+06, tol = 0.57479E+04, time = 13.57 | CG iter. 11 -- res = 0.19221E+06, tol = 0.57479E+04, time = 12.80 | CG iter. 12 -- res = 0.10524E+06, tol = 0.57479E+04, time = 12.53 | CG iter. 13 -- res = 0.58852E+05, tol = 0.57479E+04, time = 11.84 | CG iter. 14 -- res = 0.35215E+05, tol = 0.57479E+04, time = 12.05 | CG iter. 15 -- res = 0.23604E+05, tol = 0.57479E+04, time = 12.52 | CG iter. 16 -- res = 0.18219E+05, tol = 0.57479E+04, time = 12.01 | CG iter. 17 -- res = 0.14414E+05, tol = 0.57479E+04, time = 11.66 | CG iter. 18 -- res = 0.11308E+05, tol = 0.57479E+04, time = 12.35 | CG iter. 19 -- res = 0.89511E+04, tol = 0.57479E+04, time = 11.97 | CG iter. 20 -- res = 0.73767E+04, tol = 0.57479E+04, time = 12.00 | CG iter. 21 -- res = 0.65156E+04, tol = 0.57479E+04, time = 11.94 | CG iter. 22 -- res = 0.66080E+04, tol = 0.57479E+04, time = 12.12 | CG iter. 23 -- res = 0.72605E+04, tol = 0.57479E+04, time = 11.86 | CG iter. 24 -- res = 0.80565E+04, tol = 0.57479E+04, time = 12.45 | CG iter. 25 -- res = 0.80363E+04, tol = 0.57479E+04, time = 12.11 | CG iter. 26 -- res = 0.72008E+04, tol = 0.57479E+04, time = 12.16 | CG iter. 27 -- res = 0.59221E+04, tol = 0.57479E+04, time = 21.94 | CG iter. 28 -- res = 0.46040E+04, tol = 0.57479E+04, time = 12.55 | CG iter. 29 -- res = 0.36778E+04, tol = 0.57479E+04, time = 11.94 | CG iter. 30 -- res = 0.30830E+04, tol = 0.57479E+04, time = 12.09 | CG iter. 31 -- res = 0.26506E+04, tol = 0.57479E+04, time = 12.05 | CG iter. 32 -- res = 0.22442E+04, tol = 0.57479E+04, time = 11.48 | CG iter. 33 -- res = 0.18324E+04, tol = 0.57479E+04, time = 13.02 | CG iter. 34 -- res = 0.14346E+04, tol = 0.57479E+04, time = 13.44 | CG iter. 35 -- res = 0.11776E+04, tol = 0.57479E+04, time = 12.30 | CG iter. 36 -- res = 0.10716E+04, tol = 0.57479E+04, time = 12.05 | CG iter. 37 -- res = 0.10670E+04, tol = 0.57479E+04, time = 12.28 | CG iter. 38 -- res = 0.10944E+04, tol = 0.57479E+04, time = 11.92 | CG iter. 39 -- res = 0.10845E+04, tol = 0.57479E+04, time = 12.33 | CG iter. 40 -- res = 0.99397E+03, tol = 0.57479E+04, time = 12.18 | CG iter. 41 -- res = 0.86042E+03, tol = 0.57479E+04, time = 12.24 | CG iter. 42 -- res = 0.71488E+03, tol = 0.57479E+04, time = 12.61 | CG iter. 43 -- res = 0.62884E+03, tol = 0.57479E+04, time = 12.10 | CG iter. 44 -- res = 0.56502E+03, tol = 0.57479E+04, time = 11.73 | CG iter. 45 -- res = 0.51884E+03, tol = 0.57479E+04, time = 12.01 | CG iter. 46 -- res = 0.47491E+03, tol = 0.57479E+04, time = 12.25 | CG iter. 47 -- res = 0.41796E+03, tol = 0.57479E+04, time = 12.06 | CG iter. 48 -- res = 0.35808E+03, tol = 0.57479E+04, time = 12.78 | CG iter. 49 -- res = 0.30491E+03, tol = 0.57479E+04, time = 11.84 | CG iter. 50 -- res = 0.27643E+03, tol = 0.57479E+04, time = 13.69 | CG iter. 51 -- res = 0.27004E+03, tol = 0.57479E+04, time = 17.62 | CG iter. 52 -- res = 0.26603E+03, tol = 0.57479E+04, time = 11.78 | CG iter. 53 -- res = 0.25561E+03, tol = 0.57479E+04, time = 12.33 | CG iter. 54 -- res = 0.23355E+03, tol = 0.57479E+04, time = 12.34 | CG iter. 55 -- res = 0.21022E+03, tol = 0.57479E+04, time = 11.94 | CG iter. 56 -- res = 0.18864E+03, tol = 0.57479E+04, time = 12.31 | CG iter. 57 -- res = 0.16634E+03, tol = 0.57479E+04, time = 13.21 | CG iter. 58 -- res = 0.15565E+03, tol = 0.57479E+04, time = 13.48 | CG iter. 59 -- res = 0.14725E+03, tol = 0.57479E+04, time = 12.04 | CG iter. 60 -- res = 0.13423E+03, tol = 0.57479E+04, time = 12.24 | Final CG iter 61 -- res = 0.13423E+03, tol = 0.57479E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.860 ( -229.712 -2230.266 2512.509 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9080495.092 | Old band monopole 9323133.399 | Change to band monopole -242638.307 | Change to component monopole 242637.264 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -5.013 2.725 | New value 2.263 | Old value -5.013 | Difference 7.276 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.831 ( 7.171 11.162 -10.459 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.652 4.967 | New value -7.250 | Old value 4.652 | Difference -11.903 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.27496E+07, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.34894E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.11368E+01, tol = 0.47627E+18, time = 2.07 | CG iter. 4 -- res = 0.27086E-02, tol = 0.47627E+18, time = 2.16 | Final CG iter 5 -- res = 0.11378E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9080456.035 | (Sampled value in CG: 9050558.241 ) | Chain = 1 -- chisq = 0.81581049E+09 | Chain = 1 -- wall time = 6604.074 sec Available RAM: MemAvailable: 377095076 kB Available Swap: SwapFree: 1128954640 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 419 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443930 | --> Sampling calibration, mode = relcal | relcal = 1.3427811E-02 7.4494985E-04 -1.5898010E-03 -1.2582960E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1449127 0.1638045 97048879.0617953 | BP delta = 0.1378145 0.1567063 97048883.9711427 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632529 | --> Sampling calibration, mode = relcal | relcal = -2.8215686E-03 -7.0430571E-04 1.6791674E-03 1.6135480E-03 -4.0772909E-04 6.4088800E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5514104 15217358.1753734 | BP delta = 0.0000000E+00 -0.5527527 15217359.1495129 | BP chisq diff = 1.0, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18018756971263 | --> Sampling calibration, mode = relcal | relcal = -7.4675724E-02 -5.8211830E-02 9.1497526E-02 4.1390028E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.3177195E-05 4.2401445E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0155E-05 | 2: delta_r/delta_0: 7.9554E-07 | 3: delta_s/delta_0: 2.4699E-07 | 4: delta_r/delta_0: 1.0815E-08 | 5: delta_s/delta_0: 3.4368E-09 | 6: delta_r/delta_0: 6.2060E-10 | 7: delta_s/delta_0: 9.2306E-10 | 8: delta_r/delta_0: 8.2585E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.358385387425190E-004 2.742996905711260E-005 | BP delta = 6.4251810E-02 8.8798836E-02 50482460.6361379 | BP delta = 6.3775942E-02 8.8322975E-02 50482460.3848521 | BP chisq diff = -0.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02597232 | --> Sampling calibration, mode = relcal | relcal = -0.1066358 -9.5596746E-02 0.1449764 5.7256173E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9533219E-03 1.6169208E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.3099E-05 | 2: delta_r/delta_0: 2.0984E-06 | 3: delta_s/delta_0: 2.1810E-07 | 4: delta_r/delta_0: 5.8697E-08 | 5: delta_s/delta_0: 2.7034E-08 | 6: delta_r/delta_0: 8.6457E-09 | 7: delta_s/delta_0: 1.4859E-08 | 8: delta_r/delta_0: 1.3911E-09 | 9: delta_s/delta_0: 1.2232E-09 | 10: delta_r/delta_0: 2.2026E-10 | 11: delta_s/delta_0: 7.5933E-10 | 12: delta_r/delta_0: 2.4287E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.049422284862310E-002 2.810898769065213E-005 | BP delta = -0.2054391 -0.1739235 57388226.1159692 | BP delta = -0.2038876 -0.1723720 57388226.2881342 | BP chisq diff = 0.2, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81232166 | --> Sampling calibration, mode = relcal | relcal = 0.2954137 0.2248934 -0.2837976 -0.2365095 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 4.7882841E-04 5.7902941E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.7095E-03 | 2: delta_r/delta_0: 6.2941E-05 | 3: delta_s/delta_0: 2.1925E-05 | 4: delta_r/delta_0: 2.1986E-06 | 5: delta_s/delta_0: 4.6697E-06 | 6: delta_r/delta_0: 5.5004E-07 | 7: delta_s/delta_0: 7.3924E-08 | 8: delta_r/delta_0: 3.2375E-08 | 9: delta_s/delta_0: 1.4837E-07 | 10: delta_r/delta_0: 5.3029E-09 | 11: delta_s/delta_0: 4.8000E-09 | 12: delta_r/delta_0: 4.6170E-10 | 13: delta_s/delta_0: 1.2299E-09 | 14: delta_r/delta_0: 5.4382E-10 | 15: delta_s/delta_0: 5.1056E-10 | 16: delta_r/delta_0: 3.4294E-10 | 17: delta_s/delta_0: 1.1600E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.842734543431051E-002 4.021201582781465E-005 | BP delta = -0.1051371 -0.1292613 72488265.0954297 | BP delta = -0.1193563 -0.1434805 72488264.5602064 | BP chisq diff = -0.5, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95927164 | --> Sampling calibration, mode = relcal | relcal = 0.1065199 0.1395772 -0.1102166 -0.1358805 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0810780E-02 1.3778466E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2020E-04 | 2: delta_r/delta_0: 5.6672E-06 | 3: delta_s/delta_0: 5.5964E-06 | 4: delta_r/delta_0: 8.1309E-07 | 5: delta_s/delta_0: 2.0084E-07 | 6: delta_r/delta_0: 1.1865E-07 | 7: delta_s/delta_0: 5.2911E-07 | 8: delta_r/delta_0: 2.6789E-08 | 9: delta_s/delta_0: 4.6991E-08 | 10: delta_r/delta_0: 2.8848E-08 | 11: delta_s/delta_0: 1.4435E-09 | 12: delta_r/delta_0: 9.6004E-10 | 13: delta_s/delta_0: 1.8864E-07 | 14: delta_r/delta_0: 1.0529E-08 | 15: delta_s/delta_0: 8.1101E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.994906594755229E-002 3.696731466922552E-005 | BP delta = 0.1037263 0.2188010 72778663.2835855 | BP delta = 5.9448060E-02 0.1745227 72778664.5752797 | BP chisq diff = 1.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.163295 | New value = -3.143931 | poltype: 2 pol: 1 CPU time specind = 1.6515970E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.154222 | New value = -3.159684 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.138207 | New value = -3.157673 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.133370 | New value = -3.209465 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.070619 | New value = -3.065802 | poltype: 2 pol: 2 CPU time specind = 5.9864044E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.13557E+08, tol = 0.77969E+01, time = 5.74 | CG iter. 2 -- res = 0.32416E+06, tol = 0.77969E+01, time = 5.92 | CG iter. 3 -- res = 0.46257E+05, tol = 0.77969E+01, time = 5.98 | CG iter. 4 -- res = 0.20866E+05, tol = 0.77969E+01, time = 5.97 | CG iter. 5 -- res = 0.10514E+05, tol = 0.77969E+01, time = 5.70 | CG iter. 6 -- res = 0.55899E+04, tol = 0.77969E+01, time = 6.09 | CG iter. 7 -- res = 0.40851E+04, tol = 0.77969E+01, time = 5.77 | CG iter. 8 -- res = 0.30546E+04, tol = 0.77969E+01, time = 6.02 | CG iter. 9 -- res = 0.26848E+04, tol = 0.77969E+01, time = 6.12 | CG iter. 10 -- res = 0.27294E+04, tol = 0.77969E+01, time = 6.15 | CG iter. 11 -- res = 0.25485E+04, tol = 0.77969E+01, time = 5.64 | CG iter. 12 -- res = 0.18307E+04, tol = 0.77969E+01, time = 5.61 | CG iter. 13 -- res = 0.12301E+04, tol = 0.77969E+01, time = 7.29 | CG iter. 14 -- res = 0.95110E+03, tol = 0.77969E+01, time = 6.37 | CG iter. 15 -- res = 0.80817E+03, tol = 0.77969E+01, time = 5.86 | CG iter. 16 -- res = 0.63538E+03, tol = 0.77969E+01, time = 6.13 | CG iter. 17 -- res = 0.46838E+03, tol = 0.77969E+01, time = 5.90 | CG iter. 18 -- res = 0.37192E+03, tol = 0.77969E+01, time = 5.90 | CG iter. 19 -- res = 0.31383E+03, tol = 0.77969E+01, time = 5.54 | CG iter. 20 -- res = 0.25903E+03, tol = 0.77969E+01, time = 5.88 | CG iter. 21 -- res = 0.18885E+03, tol = 0.77969E+01, time = 6.12 | CG iter. 22 -- res = 0.13830E+03, tol = 0.77969E+01, time = 5.86 | CG iter. 23 -- res = 0.11454E+03, tol = 0.77969E+01, time = 6.23 | CG iter. 24 -- res = 0.98944E+02, tol = 0.77969E+01, time = 6.00 | CG iter. 25 -- res = 0.77538E+02, tol = 0.77969E+01, time = 5.83 | CG iter. 26 -- res = 0.57428E+02, tol = 0.77969E+01, time = 5.75 | CG iter. 27 -- res = 0.45965E+02, tol = 0.77969E+01, time = 6.04 | CG iter. 28 -- res = 0.38689E+02, tol = 0.77969E+01, time = 6.01 | CG iter. 29 -- res = 0.31661E+02, tol = 0.77969E+01, time = 6.34 | CG iter. 30 -- res = 0.24776E+02, tol = 0.77969E+01, time = 5.81 | CG iter. 31 -- res = 0.19987E+02, tol = 0.77969E+01, time = 5.94 | CG iter. 32 -- res = 0.17112E+02, tol = 0.77969E+01, time = 5.87 | CG iter. 33 -- res = 0.14910E+02, tol = 0.77969E+01, time = 5.95 | CG iter. 34 -- res = 0.11683E+02, tol = 0.77969E+01, time = 5.74 | CG iter. 35 -- res = 0.89515E+01, tol = 0.77969E+01, time = 6.13 | CG iter. 36 -- res = 0.77166E+01, tol = 0.77969E+01, time = 5.89 | CG iter. 37 -- res = 0.67977E+01, tol = 0.77969E+01, time = 6.11 | CG iter. 38 -- res = 0.55496E+01, tol = 0.77969E+01, time = 5.76 | CG iter. 39 -- res = 0.43554E+01, tol = 0.77969E+01, time = 5.52 | CG iter. 40 -- res = 0.37123E+01, tol = 0.77969E+01, time = 5.93 | CG iter. 41 -- res = 0.32756E+01, tol = 0.77969E+01, time = 6.02 | CG iter. 42 -- res = 0.27457E+01, tol = 0.77969E+01, time = 6.06 | CG iter. 43 -- res = 0.21691E+01, tol = 0.77969E+01, time = 6.01 | CG iter. 44 -- res = 0.17055E+01, tol = 0.77969E+01, time = 5.80 | CG iter. 45 -- res = 0.14609E+01, tol = 0.77969E+01, time = 5.94 | CG iter. 46 -- res = 0.11787E+01, tol = 0.77969E+01, time = 5.41 | CG iter. 47 -- res = 0.93567E+00, tol = 0.77969E+01, time = 6.05 | CG iter. 48 -- res = 0.71102E+00, tol = 0.77969E+01, time = 12.38 | CG iter. 49 -- res = 0.58625E+00, tol = 0.77969E+01, time = 6.05 | CG iter. 50 -- res = 0.48466E+00, tol = 0.77969E+01, time = 5.83 | Final CG iter 51 -- res = 0.48466E+00, tol = 0.77969E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11023112.816 | Old band monopole 9080495.092 | Change to band monopole 1942617.724 | Change to component monopole -1942609.368 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.13534E+05, tol = 0.47627E+18, time = 1.82 | CG iter. 2 -- res = 0.17280E+02, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.62240E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.13661E-02, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.31237E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11023065.403 | (Sampled value in CG: 11039817.458 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.456057 | New value = 1.524011 | poltype: 2 pol: 1 CPU time specind = 2.4591923E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.508949 | New value = 1.505251 | poltype: 2 pol: 2 CPU time specind = 1.3791084E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.24985E+08, tol = 0.47658E+04, time = 6.56 | CG iter. 2 -- res = 0.53415E+07, tol = 0.47658E+04, time = 6.65 | CG iter. 3 -- res = 0.83712E+06, tol = 0.47658E+04, time = 7.18 | CG iter. 4 -- res = 0.34931E+06, tol = 0.47658E+04, time = 6.45 | CG iter. 5 -- res = 0.14924E+06, tol = 0.47658E+04, time = 6.84 | CG iter. 6 -- res = 0.79208E+05, tol = 0.47658E+04, time = 6.95 | CG iter. 7 -- res = 0.43512E+05, tol = 0.47658E+04, time = 6.46 | CG iter. 8 -- res = 0.20943E+05, tol = 0.47658E+04, time = 6.57 | CG iter. 9 -- res = 0.91730E+04, tol = 0.47658E+04, time = 6.96 | CG iter. 10 -- res = 0.37288E+04, tol = 0.47658E+04, time = 6.66 | CG iter. 11 -- res = 0.16888E+04, tol = 0.47658E+04, time = 6.65 | CG iter. 12 -- res = 0.88397E+03, tol = 0.47658E+04, time = 6.78 | CG iter. 13 -- res = 0.50325E+03, tol = 0.47658E+04, time = 7.13 | CG iter. 14 -- res = 0.28403E+03, tol = 0.47658E+04, time = 6.54 | CG iter. 15 -- res = 0.14735E+03, tol = 0.47658E+04, time = 6.44 | CG iter. 16 -- res = 0.69042E+02, tol = 0.47658E+04, time = 6.64 | CG iter. 17 -- res = 0.31992E+02, tol = 0.47658E+04, time = 6.83 | CG iter. 18 -- res = 0.15808E+02, tol = 0.47658E+04, time = 6.65 | CG iter. 19 -- res = 0.86612E+01, tol = 0.47658E+04, time = 7.06 | CG iter. 20 -- res = 0.50247E+01, tol = 0.47658E+04, time = 6.68 | CG iter. 21 -- res = 0.27543E+01, tol = 0.47658E+04, time = 6.74 | CG iter. 22 -- res = 0.13671E+01, tol = 0.47658E+04, time = 6.53 | CG iter. 23 -- res = 0.69403E+00, tol = 0.47658E+04, time = 6.79 | CG iter. 24 -- res = 0.36182E+00, tol = 0.47658E+04, time = 13.17 | CG iter. 25 -- res = 0.19917E+00, tol = 0.47658E+04, time = 6.54 | CG iter. 26 -- res = 0.11439E+00, tol = 0.47658E+04, time = 6.76 | CG iter. 27 -- res = 0.64423E-01, tol = 0.47658E+04, time = 7.04 | CG iter. 28 -- res = 0.34741E-01, tol = 0.47658E+04, time = 6.49 | CG iter. 29 -- res = 0.18227E-01, tol = 0.47658E+04, time = 7.07 | CG iter. 30 -- res = 0.94875E-02, tol = 0.47658E+04, time = 6.89 | CG iter. 31 -- res = 0.52565E-02, tol = 0.47658E+04, time = 6.88 | CG iter. 32 -- res = 0.29472E-02, tol = 0.47658E+04, time = 6.56 | CG iter. 33 -- res = 0.16406E-02, tol = 0.47658E+04, time = 6.68 | CG iter. 34 -- res = 0.87921E-03, tol = 0.47658E+04, time = 7.01 | CG iter. 35 -- res = 0.45996E-03, tol = 0.47658E+04, time = 6.81 | Final CG iter 36 -- res = 0.45996E-03, tol = 0.47658E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.298 2.736 | New value 1.938 | Old value 2.298 | Difference -0.359 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.17964E+05, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.18310E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.39726E+00, tol = 0.47627E+18, time = 2.02 | CG iter. 4 -- res = 0.81059E-03, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.55794E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11023065.403 | (Sampled value in CG: 11037649.018 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.533854 | New value = -3.501751 | poltype: 1 pol: 1 CPU time specind = 1.6993999E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.21275E+07, tol = 0.22265E+01, time = 2.67 | CG iter. 2 -- res = 0.82802E+06, tol = 0.22265E+01, time = 4.30 | CG iter. 3 -- res = 0.14636E+06, tol = 0.22265E+01, time = 3.11 | CG iter. 4 -- res = 0.54431E+05, tol = 0.22265E+01, time = 3.32 | CG iter. 5 -- res = 0.29700E+05, tol = 0.22265E+01, time = 3.18 | CG iter. 6 -- res = 0.15222E+05, tol = 0.22265E+01, time = 2.71 | CG iter. 7 -- res = 0.64455E+04, tol = 0.22265E+01, time = 2.63 | CG iter. 8 -- res = 0.29401E+04, tol = 0.22265E+01, time = 2.71 | CG iter. 9 -- res = 0.13047E+04, tol = 0.22265E+01, time = 2.72 | CG iter. 10 -- res = 0.53609E+03, tol = 0.22265E+01, time = 2.68 | CG iter. 11 -- res = 0.22851E+03, tol = 0.22265E+01, time = 2.60 | CG iter. 12 -- res = 0.10198E+03, tol = 0.22265E+01, time = 2.99 | CG iter. 13 -- res = 0.52288E+02, tol = 0.22265E+01, time = 2.57 | CG iter. 14 -- res = 0.28321E+02, tol = 0.22265E+01, time = 2.91 | CG iter. 15 -- res = 0.13134E+02, tol = 0.22265E+01, time = 3.00 | CG iter. 16 -- res = 0.58752E+01, tol = 0.22265E+01, time = 2.75 | CG iter. 17 -- res = 0.24617E+01, tol = 0.22265E+01, time = 2.78 | CG iter. 18 -- res = 0.11232E+01, tol = 0.22265E+01, time = 2.80 | CG iter. 19 -- res = 0.54783E+00, tol = 0.22265E+01, time = 2.80 | CG iter. 20 -- res = 0.28154E+00, tol = 0.22265E+01, time = 2.98 | CG iter. 21 -- res = 0.15094E+00, tol = 0.22265E+01, time = 2.91 | CG iter. 22 -- res = 0.73627E-01, tol = 0.22265E+01, time = 2.52 | CG iter. 23 -- res = 0.33779E-01, tol = 0.22265E+01, time = 2.41 | CG iter. 24 -- res = 0.15030E-01, tol = 0.22265E+01, time = 3.05 | CG iter. 25 -- res = 0.70342E-02, tol = 0.22265E+01, time = 2.53 | CG iter. 26 -- res = 0.33728E-02, tol = 0.22265E+01, time = 2.87 | CG iter. 27 -- res = 0.18131E-02, tol = 0.22265E+01, time = 2.84 | CG iter. 28 -- res = 0.91728E-03, tol = 0.22265E+01, time = 2.46 | CG iter. 29 -- res = 0.42137E-03, tol = 0.22265E+01, time = 2.86 | CG iter. 30 -- res = 0.19615E-03, tol = 0.22265E+01, time = 2.81 | CG iter. 31 -- res = 0.92011E-04, tol = 0.22265E+01, time = 3.17 | CG iter. 32 -- res = 0.46266E-04, tol = 0.22265E+01, time = 2.82 | CG iter. 33 -- res = 0.23870E-04, tol = 0.22265E+01, time = 2.91 | CG iter. 34 -- res = 0.11893E-04, tol = 0.22265E+01, time = 2.78 | CG iter. 35 -- res = 0.56744E-05, tol = 0.22265E+01, time = 2.92 | CG iter. 36 -- res = 0.26937E-05, tol = 0.22265E+01, time = 2.91 | CG iter. 37 -- res = 0.12599E-05, tol = 0.22265E+01, time = 2.73 | CG iter. 38 -- res = 0.60137E-06, tol = 0.22265E+01, time = 3.01 | CG iter. 39 -- res = 0.29301E-06, tol = 0.22265E+01, time = 2.78 | CG iter. 40 -- res = 0.14529E-06, tol = 0.22265E+01, time = 2.69 | CG iter. 41 -- res = 0.74575E-07, tol = 0.22265E+01, time = 3.03 | CG iter. 42 -- res = 0.35759E-07, tol = 0.22265E+01, time = 2.60 | CG iter. 43 -- res = 0.16331E-07, tol = 0.22265E+01, time = 2.47 | CG iter. 44 -- res = 0.76050E-08, tol = 0.22265E+01, time = 2.64 | CG iter. 45 -- res = 0.36586E-08, tol = 0.22265E+01, time = 2.93 | CG iter. 46 -- res = 0.17417E-08, tol = 0.22265E+01, time = 2.86 | CG iter. 47 -- res = 0.88394E-09, tol = 0.22265E+01, time = 2.89 | CG iter. 48 -- res = 0.42917E-09, tol = 0.22265E+01, time = 3.05 | CG iter. 49 -- res = 0.20591E-09, tol = 0.22265E+01, time = 2.54 | CG iter. 50 -- res = 0.95673E-10, tol = 0.22265E+01, time = 2.71 | Final CG iter 51 -- res = 0.95673E-10, tol = 0.22265E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -6.356 4.660 | New value -2.424 | Old value -6.356 | Difference 3.932 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.15709E+05, tol = 0.47627E+18, time = 2.14 | CG iter. 2 -- res = 0.19356E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.65880E+00, tol = 0.47627E+18, time = 2.35 | CG iter. 4 -- res = 0.11317E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.20420E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11023065.403 | (Sampled value in CG: 11037243.890 ) | CPU time specind = 1220.871 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.71357E+08, tol = 0.57592E+04, time = 12.25 | CG iter. 2 -- res = 0.59842E+08, tol = 0.57592E+04, time = 12.37 | CG iter. 3 -- res = 0.15713E+08, tol = 0.57592E+04, time = 12.06 | CG iter. 4 -- res = 0.67377E+07, tol = 0.57592E+04, time = 12.18 | CG iter. 5 -- res = 0.40817E+07, tol = 0.57592E+04, time = 12.90 | CG iter. 6 -- res = 0.23671E+07, tol = 0.57592E+04, time = 14.31 | CG iter. 7 -- res = 0.13590E+07, tol = 0.57592E+04, time = 12.65 | CG iter. 8 -- res = 0.87688E+06, tol = 0.57592E+04, time = 12.13 | CG iter. 9 -- res = 0.55067E+06, tol = 0.57592E+04, time = 12.48 | CG iter. 10 -- res = 0.32417E+06, tol = 0.57592E+04, time = 12.47 | CG iter. 11 -- res = 0.17311E+06, tol = 0.57592E+04, time = 12.12 | CG iter. 12 -- res = 0.93134E+05, tol = 0.57592E+04, time = 12.50 | CG iter. 13 -- res = 0.52091E+05, tol = 0.57592E+04, time = 12.28 | CG iter. 14 -- res = 0.31067E+05, tol = 0.57592E+04, time = 12.28 | CG iter. 15 -- res = 0.20197E+05, tol = 0.57592E+04, time = 13.00 | CG iter. 16 -- res = 0.14466E+05, tol = 0.57592E+04, time = 12.59 | CG iter. 17 -- res = 0.10802E+05, tol = 0.57592E+04, time = 11.82 | CG iter. 18 -- res = 0.79463E+04, tol = 0.57592E+04, time = 12.32 | CG iter. 19 -- res = 0.57289E+04, tol = 0.57592E+04, time = 12.23 | CG iter. 20 -- res = 0.41722E+04, tol = 0.57592E+04, time = 12.53 | CG iter. 21 -- res = 0.32880E+04, tol = 0.57592E+04, time = 12.36 | CG iter. 22 -- res = 0.30008E+04, tol = 0.57592E+04, time = 12.48 | CG iter. 23 -- res = 0.31468E+04, tol = 0.57592E+04, time = 18.23 | CG iter. 24 -- res = 0.35006E+04, tol = 0.57592E+04, time = 12.94 | CG iter. 25 -- res = 0.37004E+04, tol = 0.57592E+04, time = 11.97 | CG iter. 26 -- res = 0.35894E+04, tol = 0.57592E+04, time = 12.22 | CG iter. 27 -- res = 0.32368E+04, tol = 0.57592E+04, time = 11.96 | CG iter. 28 -- res = 0.26788E+04, tol = 0.57592E+04, time = 12.41 | CG iter. 29 -- res = 0.22257E+04, tol = 0.57592E+04, time = 12.23 | CG iter. 30 -- res = 0.18806E+04, tol = 0.57592E+04, time = 13.91 | CG iter. 31 -- res = 0.16076E+04, tol = 0.57592E+04, time = 12.73 | CG iter. 32 -- res = 0.13400E+04, tol = 0.57592E+04, time = 12.06 | CG iter. 33 -- res = 0.10657E+04, tol = 0.57592E+04, time = 11.99 | CG iter. 34 -- res = 0.80946E+03, tol = 0.57592E+04, time = 12.23 | CG iter. 35 -- res = 0.61698E+03, tol = 0.57592E+04, time = 12.12 | CG iter. 36 -- res = 0.50956E+03, tol = 0.57592E+04, time = 12.44 | CG iter. 37 -- res = 0.46438E+03, tol = 0.57592E+04, time = 12.39 | CG iter. 38 -- res = 0.44915E+03, tol = 0.57592E+04, time = 11.99 | CG iter. 39 -- res = 0.42673E+03, tol = 0.57592E+04, time = 11.97 | CG iter. 40 -- res = 0.38350E+03, tol = 0.57592E+04, time = 12.16 | CG iter. 41 -- res = 0.33907E+03, tol = 0.57592E+04, time = 12.10 | CG iter. 42 -- res = 0.29520E+03, tol = 0.57592E+04, time = 12.12 | CG iter. 43 -- res = 0.26049E+03, tol = 0.57592E+04, time = 12.55 | CG iter. 44 -- res = 0.23391E+03, tol = 0.57592E+04, time = 12.12 | CG iter. 45 -- res = 0.21033E+03, tol = 0.57592E+04, time = 12.57 | CG iter. 46 -- res = 0.18894E+03, tol = 0.57592E+04, time = 12.46 | CG iter. 47 -- res = 0.16526E+03, tol = 0.57592E+04, time = 18.21 | CG iter. 48 -- res = 0.13315E+03, tol = 0.57592E+04, time = 11.81 | CG iter. 49 -- res = 0.10690E+03, tol = 0.57592E+04, time = 12.10 | CG iter. 50 -- res = 0.88899E+02, tol = 0.57592E+04, time = 12.04 | CG iter. 51 -- res = 0.78489E+02, tol = 0.57592E+04, time = 12.33 | CG iter. 52 -- res = 0.73185E+02, tol = 0.57592E+04, time = 11.77 | CG iter. 53 -- res = 0.71963E+02, tol = 0.57592E+04, time = 11.93 | CG iter. 54 -- res = 0.68189E+02, tol = 0.57592E+04, time = 14.26 | CG iter. 55 -- res = 0.61522E+02, tol = 0.57592E+04, time = 12.51 | CG iter. 56 -- res = 0.54001E+02, tol = 0.57592E+04, time = 12.38 | CG iter. 57 -- res = 0.48443E+02, tol = 0.57592E+04, time = 12.38 | CG iter. 58 -- res = 0.44920E+02, tol = 0.57592E+04, time = 11.86 | CG iter. 59 -- res = 0.42283E+02, tol = 0.57592E+04, time = 12.68 | CG iter. 60 -- res = 0.39039E+02, tol = 0.57592E+04, time = 12.01 | Final CG iter 61 -- res = 0.39039E+02, tol = 0.57592E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.896 ( -229.597 -2230.287 2512.781 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9998946.292 | Old band monopole 11023112.816 | Change to band monopole -1024166.523 | Change to component monopole 1024162.118 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.929 2.746 | New value -0.501 | Old value 1.929 | Difference -2.430 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.054 ( 6.441 11.803 -11.576 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.654 4.427 | New value 0.071 | Old value -0.654 | Difference 0.725 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.06 | CG iter. 1 -- res = 0.36868E+06, tol = 0.47627E+18, time = 2.08 | CG iter. 2 -- res = 0.41515E+02, tol = 0.47627E+18, time = 2.94 | CG iter. 3 -- res = 0.18491E+01, tol = 0.47627E+18, time = 9.21 | CG iter. 4 -- res = 0.27522E-02, tol = 0.47627E+18, time = 6.57 | Final CG iter 5 -- res = 0.39561E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9998903.285 | (Sampled value in CG: 9981153.828 ) | Chain = 1 -- chisq = 0.81560667E+09 | Chain = 1 -- wall time = 5758.286 sec Available RAM: MemAvailable: 376406544 kB Available Swap: SwapFree: 1129577676 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 420 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443178 | --> Sampling calibration, mode = relcal | relcal = 1.3433701E-02 7.5107970E-04 -1.6126722E-03 -1.2572109E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1449127 0.1638045 9408137.12072231 | BP delta = 0.1449127 0.1607140 9408131.30511874 | BP chisq diff = -5.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632603 | --> Sampling calibration, mode = relcal | relcal = -2.8211772E-03 -7.0441311E-04 1.6800613E-03 1.6131053E-03 -4.0729248E-04 6.3971622E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5527527 15219130.7192956 | BP delta = 0.0000000E+00 -0.5355475 15219140.9758735 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18138760181815 | --> Sampling calibration, mode = relcal | relcal = -7.5161330E-02 -5.8518656E-02 9.1970198E-02 4.1709784E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3538961E-04 4.9623339E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1203E-05 | 2: delta_r/delta_0: 9.3527E-07 | 3: delta_s/delta_0: 2.0507E-07 | 4: delta_r/delta_0: 1.7496E-08 | 5: delta_s/delta_0: 6.9626E-09 | 6: delta_r/delta_0: 1.0950E-09 | 7: delta_s/delta_0: 2.9603E-10 | 8: delta_r/delta_0: 1.0985E-10 | 9: delta_s/delta_0: 3.3026E-10 | 10: delta_r/delta_0: 1.1336E-10 | 11: delta_s/delta_0: 3.5998E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.218067113086966E-003 2.740162683638058E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.1203E-05 | 2: delta_r/delta_0: 9.3526E-07 | 3: delta_s/delta_0: 2.0507E-07 | 4: delta_r/delta_0: 1.7494E-08 | 5: delta_s/delta_0: 6.9601E-09 | 6: delta_r/delta_0: 1.0949E-09 | 7: delta_s/delta_0: 2.9601E-10 | 8: delta_r/delta_0: 1.0984E-10 | 9: delta_s/delta_0: 3.3022E-10 | 10: delta_r/delta_0: 1.1334E-10 | 11: delta_s/delta_0: 3.5986E-11 | Reached bicg-stab tolerance | BP delta = 6.3775942E-02 8.8322975E-02 3484359.42563782 | BP delta = 6.3775942E-02 8.7920874E-02 3485902.88153961 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02600237 | --> Sampling calibration, mode = relcal | relcal = -0.1066502 -9.5566683E-02 0.1449241 5.7292763E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8547046E-03 1.3033747E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.2201E-04 | 2: delta_r/delta_0: 4.6205E-06 | 3: delta_s/delta_0: 1.8057E-07 | 4: delta_r/delta_0: 4.4869E-08 | 5: delta_s/delta_0: 5.2586E-08 | 6: delta_r/delta_0: 8.0369E-09 | 7: delta_s/delta_0: 5.1281E-09 | 8: delta_r/delta_0: 2.2073E-09 | 9: delta_s/delta_0: 9.7842E-10 | 10: delta_r/delta_0: 6.9662E-10 | 11: delta_s/delta_0: 6.3078E-10 | 12: delta_r/delta_0: 1.8291E-10 | 13: delta_s/delta_0: 1.0848E-10 | 14: delta_r/delta_0: 5.9652E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.110399061505671E-002 2.810831462716214E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.2201E-04 | 2: delta_r/delta_0: 4.6207E-06 | 3: delta_s/delta_0: 1.8058E-07 | 4: delta_r/delta_0: 4.4878E-08 | 5: delta_s/delta_0: 5.2553E-08 | 6: delta_r/delta_0: 8.0371E-09 | 7: delta_s/delta_0: 5.1269E-09 | 8: delta_r/delta_0: 2.2075E-09 | 9: delta_s/delta_0: 9.7856E-10 | 10: delta_r/delta_0: 6.9668E-10 | 11: delta_s/delta_0: 6.3079E-10 | 12: delta_r/delta_0: 1.8292E-10 | 13: delta_s/delta_0: 1.0849E-10 | 14: delta_r/delta_0: 5.9724E-11 | Reached bicg-stab tolerance | BP delta = -0.2038876 -0.1723720 2841363.00169825 | BP delta = -0.2038876 -0.1696136 2841367.03189617 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81238935 | --> Sampling calibration, mode = relcal | relcal = 0.2955534 0.2248761 -0.2838576 -0.2365719 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5867067E-03 4.7461702E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.8109E-03 | 2: delta_r/delta_0: 1.3522E-04 | 3: delta_s/delta_0: 1.7617E-05 | 4: delta_r/delta_0: 1.6271E-06 | 5: delta_s/delta_0: 1.5947E-06 | 6: delta_r/delta_0: 2.0559E-07 | 7: delta_s/delta_0: 1.6510E-08 | 8: delta_r/delta_0: 4.5110E-09 | 9: delta_s/delta_0: 1.8580E-08 | 10: delta_r/delta_0: 5.3460E-09 | 11: delta_s/delta_0: 1.6735E-08 | 12: delta_r/delta_0: 4.0158E-09 | 13: delta_s/delta_0: 2.4841E-09 | 14: delta_r/delta_0: 2.3153E-10 | 15: delta_s/delta_0: 3.0976E-09 | 16: delta_r/delta_0: 1.3140E-09 | 17: delta_s/delta_0: 2.7930E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.296103135607407E-002 4.020920031290157E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.8083E-03 | 2: delta_r/delta_0: 1.3516E-04 | 3: delta_s/delta_0: 1.7611E-05 | 4: delta_r/delta_0: 1.6255E-06 | 5: delta_s/delta_0: 1.5960E-06 | 6: delta_r/delta_0: 2.0541E-07 | 7: delta_s/delta_0: 1.6486E-08 | 8: delta_r/delta_0: 4.4895E-09 | 9: delta_s/delta_0: 1.8425E-08 | 10: delta_r/delta_0: 5.3055E-09 | 11: delta_s/delta_0: 1.6697E-08 | 12: delta_r/delta_0: 4.0107E-09 | 13: delta_s/delta_0: 2.4856E-09 | 14: delta_r/delta_0: 2.3190E-10 | 15: delta_s/delta_0: 3.1812E-09 | 16: delta_r/delta_0: 1.3493E-09 | 17: delta_s/delta_0: 2.7857E-11 | Reached bicg-stab tolerance | BP delta = -0.1193563 -0.1434805 2827599.39837811 | BP delta = -0.1193563 -0.1403460 2827616.11596021 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95935514 | --> Sampling calibration, mode = relcal | relcal = 0.1065491 0.1396144 -0.1103120 -0.1358515 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0285167E-02 1.3292358E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.1781E-04 | 2: delta_r/delta_0: 5.6003E-06 | 3: delta_s/delta_0: 1.2237E-04 | 4: delta_r/delta_0: 7.8052E-06 | 5: delta_s/delta_0: 1.9275E-07 | 6: delta_r/delta_0: 1.0830E-07 | 7: delta_s/delta_0: 5.9261E-07 | 8: delta_r/delta_0: 2.7534E-08 | 9: delta_s/delta_0: 7.9920E-09 | 10: delta_r/delta_0: 4.2069E-09 | 11: delta_s/delta_0: 1.3222E-09 | 12: delta_r/delta_0: 6.7180E-10 | 13: delta_s/delta_0: 3.1036E-09 | 14: delta_r/delta_0: 1.4730E-10 | 15: delta_s/delta_0: 4.6669E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.985652825135490E-002 3.696469130692260E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.1783E-04 | 2: delta_r/delta_0: 5.6007E-06 | 3: delta_s/delta_0: 1.2235E-04 | 4: delta_r/delta_0: 7.8047E-06 | 5: delta_s/delta_0: 1.9276E-07 | 6: delta_r/delta_0: 1.0832E-07 | 7: delta_s/delta_0: 5.9302E-07 | 8: delta_r/delta_0: 2.7536E-08 | 9: delta_s/delta_0: 7.9886E-09 | 10: delta_r/delta_0: 4.2118E-09 | 11: delta_s/delta_0: 1.3223E-09 | 12: delta_r/delta_0: 6.7132E-10 | 13: delta_s/delta_0: 3.1070E-09 | 14: delta_r/delta_0: 1.4672E-10 | 15: delta_s/delta_0: 4.6626E-11 | Reached bicg-stab tolerance | BP delta = 5.9448060E-02 0.1745227 3003804.89322817 | BP delta = 5.9448060E-02 0.1748568 3003882.37406904 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.143931 | New value = -3.242954 | poltype: 2 pol: 1 CPU time specind = 1.6668081E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.159684 | New value = -3.173943 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157673 | New value = -3.205089 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.209465 | New value = -3.152894 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.065802 | New value = -3.193777 | poltype: 2 pol: 2 CPU time specind = 3.8619041E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.13569E+08, tol = 0.71059E+01, time = 5.48 | CG iter. 2 -- res = 0.33975E+06, tol = 0.71059E+01, time = 5.63 | CG iter. 3 -- res = 0.61347E+05, tol = 0.71059E+01, time = 5.71 | CG iter. 4 -- res = 0.43966E+05, tol = 0.71059E+01, time = 5.74 | CG iter. 5 -- res = 0.39265E+05, tol = 0.71059E+01, time = 5.48 | CG iter. 6 -- res = 0.37975E+05, tol = 0.71059E+01, time = 6.11 | CG iter. 7 -- res = 0.37620E+05, tol = 0.71059E+01, time = 5.71 | CG iter. 8 -- res = 0.32344E+05, tol = 0.71059E+01, time = 5.63 | CG iter. 9 -- res = 0.28971E+05, tol = 0.71059E+01, time = 6.18 | CG iter. 10 -- res = 0.25181E+05, tol = 0.71059E+01, time = 12.02 | CG iter. 11 -- res = 0.17885E+05, tol = 0.71059E+01, time = 6.20 | CG iter. 12 -- res = 0.12893E+05, tol = 0.71059E+01, time = 5.58 | CG iter. 13 -- res = 0.10574E+05, tol = 0.71059E+01, time = 5.79 | CG iter. 14 -- res = 0.99422E+04, tol = 0.71059E+01, time = 5.80 | CG iter. 15 -- res = 0.86798E+04, tol = 0.71059E+01, time = 5.64 | CG iter. 16 -- res = 0.64953E+04, tol = 0.71059E+01, time = 6.26 | CG iter. 17 -- res = 0.48906E+04, tol = 0.71059E+01, time = 5.24 | CG iter. 18 -- res = 0.40592E+04, tol = 0.71059E+01, time = 6.00 | CG iter. 19 -- res = 0.35250E+04, tol = 0.71059E+01, time = 5.82 | CG iter. 20 -- res = 0.28682E+04, tol = 0.71059E+01, time = 5.83 | CG iter. 21 -- res = 0.22252E+04, tol = 0.71059E+01, time = 5.84 | CG iter. 22 -- res = 0.19073E+04, tol = 0.71059E+01, time = 6.11 | CG iter. 23 -- res = 0.17746E+04, tol = 0.71059E+01, time = 5.11 | CG iter. 24 -- res = 0.14688E+04, tol = 0.71059E+01, time = 6.08 | CG iter. 25 -- res = 0.11383E+04, tol = 0.71059E+01, time = 7.26 | CG iter. 26 -- res = 0.91803E+03, tol = 0.71059E+01, time = 6.35 | CG iter. 27 -- res = 0.82859E+03, tol = 0.71059E+01, time = 5.69 | CG iter. 28 -- res = 0.73959E+03, tol = 0.71059E+01, time = 5.89 | CG iter. 29 -- res = 0.59517E+03, tol = 0.71059E+01, time = 5.76 | CG iter. 30 -- res = 0.48292E+03, tol = 0.71059E+01, time = 5.96 | CG iter. 31 -- res = 0.41226E+03, tol = 0.71059E+01, time = 5.65 | CG iter. 32 -- res = 0.36730E+03, tol = 0.71059E+01, time = 5.58 | CG iter. 33 -- res = 0.30278E+03, tol = 0.71059E+01, time = 6.15 | CG iter. 34 -- res = 0.24280E+03, tol = 0.71059E+01, time = 5.70 | CG iter. 35 -- res = 0.21592E+03, tol = 0.71059E+01, time = 5.48 | CG iter. 36 -- res = 0.19407E+03, tol = 0.71059E+01, time = 5.67 | CG iter. 37 -- res = 0.17016E+03, tol = 0.71059E+01, time = 5.95 | CG iter. 38 -- res = 0.14046E+03, tol = 0.71059E+01, time = 5.69 | CG iter. 39 -- res = 0.12138E+03, tol = 0.71059E+01, time = 5.69 | CG iter. 40 -- res = 0.11024E+03, tol = 0.71059E+01, time = 6.04 | CG iter. 41 -- res = 0.97676E+02, tol = 0.71059E+01, time = 5.82 | CG iter. 42 -- res = 0.79707E+02, tol = 0.71059E+01, time = 5.87 | CG iter. 43 -- res = 0.69420E+02, tol = 0.71059E+01, time = 5.90 | CG iter. 44 -- res = 0.62514E+02, tol = 0.71059E+01, time = 5.79 | CG iter. 45 -- res = 0.56985E+02, tol = 0.71059E+01, time = 6.07 | CG iter. 46 -- res = 0.46036E+02, tol = 0.71059E+01, time = 5.67 | CG iter. 47 -- res = 0.38201E+02, tol = 0.71059E+01, time = 5.78 | CG iter. 48 -- res = 0.32172E+02, tol = 0.71059E+01, time = 5.59 | CG iter. 49 -- res = 0.28566E+02, tol = 0.71059E+01, time = 5.54 | CG iter. 50 -- res = 0.24288E+02, tol = 0.71059E+01, time = 5.35 | Final CG iter 51 -- res = 0.24288E+02, tol = 0.71059E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9152659.075 | Old band monopole 9998946.292 | Change to band monopole -846287.217 | Change to component monopole 846283.577 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.27142E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.12237E+03, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.37788E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.16168E-01, tol = 0.47627E+18, time = 2.06 | Final CG iter 5 -- res = 0.59032E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9152619.708 | (Sampled value in CG: 9098849.333 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.524011 | New value = 1.440493 | poltype: 2 pol: 1 CPU time specind = 1.6695023E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505251 | New value = 1.578652 | poltype: 2 pol: 2 CPU time specind = 2.8932095E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.62 | CG iter. 1 -- res = 0.25487E+08, tol = 0.47438E+04, time = 6.87 | CG iter. 2 -- res = 0.55599E+07, tol = 0.47438E+04, time = 6.55 | CG iter. 3 -- res = 0.87215E+06, tol = 0.47438E+04, time = 6.59 | CG iter. 4 -- res = 0.35397E+06, tol = 0.47438E+04, time = 6.61 | CG iter. 5 -- res = 0.15073E+06, tol = 0.47438E+04, time = 8.06 | CG iter. 6 -- res = 0.79293E+05, tol = 0.47438E+04, time = 7.15 | CG iter. 7 -- res = 0.42952E+05, tol = 0.47438E+04, time = 7.08 | CG iter. 8 -- res = 0.20693E+05, tol = 0.47438E+04, time = 6.44 | CG iter. 9 -- res = 0.92376E+04, tol = 0.47438E+04, time = 6.59 | CG iter. 10 -- res = 0.38937E+04, tol = 0.47438E+04, time = 6.31 | CG iter. 11 -- res = 0.17297E+04, tol = 0.47438E+04, time = 6.78 | CG iter. 12 -- res = 0.87600E+03, tol = 0.47438E+04, time = 6.85 | CG iter. 13 -- res = 0.49121E+03, tol = 0.47438E+04, time = 6.82 | CG iter. 14 -- res = 0.27850E+03, tol = 0.47438E+04, time = 6.84 | CG iter. 15 -- res = 0.14545E+03, tol = 0.47438E+04, time = 6.69 | CG iter. 16 -- res = 0.70575E+02, tol = 0.47438E+04, time = 6.32 | CG iter. 17 -- res = 0.32945E+02, tol = 0.47438E+04, time = 7.08 | CG iter. 18 -- res = 0.16258E+02, tol = 0.47438E+04, time = 7.01 | CG iter. 19 -- res = 0.88059E+01, tol = 0.47438E+04, time = 6.71 | CG iter. 20 -- res = 0.49178E+01, tol = 0.47438E+04, time = 6.61 | CG iter. 21 -- res = 0.27115E+01, tol = 0.47438E+04, time = 6.98 | CG iter. 22 -- res = 0.14105E+01, tol = 0.47438E+04, time = 6.90 | CG iter. 23 -- res = 0.72923E+00, tol = 0.47438E+04, time = 6.47 | CG iter. 24 -- res = 0.37181E+00, tol = 0.47438E+04, time = 6.40 | CG iter. 25 -- res = 0.20385E+00, tol = 0.47438E+04, time = 6.88 | CG iter. 26 -- res = 0.11643E+00, tol = 0.47438E+04, time = 6.77 | CG iter. 27 -- res = 0.65695E-01, tol = 0.47438E+04, time = 6.54 | CG iter. 28 -- res = 0.34556E-01, tol = 0.47438E+04, time = 6.42 | CG iter. 29 -- res = 0.18346E-01, tol = 0.47438E+04, time = 6.42 | CG iter. 30 -- res = 0.95710E-02, tol = 0.47438E+04, time = 6.52 | CG iter. 31 -- res = 0.51782E-02, tol = 0.47438E+04, time = 6.77 | CG iter. 32 -- res = 0.30378E-02, tol = 0.47438E+04, time = 6.64 | CG iter. 33 -- res = 0.17277E-02, tol = 0.47438E+04, time = 6.91 | CG iter. 34 -- res = 0.93075E-03, tol = 0.47438E+04, time = 6.66 | CG iter. 35 -- res = 0.48070E-03, tol = 0.47438E+04, time = 6.97 | Final CG iter 36 -- res = 0.48070E-03, tol = 0.47438E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.511 2.732 | New value -2.041 | Old value -0.511 | Difference -1.529 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.55 | CG iter. 1 -- res = 0.14040E+06, tol = 0.47627E+18, time = 1.89 | CG iter. 2 -- res = 0.51401E+02, tol = 0.47627E+18, time = 1.99 | CG iter. 3 -- res = 0.16134E+01, tol = 0.47627E+18, time = 2.52 | CG iter. 4 -- res = 0.31694E-02, tol = 0.47627E+18, time = 2.15 | Final CG iter 5 -- res = 0.57315E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9152619.708 | (Sampled value in CG: 9099836.444 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.501751 | New value = -3.695831 | poltype: 1 pol: 1 CPU time specind = 2.4699926E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.31661E+07, tol = 0.30045E+01, time = 2.63 | CG iter. 2 -- res = 0.11988E+07, tol = 0.30045E+01, time = 2.74 | CG iter. 3 -- res = 0.25605E+06, tol = 0.30045E+01, time = 2.65 | CG iter. 4 -- res = 0.12300E+06, tol = 0.30045E+01, time = 2.34 | CG iter. 5 -- res = 0.74383E+05, tol = 0.30045E+01, time = 2.76 | CG iter. 6 -- res = 0.31323E+05, tol = 0.30045E+01, time = 2.50 | CG iter. 7 -- res = 0.99667E+04, tol = 0.30045E+01, time = 2.90 | CG iter. 8 -- res = 0.40260E+04, tol = 0.30045E+01, time = 2.69 | CG iter. 9 -- res = 0.18383E+04, tol = 0.30045E+01, time = 2.69 | CG iter. 10 -- res = 0.75040E+03, tol = 0.30045E+01, time = 2.65 | CG iter. 11 -- res = 0.31036E+03, tol = 0.30045E+01, time = 2.74 | CG iter. 12 -- res = 0.16421E+03, tol = 0.30045E+01, time = 2.57 | CG iter. 13 -- res = 0.85801E+02, tol = 0.30045E+01, time = 2.73 | CG iter. 14 -- res = 0.38957E+02, tol = 0.30045E+01, time = 2.86 | CG iter. 15 -- res = 0.17087E+02, tol = 0.30045E+01, time = 2.78 | CG iter. 16 -- res = 0.74836E+01, tol = 0.30045E+01, time = 2.55 | CG iter. 17 -- res = 0.32121E+01, tol = 0.30045E+01, time = 3.03 | CG iter. 18 -- res = 0.15771E+01, tol = 0.30045E+01, time = 2.62 | CG iter. 19 -- res = 0.80208E+00, tol = 0.30045E+01, time = 2.80 | CG iter. 20 -- res = 0.39073E+00, tol = 0.30045E+01, time = 3.06 | CG iter. 21 -- res = 0.17016E+00, tol = 0.30045E+01, time = 2.64 | CG iter. 22 -- res = 0.73568E-01, tol = 0.30045E+01, time = 2.54 | CG iter. 23 -- res = 0.33536E-01, tol = 0.30045E+01, time = 2.66 | CG iter. 24 -- res = 0.16852E-01, tol = 0.30045E+01, time = 2.93 | CG iter. 25 -- res = 0.89668E-02, tol = 0.30045E+01, time = 2.96 | CG iter. 26 -- res = 0.42769E-02, tol = 0.30045E+01, time = 2.84 | CG iter. 27 -- res = 0.20034E-02, tol = 0.30045E+01, time = 2.91 | CG iter. 28 -- res = 0.94958E-03, tol = 0.30045E+01, time = 2.88 | CG iter. 29 -- res = 0.42289E-03, tol = 0.30045E+01, time = 2.89 | CG iter. 30 -- res = 0.21583E-03, tol = 0.30045E+01, time = 2.64 | CG iter. 31 -- res = 0.10920E-03, tol = 0.30045E+01, time = 3.88 | CG iter. 32 -- res = 0.53158E-04, tol = 0.30045E+01, time = 3.30 | CG iter. 33 -- res = 0.25240E-04, tol = 0.30045E+01, time = 2.86 | CG iter. 34 -- res = 0.11214E-04, tol = 0.30045E+01, time = 3.22 | CG iter. 35 -- res = 0.52762E-05, tol = 0.30045E+01, time = 2.95 | CG iter. 36 -- res = 0.26859E-05, tol = 0.30045E+01, time = 2.50 | CG iter. 37 -- res = 0.13291E-05, tol = 0.30045E+01, time = 2.65 | CG iter. 38 -- res = 0.63702E-06, tol = 0.30045E+01, time = 2.58 | CG iter. 39 -- res = 0.29653E-06, tol = 0.30045E+01, time = 2.99 | CG iter. 40 -- res = 0.13340E-06, tol = 0.30045E+01, time = 2.92 | CG iter. 41 -- res = 0.62614E-07, tol = 0.30045E+01, time = 2.75 | CG iter. 42 -- res = 0.30903E-07, tol = 0.30045E+01, time = 2.65 | CG iter. 43 -- res = 0.14703E-07, tol = 0.30045E+01, time = 3.00 | CG iter. 44 -- res = 0.70417E-08, tol = 0.30045E+01, time = 2.70 | CG iter. 45 -- res = 0.33367E-08, tol = 0.30045E+01, time = 2.76 | CG iter. 46 -- res = 0.15246E-08, tol = 0.30045E+01, time = 2.63 | CG iter. 47 -- res = 0.73767E-09, tol = 0.30045E+01, time = 2.90 | CG iter. 48 -- res = 0.35332E-09, tol = 0.30045E+01, time = 2.68 | CG iter. 49 -- res = 0.16919E-09, tol = 0.30045E+01, time = 2.69 | CG iter. 50 -- res = 0.80601E-10, tol = 0.30045E+01, time = 2.80 | Final CG iter 51 -- res = 0.80601E-10, tol = 0.30045E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -5.647 6.047 | New value -2.535 | Old value -5.647 | Difference 3.111 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.12771E+05, tol = 0.47627E+18, time = 1.78 | CG iter. 2 -- res = 0.37756E+02, tol = 0.47627E+18, time = 2.01 | CG iter. 3 -- res = 0.12886E+01, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.74875E-03, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.10783E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9152619.708 | (Sampled value in CG: 9109801.097 ) | CPU time specind = 1208.940 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.73209E+08, tol = 0.57838E+04, time = 12.01 | CG iter. 2 -- res = 0.60521E+08, tol = 0.57838E+04, time = 11.50 | CG iter. 3 -- res = 0.16199E+08, tol = 0.57838E+04, time = 12.28 | CG iter. 4 -- res = 0.71413E+07, tol = 0.57838E+04, time = 12.36 | CG iter. 5 -- res = 0.43481E+07, tol = 0.57838E+04, time = 11.72 | CG iter. 6 -- res = 0.25065E+07, tol = 0.57838E+04, time = 18.75 | CG iter. 7 -- res = 0.14382E+07, tol = 0.57838E+04, time = 12.29 | CG iter. 8 -- res = 0.95199E+06, tol = 0.57838E+04, time = 12.16 | CG iter. 9 -- res = 0.61197E+06, tol = 0.57838E+04, time = 12.02 | CG iter. 10 -- res = 0.37239E+06, tol = 0.57838E+04, time = 12.10 | CG iter. 11 -- res = 0.20751E+06, tol = 0.57838E+04, time = 11.97 | CG iter. 12 -- res = 0.11858E+06, tol = 0.57838E+04, time = 12.16 | CG iter. 13 -- res = 0.70902E+05, tol = 0.57838E+04, time = 13.97 | CG iter. 14 -- res = 0.47995E+05, tol = 0.57838E+04, time = 12.28 | CG iter. 15 -- res = 0.36773E+05, tol = 0.57838E+04, time = 12.66 | CG iter. 16 -- res = 0.31438E+05, tol = 0.57838E+04, time = 11.85 | CG iter. 17 -- res = 0.29014E+05, tol = 0.57838E+04, time = 12.00 | CG iter. 18 -- res = 0.27297E+05, tol = 0.57838E+04, time = 12.13 | CG iter. 19 -- res = 0.25620E+05, tol = 0.57838E+04, time = 12.07 | CG iter. 20 -- res = 0.24133E+05, tol = 0.57838E+04, time = 12.18 | CG iter. 21 -- res = 0.23207E+05, tol = 0.57838E+04, time = 11.55 | CG iter. 22 -- res = 0.23557E+05, tol = 0.57838E+04, time = 12.01 | CG iter. 23 -- res = 0.24634E+05, tol = 0.57838E+04, time = 11.94 | CG iter. 24 -- res = 0.24000E+05, tol = 0.57838E+04, time = 11.93 | CG iter. 25 -- res = 0.20924E+05, tol = 0.57838E+04, time = 12.10 | CG iter. 26 -- res = 0.16115E+05, tol = 0.57838E+04, time = 12.19 | CG iter. 27 -- res = 0.11970E+05, tol = 0.57838E+04, time = 12.28 | CG iter. 28 -- res = 0.90580E+04, tol = 0.57838E+04, time = 12.46 | CG iter. 29 -- res = 0.74400E+04, tol = 0.57838E+04, time = 12.19 | CG iter. 30 -- res = 0.64647E+04, tol = 0.57838E+04, time = 18.49 | CG iter. 31 -- res = 0.57662E+04, tol = 0.57838E+04, time = 12.11 | CG iter. 32 -- res = 0.51398E+04, tol = 0.57838E+04, time = 11.66 | CG iter. 33 -- res = 0.45488E+04, tol = 0.57838E+04, time = 11.94 | CG iter. 34 -- res = 0.40350E+04, tol = 0.57838E+04, time = 12.06 | CG iter. 35 -- res = 0.35967E+04, tol = 0.57838E+04, time = 12.15 | CG iter. 36 -- res = 0.33433E+04, tol = 0.57838E+04, time = 11.55 | CG iter. 37 -- res = 0.33298E+04, tol = 0.57838E+04, time = 13.53 | CG iter. 38 -- res = 0.32829E+04, tol = 0.57838E+04, time = 12.98 | CG iter. 39 -- res = 0.29308E+04, tol = 0.57838E+04, time = 12.03 | CG iter. 40 -- res = 0.24407E+04, tol = 0.57838E+04, time = 12.60 | CG iter. 41 -- res = 0.20005E+04, tol = 0.57838E+04, time = 11.90 | CG iter. 42 -- res = 0.16426E+04, tol = 0.57838E+04, time = 11.69 | CG iter. 43 -- res = 0.14233E+04, tol = 0.57838E+04, time = 11.98 | CG iter. 44 -- res = 0.13462E+04, tol = 0.57838E+04, time = 11.84 | CG iter. 45 -- res = 0.12870E+04, tol = 0.57838E+04, time = 11.80 | CG iter. 46 -- res = 0.11767E+04, tol = 0.57838E+04, time = 12.68 | CG iter. 47 -- res = 0.10710E+04, tol = 0.57838E+04, time = 11.81 | CG iter. 48 -- res = 0.94864E+03, tol = 0.57838E+04, time = 11.85 | CG iter. 49 -- res = 0.85901E+03, tol = 0.57838E+04, time = 11.68 | CG iter. 50 -- res = 0.79181E+03, tol = 0.57838E+04, time = 12.19 | CG iter. 51 -- res = 0.77481E+03, tol = 0.57838E+04, time = 12.02 | CG iter. 52 -- res = 0.75935E+03, tol = 0.57838E+04, time = 12.45 | CG iter. 53 -- res = 0.72432E+03, tol = 0.57838E+04, time = 11.69 | CG iter. 54 -- res = 0.65086E+03, tol = 0.57838E+04, time = 18.86 | CG iter. 55 -- res = 0.56519E+03, tol = 0.57838E+04, time = 11.81 | CG iter. 56 -- res = 0.48860E+03, tol = 0.57838E+04, time = 12.12 | CG iter. 57 -- res = 0.43833E+03, tol = 0.57838E+04, time = 11.82 | CG iter. 58 -- res = 0.41494E+03, tol = 0.57838E+04, time = 13.84 | CG iter. 59 -- res = 0.39856E+03, tol = 0.57838E+04, time = 11.87 | CG iter. 60 -- res = 0.37387E+03, tol = 0.57838E+04, time = 11.78 | Final CG iter 61 -- res = 0.37387E+03, tol = 0.57838E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.696 ( -229.707 -2229.918 2512.071 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9325798.880 | Old band monopole 9152659.075 | Change to band monopole 173139.805 | Change to component monopole -173139.060 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.067 2.734 | New value 0.697 | Old value -2.067 | Difference 2.763 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.834 ( 8.427 10.638 -9.112 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 11.272 5.411 | New value 3.162 | Old value 11.272 | Difference -8.110 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.39930E+06, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.26587E+02, tol = 0.47627E+18, time = 1.95 | CG iter. 3 -- res = 0.80903E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.78391E-03, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.19102E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9325758.768 | (Sampled value in CG: 9294269.222 ) | Chain = 1 -- chisq = 0.81595259E+09 | Chain = 1 -- wall time = 6192.219 sec Available RAM: MemAvailable: 377033092 kB Available Swap: SwapFree: 1130525988 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 421 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06443787 | --> Sampling calibration, mode = relcal | relcal = 1.3430415E-02 7.4464368E-04 -1.6029227E-03 -1.2572136E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1449127 0.1607140 97045188.5098403 | BP delta = 0.1395987 0.1554000 97045192.2934010 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632464 | --> Sampling calibration, mode = relcal | relcal = -2.8215458E-03 -7.0319104E-04 1.6788542E-03 1.6134827E-03 -4.0869138E-04 6.4109132E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5527527 15217063.1371419 | BP delta = 0.0000000E+00 -0.5503420 15217063.3883934 | BP chisq diff = 0.3, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103388 | --> Sampling calibration, mode = relcal | relcal = 3.7092410E-02 1.3722988E-02 5.7521896E-03 -7.1680737E-03 8.2444074E-03 2.3930410E-03 -7.6013752E-03 -7.1845660E-03 -1.5302295E-02 -1.4800278E-02 -3.0514614E-03 -1.2096983E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.216598 132214236.753480 | BP delta = 0.0000000E+00 -1.187672 132214238.822042 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18232780811772 | --> Sampling calibration, mode = relcal | relcal = -7.5217046E-02 -5.8577236E-02 9.2018768E-02 4.1775510E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -4.4504657E-05 4.4090827E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1323E-05 | 2: delta_r/delta_0: 9.4347E-07 | 3: delta_s/delta_0: 1.9929E-07 | 4: delta_r/delta_0: 1.7267E-08 | 5: delta_s/delta_0: 5.4179E-09 | 6: delta_r/delta_0: 1.0857E-09 | 7: delta_s/delta_0: 2.3511E-10 | 8: delta_r/delta_0: 9.9519E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.099554724984353E-003 2.737983546743498E-005 | BP delta = 6.3775942E-02 8.8322975E-02 50482102.9156112 | BP delta = 6.3356116E-02 8.7903149E-02 50482103.0275599 | BP chisq diff = 0.1, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596150 | --> Sampling calibration, mode = relcal | relcal = -0.1066278 -9.5521390E-02 0.1448389 5.7310276E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1412500E-03 1.4375462E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.5728E-05 | 2: delta_r/delta_0: 1.9511E-06 | 3: delta_s/delta_0: 2.2260E-07 | 4: delta_r/delta_0: 5.4936E-08 | 5: delta_s/delta_0: 2.1908E-08 | 6: delta_r/delta_0: 7.6723E-09 | 7: delta_s/delta_0: 9.8734E-09 | 8: delta_r/delta_0: 1.3420E-09 | 9: delta_s/delta_0: 1.1377E-09 | 10: delta_r/delta_0: 3.0545E-10 | 11: delta_s/delta_0: 1.2674E-09 | 12: delta_r/delta_0: 3.0121E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.030335698079197E-002 2.810921002069784E-005 | BP delta = -0.2038876 -0.1723720 57386061.7254925 | BP delta = -0.2032965 -0.1717809 57386061.7808220 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81230085 | --> Sampling calibration, mode = relcal | relcal = 0.2955526 0.2249364 -0.2838576 -0.2366315 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 8.6851465E-04 5.0981161E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.0998E-03 | 2: delta_r/delta_0: 1.6576E-04 | 3: delta_s/delta_0: 1.6020E-05 | 4: delta_r/delta_0: 2.7545E-06 | 5: delta_s/delta_0: 2.5090E-06 | 6: delta_r/delta_0: 5.5650E-07 | 7: delta_s/delta_0: 1.6326E-07 | 8: delta_r/delta_0: 3.7792E-09 | 9: delta_s/delta_0: 2.0903E-08 | 10: delta_r/delta_0: 6.0086E-09 | 11: delta_s/delta_0: 6.5832E-09 | 12: delta_r/delta_0: 7.5816E-10 | 13: delta_s/delta_0: 1.9124E-09 | 14: delta_r/delta_0: 9.1341E-10 | 15: delta_s/delta_0: 3.2625E-10 | 16: delta_r/delta_0: 1.7505E-10 | 17: delta_s/delta_0: 4.1122E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.134294906071402E-002 4.021523493128030E-005 | BP delta = -0.1193563 -0.1434805 72486443.2348444 | BP delta = -0.1159229 -0.1400471 72486443.3282360 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95921762 | --> Sampling calibration, mode = relcal | relcal = 0.1065539 0.1394483 -0.1103507 -0.1356515 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0048903E-02 1.4026049E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8426E-04 | 2: delta_r/delta_0: 4.8662E-06 | 3: delta_s/delta_0: 1.0737E-05 | 4: delta_r/delta_0: 1.2795E-06 | 5: delta_s/delta_0: 1.7844E-07 | 6: delta_r/delta_0: 1.1117E-07 | 7: delta_s/delta_0: 6.7857E-07 | 8: delta_r/delta_0: 2.5070E-08 | 9: delta_s/delta_0: 2.6282E-07 | 10: delta_r/delta_0: 8.9451E-08 | 11: delta_s/delta_0: 1.1041E-09 | 12: delta_r/delta_0: 7.1814E-10 | 13: delta_s/delta_0: 7.5192E-09 | 14: delta_r/delta_0: 4.5656E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.942111494247408E-002 3.696922302214751E-005 | BP delta = 5.9448060E-02 0.1745227 72781599.3387234 | BP delta = 0.1068636 0.2219383 72781597.6837197 | BP chisq diff = -1.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52174628 | --> Sampling calibration, mode = relcal | relcal = -5.1113881E-02 -3.7476155E-03 2.7279189E-02 2.7582308E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.5935722E-04 2.4474524E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5405E-05 | 2: delta_r/delta_0: 4.5350E-06 | 3: delta_s/delta_0: 1.6989E-05 | 4: delta_r/delta_0: 2.5586E-06 | 5: delta_s/delta_0: 5.1056E-08 | 6: delta_r/delta_0: 3.3192E-08 | 7: delta_s/delta_0: 2.1726E-07 | 8: delta_r/delta_0: 6.3110E-09 | 9: delta_s/delta_0: 5.6289E-09 | 10: delta_r/delta_0: 2.3076E-09 | 11: delta_s/delta_0: 4.2788E-10 | 12: delta_r/delta_0: 2.7829E-10 | 13: delta_s/delta_0: 1.6919E-09 | 14: delta_r/delta_0: 2.8698E-10 | 15: delta_s/delta_0: 2.5207E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.171092423160368E-002 5.481457441269436E-005 | BP delta = 3.5469025E-02 0.1502195 91257079.3262823 | BP delta = 9.4315268E-02 0.2090657 91257078.9460970 | BP chisq diff = -0.4, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42164866 | --> Sampling calibration, mode = relcal | relcal = 4.5671623E-02 3.9701186E-02 -2.8304873E-02 -5.7067934E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.0742807E-03 2.9321152E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.4431E-05 | 2: delta_r/delta_0: 3.7939E-06 | 3: delta_s/delta_0: 8.1997E-05 | 4: delta_r/delta_0: 6.0185E-06 | 5: delta_s/delta_0: 6.4088E-08 | 6: delta_r/delta_0: 3.7448E-08 | 7: delta_s/delta_0: 1.7728E-08 | 8: delta_r/delta_0: 1.2271E-08 | 9: delta_s/delta_0: 6.7994E-08 | 10: delta_r/delta_0: 2.9914E-10 | 11: delta_s/delta_0: 3.7794E-10 | 12: delta_r/delta_0: 2.9263E-10 | 13: delta_s/delta_0: 3.2521E-09 | 14: delta_r/delta_0: 1.9047E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.564009486479105E-002 4.995147279005428E-005 | BP delta = -2.7218815E-02 -0.1609384 90176215.0338200 | BP delta = -1.4200624E-02 -0.1479202 90176214.8804888 | BP chisq diff = -0.2, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28173342 | --> Sampling calibration, mode = relcal | relcal = 2.4251301E-02 4.5159943E-02 -2.3380298E-02 -4.6030946E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.9984022E-03 5.8643264E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0902E-04 | 2: delta_r/delta_0: 8.8687E-06 | 3: delta_s/delta_0: 1.5717E-06 | 4: delta_r/delta_0: 2.6967E-07 | 5: delta_s/delta_0: 1.0272E-07 | 6: delta_r/delta_0: 2.0958E-08 | 7: delta_s/delta_0: 9.1552E-09 | 8: delta_r/delta_0: 5.1725E-09 | 9: delta_s/delta_0: 5.0569E-08 | 10: delta_r/delta_0: 4.5422E-09 | 11: delta_s/delta_0: 1.2912E-09 | 12: delta_r/delta_0: 5.8193E-10 | 13: delta_s/delta_0: 6.6214E-10 | 14: delta_r/delta_0: 4.1579E-10 | 15: delta_s/delta_0: 9.6118E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.685614720776594E-003 7.840810503897861E-005 | BP delta = -0.4890190 -0.7168660 160953381.851722 | BP delta = -0.5125559 -0.7404029 160953381.422616 | BP chisq diff = -0.4, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29407833 | --> Sampling calibration, mode = relcal | relcal = 4.5325141E-04 1.0232398E-02 -3.7410471E-03 -6.9446024E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.7187212E-02 1.6380755E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3137E-04 | 2: delta_r/delta_0: 1.1270E-05 | 3: delta_s/delta_0: 1.9083E-06 | 4: delta_r/delta_0: 2.8171E-07 | 5: delta_s/delta_0: 1.0389E-07 | 6: delta_r/delta_0: 2.5510E-08 | 7: delta_s/delta_0: 1.2263E-08 | 8: delta_r/delta_0: 8.4246E-09 | 9: delta_s/delta_0: 1.2235E-08 | 10: delta_r/delta_0: 6.3690E-09 | 11: delta_s/delta_0: 1.2629E-07 | 12: delta_r/delta_0: 3.3384E-08 | 13: delta_s/delta_0: 3.4780E-10 | 14: delta_r/delta_0: 1.6955E-10 | 15: delta_s/delta_0: 9.9801E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.760527806963857E-003 8.302242306319016E-005 | BP delta = -0.8954110 -0.8578388 157865487.917461 | BP delta = -0.9400143 -0.9024422 157865487.399936 | BP chisq diff = -0.5, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26519811 | --> Sampling calibration, mode = relcal | relcal = -5.5889818E-03 1.5063496E-02 -2.3886219E-03 -7.0858919E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.5856504E-03 4.6564266E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4063E-04 | 2: delta_r/delta_0: 1.2008E-05 | 3: delta_s/delta_0: 2.2460E-06 | 4: delta_r/delta_0: 2.4047E-07 | 5: delta_s/delta_0: 9.9079E-08 | 6: delta_r/delta_0: 2.0629E-08 | 7: delta_s/delta_0: 1.0123E-08 | 8: delta_r/delta_0: 6.0579E-09 | 9: delta_s/delta_0: 2.5327E-08 | 10: delta_r/delta_0: 8.4717E-09 | 11: delta_s/delta_0: 8.0036E-08 | 12: delta_r/delta_0: 4.8701E-08 | 13: delta_s/delta_0: 8.1141E-10 | 14: delta_r/delta_0: 5.1694E-10 | 15: delta_s/delta_0: 1.3844E-10 | 16: delta_r/delta_0: 1.0335E-10 | 17: delta_s/delta_0: 7.4021E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -7.856844793002065E-003 9.148947895580407E-005 | BP delta = 0.4536546 0.5089126 157022973.156706 | BP delta = 0.4557104 0.5109684 157022973.173414 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25678826 | --> Sampling calibration, mode = relcal | relcal = -3.1736340E-02 -2.5968175E-02 3.6959004E-02 2.0745510E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.6952909E-02 2.1530719E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4531E-04 | 2: delta_r/delta_0: 1.2138E-05 | 3: delta_s/delta_0: 1.9851E-06 | 4: delta_r/delta_0: 4.4559E-07 | 5: delta_s/delta_0: 1.4835E-07 | 6: delta_r/delta_0: 3.4878E-08 | 7: delta_s/delta_0: 1.6598E-08 | 8: delta_r/delta_0: 1.0184E-08 | 9: delta_s/delta_0: 9.8598E-08 | 10: delta_r/delta_0: 8.3127E-09 | 11: delta_s/delta_0: 1.5231E-09 | 12: delta_r/delta_0: 2.5983E-10 | 13: delta_s/delta_0: 7.8302E-10 | 14: delta_r/delta_0: 2.6056E-10 | 15: delta_s/delta_0: 8.1504E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.041957180303893E-002 8.667030066982020E-005 | BP delta = -0.8769484 -1.080373 158555790.623288 | BP delta = -0.8755912 -1.079016 158555790.637576 | BP chisq diff = 0.0, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.242954 | New value = -3.166695 | poltype: 2 pol: 1 CPU time specind = 2.5023222E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.173943 | New value = -3.158101 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.205089 | New value = -3.086168 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152894 | New value = -3.180793 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193777 | New value = -3.160583 | poltype: 2 pol: 2 CPU time specind = 1.3237953E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 25.68 | CG iter. 1 -- res = 0.13576E+08, tol = 0.74800E+01, time = 5.66 | CG iter. 2 -- res = 0.36114E+06, tol = 0.74800E+01, time = 5.63 | CG iter. 3 -- res = 0.62815E+05, tol = 0.74800E+01, time = 5.67 | CG iter. 4 -- res = 0.48105E+05, tol = 0.74800E+01, time = 5.85 | CG iter. 5 -- res = 0.45468E+05, tol = 0.74800E+01, time = 5.63 | CG iter. 6 -- res = 0.44114E+05, tol = 0.74800E+01, time = 6.01 | CG iter. 7 -- res = 0.43641E+05, tol = 0.74800E+01, time = 12.50 | CG iter. 8 -- res = 0.35506E+05, tol = 0.74800E+01, time = 5.77 | CG iter. 9 -- res = 0.30099E+05, tol = 0.74800E+01, time = 5.51 | CG iter. 10 -- res = 0.24879E+05, tol = 0.74800E+01, time = 5.74 | CG iter. 11 -- res = 0.17726E+05, tol = 0.74800E+01, time = 5.66 | CG iter. 12 -- res = 0.12460E+05, tol = 0.74800E+01, time = 5.76 | CG iter. 13 -- res = 0.10584E+05, tol = 0.74800E+01, time = 5.78 | CG iter. 14 -- res = 0.94290E+04, tol = 0.74800E+01, time = 5.34 | CG iter. 15 -- res = 0.81112E+04, tol = 0.74800E+01, time = 5.87 | CG iter. 16 -- res = 0.59087E+04, tol = 0.74800E+01, time = 6.00 | CG iter. 17 -- res = 0.41679E+04, tol = 0.74800E+01, time = 5.64 | CG iter. 18 -- res = 0.34295E+04, tol = 0.74800E+01, time = 5.63 | CG iter. 19 -- res = 0.30290E+04, tol = 0.74800E+01, time = 5.61 | CG iter. 20 -- res = 0.24084E+04, tol = 0.74800E+01, time = 6.04 | CG iter. 21 -- res = 0.18585E+04, tol = 0.74800E+01, time = 5.27 | CG iter. 22 -- res = 0.15431E+04, tol = 0.74800E+01, time = 7.58 | CG iter. 23 -- res = 0.13366E+04, tol = 0.74800E+01, time = 6.60 | CG iter. 24 -- res = 0.11121E+04, tol = 0.74800E+01, time = 5.73 | CG iter. 25 -- res = 0.83501E+03, tol = 0.74800E+01, time = 5.98 | CG iter. 26 -- res = 0.67611E+03, tol = 0.74800E+01, time = 5.69 | CG iter. 27 -- res = 0.60452E+03, tol = 0.74800E+01, time = 6.01 | CG iter. 28 -- res = 0.54103E+03, tol = 0.74800E+01, time = 5.42 | CG iter. 29 -- res = 0.43059E+03, tol = 0.74800E+01, time = 5.81 | CG iter. 30 -- res = 0.34683E+03, tol = 0.74800E+01, time = 5.89 | CG iter. 31 -- res = 0.30241E+03, tol = 0.74800E+01, time = 5.53 | CG iter. 32 -- res = 0.27523E+03, tol = 0.74800E+01, time = 5.72 | CG iter. 33 -- res = 0.22666E+03, tol = 0.74800E+01, time = 5.85 | CG iter. 34 -- res = 0.17406E+03, tol = 0.74800E+01, time = 5.94 | CG iter. 35 -- res = 0.14754E+03, tol = 0.74800E+01, time = 5.96 | CG iter. 36 -- res = 0.13330E+03, tol = 0.74800E+01, time = 6.25 | CG iter. 37 -- res = 0.11204E+03, tol = 0.74800E+01, time = 5.82 | CG iter. 38 -- res = 0.86832E+02, tol = 0.74800E+01, time = 5.89 | CG iter. 39 -- res = 0.69901E+02, tol = 0.74800E+01, time = 6.05 | CG iter. 40 -- res = 0.60375E+02, tol = 0.74800E+01, time = 6.18 | CG iter. 41 -- res = 0.50034E+02, tol = 0.74800E+01, time = 5.80 | CG iter. 42 -- res = 0.39785E+02, tol = 0.74800E+01, time = 5.51 | CG iter. 43 -- res = 0.31728E+02, tol = 0.74800E+01, time = 5.61 | CG iter. 44 -- res = 0.26799E+02, tol = 0.74800E+01, time = 5.62 | CG iter. 45 -- res = 0.22072E+02, tol = 0.74800E+01, time = 5.87 | CG iter. 46 -- res = 0.17240E+02, tol = 0.74800E+01, time = 5.35 | CG iter. 47 -- res = 0.13066E+02, tol = 0.74800E+01, time = 5.73 | CG iter. 48 -- res = 0.10544E+02, tol = 0.74800E+01, time = 5.88 | CG iter. 49 -- res = 0.87953E+01, tol = 0.74800E+01, time = 5.74 | CG iter. 50 -- res = 0.70915E+01, tol = 0.74800E+01, time = 5.72 | Final CG iter 51 -- res = 0.70915E+01, tol = 0.74800E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9184005.079 | Old band monopole 9325798.880 | Change to band monopole -141793.802 | Change to component monopole 141793.192 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.88 | CG iter. 1 -- res = 0.20640E+06, tol = 0.47627E+18, time = 2.01 | CG iter. 2 -- res = 0.89301E+02, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.23085E+01, tol = 0.47627E+18, time = 4.08 | CG iter. 4 -- res = 0.13305E-01, tol = 0.47627E+18, time = 6.58 | Final CG iter 5 -- res = 0.24040E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9183965.576 | (Sampled value in CG: 9235428.579 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.440493 | New value = 1.476763 | poltype: 2 pol: 1 CPU time specind = 2.1780014E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.578652 | New value = 1.452366 | poltype: 2 pol: 2 CPU time specind = 1.1874914E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.24267E+08, tol = 0.47550E+04, time = 6.64 | CG iter. 2 -- res = 0.53718E+07, tol = 0.47550E+04, time = 7.72 | CG iter. 3 -- res = 0.86028E+06, tol = 0.47550E+04, time = 7.23 | CG iter. 4 -- res = 0.35776E+06, tol = 0.47550E+04, time = 6.94 | CG iter. 5 -- res = 0.15655E+06, tol = 0.47550E+04, time = 6.59 | CG iter. 6 -- res = 0.82389E+05, tol = 0.47550E+04, time = 6.68 | CG iter. 7 -- res = 0.44845E+05, tol = 0.47550E+04, time = 6.86 | CG iter. 8 -- res = 0.21467E+05, tol = 0.47550E+04, time = 6.31 | CG iter. 9 -- res = 0.92697E+04, tol = 0.47550E+04, time = 6.58 | CG iter. 10 -- res = 0.37536E+04, tol = 0.47550E+04, time = 6.40 | CG iter. 11 -- res = 0.16815E+04, tol = 0.47550E+04, time = 6.83 | CG iter. 12 -- res = 0.88294E+03, tol = 0.47550E+04, time = 6.86 | CG iter. 13 -- res = 0.50348E+03, tol = 0.47550E+04, time = 6.51 | CG iter. 14 -- res = 0.28018E+03, tol = 0.47550E+04, time = 6.25 | CG iter. 15 -- res = 0.14534E+03, tol = 0.47550E+04, time = 6.55 | CG iter. 16 -- res = 0.69802E+02, tol = 0.47550E+04, time = 6.73 | CG iter. 17 -- res = 0.32755E+02, tol = 0.47550E+04, time = 6.84 | CG iter. 18 -- res = 0.16598E+02, tol = 0.47550E+04, time = 6.81 | CG iter. 19 -- res = 0.92412E+01, tol = 0.47550E+04, time = 6.74 | CG iter. 20 -- res = 0.52403E+01, tol = 0.47550E+04, time = 6.43 | CG iter. 21 -- res = 0.28395E+01, tol = 0.47550E+04, time = 6.83 | CG iter. 22 -- res = 0.14466E+01, tol = 0.47550E+04, time = 6.14 | CG iter. 23 -- res = 0.72972E+00, tol = 0.47550E+04, time = 6.28 | CG iter. 24 -- res = 0.37426E+00, tol = 0.47550E+04, time = 6.82 | CG iter. 25 -- res = 0.20648E+00, tol = 0.47550E+04, time = 6.44 | CG iter. 26 -- res = 0.11874E+00, tol = 0.47550E+04, time = 6.49 | CG iter. 27 -- res = 0.65937E-01, tol = 0.47550E+04, time = 6.59 | CG iter. 28 -- res = 0.35549E-01, tol = 0.47550E+04, time = 6.48 | CG iter. 29 -- res = 0.18674E-01, tol = 0.47550E+04, time = 6.59 | CG iter. 30 -- res = 0.99533E-02, tol = 0.47550E+04, time = 6.47 | CG iter. 31 -- res = 0.54046E-02, tol = 0.47550E+04, time = 6.22 | CG iter. 32 -- res = 0.31058E-02, tol = 0.47550E+04, time = 6.22 | CG iter. 33 -- res = 0.17491E-02, tol = 0.47550E+04, time = 7.23 | CG iter. 34 -- res = 0.93171E-03, tol = 0.47550E+04, time = 12.19 | CG iter. 35 -- res = 0.48113E-03, tol = 0.47550E+04, time = 6.14 | Final CG iter 36 -- res = 0.48113E-03, tol = 0.47550E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 0.726 2.742 | New value 1.776 | Old value 0.726 | Difference 1.050 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.63030E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.44907E+02, tol = 0.47627E+18, time = 1.90 | CG iter. 3 -- res = 0.13848E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.71741E-03, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.14540E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9183965.576 | (Sampled value in CG: 9235493.090 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.695831 | New value = -3.439056 | poltype: 1 pol: 1 CPU time specind = 2.8723955E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.01 | CG iter. 1 -- res = 0.30402E+07, tol = 0.18340E+01, time = 2.88 | CG iter. 2 -- res = 0.13169E+07, tol = 0.18340E+01, time = 2.75 | CG iter. 3 -- res = 0.27912E+06, tol = 0.18340E+01, time = 2.58 | CG iter. 4 -- res = 0.12532E+06, tol = 0.18340E+01, time = 2.71 | CG iter. 5 -- res = 0.71935E+05, tol = 0.18340E+01, time = 2.72 | CG iter. 6 -- res = 0.33928E+05, tol = 0.18340E+01, time = 2.67 | CG iter. 7 -- res = 0.12303E+05, tol = 0.18340E+01, time = 2.62 | CG iter. 8 -- res = 0.57028E+04, tol = 0.18340E+01, time = 2.66 | CG iter. 9 -- res = 0.26707E+04, tol = 0.18340E+01, time = 2.92 | CG iter. 10 -- res = 0.10429E+04, tol = 0.18340E+01, time = 2.69 | CG iter. 11 -- res = 0.42614E+03, tol = 0.18340E+01, time = 3.03 | CG iter. 12 -- res = 0.19405E+03, tol = 0.18340E+01, time = 2.64 | CG iter. 13 -- res = 0.96055E+02, tol = 0.18340E+01, time = 2.57 | CG iter. 14 -- res = 0.50748E+02, tol = 0.18340E+01, time = 2.63 | CG iter. 15 -- res = 0.26047E+02, tol = 0.18340E+01, time = 2.31 | CG iter. 16 -- res = 0.12380E+02, tol = 0.18340E+01, time = 2.74 | CG iter. 17 -- res = 0.51890E+01, tol = 0.18340E+01, time = 2.76 | CG iter. 18 -- res = 0.22971E+01, tol = 0.18340E+01, time = 2.47 | CG iter. 19 -- res = 0.10599E+01, tol = 0.18340E+01, time = 2.61 | CG iter. 20 -- res = 0.52288E+00, tol = 0.18340E+01, time = 2.95 | CG iter. 21 -- res = 0.27428E+00, tol = 0.18340E+01, time = 2.84 | CG iter. 22 -- res = 0.13256E+00, tol = 0.18340E+01, time = 2.92 | CG iter. 23 -- res = 0.60620E-01, tol = 0.18340E+01, time = 2.70 | CG iter. 24 -- res = 0.27324E-01, tol = 0.18340E+01, time = 2.70 | CG iter. 25 -- res = 0.12381E-01, tol = 0.18340E+01, time = 2.77 | CG iter. 26 -- res = 0.61932E-02, tol = 0.18340E+01, time = 2.79 | CG iter. 27 -- res = 0.30739E-02, tol = 0.18340E+01, time = 2.52 | CG iter. 28 -- res = 0.15694E-02, tol = 0.18340E+01, time = 2.49 | CG iter. 29 -- res = 0.77762E-03, tol = 0.18340E+01, time = 2.97 | CG iter. 30 -- res = 0.37572E-03, tol = 0.18340E+01, time = 3.32 | CG iter. 31 -- res = 0.17145E-03, tol = 0.18340E+01, time = 3.76 | CG iter. 32 -- res = 0.83939E-04, tol = 0.18340E+01, time = 3.21 | CG iter. 33 -- res = 0.40383E-04, tol = 0.18340E+01, time = 2.95 | CG iter. 34 -- res = 0.20046E-04, tol = 0.18340E+01, time = 3.03 | CG iter. 35 -- res = 0.10331E-04, tol = 0.18340E+01, time = 2.70 | CG iter. 36 -- res = 0.54225E-05, tol = 0.18340E+01, time = 2.70 | CG iter. 37 -- res = 0.25210E-05, tol = 0.18340E+01, time = 2.51 | CG iter. 38 -- res = 0.11545E-05, tol = 0.18340E+01, time = 2.82 | CG iter. 39 -- res = 0.55437E-06, tol = 0.18340E+01, time = 2.38 | CG iter. 40 -- res = 0.28067E-06, tol = 0.18340E+01, time = 2.94 | CG iter. 41 -- res = 0.14146E-06, tol = 0.18340E+01, time = 2.71 | CG iter. 42 -- res = 0.71874E-07, tol = 0.18340E+01, time = 2.91 | CG iter. 43 -- res = 0.33637E-07, tol = 0.18340E+01, time = 2.81 | CG iter. 44 -- res = 0.15425E-07, tol = 0.18340E+01, time = 2.73 | CG iter. 45 -- res = 0.71655E-08, tol = 0.18340E+01, time = 2.43 | CG iter. 46 -- res = 0.35468E-08, tol = 0.18340E+01, time = 2.89 | CG iter. 47 -- res = 0.18348E-08, tol = 0.18340E+01, time = 2.88 | CG iter. 48 -- res = 0.92085E-09, tol = 0.18340E+01, time = 2.76 | CG iter. 49 -- res = 0.44912E-09, tol = 0.18340E+01, time = 2.41 | CG iter. 50 -- res = 0.20744E-09, tol = 0.18340E+01, time = 2.58 | Final CG iter 51 -- res = 0.20744E-09, tol = 0.18340E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.592 4.591 | New value -0.898 | Old value 6.592 | Difference -7.490 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.57 | CG iter. 1 -- res = 0.60984E+05, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.48163E+02, tol = 0.47627E+18, time = 2.08 | CG iter. 3 -- res = 0.17999E+01, tol = 0.47627E+18, time = 1.85 | CG iter. 4 -- res = 0.51969E-02, tol = 0.47627E+18, time = 1.77 | Final CG iter 5 -- res = 0.58712E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9183965.576 | (Sampled value in CG: 9225018.024 ) | CPU time specind = 1195.416 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.69269E+08, tol = 0.57522E+04, time = 11.69 | CG iter. 2 -- res = 0.58685E+08, tol = 0.57522E+04, time = 12.30 | CG iter. 3 -- res = 0.15485E+08, tol = 0.57522E+04, time = 11.61 | CG iter. 4 -- res = 0.68080E+07, tol = 0.57522E+04, time = 12.09 | CG iter. 5 -- res = 0.40410E+07, tol = 0.57522E+04, time = 12.13 | CG iter. 6 -- res = 0.23246E+07, tol = 0.57522E+04, time = 22.05 | CG iter. 7 -- res = 0.13796E+07, tol = 0.57522E+04, time = 12.07 | CG iter. 8 -- res = 0.91880E+06, tol = 0.57522E+04, time = 11.85 | CG iter. 9 -- res = 0.59232E+06, tol = 0.57522E+04, time = 11.93 | CG iter. 10 -- res = 0.36105E+06, tol = 0.57522E+04, time = 11.73 | CG iter. 11 -- res = 0.20073E+06, tol = 0.57522E+04, time = 12.24 | CG iter. 12 -- res = 0.11174E+06, tol = 0.57522E+04, time = 11.66 | CG iter. 13 -- res = 0.65257E+05, tol = 0.57522E+04, time = 13.69 | CG iter. 14 -- res = 0.42337E+05, tol = 0.57522E+04, time = 12.05 | CG iter. 15 -- res = 0.31871E+05, tol = 0.57522E+04, time = 11.73 | CG iter. 16 -- res = 0.26740E+05, tol = 0.57522E+04, time = 11.40 | CG iter. 17 -- res = 0.23704E+05, tol = 0.57522E+04, time = 12.35 | CG iter. 18 -- res = 0.21490E+05, tol = 0.57522E+04, time = 11.66 | CG iter. 19 -- res = 0.19163E+05, tol = 0.57522E+04, time = 11.55 | CG iter. 20 -- res = 0.17596E+05, tol = 0.57522E+04, time = 12.02 | CG iter. 21 -- res = 0.16544E+05, tol = 0.57522E+04, time = 11.89 | CG iter. 22 -- res = 0.17093E+05, tol = 0.57522E+04, time = 12.44 | CG iter. 23 -- res = 0.18089E+05, tol = 0.57522E+04, time = 12.08 | CG iter. 24 -- res = 0.18302E+05, tol = 0.57522E+04, time = 11.66 | CG iter. 25 -- res = 0.16459E+05, tol = 0.57522E+04, time = 11.85 | CG iter. 26 -- res = 0.12854E+05, tol = 0.57522E+04, time = 12.00 | CG iter. 27 -- res = 0.95286E+04, tol = 0.57522E+04, time = 11.81 | CG iter. 28 -- res = 0.71758E+04, tol = 0.57522E+04, time = 11.63 | CG iter. 29 -- res = 0.56754E+04, tol = 0.57522E+04, time = 12.07 | CG iter. 30 -- res = 0.47948E+04, tol = 0.57522E+04, time = 18.06 | CG iter. 31 -- res = 0.42523E+04, tol = 0.57522E+04, time = 12.03 | CG iter. 32 -- res = 0.38035E+04, tol = 0.57522E+04, time = 12.08 | CG iter. 33 -- res = 0.33533E+04, tol = 0.57522E+04, time = 11.47 | CG iter. 34 -- res = 0.27392E+04, tol = 0.57522E+04, time = 11.92 | CG iter. 35 -- res = 0.23328E+04, tol = 0.57522E+04, time = 12.14 | CG iter. 36 -- res = 0.21353E+04, tol = 0.57522E+04, time = 12.06 | CG iter. 37 -- res = 0.20760E+04, tol = 0.57522E+04, time = 13.18 | CG iter. 38 -- res = 0.19962E+04, tol = 0.57522E+04, time = 12.88 | CG iter. 39 -- res = 0.17984E+04, tol = 0.57522E+04, time = 11.60 | CG iter. 40 -- res = 0.15397E+04, tol = 0.57522E+04, time = 11.90 | CG iter. 41 -- res = 0.12631E+04, tol = 0.57522E+04, time = 11.49 | CG iter. 42 -- res = 0.10117E+04, tol = 0.57522E+04, time = 12.16 | CG iter. 43 -- res = 0.84910E+03, tol = 0.57522E+04, time = 11.86 | CG iter. 44 -- res = 0.77609E+03, tol = 0.57522E+04, time = 11.59 | CG iter. 45 -- res = 0.71680E+03, tol = 0.57522E+04, time = 12.51 | CG iter. 46 -- res = 0.65711E+03, tol = 0.57522E+04, time = 11.71 | CG iter. 47 -- res = 0.58807E+03, tol = 0.57522E+04, time = 12.02 | CG iter. 48 -- res = 0.51024E+03, tol = 0.57522E+04, time = 12.16 | CG iter. 49 -- res = 0.44695E+03, tol = 0.57522E+04, time = 11.52 | CG iter. 50 -- res = 0.41709E+03, tol = 0.57522E+04, time = 12.31 | CG iter. 51 -- res = 0.39395E+03, tol = 0.57522E+04, time = 11.76 | CG iter. 52 -- res = 0.38285E+03, tol = 0.57522E+04, time = 12.08 | CG iter. 53 -- res = 0.36451E+03, tol = 0.57522E+04, time = 11.72 | CG iter. 54 -- res = 0.32516E+03, tol = 0.57522E+04, time = 11.84 | CG iter. 55 -- res = 0.27925E+03, tol = 0.57522E+04, time = 17.90 | CG iter. 56 -- res = 0.23971E+03, tol = 0.57522E+04, time = 11.54 | CG iter. 57 -- res = 0.21367E+03, tol = 0.57522E+04, time = 11.89 | CG iter. 58 -- res = 0.19732E+03, tol = 0.57522E+04, time = 11.54 | CG iter. 59 -- res = 0.18634E+03, tol = 0.57522E+04, time = 12.08 | CG iter. 60 -- res = 0.17180E+03, tol = 0.57522E+04, time = 11.58 | Final CG iter 61 -- res = 0.17180E+03, tol = 0.57522E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.045 ( -229.352 -2229.780 2511.996 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9760860.103 | Old band monopole 9184005.079 | Change to band monopole 576855.025 | Change to component monopole -576852.544 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.777 2.739 | New value -1.675 | Old value 1.777 | Difference -3.452 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.339 ( 6.658 10.427 -9.393 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -3.301 5.727 | New value -3.620 | Old value -3.301 | Difference -0.318 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.05 | CG iter. 1 -- res = 0.61952E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.29349E+02, tol = 0.47627E+18, time = 1.79 | CG iter. 3 -- res = 0.62208E+00, tol = 0.47627E+18, time = 1.96 | CG iter. 4 -- res = 0.78977E-03, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.18875E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9760818.120 | (Sampled value in CG: 9737292.971 ) | Chain = 1 -- chisq = 0.81600531E+09 | Chain = 1 -- wall time = 16490.878 sec Available RAM: MemAvailable: 469073100 kB Available Swap: SwapFree: 1056797080 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 422 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444676 | --> Sampling calibration, mode = relcal | relcal = 1.3428940E-02 7.4745121E-04 -1.6040982E-03 -1.2572293E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1449127 0.1607140 9411291.45905485 | BP delta = 0.1449127 0.1623873 9411297.94603219 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632461 | --> Sampling calibration, mode = relcal | relcal = -2.8212159E-03 -7.0329267E-04 1.6788315E-03 1.6128193E-03 -4.0769120E-04 6.4054894E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5503420 15220564.9864592 | BP delta = 0.0000000E+00 -0.5456730 15220566.6349187 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18586800461493 | --> Sampling calibration, mode = relcal | relcal = -7.5606838E-02 -5.9161868E-02 9.2715226E-02 4.2053480E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2773275E-04 5.9943488E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.7869E-05 | 2: delta_r/delta_0: 1.3217E-06 | 3: delta_s/delta_0: 1.9419E-07 | 4: delta_r/delta_0: 2.5693E-08 | 5: delta_s/delta_0: 7.2873E-09 | 6: delta_r/delta_0: 2.4118E-09 | 7: delta_s/delta_0: 5.3508E-10 | 8: delta_r/delta_0: 1.3889E-10 | 9: delta_s/delta_0: 2.0517E-10 | 10: delta_r/delta_0: 7.2873E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.279669980304468E-003 2.729761690776148E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.7871E-05 | 2: delta_r/delta_0: 1.3217E-06 | 3: delta_s/delta_0: 1.9418E-07 | 4: delta_r/delta_0: 2.5688E-08 | 5: delta_s/delta_0: 7.2843E-09 | 6: delta_r/delta_0: 2.4113E-09 | 7: delta_s/delta_0: 5.3499E-10 | 8: delta_r/delta_0: 1.3883E-10 | 9: delta_s/delta_0: 2.0504E-10 | 10: delta_r/delta_0: 7.2808E-11 | Reached bicg-stab tolerance | BP delta = 6.3356116E-02 8.7903149E-02 3447972.07624640 | BP delta = 6.3356116E-02 8.7278247E-02 3451564.27883718 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02585378 | --> Sampling calibration, mode = relcal | relcal = -0.1065932 -9.5574617E-02 0.1448433 5.7324510E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5935452E-03 1.6883598E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6419E-04 | 2: delta_r/delta_0: 3.4873E-06 | 3: delta_s/delta_0: 2.0241E-07 | 4: delta_r/delta_0: 5.5017E-08 | 5: delta_s/delta_0: 4.7776E-08 | 6: delta_r/delta_0: 1.0533E-08 | 7: delta_s/delta_0: 7.7944E-09 | 8: delta_r/delta_0: 2.6417E-09 | 9: delta_s/delta_0: 1.1525E-09 | 10: delta_r/delta_0: 8.5586E-10 | 11: delta_s/delta_0: 7.1451E-10 | 12: delta_r/delta_0: 2.4083E-10 | 13: delta_s/delta_0: 1.3414E-10 | 14: delta_r/delta_0: 1.2082E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.109932898717393E-002 2.811236897760686E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6418E-04 | 2: delta_r/delta_0: 3.4872E-06 | 3: delta_s/delta_0: 2.0240E-07 | 4: delta_r/delta_0: 5.5009E-08 | 5: delta_s/delta_0: 4.7808E-08 | 6: delta_r/delta_0: 1.0534E-08 | 7: delta_s/delta_0: 7.7971E-09 | 8: delta_r/delta_0: 2.6414E-09 | 9: delta_s/delta_0: 1.1524E-09 | 10: delta_r/delta_0: 8.5574E-10 | 11: delta_s/delta_0: 7.1452E-10 | 12: delta_r/delta_0: 2.4076E-10 | 13: delta_s/delta_0: 1.3408E-10 | 14: delta_r/delta_0: 1.2089E-11 | Reached bicg-stab tolerance | BP delta = -0.2032965 -0.1717809 2841571.43262005 | BP delta = -0.2032965 -0.1749080 2841589.08057463 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81227559 | --> Sampling calibration, mode = relcal | relcal = 0.2955508 0.2248024 -0.2838477 -0.2365055 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.4606911E-04 4.8823175E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.8297E-02 | 2: delta_r/delta_0: 1.8407E-03 | 3: delta_s/delta_0: 1.8691E-03 | 4: delta_r/delta_0: 1.1884E-04 | 5: delta_s/delta_0: 1.8329E-05 | 6: delta_r/delta_0: 5.8281E-06 | 7: delta_s/delta_0: 6.7321E-05 | 8: delta_r/delta_0: 1.2176E-05 | 9: delta_s/delta_0: 1.8730E-05 | 10: delta_r/delta_0: 1.4751E-06 | 11: delta_s/delta_0: 1.7290E-06 | 12: delta_r/delta_0: 2.7794E-07 | 13: delta_s/delta_0: 2.3685E-07 | 14: delta_r/delta_0: 2.6287E-08 | 15: delta_s/delta_0: 1.0341E-08 | 16: delta_r/delta_0: 3.4282E-09 | 17: delta_s/delta_0: 1.9303E-09 | 18: delta_r/delta_0: 8.1099E-10 | 19: delta_s/delta_0: 4.6625E-10 | 20: delta_r/delta_0: 2.9404E-10 | 21: delta_s/delta_0: 2.5544E-10 | 22: delta_r/delta_0: 1.9472E-10 | 23: delta_s/delta_0: 2.5594E-10 | 24: delta_r/delta_0: 8.2733E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -0.402186799164529 4.021522035094728E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.8475E-02 | 2: delta_r/delta_0: 1.8449E-03 | 3: delta_s/delta_0: 1.8740E-03 | 4: delta_r/delta_0: 1.1914E-04 | 5: delta_s/delta_0: 1.8433E-05 | 6: delta_r/delta_0: 5.8712E-06 | 7: delta_s/delta_0: 6.7684E-05 | 8: delta_r/delta_0: 1.2261E-05 | 9: delta_s/delta_0: 1.8635E-05 | 10: delta_r/delta_0: 1.4697E-06 | 11: delta_s/delta_0: 1.7168E-06 | 12: delta_r/delta_0: 2.7440E-07 | 13: delta_s/delta_0: 2.3466E-07 | 14: delta_r/delta_0: 2.6016E-08 | 15: delta_s/delta_0: 1.0221E-08 | 16: delta_r/delta_0: 3.3935E-09 | 17: delta_s/delta_0: 1.9070E-09 | 18: delta_r/delta_0: 8.0093E-10 | 19: delta_s/delta_0: 4.5975E-10 | 20: delta_r/delta_0: 2.9046E-10 | 21: delta_s/delta_0: 2.5227E-10 | 22: delta_r/delta_0: 1.9250E-10 | 23: delta_s/delta_0: 2.5568E-10 | 24: delta_r/delta_0: 8.1459E-11 | Reached bicg-stab tolerance | BP delta = -0.1159229 -0.1400471 2827357.75927344 | BP delta = -0.1159229 -0.1371781 2827361.10587033 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95916186 | --> Sampling calibration, mode = relcal | relcal = 0.1065359 0.1395497 -0.1102194 -0.1358663 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.8929284E-03 1.2840076E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.0485E-04 | 2: delta_r/delta_0: 7.6074E-06 | 3: delta_s/delta_0: 2.8760E-05 | 4: delta_r/delta_0: 1.9833E-06 | 5: delta_s/delta_0: 2.1536E-07 | 6: delta_r/delta_0: 1.0737E-07 | 7: delta_s/delta_0: 1.9946E-07 | 8: delta_r/delta_0: 2.9575E-08 | 9: delta_s/delta_0: 2.0266E-08 | 10: delta_r/delta_0: 1.7054E-09 | 11: delta_s/delta_0: 1.6364E-09 | 12: delta_r/delta_0: 9.8581E-10 | 13: delta_s/delta_0: 3.9215E-10 | 14: delta_r/delta_0: 8.5750E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.082705589544603E-002 3.697235473573638E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.0488E-04 | 2: delta_r/delta_0: 7.6081E-06 | 3: delta_s/delta_0: 2.8758E-05 | 4: delta_r/delta_0: 1.9830E-06 | 5: delta_s/delta_0: 2.1537E-07 | 6: delta_r/delta_0: 1.0737E-07 | 7: delta_s/delta_0: 1.9940E-07 | 8: delta_r/delta_0: 2.9578E-08 | 9: delta_s/delta_0: 2.0231E-08 | 10: delta_r/delta_0: 1.7085E-09 | 11: delta_s/delta_0: 1.6371E-09 | 12: delta_r/delta_0: 9.8661E-10 | 13: delta_s/delta_0: 3.9432E-10 | 14: delta_r/delta_0: 8.6125E-11 | Reached bicg-stab tolerance | BP delta = 0.1068636 0.2219383 3003973.80864056 | BP delta = 0.1068636 0.2230272 3004055.75647167 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166695 | New value = -3.141457 | poltype: 2 pol: 1 CPU time specind = 1.7731905E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158101 | New value = -3.088938 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.086168 | New value = -3.169141 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.180793 | New value = -3.100137 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160583 | New value = -3.158338 | poltype: 2 pol: 2 CPU time specind = 4.5862198E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.13559E+08, tol = 0.73227E+01, time = 6.03 | CG iter. 2 -- res = 0.30390E+06, tol = 0.73227E+01, time = 5.97 | CG iter. 3 -- res = 0.50555E+05, tol = 0.73227E+01, time = 5.73 | CG iter. 4 -- res = 0.28402E+05, tol = 0.73227E+01, time = 6.18 | CG iter. 5 -- res = 0.19177E+05, tol = 0.73227E+01, time = 12.41 | CG iter. 6 -- res = 0.16478E+05, tol = 0.73227E+01, time = 5.77 | CG iter. 7 -- res = 0.16540E+05, tol = 0.73227E+01, time = 5.98 | CG iter. 8 -- res = 0.15640E+05, tol = 0.73227E+01, time = 5.70 | CG iter. 9 -- res = 0.15341E+05, tol = 0.73227E+01, time = 5.76 | CG iter. 10 -- res = 0.13995E+05, tol = 0.73227E+01, time = 5.94 | CG iter. 11 -- res = 0.96143E+04, tol = 0.73227E+01, time = 6.05 | CG iter. 12 -- res = 0.62750E+04, tol = 0.73227E+01, time = 5.79 | CG iter. 13 -- res = 0.46582E+04, tol = 0.73227E+01, time = 6.19 | CG iter. 14 -- res = 0.40200E+04, tol = 0.73227E+01, time = 6.24 | CG iter. 15 -- res = 0.36430E+04, tol = 0.73227E+01, time = 5.93 | CG iter. 16 -- res = 0.29052E+04, tol = 0.73227E+01, time = 6.01 | CG iter. 17 -- res = 0.21275E+04, tol = 0.73227E+01, time = 5.89 | CG iter. 18 -- res = 0.17003E+04, tol = 0.73227E+01, time = 6.06 | CG iter. 19 -- res = 0.14723E+04, tol = 0.73227E+01, time = 7.22 | CG iter. 20 -- res = 0.12097E+04, tol = 0.73227E+01, time = 6.69 | CG iter. 21 -- res = 0.89407E+03, tol = 0.73227E+01, time = 6.25 | CG iter. 22 -- res = 0.73277E+03, tol = 0.73227E+01, time = 6.06 | CG iter. 23 -- res = 0.66260E+03, tol = 0.73227E+01, time = 6.07 | CG iter. 24 -- res = 0.60053E+03, tol = 0.73227E+01, time = 6.17 | CG iter. 25 -- res = 0.44841E+03, tol = 0.73227E+01, time = 5.62 | CG iter. 26 -- res = 0.35664E+03, tol = 0.73227E+01, time = 6.16 | CG iter. 27 -- res = 0.32281E+03, tol = 0.73227E+01, time = 5.91 | CG iter. 28 -- res = 0.29683E+03, tol = 0.73227E+01, time = 5.84 | CG iter. 29 -- res = 0.24061E+03, tol = 0.73227E+01, time = 6.14 | CG iter. 30 -- res = 0.18849E+03, tol = 0.73227E+01, time = 5.68 | CG iter. 31 -- res = 0.15979E+03, tol = 0.73227E+01, time = 5.96 | CG iter. 32 -- res = 0.13632E+03, tol = 0.73227E+01, time = 5.76 | CG iter. 33 -- res = 0.10933E+03, tol = 0.73227E+01, time = 6.15 | CG iter. 34 -- res = 0.80528E+02, tol = 0.73227E+01, time = 6.10 | CG iter. 35 -- res = 0.64530E+02, tol = 0.73227E+01, time = 6.11 | CG iter. 36 -- res = 0.55836E+02, tol = 0.73227E+01, time = 6.03 | CG iter. 37 -- res = 0.45045E+02, tol = 0.73227E+01, time = 5.86 | CG iter. 38 -- res = 0.32593E+02, tol = 0.73227E+01, time = 6.17 | CG iter. 39 -- res = 0.23985E+02, tol = 0.73227E+01, time = 5.77 | CG iter. 40 -- res = 0.19503E+02, tol = 0.73227E+01, time = 6.10 | CG iter. 41 -- res = 0.15054E+02, tol = 0.73227E+01, time = 5.73 | CG iter. 42 -- res = 0.10892E+02, tol = 0.73227E+01, time = 5.97 | CG iter. 43 -- res = 0.82551E+01, tol = 0.73227E+01, time = 5.77 | CG iter. 44 -- res = 0.66941E+01, tol = 0.73227E+01, time = 5.84 | CG iter. 45 -- res = 0.54227E+01, tol = 0.73227E+01, time = 5.93 | CG iter. 46 -- res = 0.41223E+01, tol = 0.73227E+01, time = 5.94 | CG iter. 47 -- res = 0.31650E+01, tol = 0.73227E+01, time = 6.19 | CG iter. 48 -- res = 0.23881E+01, tol = 0.73227E+01, time = 5.52 | CG iter. 49 -- res = 0.19013E+01, tol = 0.73227E+01, time = 6.23 | CG iter. 50 -- res = 0.15220E+01, tol = 0.73227E+01, time = 5.92 | Final CG iter 51 -- res = 0.15220E+01, tol = 0.73227E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9699829.850 | Old band monopole 9760860.103 | Change to band monopole -61030.253 | Change to component monopole 61029.991 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.76 | CG iter. 1 -- res = 0.29314E+05, tol = 0.47627E+18, time = 1.94 | CG iter. 2 -- res = 0.25599E+02, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.84525E+00, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.18067E-02, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.42286E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9699788.129 | (Sampled value in CG: 9721260.514 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.476763 | New value = 1.505422 | poltype: 2 pol: 1 CPU time specind = 1.7221212E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.452366 | New value = 1.504273 | poltype: 2 pol: 2 CPU time specind = 7.1649551E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.24197E+08, tol = 0.47566E+04, time = 7.21 | CG iter. 2 -- res = 0.53961E+07, tol = 0.47566E+04, time = 6.85 | CG iter. 3 -- res = 0.86202E+06, tol = 0.47566E+04, time = 6.88 | CG iter. 4 -- res = 0.36393E+06, tol = 0.47566E+04, time = 6.84 | CG iter. 5 -- res = 0.15937E+06, tol = 0.47566E+04, time = 6.93 | CG iter. 6 -- res = 0.83088E+05, tol = 0.47566E+04, time = 6.94 | CG iter. 7 -- res = 0.45083E+05, tol = 0.47566E+04, time = 6.77 | CG iter. 8 -- res = 0.21791E+05, tol = 0.47566E+04, time = 6.83 | CG iter. 9 -- res = 0.92774E+04, tol = 0.47566E+04, time = 6.75 | CG iter. 10 -- res = 0.37124E+04, tol = 0.47566E+04, time = 7.15 | CG iter. 11 -- res = 0.16746E+04, tol = 0.47566E+04, time = 6.66 | CG iter. 12 -- res = 0.87375E+03, tol = 0.47566E+04, time = 7.09 | CG iter. 13 -- res = 0.49720E+03, tol = 0.47566E+04, time = 7.09 | CG iter. 14 -- res = 0.27332E+03, tol = 0.47566E+04, time = 7.16 | CG iter. 15 -- res = 0.14261E+03, tol = 0.47566E+04, time = 7.78 | CG iter. 16 -- res = 0.67904E+02, tol = 0.47566E+04, time = 7.11 | CG iter. 17 -- res = 0.31976E+02, tol = 0.47566E+04, time = 6.94 | CG iter. 18 -- res = 0.15917E+02, tol = 0.47566E+04, time = 7.16 | CG iter. 19 -- res = 0.86077E+01, tol = 0.47566E+04, time = 7.21 | CG iter. 20 -- res = 0.48856E+01, tol = 0.47566E+04, time = 6.61 | CG iter. 21 -- res = 0.27022E+01, tol = 0.47566E+04, time = 6.72 | CG iter. 22 -- res = 0.14062E+01, tol = 0.47566E+04, time = 7.01 | CG iter. 23 -- res = 0.68891E+00, tol = 0.47566E+04, time = 6.88 | CG iter. 24 -- res = 0.35322E+00, tol = 0.47566E+04, time = 7.10 | CG iter. 25 -- res = 0.19009E+00, tol = 0.47566E+04, time = 6.96 | CG iter. 26 -- res = 0.10747E+00, tol = 0.47566E+04, time = 7.17 | CG iter. 27 -- res = 0.60328E-01, tol = 0.47566E+04, time = 6.46 | CG iter. 28 -- res = 0.32160E-01, tol = 0.47566E+04, time = 7.33 | CG iter. 29 -- res = 0.16299E-01, tol = 0.47566E+04, time = 7.88 | CG iter. 30 -- res = 0.85265E-02, tol = 0.47566E+04, time = 11.91 | CG iter. 31 -- res = 0.46813E-02, tol = 0.47566E+04, time = 6.84 | CG iter. 32 -- res = 0.26859E-02, tol = 0.47566E+04, time = 6.59 | CG iter. 33 -- res = 0.15093E-02, tol = 0.47566E+04, time = 6.88 | CG iter. 34 -- res = 0.81798E-03, tol = 0.47566E+04, time = 7.05 | CG iter. 35 -- res = 0.42418E-03, tol = 0.47566E+04, time = 6.49 | Final CG iter 36 -- res = 0.42418E-03, tol = 0.47566E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.670 2.738 | New value -0.437 | Old value -1.670 | Difference 1.233 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.81141E+05, tol = 0.47627E+18, time = 2.16 | CG iter. 2 -- res = 0.29406E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.55709E+00, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.30931E-03, tol = 0.47627E+18, time = 2.12 | Final CG iter 5 -- res = 0.24095E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9699788.129 | (Sampled value in CG: 9723689.283 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.439056 | New value = -3.532501 | poltype: 1 pol: 1 CPU time specind = 1.8070936E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.20622E+07, tol = 0.25140E+01, time = 2.77 | CG iter. 2 -- res = 0.71028E+06, tol = 0.25140E+01, time = 3.03 | CG iter. 3 -- res = 0.13122E+06, tol = 0.25140E+01, time = 2.86 | CG iter. 4 -- res = 0.49480E+05, tol = 0.25140E+01, time = 3.06 | CG iter. 5 -- res = 0.27394E+05, tol = 0.25140E+01, time = 2.83 | CG iter. 6 -- res = 0.14706E+05, tol = 0.25140E+01, time = 2.65 | CG iter. 7 -- res = 0.60335E+04, tol = 0.25140E+01, time = 2.89 | CG iter. 8 -- res = 0.26901E+04, tol = 0.25140E+01, time = 3.04 | CG iter. 9 -- res = 0.11357E+04, tol = 0.25140E+01, time = 3.17 | CG iter. 10 -- res = 0.44557E+03, tol = 0.25140E+01, time = 2.70 | CG iter. 11 -- res = 0.19449E+03, tol = 0.25140E+01, time = 2.69 | CG iter. 12 -- res = 0.97841E+02, tol = 0.25140E+01, time = 4.41 | CG iter. 13 -- res = 0.51155E+02, tol = 0.25140E+01, time = 3.41 | CG iter. 14 -- res = 0.25715E+02, tol = 0.25140E+01, time = 2.91 | CG iter. 15 -- res = 0.11791E+02, tol = 0.25140E+01, time = 3.29 | CG iter. 16 -- res = 0.48634E+01, tol = 0.25140E+01, time = 2.74 | CG iter. 17 -- res = 0.21104E+01, tol = 0.25140E+01, time = 2.80 | CG iter. 18 -- res = 0.91677E+00, tol = 0.25140E+01, time = 2.64 | CG iter. 19 -- res = 0.46406E+00, tol = 0.25140E+01, time = 2.95 | CG iter. 20 -- res = 0.24564E+00, tol = 0.25140E+01, time = 2.85 | CG iter. 21 -- res = 0.12051E+00, tol = 0.25140E+01, time = 2.61 | CG iter. 22 -- res = 0.58642E-01, tol = 0.25140E+01, time = 2.76 | CG iter. 23 -- res = 0.27332E-01, tol = 0.25140E+01, time = 2.81 | CG iter. 24 -- res = 0.12401E-01, tol = 0.25140E+01, time = 2.94 | CG iter. 25 -- res = 0.61811E-02, tol = 0.25140E+01, time = 2.72 | CG iter. 26 -- res = 0.30932E-02, tol = 0.25140E+01, time = 2.87 | CG iter. 27 -- res = 0.16263E-02, tol = 0.25140E+01, time = 3.19 | CG iter. 28 -- res = 0.81804E-03, tol = 0.25140E+01, time = 3.09 | CG iter. 29 -- res = 0.37298E-03, tol = 0.25140E+01, time = 2.59 | CG iter. 30 -- res = 0.16987E-03, tol = 0.25140E+01, time = 2.35 | CG iter. 31 -- res = 0.85013E-04, tol = 0.25140E+01, time = 3.06 | CG iter. 32 -- res = 0.41684E-04, tol = 0.25140E+01, time = 3.18 | CG iter. 33 -- res = 0.21074E-04, tol = 0.25140E+01, time = 2.64 | CG iter. 34 -- res = 0.10488E-04, tol = 0.25140E+01, time = 2.74 | CG iter. 35 -- res = 0.49032E-05, tol = 0.25140E+01, time = 2.77 | CG iter. 36 -- res = 0.22983E-05, tol = 0.25140E+01, time = 2.96 | CG iter. 37 -- res = 0.10696E-05, tol = 0.25140E+01, time = 2.86 | CG iter. 38 -- res = 0.53195E-06, tol = 0.25140E+01, time = 3.25 | CG iter. 39 -- res = 0.25497E-06, tol = 0.25140E+01, time = 2.93 | CG iter. 40 -- res = 0.12611E-06, tol = 0.25140E+01, time = 2.57 | CG iter. 41 -- res = 0.63911E-07, tol = 0.25140E+01, time = 2.81 | CG iter. 42 -- res = 0.29559E-07, tol = 0.25140E+01, time = 2.54 | CG iter. 43 -- res = 0.13683E-07, tol = 0.25140E+01, time = 2.86 | CG iter. 44 -- res = 0.62392E-08, tol = 0.25140E+01, time = 2.99 | CG iter. 45 -- res = 0.30618E-08, tol = 0.25140E+01, time = 2.75 | CG iter. 46 -- res = 0.15418E-08, tol = 0.25140E+01, time = 3.04 | CG iter. 47 -- res = 0.75150E-09, tol = 0.25140E+01, time = 2.89 | CG iter. 48 -- res = 0.36302E-09, tol = 0.25140E+01, time = 3.02 | CG iter. 49 -- res = 0.16539E-09, tol = 0.25140E+01, time = 2.57 | CG iter. 50 -- res = 0.74640E-10, tol = 0.25140E+01, time = 3.56 | Final CG iter 51 -- res = 0.74640E-10, tol = 0.25140E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -2.711 5.670 | New value -11.715 | Old value -2.711 | Difference -9.004 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.69 | CG iter. 1 -- res = 0.82378E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.40822E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.16185E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.20819E-02, tol = 0.47627E+18, time = 2.22 | Final CG iter 5 -- res = 0.60240E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9699788.129 | (Sampled value in CG: 9719563.636 ) | CPU time specind = 1235.854 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.92 | CG iter. 1 -- res = 0.68889E+08, tol = 0.57593E+04, time = 18.96 | CG iter. 2 -- res = 0.58658E+08, tol = 0.57593E+04, time = 12.82 | CG iter. 3 -- res = 0.14965E+08, tol = 0.57593E+04, time = 12.23 | CG iter. 4 -- res = 0.64077E+07, tol = 0.57593E+04, time = 12.08 | CG iter. 5 -- res = 0.39011E+07, tol = 0.57593E+04, time = 12.75 | CG iter. 6 -- res = 0.22413E+07, tol = 0.57593E+04, time = 12.34 | CG iter. 7 -- res = 0.12917E+07, tol = 0.57593E+04, time = 12.41 | CG iter. 8 -- res = 0.83537E+06, tol = 0.57593E+04, time = 13.94 | CG iter. 9 -- res = 0.53970E+06, tol = 0.57593E+04, time = 13.38 | CG iter. 10 -- res = 0.32358E+06, tol = 0.57593E+04, time = 12.40 | CG iter. 11 -- res = 0.17482E+06, tol = 0.57593E+04, time = 12.24 | CG iter. 12 -- res = 0.97708E+05, tol = 0.57593E+04, time = 12.18 | CG iter. 13 -- res = 0.56454E+05, tol = 0.57593E+04, time = 12.39 | CG iter. 14 -- res = 0.33433E+05, tol = 0.57593E+04, time = 12.51 | CG iter. 15 -- res = 0.22476E+05, tol = 0.57593E+04, time = 12.20 | CG iter. 16 -- res = 0.17116E+05, tol = 0.57593E+04, time = 12.36 | CG iter. 17 -- res = 0.13852E+05, tol = 0.57593E+04, time = 12.42 | CG iter. 18 -- res = 0.11253E+05, tol = 0.57593E+04, time = 12.48 | CG iter. 19 -- res = 0.90708E+04, tol = 0.57593E+04, time = 12.91 | CG iter. 20 -- res = 0.77094E+04, tol = 0.57593E+04, time = 12.29 | CG iter. 21 -- res = 0.71006E+04, tol = 0.57593E+04, time = 12.12 | CG iter. 22 -- res = 0.72563E+04, tol = 0.57593E+04, time = 12.54 | CG iter. 23 -- res = 0.81066E+04, tol = 0.57593E+04, time = 12.44 | CG iter. 24 -- res = 0.90081E+04, tol = 0.57593E+04, time = 12.32 | CG iter. 25 -- res = 0.90584E+04, tol = 0.57593E+04, time = 18.65 | CG iter. 26 -- res = 0.80071E+04, tol = 0.57593E+04, time = 12.26 | CG iter. 27 -- res = 0.64770E+04, tol = 0.57593E+04, time = 12.44 | CG iter. 28 -- res = 0.50366E+04, tol = 0.57593E+04, time = 12.22 | CG iter. 29 -- res = 0.39736E+04, tol = 0.57593E+04, time = 12.33 | CG iter. 30 -- res = 0.33067E+04, tol = 0.57593E+04, time = 12.11 | CG iter. 31 -- res = 0.28665E+04, tol = 0.57593E+04, time = 12.80 | CG iter. 32 -- res = 0.24175E+04, tol = 0.57593E+04, time = 13.98 | CG iter. 33 -- res = 0.19881E+04, tol = 0.57593E+04, time = 12.50 | CG iter. 34 -- res = 0.15901E+04, tol = 0.57593E+04, time = 12.52 | CG iter. 35 -- res = 0.13175E+04, tol = 0.57593E+04, time = 12.04 | CG iter. 36 -- res = 0.12085E+04, tol = 0.57593E+04, time = 12.03 | CG iter. 37 -- res = 0.11538E+04, tol = 0.57593E+04, time = 12.11 | CG iter. 38 -- res = 0.11341E+04, tol = 0.57593E+04, time = 12.13 | CG iter. 39 -- res = 0.11101E+04, tol = 0.57593E+04, time = 12.82 | CG iter. 40 -- res = 0.10281E+04, tol = 0.57593E+04, time = 13.06 | CG iter. 41 -- res = 0.89927E+03, tol = 0.57593E+04, time = 13.41 | CG iter. 42 -- res = 0.76544E+03, tol = 0.57593E+04, time = 13.24 | CG iter. 43 -- res = 0.64876E+03, tol = 0.57593E+04, time = 12.21 | CG iter. 44 -- res = 0.57898E+03, tol = 0.57593E+04, time = 12.29 | CG iter. 45 -- res = 0.52277E+03, tol = 0.57593E+04, time = 12.55 | CG iter. 46 -- res = 0.46499E+03, tol = 0.57593E+04, time = 12.42 | CG iter. 47 -- res = 0.41062E+03, tol = 0.57593E+04, time = 12.40 | CG iter. 48 -- res = 0.34739E+03, tol = 0.57593E+04, time = 18.68 | CG iter. 49 -- res = 0.29319E+03, tol = 0.57593E+04, time = 12.85 | CG iter. 50 -- res = 0.26793E+03, tol = 0.57593E+04, time = 12.13 | CG iter. 51 -- res = 0.25891E+03, tol = 0.57593E+04, time = 12.66 | CG iter. 52 -- res = 0.25220E+03, tol = 0.57593E+04, time = 12.15 | CG iter. 53 -- res = 0.24370E+03, tol = 0.57593E+04, time = 12.63 | CG iter. 54 -- res = 0.22840E+03, tol = 0.57593E+04, time = 12.26 | CG iter. 55 -- res = 0.20499E+03, tol = 0.57593E+04, time = 14.35 | CG iter. 56 -- res = 0.18247E+03, tol = 0.57593E+04, time = 12.87 | CG iter. 57 -- res = 0.16377E+03, tol = 0.57593E+04, time = 14.06 | CG iter. 58 -- res = 0.15197E+03, tol = 0.57593E+04, time = 12.10 | CG iter. 59 -- res = 0.14622E+03, tol = 0.57593E+04, time = 12.01 | CG iter. 60 -- res = 0.13835E+03, tol = 0.57593E+04, time = 12.04 | Final CG iter 61 -- res = 0.13835E+03, tol = 0.57593E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.870 ( -229.473 -2228.193 2510.390 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9442117.818 | Old band monopole 9699829.850 | Change to band monopole -257712.032 | Change to component monopole 257710.923 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.474 2.726 | New value -2.936 | Old value -0.474 | Difference -2.462 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.212 ( 6.478 6.674 -5.711 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -8.695 7.000 | New value -8.355 | Old value -8.695 | Difference 0.340 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.34278E+06, tol = 0.47627E+18, time = 2.03 | CG iter. 2 -- res = 0.25899E+02, tol = 0.47627E+18, time = 2.02 | CG iter. 3 -- res = 0.88089E+00, tol = 0.47627E+18, time = 2.00 | CG iter. 4 -- res = 0.15379E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.11553E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9442077.206 | (Sampled value in CG: 9422093.484 ) | Chain = 1 -- chisq = 0.81577147E+09 | Chain = 1 -- wall time = 6390.421 sec Available RAM: MemAvailable: 376811824 kB Available Swap: SwapFree: 1112297880 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 423 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06447061 | --> Sampling calibration, mode = relcal | relcal = 1.3448334E-02 7.4213673E-04 -1.6129011E-03 -1.2577569E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1449127 0.1607140 97040950.7597228 | BP delta = 0.1385265 0.1543279 97040950.3261026 | BP chisq diff = -0.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632294 | --> Sampling calibration, mode = relcal | relcal = -2.8206196E-03 -7.0390775E-04 1.6780930E-03 1.6133868E-03 -4.0770564E-04 6.4075331E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5503420 15221223.1066927 | BP delta = 0.0000000E+00 -0.5501822 15221223.6753323 | BP chisq diff = 0.6, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18063007600314 | --> Sampling calibration, mode = relcal | relcal = -7.3569089E-02 -5.7563536E-02 9.0365224E-02 4.0767409E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1030759E-05 3.1862382E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.6798E-04 | 2: delta_r/delta_0: 1.6559E-05 | 3: delta_s/delta_0: 3.4408E-07 | 4: delta_r/delta_0: 5.7210E-08 | 5: delta_s/delta_0: 1.0700E-05 | 6: delta_r/delta_0: 1.2823E-06 | 7: delta_s/delta_0: 1.1153E-09 | 8: delta_r/delta_0: 6.2974E-10 | 9: delta_s/delta_0: 8.8010E-10 | 10: delta_r/delta_0: 5.2632E-10 | 11: delta_s/delta_0: 9.6396E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 4.215096349531362E-003 2.742133027305776E-005 | BP delta = 6.3356116E-02 8.7903149E-02 50483281.1159781 | BP delta = 6.4757377E-02 8.9304410E-02 50483282.3644289 | BP chisq diff = 1.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02571481 | --> Sampling calibration, mode = relcal | relcal = -0.1066287 -9.5504656E-02 0.1448673 5.7266057E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1653261E-03 1.5058337E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0657E-04 | 2: delta_r/delta_0: 2.3473E-06 | 3: delta_s/delta_0: 2.0774E-07 | 4: delta_r/delta_0: 5.2761E-08 | 5: delta_s/delta_0: 2.7715E-08 | 6: delta_r/delta_0: 7.8028E-09 | 7: delta_s/delta_0: 1.2580E-08 | 8: delta_r/delta_0: 1.2839E-09 | 9: delta_s/delta_0: 1.1451E-09 | 10: delta_r/delta_0: 2.1656E-10 | 11: delta_s/delta_0: 9.4040E-10 | 12: delta_r/delta_0: 2.2301E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.039008493597381E-002 2.811601830265716E-005 | BP delta = -0.2032965 -0.1717809 57388626.4653767 | BP delta = -0.2029786 -0.1714630 57388626.5191925 | BP chisq diff = 0.1, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81199378 | --> Sampling calibration, mode = relcal | relcal = 0.2954298 0.2248111 -0.2837081 -0.2365328 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1007364E-04 4.9969209E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6663E-03 | 2: delta_r/delta_0: 3.9797E-05 | 3: delta_s/delta_0: 2.5873E-05 | 4: delta_r/delta_0: 1.8635E-06 | 5: delta_s/delta_0: 6.5119E-07 | 6: delta_r/delta_0: 2.3428E-07 | 7: delta_s/delta_0: 5.3169E-07 | 8: delta_r/delta_0: 4.6448E-08 | 9: delta_s/delta_0: 3.7699E-07 | 10: delta_r/delta_0: 1.9188E-07 | 11: delta_s/delta_0: 2.9039E-09 | 12: delta_r/delta_0: 1.1219E-09 | 13: delta_s/delta_0: 3.2007E-07 | 14: delta_r/delta_0: 2.7686E-08 | 15: delta_s/delta_0: 9.4497E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.693552074777827E-002 4.022980243299661E-005 | BP delta = -0.1159229 -0.1400471 72488457.9255852 | BP delta = -0.1255540 -0.1496782 72488457.9144585 | BP chisq diff = -0.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95878419 | --> Sampling calibration, mode = relcal | relcal = 0.1064823 0.1393906 -0.1102149 -0.1356581 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9152382E-03 1.2804283E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8802E-04 | 2: delta_r/delta_0: 4.9238E-06 | 3: delta_s/delta_0: 8.3100E-06 | 4: delta_r/delta_0: 1.0567E-06 | 5: delta_s/delta_0: 1.7416E-07 | 6: delta_r/delta_0: 1.0804E-07 | 7: delta_s/delta_0: 6.4671E-07 | 8: delta_r/delta_0: 2.3880E-08 | 9: delta_s/delta_0: 5.5104E-08 | 10: delta_r/delta_0: 2.6884E-08 | 11: delta_s/delta_0: 1.0976E-09 | 12: delta_r/delta_0: 7.9943E-10 | 13: delta_s/delta_0: 2.0295E-08 | 14: delta_r/delta_0: 2.3623E-10 | 15: delta_s/delta_0: 8.2517E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.908664664529222E-002 3.698578012230166E-005 | BP delta = 0.1068636 0.2219383 72784872.8672083 | BP delta = 0.1335642 0.2486389 72784872.1331358 | BP chisq diff = -0.7, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141457 | New value = -3.096876 | poltype: 2 pol: 1 CPU time specind = 1.7565012E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.088938 | New value = -3.122104 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.169141 | New value = -3.141165 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.100137 | New value = -3.209633 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.158338 | New value = -3.221145 | poltype: 2 pol: 2 CPU time specind = 2.2490978E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.13633E+08, tol = 0.76674E+01, time = 5.93 | CG iter. 2 -- res = 0.34593E+06, tol = 0.76674E+01, time = 5.87 | CG iter. 3 -- res = 0.61945E+05, tol = 0.76674E+01, time = 6.17 | CG iter. 4 -- res = 0.41876E+05, tol = 0.76674E+01, time = 5.80 | CG iter. 5 -- res = 0.32151E+05, tol = 0.76674E+01, time = 7.70 | CG iter. 6 -- res = 0.28578E+05, tol = 0.76674E+01, time = 6.41 | CG iter. 7 -- res = 0.26117E+05, tol = 0.76674E+01, time = 6.34 | CG iter. 8 -- res = 0.20513E+05, tol = 0.76674E+01, time = 5.69 | CG iter. 9 -- res = 0.16164E+05, tol = 0.76674E+01, time = 5.88 | CG iter. 10 -- res = 0.13162E+05, tol = 0.76674E+01, time = 5.77 | CG iter. 11 -- res = 0.89578E+04, tol = 0.76674E+01, time = 5.98 | CG iter. 12 -- res = 0.60340E+04, tol = 0.76674E+01, time = 6.12 | CG iter. 13 -- res = 0.44145E+04, tol = 0.76674E+01, time = 5.83 | CG iter. 14 -- res = 0.37337E+04, tol = 0.76674E+01, time = 6.13 | CG iter. 15 -- res = 0.31111E+04, tol = 0.76674E+01, time = 5.95 | CG iter. 16 -- res = 0.22596E+04, tol = 0.76674E+01, time = 5.66 | CG iter. 17 -- res = 0.14567E+04, tol = 0.76674E+01, time = 5.90 | CG iter. 18 -- res = 0.10605E+04, tol = 0.76674E+01, time = 6.01 | CG iter. 19 -- res = 0.83899E+03, tol = 0.76674E+01, time = 5.81 | CG iter. 20 -- res = 0.64076E+03, tol = 0.76674E+01, time = 5.78 | CG iter. 21 -- res = 0.44062E+03, tol = 0.76674E+01, time = 6.13 | CG iter. 22 -- res = 0.32817E+03, tol = 0.76674E+01, time = 5.65 | CG iter. 23 -- res = 0.26690E+03, tol = 0.76674E+01, time = 6.74 | CG iter. 24 -- res = 0.20997E+03, tol = 0.76674E+01, time = 5.92 | CG iter. 25 -- res = 0.14337E+03, tol = 0.76674E+01, time = 6.28 | CG iter. 26 -- res = 0.10022E+03, tol = 0.76674E+01, time = 6.17 | CG iter. 27 -- res = 0.78475E+02, tol = 0.76674E+01, time = 6.30 | CG iter. 28 -- res = 0.62713E+02, tol = 0.76674E+01, time = 5.92 | CG iter. 29 -- res = 0.44866E+02, tol = 0.76674E+01, time = 5.96 | CG iter. 30 -- res = 0.32475E+02, tol = 0.76674E+01, time = 6.13 | CG iter. 31 -- res = 0.24972E+02, tol = 0.76674E+01, time = 5.98 | CG iter. 32 -- res = 0.19602E+02, tol = 0.76674E+01, time = 6.18 | CG iter. 33 -- res = 0.14748E+02, tol = 0.76674E+01, time = 6.58 | CG iter. 34 -- res = 0.10252E+02, tol = 0.76674E+01, time = 6.27 | CG iter. 35 -- res = 0.71976E+01, tol = 0.76674E+01, time = 5.82 | CG iter. 36 -- res = 0.58401E+01, tol = 0.76674E+01, time = 5.92 | CG iter. 37 -- res = 0.45583E+01, tol = 0.76674E+01, time = 6.08 | CG iter. 38 -- res = 0.32132E+01, tol = 0.76674E+01, time = 6.05 | CG iter. 39 -- res = 0.23716E+01, tol = 0.76674E+01, time = 6.65 | CG iter. 40 -- res = 0.18607E+01, tol = 0.76674E+01, time = 12.08 | CG iter. 41 -- res = 0.14697E+01, tol = 0.76674E+01, time = 5.95 | CG iter. 42 -- res = 0.10950E+01, tol = 0.76674E+01, time = 6.43 | CG iter. 43 -- res = 0.79735E+00, tol = 0.76674E+01, time = 6.15 | CG iter. 44 -- res = 0.61972E+00, tol = 0.76674E+01, time = 6.01 | CG iter. 45 -- res = 0.49630E+00, tol = 0.76674E+01, time = 5.95 | CG iter. 46 -- res = 0.38849E+00, tol = 0.76674E+01, time = 6.21 | CG iter. 47 -- res = 0.29268E+00, tol = 0.76674E+01, time = 5.92 | CG iter. 48 -- res = 0.23362E+00, tol = 0.76674E+01, time = 6.01 | CG iter. 49 -- res = 0.19740E+00, tol = 0.76674E+01, time = 5.72 | CG iter. 50 -- res = 0.16811E+00, tol = 0.76674E+01, time = 5.71 | Final CG iter 51 -- res = 0.16811E+00, tol = 0.76674E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10172909.835 | Old band monopole 9442117.818 | Change to band monopole 730792.017 | Change to component monopole -730788.874 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.63831E+05, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.68581E+02, tol = 0.47627E+18, time = 1.97 | CG iter. 3 -- res = 0.25453E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.93345E-02, tol = 0.47627E+18, time = 2.03 | Final CG iter 5 -- res = 0.20265E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10172866.079 | (Sampled value in CG: 10227379.651 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.505422 | New value = 1.541399 | poltype: 2 pol: 1 CPU time specind = 1.7135143E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.504273 | New value = 1.467161 | poltype: 2 pol: 2 CPU time specind = 3.6540031E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.24270E+08, tol = 0.47612E+04, time = 6.54 | CG iter. 2 -- res = 0.52481E+07, tol = 0.47612E+04, time = 6.72 | CG iter. 3 -- res = 0.82244E+06, tol = 0.47612E+04, time = 6.91 | CG iter. 4 -- res = 0.34455E+06, tol = 0.47612E+04, time = 7.05 | CG iter. 5 -- res = 0.14828E+06, tol = 0.47612E+04, time = 7.14 | CG iter. 6 -- res = 0.77511E+05, tol = 0.47612E+04, time = 6.83 | CG iter. 7 -- res = 0.43012E+05, tol = 0.47612E+04, time = 6.80 | CG iter. 8 -- res = 0.20729E+05, tol = 0.47612E+04, time = 7.36 | CG iter. 9 -- res = 0.90457E+04, tol = 0.47612E+04, time = 7.00 | CG iter. 10 -- res = 0.36172E+04, tol = 0.47612E+04, time = 6.81 | CG iter. 11 -- res = 0.16510E+04, tol = 0.47612E+04, time = 7.05 | CG iter. 12 -- res = 0.86135E+03, tol = 0.47612E+04, time = 6.97 | CG iter. 13 -- res = 0.49028E+03, tol = 0.47612E+04, time = 6.86 | CG iter. 14 -- res = 0.27323E+03, tol = 0.47612E+04, time = 6.99 | CG iter. 15 -- res = 0.13842E+03, tol = 0.47612E+04, time = 6.93 | CG iter. 16 -- res = 0.67038E+02, tol = 0.47612E+04, time = 7.21 | CG iter. 17 -- res = 0.31112E+02, tol = 0.47612E+04, time = 13.00 | CG iter. 18 -- res = 0.15653E+02, tol = 0.47612E+04, time = 6.58 | CG iter. 19 -- res = 0.85090E+01, tol = 0.47612E+04, time = 7.03 | CG iter. 20 -- res = 0.48831E+01, tol = 0.47612E+04, time = 7.13 | CG iter. 21 -- res = 0.26679E+01, tol = 0.47612E+04, time = 6.67 | CG iter. 22 -- res = 0.13426E+01, tol = 0.47612E+04, time = 6.93 | CG iter. 23 -- res = 0.66879E+00, tol = 0.47612E+04, time = 7.21 | CG iter. 24 -- res = 0.34003E+00, tol = 0.47612E+04, time = 7.18 | CG iter. 25 -- res = 0.18395E+00, tol = 0.47612E+04, time = 7.23 | CG iter. 26 -- res = 0.10419E+00, tol = 0.47612E+04, time = 6.97 | CG iter. 27 -- res = 0.58012E-01, tol = 0.47612E+04, time = 6.79 | CG iter. 28 -- res = 0.31188E-01, tol = 0.47612E+04, time = 6.88 | CG iter. 29 -- res = 0.16138E-01, tol = 0.47612E+04, time = 8.22 | CG iter. 30 -- res = 0.83931E-02, tol = 0.47612E+04, time = 7.19 | CG iter. 31 -- res = 0.45988E-02, tol = 0.47612E+04, time = 6.97 | CG iter. 32 -- res = 0.26293E-02, tol = 0.47612E+04, time = 6.59 | CG iter. 33 -- res = 0.15080E-02, tol = 0.47612E+04, time = 7.29 | CG iter. 34 -- res = 0.80747E-03, tol = 0.47612E+04, time = 6.63 | CG iter. 35 -- res = 0.40876E-03, tol = 0.47612E+04, time = 7.25 | Final CG iter 36 -- res = 0.40876E-03, tol = 0.47612E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -2.865 2.763 | New value 1.434 | Old value -2.865 | Difference 4.299 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.73 | CG iter. 1 -- res = 0.96291E+06, tol = 0.47627E+18, time = 1.79 | CG iter. 2 -- res = 0.57704E+02, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.17486E+01, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.16301E-03, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.62229E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10172866.079 | (Sampled value in CG: 10228588.567 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.532501 | New value = -3.614583 | poltype: 1 pol: 1 CPU time specind = 1.7426014E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.91 | CG iter. 1 -- res = 0.22401E+07, tol = 0.22457E+01, time = 2.95 | CG iter. 2 -- res = 0.79732E+06, tol = 0.22457E+01, time = 2.67 | CG iter. 3 -- res = 0.14954E+06, tol = 0.22457E+01, time = 2.96 | CG iter. 4 -- res = 0.60606E+05, tol = 0.22457E+01, time = 2.92 | CG iter. 5 -- res = 0.35381E+05, tol = 0.22457E+01, time = 2.86 | CG iter. 6 -- res = 0.18661E+05, tol = 0.22457E+01, time = 2.82 | CG iter. 7 -- res = 0.69038E+04, tol = 0.22457E+01, time = 2.92 | CG iter. 8 -- res = 0.29409E+04, tol = 0.22457E+01, time = 2.92 | CG iter. 9 -- res = 0.12107E+04, tol = 0.22457E+01, time = 2.90 | CG iter. 10 -- res = 0.47260E+03, tol = 0.22457E+01, time = 3.08 | CG iter. 11 -- res = 0.21119E+03, tol = 0.22457E+01, time = 3.18 | CG iter. 12 -- res = 0.10912E+03, tol = 0.22457E+01, time = 2.99 | CG iter. 13 -- res = 0.56548E+02, tol = 0.22457E+01, time = 3.23 | CG iter. 14 -- res = 0.27773E+02, tol = 0.22457E+01, time = 2.89 | CG iter. 15 -- res = 0.12119E+02, tol = 0.22457E+01, time = 2.93 | CG iter. 16 -- res = 0.51346E+01, tol = 0.22457E+01, time = 3.07 | CG iter. 17 -- res = 0.21689E+01, tol = 0.22457E+01, time = 3.00 | CG iter. 18 -- res = 0.10232E+01, tol = 0.22457E+01, time = 2.98 | CG iter. 19 -- res = 0.51068E+00, tol = 0.22457E+01, time = 2.84 | CG iter. 20 -- res = 0.26790E+00, tol = 0.22457E+01, time = 2.66 | CG iter. 21 -- res = 0.13010E+00, tol = 0.22457E+01, time = 3.25 | CG iter. 22 -- res = 0.58459E-01, tol = 0.22457E+01, time = 2.76 | CG iter. 23 -- res = 0.26250E-01, tol = 0.22457E+01, time = 3.15 | CG iter. 24 -- res = 0.12043E-01, tol = 0.22457E+01, time = 2.75 | CG iter. 25 -- res = 0.62974E-02, tol = 0.22457E+01, time = 2.87 | CG iter. 26 -- res = 0.31921E-02, tol = 0.22457E+01, time = 2.48 | CG iter. 27 -- res = 0.15487E-02, tol = 0.22457E+01, time = 2.88 | CG iter. 28 -- res = 0.73872E-03, tol = 0.22457E+01, time = 2.76 | CG iter. 29 -- res = 0.32713E-03, tol = 0.22457E+01, time = 2.91 | CG iter. 30 -- res = 0.15355E-03, tol = 0.22457E+01, time = 3.14 | CG iter. 31 -- res = 0.77107E-04, tol = 0.22457E+01, time = 2.65 | CG iter. 32 -- res = 0.40331E-04, tol = 0.22457E+01, time = 2.97 | CG iter. 33 -- res = 0.19166E-04, tol = 0.22457E+01, time = 3.22 | CG iter. 34 -- res = 0.88526E-05, tol = 0.22457E+01, time = 2.64 | CG iter. 35 -- res = 0.41896E-05, tol = 0.22457E+01, time = 3.02 | CG iter. 36 -- res = 0.20368E-05, tol = 0.22457E+01, time = 2.75 | CG iter. 37 -- res = 0.92759E-06, tol = 0.22457E+01, time = 3.04 | CG iter. 38 -- res = 0.46864E-06, tol = 0.22457E+01, time = 3.02 | CG iter. 39 -- res = 0.23154E-06, tol = 0.22457E+01, time = 2.66 | CG iter. 40 -- res = 0.11056E-06, tol = 0.22457E+01, time = 2.80 | CG iter. 41 -- res = 0.49799E-07, tol = 0.22457E+01, time = 2.97 | CG iter. 42 -- res = 0.23522E-07, tol = 0.22457E+01, time = 2.98 | CG iter. 43 -- res = 0.11046E-07, tol = 0.22457E+01, time = 2.91 | CG iter. 44 -- res = 0.55597E-08, tol = 0.22457E+01, time = 2.87 | CG iter. 45 -- res = 0.26589E-08, tol = 0.22457E+01, time = 2.89 | CG iter. 46 -- res = 0.12278E-08, tol = 0.22457E+01, time = 3.08 | CG iter. 47 -- res = 0.59460E-09, tol = 0.22457E+01, time = 2.99 | CG iter. 48 -- res = 0.28210E-09, tol = 0.22457E+01, time = 2.82 | CG iter. 49 -- res = 0.12934E-09, tol = 0.22457E+01, time = 3.60 | CG iter. 50 -- res = 0.62655E-10, tol = 0.22457E+01, time = 8.21 | Final CG iter 51 -- res = 0.62655E-10, tol = 0.22457E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -4.258 5.787 | New value -2.810 | Old value -4.258 | Difference 1.448 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.38757E+04, tol = 0.47627E+18, time = 2.32 | CG iter. 2 -- res = 0.19262E+02, tol = 0.47627E+18, time = 1.93 | CG iter. 3 -- res = 0.76506E+00, tol = 0.47627E+18, time = 2.13 | CG iter. 4 -- res = 0.39951E-03, tol = 0.47627E+18, time = 2.19 | Final CG iter 5 -- res = 0.84985E-09, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10172866.079 | (Sampled value in CG: 10217431.726 ) | CPU time specind = 1259.744 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.69083E+08, tol = 0.57738E+04, time = 12.84 | CG iter. 2 -- res = 0.59442E+08, tol = 0.57738E+04, time = 12.17 | CG iter. 3 -- res = 0.15842E+08, tol = 0.57738E+04, time = 12.41 | CG iter. 4 -- res = 0.67262E+07, tol = 0.57738E+04, time = 12.80 | CG iter. 5 -- res = 0.40976E+07, tol = 0.57738E+04, time = 12.22 | CG iter. 6 -- res = 0.23935E+07, tol = 0.57738E+04, time = 12.14 | CG iter. 7 -- res = 0.13829E+07, tol = 0.57738E+04, time = 12.37 | CG iter. 8 -- res = 0.91315E+06, tol = 0.57738E+04, time = 12.36 | CG iter. 9 -- res = 0.59478E+06, tol = 0.57738E+04, time = 12.81 | CG iter. 10 -- res = 0.36365E+06, tol = 0.57738E+04, time = 12.56 | CG iter. 11 -- res = 0.19939E+06, tol = 0.57738E+04, time = 12.61 | CG iter. 12 -- res = 0.10657E+06, tol = 0.57738E+04, time = 12.55 | CG iter. 13 -- res = 0.58196E+05, tol = 0.57738E+04, time = 12.51 | CG iter. 14 -- res = 0.35489E+05, tol = 0.57738E+04, time = 12.29 | CG iter. 15 -- res = 0.24630E+05, tol = 0.57738E+04, time = 11.89 | CG iter. 16 -- res = 0.18719E+05, tol = 0.57738E+04, time = 12.56 | CG iter. 17 -- res = 0.15122E+05, tol = 0.57738E+04, time = 17.93 | CG iter. 18 -- res = 0.12259E+05, tol = 0.57738E+04, time = 12.07 | CG iter. 19 -- res = 0.96852E+04, tol = 0.57738E+04, time = 12.25 | CG iter. 20 -- res = 0.81805E+04, tol = 0.57738E+04, time = 12.47 | CG iter. 21 -- res = 0.73546E+04, tol = 0.57738E+04, time = 11.93 | CG iter. 22 -- res = 0.73240E+04, tol = 0.57738E+04, time = 12.84 | CG iter. 23 -- res = 0.78083E+04, tol = 0.57738E+04, time = 12.17 | CG iter. 24 -- res = 0.82072E+04, tol = 0.57738E+04, time = 14.32 | CG iter. 25 -- res = 0.79694E+04, tol = 0.57738E+04, time = 12.33 | CG iter. 26 -- res = 0.69927E+04, tol = 0.57738E+04, time = 12.26 | CG iter. 27 -- res = 0.57583E+04, tol = 0.57738E+04, time = 11.75 | CG iter. 28 -- res = 0.45413E+04, tol = 0.57738E+04, time = 12.56 | CG iter. 29 -- res = 0.36653E+04, tol = 0.57738E+04, time = 12.49 | CG iter. 30 -- res = 0.31110E+04, tol = 0.57738E+04, time = 12.36 | CG iter. 31 -- res = 0.26998E+04, tol = 0.57738E+04, time = 12.62 | CG iter. 32 -- res = 0.24038E+04, tol = 0.57738E+04, time = 12.37 | CG iter. 33 -- res = 0.20805E+04, tol = 0.57738E+04, time = 12.46 | CG iter. 34 -- res = 0.17348E+04, tol = 0.57738E+04, time = 12.41 | CG iter. 35 -- res = 0.14467E+04, tol = 0.57738E+04, time = 12.95 | CG iter. 36 -- res = 0.13016E+04, tol = 0.57738E+04, time = 12.53 | CG iter. 37 -- res = 0.12581E+04, tol = 0.57738E+04, time = 12.25 | CG iter. 38 -- res = 0.12564E+04, tol = 0.57738E+04, time = 12.44 | CG iter. 39 -- res = 0.12235E+04, tol = 0.57738E+04, time = 12.33 | CG iter. 40 -- res = 0.11206E+04, tol = 0.57738E+04, time = 14.14 | CG iter. 41 -- res = 0.94965E+03, tol = 0.57738E+04, time = 17.38 | CG iter. 42 -- res = 0.77592E+03, tol = 0.57738E+04, time = 12.49 | CG iter. 43 -- res = 0.66549E+03, tol = 0.57738E+04, time = 12.26 | CG iter. 44 -- res = 0.59891E+03, tol = 0.57738E+04, time = 12.47 | CG iter. 45 -- res = 0.55511E+03, tol = 0.57738E+04, time = 12.41 | CG iter. 46 -- res = 0.51938E+03, tol = 0.57738E+04, time = 12.27 | CG iter. 47 -- res = 0.48744E+03, tol = 0.57738E+04, time = 14.25 | CG iter. 48 -- res = 0.43663E+03, tol = 0.57738E+04, time = 13.02 | CG iter. 49 -- res = 0.38055E+03, tol = 0.57738E+04, time = 12.49 | CG iter. 50 -- res = 0.34627E+03, tol = 0.57738E+04, time = 12.37 | CG iter. 51 -- res = 0.33571E+03, tol = 0.57738E+04, time = 12.85 | CG iter. 52 -- res = 0.33818E+03, tol = 0.57738E+04, time = 12.79 | CG iter. 53 -- res = 0.33574E+03, tol = 0.57738E+04, time = 12.51 | CG iter. 54 -- res = 0.31034E+03, tol = 0.57738E+04, time = 12.37 | CG iter. 55 -- res = 0.26938E+03, tol = 0.57738E+04, time = 12.13 | CG iter. 56 -- res = 0.23100E+03, tol = 0.57738E+04, time = 13.27 | CG iter. 57 -- res = 0.19841E+03, tol = 0.57738E+04, time = 12.19 | CG iter. 58 -- res = 0.17773E+03, tol = 0.57738E+04, time = 12.24 | CG iter. 59 -- res = 0.16473E+03, tol = 0.57738E+04, time = 11.90 | CG iter. 60 -- res = 0.15390E+03, tol = 0.57738E+04, time = 11.90 | Final CG iter 61 -- res = 0.15390E+03, tol = 0.57738E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.905 ( -229.656 -2230.070 2512.656 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8742165.533 | Old band monopole 10172909.835 | Change to band monopole -1430744.302 | Change to component monopole 1430738.148 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.405 2.739 | New value -4.782 | Old value 1.405 | Difference -6.187 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.332 ( 6.275 10.443 -10.534 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.114 3.743 | New value 5.737 | Old value 1.114 | Difference 4.623 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.65 | CG iter. 1 -- res = 0.22227E+07, tol = 0.47627E+18, time = 2.13 | CG iter. 2 -- res = 0.97071E+02, tol = 0.47627E+18, time = 1.83 | CG iter. 3 -- res = 0.27572E+01, tol = 0.47627E+18, time = 2.35 | CG iter. 4 -- res = 0.55617E-02, tol = 0.47627E+18, time = 6.72 | Final CG iter 5 -- res = 0.12618E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8742127.931 | (Sampled value in CG: 8720207.203 ) | Chain = 1 -- chisq = 0.81502997E+09 | Chain = 1 -- wall time = 5799.830 sec Available RAM: MemAvailable: 377134748 kB Available Swap: SwapFree: 1113054360 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 424 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445008 | --> Sampling calibration, mode = relcal | relcal = 1.3430124E-02 7.4357231E-04 -1.5907455E-03 -1.2582951E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1385265 0.1543279 9410401.84576253 | BP delta = 0.1385265 0.1532329 9410370.49019908 | BP chisq diff = -31.4, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632428 | --> Sampling calibration, mode = relcal | relcal = -2.8203276E-03 -7.0467091E-04 1.6777444E-03 1.6138365E-03 -4.0725956E-04 6.4067717E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5501822 15218833.3093677 | BP delta = 0.0000000E+00 -0.5445311 15218832.6529936 | BP chisq diff = -0.7, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18076078199381 | --> Sampling calibration, mode = relcal | relcal = -7.4642405E-02 -5.8255292E-02 9.1492675E-02 4.1405022E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.8545841E-04 4.4092308E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4460E-05 | 2: delta_r/delta_0: 7.5715E-07 | 3: delta_s/delta_0: 2.5377E-07 | 4: delta_r/delta_0: 1.3401E-08 | 5: delta_s/delta_0: 2.1184E-07 | 6: delta_r/delta_0: 7.1940E-09 | 7: delta_s/delta_0: 2.5066E-10 | 8: delta_r/delta_0: 1.0802E-10 | 9: delta_s/delta_0: 2.1885E-09 | 10: delta_r/delta_0: 7.1938E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.124793425454820E-003 2.741685784353454E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4460E-05 | 2: delta_r/delta_0: 7.5715E-07 | 3: delta_s/delta_0: 2.5377E-07 | 4: delta_r/delta_0: 1.3402E-08 | 5: delta_s/delta_0: 2.1181E-07 | 6: delta_r/delta_0: 7.1918E-09 | 7: delta_s/delta_0: 2.5067E-10 | 8: delta_r/delta_0: 1.0802E-10 | 9: delta_s/delta_0: 2.1885E-09 | 10: delta_r/delta_0: 7.1942E-11 | Reached bicg-stab tolerance | BP delta = 6.4757377E-02 8.9304410E-02 3519148.31323611 | BP delta = 6.4757377E-02 8.9405321E-02 3518253.38528673 | BP chisq diff = -894.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596860 | --> Sampling calibration, mode = relcal | relcal = -0.1066148 -9.5542528E-02 0.1448331 5.7324182E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6604574E-03 1.7738270E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.7158E-04 | 2: delta_r/delta_0: 7.6167E-06 | 3: delta_s/delta_0: 1.7012E-07 | 4: delta_r/delta_0: 5.1028E-08 | 5: delta_s/delta_0: 4.8230E-08 | 6: delta_r/delta_0: 1.0759E-08 | 7: delta_s/delta_0: 6.4997E-09 | 8: delta_r/delta_0: 2.8860E-09 | 9: delta_s/delta_0: 1.2408E-09 | 10: delta_r/delta_0: 8.2906E-10 | 11: delta_s/delta_0: 2.6011E-09 | 12: delta_r/delta_0: 6.7955E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.143540493753265E-002 2.810912594311566E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 3.7156E-04 | 2: delta_r/delta_0: 7.6160E-06 | 3: delta_s/delta_0: 1.7010E-07 | 4: delta_r/delta_0: 5.1007E-08 | 5: delta_s/delta_0: 4.8291E-08 | 6: delta_r/delta_0: 1.0758E-08 | 7: delta_s/delta_0: 6.5020E-09 | 8: delta_r/delta_0: 2.8852E-09 | 9: delta_s/delta_0: 1.2401E-09 | 10: delta_r/delta_0: 8.2885E-10 | 11: delta_s/delta_0: 2.5951E-09 | 12: delta_r/delta_0: 6.8220E-11 | Reached bicg-stab tolerance | BP delta = -0.2029786 -0.1714630 2841717.27855754 | BP delta = -0.2029786 -0.1775208 2841764.13197874 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81225927 | --> Sampling calibration, mode = relcal | relcal = 0.2955417 0.2248011 -0.2837354 -0.2366074 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.7684293E-04 5.5179684E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0377E-01 | 2: delta_r/delta_0: 2.4365E-03 | 3: delta_s/delta_0: 6.0191E-05 | 4: delta_r/delta_0: 1.0081E-05 | 5: delta_s/delta_0: 1.4863E-03 | 6: delta_r/delta_0: 3.3752E-04 | 7: delta_s/delta_0: 2.7619E-06 | 8: delta_r/delta_0: 2.6940E-07 | 9: delta_s/delta_0: 2.5957E-06 | 10: delta_r/delta_0: 2.2673E-08 | 11: delta_s/delta_0: 3.0768E-08 | 12: delta_r/delta_0: 1.8565E-08 | 13: delta_s/delta_0: 1.2218E-09 | 14: delta_r/delta_0: 9.5026E-10 | 15: delta_s/delta_0: 3.4733E-10 | 16: delta_r/delta_0: 1.6768E-10 | 17: delta_s/delta_0: 8.3222E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.778722172882485E-002 4.021557759326786E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0395E-01 | 2: delta_r/delta_0: 2.4408E-03 | 3: delta_s/delta_0: 6.0102E-05 | 4: delta_r/delta_0: 1.0063E-05 | 5: delta_s/delta_0: 1.4835E-03 | 6: delta_r/delta_0: 3.3685E-04 | 7: delta_s/delta_0: 2.7589E-06 | 8: delta_r/delta_0: 2.6917E-07 | 9: delta_s/delta_0: 2.5930E-06 | 10: delta_r/delta_0: 2.2660E-08 | 11: delta_s/delta_0: 3.0735E-08 | 12: delta_r/delta_0: 1.8543E-08 | 13: delta_s/delta_0: 1.2209E-09 | 14: delta_r/delta_0: 9.4959E-10 | 15: delta_s/delta_0: 3.4713E-10 | 16: delta_r/delta_0: 1.6756E-10 | 17: delta_s/delta_0: 8.3159E-11 | Reached bicg-stab tolerance | BP delta = -0.1255540 -0.1496782 2827344.82431170 | BP delta = -0.1255540 -0.1490374 2827342.68875491 | BP chisq diff = -2.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95917596 | --> Sampling calibration, mode = relcal | relcal = 0.1066212 0.1395399 -0.1103651 -0.1357960 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.7642122E-03 1.2913099E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.9739E-04 | 2: delta_r/delta_0: 1.4597E-05 | 3: delta_s/delta_0: 5.8626E-05 | 4: delta_r/delta_0: 2.6446E-06 | 5: delta_s/delta_0: 3.1060E-07 | 6: delta_r/delta_0: 1.3210E-07 | 7: delta_s/delta_0: 3.6963E-07 | 8: delta_r/delta_0: 4.0109E-08 | 9: delta_s/delta_0: 9.7874E-09 | 10: delta_r/delta_0: 6.3169E-09 | 11: delta_s/delta_0: 1.9042E-09 | 12: delta_r/delta_0: 1.4380E-09 | 13: delta_s/delta_0: 2.0365E-10 | 14: delta_r/delta_0: 1.5892E-10 | 15: delta_s/delta_0: 3.9491E-10 | 16: delta_r/delta_0: 2.5678E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.260679239625257E-002 3.697201887773883E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.9764E-04 | 2: delta_r/delta_0: 1.4602E-05 | 3: delta_s/delta_0: 5.8654E-05 | 4: delta_r/delta_0: 2.6465E-06 | 5: delta_s/delta_0: 3.1065E-07 | 6: delta_r/delta_0: 1.3210E-07 | 7: delta_s/delta_0: 3.7035E-07 | 8: delta_r/delta_0: 4.0112E-08 | 9: delta_s/delta_0: 9.7871E-09 | 10: delta_r/delta_0: 6.3209E-09 | 11: delta_s/delta_0: 1.9045E-09 | 12: delta_r/delta_0: 1.4383E-09 | 13: delta_s/delta_0: 2.0355E-10 | 14: delta_r/delta_0: 1.5897E-10 | 15: delta_s/delta_0: 3.9386E-10 | 16: delta_r/delta_0: 2.5749E-11 | Reached bicg-stab tolerance | BP delta = 0.1335642 0.2486389 3004042.53228485 | BP delta = 0.1335642 0.2546811 3004300.41731742 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.096876 | New value = -3.183250 | poltype: 2 pol: 1 CPU time specind = 1.7329931E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.122104 | New value = -3.106914 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.141165 | New value = -3.152263 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.209633 | New value = -3.081145 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.221145 | New value = -3.112554 | poltype: 2 pol: 2 CPU time specind = 1.4051914E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.09 | CG iter. 1 -- res = 0.13600E+08, tol = 0.81218E+01, time = 5.97 | CG iter. 2 -- res = 0.34134E+06, tol = 0.81218E+01, time = 5.90 | CG iter. 3 -- res = 0.78247E+05, tol = 0.81218E+01, time = 5.64 | CG iter. 4 -- res = 0.76649E+05, tol = 0.81218E+01, time = 5.97 | CG iter. 5 -- res = 0.80997E+05, tol = 0.81218E+01, time = 5.75 | CG iter. 6 -- res = 0.76775E+05, tol = 0.81218E+01, time = 6.10 | CG iter. 7 -- res = 0.69524E+05, tol = 0.81218E+01, time = 5.78 | CG iter. 8 -- res = 0.54414E+05, tol = 0.81218E+01, time = 5.59 | CG iter. 9 -- res = 0.45170E+05, tol = 0.81218E+01, time = 6.15 | CG iter. 10 -- res = 0.36520E+05, tol = 0.81218E+01, time = 5.83 | CG iter. 11 -- res = 0.25634E+05, tol = 0.81218E+01, time = 5.96 | CG iter. 12 -- res = 0.19405E+05, tol = 0.81218E+01, time = 5.75 | CG iter. 13 -- res = 0.16762E+05, tol = 0.81218E+01, time = 5.69 | CG iter. 14 -- res = 0.15045E+05, tol = 0.81218E+01, time = 7.46 | CG iter. 15 -- res = 0.12081E+05, tol = 0.81218E+01, time = 6.82 | CG iter. 16 -- res = 0.84330E+04, tol = 0.81218E+01, time = 5.77 | CG iter. 17 -- res = 0.62181E+04, tol = 0.81218E+01, time = 5.66 | CG iter. 18 -- res = 0.52720E+04, tol = 0.81218E+01, time = 6.02 | CG iter. 19 -- res = 0.45700E+04, tol = 0.81218E+01, time = 6.09 | CG iter. 20 -- res = 0.35921E+04, tol = 0.81218E+01, time = 5.58 | CG iter. 21 -- res = 0.27136E+04, tol = 0.81218E+01, time = 5.77 | CG iter. 22 -- res = 0.22831E+04, tol = 0.81218E+01, time = 5.64 | CG iter. 23 -- res = 0.20371E+04, tol = 0.81218E+01, time = 5.82 | CG iter. 24 -- res = 0.16155E+04, tol = 0.81218E+01, time = 5.53 | CG iter. 25 -- res = 0.12017E+04, tol = 0.81218E+01, time = 6.03 | CG iter. 26 -- res = 0.99144E+03, tol = 0.81218E+01, time = 5.93 | CG iter. 27 -- res = 0.89480E+03, tol = 0.81218E+01, time = 5.83 | CG iter. 28 -- res = 0.75792E+03, tol = 0.81218E+01, time = 5.81 | CG iter. 29 -- res = 0.59936E+03, tol = 0.81218E+01, time = 5.86 | CG iter. 30 -- res = 0.48906E+03, tol = 0.81218E+01, time = 5.76 | CG iter. 31 -- res = 0.43749E+03, tol = 0.81218E+01, time = 5.75 | CG iter. 32 -- res = 0.39340E+03, tol = 0.81218E+01, time = 5.96 | CG iter. 33 -- res = 0.31219E+03, tol = 0.81218E+01, time = 5.99 | CG iter. 34 -- res = 0.25107E+03, tol = 0.81218E+01, time = 5.58 | CG iter. 35 -- res = 0.21753E+03, tol = 0.81218E+01, time = 5.96 | CG iter. 36 -- res = 0.19722E+03, tol = 0.81218E+01, time = 5.96 | CG iter. 37 -- res = 0.16502E+03, tol = 0.81218E+01, time = 5.91 | CG iter. 38 -- res = 0.13051E+03, tol = 0.81218E+01, time = 5.66 | CG iter. 39 -- res = 0.11164E+03, tol = 0.81218E+01, time = 6.02 | CG iter. 40 -- res = 0.98235E+02, tol = 0.81218E+01, time = 5.78 | CG iter. 41 -- res = 0.82614E+02, tol = 0.81218E+01, time = 5.88 | CG iter. 42 -- res = 0.64462E+02, tol = 0.81218E+01, time = 6.15 | CG iter. 43 -- res = 0.54078E+02, tol = 0.81218E+01, time = 6.20 | CG iter. 44 -- res = 0.47360E+02, tol = 0.81218E+01, time = 5.74 | CG iter. 45 -- res = 0.39759E+02, tol = 0.81218E+01, time = 5.74 | CG iter. 46 -- res = 0.30225E+02, tol = 0.81218E+01, time = 5.86 | CG iter. 47 -- res = 0.24326E+02, tol = 0.81218E+01, time = 5.85 | CG iter. 48 -- res = 0.20715E+02, tol = 0.81218E+01, time = 6.00 | CG iter. 49 -- res = 0.17300E+02, tol = 0.81218E+01, time = 12.47 | CG iter. 50 -- res = 0.13769E+02, tol = 0.81218E+01, time = 5.54 | Final CG iter 51 -- res = 0.13769E+02, tol = 0.81218E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10321530.032 | Old band monopole 8742165.533 | Change to band monopole 1579364.499 | Change to component monopole -1579357.706 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.86 | CG iter. 1 -- res = 0.75373E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.30740E+03, tol = 0.47627E+18, time = 2.10 | CG iter. 3 -- res = 0.48651E+01, tol = 0.47627E+18, time = 1.95 | CG iter. 4 -- res = 0.37259E-01, tol = 0.47627E+18, time = 1.93 | Final CG iter 5 -- res = 0.21810E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10321485.637 | (Sampled value in CG: 10242572.266 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.541399 | New value = 1.480729 | poltype: 2 pol: 1 CPU time specind = 2.1501064E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.467161 | New value = 1.549154 | poltype: 2 pol: 2 CPU time specind = 5.2878857E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.00 | CG iter. 1 -- res = 0.24822E+08, tol = 0.47455E+04, time = 6.96 | CG iter. 2 -- res = 0.53233E+07, tol = 0.47455E+04, time = 6.41 | CG iter. 3 -- res = 0.84005E+06, tol = 0.47455E+04, time = 6.49 | CG iter. 4 -- res = 0.35057E+06, tol = 0.47455E+04, time = 6.69 | CG iter. 5 -- res = 0.14995E+06, tol = 0.47455E+04, time = 6.84 | CG iter. 6 -- res = 0.79009E+05, tol = 0.47455E+04, time = 6.77 | CG iter. 7 -- res = 0.43886E+05, tol = 0.47455E+04, time = 6.71 | CG iter. 8 -- res = 0.21443E+05, tol = 0.47455E+04, time = 7.08 | CG iter. 9 -- res = 0.93332E+04, tol = 0.47455E+04, time = 6.89 | CG iter. 10 -- res = 0.37491E+04, tol = 0.47455E+04, time = 7.06 | CG iter. 11 -- res = 0.16916E+04, tol = 0.47455E+04, time = 7.52 | CG iter. 12 -- res = 0.88237E+03, tol = 0.47455E+04, time = 6.54 | CG iter. 13 -- res = 0.49104E+03, tol = 0.47455E+04, time = 6.78 | CG iter. 14 -- res = 0.28041E+03, tol = 0.47455E+04, time = 6.89 | CG iter. 15 -- res = 0.14813E+03, tol = 0.47455E+04, time = 6.80 | CG iter. 16 -- res = 0.69001E+02, tol = 0.47455E+04, time = 6.76 | CG iter. 17 -- res = 0.32206E+02, tol = 0.47455E+04, time = 6.91 | CG iter. 18 -- res = 0.16200E+02, tol = 0.47455E+04, time = 6.93 | CG iter. 19 -- res = 0.90151E+01, tol = 0.47455E+04, time = 6.73 | CG iter. 20 -- res = 0.51452E+01, tol = 0.47455E+04, time = 6.66 | CG iter. 21 -- res = 0.28110E+01, tol = 0.47455E+04, time = 7.08 | CG iter. 22 -- res = 0.14135E+01, tol = 0.47455E+04, time = 6.68 | CG iter. 23 -- res = 0.69083E+00, tol = 0.47455E+04, time = 7.20 | CG iter. 24 -- res = 0.35842E+00, tol = 0.47455E+04, time = 7.00 | CG iter. 25 -- res = 0.19569E+00, tol = 0.47455E+04, time = 13.14 | CG iter. 26 -- res = 0.11210E+00, tol = 0.47455E+04, time = 6.57 | CG iter. 27 -- res = 0.63964E-01, tol = 0.47455E+04, time = 6.71 | CG iter. 28 -- res = 0.34018E-01, tol = 0.47455E+04, time = 6.63 | CG iter. 29 -- res = 0.17667E-01, tol = 0.47455E+04, time = 6.51 | CG iter. 30 -- res = 0.93793E-02, tol = 0.47455E+04, time = 6.58 | CG iter. 31 -- res = 0.50496E-02, tol = 0.47455E+04, time = 6.90 | CG iter. 32 -- res = 0.27672E-02, tol = 0.47455E+04, time = 6.45 | CG iter. 33 -- res = 0.15729E-02, tol = 0.47455E+04, time = 6.89 | CG iter. 34 -- res = 0.87347E-03, tol = 0.47455E+04, time = 6.64 | CG iter. 35 -- res = 0.45856E-03, tol = 0.47455E+04, time = 6.34 | Final CG iter 36 -- res = 0.45856E-03, tol = 0.47455E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.821 2.726 | New value 3.820 | Old value -4.821 | Difference 8.641 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.14 | CG iter. 1 -- res = 0.38683E+07, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.95534E+02, tol = 0.47627E+18, time = 2.22 | CG iter. 3 -- res = 0.22826E+01, tol = 0.47627E+18, time = 2.35 | CG iter. 4 -- res = 0.50872E-02, tol = 0.47627E+18, time = 2.37 | Final CG iter 5 -- res = 0.10273E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10321485.637 | (Sampled value in CG: 10244633.431 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.614583 | New value = -3.712255 | poltype: 1 pol: 1 CPU time specind = 1.7984867E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.31814E+07, tol = 0.28254E+01, time = 2.95 | CG iter. 2 -- res = 0.12233E+07, tol = 0.28254E+01, time = 2.74 | CG iter. 3 -- res = 0.27033E+06, tol = 0.28254E+01, time = 2.79 | CG iter. 4 -- res = 0.12665E+06, tol = 0.28254E+01, time = 3.58 | CG iter. 5 -- res = 0.77155E+05, tol = 0.28254E+01, time = 3.69 | CG iter. 6 -- res = 0.33317E+05, tol = 0.28254E+01, time = 3.18 | CG iter. 7 -- res = 0.99825E+04, tol = 0.28254E+01, time = 3.30 | CG iter. 8 -- res = 0.39977E+04, tol = 0.28254E+01, time = 3.20 | CG iter. 9 -- res = 0.18353E+04, tol = 0.28254E+01, time = 2.65 | CG iter. 10 -- res = 0.75221E+03, tol = 0.28254E+01, time = 2.81 | CG iter. 11 -- res = 0.32952E+03, tol = 0.28254E+01, time = 2.77 | CG iter. 12 -- res = 0.17094E+03, tol = 0.28254E+01, time = 3.05 | CG iter. 13 -- res = 0.87041E+02, tol = 0.28254E+01, time = 2.68 | CG iter. 14 -- res = 0.38496E+02, tol = 0.28254E+01, time = 2.96 | CG iter. 15 -- res = 0.16561E+02, tol = 0.28254E+01, time = 3.02 | CG iter. 16 -- res = 0.67809E+01, tol = 0.28254E+01, time = 2.72 | CG iter. 17 -- res = 0.29227E+01, tol = 0.28254E+01, time = 2.86 | CG iter. 18 -- res = 0.14749E+01, tol = 0.28254E+01, time = 2.67 | CG iter. 19 -- res = 0.75125E+00, tol = 0.28254E+01, time = 2.46 | CG iter. 20 -- res = 0.35800E+00, tol = 0.28254E+01, time = 2.88 | CG iter. 21 -- res = 0.15679E+00, tol = 0.28254E+01, time = 2.79 | CG iter. 22 -- res = 0.67423E-01, tol = 0.28254E+01, time = 3.85 | CG iter. 23 -- res = 0.31389E-01, tol = 0.28254E+01, time = 3.44 | CG iter. 24 -- res = 0.16099E-01, tol = 0.28254E+01, time = 2.97 | CG iter. 25 -- res = 0.83160E-02, tol = 0.28254E+01, time = 3.05 | CG iter. 26 -- res = 0.40940E-02, tol = 0.28254E+01, time = 2.59 | CG iter. 27 -- res = 0.18366E-02, tol = 0.28254E+01, time = 2.80 | CG iter. 28 -- res = 0.83684E-03, tol = 0.28254E+01, time = 2.88 | CG iter. 29 -- res = 0.37724E-03, tol = 0.28254E+01, time = 2.79 | CG iter. 30 -- res = 0.18898E-03, tol = 0.28254E+01, time = 3.12 | CG iter. 31 -- res = 0.97686E-04, tol = 0.28254E+01, time = 2.85 | CG iter. 32 -- res = 0.47626E-04, tol = 0.28254E+01, time = 2.50 | CG iter. 33 -- res = 0.22570E-04, tol = 0.28254E+01, time = 2.59 | CG iter. 34 -- res = 0.96776E-05, tol = 0.28254E+01, time = 2.93 | CG iter. 35 -- res = 0.46729E-05, tol = 0.28254E+01, time = 2.97 | CG iter. 36 -- res = 0.24151E-05, tol = 0.28254E+01, time = 2.95 | CG iter. 37 -- res = 0.12247E-05, tol = 0.28254E+01, time = 2.89 | CG iter. 38 -- res = 0.58607E-06, tol = 0.28254E+01, time = 2.31 | CG iter. 39 -- res = 0.27299E-06, tol = 0.28254E+01, time = 2.82 | CG iter. 40 -- res = 0.12592E-06, tol = 0.28254E+01, time = 2.77 | CG iter. 41 -- res = 0.57775E-07, tol = 0.28254E+01, time = 2.97 | CG iter. 42 -- res = 0.30012E-07, tol = 0.28254E+01, time = 3.51 | CG iter. 43 -- res = 0.14476E-07, tol = 0.28254E+01, time = 2.86 | CG iter. 44 -- res = 0.71138E-08, tol = 0.28254E+01, time = 2.95 | CG iter. 45 -- res = 0.32881E-08, tol = 0.28254E+01, time = 2.86 | CG iter. 46 -- res = 0.14451E-08, tol = 0.28254E+01, time = 2.74 | CG iter. 47 -- res = 0.69150E-09, tol = 0.28254E+01, time = 2.89 | CG iter. 48 -- res = 0.34832E-09, tol = 0.28254E+01, time = 3.11 | CG iter. 49 -- res = 0.17207E-09, tol = 0.28254E+01, time = 2.85 | CG iter. 50 -- res = 0.81803E-10, tol = 0.28254E+01, time = 2.73 | Final CG iter 51 -- res = 0.81803E-10, tol = 0.28254E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.223 5.033 | New value -13.264 | Old value -0.223 | Difference -13.041 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.95 | CG iter. 1 -- res = 0.15920E+06, tol = 0.47627E+18, time = 2.13 | CG iter. 2 -- res = 0.10343E+03, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.32367E+01, tol = 0.47627E+18, time = 2.06 | CG iter. 4 -- res = 0.15950E-01, tol = 0.47627E+18, time = 2.21 | Final CG iter 5 -- res = 0.12323E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10321485.637 | (Sampled value in CG: 10261549.537 ) | CPU time specind = 1222.463 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.70422E+08, tol = 0.57930E+04, time = 12.19 | CG iter. 2 -- res = 0.59313E+08, tol = 0.57930E+04, time = 12.23 | CG iter. 3 -- res = 0.15469E+08, tol = 0.57930E+04, time = 12.58 | CG iter. 4 -- res = 0.66929E+07, tol = 0.57930E+04, time = 12.10 | CG iter. 5 -- res = 0.39974E+07, tol = 0.57930E+04, time = 12.62 | CG iter. 6 -- res = 0.23301E+07, tol = 0.57930E+04, time = 13.19 | CG iter. 7 -- res = 0.13981E+07, tol = 0.57930E+04, time = 13.18 | CG iter. 8 -- res = 0.91213E+06, tol = 0.57930E+04, time = 11.91 | CG iter. 9 -- res = 0.59834E+06, tol = 0.57930E+04, time = 12.36 | CG iter. 10 -- res = 0.36681E+06, tol = 0.57930E+04, time = 12.28 | CG iter. 11 -- res = 0.20711E+06, tol = 0.57930E+04, time = 12.36 | CG iter. 12 -- res = 0.12285E+06, tol = 0.57930E+04, time = 12.33 | CG iter. 13 -- res = 0.75385E+05, tol = 0.57930E+04, time = 12.35 | CG iter. 14 -- res = 0.51455E+05, tol = 0.57930E+04, time = 12.21 | CG iter. 15 -- res = 0.41912E+05, tol = 0.57930E+04, time = 12.34 | CG iter. 16 -- res = 0.39493E+05, tol = 0.57930E+04, time = 12.11 | CG iter. 17 -- res = 0.38702E+05, tol = 0.57930E+04, time = 12.08 | CG iter. 18 -- res = 0.36779E+05, tol = 0.57930E+04, time = 11.85 | CG iter. 19 -- res = 0.33134E+05, tol = 0.57930E+04, time = 12.07 | CG iter. 20 -- res = 0.30416E+05, tol = 0.57930E+04, time = 12.19 | CG iter. 21 -- res = 0.29242E+05, tol = 0.57930E+04, time = 11.72 | CG iter. 22 -- res = 0.29572E+05, tol = 0.57930E+04, time = 12.09 | CG iter. 23 -- res = 0.29660E+05, tol = 0.57930E+04, time = 18.67 | CG iter. 24 -- res = 0.27523E+05, tol = 0.57930E+04, time = 12.46 | CG iter. 25 -- res = 0.22949E+05, tol = 0.57930E+04, time = 11.96 | CG iter. 26 -- res = 0.17216E+05, tol = 0.57930E+04, time = 12.27 | CG iter. 27 -- res = 0.12451E+05, tol = 0.57930E+04, time = 12.14 | CG iter. 28 -- res = 0.93497E+04, tol = 0.57930E+04, time = 12.02 | CG iter. 29 -- res = 0.78517E+04, tol = 0.57930E+04, time = 11.68 | CG iter. 30 -- res = 0.70629E+04, tol = 0.57930E+04, time = 13.44 | CG iter. 31 -- res = 0.64144E+04, tol = 0.57930E+04, time = 13.29 | CG iter. 32 -- res = 0.57965E+04, tol = 0.57930E+04, time = 12.15 | CG iter. 33 -- res = 0.50496E+04, tol = 0.57930E+04, time = 12.71 | CG iter. 34 -- res = 0.44217E+04, tol = 0.57930E+04, time = 12.38 | CG iter. 35 -- res = 0.39032E+04, tol = 0.57930E+04, time = 12.33 | CG iter. 36 -- res = 0.35559E+04, tol = 0.57930E+04, time = 12.18 | CG iter. 37 -- res = 0.34135E+04, tol = 0.57930E+04, time = 12.41 | CG iter. 38 -- res = 0.32323E+04, tol = 0.57930E+04, time = 12.34 | CG iter. 39 -- res = 0.28331E+04, tol = 0.57930E+04, time = 12.58 | CG iter. 40 -- res = 0.24002E+04, tol = 0.57930E+04, time = 12.39 | CG iter. 41 -- res = 0.19794E+04, tol = 0.57930E+04, time = 12.51 | CG iter. 42 -- res = 0.16359E+04, tol = 0.57930E+04, time = 12.62 | CG iter. 43 -- res = 0.14292E+04, tol = 0.57930E+04, time = 12.11 | CG iter. 44 -- res = 0.13192E+04, tol = 0.57930E+04, time = 12.14 | CG iter. 45 -- res = 0.12592E+04, tol = 0.57930E+04, time = 12.54 | CG iter. 46 -- res = 0.11747E+04, tol = 0.57930E+04, time = 12.24 | CG iter. 47 -- res = 0.10718E+04, tol = 0.57930E+04, time = 18.78 | CG iter. 48 -- res = 0.94351E+03, tol = 0.57930E+04, time = 12.16 | CG iter. 49 -- res = 0.84978E+03, tol = 0.57930E+04, time = 12.10 | CG iter. 50 -- res = 0.79571E+03, tol = 0.57930E+04, time = 12.49 | CG iter. 51 -- res = 0.76722E+03, tol = 0.57930E+04, time = 11.65 | CG iter. 52 -- res = 0.74207E+03, tol = 0.57930E+04, time = 12.51 | CG iter. 53 -- res = 0.67362E+03, tol = 0.57930E+04, time = 12.15 | CG iter. 54 -- res = 0.59707E+03, tol = 0.57930E+04, time = 15.17 | CG iter. 55 -- res = 0.50783E+03, tol = 0.57930E+04, time = 12.19 | CG iter. 56 -- res = 0.44527E+03, tol = 0.57930E+04, time = 12.16 | CG iter. 57 -- res = 0.39827E+03, tol = 0.57930E+04, time = 12.40 | CG iter. 58 -- res = 0.37646E+03, tol = 0.57930E+04, time = 12.16 | CG iter. 59 -- res = 0.36839E+03, tol = 0.57930E+04, time = 12.27 | CG iter. 60 -- res = 0.36339E+03, tol = 0.57930E+04, time = 11.51 | Final CG iter 61 -- res = 0.36339E+03, tol = 0.57930E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.753 ( -229.671 -2230.104 2512.288 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9225506.647 | Old band monopole 10321530.032 | Change to band monopole -1096023.385 | Change to component monopole 1096018.671 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 3.849 2.737 | New value -3.768 | Old value 3.849 | Difference -7.617 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.610 ( 7.757 10.949 -9.834 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.642 4.104 | New value 11.724 | Old value -0.642 | Difference 12.366 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.89 | CG iter. 1 -- res = 0.34534E+07, tol = 0.47627E+18, time = 2.20 | CG iter. 2 -- res = 0.16027E+03, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.31745E+01, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.86030E-02, tol = 0.47627E+18, time = 2.13 | Final CG iter 5 -- res = 0.20173E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9225466.966 | (Sampled value in CG: 9199665.764 ) | Chain = 1 -- chisq = 0.81553898E+09 | Chain = 1 -- wall time = 6209.919 sec Available RAM: MemAvailable: 376326176 kB Available Swap: SwapFree: 1113861528 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 425 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444149 | --> Sampling calibration, mode = relcal | relcal = 1.3432562E-02 7.3597551E-04 -1.5889379E-03 -1.2579599E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1385265 0.1532329 97045488.6963017 | BP delta = 0.1400500 0.1547564 97045487.8496481 | BP chisq diff = -0.8, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632497 | --> Sampling calibration, mode = relcal | relcal = -2.8215225E-03 -7.0343207E-04 1.6783183E-03 1.6142826E-03 -4.0832878E-04 6.4068253E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5445311 15222548.4513692 | BP delta = 0.0000000E+00 -0.5500596 15222540.2890876 | BP chisq diff = -8.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17717682078431 | --> Sampling calibration, mode = relcal | relcal = -7.4061565E-02 -5.7619564E-02 9.0702809E-02 4.0978320E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -7.0665999E-05 3.2695776E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 8.6946E-03 | 2: delta_r/delta_0: 1.8105E-04 | 3: delta_s/delta_0: 1.9547E-07 | 4: delta_r/delta_0: 2.3446E-08 | 5: delta_s/delta_0: 1.0434E-08 | 6: delta_r/delta_0: 2.4251E-09 | 7: delta_s/delta_0: 2.8913E-09 | 8: delta_r/delta_0: 1.0776E-10 | 9: delta_s/delta_0: 7.8899E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.397369142678029E-003 2.750105242450100E-005 | BP delta = 6.4757377E-02 8.9405321E-02 50483204.8309056 | BP delta = 6.1863452E-02 8.6511396E-02 50483202.6162343 | BP chisq diff = -2.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02602598 | --> Sampling calibration, mode = relcal | relcal = -0.1066195 -9.5536768E-02 0.1449017 5.7254571E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3978166E-03 1.2347865E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3283E-04 | 2: delta_r/delta_0: 2.8623E-06 | 3: delta_s/delta_0: 1.9984E-07 | 4: delta_r/delta_0: 5.4877E-08 | 5: delta_s/delta_0: 3.1469E-08 | 6: delta_r/delta_0: 8.5010E-09 | 7: delta_s/delta_0: 8.5210E-09 | 8: delta_r/delta_0: 1.8014E-09 | 9: delta_s/delta_0: 9.4078E-10 | 10: delta_r/delta_0: 1.6947E-10 | 11: delta_s/delta_0: 3.8357E-10 | 12: delta_r/delta_0: 3.3184E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.068330436144522E-002 2.810733495174653E-005 | BP delta = -0.2029786 -0.1714630 57388924.6551452 | BP delta = -0.1930136 -0.1614980 57388926.2347200 | BP chisq diff = 1.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81235857 | --> Sampling calibration, mode = relcal | relcal = 0.2954766 0.2249513 -0.2838319 -0.2365960 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8244147E-04 6.1035128E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3159E+01 | 2: delta_r/delta_0: 3.0989E-01 | 3: delta_s/delta_0: 1.2037E-03 | 4: delta_r/delta_0: 3.6460E-05 | 5: delta_s/delta_0: 3.2470E-06 | 6: delta_r/delta_0: 1.4789E-06 | 7: delta_s/delta_0: 2.9614E-06 | 8: delta_r/delta_0: 4.8738E-07 | 9: delta_s/delta_0: 9.8157E-06 | 10: delta_r/delta_0: 2.2260E-06 | 11: delta_s/delta_0: 9.9699E-09 | 12: delta_r/delta_0: 4.1021E-09 | 13: delta_s/delta_0: 3.9810E-09 | 14: delta_r/delta_0: 3.5829E-10 | 15: delta_s/delta_0: 2.7937E-10 | 16: delta_r/delta_0: 1.3784E-10 | 17: delta_s/delta_0: 5.4892E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -8.438871863545301E-002 4.021123995367186E-005 | BP delta = -0.1255540 -0.1490374 72489320.9043636 | BP delta = -7.6485500E-02 -9.9968843E-02 72489322.1192005 | BP chisq diff = 1.2, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95926946 | --> Sampling calibration, mode = relcal | relcal = 0.1065495 0.1395106 -0.1103733 -0.1356869 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.9296747E-03 1.3139884E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.4379E-04 | 2: delta_r/delta_0: 8.5355E-06 | 3: delta_s/delta_0: 1.2549E-05 | 4: delta_r/delta_0: 1.1439E-06 | 5: delta_s/delta_0: 2.3490E-07 | 6: delta_r/delta_0: 1.2575E-07 | 7: delta_s/delta_0: 4.6046E-07 | 8: delta_r/delta_0: 3.0237E-08 | 9: delta_s/delta_0: 1.5282E-07 | 10: delta_r/delta_0: 2.8868E-08 | 11: delta_s/delta_0: 1.7100E-09 | 12: delta_r/delta_0: 7.7443E-10 | 13: delta_s/delta_0: 2.1802E-09 | 14: delta_r/delta_0: 1.1345E-10 | 15: delta_s/delta_0: 5.2385E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.106821881077238E-002 3.696727102585226E-005 | BP delta = 0.1335642 0.2486389 72781635.9836279 | BP delta = 0.1244765 0.2395512 72781636.2498812 | BP chisq diff = 0.3, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.183250 | New value = -3.156016 | poltype: 2 pol: 1 CPU time specind = 1.8132925E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.106914 | New value = -3.123681 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.152263 | New value = -3.087608 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.081145 | New value = -3.160216 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112554 | New value = -3.195541 | poltype: 2 pol: 2 CPU time specind = 1.2858152E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.87 | CG iter. 1 -- res = 0.13556E+08, tol = 0.76529E+01, time = 5.36 | CG iter. 2 -- res = 0.31900E+06, tol = 0.76529E+01, time = 5.91 | CG iter. 3 -- res = 0.47185E+05, tol = 0.76529E+01, time = 5.95 | CG iter. 4 -- res = 0.22927E+05, tol = 0.76529E+01, time = 7.13 | CG iter. 5 -- res = 0.12598E+05, tol = 0.76529E+01, time = 6.33 | CG iter. 6 -- res = 0.73998E+04, tol = 0.76529E+01, time = 5.89 | CG iter. 7 -- res = 0.54929E+04, tol = 0.76529E+01, time = 6.44 | CG iter. 8 -- res = 0.43425E+04, tol = 0.76529E+01, time = 5.87 | CG iter. 9 -- res = 0.41223E+04, tol = 0.76529E+01, time = 6.10 | CG iter. 10 -- res = 0.43511E+04, tol = 0.76529E+01, time = 5.60 | CG iter. 11 -- res = 0.37174E+04, tol = 0.76529E+01, time = 6.05 | CG iter. 12 -- res = 0.25657E+04, tol = 0.76529E+01, time = 6.15 | CG iter. 13 -- res = 0.16804E+04, tol = 0.76529E+01, time = 5.81 | CG iter. 14 -- res = 0.13039E+04, tol = 0.76529E+01, time = 5.85 | CG iter. 15 -- res = 0.11208E+04, tol = 0.76529E+01, time = 5.88 | CG iter. 16 -- res = 0.91655E+03, tol = 0.76529E+01, time = 5.67 | CG iter. 17 -- res = 0.70754E+03, tol = 0.76529E+01, time = 6.11 | CG iter. 18 -- res = 0.55129E+03, tol = 0.76529E+01, time = 5.62 | CG iter. 19 -- res = 0.46621E+03, tol = 0.76529E+01, time = 5.63 | CG iter. 20 -- res = 0.37238E+03, tol = 0.76529E+01, time = 6.02 | CG iter. 21 -- res = 0.25983E+03, tol = 0.76529E+01, time = 5.59 | CG iter. 22 -- res = 0.18988E+03, tol = 0.76529E+01, time = 6.80 | CG iter. 23 -- res = 0.15465E+03, tol = 0.76529E+01, time = 5.77 | CG iter. 24 -- res = 0.12769E+03, tol = 0.76529E+01, time = 6.00 | CG iter. 25 -- res = 0.91899E+02, tol = 0.76529E+01, time = 5.92 | CG iter. 26 -- res = 0.64732E+02, tol = 0.76529E+01, time = 5.68 | CG iter. 27 -- res = 0.49721E+02, tol = 0.76529E+01, time = 5.83 | CG iter. 28 -- res = 0.40663E+02, tol = 0.76529E+01, time = 6.33 | CG iter. 29 -- res = 0.30703E+02, tol = 0.76529E+01, time = 5.90 | CG iter. 30 -- res = 0.22286E+02, tol = 0.76529E+01, time = 5.72 | CG iter. 31 -- res = 0.17444E+02, tol = 0.76529E+01, time = 5.93 | CG iter. 32 -- res = 0.14246E+02, tol = 0.76529E+01, time = 5.71 | CG iter. 33 -- res = 0.11420E+02, tol = 0.76529E+01, time = 5.92 | CG iter. 34 -- res = 0.83116E+01, tol = 0.76529E+01, time = 6.27 | CG iter. 35 -- res = 0.62757E+01, tol = 0.76529E+01, time = 5.86 | CG iter. 36 -- res = 0.52550E+01, tol = 0.76529E+01, time = 5.94 | CG iter. 37 -- res = 0.44168E+01, tol = 0.76529E+01, time = 6.02 | CG iter. 38 -- res = 0.33853E+01, tol = 0.76529E+01, time = 6.30 | CG iter. 39 -- res = 0.24807E+01, tol = 0.76529E+01, time = 11.44 | CG iter. 40 -- res = 0.20054E+01, tol = 0.76529E+01, time = 5.62 | CG iter. 41 -- res = 0.16716E+01, tol = 0.76529E+01, time = 5.94 | CG iter. 42 -- res = 0.12961E+01, tol = 0.76529E+01, time = 6.12 | CG iter. 43 -- res = 0.99371E+00, tol = 0.76529E+01, time = 5.64 | CG iter. 44 -- res = 0.79856E+00, tol = 0.76529E+01, time = 5.37 | CG iter. 45 -- res = 0.67022E+00, tol = 0.76529E+01, time = 6.01 | CG iter. 46 -- res = 0.53936E+00, tol = 0.76529E+01, time = 5.71 | CG iter. 47 -- res = 0.42343E+00, tol = 0.76529E+01, time = 5.62 | CG iter. 48 -- res = 0.34011E+00, tol = 0.76529E+01, time = 6.14 | CG iter. 49 -- res = 0.29606E+00, tol = 0.76529E+01, time = 5.97 | CG iter. 50 -- res = 0.25705E+00, tol = 0.76529E+01, time = 6.12 | Final CG iter 51 -- res = 0.25705E+00, tol = 0.76529E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11531535.968 | Old band monopole 9225506.647 | Change to band monopole 2306029.322 | Change to component monopole -2306019.403 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.08 | CG iter. 1 -- res = 0.10407E+05, tol = 0.47627E+18, time = 2.12 | CG iter. 2 -- res = 0.18957E+02, tol = 0.47627E+18, time = 2.17 | CG iter. 3 -- res = 0.69013E+00, tol = 0.47627E+18, time = 1.88 | CG iter. 4 -- res = 0.17890E-02, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.72835E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11531486.369 | (Sampled value in CG: 11551257.661 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.480729 | New value = 1.557046 | poltype: 2 pol: 1 CPU time specind = 2.3303032E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.549154 | New value = 1.557361 | poltype: 2 pol: 2 CPU time specind = 1.5524149E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.25276E+08, tol = 0.47646E+04, time = 6.98 | CG iter. 2 -- res = 0.54542E+07, tol = 0.47646E+04, time = 6.98 | CG iter. 3 -- res = 0.85058E+06, tol = 0.47646E+04, time = 6.66 | CG iter. 4 -- res = 0.35197E+06, tol = 0.47646E+04, time = 6.74 | CG iter. 5 -- res = 0.15396E+06, tol = 0.47646E+04, time = 6.86 | CG iter. 6 -- res = 0.81025E+05, tol = 0.47646E+04, time = 7.04 | CG iter. 7 -- res = 0.44617E+05, tol = 0.47646E+04, time = 7.01 | CG iter. 8 -- res = 0.21404E+05, tol = 0.47646E+04, time = 6.80 | CG iter. 9 -- res = 0.94189E+04, tol = 0.47646E+04, time = 6.38 | CG iter. 10 -- res = 0.38125E+04, tol = 0.47646E+04, time = 7.01 | CG iter. 11 -- res = 0.17192E+04, tol = 0.47646E+04, time = 6.83 | CG iter. 12 -- res = 0.89256E+03, tol = 0.47646E+04, time = 7.06 | CG iter. 13 -- res = 0.50891E+03, tol = 0.47646E+04, time = 6.76 | CG iter. 14 -- res = 0.28599E+03, tol = 0.47646E+04, time = 6.77 | CG iter. 15 -- res = 0.14338E+03, tol = 0.47646E+04, time = 6.37 | CG iter. 16 -- res = 0.67431E+02, tol = 0.47646E+04, time = 6.97 | CG iter. 17 -- res = 0.31914E+02, tol = 0.47646E+04, time = 12.17 | CG iter. 18 -- res = 0.15877E+02, tol = 0.47646E+04, time = 6.91 | CG iter. 19 -- res = 0.86463E+01, tol = 0.47646E+04, time = 6.73 | CG iter. 20 -- res = 0.49123E+01, tol = 0.47646E+04, time = 6.98 | CG iter. 21 -- res = 0.27226E+01, tol = 0.47646E+04, time = 7.08 | CG iter. 22 -- res = 0.13929E+01, tol = 0.47646E+04, time = 6.23 | CG iter. 23 -- res = 0.69503E+00, tol = 0.47646E+04, time = 6.99 | CG iter. 24 -- res = 0.35533E+00, tol = 0.47646E+04, time = 6.96 | CG iter. 25 -- res = 0.19195E+00, tol = 0.47646E+04, time = 6.73 | CG iter. 26 -- res = 0.10879E+00, tol = 0.47646E+04, time = 7.25 | CG iter. 27 -- res = 0.61578E-01, tol = 0.47646E+04, time = 6.73 | CG iter. 28 -- res = 0.33602E-01, tol = 0.47646E+04, time = 6.67 | CG iter. 29 -- res = 0.17738E-01, tol = 0.47646E+04, time = 8.21 | CG iter. 30 -- res = 0.93208E-02, tol = 0.47646E+04, time = 6.82 | CG iter. 31 -- res = 0.50037E-02, tol = 0.47646E+04, time = 6.83 | CG iter. 32 -- res = 0.27897E-02, tol = 0.47646E+04, time = 6.72 | CG iter. 33 -- res = 0.15709E-02, tol = 0.47646E+04, time = 7.47 | CG iter. 34 -- res = 0.84968E-03, tol = 0.47646E+04, time = 6.87 | CG iter. 35 -- res = 0.44151E-03, tol = 0.47646E+04, time = 6.74 | Final CG iter 36 -- res = 0.44151E-03, tol = 0.47646E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -3.776 2.732 | New value -1.588 | Old value -3.776 | Difference 2.189 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.25954E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.24439E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.73423E+00, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.13449E-02, tol = 0.47627E+18, time = 2.26 | Final CG iter 5 -- res = 0.72107E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11531486.369 | (Sampled value in CG: 11554086.152 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.712255 | New value = -3.551080 | poltype: 1 pol: 1 CPU time specind = 1.7111063E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.22157E+07, tol = 0.22213E+01, time = 2.80 | CG iter. 2 -- res = 0.79714E+06, tol = 0.22213E+01, time = 2.85 | CG iter. 3 -- res = 0.15137E+06, tol = 0.22213E+01, time = 3.23 | CG iter. 4 -- res = 0.60528E+05, tol = 0.22213E+01, time = 2.88 | CG iter. 5 -- res = 0.35531E+05, tol = 0.22213E+01, time = 2.51 | CG iter. 6 -- res = 0.18394E+05, tol = 0.22213E+01, time = 3.03 | CG iter. 7 -- res = 0.74260E+04, tol = 0.22213E+01, time = 2.93 | CG iter. 8 -- res = 0.35492E+04, tol = 0.22213E+01, time = 3.06 | CG iter. 9 -- res = 0.15244E+04, tol = 0.22213E+01, time = 2.74 | CG iter. 10 -- res = 0.58536E+03, tol = 0.22213E+01, time = 2.48 | CG iter. 11 -- res = 0.25023E+03, tol = 0.22213E+01, time = 2.78 | CG iter. 12 -- res = 0.11820E+03, tol = 0.22213E+01, time = 2.73 | CG iter. 13 -- res = 0.63473E+02, tol = 0.22213E+01, time = 2.85 | CG iter. 14 -- res = 0.31841E+02, tol = 0.22213E+01, time = 3.08 | CG iter. 15 -- res = 0.14905E+02, tol = 0.22213E+01, time = 2.92 | CG iter. 16 -- res = 0.66368E+01, tol = 0.22213E+01, time = 2.61 | CG iter. 17 -- res = 0.28254E+01, tol = 0.22213E+01, time = 3.14 | CG iter. 18 -- res = 0.12519E+01, tol = 0.22213E+01, time = 2.57 | CG iter. 19 -- res = 0.57816E+00, tol = 0.22213E+01, time = 2.54 | CG iter. 20 -- res = 0.30126E+00, tol = 0.22213E+01, time = 2.90 | CG iter. 21 -- res = 0.15467E+00, tol = 0.22213E+01, time = 2.83 | CG iter. 22 -- res = 0.73049E-01, tol = 0.22213E+01, time = 2.72 | CG iter. 23 -- res = 0.32838E-01, tol = 0.22213E+01, time = 2.69 | CG iter. 24 -- res = 0.15063E-01, tol = 0.22213E+01, time = 3.20 | CG iter. 25 -- res = 0.72857E-02, tol = 0.22213E+01, time = 2.86 | CG iter. 26 -- res = 0.37199E-02, tol = 0.22213E+01, time = 2.67 | CG iter. 27 -- res = 0.18865E-02, tol = 0.22213E+01, time = 2.88 | CG iter. 28 -- res = 0.92632E-03, tol = 0.22213E+01, time = 2.86 | CG iter. 29 -- res = 0.42425E-03, tol = 0.22213E+01, time = 2.89 | CG iter. 30 -- res = 0.19239E-03, tol = 0.22213E+01, time = 2.88 | CG iter. 31 -- res = 0.92850E-04, tol = 0.22213E+01, time = 2.80 | CG iter. 32 -- res = 0.47324E-04, tol = 0.22213E+01, time = 2.79 | CG iter. 33 -- res = 0.24055E-04, tol = 0.22213E+01, time = 2.63 | CG iter. 34 -- res = 0.11467E-04, tol = 0.22213E+01, time = 3.01 | CG iter. 35 -- res = 0.54655E-05, tol = 0.22213E+01, time = 3.00 | CG iter. 36 -- res = 0.26175E-05, tol = 0.22213E+01, time = 3.03 | CG iter. 37 -- res = 0.12393E-05, tol = 0.22213E+01, time = 2.60 | CG iter. 38 -- res = 0.62039E-06, tol = 0.22213E+01, time = 2.73 | CG iter. 39 -- res = 0.32113E-06, tol = 0.22213E+01, time = 2.71 | CG iter. 40 -- res = 0.15295E-06, tol = 0.22213E+01, time = 2.69 | CG iter. 41 -- res = 0.75522E-07, tol = 0.22213E+01, time = 2.91 | CG iter. 42 -- res = 0.35184E-07, tol = 0.22213E+01, time = 2.74 | CG iter. 43 -- res = 0.17019E-07, tol = 0.22213E+01, time = 2.46 | CG iter. 44 -- res = 0.82180E-08, tol = 0.22213E+01, time = 2.80 | CG iter. 45 -- res = 0.41400E-08, tol = 0.22213E+01, time = 2.93 | CG iter. 46 -- res = 0.20586E-08, tol = 0.22213E+01, time = 2.60 | CG iter. 47 -- res = 0.97995E-09, tol = 0.22213E+01, time = 2.82 | CG iter. 48 -- res = 0.46139E-09, tol = 0.22213E+01, time = 2.81 | CG iter. 49 -- res = 0.21703E-09, tol = 0.22213E+01, time = 2.77 | CG iter. 50 -- res = 0.98609E-10, tol = 0.22213E+01, time = 2.93 | Final CG iter 51 -- res = 0.98609E-10, tol = 0.22213E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.352 3.490 | New value -1.203 | Old value 13.352 | Difference -14.555 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.20565E+06, tol = 0.47627E+18, time = 2.15 | CG iter. 2 -- res = 0.98393E+02, tol = 0.47627E+18, time = 2.30 | CG iter. 3 -- res = 0.36912E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.22724E-02, tol = 0.47627E+18, time = 1.94 | Final CG iter 5 -- res = 0.58661E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11531486.369 | (Sampled value in CG: 11547767.685 ) | CPU time specind = 1216.206 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.98 | CG iter. 1 -- res = 0.71741E+08, tol = 0.57629E+04, time = 12.06 | CG iter. 2 -- res = 0.60221E+08, tol = 0.57629E+04, time = 13.42 | CG iter. 3 -- res = 0.15823E+08, tol = 0.57629E+04, time = 12.93 | CG iter. 4 -- res = 0.70031E+07, tol = 0.57629E+04, time = 12.30 | CG iter. 5 -- res = 0.42628E+07, tol = 0.57629E+04, time = 12.50 | CG iter. 6 -- res = 0.24536E+07, tol = 0.57629E+04, time = 12.06 | CG iter. 7 -- res = 0.14063E+07, tol = 0.57629E+04, time = 12.17 | CG iter. 8 -- res = 0.89073E+06, tol = 0.57629E+04, time = 12.21 | CG iter. 9 -- res = 0.56466E+06, tol = 0.57629E+04, time = 11.88 | CG iter. 10 -- res = 0.33960E+06, tol = 0.57629E+04, time = 12.46 | CG iter. 11 -- res = 0.18472E+06, tol = 0.57629E+04, time = 13.12 | CG iter. 12 -- res = 0.97083E+05, tol = 0.57629E+04, time = 12.40 | CG iter. 13 -- res = 0.52391E+05, tol = 0.57629E+04, time = 12.18 | CG iter. 14 -- res = 0.30012E+05, tol = 0.57629E+04, time = 12.54 | CG iter. 15 -- res = 0.19034E+05, tol = 0.57629E+04, time = 12.42 | CG iter. 16 -- res = 0.13071E+05, tol = 0.57629E+04, time = 12.40 | CG iter. 17 -- res = 0.94414E+04, tol = 0.57629E+04, time = 12.33 | CG iter. 18 -- res = 0.66173E+04, tol = 0.57629E+04, time = 12.22 | CG iter. 19 -- res = 0.46199E+04, tol = 0.57629E+04, time = 18.93 | CG iter. 20 -- res = 0.34197E+04, tol = 0.57629E+04, time = 12.27 | CG iter. 21 -- res = 0.25123E+04, tol = 0.57629E+04, time = 12.18 | CG iter. 22 -- res = 0.20631E+04, tol = 0.57629E+04, time = 12.11 | CG iter. 23 -- res = 0.19508E+04, tol = 0.57629E+04, time = 11.96 | CG iter. 24 -- res = 0.20296E+04, tol = 0.57629E+04, time = 12.78 | CG iter. 25 -- res = 0.21730E+04, tol = 0.57629E+04, time = 12.15 | CG iter. 26 -- res = 0.21775E+04, tol = 0.57629E+04, time = 13.87 | CG iter. 27 -- res = 0.19968E+04, tol = 0.57629E+04, time = 11.83 | CG iter. 28 -- res = 0.16934E+04, tol = 0.57629E+04, time = 12.45 | CG iter. 29 -- res = 0.14234E+04, tol = 0.57629E+04, time = 12.21 | CG iter. 30 -- res = 0.12523E+04, tol = 0.57629E+04, time = 12.42 | CG iter. 31 -- res = 0.10948E+04, tol = 0.57629E+04, time = 11.80 | CG iter. 32 -- res = 0.93106E+03, tol = 0.57629E+04, time = 12.26 | CG iter. 33 -- res = 0.75288E+03, tol = 0.57629E+04, time = 12.32 | CG iter. 34 -- res = 0.58673E+03, tol = 0.57629E+04, time = 12.45 | CG iter. 35 -- res = 0.45476E+03, tol = 0.57629E+04, time = 12.57 | CG iter. 36 -- res = 0.36203E+03, tol = 0.57629E+04, time = 12.33 | CG iter. 37 -- res = 0.31348E+03, tol = 0.57629E+04, time = 12.54 | CG iter. 38 -- res = 0.29968E+03, tol = 0.57629E+04, time = 12.31 | CG iter. 39 -- res = 0.28733E+03, tol = 0.57629E+04, time = 12.22 | CG iter. 40 -- res = 0.26800E+03, tol = 0.57629E+04, time = 11.92 | CG iter. 41 -- res = 0.23886E+03, tol = 0.57629E+04, time = 12.35 | CG iter. 42 -- res = 0.20524E+03, tol = 0.57629E+04, time = 11.80 | CG iter. 43 -- res = 0.17959E+03, tol = 0.57629E+04, time = 18.33 | CG iter. 44 -- res = 0.16310E+03, tol = 0.57629E+04, time = 11.72 | CG iter. 45 -- res = 0.15096E+03, tol = 0.57629E+04, time = 12.24 | CG iter. 46 -- res = 0.14168E+03, tol = 0.57629E+04, time = 12.54 | CG iter. 47 -- res = 0.12819E+03, tol = 0.57629E+04, time = 12.40 | CG iter. 48 -- res = 0.10880E+03, tol = 0.57629E+04, time = 12.17 | CG iter. 49 -- res = 0.90043E+02, tol = 0.57629E+04, time = 12.11 | CG iter. 50 -- res = 0.77813E+02, tol = 0.57629E+04, time = 14.04 | CG iter. 51 -- res = 0.70948E+02, tol = 0.57629E+04, time = 12.27 | CG iter. 52 -- res = 0.68414E+02, tol = 0.57629E+04, time = 11.93 | CG iter. 53 -- res = 0.66391E+02, tol = 0.57629E+04, time = 12.52 | CG iter. 54 -- res = 0.63505E+02, tol = 0.57629E+04, time = 12.03 | CG iter. 55 -- res = 0.59249E+02, tol = 0.57629E+04, time = 12.12 | CG iter. 56 -- res = 0.54694E+02, tol = 0.57629E+04, time = 12.13 | CG iter. 57 -- res = 0.50710E+02, tol = 0.57629E+04, time = 12.50 | CG iter. 58 -- res = 0.47603E+02, tol = 0.57629E+04, time = 12.12 | CG iter. 59 -- res = 0.46225E+02, tol = 0.57629E+04, time = 12.88 | CG iter. 60 -- res = 0.46139E+02, tol = 0.57629E+04, time = 12.06 | Final CG iter 61 -- res = 0.46139E+02, tol = 0.57629E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 1.077 ( -229.821 -2231.238 2513.888 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8179264.367 | Old band monopole 11531535.968 | Change to band monopole -3352271.601 | Change to component monopole 3352257.182 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.553 2.731 | New value -1.397 | Old value -1.553 | Difference 0.156 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.190 ( 7.192 14.227 -14.209 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.803 3.574 | New value 5.353 | Old value -1.803 | Difference 7.156 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.54 | CG iter. 1 -- res = 0.54241E+06, tol = 0.47627E+18, time = 1.87 | CG iter. 2 -- res = 0.23029E+03, tol = 0.47627E+18, time = 2.43 | CG iter. 3 -- res = 0.24100E+01, tol = 0.47627E+18, time = 2.15 | CG iter. 4 -- res = 0.33612E-02, tol = 0.47627E+18, time = 2.05 | Final CG iter 5 -- res = 0.29844E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8179229.187 | (Sampled value in CG: 8160337.763 ) | Chain = 1 -- chisq = 0.81476988E+09 | Chain = 1 -- wall time = 5749.964 sec Available RAM: MemAvailable: 376880392 kB Available Swap: SwapFree: 1114395288 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 426 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441604 | --> Sampling calibration, mode = relcal | relcal = 1.3419262E-02 7.4872171E-04 -1.5962481E-03 -1.2571735E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1400500 0.1547564 9406343.72056413 | BP delta = 0.1400500 0.1521127 9406362.57492263 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632692 | --> Sampling calibration, mode = relcal | relcal = -2.8224313E-03 -7.0319226E-04 1.6784390E-03 1.6146089E-03 -4.0777278E-04 6.4034847E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5500596 15221714.4251796 | BP delta = 0.0000000E+00 -0.5561991 15221713.5865439 | BP chisq diff = -0.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103124 | --> Sampling calibration, mode = relcal | relcal = 3.7086267E-02 1.3727246E-02 5.7553733E-03 -7.1689691E-03 8.2366262E-03 2.3862375E-03 -7.5994306E-03 -7.1799085E-03 -1.5303166E-02 -1.4799374E-02 -3.0513552E-03 -1.2089547E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.216598 132212196.625412 | BP delta = 0.0000000E+00 -1.179268 132212197.031331 | BP chisq diff = 0.0, accept = F | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.17755720736930 | --> Sampling calibration, mode = relcal | relcal = -7.5135700E-02 -5.8200054E-02 9.1699444E-02 4.1636311E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.2213145E-04 4.2874538E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2842E-05 | 2: delta_r/delta_0: 7.6399E-07 | 3: delta_s/delta_0: 2.4711E-07 | 4: delta_r/delta_0: 1.3766E-08 | 5: delta_s/delta_0: 8.5336E-09 | 6: delta_r/delta_0: 9.3607E-10 | 7: delta_s/delta_0: 3.1649E-10 | 8: delta_r/delta_0: 7.9241E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.762456152017024E-004 2.749053829604247E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2841E-05 | 2: delta_r/delta_0: 7.6399E-07 | 3: delta_s/delta_0: 2.4711E-07 | 4: delta_r/delta_0: 1.3769E-08 | 5: delta_s/delta_0: 8.5355E-09 | 6: delta_r/delta_0: 9.3617E-10 | 7: delta_s/delta_0: 3.1651E-10 | 8: delta_r/delta_0: 7.9247E-11 | Reached bicg-stab tolerance | BP delta = 6.1863452E-02 8.6511396E-02 3488898.94445552 | BP delta = 6.1863452E-02 8.6541854E-02 3487650.09001917 | BP chisq diff = -1248.9, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02620197 | --> Sampling calibration, mode = relcal | relcal = -0.1067107 -9.5519409E-02 0.1449861 5.7243977E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3336363E-03 1.6803419E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.2997E-04 | 2: delta_r/delta_0: 1.4764E-05 | 3: delta_s/delta_0: 1.7396E-07 | 4: delta_r/delta_0: 4.9740E-08 | 5: delta_s/delta_0: 5.1181E-08 | 6: delta_r/delta_0: 1.1195E-08 | 7: delta_s/delta_0: 5.9333E-09 | 8: delta_r/delta_0: 3.3405E-09 | 9: delta_s/delta_0: 1.5418E-09 | 10: delta_r/delta_0: 9.0356E-10 | 11: delta_s/delta_0: 5.5449E-10 | 12: delta_r/delta_0: 3.0000E-10 | 13: delta_s/delta_0: 1.5801E-10 | 14: delta_r/delta_0: 1.2189E-10 | 15: delta_s/delta_0: 9.4412E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.222411076676536E-002 2.810290682919917E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.3016E-04 | 2: delta_r/delta_0: 1.4769E-05 | 3: delta_s/delta_0: 1.7400E-07 | 4: delta_r/delta_0: 4.9778E-08 | 5: delta_s/delta_0: 5.1062E-08 | 6: delta_r/delta_0: 1.1200E-08 | 7: delta_s/delta_0: 5.9322E-09 | 8: delta_r/delta_0: 3.3419E-09 | 9: delta_s/delta_0: 1.5430E-09 | 10: delta_r/delta_0: 9.0379E-10 | 11: delta_s/delta_0: 5.5446E-10 | 12: delta_r/delta_0: 3.0009E-10 | 13: delta_s/delta_0: 1.5811E-10 | 14: delta_r/delta_0: 1.2199E-10 | 15: delta_s/delta_0: 9.5355E-11 | Reached bicg-stab tolerance | BP delta = -0.1930136 -0.1614980 2841526.65127045 | BP delta = -0.1930136 -0.1609250 2841658.62220499 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81267651 | --> Sampling calibration, mode = relcal | relcal = 0.2955421 0.2250310 -0.2838996 -0.2366734 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.3428573E-03 6.0239374E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.6802E-03 | 2: delta_r/delta_0: 3.8709E-05 | 3: delta_s/delta_0: 6.1425E-05 | 4: delta_r/delta_0: 5.0180E-06 | 5: delta_s/delta_0: 5.0164E-06 | 6: delta_r/delta_0: 8.8008E-07 | 7: delta_s/delta_0: 6.9109E-08 | 8: delta_r/delta_0: 3.7980E-08 | 9: delta_s/delta_0: 4.2869E-07 | 10: delta_r/delta_0: 4.3072E-09 | 11: delta_s/delta_0: 2.0432E-09 | 12: delta_r/delta_0: 5.1605E-10 | 13: delta_s/delta_0: 4.5000E-10 | 14: delta_r/delta_0: 5.4855E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.477019513187886E-002 4.019435631067971E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.6804E-03 | 2: delta_r/delta_0: 3.8715E-05 | 3: delta_s/delta_0: 6.1417E-05 | 4: delta_r/delta_0: 5.0174E-06 | 5: delta_s/delta_0: 5.0170E-06 | 6: delta_r/delta_0: 8.8020E-07 | 7: delta_s/delta_0: 6.9114E-08 | 8: delta_r/delta_0: 3.7981E-08 | 9: delta_s/delta_0: 4.2854E-07 | 10: delta_r/delta_0: 4.3082E-09 | 11: delta_s/delta_0: 2.0443E-09 | 12: delta_r/delta_0: 5.1609E-10 | 13: delta_s/delta_0: 4.4940E-10 | 14: delta_r/delta_0: 5.4858E-11 | Reached bicg-stab tolerance | BP delta = -7.6485500E-02 -9.9968843E-02 2827284.44528415 | BP delta = -7.6485500E-02 -9.7056821E-02 2827279.79205701 | BP chisq diff = -4.7, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95963765 | --> Sampling calibration, mode = relcal | relcal = 0.1064688 0.1398284 -0.1103632 -0.1359341 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0702523E-02 1.4655015E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.3295E-04 | 2: delta_r/delta_0: 1.0658E-05 | 3: delta_s/delta_0: 4.8304E-03 | 4: delta_r/delta_0: 2.1270E-04 | 5: delta_s/delta_0: 2.5562E-07 | 6: delta_r/delta_0: 1.2100E-07 | 7: delta_s/delta_0: 5.1743E-07 | 8: delta_r/delta_0: 3.2602E-08 | 9: delta_s/delta_0: 2.9493E-08 | 10: delta_r/delta_0: 2.5415E-09 | 11: delta_s/delta_0: 2.0131E-09 | 12: delta_r/delta_0: 1.0063E-09 | 13: delta_s/delta_0: 2.9425E-10 | 14: delta_r/delta_0: 7.4573E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.154385264323932E-002 3.695356215218563E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.3289E-04 | 2: delta_r/delta_0: 1.0657E-05 | 3: delta_s/delta_0: 4.8454E-03 | 4: delta_r/delta_0: 2.1351E-04 | 5: delta_s/delta_0: 2.5564E-07 | 6: delta_r/delta_0: 1.2105E-07 | 7: delta_s/delta_0: 5.1931E-07 | 8: delta_r/delta_0: 3.2602E-08 | 9: delta_s/delta_0: 2.9585E-08 | 10: delta_r/delta_0: 2.5579E-09 | 11: delta_s/delta_0: 2.0135E-09 | 12: delta_r/delta_0: 1.0056E-09 | 13: delta_s/delta_0: 2.9412E-10 | 14: delta_r/delta_0: 7.4527E-11 | Reached bicg-stab tolerance | BP delta = 0.1244765 0.2395512 3003870.12298262 | BP delta = 0.1244765 0.2343260 3003898.16541867 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52174810 | --> Sampling calibration, mode = relcal | relcal = -5.1129568E-02 -3.7350722E-03 2.7369585E-02 2.7495055E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.0741404E-03 2.5770781E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6106E-05 | 2: delta_r/delta_0: 4.6019E-06 | 3: delta_s/delta_0: 5.9839E-05 | 4: delta_r/delta_0: 5.2195E-06 | 5: delta_s/delta_0: 4.8140E-08 | 6: delta_r/delta_0: 3.0566E-08 | 7: delta_s/delta_0: 1.8701E-07 | 8: delta_r/delta_0: 7.5765E-09 | 9: delta_s/delta_0: 1.7225E-09 | 10: delta_r/delta_0: 1.2146E-09 | 11: delta_s/delta_0: 7.0111E-09 | 12: delta_r/delta_0: 1.8374E-09 | 13: delta_s/delta_0: 1.4116E-10 | 14: delta_r/delta_0: 6.6740E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.162530479021907E-002 5.481499421899662E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.6106E-05 | 2: delta_r/delta_0: 4.6020E-06 | 3: delta_s/delta_0: 5.9843E-05 | 4: delta_r/delta_0: 5.2198E-06 | 5: delta_s/delta_0: 4.8140E-08 | 6: delta_r/delta_0: 3.0566E-08 | 7: delta_s/delta_0: 1.8701E-07 | 8: delta_r/delta_0: 7.5765E-09 | 9: delta_s/delta_0: 1.7225E-09 | 10: delta_r/delta_0: 1.2146E-09 | 11: delta_s/delta_0: 6.9752E-09 | 12: delta_r/delta_0: 1.8328E-09 | 13: delta_s/delta_0: 1.3954E-10 | 14: delta_r/delta_0: 6.5375E-11 | Reached bicg-stab tolerance | BP delta = 9.4315268E-02 0.2090657 2435351.03715761 | BP delta = 9.4315268E-02 0.2004361 2435354.90858918 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42168125 | --> Sampling calibration, mode = relcal | relcal = 4.5570936E-02 3.9732598E-02 -2.8356673E-02 -5.6946859E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3017870E-03 4.1905018E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.5434E-05 | 2: delta_r/delta_0: 3.4640E-06 | 3: delta_s/delta_0: 2.0715E-06 | 4: delta_r/delta_0: 2.9542E-07 | 5: delta_s/delta_0: 6.2350E-08 | 6: delta_r/delta_0: 3.4477E-08 | 7: delta_s/delta_0: 2.0333E-07 | 8: delta_r/delta_0: 4.7855E-09 | 9: delta_s/delta_0: 2.6457E-09 | 10: delta_r/delta_0: 1.9132E-09 | 11: delta_s/delta_0: 6.8920E-09 | 12: delta_r/delta_0: 1.6929E-09 | 13: delta_s/delta_0: 5.2935E-10 | 14: delta_r/delta_0: 4.2009E-10 | 15: delta_s/delta_0: 9.2976E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.427354027358817E-002 4.994527348221654E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 6.5434E-05 | 2: delta_r/delta_0: 3.4640E-06 | 3: delta_s/delta_0: 2.0715E-06 | 4: delta_r/delta_0: 2.9541E-07 | 5: delta_s/delta_0: 6.2351E-08 | 6: delta_r/delta_0: 3.4478E-08 | 7: delta_s/delta_0: 2.0334E-07 | 8: delta_r/delta_0: 4.7852E-09 | 9: delta_s/delta_0: 2.6458E-09 | 10: delta_r/delta_0: 1.9135E-09 | 11: delta_s/delta_0: 6.9498E-09 | 12: delta_r/delta_0: 1.6984E-09 | 13: delta_s/delta_0: 5.3162E-10 | 14: delta_r/delta_0: 4.2177E-10 | 15: delta_s/delta_0: 9.3046E-11 | Reached bicg-stab tolerance | BP delta = -1.4200624E-02 -0.1479202 2321664.00258935 | BP delta = -1.4200624E-02 -0.1590581 2321679.82836354 | BP chisq diff = 0.0, accept = F | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28163065 | --> Sampling calibration, mode = relcal | relcal = 2.4180718E-02 4.5041531E-02 -2.3327481E-02 -4.5894768E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.1004013E-02 4.0721269E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0666E-04 | 2: delta_r/delta_0: 8.3160E-06 | 3: delta_s/delta_0: 1.1413E-06 | 4: delta_r/delta_0: 2.4805E-07 | 5: delta_s/delta_0: 5.1061E-08 | 6: delta_r/delta_0: 1.8176E-08 | 7: delta_s/delta_0: 7.5031E-09 | 8: delta_r/delta_0: 4.5621E-09 | 9: delta_s/delta_0: 4.2960E-08 | 10: delta_r/delta_0: 4.6928E-09 | 11: delta_s/delta_0: 9.3774E-10 | 12: delta_r/delta_0: 2.4464E-10 | 13: delta_s/delta_0: 3.7757E-10 | 14: delta_r/delta_0: 9.9658E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.852825136626275E-003 7.842708621955164E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0666E-04 | 2: delta_r/delta_0: 8.3160E-06 | 3: delta_s/delta_0: 1.1413E-06 | 4: delta_r/delta_0: 2.4805E-07 | 5: delta_s/delta_0: 5.1060E-08 | 6: delta_r/delta_0: 1.8177E-08 | 7: delta_s/delta_0: 7.5031E-09 | 8: delta_r/delta_0: 4.5621E-09 | 9: delta_s/delta_0: 4.2963E-08 | 10: delta_r/delta_0: 4.6928E-09 | 11: delta_s/delta_0: 9.3785E-10 | 12: delta_r/delta_0: 2.4475E-10 | 13: delta_s/delta_0: 3.7760E-10 | 14: delta_r/delta_0: 9.9685E-11 | Reached bicg-stab tolerance | BP delta = -0.5125559 -0.7404029 2490360.68932142 | BP delta = -0.5125559 -0.7346677 2490363.90488283 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29395696 | --> Sampling calibration, mode = relcal | relcal = 4.7033111E-04 1.0229209E-02 -3.8516354E-03 -6.8479050E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.5504398E-02 1.4890686E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3261E-04 | 2: delta_r/delta_0: 1.0603E-05 | 3: delta_s/delta_0: 1.4684E-06 | 4: delta_r/delta_0: 4.2342E-07 | 5: delta_s/delta_0: 1.3751E-07 | 6: delta_r/delta_0: 2.8769E-08 | 7: delta_s/delta_0: 2.0180E-08 | 8: delta_r/delta_0: 5.2052E-09 | 9: delta_s/delta_0: 7.5104E-09 | 10: delta_r/delta_0: 2.5528E-09 | 11: delta_s/delta_0: 1.4543E-08 | 12: delta_r/delta_0: 6.0697E-09 | 13: delta_s/delta_0: 1.9730E-09 | 14: delta_r/delta_0: 5.3263E-10 | 15: delta_s/delta_0: 1.0000E-10 | 16: delta_r/delta_0: 8.1083E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.149522150664114E-002 8.305600161092621E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3261E-04 | 2: delta_r/delta_0: 1.0603E-05 | 3: delta_s/delta_0: 1.4684E-06 | 4: delta_r/delta_0: 4.2342E-07 | 5: delta_s/delta_0: 1.3752E-07 | 6: delta_r/delta_0: 2.8769E-08 | 7: delta_s/delta_0: 2.0180E-08 | 8: delta_r/delta_0: 5.2052E-09 | 9: delta_s/delta_0: 7.5105E-09 | 10: delta_r/delta_0: 2.5528E-09 | 11: delta_s/delta_0: 1.4540E-08 | 12: delta_r/delta_0: 6.0685E-09 | 13: delta_s/delta_0: 1.9731E-09 | 14: delta_r/delta_0: 5.3259E-10 | 15: delta_s/delta_0: 1.0000E-10 | 16: delta_r/delta_0: 8.1083E-11 | Reached bicg-stab tolerance | BP delta = -0.9400143 -0.9024422 2737947.89713982 | BP delta = -0.9400143 -0.8924227 2737949.17835182 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26501036 | --> Sampling calibration, mode = relcal | relcal = -5.5759200E-03 1.5001817E-02 -2.3952767E-03 -7.0306198E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -1.5293560E-03 2.2255324E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4177E-04 | 2: delta_r/delta_0: 1.2138E-05 | 3: delta_s/delta_0: 2.0240E-06 | 4: delta_r/delta_0: 2.4737E-07 | 5: delta_s/delta_0: 1.0441E-07 | 6: delta_r/delta_0: 2.1764E-08 | 7: delta_s/delta_0: 9.1714E-09 | 8: delta_r/delta_0: 6.0869E-09 | 9: delta_s/delta_0: 5.4100E-09 | 10: delta_r/delta_0: 3.9658E-09 | 11: delta_s/delta_0: 2.9451E-06 | 12: delta_r/delta_0: 6.8528E-08 | 13: delta_s/delta_0: 1.2194E-09 | 14: delta_r/delta_0: 5.8386E-10 | 15: delta_s/delta_0: 5.5461E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -9.945804450423040E-003 9.155522624386113E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4177E-04 | 2: delta_r/delta_0: 1.2139E-05 | 3: delta_s/delta_0: 2.0240E-06 | 4: delta_r/delta_0: 2.4738E-07 | 5: delta_s/delta_0: 1.0440E-07 | 6: delta_r/delta_0: 2.1764E-08 | 7: delta_s/delta_0: 9.1716E-09 | 8: delta_r/delta_0: 6.0870E-09 | 9: delta_s/delta_0: 5.4101E-09 | 10: delta_r/delta_0: 3.9658E-09 | 11: delta_s/delta_0: 2.9457E-06 | 12: delta_r/delta_0: 6.8547E-08 | 13: delta_s/delta_0: 1.2194E-09 | 14: delta_r/delta_0: 5.8386E-10 | 15: delta_s/delta_0: 5.5463E-11 | Reached bicg-stab tolerance | BP delta = 0.4557104 0.5109684 2516743.43279070 | BP delta = 0.4557104 0.5061736 2516743.70628851 | BP chisq diff = 0.3, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25657893 | --> Sampling calibration, mode = relcal | relcal = -3.1753685E-02 -2.5967561E-02 3.7012771E-02 2.0708475E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.4123540E-02 1.9983700E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4360E-04 | 2: delta_r/delta_0: 1.2183E-05 | 3: delta_s/delta_0: 1.8515E-06 | 4: delta_r/delta_0: 3.9210E-07 | 5: delta_s/delta_0: 1.9560E-07 | 6: delta_r/delta_0: 2.5706E-08 | 7: delta_s/delta_0: 1.0992E-08 | 8: delta_r/delta_0: 6.2724E-09 | 9: delta_s/delta_0: 1.1542E-08 | 10: delta_r/delta_0: 4.0257E-09 | 11: delta_s/delta_0: 5.2729E-09 | 12: delta_r/delta_0: 4.4384E-10 | 13: delta_s/delta_0: 1.7818E-09 | 14: delta_r/delta_0: 5.8002E-10 | 15: delta_s/delta_0: 1.2494E-10 | 16: delta_r/delta_0: 1.0313E-10 | 17: delta_s/delta_0: 9.3272E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.066815029662057E-002 8.674387442883683E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4360E-04 | 2: delta_r/delta_0: 1.2183E-05 | 3: delta_s/delta_0: 1.8515E-06 | 4: delta_r/delta_0: 3.9213E-07 | 5: delta_s/delta_0: 1.9562E-07 | 6: delta_r/delta_0: 2.5707E-08 | 7: delta_s/delta_0: 1.0992E-08 | 8: delta_r/delta_0: 6.2723E-09 | 9: delta_s/delta_0: 1.1543E-08 | 10: delta_r/delta_0: 4.0256E-09 | 11: delta_s/delta_0: 5.2703E-09 | 12: delta_r/delta_0: 4.4358E-10 | 13: delta_s/delta_0: 1.7816E-09 | 14: delta_r/delta_0: 5.7997E-10 | 15: delta_s/delta_0: 1.2494E-10 | 16: delta_r/delta_0: 1.0313E-10 | 17: delta_s/delta_0: 9.3272E-11 | Reached bicg-stab tolerance | BP delta = -0.8755912 -1.079016 2705887.13006005 | BP delta = -0.8755912 -1.079680 2705898.17883528 | BP chisq diff = 0.0, accept = F | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.156016 | New value = -3.166654 | poltype: 2 pol: 1 CPU time specind = 2.8508902E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.123681 | New value = -3.241263 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.087608 | New value = -3.136480 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160216 | New value = -3.160396 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.195541 | New value = -3.079687 | poltype: 2 pol: 2 CPU time specind = 1.5856981E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 25.51 | CG iter. 1 -- res = 0.13547E+08, tol = 0.85228E+01, time = 5.76 | CG iter. 2 -- res = 0.35797E+06, tol = 0.85228E+01, time = 5.31 | CG iter. 3 -- res = 0.47284E+05, tol = 0.85228E+01, time = 5.62 | CG iter. 4 -- res = 0.19155E+05, tol = 0.85228E+01, time = 5.63 | CG iter. 5 -- res = 0.88052E+04, tol = 0.85228E+01, time = 5.72 | CG iter. 6 -- res = 0.41579E+04, tol = 0.85228E+01, time = 5.60 | CG iter. 7 -- res = 0.24834E+04, tol = 0.85228E+01, time = 5.50 | CG iter. 8 -- res = 0.14860E+04, tol = 0.85228E+01, time = 5.65 | CG iter. 9 -- res = 0.10414E+04, tol = 0.85228E+01, time = 5.42 | CG iter. 10 -- res = 0.94870E+03, tol = 0.85228E+01, time = 5.57 | CG iter. 11 -- res = 0.93090E+03, tol = 0.85228E+01, time = 5.43 | CG iter. 12 -- res = 0.78330E+03, tol = 0.85228E+01, time = 5.16 | CG iter. 13 -- res = 0.57620E+03, tol = 0.85228E+01, time = 5.67 | CG iter. 14 -- res = 0.44088E+03, tol = 0.85228E+01, time = 5.51 | CG iter. 15 -- res = 0.35150E+03, tol = 0.85228E+01, time = 5.44 | CG iter. 16 -- res = 0.30510E+03, tol = 0.85228E+01, time = 5.48 | CG iter. 17 -- res = 0.22948E+03, tol = 0.85228E+01, time = 5.93 | CG iter. 18 -- res = 0.17279E+03, tol = 0.85228E+01, time = 5.41 | CG iter. 19 -- res = 0.14326E+03, tol = 0.85228E+01, time = 11.82 | CG iter. 20 -- res = 0.12701E+03, tol = 0.85228E+01, time = 5.52 | CG iter. 21 -- res = 0.96245E+02, tol = 0.85228E+01, time = 5.57 | CG iter. 22 -- res = 0.68958E+02, tol = 0.85228E+01, time = 5.54 | CG iter. 23 -- res = 0.52143E+02, tol = 0.85228E+01, time = 5.68 | CG iter. 24 -- res = 0.43717E+02, tol = 0.85228E+01, time = 5.80 | CG iter. 25 -- res = 0.36757E+02, tol = 0.85228E+01, time = 5.46 | CG iter. 26 -- res = 0.27749E+02, tol = 0.85228E+01, time = 5.54 | CG iter. 27 -- res = 0.21140E+02, tol = 0.85228E+01, time = 5.34 | CG iter. 28 -- res = 0.17321E+02, tol = 0.85228E+01, time = 5.77 | CG iter. 29 -- res = 0.14095E+02, tol = 0.85228E+01, time = 5.90 | CG iter. 30 -- res = 0.10909E+02, tol = 0.85228E+01, time = 5.66 | CG iter. 31 -- res = 0.83758E+01, tol = 0.85228E+01, time = 5.36 | CG iter. 32 -- res = 0.69942E+01, tol = 0.85228E+01, time = 5.12 | CG iter. 33 -- res = 0.60008E+01, tol = 0.85228E+01, time = 5.48 | CG iter. 34 -- res = 0.48147E+01, tol = 0.85228E+01, time = 6.66 | CG iter. 35 -- res = 0.36208E+01, tol = 0.85228E+01, time = 6.01 | CG iter. 36 -- res = 0.29302E+01, tol = 0.85228E+01, time = 5.89 | CG iter. 37 -- res = 0.25244E+01, tol = 0.85228E+01, time = 5.63 | CG iter. 38 -- res = 0.21271E+01, tol = 0.85228E+01, time = 5.53 | CG iter. 39 -- res = 0.16145E+01, tol = 0.85228E+01, time = 5.34 | CG iter. 40 -- res = 0.13125E+01, tol = 0.85228E+01, time = 5.97 | CG iter. 41 -- res = 0.10998E+01, tol = 0.85228E+01, time = 5.66 | CG iter. 42 -- res = 0.91183E+00, tol = 0.85228E+01, time = 5.45 | CG iter. 43 -- res = 0.74982E+00, tol = 0.85228E+01, time = 6.00 | CG iter. 44 -- res = 0.60061E+00, tol = 0.85228E+01, time = 5.32 | CG iter. 45 -- res = 0.49763E+00, tol = 0.85228E+01, time = 5.58 | CG iter. 46 -- res = 0.45173E+00, tol = 0.85228E+01, time = 5.24 | CG iter. 47 -- res = 0.37857E+00, tol = 0.85228E+01, time = 5.54 | CG iter. 48 -- res = 0.30925E+00, tol = 0.85228E+01, time = 5.39 | CG iter. 49 -- res = 0.25376E+00, tol = 0.85228E+01, time = 6.05 | CG iter. 50 -- res = 0.22506E+00, tol = 0.85228E+01, time = 5.19 | Final CG iter 51 -- res = 0.22506E+00, tol = 0.85228E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9233155.527 | Old band monopole 8179264.367 | Change to band monopole 1053891.159 | Change to component monopole -1053886.626 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.90 | CG iter. 1 -- res = 0.43060E+05, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.35350E+02, tol = 0.47627E+18, time = 1.96 | CG iter. 3 -- res = 0.15999E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.82455E-03, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.32908E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9233115.813 | (Sampled value in CG: 9223337.032 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.557046 | New value = 1.473367 | poltype: 2 pol: 1 CPU time specind = 2.4847984E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.557361 | New value = 1.477562 | poltype: 2 pol: 2 CPU time specind = 2.1353960E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.25472E+08, tol = 0.47479E+04, time = 12.49 | CG iter. 2 -- res = 0.53383E+07, tol = 0.47479E+04, time = 6.45 | CG iter. 3 -- res = 0.82572E+06, tol = 0.47479E+04, time = 6.43 | CG iter. 4 -- res = 0.34301E+06, tol = 0.47479E+04, time = 6.46 | CG iter. 5 -- res = 0.14874E+06, tol = 0.47479E+04, time = 6.67 | CG iter. 6 -- res = 0.78760E+05, tol = 0.47479E+04, time = 6.62 | CG iter. 7 -- res = 0.44079E+05, tol = 0.47479E+04, time = 6.52 | CG iter. 8 -- res = 0.21176E+05, tol = 0.47479E+04, time = 6.73 | CG iter. 9 -- res = 0.91699E+04, tol = 0.47479E+04, time = 6.25 | CG iter. 10 -- res = 0.36726E+04, tol = 0.47479E+04, time = 6.60 | CG iter. 11 -- res = 0.16424E+04, tol = 0.47479E+04, time = 6.48 | CG iter. 12 -- res = 0.84061E+03, tol = 0.47479E+04, time = 6.11 | CG iter. 13 -- res = 0.47248E+03, tol = 0.47479E+04, time = 6.25 | CG iter. 14 -- res = 0.26598E+03, tol = 0.47479E+04, time = 7.20 | CG iter. 15 -- res = 0.13900E+03, tol = 0.47479E+04, time = 7.39 | CG iter. 16 -- res = 0.67130E+02, tol = 0.47479E+04, time = 6.96 | CG iter. 17 -- res = 0.32036E+02, tol = 0.47479E+04, time = 6.67 | CG iter. 18 -- res = 0.15948E+02, tol = 0.47479E+04, time = 6.62 | CG iter. 19 -- res = 0.86628E+01, tol = 0.47479E+04, time = 6.07 | CG iter. 20 -- res = 0.48869E+01, tol = 0.47479E+04, time = 6.37 | CG iter. 21 -- res = 0.25916E+01, tol = 0.47479E+04, time = 6.58 | CG iter. 22 -- res = 0.13538E+01, tol = 0.47479E+04, time = 6.32 | CG iter. 23 -- res = 0.68298E+00, tol = 0.47479E+04, time = 6.67 | CG iter. 24 -- res = 0.35348E+00, tol = 0.47479E+04, time = 6.47 | CG iter. 25 -- res = 0.19709E+00, tol = 0.47479E+04, time = 6.35 | CG iter. 26 -- res = 0.11186E+00, tol = 0.47479E+04, time = 6.86 | CG iter. 27 -- res = 0.62350E-01, tol = 0.47479E+04, time = 6.32 | CG iter. 28 -- res = 0.33201E-01, tol = 0.47479E+04, time = 5.98 | CG iter. 29 -- res = 0.17082E-01, tol = 0.47479E+04, time = 6.24 | CG iter. 30 -- res = 0.89310E-02, tol = 0.47479E+04, time = 6.48 | CG iter. 31 -- res = 0.49175E-02, tol = 0.47479E+04, time = 6.36 | CG iter. 32 -- res = 0.28088E-02, tol = 0.47479E+04, time = 6.18 | CG iter. 33 -- res = 0.15931E-02, tol = 0.47479E+04, time = 6.63 | CG iter. 34 -- res = 0.87130E-03, tol = 0.47479E+04, time = 6.61 | CG iter. 35 -- res = 0.46468E-03, tol = 0.47479E+04, time = 6.17 | Final CG iter 36 -- res = 0.46468E-03, tol = 0.47479E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.403 2.756 | New value -1.678 | Old value -1.403 | Difference -0.275 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.17824E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.17622E+02, tol = 0.47627E+18, time = 2.00 | CG iter. 3 -- res = 0.31402E+00, tol = 0.47627E+18, time = 1.86 | CG iter. 4 -- res = 0.55072E-03, tol = 0.47627E+18, time = 1.85 | Final CG iter 5 -- res = 0.90787E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9233115.813 | (Sampled value in CG: 9222335.727 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.551080 | New value = -3.631987 | poltype: 1 pol: 1 CPU time specind = 4.0795088E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.20946E+07, tol = 0.32053E+01, time = 2.83 | CG iter. 2 -- res = 0.65537E+06, tol = 0.32053E+01, time = 2.48 | CG iter. 3 -- res = 0.12162E+06, tol = 0.32053E+01, time = 2.68 | CG iter. 4 -- res = 0.49920E+05, tol = 0.32053E+01, time = 2.46 | CG iter. 5 -- res = 0.30663E+05, tol = 0.32053E+01, time = 2.67 | CG iter. 6 -- res = 0.15847E+05, tol = 0.32053E+01, time = 2.52 | CG iter. 7 -- res = 0.63965E+04, tol = 0.32053E+01, time = 2.79 | CG iter. 8 -- res = 0.28591E+04, tol = 0.32053E+01, time = 2.76 | CG iter. 9 -- res = 0.12113E+04, tol = 0.32053E+01, time = 2.25 | CG iter. 10 -- res = 0.49400E+03, tol = 0.32053E+01, time = 2.66 | CG iter. 11 -- res = 0.20570E+03, tol = 0.32053E+01, time = 2.53 | CG iter. 12 -- res = 0.10303E+03, tol = 0.32053E+01, time = 2.68 | CG iter. 13 -- res = 0.54302E+02, tol = 0.32053E+01, time = 2.71 | CG iter. 14 -- res = 0.25789E+02, tol = 0.32053E+01, time = 2.76 | CG iter. 15 -- res = 0.10920E+02, tol = 0.32053E+01, time = 2.66 | CG iter. 16 -- res = 0.48625E+01, tol = 0.32053E+01, time = 2.62 | CG iter. 17 -- res = 0.21441E+01, tol = 0.32053E+01, time = 2.80 | CG iter. 18 -- res = 0.10173E+01, tol = 0.32053E+01, time = 2.48 | CG iter. 19 -- res = 0.49950E+00, tol = 0.32053E+01, time = 2.78 | CG iter. 20 -- res = 0.25660E+00, tol = 0.32053E+01, time = 2.59 | CG iter. 21 -- res = 0.12645E+00, tol = 0.32053E+01, time = 2.44 | CG iter. 22 -- res = 0.58841E-01, tol = 0.32053E+01, time = 2.46 | CG iter. 23 -- res = 0.25923E-01, tol = 0.32053E+01, time = 2.57 | CG iter. 24 -- res = 0.11932E-01, tol = 0.32053E+01, time = 2.68 | CG iter. 25 -- res = 0.61798E-02, tol = 0.32053E+01, time = 2.44 | CG iter. 26 -- res = 0.31906E-02, tol = 0.32053E+01, time = 2.44 | CG iter. 27 -- res = 0.15357E-02, tol = 0.32053E+01, time = 2.73 | CG iter. 28 -- res = 0.72564E-03, tol = 0.32053E+01, time = 2.34 | CG iter. 29 -- res = 0.33155E-03, tol = 0.32053E+01, time = 2.58 | CG iter. 30 -- res = 0.15747E-03, tol = 0.32053E+01, time = 2.79 | CG iter. 31 -- res = 0.77497E-04, tol = 0.32053E+01, time = 2.35 | CG iter. 32 -- res = 0.39089E-04, tol = 0.32053E+01, time = 2.62 | CG iter. 33 -- res = 0.19087E-04, tol = 0.32053E+01, time = 6.78 | CG iter. 34 -- res = 0.88176E-05, tol = 0.32053E+01, time = 4.77 | CG iter. 35 -- res = 0.40088E-05, tol = 0.32053E+01, time = 2.61 | CG iter. 36 -- res = 0.19526E-05, tol = 0.32053E+01, time = 2.64 | CG iter. 37 -- res = 0.95015E-06, tol = 0.32053E+01, time = 2.47 | CG iter. 38 -- res = 0.48467E-06, tol = 0.32053E+01, time = 2.64 | CG iter. 39 -- res = 0.23858E-06, tol = 0.32053E+01, time = 2.69 | CG iter. 40 -- res = 0.11041E-06, tol = 0.32053E+01, time = 2.86 | CG iter. 41 -- res = 0.51070E-07, tol = 0.32053E+01, time = 2.79 | CG iter. 42 -- res = 0.24329E-07, tol = 0.32053E+01, time = 2.65 | CG iter. 43 -- res = 0.11461E-07, tol = 0.32053E+01, time = 2.52 | CG iter. 44 -- res = 0.56240E-08, tol = 0.32053E+01, time = 2.76 | CG iter. 45 -- res = 0.26802E-08, tol = 0.32053E+01, time = 2.40 | CG iter. 46 -- res = 0.12699E-08, tol = 0.32053E+01, time = 2.69 | CG iter. 47 -- res = 0.59028E-09, tol = 0.32053E+01, time = 2.57 | CG iter. 48 -- res = 0.27920E-09, tol = 0.32053E+01, time = 2.59 | CG iter. 49 -- res = 0.13328E-09, tol = 0.32053E+01, time = 2.70 | CG iter. 50 -- res = 0.64740E-10, tol = 0.32053E+01, time = 2.68 | Final CG iter 51 -- res = 0.64740E-10, tol = 0.32053E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.089 3.837 | New value -3.086 | Old value 5.089 | Difference -8.175 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.96 | CG iter. 1 -- res = 0.63193E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.43191E+02, tol = 0.47627E+18, time = 1.88 | CG iter. 3 -- res = 0.20791E+01, tol = 0.47627E+18, time = 2.59 | CG iter. 4 -- res = 0.54945E-03, tol = 0.47627E+18, time = 2.80 | Final CG iter 5 -- res = 0.24874E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9233115.813 | (Sampled value in CG: 9225278.425 ) | CPU time specind = 1164.312 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.94 | CG iter. 1 -- res = 0.72429E+08, tol = 0.57673E+04, time = 12.19 | CG iter. 2 -- res = 0.60062E+08, tol = 0.57673E+04, time = 11.76 | CG iter. 3 -- res = 0.15820E+08, tol = 0.57673E+04, time = 11.87 | CG iter. 4 -- res = 0.70973E+07, tol = 0.57673E+04, time = 11.62 | CG iter. 5 -- res = 0.42713E+07, tol = 0.57673E+04, time = 11.51 | CG iter. 6 -- res = 0.24274E+07, tol = 0.57673E+04, time = 11.22 | CG iter. 7 -- res = 0.13930E+07, tol = 0.57673E+04, time = 11.16 | CG iter. 8 -- res = 0.90704E+06, tol = 0.57673E+04, time = 11.36 | CG iter. 9 -- res = 0.57705E+06, tol = 0.57673E+04, time = 11.94 | CG iter. 10 -- res = 0.34092E+06, tol = 0.57673E+04, time = 11.60 | CG iter. 11 -- res = 0.18599E+06, tol = 0.57673E+04, time = 11.49 | CG iter. 12 -- res = 0.10044E+06, tol = 0.57673E+04, time = 11.90 | CG iter. 13 -- res = 0.54906E+05, tol = 0.57673E+04, time = 11.09 | CG iter. 14 -- res = 0.31835E+05, tol = 0.57673E+04, time = 13.39 | CG iter. 15 -- res = 0.19991E+05, tol = 0.57673E+04, time = 16.86 | CG iter. 16 -- res = 0.13709E+05, tol = 0.57673E+04, time = 11.70 | CG iter. 17 -- res = 0.98191E+04, tol = 0.57673E+04, time = 11.66 | CG iter. 18 -- res = 0.70166E+04, tol = 0.57673E+04, time = 11.44 | CG iter. 19 -- res = 0.49169E+04, tol = 0.57673E+04, time = 11.52 | CG iter. 20 -- res = 0.35340E+04, tol = 0.57673E+04, time = 11.57 | CG iter. 21 -- res = 0.25655E+04, tol = 0.57673E+04, time = 11.53 | CG iter. 22 -- res = 0.21280E+04, tol = 0.57673E+04, time = 13.00 | CG iter. 23 -- res = 0.20624E+04, tol = 0.57673E+04, time = 11.22 | CG iter. 24 -- res = 0.22225E+04, tol = 0.57673E+04, time = 11.73 | CG iter. 25 -- res = 0.24172E+04, tol = 0.57673E+04, time = 11.31 | CG iter. 26 -- res = 0.24851E+04, tol = 0.57673E+04, time = 11.64 | CG iter. 27 -- res = 0.23245E+04, tol = 0.57673E+04, time = 11.44 | CG iter. 28 -- res = 0.19691E+04, tol = 0.57673E+04, time = 11.30 | CG iter. 29 -- res = 0.16874E+04, tol = 0.57673E+04, time = 11.68 | CG iter. 30 -- res = 0.14930E+04, tol = 0.57673E+04, time = 11.63 | CG iter. 31 -- res = 0.13259E+04, tol = 0.57673E+04, time = 12.40 | CG iter. 32 -- res = 0.11474E+04, tol = 0.57673E+04, time = 11.70 | CG iter. 33 -- res = 0.92940E+03, tol = 0.57673E+04, time = 11.24 | CG iter. 34 -- res = 0.71083E+03, tol = 0.57673E+04, time = 11.45 | CG iter. 35 -- res = 0.54742E+03, tol = 0.57673E+04, time = 11.81 | CG iter. 36 -- res = 0.43677E+03, tol = 0.57673E+04, time = 11.68 | CG iter. 37 -- res = 0.38234E+03, tol = 0.57673E+04, time = 11.07 | CG iter. 38 -- res = 0.36129E+03, tol = 0.57673E+04, time = 11.72 | CG iter. 39 -- res = 0.33447E+03, tol = 0.57673E+04, time = 11.69 | CG iter. 40 -- res = 0.31058E+03, tol = 0.57673E+04, time = 17.66 | CG iter. 41 -- res = 0.27526E+03, tol = 0.57673E+04, time = 11.12 | CG iter. 42 -- res = 0.24190E+03, tol = 0.57673E+04, time = 11.40 | CG iter. 43 -- res = 0.21356E+03, tol = 0.57673E+04, time = 11.91 | CG iter. 44 -- res = 0.19211E+03, tol = 0.57673E+04, time = 11.46 | CG iter. 45 -- res = 0.17561E+03, tol = 0.57673E+04, time = 11.52 | CG iter. 46 -- res = 0.15815E+03, tol = 0.57673E+04, time = 11.72 | CG iter. 47 -- res = 0.13866E+03, tol = 0.57673E+04, time = 12.92 | CG iter. 48 -- res = 0.11577E+03, tol = 0.57673E+04, time = 12.13 | CG iter. 49 -- res = 0.92667E+02, tol = 0.57673E+04, time = 12.09 | CG iter. 50 -- res = 0.76637E+02, tol = 0.57673E+04, time = 11.68 | CG iter. 51 -- res = 0.68999E+02, tol = 0.57673E+04, time = 11.27 | CG iter. 52 -- res = 0.63945E+02, tol = 0.57673E+04, time = 11.71 | CG iter. 53 -- res = 0.60763E+02, tol = 0.57673E+04, time = 11.34 | CG iter. 54 -- res = 0.56708E+02, tol = 0.57673E+04, time = 11.36 | CG iter. 55 -- res = 0.51592E+02, tol = 0.57673E+04, time = 11.35 | CG iter. 56 -- res = 0.45785E+02, tol = 0.57673E+04, time = 11.48 | CG iter. 57 -- res = 0.40938E+02, tol = 0.57673E+04, time = 11.24 | CG iter. 58 -- res = 0.37732E+02, tol = 0.57673E+04, time = 11.66 | CG iter. 59 -- res = 0.36289E+02, tol = 0.57673E+04, time = 11.36 | CG iter. 60 -- res = 0.35610E+02, tol = 0.57673E+04, time = 11.66 | Final CG iter 61 -- res = 0.35610E+02, tol = 0.57673E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.694 ( -229.890 -2231.441 2513.962 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10115313.906 | Old band monopole 9233155.527 | Change to band monopole 882158.380 | Change to component monopole -882154.585 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.700 2.739 | New value 2.557 | Old value -1.700 | Difference 4.257 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.655 ( 7.795 14.227 -13.825 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 5.803 4.083 | New value -4.515 | Old value 5.803 | Difference -10.319 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.93 | CG iter. 1 -- res = 0.98132E+06, tol = 0.47627E+18, time = 1.81 | CG iter. 2 -- res = 0.42173E+02, tol = 0.47627E+18, time = 1.86 | CG iter. 3 -- res = 0.17933E+01, tol = 0.47627E+18, time = 2.09 | CG iter. 4 -- res = 0.66246E-02, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.55213E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10115270.398 | (Sampled value in CG: 10086004.554 ) | Chain = 1 -- chisq = 0.81538267E+09 | Chain = 1 -- wall time = 17728.283 sec Available RAM: MemAvailable: 490879448 kB Available Swap: SwapFree: 1055087540 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 427 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06441110 | --> Sampling calibration, mode = relcal | relcal = 1.3420136E-02 7.4668811E-04 -1.5851491E-03 -1.2581674E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1400500 0.1547564 97037329.0436492 | BP delta = 0.1347623 0.1494687 97037331.0573224 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632721 | --> Sampling calibration, mode = relcal | relcal = -2.8223549E-03 -7.0403924E-04 1.6803837E-03 1.6151719E-03 -4.0803454E-04 6.3887308E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5561991 15217723.0696005 | BP delta = 0.0000000E+00 -0.5418829 15217725.9345535 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18214404772688 | --> Sampling calibration, mode = relcal | relcal = -7.6188900E-02 -5.9217975E-02 9.2978522E-02 4.2428348E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.7280327E-04 6.1125164E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0359E-05 | 2: delta_r/delta_0: 1.4887E-06 | 3: delta_s/delta_0: 1.9833E-07 | 4: delta_r/delta_0: 3.0245E-08 | 5: delta_s/delta_0: 8.9319E-09 | 6: delta_r/delta_0: 3.1049E-09 | 7: delta_s/delta_0: 7.8059E-10 | 8: delta_r/delta_0: 2.4199E-10 | 9: delta_s/delta_0: 1.8919E-10 | 10: delta_r/delta_0: 8.3139E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.228411131186107E-003 2.738263063466318E-005 | BP delta = 6.1863452E-02 8.6541854E-02 50482774.6198430 | BP delta = 6.9314450E-02 9.3992852E-02 50482764.8025341 | BP chisq diff = -9.8, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02626376 | --> Sampling calibration, mode = relcal | relcal = -0.1067290 -9.5655933E-02 0.1449972 5.7387695E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1413722E-03 1.4822941E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8231E-04 | 2: delta_r/delta_0: 3.8371E-06 | 3: delta_s/delta_0: 1.8776E-07 | 4: delta_r/delta_0: 4.8190E-08 | 5: delta_s/delta_0: 5.1384E-08 | 6: delta_r/delta_0: 8.7578E-09 | 7: delta_s/delta_0: 8.3526E-09 | 8: delta_r/delta_0: 2.0454E-09 | 9: delta_s/delta_0: 8.8459E-10 | 10: delta_r/delta_0: 6.3943E-10 | 11: delta_s/delta_0: 1.6953E-09 | 12: delta_r/delta_0: 5.7682E-10 | 13: delta_s/delta_0: 1.1490E-10 | 14: delta_r/delta_0: 1.0964E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.099401795641469E-002 2.810116578387883E-005 | BP delta = -0.1930136 -0.1614980 57386701.9786989 | BP delta = -0.1841825 -0.1526669 57386703.6255655 | BP chisq diff = 1.6, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81269135 | --> Sampling calibration, mode = relcal | relcal = 0.2956432 0.2249596 -0.2838778 -0.2367250 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 6.7205989E-04 4.6841605E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 9.7507E-04 | 2: delta_r/delta_0: 2.2286E-05 | 3: delta_s/delta_0: 4.3884E-05 | 4: delta_r/delta_0: 3.9409E-06 | 5: delta_s/delta_0: 1.2787E-06 | 6: delta_r/delta_0: 2.1543E-07 | 7: delta_s/delta_0: 6.5173E-08 | 8: delta_r/delta_0: 3.6652E-08 | 9: delta_s/delta_0: 4.6215E-07 | 10: delta_r/delta_0: 2.4631E-09 | 11: delta_s/delta_0: 9.3903E-10 | 12: delta_r/delta_0: 4.7899E-10 | 13: delta_s/delta_0: 1.0082E-09 | 14: delta_r/delta_0: 4.7153E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.903825439162577E-002 4.019420442716936E-005 | BP delta = -7.6485500E-02 -9.7056821E-02 72490871.2855393 | BP delta = -5.5024151E-02 -7.5595468E-02 72490872.2260563 | BP chisq diff = 0.9, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95959914 | --> Sampling calibration, mode = relcal | relcal = 0.1067086 0.1396151 -0.1104415 -0.1358822 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0443910E-02 1.3224977E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.0687E-03 | 2: delta_r/delta_0: 4.9782E-05 | 3: delta_s/delta_0: 3.0736E-06 | 4: delta_r/delta_0: 5.6542E-07 | 5: delta_s/delta_0: 8.4913E-07 | 6: delta_r/delta_0: 1.3578E-07 | 7: delta_s/delta_0: 1.1495E-07 | 8: delta_r/delta_0: 6.4566E-08 | 9: delta_s/delta_0: 5.8228E-08 | 10: delta_r/delta_0: 9.0627E-09 | 11: delta_s/delta_0: 2.6241E-09 | 12: delta_r/delta_0: 1.5180E-09 | 13: delta_s/delta_0: 3.4422E-10 | 14: delta_r/delta_0: 2.7424E-10 | 15: delta_s/delta_0: 8.2799E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.658038897033390E-002 3.695627743348706E-005 | BP delta = 0.1244765 0.2395512 72782709.3342207 | BP delta = 0.1821285 0.2972032 72782710.1009706 | BP chisq diff = 0.8, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.166654 | New value = -3.097363 | poltype: 2 pol: 1 CPU time specind = 1.8016815E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.241263 | New value = -3.134474 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.136480 | New value = -3.122615 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.160396 | New value = -3.193192 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.079687 | New value = -3.118873 | poltype: 2 pol: 2 CPU time specind = 1.7719030E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.13685E+08, tol = 0.71294E+01, time = 5.92 | CG iter. 2 -- res = 0.37365E+06, tol = 0.71294E+01, time = 6.05 | CG iter. 3 -- res = 0.10465E+06, tol = 0.71294E+01, time = 5.96 | CG iter. 4 -- res = 0.12965E+06, tol = 0.71294E+01, time = 6.13 | CG iter. 5 -- res = 0.13657E+06, tol = 0.71294E+01, time = 5.62 | CG iter. 6 -- res = 0.13052E+06, tol = 0.71294E+01, time = 5.67 | CG iter. 7 -- res = 0.10475E+06, tol = 0.71294E+01, time = 5.64 | CG iter. 8 -- res = 0.73104E+05, tol = 0.71294E+01, time = 6.23 | CG iter. 9 -- res = 0.60927E+05, tol = 0.71294E+01, time = 5.89 | CG iter. 10 -- res = 0.47217E+05, tol = 0.71294E+01, time = 5.95 | CG iter. 11 -- res = 0.33962E+05, tol = 0.71294E+01, time = 6.01 | CG iter. 12 -- res = 0.25683E+05, tol = 0.71294E+01, time = 5.76 | CG iter. 13 -- res = 0.20497E+05, tol = 0.71294E+01, time = 12.15 | CG iter. 14 -- res = 0.17613E+05, tol = 0.71294E+01, time = 5.66 | CG iter. 15 -- res = 0.13682E+05, tol = 0.71294E+01, time = 6.15 | CG iter. 16 -- res = 0.94110E+04, tol = 0.71294E+01, time = 5.78 | CG iter. 17 -- res = 0.65112E+04, tol = 0.71294E+01, time = 6.18 | CG iter. 18 -- res = 0.55425E+04, tol = 0.71294E+01, time = 5.99 | CG iter. 19 -- res = 0.48213E+04, tol = 0.71294E+01, time = 5.61 | CG iter. 20 -- res = 0.36467E+04, tol = 0.71294E+01, time = 5.90 | CG iter. 21 -- res = 0.26283E+04, tol = 0.71294E+01, time = 5.67 | CG iter. 22 -- res = 0.22317E+04, tol = 0.71294E+01, time = 6.18 | CG iter. 23 -- res = 0.19105E+04, tol = 0.71294E+01, time = 6.05 | CG iter. 24 -- res = 0.15084E+04, tol = 0.71294E+01, time = 5.75 | CG iter. 25 -- res = 0.11287E+04, tol = 0.71294E+01, time = 6.42 | CG iter. 26 -- res = 0.92835E+03, tol = 0.71294E+01, time = 5.65 | CG iter. 27 -- res = 0.81944E+03, tol = 0.71294E+01, time = 7.00 | CG iter. 28 -- res = 0.67939E+03, tol = 0.71294E+01, time = 6.47 | CG iter. 29 -- res = 0.49922E+03, tol = 0.71294E+01, time = 5.94 | CG iter. 30 -- res = 0.38523E+03, tol = 0.71294E+01, time = 5.81 | CG iter. 31 -- res = 0.32514E+03, tol = 0.71294E+01, time = 5.97 | CG iter. 32 -- res = 0.26924E+03, tol = 0.71294E+01, time = 5.90 | CG iter. 33 -- res = 0.19829E+03, tol = 0.71294E+01, time = 5.96 | CG iter. 34 -- res = 0.14679E+03, tol = 0.71294E+01, time = 5.69 | CG iter. 35 -- res = 0.12024E+03, tol = 0.71294E+01, time = 6.11 | CG iter. 36 -- res = 0.10079E+03, tol = 0.71294E+01, time = 6.05 | CG iter. 37 -- res = 0.75233E+02, tol = 0.71294E+01, time = 5.97 | CG iter. 38 -- res = 0.54247E+02, tol = 0.71294E+01, time = 5.89 | CG iter. 39 -- res = 0.41228E+02, tol = 0.71294E+01, time = 5.96 | CG iter. 40 -- res = 0.34315E+02, tol = 0.71294E+01, time = 6.02 | CG iter. 41 -- res = 0.27069E+02, tol = 0.71294E+01, time = 6.16 | CG iter. 42 -- res = 0.19364E+02, tol = 0.71294E+01, time = 6.06 | CG iter. 43 -- res = 0.14123E+02, tol = 0.71294E+01, time = 5.94 | CG iter. 44 -- res = 0.11478E+02, tol = 0.71294E+01, time = 6.05 | CG iter. 45 -- res = 0.89141E+01, tol = 0.71294E+01, time = 5.95 | CG iter. 46 -- res = 0.66046E+01, tol = 0.71294E+01, time = 5.82 | CG iter. 47 -- res = 0.49166E+01, tol = 0.71294E+01, time = 5.91 | CG iter. 48 -- res = 0.38112E+01, tol = 0.71294E+01, time = 5.99 | CG iter. 49 -- res = 0.29989E+01, tol = 0.71294E+01, time = 5.66 | CG iter. 50 -- res = 0.21692E+01, tol = 0.71294E+01, time = 5.86 | Final CG iter 51 -- res = 0.21692E+01, tol = 0.71294E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10594223.579 | Old band monopole 10115313.906 | Change to band monopole 478909.673 | Change to component monopole -478907.613 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.28 | CG iter. 1 -- res = 0.18160E+06, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.11622E+03, tol = 0.47627E+18, time = 2.07 | CG iter. 3 -- res = 0.27847E+01, tol = 0.47627E+18, time = 2.12 | CG iter. 4 -- res = 0.20167E-01, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.27435E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10594178.011 | (Sampled value in CG: 10671720.126 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.473367 | New value = 1.487683 | poltype: 2 pol: 1 CPU time specind = 1.8587828E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.477562 | New value = 1.476274 | poltype: 2 pol: 2 CPU time specind = 2.1802902E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.24061E+08, tol = 0.47585E+04, time = 6.82 | CG iter. 2 -- res = 0.52441E+07, tol = 0.47585E+04, time = 6.55 | CG iter. 3 -- res = 0.83768E+06, tol = 0.47585E+04, time = 6.64 | CG iter. 4 -- res = 0.34882E+06, tol = 0.47585E+04, time = 6.57 | CG iter. 5 -- res = 0.15161E+06, tol = 0.47585E+04, time = 6.87 | CG iter. 6 -- res = 0.81482E+05, tol = 0.47585E+04, time = 7.83 | CG iter. 7 -- res = 0.45024E+05, tol = 0.47585E+04, time = 7.71 | CG iter. 8 -- res = 0.21138E+05, tol = 0.47585E+04, time = 6.79 | CG iter. 9 -- res = 0.93246E+04, tol = 0.47585E+04, time = 7.04 | CG iter. 10 -- res = 0.38220E+04, tol = 0.47585E+04, time = 6.74 | CG iter. 11 -- res = 0.16712E+04, tol = 0.47585E+04, time = 6.80 | CG iter. 12 -- res = 0.85405E+03, tol = 0.47585E+04, time = 6.88 | CG iter. 13 -- res = 0.48119E+03, tol = 0.47585E+04, time = 6.92 | CG iter. 14 -- res = 0.27502E+03, tol = 0.47585E+04, time = 6.72 | CG iter. 15 -- res = 0.14303E+03, tol = 0.47585E+04, time = 6.95 | CG iter. 16 -- res = 0.67198E+02, tol = 0.47585E+04, time = 6.30 | CG iter. 17 -- res = 0.32016E+02, tol = 0.47585E+04, time = 7.20 | CG iter. 18 -- res = 0.16206E+02, tol = 0.47585E+04, time = 6.54 | CG iter. 19 -- res = 0.86325E+01, tol = 0.47585E+04, time = 6.62 | CG iter. 20 -- res = 0.47377E+01, tol = 0.47585E+04, time = 6.77 | CG iter. 21 -- res = 0.26028E+01, tol = 0.47585E+04, time = 6.45 | CG iter. 22 -- res = 0.13451E+01, tol = 0.47585E+04, time = 7.20 | CG iter. 23 -- res = 0.67427E+00, tol = 0.47585E+04, time = 7.07 | CG iter. 24 -- res = 0.34097E+00, tol = 0.47585E+04, time = 6.67 | CG iter. 25 -- res = 0.18738E+00, tol = 0.47585E+04, time = 7.31 | CG iter. 26 -- res = 0.10662E+00, tol = 0.47585E+04, time = 7.07 | CG iter. 27 -- res = 0.59866E-01, tol = 0.47585E+04, time = 7.14 | CG iter. 28 -- res = 0.31912E-01, tol = 0.47585E+04, time = 6.28 | CG iter. 29 -- res = 0.16626E-01, tol = 0.47585E+04, time = 6.76 | CG iter. 30 -- res = 0.86676E-02, tol = 0.47585E+04, time = 6.78 | CG iter. 31 -- res = 0.47713E-02, tol = 0.47585E+04, time = 6.99 | CG iter. 32 -- res = 0.27321E-02, tol = 0.47585E+04, time = 6.80 | CG iter. 33 -- res = 0.15661E-02, tol = 0.47585E+04, time = 6.65 | CG iter. 34 -- res = 0.84868E-03, tol = 0.47585E+04, time = 6.42 | CG iter. 35 -- res = 0.43394E-03, tol = 0.47585E+04, time = 6.93 | Final CG iter 36 -- res = 0.43394E-03, tol = 0.47585E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.633 2.768 | New value 1.761 | Old value 2.633 | Difference -0.872 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.45957E+05, tol = 0.47627E+18, time = 1.93 | CG iter. 2 -- res = 0.71417E+02, tol = 0.47627E+18, time = 2.11 | CG iter. 3 -- res = 0.18734E+01, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.23763E-03, tol = 0.47627E+18, time = 2.24 | Final CG iter 5 -- res = 0.37260E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10594178.011 | (Sampled value in CG: 10669775.760 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.631987 | New value = -3.471780 | poltype: 1 pol: 1 CPU time specind = 3.8946152E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.34031E+07, tol = 0.21683E+01, time = 2.82 | CG iter. 2 -- res = 0.13917E+07, tol = 0.21683E+01, time = 2.91 | CG iter. 3 -- res = 0.30816E+06, tol = 0.21683E+01, time = 2.91 | CG iter. 4 -- res = 0.14779E+06, tol = 0.21683E+01, time = 3.06 | CG iter. 5 -- res = 0.86405E+05, tol = 0.21683E+01, time = 3.01 | CG iter. 6 -- res = 0.36627E+05, tol = 0.21683E+01, time = 2.72 | CG iter. 7 -- res = 0.12855E+05, tol = 0.21683E+01, time = 2.44 | CG iter. 8 -- res = 0.59604E+04, tol = 0.21683E+01, time = 3.08 | CG iter. 9 -- res = 0.28373E+04, tol = 0.21683E+01, time = 2.68 | CG iter. 10 -- res = 0.11339E+04, tol = 0.21683E+01, time = 2.96 | CG iter. 11 -- res = 0.45487E+03, tol = 0.21683E+01, time = 2.95 | CG iter. 12 -- res = 0.20300E+03, tol = 0.21683E+01, time = 2.82 | CG iter. 13 -- res = 0.10102E+03, tol = 0.21683E+01, time = 3.03 | CG iter. 14 -- res = 0.51527E+02, tol = 0.21683E+01, time = 3.18 | CG iter. 15 -- res = 0.25937E+02, tol = 0.21683E+01, time = 2.88 | CG iter. 16 -- res = 0.11609E+02, tol = 0.21683E+01, time = 2.82 | CG iter. 17 -- res = 0.49186E+01, tol = 0.21683E+01, time = 2.65 | CG iter. 18 -- res = 0.22360E+01, tol = 0.21683E+01, time = 2.56 | CG iter. 19 -- res = 0.10263E+01, tol = 0.21683E+01, time = 2.95 | CG iter. 20 -- res = 0.54291E+00, tol = 0.21683E+01, time = 3.14 | CG iter. 21 -- res = 0.27099E+00, tol = 0.21683E+01, time = 3.06 | CG iter. 22 -- res = 0.12651E+00, tol = 0.21683E+01, time = 2.84 | CG iter. 23 -- res = 0.56915E-01, tol = 0.21683E+01, time = 2.67 | CG iter. 24 -- res = 0.26079E-01, tol = 0.21683E+01, time = 3.14 | CG iter. 25 -- res = 0.11923E-01, tol = 0.21683E+01, time = 2.85 | CG iter. 26 -- res = 0.59457E-02, tol = 0.21683E+01, time = 2.70 | CG iter. 27 -- res = 0.30905E-02, tol = 0.21683E+01, time = 2.76 | CG iter. 28 -- res = 0.15828E-02, tol = 0.21683E+01, time = 3.17 | CG iter. 29 -- res = 0.75131E-03, tol = 0.21683E+01, time = 4.59 | CG iter. 30 -- res = 0.36832E-03, tol = 0.21683E+01, time = 3.08 | CG iter. 31 -- res = 0.16561E-03, tol = 0.21683E+01, time = 2.90 | CG iter. 32 -- res = 0.77066E-04, tol = 0.21683E+01, time = 3.24 | CG iter. 33 -- res = 0.39212E-04, tol = 0.21683E+01, time = 2.96 | CG iter. 34 -- res = 0.19736E-04, tol = 0.21683E+01, time = 3.02 | CG iter. 35 -- res = 0.10292E-04, tol = 0.21683E+01, time = 2.56 | CG iter. 36 -- res = 0.49112E-05, tol = 0.21683E+01, time = 2.81 | CG iter. 37 -- res = 0.22042E-05, tol = 0.21683E+01, time = 2.92 | CG iter. 38 -- res = 0.10181E-05, tol = 0.21683E+01, time = 2.74 | CG iter. 39 -- res = 0.51032E-06, tol = 0.21683E+01, time = 2.93 | CG iter. 40 -- res = 0.25302E-06, tol = 0.21683E+01, time = 3.06 | CG iter. 41 -- res = 0.13185E-06, tol = 0.21683E+01, time = 2.98 | CG iter. 42 -- res = 0.65027E-07, tol = 0.21683E+01, time = 2.74 | CG iter. 43 -- res = 0.29628E-07, tol = 0.21683E+01, time = 3.04 | CG iter. 44 -- res = 0.13433E-07, tol = 0.21683E+01, time = 2.94 | CG iter. 45 -- res = 0.64222E-08, tol = 0.21683E+01, time = 2.93 | CG iter. 46 -- res = 0.32361E-08, tol = 0.21683E+01, time = 2.88 | CG iter. 47 -- res = 0.16350E-08, tol = 0.21683E+01, time = 2.51 | CG iter. 48 -- res = 0.83015E-09, tol = 0.21683E+01, time = 2.88 | CG iter. 49 -- res = 0.39091E-09, tol = 0.21683E+01, time = 2.77 | CG iter. 50 -- res = 0.17980E-09, tol = 0.21683E+01, time = 2.81 | Final CG iter 51 -- res = 0.17980E-09, tol = 0.21683E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.086 3.361 | New value 2.777 | Old value 0.086 | Difference 2.691 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.22 | CG iter. 1 -- res = 0.11013E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.34840E+02, tol = 0.47627E+18, time = 2.25 | CG iter. 3 -- res = 0.13154E+01, tol = 0.47627E+18, time = 2.27 | CG iter. 4 -- res = 0.15313E-02, tol = 0.47627E+18, time = 1.95 | Final CG iter 5 -- res = 0.51276E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10594178.011 | (Sampled value in CG: 10653359.474 ) | CPU time specind = 1236.688 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.68487E+08, tol = 0.57550E+04, time = 12.74 | CG iter. 2 -- res = 0.58862E+08, tol = 0.57550E+04, time = 12.47 | CG iter. 3 -- res = 0.15434E+08, tol = 0.57550E+04, time = 12.82 | CG iter. 4 -- res = 0.66322E+07, tol = 0.57550E+04, time = 11.86 | CG iter. 5 -- res = 0.38587E+07, tol = 0.57550E+04, time = 18.69 | CG iter. 6 -- res = 0.22004E+07, tol = 0.57550E+04, time = 12.29 | CG iter. 7 -- res = 0.13424E+07, tol = 0.57550E+04, time = 12.17 | CG iter. 8 -- res = 0.92015E+06, tol = 0.57550E+04, time = 12.86 | CG iter. 9 -- res = 0.59889E+06, tol = 0.57550E+04, time = 12.81 | CG iter. 10 -- res = 0.36824E+06, tol = 0.57550E+04, time = 12.63 | CG iter. 11 -- res = 0.21026E+06, tol = 0.57550E+04, time = 12.48 | CG iter. 12 -- res = 0.12673E+06, tol = 0.57550E+04, time = 14.62 | CG iter. 13 -- res = 0.79895E+05, tol = 0.57550E+04, time = 13.05 | CG iter. 14 -- res = 0.57687E+05, tol = 0.57550E+04, time = 12.52 | CG iter. 15 -- res = 0.49644E+05, tol = 0.57550E+04, time = 12.58 | CG iter. 16 -- res = 0.47928E+05, tol = 0.57550E+04, time = 12.50 | CG iter. 17 -- res = 0.46568E+05, tol = 0.57550E+04, time = 12.58 | CG iter. 18 -- res = 0.44399E+05, tol = 0.57550E+04, time = 12.00 | CG iter. 19 -- res = 0.40983E+05, tol = 0.57550E+04, time = 12.42 | CG iter. 20 -- res = 0.37523E+05, tol = 0.57550E+04, time = 12.58 | CG iter. 21 -- res = 0.35309E+05, tol = 0.57550E+04, time = 12.20 | CG iter. 22 -- res = 0.35432E+05, tol = 0.57550E+04, time = 12.35 | CG iter. 23 -- res = 0.34094E+05, tol = 0.57550E+04, time = 12.54 | CG iter. 24 -- res = 0.30737E+05, tol = 0.57550E+04, time = 12.13 | CG iter. 25 -- res = 0.25160E+05, tol = 0.57550E+04, time = 12.58 | CG iter. 26 -- res = 0.18977E+05, tol = 0.57550E+04, time = 12.37 | CG iter. 27 -- res = 0.13950E+05, tol = 0.57550E+04, time = 12.38 | CG iter. 28 -- res = 0.10678E+05, tol = 0.57550E+04, time = 19.04 | CG iter. 29 -- res = 0.87855E+04, tol = 0.57550E+04, time = 12.39 | CG iter. 30 -- res = 0.79451E+04, tol = 0.57550E+04, time = 12.31 | CG iter. 31 -- res = 0.74263E+04, tol = 0.57550E+04, time = 12.67 | CG iter. 32 -- res = 0.68158E+04, tol = 0.57550E+04, time = 12.59 | CG iter. 33 -- res = 0.61234E+04, tol = 0.57550E+04, time = 12.43 | CG iter. 34 -- res = 0.54100E+04, tol = 0.57550E+04, time = 12.18 | CG iter. 35 -- res = 0.47497E+04, tol = 0.57550E+04, time = 14.08 | CG iter. 36 -- res = 0.42573E+04, tol = 0.57550E+04, time = 13.25 | CG iter. 37 -- res = 0.39675E+04, tol = 0.57550E+04, time = 12.14 | CG iter. 38 -- res = 0.37373E+04, tol = 0.57550E+04, time = 11.97 | CG iter. 39 -- res = 0.33104E+04, tol = 0.57550E+04, time = 12.38 | CG iter. 40 -- res = 0.27028E+04, tol = 0.57550E+04, time = 12.32 | CG iter. 41 -- res = 0.21686E+04, tol = 0.57550E+04, time = 12.63 | CG iter. 42 -- res = 0.17910E+04, tol = 0.57550E+04, time = 12.23 | CG iter. 43 -- res = 0.15488E+04, tol = 0.57550E+04, time = 11.76 | CG iter. 44 -- res = 0.14197E+04, tol = 0.57550E+04, time = 12.86 | CG iter. 45 -- res = 0.13374E+04, tol = 0.57550E+04, time = 12.39 | CG iter. 46 -- res = 0.12832E+04, tol = 0.57550E+04, time = 12.35 | CG iter. 47 -- res = 0.11949E+04, tol = 0.57550E+04, time = 12.46 | CG iter. 48 -- res = 0.10634E+04, tol = 0.57550E+04, time = 12.71 | CG iter. 49 -- res = 0.94062E+03, tol = 0.57550E+04, time = 12.10 | CG iter. 50 -- res = 0.84130E+03, tol = 0.57550E+04, time = 12.25 | CG iter. 51 -- res = 0.78285E+03, tol = 0.57550E+04, time = 12.21 | CG iter. 52 -- res = 0.74688E+03, tol = 0.57550E+04, time = 18.96 | CG iter. 53 -- res = 0.70284E+03, tol = 0.57550E+04, time = 12.71 | CG iter. 54 -- res = 0.63057E+03, tol = 0.57550E+04, time = 12.18 | CG iter. 55 -- res = 0.56042E+03, tol = 0.57550E+04, time = 11.97 | CG iter. 56 -- res = 0.48293E+03, tol = 0.57550E+04, time = 12.28 | CG iter. 57 -- res = 0.42315E+03, tol = 0.57550E+04, time = 12.39 | CG iter. 58 -- res = 0.38971E+03, tol = 0.57550E+04, time = 12.77 | CG iter. 59 -- res = 0.37349E+03, tol = 0.57550E+04, time = 13.93 | CG iter. 60 -- res = 0.35507E+03, tol = 0.57550E+04, time = 12.42 | Final CG iter 61 -- res = 0.35507E+03, tol = 0.57550E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.787 ( -229.390 -2229.958 2512.507 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7237631.726 | Old band monopole 10594223.579 | Change to band monopole -3356591.853 | Change to component monopole 3356577.416 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.712 2.749 | New value 2.989 | Old value 1.712 | Difference 1.276 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.035 ( 5.875 10.677 -10.840 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 0.901 5.139 | New value -0.436 | Old value 0.901 | Difference -1.338 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.41715E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.10267E+03, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.33374E+01, tol = 0.47627E+18, time = 2.48 | CG iter. 4 -- res = 0.24266E-02, tol = 0.47627E+18, time = 2.28 | Final CG iter 5 -- res = 0.28855E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7237600.596 | (Sampled value in CG: 7220728.741 ) | Chain = 1 -- chisq = 0.81544474E+09 | Chain = 1 -- wall time = 5864.449 sec Available RAM: MemAvailable: 377886856 kB Available Swap: SwapFree: 1124379828 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 428 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444177 | --> Sampling calibration, mode = relcal | relcal = 1.3437217E-02 7.3990284E-04 -1.6000058E-03 -1.2577115E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1400500 0.1547564 9405589.28854907 | BP delta = 0.1400500 0.1582195 9405582.96300791 | BP chisq diff = -6.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632568 | --> Sampling calibration, mode = relcal | relcal = -2.8215195E-03 -7.0468022E-04 1.6790752E-03 1.6155548E-03 -4.0913356E-04 6.4070331E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5561991 15218691.0574595 | BP delta = 0.0000000E+00 -0.5539598 15218691.2235819 | BP chisq diff = 0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18317620197210 | --> Sampling calibration, mode = relcal | relcal = -7.5352333E-02 -5.8749508E-02 9.2242554E-02 4.1859291E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.1999275E-04 5.2566971E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2946E-05 | 2: delta_r/delta_0: 1.0174E-06 | 3: delta_s/delta_0: 1.8899E-07 | 4: delta_r/delta_0: 1.9569E-08 | 5: delta_s/delta_0: 4.1206E-09 | 6: delta_r/delta_0: 1.5335E-09 | 7: delta_s/delta_0: 4.0143E-10 | 8: delta_r/delta_0: 8.5561E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.002331353106091E-003 2.735995888431864E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2946E-05 | 2: delta_r/delta_0: 1.0174E-06 | 3: delta_s/delta_0: 1.8899E-07 | 4: delta_r/delta_0: 1.9569E-08 | 5: delta_s/delta_0: 4.1207E-09 | 6: delta_r/delta_0: 1.5335E-09 | 7: delta_s/delta_0: 4.0143E-10 | 8: delta_r/delta_0: 8.5561E-11 | Reached bicg-stab tolerance | BP delta = 6.9314450E-02 9.3992852E-02 3458310.27624996 | BP delta = 6.9314450E-02 9.4085485E-02 3458283.63270560 | BP chisq diff = -26.6, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02601169 | --> Sampling calibration, mode = relcal | relcal = -0.1066989 -9.5533706E-02 0.1449879 5.7244722E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.9886749E-03 1.6697997E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5869E-04 | 2: delta_r/delta_0: 3.3678E-06 | 3: delta_s/delta_0: 1.9116E-07 | 4: delta_r/delta_0: 5.5951E-08 | 5: delta_s/delta_0: 2.9480E-08 | 6: delta_r/delta_0: 8.9933E-09 | 7: delta_s/delta_0: 1.6615E-08 | 8: delta_r/delta_0: 1.3450E-09 | 9: delta_s/delta_0: 1.2934E-09 | 10: delta_r/delta_0: 2.4334E-10 | 11: delta_s/delta_0: 8.1423E-10 | 12: delta_r/delta_0: 3.4229E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.088547877569482E-002 2.810791876555758E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.5869E-04 | 2: delta_r/delta_0: 3.3676E-06 | 3: delta_s/delta_0: 1.9113E-07 | 4: delta_r/delta_0: 5.5927E-08 | 5: delta_s/delta_0: 2.9517E-08 | 6: delta_r/delta_0: 8.9904E-09 | 7: delta_s/delta_0: 1.6604E-08 | 8: delta_r/delta_0: 1.3445E-09 | 9: delta_s/delta_0: 1.2932E-09 | 10: delta_r/delta_0: 2.4302E-10 | 11: delta_s/delta_0: 8.1372E-10 | 12: delta_r/delta_0: 3.4214E-11 | Reached bicg-stab tolerance | BP delta = -0.1841825 -0.1526669 2841486.80407852 | BP delta = -0.1841825 -0.1578847 2841532.67456730 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81245043 | --> Sampling calibration, mode = relcal | relcal = 0.2954901 0.2248434 -0.2838083 -0.2365252 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.9751212E-05 5.4836678E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.2382E-02 | 2: delta_r/delta_0: 2.9063E-04 | 3: delta_s/delta_0: 1.3350E-05 | 4: delta_r/delta_0: 1.1431E-06 | 5: delta_s/delta_0: 2.9730E-05 | 6: delta_r/delta_0: 1.1560E-06 | 7: delta_s/delta_0: 8.6971E-08 | 8: delta_r/delta_0: 4.1938E-08 | 9: delta_s/delta_0: 1.4464E-07 | 10: delta_r/delta_0: 1.1267E-08 | 11: delta_s/delta_0: 3.2707E-09 | 12: delta_r/delta_0: 9.1826E-10 | 13: delta_s/delta_0: 4.9466E-10 | 14: delta_r/delta_0: 2.4952E-10 | 15: delta_s/delta_0: 6.2697E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.579023617316082E-002 4.020471401448647E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.2422E-02 | 2: delta_r/delta_0: 2.9157E-04 | 3: delta_s/delta_0: 1.3371E-05 | 4: delta_r/delta_0: 1.1450E-06 | 5: delta_s/delta_0: 2.9799E-05 | 6: delta_r/delta_0: 1.1615E-06 | 7: delta_s/delta_0: 8.7288E-08 | 8: delta_r/delta_0: 4.1944E-08 | 9: delta_s/delta_0: 1.4339E-07 | 10: delta_r/delta_0: 1.1286E-08 | 11: delta_s/delta_0: 3.2799E-09 | 12: delta_r/delta_0: 9.1948E-10 | 13: delta_s/delta_0: 4.9444E-10 | 14: delta_r/delta_0: 2.5042E-10 | 15: delta_s/delta_0: 6.2808E-11 | Reached bicg-stab tolerance | BP delta = -5.5024151E-02 -7.5595468E-02 2827730.36443616 | BP delta = -5.5024151E-02 -6.8500757E-02 2827805.54417020 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95928698 | --> Sampling calibration, mode = relcal | relcal = 0.1064730 0.1394649 -0.1101989 -0.1357390 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.0680718E-03 1.3496735E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 7.3212E-04 | 2: delta_r/delta_0: 1.7859E-05 | 3: delta_s/delta_0: 1.7021E-05 | 4: delta_r/delta_0: 1.3184E-06 | 5: delta_s/delta_0: 3.7175E-07 | 6: delta_r/delta_0: 1.6109E-07 | 7: delta_s/delta_0: 3.2901E-07 | 8: delta_r/delta_0: 3.9752E-08 | 9: delta_s/delta_0: 5.8019E-08 | 10: delta_r/delta_0: 4.9992E-09 | 11: delta_s/delta_0: 2.2205E-09 | 12: delta_r/delta_0: 1.0764E-09 | 13: delta_s/delta_0: 1.2747E-09 | 14: delta_r/delta_0: 3.5983E-10 | 15: delta_s/delta_0: 7.0623E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.414773048356151E-002 3.696629645934267E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 7.3214E-04 | 2: delta_r/delta_0: 1.7860E-05 | 3: delta_s/delta_0: 1.7021E-05 | 4: delta_r/delta_0: 1.3184E-06 | 5: delta_s/delta_0: 3.7175E-07 | 6: delta_r/delta_0: 1.6110E-07 | 7: delta_s/delta_0: 3.2903E-07 | 8: delta_r/delta_0: 3.9752E-08 | 9: delta_s/delta_0: 5.7999E-08 | 10: delta_r/delta_0: 4.9969E-09 | 11: delta_s/delta_0: 2.2205E-09 | 12: delta_r/delta_0: 1.0766E-09 | 13: delta_s/delta_0: 1.2745E-09 | 14: delta_r/delta_0: 3.5996E-10 | 15: delta_s/delta_0: 7.0628E-11 | Reached bicg-stab tolerance | BP delta = 0.1821285 0.2972032 3004217.42191777 | BP delta = 0.1821285 0.2980586 3004226.95920297 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.097363 | New value = -3.109738 | poltype: 2 pol: 1 CPU time specind = 1.7491102E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.134474 | New value = -3.112240 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.122615 | New value = -3.194494 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193192 | New value = -3.104620 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.118873 | New value = -3.150157 | poltype: 2 pol: 2 CPU time specind = 6.0141087E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.37 | CG iter. 1 -- res = 0.13547E+08, tol = 0.94415E+01, time = 5.45 | CG iter. 2 -- res = 0.32935E+06, tol = 0.94415E+01, time = 6.06 | CG iter. 3 -- res = 0.46500E+05, tol = 0.94415E+01, time = 6.29 | CG iter. 4 -- res = 0.20833E+05, tol = 0.94415E+01, time = 5.61 | CG iter. 5 -- res = 0.10144E+05, tol = 0.94415E+01, time = 6.06 | CG iter. 6 -- res = 0.54579E+04, tol = 0.94415E+01, time = 5.71 | CG iter. 7 -- res = 0.35911E+04, tol = 0.94415E+01, time = 5.86 | CG iter. 8 -- res = 0.24078E+04, tol = 0.94415E+01, time = 5.93 | CG iter. 9 -- res = 0.19055E+04, tol = 0.94415E+01, time = 5.55 | CG iter. 10 -- res = 0.19003E+04, tol = 0.94415E+01, time = 5.68 | CG iter. 11 -- res = 0.17353E+04, tol = 0.94415E+01, time = 6.25 | CG iter. 12 -- res = 0.12882E+04, tol = 0.94415E+01, time = 5.93 | CG iter. 13 -- res = 0.85029E+03, tol = 0.94415E+01, time = 5.67 | CG iter. 14 -- res = 0.60419E+03, tol = 0.94415E+01, time = 5.67 | CG iter. 15 -- res = 0.47561E+03, tol = 0.94415E+01, time = 5.52 | CG iter. 16 -- res = 0.37469E+03, tol = 0.94415E+01, time = 5.96 | CG iter. 17 -- res = 0.27914E+03, tol = 0.94415E+01, time = 5.73 | CG iter. 18 -- res = 0.21199E+03, tol = 0.94415E+01, time = 6.32 | CG iter. 19 -- res = 0.18121E+03, tol = 0.94415E+01, time = 5.88 | CG iter. 20 -- res = 0.14926E+03, tol = 0.94415E+01, time = 5.91 | CG iter. 21 -- res = 0.10304E+03, tol = 0.94415E+01, time = 5.63 | CG iter. 22 -- res = 0.75617E+02, tol = 0.94415E+01, time = 5.71 | CG iter. 23 -- res = 0.59229E+02, tol = 0.94415E+01, time = 5.68 | CG iter. 24 -- res = 0.50214E+02, tol = 0.94415E+01, time = 5.45 | CG iter. 25 -- res = 0.38372E+02, tol = 0.94415E+01, time = 6.16 | CG iter. 26 -- res = 0.27364E+02, tol = 0.94415E+01, time = 5.87 | CG iter. 27 -- res = 0.20848E+02, tol = 0.94415E+01, time = 5.63 | CG iter. 28 -- res = 0.16976E+02, tol = 0.94415E+01, time = 6.26 | CG iter. 29 -- res = 0.13102E+02, tol = 0.94415E+01, time = 5.42 | CG iter. 30 -- res = 0.97558E+01, tol = 0.94415E+01, time = 6.02 | CG iter. 31 -- res = 0.75626E+01, tol = 0.94415E+01, time = 5.79 | CG iter. 32 -- res = 0.66589E+01, tol = 0.94415E+01, time = 5.82 | CG iter. 33 -- res = 0.55311E+01, tol = 0.94415E+01, time = 7.95 | CG iter. 34 -- res = 0.43069E+01, tol = 0.94415E+01, time = 11.12 | CG iter. 35 -- res = 0.32774E+01, tol = 0.94415E+01, time = 5.69 | CG iter. 36 -- res = 0.26873E+01, tol = 0.94415E+01, time = 6.10 | CG iter. 37 -- res = 0.23167E+01, tol = 0.94415E+01, time = 5.49 | CG iter. 38 -- res = 0.18961E+01, tol = 0.94415E+01, time = 5.74 | CG iter. 39 -- res = 0.14387E+01, tol = 0.94415E+01, time = 5.85 | CG iter. 40 -- res = 0.11477E+01, tol = 0.94415E+01, time = 6.01 | CG iter. 41 -- res = 0.96445E+00, tol = 0.94415E+01, time = 6.05 | CG iter. 42 -- res = 0.76215E+00, tol = 0.94415E+01, time = 6.00 | CG iter. 43 -- res = 0.57732E+00, tol = 0.94415E+01, time = 5.69 | CG iter. 44 -- res = 0.44700E+00, tol = 0.94415E+01, time = 5.71 | CG iter. 45 -- res = 0.38532E+00, tol = 0.94415E+01, time = 5.64 | CG iter. 46 -- res = 0.31136E+00, tol = 0.94415E+01, time = 5.90 | CG iter. 47 -- res = 0.24771E+00, tol = 0.94415E+01, time = 5.60 | CG iter. 48 -- res = 0.18687E+00, tol = 0.94415E+01, time = 7.26 | CG iter. 49 -- res = 0.15216E+00, tol = 0.94415E+01, time = 6.75 | CG iter. 50 -- res = 0.12629E+00, tol = 0.94415E+01, time = 6.03 | Final CG iter 51 -- res = 0.12629E+00, tol = 0.94415E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9596282.987 | Old band monopole 7237631.726 | Change to band monopole 2358651.261 | Change to component monopole -2358641.116 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.23467E+06, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.73123E+02, tol = 0.47627E+18, time = 1.89 | CG iter. 3 -- res = 0.25728E+01, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.32742E-02, tol = 0.47627E+18, time = 2.07 | Final CG iter 5 -- res = 0.19474E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9596241.711 | (Sampled value in CG: 9574066.783 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.487683 | New value = 1.499638 | poltype: 2 pol: 1 CPU time specind = 2.1476984E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.476274 | New value = 1.524045 | poltype: 2 pol: 2 CPU time specind = 1.4971018E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.24066E+08, tol = 0.47607E+04, time = 6.84 | CG iter. 2 -- res = 0.53698E+07, tol = 0.47607E+04, time = 6.98 | CG iter. 3 -- res = 0.83925E+06, tol = 0.47607E+04, time = 6.67 | CG iter. 4 -- res = 0.33932E+06, tol = 0.47607E+04, time = 7.21 | CG iter. 5 -- res = 0.14584E+06, tol = 0.47607E+04, time = 6.62 | CG iter. 6 -- res = 0.77539E+05, tol = 0.47607E+04, time = 7.20 | CG iter. 7 -- res = 0.41916E+05, tol = 0.47607E+04, time = 6.89 | CG iter. 8 -- res = 0.20220E+05, tol = 0.47607E+04, time = 6.42 | CG iter. 9 -- res = 0.89685E+04, tol = 0.47607E+04, time = 6.74 | CG iter. 10 -- res = 0.37491E+04, tol = 0.47607E+04, time = 6.45 | CG iter. 11 -- res = 0.16910E+04, tol = 0.47607E+04, time = 6.89 | CG iter. 12 -- res = 0.87709E+03, tol = 0.47607E+04, time = 12.89 | CG iter. 13 -- res = 0.49080E+03, tol = 0.47607E+04, time = 6.43 | CG iter. 14 -- res = 0.27670E+03, tol = 0.47607E+04, time = 6.97 | CG iter. 15 -- res = 0.14298E+03, tol = 0.47607E+04, time = 6.51 | CG iter. 16 -- res = 0.67664E+02, tol = 0.47607E+04, time = 7.09 | CG iter. 17 -- res = 0.31599E+02, tol = 0.47607E+04, time = 6.88 | CG iter. 18 -- res = 0.15433E+02, tol = 0.47607E+04, time = 6.80 | CG iter. 19 -- res = 0.83407E+01, tol = 0.47607E+04, time = 6.66 | CG iter. 20 -- res = 0.46598E+01, tol = 0.47607E+04, time = 6.89 | CG iter. 21 -- res = 0.25527E+01, tol = 0.47607E+04, time = 6.75 | CG iter. 22 -- res = 0.12950E+01, tol = 0.47607E+04, time = 6.89 | CG iter. 23 -- res = 0.65196E+00, tol = 0.47607E+04, time = 6.87 | CG iter. 24 -- res = 0.34536E+00, tol = 0.47607E+04, time = 8.30 | CG iter. 25 -- res = 0.18969E+00, tol = 0.47607E+04, time = 7.44 | CG iter. 26 -- res = 0.10831E+00, tol = 0.47607E+04, time = 7.11 | CG iter. 27 -- res = 0.60247E-01, tol = 0.47607E+04, time = 6.80 | CG iter. 28 -- res = 0.32218E-01, tol = 0.47607E+04, time = 6.50 | CG iter. 29 -- res = 0.16788E-01, tol = 0.47607E+04, time = 6.65 | CG iter. 30 -- res = 0.89109E-02, tol = 0.47607E+04, time = 6.73 | CG iter. 31 -- res = 0.48884E-02, tol = 0.47607E+04, time = 6.57 | CG iter. 32 -- res = 0.27924E-02, tol = 0.47607E+04, time = 6.80 | CG iter. 33 -- res = 0.15881E-02, tol = 0.47607E+04, time = 6.83 | CG iter. 34 -- res = 0.85087E-03, tol = 0.47607E+04, time = 7.07 | CG iter. 35 -- res = 0.43557E-03, tol = 0.47607E+04, time = 6.97 | Final CG iter 36 -- res = 0.43557E-03, tol = 0.47607E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 2.987 2.727 | New value 1.929 | Old value 2.987 | Difference -1.058 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.58433E+05, tol = 0.47627E+18, time = 1.99 | CG iter. 2 -- res = 0.18224E+02, tol = 0.47627E+18, time = 2.16 | CG iter. 3 -- res = 0.39675E+00, tol = 0.47627E+18, time = 2.16 | CG iter. 4 -- res = 0.14927E-03, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.17329E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9596241.711 | (Sampled value in CG: 9575300.843 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.471780 | New value = -3.494740 | poltype: 1 pol: 1 CPU time specind = 2.0735025E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.20522E+07, tol = 0.25612E+01, time = 2.93 | CG iter. 2 -- res = 0.76258E+06, tol = 0.25612E+01, time = 2.45 | CG iter. 3 -- res = 0.14197E+06, tol = 0.25612E+01, time = 2.71 | CG iter. 4 -- res = 0.51373E+05, tol = 0.25612E+01, time = 3.04 | CG iter. 5 -- res = 0.27453E+05, tol = 0.25612E+01, time = 2.98 | CG iter. 6 -- res = 0.15100E+05, tol = 0.25612E+01, time = 2.82 | CG iter. 7 -- res = 0.67350E+04, tol = 0.25612E+01, time = 2.86 | CG iter. 8 -- res = 0.31775E+04, tol = 0.25612E+01, time = 3.40 | CG iter. 9 -- res = 0.13581E+04, tol = 0.25612E+01, time = 2.85 | CG iter. 10 -- res = 0.53522E+03, tol = 0.25612E+01, time = 2.79 | CG iter. 11 -- res = 0.21593E+03, tol = 0.25612E+01, time = 2.57 | CG iter. 12 -- res = 0.10672E+03, tol = 0.25612E+01, time = 2.83 | CG iter. 13 -- res = 0.55322E+02, tol = 0.25612E+01, time = 2.82 | CG iter. 14 -- res = 0.28219E+02, tol = 0.25612E+01, time = 2.79 | CG iter. 15 -- res = 0.13749E+02, tol = 0.25612E+01, time = 2.76 | CG iter. 16 -- res = 0.61517E+01, tol = 0.25612E+01, time = 2.95 | CG iter. 17 -- res = 0.26071E+01, tol = 0.25612E+01, time = 2.84 | CG iter. 18 -- res = 0.11664E+01, tol = 0.25612E+01, time = 2.61 | CG iter. 19 -- res = 0.53558E+00, tol = 0.25612E+01, time = 2.55 | CG iter. 20 -- res = 0.26938E+00, tol = 0.25612E+01, time = 2.99 | CG iter. 21 -- res = 0.14204E+00, tol = 0.25612E+01, time = 2.77 | CG iter. 22 -- res = 0.69827E-01, tol = 0.25612E+01, time = 2.78 | CG iter. 23 -- res = 0.31255E-01, tol = 0.25612E+01, time = 3.09 | CG iter. 24 -- res = 0.14465E-01, tol = 0.25612E+01, time = 2.80 | CG iter. 25 -- res = 0.68735E-02, tol = 0.25612E+01, time = 2.91 | CG iter. 26 -- res = 0.34202E-02, tol = 0.25612E+01, time = 2.83 | CG iter. 27 -- res = 0.17609E-02, tol = 0.25612E+01, time = 2.86 | CG iter. 28 -- res = 0.89877E-03, tol = 0.25612E+01, time = 2.77 | CG iter. 29 -- res = 0.43040E-03, tol = 0.25612E+01, time = 2.75 | CG iter. 30 -- res = 0.19758E-03, tol = 0.25612E+01, time = 3.01 | CG iter. 31 -- res = 0.93967E-04, tol = 0.25612E+01, time = 2.91 | CG iter. 32 -- res = 0.45873E-04, tol = 0.25612E+01, time = 2.87 | CG iter. 33 -- res = 0.22743E-04, tol = 0.25612E+01, time = 3.01 | CG iter. 34 -- res = 0.11557E-04, tol = 0.25612E+01, time = 2.94 | CG iter. 35 -- res = 0.57109E-05, tol = 0.25612E+01, time = 2.54 | CG iter. 36 -- res = 0.27173E-05, tol = 0.25612E+01, time = 2.99 | CG iter. 37 -- res = 0.12260E-05, tol = 0.25612E+01, time = 2.95 | CG iter. 38 -- res = 0.60769E-06, tol = 0.25612E+01, time = 2.81 | CG iter. 39 -- res = 0.29091E-06, tol = 0.25612E+01, time = 3.00 | CG iter. 40 -- res = 0.14066E-06, tol = 0.25612E+01, time = 2.83 | CG iter. 41 -- res = 0.72878E-07, tol = 0.25612E+01, time = 2.76 | CG iter. 42 -- res = 0.35905E-07, tol = 0.25612E+01, time = 2.87 | CG iter. 43 -- res = 0.16402E-07, tol = 0.25612E+01, time = 9.53 | CG iter. 44 -- res = 0.73815E-08, tol = 0.25612E+01, time = 2.77 | CG iter. 45 -- res = 0.35437E-08, tol = 0.25612E+01, time = 2.70 | CG iter. 46 -- res = 0.17590E-08, tol = 0.25612E+01, time = 2.78 | CG iter. 47 -- res = 0.87703E-09, tol = 0.25612E+01, time = 2.65 | CG iter. 48 -- res = 0.42532E-09, tol = 0.25612E+01, time = 2.83 | CG iter. 49 -- res = 0.20341E-09, tol = 0.25612E+01, time = 2.87 | CG iter. 50 -- res = 0.90268E-10, tol = 0.25612E+01, time = 2.58 | Final CG iter 51 -- res = 0.90268E-10, tol = 0.25612E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.958 5.520 | New value 2.633 | Old value -1.958 | Difference 4.591 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.17 | CG iter. 1 -- res = 0.22198E+05, tol = 0.47627E+18, time = 1.92 | CG iter. 2 -- res = 0.27183E+02, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.70065E+00, tol = 0.47627E+18, time = 2.10 | CG iter. 4 -- res = 0.10773E-02, tol = 0.47627E+18, time = 1.87 | Final CG iter 5 -- res = 0.32222E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9596241.711 | (Sampled value in CG: 9581620.315 ) | CPU time specind = 1226.051 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.68235E+08, tol = 0.57588E+04, time = 12.58 | CG iter. 2 -- res = 0.58782E+08, tol = 0.57588E+04, time = 12.44 | CG iter. 3 -- res = 0.15529E+08, tol = 0.57588E+04, time = 12.39 | CG iter. 4 -- res = 0.65665E+07, tol = 0.57588E+04, time = 12.73 | CG iter. 5 -- res = 0.38347E+07, tol = 0.57588E+04, time = 12.23 | CG iter. 6 -- res = 0.22135E+07, tol = 0.57588E+04, time = 12.37 | CG iter. 7 -- res = 0.13326E+07, tol = 0.57588E+04, time = 12.23 | CG iter. 8 -- res = 0.87037E+06, tol = 0.57588E+04, time = 12.61 | CG iter. 9 -- res = 0.55609E+06, tol = 0.57588E+04, time = 12.61 | CG iter. 10 -- res = 0.34185E+06, tol = 0.57588E+04, time = 12.06 | CG iter. 11 -- res = 0.18401E+06, tol = 0.57588E+04, time = 12.28 | CG iter. 12 -- res = 0.97976E+05, tol = 0.57588E+04, time = 12.71 | CG iter. 13 -- res = 0.51635E+05, tol = 0.57588E+04, time = 12.04 | CG iter. 14 -- res = 0.28849E+05, tol = 0.57588E+04, time = 12.08 | CG iter. 15 -- res = 0.18044E+05, tol = 0.57588E+04, time = 12.20 | CG iter. 16 -- res = 0.12193E+05, tol = 0.57588E+04, time = 18.72 | CG iter. 17 -- res = 0.84206E+04, tol = 0.57588E+04, time = 12.35 | CG iter. 18 -- res = 0.57564E+04, tol = 0.57588E+04, time = 12.46 | CG iter. 19 -- res = 0.37258E+04, tol = 0.57588E+04, time = 12.46 | CG iter. 20 -- res = 0.24286E+04, tol = 0.57588E+04, time = 12.35 | CG iter. 21 -- res = 0.16351E+04, tol = 0.57588E+04, time = 12.34 | CG iter. 22 -- res = 0.12432E+04, tol = 0.57588E+04, time = 12.84 | CG iter. 23 -- res = 0.10723E+04, tol = 0.57588E+04, time = 13.93 | CG iter. 24 -- res = 0.10170E+04, tol = 0.57588E+04, time = 12.04 | CG iter. 25 -- res = 0.10391E+04, tol = 0.57588E+04, time = 12.20 | CG iter. 26 -- res = 0.10482E+04, tol = 0.57588E+04, time = 11.83 | CG iter. 27 -- res = 0.10160E+04, tol = 0.57588E+04, time = 12.74 | CG iter. 28 -- res = 0.92335E+03, tol = 0.57588E+04, time = 11.97 | CG iter. 29 -- res = 0.82182E+03, tol = 0.57588E+04, time = 12.00 | CG iter. 30 -- res = 0.76559E+03, tol = 0.57588E+04, time = 12.51 | CG iter. 31 -- res = 0.71545E+03, tol = 0.57588E+04, time = 12.86 | CG iter. 32 -- res = 0.67121E+03, tol = 0.57588E+04, time = 12.21 | CG iter. 33 -- res = 0.58337E+03, tol = 0.57588E+04, time = 12.44 | CG iter. 34 -- res = 0.46161E+03, tol = 0.57588E+04, time = 12.49 | CG iter. 35 -- res = 0.34651E+03, tol = 0.57588E+04, time = 12.42 | CG iter. 36 -- res = 0.26261E+03, tol = 0.57588E+04, time = 12.79 | CG iter. 37 -- res = 0.21398E+03, tol = 0.57588E+04, time = 12.03 | CG iter. 38 -- res = 0.19036E+03, tol = 0.57588E+04, time = 12.35 | CG iter. 39 -- res = 0.17748E+03, tol = 0.57588E+04, time = 18.41 | CG iter. 40 -- res = 0.16242E+03, tol = 0.57588E+04, time = 12.28 | CG iter. 41 -- res = 0.14534E+03, tol = 0.57588E+04, time = 12.20 | CG iter. 42 -- res = 0.12693E+03, tol = 0.57588E+04, time = 12.04 | CG iter. 43 -- res = 0.10955E+03, tol = 0.57588E+04, time = 11.99 | CG iter. 44 -- res = 0.99857E+02, tol = 0.57588E+04, time = 12.09 | CG iter. 45 -- res = 0.92535E+02, tol = 0.57588E+04, time = 12.51 | CG iter. 46 -- res = 0.87385E+02, tol = 0.57588E+04, time = 13.76 | CG iter. 47 -- res = 0.80721E+02, tol = 0.57588E+04, time = 12.47 | CG iter. 48 -- res = 0.69606E+02, tol = 0.57588E+04, time = 12.22 | CG iter. 49 -- res = 0.58319E+02, tol = 0.57588E+04, time = 11.80 | CG iter. 50 -- res = 0.48059E+02, tol = 0.57588E+04, time = 12.21 | CG iter. 51 -- res = 0.40537E+02, tol = 0.57588E+04, time = 12.34 | CG iter. 52 -- res = 0.36689E+02, tol = 0.57588E+04, time = 12.30 | CG iter. 53 -- res = 0.34437E+02, tol = 0.57588E+04, time = 12.52 | CG iter. 54 -- res = 0.31718E+02, tol = 0.57588E+04, time = 12.22 | CG iter. 55 -- res = 0.28749E+02, tol = 0.57588E+04, time = 12.31 | CG iter. 56 -- res = 0.25900E+02, tol = 0.57588E+04, time = 12.40 | CG iter. 57 -- res = 0.23508E+02, tol = 0.57588E+04, time = 12.12 | CG iter. 58 -- res = 0.22013E+02, tol = 0.57588E+04, time = 12.31 | CG iter. 59 -- res = 0.21275E+02, tol = 0.57588E+04, time = 11.69 | CG iter. 60 -- res = 0.20666E+02, tol = 0.57588E+04, time = 12.13 | Final CG iter 61 -- res = 0.20666E+02, tol = 0.57588E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.796 ( -229.509 -2229.714 2512.291 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 9580196.999 | Old band monopole 9596282.987 | Change to band monopole -16085.988 | Change to component monopole 16085.919 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.924 2.726 | New value -0.020 | Old value 1.924 | Difference -1.944 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.372 ( 6.044 9.588 -9.658 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.670 5.202 | New value 2.711 | Old value 6.670 | Difference -3.958 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.19635E+06, tol = 0.47627E+18, time = 2.07 | CG iter. 2 -- res = 0.24270E+02, tol = 0.47627E+18, time = 1.98 | CG iter. 3 -- res = 0.52565E+00, tol = 0.47627E+18, time = 2.31 | CG iter. 4 -- res = 0.16852E-03, tol = 0.47627E+18, time = 2.25 | Final CG iter 5 -- res = 0.24159E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 9580155.793 | (Sampled value in CG: 9555966.796 ) | Chain = 1 -- chisq = 0.81542941E+09 | Chain = 1 -- wall time = 6157.595 sec Available RAM: MemAvailable: 377949056 kB Available Swap: SwapFree: 1125293748 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 429 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445318 | --> Sampling calibration, mode = relcal | relcal = 1.3444621E-02 7.3998998E-04 -1.6029570E-03 -1.2581654E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1400500 0.1582195 97043908.0358523 | BP delta = 0.1331202 0.1512898 97043915.0103841 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632427 | --> Sampling calibration, mode = relcal | relcal = -2.8210443E-03 -7.0387049E-04 1.6779683E-03 1.6142571E-03 -4.0735459E-04 6.4004393E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5539598 15215925.8908589 | BP delta = 0.0000000E+00 -0.5511269 15215926.6458461 | BP chisq diff = 0.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18203110025305 | --> Sampling calibration, mode = relcal | relcal = -7.4653529E-02 -5.8219694E-02 9.1513202E-02 4.1360024E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.9309513E-04 4.0644924E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8922E-05 | 2: delta_r/delta_0: 7.8239E-07 | 3: delta_s/delta_0: 2.4699E-07 | 4: delta_r/delta_0: 1.1989E-08 | 5: delta_s/delta_0: 3.3323E-09 | 6: delta_r/delta_0: 6.6112E-10 | 7: delta_s/delta_0: 4.5629E-08 | 8: delta_r/delta_0: 7.1365E-10 | 9: delta_s/delta_0: 2.0667E-09 | 10: delta_r/delta_0: 9.7310E-10 | 11: delta_s/delta_0: 5.2144E-09 | 12: delta_r/delta_0: 1.0333E-09 | 13: delta_s/delta_0: 1.0435E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 7.783275233519996E-004 2.738767317835323E-005 | BP delta = 6.9314450E-02 9.4085485E-02 50482051.9498992 | BP delta = 7.2597928E-02 9.7368963E-02 50482052.5956606 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02594138 | --> Sampling calibration, mode = relcal | relcal = -0.1066161 -9.5582083E-02 0.1449217 5.7276528E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2882548E-03 1.2939585E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.1226E-04 | 2: delta_r/delta_0: 6.4244E-06 | 3: delta_s/delta_0: 1.6686E-07 | 4: delta_r/delta_0: 5.1114E-08 | 5: delta_s/delta_0: 4.6048E-08 | 6: delta_r/delta_0: 1.0076E-08 | 7: delta_s/delta_0: 6.2864E-09 | 8: delta_r/delta_0: 2.6674E-09 | 9: delta_s/delta_0: 1.1413E-09 | 10: delta_r/delta_0: 7.9792E-10 | 11: delta_s/delta_0: 8.3296E-10 | 12: delta_r/delta_0: 1.9121E-10 | 13: delta_s/delta_0: 1.9884E-10 | 14: delta_r/delta_0: 1.3584E-10 | 15: delta_s/delta_0: 3.2436E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.133382767107768E-002 2.810994210755027E-005 | BP delta = -0.1841825 -0.1526669 57390489.1059466 | BP delta = -0.1791644 -0.1476488 57390490.0236694 | BP chisq diff = 0.9, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81222529 | --> Sampling calibration, mode = relcal | relcal = 0.2954928 0.2248212 -0.2838136 -0.2365004 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.5445669E-04 5.3618751E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.8179E-03 | 2: delta_r/delta_0: 4.2047E-05 | 3: delta_s/delta_0: 4.1089E-06 | 4: delta_r/delta_0: 6.1985E-07 | 5: delta_s/delta_0: 1.3513E-05 | 6: delta_r/delta_0: 1.8642E-06 | 7: delta_s/delta_0: 7.5936E-08 | 8: delta_r/delta_0: 3.8882E-08 | 9: delta_s/delta_0: 1.6931E-07 | 10: delta_r/delta_0: 6.6141E-09 | 11: delta_s/delta_0: 2.2506E-09 | 12: delta_r/delta_0: 5.9246E-10 | 13: delta_s/delta_0: 2.1038E-10 | 14: delta_r/delta_0: 1.4961E-10 | 15: delta_s/delta_0: 2.5248E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.712858325843627E-002 4.021710019586166E-005 | BP delta = -5.5024151E-02 -7.5595468E-02 72492898.8843041 | BP delta = -4.5907997E-02 -6.6479318E-02 72492899.2388830 | BP chisq diff = 0.4, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95910550 | --> Sampling calibration, mode = relcal | relcal = 0.1065530 0.1395159 -0.1102283 -0.1358405 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0302552E-02 1.3168907E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.7368E-04 | 2: delta_r/delta_0: 1.1622E-05 | 3: delta_s/delta_0: 8.8439E-06 | 4: delta_r/delta_0: 8.8859E-07 | 5: delta_s/delta_0: 3.0828E-07 | 6: delta_r/delta_0: 1.4324E-07 | 7: delta_s/delta_0: 3.6668E-07 | 8: delta_r/delta_0: 3.3554E-08 | 9: delta_s/delta_0: 7.3189E-07 | 10: delta_r/delta_0: 1.8875E-07 | 11: delta_s/delta_0: 2.0467E-09 | 12: delta_r/delta_0: 1.0485E-09 | 13: delta_s/delta_0: 1.1146E-09 | 14: delta_r/delta_0: 2.4630E-10 | 15: delta_s/delta_0: 6.3962E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.188250675519690E-002 3.697399897843102E-005 | BP delta = 0.1821285 0.2972032 72784270.6808203 | BP delta = 0.1512025 0.2662771 72784270.7777555 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.109738 | New value = -3.124302 | poltype: 2 pol: 1 CPU time specind = 2.4862051E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.112240 | New value = -3.157790 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.194494 | New value = -3.044613 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.104620 | New value = -3.219984 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.150157 | New value = -3.193677 | poltype: 2 pol: 2 CPU time specind = 1.7528057E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.13553E+08, tol = 0.75762E+01, time = 5.91 | CG iter. 2 -- res = 0.35685E+06, tol = 0.75762E+01, time = 6.27 | CG iter. 3 -- res = 0.52362E+05, tol = 0.75762E+01, time = 5.88 | CG iter. 4 -- res = 0.22599E+05, tol = 0.75762E+01, time = 5.95 | CG iter. 5 -- res = 0.12138E+05, tol = 0.75762E+01, time = 5.64 | CG iter. 6 -- res = 0.71013E+04, tol = 0.75762E+01, time = 5.91 | CG iter. 7 -- res = 0.55824E+04, tol = 0.75762E+01, time = 5.64 | CG iter. 8 -- res = 0.43966E+04, tol = 0.75762E+01, time = 5.74 | CG iter. 9 -- res = 0.38746E+04, tol = 0.75762E+01, time = 5.55 | CG iter. 10 -- res = 0.41202E+04, tol = 0.75762E+01, time = 5.78 | CG iter. 11 -- res = 0.38474E+04, tol = 0.75762E+01, time = 5.71 | CG iter. 12 -- res = 0.26876E+04, tol = 0.75762E+01, time = 6.39 | CG iter. 13 -- res = 0.17467E+04, tol = 0.75762E+01, time = 5.89 | CG iter. 14 -- res = 0.13326E+04, tol = 0.75762E+01, time = 5.64 | CG iter. 15 -- res = 0.10767E+04, tol = 0.75762E+01, time = 6.16 | CG iter. 16 -- res = 0.90135E+03, tol = 0.75762E+01, time = 5.70 | CG iter. 17 -- res = 0.65720E+03, tol = 0.75762E+01, time = 6.13 | CG iter. 18 -- res = 0.49617E+03, tol = 0.75762E+01, time = 5.92 | CG iter. 19 -- res = 0.41746E+03, tol = 0.75762E+01, time = 11.56 | CG iter. 20 -- res = 0.34778E+03, tol = 0.75762E+01, time = 5.67 | CG iter. 21 -- res = 0.24809E+03, tol = 0.75762E+01, time = 5.90 | CG iter. 22 -- res = 0.18776E+03, tol = 0.75762E+01, time = 6.01 | CG iter. 23 -- res = 0.16130E+03, tol = 0.75762E+01, time = 5.85 | CG iter. 24 -- res = 0.14587E+03, tol = 0.75762E+01, time = 5.72 | CG iter. 25 -- res = 0.11817E+03, tol = 0.75762E+01, time = 6.22 | CG iter. 26 -- res = 0.89321E+02, tol = 0.75762E+01, time = 5.52 | CG iter. 27 -- res = 0.72134E+02, tol = 0.75762E+01, time = 6.20 | CG iter. 28 -- res = 0.65376E+02, tol = 0.75762E+01, time = 5.77 | CG iter. 29 -- res = 0.55016E+02, tol = 0.75762E+01, time = 5.36 | CG iter. 30 -- res = 0.42745E+02, tol = 0.75762E+01, time = 5.77 | CG iter. 31 -- res = 0.34014E+02, tol = 0.75762E+01, time = 6.10 | CG iter. 32 -- res = 0.30565E+02, tol = 0.75762E+01, time = 5.65 | CG iter. 33 -- res = 0.25629E+02, tol = 0.75762E+01, time = 7.23 | CG iter. 34 -- res = 0.19742E+02, tol = 0.75762E+01, time = 7.66 | CG iter. 35 -- res = 0.15323E+02, tol = 0.75762E+01, time = 6.36 | CG iter. 36 -- res = 0.12786E+02, tol = 0.75762E+01, time = 5.65 | CG iter. 37 -- res = 0.11398E+02, tol = 0.75762E+01, time = 5.66 | CG iter. 38 -- res = 0.87088E+01, tol = 0.75762E+01, time = 5.94 | CG iter. 39 -- res = 0.63608E+01, tol = 0.75762E+01, time = 5.72 | CG iter. 40 -- res = 0.50656E+01, tol = 0.75762E+01, time = 5.99 | CG iter. 41 -- res = 0.41542E+01, tol = 0.75762E+01, time = 6.10 | CG iter. 42 -- res = 0.31565E+01, tol = 0.75762E+01, time = 6.25 | CG iter. 43 -- res = 0.23232E+01, tol = 0.75762E+01, time = 5.69 | CG iter. 44 -- res = 0.17321E+01, tol = 0.75762E+01, time = 6.21 | CG iter. 45 -- res = 0.13972E+01, tol = 0.75762E+01, time = 5.74 | CG iter. 46 -- res = 0.11055E+01, tol = 0.75762E+01, time = 5.80 | CG iter. 47 -- res = 0.84656E+00, tol = 0.75762E+01, time = 6.05 | CG iter. 48 -- res = 0.61563E+00, tol = 0.75762E+01, time = 5.58 | CG iter. 49 -- res = 0.48921E+00, tol = 0.75762E+01, time = 5.98 | CG iter. 50 -- res = 0.39136E+00, tol = 0.75762E+01, time = 5.77 | Final CG iter 51 -- res = 0.39136E+00, tol = 0.75762E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8682670.687 | Old band monopole 9580196.999 | Change to band monopole -897526.312 | Change to component monopole 897522.452 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.40052E+03, tol = 0.47627E+18, time = 2.00 | CG iter. 2 -- res = 0.72463E+01, tol = 0.47627E+18, time = 2.04 | CG iter. 3 -- res = 0.27776E-01, tol = 0.47627E+18, time = 2.18 | Final CG iter 4 -- res = 0.40680E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8682633.341 | (Sampled value in CG: 8665373.514 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.499638 | New value = 1.493694 | poltype: 2 pol: 1 CPU time specind = 2.0342112E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.524045 | New value = 1.445961 | poltype: 2 pol: 2 CPU time specind = 4.2209625E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.25 | CG iter. 1 -- res = 0.23988E+08, tol = 0.47554E+04, time = 6.62 | CG iter. 2 -- res = 0.52728E+07, tol = 0.47554E+04, time = 6.68 | CG iter. 3 -- res = 0.84064E+06, tol = 0.47554E+04, time = 6.44 | CG iter. 4 -- res = 0.36524E+06, tol = 0.47554E+04, time = 7.27 | CG iter. 5 -- res = 0.15602E+06, tol = 0.47554E+04, time = 6.78 | CG iter. 6 -- res = 0.80962E+05, tol = 0.47554E+04, time = 7.17 | CG iter. 7 -- res = 0.43257E+05, tol = 0.47554E+04, time = 6.37 | CG iter. 8 -- res = 0.21212E+05, tol = 0.47554E+04, time = 6.70 | CG iter. 9 -- res = 0.93550E+04, tol = 0.47554E+04, time = 6.75 | CG iter. 10 -- res = 0.38158E+04, tol = 0.47554E+04, time = 7.13 | CG iter. 11 -- res = 0.16917E+04, tol = 0.47554E+04, time = 6.99 | CG iter. 12 -- res = 0.87966E+03, tol = 0.47554E+04, time = 7.93 | CG iter. 13 -- res = 0.51025E+03, tol = 0.47554E+04, time = 7.25 | CG iter. 14 -- res = 0.28671E+03, tol = 0.47554E+04, time = 6.92 | CG iter. 15 -- res = 0.14466E+03, tol = 0.47554E+04, time = 6.85 | CG iter. 16 -- res = 0.67569E+02, tol = 0.47554E+04, time = 7.10 | CG iter. 17 -- res = 0.32055E+02, tol = 0.47554E+04, time = 6.68 | CG iter. 18 -- res = 0.16320E+02, tol = 0.47554E+04, time = 6.65 | CG iter. 19 -- res = 0.89013E+01, tol = 0.47554E+04, time = 6.94 | CG iter. 20 -- res = 0.50796E+01, tol = 0.47554E+04, time = 6.50 | CG iter. 21 -- res = 0.27815E+01, tol = 0.47554E+04, time = 6.89 | CG iter. 22 -- res = 0.14076E+01, tol = 0.47554E+04, time = 6.68 | CG iter. 23 -- res = 0.69973E+00, tol = 0.47554E+04, time = 6.64 | CG iter. 24 -- res = 0.36034E+00, tol = 0.47554E+04, time = 6.93 | CG iter. 25 -- res = 0.19780E+00, tol = 0.47554E+04, time = 6.94 | CG iter. 26 -- res = 0.11408E+00, tol = 0.47554E+04, time = 6.95 | CG iter. 27 -- res = 0.65120E-01, tol = 0.47554E+04, time = 6.99 | CG iter. 28 -- res = 0.34862E-01, tol = 0.47554E+04, time = 7.27 | CG iter. 29 -- res = 0.18046E-01, tol = 0.47554E+04, time = 6.46 | CG iter. 30 -- res = 0.95155E-02, tol = 0.47554E+04, time = 7.27 | CG iter. 31 -- res = 0.52433E-02, tol = 0.47554E+04, time = 6.41 | CG iter. 32 -- res = 0.29784E-02, tol = 0.47554E+04, time = 7.25 | CG iter. 33 -- res = 0.16798E-02, tol = 0.47554E+04, time = 6.59 | CG iter. 34 -- res = 0.90774E-03, tol = 0.47554E+04, time = 6.85 | CG iter. 35 -- res = 0.47719E-03, tol = 0.47554E+04, time = 6.78 | Final CG iter 36 -- res = 0.47719E-03, tol = 0.47554E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.025 2.728 | New value -4.725 | Old value -0.025 | Difference -4.699 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.11425E+07, tol = 0.47627E+18, time = 1.90 | CG iter. 2 -- res = 0.18372E+02, tol = 0.47627E+18, time = 2.34 | CG iter. 3 -- res = 0.36546E+00, tol = 0.47627E+18, time = 1.99 | CG iter. 4 -- res = 0.15930E-03, tol = 0.47627E+18, time = 2.35 | Final CG iter 5 -- res = 0.10144E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8682633.341 | (Sampled value in CG: 8662983.724 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.494740 | New value = -3.746292 | poltype: 1 pol: 1 CPU time specind = 1.8203020E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.12 | CG iter. 1 -- res = 0.22829E+07, tol = 0.24544E+01, time = 2.93 | CG iter. 2 -- res = 0.62010E+06, tol = 0.24544E+01, time = 2.97 | CG iter. 3 -- res = 0.12664E+06, tol = 0.24544E+01, time = 2.72 | CG iter. 4 -- res = 0.58789E+05, tol = 0.24544E+01, time = 2.88 | CG iter. 5 -- res = 0.37532E+05, tol = 0.24544E+01, time = 3.07 | CG iter. 6 -- res = 0.17535E+05, tol = 0.24544E+01, time = 2.87 | CG iter. 7 -- res = 0.61863E+04, tol = 0.24544E+01, time = 2.68 | CG iter. 8 -- res = 0.26546E+04, tol = 0.24544E+01, time = 2.92 | CG iter. 9 -- res = 0.11580E+04, tol = 0.24544E+01, time = 2.74 | CG iter. 10 -- res = 0.44360E+03, tol = 0.24544E+01, time = 2.67 | CG iter. 11 -- res = 0.19881E+03, tol = 0.24544E+01, time = 2.68 | CG iter. 12 -- res = 0.10215E+03, tol = 0.24544E+01, time = 2.77 | CG iter. 13 -- res = 0.50714E+02, tol = 0.24544E+01, time = 2.90 | CG iter. 14 -- res = 0.23753E+02, tol = 0.24544E+01, time = 2.73 | CG iter. 15 -- res = 0.10016E+02, tol = 0.24544E+01, time = 9.59 | CG iter. 16 -- res = 0.42554E+01, tol = 0.24544E+01, time = 2.38 | CG iter. 17 -- res = 0.19322E+01, tol = 0.24544E+01, time = 2.88 | CG iter. 18 -- res = 0.95153E+00, tol = 0.24544E+01, time = 2.95 | CG iter. 19 -- res = 0.46848E+00, tol = 0.24544E+01, time = 2.69 | CG iter. 20 -- res = 0.22552E+00, tol = 0.24544E+01, time = 2.80 | CG iter. 21 -- res = 0.10303E+00, tol = 0.24544E+01, time = 2.65 | CG iter. 22 -- res = 0.43216E-01, tol = 0.24544E+01, time = 2.90 | CG iter. 23 -- res = 0.20462E-01, tol = 0.24544E+01, time = 2.60 | CG iter. 24 -- res = 0.99498E-02, tol = 0.24544E+01, time = 2.71 | CG iter. 25 -- res = 0.51950E-02, tol = 0.24544E+01, time = 2.68 | CG iter. 26 -- res = 0.25128E-02, tol = 0.24544E+01, time = 2.92 | CG iter. 27 -- res = 0.11186E-02, tol = 0.24544E+01, time = 2.94 | CG iter. 28 -- res = 0.52462E-03, tol = 0.24544E+01, time = 2.82 | CG iter. 29 -- res = 0.24698E-03, tol = 0.24544E+01, time = 2.70 | CG iter. 30 -- res = 0.12436E-03, tol = 0.24544E+01, time = 2.67 | CG iter. 31 -- res = 0.63103E-04, tol = 0.24544E+01, time = 2.69 | CG iter. 32 -- res = 0.31281E-04, tol = 0.24544E+01, time = 2.51 | CG iter. 33 -- res = 0.13677E-04, tol = 0.24544E+01, time = 2.84 | CG iter. 34 -- res = 0.60994E-05, tol = 0.24544E+01, time = 3.28 | CG iter. 35 -- res = 0.30356E-05, tol = 0.24544E+01, time = 2.75 | CG iter. 36 -- res = 0.15314E-05, tol = 0.24544E+01, time = 2.64 | CG iter. 37 -- res = 0.76483E-06, tol = 0.24544E+01, time = 2.76 | CG iter. 38 -- res = 0.35832E-06, tol = 0.24544E+01, time = 2.82 | CG iter. 39 -- res = 0.15688E-06, tol = 0.24544E+01, time = 2.69 | CG iter. 40 -- res = 0.70814E-07, tol = 0.24544E+01, time = 2.80 | CG iter. 41 -- res = 0.35432E-07, tol = 0.24544E+01, time = 3.09 | CG iter. 42 -- res = 0.17901E-07, tol = 0.24544E+01, time = 2.58 | CG iter. 43 -- res = 0.84747E-08, tol = 0.24544E+01, time = 2.90 | CG iter. 44 -- res = 0.39235E-08, tol = 0.24544E+01, time = 2.82 | CG iter. 45 -- res = 0.17777E-08, tol = 0.24544E+01, time = 3.63 | CG iter. 46 -- res = 0.81996E-09, tol = 0.24544E+01, time = 3.92 | CG iter. 47 -- res = 0.39972E-09, tol = 0.24544E+01, time = 2.86 | CG iter. 48 -- res = 0.19777E-09, tol = 0.24544E+01, time = 2.83 | CG iter. 49 -- res = 0.91054E-10, tol = 0.24544E+01, time = 3.21 | CG iter. 50 -- res = 0.43312E-10, tol = 0.24544E+01, time = 2.60 | Final CG iter 51 -- res = 0.43312E-10, tol = 0.24544E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 1.797 5.483 | New value 3.043 | Old value 1.797 | Difference 1.247 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.18 | CG iter. 1 -- res = 0.28468E+04, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.14489E+02, tol = 0.47627E+18, time = 2.20 | CG iter. 3 -- res = 0.17432E+00, tol = 0.47627E+18, time = 2.15 | Final CG iter 4 -- res = 0.25327E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8682633.341 | (Sampled value in CG: 8670033.800 ) | CPU time specind = 1217.291 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.26 | CG iter. 1 -- res = 0.68423E+08, tol = 0.57903E+04, time = 12.54 | CG iter. 2 -- res = 0.58531E+08, tol = 0.57903E+04, time = 12.31 | CG iter. 3 -- res = 0.15373E+08, tol = 0.57903E+04, time = 12.54 | CG iter. 4 -- res = 0.65963E+07, tol = 0.57903E+04, time = 11.78 | CG iter. 5 -- res = 0.39676E+07, tol = 0.57903E+04, time = 12.38 | CG iter. 6 -- res = 0.23081E+07, tol = 0.57903E+04, time = 12.21 | CG iter. 7 -- res = 0.13475E+07, tol = 0.57903E+04, time = 12.00 | CG iter. 8 -- res = 0.87287E+06, tol = 0.57903E+04, time = 12.46 | CG iter. 9 -- res = 0.56062E+06, tol = 0.57903E+04, time = 18.39 | CG iter. 10 -- res = 0.34259E+06, tol = 0.57903E+04, time = 12.17 | CG iter. 11 -- res = 0.18897E+06, tol = 0.57903E+04, time = 12.35 | CG iter. 12 -- res = 0.96516E+05, tol = 0.57903E+04, time = 12.52 | CG iter. 13 -- res = 0.50740E+05, tol = 0.57903E+04, time = 11.95 | CG iter. 14 -- res = 0.29058E+05, tol = 0.57903E+04, time = 12.40 | CG iter. 15 -- res = 0.18340E+05, tol = 0.57903E+04, time = 12.24 | CG iter. 16 -- res = 0.12750E+05, tol = 0.57903E+04, time = 13.78 | CG iter. 17 -- res = 0.90801E+04, tol = 0.57903E+04, time = 12.91 | CG iter. 18 -- res = 0.63829E+04, tol = 0.57903E+04, time = 12.18 | CG iter. 19 -- res = 0.43560E+04, tol = 0.57903E+04, time = 12.11 | CG iter. 20 -- res = 0.29722E+04, tol = 0.57903E+04, time = 11.94 | CG iter. 21 -- res = 0.21231E+04, tol = 0.57903E+04, time = 12.02 | CG iter. 22 -- res = 0.17555E+04, tol = 0.57903E+04, time = 12.18 | CG iter. 23 -- res = 0.16624E+04, tol = 0.57903E+04, time = 11.90 | CG iter. 24 -- res = 0.17171E+04, tol = 0.57903E+04, time = 12.31 | CG iter. 25 -- res = 0.18437E+04, tol = 0.57903E+04, time = 12.52 | CG iter. 26 -- res = 0.18729E+04, tol = 0.57903E+04, time = 12.33 | CG iter. 27 -- res = 0.17599E+04, tol = 0.57903E+04, time = 11.84 | CG iter. 28 -- res = 0.15587E+04, tol = 0.57903E+04, time = 12.29 | CG iter. 29 -- res = 0.13658E+04, tol = 0.57903E+04, time = 12.50 | CG iter. 30 -- res = 0.12483E+04, tol = 0.57903E+04, time = 11.75 | CG iter. 31 -- res = 0.11267E+04, tol = 0.57903E+04, time = 11.63 | CG iter. 32 -- res = 0.98964E+03, tol = 0.57903E+04, time = 12.40 | CG iter. 33 -- res = 0.81399E+03, tol = 0.57903E+04, time = 19.19 | CG iter. 34 -- res = 0.61484E+03, tol = 0.57903E+04, time = 12.29 | CG iter. 35 -- res = 0.45129E+03, tol = 0.57903E+04, time = 12.25 | CG iter. 36 -- res = 0.34762E+03, tol = 0.57903E+04, time = 12.54 | CG iter. 37 -- res = 0.29678E+03, tol = 0.57903E+04, time = 12.41 | CG iter. 38 -- res = 0.27282E+03, tol = 0.57903E+04, time = 12.43 | CG iter. 39 -- res = 0.25878E+03, tol = 0.57903E+04, time = 12.52 | CG iter. 40 -- res = 0.24006E+03, tol = 0.57903E+04, time = 14.30 | CG iter. 41 -- res = 0.21518E+03, tol = 0.57903E+04, time = 12.18 | CG iter. 42 -- res = 0.18480E+03, tol = 0.57903E+04, time = 12.60 | CG iter. 43 -- res = 0.16082E+03, tol = 0.57903E+04, time = 12.12 | CG iter. 44 -- res = 0.14711E+03, tol = 0.57903E+04, time = 12.20 | CG iter. 45 -- res = 0.13583E+03, tol = 0.57903E+04, time = 12.16 | CG iter. 46 -- res = 0.12390E+03, tol = 0.57903E+04, time = 12.06 | CG iter. 47 -- res = 0.11174E+03, tol = 0.57903E+04, time = 12.00 | CG iter. 48 -- res = 0.97276E+02, tol = 0.57903E+04, time = 12.18 | CG iter. 49 -- res = 0.79580E+02, tol = 0.57903E+04, time = 12.55 | CG iter. 50 -- res = 0.63779E+02, tol = 0.57903E+04, time = 12.24 | CG iter. 51 -- res = 0.55691E+02, tol = 0.57903E+04, time = 12.18 | CG iter. 52 -- res = 0.52249E+02, tol = 0.57903E+04, time = 12.39 | CG iter. 53 -- res = 0.50466E+02, tol = 0.57903E+04, time = 12.37 | CG iter. 54 -- res = 0.47352E+02, tol = 0.57903E+04, time = 12.06 | CG iter. 55 -- res = 0.42755E+02, tol = 0.57903E+04, time = 12.35 | CG iter. 56 -- res = 0.39040E+02, tol = 0.57903E+04, time = 12.15 | CG iter. 57 -- res = 0.35498E+02, tol = 0.57903E+04, time = 18.46 | CG iter. 58 -- res = 0.32971E+02, tol = 0.57903E+04, time = 12.14 | CG iter. 59 -- res = 0.31486E+02, tol = 0.57903E+04, time = 12.50 | CG iter. 60 -- res = 0.30502E+02, tol = 0.57903E+04, time = 12.15 | Final CG iter 61 -- res = 0.30502E+02, tol = 0.57903E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.710 ( -229.898 -2230.125 2512.577 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 10639197.209 | Old band monopole 8682670.687 | Change to band monopole 1956526.522 | Change to component monopole -1956518.106 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -4.737 2.743 | New value 4.214 | Old value -4.737 | Difference 8.951 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.340 ( 7.384 9.945 -9.601 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 13.359 4.085 | New value -2.255 | Old value 13.359 | Difference -15.614 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.20 | CG iter. 1 -- res = 0.44821E+07, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.11406E+03, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.33643E+01, tol = 0.47627E+18, time = 2.68 | CG iter. 4 -- res = 0.51417E-02, tol = 0.47627E+18, time = 3.21 | Final CG iter 5 -- res = 0.11450E-04, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 10639151.447 | (Sampled value in CG: 10617254.779 ) | Chain = 1 -- chisq = 0.81532735E+09 | Chain = 1 -- wall time = 5780.739 sec Available RAM: MemAvailable: 377485324 kB Available Swap: SwapFree: 1125979828 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 430 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445849 | --> Sampling calibration, mode = relcal | relcal = 1.3430180E-02 7.5437018E-04 -1.6159260E-03 -1.2568624E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1400500 0.1582195 9402809.75019186 | BP delta = 0.1400500 0.1622278 9402796.45397666 | BP chisq diff = -13.3, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632384 | --> Sampling calibration, mode = relcal | relcal = -2.8210878E-03 -7.0299982E-04 1.6774514E-03 1.6120006E-03 -4.0629428E-04 6.4092991E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5511269 15217807.7574933 | BP delta = 0.0000000E+00 -0.5483571 15217806.9911300 | BP chisq diff = -0.8, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18159572462050 | --> Sampling calibration, mode = relcal | relcal = -7.4756697E-02 -5.8310810E-02 9.1647916E-02 4.1419592E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.5514764E-04 4.0987688E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3816E-05 | 2: delta_r/delta_0: 7.5348E-07 | 3: delta_s/delta_0: 2.5553E-07 | 4: delta_r/delta_0: 1.1043E-08 | 5: delta_s/delta_0: 1.8078E-08 | 6: delta_r/delta_0: 3.9740E-09 | 7: delta_s/delta_0: 1.8288E-10 | 8: delta_r/delta_0: 8.3665E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 9.916463952678854E-004 2.739722431677189E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3816E-05 | 2: delta_r/delta_0: 7.5348E-07 | 3: delta_s/delta_0: 2.5553E-07 | 4: delta_r/delta_0: 1.1043E-08 | 5: delta_s/delta_0: 1.8079E-08 | 6: delta_r/delta_0: 3.9741E-09 | 7: delta_s/delta_0: 1.8288E-10 | 8: delta_r/delta_0: 8.3665E-11 | Reached bicg-stab tolerance | BP delta = 6.9314450E-02 9.4085485E-02 3501272.91509584 | BP delta = 6.9314450E-02 9.4353989E-02 3501035.71633087 | BP chisq diff = -237.2, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02598933 | --> Sampling calibration, mode = relcal | relcal = -0.1066711 -9.5512599E-02 0.1449268 5.7256907E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.3873094E-03 1.6346385E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.3245E-04 | 2: delta_r/delta_0: 1.0809E-05 | 3: delta_s/delta_0: 1.6559E-07 | 4: delta_r/delta_0: 4.8131E-08 | 5: delta_s/delta_0: 5.0270E-08 | 6: delta_r/delta_0: 1.0034E-08 | 7: delta_s/delta_0: 5.3578E-09 | 8: delta_r/delta_0: 2.9451E-09 | 9: delta_s/delta_0: 1.3626E-09 | 10: delta_r/delta_0: 8.2652E-10 | 11: delta_s/delta_0: 5.0779E-10 | 12: delta_r/delta_0: 2.7135E-10 | 13: delta_s/delta_0: 1.4386E-10 | 14: delta_r/delta_0: 1.1104E-10 | 15: delta_s/delta_0: 8.7856E-10 | 16: delta_r/delta_0: 1.0630E-10 | 17: delta_s/delta_0: 4.1952E-10 | 18: delta_r/delta_0: 1.2783E-10 | 19: delta_s/delta_0: 4.5700E-10 | 20: delta_r/delta_0: 4.8446E-12 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.188521598743019E-002 2.810850272404351E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 5.3246E-04 | 2: delta_r/delta_0: 1.0810E-05 | 3: delta_s/delta_0: 1.6560E-07 | 4: delta_r/delta_0: 4.8137E-08 | 5: delta_s/delta_0: 5.0248E-08 | 6: delta_r/delta_0: 1.0035E-08 | 7: delta_s/delta_0: 5.3576E-09 | 8: delta_r/delta_0: 2.9453E-09 | 9: delta_s/delta_0: 1.3628E-09 | 10: delta_r/delta_0: 8.2655E-10 | 11: delta_s/delta_0: 5.0779E-10 | 12: delta_r/delta_0: 2.7136E-10 | 13: delta_s/delta_0: 1.4387E-10 | 14: delta_r/delta_0: 1.1104E-10 | 15: delta_s/delta_0: 9.1236E-10 | 16: delta_r/delta_0: 1.0744E-10 | 17: delta_s/delta_0: 4.2303E-10 | 18: delta_r/delta_0: 1.3219E-10 | 19: delta_s/delta_0: 4.5299E-10 | 20: delta_r/delta_0: 4.9310E-12 | Reached bicg-stab tolerance | BP delta = -0.1791644 -0.1476488 2841646.76379619 | BP delta = -0.1791644 -0.1473780 2841653.12943944 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81218792 | --> Sampling calibration, mode = relcal | relcal = 0.2954529 0.2247821 -0.2837040 -0.2365310 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.2030011E-04 5.7182126E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0473E-03 | 2: delta_r/delta_0: 2.3944E-05 | 3: delta_s/delta_0: 3.3269E-05 | 4: delta_r/delta_0: 3.1373E-06 | 5: delta_s/delta_0: 1.0147E-06 | 6: delta_r/delta_0: 1.5641E-07 | 7: delta_s/delta_0: 6.2767E-08 | 8: delta_r/delta_0: 3.4542E-08 | 9: delta_s/delta_0: 3.9231E-07 | 10: delta_r/delta_0: 2.5070E-09 | 11: delta_s/delta_0: 9.1171E-10 | 12: delta_r/delta_0: 3.8988E-10 | 13: delta_s/delta_0: 1.4022E-09 | 14: delta_r/delta_0: 5.2860E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.829930503516766E-002 4.021858751611315E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.0468E-03 | 2: delta_r/delta_0: 2.3931E-05 | 3: delta_s/delta_0: 3.3285E-05 | 4: delta_r/delta_0: 3.1386E-06 | 5: delta_s/delta_0: 1.0138E-06 | 6: delta_r/delta_0: 1.5628E-07 | 7: delta_s/delta_0: 6.2758E-08 | 8: delta_r/delta_0: 3.4523E-08 | 9: delta_s/delta_0: 3.9199E-07 | 10: delta_r/delta_0: 2.5049E-09 | 11: delta_s/delta_0: 9.1048E-10 | 12: delta_r/delta_0: 3.9011E-10 | 13: delta_s/delta_0: 1.4039E-09 | 14: delta_r/delta_0: 5.2970E-11 | Reached bicg-stab tolerance | BP delta = -4.5907997E-02 -6.6479318E-02 2827606.31118131 | BP delta = -4.5907997E-02 -5.1512539E-02 2827697.94392144 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95909662 | --> Sampling calibration, mode = relcal | relcal = 0.1064903 0.1395721 -0.1103168 -0.1357456 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0291638E-02 1.2390347E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.1413E-04 | 2: delta_r/delta_0: 1.0239E-05 | 3: delta_s/delta_0: 8.8404E-05 | 4: delta_r/delta_0: 4.9496E-06 | 5: delta_s/delta_0: 2.5383E-07 | 6: delta_r/delta_0: 1.3265E-07 | 7: delta_s/delta_0: 6.2854E-07 | 8: delta_r/delta_0: 3.3379E-08 | 9: delta_s/delta_0: 1.0932E-08 | 10: delta_r/delta_0: 3.5909E-09 | 11: delta_s/delta_0: 1.8847E-09 | 12: delta_r/delta_0: 8.0958E-10 | 13: delta_s/delta_0: 3.5126E-08 | 14: delta_r/delta_0: 5.1750E-09 | 15: delta_s/delta_0: 5.5985E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.188034082931878E-002 3.697430165385003E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.1417E-04 | 2: delta_r/delta_0: 1.0240E-05 | 3: delta_s/delta_0: 8.8395E-05 | 4: delta_r/delta_0: 4.9482E-06 | 5: delta_s/delta_0: 2.5383E-07 | 6: delta_r/delta_0: 1.3263E-07 | 7: delta_s/delta_0: 6.2804E-07 | 8: delta_r/delta_0: 3.3379E-08 | 9: delta_s/delta_0: 1.0927E-08 | 10: delta_r/delta_0: 3.5940E-09 | 11: delta_s/delta_0: 1.8844E-09 | 12: delta_r/delta_0: 8.0955E-10 | 13: delta_s/delta_0: 3.5429E-08 | 14: delta_r/delta_0: 5.2177E-09 | 15: delta_s/delta_0: 5.5977E-11 | Reached bicg-stab tolerance | BP delta = 0.1512025 0.2662771 3003559.50216485 | BP delta = 0.1512025 0.2760787 3003619.67309722 | BP chisq diff = 0.0, accept = F | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.124302 | New value = -3.292822 | poltype: 2 pol: 1 CPU time specind = 1.8258095E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.157790 | New value = -3.225929 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.044613 | New value = -3.148438 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.219984 | New value = -3.231495 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.193677 | New value = -3.122422 | poltype: 2 pol: 2 CPU time specind = 2.0887852E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.13582E+08, tol = 0.66113E+01, time = 5.73 | CG iter. 2 -- res = 0.35557E+06, tol = 0.66113E+01, time = 6.13 | CG iter. 3 -- res = 0.72327E+05, tol = 0.66113E+01, time = 5.82 | CG iter. 4 -- res = 0.70613E+05, tol = 0.66113E+01, time = 5.86 | CG iter. 5 -- res = 0.74603E+05, tol = 0.66113E+01, time = 5.64 | CG iter. 6 -- res = 0.74010E+05, tol = 0.66113E+01, time = 5.88 | CG iter. 7 -- res = 0.70345E+05, tol = 0.66113E+01, time = 5.65 | CG iter. 8 -- res = 0.55460E+05, tol = 0.66113E+01, time = 5.48 | CG iter. 9 -- res = 0.48104E+05, tol = 0.66113E+01, time = 5.81 | CG iter. 10 -- res = 0.41277E+05, tol = 0.66113E+01, time = 5.97 | CG iter. 11 -- res = 0.29646E+05, tol = 0.66113E+01, time = 5.47 | CG iter. 12 -- res = 0.23319E+05, tol = 0.66113E+01, time = 5.83 | CG iter. 13 -- res = 0.20830E+05, tol = 0.66113E+01, time = 5.76 | CG iter. 14 -- res = 0.19039E+05, tol = 0.66113E+01, time = 5.84 | CG iter. 15 -- res = 0.16069E+05, tol = 0.66113E+01, time = 6.02 | CG iter. 16 -- res = 0.11694E+05, tol = 0.66113E+01, time = 5.84 | CG iter. 17 -- res = 0.87649E+04, tol = 0.66113E+01, time = 5.81 | CG iter. 18 -- res = 0.77687E+04, tol = 0.66113E+01, time = 5.64 | CG iter. 19 -- res = 0.68865E+04, tol = 0.66113E+01, time = 5.90 | CG iter. 20 -- res = 0.56225E+04, tol = 0.66113E+01, time = 5.76 | CG iter. 21 -- res = 0.46341E+04, tol = 0.66113E+01, time = 6.24 | CG iter. 22 -- res = 0.40990E+04, tol = 0.66113E+01, time = 5.68 | CG iter. 23 -- res = 0.36576E+04, tol = 0.66113E+01, time = 5.56 | CG iter. 24 -- res = 0.30563E+04, tol = 0.66113E+01, time = 5.98 | CG iter. 25 -- res = 0.24705E+04, tol = 0.66113E+01, time = 5.93 | CG iter. 26 -- res = 0.20301E+04, tol = 0.66113E+01, time = 5.81 | CG iter. 27 -- res = 0.18618E+04, tol = 0.66113E+01, time = 5.80 | CG iter. 28 -- res = 0.16702E+04, tol = 0.66113E+01, time = 6.54 | CG iter. 29 -- res = 0.13537E+04, tol = 0.66113E+01, time = 11.30 | CG iter. 30 -- res = 0.11565E+04, tol = 0.66113E+01, time = 5.71 | CG iter. 31 -- res = 0.10352E+04, tol = 0.66113E+01, time = 5.88 | CG iter. 32 -- res = 0.92302E+03, tol = 0.66113E+01, time = 5.78 | CG iter. 33 -- res = 0.77455E+03, tol = 0.66113E+01, time = 5.93 | CG iter. 34 -- res = 0.61526E+03, tol = 0.66113E+01, time = 5.86 | CG iter. 35 -- res = 0.55390E+03, tol = 0.66113E+01, time = 5.84 | CG iter. 36 -- res = 0.51192E+03, tol = 0.66113E+01, time = 5.99 | CG iter. 37 -- res = 0.44368E+03, tol = 0.66113E+01, time = 6.06 | CG iter. 38 -- res = 0.35903E+03, tol = 0.66113E+01, time = 5.85 | CG iter. 39 -- res = 0.30529E+03, tol = 0.66113E+01, time = 5.83 | CG iter. 40 -- res = 0.28442E+03, tol = 0.66113E+01, time = 5.43 | CG iter. 41 -- res = 0.26383E+03, tol = 0.66113E+01, time = 5.70 | CG iter. 42 -- res = 0.21673E+03, tol = 0.66113E+01, time = 5.75 | CG iter. 43 -- res = 0.18397E+03, tol = 0.66113E+01, time = 6.66 | CG iter. 44 -- res = 0.16970E+03, tol = 0.66113E+01, time = 6.28 | CG iter. 45 -- res = 0.15338E+03, tol = 0.66113E+01, time = 6.37 | CG iter. 46 -- res = 0.13105E+03, tol = 0.66113E+01, time = 5.84 | CG iter. 47 -- res = 0.11348E+03, tol = 0.66113E+01, time = 6.02 | CG iter. 48 -- res = 0.98368E+02, tol = 0.66113E+01, time = 5.89 | CG iter. 49 -- res = 0.88011E+02, tol = 0.66113E+01, time = 5.84 | CG iter. 50 -- res = 0.74159E+02, tol = 0.66113E+01, time = 6.08 | Final CG iter 51 -- res = 0.74159E+02, tol = 0.66113E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8935657.894 | Old band monopole 10639197.209 | Change to band monopole -1703539.315 | Change to component monopole 1703531.988 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.15 | CG iter. 1 -- res = 0.63009E+06, tol = 0.47627E+18, time = 1.85 | CG iter. 2 -- res = 0.24070E+03, tol = 0.47627E+18, time = 2.24 | CG iter. 3 -- res = 0.46984E+01, tol = 0.47627E+18, time = 2.08 | CG iter. 4 -- res = 0.26374E-01, tol = 0.47627E+18, time = 2.04 | Final CG iter 5 -- res = 0.13215E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8935619.460 | (Sampled value in CG: 8869171.068 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.493694 | New value = 1.575306 | poltype: 2 pol: 1 CPU time specind = 1.8951178E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.445961 | New value = 1.513769 | poltype: 2 pol: 2 CPU time specind = 3.6361217E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 23.27 | CG iter. 1 -- res = 0.25505E+08, tol = 0.47774E+04, time = 6.28 | CG iter. 2 -- res = 0.53925E+07, tol = 0.47774E+04, time = 6.75 | CG iter. 3 -- res = 0.86014E+06, tol = 0.47774E+04, time = 6.85 | CG iter. 4 -- res = 0.35568E+06, tol = 0.47774E+04, time = 6.93 | CG iter. 5 -- res = 0.15493E+06, tol = 0.47774E+04, time = 6.83 | CG iter. 6 -- res = 0.82454E+05, tol = 0.47774E+04, time = 6.49 | CG iter. 7 -- res = 0.44942E+05, tol = 0.47774E+04, time = 6.60 | CG iter. 8 -- res = 0.21722E+05, tol = 0.47774E+04, time = 12.81 | CG iter. 9 -- res = 0.94691E+04, tol = 0.47774E+04, time = 6.51 | CG iter. 10 -- res = 0.38704E+04, tol = 0.47774E+04, time = 6.44 | CG iter. 11 -- res = 0.17371E+04, tol = 0.47774E+04, time = 6.32 | CG iter. 12 -- res = 0.89397E+03, tol = 0.47774E+04, time = 6.57 | CG iter. 13 -- res = 0.50529E+03, tol = 0.47774E+04, time = 6.72 | CG iter. 14 -- res = 0.28194E+03, tol = 0.47774E+04, time = 6.41 | CG iter. 15 -- res = 0.14608E+03, tol = 0.47774E+04, time = 6.77 | CG iter. 16 -- res = 0.70599E+02, tol = 0.47774E+04, time = 6.74 | CG iter. 17 -- res = 0.33512E+02, tol = 0.47774E+04, time = 6.99 | CG iter. 18 -- res = 0.16447E+02, tol = 0.47774E+04, time = 6.52 | CG iter. 19 -- res = 0.88406E+01, tol = 0.47774E+04, time = 6.89 | CG iter. 20 -- res = 0.49915E+01, tol = 0.47774E+04, time = 6.63 | CG iter. 21 -- res = 0.27757E+01, tol = 0.47774E+04, time = 8.03 | CG iter. 22 -- res = 0.14369E+01, tol = 0.47774E+04, time = 7.22 | CG iter. 23 -- res = 0.72368E+00, tol = 0.47774E+04, time = 6.71 | CG iter. 24 -- res = 0.36788E+00, tol = 0.47774E+04, time = 6.67 | CG iter. 25 -- res = 0.20199E+00, tol = 0.47774E+04, time = 7.08 | CG iter. 26 -- res = 0.11565E+00, tol = 0.47774E+04, time = 6.47 | CG iter. 27 -- res = 0.65307E-01, tol = 0.47774E+04, time = 6.50 | CG iter. 28 -- res = 0.34863E-01, tol = 0.47774E+04, time = 6.58 | CG iter. 29 -- res = 0.18396E-01, tol = 0.47774E+04, time = 6.45 | CG iter. 30 -- res = 0.97517E-02, tol = 0.47774E+04, time = 6.54 | CG iter. 31 -- res = 0.53924E-02, tol = 0.47774E+04, time = 6.58 | CG iter. 32 -- res = 0.30775E-02, tol = 0.47774E+04, time = 6.14 | CG iter. 33 -- res = 0.17736E-02, tol = 0.47774E+04, time = 6.79 | CG iter. 34 -- res = 0.95996E-03, tol = 0.47774E+04, time = 6.64 | CG iter. 35 -- res = 0.49430E-03, tol = 0.47774E+04, time = 7.11 | Final CG iter 36 -- res = 0.49430E-03, tol = 0.47774E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 4.258 2.758 | New value -0.903 | Old value 4.258 | Difference -5.160 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.13932E+07, tol = 0.47627E+18, time = 1.98 | CG iter. 2 -- res = 0.69467E+02, tol = 0.47627E+18, time = 2.03 | CG iter. 3 -- res = 0.16738E+01, tol = 0.47627E+18, time = 2.11 | CG iter. 4 -- res = 0.47708E-02, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.74146E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8935619.460 | (Sampled value in CG: 8871184.652 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.746292 | New value = -3.609214 | poltype: 1 pol: 1 CPU time specind = 1.8682003E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.11 | CG iter. 1 -- res = 0.62044E+07, tol = 0.24256E+01, time = 2.67 | CG iter. 2 -- res = 0.25677E+07, tol = 0.24256E+01, time = 3.19 | CG iter. 3 -- res = 0.64879E+06, tol = 0.24256E+01, time = 3.12 | CG iter. 4 -- res = 0.35082E+06, tol = 0.24256E+01, time = 2.71 | CG iter. 5 -- res = 0.20322E+06, tol = 0.24256E+01, time = 2.83 | CG iter. 6 -- res = 0.80595E+05, tol = 0.24256E+01, time = 2.83 | CG iter. 7 -- res = 0.24624E+05, tol = 0.24256E+01, time = 2.43 | CG iter. 8 -- res = 0.10715E+05, tol = 0.24256E+01, time = 3.02 | CG iter. 9 -- res = 0.54328E+04, tol = 0.24256E+01, time = 2.59 | CG iter. 10 -- res = 0.22346E+04, tol = 0.24256E+01, time = 2.55 | CG iter. 11 -- res = 0.87979E+03, tol = 0.24256E+01, time = 2.74 | CG iter. 12 -- res = 0.43462E+03, tol = 0.24256E+01, time = 2.80 | CG iter. 13 -- res = 0.21860E+03, tol = 0.24256E+01, time = 2.84 | CG iter. 14 -- res = 0.10377E+03, tol = 0.24256E+01, time = 2.86 | CG iter. 15 -- res = 0.45792E+02, tol = 0.24256E+01, time = 2.69 | CG iter. 16 -- res = 0.19854E+02, tol = 0.24256E+01, time = 2.83 | CG iter. 17 -- res = 0.85612E+01, tol = 0.24256E+01, time = 2.54 | CG iter. 18 -- res = 0.42273E+01, tol = 0.24256E+01, time = 2.71 | CG iter. 19 -- res = 0.20768E+01, tol = 0.24256E+01, time = 2.74 | CG iter. 20 -- res = 0.10062E+01, tol = 0.24256E+01, time = 2.64 | CG iter. 21 -- res = 0.46355E+00, tol = 0.24256E+01, time = 2.84 | CG iter. 22 -- res = 0.20280E+00, tol = 0.24256E+01, time = 2.77 | CG iter. 23 -- res = 0.94021E-01, tol = 0.24256E+01, time = 2.82 | CG iter. 24 -- res = 0.43322E-01, tol = 0.24256E+01, time = 2.83 | CG iter. 25 -- res = 0.21542E-01, tol = 0.24256E+01, time = 2.78 | CG iter. 26 -- res = 0.10773E-01, tol = 0.24256E+01, time = 2.58 | CG iter. 27 -- res = 0.52188E-02, tol = 0.24256E+01, time = 2.46 | CG iter. 28 -- res = 0.24653E-02, tol = 0.24256E+01, time = 2.88 | CG iter. 29 -- res = 0.11054E-02, tol = 0.24256E+01, time = 2.72 | CG iter. 30 -- res = 0.50937E-03, tol = 0.24256E+01, time = 2.76 | CG iter. 31 -- res = 0.25250E-03, tol = 0.24256E+01, time = 2.59 | CG iter. 32 -- res = 0.12787E-03, tol = 0.24256E+01, time = 2.73 | CG iter. 33 -- res = 0.62763E-04, tol = 0.24256E+01, time = 2.69 | CG iter. 34 -- res = 0.29968E-04, tol = 0.24256E+01, time = 2.93 | CG iter. 35 -- res = 0.14227E-04, tol = 0.24256E+01, time = 2.84 | CG iter. 36 -- res = 0.67217E-05, tol = 0.24256E+01, time = 2.71 | CG iter. 37 -- res = 0.31958E-05, tol = 0.24256E+01, time = 2.80 | CG iter. 38 -- res = 0.15924E-05, tol = 0.24256E+01, time = 4.03 | CG iter. 39 -- res = 0.78641E-06, tol = 0.24256E+01, time = 8.02 | CG iter. 40 -- res = 0.37607E-06, tol = 0.24256E+01, time = 2.80 | CG iter. 41 -- res = 0.17670E-06, tol = 0.24256E+01, time = 2.67 | CG iter. 42 -- res = 0.82544E-07, tol = 0.24256E+01, time = 2.86 | CG iter. 43 -- res = 0.37734E-07, tol = 0.24256E+01, time = 2.58 | CG iter. 44 -- res = 0.18065E-07, tol = 0.24256E+01, time = 2.92 | CG iter. 45 -- res = 0.88008E-08, tol = 0.24256E+01, time = 2.76 | CG iter. 46 -- res = 0.42318E-08, tol = 0.24256E+01, time = 2.57 | CG iter. 47 -- res = 0.20369E-08, tol = 0.24256E+01, time = 2.74 | CG iter. 48 -- res = 0.91449E-09, tol = 0.24256E+01, time = 2.54 | CG iter. 49 -- res = 0.41611E-09, tol = 0.24256E+01, time = 2.64 | CG iter. 50 -- res = 0.19079E-09, tol = 0.24256E+01, time = 2.92 | Final CG iter 51 -- res = 0.19079E-09, tol = 0.24256E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -13.773 6.392 | New value -0.646 | Old value -13.773 | Difference 13.127 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 23.16 | CG iter. 1 -- res = 0.17400E+06, tol = 0.47627E+18, time = 1.86 | CG iter. 2 -- res = 0.88551E+02, tol = 0.47627E+18, time = 1.91 | CG iter. 3 -- res = 0.23587E+01, tol = 0.47627E+18, time = 2.28 | CG iter. 4 -- res = 0.12911E-01, tol = 0.47627E+18, time = 2.02 | Final CG iter 5 -- res = 0.10711E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8935619.460 | (Sampled value in CG: 8882313.922 ) | CPU time specind = 1209.195 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.21 | CG iter. 1 -- res = 0.72609E+08, tol = 0.57853E+04, time = 12.05 | CG iter. 2 -- res = 0.60050E+08, tol = 0.57853E+04, time = 11.73 | CG iter. 3 -- res = 0.15841E+08, tol = 0.57853E+04, time = 11.81 | CG iter. 4 -- res = 0.70314E+07, tol = 0.57853E+04, time = 11.78 | CG iter. 5 -- res = 0.43940E+07, tol = 0.57853E+04, time = 12.17 | CG iter. 6 -- res = 0.25412E+07, tol = 0.57853E+04, time = 11.85 | CG iter. 7 -- res = 0.14702E+07, tol = 0.57853E+04, time = 11.76 | CG iter. 8 -- res = 0.94982E+06, tol = 0.57853E+04, time = 12.34 | CG iter. 9 -- res = 0.60148E+06, tol = 0.57853E+04, time = 12.21 | CG iter. 10 -- res = 0.35898E+06, tol = 0.57853E+04, time = 12.21 | CG iter. 11 -- res = 0.20279E+06, tol = 0.57853E+04, time = 12.59 | CG iter. 12 -- res = 0.11898E+06, tol = 0.57853E+04, time = 12.35 | CG iter. 13 -- res = 0.73863E+05, tol = 0.57853E+04, time = 11.98 | CG iter. 14 -- res = 0.52669E+05, tol = 0.57853E+04, time = 12.15 | CG iter. 15 -- res = 0.43134E+05, tol = 0.57853E+04, time = 18.78 | CG iter. 16 -- res = 0.40245E+05, tol = 0.57853E+04, time = 11.81 | CG iter. 17 -- res = 0.39941E+05, tol = 0.57853E+04, time = 12.30 | CG iter. 18 -- res = 0.38331E+05, tol = 0.57853E+04, time = 11.90 | CG iter. 19 -- res = 0.34984E+05, tol = 0.57853E+04, time = 11.53 | CG iter. 20 -- res = 0.32284E+05, tol = 0.57853E+04, time = 11.93 | CG iter. 21 -- res = 0.31231E+05, tol = 0.57853E+04, time = 12.22 | CG iter. 22 -- res = 0.32427E+05, tol = 0.57853E+04, time = 13.46 | CG iter. 23 -- res = 0.32829E+05, tol = 0.57853E+04, time = 12.69 | CG iter. 24 -- res = 0.30517E+05, tol = 0.57853E+04, time = 11.63 | CG iter. 25 -- res = 0.25232E+05, tol = 0.57853E+04, time = 11.76 | CG iter. 26 -- res = 0.18692E+05, tol = 0.57853E+04, time = 12.03 | CG iter. 27 -- res = 0.13685E+05, tol = 0.57853E+04, time = 12.22 | CG iter. 28 -- res = 0.10605E+05, tol = 0.57853E+04, time = 11.73 | CG iter. 29 -- res = 0.90805E+04, tol = 0.57853E+04, time = 11.58 | CG iter. 30 -- res = 0.83482E+04, tol = 0.57853E+04, time = 11.52 | CG iter. 31 -- res = 0.77058E+04, tol = 0.57853E+04, time = 12.94 | CG iter. 32 -- res = 0.69396E+04, tol = 0.57853E+04, time = 12.09 | CG iter. 33 -- res = 0.62082E+04, tol = 0.57853E+04, time = 12.04 | CG iter. 34 -- res = 0.55854E+04, tol = 0.57853E+04, time = 11.99 | CG iter. 35 -- res = 0.51483E+04, tol = 0.57853E+04, time = 12.10 | CG iter. 36 -- res = 0.49907E+04, tol = 0.57853E+04, time = 12.56 | CG iter. 37 -- res = 0.48712E+04, tol = 0.57853E+04, time = 11.79 | CG iter. 38 -- res = 0.44522E+04, tol = 0.57853E+04, time = 12.27 | CG iter. 39 -- res = 0.39423E+04, tol = 0.57853E+04, time = 18.45 | CG iter. 40 -- res = 0.33640E+04, tol = 0.57853E+04, time = 12.26 | CG iter. 41 -- res = 0.28186E+04, tol = 0.57853E+04, time = 12.13 | CG iter. 42 -- res = 0.24360E+04, tol = 0.57853E+04, time = 12.32 | CG iter. 43 -- res = 0.22614E+04, tol = 0.57853E+04, time = 12.24 | CG iter. 44 -- res = 0.22150E+04, tol = 0.57853E+04, time = 11.79 | CG iter. 45 -- res = 0.21349E+04, tol = 0.57853E+04, time = 11.62 | CG iter. 46 -- res = 0.19567E+04, tol = 0.57853E+04, time = 13.49 | CG iter. 47 -- res = 0.17832E+04, tol = 0.57853E+04, time = 12.81 | CG iter. 48 -- res = 0.16318E+04, tol = 0.57853E+04, time = 11.62 | CG iter. 49 -- res = 0.14880E+04, tol = 0.57853E+04, time = 11.85 | CG iter. 50 -- res = 0.13958E+04, tol = 0.57853E+04, time = 12.19 | CG iter. 51 -- res = 0.13731E+04, tol = 0.57853E+04, time = 12.29 | CG iter. 52 -- res = 0.13152E+04, tol = 0.57853E+04, time = 12.14 | CG iter. 53 -- res = 0.12018E+04, tol = 0.57853E+04, time = 12.06 | CG iter. 54 -- res = 0.10670E+04, tol = 0.57853E+04, time = 12.07 | CG iter. 55 -- res = 0.91884E+03, tol = 0.57853E+04, time = 11.84 | CG iter. 56 -- res = 0.80797E+03, tol = 0.57853E+04, time = 12.22 | CG iter. 57 -- res = 0.72823E+03, tol = 0.57853E+04, time = 11.88 | CG iter. 58 -- res = 0.68306E+03, tol = 0.57853E+04, time = 11.83 | CG iter. 59 -- res = 0.66498E+03, tol = 0.57853E+04, time = 11.94 | CG iter. 60 -- res = 0.62372E+03, tol = 0.57853E+04, time = 12.00 | Final CG iter 61 -- res = 0.62372E+03, tol = 0.57853E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.814 ( -229.932 -2230.168 2512.760 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 11419838.591 | Old band monopole 8935657.894 | Change to band monopole 2484180.697 | Change to component monopole -2484170.012 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -0.962 2.723 | New value -6.555 | Old value -0.962 | Difference -5.593 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -0.879 ( 8.056 11.153 -10.117 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 4.753 5.587 | New value -7.321 | Old value 4.753 | Difference -12.074 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.24 | CG iter. 1 -- res = 0.18510E+07, tol = 0.47627E+18, time = 3.55 | CG iter. 2 -- res = 0.90658E+02, tol = 0.47627E+18, time = 6.71 | CG iter. 3 -- res = 0.34776E+01, tol = 0.47627E+18, time = 1.97 | CG iter. 4 -- res = 0.33814E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.79340E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 11419789.471 | (Sampled value in CG: 11402545.159 ) | Chain = 1 -- chisq = 0.81466818E+09 | Chain = 1 -- wall time = 6214.646 sec Available RAM: MemAvailable: 377245572 kB Available Swap: SwapFree: 1126375604 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 431 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444686 | --> Sampling calibration, mode = relcal | relcal = 1.3425213E-02 7.4934110E-04 -1.5956365E-03 -1.2578918E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1400500 0.1622278 97046461.2436734 | BP delta = 0.1377567 0.1599345 97046461.3293270 | BP chisq diff = 0.1, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632473 | --> Sampling calibration, mode = relcal | relcal = -2.8211460E-03 -7.0474885E-04 1.6794275E-03 1.6139994E-03 -4.0795153E-04 6.4041954E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5483571 15218859.2052810 | BP delta = 0.0000000E+00 -0.5492417 15218859.4547823 | BP chisq diff = 0.2, accept = T | | Finished processing 044 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 070 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.03103182 | --> Sampling calibration, mode = relcal | relcal = 3.7087008E-02 1.3720092E-02 5.7461644E-03 -7.1671018E-03 8.2459785E-03 2.3914354E-03 -7.6033324E-03 -7.1775028E-03 -1.5299023E-02 -1.4797617E-02 -3.0497098E-03 -1.2096393E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -1.216598 132211000.385615 | BP delta = 0.0000000E+00 -1.235794 132210999.575866 | BP chisq diff = -0.8, accept = T | | Finished processing 070 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18251008838026 | --> Sampling calibration, mode = relcal | relcal = -7.5039774E-02 -5.8646929E-02 9.2003107E-02 4.1683596E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 5.2428909E-04 4.4637988E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0895E-05 | 2: delta_r/delta_0: 9.0711E-07 | 3: delta_s/delta_0: 2.1476E-07 | 4: delta_r/delta_0: 1.6748E-08 | 5: delta_s/delta_0: 5.1730E-09 | 6: delta_r/delta_0: 1.1292E-09 | 7: delta_s/delta_0: 2.3676E-10 | 8: delta_r/delta_0: 1.0803E-10 | 9: delta_s/delta_0: 1.4711E-09 | 10: delta_r/delta_0: 5.8793E-10 | 11: delta_s/delta_0: 9.9442E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 1.085264704941796E-003 2.737582198893603E-005 | BP delta = 6.9314450E-02 9.4353989E-02 50480377.6106913 | BP delta = 6.4787775E-02 8.9827314E-02 50480380.7156412 | BP chisq diff = 0.0, accept = F | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02601917 | --> Sampling calibration, mode = relcal | relcal = -0.1066488 -9.5535986E-02 0.1449452 5.7239536E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.8335067E-03 1.5391653E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 5.2778E-03 | 2: delta_r/delta_0: 1.0458E-04 | 3: delta_s/delta_0: 4.9355E-07 | 4: delta_r/delta_0: 7.2781E-08 | 5: delta_s/delta_0: 7.5015E-08 | 6: delta_r/delta_0: 1.7713E-08 | 7: delta_s/delta_0: 9.3773E-09 | 8: delta_r/delta_0: 4.9368E-09 | 9: delta_s/delta_0: 2.5082E-09 | 10: delta_r/delta_0: 1.2171E-09 | 11: delta_s/delta_0: 6.3222E-10 | 12: delta_r/delta_0: 4.3949E-10 | 13: delta_s/delta_0: 2.3009E-10 | 14: delta_r/delta_0: 1.3961E-10 | 15: delta_s/delta_0: 1.0578E-10 | 16: delta_r/delta_0: 5.6934E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.469914097884017E-002 2.810771071819212E-005 | BP delta = -0.1791644 -0.1476488 57390870.0449103 | BP delta = -0.1880155 -0.1564999 57390867.2741023 | BP chisq diff = -2.8, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81224413 | --> Sampling calibration, mode = relcal | relcal = 0.2954837 0.2248021 -0.2837700 -0.2365157 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0624056E-03 5.1009054E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.1051E-03 | 2: delta_r/delta_0: 2.5248E-05 | 3: delta_s/delta_0: 1.3626E-05 | 4: delta_r/delta_0: 1.5155E-06 | 5: delta_s/delta_0: 4.1150E-07 | 6: delta_r/delta_0: 5.8013E-08 | 7: delta_s/delta_0: 5.1411E-08 | 8: delta_r/delta_0: 2.7415E-08 | 9: delta_s/delta_0: 2.3228E-07 | 10: delta_r/delta_0: 1.4105E-09 | 11: delta_s/delta_0: 6.7380E-10 | 12: delta_r/delta_0: 4.6395E-10 | 13: delta_s/delta_0: 6.3551E-10 | 14: delta_r/delta_0: 2.9241E-10 | 15: delta_s/delta_0: 2.5369E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.656865659887349E-002 4.021639147246947E-005 | BP delta = -4.5907997E-02 -6.6479318E-02 72495559.3066096 | BP delta = -3.1951651E-02 -5.2522972E-02 72495559.4027155 | BP chisq diff = 0.1, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95919102 | --> Sampling calibration, mode = relcal | relcal = 0.1065560 0.1394826 -0.1102696 -0.1357690 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0309936E-02 1.2667896E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.9549E-04 | 2: delta_r/delta_0: 7.4078E-06 | 3: delta_s/delta_0: 1.7303E-05 | 4: delta_r/delta_0: 1.4703E-06 | 5: delta_s/delta_0: 2.1690E-07 | 6: delta_r/delta_0: 1.2240E-07 | 7: delta_s/delta_0: 5.6351E-07 | 8: delta_r/delta_0: 2.9048E-08 | 9: delta_s/delta_0: 8.3554E-08 | 10: delta_r/delta_0: 7.3315E-09 | 11: delta_s/delta_0: 1.5583E-09 | 12: delta_r/delta_0: 8.1046E-10 | 13: delta_s/delta_0: 1.0755E-09 | 14: delta_r/delta_0: 2.1915E-10 | 15: delta_s/delta_0: 5.3282E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.063929041530144E-002 3.697057392808277E-005 | BP delta = 0.1512025 0.2662771 72780063.7714310 | BP delta = 0.1939959 0.3090706 72780063.3572229 | BP chisq diff = -0.4, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.52162845 | --> Sampling calibration, mode = relcal | relcal = -5.1031664E-02 -3.7029753E-03 2.7259996E-02 2.7474644E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -8.2882156E-04 2.1020675E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6262E-05 | 2: delta_r/delta_0: 4.6060E-06 | 3: delta_s/delta_0: 6.6031E-06 | 4: delta_r/delta_0: 4.5157E-07 | 5: delta_s/delta_0: 4.9151E-08 | 6: delta_r/delta_0: 2.6289E-08 | 7: delta_s/delta_0: 1.5187E-07 | 8: delta_r/delta_0: 7.5064E-09 | 9: delta_s/delta_0: 2.0503E-09 | 10: delta_r/delta_0: 1.2987E-09 | 11: delta_s/delta_0: 5.7321E-10 | 12: delta_r/delta_0: 4.1389E-10 | 13: delta_s/delta_0: 1.1542E-06 | 14: delta_r/delta_0: 9.2025E-08 | 15: delta_s/delta_0: 1.6551E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.120960266545174E-002 5.482609279704658E-005 | BP delta = 9.4315268E-02 0.2090657 91256724.8273400 | BP delta = 4.6024177E-02 0.1607746 91256725.6091786 | BP chisq diff = 0.8, accept = T | | Finished processing 060-WMAP_V1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 060-WMAP_V2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.42157877 | --> Sampling calibration, mode = relcal | relcal = 4.5599204E-02 3.9661087E-02 -2.8314885E-02 -5.6945406E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.3857555E-03 4.5536491E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 6.6942E-05 | 2: delta_r/delta_0: 3.6456E-06 | 3: delta_s/delta_0: 1.1324E-03 | 4: delta_r/delta_0: 9.9626E-05 | 5: delta_s/delta_0: 5.8094E-08 | 6: delta_r/delta_0: 3.4043E-08 | 7: delta_s/delta_0: 2.6913E-08 | 8: delta_r/delta_0: 1.2868E-08 | 9: delta_s/delta_0: 4.3269E-08 | 10: delta_r/delta_0: 4.1029E-09 | 11: delta_s/delta_0: 3.4951E-10 | 12: delta_r/delta_0: 2.6617E-10 | 13: delta_s/delta_0: 2.5421E-10 | 14: delta_r/delta_0: 1.9114E-10 | 15: delta_s/delta_0: 2.7406E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -2.467304055914505E-002 4.995805009414408E-005 | BP delta = -1.4200624E-02 -0.1479202 90179453.1073614 | BP delta = -2.3589484E-02 -0.1573091 90179453.2723694 | BP chisq diff = 0.2, accept = T | | Finished processing 060-WMAP_V2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.28168407 | --> Sampling calibration, mode = relcal | relcal = 2.4156541E-02 4.5190725E-02 -2.3385290E-02 -4.5961976E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.0768717E-02 3.6562493E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.0748E-04 | 2: delta_r/delta_0: 8.3336E-06 | 3: delta_s/delta_0: 1.1977E-06 | 4: delta_r/delta_0: 2.3754E-07 | 5: delta_s/delta_0: 5.5089E-08 | 6: delta_r/delta_0: 1.8045E-08 | 7: delta_s/delta_0: 8.2697E-09 | 8: delta_r/delta_0: 5.3596E-09 | 9: delta_s/delta_0: 7.8195E-08 | 10: delta_r/delta_0: 6.0812E-09 | 11: delta_s/delta_0: 4.0343E-09 | 12: delta_r/delta_0: 2.3013E-09 | 13: delta_s/delta_0: 1.7215E-10 | 14: delta_r/delta_0: 1.0867E-10 | 15: delta_s/delta_0: 6.0780E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.135221504308520E-002 7.841774496266189E-005 | BP delta = -0.5125559 -0.7404029 160963598.899283 | BP delta = -0.5049574 -0.7328044 160963598.889774 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.29398196 | --> Sampling calibration, mode = relcal | relcal = 6.4133940E-04 1.0174355E-02 -3.9162654E-03 -6.8994286E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 1.6937299E-02 1.5491761E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3184E-04 | 2: delta_r/delta_0: 1.0812E-05 | 3: delta_s/delta_0: 1.5870E-06 | 4: delta_r/delta_0: 3.4425E-07 | 5: delta_s/delta_0: 1.0951E-07 | 6: delta_r/delta_0: 2.5654E-08 | 7: delta_s/delta_0: 1.2842E-08 | 8: delta_r/delta_0: 8.1800E-09 | 9: delta_s/delta_0: 3.5468E-08 | 10: delta_r/delta_0: 5.8113E-09 | 11: delta_s/delta_0: 5.6751E-08 | 12: delta_r/delta_0: 3.9435E-08 | 13: delta_s/delta_0: 4.9539E-10 | 14: delta_r/delta_0: 1.6492E-10 | 15: delta_s/delta_0: 6.2840E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.230261447313802E-002 8.304830941600846E-005 | BP delta = -0.9400143 -0.9024422 157855840.466112 | BP delta = -0.9275237 -0.8899516 157855840.439061 | BP chisq diff = -0.0, accept = T | | Finished processing 090-WMAP_W2 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W3 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.26508911 | --> Sampling calibration, mode = relcal | relcal = -5.6272312E-03 1.5022570E-02 -2.3540473E-03 -7.0412918E-03 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = -2.0271893E-04 2.9281008E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4242E-04 | 2: delta_r/delta_0: 1.2166E-05 | 3: delta_s/delta_0: 2.0419E-06 | 4: delta_r/delta_0: 2.5988E-07 | 5: delta_s/delta_0: 1.1854E-07 | 6: delta_r/delta_0: 2.3548E-08 | 7: delta_s/delta_0: 9.9038E-09 | 8: delta_r/delta_0: 6.6977E-09 | 9: delta_s/delta_0: 5.2554E-09 | 10: delta_r/delta_0: 3.3805E-09 | 11: delta_s/delta_0: 1.6171E-05 | 12: delta_r/delta_0: 2.3584E-09 | 13: delta_s/delta_0: 1.0020E-08 | 14: delta_r/delta_0: 7.6746E-09 | 15: delta_s/delta_0: 7.7211E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.103328766763119E-002 9.152997081215882E-005 | BP delta = 0.4557104 0.5061736 157023240.679266 | BP delta = 0.5250808 0.5755439 157023240.480729 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W3 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 090-WMAP_W4 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.25668297 | --> Sampling calibration, mode = relcal | relcal = -3.1792570E-02 -2.5881531E-02 3.6964241E-02 2.0709857E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.0655394E-02 1.9934190E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4792E-04 | 2: delta_r/delta_0: 1.1501E-05 | 3: delta_s/delta_0: 1.9838E-06 | 4: delta_r/delta_0: 3.2591E-07 | 5: delta_s/delta_0: 2.1845E-07 | 6: delta_r/delta_0: 3.3819E-08 | 7: delta_s/delta_0: 1.4322E-08 | 8: delta_r/delta_0: 8.7429E-09 | 9: delta_s/delta_0: 2.5182E-08 | 10: delta_r/delta_0: 1.0989E-08 | 11: delta_s/delta_0: 1.0122E-08 | 12: delta_r/delta_0: 1.3586E-09 | 13: delta_s/delta_0: 1.3400E-09 | 14: delta_r/delta_0: 5.0650E-10 | 15: delta_s/delta_0: 1.6162E-10 | 16: delta_r/delta_0: 1.4288E-10 | 17: delta_s/delta_0: 1.2390E-10 | 18: delta_r/delta_0: 1.1468E-10 | 19: delta_s/delta_0: 1.1375E-10 | 20: delta_r/delta_0: 1.0513E-10 | 21: delta_s/delta_0: 1.5146E-10 | 22: delta_r/delta_0: 1.3370E-10 | 23: delta_s/delta_0: 6.7663E-10 | 24: delta_r/delta_0: 5.1591E-10 | 25: delta_s/delta_0: 6.3523E-09 | 26: delta_r/delta_0: 1.4955E-09 | 27: delta_s/delta_0: 8.2227E-10 | 28: delta_r/delta_0: 8.9980E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.273640132737732E-002 8.670743432785635E-005 | BP delta = -0.8755912 -1.079016 158543451.986430 | BP delta = -0.8469355 -1.050360 158543451.816484 | BP chisq diff = -0.2, accept = T | | Finished processing 090-WMAP_W4 --------------------------------------------------------------------- | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.292822 | New value = -3.096046 | poltype: 2 pol: 1 CPU time specind = 2.6143789E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.225929 | New value = -3.142731 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.148438 | New value = -3.172309 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.231495 | New value = -3.094979 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.122422 | New value = -3.205263 | poltype: 2 pol: 2 CPU time specind = 9.4861984E-03 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 23.69 | CG iter. 1 -- res = 0.14007E+08, tol = 0.61858E+01, time = 5.91 | CG iter. 2 -- res = 0.54371E+06, tol = 0.61858E+01, time = 5.80 | CG iter. 3 -- res = 0.37151E+06, tol = 0.61858E+01, time = 5.44 | CG iter. 4 -- res = 0.78723E+06, tol = 0.61858E+01, time = 5.91 | CG iter. 5 -- res = 0.63271E+06, tol = 0.61858E+01, time = 5.97 | CG iter. 6 -- res = 0.46103E+06, tol = 0.61858E+01, time = 5.72 | CG iter. 7 -- res = 0.32361E+06, tol = 0.61858E+01, time = 12.08 | CG iter. 8 -- res = 0.23427E+06, tol = 0.61858E+01, time = 5.38 | CG iter. 9 -- res = 0.21503E+06, tol = 0.61858E+01, time = 5.62 | CG iter. 10 -- res = 0.16560E+06, tol = 0.61858E+01, time = 5.93 | CG iter. 11 -- res = 0.11267E+06, tol = 0.61858E+01, time = 5.72 | CG iter. 12 -- res = 0.87769E+05, tol = 0.61858E+01, time = 6.07 | CG iter. 13 -- res = 0.71769E+05, tol = 0.61858E+01, time = 6.20 | CG iter. 14 -- res = 0.56377E+05, tol = 0.61858E+01, time = 5.52 | CG iter. 15 -- res = 0.41181E+05, tol = 0.61858E+01, time = 5.85 | CG iter. 16 -- res = 0.28171E+05, tol = 0.61858E+01, time = 5.84 | CG iter. 17 -- res = 0.22499E+05, tol = 0.61858E+01, time = 5.77 | CG iter. 18 -- res = 0.19766E+05, tol = 0.61858E+01, time = 5.55 | CG iter. 19 -- res = 0.15899E+05, tol = 0.61858E+01, time = 5.78 | CG iter. 20 -- res = 0.11541E+05, tol = 0.61858E+01, time = 5.37 | CG iter. 21 -- res = 0.88090E+04, tol = 0.61858E+01, time = 5.78 | CG iter. 22 -- res = 0.76172E+04, tol = 0.61858E+01, time = 7.29 | CG iter. 23 -- res = 0.63182E+04, tol = 0.61858E+01, time = 6.20 | CG iter. 24 -- res = 0.47307E+04, tol = 0.61858E+01, time = 5.73 | CG iter. 25 -- res = 0.35270E+04, tol = 0.61858E+01, time = 5.59 | CG iter. 26 -- res = 0.30449E+04, tol = 0.61858E+01, time = 5.79 | CG iter. 27 -- res = 0.27235E+04, tol = 0.61858E+01, time = 5.98 | CG iter. 28 -- res = 0.20907E+04, tol = 0.61858E+01, time = 5.79 | CG iter. 29 -- res = 0.15270E+04, tol = 0.61858E+01, time = 5.95 | CG iter. 30 -- res = 0.12519E+04, tol = 0.61858E+01, time = 5.62 | CG iter. 31 -- res = 0.11158E+04, tol = 0.61858E+01, time = 5.68 | CG iter. 32 -- res = 0.85329E+03, tol = 0.61858E+01, time = 5.75 | CG iter. 33 -- res = 0.61070E+03, tol = 0.61858E+01, time = 5.90 | CG iter. 34 -- res = 0.47206E+03, tol = 0.61858E+01, time = 5.57 | CG iter. 35 -- res = 0.40673E+03, tol = 0.61858E+01, time = 5.86 | CG iter. 36 -- res = 0.32382E+03, tol = 0.61858E+01, time = 5.64 | CG iter. 37 -- res = 0.23483E+03, tol = 0.61858E+01, time = 5.47 | CG iter. 38 -- res = 0.17353E+03, tol = 0.61858E+01, time = 5.30 | CG iter. 39 -- res = 0.14043E+03, tol = 0.61858E+01, time = 5.86 | CG iter. 40 -- res = 0.11460E+03, tol = 0.61858E+01, time = 6.57 | CG iter. 41 -- res = 0.84297E+02, tol = 0.61858E+01, time = 5.63 | CG iter. 42 -- res = 0.60437E+02, tol = 0.61858E+01, time = 5.74 | CG iter. 43 -- res = 0.47215E+02, tol = 0.61858E+01, time = 5.72 | CG iter. 44 -- res = 0.37956E+02, tol = 0.61858E+01, time = 5.67 | CG iter. 45 -- res = 0.29297E+02, tol = 0.61858E+01, time = 5.70 | CG iter. 46 -- res = 0.21177E+02, tol = 0.61858E+01, time = 5.45 | CG iter. 47 -- res = 0.15837E+02, tol = 0.61858E+01, time = 5.43 | CG iter. 48 -- res = 0.12453E+02, tol = 0.61858E+01, time = 5.91 | CG iter. 49 -- res = 0.94870E+01, tol = 0.61858E+01, time = 5.78 | CG iter. 50 -- res = 0.66352E+01, tol = 0.61858E+01, time = 5.49 | Final CG iter 51 -- res = 0.66352E+01, tol = 0.61858E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8468628.138 | Old band monopole 11419838.591 | Change to band monopole -2951210.453 | Change to component monopole 2951197.759 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.22303E+07, tol = 0.47627E+18, time = 1.95 | CG iter. 2 -- res = 0.83499E+03, tol = 0.47627E+18, time = 2.14 | CG iter. 3 -- res = 0.42772E+01, tol = 0.47627E+18, time = 2.01 | CG iter. 4 -- res = 0.11405E+00, tol = 0.47627E+18, time = 4.73 | Final CG iter 5 -- res = 0.25092E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8468591.712 | (Sampled value in CG: 8630729.433 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.575306 | New value = 1.454063 | poltype: 2 pol: 1 CPU time specind = 2.4364948E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.513769 | New value = 1.494687 | poltype: 2 pol: 2 CPU time specind = 1.6855001E-02 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.99 | CG iter. 1 -- res = 0.27047E+08, tol = 0.47374E+04, time = 6.70 | CG iter. 2 -- res = 0.53637E+07, tol = 0.47374E+04, time = 7.16 | CG iter. 3 -- res = 0.82795E+06, tol = 0.47374E+04, time = 7.49 | CG iter. 4 -- res = 0.35058E+06, tol = 0.47374E+04, time = 7.05 | CG iter. 5 -- res = 0.14952E+06, tol = 0.47374E+04, time = 6.48 | CG iter. 6 -- res = 0.79203E+05, tol = 0.47374E+04, time = 6.76 | CG iter. 7 -- res = 0.43737E+05, tol = 0.47374E+04, time = 6.70 | CG iter. 8 -- res = 0.20571E+05, tol = 0.47374E+04, time = 6.70 | CG iter. 9 -- res = 0.91128E+04, tol = 0.47374E+04, time = 6.78 | CG iter. 10 -- res = 0.36921E+04, tol = 0.47374E+04, time = 6.47 | CG iter. 11 -- res = 0.16888E+04, tol = 0.47374E+04, time = 6.85 | CG iter. 12 -- res = 0.87389E+03, tol = 0.47374E+04, time = 6.41 | CG iter. 13 -- res = 0.49817E+03, tol = 0.47374E+04, time = 7.04 | CG iter. 14 -- res = 0.28167E+03, tol = 0.47374E+04, time = 7.03 | CG iter. 15 -- res = 0.14425E+03, tol = 0.47374E+04, time = 6.23 | CG iter. 16 -- res = 0.67700E+02, tol = 0.47374E+04, time = 6.68 | CG iter. 17 -- res = 0.32011E+02, tol = 0.47374E+04, time = 6.65 | CG iter. 18 -- res = 0.15860E+02, tol = 0.47374E+04, time = 6.76 | CG iter. 19 -- res = 0.84427E+01, tol = 0.47374E+04, time = 6.75 | CG iter. 20 -- res = 0.47362E+01, tol = 0.47374E+04, time = 6.36 | CG iter. 21 -- res = 0.25316E+01, tol = 0.47374E+04, time = 6.74 | CG iter. 22 -- res = 0.13006E+01, tol = 0.47374E+04, time = 6.59 | CG iter. 23 -- res = 0.65549E+00, tol = 0.47374E+04, time = 6.25 | CG iter. 24 -- res = 0.34875E+00, tol = 0.47374E+04, time = 6.64 | CG iter. 25 -- res = 0.19415E+00, tol = 0.47374E+04, time = 6.56 | CG iter. 26 -- res = 0.10928E+00, tol = 0.47374E+04, time = 6.51 | CG iter. 27 -- res = 0.59241E-01, tol = 0.47374E+04, time = 6.75 | CG iter. 28 -- res = 0.31631E-01, tol = 0.47374E+04, time = 6.26 | CG iter. 29 -- res = 0.16528E-01, tol = 0.47374E+04, time = 6.61 | CG iter. 30 -- res = 0.87130E-02, tol = 0.47374E+04, time = 6.83 | CG iter. 31 -- res = 0.47944E-02, tol = 0.47374E+04, time = 6.34 | CG iter. 32 -- res = 0.26696E-02, tol = 0.47374E+04, time = 6.68 | CG iter. 33 -- res = 0.14990E-02, tol = 0.47374E+04, time = 6.49 | CG iter. 34 -- res = 0.79800E-03, tol = 0.47374E+04, time = 12.61 | CG iter. 35 -- res = 0.41523E-03, tol = 0.47374E+04, time = 6.49 | Final CG iter 36 -- res = 0.41523E-03, tol = 0.47374E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -6.555 2.720 | New value -8.712 | Old value -6.555 | Difference -2.157 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.77 | CG iter. 1 -- res = 0.29376E+06, tol = 0.47627E+18, time = 1.83 | CG iter. 2 -- res = 0.28731E+03, tol = 0.47627E+18, time = 1.92 | CG iter. 3 -- res = 0.26503E+01, tol = 0.47627E+18, time = 2.03 | CG iter. 4 -- res = 0.55298E-02, tol = 0.47627E+18, time = 2.01 | Final CG iter 5 -- res = 0.69781E-07, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8468591.712 | (Sampled value in CG: 8630254.290 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.609214 | New value = -3.477570 | poltype: 1 pol: 1 CPU time specind = 1.9665956E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 23.03 | CG iter. 1 -- res = 0.10082E+08, tol = 0.26610E+01, time = 2.83 | CG iter. 2 -- res = 0.35333E+07, tol = 0.26610E+01, time = 2.51 | CG iter. 3 -- res = 0.10416E+07, tol = 0.26610E+01, time = 2.40 | CG iter. 4 -- res = 0.63212E+06, tol = 0.26610E+01, time = 2.62 | CG iter. 5 -- res = 0.33138E+06, tol = 0.26610E+01, time = 2.75 | CG iter. 6 -- res = 0.11183E+06, tol = 0.26610E+01, time = 2.66 | CG iter. 7 -- res = 0.34267E+05, tol = 0.26610E+01, time = 3.17 | CG iter. 8 -- res = 0.16774E+05, tol = 0.26610E+01, time = 2.61 | CG iter. 9 -- res = 0.90178E+04, tol = 0.26610E+01, time = 2.64 | CG iter. 10 -- res = 0.35903E+04, tol = 0.26610E+01, time = 2.47 | CG iter. 11 -- res = 0.13653E+04, tol = 0.26610E+01, time = 2.62 | CG iter. 12 -- res = 0.67554E+03, tol = 0.26610E+01, time = 2.94 | CG iter. 13 -- res = 0.33341E+03, tol = 0.26610E+01, time = 2.82 | CG iter. 14 -- res = 0.16540E+03, tol = 0.26610E+01, time = 2.54 | CG iter. 15 -- res = 0.75865E+02, tol = 0.26610E+01, time = 2.53 | CG iter. 16 -- res = 0.35002E+02, tol = 0.26610E+01, time = 2.73 | CG iter. 17 -- res = 0.15492E+02, tol = 0.26610E+01, time = 2.76 | CG iter. 18 -- res = 0.75746E+01, tol = 0.26610E+01, time = 3.13 | CG iter. 19 -- res = 0.35404E+01, tol = 0.26610E+01, time = 2.29 | CG iter. 20 -- res = 0.17241E+01, tol = 0.26610E+01, time = 2.73 | CG iter. 21 -- res = 0.80244E+00, tol = 0.26610E+01, time = 2.79 | CG iter. 22 -- res = 0.36781E+00, tol = 0.26610E+01, time = 2.50 | CG iter. 23 -- res = 0.17033E+00, tol = 0.26610E+01, time = 2.81 | CG iter. 24 -- res = 0.80116E-01, tol = 0.26610E+01, time = 2.87 | CG iter. 25 -- res = 0.37938E-01, tol = 0.26610E+01, time = 2.67 | CG iter. 26 -- res = 0.17711E-01, tol = 0.26610E+01, time = 2.92 | CG iter. 27 -- res = 0.89264E-02, tol = 0.26610E+01, time = 2.98 | CG iter. 28 -- res = 0.44514E-02, tol = 0.26610E+01, time = 2.60 | CG iter. 29 -- res = 0.20990E-02, tol = 0.26610E+01, time = 2.72 | CG iter. 30 -- res = 0.10309E-02, tol = 0.26610E+01, time = 4.08 | CG iter. 31 -- res = 0.48942E-03, tol = 0.26610E+01, time = 3.67 | CG iter. 32 -- res = 0.23386E-03, tol = 0.26610E+01, time = 2.82 | CG iter. 33 -- res = 0.11588E-03, tol = 0.26610E+01, time = 2.74 | CG iter. 34 -- res = 0.56794E-04, tol = 0.26610E+01, time = 2.88 | CG iter. 35 -- res = 0.30265E-04, tol = 0.26610E+01, time = 2.38 | CG iter. 36 -- res = 0.14765E-04, tol = 0.26610E+01, time = 2.84 | CG iter. 37 -- res = 0.69132E-05, tol = 0.26610E+01, time = 2.61 | CG iter. 38 -- res = 0.33446E-05, tol = 0.26610E+01, time = 2.89 | CG iter. 39 -- res = 0.16401E-05, tol = 0.26610E+01, time = 2.77 | CG iter. 40 -- res = 0.78453E-06, tol = 0.26610E+01, time = 2.52 | CG iter. 41 -- res = 0.38930E-06, tol = 0.26610E+01, time = 2.67 | CG iter. 42 -- res = 0.19721E-06, tol = 0.26610E+01, time = 2.77 | CG iter. 43 -- res = 0.91251E-07, tol = 0.26610E+01, time = 2.62 | CG iter. 44 -- res = 0.42062E-07, tol = 0.26610E+01, time = 2.90 | CG iter. 45 -- res = 0.19430E-07, tol = 0.26610E+01, time = 2.75 | CG iter. 46 -- res = 0.93824E-08, tol = 0.26610E+01, time = 2.61 | CG iter. 47 -- res = 0.47769E-08, tol = 0.26610E+01, time = 2.77 | CG iter. 48 -- res = 0.24142E-08, tol = 0.26610E+01, time = 2.61 | CG iter. 49 -- res = 0.11337E-08, tol = 0.26610E+01, time = 2.82 | CG iter. 50 -- res = 0.51004E-09, tol = 0.26610E+01, time = 2.72 | Final CG iter 51 -- res = 0.51004E-09, tol = 0.26610E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) 6.273 3.024 | New value 0.529 | Old value 6.273 | Difference -5.743 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.80 | CG iter. 1 -- res = 0.54610E+05, tol = 0.47627E+18, time = 1.84 | CG iter. 2 -- res = 0.13889E+03, tol = 0.47627E+18, time = 2.23 | CG iter. 3 -- res = 0.25233E+01, tol = 0.47627E+18, time = 1.84 | CG iter. 4 -- res = 0.46349E-02, tol = 0.47627E+18, time = 1.91 | Final CG iter 5 -- res = 0.53012E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8468591.712 | (Sampled value in CG: 8589477.863 ) | CPU time specind = 1194.003 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 23.19 | CG iter. 1 -- res = 0.79495E+08, tol = 0.57410E+04, time = 12.17 | CG iter. 2 -- res = 0.63982E+08, tol = 0.57410E+04, time = 11.91 | CG iter. 3 -- res = 0.17128E+08, tol = 0.57410E+04, time = 11.34 | CG iter. 4 -- res = 0.80392E+07, tol = 0.57410E+04, time = 11.67 | CG iter. 5 -- res = 0.53419E+07, tol = 0.57410E+04, time = 11.87 | CG iter. 6 -- res = 0.31673E+07, tol = 0.57410E+04, time = 18.56 | CG iter. 7 -- res = 0.18537E+07, tol = 0.57410E+04, time = 11.52 | CG iter. 8 -- res = 0.11981E+07, tol = 0.57410E+04, time = 11.62 | CG iter. 9 -- res = 0.79150E+06, tol = 0.57410E+04, time = 12.17 | CG iter. 10 -- res = 0.51720E+06, tol = 0.57410E+04, time = 12.35 | CG iter. 11 -- res = 0.34229E+06, tol = 0.57410E+04, time = 11.73 | CG iter. 12 -- res = 0.24073E+06, tol = 0.57410E+04, time = 11.81 | CG iter. 13 -- res = 0.18392E+06, tol = 0.57410E+04, time = 13.25 | CG iter. 14 -- res = 0.15423E+06, tol = 0.57410E+04, time = 12.54 | CG iter. 15 -- res = 0.15253E+06, tol = 0.57410E+04, time = 11.97 | CG iter. 16 -- res = 0.16672E+06, tol = 0.57410E+04, time = 11.98 | CG iter. 17 -- res = 0.17900E+06, tol = 0.57410E+04, time = 11.88 | CG iter. 18 -- res = 0.16664E+06, tol = 0.57410E+04, time = 12.04 | CG iter. 19 -- res = 0.14012E+06, tol = 0.57410E+04, time = 11.75 | CG iter. 20 -- res = 0.11457E+06, tol = 0.57410E+04, time = 12.06 | CG iter. 21 -- res = 0.96941E+05, tol = 0.57410E+04, time = 11.94 | CG iter. 22 -- res = 0.85010E+05, tol = 0.57410E+04, time = 12.43 | CG iter. 23 -- res = 0.77029E+05, tol = 0.57410E+04, time = 12.03 | CG iter. 24 -- res = 0.65990E+05, tol = 0.57410E+04, time = 11.21 | CG iter. 25 -- res = 0.50971E+05, tol = 0.57410E+04, time = 12.02 | CG iter. 26 -- res = 0.38757E+05, tol = 0.57410E+04, time = 12.00 | CG iter. 27 -- res = 0.30125E+05, tol = 0.57410E+04, time = 11.93 | CG iter. 28 -- res = 0.25840E+05, tol = 0.57410E+04, time = 11.44 | CG iter. 29 -- res = 0.24291E+05, tol = 0.57410E+04, time = 11.83 | CG iter. 30 -- res = 0.23377E+05, tol = 0.57410E+04, time = 11.84 | CG iter. 31 -- res = 0.22231E+05, tol = 0.57410E+04, time = 18.25 | CG iter. 32 -- res = 0.20033E+05, tol = 0.57410E+04, time = 11.50 | CG iter. 33 -- res = 0.17216E+05, tol = 0.57410E+04, time = 11.62 | CG iter. 34 -- res = 0.14180E+05, tol = 0.57410E+04, time = 11.92 | CG iter. 35 -- res = 0.11947E+05, tol = 0.57410E+04, time = 12.30 | CG iter. 36 -- res = 0.10684E+05, tol = 0.57410E+04, time = 11.14 | CG iter. 37 -- res = 0.95218E+04, tol = 0.57410E+04, time = 12.17 | CG iter. 38 -- res = 0.83656E+04, tol = 0.57410E+04, time = 13.30 | CG iter. 39 -- res = 0.70894E+04, tol = 0.57410E+04, time = 13.22 | CG iter. 40 -- res = 0.58014E+04, tol = 0.57410E+04, time = 11.97 | CG iter. 41 -- res = 0.48293E+04, tol = 0.57410E+04, time = 12.15 | CG iter. 42 -- res = 0.42969E+04, tol = 0.57410E+04, time = 11.98 | CG iter. 43 -- res = 0.40300E+04, tol = 0.57410E+04, time = 11.70 | CG iter. 44 -- res = 0.38828E+04, tol = 0.57410E+04, time = 11.84 | CG iter. 45 -- res = 0.37523E+04, tol = 0.57410E+04, time = 12.17 | CG iter. 46 -- res = 0.34234E+04, tol = 0.57410E+04, time = 11.73 | CG iter. 47 -- res = 0.29897E+04, tol = 0.57410E+04, time = 11.61 | CG iter. 48 -- res = 0.25018E+04, tol = 0.57410E+04, time = 11.87 | CG iter. 49 -- res = 0.21122E+04, tol = 0.57410E+04, time = 12.02 | CG iter. 50 -- res = 0.18779E+04, tol = 0.57410E+04, time = 11.45 | CG iter. 51 -- res = 0.17513E+04, tol = 0.57410E+04, time = 11.72 | CG iter. 52 -- res = 0.16813E+04, tol = 0.57410E+04, time = 11.25 | CG iter. 53 -- res = 0.15980E+04, tol = 0.57410E+04, time = 11.63 | CG iter. 54 -- res = 0.14164E+04, tol = 0.57410E+04, time = 11.68 | CG iter. 55 -- res = 0.12015E+04, tol = 0.57410E+04, time = 18.93 | CG iter. 56 -- res = 0.10716E+04, tol = 0.57410E+04, time = 11.78 | CG iter. 57 -- res = 0.96706E+03, tol = 0.57410E+04, time = 11.79 | CG iter. 58 -- res = 0.90889E+03, tol = 0.57410E+04, time = 11.68 | CG iter. 59 -- res = 0.88416E+03, tol = 0.57410E+04, time = 11.90 | CG iter. 60 -- res = 0.84265E+03, tol = 0.57410E+04, time = 11.60 | Final CG iter 61 -- res = 0.84265E+03, tol = 0.57410E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.731 ( -229.549 -2230.290 2512.871 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 7706974.471 | Old band monopole 8468628.138 | Change to band monopole -761653.666 | Change to component monopole 761650.390 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -8.749 2.733 | New value 1.757 | Old value -8.749 | Difference 10.506 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.806 ( 6.268 10.248 -10.423 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -0.559 5.391 | New value -1.853 | Old value -0.559 | Difference -1.294 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 23.10 | CG iter. 1 -- res = 0.58000E+07, tol = 0.47627E+18, time = 2.14 | CG iter. 2 -- res = 0.63034E+02, tol = 0.47627E+18, time = 1.87 | CG iter. 3 -- res = 0.25051E+01, tol = 0.47627E+18, time = 2.25 | CG iter. 4 -- res = 0.54447E-02, tol = 0.47627E+18, time = 2.09 | Final CG iter 5 -- res = 0.33565E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 7706941.322 | (Sampled value in CG: 7675812.307 ) | Chain = 1 -- chisq = 0.81515799E+09 | Chain = 1 -- wall time = 17499.705 sec Available RAM: MemAvailable: 474198636 kB Available Swap: SwapFree: 1056232308 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 432 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06444603 | --> Sampling calibration, mode = relcal | relcal = 1.3440796E-02 7.5347634E-04 -1.6094720E-03 -1.2584801E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1377567 0.1599345 9403917.65417681 | BP delta = 0.1377567 0.1640735 9403926.45120946 | BP chisq diff = 0.0, accept = F | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632412 | --> Sampling calibration, mode = relcal | relcal = -2.8207940E-03 -7.0411409E-04 1.6799490E-03 1.6129755E-03 -4.0849147E-04 6.4047507E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5492417 15219571.9981904 | BP delta = 0.0000000E+00 -0.5559995 15219580.8032768 | BP chisq diff = 0.0, accept = F | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18211344440086 | --> Sampling calibration, mode = relcal | relcal = -7.4777201E-02 -5.8398902E-02 9.1635056E-02 4.1541051E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6920491E-04 4.1047484E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3173E-05 | 2: delta_r/delta_0: 7.5737E-07 | 3: delta_s/delta_0: 2.4953E-07 | 4: delta_r/delta_0: 1.0815E-08 | 5: delta_s/delta_0: 3.2021E-09 | 6: delta_r/delta_0: 6.2688E-10 | 7: delta_s/delta_0: 3.7068E-07 | 8: delta_r/delta_0: 1.2302E-08 | 9: delta_s/delta_0: 4.9345E-10 | 10: delta_r/delta_0: 1.1515E-10 | 11: delta_s/delta_0: 1.1256E-08 | 12: delta_r/delta_0: 5.8972E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 6.983826392893500E-004 2.738551165596738E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.3173E-05 | 2: delta_r/delta_0: 7.5738E-07 | 3: delta_s/delta_0: 2.4954E-07 | 4: delta_r/delta_0: 1.0820E-08 | 5: delta_s/delta_0: 3.2034E-09 | 6: delta_r/delta_0: 6.2683E-10 | 7: delta_s/delta_0: 3.6094E-07 | 8: delta_r/delta_0: 1.1941E-08 | 9: delta_s/delta_0: 4.9395E-10 | 10: delta_r/delta_0: 1.1532E-10 | 11: delta_s/delta_0: 1.1224E-08 | 12: delta_r/delta_0: 5.8912E-11 | Reached bicg-stab tolerance | BP delta = 6.9314450E-02 9.4353989E-02 3480411.50113155 | BP delta = 6.9314450E-02 9.4564602E-02 3477454.15127477 | BP chisq diff = -2957.3, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02598872 | --> Sampling calibration, mode = relcal | relcal = -0.1066998 -9.5547684E-02 0.1449243 5.7323210E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.1742617E-03 1.2977284E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.4453E-04 | 2: delta_r/delta_0: 3.0878E-06 | 3: delta_s/delta_0: 1.9196E-07 | 4: delta_r/delta_0: 4.7159E-08 | 5: delta_s/delta_0: 4.2304E-08 | 6: delta_r/delta_0: 7.5203E-09 | 7: delta_s/delta_0: 8.5127E-09 | 8: delta_r/delta_0: 1.4963E-09 | 9: delta_s/delta_0: 1.3328E-09 | 10: delta_r/delta_0: 7.2403E-10 | 11: delta_s/delta_0: 6.5643E-10 | 12: delta_r/delta_0: 6.5756E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.076574130109166E-002 2.810859833651871E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 1.4453E-04 | 2: delta_r/delta_0: 3.0880E-06 | 3: delta_s/delta_0: 1.9198E-07 | 4: delta_r/delta_0: 4.7199E-08 | 5: delta_s/delta_0: 4.2223E-08 | 6: delta_r/delta_0: 7.5240E-09 | 7: delta_s/delta_0: 8.5178E-09 | 8: delta_r/delta_0: 1.4967E-09 | 9: delta_s/delta_0: 1.3332E-09 | 10: delta_r/delta_0: 7.2376E-10 | 11: delta_s/delta_0: 6.5686E-10 | 12: delta_r/delta_0: 6.5682E-11 | Reached bicg-stab tolerance | BP delta = -0.1880155 -0.1564999 2841443.76005710 | BP delta = -0.1880155 -0.1547675 2841477.53329069 | BP chisq diff = 0.0, accept = F | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81222388 | --> Sampling calibration, mode = relcal | relcal = 0.2954416 0.2248898 -0.2837782 -0.2365532 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.2445666E-04 4.9478370E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 4.6793E-04 | 2: delta_r/delta_0: 1.0585E-05 | 3: delta_s/delta_0: 1.0015E-04 | 4: delta_r/delta_0: 4.6927E-06 | 5: delta_s/delta_0: 4.4536E-06 | 6: delta_r/delta_0: 6.3479E-07 | 7: delta_s/delta_0: 5.6952E-08 | 8: delta_r/delta_0: 3.2245E-08 | 9: delta_s/delta_0: 6.0999E-07 | 10: delta_r/delta_0: 6.1930E-09 | 11: delta_s/delta_0: 9.9896E-10 | 12: delta_r/delta_0: 5.7531E-10 | 13: delta_s/delta_0: 2.2953E-10 | 14: delta_r/delta_0: 4.9471E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -3.406094938398724E-002 4.021692286657441E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 4.6781E-04 | 2: delta_r/delta_0: 1.0582E-05 | 3: delta_s/delta_0: 1.0023E-04 | 4: delta_r/delta_0: 4.6979E-06 | 5: delta_s/delta_0: 4.4568E-06 | 6: delta_r/delta_0: 6.3532E-07 | 7: delta_s/delta_0: 5.6956E-08 | 8: delta_r/delta_0: 3.2236E-08 | 9: delta_s/delta_0: 6.0881E-07 | 10: delta_r/delta_0: 6.1942E-09 | 11: delta_s/delta_0: 9.9991E-10 | 12: delta_r/delta_0: 5.7538E-10 | 13: delta_s/delta_0: 2.2832E-10 | 14: delta_r/delta_0: 4.9445E-11 | Reached bicg-stab tolerance | BP delta = -3.1951651E-02 -5.2522972E-02 2827123.77171291 | BP delta = -3.1951651E-02 -5.5196747E-02 2827117.80917315 | BP chisq diff = -6.0, accept = T | | Finished processing 040-WMAP_Q1 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q2 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.95912454 | --> Sampling calibration, mode = relcal | relcal = 0.1065392 0.1394600 -0.1102004 -0.1357988 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 9.1862669E-03 1.3936353E-02 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 2.5932E-03 | 2: delta_r/delta_0: 6.2387E-05 | 3: delta_s/delta_0: 7.0979E-05 | 4: delta_r/delta_0: 3.9973E-06 | 5: delta_s/delta_0: 6.5999E-07 | 6: delta_r/delta_0: 2.2431E-07 | 7: delta_s/delta_0: 2.4549E-07 | 8: delta_r/delta_0: 5.3129E-08 | 9: delta_s/delta_0: 8.6052E-08 | 10: delta_r/delta_0: 6.9903E-09 | 11: delta_s/delta_0: 3.0727E-09 | 12: delta_r/delta_0: 1.2523E-09 | 13: delta_s/delta_0: 1.5228E-09 | 14: delta_r/delta_0: 2.1507E-10 | 15: delta_s/delta_0: 9.3560E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -4.922605635711224E-002 3.697317485179304E-005 | Solving for bandpass shift maps | 1: delta_s/delta_0: 2.5933E-03 | 2: delta_r/delta_0: 6.2389E-05 | 3: delta_s/delta_0: 7.0980E-05 | 4: delta_r/delta_0: 3.9974E-06 | 5: delta_s/delta_0: 6.6000E-07 | 6: delta_r/delta_0: 2.2431E-07 | 7: delta_s/delta_0: 2.4547E-07 | 8: delta_r/delta_0: 5.3129E-08 | 9: delta_s/delta_0: 8.6047E-08 | 10: delta_r/delta_0: 6.9892E-09 | 11: delta_s/delta_0: 3.0727E-09 | 12: delta_r/delta_0: 1.2523E-09 | 13: delta_s/delta_0: 1.5227E-09 | 14: delta_r/delta_0: 2.1515E-10 | 15: delta_s/delta_0: 9.3562E-11 | Reached bicg-stab tolerance | BP delta = 0.1939959 0.3090706 3004040.72163527 | BP delta = 0.1939959 0.3112058 3004043.35099774 | BP chisq diff = 2.6, accept = T | | Finished processing 040-WMAP_Q2 --------------------------------------------------------------------- | Only processing 060-WMAP_V1 every 5 Gibbs samples | Only processing 060-WMAP_V2 every 5 Gibbs samples | Only processing 090-WMAP_W1 every 5 Gibbs samples | Only processing 090-WMAP_W2 every 5 Gibbs samples | Only processing 090-WMAP_W3 every 5 Gibbs samples | Only processing 090-WMAP_W4 every 5 Gibbs samples | Sampling synch beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.096046 | New value = -3.230003 | poltype: 2 pol: 1 CPU time specind = 1.9954920E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.142731 | New value = -3.150663 | Sampled new value using Gaussian prior | Pixel region = 2 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.172309 | New value = -3.118151 | Sampled new value using Gaussian prior | Pixel region = 3 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.094979 | New value = -3.199634 | Sampled new value using Gaussian prior | Pixel region = 4 | Prior mean = -3.150 | Prior RMS = 0.050000 | Old value = -3.205263 | New value = -3.203470 | poltype: 2 pol: 2 CPU time specind = 3.6673069E-02 | Updating Mixing matrix after sampling synch beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of synch after spectral index sampling of beta | CG initialize preconditioner, time = 22.74 | CG iter. 1 -- res = 0.13625E+08, tol = 0.87667E+01, time = 5.27 | CG iter. 2 -- res = 0.39689E+06, tol = 0.87667E+01, time = 5.99 | CG iter. 3 -- res = 0.90038E+05, tol = 0.87667E+01, time = 5.84 | CG iter. 4 -- res = 0.99554E+05, tol = 0.87667E+01, time = 5.58 | CG iter. 5 -- res = 0.11287E+06, tol = 0.87667E+01, time = 5.41 | CG iter. 6 -- res = 0.10466E+06, tol = 0.87667E+01, time = 5.68 | CG iter. 7 -- res = 0.90882E+05, tol = 0.87667E+01, time = 5.64 | CG iter. 8 -- res = 0.67880E+05, tol = 0.87667E+01, time = 5.91 | CG iter. 9 -- res = 0.55687E+05, tol = 0.87667E+01, time = 5.61 | CG iter. 10 -- res = 0.45992E+05, tol = 0.87667E+01, time = 5.94 | CG iter. 11 -- res = 0.33159E+05, tol = 0.87667E+01, time = 5.62 | CG iter. 12 -- res = 0.25584E+05, tol = 0.87667E+01, time = 6.02 | CG iter. 13 -- res = 0.23436E+05, tol = 0.87667E+01, time = 6.23 | CG iter. 14 -- res = 0.22037E+05, tol = 0.87667E+01, time = 6.10 | CG iter. 15 -- res = 0.16962E+05, tol = 0.87667E+01, time = 5.85 | CG iter. 16 -- res = 0.11704E+05, tol = 0.87667E+01, time = 5.75 | CG iter. 17 -- res = 0.88304E+04, tol = 0.87667E+01, time = 5.85 | CG iter. 18 -- res = 0.75410E+04, tol = 0.87667E+01, time = 5.74 | CG iter. 19 -- res = 0.67549E+04, tol = 0.87667E+01, time = 5.87 | CG iter. 20 -- res = 0.53069E+04, tol = 0.87667E+01, time = 5.79 | CG iter. 21 -- res = 0.40262E+04, tol = 0.87667E+01, time = 6.06 | CG iter. 22 -- res = 0.35185E+04, tol = 0.87667E+01, time = 5.67 | CG iter. 23 -- res = 0.30450E+04, tol = 0.87667E+01, time = 6.13 | CG iter. 24 -- res = 0.23325E+04, tol = 0.87667E+01, time = 5.51 | CG iter. 25 -- res = 0.18128E+04, tol = 0.87667E+01, time = 6.24 | CG iter. 26 -- res = 0.15042E+04, tol = 0.87667E+01, time = 5.92 | CG iter. 27 -- res = 0.13482E+04, tol = 0.87667E+01, time = 5.69 | CG iter. 28 -- res = 0.11492E+04, tol = 0.87667E+01, time = 5.97 | CG iter. 29 -- res = 0.88010E+03, tol = 0.87667E+01, time = 5.92 | CG iter. 30 -- res = 0.71142E+03, tol = 0.87667E+01, time = 11.94 | CG iter. 31 -- res = 0.64652E+03, tol = 0.87667E+01, time = 5.86 | CG iter. 32 -- res = 0.58085E+03, tol = 0.87667E+01, time = 6.12 | CG iter. 33 -- res = 0.46258E+03, tol = 0.87667E+01, time = 6.11 | CG iter. 34 -- res = 0.37739E+03, tol = 0.87667E+01, time = 5.90 | CG iter. 35 -- res = 0.32572E+03, tol = 0.87667E+01, time = 5.94 | CG iter. 36 -- res = 0.30293E+03, tol = 0.87667E+01, time = 5.94 | CG iter. 37 -- res = 0.24959E+03, tol = 0.87667E+01, time = 5.69 | CG iter. 38 -- res = 0.20520E+03, tol = 0.87667E+01, time = 5.97 | CG iter. 39 -- res = 0.17892E+03, tol = 0.87667E+01, time = 6.05 | CG iter. 40 -- res = 0.16188E+03, tol = 0.87667E+01, time = 5.50 | CG iter. 41 -- res = 0.13953E+03, tol = 0.87667E+01, time = 6.38 | CG iter. 42 -- res = 0.11220E+03, tol = 0.87667E+01, time = 6.19 | CG iter. 43 -- res = 0.96794E+02, tol = 0.87667E+01, time = 5.73 | CG iter. 44 -- res = 0.91667E+02, tol = 0.87667E+01, time = 7.43 | CG iter. 45 -- res = 0.79563E+02, tol = 0.87667E+01, time = 6.22 | CG iter. 46 -- res = 0.63986E+02, tol = 0.87667E+01, time = 5.81 | CG iter. 47 -- res = 0.52772E+02, tol = 0.87667E+01, time = 6.01 | CG iter. 48 -- res = 0.46860E+02, tol = 0.87667E+01, time = 5.57 | CG iter. 49 -- res = 0.40555E+02, tol = 0.87667E+01, time = 5.96 | CG iter. 50 -- res = 0.34136E+02, tol = 0.87667E+01, time = 5.84 | Final CG iter 51 -- res = 0.34136E+02, tol = 0.87667E+01 | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8364248.875 | Old band monopole 7706974.471 | Change to band monopole 657274.403 | Change to component monopole -657271.576 | | Sampling monopoles of band after prior correcting monopole of synch amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.12429E+07, tol = 0.47627E+18, time = 2.26 | CG iter. 2 -- res = 0.44481E+03, tol = 0.47627E+18, time = 1.94 | CG iter. 3 -- res = 0.57989E+01, tol = 0.47627E+18, time = 2.36 | CG iter. 4 -- res = 0.54381E-01, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.18955E-05, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8364212.898 | (Sampled value in CG: 8266025.960 ) | Sampling dust beta | Sampling poltype index 1 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.454063 | New value = 1.456726 | poltype: 2 pol: 1 CPU time specind = 2.8658152E-02 | Sampling poltype index 2 of 2 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = 1.500 | Prior RMS = 0.030000 | Old value = 1.494687 | New value = 1.480901 | poltype: 2 pol: 2 CPU time specind = 5.3720474E-03 | Updating Mixing matrix after sampling dust beta | Nmaps: 3 poltypes: 2 | Sampling component amplitude of dust after spectral index sampling of beta | CG initialize preconditioner, time = 22.78 | CG iter. 1 -- res = 0.23999E+08, tol = 0.47517E+04, time = 6.63 | CG iter. 2 -- res = 0.53827E+07, tol = 0.47517E+04, time = 6.36 | CG iter. 3 -- res = 0.85040E+06, tol = 0.47517E+04, time = 6.53 | CG iter. 4 -- res = 0.35107E+06, tol = 0.47517E+04, time = 6.60 | CG iter. 5 -- res = 0.15145E+06, tol = 0.47517E+04, time = 7.00 | CG iter. 6 -- res = 0.79296E+05, tol = 0.47517E+04, time = 6.60 | CG iter. 7 -- res = 0.42891E+05, tol = 0.47517E+04, time = 6.97 | CG iter. 8 -- res = 0.20979E+05, tol = 0.47517E+04, time = 8.05 | CG iter. 9 -- res = 0.91077E+04, tol = 0.47517E+04, time = 11.88 | CG iter. 10 -- res = 0.36426E+04, tol = 0.47517E+04, time = 6.83 | CG iter. 11 -- res = 0.16492E+04, tol = 0.47517E+04, time = 6.73 | CG iter. 12 -- res = 0.86126E+03, tol = 0.47517E+04, time = 7.01 | CG iter. 13 -- res = 0.49615E+03, tol = 0.47517E+04, time = 6.86 | CG iter. 14 -- res = 0.28195E+03, tol = 0.47517E+04, time = 6.48 | CG iter. 15 -- res = 0.14399E+03, tol = 0.47517E+04, time = 7.05 | CG iter. 16 -- res = 0.68655E+02, tol = 0.47517E+04, time = 6.76 | CG iter. 17 -- res = 0.31802E+02, tol = 0.47517E+04, time = 6.95 | CG iter. 18 -- res = 0.15963E+02, tol = 0.47517E+04, time = 6.89 | CG iter. 19 -- res = 0.87079E+01, tol = 0.47517E+04, time = 6.56 | CG iter. 20 -- res = 0.49569E+01, tol = 0.47517E+04, time = 6.54 | CG iter. 21 -- res = 0.27319E+01, tol = 0.47517E+04, time = 7.79 | CG iter. 22 -- res = 0.14100E+01, tol = 0.47517E+04, time = 7.68 | CG iter. 23 -- res = 0.71868E+00, tol = 0.47517E+04, time = 6.78 | CG iter. 24 -- res = 0.37078E+00, tol = 0.47517E+04, time = 6.55 | CG iter. 25 -- res = 0.20053E+00, tol = 0.47517E+04, time = 6.82 | CG iter. 26 -- res = 0.11540E+00, tol = 0.47517E+04, time = 6.53 | CG iter. 27 -- res = 0.65577E-01, tol = 0.47517E+04, time = 7.19 | CG iter. 28 -- res = 0.35637E-01, tol = 0.47517E+04, time = 6.62 | CG iter. 29 -- res = 0.18674E-01, tol = 0.47517E+04, time = 6.96 | CG iter. 30 -- res = 0.95983E-02, tol = 0.47517E+04, time = 6.51 | CG iter. 31 -- res = 0.52506E-02, tol = 0.47517E+04, time = 6.93 | CG iter. 32 -- res = 0.29787E-02, tol = 0.47517E+04, time = 6.69 | CG iter. 33 -- res = 0.16926E-02, tol = 0.47517E+04, time = 6.44 | CG iter. 34 -- res = 0.91732E-03, tol = 0.47517E+04, time = 7.13 | CG iter. 35 -- res = 0.46930E-03, tol = 0.47517E+04, time = 6.62 | Final CG iter 36 -- res = 0.46930E-03, tol = 0.47517E+04 | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) 1.750 2.710 | New value -1.807 | Old value 1.750 | Difference -3.557 | | Sampling monopoles of band after prior correcting monopole of dust amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.79 | CG iter. 1 -- res = 0.66392E+06, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.12302E+03, tol = 0.47627E+18, time = 2.18 | CG iter. 3 -- res = 0.19930E+01, tol = 0.47627E+18, time = 2.05 | CG iter. 4 -- res = 0.25907E-03, tol = 0.47627E+18, time = 2.30 | Final CG iter 5 -- res = 0.28339E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8364212.898 | (Sampled value in CG: 8267215.462 ) | Sampling radio | Gibbs sampling radio parameters | Iteration, N_gibbs | 1 3 | 2 3 | 3 3 | Sampling ame beta | Sampling poltype index 1 of 1 | Sampled new value using Gaussian prior | Pixel region = 1 | Prior mean = -3.570 | Prior RMS = 0.100000 | Old value = -3.477570 | New value = -3.364879 | poltype: 1 pol: 1 CPU time specind = 2.0788908E-02 | Updating Mixing matrix after sampling ame beta | Nmaps: 1 poltypes: 1 | Sampling component amplitude of ame after spectral index sampling of beta | CG initialize preconditioner, time = 22.81 | CG iter. 1 -- res = 0.49529E+07, tol = 0.25879E+01, time = 2.74 | CG iter. 2 -- res = 0.29745E+07, tol = 0.25879E+01, time = 3.04 | CG iter. 3 -- res = 0.65453E+06, tol = 0.25879E+01, time = 2.27 | CG iter. 4 -- res = 0.27622E+06, tol = 0.25879E+01, time = 2.95 | CG iter. 5 -- res = 0.16413E+06, tol = 0.25879E+01, time = 2.91 | CG iter. 6 -- res = 0.79805E+05, tol = 0.25879E+01, time = 2.69 | CG iter. 7 -- res = 0.26831E+05, tol = 0.25879E+01, time = 2.85 | CG iter. 8 -- res = 0.11171E+05, tol = 0.25879E+01, time = 2.60 | CG iter. 9 -- res = 0.57102E+04, tol = 0.25879E+01, time = 2.63 | CG iter. 10 -- res = 0.24511E+04, tol = 0.25879E+01, time = 2.49 | CG iter. 11 -- res = 0.94718E+03, tol = 0.25879E+01, time = 2.87 | CG iter. 12 -- res = 0.42037E+03, tol = 0.25879E+01, time = 2.93 | CG iter. 13 -- res = 0.19734E+03, tol = 0.25879E+01, time = 2.99 | CG iter. 14 -- res = 0.96966E+02, tol = 0.25879E+01, time = 2.71 | CG iter. 15 -- res = 0.49443E+02, tol = 0.25879E+01, time = 2.73 | CG iter. 16 -- res = 0.24111E+02, tol = 0.25879E+01, time = 2.89 | CG iter. 17 -- res = 0.10091E+02, tol = 0.25879E+01, time = 2.59 | CG iter. 18 -- res = 0.45941E+01, tol = 0.25879E+01, time = 2.74 | CG iter. 19 -- res = 0.21621E+01, tol = 0.25879E+01, time = 2.67 | CG iter. 20 -- res = 0.10786E+01, tol = 0.25879E+01, time = 2.63 | CG iter. 21 -- res = 0.53075E+00, tol = 0.25879E+01, time = 3.16 | CG iter. 22 -- res = 0.25374E+00, tol = 0.25879E+01, time = 2.87 | CG iter. 23 -- res = 0.12328E+00, tol = 0.25879E+01, time = 3.12 | CG iter. 24 -- res = 0.58105E-01, tol = 0.25879E+01, time = 2.99 | CG iter. 25 -- res = 0.26408E-01, tol = 0.25879E+01, time = 2.76 | CG iter. 26 -- res = 0.12931E-01, tol = 0.25879E+01, time = 2.61 | CG iter. 27 -- res = 0.60821E-02, tol = 0.25879E+01, time = 2.56 | CG iter. 28 -- res = 0.32031E-02, tol = 0.25879E+01, time = 2.94 | CG iter. 29 -- res = 0.15794E-02, tol = 0.25879E+01, time = 2.71 | CG iter. 30 -- res = 0.82910E-03, tol = 0.25879E+01, time = 2.61 | CG iter. 31 -- res = 0.39807E-03, tol = 0.25879E+01, time = 3.08 | CG iter. 32 -- res = 0.17870E-03, tol = 0.25879E+01, time = 2.89 | CG iter. 33 -- res = 0.83108E-04, tol = 0.25879E+01, time = 2.98 | CG iter. 34 -- res = 0.41637E-04, tol = 0.25879E+01, time = 3.01 | CG iter. 35 -- res = 0.21151E-04, tol = 0.25879E+01, time = 9.24 | CG iter. 36 -- res = 0.11346E-04, tol = 0.25879E+01, time = 2.74 | CG iter. 37 -- res = 0.53921E-05, tol = 0.25879E+01, time = 3.12 | CG iter. 38 -- res = 0.25026E-05, tol = 0.25879E+01, time = 3.12 | CG iter. 39 -- res = 0.11719E-05, tol = 0.25879E+01, time = 2.51 | CG iter. 40 -- res = 0.56935E-06, tol = 0.25879E+01, time = 2.70 | CG iter. 41 -- res = 0.28339E-06, tol = 0.25879E+01, time = 2.89 | CG iter. 42 -- res = 0.14807E-06, tol = 0.25879E+01, time = 2.94 | CG iter. 43 -- res = 0.70166E-07, tol = 0.25879E+01, time = 2.87 | CG iter. 44 -- res = 0.34583E-07, tol = 0.25879E+01, time = 2.96 | CG iter. 45 -- res = 0.16023E-07, tol = 0.25879E+01, time = 2.85 | CG iter. 46 -- res = 0.74457E-08, tol = 0.25879E+01, time = 2.81 | CG iter. 47 -- res = 0.37174E-08, tol = 0.25879E+01, time = 3.03 | CG iter. 48 -- res = 0.18733E-08, tol = 0.25879E+01, time = 3.10 | CG iter. 49 -- res = 0.91093E-09, tol = 0.25879E+01, time = 2.94 | CG iter. 50 -- res = 0.43353E-09, tol = 0.25879E+01, time = 2.60 | Final CG iter 51 -- res = 0.43353E-09, tol = 0.25879E+01 | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -11.454 7.329 | New value -9.917 | Old value -11.454 | Difference 1.537 | | Sampling monopoles of band after prior correcting monopole of ame amplitude | Using CG sampling group: 2 | CG initialize preconditioner, time = 22.85 | CG iter. 1 -- res = 0.86758E+04, tol = 0.47627E+18, time = 2.14 | CG iter. 2 -- res = 0.33399E+02, tol = 0.47627E+18, time = 2.36 | CG iter. 3 -- res = 0.14235E+01, tol = 0.47627E+18, time = 2.97 | CG iter. 4 -- res = 0.44386E-03, tol = 0.47627E+18, time = 2.84 | Final CG iter 5 -- res = 0.55804E-08, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8364212.898 | (Sampled value in CG: 8294521.645 ) | CPU time specind = 1230.720 | Chain = 1 -- CG sample group = 1 of 2 | CG initialize preconditioner, time = 22.83 | CG iter. 1 -- res = 0.68181E+08, tol = 0.57455E+04, time = 12.38 | CG iter. 2 -- res = 0.57997E+08, tol = 0.57455E+04, time = 12.80 | CG iter. 3 -- res = 0.14876E+08, tol = 0.57455E+04, time = 11.85 | CG iter. 4 -- res = 0.62985E+07, tol = 0.57455E+04, time = 12.56 | CG iter. 5 -- res = 0.36502E+07, tol = 0.57455E+04, time = 13.34 | CG iter. 6 -- res = 0.20517E+07, tol = 0.57455E+04, time = 12.02 | CG iter. 7 -- res = 0.12651E+07, tol = 0.57455E+04, time = 11.88 | CG iter. 8 -- res = 0.84744E+06, tol = 0.57455E+04, time = 12.15 | CG iter. 9 -- res = 0.55137E+06, tol = 0.57455E+04, time = 12.27 | CG iter. 10 -- res = 0.33369E+06, tol = 0.57455E+04, time = 12.47 | CG iter. 11 -- res = 0.19013E+06, tol = 0.57455E+04, time = 12.11 | CG iter. 12 -- res = 0.11364E+06, tol = 0.57455E+04, time = 11.91 | CG iter. 13 -- res = 0.74202E+05, tol = 0.57455E+04, time = 13.49 | CG iter. 14 -- res = 0.55033E+05, tol = 0.57455E+04, time = 17.41 | CG iter. 15 -- res = 0.49014E+05, tol = 0.57455E+04, time = 11.84 | CG iter. 16 -- res = 0.48343E+05, tol = 0.57455E+04, time = 12.46 | CG iter. 17 -- res = 0.47743E+05, tol = 0.57455E+04, time = 12.16 | CG iter. 18 -- res = 0.44086E+05, tol = 0.57455E+04, time = 12.30 | CG iter. 19 -- res = 0.39956E+05, tol = 0.57455E+04, time = 12.88 | CG iter. 20 -- res = 0.37193E+05, tol = 0.57455E+04, time = 13.06 | CG iter. 21 -- res = 0.35725E+05, tol = 0.57455E+04, time = 13.35 | CG iter. 22 -- res = 0.35286E+05, tol = 0.57455E+04, time = 12.24 | CG iter. 23 -- res = 0.34119E+05, tol = 0.57455E+04, time = 12.49 | CG iter. 24 -- res = 0.29887E+05, tol = 0.57455E+04, time = 12.08 | CG iter. 25 -- res = 0.24108E+05, tol = 0.57455E+04, time = 11.89 | CG iter. 26 -- res = 0.17899E+05, tol = 0.57455E+04, time = 12.33 | CG iter. 27 -- res = 0.12991E+05, tol = 0.57455E+04, time = 12.16 | CG iter. 28 -- res = 0.10149E+05, tol = 0.57455E+04, time = 12.37 | CG iter. 29 -- res = 0.87623E+04, tol = 0.57455E+04, time = 12.41 | CG iter. 30 -- res = 0.78748E+04, tol = 0.57455E+04, time = 12.01 | CG iter. 31 -- res = 0.72957E+04, tol = 0.57455E+04, time = 12.44 | CG iter. 32 -- res = 0.66292E+04, tol = 0.57455E+04, time = 12.60 | CG iter. 33 -- res = 0.58499E+04, tol = 0.57455E+04, time = 12.81 | CG iter. 34 -- res = 0.50000E+04, tol = 0.57455E+04, time = 12.66 | CG iter. 35 -- res = 0.43642E+04, tol = 0.57455E+04, time = 12.43 | CG iter. 36 -- res = 0.39347E+04, tol = 0.57455E+04, time = 12.06 | CG iter. 37 -- res = 0.37035E+04, tol = 0.57455E+04, time = 18.60 | CG iter. 38 -- res = 0.34667E+04, tol = 0.57455E+04, time = 12.42 | CG iter. 39 -- res = 0.30367E+04, tol = 0.57455E+04, time = 11.90 | CG iter. 40 -- res = 0.24965E+04, tol = 0.57455E+04, time = 12.03 | CG iter. 41 -- res = 0.19992E+04, tol = 0.57455E+04, time = 11.80 | CG iter. 42 -- res = 0.16258E+04, tol = 0.57455E+04, time = 12.44 | CG iter. 43 -- res = 0.14356E+04, tol = 0.57455E+04, time = 12.15 | CG iter. 44 -- res = 0.13660E+04, tol = 0.57455E+04, time = 13.46 | CG iter. 45 -- res = 0.13145E+04, tol = 0.57455E+04, time = 12.96 | CG iter. 46 -- res = 0.12238E+04, tol = 0.57455E+04, time = 12.02 | CG iter. 47 -- res = 0.11104E+04, tol = 0.57455E+04, time = 11.96 | CG iter. 48 -- res = 0.97705E+03, tol = 0.57455E+04, time = 12.11 | CG iter. 49 -- res = 0.86510E+03, tol = 0.57455E+04, time = 11.94 | CG iter. 50 -- res = 0.78375E+03, tol = 0.57455E+04, time = 12.36 | CG iter. 51 -- res = 0.73982E+03, tol = 0.57455E+04, time = 12.09 | CG iter. 52 -- res = 0.69305E+03, tol = 0.57455E+04, time = 12.55 | CG iter. 53 -- res = 0.62777E+03, tol = 0.57455E+04, time = 12.67 | CG iter. 54 -- res = 0.55383E+03, tol = 0.57455E+04, time = 12.04 | CG iter. 55 -- res = 0.48050E+03, tol = 0.57455E+04, time = 11.98 | CG iter. 56 -- res = 0.41734E+03, tol = 0.57455E+04, time = 12.34 | CG iter. 57 -- res = 0.37076E+03, tol = 0.57455E+04, time = 12.41 | CG iter. 58 -- res = 0.34987E+03, tol = 0.57455E+04, time = 12.41 | CG iter. 59 -- res = 0.34082E+03, tol = 0.57455E+04, time = 11.87 | CG iter. 60 -- res = 0.32296E+03, tol = 0.57455E+04, time = 11.94 | Final CG iter 61 -- res = 0.32296E+03, tol = 0.57455E+04 | Monopole prior correction (with dipole estimate) for component: cmb | Monopole (dipole): 0.907 ( -229.395 -2230.611 2513.060 ) | | Band monopole prior correction for -- comp: synch -- prior band: 0.4-Haslam | Band monopole prior (mu,RMS) 8899961.719 1299994.408 | New band monopole 8756703.219 | Old band monopole 8364248.875 | Change to band monopole 392454.345 | Change to component monopole -392452.657 | | Cross-correlation prior correction for component: dust | Number of linear fits (thresholds): 6 | Drawing intersect to subtract from prior (mu,RMS) -1.742 2.758 | New value -1.572 | Old value -1.742 | Difference 0.170 | | Monopole prior correction (with dipole estimate) for component: ff | Monopole (dipole): -1.622 ( 7.059 11.607 -10.735 ) | | Cross-correlation prior correction for component: ame | Number of linear fits (thresholds): 5 | Drawing intersect to subtract from prior (mu,RMS) -1.559 6.084 | New value -16.629 | Old value -1.559 | Difference -15.070 | | Chain = 1 -- CG sample group = 2 of 2 | CG initialize preconditioner, time = 22.97 | CG iter. 1 -- res = 0.10855E+06, tol = 0.47627E+18, time = 2.05 | CG iter. 2 -- res = 0.55764E+02, tol = 0.47627E+18, time = 2.15 | CG iter. 3 -- res = 0.24785E+01, tol = 0.47627E+18, time = 2.26 | CG iter. 4 -- res = 0.41657E-02, tol = 0.47627E+18, time = 2.17 | Final CG iter 5 -- res = 0.11859E-06, tol = 0.47627E+18 | Band monopole of '0.4-Haslam' used as zero-level prior | Revert back to pre-CG value: 8756665.555 | (Sampled value in CG: 8730264.320 ) | Chain = 1 -- chisq = 0.81574729E+09 | Chain = 1 -- wall time = 6230.092 sec Available RAM: MemAvailable: 395229860 kB Available Swap: SwapFree: 1112270112 kB --------------------------------------------------------------------- | Chain = 1 -- Iteration = 433 | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.06445339 | --> Sampling calibration, mode = relcal | relcal = 1.3428301E-02 7.5404183E-04 -1.6028398E-03 -1.2579503E-02 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.1377567 0.1599345 97035996.2475345 | BP delta = 0.1500410 0.1722188 97035981.7693421 | BP chisq diff = -14.5, accept = T | | Finished processing 030 --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 044 | Precomputing sidelobe convolved sky | --> Sampling 1Hz spikes | --> Sampling calibration, mode = abscal | abscal = 0.00632453 | --> Sampling calibration, mode = relcal | relcal = -2.8210261E-03 -7.0394849E-04 1.6793396E-03 1.6140452E-03 -4.0927035E-04 6.4086018E-04 | --> Sampling calibration, mode = deltaG | --> Sampling ncorr, xi_n, maps | --> Finalizing maps, bp | BP delta = 0.0000000E+00 -0.5492417 15222952.6411589 | BP delta = 0.0000000E+00 -0.5534734 15222952.1456961 | BP chisq diff = -0.5, accept = T | | Finished processing 044 --------------------------------------------------------------------- | Only processing 070 every 5 Gibbs samples | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 023-WMAP_K | --> Sampling baseline | Prior sampling abscal 1.18499542171475 | --> Sampling calibration, mode = relcal | relcal = -7.5442679E-02 -5.9014544E-02 9.2453673E-02 4.2003546E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 3.6050461E-04 5.1979665E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.5690E-05 | 2: delta_r/delta_0: 1.1623E-06 | 3: delta_s/delta_0: 1.8950E-07 | 4: delta_r/delta_0: 2.4563E-08 | 5: delta_s/delta_0: 6.3239E-09 | 6: delta_r/delta_0: 2.3595E-09 | 7: delta_s/delta_0: 1.1853E-09 | 8: delta_r/delta_0: 8.7960E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | 8.711156423637000E-004 2.731808293929187E-005 | BP delta = 6.9314450E-02 9.4564602E-02 50481753.8624864 | BP delta = 7.4783728E-02 0.1000339 50481753.2056806 | BP chisq diff = -0.7, accept = T | | Finished processing 023-WMAP_K --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 030-WMAP_Ka | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 1.02596125 | --> Sampling calibration, mode = relcal | relcal = -0.1066866 -9.5561646E-02 0.1449913 5.7256993E-02 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 2.8036782E-03 1.5843324E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 1.3818E-04 | 2: delta_r/delta_0: 2.9686E-06 | 3: delta_s/delta_0: 1.9520E-07 | 4: delta_r/delta_0: 5.6540E-08 | 5: delta_s/delta_0: 3.1883E-08 | 6: delta_r/delta_0: 8.7972E-09 | 7: delta_s/delta_0: 2.7571E-08 | 8: delta_r/delta_0: 1.0924E-09 | 9: delta_s/delta_0: 1.2040E-09 | 10: delta_r/delta_0: 1.6688E-10 | 11: delta_s/delta_0: 4.1252E-10 | 12: delta_r/delta_0: 2.3654E-11 | Reached bicg-stab tolerance | monopole, fluctuation sigma | -1.080757052116347E-002 2.810927808753979E-005 | BP delta = -0.1880155 -0.1564999 57389508.5325791 | BP delta = -0.1791840 -0.1476683 57389509.5780912 | BP chisq diff = 1.0, accept = T | | Finished processing 030-WMAP_Ka --------------------------------------------------------------------- | ++++++++++++++++++++++++++++++++++++++++++++ | Processing TOD channel 040-WMAP_Q1 | --> Sampling baseline | --> Sampling calibration, mode = abscal | abscal = 0.81223338 | --> Sampling calibration, mode = relcal | relcal = 0.2954561 0.2249333 -0.2838335 -0.2365559 | --> Sampling calibration, mode = deltaG | --> Sampling calibration, mode = imbal | imbal = 7.2982546E-04 5.5078864E-03 | --> Sampling ncorr, xi_n, maps | --> Finalizing binned maps | Solving for map | 1: delta_s/delta_0: 3.5832E-04 | 2: delta_r/delta_0: 8.0932E-06 | 3: delta_s/delta_0: 1.1528E-04 | 4: delta_r/delta_0: 1.1127E-05 | 5: delta_s/delta_0: 3.3573E-07 | 6: delta_r/delta_0: 9.4073E-08 | 7: delta_s/delta_0: 5.9398E-08 | 8: delta_r/delta_0: 3.3687E-08 | 9: delta_s/delta_0: 1.5063E-07 | 10: delta_r/delta_0: 2.5034E-09 | 11: delta_s/delta_0: 7.7278E-10 | 12: delta_r/delta_0: 4.6482E-10 | 13: delta_s/delta_0: 4.0890E-10